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base: gitea-admin/lti-api:1fd3f960384c2fc1335ce643c552d2ff0bc0f4d2
Branches Tags
gitea-admin/lti-api:development gitea-admin/lti-api:fix/expenses gitea-admin/lti-api:feat/lap-keuangan gitea-admin/lti-api:feat/monitoring-saldo gitea-admin/lti-api:production gitea-admin/lti-api:fix/30 gitea-admin/lti-api:fix/chickinsql gitea-admin/lti-api:feat/empty gitea-admin/lti-api:feat/export-penjualan gitea-admin/lti-api:feat/periode gitea-admin/lti-api:codex/depresiasi gitea-admin/lti-api:feat/open-api-v1 gitea-admin/lti-api:fixing/purchase gitea-admin/lti-api:fix/filter-purchase gitea-admin/lti-api:dev/fifo-v2 gitea-admin/lti-api:fix/error-checking-id-exists gitea-admin/lti-api:fix/reimplement-trf-to-laying gitea-admin/lti-api:test/mr-ci gitea-admin/lti-api:feat/BE/restriction_growing_trl gitea-admin/lti-api:fix/implement-fifo-v2 gitea-admin/lti-api:dev/recording-trf-to-laying gitea-admin/lti-api:staging gitea-admin/lti-api:fix/be/without-jwks-to-hs256 gitea-admin/lti-api:fix/BE/response-check-closing gitea-admin/lti-api:fix/be/chickin-purchase-relation gitea-admin/lti-api:FEAT/BE/marketing gitea-admin/lti-api:dev/teguh gitea-admin/lti-api:fix/stock-logs gitea-admin/lti-api:FIX/BE/stock_movement gitea-admin/lti-api:main-dev gitea-admin/lti-api:fix/LSS416 gitea-admin/lti-api:fix/LSS403 gitea-admin/lti-api:fix/LSS390 gitea-admin/lti-api:development-restrictions gitea-admin/lti-api:FEAT/BE/Closing_keuangan gitea-admin/lti-api:fix/cc gitea-admin/lti-api:fix/gpg-key gitea-admin/lti-api:dev/gio-new gitea-admin/lti-api:fix/dev-new-account gitea-admin/lti-api:dev/gio gitea-admin/lti-api:Feat/BE/Refactor_search_to_incensive_case_all_modules gitea-admin/lti-api:dev/daily-checklist gitea-admin/lti-api:feat/BE/Sprint-8 gitea-admin/lti-api:sprint-8/gio gitea-admin/lti-api:dev/hafizh gitea-admin/lti-api:stg-ec2 gitea-admin/lti-api:feat/BE/US-284/Report-counting-sapronak gitea-admin/lti-api:fix/BE/US-282/adjustment-recording-egg gitea-admin/lti-api:feat/BE/US-278/Purchase-Expedition-bop gitea-admin/lti-api:fix/BE/US-284/Report-counting-sapronak gitea-admin/lti-api:dev/ragil gitea-admin/lti-api:devops-ec2 gitea-admin/lti-api:feat/BE/US-159,160/marketing gitea-admin/lti-api:fix/BE/ISSUE-270/project-flock-period gitea-admin/lti-api:chroot/update-endpoint gitea-admin/lti-api:feat/BE/US-75/chick-in-doc gitea-admin/lti-api:refactor-to-serve/with-middleware gitea-admin/lti-api:chore/CI/ignore-build-script gitea-admin/lti-api:master
..
compare: gitea-admin/lti-api:fix/BE/US-284/Report-counting-sapronak
Branches Tags
gitea-admin/lti-api:development gitea-admin/lti-api:fix/expenses gitea-admin/lti-api:feat/lap-keuangan gitea-admin/lti-api:feat/monitoring-saldo gitea-admin/lti-api:production gitea-admin/lti-api:fix/30 gitea-admin/lti-api:fix/chickinsql gitea-admin/lti-api:feat/empty gitea-admin/lti-api:feat/export-penjualan gitea-admin/lti-api:feat/periode gitea-admin/lti-api:codex/depresiasi gitea-admin/lti-api:feat/open-api-v1 gitea-admin/lti-api:fixing/purchase gitea-admin/lti-api:fix/filter-purchase gitea-admin/lti-api:dev/fifo-v2 gitea-admin/lti-api:fix/error-checking-id-exists gitea-admin/lti-api:fix/reimplement-trf-to-laying gitea-admin/lti-api:test/mr-ci gitea-admin/lti-api:feat/BE/restriction_growing_trl gitea-admin/lti-api:fix/implement-fifo-v2 gitea-admin/lti-api:dev/recording-trf-to-laying gitea-admin/lti-api:staging gitea-admin/lti-api:fix/be/without-jwks-to-hs256 gitea-admin/lti-api:fix/BE/response-check-closing gitea-admin/lti-api:fix/be/chickin-purchase-relation gitea-admin/lti-api:FEAT/BE/marketing gitea-admin/lti-api:dev/teguh gitea-admin/lti-api:fix/stock-logs gitea-admin/lti-api:FIX/BE/stock_movement gitea-admin/lti-api:main-dev gitea-admin/lti-api:fix/LSS416 gitea-admin/lti-api:fix/LSS403 gitea-admin/lti-api:fix/LSS390 gitea-admin/lti-api:development-restrictions gitea-admin/lti-api:FEAT/BE/Closing_keuangan gitea-admin/lti-api:fix/cc gitea-admin/lti-api:fix/gpg-key gitea-admin/lti-api:dev/gio-new gitea-admin/lti-api:fix/dev-new-account gitea-admin/lti-api:dev/gio gitea-admin/lti-api:Feat/BE/Refactor_search_to_incensive_case_all_modules gitea-admin/lti-api:dev/daily-checklist gitea-admin/lti-api:feat/BE/Sprint-8 gitea-admin/lti-api:sprint-8/gio gitea-admin/lti-api:dev/hafizh gitea-admin/lti-api:stg-ec2 gitea-admin/lti-api:feat/BE/US-284/Report-counting-sapronak gitea-admin/lti-api:fix/BE/US-282/adjustment-recording-egg gitea-admin/lti-api:feat/BE/US-278/Purchase-Expedition-bop gitea-admin/lti-api:fix/BE/US-284/Report-counting-sapronak gitea-admin/lti-api:dev/ragil gitea-admin/lti-api:devops-ec2 gitea-admin/lti-api:feat/BE/US-159,160/marketing gitea-admin/lti-api:fix/BE/ISSUE-270/project-flock-period gitea-admin/lti-api:chroot/update-endpoint gitea-admin/lti-api:feat/BE/US-75/chick-in-doc gitea-admin/lti-api:refactor-to-serve/with-middleware gitea-admin/lti-api:chore/CI/ignore-build-script gitea-admin/lti-api:master

1 Commits
1fd3f96038 .. fix/BE/US-284/Report-counting-sapronak

Author SHA1 Message Date
ragilap b4da37731c base example counting sapronak 2025-12-05 19:02:08 +07:00
758 changed files with 8125 additions and 120982 deletions
Expand all files Collapse all files
.DS_Store
Vendored
BIN
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.air.toml
+1 -1
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@@ -3,7 +3,7 @@ root = "."
tmp_dir = "tmp"
[build]
cmd = "go build -buildvcs=false -o ./tmp/main ./cmd/api"
cmd = "go build -o ./tmp/main ./cmd/api"
bin = "tmp/main"
full_bin = "APP_ENV=dev ./tmp/main"
include_ext = ["go", "tpl", "tmpl", "html"]
.gitignore
+1 -5
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@@ -9,13 +9,11 @@ main
bin/
*.exe
*.out
.air.toml
Makefile
docker-compose.local.yml
docker-compose.yaml
Dockerfile
Dockerfile.local
.gitlab-ci.yml
# Go build cache
.gocache/
vendor
@@ -29,5 +27,3 @@ coverage/
.vscode/
.idea/
*.swp
.DS_Store
.gemini/
.gitlab-ci.yml
+78 -188
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@@ -1,200 +1,90 @@
stages:
- build
- gitops
- deploy
variables:
AWS_REGION: ap-southeast-3
ECR_REGISTRY: 886436954922.dkr.ecr.ap-southeast-3.amazonaws.com
ECR_REPO_NAME: mbugroup/lti-api
ECR_REPOSITORY: ${ECR_REGISTRY}/${ECR_REPO_NAME}
TARGET_PLATFORM: linux/amd64
DOCKER_HOST: unix:///var/run/docker.sock
DOCKER_TLS_CERTDIR: ""
DOCKER_BUILDKIT: "1"
workflow:
rules:
# run untuk branch utama & MR
- if: '$CI_PIPELINE_SOURCE == "push" && $CI_COMMIT_BRANCH == "development"'
- if: '$CI_PIPELINE_SOURCE == "push" && $CI_COMMIT_BRANCH == "production"'
- if: '$CI_PIPELINE_SOURCE == "merge_request_event" && $CI_MERGE_REQUEST_TARGET_BRANCH_NAME == "production"'
- when: never
# =========================
# Helper: login ECR
# =========================
.ecr_login: &ecr_login |
AWS_CLI_ENV_ARGS=""
AWS_CLI_ENV_ARGS="$AWS_CLI_ENV_ARGS -e AWS_REGION=$AWS_REGION"
HAS_ACCESS_KEY="false"
HAS_SECRET_KEY="false"
if [ -n "${AWS_ACCESS_KEY_ID:-}" ]; then
HAS_ACCESS_KEY="true"
fi
if [ -n "${AWS_SECRET_ACCESS_KEY:-}" ]; then
HAS_SECRET_KEY="true"
fi
if [ "$HAS_ACCESS_KEY" = "true" ] && [ "$HAS_SECRET_KEY" = "true" ]; then
AWS_CLI_ENV_ARGS="$AWS_CLI_ENV_ARGS -e AWS_ACCESS_KEY_ID=$AWS_ACCESS_KEY_ID"
AWS_CLI_ENV_ARGS="$AWS_CLI_ENV_ARGS -e AWS_SECRET_ACCESS_KEY=$AWS_SECRET_ACCESS_KEY"
if [ -n "${AWS_SESSION_TOKEN:-}" ]; then
AWS_CLI_ENV_ARGS="$AWS_CLI_ENV_ARGS -e AWS_SESSION_TOKEN=$AWS_SESSION_TOKEN"
fi
elif [ "$HAS_ACCESS_KEY" = "true" ] || [ "$HAS_SECRET_KEY" = "true" ] || [ -n "${AWS_SESSION_TOKEN:-}" ]; then
echo "WARN: Incomplete AWS_* env vars detected; ignoring injected AWS credentials for ECR login."
fi
PASS="$(docker run --rm $AWS_CLI_ENV_ARGS public.ecr.aws/aws-cli/aws-cli:latest \
ecr get-login-password --region "$AWS_REGION" || true)"
if [ -z "$PASS" ]; then
echo "ERROR: Failed to get ECR login password."
exit 1
fi
echo "$PASS" | docker login --username AWS --password-stdin "$ECR_REGISTRY"
# =========================
# MR
# =========================
build_mr:
stage: build
image: public.ecr.aws/docker/library/docker:27
tags: [self-hosted-dev]
rules:
- if: '$CI_PIPELINE_SOURCE == "merge_request_event" && $CI_MERGE_REQUEST_TARGET_BRANCH_NAME == "production"'
deploy-dev:
stage: deploy
image: alpine:3.20
variables:
IMAGE_TAG: "prod-${CI_COMMIT_SHORT_SHA}"
DEPLOY_APP: "LTI-MBUGROUP"
# Opsional: kalau pakai submodule, ini bikin clone submodule pakai SSH juga
GIT_SUBMODULE_STRATEGY: recursive
GIT_DEPTH: "1"
before_script:
- set -eu
- docker version
- docker info
- *ecr_login
script: |
set -eu
# force base image pulls via AWS ECR Public to avoid Docker Hub TLS timeout
sed -i 's|^FROM golang:1.23-alpine AS builder$|FROM public.ecr.aws/docker/library/golang:1.23-alpine AS builder|' Dockerfile
sed -i 's|^FROM alpine:3.20$|FROM public.ecr.aws/docker/library/alpine:3.20|' Dockerfile
echo "Build (MR) : $ECR_REPOSITORY:$IMAGE_TAG"
docker build --platform "$TARGET_PLATFORM" -f Dockerfile -t "$ECR_REPOSITORY:$IMAGE_TAG" .
echo "Pushing image for MR..."
docker push "$ECR_REPOSITORY:$IMAGE_TAG"
- echo "🧰 Installing dependencies..."
- apk update && apk add --no-cache openssh git curl bash
# =========================
# DEVELOPMENT (push branch development)
# =========================
build_push_dev:
stage: build
image: public.ecr.aws/docker/library/docker:27
tags: [self-hosted-dev]
rules:
- if: '$CI_PIPELINE_SOURCE == "push" && $CI_COMMIT_BRANCH == "development"'
variables:
IMAGE_TAG: "dev-${CI_COMMIT_SHORT_SHA}"
before_script:
- set -eu
- docker version
- docker info
- *ecr_login
script: |
set -eu
# force base image pulls via AWS ECR Public to avoid Docker Hub TLS timeout
sed -i 's|^FROM golang:1.23-alpine AS builder$|FROM public.ecr.aws/docker/library/golang:1.23-alpine AS builder|' Dockerfile
sed -i 's|^FROM alpine:3.20$|FROM public.ecr.aws/docker/library/alpine:3.20|' Dockerfile
echo "Build & push (dev): $ECR_REPOSITORY:$IMAGE_TAG"
docker build --platform "$TARGET_PLATFORM" -f Dockerfile -t "$ECR_REPOSITORY:$IMAGE_TAG" .
docker push "$ECR_REPOSITORY:$IMAGE_TAG"
# Setup SSH di runner
- mkdir -p ~/.ssh
- echo "$SSH_PRIVATE_KEY" | tr -d '\r' > ~/.ssh/id_rsa
- chmod 600 ~/.ssh/id_rsa
- eval "$(ssh-agent -s)"
- ssh-add ~/.ssh/id_rsa
update_gitops_dev_lti:
stage: gitops
image: public.ecr.aws/docker/library/alpine:3.20
tags: [self-hosted-dev]
rules:
- if: '$CI_PIPELINE_SOURCE == "push" && $CI_COMMIT_BRANCH == "development"'
needs: ["build_push_dev"]
variables:
IMAGE_TAG: "dev-${CI_COMMIT_SHORT_SHA}"
GITOPS_BRANCH: main
VALUES_FILE: environments/lti/dev/lti-values-dev.yaml
GITOPS_REPO_URL: https://oauth2:${GITOPS_TOKEN}@gitlab.com/cristian.anggita.parjaman/gitops.git
before_script:
- set -eu
- apk add --no-cache git yq
- git config --global user.email "ci@gitlab"
- git config --global user.name "gitlab-ci"
script: |
set -eu
rm -rf gitops
git clone --depth 1 --branch "$GITOPS_BRANCH" "$GITOPS_REPO_URL" gitops
cd gitops
# Trust host keys (server + gitlab) biar SSH gak nanya interaktif
- ssh-keyscan -H "$SERVER_IP" >> ~/.ssh/known_hosts
- ssh-keyscan -H gitlab.com >> ~/.ssh/known_hosts
echo "Updating dev image.tag to $IMAGE_TAG"
yq -i '.image.tag = strenv(IMAGE_TAG)' "$VALUES_FILE"
script:
- echo "🚀 Deploying latest code to $SERVER_USER@$SERVER_IP"
git add "$VALUES_FILE"
if git diff --cached --quiet; then
echo "No changes to commit"
exit 0
fi
git commit -m "lti dev deploy ${IMAGE_TAG}"
git push origin "$GITOPS_BRANCH"
- >
if ssh -o StrictHostKeyChecking=no "$SERVER_USER@$SERVER_IP" "
set -e
# =========================
# PRODUCTION (push branch production)
# =========================
build_push_prod:
stage: build
image: public.ecr.aws/docker/library/docker:27
tags: [self-hosted-dev]
rules:
- if: '$CI_PIPELINE_SOURCE == "push" && $CI_COMMIT_BRANCH == "production"'
variables:
IMAGE_TAG: "prod-${CI_COMMIT_SHORT_SHA}"
before_script:
- set -eu
- docker version
- docker info
- *ecr_login
script: |
set -eu
# force base image pulls via AWS ECR Public to avoid Docker Hub TLS timeout
sed -i 's|^FROM golang:1.23-alpine AS builder$|FROM public.ecr.aws/docker/library/golang:1.23-alpine AS builder|' Dockerfile
sed -i 's|^FROM alpine:3.20$|FROM public.ecr.aws/docker/library/alpine:3.20|' Dockerfile
echo "Build & push (prod): $ECR_REPOSITORY:$IMAGE_TAG"
docker build --platform "$TARGET_PLATFORM" -f Dockerfile -t "$ECR_REPOSITORY:$IMAGE_TAG" .
docker push "$ECR_REPOSITORY:$IMAGE_TAG"
cd /home/devops/docker/deployment/development/lti-api
update_gitops_prod_lti:
stage: gitops
image: public.ecr.aws/docker/library/alpine:3.20
tags: [self-hosted-dev]
rules:
- if: '$CI_PIPELINE_SOURCE == "push" && $CI_COMMIT_BRANCH == "production"'
needs: ["build_push_prod"]
variables:
IMAGE_TAG: "prod-${CI_COMMIT_SHORT_SHA}"
GITOPS_BRANCH: main
VALUES_FILE: environments/lti/prod/lti-values-prod.yaml
GITOPS_REPO_URL: https://oauth2:${GITOPS_TOKEN}@gitlab.com/cristian.anggita.parjaman/gitops.git
before_script:
- set -eu
- apk add --no-cache git yq
- git config --global user.email "ci@gitlab"
- git config --global user.name "gitlab-ci"
script: |
set -eu
rm -rf gitops
git clone --depth 1 --branch "$GITOPS_BRANCH" "$GITOPS_REPO_URL" gitops
cd gitops
# Pastikan remote origin SSH (antisipasi kalau pernah ke-set HTTPS)
git remote set-url origin git@gitlab.com:mbugroup/lti-api.git
echo "Updating prod image.tag to $IMAGE_TAG"
yq -i '.image.tag = strenv(IMAGE_TAG)' "$VALUES_FILE"
# Pastikan server percaya gitlab.com juga (untuk git fetch via SSH)
mkdir -p ~/.ssh
ssh-keyscan -H gitlab.com >> ~/.ssh/known_hosts
git add "$VALUES_FILE"
if git diff --cached --quiet; then
echo "No changes to commit"
exit 0
fi
git commit -m "lti prod deploy ${IMAGE_TAG}"
git push origin "$GITOPS_BRANCH"
# Fetch/reset pakai SSH
GIT_SSH_COMMAND='ssh -o StrictHostKeyChecking=no' git fetch origin development
git reset --hard origin/development
docker compose restart dev-api-lti || docker compose up -d dev-api-lti
"; then
STATUS='success';
else
STATUS='failed';
fi;
RUN_URL="${CI_PROJECT_URL}/-/pipelines/${CI_PIPELINE_ID}";
if [ "$STATUS" = "success" ]; then
COLOR=3066993;
TITLE="✅ Deployment API Succeeded";
DESC="Deployment job on branch \`${CI_COMMIT_REF_NAME}\` completed successfully.";
else
COLOR=15158332;
TITLE="❌ Deployment API Failed Gaes";
DESC="Deployment job on branch \`${CI_COMMIT_REF_NAME}\` failed.";
fi;
echo "{
\"username\": \"CI Bot\",
\"embeds\": [{
\"title\": \"$TITLE\",
\"description\": \"$DESC\",
\"color\": $COLOR,
\"fields\": [
{\"name\": \"Repository\", \"value\": \"${CI_PROJECT_PATH}\", \"inline\": true},
{\"name\": \"Actor\", \"value\": \"${GITLAB_USER_LOGIN}\", \"inline\": true},
{\"name\": \"Commit\", \"value\": \"${CI_COMMIT_SHA}\", \"inline\": false},
{\"name\": \"Pipeline\", \"value\": \"[Open run](${RUN_URL})\", \"inline\": false}
]
}]
}" > payload.json;
echo "📡 Sending notification to Discord...";
curl -sS -H "Content-Type: application/json" \
-d @payload.json "$DISCORD_WEBHOOK_URL";
only:
- development
environment:
name: development
Dockerfile
+11 -34
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@@ -1,43 +1,20 @@
# =========================
# Builder stage
# =========================
FROM public.ecr.aws/docker/library/golang:1.23-alpine AS builder
FROM golang:1.23-alpine
RUN apk add --no-cache git ca-certificates tzdata
WORKDIR /app
# Install dependensi dasar
RUN apk add --no-cache git curl bash build-base
# Install Air (pakai repo baru air-verse)
RUN go install github.com/air-verse/air@v1.52.3
WORKDIR /lti-api
# Cache dependencies
COPY go.mod go.sum ./
RUN go mod download
# Copy source code
COPY . .
# Build API binary
RUN CGO_ENABLED=0 GOOS=linux GOARCH=amd64 \
go build -trimpath -ldflags="-s -w" -o lti-api ./cmd/api
# Build SEED binary
RUN CGO_ENABLED=0 GOOS=linux GOARCH=amd64 \
go build -trimpath -ldflags="-s -w" -o lti-seed ./cmd/seed
# Build migrate CLI with postgres + file drivers
RUN GOBIN=/usr/local/bin go install -tags "postgres file" -ldflags="-s -w" github.com/golang-migrate/migrate/v4/cmd/migrate@v4.18.3
# =========================
# Runtime stage
# =========================
FROM public.ecr.aws/docker/library/alpine:3.20
RUN apk add --no-cache ca-certificates tzdata curl bash postgresql-client \
&& adduser -D -H -u 10001 appuser
WORKDIR /app
COPY --from=builder /app/lti-api /app/lti-api
COPY --from=builder /app/lti-seed /app/lti-seed
COPY --from=builder /usr/local/bin/migrate /app/migrate
COPY --from=builder /app/internal/database/migrations /app/migrations
USER appuser
EXPOSE 8081
CMD ["/app/lti-api"]
CMD ["air", "-c", ".air.toml"]
README.md
+1 -2
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@@ -110,5 +110,4 @@ IT Development PT Mitra Berlian Unggas Group
## 📃 License
> This project is private. All rights reserved.
# mr test Sat 7 Feb 2026 00:14:58 WIB
This project is private. All rights reserved.
auto-transfer-products-to-farm
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ci/development.yml
-159
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@@ -1,159 +0,0 @@
stages:
- build
- gitops
variables:
AWS_REGION: ap-southeast-3
ECR_REGISTRY: 886436954922.dkr.ecr.ap-southeast-3.amazonaws.com
ECR_REPO_NAME: mbugroup/lti-api
ECR_REPOSITORY: ${ECR_REGISTRY}/${ECR_REPO_NAME}
DOCKER_HOST: unix:///var/run/docker.sock
DOCKER_TLS_CERTDIR: ""
DOCKER_BUILDKIT: "1"
workflow:
rules:
- if: '$CI_COMMIT_BRANCH'
# =========================
# Helper: login ECR
# =========================
.ecr_login: &ecr_login |
AWS_CLI_ENV_ARGS=""
AWS_CLI_ENV_ARGS="$AWS_CLI_ENV_ARGS -e AWS_REGION=$AWS_REGION"
AWS_CLI_ENV_ARGS="$AWS_CLI_ENV_ARGS -e AWS_ACCESS_KEY_ID=${AWS_ACCESS_KEY_ID:-}"
AWS_CLI_ENV_ARGS="$AWS_CLI_ENV_ARGS -e AWS_SECRET_ACCESS_KEY=${AWS_SECRET_ACCESS_KEY:-}"
if [ -n "${AWS_SESSION_TOKEN:-}" ]; then
AWS_CLI_ENV_ARGS="$AWS_CLI_ENV_ARGS -e AWS_SESSION_TOKEN=$AWS_SESSION_TOKEN"
fi
PASS="$(docker run --rm $AWS_CLI_ENV_ARGS public.ecr.aws/aws-cli/aws-cli:latest \
ecr get-login-password --region "$AWS_REGION" || true)"
if [ -z "$PASS" ]; then
echo "ERROR: Failed to get ECR login password."
exit 1
fi
echo "$PASS" | docker login --username AWS --password-stdin "$ECR_REGISTRY"
# =========================
# DEV
# =========================
build_push_dev_lti:
stage: build
image: public.ecr.aws/docker/library/docker:27
tags: [self-hosted-dev]
rules:
- if: '$CI_COMMIT_BRANCH == "development"'
variables:
IMAGE_TAG: "dev-${CI_COMMIT_SHORT_SHA}"
before_script:
- set -eu
- docker version
- docker info
- *ecr_login
script: |
set -eu
echo "Build & push: $ECR_REPOSITORY:$IMAGE_TAG"
docker build \
-t "$ECR_REPOSITORY:$IMAGE_TAG" \
.
docker push "$ECR_REPOSITORY:$IMAGE_TAG"
update_gitops_dev_lti:
stage: gitops
image: public.ecr.aws/docker/library/alpine:3.20
tags: [self-hosted-dev]
rules:
- if: '$CI_COMMIT_BRANCH == "development"'
needs: ["build_push_dev_lti"]
variables:
IMAGE_TAG: "dev-${CI_COMMIT_SHORT_SHA}"
GITOPS_BRANCH: main
VALUES_FILE: environments/lti/dev/lti-values-dev.yaml
GITOPS_REPO_URL: https://oauth2:${GITOPS_TOKEN}@gitlab.com/cristian.anggita.parjaman/gitops.git
before_script:
- set -eu
- apk add --no-cache git yq
- git config --global user.email "ci@gitlab"
- git config --global user.name "gitlab-ci"
script: |
set -eu
rm -rf gitops
git clone --depth 1 --branch "$GITOPS_BRANCH" "$GITOPS_REPO_URL" gitops
cd gitops
echo "Updating DEV image.tag to $IMAGE_TAG in $VALUES_FILE"
yq -i '.image.repository = strenv(ECR_REPOSITORY)' "$VALUES_FILE"
yq -i '.image.tag = strenv(IMAGE_TAG)' "$VALUES_FILE"
git add "$VALUES_FILE"
if git diff --cached --quiet; then
echo "No changes to commit"
exit 0
fi
git commit -m "lti dev deploy ${IMAGE_TAG}"
git push origin "$GITOPS_BRANCH"
# =========================
# PROD
# =========================
# build_push_prod_lti:
# stage: build
# image: public.ecr.aws/docker/library/docker:27
# tags: [self-hosted-dev]
# rules:
# - if: '$CI_COMMIT_BRANCH == "production"'
# variables:
# IMAGE_TAG: "prod-${CI_COMMIT_SHORT_SHA}"
# before_script:
# - set -eu
# - docker version
# - docker info
# - *ecr_login
# script: |
# set -eu
# echo "Build & push: $ECR_REPOSITORY:$IMAGE_TAG"
# docker build \
# -t "$ECR_REPOSITORY:$IMAGE_TAG" \
# .
# docker push "$ECR_REPOSITORY:$IMAGE_TAG"
# update_gitops_prod_lti:
# stage: gitops
# image: public.ecr.aws/docker/library/alpine:3.20
# tags: [self-hosted-dev]
# rules:
# - if: '$CI_COMMIT_BRANCH == "production"'
# needs: ["build_push_prod_lti"]
# variables:
# IMAGE_TAG: "prod-${CI_COMMIT_SHORT_SHA}"
# GITOPS_BRANCH: main
# VALUES_FILE: environments/lti/prod/lti-values-prod.yaml
# GITOPS_REPO_URL: https://oauth2:${GITOPS_TOKEN}@gitlab.com/cristian.anggita.parjaman/gitops.git
# before_script:
# - set -eu
# - apk add --no-cache git yq
# - git config --global user.email "ci@gitlab"
# - git config --global user.name "gitlab-ci"
# script: |
# set -eu
# rm -rf gitops
# git clone --depth 1 --branch "$GITOPS_BRANCH" "$GITOPS_REPO_URL" gitops
# cd gitops
# echo "Updating PROD image.tag to $IMAGE_TAG in $VALUES_FILE"
# yq -i '.image.repository = strenv(ECR_REPOSITORY)' "$VALUES_FILE"
# yq -i '.image.tag = strenv(IMAGE_TAG)' "$VALUES_FILE"
# git add "$VALUES_FILE"
# if git diff --cached --quiet; then
# echo "No changes to commit"
# exit 0
# fi
# git commit -m "lti prod deploy ${IMAGE_TAG}"
# git push origin "$GITOPS_BRANCH"
ci/merge_request.yml
-48
View File
@@ -1,48 +0,0 @@
stages:
- notify
notify_discord_on_mr_request_main_dev:
stage: notify
image: alpine:3.20
rules:
# hanya MR yang target ke main atau development
- if: '$CI_PIPELINE_SOURCE == "merge_request_event" && ($CI_MERGE_REQUEST_TARGET_BRANCH_NAME == "main" || $CI_MERGE_REQUEST_TARGET_BRANCH_NAME == "development")'
when: on_success
- when: never
script:
- apk add --no-cache curl jq coreutils
- |
TIME_HUMAN="$(date '+%d/%m/%y, %H.%M')"
TIME_ISO="$(date -u +%Y-%m-%dT%H:%M:%SZ)"
TITLE="${CI_MERGE_REQUEST_TITLE}"
IID="!${CI_MERGE_REQUEST_IID}"
USER_LINE="${GITLAB_USER_NAME} (${GITLAB_USER_LOGIN})"
PROJECT_PATH="${CI_PROJECT_PATH}"
USERNAME="${GITLAB_USER_LOGIN}"
MR_URL="${CI_PROJECT_URL}/-/merge_requests/${CI_MERGE_REQUEST_IID}"
DESC="$(printf "**%s**\n\n%s opened merge request %s %s\n%s" \
"$USERNAME" "$USER_LINE" "$IID" "$TITLE" "$TIME_HUMAN")"
payload=$(jq -n \
--arg desc "$DESC" \
--arg project "$PROJECT_PATH" \
--arg timeiso "$TIME_ISO" \
--arg mrurl "$MR_URL" \
'{
"username": "Mock-api - Merge Requests",
"embeds": [
{
"description": ($desc + "\n" + $mrurl),
"color": 15105570,
"footer": { "text": $project },
"timestamp": $timeiso
}
]
}')
curl -sS -H "Content-Type: application/json" \
-d "$payload" \
"$DISCORD_WEBHOOK_URL"
ci/production.yml
-155
View File
@@ -1,155 +0,0 @@
stages:
- build
- migrate
- deploy
- seed
default:
tags:
- self-hosted-prod
variables:
DOCKER_BUILDKIT: "1"
IMAGE_TAG: "production_${CI_COMMIT_SHORT_SHA}"
IMAGE_NAME: "${CI_REGISTRY_IMAGE}:${IMAGE_TAG}"
IMAGE_LATEST: "${CI_REGISTRY_IMAGE}:production_latest"
DEPLOY_DIR: "/opt/deploy/lti"
COMPOSE_FILE: "docker-compose.yaml"
# =========================
# BUILD (AUTO)
# =========================
build_production:
stage: build
rules:
- if: '$CI_COMMIT_BRANCH == "production"'
when: on_success
- when: never
script: |
set -e
docker info
echo "$CI_REGISTRY_PASSWORD" | docker login -u "$CI_REGISTRY_USER" --password-stdin "$CI_REGISTRY"
echo "✅ Build image: $IMAGE_NAME"
docker build -t "$IMAGE_NAME" -f Dockerfile .
echo "✅ Push image: $IMAGE_NAME"
docker push "$IMAGE_NAME"
echo "✅ Tag latest: $IMAGE_LATEST"
docker tag "$IMAGE_NAME" "$IMAGE_LATEST"
docker push "$IMAGE_LATEST"
# =========================
# MIGRATE (PRODUCTION)
# =========================
migrate_production:
stage: migrate
rules:
- if: '$CI_COMMIT_BRANCH == "production"'
when: on_success
- when: never
needs:
- job: build_production
artifacts: false
script: |
set -e
echo "✅ Running migrations (production) ..."
cd "$DEPLOY_DIR"
test -f "$COMPOSE_FILE" || (echo "❌ $COMPOSE_FILE not found in $DEPLOY_DIR" && exit 1)
test -f .env || (echo "❌ .env not found in $DEPLOY_DIR" && exit 1)
set -a
. ./.env
set +a
test -n "$DB_HOST" || (echo "❌ DB_HOST empty" && exit 1)
test -n "$DB_PORT" || (echo "❌ DB_PORT empty" && exit 1)
test -n "$DB_USER" || (echo "❌ DB_USER empty" && exit 1)
test -n "$DB_PASSWORD" || (echo "❌ DB_PASSWORD empty" && exit 1)
test -n "$DB_NAME" || (echo "❌ DB_NAME empty" && exit 1)
export DATABASE_URL="postgres://${DB_USER}:${DB_PASSWORD}@${DB_HOST}:${DB_PORT}/${DB_NAME}?sslmode=${DB_SSLMODE:-disable}"
echo "✅ DATABASE_URL=$DATABASE_URL"
# NOTE: pastikan nama servicenya benar untuk production (ini sebelumnya masih stg-*)
docker compose -f "$COMPOSE_FILE" up -d stg-postgres-lti stg-redis-lti || true
COMPOSE_NETWORK_KEY="$(docker compose -f "$COMPOSE_FILE" config | awk '/networks:/ {getline; print $1}' | tr -d ':')"
NETWORK_NAME="$(docker network ls --format '{{.Name}}' | grep "_${COMPOSE_NETWORK_KEY}$" | head -n 1)"
test -n "$NETWORK_NAME" || (echo "❌ Cannot find docker network for compose ($COMPOSE_NETWORK_KEY)" && exit 1)
echo "✅ Checking migrations from repo..."
ls -lah "$CI_PROJECT_DIR/internal/database/migrations"
echo "✅ Running migrations via migrate/migrate container"
set +e
out=$(docker run --rm \
--network "$NETWORK_NAME" \
-v "$CI_PROJECT_DIR/internal/database/migrations:/migrations:ro" \
migrate/migrate:v4.15.2 \
-path=/migrations -database "$DATABASE_URL" up 2>&1)
code=$?
set -e
echo "$out"
if echo "$out" | grep -qi "no change"; then
echo "✅ No change (already up to date)"
exit 0
fi
if [ $code -ne 0 ]; then
echo "❌ Migration failed with exit code $code"
exit $code
fi
echo "✅ Migration applied successfully"
# =========================
# DEPLOY (AUTO)
# =========================
deploy_production:
stage: deploy
rules:
- if: '$CI_COMMIT_BRANCH == "production"'
when: on_success
- when: never
needs:
- job: build_production
artifacts: false
script: |
set -e
docker info
echo "$CI_REGISTRY_PASSWORD" | docker login -u "$CI_REGISTRY_USER" --password-stdin "$CI_REGISTRY"
cd "$DEPLOY_DIR"
test -f "$COMPOSE_FILE" || (echo "❌ $COMPOSE_FILE not found in $DEPLOY_DIR" && exit 1)
test -f .env || (echo "❌ .env not found in $DEPLOY_DIR" && exit 1)
docker compose -f "$COMPOSE_FILE" pull
docker compose -f "$COMPOSE_FILE" up -d --force-recreate
docker image prune -f
# =========================
# SEED (MANUAL)
# =========================
seed_production:
stage: seed
rules:
- if: '$CI_COMMIT_BRANCH == "production"'
when: manual
- when: never
script: |
set -e
cd "$DEPLOY_DIR"
test -f .env || (echo "❌ .env not found" && exit 1)
echo "$CI_REGISTRY_PASSWORD" | docker login -u "$CI_REGISTRY_USER" --password-stdin "$CI_REGISTRY"
docker compose --env-file .env pull seed
docker compose --env-file .env run --rm seed
ci/staging.yml
-164
View File
@@ -1,164 +0,0 @@
stages:
- build
- migrate
- deploy
- seed
default:
tags:
- self-hosted-stg
variables:
DOCKER_BUILDKIT: "1"
IMAGE_TAG: "staging_${CI_COMMIT_SHORT_SHA}"
IMAGE_NAME: "${CI_REGISTRY_IMAGE}:${IMAGE_TAG}"
IMAGE_LATEST: "${CI_REGISTRY_IMAGE}:staging_latest"
DEPLOY_DIR: "/opt/deploy/stg-lti-api"
COMPOSE_FILE: "docker-compose.yaml"
# =========================
# BUILD (AUTO)
# =========================
build_staging:
stage: build
rules:
- if: '$CI_COMMIT_BRANCH == "staging"'
when: on_success
- when: never
script: |
set -e
docker info
echo "$CI_REGISTRY_PASSWORD" | docker login -u "$CI_REGISTRY_USER" --password-stdin "$CI_REGISTRY"
echo "✅ Build image: $IMAGE_NAME"
docker build -t "$IMAGE_NAME" -f Dockerfile .
echo "✅ Push image: $IMAGE_NAME"
docker push "$IMAGE_NAME"
echo "✅ Tag latest: $IMAGE_LATEST"
docker tag "$IMAGE_NAME" "$IMAGE_LATEST"
docker push "$IMAGE_LATEST"
# =========================
# MIGRATE (AUTO)
# =========================
migrate_staging:
stage: migrate
rules:
- if: '$CI_COMMIT_BRANCH == "staging"'
when: on_success
- when: never
needs:
- job: build_staging
artifacts: false
script: |
set -e
echo "✅ Running migrations (staging) ..."
cd "$DEPLOY_DIR"
test -f "$COMPOSE_FILE" || (echo "❌ $COMPOSE_FILE not found in $DEPLOY_DIR" && exit 1)
test -f .env || (echo "❌ .env not found in $DEPLOY_DIR" && exit 1)
set -a
. ./.env
set +a
test -n "$DB_HOST" || (echo "❌ DB_HOST empty" && exit 1)
test -n "$DB_PORT" || (echo "❌ DB_PORT empty" && exit 1)
test -n "$DB_USER" || (echo "❌ DB_USER empty" && exit 1)
test -n "$DB_PASSWORD" || (echo "❌ DB_PASSWORD empty" && exit 1)
test -n "$DB_NAME" || (echo "❌ DB_NAME empty" && exit 1)
export DATABASE_URL="postgres://${DB_USER}:${DB_PASSWORD}@${DB_HOST}:${DB_PORT}/${DB_NAME}?sslmode=${DB_SSLMODE:-disable}"
echo "✅ DATABASE_URL=$DATABASE_URL"
echo "✅ Ensuring postgres & redis running ..."
docker compose -f "$COMPOSE_FILE" up -d stg-postgres-lti stg-redis-lti || true
COMPOSE_NETWORK_KEY="$(docker compose -f "$COMPOSE_FILE" config | awk '/networks:/ {getline; print $1}' | tr -d ':')"
echo "✅ Compose network key: $COMPOSE_NETWORK_KEY"
NETWORK_NAME="$(docker network ls --format '{{.Name}}' | grep "_${COMPOSE_NETWORK_KEY}$" | head -n 1)"
test -n "$NETWORK_NAME" || (echo "❌ Cannot find docker network for compose ($COMPOSE_NETWORK_KEY)" && exit 1)
echo "✅ Docker network detected: $NETWORK_NAME"
echo "✅ Checking migrations from repo..."
ls -lah "$CI_PROJECT_DIR/internal/database/migrations"
echo "✅ Running migrations via migrate/migrate container"
set +e
out=$(docker run --rm \
--network "$NETWORK_NAME" \
-v "$CI_PROJECT_DIR/internal/database/migrations:/migrations:ro" \
migrate/migrate:v4.15.2 \
-path=/migrations -database "$DATABASE_URL" up 2>&1)
code=$?
set -e
echo "$out"
if echo "$out" | grep -qi "no change"; then
echo "✅ No change (already up to date)"
exit 0
fi
if [ $code -ne 0 ]; then
echo "❌ Migration failed with exit code $code"
exit $code
fi
echo "✅ Migration applied successfully"
# =========================
# DEPLOY (AUTO)
# =========================
deploy_staging:
stage: deploy
rules:
- if: '$CI_COMMIT_BRANCH == "staging"'
when: on_success
- when: never
needs:
- job: migrate_staging
artifacts: false
- job: build_staging
artifacts: false
script: |
set -e
docker info
echo "$CI_REGISTRY_PASSWORD" | docker login -u "$CI_REGISTRY_USER" --password-stdin "$CI_REGISTRY"
cd "$DEPLOY_DIR"
test -f "$COMPOSE_FILE" || (echo "❌ $COMPOSE_FILE not found in $DEPLOY_DIR" && exit 1)
test -f .env || (echo "❌ .env not found in $DEPLOY_DIR" && exit 1)
docker compose -f "$COMPOSE_FILE" pull
docker compose -f "$COMPOSE_FILE" up -d --force-recreate
docker image prune -f
# =========================
# SEED (MANUAL)
# =========================
seed_staging:
stage: seed
rules:
- if: '$CI_COMMIT_BRANCH == "staging"'
when: manual
- when: never
needs:
- job: deploy_staging
artifacts: false
allow_failure: false
script: |
set -e
cd "$DEPLOY_DIR"
test -f "$COMPOSE_FILE" || (echo "❌ $COMPOSE_FILE not found" && exit 1)
test -f .env || (echo "❌ .env not found" && exit 1)
docker compose -f "$COMPOSE_FILE" pull seed || true
docker compose -f "$COMPOSE_FILE" run --rm seed
cmd/adjust-quantity-product-warehouse-from-purchase/main.go
-297
View File
@@ -1,297 +0,0 @@
package main
import (
"context"
"errors"
"flag"
"fmt"
"log"
"math"
"os"
"strings"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
"gorm.io/gorm"
)
const (
levelAllNoFlagProducts = 1
levelProductName = 2
levelProductWarehouse = 3
qtyEpsilon = 1e-6
)
type targetRow struct {
ProductWarehouseID uint `gorm:"column:product_warehouse_id"`
ProductID uint `gorm:"column:product_id"`
ProductName string `gorm:"column:product_name"`
CurrentQty float64 `gorm:"column:current_qty"`
ComputedQty float64 `gorm:"column:computed_qty"`
}
func main() {
var (
level int
productName string
productWarehouseID uint
apply bool
)
flag.IntVar(
&level,
"level",
levelAllNoFlagProducts,
"CLI level: 1=all products without flags, 2=specific product name (with flags), 3=specific product warehouse id",
)
flag.StringVar(&productName, "product-name", "", "Product name (required for level 2)")
flag.UintVar(&productWarehouseID, "product-warehouse-id", 0, "Product warehouse id (required for level 3)")
flag.BoolVar(&apply, "apply", false, "Apply changes. If false, run as dry-run")
flag.Parse()
productName = strings.TrimSpace(productName)
if err := validateFlags(level, productName, productWarehouseID); err != nil {
log.Fatalf("invalid flags: %v", err)
}
ctx := context.Background()
db := database.Connect(config.DBHost, config.DBName)
targets, err := loadTargets(ctx, db, level, productName, productWarehouseID)
if err != nil {
log.Fatalf("failed to load target product warehouses: %v", err)
}
fmt.Printf("Mode: %s\n", modeLabel(apply))
fmt.Printf("Level: %d (%s)\n", level, levelLabel(level))
if productName != "" {
fmt.Printf("Filter product_name: %s\n", productName)
}
if productWarehouseID > 0 {
fmt.Printf("Filter product_warehouse_id: %d\n", productWarehouseID)
}
fmt.Printf("Targets found: %d\n\n", len(targets))
if len(targets) == 0 {
fmt.Println("No matching product warehouse rows to process")
return
}
for _, row := range targets {
fmt.Printf(
"PLAN pw=%d product_id=%d product=%q current_qty=%.3f computed_qty=%.3f delta=%.3f\n",
row.ProductWarehouseID,
row.ProductID,
row.ProductName,
row.CurrentQty,
row.ComputedQty,
row.ComputedQty-row.CurrentQty,
)
}
if !apply {
fmt.Println()
fmt.Printf("Summary: planned=%d updated=0 skipped=0 failed=0\n", len(targets))
return
}
updated := 0
skipped := 0
err = db.WithContext(ctx).Transaction(func(tx *gorm.DB) error {
for _, row := range targets {
if nearlyEqual(row.CurrentQty, row.ComputedQty) {
fmt.Printf(
"SKIP pw=%d reason=no_change current_qty=%.3f computed_qty=%.3f\n",
row.ProductWarehouseID,
row.CurrentQty,
row.ComputedQty,
)
skipped++
continue
}
if err := tx.Table("product_warehouses").
Where("id = ?", row.ProductWarehouseID).
Update("qty", row.ComputedQty).Error; err != nil {
return fmt.Errorf("update qty for product_warehouse_id=%d: %w", row.ProductWarehouseID, err)
}
fmt.Printf(
"DONE pw=%d product_id=%d product=%q old_qty=%.3f new_qty=%.3f\n",
row.ProductWarehouseID,
row.ProductID,
row.ProductName,
row.CurrentQty,
row.ComputedQty,
)
updated++
}
return nil
})
if err != nil {
fmt.Println()
fmt.Printf("Summary: planned=%d updated=%d skipped=%d failed=1\n", len(targets), updated, skipped)
log.Printf("error: %v", err)
os.Exit(1)
}
fmt.Println()
fmt.Printf("Summary: planned=%d updated=%d skipped=%d failed=0\n", len(targets), updated, skipped)
}
func validateFlags(level int, productName string, productWarehouseID uint) error {
switch level {
case levelAllNoFlagProducts:
if productName != "" {
return errors.New("--product-name cannot be used on level 1")
}
if productWarehouseID > 0 {
return errors.New("--product-warehouse-id cannot be used on level 1")
}
case levelProductName:
if productName == "" {
return errors.New("--product-name is required on level 2")
}
if productWarehouseID > 0 {
return errors.New("--product-warehouse-id cannot be used on level 2")
}
case levelProductWarehouse:
if productWarehouseID == 0 {
return errors.New("--product-warehouse-id is required on level 3")
}
if productName != "" {
return errors.New("--product-name cannot be used on level 3")
}
default:
return fmt.Errorf("unsupported --level=%d (allowed: 1, 2, 3)", level)
}
return nil
}
func loadTargets(
ctx context.Context,
db *gorm.DB,
level int,
productName string,
productWarehouseID uint,
) ([]targetRow, error) {
switch level {
case levelAllNoFlagProducts:
return loadTargetsLevel1ByProductWithoutFlags(ctx, db)
case levelProductName:
return loadTargetsLevel2ByProductWarehouseWithFlags(ctx, db, productName)
case levelProductWarehouse:
return loadTargetByProductWarehouseID(ctx, db, productWarehouseID)
default:
return nil, fmt.Errorf("unsupported level %d", level)
}
}
func loadTargetsLevel1ByProductWithoutFlags(ctx context.Context, db *gorm.DB) ([]targetRow, error) {
rows := make([]targetRow, 0)
if err := db.WithContext(ctx).
Table("product_warehouses pw").
Select(`
pw.id AS product_warehouse_id,
pw.product_id AS product_id,
p.name AS product_name,
COALESCE(pw.qty, 0) AS current_qty,
COALESCE(SUM(pi.total_qty), 0) AS computed_qty
`).
Joins("JOIN products p ON p.id = pw.product_id").
Joins("LEFT JOIN flags f ON f.flagable_id = p.id AND f.flagable_type = ?", entity.FlagableTypeProduct).
Joins("LEFT JOIN purchase_items pi ON pi.product_warehouse_id = pw.id").
Where("p.deleted_at IS NULL").
Where("f.id IS NULL").
Group("pw.id, pw.product_id, p.name, pw.qty").
Order("pw.id ASC").
Scan(&rows).Error; err != nil {
return nil, err
}
return rows, nil
}
func loadTargetsLevel2ByProductWarehouseWithFlags(
ctx context.Context,
db *gorm.DB,
productName string,
) ([]targetRow, error) {
rows := make([]targetRow, 0)
if err := db.WithContext(ctx).
Table("product_warehouses pw").
Select(`
pw.id AS product_warehouse_id,
pw.product_id AS product_id,
p.name AS product_name,
COALESCE(pw.qty, 0) AS current_qty,
COALESCE(SUM(pi.total_qty), 0) AS computed_qty
`).
Joins("JOIN products p ON p.id = pw.product_id").
Joins("LEFT JOIN purchase_items pi ON pi.product_warehouse_id = pw.id").
Where("p.deleted_at IS NULL").
Where(`
EXISTS (
SELECT 1
FROM flags f
WHERE f.flagable_id = p.id
AND f.flagable_type = ?
)
`, entity.FlagableTypeProduct).
Where("LOWER(p.name) = LOWER(?)", productName).
Group("pw.id, pw.product_id, p.name, pw.qty").
Order("pw.id ASC").
Scan(&rows).Error; err != nil {
return nil, err
}
return rows, nil
}
func loadTargetByProductWarehouseID(ctx context.Context, db *gorm.DB, productWarehouseID uint) ([]targetRow, error) {
rows := make([]targetRow, 0)
if err := db.WithContext(ctx).
Table("product_warehouses pw").
Select(`
pw.id AS product_warehouse_id,
pw.product_id AS product_id,
p.name AS product_name,
COALESCE(pw.qty, 0) AS current_qty,
COALESCE(SUM(pi.total_qty), 0) AS computed_qty
`).
Joins("JOIN products p ON p.id = pw.product_id").
Joins("LEFT JOIN purchase_items pi ON pi.product_warehouse_id = pw.id").
Where("pw.id = ?", productWarehouseID).
Group("pw.id, pw.product_id, p.name, pw.qty").
Scan(&rows).Error; err != nil {
return nil, err
}
return rows, nil
}
func modeLabel(apply bool) string {
if apply {
return "APPLY"
}
return "DRY-RUN"
}
func levelLabel(level int) string {
switch level {
case levelAllNoFlagProducts:
return "all products without flags (source: purchase_items by product_warehouse_id)"
case levelProductName:
return "specific product name with flags (source: purchase_items by product_warehouse_id)"
case levelProductWarehouse:
return "specific product_warehouse_id (source: purchase_items by product_warehouse_id)"
default:
return "unknown"
}
}
func nearlyEqual(a, b float64) bool {
return math.Abs(a-b) <= qtyEpsilon
}
cmd/api-key/main.go
-132
View File
@@ -1,132 +0,0 @@
package main
import (
"context"
"flag"
"fmt"
"os"
"strings"
"gitlab.com/mbugroup/lti-api.git/internal/apikeys"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
)
func main() {
if len(os.Args) < 2 {
usage()
os.Exit(1)
}
db := database.Connect(config.DBHost, config.DBName)
service := apikeys.NewService(db)
ctx := context.Background()
switch os.Args[1] {
case "create":
fs := flag.NewFlagSet("create", flag.ExitOnError)
name := fs.String("name", "dashboard-read-api", "integration client name")
environment := fs.String("env", config.AppEnv, "environment label")
permissions := fs.String("permissions", "", "comma separated permission codes")
allArea := fs.Bool("all-area", true, "grant all areas")
areaIDs := fs.String("area-ids", "", "comma separated area ids")
allLocation := fs.Bool("all-location", true, "grant all locations")
locationIDs := fs.String("location-ids", "", "comma separated location ids")
fs.Parse(os.Args[2:])
permissionCodes := apikeys.DefaultDashboardPermissions()
if strings.TrimSpace(*permissions) != "" {
permissionCodes = splitCSV(*permissions)
}
issued, err := service.Create(ctx, apikeys.CreateInput{
Name: *name,
Environment: *environment,
PermissionCodes: permissionCodes,
AllArea: *allArea,
AreaIDs: parseUintCSV(*areaIDs),
AllLocation: *allLocation,
LocationIDs: parseUintCSV(*locationIDs),
})
if err != nil {
panic(err)
}
fmt.Printf("name: %s\n", issued.Record.Name)
fmt.Printf("environment: %s\n", issued.Record.Environment)
fmt.Printf("prefix: %s\n", issued.Record.KeyPrefix)
fmt.Printf("status: %s\n", issued.Record.Status)
fmt.Printf("api_key: %s\n", issued.Key)
case "list":
fs := flag.NewFlagSet("list", flag.ExitOnError)
environment := fs.String("env", "", "filter by environment")
fs.Parse(os.Args[2:])
records, err := service.List(ctx, *environment)
if err != nil {
panic(err)
}
for _, record := range records {
fmt.Printf("%s\t%s\t%s\t%s\tareas=%t\tlocations=%t\n",
record.Environment,
record.KeyPrefix,
record.Status,
record.Name,
record.AllArea,
record.AllLocation,
)
}
case "revoke":
fs := flag.NewFlagSet("revoke", flag.ExitOnError)
environment := fs.String("env", config.AppEnv, "environment label")
prefix := fs.String("prefix", "", "key prefix to revoke")
fs.Parse(os.Args[2:])
if err := service.Revoke(ctx, *environment, *prefix); err != nil {
panic(err)
}
fmt.Printf("revoked %s/%s\n", *environment, *prefix)
default:
usage()
os.Exit(1)
}
}
func usage() {
fmt.Println("usage:")
fmt.Println(" go run ./cmd/api-key create [flags]")
fmt.Println(" go run ./cmd/api-key list [flags]")
fmt.Println(" go run ./cmd/api-key revoke -env <environment> -prefix <prefix>")
}
func splitCSV(raw string) []string {
if strings.TrimSpace(raw) == "" {
return nil
}
parts := strings.Split(raw, ",")
out := make([]string, 0, len(parts))
for _, part := range parts {
part = strings.TrimSpace(part)
if part != "" {
out = append(out, part)
}
}
return out
}
func parseUintCSV(raw string) []uint {
parts := splitCSV(raw)
if len(parts) == 0 {
return nil
}
values := make([]uint, 0, len(parts))
for _, part := range parts {
var value uint
if _, err := fmt.Sscanf(part, "%d", &value); err == nil && value > 0 {
values = append(values, value)
}
}
return values
}
cmd/api/main.go
+1 -6
View File
@@ -9,15 +9,13 @@ import (
"syscall"
"time"
"gitlab.com/mbugroup/lti-api.git/internal/apikeys"
"gitlab.com/mbugroup/lti-api.git/internal/cache"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
"gitlab.com/mbugroup/lti-api.git/internal/middleware"
"gitlab.com/mbugroup/lti-api.git/internal/modules/sso/session"
sso "gitlab.com/mbugroup/lti-api.git/internal/modules/sso/verifier"
"gitlab.com/mbugroup/lti-api.git/internal/readapi"
"gitlab.com/mbugroup/lti-api.git/internal/route"
"gitlab.com/mbugroup/lti-api.git/internal/sso"
"gitlab.com/mbugroup/lti-api.git/internal/utils"
"github.com/gofiber/fiber/v2"
@@ -133,7 +131,6 @@ func setupDatabase() *gorm.DB {
}
func setupRoutes(app *fiber.App, db *gorm.DB, rdb *redis.Client) {
middleware.SetAPIKeyAuthenticator(apikeys.NewService(db))
// route.Routes(app, db)
// app.Use(utils.NotFoundHandler)
@@ -172,8 +169,6 @@ func setupRoutes(app *fiber.App, db *gorm.DB, rdb *redis.Client) {
return c.Status(status).JSON(body)
})
readAPIRoutes := app.Group("/api")
readapi.RegisterRoutes(readAPIRoutes)
route.Routes(app, db)
app.Use(utils.NotFoundHandler)
}
cmd/auto-transfer-products-to-farm/main.go
-1172
View File
File diff suppressed because it is too large Load Diff
cmd/auto-transfer-products-to-farm/main_test.go
-601
View File
@@ -1,601 +0,0 @@
package main
import (
"context"
"errors"
"strings"
"testing"
"time"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
transferSvc "gitlab.com/mbugroup/lti-api.git/internal/modules/inventory/transfers/services"
)
// ── Fake executor ─────────────────────────────────────────────────────────────
type fakeSystemTransferExecutor struct {
createRequests []*transferSvc.SystemTransferRequest
createResponses []*entity.StockTransfer
createErrors []error
deletedTransferIDs []uint
deleteErrors map[uint]error
}
func (f *fakeSystemTransferExecutor) CreateSystemTransfer(_ context.Context, req *transferSvc.SystemTransferRequest) (*entity.StockTransfer, error) {
f.createRequests = append(f.createRequests, req)
idx := len(f.createRequests) - 1
if idx < len(f.createErrors) && f.createErrors[idx] != nil {
return nil, f.createErrors[idx]
}
if idx < len(f.createResponses) && f.createResponses[idx] != nil {
return f.createResponses[idx], nil
}
return &entity.StockTransfer{Id: uint64(1000 + idx), MovementNumber: "PND-LTI-DEFAULT"}, nil
}
func (f *fakeSystemTransferExecutor) DeleteSystemTransfer(_ context.Context, id uint, _ uint) error {
f.deletedTransferIDs = append(f.deletedTransferIDs, id)
if f.deleteErrors != nil {
return f.deleteErrors[id]
}
return nil
}
// ── applyFarmWarehouseOverride ────────────────────────────────────────────────
func TestApplyOverrideResolvesMultiFarmLocation(t *testing.T) {
farmMap := map[uint]farmWarehouseInfo{
10: {
LocationID: 10,
LocationName: "Cijangkar",
AllFarm: []farmWarehouseEntry{
{ID: 50, Name: "Farm A"},
{ID: 51, Name: "Farm B"},
},
},
}
if err := applyFarmWarehouseOverride(farmMap, 51); err != nil {
t.Fatalf("unexpected error: %v", err)
}
info := farmMap[10]
if info.ChosenID != 51 {
t.Errorf("expected ChosenID=51, got %d", info.ChosenID)
}
if info.ChosenName != "Farm B" {
t.Errorf("expected ChosenName=Farm B, got %s", info.ChosenName)
}
if len(info.OtherFarm) != 1 || info.OtherFarm[0].ID != 50 {
t.Errorf("expected OtherFarm=[Farm A], got %+v", info.OtherFarm)
}
}
func TestApplyOverrideErrorsWhenIDNotInAllFarm(t *testing.T) {
farmMap := map[uint]farmWarehouseInfo{
10: {
LocationID: 10,
LocationName: "Cijangkar",
AllFarm: []farmWarehouseEntry{
{ID: 50, Name: "Farm A"},
{ID: 51, Name: "Farm B"},
},
},
}
err := applyFarmWarehouseOverride(farmMap, 99)
if err == nil {
t.Fatal("expected error for unknown warehouse id, got nil")
}
if !strings.Contains(err.Error(), "99") {
t.Errorf("error should mention the invalid id, got: %v", err)
}
if !strings.Contains(err.Error(), "Farm A") || !strings.Contains(err.Error(), "Farm B") {
t.Errorf("error should list available warehouses, got: %v", err)
}
}
func TestApplyOverrideIgnoresSingleFarmLocations(t *testing.T) {
farmMap := map[uint]farmWarehouseInfo{
10: {
LocationID: 10,
LocationName: "Jamali",
AllFarm: []farmWarehouseEntry{{ID: 50, Name: "Farm A"}},
ChosenID: 50,
ChosenName: "Farm A",
},
}
// Override ID 50 is present, but there is only 1 farm; the function should
// not touch this location (no OtherFarm to populate).
if err := applyFarmWarehouseOverride(farmMap, 50); err != nil {
t.Fatalf("unexpected error: %v", err)
}
if len(farmMap[10].OtherFarm) != 0 {
t.Errorf("expected no OtherFarm for single-farm location, got %+v", farmMap[10].OtherFarm)
}
}
func TestApplyOverrideNoopWhenZero(t *testing.T) {
farmMap := map[uint]farmWarehouseInfo{
10: {
LocationID: 10,
LocationName: "Cijangkar",
AllFarm: []farmWarehouseEntry{
{ID: 50, Name: "Farm A"},
{ID: 51, Name: "Farm B"},
},
},
}
if err := applyFarmWarehouseOverride(farmMap, 0); err != nil {
t.Fatalf("unexpected error: %v", err)
}
if farmMap[10].ChosenID != 0 {
t.Errorf("expected ChosenID unchanged (0), got %d", farmMap[10].ChosenID)
}
}
// ── listUnresolvedLocations ───────────────────────────────────────────────────
func TestListUnresolvedLocationsReturnsOnlyAmbiguous(t *testing.T) {
farmMap := map[uint]farmWarehouseInfo{
1: {LocationID: 1, LocationName: "Jamali", AllFarm: []farmWarehouseEntry{{ID: 50, Name: "Farm A"}}, ChosenID: 50},
2: {
LocationID: 2,
LocationName: "Cijangkar",
AllFarm: []farmWarehouseEntry{{ID: 60, Name: "Farm X"}, {ID: 61, Name: "Farm Y"}},
// ChosenID = 0: unresolved
},
3: {LocationID: 3, LocationName: "Tamansari", AllFarm: nil}, // no farm at all, not an error here
}
msgs := listUnresolvedLocations(farmMap)
if len(msgs) != 1 {
t.Fatalf("expected 1 unresolved message, got %d: %v", len(msgs), msgs)
}
if !strings.Contains(msgs[0], "Cijangkar") {
t.Errorf("message should name the ambiguous location, got: %s", msgs[0])
}
if !strings.Contains(msgs[0], "Farm X") || !strings.Contains(msgs[0], "Farm Y") {
t.Errorf("message should list available warehouses, got: %s", msgs[0])
}
}
// ── buildTransferPlan — kandang source ───────────────────────────────────────
func TestBuildPlanKandangEligibleGroupedByWarehousePair(t *testing.T) {
opts := &commandOptions{RunID: "test-run"}
farmMap := map[uint]farmWarehouseInfo{
10: {LocationID: 10, LocationName: "Jamali", AllFarm: []farmWarehouseEntry{{ID: 50, Name: "Farm A"}}, ChosenID: 50, ChosenName: "Farm A"},
}
stocks := []kandangStockRow{
{LocationID: 10, LocationName: "Jamali", SourceWarehouseID: 20, SourceWarehouseName: "K1", ProductID: 1, ProductName: "Pakan A", OnHandQty: 100, LeftoverQty: 100, SourceType: sourceTypeKandang},
{LocationID: 10, LocationName: "Jamali", SourceWarehouseID: 20, SourceWarehouseName: "K1", ProductID: 2, ProductName: "OVK B", OnHandQty: 50, AllocatedQty: 10, LeftoverQty: 40, SourceType: sourceTypeKandang},
}
reportRows, groups := buildTransferPlan(opts, farmMap, stocks)
if len(groups) != 1 || len(groups[0].Rows) != 2 {
t.Fatalf("expected 1 group with 2 rows, got %d groups", len(groups))
}
if groups[0].SourceType != sourceTypeKandang {
t.Errorf("expected group source type kandang_to_farm, got %s", groups[0].SourceType)
}
for _, row := range reportRows {
if row.Status != "eligible" {
t.Errorf("expected eligible, got %s for %s", row.Status, row.ProductName)
}
}
if reportRows[1].Qty != 40 {
t.Errorf("expected leftover qty 40 for OVK B, got %.3f", reportRows[1].Qty)
}
}
func TestBuildPlanSkipsMissingFarmWarehouse(t *testing.T) {
opts := &commandOptions{RunID: "test-run"}
farmMap := map[uint]farmWarehouseInfo{
10: {LocationID: 10, LocationName: "Jamali", AllFarm: nil},
}
stocks := []kandangStockRow{
{LocationID: 10, SourceWarehouseID: 20, ProductID: 1, ProductName: "Pakan A", OnHandQty: 100, LeftoverQty: 100, SourceType: sourceTypeKandang},
}
reportRows, groups := buildTransferPlan(opts, farmMap, stocks)
if len(groups) != 0 {
t.Fatalf("expected no groups, got %d", len(groups))
}
if reportRows[0].Status != "skipped" || reportRows[0].Reason != "missing_farm_warehouse" {
t.Errorf("unexpected: %s / %s", reportRows[0].Status, reportRows[0].Reason)
}
}
func TestBuildPlanErrorForUnresolvedMultiFarmWarehouse(t *testing.T) {
opts := &commandOptions{RunID: "test-run"}
farmMap := map[uint]farmWarehouseInfo{
10: {
LocationID: 10,
LocationName: "Cijangkar",
AllFarm: []farmWarehouseEntry{{ID: 60, Name: "Farm X"}, {ID: 61, Name: "Farm Y"}},
// ChosenID = 0: unresolved
},
}
stocks := []kandangStockRow{
{LocationID: 10, LocationName: "Cijangkar", SourceWarehouseID: 21, ProductID: 3, ProductName: "Pakan C", OnHandQty: 200, LeftoverQty: 200, SourceType: sourceTypeKandang},
}
reportRows, groups := buildTransferPlan(opts, farmMap, stocks)
if len(groups) != 0 {
t.Fatalf("expected no groups, got %d", len(groups))
}
if reportRows[0].Status != "error" {
t.Errorf("expected error status, got %s", reportRows[0].Status)
}
if !strings.Contains(reportRows[0].Reason, "multiple_farm_warehouses") {
t.Errorf("reason should mention multiple_farm_warehouses, got: %s", reportRows[0].Reason)
}
// The error message must list the available warehouses so the operator knows
// which --farm-warehouse-id to use.
if !strings.Contains(reportRows[0].Reason, "Farm X") || !strings.Contains(reportRows[0].Reason, "Farm Y") {
t.Errorf("reason should list available warehouses, got: %s", reportRows[0].Reason)
}
}
func TestBuildPlanSkipsFullyAllocatedKandangStock(t *testing.T) {
opts := &commandOptions{RunID: "test-run"}
farmMap := map[uint]farmWarehouseInfo{
10: {LocationID: 10, AllFarm: []farmWarehouseEntry{{ID: 50, Name: "Farm A"}}, ChosenID: 50, ChosenName: "Farm A"},
}
stocks := []kandangStockRow{
{LocationID: 10, SourceWarehouseID: 20, ProductID: 1, ProductName: "Pakan A", OnHandQty: 100, AllocatedQty: 100, LeftoverQty: 0, SourceType: sourceTypeKandang},
{LocationID: 10, SourceWarehouseID: 20, ProductID: 2, ProductName: "OVK B", OnHandQty: 80, AllocatedQty: 30, LeftoverQty: 50, SourceType: sourceTypeKandang},
}
_, groups := buildTransferPlan(opts, farmMap, stocks)
if len(groups) != 1 || len(groups[0].Rows) != 1 {
t.Fatalf("expected 1 group with 1 eligible row, got groups=%d", len(groups))
}
if groups[0].Rows[0].ProductName != "OVK B" {
t.Errorf("expected only OVK B to be eligible, got %s", groups[0].Rows[0].ProductName)
}
}
func TestBuildPlanSkipAmbiguousDowngradesErrorToSkipped(t *testing.T) {
opts := &commandOptions{RunID: "test-run", SkipAmbiguous: true}
farmMap := map[uint]farmWarehouseInfo{
10: {
LocationID: 10,
LocationName: "Cijangkar",
AllFarm: []farmWarehouseEntry{{ID: 60, Name: "Farm X"}, {ID: 61, Name: "Farm Y"}},
// ChosenID = 0: unresolved
},
11: {
LocationID: 11,
LocationName: "Jamali",
AllFarm: []farmWarehouseEntry{{ID: 50, Name: "Farm A"}},
ChosenID: 50,
ChosenName: "Farm A",
},
}
stocks := []kandangStockRow{
{LocationID: 10, LocationName: "Cijangkar", SourceWarehouseID: 21, ProductID: 3, ProductName: "Pakan C", OnHandQty: 200, LeftoverQty: 200, SourceType: sourceTypeKandang},
{LocationID: 11, LocationName: "Jamali", SourceWarehouseID: 20, ProductID: 1, ProductName: "Pakan A", OnHandQty: 100, LeftoverQty: 100, SourceType: sourceTypeKandang},
}
reportRows, groups := buildTransferPlan(opts, farmMap, stocks)
// Ambiguous location must be skipped, not error.
ambiguous := reportRows[0]
if ambiguous.LocationName != "Cijangkar" {
t.Fatalf("expected first row to be Cijangkar, got %s", ambiguous.LocationName)
}
if ambiguous.Status != "skipped" {
t.Errorf("expected skipped with --skip-ambiguous, got %s", ambiguous.Status)
}
if !strings.Contains(ambiguous.Reason, "multiple_farm_warehouses") {
t.Errorf("reason should still explain the cause, got: %s", ambiguous.Reason)
}
// Unambiguous location must still be eligible and grouped.
if len(groups) != 1 || groups[0].LocationName != "Jamali" {
t.Errorf("expected 1 group for Jamali, got %d groups", len(groups))
}
}
// ── applyFlagFilter (unit-level, via buildTransferPlan) ───────────────────────
// applyFlagFilter is a DB-level filter so we test its effect indirectly: the
// flag filter is applied before rows reach buildTransferPlan, so we simulate
// by only passing stock rows that the query would have returned.
// The real guard is that loadKandangLeftoverStocks receives the filtered set.
// Here we verify that buildTransferPlan itself is agnostic to the filter and
// simply processes whatever rows it is given.
func TestBuildPlanOnlyTransfersRowsPassedToIt(t *testing.T) {
opts := &commandOptions{RunID: "test-run", FlagFilter: []string{"PAKAN"}}
farmMap := map[uint]farmWarehouseInfo{
10: {LocationID: 10, AllFarm: []farmWarehouseEntry{{ID: 50, Name: "Farm A"}}, ChosenID: 50, ChosenName: "Farm A"},
}
// Simulate: only PAKAN products survived the DB filter; OVK was excluded.
stocks := []kandangStockRow{
{LocationID: 10, SourceWarehouseID: 20, ProductID: 1, ProductName: "Pakan Broiler", OnHandQty: 100, LeftoverQty: 100, SourceType: sourceTypeKandang},
}
_, groups := buildTransferPlan(opts, farmMap, stocks)
if len(groups) != 1 || len(groups[0].Rows) != 1 {
t.Fatalf("expected 1 group with 1 row, got %d groups", len(groups))
}
if groups[0].Rows[0].ProductName != "Pakan Broiler" {
t.Errorf("unexpected product: %s", groups[0].Rows[0].ProductName)
}
}
// ── buildTransferPlan — farm_consolidation source ────────────────────────────
func TestBuildPlanFarmConsolidationCreatesOwnGroup(t *testing.T) {
opts := &commandOptions{RunID: "test-run"}
// Location 10 has 2 farm warehouses; Farm B (id=51) was chosen, Farm A
// (id=50) is OtherFarm whose stocks need consolidating.
farmMap := map[uint]farmWarehouseInfo{
10: {
LocationID: 10,
LocationName: "Cijangkar",
AllFarm: []farmWarehouseEntry{{ID: 50, Name: "Farm A"}, {ID: 51, Name: "Farm B"}},
ChosenID: 51,
ChosenName: "Farm B",
OtherFarm: []farmWarehouseEntry{{ID: 50, Name: "Farm A"}},
},
}
// Extra farm stock from Farm A + normal kandang stock.
stocks := []kandangStockRow{
{LocationID: 10, LocationName: "Cijangkar", SourceWarehouseID: 20, SourceWarehouseName: "Kandang K1", ProductID: 1, ProductName: "Pakan A", OnHandQty: 100, LeftoverQty: 100, SourceType: sourceTypeKandang},
{LocationID: 10, LocationName: "Cijangkar", SourceWarehouseID: 50, SourceWarehouseName: "Farm A", ProductID: 2, ProductName: "OVK B", OnHandQty: 60, LeftoverQty: 60, SourceType: sourceTypeFarmConsol},
}
reportRows, groups := buildTransferPlan(opts, farmMap, stocks)
if len(groups) != 2 {
t.Fatalf("expected 2 groups (one per source warehouse), got %d", len(groups))
}
if len(reportRows) != 2 {
t.Fatalf("expected 2 report rows, got %d", len(reportRows))
}
groupsBySource := make(map[uint]*transferGroup, 2)
for i := range groups {
groupsBySource[groups[i].SourceWarehouseID] = &groups[i]
}
kandangGroup := groupsBySource[20]
if kandangGroup == nil {
t.Fatal("expected a group with SourceWarehouseID=20")
}
if kandangGroup.SourceType != sourceTypeKandang {
t.Errorf("expected kandang_to_farm group, got %s", kandangGroup.SourceType)
}
if kandangGroup.FarmWarehouseID != 51 {
t.Errorf("expected kandang group to target Farm B (51), got %d", kandangGroup.FarmWarehouseID)
}
consolGroup := groupsBySource[50]
if consolGroup == nil {
t.Fatal("expected a consolidation group with SourceWarehouseID=50")
}
if consolGroup.SourceType != sourceTypeFarmConsol {
t.Errorf("expected farm_consolidation group, got %s", consolGroup.SourceType)
}
if consolGroup.FarmWarehouseID != 51 {
t.Errorf("expected consolidation group to target Farm B (51), got %d", consolGroup.FarmWarehouseID)
}
}
func TestBuildPlanFarmConsolidationSkipsZeroLeftover(t *testing.T) {
opts := &commandOptions{RunID: "test-run"}
farmMap := map[uint]farmWarehouseInfo{
10: {LocationID: 10, AllFarm: []farmWarehouseEntry{{ID: 50}, {ID: 51}}, ChosenID: 51, ChosenName: "Farm B", OtherFarm: []farmWarehouseEntry{{ID: 50, Name: "Farm A"}}},
}
stocks := []kandangStockRow{
{LocationID: 10, SourceWarehouseID: 50, ProductID: 1, ProductName: "Pakan A", OnHandQty: 100, AllocatedQty: 100, LeftoverQty: 0, SourceType: sourceTypeFarmConsol},
}
reportRows, groups := buildTransferPlan(opts, farmMap, stocks)
if len(groups) != 0 {
t.Fatalf("expected no groups, got %d", len(groups))
}
if reportRows[0].Status != "skipped" {
t.Errorf("expected skipped, got %s", reportRows[0].Status)
}
}
// ── executeApply ──────────────────────────────────────────────────────────────
func TestExecuteApplyTagsReasonAndNotesWithSourceType(t *testing.T) {
date := time.Date(2026, 4, 24, 0, 0, 0, 0, time.UTC)
opts := &commandOptions{RunID: "run-apply", TransferDate: date, ActorID: 99}
groups := []transferGroup{
{
SourceType: sourceTypeKandang,
LocationName: "Jamali",
SourceWarehouseID: 20,
SourceWarehouseName: "K1",
FarmWarehouseID: 50,
FarmWarehouseName: "Farm A",
Rows: []*transferReportRow{{ProductID: 1, ProductName: "Pakan A", Qty: 100}},
},
{
SourceType: sourceTypeFarmConsol,
LocationName: "Cijangkar",
SourceWarehouseID: 60,
SourceWarehouseName: "Farm X",
FarmWarehouseID: 61,
FarmWarehouseName: "Farm Y",
Rows: []*transferReportRow{{ProductID: 2, ProductName: "OVK B", Qty: 40}},
},
}
executor := &fakeSystemTransferExecutor{}
summary, err := executeApply(context.Background(), executor, opts, groups)
if err != nil {
t.Fatalf("unexpected error: %v", err)
}
if summary.GroupsApplied != 2 {
t.Errorf("expected 2 groups applied, got %d", summary.GroupsApplied)
}
if len(executor.createRequests) != 2 {
t.Fatalf("expected 2 create requests, got %d", len(executor.createRequests))
}
// Both requests must carry the run_id in the reason for rollback to work.
for i, req := range executor.createRequests {
if !strings.Contains(req.TransferReason, "run_id=run-apply") {
t.Errorf("request %d reason missing run_id: %s", i, req.TransferReason)
}
}
// Notes for farm_consolidation should be distinct from kandang_to_farm.
if !strings.Contains(executor.createRequests[0].StockLogNotes, "kandang to farm") {
t.Errorf("kandang group notes should say 'kandang to farm', got: %s", executor.createRequests[0].StockLogNotes)
}
if !strings.Contains(executor.createRequests[1].StockLogNotes, "consolidation") {
t.Errorf("consolidation group notes should say 'consolidation', got: %s", executor.createRequests[1].StockLogNotes)
}
}
func TestExecuteApplyCreatesTransferWithCorrectProductsAndRecordsTransferID(t *testing.T) {
date := time.Date(2026, 4, 24, 0, 0, 0, 0, time.UTC)
opts := &commandOptions{RunID: "run-1", TransferDate: date, ActorID: 1}
row1 := &transferReportRow{ProductID: 1, ProductName: "Pakan A", Qty: 100}
row2 := &transferReportRow{ProductID: 2, ProductName: "OVK B", Qty: 40}
groups := []transferGroup{
{
SourceType: sourceTypeKandang, SourceWarehouseID: 20, FarmWarehouseID: 50,
Rows: []*transferReportRow{row1, row2},
},
}
executor := &fakeSystemTransferExecutor{
createResponses: []*entity.StockTransfer{{Id: 1001, MovementNumber: "PND-LTI-1001"}},
}
_, err := executeApply(context.Background(), executor, opts, groups)
if err != nil {
t.Fatalf("unexpected error: %v", err)
}
if row1.Status != "applied" || row2.Status != "applied" {
t.Errorf("both rows should be applied: %s, %s", row1.Status, row2.Status)
}
if row1.TransferID == nil || *row1.TransferID != 1001 {
t.Errorf("expected transfer id 1001, got %+v", row1.TransferID)
}
if row1.MovementNumber == nil || *row1.MovementNumber != "PND-LTI-1001" {
t.Errorf("expected movement number PND-LTI-1001, got %+v", row1.MovementNumber)
}
// Verify both products were included in the create request.
if len(executor.createRequests[0].Products) != 2 {
t.Errorf("expected 2 products in request, got %d", len(executor.createRequests[0].Products))
}
}
// ── executeRollback ───────────────────────────────────────────────────────────
func TestExecuteRollbackDeletesDescendingAndMarksStatuses(t *testing.T) {
executor := &fakeSystemTransferExecutor{
deleteErrors: map[uint]error{200: errors.New("already consumed")},
}
rows := []rollbackDetailRow{
{TransferID: 100, ProductName: "Pakan A"},
{TransferID: 200, ProductName: "OVK B"},
{TransferID: 100, ProductName: "Pakan C"},
}
err := executeRollback(context.Background(), executor, rows, 99)
if err == nil || !strings.Contains(err.Error(), "already consumed") {
t.Fatalf("expected error for transfer 200, got: %v", err)
}
if executor.deletedTransferIDs[0] != 200 || executor.deletedTransferIDs[1] != 100 {
t.Fatalf("expected delete order [200 100], got %v", executor.deletedTransferIDs)
}
if rows[0].Status != "rolled_back" || rows[2].Status != "rolled_back" {
t.Errorf("transfer 100 rows must be rolled_back: %+v", rows)
}
if rows[1].Status != "failed" {
t.Errorf("transfer 200 row must be failed: %+v", rows[1])
}
}
func TestExecuteRollbackRequiresActorID(t *testing.T) {
err := executeRollback(context.Background(), &fakeSystemTransferExecutor{}, []rollbackDetailRow{{TransferID: 1}}, 0)
if err == nil || !strings.Contains(err.Error(), "actor-id") {
t.Fatalf("expected actor-id error, got: %v", err)
}
}
// ── buildTransferReason / buildRunReasonMatcher ───────────────────────────────
func TestBuildTransferReasonMatchesRunReasonMatcher(t *testing.T) {
runID := "product-farm-transfer-20260424T120000.000000000Z"
date := time.Date(2026, 4, 24, 0, 0, 0, 0, time.UTC)
reason := buildTransferReason(runID, "Jamali", "Gudang K1", "Gudang Farm Jamali", date)
needle := strings.TrimSuffix(buildRunReasonMatcher(runID), "%")
if !strings.HasPrefix(reason, needle) {
t.Errorf("reason %q does not match matcher prefix %q", reason, needle)
}
}
func TestBuildTransferReasonSanitizesPipes(t *testing.T) {
reason := buildTransferReason("run-1", "Lok|asi", "Gudang|K1", "Farm|WH", time.Date(2026, 1, 1, 0, 0, 0, 0, time.UTC))
parts := strings.Split(reason, "|")
// prefix + 5 key=value segments = 6 parts
if len(parts) != 6 {
t.Errorf("expected 6 pipe-separated segments, got %d: %v", len(parts), parts)
}
}
func TestBuildStockLogNotesContainsSourceTypeHint(t *testing.T) {
date := time.Date(2026, 1, 1, 0, 0, 0, 0, time.UTC)
kandangNote := buildStockLogNotes("r", "Loc", "Src", "Dst", date, sourceTypeKandang)
consolNote := buildStockLogNotes("r", "Loc", "Src", "Dst", date, sourceTypeFarmConsol)
if !strings.Contains(kandangNote, "kandang to farm") {
t.Errorf("kandang note should mention 'kandang to farm': %s", kandangNote)
}
if !strings.Contains(consolNote, "consolidation") {
t.Errorf("consolidation note should mention 'consolidation': %s", consolNote)
}
}
// ── summarizeReport ───────────────────────────────────────────────────────────
func TestSummarizeReportCountsAllStatuses(t *testing.T) {
rows := []transferReportRow{
{Status: "eligible"},
{Status: "applied"},
{Status: "applied"},
{Status: "skipped"},
{Status: "error"},
{Status: "failed"},
}
groups := []transferGroup{{}, {}}
s := summarizeReport(rows, groups, 1)
if s.RowsPlanned != 4 { // eligible + 2 applied + 1 failed
t.Errorf("expected RowsPlanned=4, got %d", s.RowsPlanned)
}
if s.RowsApplied != 2 {
t.Errorf("expected RowsApplied=2, got %d", s.RowsApplied)
}
if s.RowsSkipped != 1 {
t.Errorf("expected RowsSkipped=1, got %d", s.RowsSkipped)
}
if s.RowsError != 1 {
t.Errorf("expected RowsError=1, got %d", s.RowsError)
}
if s.RowsFailed != 1 {
t.Errorf("expected RowsFailed=1, got %d", s.RowsFailed)
}
if s.GroupsPlanned != 2 || s.GroupsApplied != 1 {
t.Errorf("unexpected group counts: %+v", s)
}
}
cmd/consolidate-duplicate-product-warehouses/main.go
-436
View File
@@ -1,436 +0,0 @@
package main
import (
"context"
"encoding/json"
"flag"
"fmt"
"log"
"os"
"sort"
"strings"
"text/tabwriter"
commonSvc "gitlab.com/mbugroup/lti-api.git/internal/common/service"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
"gorm.io/gorm"
)
const (
outputTable = "table"
outputJSON = "json"
)
type options struct {
Apply bool
Output string
DBSSLMode string
AreaName string
}
type duplicateGroup struct {
WarehouseID uint `json:"warehouse_id"`
WarehouseName string `json:"warehouse_name"`
ProductID uint `json:"product_id"`
ProductName string `json:"product_name"`
AreaName string `json:"area_name"`
LocationName string `json:"location_name"`
ProjectFlockKandangID *uint `json:"project_flock_kandang_id,omitempty"`
SurvivorID uint `json:"survivor_id"`
SurvivorQty float64 `json:"survivor_qty"`
AbsorbedCount int `json:"absorbed_count"`
TotalMergedQty float64 `json:"total_merged_qty"`
AbsorbedIDs string `json:"absorbed_ids"`
}
type consolidateSummary struct {
TotalDuplicateGroups int `json:"total_duplicate_groups"`
TotalProductWarehouses int64 `json:"total_product_warehouses"`
UpdatedReferences map[string]int64 `json:"updated_references,omitempty"`
DeletedProductWarehouses int64 `json:"deleted_product_warehouses,omitempty"`
OverallStatus string `json:"overall_status"`
}
func main() {
opts, err := parseFlags()
if err != nil {
log.Fatalf("invalid flags: %v", err)
}
if opts.DBSSLMode != "" {
config.DBSSLMode = opts.DBSSLMode
}
ctx := context.Background()
db := database.Connect(config.DBHost, config.DBName)
// Find duplicate groups
groups, err := findDuplicateProductWarehouses(ctx, db, opts)
if err != nil {
log.Fatalf("failed to find duplicates: %v", err)
}
if len(groups) == 0 {
fmt.Println("No duplicate product_warehouses found")
return
}
summary := summarizeGroups(groups)
if !opts.Apply {
renderConsolidation(opts.Output, groups, summary)
return
}
applied, err := applyConsolidation(ctx, db, groups)
if err != nil {
log.Fatalf("apply failed: %v", err)
}
renderConsolidation(opts.Output, groups, applied)
}
func parseFlags() (*options, error) {
var opts options
flag.BoolVar(&opts.Apply, "apply", false, "Apply consolidation (omit for dry-run)")
flag.StringVar(&opts.Output, "output", outputTable, "Output format: table or json")
flag.StringVar(&opts.DBSSLMode, "db-sslmode", "", "Database sslmode override")
flag.StringVar(&opts.AreaName, "area-name", "", "Optional area filter")
flag.Parse()
opts.Output = strings.ToLower(strings.TrimSpace(opts.Output))
opts.AreaName = strings.TrimSpace(opts.AreaName)
opts.DBSSLMode = strings.TrimSpace(opts.DBSSLMode)
if opts.Output == "" {
opts.Output = outputTable
}
if opts.Output != outputTable && opts.Output != outputJSON {
return nil, fmt.Errorf("unsupported --output=%s", opts.Output)
}
return &opts, nil
}
func findDuplicateProductWarehouses(ctx context.Context, db *gorm.DB, opts *options) ([]duplicateGroup, error) {
filters := ""
args := []any{}
if opts.AreaName != "" {
filters = "WHERE a.name = ?"
args = append(args, opts.AreaName)
}
query := fmt.Sprintf(`
WITH duplicates AS (
SELECT
pw.warehouse_id,
w.name AS warehouse_name,
pw.product_id,
p.name AS product_name,
COALESCE(a.name, 'N/A') AS area_name,
COALESCE(l.name, 'N/A') AS location_name,
pw.project_flock_kandang_id,
pw.id,
pw.qty,
MIN(pw.id) OVER (PARTITION BY pw.warehouse_id, pw.product_id) AS survivor_id,
COUNT(*) OVER (PARTITION BY pw.warehouse_id, pw.product_id) AS duplicate_count,
SUM(pw.qty) OVER (PARTITION BY pw.warehouse_id, pw.product_id) AS total_qty
FROM product_warehouses pw
JOIN warehouses w ON w.id = pw.warehouse_id
JOIN products p ON p.id = pw.product_id
LEFT JOIN locations l ON l.id = w.location_id
LEFT JOIN areas a ON a.id = l.area_id
%s
)
SELECT
warehouse_id,
warehouse_name,
product_id,
product_name,
area_name,
location_name,
(SELECT project_flock_kandang_id FROM duplicates d2 WHERE d2.id = survivor_id LIMIT 1) AS project_flock_kandang_id,
survivor_id,
(SELECT qty FROM duplicates d2 WHERE d2.id = survivor_id LIMIT 1) AS survivor_qty,
duplicate_count - 1 AS absorbed_count,
total_qty AS total_merged_qty,
STRING_AGG(id::text, ', ' ORDER BY id::text) FILTER (WHERE id <> survivor_id) AS absorbed_ids
FROM duplicates
WHERE duplicate_count > 1
GROUP BY warehouse_id, warehouse_name, product_id, product_name, area_name, location_name, survivor_id, total_qty, duplicate_count
ORDER BY area_name, location_name, warehouse_name, product_name
`, filters)
rows := make([]duplicateGroup, 0)
if err := db.WithContext(ctx).Raw(query, args...).Scan(&rows).Error; err != nil {
return nil, err
}
return rows, nil
}
func applyConsolidation(ctx context.Context, db *gorm.DB, groups []duplicateGroup) (consolidateSummary, error) {
summary := consolidateSummary{
TotalDuplicateGroups: len(groups),
UpdatedReferences: make(map[string]int64),
OverallStatus: "PASS",
}
fifoSvc := commonSvc.NewFifoStockV2Service(db, nil)
err := db.WithContext(ctx).Transaction(func(tx *gorm.DB) error {
for _, group := range groups {
absorbedIDs := []uint{}
if group.AbsorbedIDs != "" {
parts := strings.Split(group.AbsorbedIDs, ", ")
for _, p := range parts {
var id uint
fmt.Sscanf(p, "%d", &id)
absorbedIDs = append(absorbedIDs, id)
}
}
if len(absorbedIDs) == 0 {
continue
}
// Update all references to point to survivor
refTables := []struct {
table string
column string
}{
{"stock_allocations", "product_warehouse_id"},
{"stock_logs", "product_warehouse_id"},
{"purchase_items", "product_warehouse_id"},
{"recording_stocks", "product_warehouse_id"},
{"recording_eggs", "product_warehouse_id"},
{"recording_depletions", "product_warehouse_id"},
{"recording_depletions", "source_product_warehouse_id"},
{"marketing_delivery_products", "product_warehouse_id"},
{"marketing_products", "product_warehouse_id"},
{"stock_transfer_details", "source_product_warehouse_id"},
{"stock_transfer_details", "dest_product_warehouse_id"},
{"adjustment_stocks", "product_warehouse_id"},
{"laying_transfer_sources", "product_warehouse_id"},
{"laying_transfer_targets", "product_warehouse_id"},
{"laying_transfers", "source_product_warehouse_id"},
{"project_chickin_details", "product_warehouse_id"},
{"project_chickins", "product_warehouse_id"},
{"project_flock_populations", "product_warehouse_id"},
{"fifo_stock_v2_operation_log", "product_warehouse_id"},
{"fifo_stock_v2_reflow_checkpoints", "product_warehouse_id"},
{"fifo_stock_v2_shadow_allocations", "product_warehouse_id"},
}
for _, ref := range refTables {
res := tx.WithContext(ctx).
Table(ref.table).
Where(fmt.Sprintf("%s IN ?", ref.column), absorbedIDs).
Update(ref.column, group.SurvivorID)
if res.Error != nil {
return fmt.Errorf("update %s.%s: %w", ref.table, ref.column, res.Error)
}
if res.RowsAffected > 0 {
summary.UpdatedReferences[ref.table+"."+ref.column] += res.RowsAffected
}
}
// Update survivor qty to merged total
res := tx.WithContext(ctx).
Table("product_warehouses").
Where("id = ?", group.SurvivorID).
Update("qty", group.TotalMergedQty)
if res.Error != nil {
return fmt.Errorf("update survivor qty: %w", res.Error)
}
// Clear project_flock_kandang_id for LOKASI warehouse survivors
if err := tx.WithContext(ctx).Exec(`
UPDATE product_warehouses pw
SET project_flock_kandang_id = NULL
FROM warehouses w
WHERE pw.warehouse_id = w.id
AND pw.id = ?
AND UPPER(w.type) = 'LOKASI'
AND pw.project_flock_kandang_id IS NOT NULL
`, group.SurvivorID).Error; err != nil {
return fmt.Errorf("clear project_flock_kandang_id survivor %d: %w", group.SurvivorID, err)
}
// Delete absorbed product_warehouses
res = tx.WithContext(ctx).
Table("product_warehouses").
Where("id IN ?", absorbedIDs).
Delete(nil)
if res.Error != nil {
return fmt.Errorf("delete absorbed: %w", res.Error)
}
summary.DeletedProductWarehouses += res.RowsAffected
// Recalculate stock_logs for survivor
if err := recalculateStockLogs(ctx, tx, []uint{group.SurvivorID}); err != nil {
return fmt.Errorf("recalculate stock_logs: %w", err)
}
// Reflow and recalculate FIFO
if err := reflowProductWarehouse(ctx, fifoSvc, tx, group.SurvivorID); err != nil {
return fmt.Errorf("reflow product_warehouse %d: %w", group.SurvivorID, err)
}
}
return nil
})
if err != nil {
summary.OverallStatus = "FAIL"
return summary, err
}
return summary, nil
}
func recalculateStockLogs(ctx context.Context, tx *gorm.DB, productWarehouseIDs []uint) error {
if len(productWarehouseIDs) == 0 {
return nil
}
query := `
WITH recalculated AS (
SELECT
id,
SUM(COALESCE(increase, 0) - COALESCE(decrease, 0))
OVER (PARTITION BY product_warehouse_id ORDER BY created_at ASC, id ASC) AS running_stock
FROM stock_logs
WHERE product_warehouse_id IN ?
)
UPDATE stock_logs sl
SET stock = recalculated.running_stock
FROM recalculated
WHERE sl.id = recalculated.id
`
return tx.WithContext(ctx).Exec(query, productWarehouseIDs).Error
}
func reflowProductWarehouse(ctx context.Context, fifoSvc commonSvc.FifoStockV2Service, tx *gorm.DB, productWarehouseID uint) error {
type row struct {
FlagGroupCode string `gorm:"column:flag_group_code"`
}
var selected row
err := tx.WithContext(ctx).
Table("fifo_stock_v2_route_rules rr").
Select("rr.flag_group_code").
Joins("JOIN fifo_stock_v2_flag_groups fg ON fg.code = rr.flag_group_code AND fg.is_active = TRUE").
Where("rr.is_active = TRUE").
Where("rr.lane = ?", "STOCKABLE").
Where("rr.function_code = ?", "PURCHASE_IN").
Where("rr.source_table = ?", "purchase_items").
Where(`EXISTS (
SELECT 1
FROM product_warehouses pw
JOIN flags f ON f.flagable_id = pw.product_id
JOIN fifo_stock_v2_flag_members fm ON fm.flag_name = f.name AND fm.is_active = TRUE
WHERE pw.id = ?
AND f.flagable_type = 'products'
AND fm.flag_group_code = rr.flag_group_code
)`, productWarehouseID).
Order("rr.id ASC").
Limit(1).
Take(&selected).Error
if err != nil && err != gorm.ErrRecordNotFound {
return err
}
if err == gorm.ErrRecordNotFound {
return nil
}
flagGroupCode := strings.TrimSpace(selected.FlagGroupCode)
if _, err := fifoSvc.Reflow(ctx, commonSvc.FifoStockV2ReflowRequest{
FlagGroupCode: flagGroupCode,
ProductWarehouseID: productWarehouseID,
Tx: tx,
}); err != nil {
return err
}
if _, err := fifoSvc.Recalculate(ctx, commonSvc.FifoStockV2RecalculateRequest{
ProductWarehouseIDs: []uint{productWarehouseID},
FlagGroupCodes: []string{flagGroupCode},
FixDrift: true,
Tx: tx,
}); err != nil {
return err
}
return nil
}
func summarizeGroups(groups []duplicateGroup) consolidateSummary {
var totalQty int64
for _, g := range groups {
totalQty += int64(g.AbsorbedCount)
}
return consolidateSummary{
TotalDuplicateGroups: len(groups),
TotalProductWarehouses: totalQty,
OverallStatus: "PASS",
}
}
func renderConsolidation(mode string, groups []duplicateGroup, summary consolidateSummary) {
if mode == outputJSON {
payload := map[string]any{
"groups": groups,
"summary": summary,
}
enc := json.NewEncoder(os.Stdout)
enc.SetIndent("", " ")
_ = enc.Encode(payload)
return
}
w := tabwriter.NewWriter(os.Stdout, 2, 8, 2, ' ', 0)
fmt.Fprintln(w, "AREA\tLOCATION\tWAREHOUSE\tPRODUCT\tPFK_ID\tSURVIVOR_ID\tSURVIVOR_QTY\tABSORBED_COUNT\tTOTAL_MERGED_QTY\tABSORBED_IDS")
for _, g := range groups {
pfkID := "-"
if g.ProjectFlockKandangID != nil {
pfkID = fmt.Sprintf("%d", *g.ProjectFlockKandangID)
}
fmt.Fprintf(
w,
"%s\t%s\t%s\t%s\t%s\t%d\t%.3f\t%d\t%.3f\t%s\n",
g.AreaName,
g.LocationName,
g.WarehouseName,
g.ProductName,
pfkID,
g.SurvivorID,
g.SurvivorQty,
g.AbsorbedCount,
g.TotalMergedQty,
g.AbsorbedIDs,
)
}
_ = w.Flush()
fmt.Printf("\n=== SUMMARY ===\n")
fmt.Printf("Duplicate groups found: %d\n", summary.TotalDuplicateGroups)
fmt.Printf("Product warehouses to delete: %d\n", summary.TotalProductWarehouses)
fmt.Printf("Overall status: %s\n", summary.OverallStatus)
if len(summary.UpdatedReferences) > 0 {
fmt.Println("\nUpdated references:")
keys := make([]string, 0, len(summary.UpdatedReferences))
for k := range summary.UpdatedReferences {
keys = append(keys, k)
}
sort.Strings(keys)
for _, k := range keys {
fmt.Printf(" %s=%d\n", k, summary.UpdatedReferences[k])
}
}
}
cmd/consolidate-kandang-to-farm-stocks/main.go
-1059
View File
File diff suppressed because it is too large Load Diff
cmd/delete-adjustments/main.go
-407
View File
@@ -1,407 +0,0 @@
package main
import (
"context"
"flag"
"fmt"
"log"
"os"
"sort"
"strconv"
"strings"
"time"
commonSvc "gitlab.com/mbugroup/lti-api.git/internal/common/service"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
"gitlab.com/mbugroup/lti-api.git/internal/utils/fifo"
"gorm.io/gorm"
)
type adjustmentRow struct {
ID uint `gorm:"column:id"`
ProductWarehouseID uint `gorm:"column:product_warehouse_id"`
ProductID uint `gorm:"column:product_id"`
FunctionCode string `gorm:"column:function_code"`
TotalQty float64 `gorm:"column:total_qty"`
UsageQty float64 `gorm:"column:usage_qty"`
PendingQty float64 `gorm:"column:pending_qty"`
StockLogIncrease float64 `gorm:"column:stock_log_increase"`
StockLogDecrease float64 `gorm:"column:stock_log_decrease"`
CreatedAt time.Time `gorm:"column:created_at"`
}
type routeResolution struct {
FlagGroupCode string `gorm:"column:flag_group_code"`
Lane string `gorm:"column:lane"`
FunctionCode string `gorm:"column:function_code"`
}
func main() {
var (
idsRaw string
apply bool
)
flag.StringVar(&idsRaw, "ids", "", "Comma-separated adjustment IDs (required), example: 1,2")
flag.BoolVar(&apply, "apply", false, "Apply delete. If false, run as dry-run")
flag.Parse()
ids, err := parseIDs(idsRaw)
if err != nil {
log.Fatalf("invalid --ids: %v", err)
}
if len(ids) == 0 {
log.Fatal("--ids is required")
}
ctx := context.Background()
db := database.Connect(config.DBHost, config.DBName)
fifoStockV2Svc := commonSvc.NewFifoStockV2Service(db, nil)
adjustments, err := loadAdjustments(ctx, db, ids)
if err != nil {
log.Fatalf("failed to load adjustments: %v", err)
}
if len(adjustments) == 0 {
log.Fatal("no adjustments found for provided IDs")
}
sort.Slice(adjustments, func(i, j int) bool {
return adjustments[i].ID < adjustments[j].ID
})
fmt.Printf("Mode: %s\n", modeLabel(apply))
fmt.Printf("Adjustments loaded: %d\n\n", len(adjustments))
success := 0
failed := 0
skipped := 0
for _, adj := range adjustments {
if strings.TrimSpace(adj.FunctionCode) == "" {
fmt.Printf("SKIP adj=%d reason=function_code empty\n", adj.ID)
skipped++
continue
}
route, err := resolveRouteByFunctionCode(ctx, db, adj.ProductID, strings.ToUpper(strings.TrimSpace(adj.FunctionCode)))
if err != nil {
fmt.Printf("FAIL adj=%d error=resolve route: %v\n", adj.ID, err)
failed++
continue
}
switch route.Lane {
case "USABLE":
desiredQty := adj.UsageQty + adj.PendingQty
if desiredQty <= 0 && adj.StockLogDecrease > 0 {
desiredQty = adj.StockLogDecrease
}
activeAlloc, err := countActiveUsableAllocations(ctx, db, fifo.UsableKeyAdjustmentOut.String(), adj.ID)
if err != nil {
fmt.Printf("FAIL adj=%d error=count usable allocations: %v\n", adj.ID, err)
failed++
continue
}
fmt.Printf(
"PLAN adj=%d lane=USABLE function=%s usage=%.3f pending=%.3f active_alloc=%d action=reflow_to_zero+delete\n",
adj.ID,
route.FunctionCode,
adj.UsageQty,
adj.PendingQty,
activeAlloc,
)
if !apply {
skipped++
continue
}
err = db.WithContext(ctx).Transaction(func(tx *gorm.DB) error {
reflowReq := commonSvc.FifoStockV2ReflowRequest{
FlagGroupCode: route.FlagGroupCode,
ProductWarehouseID: adj.ProductWarehouseID,
AsOf: &adj.CreatedAt,
IdempotencyKey: fmt.Sprintf("delete-adjustment-usable-%d-%d", adj.ID, time.Now().UnixNano()),
Tx: tx,
}
if _, err := fifoStockV2Svc.Reflow(ctx, reflowReq); err != nil {
return fmt.Errorf("reflow usable to zero: %w", err)
}
if err := hardDeleteUsableAllocations(ctx, tx, fifo.UsableKeyAdjustmentOut.String(), adj.ID); err != nil {
return err
}
if err := hardDeleteAdjustmentStockLogs(ctx, tx, adj.ID); err != nil {
return err
}
if err := hardDeleteAdjustment(ctx, tx, adj.ID); err != nil {
return err
}
return nil
})
if err != nil {
fmt.Printf("FAIL adj=%d error=%v\n", adj.ID, err)
failed++
continue
}
fmt.Printf("DONE adj=%d deleted\n", adj.ID)
success++
case "STOCKABLE":
removeQty := adj.TotalQty
if removeQty <= 0 && adj.StockLogIncrease > 0 {
removeQty = adj.StockLogIncrease
}
activeAlloc, err := countActiveStockableAllocations(ctx, db, fifo.StockableKeyAdjustmentIn.String(), adj.ID)
if err != nil {
fmt.Printf("FAIL adj=%d error=count stockable allocations: %v\n", adj.ID, err)
failed++
continue
}
if activeAlloc > 0 {
fmt.Printf(
"FAIL adj=%d reason=stockable still allocated active_alloc=%d action=delete blocked\n",
adj.ID,
activeAlloc,
)
failed++
continue
}
fmt.Printf(
"PLAN adj=%d lane=STOCKABLE function=%s total=%.3f remove_qty=%.3f action=reflow_to_zero+delete\n",
adj.ID,
route.FunctionCode,
adj.TotalQty,
removeQty,
)
if !apply {
skipped++
continue
}
err = db.WithContext(ctx).Transaction(func(tx *gorm.DB) error {
if err := tx.WithContext(ctx).
Table("adjustment_stocks").
Where("id = ?", adj.ID).
Updates(map[string]any{
"total_qty": 0,
"total_used": 0,
}).Error; err != nil {
return fmt.Errorf("set stockable qty to zero: %w", err)
}
reflowReq := commonSvc.FifoStockV2ReflowRequest{
FlagGroupCode: route.FlagGroupCode,
ProductWarehouseID: adj.ProductWarehouseID,
AsOf: &adj.CreatedAt,
IdempotencyKey: fmt.Sprintf("delete-adjustment-stockable-%d-%d", adj.ID, time.Now().UnixNano()),
Tx: tx,
}
if _, err := fifoStockV2Svc.Reflow(ctx, reflowReq); err != nil {
return fmt.Errorf("reflow stockable to zero: %w", err)
}
if err := hardDeleteStockableAllocations(ctx, tx, fifo.StockableKeyAdjustmentIn.String(), adj.ID); err != nil {
return err
}
if err := hardDeleteAdjustmentStockLogs(ctx, tx, adj.ID); err != nil {
return err
}
if err := hardDeleteAdjustment(ctx, tx, adj.ID); err != nil {
return err
}
return nil
})
if err != nil {
fmt.Printf("FAIL adj=%d error=%v\n", adj.ID, err)
failed++
continue
}
fmt.Printf("DONE adj=%d deleted\n", adj.ID)
success++
default:
fmt.Printf("SKIP adj=%d reason=unsupported lane=%s\n", adj.ID, route.Lane)
skipped++
}
}
fmt.Println()
fmt.Printf("Summary: success=%d failed=%d skipped=%d\n", success, failed, skipped)
if failed > 0 {
os.Exit(1)
}
}
func modeLabel(apply bool) string {
if apply {
return "APPLY"
}
return "DRY-RUN"
}
func parseIDs(raw string) ([]uint, error) {
raw = strings.TrimSpace(raw)
if raw == "" {
return nil, nil
}
parts := strings.Split(raw, ",")
out := make([]uint, 0, len(parts))
seen := map[uint]struct{}{}
for _, part := range parts {
part = strings.TrimSpace(part)
if part == "" {
continue
}
v, err := strconv.ParseUint(part, 10, 64)
if err != nil {
return nil, fmt.Errorf("invalid id %q", part)
}
if v == 0 {
return nil, fmt.Errorf("id must be > 0: %q", part)
}
id := uint(v)
if _, ok := seen[id]; ok {
continue
}
seen[id] = struct{}{}
out = append(out, id)
}
return out, nil
}
func loadAdjustments(ctx context.Context, db *gorm.DB, ids []uint) ([]adjustmentRow, error) {
var rows []adjustmentRow
err := db.WithContext(ctx).
Table("adjustment_stocks a").
Select(`
a.id,
a.product_warehouse_id,
pw.product_id,
a.function_code,
COALESCE(a.total_qty, 0) AS total_qty,
COALESCE(a.usage_qty, 0) AS usage_qty,
COALESCE(a.pending_qty, 0) AS pending_qty,
COALESCE((
SELECT sl.increase
FROM stock_logs sl
WHERE sl.loggable_type = 'ADJUSTMENT'
AND sl.loggable_id = a.id
ORDER BY sl.id DESC
LIMIT 1
), 0) AS stock_log_increase,
COALESCE((
SELECT sl.decrease
FROM stock_logs sl
WHERE sl.loggable_type = 'ADJUSTMENT'
AND sl.loggable_id = a.id
ORDER BY sl.id DESC
LIMIT 1
), 0) AS stock_log_decrease,
a.created_at
`).
Joins("JOIN product_warehouses pw ON pw.id = a.product_warehouse_id").
Where("a.id IN ?", ids).
Find(&rows).Error
if err != nil {
return nil, err
}
return rows, nil
}
func resolveRouteByFunctionCode(ctx context.Context, db *gorm.DB, productID uint, functionCode string) (*routeResolution, error) {
var rows []routeResolution
err := db.WithContext(ctx).
Table("fifo_stock_v2_route_rules rr").
Select("rr.flag_group_code, rr.lane, rr.function_code").
Joins("JOIN fifo_stock_v2_flag_groups fg ON fg.code = rr.flag_group_code AND fg.is_active = TRUE").
Where("rr.is_active = TRUE").
Where("rr.function_code = ?", functionCode).
Where(`
EXISTS (
SELECT 1
FROM flags f
JOIN fifo_stock_v2_flag_members fm ON fm.flag_name = f.name AND fm.is_active = TRUE
WHERE f.flagable_type = ?
AND f.flagable_id = ?
AND fm.flag_group_code = rr.flag_group_code
)
`, entity.FlagableTypeProduct, productID).
Order("CASE WHEN rr.source_table = 'adjustment_stocks' THEN 0 ELSE 1 END ASC").
Order("rr.id ASC").
Find(&rows).Error
if err != nil {
return nil, err
}
if len(rows) == 0 {
return nil, fmt.Errorf("no route found for product_id=%d function_code=%s", productID, functionCode)
}
selected := rows[0]
for _, row := range rows {
if row.Lane != selected.Lane {
return nil, fmt.Errorf("ambiguous lane for product_id=%d function_code=%s", productID, functionCode)
}
}
selected.FunctionCode = functionCode
return &selected, nil
}
func countActiveUsableAllocations(ctx context.Context, db *gorm.DB, usableType string, usableID uint) (int64, error) {
var count int64
err := db.WithContext(ctx).
Table("stock_allocations").
Where("usable_type = ? AND usable_id = ?", usableType, usableID).
Where("status = ?", entity.StockAllocationStatusActive).
Where("allocation_purpose = ?", entity.StockAllocationPurposeConsume).
Count(&count).Error
return count, err
}
func countActiveStockableAllocations(ctx context.Context, db *gorm.DB, stockableType string, stockableID uint) (int64, error) {
var count int64
err := db.WithContext(ctx).
Table("stock_allocations").
Where("stockable_type = ? AND stockable_id = ?", stockableType, stockableID).
Where("status = ?", entity.StockAllocationStatusActive).
Where("allocation_purpose = ?", entity.StockAllocationPurposeConsume).
Count(&count).Error
return count, err
}
func hardDeleteUsableAllocations(ctx context.Context, tx *gorm.DB, usableType string, usableID uint) error {
return tx.WithContext(ctx).
Exec("DELETE FROM stock_allocations WHERE usable_type = ? AND usable_id = ? AND allocation_purpose = ?", usableType, usableID, entity.StockAllocationPurposeConsume).
Error
}
func hardDeleteStockableAllocations(ctx context.Context, tx *gorm.DB, stockableType string, stockableID uint) error {
return tx.WithContext(ctx).
Exec("DELETE FROM stock_allocations WHERE stockable_type = ? AND stockable_id = ? AND allocation_purpose = ?", stockableType, stockableID, entity.StockAllocationPurposeConsume).
Error
}
func hardDeleteAdjustmentStockLogs(ctx context.Context, tx *gorm.DB, adjustmentID uint) error {
return tx.WithContext(ctx).
Exec("DELETE FROM stock_logs WHERE loggable_type = ? AND loggable_id = ?", "ADJUSTMENT", adjustmentID).
Error
}
func hardDeleteAdjustment(ctx context.Context, tx *gorm.DB, adjustmentID uint) error {
return tx.WithContext(ctx).
Exec("DELETE FROM adjustment_stocks WHERE id = ?", adjustmentID).
Error
}
cmd/find-wrong-warehouse-records/main.go
-466
View File
@@ -1,466 +0,0 @@
package main
import (
"context"
"encoding/json"
"flag"
"fmt"
"log"
"os"
"strings"
"text/tabwriter"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
"gorm.io/gorm"
)
const (
outputModeTable = "table"
outputModeJSON = "json"
reportUsage = "usage"
reportWarehouses = "warehouses"
)
type options struct {
Output string
Report string
AreaName string
KandangLocationName string
WrongWarehouseName string
CorrectWarehouseName string
UsableType string
DBSSLMode string
}
type usageRow struct {
UsableType string `gorm:"column:usable_type" json:"usable_type"`
UsableID uint `gorm:"column:usable_id" json:"usable_id"`
AreaName string `gorm:"column:area_name" json:"area_name"`
LokasiName string `gorm:"column:lokasi_name" json:"lokasi_name"`
KandangName string `gorm:"column:kandang_name" json:"kandang_name"`
WrongWarehouseID uint `gorm:"column:wrong_warehouse_id" json:"wrong_warehouse_id"`
WrongWarehouseName string `gorm:"column:wrong_warehouse_name" json:"wrong_warehouse_name"`
CorrectWarehouseID uint `gorm:"column:correct_warehouse_id" json:"correct_warehouse_id"`
CorrectWarehouseName string `gorm:"column:correct_warehouse_name" json:"correct_warehouse_name"`
ProductNames string `gorm:"column:product_names" json:"product_names"`
SourcePurchaseNumbers string `gorm:"column:source_purchase_numbers" json:"source_purchase_numbers"`
SourcePurchaseItemIDs string `gorm:"column:source_purchase_item_ids" json:"source_purchase_item_ids"`
QtyFromWrongStock float64 `gorm:"column:qty_from_wrong_stock" json:"qty_from_wrong_stock"`
RecordingID *uint `gorm:"column:recording_id" json:"recording_id,omitempty"`
RecordingDate *string `gorm:"column:recording_date" json:"recording_date,omitempty"`
SoNumber *string `gorm:"column:so_number" json:"so_number,omitempty"`
SoDate *string `gorm:"column:so_date" json:"so_date,omitempty"`
}
type warehouseMismatchRow struct {
AreaName string `gorm:"column:area_name" json:"area_name"`
WrongLocationName string `gorm:"column:wrong_location_name" json:"wrong_location_name"`
KandangLocationName string `gorm:"column:kandang_location_name" json:"kandang_location_name"`
KandangID uint `gorm:"column:kandang_id" json:"kandang_id"`
KandangName string `gorm:"column:kandang_name" json:"kandang_name"`
WrongWarehouseID uint `gorm:"column:wrong_warehouse_id" json:"wrong_warehouse_id"`
WrongWarehouseName string `gorm:"column:wrong_warehouse_name" json:"wrong_warehouse_name"`
WrongWarehouseType string `gorm:"column:wrong_warehouse_type" json:"wrong_warehouse_type"`
CorrectWarehouseID uint `gorm:"column:correct_warehouse_id" json:"correct_warehouse_id"`
CorrectWarehouseName string `gorm:"column:correct_warehouse_name" json:"correct_warehouse_name"`
}
type summary struct {
Rows int `json:"rows"`
TotalQty float64 `json:"total_qty,omitempty"`
}
func main() {
opts, err := parseFlags()
if err != nil {
log.Fatalf("invalid flags: %v", err)
}
ctx := context.Background()
if opts.DBSSLMode != "" {
config.DBSSLMode = opts.DBSSLMode
}
db := database.Connect(config.DBHost, config.DBName)
switch opts.Report {
case reportUsage:
rows, err := loadUsageRows(ctx, db, opts)
if err != nil {
log.Fatalf("failed loading usage rows: %v", err)
}
renderUsageReport(opts.Output, rows)
case reportWarehouses:
rows, err := loadWarehouseMismatchRows(ctx, db, opts)
if err != nil {
log.Fatalf("failed loading warehouse mismatch rows: %v", err)
}
renderWarehouseReport(opts.Output, rows)
default:
log.Fatalf("unsupported --report=%s", opts.Report)
}
}
func parseFlags() (*options, error) {
var opts options
flag.StringVar(&opts.Output, "output", outputModeTable, "Output format: table or json")
flag.StringVar(&opts.Report, "report", reportUsage, "Report type: usage or warehouses")
flag.StringVar(&opts.AreaName, "area-name", "", "Optional exact area name filter")
flag.StringVar(&opts.KandangLocationName, "kandang-location-name", "", "Optional exact canonical kandang location filter")
flag.StringVar(&opts.WrongWarehouseName, "wrong-warehouse-name", "", "Optional exact wrong warehouse name filter")
flag.StringVar(&opts.CorrectWarehouseName, "correct-warehouse-name", "", "Optional exact correct warehouse name filter")
flag.StringVar(&opts.UsableType, "usable-type", "", "Optional usage type filter: RECORDING_STOCK or MARKETING_DELIVERY")
flag.StringVar(&opts.DBSSLMode, "db-sslmode", "", "Optional database sslmode override, for example: require")
flag.Parse()
opts.Output = strings.ToLower(strings.TrimSpace(opts.Output))
opts.Report = strings.ToLower(strings.TrimSpace(opts.Report))
opts.AreaName = strings.TrimSpace(opts.AreaName)
opts.KandangLocationName = strings.TrimSpace(opts.KandangLocationName)
opts.WrongWarehouseName = strings.TrimSpace(opts.WrongWarehouseName)
opts.CorrectWarehouseName = strings.TrimSpace(opts.CorrectWarehouseName)
opts.UsableType = strings.ToUpper(strings.TrimSpace(opts.UsableType))
opts.DBSSLMode = strings.TrimSpace(opts.DBSSLMode)
if opts.Output == "" {
opts.Output = outputModeTable
}
if opts.Output != outputModeTable && opts.Output != outputModeJSON {
return nil, fmt.Errorf("unsupported --output=%s", opts.Output)
}
if opts.Report == "" {
opts.Report = reportUsage
}
if opts.Report != reportUsage && opts.Report != reportWarehouses {
return nil, fmt.Errorf("unsupported --report=%s", opts.Report)
}
if opts.UsableType != "" && opts.UsableType != "RECORDING_STOCK" && opts.UsableType != "MARKETING_DELIVERY" {
return nil, fmt.Errorf("unsupported --usable-type=%s", opts.UsableType)
}
return &opts, nil
}
func loadUsageRows(ctx context.Context, db *gorm.DB, opts *options) ([]usageRow, error) {
warehouseFilters, warehouseArgs := buildWarehouseFilters(opts)
usageFilters := make([]string, 0, 1)
usageArgs := make([]any, 0, 1)
if opts.UsableType != "" {
usageFilters = append(usageFilters, "sa.usable_type = ?")
usageArgs = append(usageArgs, opts.UsableType)
}
args := append([]any{}, warehouseArgs...)
args = append(args, usageArgs...)
query := fmt.Sprintf(`
WITH wrong_warehouses AS (
SELECT
w.id AS wrong_warehouse_id,
w.name AS wrong_warehouse_name,
k.id AS kandang_id,
k.name AS kandang_name,
a.name AS area_name,
kl.name AS kandang_location_name,
correct_w.id AS correct_warehouse_id,
correct_w.name AS correct_warehouse_name
FROM warehouses w
JOIN kandangs k
ON k.id = w.kandang_id
AND k.deleted_at IS NULL
JOIN locations kl
ON kl.id = k.location_id
JOIN areas a
ON a.id = kl.area_id
JOIN LATERAL (
SELECT w2.id, w2.name
FROM warehouses w2
WHERE w2.kandang_id = w.kandang_id
AND w2.location_id = k.location_id
AND w2.deleted_at IS NULL
AND w2.id <> w.id
ORDER BY w2.id ASC
LIMIT 1
) AS correct_w ON TRUE
WHERE w.deleted_at IS NULL
AND w.kandang_id IS NOT NULL
AND w.location_id IS DISTINCT FROM k.location_id
%s
),
wrong_allocs AS (
SELECT
sa.usable_type,
sa.usable_id,
sa.qty,
pi.id AS purchase_item_id,
COALESCE(p.po_number, p.pr_number) AS purchase_number,
pr.name AS product_name,
ww.area_name,
ww.kandang_location_name,
ww.kandang_name,
ww.wrong_warehouse_id,
ww.wrong_warehouse_name,
ww.correct_warehouse_id,
ww.correct_warehouse_name
FROM stock_allocations sa
JOIN purchase_items pi
ON pi.id = sa.stockable_id
JOIN purchases p
ON p.id = pi.purchase_id
AND p.deleted_at IS NULL
JOIN products pr
ON pr.id = pi.product_id
JOIN wrong_warehouses ww
ON ww.wrong_warehouse_id = pi.warehouse_id
WHERE sa.stockable_type = 'PURCHASE_ITEMS'
AND sa.status = 'ACTIVE'
AND sa.allocation_purpose = 'CONSUME'
AND sa.deleted_at IS NULL
%s
)
SELECT
wa.usable_type,
wa.usable_id,
wa.area_name,
wa.kandang_location_name AS lokasi_name,
wa.kandang_name,
wa.wrong_warehouse_id,
wa.wrong_warehouse_name,
wa.correct_warehouse_id,
wa.correct_warehouse_name,
STRING_AGG(DISTINCT wa.product_name, ' | ') AS product_names,
STRING_AGG(DISTINCT wa.purchase_number, ', ') AS source_purchase_numbers,
STRING_AGG(DISTINCT wa.purchase_item_id::text, ', ') AS source_purchase_item_ids,
SUM(wa.qty) AS qty_from_wrong_stock,
rs.recording_id,
TO_CHAR(r.record_datetime::date, 'YYYY-MM-DD') AS recording_date,
m.so_number,
TO_CHAR(m.so_date::date, 'YYYY-MM-DD') AS so_date
FROM wrong_allocs wa
LEFT JOIN recording_stocks rs
ON wa.usable_type = 'RECORDING_STOCK'
AND rs.id = wa.usable_id
LEFT JOIN recordings r
ON r.id = rs.recording_id
LEFT JOIN marketing_delivery_products mdp
ON wa.usable_type = 'MARKETING_DELIVERY'
AND mdp.id = wa.usable_id
LEFT JOIN marketing_products mp
ON mp.id = mdp.marketing_product_id
LEFT JOIN marketings m
ON m.id = mp.marketing_id
GROUP BY
wa.usable_type,
wa.usable_id,
wa.area_name,
wa.kandang_location_name,
wa.kandang_name,
wa.wrong_warehouse_id,
wa.wrong_warehouse_name,
wa.correct_warehouse_id,
wa.correct_warehouse_name,
rs.recording_id,
r.record_datetime,
m.so_number,
m.so_date
ORDER BY
wa.area_name ASC,
wa.kandang_location_name ASC,
wa.wrong_warehouse_name ASC,
wa.usable_type ASC,
wa.usable_id ASC
`, andClause(warehouseFilters), andClause(usageFilters))
rows := make([]usageRow, 0)
if err := db.WithContext(ctx).Raw(query, args...).Scan(&rows).Error; err != nil {
return nil, err
}
return rows, nil
}
func loadWarehouseMismatchRows(ctx context.Context, db *gorm.DB, opts *options) ([]warehouseMismatchRow, error) {
warehouseFilters, args := buildWarehouseFilters(opts)
query := fmt.Sprintf(`
SELECT
a.name AS area_name,
wl.name AS wrong_location_name,
kl.name AS kandang_location_name,
k.id AS kandang_id,
k.name AS kandang_name,
w.id AS wrong_warehouse_id,
w.name AS wrong_warehouse_name,
w.type AS wrong_warehouse_type,
correct_w.id AS correct_warehouse_id,
correct_w.name AS correct_warehouse_name
FROM warehouses w
JOIN kandangs k
ON k.id = w.kandang_id
AND k.deleted_at IS NULL
JOIN locations kl
ON kl.id = k.location_id
JOIN areas a
ON a.id = kl.area_id
LEFT JOIN locations wl
ON wl.id = w.location_id
JOIN LATERAL (
SELECT w2.id, w2.name
FROM warehouses w2
WHERE w2.kandang_id = w.kandang_id
AND w2.location_id = k.location_id
AND w2.deleted_at IS NULL
AND w2.id <> w.id
ORDER BY w2.id ASC
LIMIT 1
) AS correct_w ON TRUE
WHERE w.deleted_at IS NULL
AND w.kandang_id IS NOT NULL
AND w.location_id IS DISTINCT FROM k.location_id
%s
ORDER BY a.name ASC, kl.name ASC, k.name ASC, w.id ASC
`, andClause(warehouseFilters))
rows := make([]warehouseMismatchRow, 0)
if err := db.WithContext(ctx).Raw(query, args...).Scan(&rows).Error; err != nil {
return nil, err
}
return rows, nil
}
func buildWarehouseFilters(opts *options) ([]string, []any) {
filters := make([]string, 0, 4)
args := make([]any, 0, 4)
if opts == nil {
return filters, args
}
if opts.AreaName != "" {
filters = append(filters, "a.name = ?")
args = append(args, opts.AreaName)
}
if opts.KandangLocationName != "" {
filters = append(filters, "kl.name = ?")
args = append(args, opts.KandangLocationName)
}
if opts.WrongWarehouseName != "" {
filters = append(filters, "w.name = ?")
args = append(args, opts.WrongWarehouseName)
}
if opts.CorrectWarehouseName != "" {
filters = append(filters, "correct_w.name = ?")
args = append(args, opts.CorrectWarehouseName)
}
return filters, args
}
func andClause(filters []string) string {
if len(filters) == 0 {
return ""
}
return " AND " + strings.Join(filters, " AND ")
}
func renderUsageReport(mode string, rows []usageRow) {
if mode == outputModeJSON {
payload := map[string]any{
"report": reportUsage,
"rows": rows,
"summary": summarizeUsage(rows),
}
enc := json.NewEncoder(os.Stdout)
enc.SetIndent("", " ")
_ = enc.Encode(payload)
return
}
w := tabwriter.NewWriter(os.Stdout, 2, 8, 2, ' ', 0)
fmt.Fprintln(w, "USABLE_TYPE\tUSABLE_ID\tAREA\tLOKASI\tKANDANG\tWRONG_WAREHOUSE\tCORRECT_WAREHOUSE\tPRODUCTS\tQTY_FROM_WRONG_STOCK\tRECORDING_ID\tRECORDING_DATE\tSO_NUMBER\tSO_DATE\tSOURCE_PURCHASES\tSOURCE_PURCHASE_ITEM_IDS")
for _, row := range rows {
fmt.Fprintf(
w,
"%s\t%d\t%s\t%s\t%s\t%s\t%s\t%s\t%.3f\t%s\t%s\t%s\t%s\t%s\t%s\n",
row.UsableType,
row.UsableID,
row.AreaName,
row.LokasiName,
row.KandangName,
row.WrongWarehouseName,
row.CorrectWarehouseName,
row.ProductNames,
row.QtyFromWrongStock,
displayOptionalUint(row.RecordingID),
displayOptionalString(row.RecordingDate),
displayOptionalString(row.SoNumber),
displayOptionalString(row.SoDate),
row.SourcePurchaseNumbers,
row.SourcePurchaseItemIDs,
)
}
_ = w.Flush()
s := summarizeUsage(rows)
fmt.Printf("\nSummary: rows=%d total_qty=%.3f\n", s.Rows, s.TotalQty)
}
func renderWarehouseReport(mode string, rows []warehouseMismatchRow) {
if mode == outputModeJSON {
payload := map[string]any{
"report": reportWarehouses,
"rows": rows,
"summary": summary{Rows: len(rows)},
}
enc := json.NewEncoder(os.Stdout)
enc.SetIndent("", " ")
_ = enc.Encode(payload)
return
}
w := tabwriter.NewWriter(os.Stdout, 2, 8, 2, ' ', 0)
fmt.Fprintln(w, "AREA\tKANDANG_LOCATION\tKANDANG_ID\tKANDANG\tWRONG_LOCATION\tWRONG_WAREHOUSE_ID\tWRONG_WAREHOUSE\tWRONG_WAREHOUSE_TYPE\tCORRECT_WAREHOUSE_ID\tCORRECT_WAREHOUSE")
for _, row := range rows {
fmt.Fprintf(
w,
"%s\t%s\t%d\t%s\t%s\t%d\t%s\t%s\t%d\t%s\n",
row.AreaName,
row.KandangLocationName,
row.KandangID,
row.KandangName,
row.WrongLocationName,
row.WrongWarehouseID,
row.WrongWarehouseName,
row.WrongWarehouseType,
row.CorrectWarehouseID,
row.CorrectWarehouseName,
)
}
_ = w.Flush()
fmt.Printf("\nSummary: rows=%d\n", len(rows))
}
func summarizeUsage(rows []usageRow) summary {
out := summary{Rows: len(rows)}
for _, row := range rows {
out.TotalQty += row.QtyFromWrongStock
}
return out
}
func displayOptionalUint(value *uint) string {
if value == nil || *value == 0 {
return "-"
}
return fmt.Sprintf("%d", *value)
}
func displayOptionalString(value *string) string {
if value == nil || strings.TrimSpace(*value) == "" {
return "-"
}
return *value
}
cmd/fix-stock-log-drift/main.go
-387
View File
@@ -1,387 +0,0 @@
// Command: fix-stock-log-drift
//
// Tujuan:
// Sinkronkan `stock_logs.stock` (running ledger) dengan `product_warehouses.qty`
// (FIFO truth) ketika keduanya drift.
//
// Drift biasanya terjadi karena bug di Recording-Edit (sebelum fix) yang
// hanya menulis -decrease tanpa +increase saat in-place update. Akibatnya
// running ledger di stock_logs tertinggal dari qty riil di product_warehouses.
//
// Cara kerja:
// 1. Ambil product_warehouses.qty (sebagai truth)
// 2. Ambil last_stock_log.stock
// 3. Cari recording yang berkontribusi pada drift (untuk notes)
// 4. Hitung drift = qty - last_stock_log.stock
// 5. Jika drift != 0, insert 1 stock_log corrective:
// - drift > 0 → increase = drift
// - drift < 0 → decrease = |drift|
// stock akhir akan sama dengan qty (truth).
// Notes otomatis berisi daftar recording IDs yang berkontribusi pada drift.
//
// Mode:
// --apply=false (default) → dry-run, hanya tampilkan rencana
// --apply=true → eksekusi insert
//
// Contoh:
// go run cmd/fix-stock-log-drift/main.go --product-warehouse-id=1261
// go run cmd/fix-stock-log-drift/main.go --product-warehouse-id=1261 --apply
// go run cmd/fix-stock-log-drift/main.go --product-warehouse-id=1261 --apply \
// --actor-id=1 --notes="Koreksi manual drift"
package main
import (
"context"
"errors"
"flag"
"fmt"
"log"
"math"
"os"
"strings"
"time"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
"gitlab.com/mbugroup/lti-api.git/internal/utils"
"gorm.io/gorm"
)
const (
qtyEpsilon = 1e-6
defaultActorID uint = 1
maxSuspectInNotes = 30
)
type driftRow struct {
ProductWarehouseID uint `gorm:"column:product_warehouse_id"`
ProductID uint `gorm:"column:product_id"`
ProductName string `gorm:"column:product_name"`
WarehouseName string `gorm:"column:warehouse_name"`
CurrentQty float64 `gorm:"column:current_qty"`
LastLogStock float64 `gorm:"column:last_log_stock"`
LastLogID uint `gorm:"column:last_log_id"`
FifoExpected float64 `gorm:"column:fifo_expected"`
}
type suspectRecording struct {
RecordingID uint `gorm:"column:recording_id"`
FifoUsage float64 `gorm:"column:fifo_usage"`
NetLogConsumed float64 `gorm:"column:net_log_consumed"`
Phantom float64 `gorm:"column:phantom"`
}
func main() {
var (
productWarehouseID uint
apply bool
actorID uint
notes string
)
flag.UintVar(&productWarehouseID, "product-warehouse-id", 0, "Target product_warehouse_id (required)")
flag.BoolVar(&apply, "apply", false, "Apply changes. If false, run as dry-run")
flag.UintVar(&actorID, "actor-id", defaultActorID, "User id yang akan dicatat sebagai created_by stock_log corrective")
flag.StringVar(&notes, "notes", "", "Custom notes untuk stock_log corrective (opsional, default=auto-generate dari data recording)")
flag.Parse()
notes = strings.TrimSpace(notes)
if err := validateFlags(productWarehouseID, actorID); err != nil {
log.Fatalf("invalid flags: %v", err)
}
ctx := context.Background()
db := database.Connect(config.DBHost, config.DBName)
row, err := loadDriftRow(ctx, db, productWarehouseID)
if err != nil {
log.Fatalf("failed to load product warehouse: %v", err)
}
suspects, err := loadSuspectRecordings(ctx, db, productWarehouseID)
if err != nil {
log.Fatalf("failed to load suspect recordings: %v", err)
}
drift := row.CurrentQty - row.LastLogStock
// Print info header
fmt.Printf("Mode: %s\n", modeLabel(apply))
fmt.Printf("Target product_warehouse_id: %d\n", productWarehouseID)
fmt.Printf("Product: %q\n", row.ProductName)
fmt.Printf("Warehouse: %q\n", row.WarehouseName)
fmt.Printf("Current qty (product_warehouses): %.3f\n", row.CurrentQty)
fmt.Printf("FIFO expected (sum total_qty - total_used): %.3f\n", row.FifoExpected)
fmt.Printf("Last stock_log: id=%d stock=%.3f\n", row.LastLogID, row.LastLogStock)
fmt.Printf("Drift (qty - last_log_stock): %+.3f\n", drift)
if !nearlyEqual(row.CurrentQty, row.FifoExpected) {
fmt.Println()
fmt.Println("⚠️ WARNING: product_warehouses.qty TIDAK match dengan FIFO expected.")
fmt.Println(" Disarankan jalankan dulu cmd/reflow-quantity-product-warehouse-from-stock-allocation")
fmt.Println(" sebelum fix stock_log drift, agar truth source-nya sudah benar.")
}
// Print suspect recordings
fmt.Println()
if len(suspects) > 0 {
totalPhantom := 0.0
for _, s := range suspects {
totalPhantom += s.Phantom
}
fmt.Printf("Suspect recordings (drift contributors): %d\n", len(suspects))
for _, s := range suspects {
fmt.Printf(
" #%-6d fifo=%-10.3f net_log=%-10.3f phantom=%+.3f\n",
s.RecordingID, s.FifoUsage, s.NetLogConsumed, s.Phantom,
)
}
fmt.Printf("Total suspect phantom: %+.3f\n", totalPhantom)
} else {
fmt.Println("Suspect recordings: none found (drift origin unknown)")
}
fmt.Println()
if nearlyEqual(drift, 0) {
fmt.Println("✓ Tidak ada drift. Stock_log sudah sinkron dengan product_warehouses.qty.")
fmt.Println("Summary: planned=0 inserted=0 skipped=1 failed=0")
return
}
// Build notes if not provided
if notes == "" {
notes = buildDefaultNotes(row, drift, suspects)
}
plan := buildCorrectiveLog(row, drift, actorID, notes)
fmt.Printf(
"PLAN insert stock_log:\n pw=%d increase=%.3f decrease=%.3f stock=%.3f\n notes=%q\n",
plan.ProductWarehouseId,
plan.Increase,
plan.Decrease,
plan.Stock,
plan.Notes,
)
if !apply {
fmt.Println()
fmt.Println("Summary: planned=1 inserted=0 skipped=0 failed=0 (dry-run)")
return
}
if err := db.WithContext(ctx).Transaction(func(tx *gorm.DB) error {
// Re-check di dalam transaction agar aman dari race condition
current, err := loadDriftRow(ctx, tx, productWarehouseID)
if err != nil {
return fmt.Errorf("re-read product_warehouse_id=%d: %w", productWarehouseID, err)
}
currentDrift := current.CurrentQty - current.LastLogStock
if nearlyEqual(currentDrift, 0) {
fmt.Println("Drift hilang sebelum insert (kemungkinan ada operasi paralel). Skip.")
return nil
}
fresh := buildCorrectiveLog(current, currentDrift, actorID, notes)
if err := tx.Create(&fresh).Error; err != nil {
return fmt.Errorf("insert corrective stock_log for pw=%d: %w", productWarehouseID, err)
}
fmt.Printf(
"DONE inserted stock_log id=%d pw=%d increase=%.3f decrease=%.3f stock=%.3f\n",
fresh.Id,
fresh.ProductWarehouseId,
fresh.Increase,
fresh.Decrease,
fresh.Stock,
)
return nil
}); err != nil {
fmt.Println()
fmt.Println("Summary: planned=1 inserted=0 skipped=0 failed=1")
log.Printf("error: %v", err)
os.Exit(1)
}
fmt.Println()
fmt.Println("Summary: planned=1 inserted=1 skipped=0 failed=0")
}
func validateFlags(productWarehouseID uint, actorID uint) error {
if productWarehouseID == 0 {
return errors.New("--product-warehouse-id is required (must be > 0)")
}
if actorID == 0 {
return errors.New("--actor-id must be > 0")
}
return nil
}
func loadDriftRow(ctx context.Context, db *gorm.DB, productWarehouseID uint) (driftRow, error) {
row := driftRow{}
lastLogSub := db.WithContext(ctx).
Table("stock_logs").
Select("id, product_warehouse_id, stock").
Where("product_warehouse_id = ?", productWarehouseID).
Order("id DESC").
Limit(1)
fifoSub := db.WithContext(ctx).
Table("purchase_items").
Select(`
product_warehouse_id,
COALESCE(SUM(COALESCE(total_qty, 0) - COALESCE(total_used, 0)), 0) AS fifo_expected
`).
Where("product_warehouse_id = ?", productWarehouseID).
Group("product_warehouse_id")
if err := db.WithContext(ctx).
Table("product_warehouses pw").
Select(`
pw.id AS product_warehouse_id,
pw.product_id AS product_id,
COALESCE(p.name, '') AS product_name,
COALESCE(w.name, '') AS warehouse_name,
COALESCE(pw.qty, 0) AS current_qty,
COALESCE(last_log.stock, 0) AS last_log_stock,
COALESCE(last_log.id, 0) AS last_log_id,
COALESCE(fifo.fifo_expected, 0) AS fifo_expected
`).
Joins("LEFT JOIN products p ON p.id = pw.product_id").
Joins("LEFT JOIN warehouses w ON w.id = pw.warehouse_id").
Joins("LEFT JOIN (?) last_log ON last_log.product_warehouse_id = pw.id", lastLogSub).
Joins("LEFT JOIN (?) fifo ON fifo.product_warehouse_id = pw.id", fifoSub).
Where("pw.id = ?", productWarehouseID).
Scan(&row).Error; err != nil {
return row, err
}
if row.ProductWarehouseID == 0 {
return row, fmt.Errorf("product_warehouse_id=%d not found", productWarehouseID)
}
return row, nil
}
// loadSuspectRecordings mencari recording yang net stock_log consumed-nya
// melebihi FIFO usage_qty — ini adalah recording yang berkontribusi pada drift
// akibat bug Recording-Edit yang hanya menulis -decrease tanpa +increase.
func loadSuspectRecordings(ctx context.Context, db *gorm.DB, productWarehouseID uint) ([]suspectRecording, error) {
rows := make([]suspectRecording, 0)
if err := db.WithContext(ctx).
Table("recording_stocks rs").
Select(`
rs.recording_id,
COALESCE(rs.usage_qty, 0) AS fifo_usage,
(
COALESCE(SUM(CASE WHEN sl.decrease > 0 THEN sl.decrease ELSE 0 END), 0) -
COALESCE(SUM(CASE WHEN sl.increase > 0 THEN sl.increase ELSE 0 END), 0)
) AS net_log_consumed,
(
COALESCE(SUM(CASE WHEN sl.decrease > 0 THEN sl.decrease ELSE 0 END), 0) -
COALESCE(SUM(CASE WHEN sl.increase > 0 THEN sl.increase ELSE 0 END), 0) -
COALESCE(rs.usage_qty, 0)
) AS phantom
`).
Joins(`
JOIN stock_logs sl ON sl.loggable_type = ?
AND sl.loggable_id = rs.recording_id
AND sl.product_warehouse_id = rs.product_warehouse_id
`, string(utils.StockLogTypeRecording)).
Where("rs.product_warehouse_id = ?", productWarehouseID).
Group("rs.recording_id, rs.usage_qty").
Having(`
ABS(
COALESCE(SUM(CASE WHEN sl.decrease > 0 THEN sl.decrease ELSE 0 END), 0) -
COALESCE(SUM(CASE WHEN sl.increase > 0 THEN sl.increase ELSE 0 END), 0) -
COALESCE(rs.usage_qty, 0)
) > ?
`, qtyEpsilon).
Order("rs.recording_id ASC").
Scan(&rows).Error; err != nil {
return nil, err
}
return rows, nil
}
// buildDefaultNotes membuat notes otomatis yang berisi penjelasan drift
// beserta daftar recording_id yang berkontribusi + phantom amount masing-masing.
func buildDefaultNotes(row driftRow, drift float64, suspects []suspectRecording) string {
sign := "+"
if drift < 0 {
sign = ""
}
var sb strings.Builder
sb.WriteString(fmt.Sprintf(
"Koreksi drift stock_log akibat bug Recording-Edit (in-place update menulis -decrease tanpa +increase). PW=%d (%s) drift=%s%.3f.",
row.ProductWarehouseID,
row.WarehouseName,
sign,
drift,
))
if len(suspects) == 0 {
return sb.String()
}
sb.WriteString(" Recordings affected:")
limit := len(suspects)
truncated := 0
if limit > maxSuspectInNotes {
truncated = limit - maxSuspectInNotes
limit = maxSuspectInNotes
}
for i := 0; i < limit; i++ {
s := suspects[i]
phantomSign := "+"
if s.Phantom < 0 {
phantomSign = ""
}
sb.WriteString(fmt.Sprintf(" #%d(%s%.0f)", s.RecordingID, phantomSign, s.Phantom))
if i < limit-1 || truncated > 0 {
sb.WriteString(",")
}
}
if truncated > 0 {
sb.WriteString(fmt.Sprintf(" ... (+%d more)", truncated))
}
sb.WriteString(".")
return sb.String()
}
func buildCorrectiveLog(row driftRow, drift float64, actorID uint, notes string) entity.StockLog {
corrective := entity.StockLog{
ProductWarehouseId: row.ProductWarehouseID,
CreatedBy: actorID,
LoggableType: string(utils.StockLogTypeAdjustment),
LoggableId: 0,
Stock: row.CurrentQty,
Notes: notes,
CreatedAt: time.Now(),
}
if drift > 0 {
corrective.Increase = drift
corrective.Decrease = 0
} else {
corrective.Increase = 0
corrective.Decrease = -drift
}
return corrective
}
func modeLabel(apply bool) string {
if apply {
return "APPLY"
}
return "DRY-RUN"
}
func nearlyEqual(a, b float64) bool {
return math.Abs(a-b) <= qtyEpsilon
}
cmd/generate-read-api/main.go
-74
View File
@@ -1,74 +0,0 @@
package main
import (
"fmt"
"os"
"path/filepath"
"gitlab.com/mbugroup/lti-api.git/internal/cache"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/readapi"
"gitlab.com/mbugroup/lti-api.git/internal/route"
"github.com/gofiber/fiber/v2"
"github.com/redis/go-redis/v9"
)
func main() {
root, err := findRepoRoot()
if err != nil {
panic(err)
}
readapi.PrimeBuildConfig()
cache.SetRedis(redis.NewClient(&redis.Options{Addr: "127.0.0.1:6379"}))
app := fiber.New(config.FiberConfig())
app.Get("/healthz", func(c *fiber.Ctx) error {
return c.JSON(fiber.Map{"status": "ok", "service": "api", "version": config.Version})
})
app.Get("/readyz", func(c *fiber.Ctx) error {
return c.JSON(fiber.Map{"status": "ok", "db": "up", "redis": "up"})
})
route.Routes(app, nil)
artifacts, err := readapi.BuildArtifactsFromApp(app)
if err != nil {
panic(err)
}
files := map[string][]byte{
filepath.Join(root, "docs", "openapi", "read-api.json"): artifacts.OpenAPIJSON,
filepath.Join(root, "docs", "openapi", "read-api.yaml"): artifacts.OpenAPIYAML,
filepath.Join(root, "docs", "postman", "read-api.collection.json"): artifacts.PostmanCollectionJSON,
filepath.Join(root, "docs", "postman", "read-api.environment.json"): artifacts.PostmanEnvironmentJSON,
}
for path, body := range files {
if err := os.MkdirAll(filepath.Dir(path), 0o755); err != nil {
panic(err)
}
if err := os.WriteFile(path, body, 0o644); err != nil {
panic(err)
}
fmt.Printf("wrote %s\n", path)
}
}
func findRepoRoot() (string, error) {
wd, err := os.Getwd()
if err != nil {
return "", err
}
current := wd
for {
if _, err := os.Stat(filepath.Join(current, "go.mod")); err == nil {
return current, nil
}
parent := filepath.Dir(current)
if parent == current {
return "", fmt.Errorf("go.mod not found from %s", wd)
}
current = parent
}
}
cmd/import-adjustment-stock-prices/main.go
-587
View File
@@ -1,587 +0,0 @@
package main
import (
"context"
"flag"
"fmt"
"log"
"os"
"sort"
"strconv"
"strings"
"github.com/xuri/excelize/v2"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
"gorm.io/gorm"
)
type importOptions struct {
FilePath string
Sheet string
Apply bool
}
type headerIndexes struct {
AdjustmentID int
Weight int
}
type adjustmentPriceImportRow struct {
RowNumber int
AdjustmentID uint
Weight float64
}
type validationIssue struct {
Row int
Field string
Message string
}
func (i validationIssue) Error() string {
if i.Row > 0 {
return fmt.Sprintf("row=%d field=%s message=%s", i.Row, i.Field, i.Message)
}
return fmt.Sprintf("field=%s message=%s", i.Field, i.Message)
}
type adjustmentResolver interface {
ResolveExistingAdjustmentIDs(ctx context.Context, adjustmentIDs []uint) (map[uint]struct{}, error)
}
type dbAdjustmentResolver struct {
db *gorm.DB
}
type adjustmentPriceStore interface {
UpdatePrice(ctx context.Context, adjustmentID uint, price float64) (bool, error)
}
type txRunner interface {
InTx(ctx context.Context, fn func(store adjustmentPriceStore) error) error
}
type dbTxRunner struct {
db *gorm.DB
}
type dbAdjustmentPriceStore struct {
db *gorm.DB
}
type applyRowResult struct {
RowNumber int
AdjustmentID uint
Price float64
Changed bool
}
func main() {
var opts importOptions
flag.StringVar(&opts.FilePath, "file", "", "Path to .xlsx file (required)")
flag.StringVar(&opts.Sheet, "sheet", "", "Sheet name (optional, default: first sheet)")
flag.BoolVar(&opts.Apply, "apply", false, "Apply changes. If false, run as dry-run")
flag.Parse()
opts.FilePath = strings.TrimSpace(opts.FilePath)
opts.Sheet = strings.TrimSpace(opts.Sheet)
if opts.FilePath == "" {
log.Fatal("--file is required")
}
sheetName, rows, parseIssues, err := parseAdjustmentPriceFile(opts.FilePath, opts.Sheet)
if err != nil {
log.Fatalf("failed reading excel: %v", err)
}
ctx := context.Background()
db := database.Connect(config.DBHost, config.DBName)
resolver := dbAdjustmentResolver{db: db}
existingAdjustmentIDs, err := resolver.ResolveExistingAdjustmentIDs(ctx, collectAdjustmentIDs(rows))
if err != nil {
log.Fatalf("failed checking adjustment_id against adjustment_stocks: %v", err)
}
processableRows, skippedRows := splitRowsByExistingIDs(rows, existingAdjustmentIDs)
issues := append([]validationIssue{}, parseIssues...)
sortValidationIssues(issues)
fmt.Printf("Mode: %s\n", modeLabel(opts.Apply))
fmt.Printf("File: %s\n", opts.FilePath)
fmt.Printf("Sheet: %s\n", sheetName)
fmt.Printf("Rows parsed: %d\n", len(rows))
fmt.Printf("Rows invalid: %d\n", len(issues))
fmt.Printf("Rows processable: %d\n", len(processableRows))
fmt.Printf("Rows skipped_missing: %d\n", len(skippedRows))
fmt.Println()
if len(processableRows) > 0 {
printPlanRows(processableRows)
}
if len(skippedRows) > 0 {
printSkippedRows(skippedRows)
}
if len(processableRows) > 0 || len(skippedRows) > 0 {
fmt.Println()
}
if len(issues) > 0 {
fmt.Println("Validation errors:")
for _, issue := range issues {
fmt.Printf("ERROR %s\n", issue.Error())
}
fmt.Println()
fmt.Printf(
"Summary: planned=%d processable=%d skipped_missing=%d applied=0 failed=%d\n",
len(rows),
len(processableRows),
len(skippedRows),
len(issues),
)
os.Exit(1)
}
if !opts.Apply {
fmt.Printf(
"Summary: planned=%d processable=%d skipped_missing=%d applied=0 failed=0\n",
len(rows),
len(processableRows),
len(skippedRows),
)
return
}
results, err := applyIfRequested(ctx, true, dbTxRunner{db: db}, processableRows)
if err != nil {
log.Fatalf("apply failed: %v", err)
}
for _, result := range results {
fmt.Printf(
"DONE row=%d adjustment_id=%d price=%.3f status=%s\n",
result.RowNumber,
result.AdjustmentID,
result.Price,
applyStatus(result.Changed),
)
}
appliedCount := countChangedRows(results)
if len(results) > 0 {
fmt.Println()
}
fmt.Printf(
"Summary: planned=%d processable=%d skipped_missing=%d applied=%d failed=0\n",
len(rows),
len(processableRows),
len(skippedRows),
appliedCount,
)
}
func parseAdjustmentPriceFile(
filePath string,
requestedSheet string,
) (string, []adjustmentPriceImportRow, []validationIssue, error) {
workbook, err := excelize.OpenFile(filePath)
if err != nil {
return "", nil, nil, err
}
defer func() {
_ = workbook.Close()
}()
sheetName, err := resolveSheetName(workbook, requestedSheet)
if err != nil {
return "", nil, nil, err
}
allRows, err := workbook.GetRows(sheetName, excelize.Options{RawCellValue: true})
if err != nil {
return "", nil, nil, err
}
if len(allRows) == 0 {
return sheetName, nil, []validationIssue{{Field: "header", Message: "sheet is empty"}}, nil
}
indexes, headerIssues := parseHeaderIndexes(allRows[0])
if len(headerIssues) > 0 {
return sheetName, nil, headerIssues, nil
}
rowsByAdjustmentID := make(map[uint]adjustmentPriceImportRow)
issues := make([]validationIssue, 0)
for idx := 1; idx < len(allRows); idx++ {
rowNumber := idx + 1
rawRow := allRows[idx]
if isRowEmpty(rawRow) {
continue
}
parsed, rowIssues := parseDataRow(rawRow, rowNumber, indexes)
if len(rowIssues) > 0 {
issues = append(issues, rowIssues...)
continue
}
rowsByAdjustmentID[parsed.AdjustmentID] = *parsed
}
rows := make([]adjustmentPriceImportRow, 0, len(rowsByAdjustmentID))
for _, row := range rowsByAdjustmentID {
rows = append(rows, row)
}
sort.Slice(rows, func(i, j int) bool {
return rows[i].RowNumber < rows[j].RowNumber
})
if len(rows) == 0 && len(issues) == 0 {
issues = append(issues, validationIssue{Field: "rows", Message: "no data rows found"})
}
return sheetName, rows, issues, nil
}
func resolveSheetName(workbook *excelize.File, requestedSheet string) (string, error) {
if workbook == nil {
return "", fmt.Errorf("workbook is nil")
}
sheets := workbook.GetSheetList()
if len(sheets) == 0 {
return "", fmt.Errorf("workbook has no sheets")
}
if requestedSheet == "" {
return sheets[0], nil
}
for _, sheet := range sheets {
if strings.EqualFold(strings.TrimSpace(sheet), strings.TrimSpace(requestedSheet)) {
return sheet, nil
}
}
return "", fmt.Errorf("sheet %q not found", requestedSheet)
}
func parseHeaderIndexes(headerRow []string) (headerIndexes, []validationIssue) {
indexes := headerIndexes{AdjustmentID: -1, Weight: -1}
issues := make([]validationIssue, 0)
for idx, raw := range headerRow {
header := normalizeHeader(raw)
if header == "" {
continue
}
switch header {
case "adjustment_id":
if indexes.AdjustmentID >= 0 {
issues = append(issues, validationIssue{Field: "header", Message: "duplicate header adjustment_id"})
}
indexes.AdjustmentID = idx
case "weight":
if indexes.Weight >= 0 {
issues = append(issues, validationIssue{Field: "header", Message: "duplicate header weight"})
}
indexes.Weight = idx
}
}
if indexes.AdjustmentID < 0 {
issues = append(issues, validationIssue{Field: "adjustment_id", Message: "required header is missing"})
}
if indexes.Weight < 0 {
issues = append(issues, validationIssue{Field: "weight", Message: "required header is missing"})
}
return indexes, issues
}
func parseDataRow(
rawRow []string,
rowNumber int,
indexes headerIndexes,
) (*adjustmentPriceImportRow, []validationIssue) {
issues := make([]validationIssue, 0)
adjustmentIDRaw := strings.TrimSpace(cellValue(rawRow, indexes.AdjustmentID))
adjustmentID, err := parsePositiveUint(adjustmentIDRaw)
if err != nil {
issues = append(issues, validationIssue{Row: rowNumber, Field: "adjustment_id", Message: err.Error()})
}
weightRaw := strings.TrimSpace(cellValue(rawRow, indexes.Weight))
weight, err := parseNonNegativeFloat(weightRaw)
if err != nil {
issues = append(issues, validationIssue{Row: rowNumber, Field: "weight", Message: err.Error()})
}
if len(issues) > 0 {
return nil, issues
}
return &adjustmentPriceImportRow{
RowNumber: rowNumber,
AdjustmentID: adjustmentID,
Weight: weight,
}, nil
}
func parsePositiveUint(raw string) (uint, error) {
if raw == "" {
return 0, fmt.Errorf("is required")
}
uintValue, err := strconv.ParseUint(raw, 10, 64)
if err == nil {
if uintValue == 0 {
return 0, fmt.Errorf("must be greater than 0")
}
return uint(uintValue), nil
}
floatValue, floatErr := strconv.ParseFloat(raw, 64)
if floatErr != nil {
return 0, fmt.Errorf("must be a positive integer")
}
if floatValue <= 0 {
return 0, fmt.Errorf("must be greater than 0")
}
if floatValue != float64(uint(floatValue)) {
return 0, fmt.Errorf("must be a positive integer")
}
return uint(floatValue), nil
}
func parseNonNegativeFloat(raw string) (float64, error) {
if raw == "" {
return 0, fmt.Errorf("is required")
}
value, err := strconv.ParseFloat(raw, 64)
if err != nil {
return 0, fmt.Errorf("must be numeric")
}
if value < 0 {
return 0, fmt.Errorf("must be greater than or equal to 0")
}
return value, nil
}
func isRowEmpty(row []string) bool {
for _, cell := range row {
if strings.TrimSpace(cell) != "" {
return false
}
}
return true
}
func normalizeHeader(raw string) string {
return strings.ToLower(strings.TrimSpace(raw))
}
func cellValue(row []string, index int) string {
if index < 0 || index >= len(row) {
return ""
}
return row[index]
}
func collectAdjustmentIDs(rows []adjustmentPriceImportRow) []uint {
ids := make([]uint, 0, len(rows))
seen := make(map[uint]struct{}, len(rows))
for _, row := range rows {
if row.AdjustmentID == 0 {
continue
}
if _, exists := seen[row.AdjustmentID]; exists {
continue
}
seen[row.AdjustmentID] = struct{}{}
ids = append(ids, row.AdjustmentID)
}
sort.Slice(ids, func(i, j int) bool {
return ids[i] < ids[j]
})
return ids
}
func (r dbAdjustmentResolver) ResolveExistingAdjustmentIDs(
ctx context.Context,
adjustmentIDs []uint,
) (map[uint]struct{}, error) {
result := make(map[uint]struct{})
if len(adjustmentIDs) == 0 {
return result, nil
}
type adjustmentIDRow struct {
ID uint `gorm:"column:id"`
}
rows := make([]adjustmentIDRow, 0, len(adjustmentIDs))
if err := r.db.WithContext(ctx).
Table("adjustment_stocks").
Select("id").
Where("id IN ?", adjustmentIDs).
Scan(&rows).Error; err != nil {
return nil, err
}
for _, row := range rows {
result[row.ID] = struct{}{}
}
return result, nil
}
func splitRowsByExistingIDs(
rows []adjustmentPriceImportRow,
existing map[uint]struct{},
) ([]adjustmentPriceImportRow, []adjustmentPriceImportRow) {
processable := make([]adjustmentPriceImportRow, 0, len(rows))
skipped := make([]adjustmentPriceImportRow, 0)
for _, row := range rows {
if _, exists := existing[row.AdjustmentID]; exists {
processable = append(processable, row)
continue
}
skipped = append(skipped, row)
}
return processable, skipped
}
func printPlanRows(rows []adjustmentPriceImportRow) {
for _, row := range rows {
fmt.Printf(
"PLAN row=%d adjustment_id=%d price=%.3f\n",
row.RowNumber,
row.AdjustmentID,
row.Weight,
)
}
}
func printSkippedRows(rows []adjustmentPriceImportRow) {
for _, row := range rows {
fmt.Printf(
"SKIP row=%d adjustment_id=%d reason=adjustment_id not found\n",
row.RowNumber,
row.AdjustmentID,
)
}
}
func sortValidationIssues(issues []validationIssue) {
sort.Slice(issues, func(i, j int) bool {
if issues[i].Row == issues[j].Row {
if issues[i].Field == issues[j].Field {
return issues[i].Message < issues[j].Message
}
return issues[i].Field < issues[j].Field
}
return issues[i].Row < issues[j].Row
})
}
func applyIfRequested(
ctx context.Context,
apply bool,
runner txRunner,
rows []adjustmentPriceImportRow,
) ([]applyRowResult, error) {
if !apply || len(rows) == 0 {
return nil, nil
}
return applyImportRows(ctx, runner, rows)
}
func applyImportRows(
ctx context.Context,
runner txRunner,
rows []adjustmentPriceImportRow,
) ([]applyRowResult, error) {
results := make([]applyRowResult, 0, len(rows))
err := runner.InTx(ctx, func(store adjustmentPriceStore) error {
for _, row := range rows {
changed, err := store.UpdatePrice(ctx, row.AdjustmentID, row.Weight)
if err != nil {
return fmt.Errorf("row %d adjustment_id=%d update failed: %w", row.RowNumber, row.AdjustmentID, err)
}
results = append(results, applyRowResult{
RowNumber: row.RowNumber,
AdjustmentID: row.AdjustmentID,
Price: row.Weight,
Changed: changed,
})
}
return nil
})
if err != nil {
return nil, err
}
return results, nil
}
func (r dbTxRunner) InTx(ctx context.Context, fn func(store adjustmentPriceStore) error) error {
return r.db.WithContext(ctx).Transaction(func(tx *gorm.DB) error {
return fn(dbAdjustmentPriceStore{db: tx})
})
}
func (s dbAdjustmentPriceStore) UpdatePrice(
ctx context.Context,
adjustmentID uint,
price float64,
) (bool, error) {
result := s.db.WithContext(ctx).Exec(`
UPDATE adjustment_stocks
SET price = ?,
updated_at = NOW()
WHERE id = ?
AND price IS DISTINCT FROM ?
`, price, adjustmentID, price)
if result.Error != nil {
return false, result.Error
}
return result.RowsAffected > 0, nil
}
func modeLabel(apply bool) string {
if apply {
return "APPLY"
}
return "DRY-RUN"
}
func applyStatus(changed bool) string {
if changed {
return "UPDATED"
}
return "UNCHANGED"
}
func countChangedRows(results []applyRowResult) int {
count := 0
for _, result := range results {
if result.Changed {
count++
}
}
return count
}
cmd/import-adjustment-stock-prices/main_test.go
-362
View File
@@ -1,362 +0,0 @@
package main
import (
"context"
"errors"
"fmt"
"path/filepath"
"strings"
"testing"
"github.com/xuri/excelize/v2"
)
func TestParseAdjustmentPriceFile_ValidSingleRow(t *testing.T) {
filePath := createWorkbook(
t,
"adjustment_prices",
[]string{"adjustment_id", "weight"},
[][]string{{"101", "12.345"}},
)
sheet, rows, issues, err := parseAdjustmentPriceFile(filePath, "")
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if sheet != "adjustment_prices" {
t.Fatalf("expected selected sheet adjustment_prices, got %q", sheet)
}
if len(issues) != 0 {
t.Fatalf("expected no issues, got %+v", issues)
}
if len(rows) != 1 {
t.Fatalf("expected 1 row, got %d", len(rows))
}
if rows[0].AdjustmentID != 101 {
t.Fatalf("expected adjustment_id 101, got %d", rows[0].AdjustmentID)
}
if rows[0].Weight != 12.345 {
t.Fatalf("expected weight 12.345, got %v", rows[0].Weight)
}
}
func TestParseAdjustmentPriceFile_ValidMultiRow(t *testing.T) {
filePath := createWorkbook(
t,
"adjustment_prices",
[]string{" Adjustment_ID ", "WEIGHT"},
[][]string{{"101", "10"}, {"102", "11.5"}},
)
_, rows, issues, err := parseAdjustmentPriceFile(filePath, "adjustment_prices")
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if len(issues) != 0 {
t.Fatalf("expected no issues, got %+v", issues)
}
if len(rows) != 2 {
t.Fatalf("expected 2 rows, got %d", len(rows))
}
}
func TestParseAdjustmentPriceFile_MissingRequiredHeader(t *testing.T) {
filePath := createWorkbook(
t,
"adjustment_prices",
[]string{"adjustment_id", "price"},
[][]string{{"101", "12"}},
)
_, rows, issues, err := parseAdjustmentPriceFile(filePath, "")
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if len(rows) != 0 {
t.Fatalf("expected 0 parsed rows when header invalid, got %d", len(rows))
}
if !hasIssue(issues, 0, "weight", "required header is missing") {
t.Fatalf("expected missing weight header issue, got %+v", issues)
}
}
func TestParseAdjustmentPriceFile_InvalidAdjustmentID(t *testing.T) {
filePath := createWorkbook(
t,
"adjustment_prices",
[]string{"adjustment_id", "weight"},
[][]string{{"abc", "10"}, {"0", "12"}},
)
_, rows, issues, err := parseAdjustmentPriceFile(filePath, "")
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if len(rows) != 0 {
t.Fatalf("expected no valid rows, got %d", len(rows))
}
if !hasIssue(issues, 2, "adjustment_id", "must be a positive integer") {
t.Fatalf("expected non numeric adjustment_id issue, got %+v", issues)
}
if !hasIssue(issues, 3, "adjustment_id", "must be greater than 0") {
t.Fatalf("expected adjustment_id >0 issue, got %+v", issues)
}
}
func TestParseAdjustmentPriceFile_InvalidWeight(t *testing.T) {
filePath := createWorkbook(
t,
"adjustment_prices",
[]string{"adjustment_id", "weight"},
[][]string{{"101", "abc"}, {"102", "-1"}},
)
_, rows, issues, err := parseAdjustmentPriceFile(filePath, "")
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if len(rows) != 0 {
t.Fatalf("expected no valid rows, got %d", len(rows))
}
if !hasIssue(issues, 2, "weight", "must be numeric") {
t.Fatalf("expected weight numeric issue, got %+v", issues)
}
if !hasIssue(issues, 3, "weight", "must be greater than or equal to 0") {
t.Fatalf("expected weight >=0 issue, got %+v", issues)
}
}
func TestParseAdjustmentPriceFile_DuplicateAdjustmentID_LastRowWins(t *testing.T) {
filePath := createWorkbook(
t,
"adjustment_prices",
[]string{"adjustment_id", "weight"},
[][]string{{"101", "10"}, {"102", "20"}, {"101", "30"}},
)
_, rows, issues, err := parseAdjustmentPriceFile(filePath, "")
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if len(issues) != 0 {
t.Fatalf("expected no issues, got %+v", issues)
}
if len(rows) != 2 {
t.Fatalf("expected 2 deduped rows, got %d", len(rows))
}
row101, ok := findRowByAdjustmentID(rows, 101)
if !ok {
t.Fatalf("expected adjustment_id 101 to exist, got %+v", rows)
}
if row101.Weight != 30 {
t.Fatalf("expected duplicate adjustment_id to keep last weight 30, got %v", row101.Weight)
}
if row101.RowNumber != 4 {
t.Fatalf("expected duplicate adjustment_id to keep last row number 4, got %d", row101.RowNumber)
}
}
func TestSplitRowsByExistingIDs_SkipMissing(t *testing.T) {
rows := []adjustmentPriceImportRow{
{RowNumber: 2, AdjustmentID: 101, Weight: 10},
{RowNumber: 3, AdjustmentID: 102, Weight: 11},
{RowNumber: 4, AdjustmentID: 103, Weight: 12},
}
existing := map[uint]struct{}{101: {}, 103: {}}
processable, skipped := splitRowsByExistingIDs(rows, existing)
if len(processable) != 2 {
t.Fatalf("expected 2 processable rows, got %d", len(processable))
}
if len(skipped) != 1 {
t.Fatalf("expected 1 skipped row, got %d", len(skipped))
}
if skipped[0].AdjustmentID != 102 {
t.Fatalf("expected adjustment_id 102 skipped, got %+v", skipped)
}
}
func TestApplyIfRequested_DryRunDoesNotWrite(t *testing.T) {
runner := &fakeTransactionRunner{}
rows := []adjustmentPriceImportRow{{RowNumber: 2, AdjustmentID: 101, Weight: 10}}
results, err := applyIfRequested(context.Background(), false, runner, rows)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if results != nil {
t.Fatalf("expected nil results on dry-run, got %+v", results)
}
if runner.txCalls != 0 {
t.Fatalf("expected no transaction call during dry-run, got %d", runner.txCalls)
}
}
func TestApplyImportRows_Success(t *testing.T) {
runner := &fakeTransactionRunner{
changedByID: map[uint]bool{101: true, 102: false},
}
rows := []adjustmentPriceImportRow{
{RowNumber: 2, AdjustmentID: 101, Weight: 10},
{RowNumber: 3, AdjustmentID: 102, Weight: 11},
}
results, err := applyImportRows(context.Background(), runner, rows)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if runner.txCalls != 1 {
t.Fatalf("expected 1 transaction call, got %d", runner.txCalls)
}
if len(runner.committedCalls) != 2 {
t.Fatalf("expected 2 committed updates, got %d", len(runner.committedCalls))
}
if len(results) != 2 {
t.Fatalf("expected 2 row results, got %d", len(results))
}
if !results[0].Changed || results[1].Changed {
t.Fatalf("unexpected changed flags: %+v", results)
}
}
func TestApplyImportRows_RollbackOnError(t *testing.T) {
runner := &fakeTransactionRunner{
errByID: map[uint]error{102: errors.New("boom")},
}
rows := []adjustmentPriceImportRow{
{RowNumber: 2, AdjustmentID: 101, Weight: 10},
{RowNumber: 3, AdjustmentID: 102, Weight: 11},
}
_, err := applyImportRows(context.Background(), runner, rows)
if err == nil {
t.Fatal("expected error due to update failure")
}
if !strings.Contains(err.Error(), "row 3 adjustment_id=102 update failed") {
t.Fatalf("unexpected error message: %v", err)
}
if runner.txCalls != 1 {
t.Fatalf("expected 1 transaction call, got %d", runner.txCalls)
}
if len(runner.committedCalls) != 0 {
t.Fatalf("expected no committed updates on rollback, got %d", len(runner.committedCalls))
}
}
func createWorkbook(t *testing.T, sheetName string, headers []string, rows [][]string) string {
t.Helper()
f := excelize.NewFile()
defaultSheet := f.GetSheetName(f.GetActiveSheetIndex())
if sheetName == "" {
sheetName = defaultSheet
} else if sheetName != defaultSheet {
f.SetSheetName(defaultSheet, sheetName)
}
for idx, header := range headers {
cell, err := excelize.CoordinatesToCellName(idx+1, 1)
if err != nil {
t.Fatalf("failed resolving header cell: %v", err)
}
if err := f.SetCellValue(sheetName, cell, header); err != nil {
t.Fatalf("failed setting header cell: %v", err)
}
}
for rowIdx, row := range rows {
for colIdx, value := range row {
cell, err := excelize.CoordinatesToCellName(colIdx+1, rowIdx+2)
if err != nil {
t.Fatalf("failed resolving data cell: %v", err)
}
if err := f.SetCellValue(sheetName, cell, value); err != nil {
t.Fatalf("failed setting data cell: %v", err)
}
}
}
path := filepath.Join(t.TempDir(), "adjustment_prices.xlsx")
if err := f.SaveAs(path); err != nil {
t.Fatalf("failed saving workbook: %v", err)
}
if err := f.Close(); err != nil {
t.Fatalf("failed closing workbook: %v", err)
}
return path
}
func hasIssue(issues []validationIssue, row int, field, messageContains string) bool {
for _, issue := range issues {
if issue.Row != row {
continue
}
if issue.Field != field {
continue
}
if strings.Contains(issue.Message, messageContains) {
return true
}
}
return false
}
func findRowByAdjustmentID(rows []adjustmentPriceImportRow, adjustmentID uint) (adjustmentPriceImportRow, bool) {
for _, row := range rows {
if row.AdjustmentID == adjustmentID {
return row, true
}
}
return adjustmentPriceImportRow{}, false
}
type updateCall struct {
adjustmentID uint
price float64
}
type fakeAdjustmentPriceStore struct {
changedByID map[uint]bool
errByID map[uint]error
calls []updateCall
}
func (s *fakeAdjustmentPriceStore) UpdatePrice(_ context.Context, adjustmentID uint, price float64) (bool, error) {
s.calls = append(s.calls, updateCall{adjustmentID: adjustmentID, price: price})
if err, exists := s.errByID[adjustmentID]; exists {
return false, fmt.Errorf("forced update failure for adjustment_id=%d: %w", adjustmentID, err)
}
if changed, exists := s.changedByID[adjustmentID]; exists {
return changed, nil
}
return true, nil
}
type fakeTransactionRunner struct {
txCalls int
changedByID map[uint]bool
errByID map[uint]error
committedCalls []updateCall
}
func (r *fakeTransactionRunner) InTx(ctx context.Context, fn func(store adjustmentPriceStore) error) error {
r.txCalls++
txStore := &fakeAdjustmentPriceStore{
changedByID: r.changedByID,
errByID: r.errByID,
calls: make([]updateCall, 0),
}
if err := fn(txStore); err != nil {
return err
}
r.committedCalls = append(r.committedCalls, txStore.calls...)
return nil
}
var _ txRunner = (*fakeTransactionRunner)(nil)
var _ adjustmentPriceStore = (*fakeAdjustmentPriceStore)(nil)
cmd/import-farm-depreciation-manual-inputs/main.go
-632
View File
@@ -1,632 +0,0 @@
package main
import (
"context"
"flag"
"fmt"
"log"
"os"
"sort"
"strconv"
"strings"
"time"
"github.com/xuri/excelize/v2"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
repportRepo "gitlab.com/mbugroup/lti-api.git/internal/modules/repports/repositories"
"gitlab.com/mbugroup/lti-api.git/internal/utils"
"gorm.io/gorm"
)
const dateLayout = "2006-01-02"
type importOptions struct {
FilePath string
Sheet string
Apply bool
}
type headerIndexes struct {
ProjectFlockID int
TotalCost int
CutoverDate int
Note int
}
type manualInputImportRow struct {
RowNumber int
ProjectFlockID uint
TotalCost float64
CutoverDate time.Time
Note *string
}
type validationIssue struct {
Row int
Field string
Message string
}
func (i validationIssue) Error() string {
if i.Row > 0 {
return fmt.Sprintf("row=%d field=%s message=%s", i.Row, i.Field, i.Message)
}
return fmt.Sprintf("field=%s message=%s", i.Field, i.Message)
}
type farmResolver interface {
ResolveActiveLayingFarms(ctx context.Context, projectFlockIDs []uint) (map[uint]string, error)
}
type dbFarmResolver struct {
db *gorm.DB
}
type manualInputStore interface {
UpsertManualInput(ctx context.Context, row *entity.FarmDepreciationManualInput) error
DeleteSnapshotsFromDate(ctx context.Context, fromDate time.Time, farmIDs []uint) error
}
type txRunner interface {
InTx(ctx context.Context, fn func(store manualInputStore) error) error
}
type dbTxRunner struct {
db *gorm.DB
}
type expenseDepreciationStore struct {
repo repportRepo.ExpenseDepreciationRepository
}
type farmIdentityRow struct {
ID uint `gorm:"column:id"`
FarmName string `gorm:"column:farm_name"`
}
func main() {
var opts importOptions
flag.StringVar(&opts.FilePath, "file", "", "Path to .xlsx file (required)")
flag.StringVar(&opts.Sheet, "sheet", "", "Sheet name (optional, default: first sheet)")
flag.BoolVar(&opts.Apply, "apply", false, "Apply changes. If false, run as dry-run")
flag.Parse()
opts.FilePath = strings.TrimSpace(opts.FilePath)
opts.Sheet = strings.TrimSpace(opts.Sheet)
if opts.FilePath == "" {
log.Fatal("--file is required")
}
location, err := time.LoadLocation("Asia/Jakarta")
if err != nil {
log.Fatalf("failed to load timezone Asia/Jakarta: %v", err)
}
sheetName, rows, parseIssues, err := parseManualInputFile(opts.FilePath, opts.Sheet, location)
if err != nil {
log.Fatalf("failed reading excel: %v", err)
}
ctx := context.Background()
db := database.Connect(config.DBHost, config.DBName)
resolver := dbFarmResolver{db: db}
farmNameByID, err := resolver.ResolveActiveLayingFarms(ctx, collectProjectFlockIDs(rows))
if err != nil {
log.Fatalf("failed validating project_flock_id against project_flocks: %v", err)
}
issues := append([]validationIssue{}, parseIssues...)
issues = append(issues, buildMissingFarmIssues(rows, farmNameByID)...)
sortValidationIssues(issues)
fmt.Printf("Mode: %s\n", modeLabel(opts.Apply))
fmt.Printf("File: %s\n", opts.FilePath)
fmt.Printf("Sheet: %s\n", sheetName)
fmt.Printf("Rows parsed: %d\n", len(rows))
fmt.Printf("Rows invalid: %d\n", len(issues))
fmt.Println()
if len(rows) > 0 {
printPlanRows(rows, farmNameByID)
fmt.Println()
}
if len(issues) > 0 {
fmt.Println("Validation errors:")
for _, issue := range issues {
fmt.Printf("ERROR %s\n", issue.Error())
}
fmt.Println()
fmt.Printf("Summary: planned=%d applied=0 failed=%d\n", len(rows), len(issues))
os.Exit(1)
}
if !opts.Apply {
fmt.Printf("Summary: planned=%d applied=0 failed=0\n", len(rows))
return
}
if len(rows) == 0 {
fmt.Println("Summary: planned=0 applied=0 failed=0")
return
}
if err := applyIfRequested(ctx, true, dbTxRunner{db: db}, rows); err != nil {
log.Fatalf("apply failed: %v", err)
}
for _, row := range rows {
fmt.Printf(
"DONE row=%d project_flock_id=%d cutover_date=%s\n",
row.RowNumber,
row.ProjectFlockID,
row.CutoverDate.In(location).Format(dateLayout),
)
}
fmt.Println()
fmt.Printf("Summary: planned=%d applied=%d failed=0\n", len(rows), len(rows))
}
func parseManualInputFile(
filePath string,
requestedSheet string,
location *time.Location,
) (string, []manualInputImportRow, []validationIssue, error) {
workbook, err := excelize.OpenFile(filePath)
if err != nil {
return "", nil, nil, err
}
defer func() {
_ = workbook.Close()
}()
sheetName, err := resolveSheetName(workbook, requestedSheet)
if err != nil {
return "", nil, nil, err
}
allRows, err := workbook.GetRows(sheetName, excelize.Options{RawCellValue: true})
if err != nil {
return "", nil, nil, err
}
if len(allRows) == 0 {
return sheetName, nil, []validationIssue{
{Field: "header", Message: "sheet is empty"},
}, nil
}
indexes, headerIssues := parseHeaderIndexes(allRows[0])
if len(headerIssues) > 0 {
return sheetName, nil, headerIssues, nil
}
rows := make([]manualInputImportRow, 0, len(allRows)-1)
issues := make([]validationIssue, 0)
seenProjectFlockIDs := make(map[uint]int)
for idx := 1; idx < len(allRows); idx++ {
rowNumber := idx + 1
rawRow := allRows[idx]
if isRowEmpty(rawRow) {
continue
}
parsed, rowIssues := parseDataRow(rawRow, rowNumber, indexes, location, seenProjectFlockIDs)
if len(rowIssues) > 0 {
issues = append(issues, rowIssues...)
continue
}
rows = append(rows, *parsed)
}
if len(rows) == 0 && len(issues) == 0 {
issues = append(issues, validationIssue{
Field: "rows",
Message: "no data rows found",
})
}
return sheetName, rows, issues, nil
}
func resolveSheetName(workbook *excelize.File, requestedSheet string) (string, error) {
if workbook == nil {
return "", fmt.Errorf("workbook is nil")
}
sheets := workbook.GetSheetList()
if len(sheets) == 0 {
return "", fmt.Errorf("workbook has no sheets")
}
if requestedSheet == "" {
return sheets[0], nil
}
for _, sheet := range sheets {
if strings.EqualFold(strings.TrimSpace(sheet), strings.TrimSpace(requestedSheet)) {
return sheet, nil
}
}
return "", fmt.Errorf("sheet %q not found", requestedSheet)
}
func parseHeaderIndexes(headerRow []string) (headerIndexes, []validationIssue) {
indexes := headerIndexes{
ProjectFlockID: -1,
TotalCost: -1,
CutoverDate: -1,
Note: -1,
}
issues := make([]validationIssue, 0)
for idx, raw := range headerRow {
header := normalizeHeader(raw)
if header == "" {
continue
}
switch header {
case "project_flock_id":
if indexes.ProjectFlockID >= 0 {
issues = append(issues, validationIssue{
Field: "header",
Message: "duplicate header project_flock_id",
})
}
indexes.ProjectFlockID = idx
case "total_cost":
if indexes.TotalCost >= 0 {
issues = append(issues, validationIssue{
Field: "header",
Message: "duplicate header total_cost",
})
}
indexes.TotalCost = idx
case "cutover_date":
if indexes.CutoverDate >= 0 {
issues = append(issues, validationIssue{
Field: "header",
Message: "duplicate header cutover_date",
})
}
indexes.CutoverDate = idx
case "note":
if indexes.Note >= 0 {
issues = append(issues, validationIssue{
Field: "header",
Message: "duplicate header note",
})
}
indexes.Note = idx
}
}
if indexes.ProjectFlockID < 0 {
issues = append(issues, validationIssue{
Field: "project_flock_id",
Message: "required header is missing",
})
}
if indexes.TotalCost < 0 {
issues = append(issues, validationIssue{
Field: "total_cost",
Message: "required header is missing",
})
}
if indexes.CutoverDate < 0 {
issues = append(issues, validationIssue{
Field: "cutover_date",
Message: "required header is missing",
})
}
return indexes, issues
}
func parseDataRow(
rawRow []string,
rowNumber int,
indexes headerIndexes,
location *time.Location,
seenProjectFlockIDs map[uint]int,
) (*manualInputImportRow, []validationIssue) {
issues := make([]validationIssue, 0)
projectFlockIDRaw := strings.TrimSpace(cellValue(rawRow, indexes.ProjectFlockID))
projectFlockID, err := parsePositiveUint(projectFlockIDRaw)
if err != nil {
issues = append(issues, validationIssue{
Row: rowNumber,
Field: "project_flock_id",
Message: err.Error(),
})
}
totalCostRaw := strings.TrimSpace(cellValue(rawRow, indexes.TotalCost))
totalCost, err := parseNonNegativeFloat(totalCostRaw)
if err != nil {
issues = append(issues, validationIssue{
Row: rowNumber,
Field: "total_cost",
Message: err.Error(),
})
}
cutoverDateRaw := strings.TrimSpace(cellValue(rawRow, indexes.CutoverDate))
cutoverDate, err := parseDateOnlyInLocation(cutoverDateRaw, location)
if err != nil {
issues = append(issues, validationIssue{
Row: rowNumber,
Field: "cutover_date",
Message: err.Error(),
})
}
var note *string
noteRaw := strings.TrimSpace(cellValue(rawRow, indexes.Note))
if noteRaw != "" {
if len([]rune(noteRaw)) > 1000 {
issues = append(issues, validationIssue{
Row: rowNumber,
Field: "note",
Message: "must have at most 1000 characters",
})
} else {
note = &noteRaw
}
}
if projectFlockID > 0 {
if previousRow, exists := seenProjectFlockIDs[projectFlockID]; exists {
issues = append(issues, validationIssue{
Row: rowNumber,
Field: "project_flock_id",
Message: fmt.Sprintf("duplicate value %d (already used in row %d)", projectFlockID, previousRow),
})
} else {
seenProjectFlockIDs[projectFlockID] = rowNumber
}
}
if len(issues) > 0 {
return nil, issues
}
return &manualInputImportRow{
RowNumber: rowNumber,
ProjectFlockID: projectFlockID,
TotalCost: totalCost,
CutoverDate: cutoverDate,
Note: note,
}, nil
}
func parsePositiveUint(raw string) (uint, error) {
if raw == "" {
return 0, fmt.Errorf("is required")
}
uintValue, err := strconv.ParseUint(raw, 10, 64)
if err == nil {
if uintValue == 0 {
return 0, fmt.Errorf("must be greater than 0")
}
return uint(uintValue), nil
}
floatValue, floatErr := strconv.ParseFloat(raw, 64)
if floatErr != nil {
return 0, fmt.Errorf("must be a positive integer")
}
if floatValue <= 0 {
return 0, fmt.Errorf("must be greater than 0")
}
if floatValue != float64(uint(floatValue)) {
return 0, fmt.Errorf("must be a positive integer")
}
return uint(floatValue), nil
}
func parseNonNegativeFloat(raw string) (float64, error) {
if raw == "" {
return 0, fmt.Errorf("is required")
}
value, err := strconv.ParseFloat(raw, 64)
if err != nil {
return 0, fmt.Errorf("must be numeric")
}
if value < 0 {
return 0, fmt.Errorf("must be greater than or equal to 0")
}
return value, nil
}
func parseDateOnlyInLocation(raw string, location *time.Location) (time.Time, error) {
if raw == "" {
return time.Time{}, fmt.Errorf("is required")
}
value, err := time.ParseInLocation(dateLayout, raw, location)
if err != nil {
return time.Time{}, fmt.Errorf("must follow format YYYY-MM-DD")
}
return value, nil
}
func isRowEmpty(row []string) bool {
for _, cell := range row {
if strings.TrimSpace(cell) != "" {
return false
}
}
return true
}
func normalizeHeader(raw string) string {
return strings.ToLower(strings.TrimSpace(raw))
}
func cellValue(row []string, index int) string {
if index < 0 || index >= len(row) {
return ""
}
return row[index]
}
func collectProjectFlockIDs(rows []manualInputImportRow) []uint {
ids := make([]uint, 0, len(rows))
seen := make(map[uint]struct{}, len(rows))
for _, row := range rows {
if row.ProjectFlockID == 0 {
continue
}
if _, exists := seen[row.ProjectFlockID]; exists {
continue
}
seen[row.ProjectFlockID] = struct{}{}
ids = append(ids, row.ProjectFlockID)
}
sort.Slice(ids, func(i, j int) bool {
return ids[i] < ids[j]
})
return ids
}
func (r dbFarmResolver) ResolveActiveLayingFarms(
ctx context.Context,
projectFlockIDs []uint,
) (map[uint]string, error) {
result := make(map[uint]string)
if len(projectFlockIDs) == 0 {
return result, nil
}
rows := make([]farmIdentityRow, 0, len(projectFlockIDs))
if err := r.db.WithContext(ctx).
Table("project_flocks").
Select("id, flock_name AS farm_name").
Where("id IN ?", projectFlockIDs).
Where("deleted_at IS NULL").
Where("category = ?", utils.ProjectFlockCategoryLaying).
Scan(&rows).Error; err != nil {
return nil, err
}
for _, row := range rows {
result[row.ID] = row.FarmName
}
return result, nil
}
func buildMissingFarmIssues(rows []manualInputImportRow, farmNameByID map[uint]string) []validationIssue {
issues := make([]validationIssue, 0)
for _, row := range rows {
if _, exists := farmNameByID[row.ProjectFlockID]; exists {
continue
}
issues = append(issues, validationIssue{
Row: row.RowNumber,
Field: "project_flock_id",
Message: fmt.Sprintf("value %d must reference an active LAYING project_flock", row.ProjectFlockID),
})
}
return issues
}
func printPlanRows(rows []manualInputImportRow, farmNameByID map[uint]string) {
for _, row := range rows {
farmName := farmNameByID[row.ProjectFlockID]
fmt.Printf(
"PLAN row=%d project_flock_id=%d farm_name=%q total_cost=%.3f cutover_date=%s note=%q\n",
row.RowNumber,
row.ProjectFlockID,
farmName,
row.TotalCost,
row.CutoverDate.Format(dateLayout),
derefString(row.Note),
)
}
}
func sortValidationIssues(issues []validationIssue) {
sort.Slice(issues, func(i, j int) bool {
if issues[i].Row == issues[j].Row {
if issues[i].Field == issues[j].Field {
return issues[i].Message < issues[j].Message
}
return issues[i].Field < issues[j].Field
}
return issues[i].Row < issues[j].Row
})
}
func applyIfRequested(ctx context.Context, apply bool, runner txRunner, rows []manualInputImportRow) error {
if !apply || len(rows) == 0 {
return nil
}
return applyImportRows(ctx, runner, rows)
}
func applyImportRows(ctx context.Context, runner txRunner, rows []manualInputImportRow) error {
return runner.InTx(ctx, func(store manualInputStore) error {
for _, row := range rows {
payload := entity.FarmDepreciationManualInput{
ProjectFlockId: row.ProjectFlockID,
TotalCost: row.TotalCost,
CutoverDate: row.CutoverDate,
Note: row.Note,
}
if err := store.UpsertManualInput(ctx, &payload); err != nil {
return fmt.Errorf("row %d project_flock_id=%d upsert failed: %w", row.RowNumber, row.ProjectFlockID, err)
}
if err := store.DeleteSnapshotsFromDate(ctx, row.CutoverDate, []uint{row.ProjectFlockID}); err != nil {
return fmt.Errorf("row %d project_flock_id=%d snapshot invalidation failed: %w", row.RowNumber, row.ProjectFlockID, err)
}
}
return nil
})
}
func (r dbTxRunner) InTx(ctx context.Context, fn func(store manualInputStore) error) error {
return r.db.WithContext(ctx).Transaction(func(tx *gorm.DB) error {
repo := repportRepo.NewExpenseDepreciationRepository(tx)
store := expenseDepreciationStore{repo: repo}
return fn(store)
})
}
func (s expenseDepreciationStore) UpsertManualInput(ctx context.Context, row *entity.FarmDepreciationManualInput) error {
return s.repo.UpsertManualInput(ctx, row)
}
func (s expenseDepreciationStore) DeleteSnapshotsFromDate(ctx context.Context, fromDate time.Time, farmIDs []uint) error {
return s.repo.DeleteSnapshotsFromDate(ctx, fromDate, farmIDs)
}
func modeLabel(apply bool) string {
if apply {
return "APPLY"
}
return "DRY-RUN"
}
func derefString(value *string) string {
if value == nil {
return ""
}
return *value
}
cmd/import-farm-depreciation-manual-inputs/main_test.go
-563
View File
@@ -1,563 +0,0 @@
package main
import (
"context"
"errors"
"fmt"
"path/filepath"
"strings"
"testing"
"time"
"github.com/xuri/excelize/v2"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
)
func TestParseManualInputFile_ValidSingleRow(t *testing.T) {
filePath := createManualInputWorkbook(
t,
"manual_inputs",
[]string{"project_flock_id", "total_cost", "cutover_date", "note"},
[][]string{
{"101", "12345.678", "2026-06-01", "manual seed"},
},
)
location := mustJakartaLocation(t)
sheet, rows, issues, err := parseManualInputFile(filePath, "", location)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if sheet != "manual_inputs" {
t.Fatalf("expected selected sheet manual_inputs, got %q", sheet)
}
if len(issues) != 0 {
t.Fatalf("expected no issues, got %+v", issues)
}
if len(rows) != 1 {
t.Fatalf("expected 1 row, got %d", len(rows))
}
if rows[0].ProjectFlockID != 101 {
t.Fatalf("expected project_flock_id 101, got %d", rows[0].ProjectFlockID)
}
if rows[0].TotalCost != 12345.678 {
t.Fatalf("expected total_cost 12345.678, got %v", rows[0].TotalCost)
}
if rows[0].CutoverDate.Format(dateLayout) != "2026-06-01" {
t.Fatalf("expected cutover_date 2026-06-01, got %s", rows[0].CutoverDate.Format(dateLayout))
}
if rows[0].Note == nil || *rows[0].Note != "manual seed" {
t.Fatalf("expected note manual seed, got %+v", rows[0].Note)
}
}
func TestParseManualInputFile_ValidMultiRow(t *testing.T) {
filePath := createManualInputWorkbook(
t,
"manual_inputs",
[]string{" Project_Flock_ID ", "TOTAL_COST", "cutover_date", "NOTE"},
[][]string{
{"101", "1200", "2026-06-01", ""},
{"102", "1300.5", "2026-06-02", "second"},
},
)
location := mustJakartaLocation(t)
_, rows, issues, err := parseManualInputFile(filePath, "manual_inputs", location)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if len(issues) != 0 {
t.Fatalf("expected no issues, got %+v", issues)
}
if len(rows) != 2 {
t.Fatalf("expected 2 rows, got %d", len(rows))
}
if rows[0].Note != nil {
t.Fatalf("expected first row note nil, got %+v", rows[0].Note)
}
if rows[1].Note == nil || *rows[1].Note != "second" {
t.Fatalf("expected second row note second, got %+v", rows[1].Note)
}
}
func TestParseManualInputFile_MissingRequiredHeader(t *testing.T) {
filePath := createManualInputWorkbook(
t,
"manual_inputs",
[]string{"project_flock_id", "totalcost", "cutover_date", "note"},
[][]string{
{"101", "1200", "2026-06-01", ""},
},
)
location := mustJakartaLocation(t)
_, rows, issues, err := parseManualInputFile(filePath, "", location)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if len(rows) != 0 {
t.Fatalf("expected 0 parsed rows when header invalid, got %d", len(rows))
}
if !hasIssue(issues, 0, "total_cost", "required header is missing") {
t.Fatalf("expected missing total_cost header issue, got %+v", issues)
}
}
func TestParseManualInputFile_InvalidProjectFlockID(t *testing.T) {
filePath := createManualInputWorkbook(
t,
"manual_inputs",
[]string{"project_flock_id", "total_cost", "cutover_date", "note"},
[][]string{
{"abc", "1200", "2026-06-01", ""},
{"0", "1300", "2026-06-02", ""},
},
)
location := mustJakartaLocation(t)
_, rows, issues, err := parseManualInputFile(filePath, "", location)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if len(rows) != 0 {
t.Fatalf("expected no valid rows, got %d", len(rows))
}
if !hasIssue(issues, 2, "project_flock_id", "must be a positive integer") {
t.Fatalf("expected non numeric project_flock_id issue, got %+v", issues)
}
if !hasIssue(issues, 3, "project_flock_id", "must be greater than 0") {
t.Fatalf("expected project_flock_id >0 issue, got %+v", issues)
}
}
func TestParseManualInputFile_InvalidTotalCost(t *testing.T) {
filePath := createManualInputWorkbook(
t,
"manual_inputs",
[]string{"project_flock_id", "total_cost", "cutover_date", "note"},
[][]string{
{"101", "abc", "2026-06-01", ""},
{"102", "-1", "2026-06-02", ""},
},
)
location := mustJakartaLocation(t)
_, rows, issues, err := parseManualInputFile(filePath, "", location)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if len(rows) != 0 {
t.Fatalf("expected no valid rows, got %d", len(rows))
}
if !hasIssue(issues, 2, "total_cost", "must be numeric") {
t.Fatalf("expected total_cost numeric issue, got %+v", issues)
}
if !hasIssue(issues, 3, "total_cost", "must be greater than or equal to 0") {
t.Fatalf("expected total_cost >=0 issue, got %+v", issues)
}
}
func TestParseManualInputFile_InvalidCutoverDate(t *testing.T) {
filePath := createManualInputWorkbook(
t,
"manual_inputs",
[]string{"project_flock_id", "total_cost", "cutover_date", "note"},
[][]string{
{"101", "1200", "06-01-2026", ""},
},
)
location := mustJakartaLocation(t)
_, rows, issues, err := parseManualInputFile(filePath, "", location)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if len(rows) != 0 {
t.Fatalf("expected no valid rows, got %d", len(rows))
}
if !hasIssue(issues, 2, "cutover_date", "must follow format YYYY-MM-DD") {
t.Fatalf("expected cutover_date format issue, got %+v", issues)
}
}
func TestParseManualInputFile_DuplicateProjectFlockID(t *testing.T) {
filePath := createManualInputWorkbook(
t,
"manual_inputs",
[]string{"project_flock_id", "total_cost", "cutover_date", "note"},
[][]string{
{"101", "1200", "2026-06-01", ""},
{"101", "1300", "2026-06-02", ""},
},
)
location := mustJakartaLocation(t)
_, rows, issues, err := parseManualInputFile(filePath, "", location)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if len(rows) != 1 {
t.Fatalf("expected first row valid and second row invalid, got %d rows", len(rows))
}
if !hasIssue(issues, 3, "project_flock_id", "duplicate value 101") {
t.Fatalf("expected duplicate project_flock_id issue, got %+v", issues)
}
}
func TestParseManualInputFile_NoteValidation(t *testing.T) {
longNote := strings.Repeat("a", 1001)
filePath := createManualInputWorkbook(
t,
"manual_inputs",
[]string{"project_flock_id", "total_cost", "cutover_date", "note"},
[][]string{
{"101", "1200", "2026-06-01", ""},
{"102", "1300", "2026-06-02", longNote},
},
)
location := mustJakartaLocation(t)
_, rows, issues, err := parseManualInputFile(filePath, "", location)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if len(rows) != 1 {
t.Fatalf("expected only first row valid, got %d", len(rows))
}
if rows[0].Note != nil {
t.Fatalf("expected first row note nil, got %+v", rows[0].Note)
}
if !hasIssue(issues, 3, "note", "at most 1000 characters") {
t.Fatalf("expected note length issue, got %+v", issues)
}
}
func TestApplyImportRows_Success(t *testing.T) {
location := mustJakartaLocation(t)
runner := &fakeTransactionRunner{}
rows := []manualInputImportRow{
{
RowNumber: 2,
ProjectFlockID: 101,
TotalCost: 1000,
CutoverDate: mustDateInLocation(t, "2026-06-01", location),
},
{
RowNumber: 3,
ProjectFlockID: 102,
TotalCost: 2000,
CutoverDate: mustDateInLocation(t, "2026-06-02", location),
},
}
err := applyImportRows(context.Background(), runner, rows)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if runner.txCalls != 1 {
t.Fatalf("expected 1 transaction call, got %d", runner.txCalls)
}
if len(runner.committedUpserts) != 2 {
t.Fatalf("expected 2 committed upserts, got %d", len(runner.committedUpserts))
}
if len(runner.committedInvalidations) != 2 {
t.Fatalf("expected 2 committed invalidations, got %d", len(runner.committedInvalidations))
}
if runner.committedInvalidations[0].farmIDs[0] != 101 || runner.committedInvalidations[1].farmIDs[0] != 102 {
t.Fatalf("unexpected invalidation farm IDs: %+v", runner.committedInvalidations)
}
}
func TestApplyImportRows_RollbackOnError(t *testing.T) {
location := mustJakartaLocation(t)
runner := &fakeTransactionRunner{
failUpsertOnProjectFlockID: 102,
}
rows := []manualInputImportRow{
{
RowNumber: 2,
ProjectFlockID: 101,
TotalCost: 1000,
CutoverDate: mustDateInLocation(t, "2026-06-01", location),
},
{
RowNumber: 3,
ProjectFlockID: 102,
TotalCost: 2000,
CutoverDate: mustDateInLocation(t, "2026-06-02", location),
},
}
err := applyImportRows(context.Background(), runner, rows)
if err == nil {
t.Fatal("expected error due to upsert failure")
}
if runner.txCalls != 1 {
t.Fatalf("expected 1 transaction call, got %d", runner.txCalls)
}
if len(runner.committedUpserts) != 0 {
t.Fatalf("expected no committed upserts on rollback, got %d", len(runner.committedUpserts))
}
if len(runner.committedInvalidations) != 0 {
t.Fatalf("expected no committed invalidations on rollback, got %d", len(runner.committedInvalidations))
}
}
func TestApplyIfRequested_DryRunDoesNotWrite(t *testing.T) {
location := mustJakartaLocation(t)
runner := &fakeTransactionRunner{}
rows := []manualInputImportRow{
{
RowNumber: 2,
ProjectFlockID: 101,
TotalCost: 1000,
CutoverDate: mustDateInLocation(t, "2026-06-01", location),
},
}
err := applyIfRequested(context.Background(), false, runner, rows)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if runner.txCalls != 0 {
t.Fatalf("expected no transaction call during dry-run, got %d", runner.txCalls)
}
}
func createManualInputWorkbook(t *testing.T, sheetName string, headers []string, rows [][]string) string {
t.Helper()
f := excelize.NewFile()
defaultSheet := f.GetSheetName(f.GetActiveSheetIndex())
if sheetName == "" {
sheetName = defaultSheet
} else if sheetName != defaultSheet {
f.SetSheetName(defaultSheet, sheetName)
}
for idx, header := range headers {
cell, err := excelize.CoordinatesToCellName(idx+1, 1)
if err != nil {
t.Fatalf("failed resolving header cell: %v", err)
}
if err := f.SetCellValue(sheetName, cell, header); err != nil {
t.Fatalf("failed setting header cell: %v", err)
}
}
for rowIdx, row := range rows {
for colIdx, value := range row {
cell, err := excelize.CoordinatesToCellName(colIdx+1, rowIdx+2)
if err != nil {
t.Fatalf("failed resolving data cell: %v", err)
}
if err := f.SetCellValue(sheetName, cell, value); err != nil {
t.Fatalf("failed setting data cell: %v", err)
}
}
}
path := filepath.Join(t.TempDir(), "manual_inputs.xlsx")
if err := f.SaveAs(path); err != nil {
t.Fatalf("failed saving workbook: %v", err)
}
if err := f.Close(); err != nil {
t.Fatalf("failed closing workbook: %v", err)
}
return path
}
func mustJakartaLocation(t *testing.T) *time.Location {
t.Helper()
location, err := time.LoadLocation("Asia/Jakarta")
if err != nil {
t.Fatalf("failed loading Asia/Jakarta location: %v", err)
}
return location
}
func mustDateInLocation(t *testing.T, raw string, location *time.Location) time.Time {
t.Helper()
value, err := time.ParseInLocation(dateLayout, raw, location)
if err != nil {
t.Fatalf("failed parsing date %q: %v", raw, err)
}
return value
}
func hasIssue(issues []validationIssue, row int, field, messageContains string) bool {
for _, issue := range issues {
if issue.Row != row {
continue
}
if issue.Field != field {
continue
}
if strings.Contains(issue.Message, messageContains) {
return true
}
}
return false
}
type fakeInvalidation struct {
fromDate time.Time
farmIDs []uint
}
type fakeManualInputStore struct {
failUpsertOnProjectFlockID uint
failDeleteOnProjectFlockID uint
upserts []entity.FarmDepreciationManualInput
invalidations []fakeInvalidation
}
func (s *fakeManualInputStore) UpsertManualInput(_ context.Context, row *entity.FarmDepreciationManualInput) error {
if row == nil {
return nil
}
if s.failUpsertOnProjectFlockID > 0 && row.ProjectFlockId == s.failUpsertOnProjectFlockID {
return fmt.Errorf("forced upsert failure for project_flock_id=%d", row.ProjectFlockId)
}
cloned := *row
s.upserts = append(s.upserts, cloned)
return nil
}
func (s *fakeManualInputStore) DeleteSnapshotsFromDate(_ context.Context, fromDate time.Time, farmIDs []uint) error {
if s.failDeleteOnProjectFlockID > 0 {
for _, farmID := range farmIDs {
if farmID == s.failDeleteOnProjectFlockID {
return fmt.Errorf("forced delete failure for project_flock_id=%d", farmID)
}
}
}
copiedFarmIDs := append([]uint{}, farmIDs...)
s.invalidations = append(s.invalidations, fakeInvalidation{
fromDate: fromDate,
farmIDs: copiedFarmIDs,
})
return nil
}
type fakeTransactionRunner struct {
txCalls int
failUpsertOnProjectFlockID uint
failDeleteOnProjectFlockID uint
committedUpserts []entity.FarmDepreciationManualInput
committedInvalidations []fakeInvalidation
}
func (r *fakeTransactionRunner) InTx(ctx context.Context, fn func(store manualInputStore) error) error {
r.txCalls++
txStore := &fakeManualInputStore{
failUpsertOnProjectFlockID: r.failUpsertOnProjectFlockID,
failDeleteOnProjectFlockID: r.failDeleteOnProjectFlockID,
}
if err := fn(txStore); err != nil {
return err
}
r.committedUpserts = append(r.committedUpserts, txStore.upserts...)
r.committedInvalidations = append(r.committedInvalidations, txStore.invalidations...)
return nil
}
var _ txRunner = (*fakeTransactionRunner)(nil)
var _ manualInputStore = (*fakeManualInputStore)(nil)
func TestBuildMissingFarmIssues(t *testing.T) {
location := mustJakartaLocation(t)
rows := []manualInputImportRow{
{
RowNumber: 2,
ProjectFlockID: 101,
TotalCost: 1000,
CutoverDate: mustDateInLocation(t, "2026-06-01", location),
},
{
RowNumber: 3,
ProjectFlockID: 102,
TotalCost: 1000,
CutoverDate: mustDateInLocation(t, "2026-06-01", location),
},
}
issues := buildMissingFarmIssues(rows, map[uint]string{
101: "Farm A",
})
if len(issues) != 1 {
t.Fatalf("expected 1 issue, got %+v", issues)
}
if issues[0].Row != 3 || issues[0].Field != "project_flock_id" {
t.Fatalf("unexpected issue: %+v", issues[0])
}
}
func TestApplyImportRows_PropagatesDeleteError(t *testing.T) {
location := mustJakartaLocation(t)
runner := &fakeTransactionRunner{
failDeleteOnProjectFlockID: 101,
}
rows := []manualInputImportRow{
{
RowNumber: 2,
ProjectFlockID: 101,
TotalCost: 1000,
CutoverDate: mustDateInLocation(t, "2026-06-01", location),
},
}
err := applyImportRows(context.Background(), runner, rows)
if err == nil {
t.Fatal("expected delete failure")
}
if !strings.Contains(err.Error(), "snapshot invalidation failed") {
t.Fatalf("expected snapshot invalidation error message, got %v", err)
}
}
func TestResolveSheetName_ErrorWhenSheetNotFound(t *testing.T) {
workbook := excelize.NewFile()
defer func() {
_ = workbook.Close()
}()
_, err := resolveSheetName(workbook, "unknown")
if err == nil {
t.Fatal("expected error when sheet is missing")
}
}
func TestApplyIfRequested_ApplyUsesRunnerError(t *testing.T) {
location := mustJakartaLocation(t)
rows := []manualInputImportRow{
{
RowNumber: 2,
ProjectFlockID: 101,
TotalCost: 1000,
CutoverDate: mustDateInLocation(t, "2026-06-01", location),
},
}
runner := &errorTxRunner{err: errors.New("tx failed")}
err := applyIfRequested(context.Background(), true, runner, rows)
if err == nil {
t.Fatal("expected transaction error")
}
if err.Error() != "tx failed" {
t.Fatalf("unexpected error: %v", err)
}
}
type errorTxRunner struct {
err error
}
func (r *errorTxRunner) InTx(_ context.Context, _ func(store manualInputStore) error) error {
return r.err
}
cmd/import-kandang-house-types/main.go
-602
View File
@@ -1,602 +0,0 @@
package main
import (
"context"
"flag"
"fmt"
"log"
"os"
"sort"
"strconv"
"strings"
"github.com/xuri/excelize/v2"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
"gitlab.com/mbugroup/lti-api.git/internal/utils"
"gorm.io/gorm"
)
type importOptions struct {
FilePath string
Sheet string
Apply bool
}
type headerIndexes struct {
KandangID int
KandangName int
HouseType int
}
type kandangHouseTypeImportRow struct {
RowNumber int
KandangID uint
KandangName string
HouseType string
}
type validationIssue struct {
Row int
Field string
Message string
}
func (i validationIssue) Error() string {
if i.Row > 0 {
return fmt.Sprintf("row=%d field=%s message=%s", i.Row, i.Field, i.Message)
}
return fmt.Sprintf("field=%s message=%s", i.Field, i.Message)
}
type kandangResolver interface {
ResolveActiveKandangs(ctx context.Context, kandangIDs []uint) (map[uint]string, error)
}
type dbKandangResolver struct {
db *gorm.DB
}
type txRunner interface {
InTx(ctx context.Context, fn func(store kandangHouseTypeStore) error) error
}
type dbTxRunner struct {
db *gorm.DB
}
type kandangHouseTypeStore interface {
UpdateKandangHouseType(ctx context.Context, kandangID uint, houseType string) (bool, error)
NormalizeNullHouseType(ctx context.Context) (int64, error)
}
type dbKandangHouseTypeStore struct {
db *gorm.DB
}
type kandangIdentityRow struct {
ID uint `gorm:"column:id"`
Name string `gorm:"column:name"`
}
type applyRowResult struct {
RowNumber int
KandangID uint
HouseType string
Changed bool
}
func main() {
var opts importOptions
flag.StringVar(&opts.FilePath, "file", "", "Path to .xlsx file (required)")
flag.StringVar(&opts.Sheet, "sheet", "", "Sheet name (optional, default: first sheet)")
flag.BoolVar(&opts.Apply, "apply", false, "Apply changes. If false, run as dry-run")
flag.Parse()
opts.FilePath = strings.TrimSpace(opts.FilePath)
opts.Sheet = strings.TrimSpace(opts.Sheet)
if opts.FilePath == "" {
log.Fatal("--file is required")
}
sheetName, rows, parseIssues, err := parseKandangHouseTypeFile(opts.FilePath, opts.Sheet)
if err != nil {
log.Fatalf("failed reading excel: %v", err)
}
ctx := context.Background()
db := database.Connect(config.DBHost, config.DBName)
resolver := dbKandangResolver{db: db}
kandangNameByID, err := resolver.ResolveActiveKandangs(ctx, collectKandangIDs(rows))
if err != nil {
log.Fatalf("failed validating kandang_id against kandangs: %v", err)
}
issues := append([]validationIssue{}, parseIssues...)
issues = append(issues, buildMissingKandangIssues(rows, kandangNameByID)...)
issues = append(issues, buildNameMismatchIssues(rows, kandangNameByID)...)
sortValidationIssues(issues)
fmt.Printf("Mode: %s\n", modeLabel(opts.Apply))
fmt.Printf("File: %s\n", opts.FilePath)
fmt.Printf("Sheet: %s\n", sheetName)
fmt.Printf("Rows parsed: %d\n", len(rows))
fmt.Printf("Rows invalid: %d\n", len(issues))
fmt.Println()
if len(rows) > 0 {
printPlanRows(rows, kandangNameByID)
fmt.Println()
}
if len(issues) > 0 {
fmt.Println("Validation errors:")
for _, issue := range issues {
fmt.Printf("ERROR %s\n", issue.Error())
}
fmt.Println()
fmt.Printf("Summary: planned=%d applied=0 normalized_null_to_open_house=0 failed=%d\n", len(rows), len(issues))
os.Exit(1)
}
if !opts.Apply {
fmt.Printf("Summary: planned=%d applied=0 normalized_null_to_open_house=0 failed=0\n", len(rows))
return
}
rowResults, normalizedCount, err := applyImportRows(ctx, dbTxRunner{db: db}, rows)
if err != nil {
log.Fatalf("apply failed: %v", err)
}
for _, result := range rowResults {
fmt.Printf(
"DONE row=%d kandang_id=%d house_type=%s status=%s\n",
result.RowNumber,
result.KandangID,
result.HouseType,
applyStatus(result.Changed),
)
}
appliedCount := countChangedRows(rowResults)
fmt.Println()
fmt.Printf(
"Summary: planned=%d applied=%d normalized_null_to_open_house=%d failed=0\n",
len(rows),
appliedCount,
normalizedCount,
)
}
func parseKandangHouseTypeFile(
filePath string,
requestedSheet string,
) (string, []kandangHouseTypeImportRow, []validationIssue, error) {
workbook, err := excelize.OpenFile(filePath)
if err != nil {
return "", nil, nil, err
}
defer func() {
_ = workbook.Close()
}()
sheetName, err := resolveSheetName(workbook, requestedSheet)
if err != nil {
return "", nil, nil, err
}
allRows, err := workbook.GetRows(sheetName, excelize.Options{RawCellValue: true})
if err != nil {
return "", nil, nil, err
}
if len(allRows) == 0 {
return sheetName, nil, []validationIssue{{Field: "header", Message: "sheet is empty"}}, nil
}
indexes, headerIssues := parseHeaderIndexes(allRows[0])
if len(headerIssues) > 0 {
return sheetName, nil, headerIssues, nil
}
rows := make([]kandangHouseTypeImportRow, 0, len(allRows)-1)
issues := make([]validationIssue, 0)
seenKandangIDs := make(map[uint]int)
for idx := 1; idx < len(allRows); idx++ {
rowNumber := idx + 1
rawRow := allRows[idx]
if isRowEmpty(rawRow) {
continue
}
parsed, rowIssues := parseDataRow(rawRow, rowNumber, indexes, seenKandangIDs)
if len(rowIssues) > 0 {
issues = append(issues, rowIssues...)
continue
}
rows = append(rows, *parsed)
}
if len(rows) == 0 && len(issues) == 0 {
issues = append(issues, validationIssue{Field: "rows", Message: "no data rows found"})
}
return sheetName, rows, issues, nil
}
func resolveSheetName(workbook *excelize.File, requestedSheet string) (string, error) {
if workbook == nil {
return "", fmt.Errorf("workbook is nil")
}
sheets := workbook.GetSheetList()
if len(sheets) == 0 {
return "", fmt.Errorf("workbook has no sheets")
}
if requestedSheet == "" {
return sheets[0], nil
}
for _, sheet := range sheets {
if strings.EqualFold(strings.TrimSpace(sheet), strings.TrimSpace(requestedSheet)) {
return sheet, nil
}
}
return "", fmt.Errorf("sheet %q not found", requestedSheet)
}
func parseHeaderIndexes(headerRow []string) (headerIndexes, []validationIssue) {
indexes := headerIndexes{KandangID: -1, KandangName: -1, HouseType: -1}
issues := make([]validationIssue, 0)
for idx, raw := range headerRow {
header := normalizeHeader(raw)
if header == "" {
continue
}
switch header {
case "kandang_id":
if indexes.KandangID >= 0 {
issues = append(issues, validationIssue{Field: "header", Message: "duplicate header kandang_id"})
}
indexes.KandangID = idx
case "kandang_name":
if indexes.KandangName >= 0 {
issues = append(issues, validationIssue{Field: "header", Message: "duplicate header kandang_name"})
}
indexes.KandangName = idx
case "house_type", "type_house":
if indexes.HouseType >= 0 {
issues = append(issues, validationIssue{Field: "header", Message: "duplicate header house_type"})
}
indexes.HouseType = idx
}
}
if indexes.KandangID < 0 {
issues = append(issues, validationIssue{Field: "kandang_id", Message: "required header is missing"})
}
if indexes.KandangName < 0 {
issues = append(issues, validationIssue{Field: "kandang_name", Message: "required header is missing"})
}
if indexes.HouseType < 0 {
issues = append(issues, validationIssue{Field: "house_type", Message: "required header is missing"})
}
return indexes, issues
}
func parseDataRow(
rawRow []string,
rowNumber int,
indexes headerIndexes,
seenKandangIDs map[uint]int,
) (*kandangHouseTypeImportRow, []validationIssue) {
issues := make([]validationIssue, 0)
kandangIDRaw := strings.TrimSpace(cellValue(rawRow, indexes.KandangID))
kandangID, err := parsePositiveUint(kandangIDRaw)
if err != nil {
issues = append(issues, validationIssue{Row: rowNumber, Field: "kandang_id", Message: err.Error()})
}
kandangNameRaw := strings.TrimSpace(cellValue(rawRow, indexes.KandangName))
if kandangNameRaw == "" {
issues = append(issues, validationIssue{Row: rowNumber, Field: "kandang_name", Message: "is required"})
}
houseTypeRaw := strings.TrimSpace(cellValue(rawRow, indexes.HouseType))
houseType, err := normalizeHouseType(houseTypeRaw)
if err != nil {
issues = append(issues, validationIssue{Row: rowNumber, Field: "house_type", Message: err.Error()})
}
if kandangID > 0 {
if previousRow, exists := seenKandangIDs[kandangID]; exists {
issues = append(issues, validationIssue{
Row: rowNumber,
Field: "kandang_id",
Message: fmt.Sprintf("duplicate value %d (already used in row %d)", kandangID, previousRow),
})
} else {
seenKandangIDs[kandangID] = rowNumber
}
}
if len(issues) > 0 {
return nil, issues
}
return &kandangHouseTypeImportRow{
RowNumber: rowNumber,
KandangID: kandangID,
KandangName: kandangNameRaw,
HouseType: houseType,
}, nil
}
func normalizeHouseType(raw string) (string, error) {
normalized := strings.ToLower(strings.TrimSpace(raw))
if normalized == "" {
return string(utils.HouseTypeOpenHouse), nil
}
switch normalized {
case string(utils.HouseTypeOpenHouse), string(utils.HouseTypeCloseHouse):
return normalized, nil
default:
return "", fmt.Errorf("must be one of: open_house, close_house (or empty for default open_house)")
}
}
func parsePositiveUint(raw string) (uint, error) {
if raw == "" {
return 0, fmt.Errorf("is required")
}
uintValue, err := strconv.ParseUint(raw, 10, 64)
if err == nil {
if uintValue == 0 {
return 0, fmt.Errorf("must be greater than 0")
}
return uint(uintValue), nil
}
floatValue, floatErr := strconv.ParseFloat(raw, 64)
if floatErr != nil {
return 0, fmt.Errorf("must be a positive integer")
}
if floatValue <= 0 {
return 0, fmt.Errorf("must be greater than 0")
}
if floatValue != float64(uint(floatValue)) {
return 0, fmt.Errorf("must be a positive integer")
}
return uint(floatValue), nil
}
func isRowEmpty(row []string) bool {
for _, cell := range row {
if strings.TrimSpace(cell) != "" {
return false
}
}
return true
}
func normalizeHeader(raw string) string {
return strings.ToLower(strings.TrimSpace(raw))
}
func cellValue(row []string, index int) string {
if index < 0 || index >= len(row) {
return ""
}
return row[index]
}
func collectKandangIDs(rows []kandangHouseTypeImportRow) []uint {
ids := make([]uint, 0, len(rows))
seen := make(map[uint]struct{}, len(rows))
for _, row := range rows {
if row.KandangID == 0 {
continue
}
if _, exists := seen[row.KandangID]; exists {
continue
}
seen[row.KandangID] = struct{}{}
ids = append(ids, row.KandangID)
}
sort.Slice(ids, func(i, j int) bool { return ids[i] < ids[j] })
return ids
}
func (r dbKandangResolver) ResolveActiveKandangs(ctx context.Context, kandangIDs []uint) (map[uint]string, error) {
result := make(map[uint]string)
if len(kandangIDs) == 0 {
return result, nil
}
rows := make([]kandangIdentityRow, 0, len(kandangIDs))
if err := r.db.WithContext(ctx).
Table("kandangs").
Select("id, name").
Where("id IN ?", kandangIDs).
Where("deleted_at IS NULL").
Scan(&rows).Error; err != nil {
return nil, err
}
for _, row := range rows {
result[row.ID] = row.Name
}
return result, nil
}
func buildMissingKandangIssues(rows []kandangHouseTypeImportRow, kandangNameByID map[uint]string) []validationIssue {
issues := make([]validationIssue, 0)
for _, row := range rows {
if _, exists := kandangNameByID[row.KandangID]; exists {
continue
}
issues = append(issues, validationIssue{
Row: row.RowNumber,
Field: "kandang_id",
Message: fmt.Sprintf("value %d must reference an active kandang", row.KandangID),
})
}
return issues
}
func buildNameMismatchIssues(rows []kandangHouseTypeImportRow, kandangNameByID map[uint]string) []validationIssue {
issues := make([]validationIssue, 0)
for _, row := range rows {
dbName, exists := kandangNameByID[row.KandangID]
if !exists {
continue
}
if strings.EqualFold(strings.TrimSpace(row.KandangName), strings.TrimSpace(dbName)) {
continue
}
issues = append(issues, validationIssue{
Row: row.RowNumber,
Field: "kandang_name",
Message: fmt.Sprintf("value %q does not match kandang_id %d name %q", row.KandangName, row.KandangID, dbName),
})
}
return issues
}
func printPlanRows(rows []kandangHouseTypeImportRow, kandangNameByID map[uint]string) {
for _, row := range rows {
fmt.Printf(
"PLAN row=%d kandang_id=%d kandang_name_file=%q kandang_name_db=%q house_type=%q\n",
row.RowNumber,
row.KandangID,
row.KandangName,
kandangNameByID[row.KandangID],
row.HouseType,
)
}
}
func sortValidationIssues(issues []validationIssue) {
sort.Slice(issues, func(i, j int) bool {
if issues[i].Row == issues[j].Row {
if issues[i].Field == issues[j].Field {
return issues[i].Message < issues[j].Message
}
return issues[i].Field < issues[j].Field
}
return issues[i].Row < issues[j].Row
})
}
func applyImportRows(
ctx context.Context,
runner txRunner,
rows []kandangHouseTypeImportRow,
) ([]applyRowResult, int64, error) {
results := make([]applyRowResult, 0, len(rows))
normalizedNullCount := int64(0)
err := runner.InTx(ctx, func(store kandangHouseTypeStore) error {
for _, row := range rows {
changed, err := store.UpdateKandangHouseType(ctx, row.KandangID, row.HouseType)
if err != nil {
return fmt.Errorf("row %d kandang_id=%d update failed: %w", row.RowNumber, row.KandangID, err)
}
results = append(results, applyRowResult{
RowNumber: row.RowNumber,
KandangID: row.KandangID,
HouseType: row.HouseType,
Changed: changed,
})
}
normalized, err := store.NormalizeNullHouseType(ctx)
if err != nil {
return fmt.Errorf("normalize null house_type to open_house failed: %w", err)
}
normalizedNullCount = normalized
return nil
})
if err != nil {
return nil, 0, err
}
return results, normalizedNullCount, nil
}
func (r dbTxRunner) InTx(ctx context.Context, fn func(store kandangHouseTypeStore) error) error {
return r.db.WithContext(ctx).Transaction(func(tx *gorm.DB) error {
return fn(dbKandangHouseTypeStore{db: tx})
})
}
func (s dbKandangHouseTypeStore) UpdateKandangHouseType(ctx context.Context, kandangID uint, houseType string) (bool, error) {
result := s.db.WithContext(ctx).Exec(`
UPDATE kandangs
SET house_type = ?::house_type_enum,
updated_at = NOW()
WHERE id = ?
AND deleted_at IS NULL
AND house_type IS DISTINCT FROM ?::house_type_enum
`, houseType, kandangID, houseType)
if result.Error != nil {
return false, result.Error
}
return result.RowsAffected > 0, nil
}
func (s dbKandangHouseTypeStore) NormalizeNullHouseType(ctx context.Context) (int64, error) {
result := s.db.WithContext(ctx).Exec(`
UPDATE kandangs
SET house_type = 'open_house'::house_type_enum,
updated_at = NOW()
WHERE deleted_at IS NULL
AND house_type IS NULL
`)
if result.Error != nil {
return 0, result.Error
}
return result.RowsAffected, nil
}
func modeLabel(apply bool) string {
if apply {
return "APPLY"
}
return "DRY-RUN"
}
func applyStatus(changed bool) string {
if changed {
return "UPDATED"
}
return "UNCHANGED"
}
func countChangedRows(results []applyRowResult) int {
count := 0
for _, item := range results {
if item.Changed {
count++
}
}
return count
}
cmd/import-kandang-house-types/main_test.go
-280
View File
@@ -1,280 +0,0 @@
package main
import (
"context"
"errors"
"path/filepath"
"strings"
"testing"
"github.com/xuri/excelize/v2"
)
func TestParseKandangHouseTypeFile_ValidSingleRowAndDefaultHouseType(t *testing.T) {
filePath := createWorkbook(
t,
"kandang_house_type",
[]string{"kandang_id", "kandang_name", "house_type"},
[][]string{{"101", "Kandang A1", ""}},
)
sheet, rows, issues, err := parseKandangHouseTypeFile(filePath, "")
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if sheet != "kandang_house_type" {
t.Fatalf("expected sheet kandang_house_type, got %q", sheet)
}
if len(issues) != 0 {
t.Fatalf("expected no issues, got %+v", issues)
}
if len(rows) != 1 {
t.Fatalf("expected 1 row, got %d", len(rows))
}
if rows[0].KandangID != 101 {
t.Fatalf("expected kandang_id 101, got %d", rows[0].KandangID)
}
if rows[0].KandangName != "Kandang A1" {
t.Fatalf("expected kandang_name Kandang A1, got %q", rows[0].KandangName)
}
if rows[0].HouseType != "open_house" {
t.Fatalf("expected default house_type open_house, got %q", rows[0].HouseType)
}
}
func TestParseKandangHouseTypeFile_TypeHouseHeaderAlias(t *testing.T) {
filePath := createWorkbook(
t,
"kandang_house_type",
[]string{"kandang_id", "kandang_name", "type_house"},
[][]string{{"101", "Kandang A1", "close_house"}},
)
_, rows, issues, err := parseKandangHouseTypeFile(filePath, "kandang_house_type")
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if len(issues) != 0 {
t.Fatalf("expected no issues, got %+v", issues)
}
if len(rows) != 1 || rows[0].HouseType != "close_house" {
t.Fatalf("expected parsed close_house row, got %+v", rows)
}
}
func TestParseKandangHouseTypeFile_InvalidHouseType(t *testing.T) {
filePath := createWorkbook(
t,
"kandang_house_type",
[]string{"kandang_id", "kandang_name", "house_type"},
[][]string{{"101", "Kandang A1", "semi_house"}},
)
_, rows, issues, err := parseKandangHouseTypeFile(filePath, "")
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if len(rows) != 0 {
t.Fatalf("expected no valid rows, got %d", len(rows))
}
if !hasIssue(issues, 2, "house_type", "must be one of") {
t.Fatalf("expected invalid house_type issue, got %+v", issues)
}
}
func TestParseKandangHouseTypeFile_DuplicateKandangID(t *testing.T) {
filePath := createWorkbook(
t,
"kandang_house_type",
[]string{"kandang_id", "kandang_name", "house_type"},
[][]string{
{"101", "Kandang A1", "open_house"},
{"101", "Kandang A2", "close_house"},
},
)
_, rows, issues, err := parseKandangHouseTypeFile(filePath, "")
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if len(rows) != 1 {
t.Fatalf("expected first row valid and second invalid, got %d", len(rows))
}
if !hasIssue(issues, 3, "kandang_id", "duplicate value 101") {
t.Fatalf("expected duplicate kandang_id issue, got %+v", issues)
}
}
func TestBuildNameMismatchIssues(t *testing.T) {
rows := []kandangHouseTypeImportRow{{
RowNumber: 2,
KandangID: 10,
KandangName: "Kandang Salah",
HouseType: "open_house",
}}
issues := buildNameMismatchIssues(rows, map[uint]string{10: "Kandang Benar"})
if !hasIssue(issues, 2, "kandang_name", "does not match") {
t.Fatalf("expected name mismatch issue, got %+v", issues)
}
}
func TestApplyImportRows_Success(t *testing.T) {
store := &fakeStore{
changedByID: map[uint]bool{101: true, 102: false},
normalizeResult: 3,
}
runner := &fakeTransactionRunner{store: store}
rows := []kandangHouseTypeImportRow{
{RowNumber: 2, KandangID: 101, HouseType: "open_house"},
{RowNumber: 3, KandangID: 102, HouseType: "close_house"},
}
results, normalized, err := applyImportRows(context.Background(), runner, rows)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if runner.txCalls != 1 {
t.Fatalf("expected 1 tx call, got %d", runner.txCalls)
}
if len(results) != 2 {
t.Fatalf("expected 2 row results, got %d", len(results))
}
if normalized != 3 {
t.Fatalf("expected normalized count 3, got %d", normalized)
}
if !results[0].Changed || results[1].Changed {
t.Fatalf("unexpected changed flags: %+v", results)
}
if len(store.updateCalls) != 2 {
t.Fatalf("expected 2 update calls, got %d", len(store.updateCalls))
}
}
func TestApplyImportRows_FailOnUpdate(t *testing.T) {
store := &fakeStore{
updateErrByID: map[uint]error{101: errors.New("boom")},
}
runner := &fakeTransactionRunner{store: store}
rows := []kandangHouseTypeImportRow{{RowNumber: 2, KandangID: 101, HouseType: "open_house"}}
_, _, err := applyImportRows(context.Background(), runner, rows)
if err == nil {
t.Fatalf("expected error, got nil")
}
if !strings.Contains(err.Error(), "update failed") {
t.Fatalf("expected update failed error, got %v", err)
}
}
func TestCountChangedRows(t *testing.T) {
count := countChangedRows([]applyRowResult{{Changed: true}, {Changed: false}, {Changed: true}})
if count != 2 {
t.Fatalf("expected 2 changed rows, got %d", count)
}
}
type fakeTransactionRunner struct {
store *fakeStore
txCalls int
}
func (f *fakeTransactionRunner) InTx(_ context.Context, fn func(store kandangHouseTypeStore) error) error {
f.txCalls++
return fn(f.store)
}
type updateCall struct {
kandangID uint
houseType string
}
type fakeStore struct {
updateCalls []updateCall
changedByID map[uint]bool
updateErrByID map[uint]error
normalizeResult int64
normalizeErr error
}
func (f *fakeStore) UpdateKandangHouseType(_ context.Context, kandangID uint, houseType string) (bool, error) {
f.updateCalls = append(f.updateCalls, updateCall{kandangID: kandangID, houseType: houseType})
if err, exists := f.updateErrByID[kandangID]; exists {
return false, err
}
if changed, exists := f.changedByID[kandangID]; exists {
return changed, nil
}
return true, nil
}
func (f *fakeStore) NormalizeNullHouseType(_ context.Context) (int64, error) {
if f.normalizeErr != nil {
return 0, f.normalizeErr
}
return f.normalizeResult, nil
}
func createWorkbook(t *testing.T, sheetName string, headers []string, rows [][]string) string {
t.Helper()
f := excelize.NewFile()
if sheetName == "" {
sheetName = "Sheet1"
}
defaultSheet := f.GetSheetName(0)
if defaultSheet != sheetName {
idx, err := f.NewSheet(sheetName)
if err != nil {
t.Fatalf("failed creating sheet: %v", err)
}
f.SetActiveSheet(idx)
_ = f.DeleteSheet(defaultSheet)
}
for idx, header := range headers {
cell, err := excelize.CoordinatesToCellName(idx+1, 1)
if err != nil {
t.Fatalf("failed computing header cell: %v", err)
}
if err := f.SetCellValue(sheetName, cell, header); err != nil {
t.Fatalf("failed setting header cell: %v", err)
}
}
for rowIdx, row := range rows {
for colIdx, value := range row {
cell, err := excelize.CoordinatesToCellName(colIdx+1, rowIdx+2)
if err != nil {
t.Fatalf("failed computing row cell: %v", err)
}
if err := f.SetCellValue(sheetName, cell, value); err != nil {
t.Fatalf("failed setting row cell: %v", err)
}
}
}
path := filepath.Join(t.TempDir(), "kandang_house_type.xlsx")
if err := f.SaveAs(path); err != nil {
t.Fatalf("failed saving workbook: %v", err)
}
return path
}
func hasIssue(issues []validationIssue, row int, field string, contains string) bool {
for _, issue := range issues {
if issue.Row != row {
continue
}
if issue.Field != field {
continue
}
if strings.Contains(issue.Message, contains) {
return true
}
}
return false
}
cmd/migrate-legacy-egg-adjustment-stock-to-farm/main.go
-1085
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File diff suppressed because it is too large Load Diff
cmd/migrate-legacy-egg-adjustment-stock-to-farm/main_test.go
-212
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@@ -1,212 +0,0 @@
package main
import (
"context"
"testing"
"time"
commonSvc "gitlab.com/mbugroup/lti-api.git/internal/common/service"
fifoStockV2 "gitlab.com/mbugroup/lti-api.git/internal/common/service/fifo_stock_v2"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
transferSvc "gitlab.com/mbugroup/lti-api.git/internal/modules/inventory/transfers/services"
)
func TestValidateAdjustmentGatherAgainstAllowedIDsEligible(t *testing.T) {
result := validateAdjustmentGatherAgainstAllowedIDs(100, []uint{11, 12}, []commonSvc.FifoStockV2GatherRow{
{SourceTable: "adjustment_stocks", SourceID: 11, AvailableQuantity: 70},
{SourceTable: "adjustment_stocks", SourceID: 12, AvailableQuantity: 40},
})
if result.Status != "eligible" {
t.Fatalf("expected eligible, got %+v", result)
}
if result.VerifiedQty != 100 {
t.Fatalf("expected verified qty 100, got %v", result.VerifiedQty)
}
}
func TestValidateAdjustmentGatherAgainstAllowedIDsRejectsMixedSource(t *testing.T) {
result := validateAdjustmentGatherAgainstAllowedIDs(100, []uint{11}, []commonSvc.FifoStockV2GatherRow{
{SourceTable: "adjustment_stocks", SourceID: 11, AvailableQuantity: 60},
{SourceTable: "recording_eggs", SourceID: 21, AvailableQuantity: 50},
})
if result.Status != "skipped" {
t.Fatalf("expected skipped, got %+v", result)
}
if result.Reason != "mixed_fifo_source_recording_eggs" {
t.Fatalf("unexpected reason: %+v", result)
}
}
func TestBuildAdjustmentMigrationPlanUsesValidator(t *testing.T) {
opts := &adjustmentCommandOptions{RunID: "egg-adjustment-cutover-test"}
farmID := uint(25)
farmName := "Gudang Farm Jamali"
rows := []adjustmentLegacyEggRow{
{
LocationID: 16,
LocationName: "Jamali",
SourceWarehouseID: 46,
SourceWarehouseName: "Gudang Jamali 1",
FarmWarehouseID: &farmID,
FarmWarehouseName: &farmName,
ProductWarehouseID: 101,
ProductID: 8,
ProductName: "Telur Utuh",
RemainingQty: 120,
CurrentPWQty: 150,
AdjustmentIDs: []uint{1},
},
{
LocationID: 16,
LocationName: "Jamali",
SourceWarehouseID: 46,
SourceWarehouseName: "Gudang Jamali 1",
FarmWarehouseID: &farmID,
FarmWarehouseName: &farmName,
ProductWarehouseID: 102,
ProductID: 9,
ProductName: "Telur Putih",
RemainingQty: 20,
CurrentPWQty: 40,
AdjustmentIDs: []uint{2},
},
{
LocationID: 16,
LocationName: "Jamali",
SourceWarehouseID: 46,
SourceWarehouseName: "Gudang Jamali 1",
ProductWarehouseID: 103,
ProductID: 10,
ProductName: "Telur Pecah",
RemainingQty: 10,
CurrentPWQty: 10,
AdjustmentIDs: []uint{3},
},
}
validator := &fakeAdjustmentCandidateValidator{
byProduct: map[string]adjustmentCandidateValidation{
"Telur Utuh": {Status: "eligible", VerifiedQty: 120},
"Telur Putih": {Status: "skipped", Reason: "mixed_fifo_source_recording_eggs", VerifiedQty: 10},
},
}
reportRows, groups := buildAdjustmentMigrationPlan(context.Background(), opts, map[uint]adjustmentLocationTiming{
16: {LocationID: 16, LocationName: "Jamali", Status: "CLEAN_CUTOVER"},
}, rows, validator)
if len(reportRows) != 3 {
t.Fatalf("expected 3 report rows, got %d", len(reportRows))
}
if len(groups) != 1 || len(groups[0].Rows) != 1 {
t.Fatalf("expected only one eligible grouped row, got %+v", groups)
}
if reportRows[0].Status != "eligible" || reportRows[0].VerifiedQty != 120 {
t.Fatalf("unexpected first row: %+v", reportRows[0])
}
if reportRows[1].Reason != "mixed_fifo_source_recording_eggs" {
t.Fatalf("unexpected second row reason: %+v", reportRows[1])
}
if reportRows[2].Reason != "missing_farm_warehouse" {
t.Fatalf("expected missing farm warehouse skip, got %+v", reportRows[2])
}
}
func TestExecuteAdjustmentApplyRevalidatesRowsAndAppliesSubset(t *testing.T) {
opts := &adjustmentCommandOptions{
RunID: "egg-adjustment-cutover-apply",
CutoverDate: time.Date(2026, 4, 7, 0, 0, 0, 0, time.UTC),
ActorID: 99,
}
group := adjustmentTransferGroup{
LocationID: 16,
LocationName: "Jamali",
SourceWarehouseID: 46,
SourceWarehouseName: "Gudang Jamali 1",
FarmWarehouseID: 25,
FarmWarehouseName: "Gudang Farm Jamali",
Rows: []*adjustmentMigrationReportRow{
{LocationID: 16, LocationName: "Jamali", SourceWarehouseID: 46, SourceWarehouseName: "Gudang Jamali 1", FarmWarehouseID: uintPtr(25), FarmWarehouseName: strPtr("Gudang Farm Jamali"), ProductWarehouseID: 101, ProductID: 8, ProductName: "Telur Utuh", RemainingQty: 120, CurrentPWQty: 150, AdjustmentIDs: []uint{1}, Status: "eligible"},
{LocationID: 16, LocationName: "Jamali", SourceWarehouseID: 46, SourceWarehouseName: "Gudang Jamali 1", FarmWarehouseID: uintPtr(25), FarmWarehouseName: strPtr("Gudang Farm Jamali"), ProductWarehouseID: 102, ProductID: 9, ProductName: "Telur Putih", RemainingQty: 20, CurrentPWQty: 40, AdjustmentIDs: []uint{2}, Status: "eligible"},
},
}
validator := &fakeAdjustmentCandidateValidator{
byProduct: map[string]adjustmentCandidateValidation{
"Telur Utuh": {Status: "eligible", VerifiedQty: 120},
"Telur Putih": {Status: "skipped", Reason: "mixed_fifo_source_recording_eggs", VerifiedQty: 10},
},
}
executor := &fakeAdjustmentSystemTransferExecutor{
createResponses: []*entity.StockTransfer{
{Id: 1001, MovementNumber: "PND-LTI-1001"},
},
}
summary, err := executeAdjustmentApply(context.Background(), executor, validator, opts, []adjustmentTransferGroup{group})
if err != nil {
t.Fatalf("expected no fatal apply error, got %v", err)
}
if summary.GroupsApplied != 1 {
t.Fatalf("expected 1 applied group, got %+v", summary)
}
if summary.RowsApplied != 1 || summary.RowsFailed != 1 {
t.Fatalf("unexpected summary: %+v", summary)
}
if len(executor.createRequests) != 1 {
t.Fatalf("expected 1 create request, got %d", len(executor.createRequests))
}
if len(executor.createRequests[0].Products) != 1 || executor.createRequests[0].Products[0].ProductID != 8 {
t.Fatalf("expected only Telur Utuh to be transferred, got %+v", executor.createRequests[0].Products)
}
}
type fakeAdjustmentCandidateValidator struct {
byProduct map[string]adjustmentCandidateValidation
errByProduct map[string]error
}
func (f *fakeAdjustmentCandidateValidator) ValidateCandidate(ctx context.Context, row adjustmentLegacyEggRow) (adjustmentCandidateValidation, error) {
if err, ok := f.errByProduct[row.ProductName]; ok {
return adjustmentCandidateValidation{}, err
}
if result, ok := f.byProduct[row.ProductName]; ok {
return result, nil
}
return adjustmentCandidateValidation{Status: "eligible", VerifiedQty: row.RemainingQty}, nil
}
type fakeAdjustmentSystemTransferExecutor struct {
createRequests []*transferSvc.SystemTransferRequest
createResponses []*entity.StockTransfer
createErrors []error
deletedTransferIDs []uint
deleteErrors map[uint]error
}
func (f *fakeAdjustmentSystemTransferExecutor) CreateSystemTransfer(ctx context.Context, req *transferSvc.SystemTransferRequest) (*entity.StockTransfer, error) {
f.createRequests = append(f.createRequests, req)
idx := len(f.createRequests) - 1
if idx < len(f.createErrors) && f.createErrors[idx] != nil {
return nil, f.createErrors[idx]
}
if idx < len(f.createResponses) && f.createResponses[idx] != nil {
return f.createResponses[idx], nil
}
return &entity.StockTransfer{Id: uint64(1000 + idx), MovementNumber: "PND-LTI-DEFAULT"}, nil
}
func (f *fakeAdjustmentSystemTransferExecutor) DeleteSystemTransfer(ctx context.Context, id uint, actorID uint) error {
f.deletedTransferIDs = append(f.deletedTransferIDs, id)
if f.deleteErrors == nil {
return nil
}
return f.deleteErrors[id]
}
func uintPtr(v uint) *uint { return &v }
func strPtr(v string) *string { return &v }
var _ adjustmentCandidateValidator = (*fakeAdjustmentCandidateValidator)(nil)
var _ adjustmentSystemTransferExecutor = (*fakeAdjustmentSystemTransferExecutor)(nil)
var _ commonSvc.FifoStockV2Lane = fifoStockV2.LaneStockable
cmd/migrate-legacy-egg-stock-to-farm/main.go
-825
View File
@@ -1,825 +0,0 @@
package main
import (
"context"
"encoding/json"
"errors"
"flag"
"fmt"
"log"
"os"
"sort"
"strings"
"text/tabwriter"
"time"
"github.com/go-playground/validator/v10"
"github.com/sirupsen/logrus"
"gitlab.com/mbugroup/lti-api.git/internal/common/service"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
pwRepo "gitlab.com/mbugroup/lti-api.git/internal/modules/inventory/product-warehouses/repositories"
transferRepo "gitlab.com/mbugroup/lti-api.git/internal/modules/inventory/transfers/repositories"
transferSvc "gitlab.com/mbugroup/lti-api.git/internal/modules/inventory/transfers/services"
warehouseRepo "gitlab.com/mbugroup/lti-api.git/internal/modules/master/warehouses/repositories"
pfkRepo "gitlab.com/mbugroup/lti-api.git/internal/modules/production/project_flocks/repositories"
stockLogRepo "gitlab.com/mbugroup/lti-api.git/internal/modules/shared/repositories"
"gorm.io/gorm"
)
const (
cutoverReasonPrefix = "EGG_FARM_CUTOVER"
outputModeTable = "table"
outputModeJSON = "json"
)
type commandOptions struct {
Apply bool
DryRun bool
RollbackRunID string
LocationID uint
LocationName string
CutoverDate time.Time
CutoverDateRaw string
IncludeOverlap bool
Output string
ActorID uint
RunID string
}
type locationTiming struct {
LocationID uint
LocationName string
FirstKandangDate *time.Time
LastKandangDate *time.Time
FirstFarmDate *time.Time
LastFarmDate *time.Time
Status string
}
type legacyEggStockRow struct {
LocationID uint
LocationName string
SourceWarehouseID uint
SourceWarehouseName string
FarmWarehouseID *uint
FarmWarehouseName *string
ProductWarehouseID uint
ProductID uint
ProductName string
OnHandQty float64
}
type migrationReportRow struct {
RunID string `json:"run_id"`
LocationID uint `json:"location_id"`
LocationName string `json:"location_name"`
SourceWarehouseID uint `json:"source_warehouse_id"`
SourceWarehouseName string `json:"source_warehouse_name"`
FarmWarehouseID *uint `json:"farm_warehouse_id,omitempty"`
FarmWarehouseName *string `json:"farm_warehouse_name,omitempty"`
ProductWarehouseID uint `json:"product_warehouse_id"`
ProductID uint `json:"product_id"`
ProductName string `json:"product_name"`
Qty float64 `json:"qty"`
LocationStatus string `json:"location_status"`
Status string `json:"status"`
Reason string `json:"reason,omitempty"`
TransferID *uint64 `json:"transfer_id,omitempty"`
MovementNumber *string `json:"movement_number,omitempty"`
}
type applySummary struct {
RowsPlanned int `json:"rows_planned"`
RowsApplied int `json:"rows_applied"`
RowsSkipped int `json:"rows_skipped"`
RowsFailed int `json:"rows_failed"`
GroupsPlanned int `json:"groups_planned"`
GroupsApplied int `json:"groups_applied"`
}
type rollbackDetailRow struct {
RunID string `json:"run_id"`
TransferID uint64 `json:"transfer_id"`
MovementNumber string `json:"movement_number"`
LocationName string `json:"location_name"`
SourceWarehouseName string `json:"source_warehouse_name"`
FarmWarehouseName string `json:"farm_warehouse_name"`
ProductName string `json:"product_name"`
Qty float64 `json:"qty"`
Status string `json:"status"`
Reason string `json:"reason,omitempty"`
}
type systemTransferExecutor interface {
CreateSystemTransfer(ctx context.Context, req *transferSvc.SystemTransferRequest) (*entity.StockTransfer, error)
DeleteSystemTransfer(ctx context.Context, id uint, actorID uint) error
}
type transferGroup struct {
LocationID uint
LocationName string
SourceWarehouseID uint
SourceWarehouseName string
FarmWarehouseID uint
FarmWarehouseName string
Rows []*migrationReportRow
}
func main() {
opts, err := parseFlags()
if err != nil {
log.Fatalf("invalid flags: %v", err)
}
db := database.Connect(config.DBHost, config.DBName)
ctx := context.Background()
if strings.TrimSpace(opts.RollbackRunID) != "" {
rows, err := loadRollbackDetails(ctx, db, opts.RollbackRunID)
if err != nil {
log.Fatalf("failed to load rollback details: %v", err)
}
if !opts.Apply {
for i := range rows {
rows[i].Status = "eligible"
}
renderRollbackReport(opts.Output, rows)
return
}
if err := executeRollback(ctx, newSystemTransferService(db), rows, opts.ActorID); err != nil {
log.Fatalf("rollback failed: %v", err)
}
renderRollbackReport(opts.Output, rows)
return
}
timings, err := loadLocationTimings(ctx, db, opts)
if err != nil {
log.Fatalf("failed to load location timings: %v", err)
}
legacyRows, err := loadLegacyEggStocks(ctx, db, opts)
if err != nil {
log.Fatalf("failed to load legacy egg stocks: %v", err)
}
reportRows, groups := buildMigrationPlan(opts, timings, legacyRows)
if !opts.Apply {
renderMigrationReport(opts.Output, reportRows, summarizeApply(reportRows, groups, 0))
return
}
summary, err := executeApply(ctx, newSystemTransferService(db), opts, groups)
if err != nil {
log.Fatalf("apply failed: %v", err)
}
finalRows := flattenGroups(groups, reportRows)
summary = summarizeApply(finalRows, groups, summary.GroupsApplied)
renderMigrationReport(opts.Output, finalRows, summary)
}
func parseFlags() (*commandOptions, error) {
var opts commandOptions
flag.BoolVar(&opts.Apply, "apply", false, "Apply migration. If false, run as dry-run")
flag.BoolVar(&opts.DryRun, "dry-run", true, "Run as dry-run")
flag.StringVar(&opts.RollbackRunID, "rollback-run-id", "", "Rollback all transfers created by the provided run id")
flag.UintVar(&opts.LocationID, "location-id", 0, "Filter by location id")
flag.StringVar(&opts.LocationName, "location-name", "", "Filter by exact location name")
flag.StringVar(&opts.CutoverDateRaw, "cutover-date", "", "Cutover date in YYYY-MM-DD format")
flag.BoolVar(&opts.IncludeOverlap, "include-overlap", false, "Include overlap locations in plan/apply")
flag.StringVar(&opts.Output, "output", outputModeTable, "Output format: table or json")
flag.UintVar(&opts.ActorID, "actor-id", 1, "Actor id used for created/deleted transfers")
flag.Parse()
opts.LocationName = strings.TrimSpace(opts.LocationName)
opts.RollbackRunID = strings.TrimSpace(opts.RollbackRunID)
opts.Output = strings.ToLower(strings.TrimSpace(opts.Output))
if opts.Output == "" {
opts.Output = outputModeTable
}
if opts.Output != outputModeTable && opts.Output != outputModeJSON {
return nil, fmt.Errorf("unsupported --output=%s", opts.Output)
}
if opts.Apply {
opts.DryRun = false
}
if opts.LocationID > 0 && opts.LocationName != "" {
return nil, errors.New("use either --location-id or --location-name, not both")
}
if opts.RollbackRunID != "" {
if opts.LocationID > 0 || opts.LocationName != "" {
return nil, errors.New("location filters are not supported with --rollback-run-id")
}
if opts.CutoverDateRaw != "" {
return nil, errors.New("--cutover-date is not used with --rollback-run-id")
}
} else if opts.Apply {
if opts.LocationID == 0 && opts.LocationName == "" {
return nil, errors.New("apply mode requires --location-id or --location-name for safety")
}
if strings.TrimSpace(opts.CutoverDateRaw) == "" {
return nil, errors.New("--cutover-date is required in apply mode")
}
}
if strings.TrimSpace(opts.CutoverDateRaw) == "" {
opts.CutoverDate = normalizeDateOnly(time.Now().In(time.FixedZone("Asia/Jakarta", 7*3600)))
} else {
t, err := time.Parse("2006-01-02", opts.CutoverDateRaw)
if err != nil {
return nil, fmt.Errorf("invalid --cutover-date: %w", err)
}
opts.CutoverDate = normalizeDateOnly(t)
}
opts.RunID = buildRunID()
return &opts, nil
}
func newSystemTransferService(db *gorm.DB) systemTransferExecutor {
validate := validator.New()
stockTransferRepo := transferRepo.NewStockTransferRepository(db)
stockTransferDetailRepo := transferRepo.NewStockTransferDetailRepository(db)
stockTransferDeliveryRepo := transferRepo.NewStockTransferDeliveryRepository(db)
stockTransferDeliveryItemRepo := transferRepo.NewStockTransferDeliveryItemRepository(db)
stockLogsRepo := stockLogRepo.NewStockLogRepository(db)
productWarehouseRepo := pwRepo.NewProductWarehouseRepository(db)
warehouseRepository := warehouseRepo.NewWarehouseRepository(db)
projectFlockKandangRepo := pfkRepo.NewProjectFlockKandangRepository(db)
projectFlockPopulationRepo := pfkRepo.NewProjectFlockPopulationRepository(db)
fifoSvc := service.NewFifoStockV2Service(db, logrus.StandardLogger())
return transferSvc.NewTransferService(
validate,
stockTransferRepo,
stockTransferDetailRepo,
stockTransferDeliveryRepo,
stockTransferDeliveryItemRepo,
stockLogsRepo,
productWarehouseRepo,
nil,
warehouseRepository,
projectFlockKandangRepo,
projectFlockPopulationRepo,
nil,
fifoSvc,
nil,
)
}
func loadLocationTimings(ctx context.Context, db *gorm.DB, opts *commandOptions) (map[uint]locationTiming, error) {
type row struct {
LocationID uint `gorm:"column:location_id"`
LocationName string `gorm:"column:location_name"`
FirstKandangDate *time.Time `gorm:"column:first_kandang_date"`
LastKandangDate *time.Time `gorm:"column:last_kandang_date"`
FirstFarmDate *time.Time `gorm:"column:first_farm_date"`
LastFarmDate *time.Time `gorm:"column:last_farm_date"`
}
query := db.WithContext(ctx).
Table("recording_eggs re").
Select(`
pf.location_id AS location_id,
l.name AS location_name,
MIN(CASE WHEN w.type = 'KANDANG' THEN DATE(r.record_datetime) END) AS first_kandang_date,
MAX(CASE WHEN w.type = 'KANDANG' THEN DATE(r.record_datetime) END) AS last_kandang_date,
MIN(CASE WHEN w.type = 'LOKASI' THEN DATE(r.record_datetime) END) AS first_farm_date,
MAX(CASE WHEN w.type = 'LOKASI' THEN DATE(r.record_datetime) END) AS last_farm_date
`).
Joins("JOIN recordings r ON r.id = re.recording_id").
Joins("JOIN project_flock_kandangs pk ON pk.id = COALESCE(re.project_flock_kandang_id, r.project_flock_kandangs_id)").
Joins("JOIN project_flocks pf ON pf.id = pk.project_flock_id").
Joins("JOIN locations l ON l.id = pf.location_id").
Joins("JOIN product_warehouses pw ON pw.id = re.product_warehouse_id").
Joins("JOIN warehouses w ON w.id = pw.warehouse_id").
Group("pf.location_id, l.name")
query = applyTimingLocationFilter(query, opts)
var rows []row
if err := query.Scan(&rows).Error; err != nil {
return nil, err
}
result := make(map[uint]locationTiming, len(rows))
for _, row := range rows {
status := "KANDANG_ONLY"
if row.FirstFarmDate != nil {
status = "OVERLAP"
if row.LastKandangDate == nil || row.FirstFarmDate.After(normalizeDateOnly(*row.LastKandangDate)) {
status = "CLEAN_CUTOVER"
}
}
result[row.LocationID] = locationTiming{
LocationID: row.LocationID,
LocationName: row.LocationName,
FirstKandangDate: normalizeDatePtr(row.FirstKandangDate),
LastKandangDate: normalizeDatePtr(row.LastKandangDate),
FirstFarmDate: normalizeDatePtr(row.FirstFarmDate),
LastFarmDate: normalizeDatePtr(row.LastFarmDate),
Status: status,
}
}
return result, nil
}
func loadLegacyEggStocks(ctx context.Context, db *gorm.DB, opts *commandOptions) ([]legacyEggStockRow, error) {
type row struct {
LocationID uint `gorm:"column:location_id"`
LocationName string `gorm:"column:location_name"`
SourceWarehouseID uint `gorm:"column:source_warehouse_id"`
SourceWarehouseName string `gorm:"column:source_warehouse_name"`
FarmWarehouseID *uint `gorm:"column:farm_warehouse_id"`
FarmWarehouseName *string `gorm:"column:farm_warehouse_name"`
ProductWarehouseID uint `gorm:"column:product_warehouse_id"`
ProductID uint `gorm:"column:product_id"`
ProductName string `gorm:"column:product_name"`
OnHandQty float64 `gorm:"column:on_hand_qty"`
}
firstFarmSub := db.WithContext(ctx).
Table("warehouses fw").
Select("fw.location_id AS location_id, MIN(fw.id) AS farm_warehouse_id").
Where("fw.deleted_at IS NULL").
Where("fw.type = ?", "LOKASI").
Group("fw.location_id")
query := db.WithContext(ctx).
Table("product_warehouses pw").
Select(`
kw.location_id AS location_id,
l.name AS location_name,
kw.id AS source_warehouse_id,
kw.name AS source_warehouse_name,
fw.id AS farm_warehouse_id,
fw.name AS farm_warehouse_name,
pw.id AS product_warehouse_id,
pw.product_id AS product_id,
p.name AS product_name,
COALESCE(pw.qty, 0) AS on_hand_qty
`).
Joins("JOIN warehouses kw ON kw.id = pw.warehouse_id AND kw.deleted_at IS NULL").
Joins("JOIN locations l ON l.id = kw.location_id").
Joins("JOIN products p ON p.id = pw.product_id").
Joins("LEFT JOIN product_categories pc ON pc.id = p.product_category_id").
Joins("LEFT JOIN (?) ff ON ff.location_id = kw.location_id", firstFarmSub).
Joins("LEFT JOIN warehouses fw ON fw.id = ff.farm_warehouse_id").
Where("kw.type = ?", "KANDANG").
Where(`
EXISTS (
SELECT 1
FROM recording_eggs re
WHERE re.product_warehouse_id = pw.id
)
`).
Where(`
EXISTS (
SELECT 1
FROM flags f
WHERE f.flagable_type = ?
AND f.flagable_id = p.id
AND (UPPER(f.name) = 'TELUR' OR UPPER(f.name) LIKE 'TELUR-%')
)
OR (
NOT EXISTS (
SELECT 1
FROM flags f_any
WHERE f_any.flagable_type = ?
AND f_any.flagable_id = p.id
)
AND UPPER(COALESCE(pc.code, '')) = 'EGG'
)
`, entity.FlagableTypeProduct, entity.FlagableTypeProduct).
Order("l.name ASC, kw.name ASC, p.name ASC")
query = applyLegacyStockLocationFilter(query, opts)
var rows []row
if err := query.Scan(&rows).Error; err != nil {
return nil, err
}
result := make([]legacyEggStockRow, 0, len(rows))
for _, row := range rows {
result = append(result, legacyEggStockRow{
LocationID: row.LocationID,
LocationName: row.LocationName,
SourceWarehouseID: row.SourceWarehouseID,
SourceWarehouseName: row.SourceWarehouseName,
FarmWarehouseID: row.FarmWarehouseID,
FarmWarehouseName: row.FarmWarehouseName,
ProductWarehouseID: row.ProductWarehouseID,
ProductID: row.ProductID,
ProductName: row.ProductName,
OnHandQty: row.OnHandQty,
})
}
return result, nil
}
func buildMigrationPlan(
opts *commandOptions,
timings map[uint]locationTiming,
rows []legacyEggStockRow,
) ([]migrationReportRow, []transferGroup) {
reportRows := make([]migrationReportRow, 0, len(rows))
groupMap := make(map[string]*transferGroup)
for _, row := range rows {
locationStatus := "UNKNOWN"
if timing, ok := timings[row.LocationID]; ok {
locationStatus = timing.Status
}
report := migrationReportRow{
RunID: opts.RunID,
LocationID: row.LocationID,
LocationName: row.LocationName,
SourceWarehouseID: row.SourceWarehouseID,
SourceWarehouseName: row.SourceWarehouseName,
FarmWarehouseID: row.FarmWarehouseID,
FarmWarehouseName: row.FarmWarehouseName,
ProductWarehouseID: row.ProductWarehouseID,
ProductID: row.ProductID,
ProductName: row.ProductName,
Qty: row.OnHandQty,
LocationStatus: locationStatus,
Status: "eligible",
}
switch {
case row.FarmWarehouseID == nil || row.FarmWarehouseName == nil:
report.Status = "skipped"
report.Reason = "missing_farm_warehouse"
case row.OnHandQty <= 0:
report.Status = "skipped"
report.Reason = "non_positive_qty"
case locationStatus == "OVERLAP" && !opts.IncludeOverlap:
report.Status = "skipped"
report.Reason = "overlap_location"
}
reportRows = append(reportRows, report)
if report.Status != "eligible" {
continue
}
groupKey := fmt.Sprintf("%d:%d", row.SourceWarehouseID, *row.FarmWarehouseID)
group := groupMap[groupKey]
if group == nil {
group = &transferGroup{
LocationID: row.LocationID,
LocationName: row.LocationName,
SourceWarehouseID: row.SourceWarehouseID,
SourceWarehouseName: row.SourceWarehouseName,
FarmWarehouseID: *row.FarmWarehouseID,
FarmWarehouseName: derefString(row.FarmWarehouseName),
}
groupMap[groupKey] = group
}
group.Rows = append(group.Rows, &reportRows[len(reportRows)-1])
}
groups := make([]transferGroup, 0, len(groupMap))
for _, group := range groupMap {
sort.Slice(group.Rows, func(i, j int) bool {
return group.Rows[i].ProductName < group.Rows[j].ProductName
})
groups = append(groups, *group)
}
sort.Slice(groups, func(i, j int) bool {
if groups[i].LocationName == groups[j].LocationName {
return groups[i].SourceWarehouseName < groups[j].SourceWarehouseName
}
return groups[i].LocationName < groups[j].LocationName
})
return reportRows, groups
}
func executeApply(
ctx context.Context,
svc systemTransferExecutor,
opts *commandOptions,
groups []transferGroup,
) (applySummary, error) {
summary := applySummary{GroupsPlanned: len(groups)}
for _, group := range groups {
products := make([]transferSvc.SystemTransferProduct, 0, len(group.Rows))
for _, row := range group.Rows {
products = append(products, transferSvc.SystemTransferProduct{
ProductID: row.ProductID,
ProductQty: row.Qty,
})
}
reason := buildCutoverReason(opts.RunID, group.LocationName, opts.CutoverDate)
transfer, err := svc.CreateSystemTransfer(ctx, &transferSvc.SystemTransferRequest{
TransferReason: reason,
TransferDate: opts.CutoverDate,
SourceWarehouseID: group.SourceWarehouseID,
DestinationWarehouseID: group.FarmWarehouseID,
Products: products,
ActorID: opts.ActorID,
StockLogNotes: reason,
})
if err != nil {
for _, row := range group.Rows {
row.Status = "failed"
row.Reason = err.Error()
summary.RowsFailed++
}
continue
}
summary.GroupsApplied++
for _, row := range group.Rows {
row.Status = "applied"
row.TransferID = &transfer.Id
row.MovementNumber = &transfer.MovementNumber
summary.RowsApplied++
}
}
for _, group := range groups {
summary.RowsPlanned += len(group.Rows)
}
return summary, nil
}
func executeRollback(
ctx context.Context,
svc systemTransferExecutor,
rows []rollbackDetailRow,
actorID uint,
) error {
if actorID == 0 {
return fmt.Errorf("actor id is required for rollback")
}
byTransfer := make(map[uint64][]int)
for idx, row := range rows {
byTransfer[row.TransferID] = append(byTransfer[row.TransferID], idx)
}
transferIDs := make([]uint64, 0, len(byTransfer))
for transferID := range byTransfer {
transferIDs = append(transferIDs, transferID)
}
sort.Slice(transferIDs, func(i, j int) bool { return transferIDs[i] > transferIDs[j] })
var firstErr error
for _, transferID := range transferIDs {
err := svc.DeleteSystemTransfer(ctx, uint(transferID), actorID)
for _, idx := range byTransfer[transferID] {
if err != nil {
rows[idx].Status = "failed"
rows[idx].Reason = err.Error()
} else {
rows[idx].Status = "rolled_back"
}
}
if err != nil && firstErr == nil {
firstErr = err
}
}
return firstErr
}
func loadRollbackDetails(ctx context.Context, db *gorm.DB, runID string) ([]rollbackDetailRow, error) {
type row struct {
TransferID uint64 `gorm:"column:transfer_id"`
MovementNumber string `gorm:"column:movement_number"`
LocationName string `gorm:"column:location_name"`
SourceWarehouseName string `gorm:"column:source_warehouse_name"`
FarmWarehouseName string `gorm:"column:farm_warehouse_name"`
ProductName string `gorm:"column:product_name"`
Qty float64 `gorm:"column:qty"`
}
needle := buildRunReasonMatcher(runID)
var dbRows []row
err := db.WithContext(ctx).
Table("stock_transfers st").
Select(`
st.id AS transfer_id,
st.movement_number AS movement_number,
COALESCE(loc.name, '') AS location_name,
ws.name AS source_warehouse_name,
wd.name AS farm_warehouse_name,
p.name AS product_name,
COALESCE(std.total_qty, std.usage_qty, 0) AS qty
`).
Joins("JOIN warehouses ws ON ws.id = st.from_warehouse_id").
Joins("JOIN warehouses wd ON wd.id = st.to_warehouse_id").
Joins("LEFT JOIN locations loc ON loc.id = COALESCE(ws.location_id, wd.location_id)").
Joins("JOIN stock_transfer_details std ON std.stock_transfer_id = st.id AND std.deleted_at IS NULL").
Joins("JOIN products p ON p.id = std.product_id").
Where("st.deleted_at IS NULL").
Where("st.reason LIKE ?", needle).
Order("st.id DESC, std.id ASC").
Scan(&dbRows).Error
if err != nil {
return nil, err
}
rows := make([]rollbackDetailRow, 0, len(dbRows))
for _, row := range dbRows {
rows = append(rows, rollbackDetailRow{
RunID: runID,
TransferID: row.TransferID,
MovementNumber: row.MovementNumber,
LocationName: row.LocationName,
SourceWarehouseName: row.SourceWarehouseName,
FarmWarehouseName: row.FarmWarehouseName,
ProductName: row.ProductName,
Qty: row.Qty,
})
}
return rows, nil
}
func applyTimingLocationFilter(db *gorm.DB, opts *commandOptions) *gorm.DB {
if opts == nil {
return db
}
switch {
case opts.LocationID > 0:
return db.Where("pf.location_id = ?", opts.LocationID)
case opts.LocationName != "":
return db.Where("LOWER(l.name) = LOWER(?)", opts.LocationName)
default:
return db
}
}
func applyLegacyStockLocationFilter(db *gorm.DB, opts *commandOptions) *gorm.DB {
if opts == nil {
return db
}
switch {
case opts.LocationID > 0:
return db.Where("kw.location_id = ?", opts.LocationID)
case opts.LocationName != "":
return db.Where("LOWER(l.name) = LOWER(?)", opts.LocationName)
default:
return db
}
}
func buildCutoverReason(runID, locationName string, cutoverDate time.Time) string {
locationName = strings.ReplaceAll(strings.TrimSpace(locationName), "|", "/")
return fmt.Sprintf("%s|run_id=%s|location=%s|cutover_date=%s", cutoverReasonPrefix, runID, locationName, cutoverDate.Format("2006-01-02"))
}
func buildRunReasonMatcher(runID string) string {
return fmt.Sprintf("%s|run_id=%s|%%", cutoverReasonPrefix, strings.TrimSpace(runID))
}
func buildRunID() string {
return fmt.Sprintf("egg-cutover-%s", time.Now().UTC().Format("20060102T150405.000000000Z"))
}
func normalizeDateOnly(value time.Time) time.Time {
return time.Date(value.Year(), value.Month(), value.Day(), 0, 0, 0, 0, time.UTC)
}
func normalizeDatePtr(value *time.Time) *time.Time {
if value == nil {
return nil
}
normalized := normalizeDateOnly(*value)
return &normalized
}
func derefString(value *string) string {
if value == nil {
return ""
}
return *value
}
func summarizeApply(rows []migrationReportRow, groups []transferGroup, appliedGroups int) applySummary {
summary := applySummary{
GroupsPlanned: len(groups),
GroupsApplied: appliedGroups,
}
for _, row := range rows {
switch row.Status {
case "eligible":
summary.RowsPlanned++
case "applied":
summary.RowsPlanned++
summary.RowsApplied++
case "failed":
summary.RowsPlanned++
summary.RowsFailed++
case "skipped":
summary.RowsSkipped++
}
}
return summary
}
func flattenGroups(groups []transferGroup, fallback []migrationReportRow) []migrationReportRow {
if len(groups) == 0 {
return fallback
}
rows := make([]migrationReportRow, 0, len(fallback))
for _, group := range groups {
for _, row := range group.Rows {
rows = append(rows, *row)
}
}
for _, row := range fallback {
if row.Status == "skipped" {
rows = append(rows, row)
}
}
sort.Slice(rows, func(i, j int) bool {
if rows[i].LocationName == rows[j].LocationName {
if rows[i].SourceWarehouseName == rows[j].SourceWarehouseName {
return rows[i].ProductName < rows[j].ProductName
}
return rows[i].SourceWarehouseName < rows[j].SourceWarehouseName
}
return rows[i].LocationName < rows[j].LocationName
})
return rows
}
func renderMigrationReport(mode string, rows []migrationReportRow, summary applySummary) {
if mode == outputModeJSON {
payload := map[string]any{
"rows": rows,
"summary": summary,
}
enc := json.NewEncoder(os.Stdout)
enc.SetIndent("", " ")
_ = enc.Encode(payload)
return
}
w := tabwriter.NewWriter(os.Stdout, 0, 0, 2, ' ', 0)
fmt.Fprintln(w, "RUN_ID\tLOCATION\tSOURCE_WAREHOUSE\tFARM_WAREHOUSE\tPRODUCT\tQTY\tLOCATION_STATUS\tSTATUS\tREASON\tTRANSFER_ID\tMOVEMENT_NUMBER")
for _, row := range rows {
transferID := "-"
if row.TransferID != nil {
transferID = fmt.Sprintf("%d", *row.TransferID)
}
movementNumber := "-"
if row.MovementNumber != nil {
movementNumber = *row.MovementNumber
}
fmt.Fprintf(
w,
"%s\t%s\t%s\t%s\t%s\t%.3f\t%s\t%s\t%s\t%s\t%s\n",
row.RunID,
row.LocationName,
row.SourceWarehouseName,
derefString(row.FarmWarehouseName),
row.ProductName,
row.Qty,
row.LocationStatus,
row.Status,
row.Reason,
transferID,
movementNumber,
)
}
_ = w.Flush()
fmt.Printf("\nSummary: rows_planned=%d rows_applied=%d rows_skipped=%d rows_failed=%d groups_planned=%d groups_applied=%d\n",
summary.RowsPlanned, summary.RowsApplied, summary.RowsSkipped, summary.RowsFailed, summary.GroupsPlanned, summary.GroupsApplied)
}
func renderRollbackReport(mode string, rows []rollbackDetailRow) {
if mode == outputModeJSON {
enc := json.NewEncoder(os.Stdout)
enc.SetIndent("", " ")
_ = enc.Encode(map[string]any{"rows": rows})
return
}
w := tabwriter.NewWriter(os.Stdout, 0, 0, 2, ' ', 0)
fmt.Fprintln(w, "RUN_ID\tTRANSFER_ID\tMOVEMENT_NUMBER\tLOCATION\tSOURCE_WAREHOUSE\tFARM_WAREHOUSE\tPRODUCT\tQTY\tSTATUS\tREASON")
for _, row := range rows {
fmt.Fprintf(
w,
"%s\t%d\t%s\t%s\t%s\t%s\t%s\t%.3f\t%s\t%s\n",
row.RunID,
row.TransferID,
row.MovementNumber,
row.LocationName,
row.SourceWarehouseName,
row.FarmWarehouseName,
row.ProductName,
row.Qty,
row.Status,
row.Reason,
)
}
_ = w.Flush()
}
cmd/migrate-legacy-egg-stock-to-farm/main_test.go
-251
View File
@@ -1,251 +0,0 @@
package main
import (
"context"
"errors"
"strings"
"testing"
"time"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
transferSvc "gitlab.com/mbugroup/lti-api.git/internal/modules/inventory/transfers/services"
)
func TestBuildMigrationPlanSkipsOverlapAndGroupsEligibleRows(t *testing.T) {
opts := &commandOptions{
RunID: "egg-cutover-test",
IncludeOverlap: false,
}
timings := map[uint]locationTiming{
16: {LocationID: 16, LocationName: "Jamali", Status: "CLEAN_CUTOVER"},
17: {LocationID: 17, LocationName: "Cijangkar", Status: "OVERLAP"},
}
farmID := uint(25)
farmName := "Gudang Farm Jamali"
rows := []legacyEggStockRow{
{
LocationID: 16,
LocationName: "Jamali",
SourceWarehouseID: 46,
SourceWarehouseName: "Gudang Jamali 1",
FarmWarehouseID: &farmID,
FarmWarehouseName: &farmName,
ProductWarehouseID: 101,
ProductID: 8,
ProductName: "Telur Utuh",
OnHandQty: 120,
},
{
LocationID: 16,
LocationName: "Jamali",
SourceWarehouseID: 46,
SourceWarehouseName: "Gudang Jamali 1",
FarmWarehouseID: &farmID,
FarmWarehouseName: &farmName,
ProductWarehouseID: 102,
ProductID: 9,
ProductName: "Telur Putih",
OnHandQty: 20,
},
{
LocationID: 17,
LocationName: "Cijangkar",
SourceWarehouseID: 51,
SourceWarehouseName: "Gudang Cijangkar 1",
FarmWarehouseID: &farmID,
FarmWarehouseName: &farmName,
ProductWarehouseID: 103,
ProductID: 10,
ProductName: "Telur Jumbo",
OnHandQty: 10,
},
{
LocationID: 16,
LocationName: "Jamali",
SourceWarehouseID: 46,
SourceWarehouseName: "Gudang Jamali 1",
ProductWarehouseID: 104,
ProductID: 11,
ProductName: "Telur Papacal",
OnHandQty: 50,
},
{
LocationID: 16,
LocationName: "Jamali",
SourceWarehouseID: 46,
SourceWarehouseName: "Gudang Jamali 1",
FarmWarehouseID: &farmID,
FarmWarehouseName: &farmName,
ProductWarehouseID: 105,
ProductID: 12,
ProductName: "Telur Retak",
OnHandQty: 0,
},
}
reportRows, groups := buildMigrationPlan(opts, timings, rows)
if len(reportRows) != 5 {
t.Fatalf("expected 5 report rows, got %d", len(reportRows))
}
if len(groups) != 1 {
t.Fatalf("expected 1 eligible transfer group, got %d", len(groups))
}
if len(groups[0].Rows) != 2 {
t.Fatalf("expected 2 eligible products in the transfer group, got %d", len(groups[0].Rows))
}
statusByProduct := make(map[string]string, len(reportRows))
reasonByProduct := make(map[string]string, len(reportRows))
for _, row := range reportRows {
statusByProduct[row.ProductName] = row.Status
reasonByProduct[row.ProductName] = row.Reason
}
if statusByProduct["Telur Utuh"] != "eligible" || statusByProduct["Telur Putih"] != "eligible" {
t.Fatalf("expected Jamali egg rows to stay eligible, got statuses %+v", statusByProduct)
}
if reasonByProduct["Telur Jumbo"] != "overlap_location" {
t.Fatalf("expected overlap location skip, got %q", reasonByProduct["Telur Jumbo"])
}
if reasonByProduct["Telur Papacal"] != "missing_farm_warehouse" {
t.Fatalf("expected missing farm warehouse skip, got %q", reasonByProduct["Telur Papacal"])
}
if reasonByProduct["Telur Retak"] != "non_positive_qty" {
t.Fatalf("expected non positive qty skip, got %q", reasonByProduct["Telur Retak"])
}
}
func TestExecuteApplyBuildsTaggedSystemTransfersAndSummaries(t *testing.T) {
opts := &commandOptions{
RunID: "egg-cutover-apply",
CutoverDate: time.Date(2026, 4, 7, 0, 0, 0, 0, time.UTC),
ActorID: 99,
}
groups := []transferGroup{
{
LocationID: 16,
LocationName: "Jamali",
SourceWarehouseID: 46,
SourceWarehouseName: "Gudang Jamali 1",
FarmWarehouseID: 25,
FarmWarehouseName: "Gudang Farm Jamali",
Rows: []*migrationReportRow{
{ProductID: 8, ProductName: "Telur Utuh", Qty: 120},
{ProductID: 9, ProductName: "Telur Putih", Qty: 20},
},
},
{
LocationID: 18,
LocationName: "Tamansari",
SourceWarehouseID: 91,
SourceWarehouseName: "Gudang Tamansari 1",
FarmWarehouseID: 31,
FarmWarehouseName: "Gudang Farm Tamansari",
Rows: []*migrationReportRow{
{ProductID: 10, ProductName: "Telur Jumbo", Qty: 10},
},
},
}
executor := &fakeSystemTransferExecutor{
createResponses: []*entity.StockTransfer{
{Id: 1001, MovementNumber: "PND-LTI-1001"},
},
createErrors: []error{
nil,
errors.New("destination warehouse locked"),
},
}
summary, err := executeApply(context.Background(), executor, opts, groups)
if err != nil {
t.Fatalf("expected no fatal apply error, got %v", err)
}
if summary.GroupsPlanned != 2 || summary.GroupsApplied != 1 {
t.Fatalf("unexpected group summary: %+v", summary)
}
if summary.RowsApplied != 2 || summary.RowsFailed != 1 {
t.Fatalf("unexpected row summary: %+v", summary)
}
if len(executor.createRequests) != 2 {
t.Fatalf("expected 2 create requests, got %d", len(executor.createRequests))
}
if !strings.Contains(executor.createRequests[0].TransferReason, "EGG_FARM_CUTOVER|run_id=egg-cutover-apply|location=Jamali|cutover_date=2026-04-07") {
t.Fatalf("unexpected transfer reason: %s", executor.createRequests[0].TransferReason)
}
if executor.createRequests[0].MovementNumber != "" {
t.Fatalf("apply path should let transfer service generate movement number, got %q", executor.createRequests[0].MovementNumber)
}
if groups[0].Rows[0].Status != "applied" || groups[0].Rows[1].Status != "applied" {
t.Fatalf("expected first group rows to be applied, got %+v", groups[0].Rows)
}
if groups[1].Rows[0].Status != "failed" {
t.Fatalf("expected second group row to fail, got %+v", groups[1].Rows[0])
}
if groups[0].Rows[0].TransferID == nil || *groups[0].Rows[0].TransferID != 1001 {
t.Fatalf("expected first row to keep created transfer id, got %+v", groups[0].Rows[0].TransferID)
}
}
func TestExecuteRollbackDeletesTransfersDescendingAndMarksFailures(t *testing.T) {
executor := &fakeSystemTransferExecutor{
deleteErrors: map[uint]error{
101: errors.New("already consumed downstream"),
},
}
rows := []rollbackDetailRow{
{TransferID: 100, ProductName: "Telur Utuh"},
{TransferID: 101, ProductName: "Telur Jumbo"},
{TransferID: 100, ProductName: "Telur Putih"},
}
err := executeRollback(context.Background(), executor, rows, 99)
if err == nil {
t.Fatal("expected rollback to return the first transfer error")
}
if err.Error() != "already consumed downstream" {
t.Fatalf("unexpected rollback error: %v", err)
}
if len(executor.deletedTransferIDs) != 2 {
t.Fatalf("expected 2 delete calls, got %d", len(executor.deletedTransferIDs))
}
if executor.deletedTransferIDs[0] != 101 || executor.deletedTransferIDs[1] != 100 {
t.Fatalf("expected delete order [101 100], got %v", executor.deletedTransferIDs)
}
if rows[0].Status != "rolled_back" || rows[2].Status != "rolled_back" {
t.Fatalf("expected transfer 100 rows to be rolled back, got %+v", rows)
}
if rows[1].Status != "failed" {
t.Fatalf("expected transfer 101 row to fail, got %+v", rows[1])
}
}
type fakeSystemTransferExecutor struct {
createRequests []*transferSvc.SystemTransferRequest
createResponses []*entity.StockTransfer
createErrors []error
deletedTransferIDs []uint
deleteErrors map[uint]error
}
func (f *fakeSystemTransferExecutor) CreateSystemTransfer(ctx context.Context, req *transferSvc.SystemTransferRequest) (*entity.StockTransfer, error) {
f.createRequests = append(f.createRequests, req)
idx := len(f.createRequests) - 1
if idx < len(f.createErrors) && f.createErrors[idx] != nil {
return nil, f.createErrors[idx]
}
if idx < len(f.createResponses) && f.createResponses[idx] != nil {
return f.createResponses[idx], nil
}
return &entity.StockTransfer{Id: uint64(1000 + idx), MovementNumber: "PND-LTI-DEFAULT"}, nil
}
func (f *fakeSystemTransferExecutor) DeleteSystemTransfer(ctx context.Context, id uint, actorID uint) error {
f.deletedTransferIDs = append(f.deletedTransferIDs, id)
if f.deleteErrors == nil {
return nil
}
return f.deleteErrors[id]
}
cmd/normalize-data-egg-mass-and-hen-house/main.go
-380
View File
@@ -1,380 +0,0 @@
package main
import (
"context"
"flag"
"fmt"
"log"
"math"
"os"
"strings"
"time"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
recordingRepo "gitlab.com/mbugroup/lti-api.git/internal/modules/production/recordings/repositories"
"gorm.io/gorm"
)
const metricEpsilon = 1e-9
type normalizeOptions struct {
Apply bool
RecordingID uint
ProjectFlockKandangID uint
From *time.Time
To *time.Time
BatchSize int
Limit int
}
type normalizeStats struct {
Processed int
Changed int
Updated int
Skipped int
Failed int
}
type recordingMetricRow struct {
ID uint `gorm:"column:id"`
ProjectFlockKandangID uint `gorm:"column:project_flock_kandangs_id"`
RecordDatetime time.Time `gorm:"column:record_datetime"`
HenHouse *float64 `gorm:"column:hen_house"`
EggMass *float64 `gorm:"column:egg_mass"`
}
func main() {
var (
apply bool
recordingID uint
projectFlockKandangID uint
fromRaw string
toRaw string
batchSize int
limit int
)
flag.BoolVar(&apply, "apply", false, "Apply update. If false, run as dry-run")
flag.UintVar(&recordingID, "recording-id", 0, "Target a single recording ID")
flag.UintVar(&projectFlockKandangID, "project-flock-kandang-id", 0, "Filter by project_flock_kandangs_id")
flag.StringVar(&fromRaw, "from", "", "Lower bound record_datetime (RFC3339 / YYYY-MM-DD)")
flag.StringVar(&toRaw, "to", "", "Upper bound record_datetime (RFC3339 / YYYY-MM-DD)")
flag.IntVar(&batchSize, "batch-size", 200, "Batch size when scanning recordings")
flag.IntVar(&limit, "limit", 0, "Max recordings to process (0 = no limit)")
flag.Parse()
if batchSize <= 0 {
log.Fatal("--batch-size must be > 0")
}
if limit < 0 {
log.Fatal("--limit cannot be negative")
}
from, err := parseTimeBound(strings.TrimSpace(fromRaw), false)
if err != nil {
log.Fatalf("invalid --from: %v", err)
}
to, err := parseTimeBound(strings.TrimSpace(toRaw), true)
if err != nil {
log.Fatalf("invalid --to: %v", err)
}
if from != nil && to != nil && to.Before(*from) {
log.Fatal("--to cannot be before --from")
}
opts := normalizeOptions{
Apply: apply,
RecordingID: recordingID,
ProjectFlockKandangID: projectFlockKandangID,
From: from,
To: to,
BatchSize: batchSize,
Limit: limit,
}
ctx := context.Background()
db := database.Connect(config.DBHost, config.DBName)
repo := recordingRepo.NewRecordingRepository(db)
fmt.Printf("Mode: %s\n", modeLabel(opts.Apply))
fmt.Printf("Filter recording_id: %s\n", displayUint(opts.RecordingID))
fmt.Printf("Filter project_flock_kandangs_id: %s\n", displayUint(opts.ProjectFlockKandangID))
fmt.Printf("Filter from: %s\n", displayTime(opts.From))
fmt.Printf("Filter to: %s\n", displayTime(opts.To))
fmt.Printf("Batch size: %d\n", opts.BatchSize)
fmt.Printf("Limit: %d\n\n", opts.Limit)
stats, err := normalizeRecordings(ctx, db, repo, opts)
if err != nil {
log.Fatalf("normalize failed: %v", err)
}
fmt.Println()
fmt.Printf(
"Summary: processed=%d changed=%d updated=%d skipped=%d failed=%d\n",
stats.Processed,
stats.Changed,
stats.Updated,
stats.Skipped,
stats.Failed,
)
if stats.Failed > 0 {
os.Exit(1)
}
}
func normalizeRecordings(
ctx context.Context,
db *gorm.DB,
repo recordingRepo.RecordingRepository,
opts normalizeOptions,
) (normalizeStats, error) {
stats := normalizeStats{}
lastID := uint(0)
initialChickCache := make(map[uint]float64)
for {
batchLimit := opts.BatchSize
if opts.Limit > 0 {
remaining := opts.Limit - stats.Processed
if remaining <= 0 {
break
}
if remaining < batchLimit {
batchLimit = remaining
}
}
rows, err := loadRecordingBatch(ctx, db, opts, lastID, batchLimit)
if err != nil {
return stats, err
}
if len(rows) == 0 {
break
}
for _, row := range rows {
stats.Processed++
lastID = row.ID
initialChick, ok := initialChickCache[row.ProjectFlockKandangID]
if !ok {
initialChick, err = repo.GetTotalChickinByProjectFlockKandang(db.WithContext(ctx), row.ProjectFlockKandangID)
if err != nil {
fmt.Printf("FAIL rec=%d error=getTotalChickinByProjectFlockKandang: %v\n", row.ID, err)
stats.Failed++
continue
}
initialChickCache[row.ProjectFlockKandangID] = initialChick
}
_, totalEggWeightGrams, err := repo.GetEggSummaryByRecording(db.WithContext(ctx), row.ID)
if err != nil {
fmt.Printf("FAIL rec=%d error=getEggSummaryByRecording: %v\n", row.ID, err)
stats.Failed++
continue
}
cumulativeEggQty, err := repo.GetCumulativeEggQtyByProjectFlockKandang(db.WithContext(ctx), row.ProjectFlockKandangID, row.RecordDatetime)
if err != nil {
fmt.Printf("FAIL rec=%d error=getCumulativeEggQtyByProjectFlockKandang: %v\n", row.ID, err)
stats.Failed++
continue
}
newHenHouse, newEggMass := computeNormalizedMetrics(initialChick, cumulativeEggQty, totalEggWeightGrams)
henHouseChanged := metricChanged(row.HenHouse, newHenHouse)
eggMassChanged := metricChanged(row.EggMass, newEggMass)
if !henHouseChanged && !eggMassChanged {
stats.Skipped++
continue
}
stats.Changed++
fmt.Printf(
"PLAN rec=%d pfk=%d at=%s hen_house:%s->%s egg_mass:%s->%s\n",
row.ID,
row.ProjectFlockKandangID,
row.RecordDatetime.UTC().Format(time.RFC3339),
displayFloat(row.HenHouse),
displayFloat(newHenHouse),
displayFloat(row.EggMass),
displayFloat(newEggMass),
)
if !opts.Apply {
continue
}
if err := updateRecordingMetrics(ctx, db, row.ID, newHenHouse, newEggMass); err != nil {
fmt.Printf("FAIL rec=%d error=updateRecordingMetrics: %v\n", row.ID, err)
stats.Failed++
continue
}
fmt.Printf(
"DONE rec=%d hen_house=%s egg_mass=%s\n",
row.ID,
displayFloat(newHenHouse),
displayFloat(newEggMass),
)
stats.Updated++
}
if opts.RecordingID > 0 {
break
}
}
return stats, nil
}
func loadRecordingBatch(
ctx context.Context,
db *gorm.DB,
opts normalizeOptions,
lastID uint,
limit int,
) ([]recordingMetricRow, error) {
query := db.WithContext(ctx).
Table("recordings").
Select("id, project_flock_kandangs_id, record_datetime, hen_house, egg_mass").
Where("recordings.deleted_at IS NULL")
if opts.RecordingID > 0 {
query = query.Where("recordings.id = ?", opts.RecordingID)
}
if opts.ProjectFlockKandangID > 0 {
query = query.Where("recordings.project_flock_kandangs_id = ?", opts.ProjectFlockKandangID)
}
if opts.From != nil {
query = query.Where("recordings.record_datetime >= ?", *opts.From)
}
if opts.To != nil {
query = query.Where("recordings.record_datetime <= ?", *opts.To)
}
if opts.RecordingID == 0 && lastID > 0 {
query = query.Where("recordings.id > ?", lastID)
}
var rows []recordingMetricRow
err := query.
Order("recordings.id ASC").
Limit(limit).
Scan(&rows).Error
return rows, err
}
func computeNormalizedMetrics(initialChick, cumulativeEggQty, totalEggWeightGrams float64) (*float64, *float64) {
var henHouse *float64
if initialChick > 0 && cumulativeEggQty >= 0 {
value := cumulativeEggQty / initialChick
henHouse = &value
}
var eggMass *float64
if initialChick > 0 && totalEggWeightGrams > 0 {
value := totalEggWeightGrams / initialChick
eggMass = &value
}
return henHouse, eggMass
}
func updateRecordingMetrics(ctx context.Context, db *gorm.DB, recordingID uint, henHouse, eggMass *float64) error {
updates := map[string]any{}
if henHouse == nil {
updates["hen_house"] = gorm.Expr("NULL")
} else {
updates["hen_house"] = *henHouse
}
if eggMass == nil {
updates["egg_mass"] = gorm.Expr("NULL")
} else {
updates["egg_mass"] = *eggMass
}
return db.WithContext(ctx).
Table("recordings").
Where("id = ?", recordingID).
Updates(updates).Error
}
func metricChanged(oldValue, newValue *float64) bool {
if oldValue == nil && newValue == nil {
return false
}
if oldValue == nil || newValue == nil {
return true
}
return !nearlyEqual(*oldValue, *newValue)
}
func nearlyEqual(a, b float64) bool {
scale := math.Max(1, math.Max(math.Abs(a), math.Abs(b)))
return math.Abs(a-b) <= metricEpsilon*scale
}
func parseTimeBound(raw string, isUpper bool) (*time.Time, error) {
if raw == "" {
return nil, nil
}
layouts := []string{
time.RFC3339Nano,
time.RFC3339,
"2006-01-02 15:04:05",
"2006-01-02",
}
for _, layout := range layouts {
parsed, err := time.Parse(layout, raw)
if err != nil {
continue
}
if layout == "2006-01-02" {
if isUpper {
endOfDay := time.Date(parsed.Year(), parsed.Month(), parsed.Day(), 23, 59, 59, int(time.Second-time.Nanosecond), time.UTC)
return &endOfDay, nil
}
startOfDay := time.Date(parsed.Year(), parsed.Month(), parsed.Day(), 0, 0, 0, 0, time.UTC)
return &startOfDay, nil
}
t := parsed.UTC()
return &t, nil
}
return nil, fmt.Errorf("unsupported format %q", raw)
}
func modeLabel(apply bool) string {
if apply {
return "APPLY"
}
return "DRY-RUN"
}
func displayFloat(v *float64) string {
if v == nil {
return "NULL"
}
return fmt.Sprintf("%.6f", *v)
}
func displayTime(v *time.Time) string {
if v == nil {
return "<nil>"
}
return v.UTC().Format(time.RFC3339)
}
func displayUint(v uint) string {
if v == 0 {
return "<all>"
}
return fmt.Sprintf("%d", v)
}
cmd/reflow-adjustments/main.go
-333
View File
@@ -1,333 +0,0 @@
package main
import (
"context"
"flag"
"fmt"
"log"
"os"
"sort"
"strconv"
"strings"
"time"
commonSvc "gitlab.com/mbugroup/lti-api.git/internal/common/service"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
"gitlab.com/mbugroup/lti-api.git/internal/utils/fifo"
"gorm.io/gorm"
)
type adjustmentRow struct {
ID uint `gorm:"column:id"`
ProductWarehouseID uint `gorm:"column:product_warehouse_id"`
ProductID uint `gorm:"column:product_id"`
FunctionCode string `gorm:"column:function_code"`
UsageQty float64 `gorm:"column:usage_qty"`
PendingQty float64 `gorm:"column:pending_qty"`
StockLogIncrease float64 `gorm:"column:stock_log_increase"`
StockLogDecrease float64 `gorm:"column:stock_log_decrease"`
CreatedAt time.Time `gorm:"column:created_at"`
}
type routeResolution struct {
FlagGroupCode string `gorm:"column:flag_group_code"`
Lane string `gorm:"column:lane"`
FunctionCode string `gorm:"column:function_code"`
SourceTable string `gorm:"column:source_table"`
LegacyTypeKey string `gorm:"column:legacy_type_key"`
}
func main() {
var (
idsRaw string
apply bool
asOfCreatedAt bool
compensateMissingAlloc bool
)
flag.StringVar(&idsRaw, "ids", "", "Comma-separated adjustment IDs (required), example: 1,2")
flag.BoolVar(&apply, "apply", false, "Apply changes. If false, run as dry-run")
flag.BoolVar(&asOfCreatedAt, "as-of-created-at", true, "Use adjustment created_at as reflow AsOf boundary")
flag.BoolVar(&compensateMissingAlloc, "compensate-missing-alloc", true, "When active allocations are missing and usage_qty > 0, temporarily add back usage_qty before reflow")
flag.Parse()
ids, err := parseIDs(idsRaw)
if err != nil {
log.Fatalf("invalid --ids: %v", err)
}
if len(ids) == 0 {
log.Fatal("--ids is required")
}
ctx := context.Background()
db := database.Connect(config.DBHost, config.DBName)
fifoStockV2Svc := commonSvc.NewFifoStockV2Service(db, nil)
adjustments, err := loadAdjustments(ctx, db, ids)
if err != nil {
log.Fatalf("failed to load adjustments: %v", err)
}
if len(adjustments) == 0 {
log.Fatal("no adjustments found for provided IDs")
}
sort.Slice(adjustments, func(i, j int) bool {
return adjustments[i].ID < adjustments[j].ID
})
fmt.Printf("Mode: %s\n", modeLabel(apply))
fmt.Printf("Adjustments loaded: %d\n\n", len(adjustments))
success := 0
failed := 0
skipped := 0
for _, adj := range adjustments {
if strings.TrimSpace(adj.FunctionCode) == "" {
fmt.Printf("SKIP adj=%d reason=function_code empty\n", adj.ID)
skipped++
continue
}
route, err := resolveRouteByFunctionCode(ctx, db, adj.ProductID, strings.ToUpper(strings.TrimSpace(adj.FunctionCode)))
if err != nil {
fmt.Printf("FAIL adj=%d error=resolve route: %v\n", adj.ID, err)
failed++
continue
}
if route.Lane != "USABLE" {
fmt.Printf("SKIP adj=%d reason=lane=%s (not USABLE)\n", adj.ID, route.Lane)
skipped++
continue
}
desiredQty := adj.UsageQty + adj.PendingQty
desiredQtySource := "usage+pending"
if desiredQty <= 0 && adj.StockLogDecrease > 0 {
desiredQty = adj.StockLogDecrease
desiredQtySource = "stock_log.decrease"
}
if desiredQty <= 0 {
fmt.Printf(
"SKIP adj=%d reason=no usable qty (usage=%.3f pending=%.3f stock_log.decrease=%.3f)\n",
adj.ID,
adj.UsageQty,
adj.PendingQty,
adj.StockLogDecrease,
)
skipped++
continue
}
activeAllocationCount, err := countActiveAllocations(ctx, db, fifo.UsableKeyAdjustmentOut.String(), adj.ID)
if err != nil {
fmt.Printf("FAIL adj=%d error=count allocations: %v\n", adj.ID, err)
failed++
continue
}
compensateQty := adj.UsageQty
if compensateQty <= 0 && desiredQtySource == "stock_log.decrease" {
compensateQty = adj.StockLogDecrease
}
shouldCompensate := compensateMissingAlloc && activeAllocationCount == 0 && compensateQty > 0
reflowReq := commonSvc.FifoStockV2ReflowRequest{
FlagGroupCode: route.FlagGroupCode,
ProductWarehouseID: adj.ProductWarehouseID,
IdempotencyKey: fmt.Sprintf("manual-adjustment-reflow-%d-%d", adj.ID, time.Now().UnixNano()),
}
if asOfCreatedAt {
asOf := adj.CreatedAt
reflowReq.AsOf = &asOf
}
fmt.Printf(
"PLAN adj=%d pw=%d product=%d function=%s group=%s desired=%.3f source=%s active_alloc=%d compensate=%t\n",
adj.ID,
adj.ProductWarehouseID,
adj.ProductID,
route.FunctionCode,
route.FlagGroupCode,
desiredQty,
desiredQtySource,
activeAllocationCount,
shouldCompensate,
)
if !apply {
skipped++
continue
}
err = db.WithContext(ctx).Transaction(func(tx *gorm.DB) error {
if shouldCompensate {
if err := tx.Table("product_warehouses").
Where("id = ?", adj.ProductWarehouseID).
Update("qty", gorm.Expr("COALESCE(qty,0) + ?", compensateQty)).Error; err != nil {
return fmt.Errorf("compensate product_warehouse qty: %w", err)
}
}
reflowReq.Tx = tx
res, err := fifoStockV2Svc.Reflow(ctx, reflowReq)
if err != nil {
return err
}
fmt.Printf(
"DONE adj=%d rollback=%.3f allocate=%.3f pending=%.3f\n",
adj.ID,
res.Rollback.ReleasedQty,
res.Allocate.AllocatedQty,
res.Allocate.PendingQty,
)
return nil
})
if err != nil {
fmt.Printf("FAIL adj=%d error=%v\n", adj.ID, err)
failed++
continue
}
success++
}
fmt.Println()
fmt.Printf("Summary: success=%d failed=%d skipped=%d\n", success, failed, skipped)
if failed > 0 {
os.Exit(1)
}
}
func modeLabel(apply bool) string {
if apply {
return "APPLY"
}
return "DRY-RUN"
}
func parseIDs(raw string) ([]uint, error) {
raw = strings.TrimSpace(raw)
if raw == "" {
return nil, nil
}
parts := strings.Split(raw, ",")
ids := make([]uint, 0, len(parts))
seen := map[uint]struct{}{}
for _, part := range parts {
part = strings.TrimSpace(part)
if part == "" {
continue
}
value, err := strconv.ParseUint(part, 10, 64)
if err != nil {
return nil, fmt.Errorf("invalid id %q", part)
}
if value == 0 {
return nil, fmt.Errorf("id must be > 0: %q", part)
}
id := uint(value)
if _, ok := seen[id]; ok {
continue
}
seen[id] = struct{}{}
ids = append(ids, id)
}
return ids, nil
}
func loadAdjustments(ctx context.Context, db *gorm.DB, ids []uint) ([]adjustmentRow, error) {
var rows []adjustmentRow
err := db.WithContext(ctx).
Table("adjustment_stocks a").
Select(`
a.id,
a.product_warehouse_id,
pw.product_id,
a.function_code,
COALESCE(a.usage_qty, 0) AS usage_qty,
COALESCE(a.pending_qty, 0) AS pending_qty,
COALESCE((
SELECT sl.increase
FROM stock_logs sl
WHERE sl.loggable_type = 'ADJUSTMENT'
AND sl.loggable_id = a.id
ORDER BY sl.id DESC
LIMIT 1
), 0) AS stock_log_increase,
COALESCE((
SELECT sl.decrease
FROM stock_logs sl
WHERE sl.loggable_type = 'ADJUSTMENT'
AND sl.loggable_id = a.id
ORDER BY sl.id DESC
LIMIT 1
), 0) AS stock_log_decrease,
a.created_at
`).
Joins("JOIN product_warehouses pw ON pw.id = a.product_warehouse_id").
Where("a.id IN ?", ids).
Find(&rows).Error
if err != nil {
return nil, err
}
return rows, nil
}
func resolveRouteByFunctionCode(ctx context.Context, db *gorm.DB, productID uint, functionCode string) (*routeResolution, error) {
var rows []routeResolution
err := db.WithContext(ctx).
Table("fifo_stock_v2_route_rules rr").
Select("rr.flag_group_code, rr.lane, rr.function_code, rr.source_table, rr.legacy_type_key").
Joins("JOIN fifo_stock_v2_flag_groups fg ON fg.code = rr.flag_group_code AND fg.is_active = TRUE").
Where("rr.is_active = TRUE").
Where("rr.function_code = ?", functionCode).
Where(`
EXISTS (
SELECT 1
FROM flags f
JOIN fifo_stock_v2_flag_members fm ON fm.flag_name = f.name AND fm.is_active = TRUE
WHERE f.flagable_type = ?
AND f.flagable_id = ?
AND fm.flag_group_code = rr.flag_group_code
)
`, entity.FlagableTypeProduct, productID).
Order("CASE WHEN rr.source_table = 'adjustment_stocks' THEN 0 ELSE 1 END ASC").
Order("rr.id ASC").
Find(&rows).Error
if err != nil {
return nil, err
}
if len(rows) == 0 {
return nil, fmt.Errorf("no route found for product_id=%d function_code=%s", productID, functionCode)
}
selected := rows[0]
for _, row := range rows {
if row.Lane != selected.Lane {
return nil, fmt.Errorf("ambiguous lane for product_id=%d function_code=%s", productID, functionCode)
}
}
selected.FunctionCode = functionCode
return &selected, nil
}
func countActiveAllocations(ctx context.Context, db *gorm.DB, usableType string, usableID uint) (int64, error) {
var count int64
err := db.WithContext(ctx).
Table("stock_allocations").
Where("usable_type = ? AND usable_id = ?", usableType, usableID).
Where("status = ?", entity.StockAllocationStatusActive).
Where("allocation_purpose = ?", entity.StockAllocationPurposeConsume).
Count(&count).Error
if err != nil {
return 0, err
}
return count, nil
}
cmd/reflow-project-flock-kandang/main.go
-648
View File
@@ -1,648 +0,0 @@
package main
import (
"context"
"flag"
"fmt"
"log"
"math"
"os"
"sort"
"strings"
"time"
commonSvc "gitlab.com/mbugroup/lti-api.git/internal/common/service"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
"gitlab.com/mbugroup/lti-api.git/internal/utils/fifo"
"gorm.io/gorm"
)
type productWarehouseScopeRow struct {
ProductWarehouseID uint `gorm:"column:product_warehouse_id"`
ProductID uint `gorm:"column:product_id"`
WarehouseID uint `gorm:"column:warehouse_id"`
ProjectFlockKandangID *uint `gorm:"column:project_flock_kandang_id"`
}
type reflowTarget struct {
ProductWarehouseID uint
ProductID uint
WarehouseID uint
ProjectFlockKandangID *uint
FlagGroupCode string
}
func main() {
var (
projectFlockKandangID uint
apply bool
asOfRaw string
includeShared bool
)
flag.UintVar(&projectFlockKandangID, "project-flock-kandang-id", 0, "Project flock kandang ID (required)")
flag.BoolVar(&apply, "apply", false, "Apply reflow. If false, run as dry-run")
flag.StringVar(&asOfRaw, "as-of", "", "Optional AsOf boundary. Format: RFC3339 or YYYY-MM-DD")
flag.BoolVar(&includeShared, "include-shared", true, "Include product warehouses referenced by transactions in this PFK scope (including shared/non-bound product warehouses)")
flag.Parse()
if projectFlockKandangID == 0 {
log.Fatal("--project-flock-kandang-id is required")
}
asOf, err := parseAsOf(asOfRaw)
if err != nil {
log.Fatalf("invalid --as-of: %v", err)
}
ctx := context.Background()
db := database.Connect(config.DBHost, config.DBName)
fifoStockV2Svc := commonSvc.NewFifoStockV2Service(db, nil)
exists, err := projectFlockKandangExists(ctx, db, projectFlockKandangID)
if err != nil {
log.Fatalf("failed to check project flock kandang: %v", err)
}
if !exists {
log.Fatalf("project_flock_kandang_id %d not found", projectFlockKandangID)
}
scopedPWs, err := loadScopedProductWarehouses(ctx, db, projectFlockKandangID, includeShared)
if err != nil {
log.Fatalf("failed to load scoped product warehouses: %v", err)
}
if len(scopedPWs) == 0 {
fmt.Printf("Mode: %s\n", modeLabel(apply))
fmt.Printf("Scope: project_flock_kandang_id=%d\n", projectFlockKandangID)
fmt.Println("No product warehouse found in scope")
return
}
targets := make([]reflowTarget, 0, len(scopedPWs))
skippedPW := 0
failedResolve := 0
for _, pw := range scopedPWs {
flagGroups, err := resolveFlagGroupsByProductWarehouse(ctx, db, pw.ProductWarehouseID)
if err != nil {
fmt.Printf("FAIL pw=%d error=resolve flag groups: %v\n", pw.ProductWarehouseID, err)
failedResolve++
continue
}
if len(flagGroups) == 0 {
fmt.Printf("SKIP pw=%d reason=no active fifo v2 route by product flag\n", pw.ProductWarehouseID)
skippedPW++
continue
}
for _, group := range flagGroups {
targets = append(targets, reflowTarget{
ProductWarehouseID: pw.ProductWarehouseID,
ProductID: pw.ProductID,
WarehouseID: pw.WarehouseID,
ProjectFlockKandangID: pw.ProjectFlockKandangID,
FlagGroupCode: group,
})
}
}
sort.Slice(targets, func(i, j int) bool {
if targets[i].ProductWarehouseID == targets[j].ProductWarehouseID {
return targets[i].FlagGroupCode < targets[j].FlagGroupCode
}
return targets[i].ProductWarehouseID < targets[j].ProductWarehouseID
})
fmt.Printf("Mode: %s\n", modeLabel(apply))
fmt.Printf("Scope: project_flock_kandang_id=%d include_shared=%t\n", projectFlockKandangID, includeShared)
if asOf != nil {
fmt.Printf("AsOf: %s\n", asOf.UTC().Format(time.RFC3339))
} else {
fmt.Println("AsOf: <nil> (full timeline)")
}
fmt.Printf("Product warehouses in scope: %d\n", len(scopedPWs))
fmt.Printf("Planned reflow targets: %d\n\n", len(targets))
for _, target := range targets {
fmt.Printf(
"PLAN pw=%d product=%d warehouse=%d pw_pfk=%s flag_group=%s\n",
target.ProductWarehouseID,
target.ProductID,
target.WarehouseID,
displayOptionalUint(target.ProjectFlockKandangID),
target.FlagGroupCode,
)
}
if !apply {
fmt.Println()
fmt.Printf("Summary: planned=%d skipped_pw=%d failed_resolve=%d applied=0 failed_apply=0\n", len(targets), skippedPW, failedResolve)
if failedResolve > 0 {
os.Exit(1)
}
return
}
successApply := 0
failedApply := 0
for idx, target := range targets {
req := commonSvc.FifoStockV2ReflowRequest{
FlagGroupCode: target.FlagGroupCode,
ProductWarehouseID: target.ProductWarehouseID,
AsOf: asOf,
IdempotencyKey: fmt.Sprintf(
"manual-pfk-reflow-%d-%d-%s-%d-%d",
projectFlockKandangID,
target.ProductWarehouseID,
strings.ToUpper(strings.TrimSpace(target.FlagGroupCode)),
time.Now().UnixNano(),
idx,
),
}
res, err := fifoStockV2Svc.Reflow(ctx, req)
if err != nil {
fmt.Printf("FAIL pw=%d flag_group=%s error=%v\n", target.ProductWarehouseID, target.FlagGroupCode, err)
failedApply++
continue
}
fmt.Printf(
"DONE pw=%d flag_group=%s rollback=%.3f allocate=%.3f pending=%.3f processed_usable=%d\n",
target.ProductWarehouseID,
target.FlagGroupCode,
res.Rollback.ReleasedQty,
res.Allocate.AllocatedQty,
res.Allocate.PendingQty,
res.ProcessedUsables,
)
successApply++
}
orphanPopulationRows := int64(0)
syncedPopulationQtyRows := int64(0)
syncedPopulationUsedRows := int64(0)
traceReleasedRows := int64(0)
traceInsertedRows := int64(0)
if rowsOrphan, rowsQty, rowsUsed, err := resyncProjectFlockPopulation(ctx, db, projectFlockKandangID); err != nil {
fmt.Printf("FAIL population_resync project_flock_kandang_id=%d error=%v\n", projectFlockKandangID, err)
failedApply++
} else {
orphanPopulationRows = rowsOrphan
syncedPopulationQtyRows = rowsQty
syncedPopulationUsedRows = rowsUsed
fmt.Printf(
"SYNC project_flock_populations orphan_marked=%d qty_synced=%d used_synced=%d\n",
orphanPopulationRows,
syncedPopulationQtyRows,
syncedPopulationUsedRows,
)
}
if released, inserted, err := resyncChickinTraceByProjectFlockKandang(ctx, db, fifoStockV2Svc, projectFlockKandangID); err != nil {
fmt.Printf("FAIL chickin_trace_resync project_flock_kandang_id=%d error=%v\n", projectFlockKandangID, err)
failedApply++
} else {
traceReleasedRows = released
traceInsertedRows = inserted
fmt.Printf(
"SYNC chickin_trace released=%d inserted=%d\n",
traceReleasedRows,
traceInsertedRows,
)
}
fmt.Println()
fmt.Printf(
"Summary: planned=%d skipped_pw=%d failed_resolve=%d applied=%d failed_apply=%d population_orphan=%d population_qty_synced=%d population_used_synced=%d trace_released=%d trace_inserted=%d\n",
len(targets),
skippedPW,
failedResolve,
successApply,
failedApply,
orphanPopulationRows,
syncedPopulationQtyRows,
syncedPopulationUsedRows,
traceReleasedRows,
traceInsertedRows,
)
if failedResolve > 0 || failedApply > 0 {
os.Exit(1)
}
}
func parseAsOf(raw string) (*time.Time, error) {
raw = strings.TrimSpace(raw)
if raw == "" {
return nil, nil
}
layouts := []string{
time.RFC3339Nano,
time.RFC3339,
"2006-01-02 15:04:05",
"2006-01-02",
}
for _, layout := range layouts {
parsed, err := time.Parse(layout, raw)
if err != nil {
continue
}
if layout == "2006-01-02" {
endOfDay := time.Date(parsed.Year(), parsed.Month(), parsed.Day(), 23, 59, 59, int(time.Second-time.Nanosecond), time.UTC)
return &endOfDay, nil
}
asOf := parsed.UTC()
return &asOf, nil
}
return nil, fmt.Errorf("unsupported format %q", raw)
}
func modeLabel(apply bool) string {
if apply {
return "APPLY"
}
return "DRY-RUN"
}
func displayOptionalUint(v *uint) string {
if v == nil {
return "NULL"
}
return fmt.Sprintf("%d", *v)
}
func projectFlockKandangExists(ctx context.Context, db *gorm.DB, projectFlockKandangID uint) (bool, error) {
var count int64
err := db.WithContext(ctx).
Table("project_flock_kandangs").
Where("id = ?", projectFlockKandangID).
Count(&count).Error
if err != nil {
return false, err
}
return count > 0, nil
}
func loadScopedProductWarehouses(ctx context.Context, db *gorm.DB, projectFlockKandangID uint, includeShared bool) ([]productWarehouseScopeRow, error) {
if !includeShared {
var rows []productWarehouseScopeRow
err := db.WithContext(ctx).
Table("product_warehouses").
Select("id AS product_warehouse_id, product_id, warehouse_id, project_flock_kandang_id").
Where("project_flock_kandang_id = ?", projectFlockKandangID).
Order("id ASC").
Scan(&rows).Error
if err != nil {
return nil, err
}
return rows, nil
}
query := `
WITH scoped_pw AS (
SELECT pw.id AS product_warehouse_id
FROM product_warehouses pw
WHERE pw.project_flock_kandang_id = ?
UNION
SELECT pc.product_warehouse_id
FROM project_chickins pc
WHERE pc.project_flock_kandang_id = ?
AND pc.deleted_at IS NULL
UNION
SELECT rs.product_warehouse_id
FROM recordings r
JOIN recording_stocks rs ON rs.recording_id = r.id
WHERE r.project_flock_kandangs_id = ?
AND r.deleted_at IS NULL
UNION
SELECT rd.product_warehouse_id
FROM recordings r
JOIN recording_depletions rd ON rd.recording_id = r.id
WHERE r.project_flock_kandangs_id = ?
AND r.deleted_at IS NULL
UNION
SELECT rd.source_product_warehouse_id
FROM recordings r
JOIN recording_depletions rd ON rd.recording_id = r.id
WHERE r.project_flock_kandangs_id = ?
AND r.deleted_at IS NULL
AND rd.source_product_warehouse_id IS NOT NULL
UNION
SELECT re.product_warehouse_id
FROM recordings r
JOIN recording_eggs re ON re.recording_id = r.id
WHERE r.project_flock_kandangs_id = ?
AND r.deleted_at IS NULL
UNION
SELECT lts.product_warehouse_id
FROM laying_transfer_sources lts
WHERE lts.source_project_flock_kandang_id = ?
AND lts.deleted_at IS NULL
AND lts.product_warehouse_id IS NOT NULL
UNION
SELECT ltt.product_warehouse_id
FROM laying_transfer_targets ltt
WHERE ltt.target_project_flock_kandang_id = ?
AND ltt.deleted_at IS NULL
AND ltt.product_warehouse_id IS NOT NULL
UNION
SELECT pi.product_warehouse_id
FROM purchase_items pi
WHERE pi.project_flock_kandang_id = ?
AND pi.product_warehouse_id IS NOT NULL
)
SELECT DISTINCT
pw.id AS product_warehouse_id,
pw.product_id,
pw.warehouse_id,
pw.project_flock_kandang_id
FROM scoped_pw s
JOIN product_warehouses pw ON pw.id = s.product_warehouse_id
ORDER BY pw.id ASC
`
var rows []productWarehouseScopeRow
err := db.WithContext(ctx).
Raw(
query,
projectFlockKandangID,
projectFlockKandangID,
projectFlockKandangID,
projectFlockKandangID,
projectFlockKandangID,
projectFlockKandangID,
projectFlockKandangID,
projectFlockKandangID,
projectFlockKandangID,
).
Scan(&rows).Error
if err != nil {
return nil, err
}
return rows, nil
}
func resolveFlagGroupsByProductWarehouse(ctx context.Context, db *gorm.DB, productWarehouseID uint) ([]string, error) {
var groups []string
err := db.WithContext(ctx).
Table("fifo_stock_v2_route_rules rr").
Select("DISTINCT rr.flag_group_code").
Joins("JOIN fifo_stock_v2_flag_groups fg ON fg.code = rr.flag_group_code AND fg.is_active = TRUE").
Where("rr.is_active = TRUE").
Where(`
EXISTS (
SELECT 1
FROM product_warehouses pw
JOIN flags f ON f.flagable_id = pw.product_id
JOIN fifo_stock_v2_flag_members fm ON fm.flag_name = f.name AND fm.is_active = TRUE
WHERE pw.id = ?
AND f.flagable_type = ?
AND fm.flag_group_code = rr.flag_group_code
)
`, productWarehouseID, entity.FlagableTypeProduct).
Order("rr.flag_group_code ASC").
Scan(&groups).Error
if err != nil {
return nil, err
}
return groups, nil
}
func resyncProjectFlockPopulation(ctx context.Context, db *gorm.DB, projectFlockKandangID uint) (int64, int64, int64, error) {
if projectFlockKandangID == 0 {
return 0, 0, 0, nil
}
orphanResult := db.WithContext(ctx).Exec(`
UPDATE project_flock_populations pfp
SET deleted_at = NOW(),
updated_at = NOW()
FROM project_chickins pc
WHERE pfp.project_chickin_id = pc.id
AND pc.project_flock_kandang_id = ?
AND pc.deleted_at IS NOT NULL
AND pfp.deleted_at IS NULL
`, projectFlockKandangID)
if orphanResult.Error != nil {
return 0, 0, 0, orphanResult.Error
}
qtyResult := db.WithContext(ctx).Exec(`
UPDATE project_flock_populations p
SET total_qty = GREATEST(COALESCE(pc.usage_qty, 0), 0),
updated_at = NOW()
FROM project_chickins pc
WHERE p.project_chickin_id = pc.id
AND pc.project_flock_kandang_id = ?
AND pc.deleted_at IS NULL
AND p.deleted_at IS NULL
`, projectFlockKandangID)
if qtyResult.Error != nil {
return 0, 0, 0, qtyResult.Error
}
usedResult := db.WithContext(ctx).Exec(`
WITH scoped AS (
SELECT pfp.id, pfp.total_qty
FROM project_flock_populations pfp
JOIN project_chickins pc ON pc.id = pfp.project_chickin_id
WHERE pc.project_flock_kandang_id = ?
AND pc.deleted_at IS NULL
AND pfp.deleted_at IS NULL
),
alloc AS (
SELECT sa.stockable_id, SUM(sa.qty) AS used_qty
FROM stock_allocations sa
WHERE sa.stockable_type = 'PROJECT_FLOCK_POPULATION'
AND sa.status = 'ACTIVE'
AND sa.allocation_purpose = 'CONSUME'
GROUP BY sa.stockable_id
)
UPDATE project_flock_populations p
SET total_used_qty = LEAST(COALESCE(a.used_qty, 0), GREATEST(s.total_qty, 0)),
updated_at = NOW()
FROM scoped s
LEFT JOIN alloc a ON a.stockable_id = s.id
WHERE p.id = s.id
`, projectFlockKandangID)
if usedResult.Error != nil {
return 0, 0, 0, usedResult.Error
}
return orphanResult.RowsAffected, qtyResult.RowsAffected, usedResult.RowsAffected, nil
}
func resyncChickinTraceByProjectFlockKandang(
ctx context.Context,
db *gorm.DB,
fifoStockV2Svc commonSvc.FifoStockV2Service,
projectFlockKandangID uint,
) (int64, int64, error) {
if projectFlockKandangID == 0 {
return 0, 0, nil
}
var productWarehouseIDs []uint
if err := db.WithContext(ctx).
Table("project_chickins").
Distinct("product_warehouse_id").
Where("project_flock_kandang_id = ?", projectFlockKandangID).
Where("deleted_at IS NULL").
Order("product_warehouse_id ASC").
Pluck("product_warehouse_id", &productWarehouseIDs).Error; err != nil {
return 0, 0, err
}
if len(productWarehouseIDs) == 0 {
return 0, 0, nil
}
totalReleased := int64(0)
totalInserted := int64(0)
for _, productWarehouseID := range productWarehouseIDs {
var releasedRows int64
var insertedRows int64
err := db.WithContext(ctx).Transaction(func(tx *gorm.DB) error {
flagGroups, err := resolveFlagGroupsByProductWarehouse(ctx, tx, productWarehouseID)
if err != nil {
return err
}
if len(flagGroups) == 0 {
return nil
}
flagGroupCode := strings.TrimSpace(flagGroups[0])
if flagGroupCode == "" {
return nil
}
released := tx.WithContext(ctx).
Table("stock_allocations").
Where("product_warehouse_id = ?", productWarehouseID).
Where("usable_type = ?", fifo.UsableKeyProjectChickin.String()).
Where("allocation_purpose = ?", entity.StockAllocationPurposeTraceChickin).
Where("status = ?", entity.StockAllocationStatusActive).
Updates(map[string]any{
"status": entity.StockAllocationStatusReleased,
"released_at": time.Now(),
"updated_at": time.Now(),
"note": "chickin_trace_reflow_reset",
})
if released.Error != nil {
return released.Error
}
releasedRows = released.RowsAffected
type chickinRow struct {
ID uint `gorm:"column:id"`
UsageQty float64 `gorm:"column:usage_qty"`
ChickIn time.Time `gorm:"column:chick_in_date"`
}
chickins := make([]chickinRow, 0)
if err := tx.WithContext(ctx).
Table("project_chickins").
Select("id, usage_qty, chick_in_date").
Where("product_warehouse_id = ?", productWarehouseID).
Where("deleted_at IS NULL").
Where("usage_qty > 0").
Order("chick_in_date ASC, id ASC").
Scan(&chickins).Error; err != nil {
return err
}
if len(chickins) == 0 {
return nil
}
gatherRows, err := fifoStockV2Svc.Gather(ctx, commonSvc.FifoStockV2GatherRequest{
FlagGroupCode: flagGroupCode,
Lane: "STOCKABLE",
AllocationPurpose: entity.StockAllocationPurposeTraceChickin,
IgnoreSourceUsed: true,
ProductWarehouseID: productWarehouseID,
Limit: 50000,
Tx: tx,
})
if err != nil {
return err
}
if len(gatherRows) == 0 {
return nil
}
type lotKey struct {
StockableType string
StockableID uint
}
remainingByLot := make(map[lotKey]float64, len(gatherRows))
for _, row := range gatherRows {
key := lotKey{StockableType: row.Ref.LegacyTypeKey, StockableID: row.Ref.ID}
remainingByLot[key] = row.AvailableQuantity
}
now := time.Now()
lotIndex := 0
for _, chickinRow := range chickins {
remaining := chickinRow.UsageQty
for remaining > 1e-6 && lotIndex < len(gatherRows) {
lot := gatherRows[lotIndex]
key := lotKey{StockableType: lot.Ref.LegacyTypeKey, StockableID: lot.Ref.ID}
available := remainingByLot[key]
if available <= 1e-6 {
lotIndex++
continue
}
portion := math.Min(remaining, available)
if portion <= 1e-6 {
lotIndex++
continue
}
insert := map[string]any{
"product_warehouse_id": productWarehouseID,
"stockable_type": lot.Ref.LegacyTypeKey,
"stockable_id": lot.Ref.ID,
"usable_type": fifo.UsableKeyProjectChickin.String(),
"usable_id": chickinRow.ID,
"qty": portion,
"status": entity.StockAllocationStatusActive,
"allocation_purpose": entity.StockAllocationPurposeTraceChickin,
"engine_version": "v2",
"flag_group_code": flagGroupCode,
"function_code": "CHICKIN_TRACE",
"created_at": now,
"updated_at": now,
}
if err := tx.WithContext(ctx).Table("stock_allocations").Create(insert).Error; err != nil {
return err
}
insertedRows++
remaining -= portion
remainingByLot[key] = available - portion
}
}
return nil
})
if err != nil {
return totalReleased, totalInserted, err
}
totalReleased += releasedRows
totalInserted += insertedRows
}
return totalReleased, totalInserted, nil
}
cmd/reflow-quantity-product-warehouse-from-stock-allocation/main.go
-282
View File
@@ -1,282 +0,0 @@
package main
import (
"context"
"errors"
"flag"
"fmt"
"log"
"math"
"os"
"strings"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
"gitlab.com/mbugroup/lti-api.git/internal/utils/fifo"
"gorm.io/gorm"
)
const qtyEpsilon = 1e-6
const (
levelAll = 1
levelByProductName = 2
levelByProductWarehouse = 3
)
type reflowRow struct {
ProductWarehouseID uint `gorm:"column:product_warehouse_id"`
ProductID uint `gorm:"column:product_id"`
ProductName string `gorm:"column:product_name"`
CurrentQty float64 `gorm:"column:current_qty"`
SumTotalQty float64 `gorm:"column:sum_total_qty"`
SumAllocatedQty float64 `gorm:"column:sum_allocated_qty"`
ComputedQty float64 `gorm:"column:computed_qty"`
}
func main() {
var (
apply bool
level int
productName string
productWarehouseID uint
)
flag.BoolVar(&apply, "apply", false, "Apply changes. If false, run as dry-run")
flag.IntVar(&level, "level", levelAll, "CLI level: 1=all product_warehouse scope, 2=product name scope, 3=product_warehouse_id scope")
flag.StringVar(&productName, "product-name", "", "Product name (required for level 2)")
flag.UintVar(&productWarehouseID, "product-warehouse-id", 0, "Product warehouse id (required for level 3)")
flag.Parse()
productName = strings.TrimSpace(productName)
if err := validateFlags(level, productName, productWarehouseID); err != nil {
log.Fatalf("invalid flags: %v", err)
}
ctx := context.Background()
db := database.Connect(config.DBHost, config.DBName)
rows, err := loadReflowRows(ctx, db, level, productName, productWarehouseID)
if err != nil {
log.Fatalf("failed to calculate reflow qty: %v", err)
}
fmt.Printf("Mode: %s\n", modeLabel(apply))
fmt.Printf("Level: %d (%s)\n", level, levelLabel(level))
if productName != "" {
fmt.Printf("Filter product_name: %s\n", productName)
}
if productWarehouseID > 0 {
fmt.Printf("Filter product_warehouse_id: %d\n", productWarehouseID)
}
fmt.Printf("Targets found: %d\n\n", len(rows))
if len(rows) == 0 {
fmt.Println("No product warehouse found from purchase_items scope")
return
}
negativePlan := 0
for _, row := range rows {
if row.ComputedQty < 0 {
negativePlan++
}
fmt.Printf(
"PLAN pw=%d product_id=%d product=%q current_qty=%.3f total_qty=%.3f allocated_qty=%.3f computed_qty=%.3f delta=%.3f\n",
row.ProductWarehouseID,
row.ProductID,
row.ProductName,
row.CurrentQty,
row.SumTotalQty,
row.SumAllocatedQty,
row.ComputedQty,
row.ComputedQty-row.CurrentQty,
)
}
if !apply {
fmt.Println()
fmt.Printf("Summary: planned=%d updated=0 skipped=0 failed=0 negative_plan=%d\n", len(rows), negativePlan)
return
}
updated := 0
skipped := 0
negativeUpdated := 0
err = db.WithContext(ctx).Transaction(func(tx *gorm.DB) error {
for _, row := range rows {
if nearlyEqual(row.CurrentQty, row.ComputedQty) {
fmt.Printf(
"SKIP pw=%d reason=no_change current_qty=%.3f computed_qty=%.3f\n",
row.ProductWarehouseID,
row.CurrentQty,
row.ComputedQty,
)
skipped++
continue
}
if err := tx.Table("product_warehouses").
Where("id = ?", row.ProductWarehouseID).
Update("qty", row.ComputedQty).Error; err != nil {
return fmt.Errorf("update qty for product_warehouse_id=%d: %w", row.ProductWarehouseID, err)
}
if row.ComputedQty < 0 {
negativeUpdated++
}
fmt.Printf(
"DONE pw=%d product_id=%d product=%q old_qty=%.3f new_qty=%.3f\n",
row.ProductWarehouseID,
row.ProductID,
row.ProductName,
row.CurrentQty,
row.ComputedQty,
)
updated++
}
return nil
})
if err != nil {
fmt.Println()
fmt.Printf(
"Summary: planned=%d updated=%d skipped=%d failed=1 negative_plan=%d negative_updated=%d\n",
len(rows),
updated,
skipped,
negativePlan,
negativeUpdated,
)
log.Printf("error: %v", err)
os.Exit(1)
}
fmt.Println()
fmt.Printf(
"Summary: planned=%d updated=%d skipped=%d failed=0 negative_plan=%d negative_updated=%d\n",
len(rows),
updated,
skipped,
negativePlan,
negativeUpdated,
)
}
func validateFlags(level int, productName string, productWarehouseID uint) error {
switch level {
case levelAll:
if productName != "" {
return errors.New("--product-name cannot be used on level 1")
}
if productWarehouseID > 0 {
return errors.New("--product-warehouse-id cannot be used on level 1")
}
case levelByProductName:
if productName == "" {
return errors.New("--product-name is required on level 2")
}
if productWarehouseID > 0 {
return errors.New("--product-warehouse-id cannot be used on level 2")
}
case levelByProductWarehouse:
if productWarehouseID == 0 {
return errors.New("--product-warehouse-id is required on level 3")
}
if productName != "" {
return errors.New("--product-name cannot be used on level 3")
}
default:
return fmt.Errorf("unsupported --level=%d (allowed: 1, 2, 3)", level)
}
return nil
}
func loadReflowRows(
ctx context.Context,
db *gorm.DB,
level int,
productName string,
productWarehouseID uint,
) ([]reflowRow, error) {
allocSub := db.WithContext(ctx).
Table("stock_allocations sa").
Select(`
sa.stockable_id,
COALESCE(SUM(sa.qty), 0) AS used_qty
`).
Where("sa.stockable_type = ?", fifo.StockableKeyPurchaseItems.String()).
Where("sa.status = ?", entity.StockAllocationStatusActive).
Where("sa.deleted_at IS NULL").
Group("sa.stockable_id")
calcSub := db.WithContext(ctx).
Table("purchase_items pi").
Select(`
pi.product_warehouse_id,
COALESCE(SUM(pi.total_qty), 0) AS sum_total_qty,
COALESCE(SUM(COALESCE(alloc.used_qty, 0)), 0) AS sum_allocated_qty,
COALESCE(SUM(COALESCE(pi.total_qty, 0) - COALESCE(alloc.used_qty, 0)), 0) AS computed_qty
`).
Joins("LEFT JOIN (?) alloc ON alloc.stockable_id = pi.id", allocSub).
Where("pi.product_warehouse_id IS NOT NULL").
Group("pi.product_warehouse_id")
query := db.WithContext(ctx).
Table("product_warehouses pw").
Select(`
pw.id AS product_warehouse_id,
pw.product_id AS product_id,
p.name AS product_name,
COALESCE(pw.qty, 0) AS current_qty,
calc.sum_total_qty,
calc.sum_allocated_qty,
calc.computed_qty
`).
Joins("JOIN products p ON p.id = pw.product_id").
Joins("JOIN (?) calc ON calc.product_warehouse_id = pw.id", calcSub).
Order("pw.id ASC")
switch level {
case levelByProductName:
query = query.Where("LOWER(p.name) = LOWER(?)", productName)
case levelByProductWarehouse:
query = query.Where("pw.id = ?", productWarehouseID)
}
rows := make([]reflowRow, 0)
if err := query.Scan(&rows).Error; err != nil {
return nil, err
}
return rows, nil
}
func modeLabel(apply bool) string {
if apply {
return "APPLY"
}
return "DRY-RUN"
}
func levelLabel(level int) string {
switch level {
case levelAll:
return "all product_warehouse from purchase_items"
case levelByProductName:
return "specific product name"
case levelByProductWarehouse:
return "specific product_warehouse_id"
default:
return "unknown"
}
}
func nearlyEqual(a, b float64) bool {
return math.Abs(a-b) <= qtyEpsilon
}
cmd/repoint-wrong-warehouse-relations/main.go
-1147
View File
File diff suppressed because it is too large Load Diff
cmd/run-sql-file/main.go
-75
View File
@@ -1,75 +0,0 @@
package main
import (
"flag"
"fmt"
"log"
"os"
"strings"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
"gorm.io/gorm"
)
type options struct {
FilePath string
Apply bool
}
func main() {
var opts options
flag.StringVar(&opts.FilePath, "file", "", "Path to .sql file (required)")
flag.BoolVar(&opts.Apply, "apply", false, "Apply SQL to database. If false, run as dry-run")
flag.Parse()
opts.FilePath = strings.TrimSpace(opts.FilePath)
if opts.FilePath == "" {
log.Fatal("--file is required")
}
sqlContent, err := readSQLFile(opts.FilePath)
if err != nil {
log.Fatalf("failed reading sql file: %v", err)
}
mode := "dry-run"
if opts.Apply {
mode = "apply"
}
fmt.Printf("Mode: %s\n", mode)
fmt.Printf("File: %s\n", opts.FilePath)
fmt.Printf("SQL bytes: %d\n", len(sqlContent))
if !opts.Apply {
fmt.Println("Dry-run only. Add --apply to execute the SQL file.")
return
}
db := database.Connect(config.DBHost, config.DBName)
if err := executeSQL(db, sqlContent); err != nil {
log.Fatalf("failed executing sql file: %v", err)
}
fmt.Println("DONE: SQL executed successfully")
}
func readSQLFile(path string) (string, error) {
raw, err := os.ReadFile(path)
if err != nil {
return "", err
}
sql := strings.TrimSpace(strings.TrimPrefix(string(raw), "\ufeff"))
if sql == "" {
return "", fmt.Errorf("sql file is empty")
}
return sql, nil
}
func executeSQL(db *gorm.DB, sql string) error {
return db.Transaction(func(tx *gorm.DB) error {
return tx.Exec(sql).Error
})
}
cmd/validate-chickin-trace/main.go
-122
View File
@@ -1,122 +0,0 @@
package main
import (
"context"
"flag"
"fmt"
"log"
"math"
"os"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
"gitlab.com/mbugroup/lti-api.git/internal/utils/fifo"
"gorm.io/gorm"
)
type mismatchRow struct {
ChickinID uint `gorm:"column:chickin_id"`
ProjectFlockKandang uint `gorm:"column:project_flock_kandang_id"`
ProductWarehouseID uint `gorm:"column:product_warehouse_id"`
UsageQty float64 `gorm:"column:usage_qty"`
TraceQty float64 `gorm:"column:trace_qty"`
}
func main() {
var projectFlockKandangID uint
flag.UintVar(&projectFlockKandangID, "project-flock-kandang-id", 0, "Optional project flock kandang scope")
flag.Parse()
ctx := context.Background()
db := database.Connect(config.DBHost, config.DBName)
rows, err := loadTraceMismatches(ctx, db, projectFlockKandangID)
if err != nil {
log.Fatalf("failed to load trace mismatches: %v", err)
}
activeConsumeRows, err := countActiveConsumeProjectChickin(ctx, db, projectFlockKandangID)
if err != nil {
log.Fatalf("failed to count active consume rows: %v", err)
}
fmt.Printf("Scope project_flock_kandang_id=%d\n", projectFlockKandangID)
fmt.Printf("Mismatched chickin trace rows: %d\n", len(rows))
fmt.Printf("Active PROJECT_CHICKIN consume rows: %d\n", activeConsumeRows)
if len(rows) > 0 {
for _, row := range rows {
fmt.Printf(
"MISMATCH chickin_id=%d pfk=%d pw=%d usage=%.3f trace=%.3f diff=%.3f\n",
row.ChickinID,
row.ProjectFlockKandang,
row.ProductWarehouseID,
row.UsageQty,
row.TraceQty,
row.TraceQty-row.UsageQty,
)
}
}
if len(rows) > 0 || activeConsumeRows > 0 {
os.Exit(1)
}
}
func loadTraceMismatches(ctx context.Context, db *gorm.DB, projectFlockKandangID uint) ([]mismatchRow, error) {
query := db.WithContext(ctx).
Table("project_chickins pc").
Select(`
pc.id AS chickin_id,
pc.project_flock_kandang_id,
pc.product_warehouse_id,
COALESCE(pc.usage_qty, 0) AS usage_qty,
COALESCE(SUM(sa.qty), 0) AS trace_qty
`).
Joins(`
LEFT JOIN stock_allocations sa
ON sa.usable_type = ?
AND sa.usable_id = pc.id
AND sa.status = 'ACTIVE'
AND sa.allocation_purpose = 'TRACE_CHICKIN'
`, fifo.UsableKeyProjectChickin.String()).
Where("pc.deleted_at IS NULL").
Where("COALESCE(pc.usage_qty,0) > 0").
Group("pc.id, pc.project_flock_kandang_id, pc.product_warehouse_id, pc.usage_qty")
if projectFlockKandangID > 0 {
query = query.Where("pc.project_flock_kandang_id = ?", projectFlockKandangID)
}
rows := make([]mismatchRow, 0)
if err := query.Scan(&rows).Error; err != nil {
return nil, err
}
out := make([]mismatchRow, 0, len(rows))
for _, row := range rows {
if math.Abs(row.TraceQty-row.UsageQty) > 1e-3 {
out = append(out, row)
}
}
return out, nil
}
func countActiveConsumeProjectChickin(ctx context.Context, db *gorm.DB, projectFlockKandangID uint) (int64, error) {
q := db.WithContext(ctx).
Table("stock_allocations sa").
Joins("JOIN project_chickins pc ON pc.id = sa.usable_id").
Where("sa.usable_type = ?", fifo.UsableKeyProjectChickin.String()).
Where("sa.status = 'ACTIVE'").
Where("sa.allocation_purpose = 'CONSUME'")
if projectFlockKandangID > 0 {
q = q.Where("pc.project_flock_kandang_id = ?", projectFlockKandangID)
}
var count int64
if err := q.Count(&count).Error; err != nil {
return 0, err
}
return count, nil
}
cmd/verify-stock-consolidation/main.go
-524
View File
@@ -1,524 +0,0 @@
package main
import (
"context"
"encoding/json"
"flag"
"fmt"
"log"
"os"
"strings"
"text/tabwriter"
"gitlab.com/mbugroup/lti-api.git/internal/config"
"gitlab.com/mbugroup/lti-api.git/internal/database"
"gorm.io/gorm"
)
const (
outputTable = "table"
outputJSON = "json"
caseA = "A"
caseB = "B"
caseAll = "ALL"
)
type options struct {
Output string
AreaName string
KandangLocationName string
DBSSLMode string
VerifyCase string
}
type sourceWarehouseCheck struct {
AreaName string `json:"area_name"`
KandangLocationName string `json:"kandang_location_name"`
KandangID uint `json:"kandang_id"`
KandangName string `json:"kandang_name"`
SourceWarehouseID uint `json:"source_warehouse_id"`
SourceWarehouseName string `json:"source_warehouse_name"`
Case string `json:"case" gorm:"column:case_type"`
DeletedAt *string `json:"deleted_at"`
StockInProductWH float64 `json:"stock_in_product_wh"`
ActivePurchaseItems int64 `json:"active_purchase_items"`
Status string `json:"status"`
}
type destinationWarehouseCheck struct {
AreaName string `json:"area_name"`
KandangLocationName string `json:"kandang_location_name"`
FarmWarehouseID uint `json:"farm_warehouse_id"`
FarmWarehouseName string `json:"farm_warehouse_name"`
ProductID uint `json:"product_id"`
ProductName string `json:"product_name"`
CurrentQty float64 `json:"current_qty"`
StockLogsTotal float64 `json:"stock_logs_total"`
StockLogsCount int64 `json:"stock_logs_count"`
Status string `json:"status"`
}
type orphanedReferenceCheck struct {
Table string `json:"table"`
Column string `json:"column"`
ReferenceCount int64 `json:"reference_count"`
DeletedWarehouseIDs string `json:"deleted_warehouse_ids"`
}
type verificationSummary struct {
TotalSourceWarehouses int `json:"total_source_warehouses"`
CleanSourceWarehouses int `json:"clean_source_warehouses"`
DirtySourceWarehouses int `json:"dirty_source_warehouses"`
TotalDestinationWarehouses int `json:"total_destination_warehouses"`
MatchingDestinations int `json:"matching_destinations"`
DiscrepancyDestinations int `json:"discrepancy_destinations"`
TotalOrphanedReferences int64 `json:"total_orphaned_references"`
OverallStatus string `json:"overall_status"`
}
func main() {
opts, err := parseFlags()
if err != nil {
log.Fatalf("invalid flags: %v", err)
}
if opts.DBSSLMode != "" {
config.DBSSLMode = opts.DBSSLMode
}
ctx := context.Background()
db := database.Connect(config.DBHost, config.DBName)
// Verify source warehouses
sourceChecks, err := verifySourceWarehouses(ctx, db, opts)
if err != nil {
log.Fatalf("failed to verify source warehouses: %v", err)
}
// Verify destination warehouses
destChecks, err := verifyDestinationWarehouses(ctx, db, opts, sourceChecks)
if err != nil {
log.Fatalf("failed to verify destination warehouses: %v", err)
}
// Verify no orphaned references
orphanedRefs, err := verifyOrphanedReferences(ctx, db, sourceChecks)
if err != nil {
log.Fatalf("failed to verify orphaned references: %v", err)
}
// Render results
summary := buildSummary(sourceChecks, destChecks, orphanedRefs)
renderVerification(opts.Output, sourceChecks, destChecks, orphanedRefs, summary)
}
func parseFlags() (*options, error) {
var opts options
flag.StringVar(&opts.Output, "output", outputTable, "Output format: table or json")
flag.StringVar(&opts.AreaName, "area-name", "", "Optional exact area name filter")
flag.StringVar(&opts.KandangLocationName, "kandang-location-name", "", "Optional exact canonical kandang location filter")
flag.StringVar(&opts.DBSSLMode, "db-sslmode", "", "Optional database sslmode override, for example: require")
flag.StringVar(&opts.VerifyCase, "verify-case", caseAll, "Verify specific case: A, B, or all")
flag.Parse()
opts.Output = strings.ToLower(strings.TrimSpace(opts.Output))
opts.AreaName = strings.TrimSpace(opts.AreaName)
opts.KandangLocationName = strings.TrimSpace(opts.KandangLocationName)
opts.DBSSLMode = strings.TrimSpace(opts.DBSSLMode)
opts.VerifyCase = strings.ToUpper(strings.TrimSpace(opts.VerifyCase))
if opts.Output == "" {
opts.Output = outputTable
}
if opts.Output != outputTable && opts.Output != outputJSON {
return nil, fmt.Errorf("unsupported --output=%s", opts.Output)
}
if opts.VerifyCase == "" {
opts.VerifyCase = caseAll
}
if opts.VerifyCase != caseA && opts.VerifyCase != caseB && opts.VerifyCase != caseAll {
return nil, fmt.Errorf("unsupported --verify-case=%s", opts.VerifyCase)
}
return &opts, nil
}
func verifySourceWarehouses(ctx context.Context, db *gorm.DB, opts *options) ([]sourceWarehouseCheck, error) {
filters, args := buildFilters(opts)
query := fmt.Sprintf(`
WITH case_a_warehouses AS (
-- Case A: Kandang-level warehouses (type != 'LOKASI' or NULL)
SELECT
w.id,
a.name AS area_name,
kl.name AS kandang_location_name,
k.id,
k.name,
'A'::text AS case_type
FROM warehouses w
JOIN kandangs k ON k.id = w.kandang_id AND k.deleted_at IS NULL
JOIN locations kl ON kl.id = k.location_id
JOIN areas a ON a.id = kl.area_id
WHERE w.deleted_at IS NOT NULL
AND w.kandang_id IS NOT NULL
AND UPPER(COALESCE(w.type, '')) <> 'LOKASI'
),
case_b_warehouses AS (
-- Case B: Wrong-location warehouses (location_id != kandang.location_id)
SELECT
w.id,
a.name AS area_name,
kl.name AS kandang_location_name,
k.id,
k.name,
'B'::text AS case_type
FROM warehouses w
JOIN kandangs k ON k.id = w.kandang_id AND k.deleted_at IS NULL
JOIN locations kl ON kl.id = k.location_id
JOIN areas a ON a.id = kl.area_id
WHERE w.deleted_at IS NOT NULL
AND w.kandang_id IS NOT NULL
AND w.location_id IS DISTINCT FROM k.location_id
),
all_source_warehouses AS (
SELECT w_id, area_name, kandang_location_name, k_id AS kandang_id, name, case_type FROM (
SELECT w.id as w_id, a.name AS area_name, kl.name AS kandang_location_name, k.id as k_id, k.name, 'A'::text AS case_type
FROM warehouses w
JOIN kandangs k ON k.id = w.kandang_id AND k.deleted_at IS NULL
JOIN locations kl ON kl.id = k.location_id
JOIN areas a ON a.id = kl.area_id
WHERE w.deleted_at IS NOT NULL
AND w.kandang_id IS NOT NULL
AND UPPER(COALESCE(w.type, '')) <> 'LOKASI'
) case_a_warehouses
UNION ALL
SELECT w_id, area_name, kandang_location_name, k_id AS kandang_id, name, case_type FROM (
SELECT w.id as w_id, a.name AS area_name, kl.name AS kandang_location_name, k.id as k_id, k.name, 'B'::text AS case_type
FROM warehouses w
JOIN kandangs k ON k.id = w.kandang_id AND k.deleted_at IS NULL
JOIN locations kl ON kl.id = k.location_id
JOIN areas a ON a.id = kl.area_id
WHERE w.deleted_at IS NOT NULL
AND w.kandang_id IS NOT NULL
AND w.location_id IS DISTINCT FROM k.location_id
) case_b_warehouses
)
SELECT
asw.area_name,
asw.kandang_location_name,
asw.kandang_id,
asw.name AS kandang_name,
w.id AS source_warehouse_id,
w.name AS source_warehouse_name,
asw.case_type,
TO_CHAR(w.deleted_at, 'YYYY-MM-DD') AS deleted_at,
COALESCE(SUM(pw.qty), 0) AS stock_in_product_wh,
COUNT(DISTINCT pi.id) AS active_purchase_items
FROM all_source_warehouses asw
JOIN warehouses w ON w.id = asw.w_id
LEFT JOIN product_warehouses pw ON pw.warehouse_id = w.id
LEFT JOIN purchase_items pi ON pi.warehouse_id = w.id
WHERE true
%s
GROUP BY
asw.area_name,
asw.kandang_location_name,
asw.kandang_id,
asw.name,
w.id,
w.name,
asw.case_type,
w.deleted_at
ORDER BY asw.area_name ASC, asw.kandang_location_name ASC, w.name ASC
`, andClause(filters))
rows := make([]sourceWarehouseCheck, 0)
if err := db.WithContext(ctx).Raw(query, args...).Scan(&rows).Error; err != nil {
return nil, err
}
// Determine status for each row
for i := range rows {
if rows[i].StockInProductWH == 0 && rows[i].ActivePurchaseItems == 0 {
rows[i].Status = "CLEAN"
} else {
rows[i].Status = "DIRTY"
}
// Filter by case if requested
if opts.VerifyCase != caseAll && rows[i].Case != opts.VerifyCase {
rows = append(rows[:i], rows[i+1:]...)
i--
}
}
return rows, nil
}
func verifyDestinationWarehouses(ctx context.Context, db *gorm.DB, opts *options, sourceChecks []sourceWarehouseCheck) ([]destinationWarehouseCheck, error) {
filters, args := buildFilters(opts)
query := fmt.Sprintf(`
SELECT
a.name AS area_name,
kl.name AS kandang_location_name,
fw.id AS farm_warehouse_id,
fw.name AS farm_warehouse_name,
p.id AS product_id,
p.name AS product_name,
COALESCE(pw.qty, 0) AS current_qty,
COALESCE(SUM(sl.stock), 0) AS stock_logs_total,
COUNT(DISTINCT sl.id) AS stock_logs_count
FROM warehouses fw
JOIN locations kl ON kl.id = fw.location_id
JOIN areas a ON a.id = kl.area_id
JOIN product_warehouses pw ON pw.warehouse_id = fw.id
JOIN products p ON p.id = pw.product_id
JOIN flags f ON f.flagable_id = p.id AND f.flagable_type = 'products' AND UPPER(f.name) IN ('PAKAN', 'OVK')
LEFT JOIN stock_logs sl ON sl.product_warehouse_id = pw.id
WHERE fw.deleted_at IS NULL
AND UPPER(COALESCE(fw.type, '')) = 'LOKASI'
%s
GROUP BY
a.name,
kl.name,
fw.id,
fw.name,
p.id,
p.name,
pw.qty
ORDER BY a.name ASC, kl.name ASC, fw.name ASC, p.name ASC
`, andClause(filters))
rows := make([]destinationWarehouseCheck, 0)
if err := db.WithContext(ctx).Raw(query, args...).Scan(&rows).Error; err != nil {
return nil, err
}
// Determine status: check if current_qty matches stock_logs
for i := range rows {
if rows[i].CurrentQty > 0 {
// Allow small floating point discrepancies
if abs(rows[i].CurrentQty-rows[i].StockLogsTotal) < 0.001 {
rows[i].Status = "MATCHED"
} else {
rows[i].Status = "DISCREPANCY"
}
} else {
rows[i].Status = "EMPTY"
}
}
return rows, nil
}
func verifyOrphanedReferences(ctx context.Context, db *gorm.DB, sourceChecks []sourceWarehouseCheck) ([]orphanedReferenceCheck, error) {
if len(sourceChecks) == 0 {
return []orphanedReferenceCheck{}, nil
}
// Get unique warehouse IDs from source checks
warehouseIDs := make([]uint, 0)
for _, check := range sourceChecks {
warehouseIDs = append(warehouseIDs, check.SourceWarehouseID)
}
// Check common references
var results []orphanedReferenceCheck
refChecks := []struct {
table string
column string
}{
{"purchase_items", "warehouse_id"},
{"stock_transfers", "from_warehouse_id"},
{"stock_transfers", "to_warehouse_id"},
}
for _, ref := range refChecks {
var count int64
if err := db.Table(ref.table).
Where(fmt.Sprintf("%s IN ?", ref.column), warehouseIDs).
Count(&count).Error; err != nil {
return nil, err
}
if count > 0 {
// Get the specific warehouse IDs using raw SQL
var ids []uint
query := fmt.Sprintf("SELECT DISTINCT %s FROM %s WHERE %s IN ?",
ref.column, ref.table, ref.column)
if err := db.Raw(query, warehouseIDs).Scan(&ids).Error; err != nil {
return nil, err
}
idStrs := make([]string, 0, len(ids))
for _, id := range ids {
idStrs = append(idStrs, fmt.Sprintf("%d", id))
}
results = append(results, orphanedReferenceCheck{
Table: ref.table,
Column: ref.column,
ReferenceCount: count,
DeletedWarehouseIDs: strings.Join(idStrs, ", "),
})
}
}
return results, nil
}
func buildFilters(opts *options) ([]string, []any) {
filters := make([]string, 0, 2)
args := make([]any, 0, 2)
if opts.AreaName != "" {
filters = append(filters, "a.name = ?")
args = append(args, opts.AreaName)
}
if opts.KandangLocationName != "" {
filters = append(filters, "kl.name = ?")
args = append(args, opts.KandangLocationName)
}
return filters, args
}
func andClause(filters []string) string {
if len(filters) == 0 {
return ""
}
return " AND " + strings.Join(filters, " AND ")
}
func buildSummary(sourceChecks []sourceWarehouseCheck, destChecks []destinationWarehouseCheck, orphanedRefs []orphanedReferenceCheck) verificationSummary {
summary := verificationSummary{
TotalSourceWarehouses: len(sourceChecks),
OverallStatus: "PASS",
}
for _, check := range sourceChecks {
if check.Status == "CLEAN" {
summary.CleanSourceWarehouses++
} else {
summary.DirtySourceWarehouses++
summary.OverallStatus = "FAIL"
}
}
summary.TotalDestinationWarehouses = len(destChecks)
for _, check := range destChecks {
if check.Status == "MATCHED" || check.Status == "EMPTY" {
summary.MatchingDestinations++
} else if check.Status == "DISCREPANCY" {
summary.DiscrepancyDestinations++
summary.OverallStatus = "FAIL"
}
}
for _, ref := range orphanedRefs {
summary.TotalOrphanedReferences += ref.ReferenceCount
summary.OverallStatus = "FAIL"
}
return summary
}
func renderVerification(mode string, sourceChecks []sourceWarehouseCheck, destChecks []destinationWarehouseCheck, orphanedRefs []orphanedReferenceCheck, summary verificationSummary) {
if mode == outputJSON {
payload := map[string]any{
"source_warehouses": sourceChecks,
"destination_warehouses": destChecks,
"orphaned_references": orphanedRefs,
"summary": summary,
}
enc := json.NewEncoder(os.Stdout)
enc.SetIndent("", " ")
_ = enc.Encode(payload)
return
}
// Table mode
fmt.Println("\n=== SOURCE WAREHOUSES VERIFICATION ===")
if len(sourceChecks) == 0 {
fmt.Println("No deleted warehouses found")
} else {
w := tabwriter.NewWriter(os.Stdout, 2, 8, 2, ' ', 0)
fmt.Fprintln(w, "AREA\tLOKASI\tKANDANG\tWAREHOUSE\tCASE\tDELETED_AT\tSTOCK_IN_PW\tPURCHASE_ITEMS\tSTATUS")
for _, check := range sourceChecks {
fmt.Fprintf(
w,
"%s\t%s\t%s\t%s\t%s\t%s\t%.3f\t%d\t%s\n",
check.AreaName,
check.KandangLocationName,
check.KandangName,
check.SourceWarehouseName,
check.Case,
displayOptionalString(check.DeletedAt),
check.StockInProductWH,
check.ActivePurchaseItems,
check.Status,
)
}
_ = w.Flush()
}
fmt.Println("\n=== DESTINATION WAREHOUSES VERIFICATION ===")
if len(destChecks) == 0 {
fmt.Println("No destination warehouses found")
} else {
w := tabwriter.NewWriter(os.Stdout, 2, 8, 2, ' ', 0)
fmt.Fprintln(w, "AREA\tLOKASI\tFARM_WAREHOUSE\tPRODUCT\tCURRENT_QTY\tSTOCK_LOGS_TOTAL\tLOGS_COUNT\tSTATUS")
for _, check := range destChecks {
fmt.Fprintf(
w,
"%s\t%s\t%s\t%s\t%.3f\t%.3f\t%d\t%s\n",
check.AreaName,
check.KandangLocationName,
check.FarmWarehouseName,
check.ProductName,
check.CurrentQty,
check.StockLogsTotal,
check.StockLogsCount,
check.Status,
)
}
_ = w.Flush()
}
if len(orphanedRefs) > 0 {
fmt.Println("\n=== ORPHANED REFERENCES (ERRORS) ===")
w := tabwriter.NewWriter(os.Stdout, 2, 8, 2, ' ', 0)
fmt.Fprintln(w, "TABLE\tCOLUMN\tCOUNT\tWAREHOUSE_IDS")
for _, ref := range orphanedRefs {
fmt.Fprintf(
w,
"%s\t%s\t%d\t%s\n",
ref.Table,
ref.Column,
ref.ReferenceCount,
ref.DeletedWarehouseIDs,
)
}
_ = w.Flush()
}
fmt.Printf("\n=== SUMMARY ===\n")
fmt.Printf("Source Warehouses: %d total, %d clean, %d dirty\n", summary.TotalSourceWarehouses, summary.CleanSourceWarehouses, summary.DirtySourceWarehouses)
fmt.Printf("Destination Warehouses: %d total, %d matching, %d discrepancies\n", summary.TotalDestinationWarehouses, summary.MatchingDestinations, summary.DiscrepancyDestinations)
fmt.Printf("Orphaned References: %d\n", summary.TotalOrphanedReferences)
fmt.Printf("Overall Status: %s\n", summary.OverallStatus)
}
func displayOptionalString(value *string) string {
if value == nil || strings.TrimSpace(*value) == "" {
return "-"
}
return *value
}
func abs(x float64) float64 {
if x < 0 {
return -x
}
return x
}
consolidate-duplicate-product-warehouses
BIN
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consolidate-kandang-to-farm-stocks
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docker-compose.local.yml
+77
View File
@@ -0,0 +1,77 @@
services:
postgresdb:
image: postgres:alpine
restart: always
ports:
- "${DB_PORT_HOST:-5542}:5432"
environment:
POSTGRES_USER: ${DB_USER:-postgres}
POSTGRES_PASSWORD: ${DB_PASSWORD:-postgres}
POSTGRES_DB: ${DB_NAME:-db_lti_erp}
volumes:
- dbdata:/var/lib/postgresql/data
- ./internal/database/init:/docker-entrypoint-initdb.d
networks: [go-network]
healthcheck:
test:
[
"CMD-SHELL",
"pg_isready -U ${DB_USER:-postgres} -d ${DB_NAME:-db_lti_erp}",
]
interval: 10s
timeout: 5s
retries: 5
redis:
image: redis:7-alpine
restart: unless-stopped
ports:
- "${REDIS_PORT_HOST:-6381}:6379"
healthcheck:
test: ["CMD-SHELL", "redis-cli ping | grep PONG"]
interval: 5s
timeout: 3s
retries: 10
networks: [go-network]
app:
build:
context: .
dockerfile: Dockerfile.local
image: cosmtrek/air:v1.52.3
working_dir: /lti-api
volumes:
- .:/lti-api
- ./internal/config/jwtRS256.key:/run/keys/jwtRS256.key
- ./internal/config/jwtRS256.key.pub:/run/keys/jwtRS256.key.pub
command: air -c .air.toml
env_file:
- .env
environment:
DB_HOST: postgresdb
DB_PORT: 5432
DB_USER: ${DB_USER:-postgres}
DB_PASSWORD: ${DB_PASSWORD:-postgres}
DB_NAME: ${DB_NAME:-db_lti_erp}
REDIS_URL: ${REDIS_URL:-redis://redis:6379/0}
ports:
- "${APP_PORT:-8081}:8081"
depends_on:
postgresdb:
condition: service_healthy
networks: [go-network]
healthcheck:
test: ["CMD-SHELL", "wget -qO- http://localhost:8081/healthz || exit 1"]
interval: 10s
timeout: 3s
retries: 10
start_period: 10s
volumes:
dbdata:
go-mod-cache:
go-build-cache:
networks:
go-network:
name: lti-api_go-network
driver: bridge
docker-compose.yaml
+98
View File
@@ -0,0 +1,98 @@
services:
dev-api-lti:
build:
context: .
dockerfile: Dockerfile
container_name: dev-api-lti
working_dir: /lti-api
command: ["/bin/sh", "scripts/entrypoint.sh"]
ports:
- "8081:8081"
env_file:
- .env
environment:
# override agar koneksi ke container internal
DB_HOST: dev-postgres-lti
DB_PORT: 5432
REDIS_URL: redis://dev-redis-lti:6379/0
volumes:
- .:/lti-api
- ./.air.toml:/lti-api/.air.toml:ro
- ./internal/config/jwtRS256.key:/run/keys/jwtRS256.key
- ./internal/config/jwtRS256.key.pub:/run/keys/jwtRS256.key.pub
depends_on:
- dev-postgres-lti
- dev-redis-lti
networks:
- lti-network
healthcheck:
test: ["CMD-SHELL", "wget -qO- http://localhost:8081/healthz || exit 1"]
interval: 10s
timeout: 3s
retries: 10
start_period: 10s
deploy:
resources:
limits:
cpus: "2.0"
memory: 2G
reservations:
cpus: "1.0"
memory: 512M
dev-postgres-lti:
image: postgres:15-alpine
container_name: dev-postgres-lti
restart: always
env_file:
- credential/.env.db
ports:
- "5433:5432"
volumes:
- dev-postgres-lti-data:/var/lib/postgresql/data
- ./credential:/docker-entrypoint-initdb.d:ro
networks:
- lti-network
healthcheck:
test: ["CMD-SHELL", "pg_isready -U ${DB_USER:-postgres} -d ${DB_NAME:-db_lti_erp}"]
interval: 10s
timeout: 5s
retries: 5
start_period: 5s
deploy:
resources:
limits:
cpus: "1.0"
memory: 2G
reservations:
cpus: "0.5"
memory: 512M
dev-redis-lti:
image: redis:7-alpine
container_name: dev-redis-lti
restart: always
ports:
- "6380:6379"
networks:
- lti-network
healthcheck:
test: ["CMD", "redis-cli", "ping"]
interval: 10s
timeout: 3s
retries: 10
deploy:
resources:
limits:
cpus: "0.5"
memory: 512M
reservations:
cpus: "0.2"
memory: 256M
networks:
lti-network:
driver: bridge
volumes:
dev-postgres-lti-data:
docs/STOCK_CONSOLIDATION_GUIDE.md
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# Stock Consolidation Operations Guide
This guide explains how to use the warehouse consolidation commands to fix misplaced PAKAN/OVK stocks and migrate them to the correct farm-level warehouses.
## Overview
The stock consolidation system handles two main scenarios:
| Case | Scenario | Root Cause | Solution |
|------|----------|-----------|----------|
| **Case B** | Invalid kandang references | Purchases pointed to warehouses with location mismatch | Move unused stocks to correct farm-level warehouse |
| **Case A** | General kandang cleanup | Any kandang-level warehouse with unused PAKAN/OVK stocks | Consolidate to farm-level warehouse |
## Recommended Execution Order
For a complete stock consolidation operation, follow this sequence:
```
1. find-wrong-warehouse-records ← Diagnose issues
2. repoint-wrong-warehouse-relations ← Fix Case B (invalid references)
3. consolidate-kandang-to-farm-stocks ← Fix Case A (general cleanup)
4. verify-stock-consolidation ← Audit and verify results
```
---
## Command Reference
### 1. `find-wrong-warehouse-records` — Diagnostic Tool
**Purpose:** Identify problematic warehouses and their associated stocks before making any changes.
**Applies to:** Both Case A and Case B scenarios
**What it does:**
- Lists warehouses with location mismatches (Case B)
- Shows stock allocations that reference wrong warehouses
- Helps identify scope of work needed
#### Usage:
```bash
# Report 1: Find warehouses with location mismatches (Case B issues)
./find-wrong-warehouse-records --report=warehouses
# Report 2: Find stock allocations in wrong warehouses (Case B impact)
./find-wrong-warehouse-records --report=usage
# Filter by area
./find-wrong-warehouse-records --report=warehouses --area-name "East Region"
# Filter by kandang location
./find-wrong-warehouse-records --report=usage --kandang-location-name "Location 1"
# Filter by product type
./find-wrong-warehouse-records --report=usage --usable-type=RECORDING_STOCK
# JSON output for analysis
./find-wrong-warehouse-records --report=usage --output=json > analysis.json
```
#### Output Columns (Warehouses Report):
- **AREA**: Geographic area
- **KANDANG_LOCATION**: Kandang's intended location
- **KANDANG**: Kandang name
- **WRONG_LOCATION**: Where the warehouse actually is
- **WRONG_WAREHOUSE**: Problematic warehouse name
- **CORRECT_WAREHOUSE**: Where stocks should be
#### Output Columns (Usage Report):
- **USABLE_TYPE**: RECORDING_STOCK or MARKETING_DELIVERY
- **PRODUCTS**: Which products are affected
- **QTY_FROM_WRONG_STOCK**: How much stock is misplaced
- **SOURCE_PURCHASES**: Which purchase orders are affected
**When to use:**
- Before starting any consolidation
- To understand the scope of issues
- To get metrics on how much stock needs moving
- To identify which areas are most affected
---
### 2. `repoint-wrong-warehouse-relations` — Fix Case B (Invalid References)
**Purpose:** Fix purchases pointed to invalid kandang warehouses (location mismatch).
**Applies to:** Case B only
**Cases it handles:**
- ✅ Warehouses with `location_id ≠ kandang.location_id` (location mismatch)
- ✅ Only PAKAN/OVK products
- ✅ Only unused/leftover stocks (no active allocations)
- ✅ Moves to farm-level warehouse at correct location
**What it does:**
1. Finds product_warehouses in wrong locations
2. Consolidates duplicates into survivor warehouses
3. Updates all references across the system
4. Recalculates FIFO stocks if needed
5. Optionally soft-deletes the wrong warehouse
#### Usage:
```bash
# Dry-run: See what would be moved (always run first!)
./repoint-wrong-warehouse-relations
# Dry-run with specific filters
./repoint-wrong-warehouse-relations --area-name "East Region"
./repoint-wrong-warehouse-relations --kandang-location-name "Location 1"
# Actually apply the migration
./repoint-wrong-warehouse-relations --apply
# Apply but keep the wrong warehouses (for audit trail)
./repoint-wrong-warehouse-relations --apply --delete-wrong-warehouses=false
# JSON output for automation/logging
./repoint-wrong-warehouse-relations --apply --output=json > migration.json
```
#### Flags:
- `--apply`: Apply changes (omit for dry-run)
- `--output`: `table` (default) or `json`
- `--area-name`: Filter by exact area name
- `--kandang-location-name`: Filter by exact location name
- `--delete-wrong-warehouses`: Soft-delete wrong warehouses (default: true)
- `--db-sslmode`: PostgreSQL SSL mode override (e.g., `require`)
#### Output:
**Table mode shows:**
- AREA, LOCATION, KANDANG: Where the issue is
- WRONG_WAREHOUSE: Source (will be deleted)
- TARGET_WAREHOUSE: Destination (farm-level)
- PRODUCT: What's being moved
- SURVIVOR_PW / ABSORBED_PW: Consolidation details
- NEEDS_REFLOW: Whether FIFO recalculation is needed
**Summary shows:**
```
Summary: plan_rows=15 wrong_warehouses=3 survivor_pws=12 absorbed_pws=5
needs_reflow_pws=3 deleted_product_warehouses=5 soft_deleted_warehouses=3
Updated product_warehouse refs:
fifo_stock_v2_operation_log.product_warehouse_id=8
fifo_stock_v2_reflow_checkpoints.product_warehouse_id=3
purchase_items.warehouse_id=12
Updated warehouse refs:
purchase_items.warehouse_id=12
```
#### Safety Features:
- **Dry-run first**: Always preview before applying
- **Prechecks**: Verifies no blocked references or FIFO conflicts
- **Atomic transactions**: All-or-nothing database updates
- **Reference verification**: Confirms all references were updated
- **Stock log recalculation**: Ensures FIFO accuracy after moves
---
### 3. `consolidate-kandang-to-farm-stocks` — Fix Case A (General Cleanup)
**Purpose:** Consolidate ALL kandang-level PAKAN/OVK stocks to farm-level warehouse.
**Applies to:** Case A only
**Cases it handles:**
- ✅ ALL kandang-level warehouses (type ≠ 'LOKASI')
- ✅ Only PAKAN/OVK products
- ✅ Only unused/leftover stocks (no active allocations)
- ✅ Moves to farm-level warehouse regardless of warehouse validity
- ✅ No location validation (processes all kandang warehouses)
**What it does:**
1. Finds all kandang-level warehouses with unused stocks
2. Consolidates duplicates into survivor warehouses
3. Updates all references across the system
4. Recalculates FIFO stocks if needed
5. Optionally soft-deletes the kandang warehouse
#### Usage:
```bash
# Dry-run: See what would be consolidated
./consolidate-kandang-to-farm-stocks
# Dry-run with filters
./consolidate-kandang-to-farm-stocks --area-name "East Region"
./consolidate-kandang-to-farm-stocks --kandang-location-name "Location 1"
# Actually apply the consolidation
./consolidate-kandang-to-farm-stocks --apply
# Apply but keep kandang warehouses
./consolidate-kandang-to-farm-stocks --apply --delete-kandang-warehouses=false
# JSON output for logging
./consolidate-kandang-to-farm-stocks --apply --output=json > consolidation.json
```
#### Flags:
- `--apply`: Apply changes (omit for dry-run)
- `--output`: `table` (default) or `json`
- `--area-name`: Filter by exact area name
- `--kandang-location-name`: Filter by exact location name
- `--delete-kandang-warehouses`: Soft-delete kandang warehouses (default: true)
- `--db-sslmode`: PostgreSQL SSL mode override
#### Output Format:
Similar to Case B, shows:
- Source kandang warehouse → Destination farm warehouse
- Product and quantity details
- Consolidation and FIFO reflow information
#### Key Differences from Case B:
| Aspect | Case B | Case A |
|--------|--------|--------|
| Scope | Wrong-location warehouses only | ALL kandang-level warehouses |
| Validation | Checks location mismatch | No validation checks |
| When to use | After finding mismatches | General cleanup/consolidation |
| Risk level | Lower (targeted fix) | Higher (broader scope) |
---
### 4. `verify-stock-consolidation` — Audit and Verify
**Purpose:** Verify that stock consolidations were successful and no stocks were lost.
**Applies to:** Both Case A and Case B (post-migration verification)
**What it checks:**
#### ✅ Source Warehouse Verification
Ensures deleted warehouses are clean:
- **CLEAN**: No remaining stock or purchase references
- **DIRTY**: Still has orphaned data (migration incomplete)
#### ✅ Destination Warehouse Verification
Ensures farm-level warehouses received stocks correctly:
- **MATCHED**: Quantity in product_warehouse matches stock_logs
- **DISCREPANCY**: Quantity mismatch (data integrity issue!)
- **EMPTY**: No stocks (correct if nothing was supposed to move)
#### ✅ Orphaned Reference Detection
Finds any remaining references to deleted warehouses in:
- `purchase_items.warehouse_id`
- `stock_transfers.from/to_warehouse_id`
- `fifo_stock_v2_operation_log.warehouse_id`
#### Usage:
```bash
# Verify all consolidations (Case A + B together)
./verify-stock-consolidation
# Verify only Case B results
./verify-stock-consolidation --verify-case=B
# Verify only Case A results
./verify-stock-consolidation --verify-case=A
# Filter by area
./verify-stock-consolidation --area-name "East Region"
# Filter by location
./verify-stock-consolidation --kandang-location-name "Location 1"
# JSON output for reporting
./verify-stock-consolidation --output=json > verification_report.json
```
#### Flags:
- `--verify-case`: `A`, `B`, or `all` (default)
- `--output`: `table` (default) or `json`
- `--area-name`: Filter by exact area name
- `--kandang-location-name`: Filter by exact location name
- `--db-sslmode`: PostgreSQL SSL mode override
#### Output Sections:
**1. Source Warehouses**
```
AREA LOKASI KANDANG WAREHOUSE CASE DELETED_AT STOCK PURCHASES STATUS
Area A Location 1 Kandang A KWH-A-01 A 2026-04-23 0.000 0 CLEAN
Area A Location 1 Kandang B WH-WRONG-001 B 2026-04-23 2.500 1 DIRTY ❌
```
**2. Destination Warehouses**
```
AREA LOKASI FARM_WAREHOUSE PRODUCT QTY LOGS_TOTAL LOGS STATUS
Area A Location 1 FWH-LOC-001 PAKAN A 2.500 2.500 3 MATCHED ✅
Area A Location 1 FWH-LOC-001 OVK B 5.000 4.999 5 DISCREPANCY ❌
```
**3. Orphaned References** (if any)
```
TABLE COLUMN COUNT WAREHOUSE_IDS
purchase_items warehouse_id 3 1001, 1002, 1003
stock_transfers from_warehouse_id 1 1001
```
**4. Summary**
```
Source Warehouses: 10 total, 8 clean, 2 dirty
Destination Warehouses: 15 total, 14 matching, 1 discrepancy
Orphaned References: 4
Overall Status: FAIL ❌
```
#### Interpreting Results:
| Scenario | Meaning | Action |
|----------|---------|--------|
| ✅ Overall Status: PASS | All migrations successful | No action needed |
| ❌ Dirty Source Warehouses | Stocks not fully moved | Re-run repoint/consolidate |
| ❌ Discrepancy Destinations | Quantity mismatch | Investigate data integrity |
| ❌ Orphaned References | Broken references remain | Manual cleanup needed |
---
## Complete Workflow Example
### Scenario: Consolidate East Region stocks
```bash
# Step 1: Understand the scope (Case B issues)
./find-wrong-warehouse-records --report=warehouses --area-name "East Region"
./find-wrong-warehouse-records --report=usage --area-name "East Region"
# Review the output to understand:
# - How many wrong warehouses
# - How much stock needs moving
# - Which products are affected
# Step 2: Fix Case B (invalid kandang references)
./repoint-wrong-warehouse-relations --area-name "East Region"
# Review dry-run output
./repoint-wrong-warehouse-relations --apply --area-name "East Region"
# Watch for summary - should show successful updates
# Step 3: Fix Case A (general kandang cleanup)
./consolidate-kandang-to-farm-stocks --area-name "East Region"
# Review dry-run output
./consolidate-kandang-to-farm-stocks --apply --area-name "East Region"
# Watch for summary - should show consolidation complete
# Step 4: Verify everything worked
./verify-stock-consolidation --area-name "East Region"
# Should show:
# - All source warehouses: CLEAN
# - All destination warehouses: MATCHED
# - Orphaned references: 0
# - Overall Status: PASS ✅
```
---
## Flags Reference
### Common Flags (All Commands)
| Flag | Description | Example |
|------|-------------|---------|
| `--output` | Output format | `--output=json` |
| `--area-name` | Filter by area | `--area-name "East Region"` |
| `--kandang-location-name` | Filter by location | `--kandang-location-name "Location 1"` |
| `--db-sslmode` | PostgreSQL SSL mode | `--db-sslmode=require` |
### Migration-Specific Flags
| Command | Flag | Description |
|---------|------|-------------|
| `repoint-wrong-warehouse-relations` | `--apply` | Apply changes |
| `repoint-wrong-warehouse-relations` | `--delete-wrong-warehouses` | Delete wrong warehouses (default: true) |
| `consolidate-kandang-to-farm-stocks` | `--apply` | Apply changes |
| `consolidate-kandang-to-farm-stocks` | `--delete-kandang-warehouses` | Delete kandang warehouses (default: true) |
| `verify-stock-consolidation` | `--verify-case` | Verify specific case (A, B, or all) |
---
## Best Practices
### Before Running Any Command
1. **Back up the database** — These operations modify stock data
2. **Run in dry-run mode first** — Always preview changes before applying
3. **Check during low-traffic periods** — Avoid peak hours
4. **Have a rollback plan** — Know how to restore from backup if needed
### When Running Migrations
1. **Start small** — Use `--area-name` to test on one area first
2. **Check the summary** — Verify numbers make sense
3. **Watch for errors** — Stop if you see unexpected error messages
4. **Run verification immediately after** — Don't wait to verify
### Red Flags (Stop and Investigate)
- ❌ More rows affected than expected
- ❌ Negative quantities or zero counts where expecting data
- ❌ Errors about blocked references
- ❌ FIFO conflicts or in-flight artifacts
- ❌ Very large numbers in NEEDS_REFLOW
### JSON Output for Automation
All commands support `--output=json` for:
- Piping to other tools
- Parsing in scripts
- Generating reports
- Integration with monitoring systems
```bash
# Example: Extract all affected warehouses to CSV
./find-wrong-warehouse-records --report=warehouses --output=json \
| jq -r '.rows[] | [.area_name, .kandang_name, .wrong_warehouse_name] | @csv' \
> affected_warehouses.csv
```
---
## Troubleshooting
### Issue: "No wrong warehouse relations found"
- **Cause**: No matching Case B issues in the filter scope
- **Solution**: Remove filters or use different criteria
### Issue: "found X rows still point to wrong warehouses"
- **Cause**: References not fully migrated
- **Solution**: Check for blocked references, re-run command
### Issue: "discrepancy_destinations > 0" in verification
- **Cause**: Quantity mismatch in farm warehouse
- **Solution**: Investigate manually or rollback and retry
### Issue: "DIRTY source warehouses" in verification
- **Cause**: Deleted warehouses still have stock/references
- **Solution**: May need manual cleanup or re-run migrations
---
## Performance Notes
- Commands use efficient SQL queries with proper filtering
- Large operations (100K+ rows) may take a few minutes
- Use area/location filters to reduce scope for testing
- Dry-runs don't modify database and complete quickly
## Support
For issues or questions:
1. Review the relevant section of this guide
2. Check the command output for specific error messages
3. Run verification to diagnose state issues
4. Contact the development team with JSON outputs from failed operations
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# Farm Depreciation Manual Inputs Import
Command ini dipakai untuk bulk import data ke tabel `farm_depreciation_manual_inputs` dari file Excel (`.xlsx`).
## Command
```bash
go run ./cmd/import-farm-depreciation-manual-inputs --file <path.xlsx> [--sheet <name>] [--apply]
```
## Flags
- `--file` (required): path file `.xlsx`.
- `--sheet` (optional): nama sheet. Jika tidak diisi, command pakai sheet pertama.
- `--apply` (optional): default `false` (dry-run). Jika `true`, command menulis ke database.
## Mode
- Dry-run (default):
- parsing dan validasi semua baris.
- validasi `project_flock_id` terhadap farm aktif kategori `LAYING`.
- menampilkan `PLAN` + daftar error.
- tidak menulis data.
- Apply (`--apply`):
- semua validasi tetap dijalankan dulu.
- jika ada 1 error, proses dihentikan.
- jika valid, upsert dijalankan dalam 1 transaksi (fail-fast).
- setelah upsert, snapshot di `farm_depreciation_snapshots` dihapus mulai `cutover_date` untuk `project_flock_id` terkait.
## Format Excel
Template tersedia di:
- `docs/templates/farm_depreciation_manual_inputs.xlsx`
Header wajib ada di baris 1 (case-insensitive, trim-spaces):
- `project_flock_id` (required, integer > 0)
- `total_cost` (required, numeric >= 0)
- `cutover_date` (required, format `YYYY-MM-DD`)
- `note` (optional, max 1000 karakter)
Catatan:
- Dalam 1 file tidak boleh ada duplikat `project_flock_id`.
- `project_flock_id` harus mengarah ke `project_flocks` yang `deleted_at IS NULL` dan `category = LAYING`.
## Contoh
Dry-run:
```bash
env DB_HOST=127.0.0.1 DB_PORT=5432 DB_NAME=lti DB_USER=postgres DB_PASSWORD=postgres \
go run ./cmd/import-farm-depreciation-manual-inputs \
--file docs/templates/farm_depreciation_manual_inputs.xlsx
```
Apply:
```bash
env DB_HOST=127.0.0.1 DB_PORT=5432 DB_NAME=lti DB_USER=postgres DB_PASSWORD=postgres \
go run ./cmd/import-farm-depreciation-manual-inputs \
--file /path/to/farm_depreciation_manual_inputs.xlsx \
--sheet manual_inputs \
--apply
```
## Error Umum
- `required header is missing`: header wajib tidak ditemukan.
- `must be a positive integer`: `project_flock_id` bukan integer valid.
- `must be greater than or equal to 0`: `total_cost` negatif.
- `must follow format YYYY-MM-DD`: `cutover_date` tidak sesuai format.
- `duplicate value ...`: `project_flock_id` duplikat dalam file yang sama.
- `must reference an active LAYING project_flock`: farm tidak valid untuk import ini.
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# Farm Stock Attribution Design Note
## Goal
Allow farm-level physical stock to be used directly by kandang-level operations without forcing transfers, while keeping kandang attribution, FIFO-v2 compatibility, traceability, and HPP/COGS intact.
## Core Model
- Physical stock stays on the real `product_warehouse_id` that was consumed or received.
- Kandang attribution comes from the transaction or allocation path, not from `product_warehouses.project_flock_kandang_id`.
- Existing kandang-bound warehouses remain valid for historical and current kandang-only flows.
- Shared farm warehouses must stay shareable; application code must stop silently converting them into kandang-owned warehouses.
## Attribution Rules
- `recording_stocks`: consumer kandang is the parent `recordings.project_flock_kandangs_id`; physical stock source remains `recording_stocks.product_warehouse_id`.
- `recording_depletions`: source kandang is the recording kandang and is stored explicitly for compatibility; physical source remains `source_product_warehouse_id`, destination stock remains `product_warehouse_id`.
- `recording_eggs`: producer kandang is the recording kandang and is stored explicitly for compatibility; physical stock remains `product_warehouse_id`, which may be a farm warehouse.
- `marketing_delivery_products`: outbound kandang attribution comes from active `stock_allocations` to `PROJECT_FLOCK_POPULATION`, `RECORDING_DEPLETION`, or `RECORDING_EGG`, with product-warehouse kandang ownership only as a fallback for historical/non-FIFO rows.
## Reporting and HPP
- Feed and OVK cost attribution should continue to follow recording-level consumption plus FIFO allocations to incoming stock.
- Egg and live-bird sales attribution should be derived from `stock_allocations` back to the originating kandang transactions or populations.
- Queries that filter or group by kandang must use explicit transaction attribution or FIFO allocation provenance, not warehouse ownership, when pooled farm stock is involved.
## Live-Data Safety
- Schema changes are additive and nullable.
- Historical rows are backfilled only when attribution is deterministic from existing rows.
- No FIFO-v2 route-rule behavior is changed unless the current code is only resyncing or constraining allocation metadata around already-created FIFO allocations.
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# Runbook Cutover Stok Telur Historis Kandang ke Gudang Farm
## Tujuan
Runbook ini dipakai untuk memindahkan **stok telur historis yang masih on-hand di gudang kandang** ke **gudang farm** secara aman, audit-able, dan reversible.
Cutover dilakukan dengan **transfer stok eksplisit**, bukan dengan mengubah `recording_eggs.product_warehouse_id` historis.
## Scope
Runbook ini hanya untuk:
- stok telur historis kandang-level yang masih punya saldo on-hand
- lokasi yang masuk kategori **clean cutover**
- lokasi yang sudah punya gudang farm
Runbook ini **tidak** dipakai untuk:
- lokasi overlap seperti `Cijangkar`
- koreksi histori `recording_eggs`
- migrasi stok non-telur
## Kebijakan yang Dikunci
- Sumber qty yang dipindah adalah **`product_warehouses.qty` saat cutover**
- Perintah dijalankan **per lokasi**
- Wajib mulai dari `dry-run`
- `--apply` hanya boleh dijalankan setelah review dry-run dan SQL checklist
- Lokasi overlap tidak ikut otomatis kecuali ada approval khusus dan `--include-overlap`
- Rollback hanya boleh dilakukan jika transfer hasil cutover belum dipakai transaksi turunan
## Lokasi Fase 1
Lokasi yang boleh dieksekusi pada fase pertama:
- `Jamali`
- `Cantilan`
- `Darawati`
- `Tamansari`
Lokasi yang harus ditahan:
- `Cijangkar`
## Prasyarat
Sebelum eksekusi, pastikan:
- backend sudah ter-deploy dengan command [main.go](/Users/macbookair/Documents/coding/projects/LTI-ERP/lti-api/cmd/migrate-legacy-egg-stock-to-farm/main.go)
- reusable transfer core sudah ikut ter-deploy:
- [transfer.service.go](/Users/macbookair/Documents/coding/projects/LTI-ERP/lti-api/internal/modules/inventory/transfers/services/transfer.service.go)
- [system_transfer.go](/Users/macbookair/Documents/coding/projects/LTI-ERP/lti-api/internal/modules/inventory/transfers/services/system_transfer.go)
- migrasi farm stock attribution sebelumnya sudah terpasang
- akses database target sudah tersedia
- environment target memakai SSL bila RDS mewajibkan, contoh:
- `DB_SSLMODE=require`
## Catatan Output Command
Mode `--output table` adalah mode operasional yang direkomendasikan.
Mode `--output json` bisa dipakai, tetapi pada environment saat ini output JSON masih dapat didahului log bootstrap aplikasi atau SQL logger. Untuk review manual gunakan `table`. Untuk parsing otomatis, filter payload mulai dari `{`.
## Format Command
### Dry-run
```bash
DB_SSLMODE=require go run ./cmd/migrate-legacy-egg-stock-to-farm \
--location-name Jamali \
--output table
```
### Apply
```bash
DB_SSLMODE=require go run ./cmd/migrate-legacy-egg-stock-to-farm \
--location-name Jamali \
--cutover-date 2026-04-07 \
--apply \
--output table
```
### Rollback Preview
```bash
DB_SSLMODE=require go run ./cmd/migrate-legacy-egg-stock-to-farm \
--rollback-run-id <run_id> \
--output table
```
### Rollback Apply
```bash
DB_SSLMODE=require go run ./cmd/migrate-legacy-egg-stock-to-farm \
--rollback-run-id <run_id> \
--apply \
--output table
```
## Arti `run_id`
Setiap dry-run/apply menghasilkan `run_id`, misalnya:
```text
egg-cutover-20260407T130344.220407000Z
```
`run_id` ini wajib disimpan karena dipakai untuk:
- audit hasil cutover
- query verifikasi
- rollback
## Prosedur Eksekusi Per Lokasi
### 1. Persiapan
Tentukan:
- `location_name`
- `cutover_date`
- operator yang bertanggung jawab
Contoh:
- lokasi: `Jamali`
- cutover date: `2026-04-07`
### 2. Jalankan Dry-run
```bash
DB_SSLMODE=require go run ./cmd/migrate-legacy-egg-stock-to-farm \
--location-name Jamali \
--output table
```
Yang harus dicek pada hasil dry-run:
- status lokasi `CLEAN_CUTOVER`
- semua baris yang akan dipindah punya `status=eligible`
- gudang tujuan adalah gudang farm lokasi tersebut
- qty yang dipindah masuk akal dan sesuai saldo on-hand aktual
- tidak ada `missing_farm_warehouse`
- tidak ada `overlap_location`
### 3. Jalankan Checklist SQL Before
Gunakan file:
- [legacy_egg_cutover_verification_checklist.sql](/Users/macbookair/Documents/coding/projects/LTI-ERP/lti-api/docs/sql/legacy_egg_cutover_verification_checklist.sql)
Minimal pastikan:
- lokasi memang clean cutover
- stok telur kandang positif masih ada
- gudang farm ada
- belum ada transfer `EGG_FARM_CUTOVER` aktif untuk lokasi yang sama pada run yang akan dipakai
### 4. Simpan Evidence Sebelum Apply
Simpan:
- output dry-run
- hasil query before
- nama operator
- waktu eksekusi
Disarankan simpan dalam ticket / change record.
### 5. Jalankan Apply
```bash
DB_SSLMODE=require go run ./cmd/migrate-legacy-egg-stock-to-farm \
--location-name Jamali \
--cutover-date 2026-04-07 \
--apply \
--output table
```
Setelah apply, simpan:
- `run_id`
- seluruh row dengan `transfer_id`
- movement number yang terbentuk
### 6. Jalankan Checklist SQL After
Masih menggunakan file:
- [legacy_egg_cutover_verification_checklist.sql](/Users/macbookair/Documents/coding/projects/LTI-ERP/lti-api/docs/sql/legacy_egg_cutover_verification_checklist.sql)
Minimal pastikan:
- transfer header/detail tercatat untuk `run_id`
- qty source berkurang sesuai transfer
- qty farm bertambah sesuai transfer
- total gabungan source+dest per produk per lokasi tetap sama
- stok eligible tidak lagi tersedia di gudang kandang
- stok telur sekarang tersedia di gudang farm
### 7. Smoke Test UI
Lakukan minimal:
- buka product stock farm untuk lokasi tersebut
- pastikan produk telur hasil migrasi muncul
- buat SO farm-level dan pastikan opsi produk telur tersedia
- pastikan recording telur baru setelah cutover tetap langsung masuk ke gudang farm
### 8. Tutup Eksekusi
Catat hasil akhir:
- sukses/gagal
- `run_id`
- lokasi
- tanggal cutover
- operator
- link ke evidence SQL/UI
## Kriteria Go / No-Go
### Boleh lanjut apply bila:
- dry-run menunjukkan hanya row yang memang expected
- lokasi `CLEAN_CUTOVER`
- gudang farm valid
- query before menunjukkan tidak ada anomaly blocking
### Wajib stop bila:
- lokasi terdeteksi `OVERLAP`
- ada qty aneh atau tidak sesuai data lapangan
- gudang farm tidak ada
- ada transfer lama serupa yang belum direkonsiliasi
- setelah apply terjadi selisih total source+dest
## Rollback Runbook
### Kapan rollback boleh dilakukan
Rollback boleh jika:
- transfer hasil cutover belum dipakai transaksi turunan
- verifikasi after menunjukkan issue yang membuat hasil cutover tidak dapat diterima
### Langkah rollback
1. Preview rollback:
```bash
DB_SSLMODE=require go run ./cmd/migrate-legacy-egg-stock-to-farm \
--rollback-run-id <run_id> \
--output table
```
2. Jalankan query rollback readiness pada file audit/helper SQL.
3. Jika aman, apply rollback:
```bash
DB_SSLMODE=require go run ./cmd/migrate-legacy-egg-stock-to-farm \
--rollback-run-id <run_id> \
--apply \
--output table
```
4. Jalankan ulang query verifikasi after rollback.
### Kapan rollback akan gagal by design
Rollback memang harus gagal jika:
- transfer hasil cutover sudah dipakai sales/recording/transaksi turunan
- sudah ada `stock_allocations` consume aktif terhadap `STOCK_TRANSFER_IN`
## Urutan Rollout yang Direkomendasikan
### Dev
1. Dry-run per lokasi
2. Review SQL before
3. Apply per lokasi
4. SQL after
5. Smoke UI
6. Simpan `run_id`
### Production
1. Freeze operasional lokasi target bila perlu
2. Dry-run
3. Review by dev + ops + finance/stock owner
4. Apply
5. SQL after
6. Smoke UI
7. Release lokasi berikutnya
## Referensi
- Command cutover: [main.go](/Users/macbookair/Documents/coding/projects/LTI-ERP/lti-api/cmd/migrate-legacy-egg-stock-to-farm/main.go)
- Test command: [main_test.go](/Users/macbookair/Documents/coding/projects/LTI-ERP/lti-api/cmd/migrate-legacy-egg-stock-to-farm/main_test.go)
- Core reusable transfer: [system_transfer.go](/Users/macbookair/Documents/coding/projects/LTI-ERP/lti-api/internal/modules/inventory/transfers/services/system_transfer.go)
- Transfer service refactor: [transfer.service.go](/Users/macbookair/Documents/coding/projects/LTI-ERP/lti-api/internal/modules/inventory/transfers/services/transfer.service.go)
- Checklist SQL: [legacy_egg_cutover_verification_checklist.sql](/Users/macbookair/Documents/coding/projects/LTI-ERP/lti-api/docs/sql/legacy_egg_cutover_verification_checklist.sql)
- Helper query audit: [legacy_egg_cutover_audit_queries.sql](/Users/macbookair/Documents/coding/projects/LTI-ERP/lti-api/docs/sql/legacy_egg_cutover_audit_queries.sql)
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{
"_postman_exported_at": "2026-04-14T00:00:00Z",
"_postman_exported_using": "Codex",
"_postman_variable_scope": "environment",
"id": "lti-read-api-local",
"name": "LTI ERP Read API.local",
"values": [
{
"enabled": true,
"key": "adjustment_id",
"value": "1"
},
{
"enabled": true,
"key": "api_key",
"value": ""
},
{
"enabled": true,
"key": "area_id",
"value": "1"
},
{
"enabled": true,
"key": "bank_id",
"value": "1"
},
{
"enabled": true,
"key": "base_url",
"value": "http://localhost:8081"
},
{
"enabled": true,
"key": "bearer_token",
"value": ""
},
{
"enabled": true,
"key": "chickin_id",
"value": "1"
},
{
"enabled": true,
"key": "customer_id",
"value": "1"
},
{
"enabled": true,
"key": "employee_id",
"value": "1"
},
{
"enabled": true,
"key": "expense_id",
"value": "1"
},
{
"enabled": true,
"key": "flock_id",
"value": "1"
},
{
"enabled": true,
"key": "id",
"value": "1"
},
{
"enabled": true,
"key": "idDailyChecklist",
"value": "1"
},
{
"enabled": true,
"key": "idProjectFlockKandang",
"value": "1"
},
{
"enabled": true,
"key": "initial_balance_id",
"value": "1"
},
{
"enabled": true,
"key": "injection_id",
"value": "1"
},
{
"enabled": true,
"key": "location_id",
"value": "1"
},
{
"enabled": true,
"key": "nonstock_id",
"value": "1"
},
{
"enabled": true,
"key": "payment_id",
"value": "1"
},
{
"enabled": true,
"key": "product_category_id",
"value": "1"
},
{
"enabled": true,
"key": "product_id",
"value": "1"
},
{
"enabled": true,
"key": "projectFlockId",
"value": "1"
},
{
"enabled": true,
"key": "project_flock_id",
"value": "1"
},
{
"enabled": true,
"key": "project_flock_kandang_id",
"value": "1"
},
{
"enabled": true,
"key": "purchase_id",
"value": "1"
},
{
"enabled": true,
"key": "recording_id",
"value": "1"
},
{
"enabled": true,
"key": "supplier_id",
"value": "1"
},
{
"enabled": true,
"key": "transaction_id",
"value": "1"
},
{
"enabled": true,
"key": "transfer_id",
"value": "1"
},
{
"enabled": true,
"key": "uniformity_id",
"value": "1"
},
{
"enabled": true,
"key": "uom_id",
"value": "1"
},
{
"enabled": true,
"key": "user_id",
"value": "1"
},
{
"enabled": true,
"key": "warehouse_id",
"value": "1"
}
]
}
docs/qa_farm_stock_test_cases.csv
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ID;Kategori;Area;Judul;Tipe;Prioritas;Setup/Precondition;Langkah Uji;Hasil yang Diharapkan
TC-A01;Migrasi dan Keamanan Data;Database;Migrasi aman pada DB tidak kosong;Integration;High;Gunakan snapshot DB staging yang sudah berisi recording, depletion, telur, penjualan, dan closing.;1. Jalankan migrasi 20260330110000_add_recording_attribution_fields_for_farm_stock.up.sql. 2. Inspect schema hasil migrasi.;Kolom recording_depletions.source_project_flock_kandang_id dan recording_eggs.project_flock_kandang_id tersedia dan nullable, index dan FK tersedia, tidak ada data historis yang terhapus atau berubah destruktif.
TC-A02;Migrasi dan Keamanan Data;Database;Backfill deterministik berjalan;Integration;High;Ada data historis recording dengan recordings.project_flock_kandangs_id yang valid.;1. Query recording_depletions dan recording_eggs yang lama. 2. Bandingkan dengan kandang pada parent recording.;source_project_flock_kandang_id dan project_flock_kandang_id terisi sama dengan kandang parent recording untuk row yang sebelumnya null.
TC-A03;Migrasi dan Keamanan Data;Reporting;Report historis kandang-only tidak berubah;Regression;High;Gunakan snapshot yang hanya memiliki data stok historis milik kandang, tanpa pooled stock farm-level.;1. Jalankan closing/report/HPP sebelum deploy. 2. Jalankan lagi sesudah deploy pada snapshot yang sama. 3. Bandingkan hasil.;Total dan hasil report tetap sama untuk skenario historis kandang-only.
TC-B01;Purchase dan Warehouse;Purchase;Purchase pakan langsung ke gudang farm;UAT;High;Tersedia PO atau purchase request untuk produk Pakan Starter.;1. Buat purchase ke Gudang Farm A. 2. Approve dan receive purchase.;Stok masuk ke product_warehouse level farm, tidak perlu transfer paksa ke kandang, FIFO/HPP purchase tetap benar.
TC-B02;Purchase dan Warehouse;Purchase;Purchase pakan langsung ke gudang kandang;Regression;High;Tersedia PO atau purchase request untuk produk Pakan Starter.;1. Buat purchase ke Gudang Kandang A1. 2. Approve dan receive purchase.;Stok masuk ke gudang kandang dan perilaku tetap sama seperti flow lama.
TC-B03;Purchase dan Warehouse;Purchase;Purchase OVK langsung ke gudang farm;UAT;High;Tersedia PO atau purchase request untuk produk OVK A.;1. Buat purchase ke Gudang Farm A. 2. Approve dan receive purchase.;Stok OVK masuk ke gudang farm dan bisa dipakai kemudian pada recording.
TC-B04;Purchase dan Warehouse;Product Warehouse;Gudang farm shared tidak diubah diam-diam menjadi milik kandang;Regression;High;Sudah ada row product_warehouse level farm untuk Pakan Starter di Gudang Farm A.;1. Trigger flow yang memanggil ensure/find product warehouse untuk produk yang sama. 2. Inspect row existing.;Row farm-level tetap farm-level, project_flock_kandang_id tidak dibackfill diam-diam, row khusus kandang dibuat terpisah bila memang diperlukan.
TC-C01;Recording Stock Consumption;Recording;Recording kandang memakai pakan dari gudang kandang;Regression;High;Stok pakan tersedia di Gudang Kandang A1.;1. Buka recording untuk Kandang A1. 2. Pilih pakan dari gudang kandang. 3. Submit dan approve.;Recording berhasil, stok keluar dari product_warehouse kandang, atribusi kandang tetap A1, HPP pemakaian muncul di closing/HPP A1.
TC-C02;Recording Stock Consumption;Recording;Recording kandang memakai pakan dari gudang farm;UAT;High;Stok pakan hanya tersedia di Gudang Farm A.;1. Buka recording untuk Kandang A1. 2. Pilih stok pakan farm-level. 3. Submit dan approve.;Recording berhasil tanpa transfer ke kandang, stok fisik berkurang dari gudang farm, usage/HPP tetap teratribusi ke Kandang A1, closing farm dan kandang tetap bisa dihitung.
TC-C03;Recording Stock Consumption;Recording;Recording kandang memakai OVK dari gudang farm;UAT;High;Stok OVK hanya tersedia di Gudang Farm A.;1. Buka recording untuk Kandang A1. 2. Pilih stok OVK farm-level. 3. Submit dan approve.;Stok OVK keluar dari gudang farm dan biaya pemakaian teratribusi ke kandang yang dipilih.
TC-C04;Recording Stock Consumption;Frontend Recording;Selector recording menampilkan opsi stok farm dan kandang dengan jelas;UI Regression;Medium;Produk yang sama tersedia di Gudang Farm A dan Gudang Kandang A1.;1. Buka form recording untuk A1. 2. Buka selector pakan.;Kedua opsi terlihat, label membedakan gudang atau scope dengan jelas, farm stock tidak tersembunyi secara salah.
TC-C05;Recording Stock Consumption;Recording;Recording A1 tidak boleh memakai stok kandang A2;Negative;High;Pakan Starter tersedia di Gudang Kandang A2.;1. Buka recording untuk A1. 2. Periksa opsi stok yang bisa dipilih.;Opsi Gudang Kandang A2 tidak bisa dipilih, stok farm tetap bisa dipilih.
TC-C06;Recording Stock Consumption;Recording;Perilaku pending stock dan usage lama tetap berjalan;Regression;Medium;Tidak ada setup khusus selain data recording yang valid.;1. Buat usage stock. 2. Buka kembali halaman edit dan detail.;Tampilan dan perhitungan pending atau usage tetap benar, tidak ada regresi pada route FIFO-v2.
TC-D01;Recording Telur dan Atribusi;Recording;Recording telur ke gudang kandang tetap berjalan;Regression;High;Kandang A1 aktif dan gudang telur kandang tersedia.;1. Record telur untuk A1 ke Gudang Kandang A1. 2. Approve.;Stok telur di gudang kandang bertambah dan asal kandang tetap A1.
TC-D02;Recording Telur dan Atribusi;Recording;Recording telur di kandang menyimpan stok ke gudang farm;UAT;High;Egg product warehouse tersedia di Gudang Farm A.;1. Record telur untuk A1. 2. Pilih Gudang Farm A sebagai gudang telur. 3. Submit dan approve.;Stok telur fisik masuk ke gudang farm, recording_eggs.project_flock_kandang_id bernilai A1, tidak ada transfer paksa ke kandang.
TC-D03;Recording Telur dan Atribusi;Reporting;Stok telur pooled di farm tetap punya jejak asal kandang;Integration;High;A1 record 100 telur ke gudang farm dan A2 record 150 telur ke gudang farm yang sama.;1. Inspect row telur yang tersimpan. 2. Inspect hasil costing atau report setelahnya.;Stok fisik pooled di gudang farm, tetapi asal kandang tetap bisa dibedakan per row atau allocation, HPP per kandang tetap dapat dihitung.
TC-D04;Recording Telur dan Atribusi;Recording Detail;Known gap pada detail recording dipahami;Known Limitation;Low;Sudah menjalankan TC-D02.;1. Buka detail recording setelah transaksi telur ke gudang farm.;Logika bisnis tetap berjalan, tetapi detail API atau UI mungkin belum menampilkan egg-origin secara eksplisit karena detail DTO belum diperluas.
TC-E01;Depletion dan Atribusi Populasi;Recording;Depletion dari gudang ayam milik kandang normal;Regression;High;A1 memiliki populasi ayam di gudang kandang.;1. Buat depletion. 2. Approve.;Depletion berhasil, alokasi populasi ter-resolve ke A1, HPP atau usage tetap benar.
TC-E02;Depletion dan Atribusi Populasi;Recording;Depletion dari sumber ayam fisik farm-level dengan source kandang A1;UAT;High;Stok ayam secara fisik ada di gudang farm dan punya jejak sumber ke A1.;1. Buat depletion untuk A1. 2. Gunakan path source atau farm-level yang didukung backend. 3. Approve.;source_product_warehouse_id menunjuk ke sumber fisik yang benar, source_project_flock_kandang_id bernilai A1, alokasi populasi berhasil tanpa mengasumsikan gudang fisik milik A1.
TC-E03;Depletion dan Atribusi Populasi;Recording;Depletion gagal bila sumber populasi tidak dapat diatribusikan;Negative;High;Buat kasus stok ayam farm-level tanpa source kandang yang valid.;1. Coba approve depletion.;Backend menolak dengan error yang jelas dan tidak ada silent misattribution.
TC-F01;Marketing dan Penjualan;Sales Order;Sales order dari gudang kandang tetap berjalan;Regression;High;Stok produk tersedia di Gudang Kandang A1.;1. Buat SO dari Gudang Kandang A1. 2. Lakukan delivery.;Perilaku lama tetap berjalan normal.
TC-F02;Marketing dan Penjualan;Sales Order;Sales order dari gudang farm untuk telur;UAT;High;Stok telur farm-level tersedia dan berasal dari A1.;1. Buat SO menggunakan Gudang Farm A. 2. Lakukan delivery.;SO dan DO berhasil, stok fisik berkurang dari gudang farm, HPP dan COGS telur tetap teratribusi ke kandang penghasil melalui allocation.
TC-F03;Marketing dan Penjualan;Sales Order;Sales order dari gudang farm untuk telur pooled A1 dan A2;Integration;High;Stok telur pooled tersedia di gudang farm dari A1 dan A2.;1. Buat penjualan. 2. Lakukan delivery. 3. Inspect closing atau report.;Stok fisik berkurang sekali dari gudang farm, revenue dan HPP terbagi benar ke A1 dan A2, tidak bergantung pada pw.project_flock_kandang_id.
TC-F04;Marketing dan Penjualan;Sales Order;Sales order dari gudang farm untuk ayam atau culling;UAT;High;Stok ayam atau culling farm-level tersedia dengan jejak sumber dari A1 dan A2.;1. Buat SO dari gudang farm. 2. Buat DO dan approve.;allocatePopulationForMarketingDelivery menurunkan atribusi kandang dari source groups atau allocation, tidak gagal karena gudang jual tidak punya project_flock_kandang_id, HPP dan COGS teratribusi ke kandang sumber.
TC-F05;Marketing dan Penjualan;Frontend Marketing;UI sales menampilkan semantik Gudang Fisik;UI Regression;Medium;Tidak ada setup khusus selain akses ke form SO.;1. Buka form SO. 2. Periksa label selector gudang dan label tabel produk.;UI menggunakan label Gudang Fisik, bukan Kandang yang menyesatkan, dan label produk memuat detail produk serta gudang atau scope.
TC-F06;Marketing dan Penjualan;Delivery Order;Layar delivery order tetap kompatibel;Regression;Medium;Sudah ada SO dari gudang farm.;1. Lakukan delivery untuk SO farm-level. 2. Periksa tabel dan detail DO.;Tidak ada masalah payload, gudang fisik tampil dengan benar, dan tidak ada kebingungan akibat wording lama berbasis kandang.
TC-G01;Report, Closing, dan HPP;Daily Marketing Report;Daily marketing report untuk penjualan telur farm-level;UAT;Medium;Sudah menjalankan TC-F02.;1. Jalankan daily marketing report. 2. Uji export.;Row muncul pada gudang fisik yang benar, report tidak menyiratkan gudang sama dengan kandang, export berjalan.
TC-G02;Report, Closing, dan HPP;Closing Sales;Closing sales untuk penjualan pooled farm-level;UAT;High;Ada penjualan pooled telur atau ayam dari gudang farm.;1. Buka closing sales.;Penjualan bisa tampil teratribusi per kandang, label menunjukkan Kandang Atribusi, HPP dan revenue tetap benar secara matematis.
TC-G03;Report, Closing, dan HPP;HPP per Kandang;HPP per kandang mencakup konsumsi pakan atau OVK dari gudang farm;UAT;High;A1 sudah memakai pakan atau OVK dari gudang farm.;1. Jalankan report HPP per kandang.;Biaya usage muncul di A1 dan tidak hilang walaupun gudang fisiknya level farm.
TC-G04;Report, Closing, dan HPP;Closing Sapronak;Outgoing sapronak menampilkan gudang fisik dengan benar;UI Regression;Medium;Ada data outgoing sapronak yang valid.;1. Buka tabel closing outgoing sapronak.;Header jelas menunjukkan Gudang Asal (Fisik) dan Gudang Tujuan (Fisik).
TC-G05;Report, Closing, dan HPP;Compatibility;Data historis kandang-owned dan pooled data baru dapat coexist;Regression;High;Dalam satu date range ada transaksi lama kandang-owned dan transaksi baru pooled farm-level.;1. Jalankan closing. 2. Jalankan report. 3. Jalankan HPP.;Kedua jenis data diproses dengan benar, tidak ada double count dan tidak ada atribusi yang hilang.
TC-H01;FIFO-v2 dan Integritas Allocation;FIFO-v2;Kontrak FIFO-v2 tidak berubah;Integration;High;Gunakan data uji yang mencakup recording stock, depletion, egg, dan marketing.;1. Verifikasi route FIFO untuk RECORDING_STOCK_OUT, RECORDING_DEPLETION_OUT, RECORDING_DEPLETION_IN, RECORDING_EGG_IN, dan MARKETING_OUT. 2. Bandingkan dengan RFC.md dan seed config FIFO-v2.;Tidak ada perubahan semantik route yang tidak disengaja.
TC-H02;FIFO-v2 dan Integritas Allocation;Stock Allocation;Stock allocation tetap konsisten untuk pakan dari gudang farm;Integration;High;Sudah menjalankan TC-C02.;1. Inspect stock_allocations setelah transaksi.;Allocation consume terbentuk dengan benar dan tidak ada row allocation yatim atau rusak.
TC-H03;FIFO-v2 dan Integritas Allocation;Stock Allocation;Stock allocation tetap konsisten untuk penjualan telur pooled;Integration;High;Sudah menjalankan TC-F03.;1. Inspect stock_allocations. 2. Inspect row atribusi turunannya.;Allocation mendukung atribusi HPP kembali ke kandang sumber.
TC-H04;FIFO-v2 dan Integritas Allocation;Population Allocation;Population allocation tetap konsisten untuk penjualan ayam pooled;Integration;High;Sudah menjalankan TC-F04.;1. Inspect population allocations.;Penggunaan kandang sumber teralokasi dengan benar dan tidak fallback ke atribusi null saat source tersedia.
TC-I01;Negative dan Guard Cases;Recording;Recording dari stok farm-level dengan qty tidak cukup;Negative;High;Stok farm-level tersedia tetapi qty lebih kecil dari pemakaian yang diinput.;1. Buat recording dengan qty melebihi stok. 2. Submit atau approve.;Muncul validation atau business error dan tidak ada korupsi parsial.
TC-I02;Negative dan Guard Cases;Marketing;Marketing dari stok farm-level dengan qty tidak cukup;Negative;High;Stok farm-level tersedia tetapi qty lebih kecil dari qty penjualan.;1. Buat SO atau DO dengan qty melebihi stok. 2. Submit atau approve.;Delivery atau approval diblok dan stok tetap konsisten.
TC-I03;Negative dan Guard Cases;Frontend Selector;Opsi produk sama di gudang berbeda tidak salah terpilih;UI Regression;Medium;Produk yang sama tersedia di gudang farm dan gudang kandang.;1. Pilih masing-masing opsi secara eksplisit di UI. 2. Save. 3. Buka kembali edit atau detail.;Opsi yang terpilih jelas dan tetap stabil setelah save atau edit.
TC-I04;Negative dan Guard Cases;Product Warehouse;Row gudang shared tidak diatribusikan ulang oleh flow maintenance;Regression;High;Ada row shared farm warehouse yang sudah aktif.;1. Jalankan flow yang menyentuh logic ensure/find product warehouse. 2. Cek ulang row farm shared.;Tidak ada mutasi diam-diam pada project_flock_kandang_id.
TC-J01;Regression Frontend dan UX;Recording Form;Form recording menampilkan opsi stok farm dan kandang hanya dalam scope farm yang sama;UI Regression;Medium;Ada stok di gudang farm, gudang kandang saat ini, dan gudang kandang lain.;1. Buka form recording untuk kandang tertentu. 2. Periksa opsi stock selector.;Gudang farm dan gudang kandang saat ini terlihat, gudang kandang lain tersembunyi.
TC-J02;Regression Frontend dan UX;Recording Form;Selector recording telur mengizinkan gudang farm;UI Regression;Medium;Egg warehouse tersedia di gudang farm.;1. Buka form recording telur. 2. Buka selector tujuan telur.;Gudang farm terlihat sebagai opsi tujuan telur.
TC-J03;Regression Frontend dan UX;Sales Form;Form sales memakai semantik gudang secara konsisten;UI Regression;Medium;Akses ke halaman marketing tersedia.;1. Buka form sales. 2. Periksa label selector dan summary table.;Label menggunakan Gudang Fisik secara konsisten dan tidak ada wording Kandang yang menyesatkan untuk stok fisik.
TC-J04;Regression Frontend dan UX;Marketing Modal;Modal list marketing menampilkan label gudang fisik;UI Regression;Low;Akses ke modal product list tersedia.;1. Buka modal product list di marketing.;Kolom menampilkan label Gudang Fisik.
TC-K01;Known Limitation;Recording Detail;Detail recording belum menampilkan source atau origin attribution baru;Known Limitation;Low;Sudah ada recording telur farm-level dan depletion dengan source attribution.;1. Buat transaksi. 2. Buka detail recording.;Transaksi berjalan dan atribusi tersimpan di DB, tetapi detail API atau UI mungkin belum menampilkan field source atau origin tersebut
1 ID Kategori Area Judul Tipe Prioritas Setup/Precondition Langkah Uji Hasil yang Diharapkan
2 TC-A01 Migrasi dan Keamanan Data Database Migrasi aman pada DB tidak kosong Integration High Gunakan snapshot DB staging yang sudah berisi recording, depletion, telur, penjualan, dan closing. 1. Jalankan migrasi 20260330110000_add_recording_attribution_fields_for_farm_stock.up.sql. 2. Inspect schema hasil migrasi. Kolom recording_depletions.source_project_flock_kandang_id dan recording_eggs.project_flock_kandang_id tersedia dan nullable, index dan FK tersedia, tidak ada data historis yang terhapus atau berubah destruktif.
3 TC-A02 Migrasi dan Keamanan Data Database Backfill deterministik berjalan Integration High Ada data historis recording dengan recordings.project_flock_kandangs_id yang valid. 1. Query recording_depletions dan recording_eggs yang lama. 2. Bandingkan dengan kandang pada parent recording. source_project_flock_kandang_id dan project_flock_kandang_id terisi sama dengan kandang parent recording untuk row yang sebelumnya null.
4 TC-A03 Migrasi dan Keamanan Data Reporting Report historis kandang-only tidak berubah Regression High Gunakan snapshot yang hanya memiliki data stok historis milik kandang, tanpa pooled stock farm-level. 1. Jalankan closing/report/HPP sebelum deploy. 2. Jalankan lagi sesudah deploy pada snapshot yang sama. 3. Bandingkan hasil. Total dan hasil report tetap sama untuk skenario historis kandang-only.
5 TC-B01 Purchase dan Warehouse Purchase Purchase pakan langsung ke gudang farm UAT High Tersedia PO atau purchase request untuk produk Pakan Starter. 1. Buat purchase ke Gudang Farm A. 2. Approve dan receive purchase. Stok masuk ke product_warehouse level farm, tidak perlu transfer paksa ke kandang, FIFO/HPP purchase tetap benar.
6 TC-B02 Purchase dan Warehouse Purchase Purchase pakan langsung ke gudang kandang Regression High Tersedia PO atau purchase request untuk produk Pakan Starter. 1. Buat purchase ke Gudang Kandang A1. 2. Approve dan receive purchase. Stok masuk ke gudang kandang dan perilaku tetap sama seperti flow lama.
7 TC-B03 Purchase dan Warehouse Purchase Purchase OVK langsung ke gudang farm UAT High Tersedia PO atau purchase request untuk produk OVK A. 1. Buat purchase ke Gudang Farm A. 2. Approve dan receive purchase. Stok OVK masuk ke gudang farm dan bisa dipakai kemudian pada recording.
8 TC-B04 Purchase dan Warehouse Product Warehouse Gudang farm shared tidak diubah diam-diam menjadi milik kandang Regression High Sudah ada row product_warehouse level farm untuk Pakan Starter di Gudang Farm A. 1. Trigger flow yang memanggil ensure/find product warehouse untuk produk yang sama. 2. Inspect row existing. Row farm-level tetap farm-level, project_flock_kandang_id tidak dibackfill diam-diam, row khusus kandang dibuat terpisah bila memang diperlukan.
9 TC-C01 Recording Stock Consumption Recording Recording kandang memakai pakan dari gudang kandang Regression High Stok pakan tersedia di Gudang Kandang A1. 1. Buka recording untuk Kandang A1. 2. Pilih pakan dari gudang kandang. 3. Submit dan approve. Recording berhasil, stok keluar dari product_warehouse kandang, atribusi kandang tetap A1, HPP pemakaian muncul di closing/HPP A1.
10 TC-C02 Recording Stock Consumption Recording Recording kandang memakai pakan dari gudang farm UAT High Stok pakan hanya tersedia di Gudang Farm A. 1. Buka recording untuk Kandang A1. 2. Pilih stok pakan farm-level. 3. Submit dan approve. Recording berhasil tanpa transfer ke kandang, stok fisik berkurang dari gudang farm, usage/HPP tetap teratribusi ke Kandang A1, closing farm dan kandang tetap bisa dihitung.
11 TC-C03 Recording Stock Consumption Recording Recording kandang memakai OVK dari gudang farm UAT High Stok OVK hanya tersedia di Gudang Farm A. 1. Buka recording untuk Kandang A1. 2. Pilih stok OVK farm-level. 3. Submit dan approve. Stok OVK keluar dari gudang farm dan biaya pemakaian teratribusi ke kandang yang dipilih.
12 TC-C04 Recording Stock Consumption Frontend Recording Selector recording menampilkan opsi stok farm dan kandang dengan jelas UI Regression Medium Produk yang sama tersedia di Gudang Farm A dan Gudang Kandang A1. 1. Buka form recording untuk A1. 2. Buka selector pakan. Kedua opsi terlihat, label membedakan gudang atau scope dengan jelas, farm stock tidak tersembunyi secara salah.
13 TC-C05 Recording Stock Consumption Recording Recording A1 tidak boleh memakai stok kandang A2 Negative High Pakan Starter tersedia di Gudang Kandang A2. 1. Buka recording untuk A1. 2. Periksa opsi stok yang bisa dipilih. Opsi Gudang Kandang A2 tidak bisa dipilih, stok farm tetap bisa dipilih.
14 TC-C06 Recording Stock Consumption Recording Perilaku pending stock dan usage lama tetap berjalan Regression Medium Tidak ada setup khusus selain data recording yang valid. 1. Buat usage stock. 2. Buka kembali halaman edit dan detail. Tampilan dan perhitungan pending atau usage tetap benar, tidak ada regresi pada route FIFO-v2.
15 TC-D01 Recording Telur dan Atribusi Recording Recording telur ke gudang kandang tetap berjalan Regression High Kandang A1 aktif dan gudang telur kandang tersedia. 1. Record telur untuk A1 ke Gudang Kandang A1. 2. Approve. Stok telur di gudang kandang bertambah dan asal kandang tetap A1.
16 TC-D02 Recording Telur dan Atribusi Recording Recording telur di kandang menyimpan stok ke gudang farm UAT High Egg product warehouse tersedia di Gudang Farm A. 1. Record telur untuk A1. 2. Pilih Gudang Farm A sebagai gudang telur. 3. Submit dan approve. Stok telur fisik masuk ke gudang farm, recording_eggs.project_flock_kandang_id bernilai A1, tidak ada transfer paksa ke kandang.
17 TC-D03 Recording Telur dan Atribusi Reporting Stok telur pooled di farm tetap punya jejak asal kandang Integration High A1 record 100 telur ke gudang farm dan A2 record 150 telur ke gudang farm yang sama. 1. Inspect row telur yang tersimpan. 2. Inspect hasil costing atau report setelahnya. Stok fisik pooled di gudang farm, tetapi asal kandang tetap bisa dibedakan per row atau allocation, HPP per kandang tetap dapat dihitung.
18 TC-D04 Recording Telur dan Atribusi Recording Detail Known gap pada detail recording dipahami Known Limitation Low Sudah menjalankan TC-D02. 1. Buka detail recording setelah transaksi telur ke gudang farm. Logika bisnis tetap berjalan, tetapi detail API atau UI mungkin belum menampilkan egg-origin secara eksplisit karena detail DTO belum diperluas.
19 TC-E01 Depletion dan Atribusi Populasi Recording Depletion dari gudang ayam milik kandang normal Regression High A1 memiliki populasi ayam di gudang kandang. 1. Buat depletion. 2. Approve. Depletion berhasil, alokasi populasi ter-resolve ke A1, HPP atau usage tetap benar.
20 TC-E02 Depletion dan Atribusi Populasi Recording Depletion dari sumber ayam fisik farm-level dengan source kandang A1 UAT High Stok ayam secara fisik ada di gudang farm dan punya jejak sumber ke A1. 1. Buat depletion untuk A1. 2. Gunakan path source atau farm-level yang didukung backend. 3. Approve. source_product_warehouse_id menunjuk ke sumber fisik yang benar, source_project_flock_kandang_id bernilai A1, alokasi populasi berhasil tanpa mengasumsikan gudang fisik milik A1.
21 TC-E03 Depletion dan Atribusi Populasi Recording Depletion gagal bila sumber populasi tidak dapat diatribusikan Negative High Buat kasus stok ayam farm-level tanpa source kandang yang valid. 1. Coba approve depletion. Backend menolak dengan error yang jelas dan tidak ada silent misattribution.
22 TC-F01 Marketing dan Penjualan Sales Order Sales order dari gudang kandang tetap berjalan Regression High Stok produk tersedia di Gudang Kandang A1. 1. Buat SO dari Gudang Kandang A1. 2. Lakukan delivery. Perilaku lama tetap berjalan normal.
23 TC-F02 Marketing dan Penjualan Sales Order Sales order dari gudang farm untuk telur UAT High Stok telur farm-level tersedia dan berasal dari A1. 1. Buat SO menggunakan Gudang Farm A. 2. Lakukan delivery. SO dan DO berhasil, stok fisik berkurang dari gudang farm, HPP dan COGS telur tetap teratribusi ke kandang penghasil melalui allocation.
24 TC-F03 Marketing dan Penjualan Sales Order Sales order dari gudang farm untuk telur pooled A1 dan A2 Integration High Stok telur pooled tersedia di gudang farm dari A1 dan A2. 1. Buat penjualan. 2. Lakukan delivery. 3. Inspect closing atau report. Stok fisik berkurang sekali dari gudang farm, revenue dan HPP terbagi benar ke A1 dan A2, tidak bergantung pada pw.project_flock_kandang_id.
25 TC-F04 Marketing dan Penjualan Sales Order Sales order dari gudang farm untuk ayam atau culling UAT High Stok ayam atau culling farm-level tersedia dengan jejak sumber dari A1 dan A2. 1. Buat SO dari gudang farm. 2. Buat DO dan approve. allocatePopulationForMarketingDelivery menurunkan atribusi kandang dari source groups atau allocation, tidak gagal karena gudang jual tidak punya project_flock_kandang_id, HPP dan COGS teratribusi ke kandang sumber.
26 TC-F05 Marketing dan Penjualan Frontend Marketing UI sales menampilkan semantik Gudang Fisik UI Regression Medium Tidak ada setup khusus selain akses ke form SO. 1. Buka form SO. 2. Periksa label selector gudang dan label tabel produk. UI menggunakan label Gudang Fisik, bukan Kandang yang menyesatkan, dan label produk memuat detail produk serta gudang atau scope.
27 TC-F06 Marketing dan Penjualan Delivery Order Layar delivery order tetap kompatibel Regression Medium Sudah ada SO dari gudang farm. 1. Lakukan delivery untuk SO farm-level. 2. Periksa tabel dan detail DO. Tidak ada masalah payload, gudang fisik tampil dengan benar, dan tidak ada kebingungan akibat wording lama berbasis kandang.
28 TC-G01 Report, Closing, dan HPP Daily Marketing Report Daily marketing report untuk penjualan telur farm-level UAT Medium Sudah menjalankan TC-F02. 1. Jalankan daily marketing report. 2. Uji export. Row muncul pada gudang fisik yang benar, report tidak menyiratkan gudang sama dengan kandang, export berjalan.
29 TC-G02 Report, Closing, dan HPP Closing Sales Closing sales untuk penjualan pooled farm-level UAT High Ada penjualan pooled telur atau ayam dari gudang farm. 1. Buka closing sales. Penjualan bisa tampil teratribusi per kandang, label menunjukkan Kandang Atribusi, HPP dan revenue tetap benar secara matematis.
30 TC-G03 Report, Closing, dan HPP HPP per Kandang HPP per kandang mencakup konsumsi pakan atau OVK dari gudang farm UAT High A1 sudah memakai pakan atau OVK dari gudang farm. 1. Jalankan report HPP per kandang. Biaya usage muncul di A1 dan tidak hilang walaupun gudang fisiknya level farm.
31 TC-G04 Report, Closing, dan HPP Closing Sapronak Outgoing sapronak menampilkan gudang fisik dengan benar UI Regression Medium Ada data outgoing sapronak yang valid. 1. Buka tabel closing outgoing sapronak. Header jelas menunjukkan Gudang Asal (Fisik) dan Gudang Tujuan (Fisik).
32 TC-G05 Report, Closing, dan HPP Compatibility Data historis kandang-owned dan pooled data baru dapat coexist Regression High Dalam satu date range ada transaksi lama kandang-owned dan transaksi baru pooled farm-level. 1. Jalankan closing. 2. Jalankan report. 3. Jalankan HPP. Kedua jenis data diproses dengan benar, tidak ada double count dan tidak ada atribusi yang hilang.
33 TC-H01 FIFO-v2 dan Integritas Allocation FIFO-v2 Kontrak FIFO-v2 tidak berubah Integration High Gunakan data uji yang mencakup recording stock, depletion, egg, dan marketing. 1. Verifikasi route FIFO untuk RECORDING_STOCK_OUT, RECORDING_DEPLETION_OUT, RECORDING_DEPLETION_IN, RECORDING_EGG_IN, dan MARKETING_OUT. 2. Bandingkan dengan RFC.md dan seed config FIFO-v2. Tidak ada perubahan semantik route yang tidak disengaja.
34 TC-H02 FIFO-v2 dan Integritas Allocation Stock Allocation Stock allocation tetap konsisten untuk pakan dari gudang farm Integration High Sudah menjalankan TC-C02. 1. Inspect stock_allocations setelah transaksi. Allocation consume terbentuk dengan benar dan tidak ada row allocation yatim atau rusak.
35 TC-H03 FIFO-v2 dan Integritas Allocation Stock Allocation Stock allocation tetap konsisten untuk penjualan telur pooled Integration High Sudah menjalankan TC-F03. 1. Inspect stock_allocations. 2. Inspect row atribusi turunannya. Allocation mendukung atribusi HPP kembali ke kandang sumber.
36 TC-H04 FIFO-v2 dan Integritas Allocation Population Allocation Population allocation tetap konsisten untuk penjualan ayam pooled Integration High Sudah menjalankan TC-F04. 1. Inspect population allocations. Penggunaan kandang sumber teralokasi dengan benar dan tidak fallback ke atribusi null saat source tersedia.
37 TC-I01 Negative dan Guard Cases Recording Recording dari stok farm-level dengan qty tidak cukup Negative High Stok farm-level tersedia tetapi qty lebih kecil dari pemakaian yang diinput. 1. Buat recording dengan qty melebihi stok. 2. Submit atau approve. Muncul validation atau business error dan tidak ada korupsi parsial.
38 TC-I02 Negative dan Guard Cases Marketing Marketing dari stok farm-level dengan qty tidak cukup Negative High Stok farm-level tersedia tetapi qty lebih kecil dari qty penjualan. 1. Buat SO atau DO dengan qty melebihi stok. 2. Submit atau approve. Delivery atau approval diblok dan stok tetap konsisten.
39 TC-I03 Negative dan Guard Cases Frontend Selector Opsi produk sama di gudang berbeda tidak salah terpilih UI Regression Medium Produk yang sama tersedia di gudang farm dan gudang kandang. 1. Pilih masing-masing opsi secara eksplisit di UI. 2. Save. 3. Buka kembali edit atau detail. Opsi yang terpilih jelas dan tetap stabil setelah save atau edit.
40 TC-I04 Negative dan Guard Cases Product Warehouse Row gudang shared tidak diatribusikan ulang oleh flow maintenance Regression High Ada row shared farm warehouse yang sudah aktif. 1. Jalankan flow yang menyentuh logic ensure/find product warehouse. 2. Cek ulang row farm shared. Tidak ada mutasi diam-diam pada project_flock_kandang_id.
41 TC-J01 Regression Frontend dan UX Recording Form Form recording menampilkan opsi stok farm dan kandang hanya dalam scope farm yang sama UI Regression Medium Ada stok di gudang farm, gudang kandang saat ini, dan gudang kandang lain. 1. Buka form recording untuk kandang tertentu. 2. Periksa opsi stock selector. Gudang farm dan gudang kandang saat ini terlihat, gudang kandang lain tersembunyi.
42 TC-J02 Regression Frontend dan UX Recording Form Selector recording telur mengizinkan gudang farm UI Regression Medium Egg warehouse tersedia di gudang farm. 1. Buka form recording telur. 2. Buka selector tujuan telur. Gudang farm terlihat sebagai opsi tujuan telur.
43 TC-J03 Regression Frontend dan UX Sales Form Form sales memakai semantik gudang secara konsisten UI Regression Medium Akses ke halaman marketing tersedia. 1. Buka form sales. 2. Periksa label selector dan summary table. Label menggunakan Gudang Fisik secara konsisten dan tidak ada wording Kandang yang menyesatkan untuk stok fisik.
44 TC-J04 Regression Frontend dan UX Marketing Modal Modal list marketing menampilkan label gudang fisik UI Regression Low Akses ke modal product list tersedia. 1. Buka modal product list di marketing. Kolom menampilkan label Gudang Fisik.
45 TC-K01 Known Limitation Recording Detail Detail recording belum menampilkan source atau origin attribution baru Known Limitation Low Sudah ada recording telur farm-level dan depletion dengan source attribution. 1. Buat transaksi. 2. Buka detail recording. Transaksi berjalan dan atribusi tersimpan di DB, tetapi detail API atau UI mungkin belum menampilkan field source atau origin tersebut
docs/qa_farm_stock_test_cases.xlsx
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-- Legacy Egg Cutover Audit Helper Queries
-- Ad-hoc query pack for investigation, audit, dry-run review, and rollback readiness.
-- =====================================================================
-- AUDIT-01 All locations classified by kandang/farm egg posting timing
-- =====================================================================
WITH timing AS (
SELECT
pf.location_id AS location_id,
l.name AS location_name,
MIN(CASE WHEN w.type = 'KANDANG' THEN DATE(r.record_datetime) END) AS first_kandang_date,
MAX(CASE WHEN w.type = 'KANDANG' THEN DATE(r.record_datetime) END) AS last_kandang_date,
MIN(CASE WHEN w.type = 'LOKASI' THEN DATE(r.record_datetime) END) AS first_farm_date,
MAX(CASE WHEN w.type = 'LOKASI' THEN DATE(r.record_datetime) END) AS last_farm_date
FROM recording_eggs re
JOIN recordings r ON r.id = re.recording_id
JOIN project_flock_kandangs pk ON pk.id = COALESCE(re.project_flock_kandang_id, r.project_flock_kandangs_id)
JOIN project_flocks pf ON pf.id = pk.project_flock_id
JOIN locations l ON l.id = pf.location_id
JOIN product_warehouses pw ON pw.id = re.product_warehouse_id
JOIN warehouses w ON w.id = pw.warehouse_id
GROUP BY pf.location_id, l.name
)
SELECT
location_id,
location_name,
first_kandang_date,
last_kandang_date,
first_farm_date,
last_farm_date,
CASE
WHEN first_farm_date IS NULL THEN 'KANDANG_ONLY'
WHEN last_kandang_date IS NULL OR first_farm_date > last_kandang_date THEN 'CLEAN_CUTOVER'
ELSE 'OVERLAP'
END AS location_status
FROM timing
ORDER BY location_name;
-- =====================================================================
-- AUDIT-02 All legacy kandang egg product warehouses with positive on-hand
-- =====================================================================
WITH first_farm AS (
SELECT location_id, MIN(id) AS farm_warehouse_id
FROM warehouses
WHERE type = 'LOKASI'
AND deleted_at IS NULL
GROUP BY location_id
)
SELECT
l.id AS location_id,
l.name AS location_name,
kw.id AS source_warehouse_id,
kw.name AS source_warehouse_name,
fw.id AS farm_warehouse_id,
fw.name AS farm_warehouse_name,
pw.id AS product_warehouse_id,
p.id AS product_id,
p.name AS product_name,
COALESCE(pw.qty, 0) AS on_hand_qty
FROM product_warehouses pw
JOIN warehouses kw
ON kw.id = pw.warehouse_id
AND kw.type = 'KANDANG'
AND kw.deleted_at IS NULL
JOIN locations l ON l.id = kw.location_id
JOIN products p ON p.id = pw.product_id
LEFT JOIN product_categories pc ON pc.id = p.product_category_id
LEFT JOIN first_farm ff ON ff.location_id = kw.location_id
LEFT JOIN warehouses fw ON fw.id = ff.farm_warehouse_id
WHERE EXISTS (
SELECT 1 FROM recording_eggs re WHERE re.product_warehouse_id = pw.id
)
AND (
EXISTS (
SELECT 1 FROM flags f
WHERE f.flagable_type = 'products'
AND f.flagable_id = p.id
AND (UPPER(f.name) = 'TELUR' OR UPPER(f.name) LIKE 'TELUR-%')
)
OR (
NOT EXISTS (
SELECT 1 FROM flags f_any
WHERE f_any.flagable_type = 'products'
AND f_any.flagable_id = p.id
)
AND UPPER(COALESCE(pc.code, '')) = 'EGG'
)
)
AND COALESCE(pw.qty, 0) > 0
ORDER BY l.name, kw.name, p.name;
-- =====================================================================
-- AUDIT-03 Totals per location for phase sizing
-- =====================================================================
WITH candidates AS (
SELECT
l.name AS location_name,
COALESCE(pw.qty, 0) AS on_hand_qty
FROM product_warehouses pw
JOIN warehouses kw
ON kw.id = pw.warehouse_id
AND kw.type = 'KANDANG'
AND kw.deleted_at IS NULL
JOIN locations l ON l.id = kw.location_id
JOIN products p ON p.id = pw.product_id
LEFT JOIN product_categories pc ON pc.id = p.product_category_id
WHERE EXISTS (
SELECT 1 FROM recording_eggs re WHERE re.product_warehouse_id = pw.id
)
AND (
EXISTS (
SELECT 1 FROM flags f
WHERE f.flagable_type = 'products'
AND f.flagable_id = p.id
AND (UPPER(f.name) = 'TELUR' OR UPPER(f.name) LIKE 'TELUR-%')
)
OR (
NOT EXISTS (
SELECT 1 FROM flags f_any
WHERE f_any.flagable_type = 'products'
AND f_any.flagable_id = p.id
)
AND UPPER(COALESCE(pc.code, '')) = 'EGG'
)
)
AND COALESCE(pw.qty, 0) > 0
)
SELECT
location_name,
COUNT(*) AS positive_rows,
SUM(on_hand_qty) AS total_on_hand_qty
FROM candidates
GROUP BY location_name
ORDER BY location_name;
-- =====================================================================
-- AUDIT-04 Locations missing farm warehouse
-- =====================================================================
SELECT
l.id AS location_id,
l.name AS location_name
FROM locations l
WHERE EXISTS (
SELECT 1
FROM warehouses kw
WHERE kw.location_id = l.id
AND kw.type = 'KANDANG'
AND kw.deleted_at IS NULL
)
AND NOT EXISTS (
SELECT 1
FROM warehouses fw
WHERE fw.location_id = l.id
AND fw.type = 'LOKASI'
AND fw.deleted_at IS NULL
)
ORDER BY l.name;
-- =====================================================================
-- AUDIT-05 Legacy recording_eggs still pointing to kandang warehouse
-- =====================================================================
SELECT
l.name AS location_name,
kw.name AS kandang_warehouse_name,
p.name AS product_name,
COUNT(*) AS recording_rows
FROM recording_eggs re
JOIN product_warehouses pw ON pw.id = re.product_warehouse_id
JOIN warehouses kw ON kw.id = pw.warehouse_id
JOIN locations l ON l.id = kw.location_id
JOIN products p ON p.id = pw.product_id
WHERE kw.type = 'KANDANG'
GROUP BY l.name, kw.name, p.name
ORDER BY l.name, kw.name, p.name;
-- =====================================================================
-- AUDIT-06 Farm-level recording_eggs already present
-- =====================================================================
SELECT
l.name AS location_name,
fw.name AS farm_warehouse_name,
p.name AS product_name,
COUNT(*) AS recording_rows
FROM recording_eggs re
JOIN product_warehouses pw ON pw.id = re.product_warehouse_id
JOIN warehouses fw ON fw.id = pw.warehouse_id
JOIN locations l ON l.id = fw.location_id
JOIN products p ON p.id = pw.product_id
WHERE fw.type = 'LOKASI'
GROUP BY l.name, fw.name, p.name
ORDER BY l.name, fw.name, p.name;
-- =====================================================================
-- AUDIT-07 Transfers created by cutover reason, grouped by run_id
-- =====================================================================
SELECT
SPLIT_PART(SPLIT_PART(st.reason, '|run_id=', 2), '|', 1) AS run_id,
COUNT(DISTINCT st.id) AS transfer_count,
COUNT(std.id) AS detail_count,
SUM(COALESCE(std.total_qty, std.usage_qty, 0)) AS total_moved_qty,
MIN(st.transfer_date) AS first_transfer_date,
MAX(st.transfer_date) AS last_transfer_date
FROM stock_transfers st
JOIN stock_transfer_details std
ON std.stock_transfer_id = st.id
AND std.deleted_at IS NULL
WHERE st.reason LIKE 'EGG_FARM_CUTOVER|run_id=%'
GROUP BY 1
ORDER BY first_transfer_date DESC, run_id DESC;
-- =====================================================================
-- AUDIT-08 Detailed summary per run_id
-- Replace <run_id> before running.
-- =====================================================================
SELECT
st.id AS transfer_id,
st.movement_number,
st.transfer_date,
ws.name AS source_warehouse_name,
wd.name AS farm_warehouse_name,
p.name AS product_name,
COALESCE(std.total_qty, std.usage_qty, 0) AS moved_qty,
st.deleted_at
FROM stock_transfers st
JOIN stock_transfer_details std
ON std.stock_transfer_id = st.id
AND std.deleted_at IS NULL
JOIN products p ON p.id = std.product_id
JOIN warehouses ws ON ws.id = st.from_warehouse_id
JOIN warehouses wd ON wd.id = st.to_warehouse_id
WHERE st.reason LIKE 'EGG_FARM_CUTOVER|run_id=<run_id>|%'
ORDER BY st.id, p.name;
-- =====================================================================
-- AUDIT-09 Downstream consumption check per run_id
-- Replace <run_id> before running.
-- =====================================================================
SELECT
st.id AS transfer_id,
st.movement_number,
p.name AS product_name,
sa.usable_type,
sa.usable_id,
sa.qty,
sa.function_code,
sa.flag_group_code
FROM stock_transfers st
JOIN stock_transfer_details std
ON std.stock_transfer_id = st.id
AND std.deleted_at IS NULL
JOIN products p ON p.id = std.product_id
JOIN stock_allocations sa
ON sa.stockable_type = 'STOCK_TRANSFER_IN'
AND sa.stockable_id = std.id
AND sa.status = 'ACTIVE'
AND sa.allocation_purpose = 'CONSUME'
AND sa.deleted_at IS NULL
WHERE st.deleted_at IS NULL
AND st.reason LIKE 'EGG_FARM_CUTOVER|run_id=<run_id>|%'
ORDER BY st.id, p.name, sa.usable_type, sa.usable_id;
-- =====================================================================
-- AUDIT-10 Stock log reconciliation per cutover transfer detail
-- Replace <run_id> before running.
-- =====================================================================
SELECT
st.id AS transfer_id,
st.movement_number,
p.name AS product_name,
std.id AS transfer_detail_id,
COALESCE(std.total_qty, std.usage_qty, 0) AS moved_qty,
SUM(CASE WHEN sl.decrease > 0 THEN sl.decrease ELSE 0 END) AS total_logged_out,
SUM(CASE WHEN sl.increase > 0 THEN sl.increase ELSE 0 END) AS total_logged_in
FROM stock_transfers st
JOIN stock_transfer_details std
ON std.stock_transfer_id = st.id
AND std.deleted_at IS NULL
JOIN products p ON p.id = std.product_id
LEFT JOIN stock_logs sl
ON sl.loggable_type = 'TRANSFER'
AND sl.loggable_id = std.id
WHERE st.deleted_at IS NULL
AND st.reason LIKE 'EGG_FARM_CUTOVER|run_id=<run_id>|%'
GROUP BY st.id, st.movement_number, p.name, std.id, COALESCE(std.total_qty, std.usage_qty, 0)
ORDER BY st.id, p.name;
-- =====================================================================
-- AUDIT-11 New recording eggs still posting to kandang after cutoff date
-- Replace values before running.
-- =====================================================================
SELECT
DATE(r.record_datetime) AS record_date,
l.name AS location_name,
kw.name AS kandang_warehouse_name,
p.name AS product_name,
re.qty
FROM recording_eggs re
JOIN recordings r ON r.id = re.recording_id
JOIN product_warehouses pw ON pw.id = re.product_warehouse_id
JOIN warehouses kw ON kw.id = pw.warehouse_id
JOIN locations l ON l.id = kw.location_id
JOIN products p ON p.id = pw.product_id
WHERE kw.type = 'KANDANG'
AND LOWER(l.name) = LOWER('<location_name>')
AND DATE(r.record_datetime) >= DATE('<cutover_date>')
ORDER BY r.record_datetime ASC, kw.name, p.name;
-- Expectation:
-- - after deploy and cutover, this should ideally return 0 rows for the location
-- =====================================================================
-- AUDIT-12 Combined kandang + farm egg stock per location after cutover
-- Replace <location_name> before running.
-- =====================================================================
SELECT
l.name AS location_name,
w.type AS warehouse_type,
p.name AS product_name,
SUM(COALESCE(pw.qty, 0)) AS total_qty
FROM product_warehouses pw
JOIN warehouses w ON w.id = pw.warehouse_id
JOIN locations l ON l.id = w.location_id
JOIN products p ON p.id = pw.product_id
LEFT JOIN product_categories pc ON pc.id = p.product_category_id
WHERE LOWER(l.name) = LOWER('<location_name>')
AND (
EXISTS (
SELECT 1 FROM flags f
WHERE f.flagable_type = 'products'
AND f.flagable_id = p.id
AND (UPPER(f.name) = 'TELUR' OR UPPER(f.name) LIKE 'TELUR-%')
)
OR (
NOT EXISTS (
SELECT 1 FROM flags f_any
WHERE f_any.flagable_type = 'products'
AND f_any.flagable_id = p.id
)
AND UPPER(COALESCE(pc.code, '')) = 'EGG'
)
)
GROUP BY l.name, w.type, p.name
ORDER BY w.type, p.name;
docs/sql/legacy_egg_cutover_verification_checklist.sql
-400
View File
@@ -1,400 +0,0 @@
-- Legacy Egg Cutover Verification Checklist
-- Usage:
-- 1. Replace the values below before executing.
-- 2. Run section BEFORE before --apply.
-- 3. Run section AFTER after --apply.
-- 4. Run rollback checks if needed.
-- =====================================================================
-- PARAMETERS
-- =====================================================================
-- Replace manually before running.
-- Example:
-- location_name = Jamali
-- cutover_date = 2026-04-07
-- run_id = egg-cutover-20260407T130344.220407000Z
-- =====================================================================
-- BEFORE APPLY
-- =====================================================================
-- [BEFORE-01] Identify target location and farm warehouse
SELECT
l.id AS location_id,
l.name AS location_name,
fw.id AS farm_warehouse_id,
fw.name AS farm_warehouse_name
FROM locations l
LEFT JOIN warehouses fw
ON fw.location_id = l.id
AND fw.type = 'LOKASI'
AND fw.deleted_at IS NULL
WHERE LOWER(l.name) = LOWER('<location_name>')
ORDER BY fw.id ASC;
-- Expectation:
-- - exactly one target location
-- - at least one farm warehouse exists
-- [BEFORE-02] Verify location timing status (must be CLEAN_CUTOVER for phase 1)
WITH timing AS (
SELECT
pf.location_id AS location_id,
l.name AS location_name,
MIN(CASE WHEN w.type = 'KANDANG' THEN DATE(r.record_datetime) END) AS first_kandang_date,
MAX(CASE WHEN w.type = 'KANDANG' THEN DATE(r.record_datetime) END) AS last_kandang_date,
MIN(CASE WHEN w.type = 'LOKASI' THEN DATE(r.record_datetime) END) AS first_farm_date,
MAX(CASE WHEN w.type = 'LOKASI' THEN DATE(r.record_datetime) END) AS last_farm_date
FROM recording_eggs re
JOIN recordings r ON r.id = re.recording_id
JOIN project_flock_kandangs pk ON pk.id = COALESCE(re.project_flock_kandang_id, r.project_flock_kandangs_id)
JOIN project_flocks pf ON pf.id = pk.project_flock_id
JOIN locations l ON l.id = pf.location_id
JOIN product_warehouses pw ON pw.id = re.product_warehouse_id
JOIN warehouses w ON w.id = pw.warehouse_id
WHERE LOWER(l.name) = LOWER('<location_name>')
GROUP BY pf.location_id, l.name
)
SELECT
location_id,
location_name,
first_kandang_date,
last_kandang_date,
first_farm_date,
last_farm_date,
CASE
WHEN first_farm_date IS NULL THEN 'KANDANG_ONLY'
WHEN last_kandang_date IS NULL OR first_farm_date > last_kandang_date THEN 'CLEAN_CUTOVER'
ELSE 'OVERLAP'
END AS location_status
FROM timing;
-- Expectation:
-- - phase 1 location must be CLEAN_CUTOVER
-- [BEFORE-03] Candidate source rows that should be migrated
WITH first_farm AS (
SELECT location_id, MIN(id) AS farm_warehouse_id
FROM warehouses
WHERE type = 'LOKASI'
AND deleted_at IS NULL
GROUP BY location_id
)
SELECT
l.id AS location_id,
l.name AS location_name,
kw.id AS source_warehouse_id,
kw.name AS source_warehouse_name,
fw.id AS farm_warehouse_id,
fw.name AS farm_warehouse_name,
pw.id AS product_warehouse_id,
p.id AS product_id,
p.name AS product_name,
COALESCE(pw.qty, 0) AS on_hand_qty
FROM product_warehouses pw
JOIN warehouses kw
ON kw.id = pw.warehouse_id
AND kw.type = 'KANDANG'
AND kw.deleted_at IS NULL
JOIN locations l ON l.id = kw.location_id
JOIN products p ON p.id = pw.product_id
LEFT JOIN product_categories pc ON pc.id = p.product_category_id
LEFT JOIN first_farm ff ON ff.location_id = kw.location_id
LEFT JOIN warehouses fw ON fw.id = ff.farm_warehouse_id
WHERE LOWER(l.name) = LOWER('<location_name>')
AND EXISTS (
SELECT 1
FROM recording_eggs re
WHERE re.product_warehouse_id = pw.id
)
AND (
EXISTS (
SELECT 1
FROM flags f
WHERE f.flagable_type = 'products'
AND f.flagable_id = p.id
AND (UPPER(f.name) = 'TELUR' OR UPPER(f.name) LIKE 'TELUR-%')
)
OR (
NOT EXISTS (
SELECT 1
FROM flags f_any
WHERE f_any.flagable_type = 'products'
AND f_any.flagable_id = p.id
)
AND UPPER(COALESCE(pc.code, '')) = 'EGG'
)
)
AND COALESCE(pw.qty, 0) > 0
ORDER BY kw.name, p.name;
-- Expectation:
-- - every row here should match dry-run eligible rows
-- [BEFORE-04] Totals per source warehouse and product
WITH candidates AS (
SELECT
kw.name AS source_warehouse_name,
p.name AS product_name,
COALESCE(pw.qty, 0) AS on_hand_qty
FROM product_warehouses pw
JOIN warehouses kw
ON kw.id = pw.warehouse_id
AND kw.type = 'KANDANG'
AND kw.deleted_at IS NULL
JOIN locations l ON l.id = kw.location_id
JOIN products p ON p.id = pw.product_id
LEFT JOIN product_categories pc ON pc.id = p.product_category_id
WHERE LOWER(l.name) = LOWER('<location_name>')
AND EXISTS (
SELECT 1 FROM recording_eggs re WHERE re.product_warehouse_id = pw.id
)
AND (
EXISTS (
SELECT 1 FROM flags f
WHERE f.flagable_type = 'products'
AND f.flagable_id = p.id
AND (UPPER(f.name) = 'TELUR' OR UPPER(f.name) LIKE 'TELUR-%')
)
OR (
NOT EXISTS (
SELECT 1 FROM flags f_any
WHERE f_any.flagable_type = 'products'
AND f_any.flagable_id = p.id
)
AND UPPER(COALESCE(pc.code, '')) = 'EGG'
)
)
AND COALESCE(pw.qty, 0) > 0
)
SELECT
source_warehouse_name,
product_name,
SUM(on_hand_qty) AS total_qty
FROM candidates
GROUP BY source_warehouse_name, product_name
ORDER BY source_warehouse_name, product_name;
-- [BEFORE-05] Current farm egg stock before cutover
SELECT
fw.name AS farm_warehouse_name,
p.name AS product_name,
COALESCE(pw.qty, 0) AS farm_on_hand_qty
FROM warehouses fw
JOIN locations l ON l.id = fw.location_id
JOIN product_warehouses pw ON pw.warehouse_id = fw.id
JOIN products p ON p.id = pw.product_id
LEFT JOIN product_categories pc ON pc.id = p.product_category_id
WHERE LOWER(l.name) = LOWER('<location_name>')
AND fw.type = 'LOKASI'
AND fw.deleted_at IS NULL
AND (
EXISTS (
SELECT 1 FROM flags f
WHERE f.flagable_type = 'products'
AND f.flagable_id = p.id
AND (UPPER(f.name) = 'TELUR' OR UPPER(f.name) LIKE 'TELUR-%')
)
OR (
NOT EXISTS (
SELECT 1 FROM flags f_any
WHERE f_any.flagable_type = 'products'
AND f_any.flagable_id = p.id
)
AND UPPER(COALESCE(pc.code, '')) = 'EGG'
)
)
ORDER BY p.name;
-- [BEFORE-06] Existing cutover transfers for this location
SELECT
st.id,
st.movement_number,
st.transfer_date,
st.reason,
ws.name AS source_warehouse_name,
wd.name AS farm_warehouse_name,
st.deleted_at
FROM stock_transfers st
JOIN warehouses ws ON ws.id = st.from_warehouse_id
JOIN warehouses wd ON wd.id = st.to_warehouse_id
LEFT JOIN locations l ON l.id = COALESCE(ws.location_id, wd.location_id)
WHERE LOWER(COALESCE(l.name, '')) = LOWER('<location_name>')
AND st.reason LIKE 'EGG_FARM_CUTOVER|%'
ORDER BY st.id DESC;
-- Expectation:
-- - no unexpected older active cutover transfers for the same location
-- =====================================================================
-- AFTER APPLY
-- =====================================================================
-- [AFTER-01] Transfer headers created by run_id
SELECT
st.id,
st.movement_number,
st.transfer_date,
st.reason,
ws.name AS source_warehouse_name,
wd.name AS farm_warehouse_name,
st.deleted_at
FROM stock_transfers st
JOIN warehouses ws ON ws.id = st.from_warehouse_id
JOIN warehouses wd ON wd.id = st.to_warehouse_id
WHERE st.reason LIKE 'EGG_FARM_CUTOVER|run_id=<run_id>|%'
ORDER BY st.id ASC;
-- [AFTER-02] Transfer detail rows created by run_id
SELECT
st.id AS transfer_id,
st.movement_number,
ws.name AS source_warehouse_name,
wd.name AS farm_warehouse_name,
p.name AS product_name,
COALESCE(std.total_qty, std.usage_qty, 0) AS moved_qty,
std.source_product_warehouse_id,
std.dest_product_warehouse_id
FROM stock_transfers st
JOIN stock_transfer_details std
ON std.stock_transfer_id = st.id
AND std.deleted_at IS NULL
JOIN products p ON p.id = std.product_id
JOIN warehouses ws ON ws.id = st.from_warehouse_id
JOIN warehouses wd ON wd.id = st.to_warehouse_id
WHERE st.deleted_at IS NULL
AND st.reason LIKE 'EGG_FARM_CUTOVER|run_id=<run_id>|%'
ORDER BY st.id, p.name;
-- [AFTER-03] Stock logs created by run_id transfer details
SELECT
st.id AS transfer_id,
st.movement_number,
p.name AS product_name,
sl.product_warehouse_id,
sl.increase,
sl.decrease,
sl.stock,
sl.created_at
FROM stock_transfers st
JOIN stock_transfer_details std
ON std.stock_transfer_id = st.id
AND std.deleted_at IS NULL
JOIN products p ON p.id = std.product_id
JOIN stock_logs sl
ON sl.loggable_type = 'TRANSFER'
AND sl.loggable_id = std.id
WHERE st.deleted_at IS NULL
AND st.reason LIKE 'EGG_FARM_CUTOVER|run_id=<run_id>|%'
ORDER BY st.id, p.name, sl.id;
-- Expectation:
-- - every detail has one stock log decrease from source and one stock log increase to destination
-- [AFTER-04] Source rows after cutover
SELECT
kw.name AS source_warehouse_name,
p.name AS product_name,
COALESCE(pw.qty, 0) AS source_qty_after
FROM product_warehouses pw
JOIN warehouses kw ON kw.id = pw.warehouse_id
JOIN locations l ON l.id = kw.location_id
JOIN products p ON p.id = pw.product_id
WHERE LOWER(l.name) = LOWER('<location_name>')
AND kw.type = 'KANDANG'
AND EXISTS (
SELECT 1 FROM recording_eggs re WHERE re.product_warehouse_id = pw.id
)
ORDER BY kw.name, p.name;
-- Expectation:
-- - rows that were transferred should now be 0 or no longer available for use
-- [AFTER-05] Farm rows after cutover
SELECT
fw.name AS farm_warehouse_name,
p.name AS product_name,
COALESCE(pw.qty, 0) AS farm_qty_after
FROM product_warehouses pw
JOIN warehouses fw ON fw.id = pw.warehouse_id
JOIN locations l ON l.id = fw.location_id
JOIN products p ON p.id = pw.product_id
WHERE LOWER(l.name) = LOWER('<location_name>')
AND fw.type = 'LOKASI'
ORDER BY fw.name, p.name;
-- Expectation:
-- - farm qty increases by the moved amount
-- [AFTER-06] Reconciliation: total moved by run
SELECT
p.name AS product_name,
SUM(COALESCE(std.total_qty, std.usage_qty, 0)) AS total_moved_qty
FROM stock_transfers st
JOIN stock_transfer_details std
ON std.stock_transfer_id = st.id
AND std.deleted_at IS NULL
JOIN products p ON p.id = std.product_id
WHERE st.deleted_at IS NULL
AND st.reason LIKE 'EGG_FARM_CUTOVER|run_id=<run_id>|%'
GROUP BY p.name
ORDER BY p.name;
-- [AFTER-07] Farm stock available for SO after cutover
SELECT
fw.name AS farm_warehouse_name,
p.name AS product_name,
COALESCE(pw.qty, 0) AS available_qty
FROM product_warehouses pw
JOIN warehouses fw ON fw.id = pw.warehouse_id
JOIN locations l ON l.id = fw.location_id
JOIN products p ON p.id = pw.product_id
WHERE LOWER(l.name) = LOWER('<location_name>')
AND fw.type = 'LOKASI'
AND COALESCE(pw.qty, 0) > 0
ORDER BY p.name;
-- =====================================================================
-- ROLLBACK CHECKS
-- =====================================================================
-- [ROLLBACK-01] Check downstream consumption guard before rollback
SELECT
st.id AS transfer_id,
st.movement_number,
p.name AS product_name,
sa.usable_type,
sa.usable_id,
sa.qty,
sa.function_code,
sa.flag_group_code
FROM stock_transfers st
JOIN stock_transfer_details std
ON std.stock_transfer_id = st.id
AND std.deleted_at IS NULL
JOIN products p ON p.id = std.product_id
JOIN stock_allocations sa
ON sa.stockable_type = 'STOCK_TRANSFER_IN'
AND sa.stockable_id = std.id
AND sa.status = 'ACTIVE'
AND sa.allocation_purpose = 'CONSUME'
AND sa.deleted_at IS NULL
WHERE st.deleted_at IS NULL
AND st.reason LIKE 'EGG_FARM_CUTOVER|run_id=<run_id>|%'
ORDER BY st.id, p.name, sa.usable_type, sa.usable_id;
-- Expectation:
-- - rollback only safe if this query returns 0 rows
-- [ROLLBACK-02] Verify run is fully rolled back
SELECT
st.id,
st.movement_number,
st.deleted_at
FROM stock_transfers st
WHERE st.reason LIKE 'EGG_FARM_CUTOVER|run_id=<run_id>|%'
ORDER BY st.id;
-- Expectation:
-- - after rollback, deleted_at should be filled for all transfers in the run
docs/templates/adjustment_stock_prices.xlsx
Vendored
BIN
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docs/templates/farm_depreciation_manual_inputs.xlsx
Vendored
BIN
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docs/templates/kandang_house_type.xlsx
Vendored
BIN
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docs/templates/~$adjustment_stock_prices.xlsx
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BIN
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docs/templates/~$farm_depreciation_manual_inputs.xlsx
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docs/templates/~$kandang_house_type.xlsx
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go.mod
+1 -17
View File
@@ -9,18 +9,15 @@ require (
github.com/aws/aws-sdk-go-v2/credentials v1.19.2
github.com/aws/aws-sdk-go-v2/service/s3 v1.92.1
github.com/bytedance/sonic v1.12.1
github.com/glebarez/sqlite v1.11.0
github.com/go-playground/validator/v10 v10.27.0
github.com/gofiber/contrib/jwt v1.0.10
github.com/gofiber/fiber/v2 v2.52.5
github.com/golang-jwt/jwt/v5 v5.2.1
github.com/google/uuid v1.6.0
github.com/jackc/pgconn v1.14.1
github.com/jackc/pgx/v5 v5.5.5
github.com/redis/go-redis/v9 v9.14.0
github.com/sirupsen/logrus v1.9.3
github.com/spf13/viper v1.19.0
github.com/xuri/excelize/v2 v2.9.0
golang.org/x/crypto v0.33.0
gorm.io/driver/postgres v1.5.9
gorm.io/gorm v1.25.11
@@ -48,11 +45,8 @@ require (
github.com/cloudwego/base64x v0.1.4 // indirect
github.com/cloudwego/iasm v0.2.0 // indirect
github.com/dgryski/go-rendezvous v0.0.0-20200823014737-9f7001d12a5f // indirect
github.com/dustin/go-humanize v1.0.1 // indirect
github.com/fsnotify/fsnotify v1.7.0 // indirect
github.com/gabriel-vasile/mimetype v1.4.8 // indirect
github.com/glebarez/go-sqlite v1.21.2 // indirect
github.com/go-pdf/fpdf v0.9.0 // indirect
github.com/go-playground/locales v0.14.1 // indirect
github.com/go-playground/universal-translator v0.18.1 // indirect
github.com/google/go-cmp v0.6.0 // indirect
@@ -62,6 +56,7 @@ require (
github.com/jackc/pgpassfile v1.0.0 // indirect
github.com/jackc/pgproto3/v2 v2.3.2 // indirect
github.com/jackc/pgservicefile v0.0.0-20221227161230-091c0ba34f0a // indirect
github.com/jackc/pgx/v5 v5.5.5 // indirect
github.com/jackc/puddle/v2 v2.2.1 // indirect
github.com/jinzhu/inflection v1.0.0 // indirect
github.com/jinzhu/now v1.1.5 // indirect
@@ -73,12 +68,8 @@ require (
github.com/mattn/go-isatty v0.0.20 // indirect
github.com/mattn/go-runewidth v0.0.16 // indirect
github.com/mitchellh/mapstructure v1.5.0 // indirect
github.com/mohae/deepcopy v0.0.0-20170929034955-c48cc78d4826 // indirect
github.com/pelletier/go-toml/v2 v2.2.2 // indirect
github.com/philhofer/fwd v1.1.2 // indirect
github.com/remyoudompheng/bigfft v0.0.0-20230129092748-24d4a6f8daec // indirect
github.com/richardlehane/mscfb v1.0.4 // indirect
github.com/richardlehane/msoleps v1.0.4 // indirect
github.com/rivo/uniseg v0.4.7 // indirect
github.com/rogpeppe/go-internal v1.11.0 // indirect
github.com/sagikazarmark/locafero v0.4.0 // indirect
@@ -87,15 +78,12 @@ require (
github.com/spf13/afero v1.11.0 // indirect
github.com/spf13/cast v1.6.0 // indirect
github.com/spf13/pflag v1.0.5 // indirect
github.com/stretchr/testify v1.11.1 // indirect
github.com/subosito/gotenv v1.6.0 // indirect
github.com/tinylib/msgp v1.1.8 // indirect
github.com/twitchyliquid64/golang-asm v0.15.1 // indirect
github.com/valyala/bytebufferpool v1.0.0 // indirect
github.com/valyala/fasthttp v1.55.0 // indirect
github.com/valyala/tcplisten v1.0.0 // indirect
github.com/xuri/efp v0.0.0-20240408161823-9ad904a10d6d // indirect
github.com/xuri/nfp v0.0.0-20240318013403-ab9948c2c4a7 // indirect
go.uber.org/atomic v1.9.0 // indirect
go.uber.org/multierr v1.9.0 // indirect
golang.org/x/arch v0.0.0-20210923205945-b76863e36670 // indirect
@@ -106,8 +94,4 @@ require (
golang.org/x/text v0.22.0 // indirect
gopkg.in/ini.v1 v1.67.0 // indirect
gopkg.in/yaml.v3 v3.0.1 // indirect
modernc.org/libc v1.22.5 // indirect
modernc.org/mathutil v1.5.0 // indirect
modernc.org/memory v1.5.0 // indirect
modernc.org/sqlite v1.23.1 // indirect
)
go.sum
+1 -38
View File
@@ -65,20 +65,12 @@ github.com/davecgh/go-spew v1.1.2-0.20180830191138-d8f796af33cc h1:U9qPSI2PIWSS1
github.com/davecgh/go-spew v1.1.2-0.20180830191138-d8f796af33cc/go.mod h1:J7Y8YcW2NihsgmVo/mv3lAwl/skON4iLHjSsI+c5H38=
github.com/dgryski/go-rendezvous v0.0.0-20200823014737-9f7001d12a5f h1:lO4WD4F/rVNCu3HqELle0jiPLLBs70cWOduZpkS1E78=
github.com/dgryski/go-rendezvous v0.0.0-20200823014737-9f7001d12a5f/go.mod h1:cuUVRXasLTGF7a8hSLbxyZXjz+1KgoB3wDUb6vlszIc=
github.com/dustin/go-humanize v1.0.1 h1:GzkhY7T5VNhEkwH0PVJgjz+fX1rhBrR7pRT3mDkpeCY=
github.com/dustin/go-humanize v1.0.1/go.mod h1:Mu1zIs6XwVuF/gI1OepvI0qD18qycQx+mFykh5fBlto=
github.com/frankban/quicktest v1.14.6 h1:7Xjx+VpznH+oBnejlPUj8oUpdxnVs4f8XU8WnHkI4W8=
github.com/frankban/quicktest v1.14.6/go.mod h1:4ptaffx2x8+WTWXmUCuVU6aPUX1/Mz7zb5vbUoiM6w0=
github.com/fsnotify/fsnotify v1.7.0 h1:8JEhPFa5W2WU7YfeZzPNqzMP6Lwt7L2715Ggo0nosvA=
github.com/fsnotify/fsnotify v1.7.0/go.mod h1:40Bi/Hjc2AVfZrqy+aj+yEI+/bRxZnMJyTJwOpGvigM=
github.com/gabriel-vasile/mimetype v1.4.8 h1:FfZ3gj38NjllZIeJAmMhr+qKL8Wu+nOoI3GqacKw1NM=
github.com/gabriel-vasile/mimetype v1.4.8/go.mod h1:ByKUIKGjh1ODkGM1asKUbQZOLGrPjydw3hYPU2YU9t8=
github.com/glebarez/go-sqlite v1.21.2 h1:3a6LFC4sKahUunAmynQKLZceZCOzUthkRkEAl9gAXWo=
github.com/glebarez/go-sqlite v1.21.2/go.mod h1:sfxdZyhQjTM2Wry3gVYWaW072Ri1WMdWJi0k6+3382k=
github.com/glebarez/sqlite v1.11.0 h1:wSG0irqzP6VurnMEpFGer5Li19RpIRi2qvQz++w0GMw=
github.com/glebarez/sqlite v1.11.0/go.mod h1:h8/o8j5wiAsqSPoWELDUdJXhjAhsVliSn7bWZjOhrgQ=
github.com/go-pdf/fpdf v0.9.0 h1:PPvSaUuo1iMi9KkaAn90NuKi+P4gwMedWPHhj8YlJQw=
github.com/go-pdf/fpdf v0.9.0/go.mod h1:oO8N111TkmKb9D7VvWGLvLJlaZUQVPM+6V42pp3iV4Y=
github.com/go-playground/assert/v2 v2.2.0 h1:JvknZsQTYeFEAhQwI4qEt9cyV5ONwRHC+lYKSsYSR8s=
github.com/go-playground/assert/v2 v2.2.0/go.mod h1:VDjEfimB/XKnb+ZQfWdccd7VUvScMdVu0Titje2rxJ4=
github.com/go-playground/locales v0.14.1 h1:EWaQ/wswjilfKLTECiXz7Rh+3BjFhfDFKv/oXslEjJA=
@@ -96,8 +88,6 @@ github.com/golang-jwt/jwt/v5 v5.2.1 h1:OuVbFODueb089Lh128TAcimifWaLhJwVflnrgM17w
github.com/golang-jwt/jwt/v5 v5.2.1/go.mod h1:pqrtFR0X4osieyHYxtmOUWsAWrfe1Q5UVIyoH402zdk=
github.com/google/go-cmp v0.6.0 h1:ofyhxvXcZhMsU5ulbFiLKl/XBFqE1GSq7atu8tAmTRI=
github.com/google/go-cmp v0.6.0/go.mod h1:17dUlkBOakJ0+DkrSSNjCkIjxS6bF9zb3elmeNGIjoY=
github.com/google/pprof v0.0.0-20221118152302-e6195bd50e26 h1:Xim43kblpZXfIBQsbuBVKCudVG457BR2GZFIz3uw3hQ=
github.com/google/pprof v0.0.0-20221118152302-e6195bd50e26/go.mod h1:dDKJzRmX4S37WGHujM7tX//fmj1uioxKzKxz3lo4HJo=
github.com/google/uuid v1.6.0 h1:NIvaJDMOsjHA8n1jAhLSgzrAzy1Hgr+hNrb57e+94F0=
github.com/google/uuid v1.6.0/go.mod h1:TIyPZe4MgqvfeYDBFedMoGGpEw/LqOeaOT+nhxU+yHo=
github.com/hashicorp/hcl v1.0.0 h1:0Anlzjpi4vEasTeNFn2mLJgTSwt0+6sfsiTG8qcWGx4=
@@ -184,8 +174,6 @@ github.com/mattn/go-runewidth v0.0.16 h1:E5ScNMtiwvlvB5paMFdw9p4kSQzbXFikJ5SQO6T
github.com/mattn/go-runewidth v0.0.16/go.mod h1:Jdepj2loyihRzMpdS35Xk/zdY8IAYHsh153qUoGf23w=
github.com/mitchellh/mapstructure v1.5.0 h1:jeMsZIYE/09sWLaz43PL7Gy6RuMjD2eJVyuac5Z2hdY=
github.com/mitchellh/mapstructure v1.5.0/go.mod h1:bFUtVrKA4DC2yAKiSyO/QUcy7e+RRV2QTWOzhPopBRo=
github.com/mohae/deepcopy v0.0.0-20170929034955-c48cc78d4826 h1:RWengNIwukTxcDr9M+97sNutRR1RKhG96O6jWumTTnw=
github.com/mohae/deepcopy v0.0.0-20170929034955-c48cc78d4826/go.mod h1:TaXosZuwdSHYgviHp1DAtfrULt5eUgsSMsZf+YrPgl8=
github.com/pelletier/go-toml/v2 v2.2.2 h1:aYUidT7k73Pcl9nb2gScu7NSrKCSHIDE89b3+6Wq+LM=
github.com/pelletier/go-toml/v2 v2.2.2/go.mod h1:1t835xjRzz80PqgE6HHgN2JOsmgYu/h4qDAS4n929Rs=
github.com/philhofer/fwd v1.1.2 h1:bnDivRJ1EWPjUIRXV5KfORO897HTbpFAQddBdE8t7Gw=
@@ -196,14 +184,6 @@ github.com/pmezard/go-difflib v1.0.1-0.20181226105442-5d4384ee4fb2 h1:Jamvg5psRI
github.com/pmezard/go-difflib v1.0.1-0.20181226105442-5d4384ee4fb2/go.mod h1:iKH77koFhYxTK1pcRnkKkqfTogsbg7gZNVY4sRDYZ/4=
github.com/redis/go-redis/v9 v9.14.0 h1:u4tNCjXOyzfgeLN+vAZaW1xUooqWDqVEsZN0U01jfAE=
github.com/redis/go-redis/v9 v9.14.0/go.mod h1:huWgSWd8mW6+m0VPhJjSSQ+d6Nh1VICQ6Q5lHuCH/Iw=
github.com/remyoudompheng/bigfft v0.0.0-20200410134404-eec4a21b6bb0/go.mod h1:qqbHyh8v60DhA7CoWK5oRCqLrMHRGoxYCSS9EjAz6Eo=
github.com/remyoudompheng/bigfft v0.0.0-20230129092748-24d4a6f8daec h1:W09IVJc94icq4NjY3clb7Lk8O1qJ8BdBEF8z0ibU0rE=
github.com/remyoudompheng/bigfft v0.0.0-20230129092748-24d4a6f8daec/go.mod h1:qqbHyh8v60DhA7CoWK5oRCqLrMHRGoxYCSS9EjAz6Eo=
github.com/richardlehane/mscfb v1.0.4 h1:WULscsljNPConisD5hR0+OyZjwK46Pfyr6mPu5ZawpM=
github.com/richardlehane/mscfb v1.0.4/go.mod h1:YzVpcZg9czvAuhk9T+a3avCpcFPMUWm7gK3DypaEsUk=
github.com/richardlehane/msoleps v1.0.1/go.mod h1:BWev5JBpU9Ko2WAgmZEuiz4/u3ZYTKbjLycmwiWUfWg=
github.com/richardlehane/msoleps v1.0.4 h1:WuESlvhX3gH2IHcd8UqyCuFY5yiq/GR/yqaSM/9/g00=
github.com/richardlehane/msoleps v1.0.4/go.mod h1:BWev5JBpU9Ko2WAgmZEuiz4/u3ZYTKbjLycmwiWUfWg=
github.com/rivo/uniseg v0.2.0/go.mod h1:J6wj4VEh+S6ZtnVlnTBMWIodfgj8LQOQFoIToxlJtxc=
github.com/rivo/uniseg v0.4.7 h1:WUdvkW8uEhrYfLC4ZzdpI2ztxP1I582+49Oc5Mq64VQ=
github.com/rivo/uniseg v0.4.7/go.mod h1:FN3SvrM+Zdj16jyLfmOkMNblXMcoc8DfTHruCPUcx88=
@@ -247,9 +227,8 @@ github.com/stretchr/testify v1.7.1/go.mod h1:6Fq8oRcR53rry900zMqJjRRixrwX3KX962/
github.com/stretchr/testify v1.8.0/go.mod h1:yNjHg4UonilssWZ8iaSj1OCr/vHnekPRkoO+kdMU+MU=
github.com/stretchr/testify v1.8.1/go.mod h1:w2LPCIKwWwSfY2zedu0+kehJoqGctiVI29o6fzry7u4=
github.com/stretchr/testify v1.8.4/go.mod h1:sz/lmYIOXD/1dqDmKjjqLyZ2RngseejIcXlSw2iwfAo=
github.com/stretchr/testify v1.9.0 h1:HtqpIVDClZ4nwg75+f6Lvsy/wHu+3BoSGCbBAcpTsTg=
github.com/stretchr/testify v1.9.0/go.mod h1:r2ic/lqez/lEtzL7wO/rwa5dbSLXVDPFyf8C91i36aY=
github.com/stretchr/testify v1.11.1 h1:7s2iGBzp5EwR7/aIZr8ao5+dra3wiQyKjjFuvgVKu7U=
github.com/stretchr/testify v1.11.1/go.mod h1:wZwfW3scLgRK+23gO65QZefKpKQRnfz6sD981Nm4B6U=
github.com/subosito/gotenv v1.6.0 h1:9NlTDc1FTs4qu0DDq7AEtTPNw6SVm7uBMsUCUjABIf8=
github.com/subosito/gotenv v1.6.0/go.mod h1:Dk4QP5c2W3ibzajGcXpNraDfq2IrhjMIvMSWPKKo0FU=
github.com/tinylib/msgp v1.1.8 h1:FCXC1xanKO4I8plpHGH2P7koL/RzZs12l/+r7vakfm0=
@@ -262,12 +241,6 @@ github.com/valyala/fasthttp v1.55.0 h1:Zkefzgt6a7+bVKHnu/YaYSOPfNYNisSVBo/unVCf8
github.com/valyala/fasthttp v1.55.0/go.mod h1:NkY9JtkrpPKmgwV3HTaS2HWaJss9RSIsRVfcxxoHiOM=
github.com/valyala/tcplisten v1.0.0 h1:rBHj/Xf+E1tRGZyWIWwJDiRY0zc1Js+CV5DqwacVSA8=
github.com/valyala/tcplisten v1.0.0/go.mod h1:T0xQ8SeCZGxckz9qRXTfG43PvQ/mcWh7FwZEA7Ioqkc=
github.com/xuri/efp v0.0.0-20240408161823-9ad904a10d6d h1:llb0neMWDQe87IzJLS4Ci7psK/lVsjIS2otl+1WyRyY=
github.com/xuri/efp v0.0.0-20240408161823-9ad904a10d6d/go.mod h1:ybY/Jr0T0GTCnYjKqmdwxyxn2BQf2RcQIIvex5QldPI=
github.com/xuri/excelize/v2 v2.9.0 h1:1tgOaEq92IOEumR1/JfYS/eR0KHOCsRv/rYXXh6YJQE=
github.com/xuri/excelize/v2 v2.9.0/go.mod h1:uqey4QBZ9gdMeWApPLdhm9x+9o2lq4iVmjiLfBS5hdE=
github.com/xuri/nfp v0.0.0-20240318013403-ab9948c2c4a7 h1:hPVCafDV85blFTabnqKgNhDCkJX25eik94Si9cTER4A=
github.com/xuri/nfp v0.0.0-20240318013403-ab9948c2c4a7/go.mod h1:WwHg+CVyzlv/TX9xqBFXEZAuxOPxn2k1GNHwG41IIUQ=
github.com/yuin/goldmark v1.4.13/go.mod h1:6yULJ656Px+3vBD8DxQVa3kxgyrAnzto9xy5taEt/CY=
github.com/zenazn/goji v0.9.0/go.mod h1:7S9M489iMyHBNxwZnk9/EHS098H4/F6TATF2mIxtB1Q=
go.uber.org/atomic v1.3.2/go.mod h1:gD2HeocX3+yG+ygLZcrzQJaqmWj9AIm7n08wl/qW/PE=
@@ -294,8 +267,6 @@ golang.org/x/crypto v0.33.0 h1:IOBPskki6Lysi0lo9qQvbxiQ+FvsCC/YWOecCHAixus=
golang.org/x/crypto v0.33.0/go.mod h1:bVdXmD7IV/4GdElGPozy6U7lWdRXA4qyRVGJV57uQ5M=
golang.org/x/exp v0.0.0-20230905200255-921286631fa9 h1:GoHiUyI/Tp2nVkLI2mCxVkOjsbSXD66ic0XW0js0R9g=
golang.org/x/exp v0.0.0-20230905200255-921286631fa9/go.mod h1:S2oDrQGGwySpoQPVqRShND87VCbxmc6bL1Yd2oYrm6k=
golang.org/x/image v0.18.0 h1:jGzIakQa/ZXI1I0Fxvaa9W7yP25TqT6cHIHn+6CqvSQ=
golang.org/x/image v0.18.0/go.mod h1:4yyo5vMFQjVjUcVk4jEQcU9MGy/rulF5WvUILseCM2E=
golang.org/x/mod v0.6.0-dev.0.20220419223038-86c51ed26bb4/go.mod h1:jJ57K6gSWd91VN4djpZkiMVwK6gcyfeH4XE8wZrZaV4=
golang.org/x/mod v0.7.0/go.mod h1:iBbtSCu2XBx23ZKBPSOrRkjjQPZFPuis4dIYUhu/chs=
golang.org/x/net v0.0.0-20190311183353-d8887717615a/go.mod h1:t9HGtf8HONx5eT2rtn7q6eTqICYqUVnKs3thJo3Qplg=
@@ -373,12 +344,4 @@ gorm.io/driver/postgres v1.5.9 h1:DkegyItji119OlcaLjqN11kHoUgZ/j13E0jkJZgD6A8=
gorm.io/driver/postgres v1.5.9/go.mod h1:DX3GReXH+3FPWGrrgffdvCk3DQ1dwDPdmbenSkweRGI=
gorm.io/gorm v1.25.11 h1:/Wfyg1B/je1hnDx3sMkX+gAlxrlZpn6X0BXRlwXlvHg=
gorm.io/gorm v1.25.11/go.mod h1:xh7N7RHfYlNc5EmcI/El95gXusucDrQnHXe0+CgWcLQ=
modernc.org/libc v1.22.5 h1:91BNch/e5B0uPbJFgqbxXuOnxBQjlS//icfQEGmvyjE=
modernc.org/libc v1.22.5/go.mod h1:jj+Z7dTNX8fBScMVNRAYZ/jF91K8fdT2hYMThc3YjBY=
modernc.org/mathutil v1.5.0 h1:rV0Ko/6SfM+8G+yKiyI830l3Wuz1zRutdslNoQ0kfiQ=
modernc.org/mathutil v1.5.0/go.mod h1:mZW8CKdRPY1v87qxC/wUdX5O1qDzXMP5TH3wjfpga6E=
modernc.org/memory v1.5.0 h1:N+/8c5rE6EqugZwHii4IFsaJ7MUhoWX07J5tC/iI5Ds=
modernc.org/memory v1.5.0/go.mod h1:PkUhL0Mugw21sHPeskwZW4D6VscE/GQJOnIpCnW6pSU=
modernc.org/sqlite v1.23.1 h1:nrSBg4aRQQwq59JpvGEQ15tNxoO5pX/kUjcRNwSAGQM=
modernc.org/sqlite v1.23.1/go.mod h1:OrDj17Mggn6MhE+iPbBNf7RGKODDE9NFT0f3EwDzJqk=
nullprogram.com/x/optparse v1.0.0/go.mod h1:KdyPE+Igbe0jQUrVfMqDMeJQIJZEuyV7pjYmp6pbG50=
internal/apikeys/defaults.go
-94
View File
@@ -1,94 +0,0 @@
package apikeys
func DefaultDashboardPermissions() []string {
return []string{
"lti.approval.list",
"lti.closing.list",
"lti.closing.detail",
"lti.daily_checklist.create",
"lti.daily_checklist.dashboard.list",
"lti.daily_checklist.detail",
"lti.daily_checklist.list",
"lti.daily_checklist.master_data.activity",
"lti.daily_checklist.master_data.configuration",
"lti.daily_checklist.master_data.employee",
"lti.daily_checklist.reports",
"lti.dashboard.list",
"lti.expense.detail",
"lti.expense.list",
"lti.finance.initial_balances.detail",
"lti.finance.injections.detail",
"lti.finance.payments.detail",
"lti.finance.transactions.detail",
"lti.finance.transactions.list",
"lti.inventory.detail",
"lti.inventory.list",
"lti.inventory.product_stock.detail",
"lti.inventory.product_stock.list",
"lti.inventory.product_warehouses.detail",
"lti.inventory.product_warehouses.list",
"lti.inventory.transfer.detail",
"lti.inventory.transfer.list",
"lti.marketing.delivery_order.detail",
"lti.marketing.delivery_order.list",
"lti.master.area.detail",
"lti.master.area.list",
"lti.master.banks.detail",
"lti.master.banks.list",
"lti.master.customer.detail",
"lti.master.customer.list",
"lti.master.fcr.detail",
"lti.master.fcr.list",
"lti.master.flocks.detail",
"lti.master.flocks.list",
"lti.master.kandangs.detail",
"lti.master.kandangs.list",
"lti.master.locations.detail",
"lti.master.locations.list",
"lti.master.nonstocks.detail",
"lti.master.nonstocks.list",
"lti.master.product_categories.detail",
"lti.master.product_categories.list",
"lti.master.products.detail",
"lti.master.products.list",
"lti.master.production_standards.detail",
"lti.master.production_standards.list",
"lti.master.suppliers.detail",
"lti.master.suppliers.list",
"lti.master.uoms.detail",
"lti.master.uoms.list",
"lti.master.warehouses.detail",
"lti.master.warehouses.list",
"lti.production.chickins.detail",
"lti.production.project_flock_kandangs.closing.detail",
"lti.production.project_flock_kandangs.detail",
"lti.production.project_flock_kandangs.list",
"lti.production.project_flocks.detail",
"lti.production.project_flocks.list",
"lti.production.project_flocks.lookup",
"lti.production.project_flocks.next_period",
"lti.production.recording.detail",
"lti.production.recording.list",
"lti.production.recording.next_day",
"lti.production.transfer_to_laying.create",
"lti.production.transfer_to_laying.detail",
"lti.production.transfer_to_laying.getavailableqty",
"lti.production.transfer_to_laying.list",
"lti.production.uniformity.detail",
"lti.production.uniformity.list",
"lti.purchase.detail",
"lti.purchase.list",
"lti.repport.customerpayment.list",
"lti.repport.debtsupplier.list",
"lti.repport.delivery.list",
"lti.repport.expense.list",
"lti.repport.expense.depreciation.manage",
"lti.repport.gethppperkandang.list",
"lti.repport.production_result.list",
"lti.repport.purchasesupplier.list",
"lti.users.detail",
"lti.users.list",
"lti.daily_checklist.master_data.kandang",
"lti.production.chickins.list",
}
}
internal/apikeys/repository.go
-107
View File
@@ -1,107 +0,0 @@
package apikeys
import (
"context"
"errors"
"time"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
"gorm.io/gorm"
)
type Repository interface {
Create(ctx context.Context, record *entity.IntegrationAPIKey) error
GetByEnvironmentAndPrefix(ctx context.Context, environment, prefix string) (*entity.IntegrationAPIKey, error)
List(ctx context.Context, environment string) ([]entity.IntegrationAPIKey, error)
Revoke(ctx context.Context, environment, prefix string, revokedAt time.Time) error
TouchLastUsed(ctx context.Context, id uint, usedAt time.Time, usedFrom string) error
}
type repository struct {
db *gorm.DB
}
func NewRepository(db *gorm.DB) Repository {
return &repository{db: db}
}
func (r *repository) Create(ctx context.Context, record *entity.IntegrationAPIKey) error {
if r.db == nil {
return errors.New("database not configured")
}
return r.db.WithContext(ctx).Create(record).Error
}
func (r *repository) GetByEnvironmentAndPrefix(ctx context.Context, environment, prefix string) (*entity.IntegrationAPIKey, error) {
if r.db == nil {
return nil, errors.New("database not configured")
}
var record entity.IntegrationAPIKey
if err := r.db.WithContext(ctx).
Where("environment = ?", environment).
Where("key_prefix = ?", prefix).
First(&record).Error; err != nil {
return nil, err
}
return &record, nil
}
func (r *repository) List(ctx context.Context, environment string) ([]entity.IntegrationAPIKey, error) {
if r.db == nil {
return nil, errors.New("database not configured")
}
query := r.db.WithContext(ctx).Model(&entity.IntegrationAPIKey{})
if environment != "" {
query = query.Where("environment = ?", environment)
}
var records []entity.IntegrationAPIKey
if err := query.Order("environment ASC").Order("name ASC").Find(&records).Error; err != nil {
return nil, err
}
return records, nil
}
func (r *repository) Revoke(ctx context.Context, environment, prefix string, revokedAt time.Time) error {
if r.db == nil {
return errors.New("database not configured")
}
updates := map[string]any{
"status": entity.IntegrationAPIKeyStatusRevoked,
"revoked_at": revokedAt,
"updated_at": revokedAt,
}
result := r.db.WithContext(ctx).
Model(&entity.IntegrationAPIKey{}).
Where("environment = ?", environment).
Where("key_prefix = ?", prefix).
Updates(updates)
if result.Error != nil {
return result.Error
}
if result.RowsAffected == 0 {
return gorm.ErrRecordNotFound
}
return nil
}
func (r *repository) TouchLastUsed(ctx context.Context, id uint, usedAt time.Time, usedFrom string) error {
if r.db == nil {
return errors.New("database not configured")
}
return r.db.WithContext(ctx).
Model(&entity.IntegrationAPIKey{}).
Where("id = ?", id).
Updates(map[string]any{
"last_used_at": usedAt,
"last_used_from": usedFrom,
"updated_at": usedAt,
}).Error
}
internal/apikeys/service.go
-233
View File
@@ -1,233 +0,0 @@
package apikeys
import (
"context"
"crypto/rand"
"encoding/base32"
"errors"
"fmt"
"strings"
"time"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
"gitlab.com/mbugroup/lti-api.git/internal/utils"
"gitlab.com/mbugroup/lti-api.git/internal/utils/secure"
"gorm.io/gorm"
)
var (
ErrInvalidAPIKey = errors.New("invalid api key")
ErrInactiveKey = errors.New("inactive api key")
)
type Principal struct {
ID uint
Name string
Environment string
Permissions []string
AllArea bool
AreaIDs []uint
AllLocation bool
LocationIDs []uint
}
type Authenticator interface {
Authenticate(ctx context.Context, rawKey, source string) (*Principal, error)
}
type Service interface {
Authenticator
Create(ctx context.Context, input CreateInput) (*IssuedKey, error)
List(ctx context.Context, environment string) ([]entity.IntegrationAPIKey, error)
Revoke(ctx context.Context, environment, prefix string) error
}
type CreateInput struct {
Name string
Environment string
PermissionCodes []string
AllArea bool
AreaIDs []uint
AllLocation bool
LocationIDs []uint
}
type IssuedKey struct {
Key string
Record *entity.IntegrationAPIKey
}
type service struct {
repo Repository
now func() time.Time
}
func NewService(db *gorm.DB) Service {
return &service{
repo: NewRepository(db),
now: time.Now,
}
}
func (s *service) Authenticate(ctx context.Context, rawKey, source string) (*Principal, error) {
environment, prefix, secret, err := parseRawKey(rawKey)
if err != nil {
return nil, ErrInvalidAPIKey
}
record, err := s.repo.GetByEnvironmentAndPrefix(ctx, environment, prefix)
if err != nil {
if errors.Is(err, gorm.ErrRecordNotFound) {
return nil, ErrInvalidAPIKey
}
return nil, err
}
if !strings.EqualFold(record.Status, entity.IntegrationAPIKeyStatusActive) || record.RevokedAt != nil {
return nil, ErrInactiveKey
}
if !secure.Verify(record.KeyHash, secret) {
return nil, ErrInvalidAPIKey
}
usedAt := s.now().UTC()
if err := s.repo.TouchLastUsed(ctx, record.ID, usedAt, strings.TrimSpace(source)); err != nil {
utils.Log.WithError(err).Warn("api key: failed to update last_used fields")
}
return &Principal{
ID: record.ID,
Name: record.Name,
Environment: record.Environment,
Permissions: canonicalPermissions(record.PermissionCodes),
AllArea: record.AllArea,
AreaIDs: uniqueUint(record.AreaIDs),
AllLocation: record.AllLocation,
LocationIDs: uniqueUint(record.LocationIDs),
}, nil
}
func (s *service) Create(ctx context.Context, input CreateInput) (*IssuedKey, error) {
name := strings.TrimSpace(input.Name)
environment := strings.ToLower(strings.TrimSpace(input.Environment))
if name == "" || environment == "" {
return nil, fmt.Errorf("name and environment are required")
}
prefix, err := randomToken(10)
if err != nil {
return nil, err
}
secret, err := randomToken(24)
if err != nil {
return nil, err
}
hash, err := secure.Hash(secret, nil)
if err != nil {
return nil, err
}
record := &entity.IntegrationAPIKey{
Name: name,
Environment: environment,
Status: entity.IntegrationAPIKeyStatusActive,
KeyPrefix: prefix,
KeyHash: hash,
PermissionCodes: canonicalPermissions(input.PermissionCodes),
AllArea: input.AllArea,
AreaIDs: uniqueUint(input.AreaIDs),
AllLocation: input.AllLocation,
LocationIDs: uniqueUint(input.LocationIDs),
}
if err := s.repo.Create(ctx, record); err != nil {
return nil, err
}
return &IssuedKey{
Key: fmt.Sprintf("lti_%s_%s_%s", environment, prefix, secret),
Record: record,
}, nil
}
func (s *service) List(ctx context.Context, environment string) ([]entity.IntegrationAPIKey, error) {
return s.repo.List(ctx, strings.ToLower(strings.TrimSpace(environment)))
}
func (s *service) Revoke(ctx context.Context, environment, prefix string) error {
environment = strings.ToLower(strings.TrimSpace(environment))
prefix = strings.TrimSpace(prefix)
if environment == "" || prefix == "" {
return fmt.Errorf("environment and prefix are required")
}
return s.repo.Revoke(ctx, environment, prefix, s.now().UTC())
}
func parseRawKey(rawKey string) (environment string, prefix string, secret string, err error) {
rawKey = strings.TrimSpace(rawKey)
parts := strings.Split(rawKey, "_")
if len(parts) != 4 || parts[0] != "lti" {
return "", "", "", ErrInvalidAPIKey
}
environment = strings.ToLower(strings.TrimSpace(parts[1]))
prefix = strings.TrimSpace(parts[2])
secret = strings.TrimSpace(parts[3])
if environment == "" || prefix == "" || secret == "" {
return "", "", "", ErrInvalidAPIKey
}
return environment, prefix, secret, nil
}
func randomToken(size int) (string, error) {
buf := make([]byte, size)
if _, err := rand.Read(buf); err != nil {
return "", err
}
encoder := base32.StdEncoding.WithPadding(base32.NoPadding)
return strings.ToLower(encoder.EncodeToString(buf)), nil
}
func canonicalPermissions(perms []string) []string {
if len(perms) == 0 {
return []string{}
}
seen := make(map[string]struct{}, len(perms))
result := make([]string, 0, len(perms))
for _, perm := range perms {
perm = strings.ToLower(strings.TrimSpace(perm))
if perm == "" {
continue
}
if _, ok := seen[perm]; ok {
continue
}
seen[perm] = struct{}{}
result = append(result, perm)
}
return result
}
func uniqueUint(values []uint) []uint {
if len(values) == 0 {
return []uint{}
}
seen := make(map[uint]struct{}, len(values))
result := make([]uint, 0, len(values))
for _, value := range values {
if value == 0 {
continue
}
if _, ok := seen[value]; ok {
continue
}
seen[value] = struct{}{}
result = append(result, value)
}
return result
}
internal/capabilities/capabilities.go
+44
View File
@@ -0,0 +1,44 @@
package capabilities
import (
"strings"
recordings "gitlab.com/mbugroup/lti-api.git/internal/modules/production/recordings"
)
// FromPermissions returns a filtered map of capabilities that the frontend can use
// to toggle features. Only permissions recognized by the application are exposed.
func FromPermissions(perms []string) map[string]bool {
if len(perms) == 0 {
return nil
}
out := make(map[string]bool)
for _, perm := range perms {
if key, ok := normalizeAndAllow(perm); ok {
out[key] = true
}
}
if len(out) == 0 {
return nil
}
return out
}
func normalizeAndAllow(perm string) (string, bool) {
perm = strings.ToLower(strings.TrimSpace(perm))
if perm == "" {
return "", false
}
if _, ok := allowed[perm]; !ok {
return "", false
}
return perm, true
}
var allowed = map[string]struct{}{
recordings.PermissionRecordingRead: {},
recordings.PermissionRecordingCreate: {},
recordings.PermissionRecordingUpdate: {},
recordings.PermissionRecordingDelete: {},
}
internal/common/exportprogress/export.go
-604
View File
@@ -1,604 +0,0 @@
package exportprogress
import (
"fmt"
"sort"
"strings"
"time"
"github.com/gofiber/fiber/v2"
"github.com/xuri/excelize/v2"
)
const (
UnassignedKandangName = "Farm-level / Unassigned"
jakartaTZ = "Asia/Jakarta"
)
type Query struct {
StartDate time.Time
EndDate time.Time
StartDateRaw string
EndDateRaw string
}
type Row struct {
Module string
FarmName string
KandangName string
ActivityDate time.Time
Count int
}
type monthBlock struct {
Start time.Time
Weeks int
}
func IsProgressExportRequest(c *fiber.Ctx) bool {
return strings.EqualFold(strings.TrimSpace(c.Query("export")), "excel") &&
strings.EqualFold(strings.TrimSpace(c.Query("type")), "progress")
}
func ParseQuery(c *fiber.Ctx) (*Query, error) {
location, err := time.LoadLocation(jakartaTZ)
if err != nil {
return nil, fiber.NewError(fiber.StatusInternalServerError, "failed to load timezone configuration")
}
startRaw := strings.TrimSpace(c.Query("start_date"))
endRaw := strings.TrimSpace(c.Query("end_date"))
if startRaw == "" || endRaw == "" {
return nil, fiber.NewError(fiber.StatusBadRequest, "start_date and end_date are required")
}
startDate, err := time.ParseInLocation("2006-01-02", startRaw, location)
if err != nil {
return nil, fiber.NewError(fiber.StatusBadRequest, "start_date must use format YYYY-MM-DD")
}
endDate, err := time.ParseInLocation("2006-01-02", endRaw, location)
if err != nil {
return nil, fiber.NewError(fiber.StatusBadRequest, "end_date must use format YYYY-MM-DD")
}
if endDate.Before(startDate) {
return nil, fiber.NewError(fiber.StatusBadRequest, "end_date must be greater than or equal to start_date")
}
return &Query{
StartDate: startDate,
EndDate: endDate,
StartDateRaw: startRaw,
EndDateRaw: endRaw,
}, nil
}
func BuildWorkbook(moduleTitle string, query *Query, rows []Row) ([]byte, error) {
file := excelize.NewFile()
defer file.Close()
sheetName := moduleTitle
defaultSheet := file.GetSheetName(file.GetActiveSheetIndex())
if defaultSheet != sheetName {
if err := file.SetSheetName(defaultSheet, sheetName); err != nil {
return nil, err
}
}
location, err := time.LoadLocation(jakartaTZ)
if err != nil {
return nil, err
}
titleStyle, metaStyle, monthStyle, weekStyle, dayHeaderStyle, farmStyle, textStyle, numberStyle, subtotalStyle, err := buildStyles(file)
if err != nil {
return nil, err
}
months := monthBlocksBetween(query.StartDate, query.EndDate)
maxWeeks := 4
for _, block := range months {
if block.Weeks > maxWeeks {
maxWeeks = block.Weeks
}
}
lastColName, err := excelize.ColumnNumberToName(1 + (maxWeeks * 7) + 1)
if err != nil {
return nil, err
}
if err := file.MergeCell(sheetName, "A1", lastColName+"1"); err != nil {
return nil, err
}
if err := file.SetCellValue(sheetName, "A1", moduleTitle); err != nil {
return nil, err
}
if err := file.SetCellStyle(sheetName, "A1", lastColName+"1", titleStyle); err != nil {
return nil, err
}
metaValue := fmt.Sprintf(
"Range: %s to %s | Generated at: %s",
query.StartDateRaw,
query.EndDateRaw,
time.Now().In(location).Format("2006-01-02 15:04:05 MST"),
)
if err := file.MergeCell(sheetName, "A2", lastColName+"2"); err != nil {
return nil, err
}
if err := file.SetCellValue(sheetName, "A2", metaValue); err != nil {
return nil, err
}
if err := file.SetCellStyle(sheetName, "A2", lastColName+"2", metaStyle); err != nil {
return nil, err
}
if err := applyColumnWidths(file, sheetName, maxWeeks); err != nil {
return nil, err
}
grouped := groupRows(rows)
currentRow := 4
for _, month := range months {
lastColIndex := 1 + (month.Weeks * 7) + 1
monthLastCol, err := excelize.ColumnNumberToName(lastColIndex)
if err != nil {
return nil, err
}
if err := renderMonthHeader(file, sheetName, currentRow, month, monthLastCol, monthStyle, weekStyle, dayHeaderStyle); err != nil {
return nil, err
}
currentRow += 4
monthData := grouped[month.Start.Format("2006-01")]
if len(monthData) == 0 {
if err := file.MergeCell(sheetName, "A"+fmt.Sprint(currentRow), monthLastCol+fmt.Sprint(currentRow)); err != nil {
return nil, err
}
if err := file.SetCellValue(sheetName, "A"+fmt.Sprint(currentRow), "No progress data"); err != nil {
return nil, err
}
if err := file.SetCellStyle(sheetName, "A"+fmt.Sprint(currentRow), monthLastCol+fmt.Sprint(currentRow), textStyle); err != nil {
return nil, err
}
currentRow += 2
continue
}
farms := sortedKeys(monthData)
for _, farm := range farms {
if err := file.MergeCell(sheetName, "A"+fmt.Sprint(currentRow), monthLastCol+fmt.Sprint(currentRow)); err != nil {
return nil, err
}
if err := file.SetCellValue(sheetName, "A"+fmt.Sprint(currentRow), farm); err != nil {
return nil, err
}
if err := file.SetCellStyle(sheetName, "A"+fmt.Sprint(currentRow), monthLastCol+fmt.Sprint(currentRow), farmStyle); err != nil {
return nil, err
}
currentRow++
kandangs := sortedKeys(monthData[farm])
farmTotals := make(map[string]int)
farmGrandTotal := 0
for _, kandang := range kandangs {
rowCounts := monthData[farm][kandang]
rowTotal := 0
if err := file.SetCellValue(sheetName, "A"+fmt.Sprint(currentRow), kandang); err != nil {
return nil, err
}
if err := file.SetCellStyle(sheetName, "A"+fmt.Sprint(currentRow), "A"+fmt.Sprint(currentRow), textStyle); err != nil {
return nil, err
}
for dayKey, count := range rowCounts {
activityDate, err := time.ParseInLocation("2006-01-02", dayKey, location)
if err != nil {
return nil, err
}
colIndex := dayColumnIndex(month, activityDate)
colName, err := excelize.ColumnNumberToName(colIndex)
if err != nil {
return nil, err
}
if err := file.SetCellValue(sheetName, colName+fmt.Sprint(currentRow), count); err != nil {
return nil, err
}
if err := file.SetCellStyle(sheetName, colName+fmt.Sprint(currentRow), colName+fmt.Sprint(currentRow), numberStyle); err != nil {
return nil, err
}
rowTotal += count
farmTotals[dayKey] += count
farmGrandTotal += count
}
if err := file.SetCellValue(sheetName, monthLastCol+fmt.Sprint(currentRow), rowTotal); err != nil {
return nil, err
}
if err := file.SetCellStyle(sheetName, monthLastCol+fmt.Sprint(currentRow), monthLastCol+fmt.Sprint(currentRow), subtotalStyle); err != nil {
return nil, err
}
if err := file.SetCellStyle(sheetName, "B"+fmt.Sprint(currentRow), prevColumn(monthLastCol)+fmt.Sprint(currentRow), numberStyle); err != nil {
return nil, err
}
currentRow++
}
if err := file.SetCellValue(sheetName, "A"+fmt.Sprint(currentRow), "Subtotal"); err != nil {
return nil, err
}
if err := file.SetCellStyle(sheetName, "A"+fmt.Sprint(currentRow), "A"+fmt.Sprint(currentRow), subtotalStyle); err != nil {
return nil, err
}
for dayKey, count := range farmTotals {
activityDate, err := time.ParseInLocation("2006-01-02", dayKey, location)
if err != nil {
return nil, err
}
colIndex := dayColumnIndex(month, activityDate)
colName, err := excelize.ColumnNumberToName(colIndex)
if err != nil {
return nil, err
}
if err := file.SetCellValue(sheetName, colName+fmt.Sprint(currentRow), count); err != nil {
return nil, err
}
}
if err := file.SetCellValue(sheetName, monthLastCol+fmt.Sprint(currentRow), farmGrandTotal); err != nil {
return nil, err
}
if err := file.SetCellStyle(sheetName, "A"+fmt.Sprint(currentRow), monthLastCol+fmt.Sprint(currentRow), subtotalStyle); err != nil {
return nil, err
}
currentRow += 2
}
}
if err := file.SetPanes(sheetName, &excelize.Panes{
Freeze: true,
YSplit: 2,
TopLeftCell: "A3",
ActivePane: "bottomLeft",
}); err != nil {
return nil, err
}
buffer, err := file.WriteToBuffer()
if err != nil {
return nil, err
}
return buffer.Bytes(), nil
}
func ParseActivityDate(value string) (time.Time, error) {
trimmed := strings.TrimSpace(value)
if trimmed == "" {
return time.Time{}, fmt.Errorf("empty activity date")
}
layouts := []string{
"2006-01-02",
time.RFC3339,
time.RFC3339Nano,
"2006-01-02 15:04:05Z07:00",
"2006-01-02 15:04:05.999999999Z07:00",
}
for _, layout := range layouts {
if parsed, err := time.Parse(layout, trimmed); err == nil {
return parsed, nil
}
}
if len(trimmed) >= len("2006-01-02") {
if parsed, err := time.Parse("2006-01-02", trimmed[:10]); err == nil {
return parsed, nil
}
}
return time.Time{}, fmt.Errorf("unsupported activity date format: %s", value)
}
func buildStyles(file *excelize.File) (int, int, int, int, int, int, int, int, int, error) {
titleStyle, err := file.NewStyle(&excelize.Style{
Font: &excelize.Font{Bold: true, Size: 18, Color: "1F2937"},
Fill: excelize.Fill{Type: "pattern", Pattern: 1, Color: []string{"DCEBFA"}},
Alignment: &excelize.Alignment{Horizontal: "center", Vertical: "center"},
})
if err != nil {
return 0, 0, 0, 0, 0, 0, 0, 0, 0, err
}
metaStyle, err := file.NewStyle(&excelize.Style{
Font: &excelize.Font{Italic: true, Color: "4B5563"},
Alignment: &excelize.Alignment{Horizontal: "left", Vertical: "center"},
})
if err != nil {
return 0, 0, 0, 0, 0, 0, 0, 0, 0, err
}
monthStyle, err := file.NewStyle(&excelize.Style{
Font: &excelize.Font{Bold: true, Color: "FFFFFF"},
Fill: excelize.Fill{Type: "pattern", Pattern: 1, Color: []string{"1D4ED8"}},
Alignment: &excelize.Alignment{Horizontal: "left", Vertical: "center"},
})
if err != nil {
return 0, 0, 0, 0, 0, 0, 0, 0, 0, err
}
weekStyle, err := file.NewStyle(&excelize.Style{
Font: &excelize.Font{Bold: true, Color: "1F2937"},
Fill: excelize.Fill{Type: "pattern", Pattern: 1, Color: []string{"DBEAFE"}},
Alignment: &excelize.Alignment{Horizontal: "center", Vertical: "center"},
Border: []excelize.Border{{Type: "bottom", Color: "93C5FD", Style: 1}},
})
if err != nil {
return 0, 0, 0, 0, 0, 0, 0, 0, 0, err
}
dayHeaderStyle, err := file.NewStyle(&excelize.Style{
Font: &excelize.Font{Bold: true, Color: "374151"},
Fill: excelize.Fill{Type: "pattern", Pattern: 1, Color: []string{"EFF6FF"}},
Alignment: &excelize.Alignment{Horizontal: "center", Vertical: "center"},
Border: []excelize.Border{
{Type: "left", Color: "BFDBFE", Style: 1},
{Type: "top", Color: "BFDBFE", Style: 1},
{Type: "bottom", Color: "BFDBFE", Style: 1},
{Type: "right", Color: "BFDBFE", Style: 1},
},
})
if err != nil {
return 0, 0, 0, 0, 0, 0, 0, 0, 0, err
}
farmStyle, err := file.NewStyle(&excelize.Style{
Font: &excelize.Font{Bold: true, Color: "111827"},
Fill: excelize.Fill{Type: "pattern", Pattern: 1, Color: []string{"E5E7EB"}},
Alignment: &excelize.Alignment{Horizontal: "left", Vertical: "center"},
})
if err != nil {
return 0, 0, 0, 0, 0, 0, 0, 0, 0, err
}
textStyle, err := file.NewStyle(&excelize.Style{
Alignment: &excelize.Alignment{Horizontal: "left", Vertical: "center"},
Border: []excelize.Border{
{Type: "left", Color: "D1D5DB", Style: 1},
{Type: "top", Color: "D1D5DB", Style: 1},
{Type: "bottom", Color: "D1D5DB", Style: 1},
{Type: "right", Color: "D1D5DB", Style: 1},
},
})
if err != nil {
return 0, 0, 0, 0, 0, 0, 0, 0, 0, err
}
numberStyle, err := file.NewStyle(&excelize.Style{
Alignment: &excelize.Alignment{Horizontal: "center", Vertical: "center"},
Border: []excelize.Border{
{Type: "left", Color: "D1D5DB", Style: 1},
{Type: "top", Color: "D1D5DB", Style: 1},
{Type: "bottom", Color: "D1D5DB", Style: 1},
{Type: "right", Color: "D1D5DB", Style: 1},
},
})
if err != nil {
return 0, 0, 0, 0, 0, 0, 0, 0, 0, err
}
subtotalStyle, err := file.NewStyle(&excelize.Style{
Font: &excelize.Font{Bold: true, Color: "1F2937"},
Fill: excelize.Fill{Type: "pattern", Pattern: 1, Color: []string{"F3F4F6"}},
Alignment: &excelize.Alignment{Horizontal: "center", Vertical: "center"},
Border: []excelize.Border{
{Type: "left", Color: "9CA3AF", Style: 1},
{Type: "top", Color: "9CA3AF", Style: 1},
{Type: "bottom", Color: "9CA3AF", Style: 1},
{Type: "right", Color: "9CA3AF", Style: 1},
},
})
if err != nil {
return 0, 0, 0, 0, 0, 0, 0, 0, 0, err
}
return titleStyle, metaStyle, monthStyle, weekStyle, dayHeaderStyle, farmStyle, textStyle, numberStyle, subtotalStyle, nil
}
func applyColumnWidths(file *excelize.File, sheet string, maxWeeks int) error {
if err := file.SetColWidth(sheet, "A", "A", 28); err != nil {
return err
}
for col := 2; col <= 1+(maxWeeks*7); col++ {
colName, err := excelize.ColumnNumberToName(col)
if err != nil {
return err
}
if err := file.SetColWidth(sheet, colName, colName, 6); err != nil {
return err
}
}
totalCol, err := excelize.ColumnNumberToName(1 + (maxWeeks * 7) + 1)
if err != nil {
return err
}
return file.SetColWidth(sheet, totalCol, totalCol, 10)
}
func renderMonthHeader(file *excelize.File, sheet string, startRow int, block monthBlock, monthLastCol string, monthStyle, weekStyle, dayHeaderStyle int) error {
if err := file.MergeCell(sheet, "A"+fmt.Sprint(startRow), monthLastCol+fmt.Sprint(startRow)); err != nil {
return err
}
if err := file.SetCellValue(sheet, "A"+fmt.Sprint(startRow), block.Start.Format("January 2006")); err != nil {
return err
}
if err := file.SetCellStyle(sheet, "A"+fmt.Sprint(startRow), monthLastCol+fmt.Sprint(startRow), monthStyle); err != nil {
return err
}
if err := file.MergeCell(sheet, "A"+fmt.Sprint(startRow+1), "A"+fmt.Sprint(startRow+3)); err != nil {
return err
}
if err := file.SetCellValue(sheet, "A"+fmt.Sprint(startRow+1), "Kandang"); err != nil {
return err
}
if err := file.SetCellStyle(sheet, "A"+fmt.Sprint(startRow+1), "A"+fmt.Sprint(startRow+3), dayHeaderStyle); err != nil {
return err
}
totalColIndex := 1 + (block.Weeks * 7) + 1
totalColName, err := excelize.ColumnNumberToName(totalColIndex)
if err != nil {
return err
}
if err := file.MergeCell(sheet, totalColName+fmt.Sprint(startRow+1), totalColName+fmt.Sprint(startRow+3)); err != nil {
return err
}
if err := file.SetCellValue(sheet, totalColName+fmt.Sprint(startRow+1), "Total"); err != nil {
return err
}
if err := file.SetCellStyle(sheet, totalColName+fmt.Sprint(startRow+1), totalColName+fmt.Sprint(startRow+3), dayHeaderStyle); err != nil {
return err
}
weekdayNames := []string{"Mon", "Tue", "Wed", "Thu", "Fri", "Sat", "Sun"}
for week := 0; week < block.Weeks; week++ {
startCol := 2 + (week * 7)
endCol := startCol + 6
startColName, err := excelize.ColumnNumberToName(startCol)
if err != nil {
return err
}
endColName, err := excelize.ColumnNumberToName(endCol)
if err != nil {
return err
}
if err := file.MergeCell(sheet, startColName+fmt.Sprint(startRow+1), endColName+fmt.Sprint(startRow+1)); err != nil {
return err
}
if err := file.SetCellValue(sheet, startColName+fmt.Sprint(startRow+1), fmt.Sprintf("Week %d", week+1)); err != nil {
return err
}
if err := file.SetCellStyle(sheet, startColName+fmt.Sprint(startRow+1), endColName+fmt.Sprint(startRow+1), weekStyle); err != nil {
return err
}
for weekday := 0; weekday < 7; weekday++ {
colIndex := startCol + weekday
colName, err := excelize.ColumnNumberToName(colIndex)
if err != nil {
return err
}
if err := file.SetCellValue(sheet, colName+fmt.Sprint(startRow+2), weekdayNames[weekday]); err != nil {
return err
}
if err := file.SetCellStyle(sheet, colName+fmt.Sprint(startRow+2), colName+fmt.Sprint(startRow+2), dayHeaderStyle); err != nil {
return err
}
}
}
daysInMonth := time.Date(block.Start.Year(), block.Start.Month()+1, 0, 0, 0, 0, 0, block.Start.Location()).Day()
for day := 1; day <= daysInMonth; day++ {
date := time.Date(block.Start.Year(), block.Start.Month(), day, 0, 0, 0, 0, block.Start.Location())
colIndex := dayColumnIndex(block, date)
colName, err := excelize.ColumnNumberToName(colIndex)
if err != nil {
return err
}
if err := file.SetCellValue(sheet, colName+fmt.Sprint(startRow+3), day); err != nil {
return err
}
if err := file.SetCellStyle(sheet, colName+fmt.Sprint(startRow+3), colName+fmt.Sprint(startRow+3), dayHeaderStyle); err != nil {
return err
}
}
return nil
}
func groupRows(rows []Row) map[string]map[string]map[string]map[string]int {
grouped := make(map[string]map[string]map[string]map[string]int)
for _, row := range rows {
monthKey := row.ActivityDate.Format("2006-01")
if _, exists := grouped[monthKey]; !exists {
grouped[monthKey] = make(map[string]map[string]map[string]int)
}
farmName := strings.TrimSpace(row.FarmName)
if farmName == "" {
farmName = "Unknown Farm"
}
if _, exists := grouped[monthKey][farmName]; !exists {
grouped[monthKey][farmName] = make(map[string]map[string]int)
}
kandangName := strings.TrimSpace(row.KandangName)
if kandangName == "" {
kandangName = UnassignedKandangName
}
if _, exists := grouped[monthKey][farmName][kandangName]; !exists {
grouped[monthKey][farmName][kandangName] = make(map[string]int)
}
dayKey := row.ActivityDate.Format("2006-01-02")
grouped[monthKey][farmName][kandangName][dayKey] += row.Count
}
return grouped
}
func monthBlocksBetween(startDate, endDate time.Time) []monthBlock {
location := startDate.Location()
current := time.Date(startDate.Year(), startDate.Month(), 1, 0, 0, 0, 0, location)
last := time.Date(endDate.Year(), endDate.Month(), 1, 0, 0, 0, 0, location)
blocks := make([]monthBlock, 0)
for !current.After(last) {
blocks = append(blocks, monthBlock{
Start: current,
Weeks: monthWeeks(current),
})
current = current.AddDate(0, 1, 0)
}
return blocks
}
func monthWeeks(monthStart time.Time) int {
daysInMonth := time.Date(monthStart.Year(), monthStart.Month()+1, 0, 0, 0, 0, 0, monthStart.Location()).Day()
offset := mondayIndex(monthStart.Weekday())
totalSlots := offset + daysInMonth
weeks := totalSlots / 7
if totalSlots%7 != 0 {
weeks++
}
if weeks < 4 {
return 4
}
return weeks
}
func dayColumnIndex(block monthBlock, date time.Time) int {
day := date.Day()
offset := mondayIndex(block.Start.Weekday())
position := offset + (day - 1)
return 2 + position
}
func mondayIndex(weekday time.Weekday) int {
switch weekday {
case time.Sunday:
return 6
default:
return int(weekday) - 1
}
}
func sortedKeys[V any](input map[string]V) []string {
keys := make([]string, 0, len(input))
for key := range input {
keys = append(keys, key)
}
sort.Strings(keys)
return keys
}
func prevColumn(col string) string {
index, err := excelize.ColumnNameToNumber(col)
if err != nil || index <= 1 {
return col
}
result, err := excelize.ColumnNumberToName(index - 1)
if err != nil {
return col
}
return result
}
internal/common/exportprogress/export_test.go
-126
View File
@@ -1,126 +0,0 @@
package exportprogress
import (
"bytes"
"encoding/json"
"net/http"
"net/http/httptest"
"testing"
"time"
"github.com/gofiber/fiber/v2"
"github.com/xuri/excelize/v2"
)
func TestParseQuery(t *testing.T) {
app := fiber.New()
app.Get("/", func(c *fiber.Ctx) error {
query, err := ParseQuery(c)
if err != nil {
return err
}
return c.JSON(fiber.Map{
"start": query.StartDateRaw,
"end": query.EndDateRaw,
})
})
resp, err := app.Test(httptest.NewRequest(http.MethodGet, "/?export=excel&type=progress&start_date=2026-06-01&end_date=2026-07-15", nil))
if err != nil {
t.Fatalf("request failed: %v", err)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusOK {
t.Fatalf("expected 200, got %d", resp.StatusCode)
}
var payload map[string]string
if err := json.NewDecoder(resp.Body).Decode(&payload); err != nil {
t.Fatalf("failed decoding payload: %v", err)
}
if payload["start"] != "2026-06-01" || payload["end"] != "2026-07-15" {
t.Fatalf("unexpected payload: %+v", payload)
}
}
func TestParseQueryInvalid(t *testing.T) {
app := fiber.New()
app.Get("/", func(c *fiber.Ctx) error {
_, err := ParseQuery(c)
return err
})
cases := []string{
"/?export=excel&type=progress",
"/?export=excel&type=progress&start_date=2026-06-01&end_date=bad",
"/?export=excel&type=progress&start_date=2026-07-01&end_date=2026-06-01",
}
for _, target := range cases {
resp, err := app.Test(httptest.NewRequest(http.MethodGet, target, nil))
if err != nil {
t.Fatalf("request failed for %s: %v", target, err)
}
resp.Body.Close()
if resp.StatusCode != http.StatusBadRequest {
t.Fatalf("expected 400 for %s, got %d", target, resp.StatusCode)
}
}
}
func TestBuildWorkbook(t *testing.T) {
location, err := time.LoadLocation(jakartaTZ)
if err != nil {
t.Fatalf("failed loading location: %v", err)
}
query := &Query{
StartDate: time.Date(2026, 6, 1, 0, 0, 0, 0, location),
EndDate: time.Date(2026, 7, 31, 0, 0, 0, 0, location),
StartDateRaw: "2026-06-01",
EndDateRaw: "2026-07-31",
}
rows := []Row{
{Module: "Expenses", FarmName: "Farm A", KandangName: "Kandang 1", ActivityDate: time.Date(2026, 6, 1, 0, 0, 0, 0, location), Count: 3},
{Module: "Expenses", FarmName: "Farm A", KandangName: "Kandang 1", ActivityDate: time.Date(2026, 7, 15, 0, 0, 0, 0, location), Count: 2},
}
content, err := BuildWorkbook("Expenses", query, rows)
if err != nil {
t.Fatalf("BuildWorkbook failed: %v", err)
}
file, err := excelize.OpenReader(bytes.NewReader(content))
if err != nil {
t.Fatalf("failed opening workbook: %v", err)
}
defer file.Close()
if got := file.GetSheetName(file.GetActiveSheetIndex()); got != "Expenses" {
t.Fatalf("unexpected sheet name: %s", got)
}
title, err := file.GetCellValue("Expenses", "A1")
if err != nil {
t.Fatalf("failed reading title: %v", err)
}
if title != "Expenses" {
t.Fatalf("unexpected title: %s", title)
}
monthTitle, err := file.GetCellValue("Expenses", "A4")
if err != nil {
t.Fatalf("failed reading first month title: %v", err)
}
if monthTitle != "June 2026" {
t.Fatalf("unexpected first month title: %s", monthTitle)
}
firstCount, err := file.GetCellValue("Expenses", "B9")
if err != nil {
t.Fatalf("failed reading representative count cell: %v", err)
}
if firstCount != "3" {
t.Fatalf("unexpected representative count: %s", firstCount)
}
}
internal/common/repository/common.approval.repository..go
+1 -2
View File
@@ -84,9 +84,8 @@ func (r *approvalRepositoryImpl) LatestByTargets(
result := make(map[uint]entity.Approval, len(approvableIDs))
q := r.DB().WithContext(ctx).
Select("DISTINCT ON (approvable_id) *").
Where("approvable_type = ? AND approvable_id IN ?", workflow, approvableIDs).
Order("approvable_id, action_at DESC")
Order("action_at DESC")
if modifier != nil {
q = modifier(q)
internal/common/repository/common.base.repository.go
+1 -2
View File
@@ -187,11 +187,10 @@ func (r *BaseRepositoryImpl[T]) PatchOne(
updates map[string]any,
modifier func(*gorm.DB) *gorm.DB,
) error {
q := r.db.WithContext(ctx)
q := r.db.WithContext(ctx).Model(new(T)).Where("id = ?", id)
if modifier != nil {
q = modifier(q)
}
q = q.Model(new(T)).Where("id = ?", id)
result := q.Updates(updates)
if result.Error != nil {
internal/common/repository/common.exists.repository.go
+10 -25
View File
@@ -2,7 +2,6 @@ package repository
import (
"context"
"errors"
"fmt"
"gorm.io/gorm"
@@ -10,59 +9,45 @@ import (
// Exists reports whether a record with the given ID exists for type T.
func Exists[T any](ctx context.Context, db *gorm.DB, id uint) (bool, error) {
var marker int
err := db.WithContext(ctx).
var count int64
if err := db.WithContext(ctx).
Model(new(T)).
Select("1").
Where("id = ?", id).
Limit(1).
Take(&marker).Error
if errors.Is(err, gorm.ErrRecordNotFound) {
return false, nil
}
if err != nil {
Count(&count).Error; err != nil {
return false, err
}
return true, nil
return count > 0, nil
}
func ExistsByName[T any](ctx context.Context, db *gorm.DB, name string, excludeID *uint) (bool, error) {
var count int64
q := db.WithContext(ctx).
Model(new(T)).
Select("1").
Where("name = ?", name).
Where("deleted_at IS NULL")
if excludeID != nil {
q = q.Where("id <> ?", *excludeID)
}
var marker int
if err := q.Limit(1).Take(&marker).Error; err != nil {
if errors.Is(err, gorm.ErrRecordNotFound) {
return false, nil
}
if err := q.Count(&count).Error; err != nil {
return false, err
}
return true, nil
return count > 0, nil
}
func ExistsByField[T any](ctx context.Context, db *gorm.DB, field string, value any, excludeID *uint) (bool, error) {
if field == "" {
return false, fmt.Errorf("field is required")
}
var count int64
q := db.WithContext(ctx).
Model(new(T)).
Select("1").
Where(fmt.Sprintf("%s = ?", field), value).
Where("deleted_at IS NULL")
if excludeID != nil {
q = q.Where("id <> ?", *excludeID)
}
var marker int
if err := q.Limit(1).Take(&marker).Error; err != nil {
if errors.Is(err, gorm.ErrRecordNotFound) {
return false, nil
}
if err := q.Count(&count).Error; err != nil {
return false, err
}
return true, nil
return count > 0, nil
}
internal/common/repository/common.hpp.repository.go
-429
View File
@@ -1,429 +0,0 @@
package repository
import (
"context"
"errors"
"time"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
"gitlab.com/mbugroup/lti-api.git/internal/utils"
"gitlab.com/mbugroup/lti-api.git/internal/utils/fifo"
"gorm.io/gorm"
)
type HppCostRepository interface {
GetProjectFlockKandangIDs(ctx context.Context, projectFlockId uint) ([]uint, error)
GetDocCost(ctx context.Context, projectFlockKandangIDs []uint) (float64, error)
GetBudgetCostByProjectFlockId(ctx context.Context, projectFlockId uint) (float64, error)
GetExpedisionCost(ctx context.Context, projectFlockKandangIDs []uint) (float64, error)
GetFeedUsageCost(ctx context.Context, projectFlockKandangIDs []uint, date *time.Time) (float64, error)
GetOvkUsageCost(ctx context.Context, projectFlockKandangIDs []uint, date *time.Time) (float64, error)
GetTotalPopulation(ctx context.Context, projectFlockKandangIDs []uint) (float64, error)
GetPulletCost(ctx context.Context, projectFlockKandangId uint) (float64, error)
GetEggProduksiPiecesAndWeightKgByProjectFlockKandangIds(ctx context.Context, projectFlockKandangIDs []uint, date *time.Time) (float64, float64, error)
GetEggTerjualPiecesAndWeightKgByProjectFlockKandangIds(ctx context.Context, projectFlockKandangIDs []uint, startDate *time.Time, endDate *time.Time) (float64, float64, error)
GetProjectFlockIDByProjectFlockKandangID(ctx context.Context, projectFlockKandangId uint) (uint, error)
GetTransferSourceSummary(ctx context.Context, projectFlockKandangId uint) (uint, float64, error)
GetManualDepreciationCostByProjectFlockID(ctx context.Context, projectFlockId uint) (float64, error)
}
type HppRepositoryImpl struct {
db *gorm.DB
}
func NewHppCostRepository(db *gorm.DB) HppCostRepository {
return &HppRepositoryImpl{db: db}
}
func (r *HppRepositoryImpl) GetProjectFlockKandangIDs(ctx context.Context, projectFlockId uint) ([]uint, error) {
var ids []uint
err := r.db.WithContext(ctx).
Table("project_flock_kandangs").
Select("id").
Where("project_flock_id = ?", projectFlockId).
Scan(&ids).Error
if err != nil {
return nil, err
}
return ids, nil
}
func (r *HppRepositoryImpl) GetDocCost(ctx context.Context, projectFlockKandangIDs []uint) (float64, error) {
stockablePurchase := fifo.StockableKeyPurchaseItems.String()
stockableAdjustment := fifo.StockableKeyAdjustmentIn.String()
usableProjectChickin := fifo.UsableKeyProjectChickin.String()
var total float64
err := r.db.WithContext(ctx).
Table("project_chickins AS pc").
Select(`
COALESCE(SUM(sa.qty * CASE
WHEN sa.stockable_type = ? THEN COALESCE(pi.price, 0)
WHEN sa.stockable_type = ? THEN COALESCE(ast.price, 0)
ELSE 0
END), 0)`,
stockablePurchase,
stockableAdjustment,
).
Joins(
"JOIN stock_allocations AS sa ON sa.usable_type = ? AND sa.usable_id = pc.id AND (sa.stockable_type = ? OR sa.stockable_type = ?) AND sa.status = ? AND sa.allocation_purpose = ?",
usableProjectChickin,
stockablePurchase,
stockableAdjustment,
entity.StockAllocationStatusActive,
entity.StockAllocationPurposeTraceChickin,
).
Joins("LEFT JOIN purchase_items AS pi ON pi.id = sa.stockable_id AND sa.stockable_type = ?", stockablePurchase).
Joins("LEFT JOIN adjustment_stocks AS ast ON ast.id = sa.stockable_id AND sa.stockable_type = ?", stockableAdjustment).
Where("pc.project_flock_kandang_id IN (?)", projectFlockKandangIDs).
Scan(&total).Error
if err != nil {
return 0, err
}
return total, nil
}
func (r *HppRepositoryImpl) GetBudgetCostByProjectFlockId(ctx context.Context, projectFlockId uint) (float64, error) {
var total float64
err := r.db.WithContext(ctx).
Table("project_budgets AS pb").
Select("COALESCE(SUM(pb.qty * pb.price), 0)").
Where("pb.project_flock_id = ?", projectFlockId).
Scan(&total).Error
if err != nil {
return 0, err
}
return total, nil
}
func (r *HppRepositoryImpl) GetExpedisionCost(ctx context.Context, projectFlockKandangIDs []uint) (float64, error) {
var total float64
err := r.db.WithContext(ctx).
Table("expense_nonstocks AS en").
Select("COALESCE(SUM(er.qty * er.price), 0)").
Joins("JOIN expense_realizations AS er ON er.expense_nonstock_id = en.id").
Joins("JOIN flags AS f ON f.flagable_id = en.nonstock_id AND f.flagable_type = ?", entity.FlagableTypeNonstock).
Where("en.project_flock_kandang_id IN (?)", projectFlockKandangIDs).
// Where("f.name = ?", utils.FlagEkspedisi).
Scan(&total).Error
if err != nil {
return 0, err
}
return total, nil
}
func (r *HppRepositoryImpl) GetFeedUsageCost(ctx context.Context, projectFlockKandangIDs []uint, date *time.Time) (float64, error) {
if date == nil {
now := time.Now()
date = &now
}
stockablePurchase := fifo.StockableKeyPurchaseItems.String()
stockableAdjustment := fifo.StockableKeyAdjustmentIn.String()
usableRecordingStock := fifo.UsableKeyRecordingStock.String()
var total float64
err := r.db.WithContext(ctx).
Table("recordings AS r").
Select(`
COALESCE(SUM(sa.qty * CASE
WHEN sa.stockable_type = ? THEN COALESCE(pi.price, 0)
WHEN sa.stockable_type = ? THEN COALESCE(ast.price, 0)
ELSE 0
END), 0)`,
stockablePurchase,
stockableAdjustment,
).
Joins("JOIN recording_stocks AS rs ON rs.recording_id = r.id").
Joins("JOIN product_warehouses AS pw ON pw.id = rs.product_warehouse_id").
Joins("JOIN flags AS f ON f.flagable_id = pw.product_id AND f.flagable_type = ?", entity.FlagableTypeProduct).
Joins(
"JOIN stock_allocations AS sa ON sa.usable_type = ? AND sa.usable_id = rs.id AND (sa.stockable_type = ? OR sa.stockable_type = ?) AND sa.status = ? AND sa.allocation_purpose = ?",
usableRecordingStock,
stockablePurchase,
stockableAdjustment,
entity.StockAllocationStatusActive,
entity.StockAllocationPurposeConsume,
).
Joins("LEFT JOIN purchase_items AS pi ON pi.id = sa.stockable_id AND sa.stockable_type = ?", stockablePurchase).
Joins("LEFT JOIN adjustment_stocks AS ast ON ast.id = sa.stockable_id AND sa.stockable_type = ?", stockableAdjustment).
Where("rs.project_flock_kandang_id IN (?)", projectFlockKandangIDs).
Where("r.record_datetime <= ?", *date).
Where("f.name = ?", utils.FlagPakan).
Scan(&total).Error
if err != nil {
return 0, err
}
return total, nil
}
func (r *HppRepositoryImpl) GetOvkUsageCost(ctx context.Context, projectFlockKandangIDs []uint, date *time.Time) (float64, error) {
if date == nil {
now := time.Now()
date = &now
}
flags := []utils.FlagType{
utils.FlagOVK,
utils.FlagObat,
utils.FlagVitamin,
utils.FlagKimia,
}
stockablePurchase := fifo.StockableKeyPurchaseItems.String()
stockableAdjustment := fifo.StockableKeyAdjustmentIn.String()
usableRecordingStock := fifo.UsableKeyRecordingStock.String()
var total float64
err := r.db.WithContext(ctx).
Table("recordings AS r").
Select(`
COALESCE(SUM(sa.qty * CASE
WHEN sa.stockable_type = ? THEN COALESCE(pi.price, 0)
WHEN sa.stockable_type = ? THEN COALESCE(ast.price, 0)
ELSE 0
END), 0)`,
stockablePurchase,
stockableAdjustment,
).
Joins("JOIN recording_stocks AS rs ON rs.recording_id = r.id").
Joins("JOIN product_warehouses AS pw ON pw.id = rs.product_warehouse_id").
Joins(
"JOIN stock_allocations AS sa ON sa.usable_type = ? AND sa.usable_id = rs.id AND (sa.stockable_type = ? OR sa.stockable_type = ?) AND sa.status = ? AND sa.allocation_purpose = ?",
usableRecordingStock,
stockablePurchase,
stockableAdjustment,
entity.StockAllocationStatusActive,
entity.StockAllocationPurposeConsume,
).
Joins("LEFT JOIN purchase_items AS pi ON pi.id = sa.stockable_id AND sa.stockable_type = ?", stockablePurchase).
Joins("LEFT JOIN adjustment_stocks AS ast ON ast.id = sa.stockable_id AND sa.stockable_type = ?", stockableAdjustment).
Where("rs.project_flock_kandang_id IN (?)", projectFlockKandangIDs).
Where("r.record_datetime <= ?", *date).
Where("EXISTS (SELECT 1 FROM flags f WHERE f.flagable_id = pw.product_id AND f.flagable_type = ? AND f.name IN ?)", entity.FlagableTypeProduct, flags).
Scan(&total).Error
if err != nil {
return 0, err
}
return total, nil
}
func (r *HppRepositoryImpl) GetTotalPopulation(ctx context.Context, projectFlockKandangIDs []uint) (float64, error) {
var total float64
err := r.db.WithContext(ctx).
Table("project_chickins AS pc").
Select("COALESCE(SUM(pc.usage_qty), 0)").
Where("pc.project_flock_kandang_id IN (?)", projectFlockKandangIDs).
Scan(&total).Error
if err != nil {
return 0, err
}
return total, nil
}
func (r *HppRepositoryImpl) GetPulletCost(ctx context.Context, projectFlockKandangId uint) (float64, error) {
stockablePurchase := fifo.StockableKeyPurchaseItems.String()
stockableTransferIn := fifo.StockableKeyStockTransferIn.String()
stockableAdjustment := fifo.StockableKeyAdjustmentIn.String()
usableProjectChickin := fifo.UsableKeyProjectChickin.String()
var total float64
err := r.db.WithContext(ctx).
Table("project_chickins AS pc").
Select(`
COALESCE(SUM(sa.qty * CASE
WHEN sa.stockable_type = ? THEN COALESCE(pi.price, 0)
WHEN sa.stockable_type = ? THEN COALESCE(tpi.price, 0)
WHEN sa.stockable_type = ? THEN COALESCE(ast.price, 0)
ELSE 0
END), 0)`,
stockablePurchase,
stockableTransferIn,
stockableAdjustment,
).
Joins("JOIN stock_allocations AS sa ON sa.usable_type = ? AND sa.usable_id = pc.id AND sa.status = ? AND sa.allocation_purpose = ?", usableProjectChickin, entity.StockAllocationStatusActive, entity.StockAllocationPurposeTraceChickin).
Joins("LEFT JOIN purchase_items AS pi ON pi.id = sa.stockable_id AND sa.stockable_type = ?", stockablePurchase).
Joins("LEFT JOIN stock_allocations AS tsa ON tsa.usable_type = ? AND tsa.usable_id = sa.stockable_id AND sa.stockable_type = ? AND tsa.stockable_type = ? AND tsa.status = ? AND tsa.allocation_purpose = ?", stockableTransferIn, stockableTransferIn, stockablePurchase, entity.StockAllocationStatusActive, entity.StockAllocationPurposeConsume).
Joins("LEFT JOIN purchase_items AS tpi ON tpi.id = tsa.stockable_id").
Joins("LEFT JOIN adjustment_stocks AS ast ON ast.id = sa.stockable_id AND sa.stockable_type = ?", stockableAdjustment).
Where("pc.project_flock_kandang_id = ?", projectFlockKandangId).
Scan(&total).Error
if err != nil {
return 0, err
}
return total, nil
}
func (r *HppRepositoryImpl) GetEggProduksiPiecesAndWeightKgByProjectFlockKandangIds(ctx context.Context, projectFlockKandangIDs []uint, date *time.Time) (float64, float64, error) {
if date == nil {
now := time.Now()
date = &now
}
var totals struct {
TotalPieces float64
TotalWeightKg float64
}
err := r.db.WithContext(ctx).
Table("recordings AS r").
Select("COALESCE(SUM(re.qty), 0) AS total_pieces, COALESCE(SUM(re.weight), 0)AS total_weight_kg").
Joins("JOIN recording_eggs AS re ON re.recording_id = r.id").
Where("r.project_flock_kandangs_id IN (?)", projectFlockKandangIDs).
Where("r.record_datetime <= ?", *date).
Scan(&totals).Error
if err != nil {
return 0, 0, err
}
var adjustmentTotalWeight float64
adjustmentSubQuery := r.db.WithContext(ctx).
Table("recordings AS r").
Select("DISTINCT ast.id AS adjustment_id, ast.price AS price").
Joins("JOIN recording_eggs AS re ON re.recording_id = r.id").
Joins("JOIN stock_transfer_details AS std ON std.dest_product_warehouse_id = re.product_warehouse_id").
Joins(
"JOIN stock_allocations AS sa ON sa.usable_type = ? AND sa.usable_id = std.id AND sa.stockable_type = ? AND sa.status = ? AND sa.allocation_purpose = ?",
fifo.UsableKeyStockTransferOut.String(),
fifo.StockableKeyAdjustmentIn.String(),
entity.StockAllocationStatusActive,
entity.StockAllocationPurposeConsume,
).
Joins("JOIN adjustment_stocks AS ast ON ast.id = sa.stockable_id AND ast.product_warehouse_id = std.source_product_warehouse_id").
Where("r.project_flock_kandangs_id IN (?)", projectFlockKandangIDs).
Where("r.record_datetime <= ?", *date)
err = r.db.WithContext(ctx).
Table("(?) AS adjustment_sources", adjustmentSubQuery).
Select("COALESCE(SUM(adjustment_sources.price), 0)").
Scan(&adjustmentTotalWeight).Error
if err != nil {
return 0, 0, err
}
totals.TotalWeightKg += adjustmentTotalWeight
return totals.TotalPieces, totals.TotalWeightKg, nil
}
func (r *HppRepositoryImpl) GetEggTerjualPiecesAndWeightKgByProjectFlockKandangIds(
ctx context.Context,
projectFlockKandangIDs []uint,
startDate *time.Time,
endDate *time.Time,
) (float64, float64, error) {
if endDate == nil {
now := time.Now()
endDate = &now
}
type subResult struct {
UsableID uint
MdpUsageQty float64
MdpWeight float64
}
subQuery := r.db.WithContext(ctx).
Table("recordings AS r").
Select(`
DISTINCT sa.usable_id,
mdp.usage_qty AS mdp_usage_qty,
mdp.total_weight AS mdp_weight
`).
Joins("JOIN recording_eggs re ON re.recording_id = r.id").
Joins(
"JOIN stock_allocations sa ON sa.stockable_type = ? AND sa.stockable_id = re.id AND sa.usable_type = ? AND sa.status = ? AND sa.allocation_purpose = ?",
fifo.StockableKeyRecordingEgg.String(),
fifo.UsableKeyMarketingDelivery.String(),
entity.StockAllocationStatusActive,
entity.StockAllocationPurposeConsume,
).
Joins("JOIN marketing_delivery_products mdp ON mdp.id = sa.usable_id").
Where("r.project_flock_kandangs_id IN (?)", projectFlockKandangIDs).
Where("r.record_datetime <= ?", *endDate).
Where("mdp.delivery_date <= ?", *startDate)
var totals struct {
TotalPieces float64
TotalWeight float64
}
err := r.db.WithContext(ctx).
Table("(?) AS x", subQuery).
Select(`
COALESCE(SUM(x.mdp_usage_qty), 0) AS total_pieces,
COALESCE(SUM(x.mdp_weight), 0) AS total_weight
`).
Scan(&totals).Error
if err != nil {
return 0, 0, err
}
return totals.TotalPieces, totals.TotalWeight, nil
}
func (r *HppRepositoryImpl) GetProjectFlockIDByProjectFlockKandangID(ctx context.Context, projectFlockKandangId uint) (uint, error) {
var projectFlockID uint
err := r.db.WithContext(ctx).
Table("project_flock_kandangs").
Select("project_flock_id").
Where("id = ?", projectFlockKandangId).
Scan(&projectFlockID).Error
if err != nil {
return 0, err
}
return projectFlockID, nil
}
func (r *HppRepositoryImpl) GetTransferSourceSummary(ctx context.Context, projectFlockKandangId uint) (uint, float64, error) {
var summary struct {
ProjectFlockID uint
TotalQty float64
}
err := r.db.WithContext(ctx).
Table("laying_transfer_targets AS ltt").
Select("lt.from_project_flock_id AS project_flock_id, COALESCE(SUM(ltt.total_qty), 0) AS total_qty").
Joins("JOIN laying_transfers AS lt ON lt.id = ltt.laying_transfer_id").
Where("lt.deleted_at IS NULL").
Where("ltt.deleted_at IS NULL").
Where("lt.executed_at IS NOT NULL").
Where("ltt.target_project_flock_kandang_id = ?", projectFlockKandangId).
Group("lt.from_project_flock_id").
Scan(&summary).Error
if err != nil {
return 0, 0, err
}
return summary.ProjectFlockID, summary.TotalQty, nil
}
func (r *HppRepositoryImpl) GetManualDepreciationCostByProjectFlockID(ctx context.Context, projectFlockId uint) (float64, error) {
type row struct {
TotalCost float64
}
var selected row
err := r.db.WithContext(ctx).
Table("farm_depreciation_manual_inputs").
Select("total_cost").
Where("project_flock_id = ?", projectFlockId).
Limit(1).
Take(&selected).Error
if errors.Is(err, gorm.ErrRecordNotFound) {
return 0, nil
}
if err != nil {
return 0, err
}
return selected.TotalCost, nil
}
internal/common/repository/common.hppv2.repository.go
-1183
View File
File diff suppressed because it is too large Load Diff
internal/common/repository/common.hppv2.repository_test.go
-390
View File
@@ -1,390 +0,0 @@
package repository
import (
"context"
"fmt"
"math"
"testing"
"time"
"github.com/glebarez/sqlite"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
"gitlab.com/mbugroup/lti-api.git/internal/utils"
"gitlab.com/mbugroup/lti-api.git/internal/utils/fifo"
"gorm.io/gorm"
)
func TestHppV2RepositoryGetEggProduksiIncludesTransferredAdjustmentStock(t *testing.T) {
db := setupHppV2RepositoryTestDB(t)
mustExecHppV2(t, db,
`INSERT INTO recordings (id, project_flock_kandangs_id, record_datetime) VALUES (1, 101, '2026-04-19 10:00:00')`,
`INSERT INTO recording_eggs (id, recording_id, product_warehouse_id, qty, weight, project_flock_kandang_id) VALUES (1, 1, 401, 80, 8, 101)`,
`INSERT INTO stock_transfers (id, transfer_date) VALUES (1, '2026-04-18 08:00:00')`,
`INSERT INTO stock_transfer_details (id, stock_transfer_id, source_product_warehouse_id, dest_product_warehouse_id) VALUES (1, 1, 301, 401)`,
`INSERT INTO stock_allocations (id, usable_type, usable_id, stockable_type, stockable_id, status, allocation_purpose) VALUES (1, 'STOCK_TRANSFER_OUT', 1, 'ADJUSTMENT_IN', 501, 'ACTIVE', 'CONSUME')`,
`INSERT INTO adjustment_stocks (id, product_warehouse_id, total_qty, price, created_at) VALUES (501, 301, 20, 2.5, '2026-04-18 07:30:00')`,
)
repo := &HppV2RepositoryImpl{db: db}
endDate := mustJakartaTime(t, "2026-04-20 00:00:00")
totalPieces, totalWeightKg, err := repo.GetEggProduksiPiecesAndWeightKgByProjectFlockKandangIds(context.Background(), []uint{101}, &endDate)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
assertFloatEquals(t, totalPieces, 100)
assertFloatEquals(t, totalWeightKg, 10.5)
}
func TestHppV2RepositoryGetEggTerjualUsesEndDateForSameDayFarmSales(t *testing.T) {
db := setupHppV2RepositoryTestDB(t)
mustExecHppV2(t, db,
`INSERT INTO kandangs (id, location_id) VALUES (1, 10), (2, 10)`,
`INSERT INTO project_flock_kandangs (id, kandang_id) VALUES (101, 1), (102, 2)`,
`INSERT INTO warehouses (id, type, location_id) VALUES (201, 'LOKASI', 10)`,
`INSERT INTO product_warehouses (id, warehouse_id, product_id, project_flock_kandang_id) VALUES (301, 201, 900, NULL)`,
`INSERT INTO flags (id, flagable_type, flagable_id, name) VALUES (1, 'products', 900, 'TELUR')`,
`INSERT INTO recordings (id, project_flock_kandangs_id, record_datetime, deleted_at) VALUES (1, 101, '2026-04-19 08:00:00', NULL), (2, 102, '2026-04-19 09:00:00', NULL)`,
`INSERT INTO recording_eggs (id, recording_id, product_warehouse_id, qty, weight, project_flock_kandang_id) VALUES (1, 1, 301, 60, 6, 101), (2, 2, 301, 40, 4, 102)`,
`INSERT INTO marketing_products (id, product_warehouse_id) VALUES (401, 301)`,
`INSERT INTO marketing_delivery_products (id, marketing_product_id, usage_qty, total_weight, delivery_date) VALUES (501, 401, 50, 5, '2026-04-19 12:00:00')`,
)
repo := &HppV2RepositoryImpl{db: db}
startDate := mustJakartaTime(t, "2026-04-19 00:00:00")
endDate := mustJakartaTime(t, "2026-04-20 00:00:00")
totalPieces, totalWeightKg, err := repo.GetEggTerjualPiecesAndWeightKgByProjectFlockKandangIds(context.Background(), []uint{101}, &startDate, &endDate)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
assertFloatEquals(t, totalPieces, 30)
assertFloatEquals(t, totalWeightKg, 3)
}
func TestHppV2RepositoryGetEggTerjualProratesHistoricalFarmSalesFromAdjustments(t *testing.T) {
db := setupHppV2RepositoryTestDB(t)
mustExecHppV2(t, db,
`INSERT INTO kandangs (id, location_id) VALUES (1, 10), (2, 10)`,
`INSERT INTO project_flock_kandangs (id, kandang_id) VALUES (101, 1), (102, 2)`,
`INSERT INTO warehouses (id, type, location_id) VALUES (201, 'LOKASI', 10), (211, 'KANDANG', 10), (212, 'KANDANG', 10)`,
`INSERT INTO product_warehouses (id, warehouse_id, product_id, project_flock_kandang_id) VALUES (301, 201, 900, NULL), (311, 211, 900, 101), (312, 212, 900, 102)`,
`INSERT INTO flags (id, flagable_type, flagable_id, name) VALUES (1, 'products', 900, 'TELUR')`,
`INSERT INTO stock_transfers (id, transfer_date) VALUES (1, '2026-04-18 08:00:00'), (2, '2026-04-18 08:15:00')`,
`INSERT INTO stock_transfer_details (id, stock_transfer_id, source_product_warehouse_id, dest_product_warehouse_id) VALUES (1, 1, 311, 301), (2, 2, 312, 301)`,
`INSERT INTO adjustment_stocks (id, product_warehouse_id, usage_qty, price, function_code, transaction_type, created_at) VALUES
(801, 311, 70, 7, 'RECORDING_EGG_IN', 'RECORDING', '2026-04-18 07:00:00'),
(802, 312, 30, 3, 'RECORDING_EGG_IN', 'RECORDING', '2026-04-18 07:30:00')`,
`INSERT INTO marketing_products (id, product_warehouse_id) VALUES (401, 301)`,
`INSERT INTO marketing_delivery_products (id, marketing_product_id, usage_qty, total_weight, delivery_date) VALUES (501, 401, 20, 2, '2026-04-19 12:00:00')`,
)
repo := &HppV2RepositoryImpl{db: db}
startDate := mustJakartaTime(t, "2026-04-19 00:00:00")
endDate := mustJakartaTime(t, "2026-04-20 00:00:00")
totalPieces, totalWeightKg, err := repo.GetEggTerjualPiecesAndWeightKgByProjectFlockKandangIds(context.Background(), []uint{101}, &startDate, &endDate)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
assertFloatEquals(t, totalPieces, 14)
assertFloatEquals(t, totalWeightKg, 1.4)
}
func TestHppV2RepositoryGetRecordingStockRoutingAdjustmentCostByProjectFlockID(t *testing.T) {
db := setupHppV2RepositoryTestDB(t)
approvalType := utils.ApprovalWorkflowTransferToLaying.String()
mustExecHppV2(t, db,
`INSERT INTO project_flock_kandangs (id, kandang_id, project_flock_id) VALUES
(101, 1, 1),
(102, 2, 1),
(103, 3, 1),
(104, 4, 1),
(105, 5, 1),
(201, 6, 2)`,
`INSERT INTO recordings (id, project_flock_kandangs_id, record_datetime, deleted_at) VALUES
(1, 101, '2026-04-10 08:00:00', NULL),
(2, 101, '2026-04-10 08:05:00', NULL),
(3, 101, '2026-04-10 08:10:00', NULL),
(4, 102, '2026-04-10 08:15:00', NULL),
(5, 102, '2026-04-10 08:20:00', NULL),
(6, 103, '2026-04-12 08:00:00', NULL),
(7, 103, '2026-04-12 08:05:00', NULL),
(8, 104, '2026-04-12 08:10:00', NULL),
(9, 104, '2026-04-12 08:15:00', NULL),
(10, 105, '2026-04-12 08:20:00', NULL),
(11, 105, '2026-04-12 08:25:00', NULL)`,
`INSERT INTO product_warehouses (id, warehouse_id, product_id, project_flock_kandang_id) VALUES
(501, 201, 10, NULL),
(502, 201, 10, NULL),
(503, 201, 10, NULL),
(504, 201, 10, NULL),
(505, 201, 10, NULL),
(506, 201, 10, NULL),
(507, 201, 10, NULL),
(508, 201, 10, NULL),
(509, 201, 10, NULL),
(510, 201, 10, NULL),
(511, 201, 10, NULL)`,
`INSERT INTO flags (id, flagable_type, flagable_id, name) VALUES
(10, 'products', 10, 'PAKAN')`,
`INSERT INTO recording_stocks (id, recording_id, product_warehouse_id, project_flock_kandang_id) VALUES
(101, 1, 501, NULL),
(102, 2, 502, 201),
(103, 3, 503, 101),
(104, 4, 504, NULL),
(105, 5, 505, 201),
(106, 6, 506, NULL),
(107, 7, 507, 201),
(108, 8, 508, NULL),
(109, 9, 509, 201),
(110, 10, 510, NULL),
(111, 11, 511, 201)`,
`INSERT INTO purchase_items (id, product_id, price) VALUES
(601, 10, 100),
(602, 10, 110),
(603, 10, 120),
(604, 10, 130),
(605, 10, 140),
(606, 10, 150),
(607, 10, 160),
(608, 10, 170),
(609, 10, 180),
(610, 10, 190),
(611, 10, 200)`,
`INSERT INTO stock_allocations (id, usable_type, usable_id, stockable_type, stockable_id, status, allocation_purpose, qty) VALUES
(9001, 'RECORDING_STOCK', 101, 'PURCHASE_ITEMS', 601, 'ACTIVE', 'CONSUME', 2),
(9002, 'RECORDING_STOCK', 102, 'PURCHASE_ITEMS', 602, 'ACTIVE', 'CONSUME', 1),
(9003, 'RECORDING_STOCK', 103, 'PURCHASE_ITEMS', 603, 'ACTIVE', 'CONSUME', 1),
(9004, 'RECORDING_STOCK', 104, 'PURCHASE_ITEMS', 604, 'ACTIVE', 'CONSUME', 1),
(9005, 'RECORDING_STOCK', 105, 'PURCHASE_ITEMS', 605, 'ACTIVE', 'CONSUME', 1),
(9006, 'RECORDING_STOCK', 106, 'PURCHASE_ITEMS', 606, 'ACTIVE', 'CONSUME', 1),
(9007, 'RECORDING_STOCK', 107, 'PURCHASE_ITEMS', 607, 'ACTIVE', 'CONSUME', 1),
(9008, 'RECORDING_STOCK', 108, 'PURCHASE_ITEMS', 608, 'ACTIVE', 'CONSUME', 1),
(9009, 'RECORDING_STOCK', 109, 'PURCHASE_ITEMS', 609, 'ACTIVE', 'CONSUME', 1),
(9010, 'RECORDING_STOCK', 110, 'PURCHASE_ITEMS', 610, 'ACTIVE', 'CONSUME', 1),
(9011, 'RECORDING_STOCK', 111, 'PURCHASE_ITEMS', 611, 'ACTIVE', 'CONSUME', 1)`,
`INSERT INTO laying_transfers (id, transfer_date, effective_move_date, economic_cutoff_date, executed_at, deleted_at) VALUES
(1001, '2026-04-04', '2026-04-05', NULL, '2026-04-05 00:00:00', NULL),
(1002, '2026-05-01', '2026-05-01', NULL, '2026-05-01 00:00:00', NULL),
(1003, '2026-04-03', '2026-04-05', NULL, '2026-04-05 00:00:00', NULL),
(1004, '2026-04-03', '2026-04-05', NULL, NULL, NULL)`,
`INSERT INTO laying_transfer_targets (id, laying_transfer_id, target_project_flock_kandang_id, deleted_at) VALUES
(2001, 1001, 101, NULL),
(2002, 1002, 103, NULL),
(2003, 1003, 104, NULL),
(2004, 1004, 105, NULL)`,
fmt.Sprintf(`INSERT INTO approvals (id, approvable_type, approvable_id, action) VALUES
(3001, '%s', 1001, 'APPROVED'),
(3002, '%s', 1002, 'APPROVED'),
(3003, '%s', 1003, 'APPROVED'),
(3004, '%s', 1003, 'REJECTED'),
(3005, '%s', 1004, 'APPROVED')`,
approvalType, approvalType, approvalType, approvalType, approvalType),
)
repo := &HppV2RepositoryImpl{db: db}
periodDate := mustJakartaTime(t, "2026-04-30 00:00:00")
total, err := repo.GetRecordingStockRoutingAdjustmentCostByProjectFlockID(context.Background(), 1, periodDate)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
assertFloatEquals(t, total, 750)
earlyPeriod := mustJakartaTime(t, "2026-04-10 23:59:59")
earlyTotal, err := repo.GetRecordingStockRoutingAdjustmentCostByProjectFlockID(context.Background(), 1, earlyPeriod)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
assertFloatEquals(t, earlyTotal, 240)
}
func setupHppV2RepositoryTestDB(t *testing.T) *gorm.DB {
t.Helper()
db, err := gorm.Open(sqlite.Open("file:"+t.Name()+"?mode=memory&cache=private"), &gorm.Config{})
if err != nil {
t.Fatalf("failed opening sqlite db: %v", err)
}
mustExecHppV2(t, db,
`CREATE TABLE recordings (
id INTEGER PRIMARY KEY,
project_flock_kandangs_id INTEGER NULL,
record_datetime DATETIME NULL,
deleted_at DATETIME NULL
)`,
`CREATE TABLE recording_stocks (
id INTEGER PRIMARY KEY,
recording_id INTEGER NULL,
product_warehouse_id INTEGER NULL,
project_flock_kandang_id INTEGER NULL
)`,
`CREATE TABLE recording_eggs (
id INTEGER PRIMARY KEY,
recording_id INTEGER NULL,
product_warehouse_id INTEGER NULL,
qty NUMERIC(15,3) NULL,
weight NUMERIC(15,3) NULL,
project_flock_kandang_id INTEGER NULL
)`,
`CREATE TABLE stock_transfers (
id INTEGER PRIMARY KEY,
transfer_date DATETIME NULL
)`,
`CREATE TABLE stock_transfer_details (
id INTEGER PRIMARY KEY,
stock_transfer_id INTEGER NULL,
source_product_warehouse_id INTEGER NULL,
dest_product_warehouse_id INTEGER NULL
)`,
`CREATE TABLE stock_allocations (
id INTEGER PRIMARY KEY,
usable_type TEXT NULL,
usable_id INTEGER NULL,
stockable_type TEXT NULL,
stockable_id INTEGER NULL,
status TEXT NULL,
allocation_purpose TEXT NULL,
qty NUMERIC(15,3) NULL
)`,
`CREATE TABLE adjustment_stocks (
id INTEGER PRIMARY KEY,
product_warehouse_id INTEGER NULL,
total_qty NUMERIC(15,3) NULL,
usage_qty NUMERIC(15,3) NULL,
price NUMERIC(15,3) NULL,
grand_total NUMERIC(15,3) NULL,
function_code TEXT NULL,
transaction_type TEXT NULL,
created_at DATETIME NULL
)`,
`CREATE TABLE kandangs (
id INTEGER PRIMARY KEY,
location_id INTEGER NULL
)`,
`CREATE TABLE project_flock_kandangs (
id INTEGER PRIMARY KEY,
kandang_id INTEGER NULL,
project_flock_id INTEGER NULL
)`,
`CREATE TABLE warehouses (
id INTEGER PRIMARY KEY,
type TEXT NULL,
location_id INTEGER NULL
)`,
`CREATE TABLE product_warehouses (
id INTEGER PRIMARY KEY,
warehouse_id INTEGER NULL,
product_id INTEGER NULL,
project_flock_kandang_id INTEGER NULL
)`,
`CREATE TABLE marketing_products (
id INTEGER PRIMARY KEY,
product_warehouse_id INTEGER NULL
)`,
`CREATE TABLE purchase_items (
id INTEGER PRIMARY KEY,
product_id INTEGER NULL,
price NUMERIC(15,3) NULL
)`,
`CREATE TABLE marketing_delivery_products (
id INTEGER PRIMARY KEY,
marketing_product_id INTEGER NULL,
usage_qty NUMERIC(15,3) NULL,
total_weight NUMERIC(15,3) NULL,
delivery_date DATETIME NULL
)`,
`CREATE TABLE flags (
id INTEGER PRIMARY KEY,
flagable_type TEXT NULL,
flagable_id INTEGER NULL,
name TEXT NULL
)`,
`CREATE TABLE laying_transfers (
id INTEGER PRIMARY KEY,
transfer_date DATETIME NULL,
effective_move_date DATETIME NULL,
economic_cutoff_date DATETIME NULL,
executed_at DATETIME NULL,
deleted_at DATETIME NULL
)`,
`CREATE TABLE laying_transfer_targets (
id INTEGER PRIMARY KEY,
laying_transfer_id INTEGER NULL,
target_project_flock_kandang_id INTEGER NULL,
deleted_at DATETIME NULL
)`,
`CREATE TABLE approvals (
id INTEGER PRIMARY KEY,
approvable_type TEXT NULL,
approvable_id INTEGER NULL,
action TEXT NULL
)`,
)
return db
}
func mustExecHppV2(t *testing.T, db *gorm.DB, statements ...string) {
t.Helper()
for _, statement := range statements {
if err := db.Exec(statement).Error; err != nil {
t.Fatalf("failed executing statement %q: %v", statement, err)
}
}
}
func mustJakartaTime(t *testing.T, raw string) time.Time {
t.Helper()
location, err := time.LoadLocation("Asia/Jakarta")
if err != nil {
t.Fatalf("failed loading timezone: %v", err)
}
value, err := time.ParseInLocation("2006-01-02 15:04:05", raw, location)
if err != nil {
t.Fatalf("failed parsing time %q: %v", raw, err)
}
return value
}
func assertFloatEquals(t *testing.T, got float64, want float64) {
t.Helper()
if math.Abs(got-want) > 0.000001 {
t.Fatalf("expected %.6f, got %.6f", want, got)
}
}
func TestHppV2RepositoryConstantsStayAlignedWithProductionQueries(t *testing.T) {
if fifo.UsableKeyStockTransferOut.String() != "STOCK_TRANSFER_OUT" {
t.Fatalf("unexpected stock transfer usable key: %s", fifo.UsableKeyStockTransferOut.String())
}
if fifo.StockableKeyAdjustmentIn.String() != "ADJUSTMENT_IN" {
t.Fatalf("unexpected adjustment stockable key: %s", fifo.StockableKeyAdjustmentIn.String())
}
if entity.StockAllocationStatusActive != "ACTIVE" {
t.Fatalf("unexpected active stock allocation status: %s", entity.StockAllocationStatusActive)
}
if entity.StockAllocationPurposeConsume != "CONSUME" {
t.Fatalf("unexpected consume stock allocation purpose: %s", entity.StockAllocationPurposeConsume)
}
if string(utils.AdjustmentTransactionSubtypeRecordingEggIn) != "RECORDING_EGG_IN" {
t.Fatalf("unexpected adjustment function code: %s", utils.AdjustmentTransactionSubtypeRecordingEggIn)
}
if string(utils.AdjustmentTransactionTypeRecording) != "RECORDING" {
t.Fatalf("unexpected adjustment transaction type: %s", utils.AdjustmentTransactionTypeRecording)
}
}
internal/common/repository/common.stock_allocation.repository.go
+7 -8
View File
@@ -33,7 +33,7 @@ func (r *StockAllocationRepositoryImpl) FindActiveByUsable(
var allocations []entity.StockAllocation
q := r.DB().WithContext(ctx).
Where("usable_type = ? AND usable_id = ? AND status = ? AND allocation_purpose = ?", usableType, usableID, entity.StockAllocationStatusActive, entity.StockAllocationPurposeConsume)
Where("usable_type = ? AND usable_id = ? AND status = ?", usableType, usableID, entity.StockAllocationStatusActive)
if modifier != nil {
q = modifier(q)
@@ -63,14 +63,13 @@ func (r *StockAllocationRepositoryImpl) ReleaseByUsable(
updates["note"] = *note
}
baseDB := r.DB()
if modifier != nil {
baseDB = modifier(baseDB)
}
q := baseDB.WithContext(ctx).
q := r.DB().WithContext(ctx).
Model(&entity.StockAllocation{}).
Where("usable_type = ? AND usable_id = ? AND status = ? AND allocation_purpose = ?", usableType, usableID, entity.StockAllocationStatusActive, entity.StockAllocationPurposeConsume)
Where("usable_type = ? AND usable_id = ? AND status = ?", usableType, usableID, entity.StockAllocationStatusActive)
if modifier != nil {
q = modifier(q)
}
return q.Updates(updates).Error
}
internal/common/repository/marketing_delivery_attribution.repository.go
-224
View File
@@ -1,224 +0,0 @@
package repository
import (
"fmt"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
"gitlab.com/mbugroup/lti-api.git/internal/utils/fifo"
"gorm.io/gorm"
)
type MarketingDeliveryAttributionRow struct {
MarketingDeliveryProductID uint `gorm:"column:marketing_delivery_product_id"`
ProjectFlockKandangID uint `gorm:"column:project_flock_kandang_id"`
ProjectFlockID uint `gorm:"column:project_flock_id"`
ProjectFlockCategory string `gorm:"column:project_flock_category"`
AllocatedQty float64 `gorm:"column:allocated_qty"`
}
func MarketingDeliveryAttributionRowsQuery(db *gorm.DB) *gorm.DB {
sql := `
WITH mapped AS (
SELECT
sa.usable_id AS marketing_delivery_product_id,
pc.project_flock_kandang_id AS project_flock_kandang_id,
pfk.project_flock_id AS project_flock_id,
pf.category AS project_flock_category,
SUM(sa.qty) AS allocated_qty
FROM stock_allocations sa
JOIN project_flock_populations pfp
ON pfp.id = sa.stockable_id
AND sa.stockable_type = ?
JOIN project_chickins pc ON pc.id = pfp.project_chickin_id
JOIN project_flock_kandangs pfk ON pfk.id = pc.project_flock_kandang_id
JOIN project_flocks pf ON pf.id = pfk.project_flock_id
WHERE sa.usable_type = ?
AND sa.status = ?
AND sa.allocation_purpose = ?
GROUP BY sa.usable_id, pc.project_flock_kandang_id, pfk.project_flock_id, pf.category
UNION ALL
SELECT
sa.usable_id AS marketing_delivery_product_id,
COALESCE(re.project_flock_kandang_id, r.project_flock_kandangs_id) AS project_flock_kandang_id,
pfk.project_flock_id AS project_flock_id,
pf.category AS project_flock_category,
SUM(sa.qty) AS allocated_qty
FROM stock_allocations sa
JOIN recording_eggs re
ON re.id = sa.stockable_id
AND sa.stockable_type = ?
LEFT JOIN recordings r ON r.id = re.recording_id
JOIN project_flock_kandangs pfk ON pfk.id = COALESCE(re.project_flock_kandang_id, r.project_flock_kandangs_id)
JOIN project_flocks pf ON pf.id = pfk.project_flock_id
WHERE sa.usable_type = ?
AND sa.status = ?
AND sa.allocation_purpose = ?
GROUP BY sa.usable_id, COALESCE(re.project_flock_kandang_id, r.project_flock_kandangs_id), pfk.project_flock_id, pf.category
UNION ALL
SELECT
sa.usable_id AS marketing_delivery_product_id,
COALESCE(rd.source_project_flock_kandang_id, r.project_flock_kandangs_id) AS project_flock_kandang_id,
pfk.project_flock_id AS project_flock_id,
pf.category AS project_flock_category,
SUM(sa.qty) AS allocated_qty
FROM stock_allocations sa
JOIN recording_depletions rd
ON rd.id = sa.stockable_id
AND sa.stockable_type = ?
LEFT JOIN recordings r ON r.id = rd.recording_id
JOIN project_flock_kandangs pfk ON pfk.id = COALESCE(rd.source_project_flock_kandang_id, r.project_flock_kandangs_id)
JOIN project_flocks pf ON pf.id = pfk.project_flock_id
WHERE sa.usable_type = ?
AND sa.status = ?
AND sa.allocation_purpose = ?
GROUP BY sa.usable_id, COALESCE(rd.source_project_flock_kandang_id, r.project_flock_kandangs_id), pfk.project_flock_id, pf.category
UNION ALL
SELECT
sa.usable_id AS marketing_delivery_product_id,
pi.project_flock_kandang_id AS project_flock_kandang_id,
pfk.project_flock_id AS project_flock_id,
pf.category AS project_flock_category,
SUM(sa.qty) AS allocated_qty
FROM stock_allocations sa
JOIN purchase_items pi
ON pi.id = sa.stockable_id
AND sa.stockable_type = ?
JOIN project_flock_kandangs pfk ON pfk.id = pi.project_flock_kandang_id
JOIN project_flocks pf ON pf.id = pfk.project_flock_id
WHERE sa.usable_type = ?
AND sa.status = ?
AND sa.allocation_purpose = ?
AND pi.project_flock_kandang_id IS NOT NULL
GROUP BY sa.usable_id, pi.project_flock_kandang_id, pfk.project_flock_id, pf.category
UNION ALL
SELECT
sa.usable_id AS marketing_delivery_product_id,
source_pw.project_flock_kandang_id AS project_flock_kandang_id,
pfk.project_flock_id AS project_flock_id,
pf.category AS project_flock_category,
SUM(sa.qty) AS allocated_qty
FROM stock_allocations sa
JOIN stock_transfer_details std
ON std.id = sa.stockable_id
AND sa.stockable_type = ?
JOIN product_warehouses source_pw ON source_pw.id = std.source_product_warehouse_id
JOIN project_flock_kandangs pfk ON pfk.id = source_pw.project_flock_kandang_id
JOIN project_flocks pf ON pf.id = pfk.project_flock_id
WHERE sa.usable_type = ?
AND sa.status = ?
AND sa.allocation_purpose = ?
AND source_pw.project_flock_kandang_id IS NOT NULL
GROUP BY sa.usable_id, source_pw.project_flock_kandang_id, pfk.project_flock_id, pf.category
UNION ALL
SELECT
sa.usable_id AS marketing_delivery_product_id,
ltt.target_project_flock_kandang_id AS project_flock_kandang_id,
pfk.project_flock_id AS project_flock_id,
pf.category AS project_flock_category,
SUM(sa.qty) AS allocated_qty
FROM stock_allocations sa
JOIN laying_transfer_targets ltt
ON ltt.id = sa.stockable_id
AND sa.stockable_type = ?
JOIN project_flock_kandangs pfk ON pfk.id = ltt.target_project_flock_kandang_id
JOIN project_flocks pf ON pf.id = pfk.project_flock_id
WHERE sa.usable_type = ?
AND sa.status = ?
AND sa.allocation_purpose = ?
GROUP BY sa.usable_id, ltt.target_project_flock_kandang_id, pfk.project_flock_id, pf.category
)
SELECT
src.marketing_delivery_product_id,
src.project_flock_kandang_id,
src.project_flock_id,
src.project_flock_category,
SUM(src.allocated_qty) AS allocated_qty
FROM (
SELECT
mapped.marketing_delivery_product_id,
mapped.project_flock_kandang_id,
mapped.project_flock_id,
mapped.project_flock_category,
mapped.allocated_qty
FROM mapped
UNION ALL
SELECT
mdp.id AS marketing_delivery_product_id,
pw.project_flock_kandang_id AS project_flock_kandang_id,
pfk.project_flock_id AS project_flock_id,
pf.category AS project_flock_category,
COALESCE(mdp.usage_qty, 0) AS allocated_qty
FROM marketing_delivery_products mdp
JOIN marketing_products mp ON mp.id = mdp.marketing_product_id
JOIN product_warehouses pw ON pw.id = mp.product_warehouse_id
JOIN project_flock_kandangs pfk ON pfk.id = pw.project_flock_kandang_id
JOIN project_flocks pf ON pf.id = pfk.project_flock_id
LEFT JOIN mapped ON mapped.marketing_delivery_product_id = mdp.id
WHERE mapped.marketing_delivery_product_id IS NULL
AND pw.project_flock_kandang_id IS NOT NULL
AND COALESCE(mdp.usage_qty, 0) > 0
) src
GROUP BY
src.marketing_delivery_product_id,
src.project_flock_kandang_id,
src.project_flock_id,
src.project_flock_category
`
return db.Raw(
sql,
fifo.StockableKeyProjectFlockPopulation.String(),
fifo.UsableKeyMarketingDelivery.String(),
entity.StockAllocationStatusActive,
entity.StockAllocationPurposeConsume,
fifo.StockableKeyRecordingEgg.String(),
fifo.UsableKeyMarketingDelivery.String(),
entity.StockAllocationStatusActive,
entity.StockAllocationPurposeConsume,
fifo.StockableKeyRecordingDepletion.String(),
fifo.UsableKeyMarketingDelivery.String(),
entity.StockAllocationStatusActive,
entity.StockAllocationPurposeConsume,
fifo.StockableKeyPurchaseItems.String(),
fifo.UsableKeyMarketingDelivery.String(),
entity.StockAllocationStatusActive,
entity.StockAllocationPurposeConsume,
fifo.StockableKeyStockTransferIn.String(),
fifo.UsableKeyMarketingDelivery.String(),
entity.StockAllocationStatusActive,
entity.StockAllocationPurposeConsume,
fifo.StockableKeyTransferToLayingIn.String(),
fifo.UsableKeyMarketingDelivery.String(),
entity.StockAllocationStatusActive,
entity.StockAllocationPurposeConsume,
)
}
func MarketingDeliverySingleAttributionQuery(db *gorm.DB) *gorm.DB {
return db.
Table("(?) AS mda", MarketingDeliveryAttributionRowsQuery(db)).
Select(`
mda.marketing_delivery_product_id,
CASE
WHEN COUNT(DISTINCT mda.project_flock_kandang_id) = 1 THEN MIN(mda.project_flock_kandang_id)
ELSE NULL
END AS attributed_project_flock_kandang_id
`).
Group("mda.marketing_delivery_product_id")
}
func MarketingDeliveryAttributionFilterSQL(column string) string {
return fmt.Sprintf("EXISTS (SELECT 1 FROM (?) AS mda WHERE mda.marketing_delivery_product_id = %s)", column)
}
internal/common/repository/marketing_delivery_attribution.repository_test.go
-147
View File
@@ -1,147 +0,0 @@
package repository
import (
"testing"
"github.com/glebarez/sqlite"
"gorm.io/gorm"
)
func TestMarketingDeliveryAttributionRowsQueryIncludesMappedAndFallbackRows(t *testing.T) {
db := setupMarketingAttributionTestDB(t)
statements := []string{
`INSERT INTO project_flocks (id, category) VALUES (1, 'LAYING')`,
`INSERT INTO project_flock_kandangs (id, project_flock_id) VALUES (101, 1), (102, 1)`,
`INSERT INTO project_chickins (id, project_flock_kandang_id) VALUES (201, 101), (202, 102)`,
`INSERT INTO project_flock_populations (id, project_chickin_id) VALUES (301, 201), (302, 202)`,
`INSERT INTO product_warehouses (id, project_flock_kandang_id) VALUES (401, NULL), (402, 101)`,
`INSERT INTO marketing_products (id, product_warehouse_id) VALUES (501, 401), (502, 402), (503, 401)`,
`INSERT INTO marketing_delivery_products (id, marketing_product_id, usage_qty) VALUES (601, 501, 100), (602, 502, 25), (603, 503, 12)`,
`INSERT INTO recording_eggs (id, recording_id, project_flock_kandang_id) VALUES (701, NULL, 101)`,
`INSERT INTO stock_allocations (id, product_warehouse_id, stockable_type, stockable_id, usable_type, usable_id, qty, status, allocation_purpose) VALUES
(1, 401, 'PROJECT_FLOCK_POPULATION', 301, 'MARKETING_DELIVERY', 601, 60, 'ACTIVE', 'CONSUME'),
(2, 401, 'PROJECT_FLOCK_POPULATION', 302, 'MARKETING_DELIVERY', 601, 40, 'ACTIVE', 'CONSUME'),
(3, 401, 'RECORDING_EGG', 701, 'MARKETING_DELIVERY', 603, 12, 'ACTIVE', 'CONSUME')`,
}
for _, stmt := range statements {
if err := db.Exec(stmt).Error; err != nil {
t.Fatalf("failed seeding fixtures: %v", err)
}
}
var rows []MarketingDeliveryAttributionRow
if err := db.Table("(?) AS mda", MarketingDeliveryAttributionRowsQuery(db)).
Order("mda.marketing_delivery_product_id ASC, mda.project_flock_kandang_id ASC").
Scan(&rows).Error; err != nil {
t.Fatalf("failed scanning attribution rows: %v", err)
}
if len(rows) != 4 {
t.Fatalf("expected 4 attribution rows, got %d", len(rows))
}
if rows[0].MarketingDeliveryProductID != 601 || rows[0].ProjectFlockKandangID != 101 || rows[0].AllocatedQty != 60 {
t.Fatalf("unexpected first attribution row: %+v", rows[0])
}
if rows[1].MarketingDeliveryProductID != 601 || rows[1].ProjectFlockKandangID != 102 || rows[1].AllocatedQty != 40 {
t.Fatalf("unexpected second attribution row: %+v", rows[1])
}
if rows[2].MarketingDeliveryProductID != 602 || rows[2].ProjectFlockKandangID != 101 || rows[2].AllocatedQty != 25 {
t.Fatalf("unexpected fallback attribution row: %+v", rows[2])
}
if rows[3].MarketingDeliveryProductID != 603 || rows[3].ProjectFlockKandangID != 101 || rows[3].AllocatedQty != 12 {
t.Fatalf("unexpected egg attribution row: %+v", rows[3])
}
}
func TestMarketingDeliverySingleAttributionQueryOnlyReturnsSingleSourceRows(t *testing.T) {
db := setupMarketingAttributionTestDB(t)
statements := []string{
`INSERT INTO project_flocks (id, category) VALUES (1, 'LAYING')`,
`INSERT INTO project_flock_kandangs (id, project_flock_id) VALUES (101, 1), (102, 1)`,
`INSERT INTO project_chickins (id, project_flock_kandang_id) VALUES (201, 101), (202, 102)`,
`INSERT INTO project_flock_populations (id, project_chickin_id) VALUES (301, 201), (302, 202)`,
`INSERT INTO product_warehouses (id, project_flock_kandang_id) VALUES (401, NULL), (402, 101)`,
`INSERT INTO marketing_products (id, product_warehouse_id) VALUES (501, 401), (502, 402), (503, 401)`,
`INSERT INTO marketing_delivery_products (id, marketing_product_id, usage_qty) VALUES (601, 501, 100), (602, 502, 25), (603, 503, 12)`,
`INSERT INTO recording_eggs (id, recording_id, project_flock_kandang_id) VALUES (701, NULL, 101)`,
`INSERT INTO stock_allocations (id, product_warehouse_id, stockable_type, stockable_id, usable_type, usable_id, qty, status, allocation_purpose) VALUES
(1, 401, 'PROJECT_FLOCK_POPULATION', 301, 'MARKETING_DELIVERY', 601, 60, 'ACTIVE', 'CONSUME'),
(2, 401, 'PROJECT_FLOCK_POPULATION', 302, 'MARKETING_DELIVERY', 601, 40, 'ACTIVE', 'CONSUME'),
(3, 401, 'RECORDING_EGG', 701, 'MARKETING_DELIVERY', 603, 12, 'ACTIVE', 'CONSUME')`,
}
for _, stmt := range statements {
if err := db.Exec(stmt).Error; err != nil {
t.Fatalf("failed seeding fixtures: %v", err)
}
}
type singleRow struct {
MarketingDeliveryProductID uint `gorm:"column:marketing_delivery_product_id"`
AttributedProjectFlockKandangID *uint `gorm:"column:attributed_project_flock_kandang_id"`
}
var rows []singleRow
if err := db.Table("(?) AS mda", MarketingDeliverySingleAttributionQuery(db)).
Order("mda.marketing_delivery_product_id ASC").
Scan(&rows).Error; err != nil {
t.Fatalf("failed scanning single attribution rows: %v", err)
}
if len(rows) != 3 {
t.Fatalf("expected 3 rows, got %d", len(rows))
}
if rows[0].MarketingDeliveryProductID != 601 || rows[0].AttributedProjectFlockKandangID != nil {
t.Fatalf("expected pooled delivery 601 to have nil single attribution, got %+v", rows[0])
}
if rows[1].MarketingDeliveryProductID != 602 || rows[1].AttributedProjectFlockKandangID == nil || *rows[1].AttributedProjectFlockKandangID != 101 {
t.Fatalf("expected fallback delivery 602 to map to kandang 101, got %+v", rows[1])
}
if rows[2].MarketingDeliveryProductID != 603 || rows[2].AttributedProjectFlockKandangID == nil || *rows[2].AttributedProjectFlockKandangID != 101 {
t.Fatalf("expected egg delivery 603 to map to kandang 101, got %+v", rows[2])
}
}
func setupMarketingAttributionTestDB(t *testing.T) *gorm.DB {
t.Helper()
db, err := gorm.Open(sqlite.Open("file:"+t.Name()+"?mode=memory&cache=private"), &gorm.Config{})
if err != nil {
t.Fatalf("failed opening sqlite db: %v", err)
}
statements := []string{
`CREATE TABLE stock_allocations (
id INTEGER PRIMARY KEY,
product_warehouse_id INTEGER,
stockable_type TEXT,
stockable_id INTEGER,
usable_type TEXT,
usable_id INTEGER,
qty NUMERIC(15,3),
status TEXT,
allocation_purpose TEXT
)`,
`CREATE TABLE project_flock_populations (id INTEGER PRIMARY KEY, project_chickin_id INTEGER)`,
`CREATE TABLE project_chickins (id INTEGER PRIMARY KEY, project_flock_kandang_id INTEGER)`,
`CREATE TABLE project_flock_kandangs (id INTEGER PRIMARY KEY, project_flock_id INTEGER)`,
`CREATE TABLE project_flocks (id INTEGER PRIMARY KEY, category TEXT)`,
`CREATE TABLE marketing_delivery_products (id INTEGER PRIMARY KEY, marketing_product_id INTEGER, usage_qty NUMERIC(15,3))`,
`CREATE TABLE marketing_products (id INTEGER PRIMARY KEY, product_warehouse_id INTEGER)`,
`CREATE TABLE product_warehouses (id INTEGER PRIMARY KEY, project_flock_kandang_id INTEGER NULL)`,
`CREATE TABLE recording_eggs (id INTEGER PRIMARY KEY, recording_id INTEGER, project_flock_kandang_id INTEGER NULL)`,
`CREATE TABLE recordings (id INTEGER PRIMARY KEY, project_flock_kandangs_id INTEGER NULL)`,
`CREATE TABLE recording_depletions (id INTEGER PRIMARY KEY, recording_id INTEGER, source_project_flock_kandang_id INTEGER NULL)`,
`CREATE TABLE purchase_items (id INTEGER PRIMARY KEY, project_flock_kandang_id INTEGER NULL)`,
`CREATE TABLE stock_transfer_details (id INTEGER PRIMARY KEY, source_product_warehouse_id INTEGER NULL)`,
`CREATE TABLE laying_transfer_targets (id INTEGER PRIMARY KEY, target_project_flock_kandang_id INTEGER NULL)`,
}
for _, stmt := range statements {
if err := db.Exec(stmt).Error; err != nil {
t.Fatalf("failed preparing schema: %v", err)
}
}
return db
}
internal/common/service/common.approval.service.go
+2 -7
View File
@@ -15,7 +15,7 @@ type ApprovalService interface {
WorkflowSteps(workflow approvalutils.ApprovalWorkflowKey) map[approvalutils.ApprovalStep]string
WorkflowStepName(workflow approvalutils.ApprovalWorkflowKey, step approvalutils.ApprovalStep) (string, bool)
CreateApproval(ctx context.Context, workflow approvalutils.ApprovalWorkflowKey, approvableID uint, step approvalutils.ApprovalStep, action *entity.ApprovalAction, actorID uint, note *string) (*entity.Approval, error)
List(ctx context.Context, module string, approvableID *uint, page, limit int, search string, orderByDate string) ([]entity.Approval, int64, error)
List(ctx context.Context, module string, approvableID *uint, page, limit int, search string) ([]entity.Approval, int64, error)
ListByTarget(ctx context.Context, workflow approvalutils.ApprovalWorkflowKey, approvableID uint, modifier func(*gorm.DB) *gorm.DB) ([]entity.Approval, error)
LatestByTarget(ctx context.Context, workflow approvalutils.ApprovalWorkflowKey, approvableID uint, modifier func(*gorm.DB) *gorm.DB) (*entity.Approval, error)
LatestByTargets(ctx context.Context, workflow approvalutils.ApprovalWorkflowKey, approvableIDs []uint, modifier func(*gorm.DB) *gorm.DB) (map[uint]*entity.Approval, error)
@@ -70,14 +70,9 @@ func (s *approvalService) List(
approvableID *uint,
page, limit int,
search string,
orderByDate string,
) ([]entity.Approval, int64, error) {
module = strings.TrimSpace(strings.ToUpper(module))
search = strings.TrimSpace(search)
orderByDate = strings.TrimSpace(strings.ToUpper(orderByDate))
if orderByDate != "ASC" && orderByDate != "DESC" {
orderByDate = "DESC"
}
if limit <= 0 {
limit = 10
@@ -95,7 +90,7 @@ func (s *approvalService) List(
func(db *gorm.DB) *gorm.DB {
query := db.
Where("approvable_type = ?", module).
Order("action_at " + orderByDate).
Order("action_at DESC").
Preload("ActionUser")
if approvableID != nil {
internal/common/service/common.closing.service.go
-120
View File
@@ -1,120 +0,0 @@
package service
import (
"context"
"errors"
"fmt"
productWarehouseRepo "gitlab.com/mbugroup/lti-api.git/internal/modules/inventory/product-warehouses/repositories"
warehouseRepo "gitlab.com/mbugroup/lti-api.git/internal/modules/master/warehouses/repositories"
projectFlockKandangRepo "gitlab.com/mbugroup/lti-api.git/internal/modules/production/project_flocks/repositories"
"github.com/gofiber/fiber/v2"
"gorm.io/gorm"
)
// Dipakai untuk semua module yang butuh cek:
// "PW ini → warehouse → kandang → project_flock_kandang sudah closing atau belum"
func EnsureProjectFlockNotClosedForProductWarehouses(
ctx context.Context,
db *gorm.DB,
productWarehouseIDs []uint,
) error {
if len(productWarehouseIDs) == 0 {
return nil
}
pwRepo := productWarehouseRepo.NewProductWarehouseRepository(db)
wRepo := warehouseRepo.NewWarehouseRepository(db)
pfkRepo := projectFlockKandangRepo.NewProjectFlockKandangRepository(db)
seenPW := make(map[uint]struct{})
seenKandang := make(map[uint]struct{})
for _, pwID := range productWarehouseIDs {
if pwID == 0 {
continue
}
if _, ok := seenPW[pwID]; ok {
continue
}
seenPW[pwID] = struct{}{}
pw, err := pwRepo.GetByID(ctx, pwID, nil)
if err != nil {
if errors.Is(err, gorm.ErrRecordNotFound) {
return fiber.NewError(fiber.StatusBadRequest,
fmt.Sprintf("Product warehouse %d tidak ditemukan", pwID))
}
return fiber.NewError(fiber.StatusInternalServerError, "Failed to validate product warehouse")
}
wh, err := wRepo.GetByID(ctx, uint(pw.WarehouseId), nil)
if err != nil {
if errors.Is(err, gorm.ErrRecordNotFound) {
return fiber.NewError(fiber.StatusBadRequest,
fmt.Sprintf("Warehouse %d tidak ditemukan", pw.WarehouseId))
}
return fiber.NewError(fiber.StatusInternalServerError, "Failed to validate warehouse")
}
// Warehouse tanpa kandang → bukan kandang produksi → skip
if wh.KandangId == nil || *wh.KandangId == 0 {
continue
}
kandangID := uint(*wh.KandangId)
if _, ok := seenKandang[kandangID]; ok {
continue
}
seenKandang[kandangID] = struct{}{}
pfk, err := pfkRepo.GetActiveByKandangID(ctx, kandangID)
if err != nil {
if errors.Is(err, gorm.ErrRecordNotFound) {
// nggak ada project aktif untuk kandang ini → aman
continue
}
return fiber.NewError(fiber.StatusInternalServerError, "Failed to validate project flock")
}
// INTI RULE: kalau aktif tapi sudah punya ClosedAt → anggap "project sudah closing"
if pfk != nil && pfk.ClosedAt != nil {
return fiber.NewError(fiber.StatusBadRequest, "Project sudah closing")
}
}
return nil
}
func EnsureProjectFlockNotClosedByProjectFlockKandangID(
ctx context.Context,
db *gorm.DB,
pfkIDs []uint,
) error {
pfkRepo := projectFlockKandangRepo.NewProjectFlockKandangRepository(db)
seen := make(map[uint]struct{})
for _, id := range pfkIDs {
if id == 0 {
continue
}
if _, ok := seen[id]; ok {
continue
}
seen[id] = struct{}{}
pfk, err := pfkRepo.GetByID(ctx, id)
if err != nil {
if errors.Is(err, gorm.ErrRecordNotFound) {
return fiber.NewError(fiber.StatusBadRequest,
fmt.Sprintf("Project flock kandang %d tidak ditemukan", id))
}
return fiber.NewError(fiber.StatusInternalServerError, "Failed to validate project flock")
}
if pfk.ClosedAt != nil {
return fiber.NewError(fiber.StatusBadRequest, "Project sudah closing")
}
}
return nil
}
internal/common/service/common.depreciation.service.go
-104
View File
@@ -1,104 +0,0 @@
package service
import (
"strings"
"time"
)
const (
depreciationStartAgeDayCloseHouse = 155
depreciationStartAgeDayOpenHouse = 176
)
func NormalizeDepreciationHouseType(raw string) string {
return strings.TrimSpace(strings.ToLower(raw))
}
func DepreciationStartAgeDay(houseType string) int {
switch NormalizeDepreciationHouseType(houseType) {
case "close_house":
return depreciationStartAgeDayCloseHouse
case "open_house":
return depreciationStartAgeDayOpenHouse
default:
return 0
}
}
func FlockAgeDay(originDate time.Time, periodDate time.Time) int {
origin := time.Date(originDate.Year(), originDate.Month(), originDate.Day(), 0, 0, 0, 0, originDate.Location())
period := time.Date(periodDate.Year(), periodDate.Month(), periodDate.Day(), 0, 0, 0, 0, periodDate.Location())
if period.Before(origin) {
return 0
}
return int(period.Sub(origin).Hours() / 24)
}
func DepreciationScheduleDay(originDate time.Time, periodDate time.Time, houseType string) int {
ageDay := FlockAgeDay(originDate, periodDate)
startAgeDay := DepreciationStartAgeDay(houseType)
if ageDay <= 0 || startAgeDay <= 0 || ageDay < startAgeDay {
return 0
}
return ageDay - startAgeDay + 1
}
func CalculateDepreciationAtDayN(
initialPulletCost float64,
dayN int,
houseType string,
percentByHouseType map[string]map[int]float64,
) (float64, float64, float64) {
return CalculateDepreciationFromDayRange(initialPulletCost, 1, dayN, houseType, percentByHouseType)
}
func CalculateDepreciationFromDayRange(
initialPulletCost float64,
startDay int,
endDay int,
houseType string,
percentByHouseType map[string]map[int]float64,
) (float64, float64, float64) {
if initialPulletCost <= 0 || endDay <= 0 {
return 0, 0, 0
}
if startDay <= 0 {
startDay = 1
}
if endDay < startDay {
return 0, 0, 0
}
normalizedHouseType := NormalizeDepreciationHouseType(houseType)
housePercent, exists := percentByHouseType[normalizedHouseType]
if !exists {
return 0, 0, 0
}
current := initialPulletCost
pulletCostDayN := 0.0
depreciationValue := 0.0
depreciationPercent := 0.0
for day := startDay; day <= endDay; day++ {
pct := housePercent[day]
dep := current * (pct / 100)
if day == endDay {
pulletCostDayN = current
depreciationValue = dep
depreciationPercent = pct
}
current -= dep
if current < 0 {
current = 0
}
}
return pulletCostDayN, depreciationValue, depreciationPercent
}
func CalculateEffectiveDepreciationPercent(totalDepreciationValue, totalPulletCostDayN float64) float64 {
if totalPulletCostDayN <= 0 {
return 0
}
return (totalDepreciationValue / totalPulletCostDayN) * 100
}
internal/common/service/common.depreciation.service_test.go
-81
View File
@@ -1,81 +0,0 @@
package service
import (
"testing"
"time"
)
func TestDepreciationScheduleDay_UsesHouseTypeOffsets(t *testing.T) {
openOrigin := mustDepreciationDate(t, "2026-01-01")
if got := DepreciationScheduleDay(openOrigin, mustDepreciationDate(t, "2026-06-24"), "open_house"); got != 0 {
t.Fatalf("expected open house day before start to be 0, got %d", got)
}
if got := DepreciationScheduleDay(openOrigin, mustDepreciationDate(t, "2026-06-25"), "open_house"); got != 1 {
t.Fatalf("expected open house start day to map to schedule day 1, got %d", got)
}
closeOrigin := mustDepreciationDate(t, "2026-01-01")
if got := DepreciationScheduleDay(closeOrigin, mustDepreciationDate(t, "2026-06-03"), "close_house"); got != 0 {
t.Fatalf("expected close house day before start to be 0, got %d", got)
}
if got := DepreciationScheduleDay(closeOrigin, mustDepreciationDate(t, "2026-06-04"), "close_house"); got != 1 {
t.Fatalf("expected close house start day to map to schedule day 1, got %d", got)
}
}
func TestCalculateDepreciationAtDayN_UsesRemainingBasisRecursively(t *testing.T) {
percentByHouseType := map[string]map[int]float64{
"close_house": {
1: 10,
2: 20,
},
}
pulletCostDayN, depreciationValue, depreciationPercent := CalculateDepreciationAtDayN(1000, 2, "close_house", percentByHouseType)
if pulletCostDayN != 900 {
t.Fatalf("expected remaining basis entering day 2 to be 900, got %v", pulletCostDayN)
}
if depreciationValue != 180 {
t.Fatalf("expected day 2 depreciation to be 180, got %v", depreciationValue)
}
if depreciationPercent != 20 {
t.Fatalf("expected day 2 depreciation percent to be 20, got %v", depreciationPercent)
}
}
func TestCalculateDepreciationFromDayRange_StartsFromProvidedScheduleDay(t *testing.T) {
percentByHouseType := map[string]map[int]float64{
"close_house": {
1: 10,
2: 20,
3: 5,
},
}
pulletCostDayN, depreciationValue, depreciationPercent := CalculateDepreciationFromDayRange(1000, 2, 3, "close_house", percentByHouseType)
if pulletCostDayN != 800 {
t.Fatalf("expected remaining basis entering day 3 to be 800, got %v", pulletCostDayN)
}
if depreciationValue != 40 {
t.Fatalf("expected day 3 depreciation to be 40, got %v", depreciationValue)
}
if depreciationPercent != 5 {
t.Fatalf("expected day 3 depreciation percent to be 5, got %v", depreciationPercent)
}
}
func mustDepreciationDate(t *testing.T, raw string) time.Time {
t.Helper()
location, err := time.LoadLocation("Asia/Jakarta")
if err != nil {
t.Fatalf("failed loading timezone: %v", err)
}
value, err := time.ParseInLocation("2006-01-02", raw, location)
if err != nil {
t.Fatalf("failed parsing date %q: %v", raw, err)
}
return value
}
internal/common/service/common.document.service.go
+5 -74
View File
@@ -6,10 +6,8 @@ import (
"fmt"
"mime"
"mime/multipart"
"net/url"
"path/filepath"
"strings"
"time"
commonRepo "gitlab.com/mbugroup/lti-api.git/internal/common/repository"
"gitlab.com/mbugroup/lti-api.git/internal/config"
@@ -20,7 +18,7 @@ import (
)
const (
defaultDocumentPathLimit = 255
defaultDocumentPathLimit = 50
defaultDocumentKeyPrefix = "docs"
maxDocumentNameLength = 50
)
@@ -31,7 +29,6 @@ type DocumentService interface {
DeleteDocuments(ctx context.Context, ids []uint, removeFromStorage bool) error
DeleteByTarget(ctx context.Context, documentableType string, documentableID uint64, removeFromStorage bool) error
PublicURL(document entity.Document) string
PresignURL(ctx context.Context, document entity.Document, expires time.Duration) (string, error)
}
type DocumentUploadRequest struct {
@@ -296,66 +293,6 @@ func (s *documentService) PublicURL(document entity.Document) string {
return s.storage.URL(document.Path)
}
func (s *documentService) PresignURL(ctx context.Context, document entity.Document, expires time.Duration) (string, error) {
if s.storage == nil {
return "", errors.New("document storage not configured")
}
if strings.TrimSpace(document.Path) == "" {
return "", errors.New("document path is required")
}
return s.storage.PresignURL(ctx, document.Path, expires)
}
// ResolveDocumentURL normalizes a stored path or URL into a presigned URL.
func ResolveDocumentURL(
ctx context.Context,
svc DocumentService,
rawPath string,
expires time.Duration,
) (string, error) {
if svc == nil {
return "", nil
}
rawPath = strings.TrimSpace(rawPath)
if rawPath == "" {
return "", nil
}
key := rawPath
lower := strings.ToLower(rawPath)
if strings.HasPrefix(lower, "http://") || strings.HasPrefix(lower, "https://") {
key = extractS3KeyFromURL(rawPath)
if key == "" {
return "", nil
}
}
return svc.PresignURL(ctx, entity.Document{Path: key}, expires)
}
func extractS3KeyFromURL(raw string) string {
parsed, err := url.Parse(strings.TrimSpace(raw))
if err != nil {
return ""
}
path := strings.TrimPrefix(parsed.Path, "/")
if path == "" {
return ""
}
host := strings.ToLower(strings.TrimSpace(parsed.Host))
if strings.HasPrefix(host, "s3.") || strings.HasPrefix(host, "s3-") {
parts := strings.SplitN(path, "/", 2)
if len(parts) == 2 {
return parts[1]
}
return ""
}
return path
}
func (s *documentService) generateObjectKey(ext string) (string, error) {
normalizedExt := strings.TrimSpace(ext)
if normalizedExt != "" && !strings.HasPrefix(normalizedExt, ".") {
@@ -363,19 +300,13 @@ func (s *documentService) generateObjectKey(ext string) (string, error) {
}
u := uuid.New().String()
keyPrefix := strings.Trim(s.keyPrefix, "/")
key := fmt.Sprintf("%s%s", u, normalizedExt)
if keyPrefix != "" {
key = fmt.Sprintf("%s/%s%s", keyPrefix, u, normalizedExt)
key := fmt.Sprintf("%s/%s%s", strings.Trim(s.keyPrefix, "/"), u, normalizedExt)
if s.keyPrefix == "" {
key = fmt.Sprintf("%s%s", u, normalizedExt)
}
if len(key) > s.maxPathLength {
compact := strings.ReplaceAll(u, "-", "")
if keyPrefix != "" {
key = fmt.Sprintf("%s/%s%s", keyPrefix, compact, normalizedExt)
} else {
key = fmt.Sprintf("%s%s", compact, normalizedExt)
}
key = fmt.Sprintf("%s%s", u, normalizedExt)
}
if len(key) > s.maxPathLength {
internal/common/service/common.document.storage.go
+6 -31
View File
@@ -6,7 +6,6 @@ import (
"fmt"
"io"
"strings"
"time"
"github.com/aws/aws-sdk-go-v2/aws"
awsconfig "github.com/aws/aws-sdk-go-v2/config"
@@ -18,7 +17,6 @@ type DocumentStorage interface {
Upload(ctx context.Context, key string, body io.Reader, size int64, contentType string) (DocumentStorageUploadResult, error)
Delete(ctx context.Context, key string) error
URL(key string) string
PresignURL(ctx context.Context, key string, expires time.Duration) (string, error)
}
type DocumentStorageUploadResult struct {
@@ -38,10 +36,9 @@ type S3DocumentStorageConfig struct {
}
type s3DocumentStorage struct {
client *s3.Client
presignClient *s3.PresignClient
bucket string
base string
client *s3.Client
bucket string
base string
}
func NewS3DocumentStorage(ctx context.Context, cfg S3DocumentStorageConfig) (DocumentStorage, error) {
@@ -89,7 +86,6 @@ func NewS3DocumentStorage(ctx context.Context, cfg S3DocumentStorageConfig) (Doc
client := s3.NewFromConfig(awsCfg, func(o *s3.Options) {
o.UsePathStyle = cfg.ForcePathStyle
})
presignClient := s3.NewPresignClient(client)
baseURL := strings.TrimSuffix(strings.TrimSpace(cfg.BaseURL), "/")
if baseURL == "" {
@@ -101,10 +97,9 @@ func NewS3DocumentStorage(ctx context.Context, cfg S3DocumentStorageConfig) (Doc
}
return &s3DocumentStorage{
client: client,
presignClient: presignClient,
bucket: bucket,
base: baseURL,
client: client,
bucket: bucket,
base: baseURL,
}, nil
}
@@ -163,23 +158,3 @@ func (s *s3DocumentStorage) URL(key string) string {
}
return fmt.Sprintf("%s/%s", s.base, key)
}
func (s *s3DocumentStorage) PresignURL(ctx context.Context, key string, expires time.Duration) (string, error) {
key = strings.TrimPrefix(strings.TrimSpace(key), "/")
if key == "" {
return "", errors.New("storage key is required")
}
if expires <= 0 {
expires = 15 * time.Minute
}
out, err := s.presignClient.PresignGetObject(ctx, &s3.GetObjectInput{
Bucket: aws.String(s.bucket),
Key: aws.String(key),
}, s3.WithPresignExpires(expires))
if err != nil {
return "", err
}
return out.URL, nil
}
internal/common/service/common.fifo.service.go
+47 -195
View File
@@ -25,8 +25,6 @@ type FifoService interface {
Replenish(ctx context.Context, req StockReplenishRequest) (*StockReplenishResult, error)
Consume(ctx context.Context, req StockConsumeRequest) (*StockConsumeResult, error)
ReleaseUsage(ctx context.Context, req StockReleaseRequest) error
AdjustStockableQuantity(ctx context.Context, req StockAdjustRequest) error
ResolvePending(ctx context.Context, req PendingResolveRequest) ([]PendingResolution, error)
}
type fifoService struct {
@@ -97,26 +95,12 @@ type StockReplenishRequest struct {
Tx *gorm.DB
}
type StockAdjustRequest struct {
StockableKey fifo.StockableKey
StockableID uint
ProductWarehouseID uint
Quantity float64
Note *string
Tx *gorm.DB
}
type PendingResolution struct {
UsableKey fifo.UsableKey
UsableID uint
Quantity float64
}
type PendingResolveRequest struct {
ProductWarehouseID uint
Tx *gorm.DB
}
type StockReplenishResult struct {
AddedQuantity float64
PendingResolved []PendingResolution
@@ -154,38 +138,6 @@ type StockReleaseRequest struct {
Tx *gorm.DB
}
func (s *fifoService) AdjustStockableQuantity(ctx context.Context, req StockAdjustRequest) error {
if req.StockableID == 0 || strings.TrimSpace(req.StockableKey.String()) == "" {
return errors.New("stockable key and id are required")
}
if req.ProductWarehouseID == 0 {
return errors.New("product warehouse id is required")
}
if req.Quantity == 0 {
return nil
}
if req.Quantity > 0 {
return errors.New("quantity must be negative")
}
cfg, ok := fifo.Stockable(req.StockableKey)
if !ok {
return fmt.Errorf("stockable %q is not registered", req.StockableKey)
}
return s.withTransaction(ctx, req.Tx, func(tx *gorm.DB) error {
if err := s.incrementStockableQty(ctx, tx, cfg, req.StockableID, req.Quantity); err != nil {
return err
}
return s.productWarehouseRepo.AdjustQuantities(ctx, map[uint]float64{
req.ProductWarehouseID: req.Quantity,
}, func(db *gorm.DB) *gorm.DB {
return s.txOrDB(tx, db)
})
})
}
func (s *fifoService) Replenish(ctx context.Context, req StockReplenishRequest) (*StockReplenishResult, error) {
if req.StockableID == 0 || strings.TrimSpace(req.StockableKey.String()) == "" {
return nil, errors.New("stockable key and id are required")
@@ -233,23 +185,6 @@ func (s *fifoService) Replenish(ctx context.Context, req StockReplenishRequest)
return result, nil
}
func (s *fifoService) ResolvePending(ctx context.Context, req PendingResolveRequest) ([]PendingResolution, error) {
if req.ProductWarehouseID == 0 {
return nil, errors.New("product warehouse id is required")
}
var resolved []PendingResolution
err := s.withTransaction(ctx, req.Tx, func(tx *gorm.DB) error {
var err error
resolved, err = s.resolvePendingForWarehouse(ctx, tx, req.ProductWarehouseID)
return err
})
if err != nil {
return nil, err
}
return resolved, nil
}
func (s *fifoService) Consume(ctx context.Context, req StockConsumeRequest) (*StockConsumeResult, error) {
if req.UsableID == 0 || strings.TrimSpace(req.UsableKey.String()) == "" {
return nil, errors.New("usable key and id are required")
@@ -257,6 +192,7 @@ func (s *fifoService) Consume(ctx context.Context, req StockConsumeRequest) (*St
if req.Quantity < 0 {
return nil, errors.New("quantity must be zero or greater")
}
cfg, ok := fifo.Usable(req.UsableKey)
if !ok {
return nil, fmt.Errorf("usable %q is not registered", req.UsableKey)
@@ -284,6 +220,7 @@ func (s *fifoService) Consume(ctx context.Context, req StockConsumeRequest) (*St
currentPending := ctxRow.PendingQty
currentTotal := currentUsage + currentPending
delta := req.Quantity - currentTotal
var (
usageDelta float64
pendingDelta float64
@@ -293,13 +230,7 @@ func (s *fifoService) Consume(ctx context.Context, req StockConsumeRequest) (*St
switch {
case delta > 0:
var excludedStockables []fifo.StockableKey
if cfg.ExcludedStockables != nil {
excludedStockables = cfg.ExcludedStockables
}
allocationRes, err := s.allocateFromStock(ctx, tx, productWarehouseID, req.UsableKey, req.UsableID, delta, excludedStockables)
allocationRes, err := s.allocateFromStock(ctx, tx, productWarehouseID, req.UsableKey, req.UsableID, delta)
if err != nil {
return err
}
@@ -332,7 +263,7 @@ func (s *fifoService) Consume(ctx context.Context, req StockConsumeRequest) (*St
}
if reductionTarget > 0 {
released, err := s.releaseUsagePortion(ctx, tx, req.UsableKey, req.UsableID, reductionTarget, productWarehouseID)
released, err := s.releaseUsagePortion(ctx, tx, req.UsableKey, req.UsableID, reductionTarget)
if err != nil {
return err
}
@@ -354,6 +285,7 @@ func (s *fifoService) Consume(ctx context.Context, req StockConsumeRequest) (*St
result.ReleasedQuantity = releasedAmount
result.UsageQuantity = currentUsage + usageDelta
result.PendingQuantity = currentPending + pendingDelta
return nil
})
if err != nil {
@@ -367,6 +299,7 @@ func (s *fifoService) ReleaseUsage(ctx context.Context, req StockReleaseRequest)
if req.UsableID == 0 || strings.TrimSpace(req.UsableKey.String()) == "" {
return errors.New("usable key and id are required")
}
return s.withTransaction(ctx, req.Tx, func(tx *gorm.DB) error {
cfg, ok := fifo.Usable(req.UsableKey)
if !ok {
@@ -377,9 +310,10 @@ func (s *fifoService) ReleaseUsage(ctx context.Context, req StockReleaseRequest)
if err != nil {
return err
}
var usageDelta, pendingDelta float64
if ctxRow.UsageQty > 0 {
if _, err := s.releaseUsagePortion(ctx, tx, req.UsableKey, req.UsableID, ctxRow.UsageQty, ctxRow.ProductWarehouseID); err != nil {
if _, err := s.releaseUsagePortion(ctx, tx, req.UsableKey, req.UsableID, ctxRow.UsageQty); err != nil {
return err
}
usageDelta -= ctxRow.UsageQty
@@ -481,9 +415,8 @@ func (s *fifoService) allocateFromStock(
usableKey fifo.UsableKey,
usableID uint,
requestQty float64,
excludedStockables []fifo.StockableKey,
) (*allocationOutcome, error) {
lots, err := s.fetchStockLots(ctx, tx, productWarehouseID, excludedStockables)
lots, err := s.fetchStockLots(ctx, tx, productWarehouseID)
if err != nil {
return nil, err
}
@@ -528,7 +461,6 @@ func (s *fifoService) allocateFromStock(
UsableType: usableKey.String(),
UsableId: usableID,
Qty: portion,
AllocationPurpose: entities.StockAllocationPurposeConsume,
Status: entities.StockAllocationStatusActive,
})
@@ -565,43 +497,20 @@ func (s *fifoService) allocateFromStock(
}, nil
}
func (s *fifoService) fetchStockLots(ctx context.Context, tx *gorm.DB, productWarehouseID uint, excludedStockables []fifo.StockableKey) ([]stockLot, error) {
func (s *fifoService) fetchStockLots(ctx context.Context, tx *gorm.DB, productWarehouseID uint) ([]stockLot, error) {
configs := fifo.Stockables()
if len(configs) == 0 {
return nil, nil
}
// Create exclusion set for faster lookup
excludedSet := make(map[fifo.StockableKey]bool)
for _, key := range excludedStockables {
excludedSet[key] = true
}
var lots []stockLot
for key, cfg := range configs {
// Skip excluded stockables
if excludedSet[key] {
continue
}
usesNumericTime := cfg.Columns.CreatedAt == cfg.Columns.ID
var selectStmt string
if usesNumericTime {
selectStmt = fmt.Sprintf(
"%s AS id, %s AS available_qty, '1970-01-01 00:00:00 UTC'::timestamp AS created_at",
cfg.Columns.ID,
fmt.Sprintf("%s - COALESCE(%s,0)", cfg.Columns.TotalQuantity, cfg.Columns.TotalUsedQuantity),
)
} else {
selectStmt = fmt.Sprintf(
"%s AS id, %s AS available_qty, %s AS created_at",
cfg.Columns.ID,
fmt.Sprintf("%s - COALESCE(%s,0)", cfg.Columns.TotalQuantity, cfg.Columns.TotalUsedQuantity),
cfg.Columns.CreatedAt,
)
}
selectStmt := fmt.Sprintf(
"%s AS id, %s AS available_qty, %s AS created_at",
cfg.Columns.ID,
fmt.Sprintf("%s - COALESCE(%s,0)", cfg.Columns.TotalQuantity, cfg.Columns.TotalUsedQuantity),
cfg.Columns.CreatedAt,
)
var rows []struct {
ID uint
@@ -699,13 +608,7 @@ func (s *fifoService) resolvePendingForWarehouse(ctx context.Context, tx *gorm.D
continue
}
// Get excluded stockables from candidate usable config
var excludedStockables []fifo.StockableKey
if candidate.Config.ExcludedStockables != nil {
excludedStockables = candidate.Config.ExcludedStockables
}
outcome, err := s.allocateFromStock(ctx, tx, productWarehouseID, candidate.UsableKey, candidate.UsableID, candidate.Pending, excludedStockables)
outcome, err := s.allocateFromStock(ctx, tx, productWarehouseID, candidate.UsableKey, candidate.UsableID, candidate.Pending)
if err != nil {
return nil, err
}
@@ -746,7 +649,6 @@ func (s *fifoService) releaseUsagePortion(
usableKey fifo.UsableKey,
usableID uint,
target float64,
expectedWarehouseID uint,
) (float64, error) {
if target <= 0 {
return 0, nil
@@ -762,18 +664,6 @@ func (s *fifoService) releaseUsagePortion(
if len(allocations) == 0 {
return 0, nil
}
for i := range allocations {
alloc := &allocations[i]
if expectedWarehouseID == 0 || alloc.ProductWarehouseId == expectedWarehouseID {
continue
}
if err := tx.Model(&entities.StockAllocation{}).
Where("id = ?", alloc.Id).
Update("product_warehouse_id", expectedWarehouseID).Error; err != nil {
return 0, err
}
alloc.ProductWarehouseId = expectedWarehouseID
}
var (
remaining = target
@@ -812,7 +702,7 @@ func (s *fifoService) releaseUsagePortion(
}
} else {
if err := s.allocations.PatchOne(ctx, allocation.Id, map[string]any{
"qty": allocation.Qty - releaseAmt,
"quantity": allocation.Qty - releaseAmt,
}, func(db *gorm.DB) *gorm.DB {
return s.txOrDB(tx, db)
}); err != nil {
@@ -870,79 +760,41 @@ func (s *fifoService) fetchPendingCandidates(ctx context.Context, tx *gorm.DB, p
cfg.Columns.CreatedAt,
)
if cfg.Columns.CreatedAt == cfg.Columns.ID {
var rows []struct {
ID uint
Pending float64 `gorm:"column:pending_qty"`
CreatedAt int64 `gorm:"column:created_at"`
}
var rows []struct {
ID uint
Pending float64
CreatedAt time.Time
}
query := tx.Table(cfg.Table).
Select(selectStmt).
Where(fmt.Sprintf("%s = ?", cfg.Columns.ProductWarehouseID), productWarehouseID).
Where(fmt.Sprintf("%s > 0", cfg.Columns.PendingQuantity)).
Limit(s.pendingBatchPerUsable)
query := tx.Table(cfg.Table).
Select(selectStmt).
Where(fmt.Sprintf("%s = ?", cfg.Columns.ProductWarehouseID), productWarehouseID).
Where(fmt.Sprintf("%s > 0", cfg.Columns.PendingQuantity)).
Limit(s.pendingBatchPerUsable)
if cfg.Scope != nil {
query = cfg.Scope(query)
}
if cfg.Scope != nil {
query = cfg.Scope(query)
}
for _, order := range s.orderClauses(cfg.OrderBy) {
query = query.Order(order)
}
for _, order := range s.orderClauses(cfg.OrderBy) {
query = query.Order(order)
}
if err := query.Find(&rows).Error; err != nil {
return nil, err
}
for _, row := range rows {
if row.Pending <= 0 {
continue
}
candidates = append(candidates, pendingCandidate{
UsableKey: key,
Config: cfg,
UsableID: row.ID,
Pending: row.Pending,
CreatedAt: time.Unix(0, row.CreatedAt),
})
}
} else {
var rows []struct {
ID uint
Pending float64 `gorm:"column:pending_qty"`
CreatedAt time.Time `gorm:"column:created_at"`
}
if err := query.Find(&rows).Error; err != nil {
return nil, err
}
query := tx.Table(cfg.Table).
Select(selectStmt).
Where(fmt.Sprintf("%s = ?", cfg.Columns.ProductWarehouseID), productWarehouseID).
Where(fmt.Sprintf("%s > 0", cfg.Columns.PendingQuantity)).
Limit(s.pendingBatchPerUsable)
if cfg.Scope != nil {
query = cfg.Scope(query)
}
for _, order := range s.orderClauses(cfg.OrderBy) {
query = query.Order(order)
}
if err := query.Find(&rows).Error; err != nil {
return nil, err
}
for _, row := range rows {
if row.Pending <= 0 {
continue
}
candidates = append(candidates, pendingCandidate{
UsableKey: key,
Config: cfg,
UsableID: row.ID,
Pending: row.Pending,
CreatedAt: row.CreatedAt,
})
for _, row := range rows {
if row.Pending <= 0 {
continue
}
candidates = append(candidates, pendingCandidate{
UsableKey: key,
Config: cfg,
UsableID: row.ID,
Pending: row.Pending,
CreatedAt: row.CreatedAt,
})
}
}
internal/common/service/common.fifo_stock_v2.service.go
-41
View File
@@ -1,41 +0,0 @@
package service
import (
"github.com/sirupsen/logrus"
fifoStockV2 "gitlab.com/mbugroup/lti-api.git/internal/common/service/fifo_stock_v2"
"gorm.io/gorm"
)
type FifoStockV2Service = fifoStockV2.Service
type FifoStockV2Lane = fifoStockV2.Lane
type FifoStockV2Ref = fifoStockV2.Ref
type FifoStockV2GatherRequest = fifoStockV2.GatherRequest
type FifoStockV2GatherRow = fifoStockV2.GatherRow
type FifoStockV2AllocateRequest = fifoStockV2.AllocateRequest
type FifoStockV2AllocateResult = fifoStockV2.AllocateResult
type FifoStockV2AllocationDetail = fifoStockV2.AllocationDetail
type FifoStockV2RollbackRequest = fifoStockV2.RollbackRequest
type FifoStockV2RollbackResult = fifoStockV2.RollbackResult
type FifoStockV2ReflowRequest = fifoStockV2.ReflowRequest
type FifoStockV2ReflowResult = fifoStockV2.ReflowResult
type FifoStockV2RecalculateRequest = fifoStockV2.RecalculateRequest
type FifoStockV2RecalculateResult = fifoStockV2.RecalculateResult
type FifoStockV2WarehouseDrift = fifoStockV2.WarehouseDrift
func NewFifoStockV2Service(db *gorm.DB, logger *logrus.Logger) FifoStockV2Service {
return fifoStockV2.NewService(db, logger)
}
internal/common/service/common.hpp.service.go
-381
View File
@@ -1,381 +0,0 @@
package service
import (
"context"
"math"
"time"
commonRepo "gitlab.com/mbugroup/lti-api.git/internal/common/repository"
)
type HppService interface {
CalculateHppCost(projectFlockKandangId uint, date *time.Time) (*HppCostResponse, error)
GetTotalDepresiasiFlockGrowing(sourceProjectFlockID uint, date *time.Time) (float64, error)
GetTotalProductionCost(projectFlockKandangId uint, endDate *time.Time, depresiasiTransfer float64) (float64, error)
GetBudgetKandangLaying(projectFlockKandangId uint, endDate *time.Time) (float64, error)
GetDepresiasiTransfer(projectFlockKandangId uint, date *time.Time) (float64, error)
GetHppEstimationDanRealisasi(totalProductionCost float64, projectFlockKandangId uint, startDate *time.Time, endDate *time.Time) (*HppCostResponse, error)
}
type HppCostResponse struct {
Estimation HppCostDetail `json:"estimation"`
Real HppCostDetail `json:"real"`
DebugValues *HppCostDebugValues `json:"debug_values,omitempty"`
}
type HppCostDetail struct {
HargaKg float64 `json:"harga_kg"`
HargaButir float64 `json:"harga_butir"`
Total float64 `json:"total"`
Kg float64 `json:"kg"`
Butir float64 `json:"butir"`
}
type hppService struct {
hppRepo commonRepo.HppCostRepository
}
func NewHppService(hppRepo commonRepo.HppCostRepository) HppService {
return &hppService{hppRepo: hppRepo}
}
func (s *hppService) CalculateHppCost(projectFlockKandangId uint, date *time.Time) (*HppCostResponse, error) {
if date == nil {
now := time.Now()
date = &now
}
location, err := time.LoadLocation("Asia/Jakarta")
if err != nil {
return nil, err
}
startOfDay := time.Date(date.Year(), date.Month(), date.Day(), 0, 0, 0, 0, location)
endOfDay := startOfDay.Add(24 * time.Hour)
depresiasiTransfer, err := s.GetDepresiasiTransfer(projectFlockKandangId, &endOfDay)
if err != nil {
return nil, err
}
totalProductionCost, err := s.GetTotalProductionCost(projectFlockKandangId, &endOfDay, depresiasiTransfer)
if err != nil {
return nil, err
}
result, err := s.GetHppEstimationDanRealisasi(totalProductionCost, projectFlockKandangId, &startOfDay, &endOfDay)
if err != nil {
return nil, err
}
return result, nil
}
func (s *hppService) GetTotalDepresiasiFlockGrowing(sourceProjectFlockID uint, date *time.Time) (float64, error) {
if date == nil {
now := time.Now()
date = &now
}
if s.hppRepo == nil {
return 0, nil
}
kandangIDs, err := s.hppRepo.GetProjectFlockKandangIDs(context.Background(), sourceProjectFlockID)
if err != nil {
return 0, err
}
docCost, err := s.hppRepo.GetDocCost(context.Background(), kandangIDs)
if err != nil {
return 0, err
}
budgetCost, err := s.hppRepo.GetBudgetCostByProjectFlockId(context.Background(), sourceProjectFlockID)
if err != nil {
return 0, err
}
expedisionCost, err := s.hppRepo.GetExpedisionCost(context.Background(), kandangIDs)
if err != nil {
return 0, err
}
feedCost, err := s.hppRepo.GetFeedUsageCost(context.Background(), kandangIDs, date)
if err != nil {
return 0, err
}
ovkCost, err := s.hppRepo.GetOvkUsageCost(context.Background(), kandangIDs, date)
if err != nil {
return 0, err
}
total := docCost + budgetCost + expedisionCost + feedCost + ovkCost
return total, nil
}
func (s *hppService) GetTotalProductionCost(projectFlockKandangId uint, endDate *time.Time, depresiasiTransfer float64) (float64, error) {
// if date == nil {
// now := time.Now()
// date = &now
// }
costPullet, err := s.hppRepo.GetPulletCost(context.Background(), projectFlockKandangId)
if err != nil {
return 0, err
}
costFeed, err := s.hppRepo.GetFeedUsageCost(context.Background(), []uint{projectFlockKandangId}, endDate)
if err != nil {
return 0, err
}
costOvk, err := s.hppRepo.GetOvkUsageCost(context.Background(), []uint{projectFlockKandangId}, endDate)
if err != nil {
return 0, err
}
costExpedision, err := s.hppRepo.GetExpedisionCost(context.Background(), []uint{projectFlockKandangId})
if err != nil {
return 0, err
}
costBudget, err := s.GetBudgetKandangLaying(projectFlockKandangId, endDate)
if err != nil {
return 0, err
}
// fmt.Println(costBudget, costExpedision, costOvk, costFeed, costPullet, depresiasiTransfer)
// depresiasiTransfer = 0
total := depresiasiTransfer + costPullet + costFeed + costOvk + costExpedision + costBudget
return total, nil
}
func (s *hppService) GetBudgetKandangLaying(projectFlockKandangId uint, endDate *time.Time) (float64, error) {
// if date == nil {
// now := time.Now()
// date = &now
// }
if s.hppRepo == nil {
return 0, nil
}
projectFlockId, err := s.hppRepo.GetProjectFlockIDByProjectFlockKandangID(context.Background(), projectFlockKandangId)
if err != nil {
return 0, err
}
projectFlockKandangIds, err := s.hppRepo.GetProjectFlockKandangIDs(context.Background(), projectFlockId)
if err != nil {
return 0, err
}
eggProduksiPiecesFlock, _, err := s.hppRepo.GetEggProduksiPiecesAndWeightKgByProjectFlockKandangIds(context.Background(), projectFlockKandangIds, endDate)
if err != nil {
return 0, err
}
eggProduksiPiecesKandang, _, err := s.hppRepo.GetEggProduksiPiecesAndWeightKgByProjectFlockKandangIds(context.Background(), []uint{projectFlockKandangId}, endDate)
if err != nil {
return 0, err
}
totalBudgetCost, err := s.hppRepo.GetBudgetCostByProjectFlockId(context.Background(), projectFlockId)
if err != nil {
return 0, err
}
if eggProduksiPiecesFlock == 0 {
return 0, nil
}
result := (totalBudgetCost * eggProduksiPiecesKandang) / eggProduksiPiecesFlock
return result, nil
}
func (s *hppService) GetDepresiasiTransfer(projectFlockKandangId uint, endDate *time.Time) (float64, error) {
if endDate == nil {
now := time.Now()
endDate = &now
}
if s.hppRepo == nil {
return 0, nil
}
sourceProjectFlockID, transferTotalQty, err := s.hppRepo.GetTransferSourceSummary(context.Background(), projectFlockKandangId)
if err != nil {
return 0, err
}
if sourceProjectFlockID == 0 || transferTotalQty <= 0 {
result, fallbackErr := s.getManualDepresiasiTransferFallback(projectFlockKandangId)
if fallbackErr != nil {
return 0, fallbackErr
}
return result, nil
}
kandangIDsGrowing, err := s.hppRepo.GetProjectFlockKandangIDs(context.Background(), sourceProjectFlockID)
if err != nil {
return 0, err
}
totalPopulationFlockGrowing, err := s.hppRepo.GetTotalPopulation(context.Background(), kandangIDsGrowing)
if err != nil {
return 0, err
}
if totalPopulationFlockGrowing == 0 {
return 0, nil
}
totalDepresiasiFlockGrowing, err := s.GetTotalDepresiasiFlockGrowing(sourceProjectFlockID, endDate)
if err != nil {
return 0, err
}
result := (totalDepresiasiFlockGrowing * transferTotalQty) / totalPopulationFlockGrowing
return result, nil
}
func (s *hppService) getManualDepresiasiTransferFallback(projectFlockKandangId uint) (float64, error) {
projectFlockID, err := s.hppRepo.GetProjectFlockIDByProjectFlockKandangID(context.Background(), projectFlockKandangId)
if err != nil {
return 0, err
}
if projectFlockID == 0 {
return 0, nil
}
manualCost, err := s.hppRepo.GetManualDepreciationCostByProjectFlockID(context.Background(), projectFlockID)
if err != nil {
return 0, err
}
if manualCost <= 0 {
return 0, nil
}
kandangIDs, err := s.hppRepo.GetProjectFlockKandangIDs(context.Background(), projectFlockID)
if err != nil {
return 0, err
}
if len(kandangIDs) == 0 {
return 0, nil
}
totalUsageQty, err := s.hppRepo.GetTotalPopulation(context.Background(), kandangIDs)
if err != nil {
return 0, err
}
if totalUsageQty <= 0 {
return 0, nil
}
kandangUsageQty, err := s.hppRepo.GetTotalPopulation(context.Background(), []uint{projectFlockKandangId})
if err != nil {
return 0, err
}
if kandangUsageQty <= 0 {
return 0, nil
}
result := manualCost * (kandangUsageQty / totalUsageQty)
return result, nil
}
func (s *hppService) GetHppEstimationDanRealisasi(totalProductionCost float64, projectFlockKandangId uint, startDate *time.Time, endDate *time.Time) (*HppCostResponse, error) {
if s.hppRepo == nil {
return &HppCostResponse{}, nil
}
estimPieces, estimWeightKg, err := s.hppRepo.GetEggProduksiPiecesAndWeightKgByProjectFlockKandangIds(context.Background(), []uint{projectFlockKandangId}, endDate)
if err != nil {
return nil, err
}
realPieces, realWeightKg, err := s.hppRepo.GetEggTerjualPiecesAndWeightKgByProjectFlockKandangIds(context.Background(), []uint{projectFlockKandangId}, startDate, endDate)
if err != nil {
return nil, err
}
estimation := HppCostDetail{
Total: totalProductionCost,
Kg: estimWeightKg,
Butir: estimPieces,
}
if estimWeightKg > 0 {
estimation.HargaKg = roundToTwoDecimals(totalProductionCost / estimWeightKg)
}
if estimPieces > 0 {
estimation.HargaButir = roundToTwoDecimals(totalProductionCost / estimPieces)
}
real := HppCostDetail{
Total: totalProductionCost,
Kg: realWeightKg,
Butir: realPieces,
}
if realWeightKg > 0 {
real.HargaKg = roundToTwoDecimals(totalProductionCost / realWeightKg)
}
if realPieces > 0 {
real.HargaButir = roundToTwoDecimals(totalProductionCost / realPieces)
}
result := &HppCostResponse{
Estimation: estimation,
Real: real,
}
return result, nil
}
func roundToTwoDecimals(value float64) float64 {
result := math.Round(value*100) / 100
return result
}
func formatTimePtr(value *time.Time) string {
if value == nil {
return "<nil>"
}
return value.Format(time.RFC3339)
}
internal/common/service/common.hppv2.model.go
-70
View File
@@ -1,70 +0,0 @@
package service
type HppV2DateWindow struct {
Start string `json:"start"`
End string `json:"end"`
}
type HppV2Proration struct {
Basis string `json:"basis"`
Numerator float64 `json:"numerator"`
Denominator float64 `json:"denominator"`
Ratio float64 `json:"ratio"`
}
type HppV2Reference struct {
Type string `json:"type"`
ID uint `json:"id"`
StockableType string `json:"stockable_type,omitempty"`
ProjectFlockKandangID *uint `json:"project_flock_kandang_id,omitempty"`
ProductID uint `json:"product_id,omitempty"`
ProductName string `json:"product_name,omitempty"`
Date string `json:"date,omitempty"`
Qty float64 `json:"qty"`
UnitPrice float64 `json:"unit_price"`
Total float64 `json:"total"`
AppliedTotal float64 `json:"applied_total"`
}
type HppV2ComponentPart struct {
Code string `json:"code"`
Title string `json:"title"`
Scopes []string `json:"scopes,omitempty"`
Total float64 `json:"total"`
Proration *HppV2Proration `json:"proration,omitempty"`
Details map[string]any `json:"details,omitempty"`
References []HppV2Reference `json:"references,omitempty"`
}
type HppV2Component struct {
Code string `json:"code"`
Title string `json:"title"`
Scopes []string `json:"scopes,omitempty"`
Total float64 `json:"total"`
Parts []HppV2ComponentPart `json:"parts"`
}
type HppCostDebugValues struct {
RecordingEggQty float64 `json:"recording_egg_qty"`
RecordingEggWeight float64 `json:"recording_egg_weight"`
AdjustmentEggQty float64 `json:"adjustment_egg_qty"`
AdjustmentEggWeight float64 `json:"adjustment_egg_weight"`
SoldEggQty float64 `json:"sold_egg_qty"`
SoldEggWeight float64 `json:"sold_egg_weight"`
}
type HppV2Breakdown struct {
ProjectFlockKandangID uint `json:"project_flock_kandang_id"`
ProjectFlockID uint `json:"project_flock_id"`
ProjectFlockCategory string `json:"project_flock_category,omitempty"`
HouseType string `json:"house_type,omitempty"`
KandangID uint `json:"kandang_id,omitempty"`
KandangName string `json:"kandang_name,omitempty"`
LocationID uint `json:"location_id,omitempty"`
PeriodDate string `json:"period_date"`
Window HppV2DateWindow `json:"window"`
TotalPulletCost float64 `json:"total_pullet_cost"`
TotalProductionCost float64 `json:"total_production_cost"`
Components []HppV2Component `json:"components"`
Hpp HppCostResponse `json:"hpp"`
}
internal/common/service/common.hppv2.service.go
-1732
View File
File diff suppressed because it is too large Load Diff
internal/common/service/common.hppv2.service_test.go
-888
View File
@@ -1,888 +0,0 @@
package service
import (
"context"
"fmt"
"sort"
"strings"
"testing"
"time"
commonRepo "gitlab.com/mbugroup/lti-api.git/internal/common/repository"
"gitlab.com/mbugroup/lti-api.git/internal/utils"
)
type hppV2RepoStub struct {
contextByPFK map[uint]*commonRepo.HppV2ProjectFlockKandangContext
pfkIDsByProject map[uint][]uint
latestTransferByPFK map[uint]*commonRepo.HppV2LatestTransferInputRow
manualInputByProject map[uint]*commonRepo.HppV2ManualDepreciationInputRow
snapshotByProjectKey map[string]*commonRepo.HppV2FarmDepreciationSnapshotRow
chickInDateByProject map[uint]*time.Time
depreciationByHouse map[string]map[int]float64
usageRowsByKey map[string][]commonRepo.HppV2UsageCostRow
adjustRowsByKey map[string][]commonRepo.HppV2AdjustmentCostRow
chickinRowsByKey map[string][]commonRepo.HppV2ChickinCostRow
expenseRowsByPFKKey map[string][]commonRepo.HppV2ExpenseCostRow
expenseRowsByFarmKey map[string][]commonRepo.HppV2ExpenseCostRow
routeCostByProject map[uint]float64
totalPopulationByKey map[string]float64
transferSummaryByPFK map[uint]struct {
projectFlockID uint
totalQty float64
}
eggProductionByPFK map[uint]struct {
pieces float64
kg float64
}
eggSalesByPFK map[uint]struct {
pieces float64
kg float64
}
}
func (s *hppV2RepoStub) GetProjectFlockKandangContext(_ context.Context, projectFlockKandangId uint) (*commonRepo.HppV2ProjectFlockKandangContext, error) {
row := s.contextByPFK[projectFlockKandangId]
if row == nil {
return nil, fmt.Errorf("pfk %d not found", projectFlockKandangId)
}
return row, nil
}
func (s *hppV2RepoStub) GetProjectFlockKandangIDs(_ context.Context, projectFlockId uint) ([]uint, error) {
return append([]uint{}, s.pfkIDsByProject[projectFlockId]...), nil
}
func (s *hppV2RepoStub) GetLatestTransferInputByProjectFlockKandangID(_ context.Context, projectFlockKandangId uint, _ time.Time) (*commonRepo.HppV2LatestTransferInputRow, error) {
return s.latestTransferByPFK[projectFlockKandangId], nil
}
func (s *hppV2RepoStub) GetManualDepreciationInputByProjectFlockID(_ context.Context, projectFlockID uint) (*commonRepo.HppV2ManualDepreciationInputRow, error) {
return s.manualInputByProject[projectFlockID], nil
}
func (s *hppV2RepoStub) GetRecordingStockRoutingAdjustmentCostByProjectFlockID(_ context.Context, projectFlockID uint, _ time.Time) (float64, error) {
return s.routeCostByProject[projectFlockID], nil
}
func (s *hppV2RepoStub) GetFarmDepreciationSnapshotByProjectFlockIDAndPeriod(_ context.Context, projectFlockID uint, periodDate time.Time) (*commonRepo.HppV2FarmDepreciationSnapshotRow, error) {
if s.snapshotByProjectKey == nil {
return nil, nil
}
return s.snapshotByProjectKey[fmt.Sprintf("%d|%s", projectFlockID, periodDate.Format("2006-01-02"))], nil
}
func (s *hppV2RepoStub) GetEarliestChickInDateByProjectFlockID(_ context.Context, projectFlockID uint) (*time.Time, error) {
return s.chickInDateByProject[projectFlockID], nil
}
func (s *hppV2RepoStub) GetDepreciationPercents(_ context.Context, houseTypes []string, maxDay int) (map[string]map[int]float64, error) {
result := make(map[string]map[int]float64)
for _, houseType := range houseTypes {
source := s.depreciationByHouse[houseType]
if len(source) == 0 {
continue
}
result[houseType] = make(map[int]float64)
for day, pct := range source {
if day <= maxDay {
result[houseType][day] = pct
}
}
}
return result, nil
}
func (s *hppV2RepoStub) ListUsageCostRowsByProductFlags(_ context.Context, projectFlockKandangIDs []uint, flagNames []string, _ *time.Time) ([]commonRepo.HppV2UsageCostRow, error) {
return append([]commonRepo.HppV2UsageCostRow{}, s.usageRowsByKey[stubKey(projectFlockKandangIDs, flagNames)]...), nil
}
func (s *hppV2RepoStub) ListAdjustmentCostRowsByProductFlags(_ context.Context, projectFlockKandangIDs []uint, flagNames []string, _ *time.Time) ([]commonRepo.HppV2AdjustmentCostRow, error) {
return append([]commonRepo.HppV2AdjustmentCostRow{}, s.adjustRowsByKey[stubKey(projectFlockKandangIDs, flagNames)]...), nil
}
func (s *hppV2RepoStub) ListExpenseRealizationRowsByProjectFlockKandangIDs(_ context.Context, projectFlockKandangIDs []uint, _ *time.Time, ekspedisi bool) ([]commonRepo.HppV2ExpenseCostRow, error) {
return append([]commonRepo.HppV2ExpenseCostRow{}, s.expenseRowsByPFKKey[expenseStubKey(projectFlockKandangIDs, ekspedisi)]...), nil
}
func (s *hppV2RepoStub) ListExpenseRealizationRowsByProjectFlockID(_ context.Context, projectFlockID uint, _ *time.Time, ekspedisi bool) ([]commonRepo.HppV2ExpenseCostRow, error) {
return append([]commonRepo.HppV2ExpenseCostRow{}, s.expenseRowsByFarmKey[expenseFarmKey(projectFlockID, ekspedisi)]...), nil
}
func (s *hppV2RepoStub) ListChickinCostRowsByProductFlags(_ context.Context, projectFlockKandangIDs []uint, flagNames []string, _ *time.Time, excludeTransferToLaying bool) ([]commonRepo.HppV2ChickinCostRow, error) {
return append([]commonRepo.HppV2ChickinCostRow{}, s.chickinRowsByKey[chickinStubKey(projectFlockKandangIDs, flagNames, excludeTransferToLaying)]...), nil
}
func (s *hppV2RepoStub) GetFeedUsageCost(_ context.Context, _ []uint, _ *time.Time) (float64, error) {
return 0, nil
}
func (s *hppV2RepoStub) GetTotalPopulation(_ context.Context, projectFlockKandangIDs []uint) (float64, error) {
return s.totalPopulationByKey[stubKey(projectFlockKandangIDs, nil)], nil
}
func (s *hppV2RepoStub) GetEggProduksiPiecesAndWeightKgByProjectFlockKandangIds(_ context.Context, projectFlockKandangIDs []uint, _ *time.Time) (float64, float64, error) {
totalPieces := 0.0
totalKg := 0.0
for _, projectFlockKandangID := range projectFlockKandangIDs {
row := s.eggProductionByPFK[projectFlockKandangID]
totalPieces += row.pieces
totalKg += row.kg
}
return totalPieces, totalKg, nil
}
func (s *hppV2RepoStub) GetEggProduksiBreakdownByProjectFlockKandangIds(_ context.Context, projectFlockKandangIDs []uint, _ *time.Time) (float64, float64, float64, float64, error) {
totalPieces := 0.0
totalKg := 0.0
for _, projectFlockKandangID := range projectFlockKandangIDs {
row := s.eggProductionByPFK[projectFlockKandangID]
totalPieces += row.pieces
totalKg += row.kg
}
return totalPieces, totalKg, 0, 0, nil
}
func (s *hppV2RepoStub) GetEggTerjualPiecesAndWeightKgByProjectFlockKandangIds(_ context.Context, projectFlockKandangIDs []uint, _ *time.Time, _ *time.Time) (float64, float64, error) {
if len(projectFlockKandangIDs) != 1 {
return 0, 0, nil
}
row := s.eggSalesByPFK[projectFlockKandangIDs[0]]
return row.pieces, row.kg, nil
}
func (s *hppV2RepoStub) GetTransferSourceSummary(_ context.Context, projectFlockKandangId uint) (uint, float64, error) {
row := s.transferSummaryByPFK[projectFlockKandangId]
return row.projectFlockID, row.totalQty, nil
}
func TestHppV2CalculateHppBreakdown_ComposesPakanSlices(t *testing.T) {
repo := &hppV2RepoStub{
contextByPFK: map[uint]*commonRepo.HppV2ProjectFlockKandangContext{
10: {
ProjectFlockKandangID: 10,
ProjectFlockID: 2,
ProjectFlockCategory: "LAYING",
KandangID: 100,
KandangName: "Kandang A",
LocationID: 16,
},
},
pfkIDsByProject: map[uint][]uint{
1: {101, 102},
},
usageRowsByKey: map[string][]commonRepo.HppV2UsageCostRow{
stubKey([]uint{101, 102}, []string{"PAKAN"}): {
{StockableType: "purchase_items", StockableID: 9001, SourceProductID: 8, SourceProductName: "Pakan Growing", Qty: 100, UnitPrice: 40, TotalCost: 4000},
},
stubKey([]uint{10}, []string{"PAKAN"}): {
{StockableType: "purchase_items", StockableID: 9002, SourceProductID: 9, SourceProductName: "Pakan Laying", Qty: 50, UnitPrice: 30, TotalCost: 1500},
},
},
adjustRowsByKey: map[string][]commonRepo.HppV2AdjustmentCostRow{
stubKey([]uint{101, 102}, []string{"PAKAN-CUTOVER"}): {
{AdjustmentID: 8001, ProductID: 11, ProductName: "Pakan Growing Cut-over", Qty: 20, Price: 30, GrandTotal: 600},
},
stubKey([]uint{10}, []string{"PAKAN-CUTOVER"}): {
{AdjustmentID: 8002, ProductID: 12, ProductName: "Pakan Laying Cut-over", Qty: 10, Price: 30, GrandTotal: 300},
},
},
totalPopulationByKey: map[string]float64{
stubKey([]uint{101, 102}, nil): 1000,
},
transferSummaryByPFK: map[uint]struct {
projectFlockID uint
totalQty float64
}{
10: {projectFlockID: 1, totalQty: 250},
},
eggProductionByPFK: map[uint]struct {
pieces float64
kg float64
}{
10: {pieces: 100, kg: 10},
},
eggSalesByPFK: map[uint]struct {
pieces float64
kg float64
}{
10: {pieces: 40, kg: 4},
},
}
svc := NewHppV2Service(repo)
result, err := svc.CalculateHppBreakdown(10, mustDate(t, "2026-04-19"))
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if result == nil {
t.Fatal("expected breakdown result")
}
if got := result.TotalPulletCost; got != 1150 {
t.Fatalf("expected total pullet cost 1150, got %v", got)
}
if got := result.TotalProductionCost; got != 1800 {
t.Fatalf("expected total production cost 1800, got %v", got)
}
if len(result.Components) != 1 {
t.Fatalf("expected 1 component, got %d", len(result.Components))
}
component := result.Components[0]
if component.Code != "PAKAN" {
t.Fatalf("expected PAKAN component, got %s", component.Code)
}
partTotals := map[string]float64{}
for _, part := range component.Parts {
partTotals[part.Code] = part.Total
}
if partTotals[hppV2PartGrowingNormal] != 1000 {
t.Fatalf("expected growing normal 1000, got %v", partTotals[hppV2PartGrowingNormal])
}
if partTotals[hppV2PartGrowingCutover] != 150 {
t.Fatalf("expected growing cutover 150, got %v", partTotals[hppV2PartGrowingCutover])
}
if partTotals[hppV2PartLayingNormal] != 1500 {
t.Fatalf("expected laying normal 1500, got %v", partTotals[hppV2PartLayingNormal])
}
if partTotals[hppV2PartLayingCutover] != 300 {
t.Fatalf("expected laying cutover 300, got %v", partTotals[hppV2PartLayingCutover])
}
if component.Parts[0].Proration == nil || component.Parts[0].Proration.Ratio != 0.25 {
t.Fatalf("expected growing proration ratio 0.25, got %+v", component.Parts[0].Proration)
}
if result.Hpp.Estimation.HargaKg != 180 {
t.Fatalf("expected estimation harga/kg 180, got %v", result.Hpp.Estimation.HargaKg)
}
if result.Hpp.Real.HargaKg != 450 {
t.Fatalf("expected real harga/kg 450, got %v", result.Hpp.Real.HargaKg)
}
}
func TestHppV2CalculateHppBreakdown_ManualCutoverUsesLayingSlicesOnly(t *testing.T) {
repo := &hppV2RepoStub{
contextByPFK: map[uint]*commonRepo.HppV2ProjectFlockKandangContext{
20: {
ProjectFlockKandangID: 20,
ProjectFlockID: 3,
ProjectFlockCategory: "LAYING",
KandangID: 200,
KandangName: "Kandang B",
LocationID: 17,
},
},
usageRowsByKey: map[string][]commonRepo.HppV2UsageCostRow{
stubKey([]uint{20}, []string{"PAKAN"}): {
{StockableType: "purchase_items", StockableID: 9100, SourceProductID: 21, SourceProductName: "Pakan Laying", Qty: 20, UnitPrice: 10, TotalCost: 200},
},
},
adjustRowsByKey: map[string][]commonRepo.HppV2AdjustmentCostRow{
stubKey([]uint{20}, []string{"PAKAN-CUTOVER"}): {
{AdjustmentID: 8100, ProductID: 22, ProductName: "Pakan Laying Cut-over", Qty: 30, Price: 10, GrandTotal: 300},
},
},
eggProductionByPFK: map[uint]struct {
pieces float64
kg float64
}{
20: {pieces: 50, kg: 5},
},
eggSalesByPFK: map[uint]struct {
pieces float64
kg float64
}{
20: {pieces: 25, kg: 2.5},
},
}
svc := NewHppV2Service(repo)
result, err := svc.CalculateHppBreakdown(20, mustDate(t, "2026-04-19"))
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if result.TotalProductionCost != 500 {
t.Fatalf("expected total production cost 500, got %v", result.TotalProductionCost)
}
component := result.Components[0]
if len(component.Parts) != 2 {
t.Fatalf("expected 2 laying parts, got %d", len(component.Parts))
}
for _, part := range component.Parts {
if strings.HasPrefix(part.Code, "growing_") {
t.Fatalf("expected no growing parts, got %s", part.Code)
}
}
if result.Hpp.Estimation.HargaKg != 100 {
t.Fatalf("expected estimation harga/kg 100, got %v", result.Hpp.Estimation.HargaKg)
}
}
func TestHppV2CalculateHppBreakdown_IncludesOvkComponent(t *testing.T) {
repo := &hppV2RepoStub{
contextByPFK: map[uint]*commonRepo.HppV2ProjectFlockKandangContext{
30: {
ProjectFlockKandangID: 30,
ProjectFlockID: 4,
ProjectFlockCategory: "LAYING",
KandangID: 300,
KandangName: "Kandang C",
LocationID: 18,
},
},
pfkIDsByProject: map[uint][]uint{
5: {301, 302},
},
usageRowsByKey: map[string][]commonRepo.HppV2UsageCostRow{
stubKey([]uint{30}, []string{"PAKAN"}): {
{StockableType: "purchase_items", StockableID: 9200, SourceProductID: 31, SourceProductName: "Pakan Laying", Qty: 20, UnitPrice: 25, TotalCost: 500},
},
stubKey([]uint{301, 302}, []string{string(utils.FlagOVK), string(utils.FlagObat), string(utils.FlagVitamin), string(utils.FlagKimia)}): {
{StockableType: "purchase_items", StockableID: 9201, SourceProductID: 32, SourceProductName: "OVK Growing", Qty: 40, UnitPrice: 10, TotalCost: 400},
},
stubKey([]uint{30}, []string{string(utils.FlagOVK), string(utils.FlagObat), string(utils.FlagVitamin), string(utils.FlagKimia)}): {
{StockableType: "purchase_items", StockableID: 9202, SourceProductID: 33, SourceProductName: "OVK Laying", Qty: 15, UnitPrice: 10, TotalCost: 150},
},
},
adjustRowsByKey: map[string][]commonRepo.HppV2AdjustmentCostRow{
stubKey([]uint{301, 302}, []string{"OVK"}): {
{AdjustmentID: 8201, ProductID: 34, ProductName: "OVK Growing Cut-over", Qty: 10, Price: 10, GrandTotal: 100},
},
stubKey([]uint{30}, []string{"OVK"}): {
{AdjustmentID: 8202, ProductID: 35, ProductName: "OVK Laying Cut-over", Qty: 5, Price: 10, GrandTotal: 50},
},
},
totalPopulationByKey: map[string]float64{
stubKey([]uint{301, 302}, nil): 1000,
},
transferSummaryByPFK: map[uint]struct {
projectFlockID uint
totalQty float64
}{
30: {projectFlockID: 5, totalQty: 500},
},
eggProductionByPFK: map[uint]struct {
pieces float64
kg float64
}{
30: {pieces: 120, kg: 12},
},
eggSalesByPFK: map[uint]struct {
pieces float64
kg float64
}{
30: {pieces: 60, kg: 6},
},
}
svc := NewHppV2Service(repo)
result, err := svc.CalculateHppBreakdown(30, mustDate(t, "2026-04-19"))
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if result == nil {
t.Fatal("expected breakdown result")
}
if len(result.Components) != 2 {
t.Fatalf("expected 2 components, got %d", len(result.Components))
}
componentTotals := map[string]float64{}
for _, component := range result.Components {
componentTotals[component.Code] = component.Total
}
if componentTotals[hppV2ComponentPakan] != 500 {
t.Fatalf("expected pakan total 500, got %v", componentTotals[hppV2ComponentPakan])
}
if componentTotals[hppV2ComponentOvk] != 450 {
t.Fatalf("expected ovk total 450, got %v", componentTotals[hppV2ComponentOvk])
}
if result.TotalPulletCost != 250 {
t.Fatalf("expected total pullet cost 250, got %v", result.TotalPulletCost)
}
if result.TotalProductionCost != 700 {
t.Fatalf("expected total production cost 700, got %v", result.TotalProductionCost)
}
if result.Hpp.Estimation.HargaKg != 58.33 {
t.Fatalf("expected estimation harga/kg 58.33, got %v", result.Hpp.Estimation.HargaKg)
}
}
func TestHppV2CalculateHppBreakdown_IncludesDocAndDirectPulletChickin(t *testing.T) {
repo := &hppV2RepoStub{
contextByPFK: map[uint]*commonRepo.HppV2ProjectFlockKandangContext{
35: {
ProjectFlockKandangID: 35,
ProjectFlockID: 8,
ProjectFlockCategory: "LAYING",
KandangID: 350,
KandangName: "Kandang E",
LocationID: 20,
},
},
pfkIDsByProject: map[uint][]uint{
9: {901, 902},
},
totalPopulationByKey: map[string]float64{
stubKey([]uint{901, 902}, nil): 1000,
},
transferSummaryByPFK: map[uint]struct {
projectFlockID uint
totalQty float64
}{
35: {projectFlockID: 9, totalQty: 250},
},
chickinRowsByKey: map[string][]commonRepo.HppV2ChickinCostRow{
chickinStubKey([]uint{901, 902}, []string{string(utils.FlagDOC)}, false): {
{ProjectChickinID: 1, ProjectFlockKandangID: 901, ChickInDate: mustTime(t, "2026-04-01"), StockableType: "purchase_items", StockableID: 1001, SourceProductID: 77, SourceProductName: "DOC", Qty: 1000, UnitPrice: 2, TotalCost: 2000},
},
chickinStubKey([]uint{35}, []string{string(utils.FlagPullet), string(utils.FlagLayer)}, true): {
{ProjectChickinID: 2, ProjectFlockKandangID: 35, ChickInDate: mustTime(t, "2026-04-15"), StockableType: "purchase_items", StockableID: 1002, SourceProductID: 78, SourceProductName: "Pullet", Qty: 50, UnitPrice: 20, TotalCost: 1000},
},
},
eggProductionByPFK: map[uint]struct {
pieces float64
kg float64
}{
35: {pieces: 100, kg: 10},
},
eggSalesByPFK: map[uint]struct {
pieces float64
kg float64
}{
35: {pieces: 80, kg: 8},
},
}
svc := NewHppV2Service(repo)
result, err := svc.CalculateHppBreakdown(35, mustDate(t, "2026-04-19"))
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
componentTotals := map[string]float64{}
for _, component := range result.Components {
componentTotals[component.Code] = component.Total
}
if componentTotals[hppV2ComponentDocChickin] != 500 {
t.Fatalf("expected doc chickin total 500, got %v", componentTotals[hppV2ComponentDocChickin])
}
if componentTotals[hppV2ComponentDirectPulletPurchase] != 1000 {
t.Fatalf("expected direct pullet purchase total 1000, got %v", componentTotals[hppV2ComponentDirectPulletPurchase])
}
if result.TotalPulletCost != 500 {
t.Fatalf("expected total pullet cost 500, got %v", result.TotalPulletCost)
}
if result.TotalProductionCost != 1000 {
t.Fatalf("expected total production cost 1000, got %v", result.TotalProductionCost)
}
if result.Hpp.Estimation.HargaKg != 100 {
t.Fatalf("expected estimation harga/kg 100, got %v", result.Hpp.Estimation.HargaKg)
}
}
func TestHppV2CalculateHppBreakdown_IncludesBopRegularAndEkspedisi(t *testing.T) {
repo := &hppV2RepoStub{
contextByPFK: map[uint]*commonRepo.HppV2ProjectFlockKandangContext{
40: {
ProjectFlockKandangID: 40,
ProjectFlockID: 6,
ProjectFlockCategory: "LAYING",
KandangID: 400,
KandangName: "Kandang D",
LocationID: 19,
},
},
pfkIDsByProject: map[uint][]uint{
6: {40, 41},
7: {701, 702},
},
totalPopulationByKey: map[string]float64{
stubKey([]uint{701, 702}, nil): 1000,
},
transferSummaryByPFK: map[uint]struct {
projectFlockID uint
totalQty float64
}{
40: {projectFlockID: 7, totalQty: 200},
},
expenseRowsByPFKKey: map[string][]commonRepo.HppV2ExpenseCostRow{
expenseStubKey([]uint{701, 702}, false): {
{ExpenseRealizationID: 1, NonstockID: 11, NonstockName: "Growing BOP", Qty: 1, Price: 500, TotalCost: 500, RealizationDate: mustTime(t, "2026-04-10")},
},
expenseStubKey([]uint{40}, false): {
{ExpenseRealizationID: 2, NonstockID: 12, NonstockName: "Laying BOP", Qty: 1, Price: 80, TotalCost: 80, RealizationDate: mustTime(t, "2026-04-19")},
},
expenseStubKey([]uint{701, 702}, true): {
{ExpenseRealizationID: 3, NonstockID: 13, NonstockName: "Growing Expedition", Qty: 1, Price: 100, TotalCost: 100, RealizationDate: mustTime(t, "2026-04-11")},
},
expenseStubKey([]uint{40}, true): {
{ExpenseRealizationID: 4, NonstockID: 14, NonstockName: "Laying Expedition", Qty: 1, Price: 40, TotalCost: 40, RealizationDate: mustTime(t, "2026-04-19")},
},
},
expenseRowsByFarmKey: map[string][]commonRepo.HppV2ExpenseCostRow{
expenseFarmKey(7, false): {
{ExpenseRealizationID: 5, NonstockID: 15, NonstockName: "Growing Farm BOP", Qty: 1, Price: 300, TotalCost: 300, RealizationDate: mustTime(t, "2026-04-12")},
},
expenseFarmKey(6, false): {
{ExpenseRealizationID: 6, NonstockID: 16, NonstockName: "Laying Farm BOP", Qty: 1, Price: 100, TotalCost: 100, RealizationDate: mustTime(t, "2026-04-19")},
},
expenseFarmKey(7, true): {
{ExpenseRealizationID: 7, NonstockID: 17, NonstockName: "Growing Farm Expedition", Qty: 1, Price: 50, TotalCost: 50, RealizationDate: mustTime(t, "2026-04-12")},
},
expenseFarmKey(6, true): {
{ExpenseRealizationID: 8, NonstockID: 18, NonstockName: "Laying Farm Expedition", Qty: 1, Price: 60, TotalCost: 60, RealizationDate: mustTime(t, "2026-04-19")},
},
},
eggProductionByPFK: map[uint]struct {
pieces float64
kg float64
}{
40: {pieces: 30, kg: 3},
41: {pieces: 70, kg: 7},
},
eggSalesByPFK: map[uint]struct {
pieces float64
kg float64
}{
40: {pieces: 50, kg: 5},
},
}
svc := NewHppV2Service(repo)
result, err := svc.CalculateHppBreakdown(40, mustDate(t, "2026-04-19"))
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
componentTotals := map[string]float64{}
for _, component := range result.Components {
componentTotals[component.Code] = component.Total
}
if componentTotals[hppV2ComponentBopRegular] != 270 {
t.Fatalf("expected regular BOP total 270, got %v", componentTotals[hppV2ComponentBopRegular])
}
if componentTotals[hppV2ComponentBopEksp] != 88 {
t.Fatalf("expected expedition BOP total 88, got %v", componentTotals[hppV2ComponentBopEksp])
}
if result.TotalPulletCost != 190 {
t.Fatalf("expected total pullet cost 190, got %v", result.TotalPulletCost)
}
if result.TotalProductionCost != 168 {
t.Fatalf("expected total production cost 168, got %v", result.TotalProductionCost)
}
if result.Hpp.Estimation.HargaKg != 56 {
t.Fatalf("expected estimation harga/kg 56, got %v", result.Hpp.Estimation.HargaKg)
}
}
func TestHppV2CalculateHppBreakdown_AddsDepreciationForNormalTransfer(t *testing.T) {
sourceChickIn := mustTime(t, "2026-01-01")
reportDate := sourceChickIn.AddDate(0, 0, 154)
repo := &hppV2RepoStub{
contextByPFK: map[uint]*commonRepo.HppV2ProjectFlockKandangContext{
50: {
ProjectFlockKandangID: 50,
ProjectFlockID: 10,
ProjectFlockCategory: "LAYING",
KandangID: 500,
KandangName: "Kandang F",
LocationID: 21,
HouseType: "close_house",
},
},
pfkIDsByProject: map[uint][]uint{
11: {501},
},
latestTransferByPFK: map[uint]*commonRepo.HppV2LatestTransferInputRow{
50: {
ProjectFlockKandangID: 50,
SourceProjectFlockID: 11,
TransferDate: mustTime(t, "2026-05-20"),
TransferQty: 100,
TransferID: 701,
},
},
chickInDateByProject: map[uint]*time.Time{
11: &sourceChickIn,
},
depreciationByHouse: map[string]map[int]float64{
"close_house": {
1: 10,
},
},
usageRowsByKey: map[string][]commonRepo.HppV2UsageCostRow{
stubKey([]uint{501}, []string{"PAKAN"}): {
{StockableType: "purchase_items", StockableID: 9301, SourceProductID: 41, SourceProductName: "Pakan Growing", Qty: 25, UnitPrice: 40, TotalCost: 1000},
},
},
totalPopulationByKey: map[string]float64{
stubKey([]uint{501}, nil): 100,
},
transferSummaryByPFK: map[uint]struct {
projectFlockID uint
totalQty float64
}{
50: {projectFlockID: 11, totalQty: 100},
},
eggProductionByPFK: map[uint]struct {
pieces float64
kg float64
}{
50: {pieces: 20, kg: 10},
},
}
svc := NewHppV2Service(repo)
result, err := svc.CalculateHppBreakdown(50, &reportDate)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if result.TotalPulletCost != 1000 {
t.Fatalf("expected total pullet cost 1000, got %v", result.TotalPulletCost)
}
if result.TotalProductionCost != 100 {
t.Fatalf("expected total production cost 100, got %v", result.TotalProductionCost)
}
var depreciation *HppV2Component
for i := range result.Components {
if result.Components[i].Code == hppV2ComponentDepreciation {
depreciation = &result.Components[i]
break
}
}
if depreciation == nil {
t.Fatal("expected depreciation component")
}
if depreciation.Total != 100 {
t.Fatalf("expected depreciation total 100, got %v", depreciation.Total)
}
if len(depreciation.Parts) != 1 {
t.Fatalf("expected single depreciation part, got %d", len(depreciation.Parts))
}
if depreciation.Parts[0].Details["schedule_day"] != 1 {
t.Fatalf("expected schedule day 1, got %+v", depreciation.Parts[0].Details)
}
if depreciation.Parts[0].Details["origin_date"] != "2026-01-01" {
t.Fatalf("expected origin date 2026-01-01, got %+v", depreciation.Parts[0].Details)
}
if result.Hpp.Estimation.HargaKg != 10 {
t.Fatalf("expected estimation harga/kg 10, got %v", result.Hpp.Estimation.HargaKg)
}
}
func TestHppV2CalculateHppBreakdown_AddsDepreciationForManualCutoverFromCutoverDate(t *testing.T) {
originDate := mustTime(t, "2026-01-01")
cutoverDate := originDate.AddDate(0, 0, 155)
repo := &hppV2RepoStub{
contextByPFK: map[uint]*commonRepo.HppV2ProjectFlockKandangContext{
60: {
ProjectFlockKandangID: 60,
ProjectFlockID: 12,
ProjectFlockCategory: "LAYING",
KandangID: 600,
KandangName: "Kandang G",
LocationID: 22,
HouseType: "close_house",
},
},
pfkIDsByProject: map[uint][]uint{
12: {60},
},
manualInputByProject: map[uint]*commonRepo.HppV2ManualDepreciationInputRow{
12: {
ID: 801,
ProjectFlockID: 12,
TotalCost: 1000,
CutoverDate: cutoverDate,
},
},
chickInDateByProject: map[uint]*time.Time{
12: &originDate,
},
depreciationByHouse: map[string]map[int]float64{
"close_house": {
1: 10,
2: 20,
},
},
totalPopulationByKey: map[string]float64{
stubKey([]uint{60}, nil): 100,
},
eggProductionByPFK: map[uint]struct {
pieces float64
kg float64
}{
60: {pieces: 20, kg: 10},
},
}
svc := NewHppV2Service(repo)
result, err := svc.CalculateHppBreakdown(60, &cutoverDate)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if result.TotalPulletCost != 1000 {
t.Fatalf("expected total pullet cost 1000, got %v", result.TotalPulletCost)
}
if result.TotalProductionCost != 200 {
t.Fatalf("expected total production cost 200, got %v", result.TotalProductionCost)
}
componentTotals := map[string]float64{}
for _, component := range result.Components {
componentTotals[component.Code] = component.Total
}
if componentTotals[hppV2ComponentManualPulletCost] != 1000 {
t.Fatalf("expected manual pullet cost 1000, got %v", componentTotals[hppV2ComponentManualPulletCost])
}
if componentTotals[hppV2ComponentDepreciation] != 200 {
t.Fatalf("expected depreciation 200, got %v", componentTotals[hppV2ComponentDepreciation])
}
var depreciation *HppV2Component
for i := range result.Components {
if result.Components[i].Code == hppV2ComponentDepreciation {
depreciation = &result.Components[i]
break
}
}
if depreciation == nil || len(depreciation.Parts) != 1 {
t.Fatalf("expected one depreciation part, got %+v", depreciation)
}
if depreciation.Parts[0].Details["schedule_day"] != 2 {
t.Fatalf("expected schedule day 2, got %+v", depreciation.Parts[0].Details)
}
if depreciation.Parts[0].Details["start_schedule_day"] != 2 {
t.Fatalf("expected start schedule day 2, got %+v", depreciation.Parts[0].Details)
}
if result.Hpp.Estimation.HargaKg != 20 {
t.Fatalf("expected estimation harga/kg 20, got %v", result.Hpp.Estimation.HargaKg)
}
}
func TestHppV2CalculateHppBreakdown_UsesFarmSnapshotDepreciationProratedByEggProduction(t *testing.T) {
reportDate := mustTime(t, "2026-06-05")
repo := &hppV2RepoStub{
contextByPFK: map[uint]*commonRepo.HppV2ProjectFlockKandangContext{
70: {
ProjectFlockKandangID: 70,
ProjectFlockID: 15,
ProjectFlockCategory: "LAYING",
KandangID: 700,
KandangName: "Kandang Snapshot",
LocationID: 25,
HouseType: "close_house",
},
},
pfkIDsByProject: map[uint][]uint{
15: {70, 71},
},
snapshotByProjectKey: map[string]*commonRepo.HppV2FarmDepreciationSnapshotRow{
"15|2026-06-05": {
ID: 901,
ProjectFlockID: 15,
PeriodDate: reportDate,
DepreciationPercentEffective: 10,
DepreciationValue: 1000,
PulletCostDayNTotal: 10000,
},
},
eggProductionByPFK: map[uint]struct {
pieces float64
kg float64
}{
70: {pieces: 200, kg: 20},
71: {pieces: 800, kg: 80},
},
}
svc := NewHppV2Service(repo)
result, err := svc.CalculateHppBreakdown(70, &reportDate)
if err != nil {
t.Fatalf("expected no error, got %v", err)
}
if result == nil {
t.Fatal("expected breakdown result")
}
var depreciation *HppV2Component
for i := range result.Components {
if result.Components[i].Code == hppV2ComponentDepreciation {
depreciation = &result.Components[i]
break
}
}
if depreciation == nil {
t.Fatal("expected depreciation component")
}
if depreciation.Total != 200 {
t.Fatalf("expected depreciation total 200, got %v", depreciation.Total)
}
if result.TotalProductionCost != 200 {
t.Fatalf("expected total production cost 200, got %v", result.TotalProductionCost)
}
if len(depreciation.Parts) != 1 {
t.Fatalf("expected one depreciation part, got %d", len(depreciation.Parts))
}
if depreciation.Parts[0].Code != hppV2PartDepreciationFarmSnapshot {
t.Fatalf("expected farm snapshot depreciation part, got %s", depreciation.Parts[0].Code)
}
if depreciation.Parts[0].Proration == nil || depreciation.Parts[0].Proration.Ratio != 0.2 {
t.Fatalf("expected proration ratio 0.2, got %+v", depreciation.Parts[0].Proration)
}
if depreciation.Parts[0].Details["snapshot_id"] != uint(901) {
t.Fatalf("expected snapshot id 901, got %+v", depreciation.Parts[0].Details)
}
}
func stubKey(ids []uint, flags []string) string {
idParts := make([]string, 0, len(ids))
for _, id := range ids {
idParts = append(idParts, fmt.Sprintf("%d", id))
}
sort.Strings(idParts)
flagParts := append([]string{}, flags...)
sort.Strings(flagParts)
return strings.Join(idParts, ",") + "|" + strings.Join(flagParts, ",")
}
func mustDate(t *testing.T, raw string) *time.Time {
t.Helper()
loc, err := time.LoadLocation("Asia/Jakarta")
if err != nil {
t.Fatalf("failed to load timezone: %v", err)
}
value, err := time.ParseInLocation("2006-01-02", raw, loc)
if err != nil {
t.Fatalf("failed to parse date %s: %v", raw, err)
}
return &value
}
func mustTime(t *testing.T, raw string) time.Time {
t.Helper()
value := mustDate(t, raw)
return *value
}
func expenseStubKey(ids []uint, ekspedisi bool) string {
return stubKey(ids, []string{fmt.Sprintf("ekspedisi=%t", ekspedisi)})
}
func expenseFarmKey(projectFlockID uint, ekspedisi bool) string {
return fmt.Sprintf("farm=%d|ekspedisi=%t", projectFlockID, ekspedisi)
}
func chickinStubKey(ids []uint, flags []string, excludeTransferToLaying bool) string {
return stubKey(ids, append(append([]string{}, flags...), fmt.Sprintf("exclude_transfer_to_laying=%t", excludeTransferToLaying)))
}
internal/common/service/depreciation_snapshot_invalidator.service.go
-103
View File
@@ -1,103 +0,0 @@
package service
import (
"context"
"time"
"gorm.io/gorm"
)
const farmDepreciationSnapshotTable = "farm_depreciation_snapshots"
func NormalizeDateOnlyUTC(value time.Time) time.Time {
if value.IsZero() {
return value
}
v := value.UTC()
return time.Date(v.Year(), v.Month(), v.Day(), 0, 0, 0, 0, time.UTC)
}
func MinNonZeroDateOnlyUTC(values ...time.Time) time.Time {
var out time.Time
for _, value := range values {
if value.IsZero() {
continue
}
normalized := NormalizeDateOnlyUTC(value)
if out.IsZero() || normalized.Before(out) {
out = normalized
}
}
return out
}
func InvalidateFarmDepreciationSnapshotsFromDate(ctx context.Context, db *gorm.DB, farmIDs []uint, fromDate time.Time) error {
if db == nil {
return nil
}
if fromDate.IsZero() {
return nil
}
fromDate = NormalizeDateOnlyUTC(fromDate)
query := db.WithContext(ctx).
Table(farmDepreciationSnapshotTable).
Where("period_date >= ?", fromDate)
if len(farmIDs) > 0 {
query = query.Where("project_flock_id IN ?", farmIDs)
}
return query.Delete(nil).Error
}
func ResolveProjectFlockIDsByProjectFlockKandangIDs(ctx context.Context, db *gorm.DB, pfkIDs []uint) ([]uint, error) {
if db == nil || len(pfkIDs) == 0 {
return []uint{}, nil
}
var projectFlockIDs []uint
if err := db.WithContext(ctx).
Table("project_flock_kandangs").
Distinct("project_flock_id").
Where("id IN ?", pfkIDs).
Pluck("project_flock_id", &projectFlockIDs).Error; err != nil {
return nil, err
}
return projectFlockIDs, nil
}
func ResolveProjectFlockIDsByExpenseID(ctx context.Context, db *gorm.DB, expenseID uint) ([]uint, error) {
if db == nil || expenseID == 0 {
return []uint{}, nil
}
query := `
WITH direct_farms AS (
SELECT DISTINCT pfk.project_flock_id
FROM expense_nonstocks ens
JOIN project_flock_kandangs pfk ON pfk.id = ens.project_flock_kandang_id
WHERE ens.expense_id = @expense_id
),
json_farms AS (
SELECT DISTINCT (jsonb_array_elements_text(e.project_flock_id::jsonb))::bigint AS project_flock_id
FROM expenses e
WHERE e.id = @expense_id
AND e.project_flock_id IS NOT NULL
)
SELECT DISTINCT project_flock_id
FROM (
SELECT project_flock_id FROM direct_farms
UNION ALL
SELECT project_flock_id FROM json_farms
) x
`
var ids []uint
if err := db.WithContext(ctx).Raw(query, map[string]any{
"expense_id": expenseID,
}).Scan(&ids).Error; err != nil {
return nil, err
}
return ids, nil
}
internal/common/service/fifo_pending_policy.go
-104
View File
@@ -1,104 +0,0 @@
package service
import (
"context"
"errors"
"strings"
"gorm.io/gorm"
)
type FifoPendingPolicyInput struct {
Lane string
FlagGroupCode string
FunctionCode string
LegacyTypeKey string
}
type FifoPendingPolicyResult struct {
AllowPending bool
RuleSource string
Found bool
}
func ResolveFifoPendingPolicy(ctx context.Context, tx *gorm.DB, input FifoPendingPolicyInput) (*FifoPendingPolicyResult, error) {
if tx == nil {
return nil, gorm.ErrInvalidDB
}
lane := strings.ToUpper(strings.TrimSpace(input.Lane))
flagGroupCode := strings.ToUpper(strings.TrimSpace(input.FlagGroupCode))
functionCode := strings.ToUpper(strings.TrimSpace(input.FunctionCode))
legacyTypeKey := strings.ToUpper(strings.TrimSpace(input.LegacyTypeKey))
if lane == "" {
return &FifoPendingPolicyResult{
AllowPending: false,
RuleSource: "SAFE_DEFAULT_BLOCK",
Found: false,
}, nil
}
type overconsumeRuleRow struct {
Allow bool `gorm:"column:allow_overconsume"`
}
var overconsume overconsumeRuleRow
overconsumeErr := tx.WithContext(ctx).
Table("fifo_stock_v2_overconsume_rules").
Select("allow_overconsume").
Where("is_active = TRUE").
Where("lane = ?", lane).
Where("(flag_group_code IS NULL OR flag_group_code = ?)", flagGroupCode).
Where("(function_code IS NULL OR function_code = ?)", functionCode).
Order("CASE WHEN flag_group_code IS NULL THEN 1 ELSE 0 END ASC").
Order("CASE WHEN function_code IS NULL THEN 1 ELSE 0 END ASC").
Order("priority ASC, id ASC").
Limit(1).
Take(&overconsume).Error
if overconsumeErr == nil {
return &FifoPendingPolicyResult{
AllowPending: overconsume.Allow,
RuleSource: "OVERCONSUME_RULE",
Found: true,
}, nil
}
if !errors.Is(overconsumeErr, gorm.ErrRecordNotFound) {
return nil, overconsumeErr
}
type routeRuleRow struct {
AllowPendingDefault bool `gorm:"column:allow_pending_default"`
}
var routeRule routeRuleRow
routeQuery := tx.WithContext(ctx).
Table("fifo_stock_v2_route_rules").
Select("allow_pending_default").
Where("is_active = TRUE").
Where("lane = ?", lane).
Where("flag_group_code = ?", flagGroupCode)
if legacyTypeKey != "" {
routeQuery = routeQuery.Where("legacy_type_key = ?", legacyTypeKey)
}
if functionCode != "" {
routeQuery = routeQuery.Where("function_code = ?", functionCode)
}
routeErr := routeQuery.
Order("id ASC").
Limit(1).
Take(&routeRule).Error
if routeErr == nil {
return &FifoPendingPolicyResult{
AllowPending: routeRule.AllowPendingDefault,
RuleSource: "ROUTE_RULE_DEFAULT",
Found: true,
}, nil
}
if !errors.Is(routeErr, gorm.ErrRecordNotFound) {
return nil, routeErr
}
return &FifoPendingPolicyResult{
AllowPending: false,
RuleSource: "SAFE_DEFAULT_BLOCK",
Found: false,
}, nil
}
internal/common/service/fifo_stock_v2/RFC.md
-58
View File
@@ -1,58 +0,0 @@
# RFC Ringkas: FIFO Stock V2
## Tujuan
`fifo_stock_v2` adalah engine FIFO baru berbasis konfigurasi `Flag Group + Jalur` yang berjalan paralel dengan v1 tanpa memutus kompatibilitas `stock_allocations`, HPP, dan closing/reporting existing.
## Prinsip
- V1 tidak dihapus, V2 jalan paralel.
- Semua operasi transactional.
- FIFO sorting deterministic lintas tabel.
- Default over-consume `ALLOW` (pending), exception dapat `BLOCK`.
- Reflow idempotent.
- Recalculate bisa memperbaiki drift `product_warehouses.qty`.
## Komponen
- `fifo_stock_v2_flag_groups`: master grouping flag produk.
- `fifo_stock_v2_flag_members`: pemetaan flag -> group.
- `fifo_stock_v2_traits`: trait sort per `table:date_column` (+ optional join date source).
- `fifo_stock_v2_route_rules`: rule per `flag_group + lane + function + table`.
- `fifo_stock_v2_overconsume_rules`: policy pending/over-consume.
- `fifo_stock_v2_operation_log`: idempotency + audit operasi.
- `fifo_stock_v2_reflow_runs` + checkpoints + shadow allocations: bulk reflow resumable/observable.
## API Service
- `Gather`: union cross-table berdasarkan route rules + trait sorting.
- `Allocate`: alokasi lot FIFO ke usable.
- `Rollback`: batalkan alokasi aktif.
- `Reflow`: rollback penuh lalu allocate ulang (idempotent).
- `Recalculate`: rekonsiliasi qty warehouse dari ledger FIFO.
## Deterministic Sorting
Urutan gather:
1. `sort_at ASC` (dari trait `date_column`)
2. `sort_priority ASC`
3. `source_table ASC`
4. `source_id ASC`
Fallback waktu: `1970-01-01 00:00:00+00` bila tanggal null.
## Compat Strategy
- Tetap menulis ke `stock_allocations` dengan tambahan metadata:
- `engine_version` (`v1`/`v2`)
- `flag_group_code`
- `function_code`
- `idempotency_key`
- Query lama yang bergantung `stockable_type/usable_type` tetap berjalan.
## Migration Strategy
1. Deploy schema + seed v2.
2. Aktifkan shadow-run comparator v1 vs v2.
3. Canary cutover per flag group.
4. Full cutover jika parity aman.
5. Jalankan bulk reflow existing data.
## Acceptance Criteria Singkat
- Parity mismatch terkendali pada aggregate + detail alokasi.
- Tidak ada regression closing/HPP.
- Drift qty warehouse turun signifikan pasca reflow.
- Rollback via feature flag memungkinkan kembali ke v1.
internal/common/service/fifo_stock_v2/allocate.go
-802
View File
@@ -1,802 +0,0 @@
package fifo_stock_v2
import (
"context"
"encoding/json"
"errors"
"fmt"
"math"
"strings"
"time"
"gorm.io/gorm"
)
type allocationRow struct {
ID uint `gorm:"column:id"`
ProductWarehouseID uint `gorm:"column:product_warehouse_id"`
StockableType string `gorm:"column:stockable_type"`
StockableID uint `gorm:"column:stockable_id"`
UsableType string `gorm:"column:usable_type"`
UsableID uint `gorm:"column:usable_id"`
Qty float64 `gorm:"column:qty"`
Status string `gorm:"column:status"`
CreatedAt time.Time `gorm:"column:created_at"`
}
type usableQtySnapshot struct {
Usage float64 `gorm:"column:usage_qty"`
Pending float64 `gorm:"column:pending_qty"`
}
func (s *fifoStockV2Service) Allocate(ctx context.Context, req AllocateRequest) (*AllocateResult, error) {
if err := s.validateAllocateRequest(req); err != nil {
return nil, err
}
result := &AllocateResult{}
err := s.withTransaction(ctx, req.Tx, func(tx *gorm.DB) error {
if err := s.ensureStockAllocationColumns(tx); err != nil {
return err
}
if err := s.lockShard(tx, req.FlagGroupCode, req.ProductWarehouseID); err != nil {
return err
}
hash := requestHash(map[string]any{
"flag_group_code": req.FlagGroupCode,
"product_warehouse_id": req.ProductWarehouseID,
"usable_type": req.Usable.LegacyTypeKey,
"usable_id": req.Usable.ID,
"need_qty": req.NeedQty,
"as_of": req.AsOf,
"allow_over_consume": req.AllowOverConsume,
})
logRow, reused, err := s.beginOperation(
tx,
OperationAllocate,
req.IdempotencyKey,
hash,
req.ProductWarehouseID,
req.FlagGroupCode,
req.Usable.LegacyTypeKey,
req.Usable.ID,
)
if err != nil {
return err
}
if reused {
if len(logRow.ResultPayload) == 0 {
return fmt.Errorf("idempotent allocate has empty payload")
}
if err := json.Unmarshal(logRow.ResultPayload, result); err != nil {
return err
}
return nil
}
if logRow != nil {
defer func() {
if err != nil {
s.failOperation(tx, logRow, err)
}
}()
}
allocated, allocErr := s.allocateInternal(ctx, tx, req)
if allocErr != nil {
err = allocErr
return allocErr
}
*result = *allocated
if finishErr := s.finishOperation(tx, logRow, result); finishErr != nil {
err = finishErr
return finishErr
}
return nil
})
if err != nil {
return nil, err
}
return result, nil
}
func (s *fifoStockV2Service) allocateInternal(ctx context.Context, tx *gorm.DB, req AllocateRequest) (*AllocateResult, error) {
usableRule, err := s.loadRouteRuleByLegacyType(ctx, tx, LaneUsable, req.FlagGroupCode, req.Usable.LegacyTypeKey)
if err != nil {
return nil, err
}
allowOverConsume := usableRule.AllowPendingDefault
if req.AllowOverConsume != nil {
allowOverConsume = *req.AllowOverConsume
} else {
allowOverConsume, err = s.resolveOverConsume(tx, req.FlagGroupCode, req.Usable.FunctionCode, LaneUsable, allowOverConsume)
if err != nil {
return nil, err
}
}
gatherRows, err := s.gatherRows(ctx, tx, GatherRequest{
FlagGroupCode: req.FlagGroupCode,
Lane: LaneStockable,
ProductWarehouseID: req.ProductWarehouseID,
AsOf: req.AsOf,
Limit: s.defaultGatherLimit,
})
if err != nil {
return nil, err
}
stockableRuleMap, err := s.loadStockableRuleMap(ctx, tx, req.FlagGroupCode)
if err != nil {
return nil, err
}
now := time.Now()
remaining := req.NeedQty
result := &AllocateResult{Details: make([]AllocationDetail, 0)}
for _, lot := range gatherRows {
if remaining <= 0 {
break
}
if shouldSkipStockableForUsable(req, lot.Ref.LegacyTypeKey) {
continue
}
if lot.AvailableQuantity <= 0 {
continue
}
portion := math.Min(remaining, lot.AvailableQuantity)
if nearlyZero(portion) {
continue
}
allocationInsert := map[string]any{
"product_warehouse_id": req.ProductWarehouseID,
"stockable_type": lot.Ref.LegacyTypeKey,
"stockable_id": lot.Ref.ID,
"usable_type": req.Usable.LegacyTypeKey,
"usable_id": req.Usable.ID,
"qty": portion,
"status": activeAllocationStatus(),
"allocation_purpose": defaultAllocationPurpose(),
"created_at": now,
"updated_at": now,
"engine_version": "v2",
"flag_group_code": req.FlagGroupCode,
"function_code": req.Usable.FunctionCode,
}
if strings.TrimSpace(req.IdempotencyKey) != "" {
allocationInsert["idempotency_key"] = req.IdempotencyKey
}
if err := tx.Table("stock_allocations").Create(allocationInsert).Error; err != nil {
return nil, err
}
rule, ok := stockableRuleMap[lot.Ref.LegacyTypeKey]
if !ok {
return nil, fmt.Errorf("missing stockable route rule for type %s", lot.Ref.LegacyTypeKey)
}
if err := s.adjustStockableUsedQuantity(tx, rule, lot.Ref.ID, portion); err != nil {
return nil, err
}
result.Details = append(result.Details, AllocationDetail{
StockableType: lot.Ref.LegacyTypeKey,
StockableID: lot.Ref.ID,
Qty: portion,
SortAt: lot.SortAt,
})
remaining -= portion
result.AllocatedQty += portion
}
if remaining > 0 {
if !allowOverConsume {
return nil, fmt.Errorf("%w: requested %.3f, allocated %.3f", ErrInsufficientStock, req.NeedQty, result.AllocatedQty)
}
result.PendingQty = remaining
}
if err := s.applyUsableDeltas(tx, *usableRule, req.Usable.ID, result.AllocatedQty, result.PendingQty); err != nil {
return nil, err
}
if err := s.adjustProductWarehouseQty(tx, req.ProductWarehouseID, -result.AllocatedQty); err != nil {
return nil, err
}
return result, nil
}
func shouldSkipStockableForUsable(req AllocateRequest, stockableType string) bool {
usableType := strings.ToUpper(strings.TrimSpace(req.Usable.LegacyTypeKey))
functionCode := strings.ToUpper(strings.TrimSpace(req.Usable.FunctionCode))
stockable := strings.ToUpper(strings.TrimSpace(stockableType))
// CHICKIN_OUT must consume physical stock sources, not population lots,
// otherwise approved chickin can consume its own just-created population.
if (usableType == "PROJECT_CHICKIN" || functionCode == "CHICKIN_OUT") && stockable == "PROJECT_FLOCK_POPULATION" {
return true
}
if (usableType == "STOCK_TRANSFER_OUT" || functionCode == "STOCK_TRANSFER_OUT") && stockable == "PROJECT_FLOCK_POPULATION" {
return true
}
return false
}
func (s *fifoStockV2Service) Rollback(ctx context.Context, req RollbackRequest) (*RollbackResult, error) {
if err := s.validateRollbackRequest(req); err != nil {
return nil, err
}
result := &RollbackResult{}
err := s.withTransaction(ctx, req.Tx, func(tx *gorm.DB) error {
if err := s.ensureStockAllocationColumns(tx); err != nil {
return err
}
flagGroupCode, err := s.resolveRollbackFlagGroup(ctx, tx, req)
if err != nil {
return err
}
if err := s.lockShard(tx, flagGroupCode, req.ProductWarehouseID); err != nil {
return err
}
hash := requestHash(map[string]any{
"product_warehouse_id": req.ProductWarehouseID,
"usable_type": req.Usable.LegacyTypeKey,
"usable_id": req.Usable.ID,
"release_qty": req.ReleaseQty,
"reason": req.Reason,
"flag_group_code": flagGroupCode,
})
logRow, reused, beginErr := s.beginOperation(
tx,
OperationRollback,
req.IdempotencyKey,
hash,
req.ProductWarehouseID,
flagGroupCode,
req.Usable.LegacyTypeKey,
req.Usable.ID,
)
if beginErr != nil {
return beginErr
}
if reused {
if len(logRow.ResultPayload) == 0 {
return fmt.Errorf("idempotent rollback has empty payload")
}
if err := json.Unmarshal(logRow.ResultPayload, result); err != nil {
return err
}
return nil
}
if logRow != nil {
defer func() {
if err != nil {
s.failOperation(tx, logRow, err)
}
}()
}
rolled, rollbackErr := s.rollbackInternal(ctx, tx, req, flagGroupCode)
if rollbackErr != nil {
err = rollbackErr
return rollbackErr
}
*result = *rolled
if finishErr := s.finishOperation(tx, logRow, result); finishErr != nil {
err = finishErr
return finishErr
}
return nil
})
if err != nil {
return nil, err
}
return result, nil
}
func (s *fifoStockV2Service) rollbackInternal(
ctx context.Context,
tx *gorm.DB,
req RollbackRequest,
flagGroupCode string,
) (*RollbackResult, error) {
usableRule, err := s.loadRouteRuleByLegacyType(ctx, tx, LaneUsable, flagGroupCode, req.Usable.LegacyTypeKey)
if err != nil {
return nil, err
}
allocations, err := s.loadActiveAllocations(tx, req.Usable.LegacyTypeKey, req.Usable.ID, req.ProductWarehouseID)
if err != nil {
return nil, err
}
if len(allocations) == 0 {
if req.ReleaseQty == nil {
if err := s.resetUsableQuantities(tx, *usableRule, req.Usable.ID); err != nil {
return nil, err
}
}
return &RollbackResult{}, nil
}
stockableRuleMap, err := s.loadStockableRuleMap(ctx, tx, flagGroupCode)
if err != nil {
return nil, err
}
target := 0.0
for _, alloc := range allocations {
target += alloc.Qty
}
if req.ReleaseQty != nil {
if *req.ReleaseQty < 0 {
return nil, fmt.Errorf("%w: release qty must be >= 0", ErrInvalidRequest)
}
target = *req.ReleaseQty
}
if nearlyZero(target) {
return &RollbackResult{}, nil
}
result := &RollbackResult{Details: make([]AllocationDetail, 0)}
now := time.Now()
remaining := target
for _, alloc := range allocations {
if remaining <= 0 {
break
}
portion := math.Min(remaining, alloc.Qty)
if nearlyZero(portion) {
continue
}
if nearlyZero(alloc.Qty - portion) {
updates := map[string]any{
"status": releasedAllocationStatus(),
"released_at": now,
"updated_at": now,
}
if strings.TrimSpace(req.Reason) != "" {
updates["note"] = req.Reason
}
if err := tx.Table("stock_allocations").Where("id = ?", alloc.ID).Updates(updates).Error; err != nil {
return nil, err
}
} else {
if err := tx.Table("stock_allocations").
Where("id = ?", alloc.ID).
Updates(map[string]any{
"qty": alloc.Qty - portion,
"updated_at": now,
}).Error; err != nil {
return nil, err
}
}
stockableRule, ok := stockableRuleMap[alloc.StockableType]
if !ok {
return nil, fmt.Errorf("missing stockable route rule for type %s", alloc.StockableType)
}
if err := s.adjustStockableUsedQuantity(tx, stockableRule, alloc.StockableID, -portion); err != nil {
return nil, err
}
result.ReleasedQty += portion
remaining -= portion
result.Details = append(result.Details, AllocationDetail{
StockableType: alloc.StockableType,
StockableID: alloc.StockableID,
Qty: portion,
SortAt: alloc.CreatedAt,
})
}
if req.ReleaseQty != nil && remaining > 1e-6 {
return nil, fmt.Errorf("unable to release %.3f; only %.3f allocation exists", target, result.ReleasedQty)
}
if req.ReleaseQty == nil {
if err := s.resetUsableQuantities(tx, *usableRule, req.Usable.ID); err != nil {
return nil, err
}
} else {
if err := s.applyUsableDeltas(tx, *usableRule, req.Usable.ID, -result.ReleasedQty, 0); err != nil {
return nil, err
}
}
if err := s.adjustProductWarehouseQty(tx, req.ProductWarehouseID, result.ReleasedQty); err != nil {
return nil, err
}
return result, nil
}
func (s *fifoStockV2Service) Reflow(ctx context.Context, req ReflowRequest) (*ReflowResult, error) {
if strings.TrimSpace(req.FlagGroupCode) == "" || req.ProductWarehouseID == 0 {
return nil, fmt.Errorf("%w: invalid reflow request", ErrInvalidRequest)
}
result := &ReflowResult{}
err := s.withTransaction(ctx, req.Tx, func(tx *gorm.DB) error {
if err := s.ensureStockAllocationColumns(tx); err != nil {
return err
}
if err := s.lockShard(tx, req.FlagGroupCode, req.ProductWarehouseID); err != nil {
return err
}
hash := requestHash(map[string]any{
"flag_group_code": req.FlagGroupCode,
"product_warehouse_id": req.ProductWarehouseID,
"as_of": req.AsOf,
})
logRow, reused, err := s.beginOperation(
tx,
OperationReflow,
req.IdempotencyKey,
hash,
req.ProductWarehouseID,
req.FlagGroupCode,
"",
0,
)
if err != nil {
return err
}
if reused {
if len(logRow.ResultPayload) == 0 {
return fmt.Errorf("idempotent reflow has empty payload")
}
if err := json.Unmarshal(logRow.ResultPayload, result); err != nil {
return err
}
return nil
}
if logRow != nil {
defer func() {
if err != nil {
s.failOperation(tx, logRow, err)
}
}()
}
usableRows, gatherErr := s.gatherAllRows(ctx, tx, GatherRequest{
FlagGroupCode: req.FlagGroupCode,
Lane: LaneUsable,
ProductWarehouseID: req.ProductWarehouseID,
Limit: s.defaultGatherLimit,
})
if gatherErr != nil {
err = gatherErr
return gatherErr
}
result.ProcessedUsables = len(usableRows)
for _, usableRow := range usableRows {
desiredQty := usableRow.Quantity + usableRow.PendingQuantity
rollbackRes, rollbackErr := s.rollbackInternal(ctx, tx, RollbackRequest{
ProductWarehouseID: req.ProductWarehouseID,
Usable: usableRow.Ref,
ReleaseQty: nil,
Reason: "reflow reset",
}, req.FlagGroupCode)
if rollbackErr != nil {
err = rollbackErr
return rollbackErr
}
result.Rollback.ReleasedQty += rollbackRes.ReleasedQty
if len(rollbackRes.Details) > 0 {
result.Rollback.Details = append(result.Rollback.Details, rollbackRes.Details...)
}
if desiredQty <= 0 {
continue
}
allocateRes, allocateErr := s.allocateInternal(ctx, tx, AllocateRequest{
FlagGroupCode: req.FlagGroupCode,
ProductWarehouseID: req.ProductWarehouseID,
Usable: usableRow.Ref,
NeedQty: desiredQty,
AsOf: nil,
})
if allocateErr != nil {
err = allocateErr
return allocateErr
}
result.Allocate.AllocatedQty += allocateRes.AllocatedQty
result.Allocate.PendingQty += allocateRes.PendingQty
if len(allocateRes.Details) > 0 {
result.Allocate.Details = append(result.Allocate.Details, allocateRes.Details...)
}
}
expectedQty, calcErr := s.calculateWarehouseAvailableForGroup(ctx, tx, req.ProductWarehouseID, req.FlagGroupCode, nil)
if calcErr != nil {
err = calcErr
return calcErr
}
actualQty, loadErr := s.loadWarehouseQty(ctx, tx, req.ProductWarehouseID)
if loadErr != nil {
err = loadErr
return loadErr
}
drift := expectedQty - actualQty
if math.Abs(drift) >= 1e-6 {
if adjustErr := s.adjustProductWarehouseQty(tx, req.ProductWarehouseID, drift); adjustErr != nil {
err = adjustErr
return adjustErr
}
}
if finishErr := s.finishOperation(tx, logRow, result); finishErr != nil {
err = finishErr
return finishErr
}
return nil
})
if err != nil {
return nil, err
}
return result, nil
}
func (s *fifoStockV2Service) gatherAllRows(
ctx context.Context,
tx *gorm.DB,
req GatherRequest,
) ([]GatherRow, error) {
limit := req.Limit
if limit <= 0 {
limit = s.defaultGatherLimit
}
if limit <= 0 {
limit = 1000
}
req.Limit = limit
out := make([]GatherRow, 0, limit)
var cursorSortAt *time.Time
cursorSourceTable := ""
var cursorSourceID uint
for {
req.AfterSortAt = cursorSortAt
req.AfterSourceTable = cursorSourceTable
req.AfterSourceID = cursorSourceID
rows, err := s.gatherRows(ctx, tx, req)
if err != nil {
return nil, err
}
if len(rows) == 0 {
break
}
out = append(out, rows...)
if len(rows) < limit {
break
}
last := rows[len(rows)-1]
lastSortAt := last.SortAt
cursorSortAt = &lastSortAt
cursorSourceTable = last.SourceTable
cursorSourceID = last.SourceID
}
return out, nil
}
func (s *fifoStockV2Service) loadActiveAllocations(
tx *gorm.DB,
usableType string,
usableID uint,
productWarehouseID uint,
) ([]allocationRow, error) {
query := tx.Table("stock_allocations").
Select("id, product_warehouse_id, stockable_type, stockable_id, usable_type, usable_id, qty, status, created_at").
Where("usable_type = ? AND usable_id = ? AND status = ? AND allocation_purpose = ?", usableType, usableID, activeAllocationStatus(), defaultAllocationPurpose())
if productWarehouseID > 0 {
query = query.Where("product_warehouse_id = ?", productWarehouseID)
}
query = query.Order("created_at DESC, id DESC")
var rows []allocationRow
if err := query.Find(&rows).Error; err != nil {
return nil, err
}
return rows, nil
}
func (s *fifoStockV2Service) loadStockableRuleMap(ctx context.Context, tx *gorm.DB, flagGroupCode string) (map[string]routeRule, error) {
rules, err := s.loadRouteRules(ctx, tx, flagGroupCode, LaneStockable)
if err != nil {
return nil, err
}
m := make(map[string]routeRule, len(rules))
for _, rule := range rules {
m[rule.LegacyTypeKey] = rule
}
return m, nil
}
func (s *fifoStockV2Service) adjustStockableUsedQuantity(tx *gorm.DB, rule routeRule, sourceID uint, delta float64) error {
if nearlyZero(delta) || sourceID == 0 {
return nil
}
if rule.UsedQuantityCol == nil || strings.TrimSpace(*rule.UsedQuantityCol) == "" {
return nil
}
usedCol, _ := mustSafeIdentifier(*rule.UsedQuantityCol)
sourceIDCol, _ := mustSafeIdentifier(rule.SourceIDColumn)
sourceTable, _ := mustSafeIdentifier(rule.SourceTable)
expr := fmt.Sprintf("GREATEST(0, COALESCE(%s,0) + ?)", usedCol)
return tx.Table(sourceTable).
Where(fmt.Sprintf("%s = ?", sourceIDCol), sourceID).
Update(usedCol, gorm.Expr(expr, delta)).Error
}
func (s *fifoStockV2Service) applyUsableDeltas(tx *gorm.DB, rule routeRule, sourceID uint, usageDelta, pendingDelta float64) error {
if sourceID == 0 || (nearlyZero(usageDelta) && nearlyZero(pendingDelta)) {
return nil
}
sourceTable, _ := mustSafeIdentifier(rule.SourceTable)
sourceIDCol, _ := mustSafeIdentifier(rule.SourceIDColumn)
usageCol, _ := mustSafeIdentifier(rule.QuantityCol)
updates := map[string]any{}
if !nearlyZero(usageDelta) {
expr := fmt.Sprintf("GREATEST(0, COALESCE(%s,0) + ?)", usageCol)
updates[usageCol] = gorm.Expr(expr, usageDelta)
}
if rule.PendingQuantityCol != nil && strings.TrimSpace(*rule.PendingQuantityCol) != "" && !nearlyZero(pendingDelta) {
pendingCol, _ := mustSafeIdentifier(*rule.PendingQuantityCol)
expr := fmt.Sprintf("GREATEST(0, COALESCE(%s,0) + ?)", pendingCol)
updates[pendingCol] = gorm.Expr(expr, pendingDelta)
}
if len(updates) == 0 {
return nil
}
return tx.Table(sourceTable).
Where(fmt.Sprintf("%s = ?", sourceIDCol), sourceID).
Updates(updates).Error
}
func (s *fifoStockV2Service) resetUsableQuantities(tx *gorm.DB, rule routeRule, sourceID uint) error {
if sourceID == 0 {
return nil
}
sourceTable, _ := mustSafeIdentifier(rule.SourceTable)
sourceIDCol, _ := mustSafeIdentifier(rule.SourceIDColumn)
usageCol, _ := mustSafeIdentifier(rule.QuantityCol)
updates := map[string]any{usageCol: 0}
if rule.PendingQuantityCol != nil && strings.TrimSpace(*rule.PendingQuantityCol) != "" {
pendingCol, _ := mustSafeIdentifier(*rule.PendingQuantityCol)
updates[pendingCol] = 0
}
return tx.Table(sourceTable).
Where(fmt.Sprintf("%s = ?", sourceIDCol), sourceID).
Updates(updates).Error
}
func (s *fifoStockV2Service) resolveRollbackFlagGroup(ctx context.Context, tx *gorm.DB, req RollbackRequest) (string, error) {
type row struct {
FlagGroupCode string `gorm:"column:flag_group_code"`
}
var latest row
latestQuery := tx.WithContext(ctx).
Table("stock_allocations").
Select("flag_group_code").
Where("usable_type = ? AND usable_id = ?", req.Usable.LegacyTypeKey, req.Usable.ID).
Where("engine_version = 'v2'").
Where("allocation_purpose = ?", defaultAllocationPurpose()).
Where("flag_group_code IS NOT NULL AND flag_group_code <> ''")
if code := strings.TrimSpace(req.Usable.FunctionCode); code != "" {
latestQuery = latestQuery.Where("function_code = ?", code)
}
err := latestQuery.Order("id DESC").Limit(1).Take(&latest).Error
if err == nil && strings.TrimSpace(latest.FlagGroupCode) != "" {
return latest.FlagGroupCode, nil
}
if err != nil && !errors.Is(err, gorm.ErrRecordNotFound) {
return "", err
}
rulesQuery := tx.WithContext(ctx).
Table("fifo_stock_v2_route_rules").
Where("is_active = TRUE").
Where("lane = ?", string(LaneUsable)).
Where("legacy_type_key = ?", req.Usable.LegacyTypeKey)
if code := strings.TrimSpace(req.Usable.FunctionCode); code != "" {
rulesQuery = rulesQuery.Where("function_code = ?", code)
}
var rules []routeRule
err = rulesQuery.Find(&rules).Error
if err != nil {
return "", err
}
if len(rules) == 0 {
return "", fmt.Errorf("cannot resolve flag group for usable type %s", req.Usable.LegacyTypeKey)
}
if len(rules) > 1 && req.ProductWarehouseID != 0 {
type candidateRow struct {
FlagGroupCode string `gorm:"column:flag_group_code"`
}
var candidates []candidateRow
byProductQuery := tx.WithContext(ctx).
Table("fifo_stock_v2_route_rules rr").
Select("DISTINCT rr.flag_group_code").
Joins("JOIN fifo_stock_v2_flag_groups fg ON fg.code = rr.flag_group_code AND fg.is_active = TRUE").
Where("rr.is_active = TRUE").
Where("rr.lane = ?", string(LaneUsable)).
Where("rr.legacy_type_key = ?", req.Usable.LegacyTypeKey).
Where(`
EXISTS (
SELECT 1
FROM product_warehouses pw
JOIN flags f ON f.flagable_id = pw.product_id
JOIN fifo_stock_v2_flag_members fm ON fm.flag_name = f.name AND fm.is_active = TRUE
WHERE pw.id = ?
AND f.flagable_type = 'products'
AND fm.flag_group_code = rr.flag_group_code
)
`, req.ProductWarehouseID)
if code := strings.TrimSpace(req.Usable.FunctionCode); code != "" {
byProductQuery = byProductQuery.Where("rr.function_code = ?", code)
}
if err := byProductQuery.Order("rr.flag_group_code ASC").Scan(&candidates).Error; err != nil {
return "", err
}
if len(candidates) == 1 {
return strings.TrimSpace(candidates[0].FlagGroupCode), nil
}
}
if len(rules) > 1 {
return "", fmt.Errorf("ambiguous rollback flag group for usable type %s", req.Usable.LegacyTypeKey)
}
return rules[0].FlagGroupCode, nil
}
func (s *fifoStockV2Service) validateAllocateRequest(req AllocateRequest) error {
if strings.TrimSpace(req.FlagGroupCode) == "" || req.ProductWarehouseID == 0 {
return fmt.Errorf("%w: missing flag group or product warehouse", ErrInvalidRequest)
}
if req.Usable.ID == 0 || strings.TrimSpace(req.Usable.LegacyTypeKey) == "" {
return fmt.Errorf("%w: usable id and type are required", ErrInvalidRequest)
}
if req.NeedQty < 0 {
return fmt.Errorf("%w: need qty must be >= 0", ErrInvalidRequest)
}
return nil
}
func (s *fifoStockV2Service) validateRollbackRequest(req RollbackRequest) error {
if req.ProductWarehouseID == 0 {
return fmt.Errorf("%w: product warehouse is required", ErrInvalidRequest)
}
if req.Usable.ID == 0 || strings.TrimSpace(req.Usable.LegacyTypeKey) == "" {
return fmt.Errorf("%w: usable id and type are required", ErrInvalidRequest)
}
if req.ReleaseQty != nil && *req.ReleaseQty < 0 {
return fmt.Errorf("%w: release qty must be >= 0", ErrInvalidRequest)
}
return nil
}
internal/common/service/fifo_stock_v2/config.go
-170
View File
@@ -1,170 +0,0 @@
package fifo_stock_v2
import (
"context"
"fmt"
"strings"
"gorm.io/gorm"
)
type routeRule struct {
ID uint `gorm:"column:id"`
FlagGroupCode string `gorm:"column:flag_group_code"`
Lane string `gorm:"column:lane"`
FunctionCode string `gorm:"column:function_code"`
SourceTable string `gorm:"column:source_table"`
SourceIDColumn string `gorm:"column:source_id_column"`
ProductWarehouseCol string `gorm:"column:product_warehouse_col"`
QuantityCol string `gorm:"column:quantity_col"`
UsedQuantityCol *string `gorm:"column:used_quantity_col"`
PendingQuantityCol *string `gorm:"column:pending_quantity_col"`
ScopeSQL *string `gorm:"column:scope_sql"`
LegacyTypeKey string `gorm:"column:legacy_type_key"`
AllowPendingDefault bool `gorm:"column:allow_pending_default"`
}
type traitRule struct {
ID uint `gorm:"column:id"`
SourceTable string `gorm:"column:source_table"`
Lane string `gorm:"column:lane"`
DateTable *string `gorm:"column:date_table"`
DateJoinLeftCol *string `gorm:"column:date_join_left_col"`
DateJoinRightCol *string `gorm:"column:date_join_right_col"`
DateColumn string `gorm:"column:date_column"`
FallbackDateColumn *string `gorm:"column:fallback_date_column"`
SortPriority int `gorm:"column:sort_priority"`
IDColumn string `gorm:"column:id_column"`
}
func (s *fifoStockV2Service) loadRouteRules(ctx context.Context, tx *gorm.DB, flagGroupCode string, lane Lane) ([]routeRule, error) {
var rules []routeRule
err := tx.WithContext(ctx).
Table("fifo_stock_v2_route_rules").
Where("is_active = TRUE").
Where("flag_group_code = ?", flagGroupCode).
Where("lane = ?", string(lane)).
Order("id ASC").
Find(&rules).Error
if err != nil {
return nil, err
}
for _, rule := range rules {
if err := validateRouteRule(rule); err != nil {
return nil, err
}
}
return rules, nil
}
func (s *fifoStockV2Service) loadRouteRuleByLegacyType(
ctx context.Context,
tx *gorm.DB,
lane Lane,
flagGroupCode string,
legacyTypeKey string,
) (*routeRule, error) {
var rule routeRule
err := tx.WithContext(ctx).
Table("fifo_stock_v2_route_rules").
Where("is_active = TRUE").
Where("lane = ?", string(lane)).
Where("flag_group_code = ?", flagGroupCode).
Where("legacy_type_key = ?", legacyTypeKey).
Order("id ASC").
Limit(1).
Take(&rule).Error
if err != nil {
return nil, err
}
if err := validateRouteRule(rule); err != nil {
return nil, err
}
return &rule, nil
}
func (s *fifoStockV2Service) loadTraitMap(
ctx context.Context,
tx *gorm.DB,
lane Lane,
sourceTables []string,
) (map[string]traitRule, error) {
if len(sourceTables) == 0 {
return map[string]traitRule{}, nil
}
var traits []traitRule
err := tx.WithContext(ctx).
Table("fifo_stock_v2_traits").
Where("is_active = TRUE").
Where("lane = ?", string(lane)).
Where("source_table IN ?", sourceTables).
Find(&traits).Error
if err != nil {
return nil, err
}
out := make(map[string]traitRule, len(traits))
for _, tr := range traits {
if err := validateTraitRule(tr); err != nil {
return nil, err
}
out[tr.SourceTable] = tr
}
return out, nil
}
func validateRouteRule(rule routeRule) error {
fields := []string{rule.SourceTable, rule.SourceIDColumn, rule.ProductWarehouseCol, rule.QuantityCol}
for _, value := range fields {
if _, err := mustSafeIdentifier(value); err != nil {
return err
}
}
if rule.UsedQuantityCol != nil {
if _, err := mustSafeIdentifier(*rule.UsedQuantityCol); err != nil {
return err
}
}
if rule.PendingQuantityCol != nil {
if _, err := mustSafeIdentifier(*rule.PendingQuantityCol); err != nil {
return err
}
}
if strings.TrimSpace(rule.LegacyTypeKey) == "" {
return fmt.Errorf("route rule has empty legacy type key")
}
return nil
}
func validateTraitRule(rule traitRule) error {
if _, err := mustSafeIdentifier(rule.SourceTable); err != nil {
return err
}
if _, err := mustSafeIdentifier(rule.DateColumn); err != nil {
return err
}
if _, err := mustSafeIdentifier(rule.IDColumn); err != nil {
return err
}
if rule.DateTable != nil {
if _, err := mustSafeIdentifier(*rule.DateTable); err != nil {
return err
}
if rule.DateJoinLeftCol == nil || rule.DateJoinRightCol == nil {
return fmt.Errorf("trait %s requires date join columns", rule.SourceTable)
}
if _, err := mustSafeIdentifier(*rule.DateJoinLeftCol); err != nil {
return err
}
if _, err := mustSafeIdentifier(*rule.DateJoinRightCol); err != nil {
return err
}
}
if rule.FallbackDateColumn != nil {
if _, err := mustSafeIdentifier(*rule.FallbackDateColumn); err != nil {
return err
}
}
return nil
}
internal/common/service/fifo_stock_v2/errors.go
-8
View File
@@ -1,8 +0,0 @@
package fifo_stock_v2
import "errors"
var (
ErrInvalidRequest = errors.New("invalid fifo stock v2 request")
ErrInsufficientStock = errors.New("insufficient stock")
)
internal/common/service/fifo_stock_v2/gather.go
-293
View File
@@ -1,293 +0,0 @@
package fifo_stock_v2
import (
"context"
"fmt"
"strings"
"time"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
"gorm.io/gorm"
)
type gatherSQLRow struct {
SourceTable string `gorm:"column:source_table"`
LegacyTypeKey string `gorm:"column:legacy_type_key"`
FunctionCode string `gorm:"column:function_code"`
SourceID uint `gorm:"column:source_id"`
ProductWarehouseID uint `gorm:"column:product_warehouse_id"`
SortAt time.Time `gorm:"column:sort_at"`
SortPriority int `gorm:"column:sort_priority"`
Quantity float64 `gorm:"column:quantity"`
UsedQuantity float64 `gorm:"column:used_quantity"`
PendingQuantity float64 `gorm:"column:pending_quantity"`
AvailableQuantity float64 `gorm:"column:available_quantity"`
}
func (s *fifoStockV2Service) Gather(ctx context.Context, req GatherRequest) ([]GatherRow, error) {
if strings.TrimSpace(req.FlagGroupCode) == "" || req.ProductWarehouseID == 0 {
return nil, fmt.Errorf("%w: flag group and product warehouse are required", ErrInvalidRequest)
}
if req.Lane != LaneStockable && req.Lane != LaneUsable {
return nil, fmt.Errorf("%w: unsupported lane %q", ErrInvalidRequest, req.Lane)
}
var out []GatherRow
err := s.withTransaction(ctx, req.Tx, func(tx *gorm.DB) error {
rows, err := s.gatherRows(ctx, tx, req)
if err != nil {
return err
}
out = rows
return nil
})
if err != nil {
return nil, err
}
return out, nil
}
func (s *fifoStockV2Service) gatherRows(ctx context.Context, tx *gorm.DB, req GatherRequest) ([]GatherRow, error) {
req.AllocationPurpose = normalizeAllocationPurpose(req.AllocationPurpose)
rules, err := s.loadRouteRules(ctx, tx, req.FlagGroupCode, req.Lane)
if err != nil {
return nil, err
}
if len(rules) == 0 {
return []GatherRow{}, nil
}
tables := make([]string, 0, len(rules))
for _, rule := range rules {
tables = append(tables, rule.SourceTable)
}
traits, err := s.loadTraitMap(ctx, tx, req.Lane, tables)
if err != nil {
return nil, err
}
subqueries := make([]string, 0, len(rules))
args := make([]any, 0, len(rules)*10)
for _, rule := range rules {
trait, ok := traits[rule.SourceTable]
if !ok {
return nil, fmt.Errorf("missing trait for table %s lane %s", rule.SourceTable, req.Lane)
}
subSQL, subArgs, err := s.buildGatherSubquery(rule, trait, req)
if err != nil {
return nil, err
}
subqueries = append(subqueries, subSQL)
args = append(args, subArgs...)
}
if len(subqueries) == 0 {
return []GatherRow{}, nil
}
limit := req.Limit
if limit <= 0 {
limit = s.defaultGatherLimit
}
if limit <= 0 {
limit = 1000
}
query := "SELECT * FROM (" + strings.Join(subqueries, " UNION ALL ") + ") AS g"
if req.AfterSortAt != nil {
query += `
WHERE
(g.sort_at > ?)
OR (g.sort_at = ? AND g.source_table > ?)
OR (g.sort_at = ? AND g.source_table = ? AND g.source_id > ?)
`
args = append(args,
*req.AfterSortAt,
*req.AfterSortAt, req.AfterSourceTable,
*req.AfterSortAt, req.AfterSourceTable, req.AfterSourceID,
)
}
query += " ORDER BY g.sort_at ASC, g.sort_priority ASC, g.source_table ASC, g.source_id ASC LIMIT ?"
args = append(args, limit)
var rows []gatherSQLRow
if err := tx.WithContext(ctx).Raw(query, args...).Scan(&rows).Error; err != nil {
return nil, err
}
out := make([]GatherRow, 0, len(rows))
for _, row := range rows {
out = append(out, GatherRow{
Ref: Ref{
Table: row.SourceTable,
ID: row.SourceID,
LegacyTypeKey: row.LegacyTypeKey,
FunctionCode: row.FunctionCode,
},
FlagGroupCode: req.FlagGroupCode,
ProductWarehouseID: row.ProductWarehouseID,
SortAt: row.SortAt,
SortPriority: row.SortPriority,
Quantity: row.Quantity,
UsedQuantity: row.UsedQuantity,
PendingQuantity: row.PendingQuantity,
AvailableQuantity: row.AvailableQuantity,
SourceTable: row.SourceTable,
SourceID: row.SourceID,
})
}
return out, nil
}
func (s *fifoStockV2Service) buildGatherSubquery(rule routeRule, trait traitRule, req GatherRequest) (string, []any, error) {
sourceTable, _ := mustSafeIdentifier(rule.SourceTable)
sourceIDCol, _ := mustSafeIdentifier(rule.SourceIDColumn)
productWarehouseCol, _ := mustSafeIdentifier(rule.ProductWarehouseCol)
quantityCol, _ := mustSafeIdentifier(rule.QuantityCol)
baseQtyExpr := fmt.Sprintf("COALESCE(src.%s,0)::numeric", quantityCol)
usedExpr := "0::numeric"
pendingExpr := "0::numeric"
availableExpr := baseQtyExpr
extraArgs := make([]any, 0, 2)
whereExtraArgs := make([]any, 0, 1)
if req.Lane == LaneStockable {
if !req.IgnoreSourceUsed && rule.UsedQuantityCol != nil && strings.TrimSpace(*rule.UsedQuantityCol) != "" {
usedCol, _ := mustSafeIdentifier(*rule.UsedQuantityCol)
usedExpr = fmt.Sprintf("COALESCE(src.%s,0)::numeric", usedCol)
} else {
// NOTE:
// usedExpr is referenced twice in the generated SELECT:
// 1) as used_quantity
// 2) inside available_quantity = base - usedExpr
// plus once in stockable WHERE clause via availableExpr > 0.
// We split the args because the WHERE placeholder order appears
// after product/flag filter placeholders in the final SQL.
usedExpr = fmt.Sprintf(
"(SELECT COALESCE(SUM(sa.qty),0)::numeric FROM stock_allocations sa WHERE sa.stockable_type = ? AND sa.stockable_id = src.%s AND sa.status = '%s' AND sa.allocation_purpose = ?)",
sourceIDCol,
activeAllocationStatus(),
)
extraArgs = append(extraArgs, rule.LegacyTypeKey, req.AllocationPurpose)
extraArgs = append(extraArgs, rule.LegacyTypeKey, req.AllocationPurpose)
whereExtraArgs = append(whereExtraArgs, rule.LegacyTypeKey, req.AllocationPurpose)
}
availableExpr = fmt.Sprintf("(%s - %s)", baseQtyExpr, usedExpr)
} else {
if rule.PendingQuantityCol != nil && strings.TrimSpace(*rule.PendingQuantityCol) != "" {
pendingCol, _ := mustSafeIdentifier(*rule.PendingQuantityCol)
pendingExpr = fmt.Sprintf("COALESCE(src.%s,0)::numeric", pendingCol)
}
availableExpr = baseQtyExpr
}
sortExpr, joinClause, err := buildSortExpr(trait)
if err != nil {
return "", nil, err
}
functionCodeExpr := "?::text"
functionCodeArgs := []any{rule.FunctionCode}
if rule.SourceTable == "adjustment_stocks" {
functionCodeExpr = "COALESCE(NULLIF(src.function_code,''), ?::text)"
}
whereParts := []string{
fmt.Sprintf("src.%s = ?", productWarehouseCol),
fmt.Sprintf(`EXISTS (
SELECT 1
FROM product_warehouses pw
JOIN flags f ON f.flagable_type = ? AND f.flagable_id = pw.product_id
JOIN fifo_stock_v2_flag_members fm ON fm.flag_name = f.name AND fm.is_active = TRUE
WHERE pw.id = src.%s AND fm.flag_group_code = ?
)`, productWarehouseCol),
}
if req.Lane == LaneStockable {
whereParts = append(whereParts, fmt.Sprintf("%s > 0", availableExpr))
}
if req.AsOf != nil {
whereParts = append(whereParts, fmt.Sprintf("%s <= ?", sortExpr))
}
if req.From != nil {
whereParts = append(whereParts, fmt.Sprintf("%s >= ?", sortExpr))
}
if rule.ScopeSQL != nil && strings.TrimSpace(*rule.ScopeSQL) != "" {
whereParts = append(whereParts, fmt.Sprintf("(%s)", normalizeScopeSQL(*rule.ScopeSQL)))
}
subquery := fmt.Sprintf(`
SELECT
?::text AS source_table,
?::text AS legacy_type_key,
%s AS function_code,
src.%s AS source_id,
src.%s AS product_warehouse_id,
%s AS sort_at,
?::int AS sort_priority,
%s AS quantity,
%s AS used_quantity,
%s AS pending_quantity,
%s AS available_quantity
FROM %s src
%s
WHERE %s
`, functionCodeExpr, sourceIDCol, productWarehouseCol, sortExpr, baseQtyExpr, usedExpr, pendingExpr, availableExpr, sourceTable, joinClause, strings.Join(whereParts, " AND "))
args := []any{
rule.SourceTable,
rule.LegacyTypeKey,
}
args = append(args, functionCodeArgs...)
args = append(args, trait.SortPriority)
args = append(args, extraArgs...)
args = append(args,
req.ProductWarehouseID,
entity.FlagableTypeProduct,
req.FlagGroupCode,
)
args = append(args, whereExtraArgs...)
if req.AsOf != nil {
args = append(args, *req.AsOf)
}
if req.From != nil {
args = append(args, *req.From)
}
return subquery, args, nil
}
func buildSortExpr(trait traitRule) (string, string, error) {
dateCol, _ := mustSafeIdentifier(trait.DateColumn)
idCol, _ := mustSafeIdentifier(trait.IDColumn)
_ = idCol
joinClause := ""
sortBase := fmt.Sprintf("src.%s", dateCol)
if trait.DateTable != nil && strings.TrimSpace(*trait.DateTable) != "" {
dateTable, _ := mustSafeIdentifier(*trait.DateTable)
if trait.DateJoinLeftCol == nil || trait.DateJoinRightCol == nil {
return "", "", fmt.Errorf("trait %s requires date join columns", trait.SourceTable)
}
leftCol, _ := mustSafeIdentifier(*trait.DateJoinLeftCol)
rightCol, _ := mustSafeIdentifier(*trait.DateJoinRightCol)
joinClause = fmt.Sprintf("LEFT JOIN %s dt ON src.%s = dt.%s", dateTable, leftCol, rightCol)
sortBase = fmt.Sprintf("dt.%s", dateCol)
}
if trait.FallbackDateColumn != nil && strings.TrimSpace(*trait.FallbackDateColumn) != "" {
fallbackCol, _ := mustSafeIdentifier(*trait.FallbackDateColumn)
sortBase = fmt.Sprintf("COALESCE(%s, src.%s)", sortBase, fallbackCol)
}
sortExpr := fmt.Sprintf("COALESCE(%s, '1970-01-01 00:00:00+00'::timestamptz)", sortBase)
return sortExpr, joinClause, nil
}
internal/common/service/fifo_stock_v2/population_allocation.go
-131
View File
@@ -1,131 +0,0 @@
package fifo_stock_v2
import (
"context"
"errors"
"math"
"sort"
commonRepo "gitlab.com/mbugroup/lti-api.git/internal/common/repository"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
"gitlab.com/mbugroup/lti-api.git/internal/utils/fifo"
"github.com/gofiber/fiber/v2"
"gorm.io/gorm"
)
func ReleasePopulationConsumptionByUsable(
ctx context.Context,
tx *gorm.DB,
usableType string,
usableID uint,
) error {
if tx == nil {
return errors.New("transaction is required")
}
if usableType == "" || usableID == 0 {
return errors.New("usable type and id are required")
}
stockAllocationRepo := commonRepo.NewStockAllocationRepository(tx)
allocations, err := stockAllocationRepo.FindActiveByUsable(ctx, usableType, usableID, nil)
if err != nil {
return err
}
for _, allocation := range allocations {
if allocation.StockableType != fifo.StockableKeyProjectFlockPopulation.String() || allocation.StockableId == 0 || allocation.Qty <= 0 {
continue
}
if err := tx.WithContext(ctx).
Model(&entity.ProjectFlockPopulation{}).
Where("id = ?", allocation.StockableId).
Update("total_used_qty", gorm.Expr("GREATEST(total_used_qty - ?, 0)", allocation.Qty)).Error; err != nil {
return err
}
}
return stockAllocationRepo.ReleaseByUsable(ctx, usableType, usableID, nil, nil)
}
func AllocatePopulationConsumption(
ctx context.Context,
tx *gorm.DB,
populations []entity.ProjectFlockPopulation,
productWarehouseID uint,
usableType string,
usableID uint,
consumeQty float64,
) error {
if consumeQty <= 0 {
return nil
}
if tx == nil {
return errors.New("transaction is required")
}
if productWarehouseID == 0 {
return fiber.NewError(fiber.StatusBadRequest, "Product warehouse tidak valid")
}
if usableType == "" || usableID == 0 {
return errors.New("usable type and id are required")
}
if len(populations) == 0 {
return fiber.NewError(fiber.StatusBadRequest, "Populasi tidak ditemukan")
}
if err := ReleasePopulationConsumptionByUsable(ctx, tx, usableType, usableID); err != nil {
return err
}
sort.Slice(populations, func(i, j int) bool {
if populations[i].CreatedAt.Equal(populations[j].CreatedAt) {
return populations[i].Id < populations[j].Id
}
return populations[i].CreatedAt.Before(populations[j].CreatedAt)
})
stockAllocationRepo := commonRepo.NewStockAllocationRepository(tx)
remaining := consumeQty
for _, pop := range populations {
available := pop.TotalQty - pop.TotalUsedQty
if available <= 0 {
continue
}
portion := math.Min(available, remaining)
if portion <= 0 {
continue
}
allocation := &entity.StockAllocation{
ProductWarehouseId: productWarehouseID,
StockableType: fifo.StockableKeyProjectFlockPopulation.String(),
StockableId: pop.Id,
UsableType: usableType,
UsableId: usableID,
Qty: portion,
Status: entity.StockAllocationStatusActive,
AllocationPurpose: entity.StockAllocationPurposeConsume,
}
if err := stockAllocationRepo.CreateOne(ctx, allocation, nil); err != nil {
return err
}
if err := tx.WithContext(ctx).
Model(&entity.ProjectFlockPopulation{}).
Where("id = ?", pop.Id).
Update("total_used_qty", gorm.Expr("total_used_qty + ?", portion)).Error; err != nil {
return err
}
remaining -= portion
if remaining <= 1e-6 {
break
}
}
if remaining > 1e-6 {
return fiber.NewError(fiber.StatusBadRequest, "Populasi tidak mencukupi")
}
return nil
}
internal/common/service/fifo_stock_v2/recalculate.go
-177
View File
@@ -1,177 +0,0 @@
package fifo_stock_v2
import (
"context"
"encoding/json"
"fmt"
"math"
"time"
"gorm.io/gorm"
)
func (s *fifoStockV2Service) Recalculate(ctx context.Context, req RecalculateRequest) (*RecalculateResult, error) {
result := &RecalculateResult{Drifts: make([]WarehouseDrift, 0)}
err := s.withTransaction(ctx, req.Tx, func(tx *gorm.DB) error {
hash := requestHash(map[string]any{
"product_warehouse_ids": req.ProductWarehouseIDs,
"flag_group_codes": req.FlagGroupCodes,
"as_of": req.AsOf,
"fix_drift": req.FixDrift,
})
logRow, reused, err := s.beginOperation(
tx,
OperationRecalculate,
req.IdempotencyKey,
hash,
0,
"RECALCULATE",
"",
0,
)
if err != nil {
return err
}
if reused {
if len(logRow.ResultPayload) == 0 {
return fmt.Errorf("idempotent recalculate has empty payload")
}
if err := json.Unmarshal(logRow.ResultPayload, result); err != nil {
return err
}
return nil
}
if logRow != nil {
defer func() {
if err != nil {
s.failOperation(tx, logRow, err)
}
}()
}
warehouseIDs, err := s.resolveRecalculateWarehouseIDs(ctx, tx, req.ProductWarehouseIDs)
if err != nil {
return err
}
groupCodes, err := s.resolveRecalculateGroupCodes(ctx, tx, req.FlagGroupCodes)
if err != nil {
return err
}
for _, warehouseID := range warehouseIDs {
expected := 0.0
for _, flagGroup := range groupCodes {
available, calcErr := s.calculateWarehouseAvailableForGroup(ctx, tx, warehouseID, flagGroup, req.AsOf)
if calcErr != nil {
return calcErr
}
expected += available
}
actual, actualErr := s.loadWarehouseQty(ctx, tx, warehouseID)
if actualErr != nil {
return actualErr
}
delta := expected - actual
result.Checked++
if math.Abs(delta) < 1e-6 {
continue
}
drift := WarehouseDrift{
ProductWarehouseID: warehouseID,
ExpectedQty: expected,
ActualQty: actual,
Delta: delta,
}
result.Drifts = append(result.Drifts, drift)
if req.FixDrift {
if err := s.adjustProductWarehouseQty(tx, warehouseID, delta); err != nil {
return err
}
result.Fixed++
}
}
if err := s.finishOperation(tx, logRow, result); err != nil {
return err
}
return nil
})
if err != nil {
return nil, err
}
return result, nil
}
func (s *fifoStockV2Service) resolveRecalculateWarehouseIDs(ctx context.Context, tx *gorm.DB, provided []uint) ([]uint, error) {
if len(provided) > 0 {
return provided, nil
}
var ids []uint
err := tx.WithContext(ctx).Table("product_warehouses").Select("id").Order("id ASC").Scan(&ids).Error
if err != nil {
return nil, err
}
return ids, nil
}
func (s *fifoStockV2Service) resolveRecalculateGroupCodes(ctx context.Context, tx *gorm.DB, provided []string) ([]string, error) {
if len(provided) > 0 {
return provided, nil
}
var groups []string
err := tx.WithContext(ctx).
Table("fifo_stock_v2_flag_groups").
Select("code").
Where("is_active = TRUE").
Order("priority ASC, code ASC").
Scan(&groups).Error
if err != nil {
return nil, err
}
return groups, nil
}
func (s *fifoStockV2Service) calculateWarehouseAvailableForGroup(
ctx context.Context,
tx *gorm.DB,
warehouseID uint,
flagGroupCode string,
asOf *time.Time,
) (float64, error) {
rows, err := s.gatherRows(ctx, tx, GatherRequest{
FlagGroupCode: flagGroupCode,
Lane: LaneStockable,
ProductWarehouseID: warehouseID,
AsOf: asOf,
Limit: 50000,
})
if err != nil {
return 0, err
}
total := 0.0
for _, row := range rows {
total += row.AvailableQuantity
}
return total, nil
}
func (s *fifoStockV2Service) loadWarehouseQty(ctx context.Context, tx *gorm.DB, warehouseID uint) (float64, error) {
type row struct {
Qty float64 `gorm:"column:qty"`
}
var out row
err := tx.WithContext(ctx).
Table("product_warehouses").
Select("COALESCE(qty,0) AS qty").
Where("id = ?", warehouseID).
Take(&out).Error
if err != nil {
return 0, err
}
return out.Qty, nil
}

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