Merge pull request 'Stage 18 — prod contour deploy (two-host registry rollout, rolling + auto-rollback)' (#103) from feature/prod-contour-deploy into development
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This commit was merged in pull request #103.
This commit is contained in:
@@ -301,8 +301,11 @@ jobs:
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# App version for the About screen: the git tag if present, else the short SHA
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# (the test checkout is shallow/untagged, so this is the SHA here — fine).
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export APP_VERSION="$(git -C "$GITHUB_WORKSPACE" describe --tags --always 2>/dev/null || echo dev)"
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docker compose --ansi never build --progress plain
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docker compose --ansi never up -d --remove-orphans
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# The telegram-local profile brings the bot + its VPN sidecar; prod runs the
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# bot on its own host instead (deploy/docker-compose.bot.yml), and the prod
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# main host omits both. Without the profile they would not start here.
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docker compose --ansi never --profile telegram-local build --progress plain
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docker compose --ansi never --profile telegram-local up -d --remove-orphans
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# The config-only services bind-mount the reseeded config dir. A plain `up -d`
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# leaves them on the previous bind mount (the dir was rm'd + recreated), so a
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# changed Caddyfile or Grafana dashboard is ignored — force-recreate them to
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@@ -0,0 +1,219 @@
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# Manual production rollout. Runs ONLY from master, ONLY on an explicit
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# workflow_dispatch with confirm=deploy (development->master is merged + green first;
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# this is the separate, deliberate prod step). It builds and pushes the images to the
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# registry, then deploys over SSH: the main host via deploy/prod-deploy.sh (rolling,
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# health-gated, auto-rollback; a maintenance window + consistent dump on a migration),
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# then the bot host. See deploy/README.md (prod runbook) for operator steps.
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name: prod-deploy
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run-name: "prod deploy ${{ github.sha }}"
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on:
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workflow_dispatch:
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inputs:
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confirm:
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description: 'Type "deploy" to confirm a production rollout from master.'
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required: true
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default: ""
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permissions:
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contents: read
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jobs:
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deploy:
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if: ${{ github.ref == 'refs/heads/master' && inputs.confirm == 'deploy' }}
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runs-on: ubuntu-latest
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defaults:
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run:
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shell: bash
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env:
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NO_COLOR: "1"
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DOCKER_CLI_HINTS: "false"
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REGISTRY: docker.iliadenisov.ru/developer
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# SSH + registry
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PROD_REGISTRY_USER: ${{ vars.PROD_REGISTRY_USER }}
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PROD_REGISTRY_PASSWORD: ${{ secrets.PROD_REGISTRY_PASSWORD }}
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PROD_SSH_KEY: ${{ secrets.PROD_SSH_KEY }}
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PROD_SSH_KNOWN_HOSTS: ${{ secrets.PROD_SSH_KNOWN_HOSTS }}
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MAIN_HOST: ${{ vars.PROD_MAIN_HOST }}
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TG_HOST: ${{ vars.PROD_TG_HOST }}
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# SPA build args (baked into the gateway/landing images)
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VITE_TELEGRAM_BOT_ID: ${{ vars.PROD_VITE_TELEGRAM_BOT_ID }}
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VITE_TELEGRAM_LINK: ${{ vars.PROD_VITE_TELEGRAM_LINK }}
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VITE_TELEGRAM_GAME_CHANNEL_NAME: ${{ vars.PROD_VITE_TELEGRAM_GAME_CHANNEL_NAME }}
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VITE_GATEWAY_URL: ${{ vars.PROD_VITE_GATEWAY_URL }}
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# Runtime secrets
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POSTGRES_PASSWORD: ${{ secrets.PROD_POSTGRES_PASSWORD }}
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GM_BASICAUTH_HASH: ${{ secrets.PROD_GM_BASICAUTH_HASH }}
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GRAFANA_ADMIN_PASSWORD: ${{ secrets.PROD_GRAFANA_ADMIN_PASSWORD }}
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TELEGRAM_BOT_TOKEN: ${{ secrets.PROD_TELEGRAM_BOT_TOKEN }}
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TELEGRAM_PROMO_BOT_TOKEN: ${{ secrets.PROD_TELEGRAM_PROMO_BOT_TOKEN }}
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PROD_BOTLINK_CA: ${{ secrets.PROD_BOTLINK_CA }}
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PROD_BOTLINK_GATEWAY_CERT: ${{ secrets.PROD_BOTLINK_GATEWAY_CERT }}
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PROD_BOTLINK_GATEWAY_KEY: ${{ secrets.PROD_BOTLINK_GATEWAY_KEY }}
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PROD_BOTLINK_BOT_CERT: ${{ secrets.PROD_BOTLINK_BOT_CERT }}
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PROD_BOTLINK_BOT_KEY: ${{ secrets.PROD_BOTLINK_BOT_KEY }}
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# Runtime variables
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GM_BASICAUTH_USER: ${{ vars.PROD_GM_BASICAUTH_USER }}
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GRAFANA_ROOT_URL: ${{ vars.PROD_GRAFANA_ROOT_URL }}
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CADDY_SITE_ADDRESS: ${{ vars.PROD_CADDY_SITE_ADDRESS }}
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LOG_LEVEL: ${{ vars.PROD_LOG_LEVEL }}
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DICT_VERSION: ${{ vars.PROD_DICT_VERSION }}
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POSTGRES_DB: ${{ vars.PROD_POSTGRES_DB }}
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POSTGRES_USER: ${{ vars.PROD_POSTGRES_USER }}
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TELEGRAM_MINIAPP_URL: ${{ vars.PROD_TELEGRAM_MINIAPP_URL }}
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TELEGRAM_GAME_CHANNEL_ID: ${{ vars.PROD_TELEGRAM_GAME_CHANNEL_ID }}
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TELEGRAM_CHAT_ID: ${{ vars.PROD_TELEGRAM_CHAT_ID }}
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TELEGRAM_BOT_USERNAME: ${{ vars.PROD_TELEGRAM_BOT_USERNAME }}
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TELEGRAM_BOT_LINK: ${{ vars.PROD_VITE_TELEGRAM_LINK }}
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steps:
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- uses: actions/checkout@v4
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with:
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fetch-depth: 0
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- name: Compute image tag and app version
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run: |
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echo "TAG=$(git rev-parse --short=12 HEAD)" >> "$GITHUB_ENV"
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echo "APP_VERSION=$(git describe --tags --always)" >> "$GITHUB_ENV"
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- name: Registry login
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run: echo "$PROD_REGISTRY_PASSWORD" | docker login "${REGISTRY%%/*}" -u "$PROD_REGISTRY_USER" --password-stdin
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- name: Build and push images
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working-directory: deploy
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run: |
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export TAG SCRABBLE_CONFIG_DIR=.
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# The four main-stack images via compose (reuses the compose build args); the
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# bot separately, since it is profiled out of the prod compose.
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docker compose -f docker-compose.yml -f docker-compose.prod.yml build
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docker compose -f docker-compose.yml -f docker-compose.prod.yml push backend gateway landing validator
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docker build -f ../platform/telegram/Dockerfile --target bot -t "$REGISTRY/scrabble-telegram-bot:$TAG" ..
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docker push "$REGISTRY/scrabble-telegram-bot:$TAG"
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- name: Set up SSH
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run: |
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mkdir -p ~/.ssh && chmod 700 ~/.ssh
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printf '%s\n' "$PROD_SSH_KEY" > ~/.ssh/id_deploy
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chmod 600 ~/.ssh/id_deploy
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printf '%s\n' "$PROD_SSH_KNOWN_HOSTS" > ~/.ssh/known_hosts
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- name: Determine previous tag and migration
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run: |
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ssh_main() { ssh -i ~/.ssh/id_deploy -o BatchMode=yes "deploy@$MAIN_HOST" "$@"; }
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PREV_TAG="$(ssh_main 'cat /opt/scrabble/DEPLOYED_TAG 2>/dev/null || echo none')"
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MIGRATION=0
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if [ "$PREV_TAG" != none ]; then
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if ! git cat-file -e "$PREV_TAG^{commit}" 2>/dev/null; then
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MIGRATION=1 # unknown previous tag: take the safe window + dump
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elif git diff --name-only "$PREV_TAG..$TAG" -- backend/internal/postgres/migrations/ | grep -q .; then
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MIGRATION=1
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fi
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fi
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echo "PREV_TAG=$PREV_TAG" >> "$GITHUB_ENV"
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echo "MIGRATION=$MIGRATION" >> "$GITHUB_ENV"
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echo "prev=$PREV_TAG migration=$MIGRATION"
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- name: Render env files and certs
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run: |
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umask 077
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mkdir -p stage/certs-main stage/certs-bot
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# Main-host runtime env (single-quoted so the literal '$' in the bcrypt hash
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# survives; prod-deploy.sh sources this, compose reads it from the environment).
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cat > stage/env.sh <<EOF
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export REGISTRY='$REGISTRY'
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export SCRABBLE_CONFIG_DIR='/opt/scrabble'
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export POSTGRES_DB='${POSTGRES_DB:-scrabble}'
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export POSTGRES_USER='${POSTGRES_USER:-scrabble}'
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export POSTGRES_PASSWORD='$POSTGRES_PASSWORD'
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export GM_BASICAUTH_USER='${GM_BASICAUTH_USER:-gm}'
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export GM_BASICAUTH_HASH='$GM_BASICAUTH_HASH'
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export GRAFANA_ADMIN_PASSWORD='$GRAFANA_ADMIN_PASSWORD'
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export GRAFANA_ROOT_URL='$GRAFANA_ROOT_URL'
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export CADDY_SITE_ADDRESS='$CADDY_SITE_ADDRESS'
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export LOG_LEVEL='${LOG_LEVEL:-info}'
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export DICT_VERSION='$DICT_VERSION'
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export TELEGRAM_BOT_TOKEN='$TELEGRAM_BOT_TOKEN'
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export TELEGRAM_MINIAPP_URL='$TELEGRAM_MINIAPP_URL'
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export GATEWAY_ABUSE_BAN_ENABLED='true'
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EOF
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# Bot-host runtime env.
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cat > stage/env.bot.sh <<EOF
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export SCRABBLE_CONFIG_DIR='/opt/scrabble'
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export BOT_IMAGE='$REGISTRY/scrabble-telegram-bot:$TAG'
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export BOTLINK_GATEWAY_ADDR='$MAIN_HOST:9443'
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export TELEGRAM_BOT_TOKEN='$TELEGRAM_BOT_TOKEN'
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export TELEGRAM_MINIAPP_URL='$TELEGRAM_MINIAPP_URL'
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export TELEGRAM_GAME_CHANNEL_ID='$TELEGRAM_GAME_CHANNEL_ID'
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export TELEGRAM_CHAT_ID='$TELEGRAM_CHAT_ID'
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export TELEGRAM_PROMO_BOT_TOKEN='$TELEGRAM_PROMO_BOT_TOKEN'
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export TELEGRAM_BOT_USERNAME='$TELEGRAM_BOT_USERNAME'
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export TELEGRAM_BOT_LINK='$TELEGRAM_BOT_LINK'
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export LOG_LEVEL='${LOG_LEVEL:-info}'
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EOF
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# Bot-link certs (world-readable: the distroless gateway/bot run as UID 65532
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# and bind-mount the dir read-only).
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printf '%s\n' "$PROD_BOTLINK_CA" > stage/certs-main/ca.crt
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printf '%s\n' "$PROD_BOTLINK_GATEWAY_CERT" > stage/certs-main/gateway.crt
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printf '%s\n' "$PROD_BOTLINK_GATEWAY_KEY" > stage/certs-main/gateway.key
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printf '%s\n' "$PROD_BOTLINK_CA" > stage/certs-bot/ca.crt
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printf '%s\n' "$PROD_BOTLINK_BOT_CERT" > stage/certs-bot/bot.crt
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printf '%s\n' "$PROD_BOTLINK_BOT_KEY" > stage/certs-bot/bot.key
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chmod 644 stage/certs-main/* stage/certs-bot/*
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- name: Deploy the main host
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run: |
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ssh_main() { ssh -i ~/.ssh/id_deploy -o BatchMode=yes "deploy@$MAIN_HOST" "$@"; }
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ssh_main 'mkdir -p /opt/scrabble/compose'
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# Compose files + config + script.
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tar -C deploy -czf - docker-compose.yml docker-compose.prod.yml prod-deploy.sh \
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| ssh_main 'tar -C /opt/scrabble/compose -xzf -'
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tar -C deploy -czf - caddy otelcol prometheus tempo grafana \
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| ssh_main 'tar -C /opt/scrabble -xzf -'
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tar -C stage -czf - certs-main \
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| ssh_main 'rm -rf /opt/scrabble/certs && mkdir -p /opt/scrabble/certs && tar -C /opt/scrabble/certs --strip-components=1 -xzf -'
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scp -i ~/.ssh/id_deploy -o BatchMode=yes stage/env.sh "deploy@$MAIN_HOST:/opt/scrabble/env.sh"
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# Registry login on the host so compose can pull the private images.
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echo "$PROD_REGISTRY_PASSWORD" | ssh_main "docker login ${REGISTRY%%/*} -u $PROD_REGISTRY_USER --password-stdin"
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ssh_main "TAG='$TAG' PREV_TAG='$PREV_TAG' MIGRATION='$MIGRATION' bash /opt/scrabble/compose/prod-deploy.sh"
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- name: Deploy the bot host
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run: |
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ssh_tg() { ssh -i ~/.ssh/id_deploy -o BatchMode=yes "deploy@$TG_HOST" "$@"; }
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ssh_tg 'mkdir -p /opt/scrabble/compose'
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tar -C deploy -czf - docker-compose.bot.yml | ssh_tg 'tar -C /opt/scrabble/compose -xzf -'
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tar -C stage -czf - certs-bot \
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| ssh_tg 'rm -rf /opt/scrabble/certs && mkdir -p /opt/scrabble/certs && tar -C /opt/scrabble/certs --strip-components=1 -xzf -'
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scp -i ~/.ssh/id_deploy -o BatchMode=yes stage/env.bot.sh "deploy@$TG_HOST:/opt/scrabble/env.bot.sh"
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echo "$PROD_REGISTRY_PASSWORD" | ssh_tg "docker login ${REGISTRY%%/*} -u $PROD_REGISTRY_USER --password-stdin"
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ssh_tg 'set -a; . /opt/scrabble/env.bot.sh; set +a; cd /opt/scrabble/compose;
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docker compose -f docker-compose.bot.yml pull;
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docker compose -f docker-compose.bot.yml up -d'
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# Bot liveness: running, not restarting, stable restart count.
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ssh_tg 'for i in $(seq 1 20); do
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s=$(docker inspect -f "{{.State.Status}}" scrabble-telegram-bot 2>/dev/null || echo missing)
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r=$(docker inspect -f "{{.State.Restarting}}" scrabble-telegram-bot 2>/dev/null || echo true)
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if [ "$s" = running ] && [ "$r" = false ]; then
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c1=$(docker inspect -f "{{.RestartCount}}" scrabble-telegram-bot); sleep 5
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c2=$(docker inspect -f "{{.RestartCount}}" scrabble-telegram-bot)
|
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[ "$c1" = "$c2" ] && { echo "bot healthy"; exit 0; }
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fi
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sleep 3
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done
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echo "bot not healthy:"; docker logs --tail 80 scrabble-telegram-bot; exit 1'
|
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- name: Verify the public site
|
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run: |
|
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ssh_main() { ssh -i ~/.ssh/id_deploy -o BatchMode=yes "deploy@$MAIN_HOST" "$@"; }
|
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domain="${CADDY_SITE_ADDRESS%% *}" # first domain of "erudit-game.ru www..."
|
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# Probe through caddy with the right vhost (force-resolved to the host); -k
|
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# tolerates an ACME-pending cert. Also check the backend is actually ready.
|
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ssh_main "for i in \$(seq 1 20); do
|
||||
if curl -fsS -k --resolve $domain:443:127.0.0.1 https://$domain/ -o /dev/null &&
|
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curl -fsS -k --resolve $domain:443:127.0.0.1 https://$domain/app/ -o /dev/null &&
|
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docker run --rm --network scrabble-internal alpine:3.20 wget -q -T 5 -O /dev/null http://backend:8080/readyz; then
|
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echo 'public site + /app/ + backend healthy'; exit 0
|
||||
fi
|
||||
sleep 5
|
||||
done
|
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echo 'public verify failed; recent caddy + gateway + backend logs:'
|
||||
docker logs --tail 40 scrabble-caddy; docker logs --tail 40 scrabble-gateway; docker logs --tail 40 scrabble-backend
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exit 1"
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@@ -51,7 +51,7 @@ independent (see ARCHITECTURE §9.1).
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| 15 | Dual Telegram bots & language-gated variants | **done** |
|
||||
| 16 | Deploy infra & test contour (Dockerfiles, gateway static UI, compose, observability) | **done** |
|
||||
| 17 | Test-contour verification & defect fixes | **done** |
|
||||
| 18 | Prod contour deploy (SSH export/import, manual after merge) | todo |
|
||||
| 18 | Prod contour deploy (registry, two-host, rolling + auto-rollback; manual after merge) | machinery built; first cutover pending DNS |
|
||||
| 19 | User feedback (in-app submit + attachment, admin review/reply, account roles) | **done** |
|
||||
|
||||
Scaffolding is incremental: `go.work` lists only existing modules; each stage
|
||||
@@ -413,18 +413,28 @@ raw list is kept here as the record of what the first contour run surfaced.
|
||||
"что-то пошло не так". при этом "new -> эрудит" работает. Попробуй посмотреть в логах сейчас, может что-то есть. Или как-то иначе проанализируй, или давай вместе будем смотреть, если не получится.
|
||||
|
||||
### Stage 18 — Prod contour deploy
|
||||
Scope: the **production contour** on a remote host over SSH. Deploy by **container export/import**
|
||||
(`docker save` → `scp`/ssh → `docker load` → `docker compose up` on the remote), the SSH key + host IP
|
||||
in Gitea secrets; **strictly manual** (`workflow_dispatch`) after `development` is merged to `master`
|
||||
(the Stage 16 branch model: `feature/* → development → master`, merge gated green). Two-contour config
|
||||
uses **`TEST_`/`PROD_` secret/variable prefixes** — Gitea 1.26 has no deployment environments (verified:
|
||||
the `environments` API 404s), so a flat prefixed namespace is the convention.
|
||||
Reuses the Stage 16 `deploy/docker-compose.yml` as-is, mapping the **`PROD_`** set onto the same
|
||||
unprefixed compose vars. **No host caddy on prod**, so the contour's own caddy terminates TLS — set
|
||||
`CADDY_SITE_ADDRESS` to the prod domain so caddy does its own ACME (the Caddyfile is already
|
||||
parameterised for this; the test contour leaves it `:80` behind the host caddy).
|
||||
Open details (re-interview): export/import vs a registry trade-off; prod domain/cert source (ACME vs a
|
||||
provided cert) at the contour caddy; prod VPN; rollback.
|
||||
Scope: the **production contour** on **two remote hosts** over SSH — main (full stack, `erudit-game.ru`)
|
||||
and tg (the bot only). Resolved open details (re-interviewed):
|
||||
- **Transport: a registry** (not export/import) — build + push to `docker.iliadenisov.ru`, the hosts pull by tag.
|
||||
- **Cert: ACME** at the contour caddy (`CADDY_SITE_ADDRESS=erudit-game.ru www.erudit-game.ru`, no host caddy).
|
||||
- **No prod VPN** — the bot host has native Bot API egress (verified `api.telegram.org` → 200).
|
||||
- **Rollback** — rolling per-service deploy (least → most dependent), health-gated, auto-rollback to the
|
||||
previous image tag; a maintenance window + consistent `pg_dump` only on a schema migration
|
||||
(expand-contract keeps the auto-rollback image-only; the dump is a manual safety net).
|
||||
|
||||
**Strictly manual** (`workflow_dispatch` from `master`, `confirm=deploy`) after `development → master`
|
||||
is merged green. `TEST_`/`PROD_` prefixed Gitea secrets/variables (Gitea 1.26 has no deployment
|
||||
environments — the `environments` API 404s). Hosts are provisioned by **`deploy/ansible/`** (docker, a
|
||||
non-sudo `deploy` user with the CI key, key-only sshd, ufw, fail2ban). The main host is **launch-sized**
|
||||
(2 vCPU / 1.9 GiB): `docker-compose.prod.yml` trims the R7 limits (`GOMAXPROCS=2`, smaller caps, 7d
|
||||
Prometheus retention) and adds `node_exporter` for host-memory monitoring (launch undersized, resize at
|
||||
Selectel reactively). `vpn`+`bot` are gated to a `telegram-local` compose profile (test only); the prod
|
||||
bot runs standalone from `docker-compose.bot.yml`. `GATEWAY_ABUSE_BAN_ENABLED=true`.
|
||||
|
||||
**Built:** `deploy/ansible/` (both hosts provisioned + verified), the compose split + `node_exporter`,
|
||||
`.gitea/workflows/prod-deploy.yaml` + `deploy/prod-deploy.sh`, the full `PROD_` secret/variable set.
|
||||
**Remaining (acceptance):** the **first live cutover** — waits on the `erudit-game.ru` DNS delegation
|
||||
(`A`/`www` → the main host) that ACME requires; then run the workflow and verify the public site end-to-end.
|
||||
|
||||
### Stage 19 — User feedback *(done)*
|
||||
A user→operator feedback channel, sequenced after the numbered stages but shipped **before** the Stage 18
|
||||
|
||||
+2
-2
@@ -39,8 +39,8 @@ the edge before prod. Each phase maps back to the owner's raw pre-release TODO l
|
||||
| FM | First-move tile draw (official rules): each seated player draws a tile, the one closest to "A" leads (a blank beats every letter), ties re-drawing until a single leader; **honest per-draw `crypto/rand` entropy**, not the bag seed, so the **record** (`game_setup_draws`, migration `00013`) — not a seed — is the only account of the outcome, kept for future **tournaments** (designed as a discrete per-tile "player N draws" step). Friend/AI draws at create; **auto-match draws at *open*** against a synthetic `uuid.Nil` opponent whose draw rows are back-filled on join, so the opener's seat is fixed up front and the existing open-game pre-move is preserved (no reseating, no play-gating). Admin `/_gm/games/:id` gains the recorded draw list + a simple **step-by-step board replay** (`ReplayTimeline`). | owner ad-hoc | **done** |
|
||||
| SB | Single Telegram bot + per-user variant preferences: the two per-language bots collapse into **one** (drop `accounts.service_language`, `supported_languages`, the `*_EN`/`*_RU` env vars and game-language push routing — the single bot renders in the recipient's `preferred_language`); New Game variant gating moves to a profile **`variant_preferences`** set (default Erudit only, Erudit-first, server-enforced on the caller's auto-match/vs-AI/invitation-create paths, an invited friend may accept any variant); env vars collapse to unsuffixed `TELEGRAM_BOT_TOKEN`/`TELEGRAM_GAME_CHANNEL_ID`/`VITE_TELEGRAM_LINK`/`VITE_TELEGRAM_GAME_CHANNEL_NAME` and `GATEWAY_DEFAULT_SUPPORTED_LANGUAGES` is removed; wire drops `service_language`/`supported_languages` (Session, ValidateInitDataResponse) + the push `language` routing field and adds `variant_preferences` to Profile/UpdateProfile. | owner ad-hoc | **done** |
|
||||
| DV | Dictionary version hygiene: CI + image/compose seed track the current release (`v1.2.1`); a **seed-drift guard** records the flat dir's seed in an authoritative `.seed_version` marker so a bumped build seed on a live volume is ignored (it can't relabel live bytes — which would mis-serve the dictionary + void games pinned to the prior label); `DICT_VERSION` is the fresh-volume seed only, a live contour migrates through the admin console | owner ad-hoc | **done** |
|
||||
| TX | Telegram egress off the main host: split the connector into a home **validator** (Mini App / Login-Widget HMAC, no VPN, no Bot API — so game login no longer depends on Telegram being reachable) and a remote **bot** (Bot API long-poll + `sendMessage`) that holds **no inbound port** and dials the gateway over a reverse **mTLS bot-link** (`pkg/proto/botlink/v1`); the gateway funnels out-of-app push (fire-and-forget, at-most-once) and the backend admin broadcasts (a relay that awaits the bot's ack) down the link. The bot is Telegram-rate-limited; **one bot now**, with seams (a bot registry + `owns_updates` + command ids) for N later; **no webhook** (rejected: one URL per token, adds inbound + a static address). The **unified test contour** runs the split (the bot keeps its VPN sidecar and dials the gateway by its internal name; certs from `deploy/gen-certs.sh`). The **prod** wiring — the bot on a separate host (no VPN), the gateway bot-link port published, `PROD_` certs with scheduled rotation, an SSH deploy of both hosts together — is the **deferred final stage** (Stage 18). | owner ad-hoc | **done** (code + test contour; prod wiring → Stage 18) |
|
||||
| AG | Anti-abuse IP ban + honeypot/honeytoken (prod-only): a fail2ban-style in-memory `ratelimit.Banlist` keyed by client IP, fed by sustained rate-limiter rejections (the IP-keyed public/email/admin classes — the user class stays the soft-flag's concern), a **honeypot** decoy path (the contour caddy tags `/.env`, `/.git`, `/wp-*`, … with `X-Scrabble-Honeypot` and routes them to the gateway), and a **honeytoken** (`GATEWAY_HONEYTOKEN`, a planted bearer). The `abuseGuard` edge middleware refuses a banned IP with **429** before any work — closing the R3 gap that the static SPA/landing was outside the token bucket. Off by default — it keys by the real client IP the shared-NAT test contour does not expose (detection still logs there); enabled in prod via `GATEWAY_ABUSE_BAN_ENABLED`. Operators see + lift bans on the console **Throttled** page; the gateway syncs its active set to the backend (`/api/v1/internal/bans/sync`, `internal/banview`) every 30 s and applies operator unbans. | owner ad-hoc | **done** (code + test contour; ban enabled in prod → Stage 18) |
|
||||
| TX | Telegram egress off the main host: split the connector into a home **validator** (Mini App / Login-Widget HMAC, no VPN, no Bot API — so game login no longer depends on Telegram being reachable) and a remote **bot** (Bot API long-poll + `sendMessage`) that holds **no inbound port** and dials the gateway over a reverse **mTLS bot-link** (`pkg/proto/botlink/v1`); the gateway funnels out-of-app push (fire-and-forget, at-most-once) and the backend admin broadcasts (a relay that awaits the bot's ack) down the link. The bot is Telegram-rate-limited; **one bot now**, with seams (a bot registry + `owns_updates` + command ids) for N later; **no webhook** (rejected: one URL per token, adds inbound + a static address). The **unified test contour** runs the split (the bot keeps its VPN sidecar and dials the gateway by its internal name; certs from `deploy/gen-certs.sh`). The **prod** wiring — the bot on a separate host (no VPN), the gateway bot-link port published, `PROD_` certs, an SSH deploy of both hosts together — is **built in Stage 18** (the two-host registry rollout; first cutover pending the `erudit-game.ru` DNS). | owner ad-hoc | **done** (code + test contour; prod wiring built — Stage 18) |
|
||||
| AG | Anti-abuse IP ban + honeypot/honeytoken (prod-only): a fail2ban-style in-memory `ratelimit.Banlist` keyed by client IP, fed by sustained rate-limiter rejections (the IP-keyed public/email/admin classes — the user class stays the soft-flag's concern), a **honeypot** decoy path (the contour caddy tags `/.env`, `/.git`, `/wp-*`, … with `X-Scrabble-Honeypot` and routes them to the gateway), and a **honeytoken** (`GATEWAY_HONEYTOKEN`, a planted bearer). The `abuseGuard` edge middleware refuses a banned IP with **429** before any work — closing the R3 gap that the static SPA/landing was outside the token bucket. Off by default — it keys by the real client IP the shared-NAT test contour does not expose (detection still logs there); enabled in prod via `GATEWAY_ABUSE_BAN_ENABLED`. Operators see + lift bans on the console **Throttled** page; the gateway syncs its active set to the backend (`/api/v1/internal/bans/sync`, `internal/banview`) every 30 s and applies operator unbans. | owner ad-hoc | **done** (code + test contour; ban on in prod via Stage 18 — machinery built, cutover pending DNS) |
|
||||
| CM | Channel-chat moderation + promo bot: a second standalone bot in the bot container answers `/start` with a localized message + a **URL** button into the **main** bot's Mini App (`?startapp`; a `web_app` button would sign initData with the promo token, which the main validator rejects). The **main** bot gates write access in a channel's linked discussion chat. The chat **allows sending by default** and the bot only restricts (Telegram intersects the chat default with the per-user permission, so a per-user grant cannot exceed a deny-by-default group): it **mutes** a member who is not registered or is admin-suspended or holding a new **`chat_muted`** role, and **un-mutes** an eligible one it had muted, for a member currently in the chat (a `getChatMember` guard, since bots cannot list members). Eligibility = `registered AND NOT suspended AND NOT chat_muted` (the game suspension dominates), resolved once in the backend and reached two ways: the bot's `ResolveChatEligibility` on a `chat_member` event over the existing mTLS bot-link, and a backend `chat_access_changed` event → gateway → `ChatGate` command (emitted on block/unblock, a `chat_muted` change, a first registration, or a temporary-block expiry via a sweeper; idempotent). No schema change — `chat_muted` reuses `account_roles`. | owner ad-hoc | **done** |
|
||||
| → | Stage 18 — prod contour deploy | — | see [`PLAN.md`](PLAN.md) |
|
||||
|
||||
|
||||
+51
-3
@@ -17,11 +17,12 @@ operational reference for **every environment variable**.
|
||||
| `backend` | built (`backend/Dockerfile`) | Domain service; bakes in the DAWG dictionaries; runs migrations at boot. |
|
||||
| `postgres` | `postgres:17-alpine` | Database (named volume, `pg_isready` healthcheck). |
|
||||
| `validator` | built (`platform/telegram/Dockerfile`, target `validator`) | Telegram HMAC validator (no VPN, no Bot API); internal gRPC at `validator:9091`. Game login depends only on this. |
|
||||
| `vpn` + `bot` | sidecar + built (`platform/telegram/Dockerfile`, target `bot`) | Telegram bot; egresses through the AmneziaWG sidecar; holds no inbound port — dials the gateway bot-link (mTLS) at `gateway:9443`. |
|
||||
| `vpn` + `bot` | sidecar + built (`platform/telegram/Dockerfile`, target `bot`) | Telegram bot, gated to the **`telegram-local`** profile; egresses through the AmneziaWG sidecar and dials the gateway bot-link (mTLS) at `gateway:9443`. The test contour activates the profile; the prod **main** host omits it and runs the bot standalone on its **own host** (`docker-compose.bot.yml`, no VPN — native Bot API egress). |
|
||||
| `otelcol` | `otel/opentelemetry-collector-contrib` | OTLP/gRPC `:4317` → Prometheus scrape (`:9464`) + Tempo. |
|
||||
| `prometheus` | `prom/prometheus` | Metrics, 15d retention. |
|
||||
| `prometheus` | `prom/prometheus` | Metrics, 15d retention (7d in prod). |
|
||||
| `tempo` | `grafana/tempo` | Traces, 72h retention. |
|
||||
| `grafana` | `grafana/grafana` | Dashboards (provisioned), anonymous-admin behind caddy's `/_gm/grafana`. |
|
||||
| `node_exporter` | `quay.io/prometheus/node-exporter` | Host CPU/memory/disk metrics (Prometheus job `node`); the OOM signal on the tight prod main host (2 vCPU / 1.9 GiB). |
|
||||
|
||||
Networking: inter-service traffic is on the private `internal` network
|
||||
(project-scoped DNS); only `caddy` joins the shared external `edge` network so the
|
||||
@@ -59,7 +60,6 @@ compose binds from this directory.
|
||||
| Variable | Gitea kind | Purpose |
|
||||
| --- | --- | --- |
|
||||
| `POSTGRES_PASSWORD` | secret | Postgres password (also embedded in `BACKEND_POSTGRES_DSN`). |
|
||||
| `AWG_CONF` | secret | AmneziaWG config for the VPN sidecar (the bot's only Telegram egress in the test contour). **Must not contain a `DNS=` line** — it hijacks the shared netns's resolv.conf and breaks the bot resolving `otelcol` / `gateway`. Without it, Docker's resolver handles `otelcol`, `gateway` and `api.telegram.org`. |
|
||||
| `GM_BASICAUTH_HASH` | secret | bcrypt hash gating `/_gm` (admin console + Grafana). Generate with `docker run --rm caddy:2-alpine caddy hash-password --plaintext '<pw>'`. |
|
||||
| `TELEGRAM_MINIAPP_URL` | variable | The Mini App URL the bot hands out in deep links / buttons. |
|
||||
|
||||
@@ -67,6 +67,13 @@ compose binds from this directory.
|
||||
secret) and the bot (Bot API). It defaults to empty in compose, but both **fail at
|
||||
boot** when it is empty.
|
||||
|
||||
**Conditionally — `AWG_CONF`** (secret): the AmneziaWG config for the VPN sidecar, needed
|
||||
only when the `telegram-local` profile runs (the test contour and local runs with the
|
||||
bot). It is **not** `:?`-guarded — compose interpolates profiled-out services too, so the
|
||||
prod main host (no VPN) must not require it. It **must not contain a `DNS=` line** — that
|
||||
hijacks the shared netns's resolv.conf and breaks the bot resolving `otelcol` / `gateway`;
|
||||
without it Docker's resolver handles `otelcol`, `gateway` and `api.telegram.org`.
|
||||
|
||||
## Optional variables (with defaults)
|
||||
|
||||
| Variable | Gitea kind | Default | Purpose |
|
||||
@@ -110,6 +117,47 @@ collector's / gateway's internal IP is fine (connected route), but its `AWG_CONF
|
||||
which resolves `otelcol`, `gateway` and `api.telegram.org`. `GATEWAY_ADMIN_*` is
|
||||
intentionally **unset** — caddy owns `/_gm` in the contour.
|
||||
|
||||
## Production rollout
|
||||
|
||||
Prod runs on **two hosts** (main = full stack + ACME on the domain; tg = the bot only,
|
||||
native Bot API, no VPN), one-time provisioned by **[`ansible/`](ansible/)** (docker, a
|
||||
non-sudo `deploy` user holding the CI key, key-only sshd, default-deny ufw, fail2ban).
|
||||
Re-run `ansible/` after a host resize — it is idempotent.
|
||||
|
||||
**To roll out:** merge `development → master` (CI green), then run the **`prod-deploy`**
|
||||
workflow manually (Gitea → Actions → prod-deploy → run from `master`, input
|
||||
`confirm=deploy`). It builds + pushes the images to the registry, ships the
|
||||
compose/config/certs/env over SSH, deploys the main host with `prod-deploy.sh` (rolling,
|
||||
health-gated, **auto-rollback to the previous tag**), then the bot host, then probes the
|
||||
public site. After `master` is green this workflow is the **only** thing that touches
|
||||
prod — nothing auto-deploys there.
|
||||
|
||||
**Migrations** must be **expand-contract** (backward-compatible; goose is forward-only):
|
||||
the automatic rollback is image-only and never restores the DB. A deploy that changes
|
||||
`backend/internal/postgres/migrations/` opens a maintenance window — the backend (sole
|
||||
writer) is stopped for a consistent `pg_dump` into `/opt/scrabble/dumps` before the new
|
||||
backend migrates. **Manual DB restore** (only if a migration was destructive):
|
||||
`docker exec -i scrabble-postgres psql -U scrabble -d scrabble -c 'DROP SCHEMA backend CASCADE'`,
|
||||
then pipe the dump into the same `psql`, and redeploy the matching old tag.
|
||||
|
||||
**bot-link cert rotation:** regenerate (`deploy/gen-certs.sh /tmp/c --force`), reset the
|
||||
five `PROD_BOTLINK_*` secrets from `/tmp/c`, and re-run the workflow — both hosts redeploy
|
||||
together with the fresh CA.
|
||||
|
||||
**Sizing / monitoring:** the main host launches undersized (2 vCPU / 1.9 GiB); the prod
|
||||
overlay trims limits + `GOMAXPROCS=2` + 7d Prometheus retention, and `node_exporter` feeds
|
||||
host memory to Grafana (`/_gm/grafana/`). Watch host memory and resize at Selectel when
|
||||
players arrive.
|
||||
|
||||
**`PROD_` Gitea set** (mirrors `TEST_`, mapped onto the unprefixed names above) — secrets:
|
||||
`PROD_{POSTGRES_PASSWORD, GM_BASICAUTH_HASH, GRAFANA_ADMIN_PASSWORD, TELEGRAM_BOT_TOKEN,
|
||||
TELEGRAM_PROMO_BOT_TOKEN, REGISTRY_PASSWORD, SSH_KEY, SSH_KNOWN_HOSTS, BOTLINK_CA,
|
||||
BOTLINK_GATEWAY_CERT, BOTLINK_GATEWAY_KEY, BOTLINK_BOT_CERT, BOTLINK_BOT_KEY}`; variables:
|
||||
`PROD_{REGISTRY_USER, MAIN_HOST, TG_HOST, CADDY_SITE_ADDRESS, GM_BASICAUTH_USER,
|
||||
GRAFANA_ROOT_URL, LOG_LEVEL, DICT_VERSION, TELEGRAM_MINIAPP_URL, TELEGRAM_GAME_CHANNEL_ID,
|
||||
TELEGRAM_CHAT_ID, TELEGRAM_BOT_USERNAME, VITE_TELEGRAM_BOT_ID, VITE_TELEGRAM_LINK,
|
||||
VITE_TELEGRAM_GAME_CHANNEL_NAME}`.
|
||||
|
||||
## Host-side setup (outside this repo)
|
||||
|
||||
- **`edge` network** must exist on the host (`docker network create edge`).
|
||||
|
||||
@@ -0,0 +1,49 @@
|
||||
# Prod host provisioning (Stage 18)
|
||||
|
||||
Idempotent Ansible that prepares the two production hosts. It installs Docker, a
|
||||
non-sudo `deploy` service account, SSH hardening, a default-deny firewall,
|
||||
fail2ban, unattended security upgrades and time sync. It does **not** deploy the
|
||||
application — that is `.gitea/workflows/prod-deploy.yaml`'s job, running as the
|
||||
`deploy` account this playbook creates.
|
||||
|
||||
Hosts are referenced by `~/.ssh/config` aliases (`scrabble-main-ops`,
|
||||
`scrabble-tg-ops`), so no IPs or key paths live in the repo.
|
||||
|
||||
## Prerequisites (controller)
|
||||
|
||||
- `ansible` with the bundled collections (`community.general`, `community.docker`,
|
||||
`ansible.posix`).
|
||||
- The two hosts reachable as root via the ssh-config aliases, host keys already
|
||||
accepted into `known_hosts` (`host_key_checking = True`).
|
||||
|
||||
## One-time: the CI deploy key
|
||||
|
||||
The CI prod-deploy workflow logs into the hosts as `deploy` using a dedicated
|
||||
key. Generate it once on the controller, authorize its public half via the
|
||||
playbook, and store its private half **only** in the Gitea `PROD_SSH_KEY` secret:
|
||||
|
||||
```sh
|
||||
ssh-keygen -t ed25519 -N '' -C scrabble-ci-deploy \
|
||||
-f ~/.ssh/scrabble_ci_deploy_ed25519
|
||||
# private half -> Gitea secret PROD_SSH_KEY (set via API); never commit it
|
||||
```
|
||||
|
||||
## Run
|
||||
|
||||
```sh
|
||||
cd deploy/ansible
|
||||
ansible-playbook site.yml
|
||||
```
|
||||
|
||||
The playbook reads the public key from `~/.ssh/scrabble_ci_deploy_ed25519.pub` by
|
||||
default; override with `-e deploy_ci_pubkey_path=/path/to/key.pub`. Re-running is
|
||||
safe (idempotent) and survives a host resize.
|
||||
|
||||
## What each host gets
|
||||
|
||||
- **both** (`common`): docker-ce + compose plugin, `daemon.json` (live-restore,
|
||||
10m×3 log rotation), `deploy` user (docker group, no sudo), key-only sshd,
|
||||
`ufw` default-deny incoming + allow SSH, fail2ban sshd jail, unattended
|
||||
upgrades, chrony, `/opt/scrabble/{config,certs,dumps,images}`.
|
||||
- **main**: `ufw` opens 80/443/9443; the external `edge` docker network.
|
||||
- **tg**: verifies direct `api.telegram.org` egress (the no-VPN assumption).
|
||||
@@ -0,0 +1,11 @@
|
||||
[defaults]
|
||||
inventory = inventory.ini
|
||||
roles_path = roles
|
||||
interpreter_python = /usr/bin/python3
|
||||
host_key_checking = True
|
||||
stdout_callback = yaml
|
||||
deprecation_warnings = False
|
||||
retry_files_enabled = False
|
||||
|
||||
[ssh_connection]
|
||||
pipelining = True
|
||||
@@ -0,0 +1,21 @@
|
||||
---
|
||||
# Service account the CI prod-deploy workflow uses to drive docker on the hosts.
|
||||
# Membership in the docker group is root-equivalent (docker socket access), which
|
||||
# is all the deploy workflow needs; the account is deliberately not given sudo.
|
||||
deploy_user: deploy
|
||||
|
||||
# Public half of the dedicated CI deploy SSH key, read from the controller at run
|
||||
# time. The private half is generated on the controller during provisioning and
|
||||
# stored ONLY in the Gitea PROD_SSH_KEY secret; it is never committed. Override the
|
||||
# path with -e deploy_ci_pubkey_path=/path/to/key.pub if the key lives elsewhere.
|
||||
deploy_ci_pubkey_path: "{{ lookup('env', 'HOME') }}/.ssh/scrabble_ci_deploy_ed25519.pub"
|
||||
deploy_ci_pubkey: "{{ lookup('file', deploy_ci_pubkey_path) }}"
|
||||
|
||||
# Base directory the deploy workflow rsyncs compose files, config, certs and dumps
|
||||
# into. Owned by deploy_user so the workflow needs no elevation.
|
||||
scrabble_base_dir: /opt/scrabble
|
||||
|
||||
# Docker daemon json-file log rotation, mirroring the compose x-logging anchor so
|
||||
# the host's own containers (and any ad-hoc runs) rotate identically.
|
||||
docker_log_max_size: "10m"
|
||||
docker_log_max_file: "3"
|
||||
@@ -0,0 +1,19 @@
|
||||
# Production inventory for Stage 18.
|
||||
#
|
||||
# Hosts resolve through the operator's ~/.ssh/config aliases, so HostName (public
|
||||
# IP), User and IdentityFile live there — no IPs or key paths are committed here.
|
||||
# scrabble-main-ops -> main stack host (public IP, domain erudit-game.ru)
|
||||
# scrabble-tg-ops -> Telegram bot host (direct Bot API egress, no VPN)
|
||||
|
||||
[main]
|
||||
scrabble-main-ops
|
||||
|
||||
[tg]
|
||||
scrabble-tg-ops
|
||||
|
||||
[prod:children]
|
||||
main
|
||||
tg
|
||||
|
||||
[prod:vars]
|
||||
ansible_user=root
|
||||
@@ -0,0 +1,15 @@
|
||||
---
|
||||
- name: restart docker
|
||||
ansible.builtin.service:
|
||||
name: docker
|
||||
state: restarted
|
||||
|
||||
- name: reload sshd
|
||||
ansible.builtin.service:
|
||||
name: ssh
|
||||
state: reloaded
|
||||
|
||||
- name: restart fail2ban
|
||||
ansible.builtin.service:
|
||||
name: fail2ban
|
||||
state: restarted
|
||||
@@ -0,0 +1,167 @@
|
||||
---
|
||||
# Common baseline applied to both prod hosts: Docker engine, a non-sudo deploy
|
||||
# service account, SSH hardening, a default-deny firewall, fail2ban, unattended
|
||||
# security upgrades and time sync. Every task is idempotent.
|
||||
|
||||
- name: Install base packages
|
||||
ansible.builtin.apt:
|
||||
name:
|
||||
- ca-certificates
|
||||
- curl
|
||||
- gnupg
|
||||
- ufw
|
||||
- fail2ban
|
||||
- unattended-upgrades
|
||||
- chrony
|
||||
state: present
|
||||
update_cache: true
|
||||
cache_valid_time: 3600
|
||||
|
||||
# --- Docker engine (official repo; trixie is published upstream) ---------------
|
||||
|
||||
- name: Create apt keyring directory
|
||||
ansible.builtin.file:
|
||||
path: /etc/apt/keyrings
|
||||
state: directory
|
||||
mode: "0755"
|
||||
|
||||
- name: Install Docker apt GPG key
|
||||
ansible.builtin.get_url:
|
||||
url: https://download.docker.com/linux/debian/gpg
|
||||
dest: /etc/apt/keyrings/docker.asc
|
||||
mode: "0644"
|
||||
|
||||
- name: Add Docker apt repository
|
||||
ansible.builtin.apt_repository:
|
||||
repo: >-
|
||||
deb [arch=amd64 signed-by=/etc/apt/keyrings/docker.asc]
|
||||
https://download.docker.com/linux/debian {{ ansible_distribution_release }} stable
|
||||
filename: docker
|
||||
state: present
|
||||
|
||||
- name: Install Docker engine and the compose plugin
|
||||
ansible.builtin.apt:
|
||||
name:
|
||||
- docker-ce
|
||||
- docker-ce-cli
|
||||
- containerd.io
|
||||
- docker-buildx-plugin
|
||||
- docker-compose-plugin
|
||||
state: present
|
||||
update_cache: true
|
||||
|
||||
- name: Configure the Docker daemon (live-restore + log rotation)
|
||||
ansible.builtin.template:
|
||||
src: daemon.json.j2
|
||||
dest: /etc/docker/daemon.json
|
||||
mode: "0644"
|
||||
notify: restart docker
|
||||
|
||||
- name: Enable and start Docker
|
||||
ansible.builtin.service:
|
||||
name: docker
|
||||
enabled: true
|
||||
state: started
|
||||
|
||||
# --- Deploy service account ----------------------------------------------------
|
||||
|
||||
- name: Create the deploy service account
|
||||
ansible.builtin.user:
|
||||
name: "{{ deploy_user }}"
|
||||
groups: docker
|
||||
append: true
|
||||
shell: /bin/bash
|
||||
create_home: true
|
||||
|
||||
- name: Ensure the deploy .ssh directory
|
||||
ansible.builtin.file:
|
||||
path: "/home/{{ deploy_user }}/.ssh"
|
||||
state: directory
|
||||
owner: "{{ deploy_user }}"
|
||||
group: "{{ deploy_user }}"
|
||||
mode: "0700"
|
||||
|
||||
- name: Authorize the CI deploy SSH key (exclusive)
|
||||
ansible.builtin.copy:
|
||||
dest: "/home/{{ deploy_user }}/.ssh/authorized_keys"
|
||||
content: "{{ deploy_ci_pubkey }}\n"
|
||||
owner: "{{ deploy_user }}"
|
||||
group: "{{ deploy_user }}"
|
||||
mode: "0600"
|
||||
|
||||
# --- SSH hardening -------------------------------------------------------------
|
||||
|
||||
- name: Harden sshd (key-only auth)
|
||||
ansible.builtin.template:
|
||||
src: sshd-hardening.conf.j2
|
||||
dest: /etc/ssh/sshd_config.d/10-scrabble-hardening.conf
|
||||
mode: "0644"
|
||||
validate: sshd -t -f %s
|
||||
notify: reload sshd
|
||||
|
||||
# --- Firewall (default deny incoming) ------------------------------------------
|
||||
# SSH is allowed before the policy flips so enabling ufw never locks us out.
|
||||
|
||||
- name: Allow SSH through the firewall
|
||||
community.general.ufw:
|
||||
rule: allow
|
||||
name: OpenSSH
|
||||
|
||||
- name: Default-deny incoming, allow outgoing
|
||||
community.general.ufw:
|
||||
direction: "{{ item.direction }}"
|
||||
policy: "{{ item.policy }}"
|
||||
loop:
|
||||
- { direction: incoming, policy: deny }
|
||||
- { direction: outgoing, policy: allow }
|
||||
|
||||
- name: Enable the firewall
|
||||
community.general.ufw:
|
||||
state: enabled
|
||||
|
||||
# --- fail2ban ------------------------------------------------------------------
|
||||
|
||||
- name: Configure the fail2ban sshd jail
|
||||
ansible.builtin.template:
|
||||
src: jail.local.j2
|
||||
dest: /etc/fail2ban/jail.local
|
||||
mode: "0644"
|
||||
notify: restart fail2ban
|
||||
|
||||
- name: Enable and start fail2ban
|
||||
ansible.builtin.service:
|
||||
name: fail2ban
|
||||
enabled: true
|
||||
state: started
|
||||
|
||||
# --- Unattended security upgrades + time sync ----------------------------------
|
||||
|
||||
- name: Enable unattended upgrades
|
||||
ansible.builtin.copy:
|
||||
dest: /etc/apt/apt.conf.d/20auto-upgrades
|
||||
mode: "0644"
|
||||
content: |
|
||||
APT::Periodic::Update-Package-Lists "1";
|
||||
APT::Periodic::Unattended-Upgrade "1";
|
||||
|
||||
- name: Enable and start chrony
|
||||
ansible.builtin.service:
|
||||
name: chrony
|
||||
enabled: true
|
||||
state: started
|
||||
|
||||
# --- Deploy directories --------------------------------------------------------
|
||||
|
||||
- name: Create the scrabble base directories
|
||||
ansible.builtin.file:
|
||||
path: "{{ scrabble_base_dir }}/{{ item }}"
|
||||
state: directory
|
||||
owner: "{{ deploy_user }}"
|
||||
group: "{{ deploy_user }}"
|
||||
mode: "0750"
|
||||
loop:
|
||||
- ""
|
||||
- config
|
||||
- certs
|
||||
- dumps
|
||||
- images
|
||||
@@ -0,0 +1,8 @@
|
||||
{
|
||||
"live-restore": true,
|
||||
"log-driver": "json-file",
|
||||
"log-opts": {
|
||||
"max-size": "{{ docker_log_max_size }}",
|
||||
"max-file": "{{ docker_log_max_file }}"
|
||||
}
|
||||
}
|
||||
@@ -0,0 +1,9 @@
|
||||
# Managed by Ansible (deploy/ansible).
|
||||
[DEFAULT]
|
||||
bantime = 1h
|
||||
findtime = 10m
|
||||
maxretry = 5
|
||||
backend = systemd
|
||||
|
||||
[sshd]
|
||||
enabled = true
|
||||
@@ -0,0 +1,6 @@
|
||||
# Managed by Ansible (deploy/ansible). Key-only authentication.
|
||||
# root stays reachable by key (prohibit-password) for provisioning re-runs.
|
||||
PasswordAuthentication no
|
||||
PermitRootLogin prohibit-password
|
||||
PubkeyAuthentication yes
|
||||
KbdInteractiveAuthentication no
|
||||
@@ -0,0 +1,18 @@
|
||||
---
|
||||
# Main stack host: public web + bot-link ports and the external 'edge' network
|
||||
# the compose stack attaches caddy to.
|
||||
|
||||
- name: Open public web and bot-link ports
|
||||
community.general.ufw:
|
||||
rule: allow
|
||||
port: "{{ item }}"
|
||||
proto: tcp
|
||||
loop:
|
||||
- "80" # HTTP (ACME challenge + redirect to HTTPS)
|
||||
- "443" # HTTPS (caddy edge)
|
||||
- "9443" # bot-link mTLS (remote bot dials in; mutual TLS gates access)
|
||||
|
||||
- name: Ensure the external 'edge' docker network exists
|
||||
community.docker.docker_network:
|
||||
name: edge
|
||||
state: present
|
||||
@@ -0,0 +1,19 @@
|
||||
---
|
||||
# Telegram bot host: holds no inbound port beyond SSH (the bot dials out to the
|
||||
# Bot API and into the main host's bot-link). We only verify direct Bot API
|
||||
# egress here, since the "no VPN" decision depends on it.
|
||||
|
||||
- name: Verify direct Telegram Bot API egress (no VPN on this host)
|
||||
ansible.builtin.uri:
|
||||
url: https://api.telegram.org/
|
||||
method: GET
|
||||
status_code: [200, 301, 302, 401, 404] # any HTTP reply proves reachability
|
||||
timeout: 10
|
||||
register: tg_egress
|
||||
failed_when: false
|
||||
|
||||
- name: Report Telegram reachability
|
||||
ansible.builtin.debug:
|
||||
msg: >-
|
||||
api.telegram.org reachable:
|
||||
{{ (tg_egress.status | default(0) | int) > 0 }} (status {{ tg_egress.status | default('none') }})
|
||||
@@ -0,0 +1,31 @@
|
||||
---
|
||||
# Stage 18 host provisioning. Idempotent: safe to re-run after a host resize.
|
||||
# Prepares hosts only (docker, hardening, service account, firewall); the
|
||||
# application is deployed separately by .gitea/workflows/prod-deploy.yaml.
|
||||
|
||||
- name: Common baseline (both hosts)
|
||||
hosts: prod
|
||||
become: true
|
||||
pre_tasks:
|
||||
- name: Require a well-formed CI deploy public key
|
||||
ansible.builtin.assert:
|
||||
that:
|
||||
- deploy_ci_pubkey | length > 0
|
||||
- deploy_ci_pubkey is search('^(ssh|ecdsa)-')
|
||||
fail_msg: >-
|
||||
deploy_ci_pubkey is empty or malformed. Generate the key first
|
||||
(see deploy/ansible/README.md) or override deploy_ci_pubkey_path.
|
||||
roles:
|
||||
- common
|
||||
|
||||
- name: Main stack host
|
||||
hosts: main
|
||||
become: true
|
||||
roles:
|
||||
- main
|
||||
|
||||
- name: Telegram bot host
|
||||
hosts: tg
|
||||
become: true
|
||||
roles:
|
||||
- tg
|
||||
@@ -0,0 +1,53 @@
|
||||
# Production Telegram bot host descriptor (standalone — NOT an overlay). Run only on
|
||||
# the bot host:
|
||||
# docker compose -f docker-compose.bot.yml up -d
|
||||
#
|
||||
# The bot egresses to the Bot API directly (no VPN sidecar) and dials the main host's
|
||||
# published bot-link :9443 over mTLS. It exports no telemetry — otelcol lives on the
|
||||
# main host and is unreachable from here — so observe it via `docker logs` on this host.
|
||||
# Values come from the prod-deploy workflow (PROD_ secrets/variables); BOT_IMAGE is the
|
||||
# pushed registry tag and BOTLINK_GATEWAY_ADDR is the main host's <ip>:9443.
|
||||
name: scrabble-bot
|
||||
|
||||
services:
|
||||
bot:
|
||||
container_name: scrabble-telegram-bot
|
||||
image: ${BOT_IMAGE:?set BOT_IMAGE to the registry tag}
|
||||
restart: unless-stopped
|
||||
logging:
|
||||
driver: json-file
|
||||
options:
|
||||
max-size: "10m"
|
||||
max-file: "3"
|
||||
environment:
|
||||
TELEGRAM_BOT_TOKEN: ${TELEGRAM_BOT_TOKEN:?set TELEGRAM_BOT_TOKEN}
|
||||
TELEGRAM_GAME_CHANNEL_ID: ${TELEGRAM_GAME_CHANNEL_ID:-}
|
||||
TELEGRAM_CHAT_ID: ${TELEGRAM_CHAT_ID:-}
|
||||
TELEGRAM_PROMO_BOT_TOKEN: ${TELEGRAM_PROMO_BOT_TOKEN:-}
|
||||
TELEGRAM_BOT_USERNAME: ${TELEGRAM_BOT_USERNAME:-}
|
||||
TELEGRAM_BOT_LINK: ${TELEGRAM_BOT_LINK:-}
|
||||
TELEGRAM_MINIAPP_URL: ${TELEGRAM_MINIAPP_URL:?set TELEGRAM_MINIAPP_URL}
|
||||
# Real Bot API in prod (the test contour pins TELEGRAM_TEST_ENV=true instead).
|
||||
TELEGRAM_TEST_ENV: "false"
|
||||
TELEGRAM_API_BASE_URL: ${TELEGRAM_API_BASE_URL:-}
|
||||
TELEGRAM_OWNS_UPDATES: "true"
|
||||
# Dials the main host's published bot-link. ServerName stays `gateway` (the cert
|
||||
# SAN), so TLS validation is independent of the dial address.
|
||||
TELEGRAM_GATEWAY_ADDR: ${BOTLINK_GATEWAY_ADDR:?set BOTLINK_GATEWAY_ADDR (main:9443)}
|
||||
TELEGRAM_BOTLINK_SERVER_NAME: gateway
|
||||
TELEGRAM_BOTLINK_TLS_CERT: /certs/bot.crt
|
||||
TELEGRAM_BOTLINK_TLS_KEY: /certs/bot.key
|
||||
TELEGRAM_BOTLINK_TLS_CA: /certs/ca.crt
|
||||
TELEGRAM_LOG_LEVEL: ${LOG_LEVEL:-info}
|
||||
TELEGRAM_SERVICE_NAME: scrabble-telegram-bot
|
||||
# No telemetry export: otelcol is on the main host, unreachable from here.
|
||||
TELEGRAM_OTEL_TRACES_EXPORTER: none
|
||||
TELEGRAM_OTEL_METRICS_EXPORTER: none
|
||||
GOMAXPROCS: "1"
|
||||
volumes:
|
||||
- ${SCRABBLE_CONFIG_DIR:-.}/certs:/certs:ro
|
||||
deploy:
|
||||
resources:
|
||||
limits:
|
||||
cpus: "1.0"
|
||||
memory: 256M
|
||||
@@ -0,0 +1,98 @@
|
||||
# Production main-host overlay, applied on top of docker-compose.yml on the main host:
|
||||
# docker compose -f docker-compose.yml -f docker-compose.prod.yml up -d
|
||||
#
|
||||
# It (1) publishes caddy 80/443 — there is no host caddy in prod, so the contour caddy
|
||||
# owns the edge and does its own ACME on CADDY_SITE_ADDRESS — and the gateway bot-link
|
||||
# :9443 the remote bot dials in over mTLS; and (2) retunes the R7 limits down for the
|
||||
# 2 vCPU / 1.9 GiB host (GOMAXPROCS=2, smaller memory caps, shorter Prometheus
|
||||
# retention). The contour launches deliberately undersized at zero players; the added
|
||||
# node_exporter + Grafana watch host memory so it can be resized at Selectel when
|
||||
# traffic arrives.
|
||||
#
|
||||
# The bot + its VPN sidecar are absent here (the telegram-local profile is not
|
||||
# activated); the prod bot runs on its own host from docker-compose.bot.yml.
|
||||
|
||||
services:
|
||||
caddy:
|
||||
ports:
|
||||
- "80:80"
|
||||
- "443:443"
|
||||
deploy:
|
||||
resources:
|
||||
limits:
|
||||
memory: 96M
|
||||
|
||||
gateway:
|
||||
# Prod pulls the pushed image by tag instead of building locally; the base
|
||||
# build: section stays dormant because the deploy always pulls first.
|
||||
image: ${REGISTRY:?set REGISTRY}/scrabble-gateway:${TAG:?set TAG}
|
||||
ports:
|
||||
- "9443:9443"
|
||||
environment:
|
||||
# 2 vCPU host: align the Go scheduler with the cgroup quota (R7's 3 needs 3 cores).
|
||||
GOMAXPROCS: "2"
|
||||
deploy:
|
||||
resources:
|
||||
limits:
|
||||
cpus: "2.0"
|
||||
memory: 384M
|
||||
|
||||
backend:
|
||||
image: ${REGISTRY:?set REGISTRY}/scrabble-backend:${TAG:?set TAG}
|
||||
deploy:
|
||||
resources:
|
||||
limits:
|
||||
memory: 384M
|
||||
|
||||
postgres:
|
||||
deploy:
|
||||
resources:
|
||||
limits:
|
||||
memory: 384M
|
||||
|
||||
validator:
|
||||
image: ${REGISTRY:?set REGISTRY}/scrabble-telegram-validator:${TAG:?set TAG}
|
||||
deploy:
|
||||
resources:
|
||||
limits:
|
||||
memory: 96M
|
||||
|
||||
landing:
|
||||
image: ${REGISTRY:?set REGISTRY}/scrabble-landing:${TAG:?set TAG}
|
||||
deploy:
|
||||
resources:
|
||||
limits:
|
||||
memory: 64M
|
||||
|
||||
otelcol:
|
||||
deploy:
|
||||
resources:
|
||||
limits:
|
||||
memory: 256M
|
||||
|
||||
prometheus:
|
||||
command:
|
||||
- --config.file=/etc/prometheus/prometheus.yml
|
||||
- --storage.tsdb.retention.time=7d
|
||||
deploy:
|
||||
resources:
|
||||
limits:
|
||||
memory: 256M
|
||||
|
||||
tempo:
|
||||
deploy:
|
||||
resources:
|
||||
limits:
|
||||
memory: 384M
|
||||
|
||||
grafana:
|
||||
deploy:
|
||||
resources:
|
||||
limits:
|
||||
memory: 256M
|
||||
|
||||
postgres_exporter:
|
||||
deploy:
|
||||
resources:
|
||||
limits:
|
||||
memory: 64M
|
||||
@@ -240,14 +240,22 @@ services:
|
||||
networks: [internal]
|
||||
|
||||
# --- Telegram bot (egress via the VPN sidecar in test; dials the gateway) ---
|
||||
# vpn + bot are gated to the `telegram-local` profile: the test contour runs them
|
||||
# locally (CI passes --profile telegram-local), the prod main host omits them, and
|
||||
# the prod bot runs on its own host from deploy/docker-compose.bot.yml.
|
||||
vpn:
|
||||
container_name: scrabble-telegram-vpn
|
||||
image: docker.iliadenisov.ru/developer/amneziawg-sidecar:latest
|
||||
profiles: ["telegram-local"]
|
||||
restart: unless-stopped
|
||||
logging: *default-logging
|
||||
privileged: true
|
||||
environment:
|
||||
AWG_CONF: ${AWG_CONF:?set AWG_CONF}
|
||||
# Required by the vpn sidecar, which is gated to the telegram-local profile.
|
||||
# Compose can't scope a `:?` guard to a profile (interpolation runs for
|
||||
# profiled-out services too) and the prod main host has no VPN, so this is a soft
|
||||
# default; the test contour always supplies TEST_AWG_CONF and the sidecar validates it.
|
||||
AWG_CONF: ${AWG_CONF:-}
|
||||
networks:
|
||||
internal:
|
||||
aliases: [telegram]
|
||||
@@ -255,6 +263,7 @@ services:
|
||||
bot:
|
||||
container_name: scrabble-telegram-bot
|
||||
image: scrabble-telegram-bot:latest
|
||||
profiles: ["telegram-local"]
|
||||
build:
|
||||
context: ..
|
||||
dockerfile: platform/telegram/Dockerfile
|
||||
@@ -444,6 +453,26 @@ services:
|
||||
memory: 128M
|
||||
networks: [internal]
|
||||
|
||||
# node_exporter exports host CPU/memory/disk metrics. The prod main host runs a tight
|
||||
# 1.9 GiB budget, so host memory pressure — not just per-container docker_stats — is
|
||||
# what warns before an OOM. Prometheus scrapes it at :9100 (see prometheus.yml).
|
||||
node_exporter:
|
||||
container_name: scrabble-node-exporter
|
||||
image: quay.io/prometheus/node-exporter:v1.8.2
|
||||
restart: unless-stopped
|
||||
logging: *default-logging
|
||||
command:
|
||||
- --path.rootfs=/host
|
||||
- --collector.filesystem.mount-points-exclude=^/(sys|proc|dev|host)($|/)
|
||||
pid: host
|
||||
volumes:
|
||||
- /:/host:ro,rslave
|
||||
deploy:
|
||||
resources:
|
||||
limits:
|
||||
memory: 64M
|
||||
networks: [internal]
|
||||
|
||||
networks:
|
||||
internal:
|
||||
name: scrabble-internal
|
||||
|
||||
Executable
+134
@@ -0,0 +1,134 @@
|
||||
#!/usr/bin/env bash
|
||||
# Production main-host deploy driver. Runs ON the main host, invoked over SSH by
|
||||
# .gitea/workflows/prod-deploy.yaml as the deploy user (which must already be
|
||||
# `docker login`ed to the registry). It pulls the images at the new tag and rolls
|
||||
# the stack ONE service at a time in dependency order (least -> most dependent),
|
||||
# health-checking after each; any failure rolls the whole stack back to the
|
||||
# previously deployed tag.
|
||||
#
|
||||
# A schema migration adds a maintenance window: the backend (the only writer) is
|
||||
# stopped so a consistent pg_dump is taken before the new backend migrates forward.
|
||||
# Image rollback alone is safe under the expand-contract migration rule, so the
|
||||
# automatic rollback never touches the database; the dump is kept for a MANUAL
|
||||
# restore if a migration turned out to be destructive (see deploy/prod/README.md).
|
||||
#
|
||||
# Required env (exported by the workflow over SSH):
|
||||
# REGISTRY registry namespace, e.g. docker.iliadenisov.ru/developer
|
||||
# TAG new image tag (the deployed git SHA)
|
||||
# PREV_TAG previously deployed tag, or "none" on the first deploy
|
||||
# MIGRATION "1" when the deploy carries a schema migration, else "0"
|
||||
# Optional: COMPOSE_DIR ENV_FILE DUMP_DIR STATE_FILE POSTGRES_USER POSTGRES_DB
|
||||
set -uo pipefail
|
||||
|
||||
# Runtime compose vars (POSTGRES_*, GM_*, GRAFANA_*, CADDY_*, TELEGRAM_*, REGISTRY,
|
||||
# SCRABBLE_CONFIG_DIR, ...) come from a shell-sourceable env file the workflow writes
|
||||
# with single-quoted values. Exporting them into the process environment lets compose
|
||||
# interpolate ${...} without re-parsing the value — a plain --env-file would mangle the
|
||||
# literal '$' in the bcrypt GM_BASICAUTH_HASH.
|
||||
ENV_FILE="${ENV_FILE:-/opt/scrabble/env.sh}"
|
||||
# shellcheck disable=SC1090
|
||||
[ -f "$ENV_FILE" ] && . "$ENV_FILE"
|
||||
|
||||
REGISTRY="${REGISTRY:?REGISTRY required (env.sh)}"
|
||||
TAG="${TAG:?TAG required}"
|
||||
PREV_TAG="${PREV_TAG:-none}"
|
||||
MIGRATION="${MIGRATION:-0}"
|
||||
COMPOSE_DIR="${COMPOSE_DIR:-/opt/scrabble/compose}"
|
||||
DUMP_DIR="${DUMP_DIR:-/opt/scrabble/dumps}"
|
||||
STATE_FILE="${STATE_FILE:-/opt/scrabble/DEPLOYED_TAG}"
|
||||
PG_USER="${POSTGRES_USER:-scrabble}"
|
||||
PG_DB="${POSTGRES_DB:-scrabble}"
|
||||
|
||||
cd "$COMPOSE_DIR" || { echo "compose dir $COMPOSE_DIR missing"; exit 1; }
|
||||
export REGISTRY
|
||||
# otelcol joins the host docker group to read the socket; the GID varies per host.
|
||||
DOCKER_GID="$(getent group docker | cut -d: -f3)"
|
||||
export DOCKER_GID
|
||||
|
||||
dc() { docker compose -f docker-compose.yml -f docker-compose.prod.yml "$@"; }
|
||||
use_tag() { export TAG="$1"; }
|
||||
|
||||
# --- health probes (one-off containers on the contour networks, like CI) --------
|
||||
_probe() { docker run --rm --network "$1" alpine:3.20 wget -q -T 5 -O /dev/null "$2"; }
|
||||
health_backend() { for _ in $(seq 1 20); do _probe scrabble-internal http://backend:8080/readyz && return 0; sleep 3; done; return 1; }
|
||||
health_landing() { for _ in $(seq 1 20); do _probe scrabble-internal http://landing:80/ && return 0; sleep 3; done; return 1; }
|
||||
health_postgres() { for _ in $(seq 1 30); do [ "$(docker inspect -f '{{.State.Health.Status}}' scrabble-postgres 2>/dev/null)" = healthy ] && return 0; sleep 2; done; return 1; }
|
||||
health_running() { # health_running <container>: running, not restarting, stable restart count
|
||||
local n="$1" s r c1 c2
|
||||
for _ in $(seq 1 20); do
|
||||
s="$(docker inspect -f '{{.State.Status}}' "$n" 2>/dev/null || echo missing)"
|
||||
r="$(docker inspect -f '{{.State.Restarting}}' "$n" 2>/dev/null || echo true)"
|
||||
if [ "$s" = running ] && [ "$r" = false ]; then
|
||||
c1="$(docker inspect -f '{{.RestartCount}}' "$n")"; sleep 5
|
||||
c2="$(docker inspect -f '{{.RestartCount}}' "$n")"
|
||||
[ "$c1" = "$c2" ] && return 0
|
||||
fi
|
||||
sleep 3
|
||||
done
|
||||
return 1
|
||||
}
|
||||
|
||||
roll() { # roll <service> <health-cmd...>
|
||||
local svc="$1"; shift
|
||||
echo ">>> rolling $svc -> $TAG"
|
||||
dc up -d --no-build --no-deps "$svc" || return 1
|
||||
"$@" || { echo "!!! $svc failed health check"; return 1; }
|
||||
echo "<<< $svc healthy"
|
||||
}
|
||||
|
||||
rollback() {
|
||||
echo "########## ROLLBACK -> $PREV_TAG ##########"
|
||||
if [ "$PREV_TAG" = none ]; then
|
||||
echo "no previous tag (first deploy): cannot roll back; leaving the stack up for inspection."
|
||||
return
|
||||
fi
|
||||
use_tag "$PREV_TAG"
|
||||
dc up -d --no-build --remove-orphans
|
||||
echo "rolled back to $PREV_TAG."
|
||||
[ "$MIGRATION" = 1 ] && echo "NOTE: the DB is forward-migrated; a pre-deploy dump is in $DUMP_DIR — restore manually ONLY if the migration was destructive (see deploy/README.md, prod runbook)."
|
||||
}
|
||||
|
||||
mkdir -p "$DUMP_DIR"
|
||||
echo "=== prod deploy: tag=$TAG prev=$PREV_TAG migration=$MIGRATION ==="
|
||||
use_tag "$TAG"
|
||||
dc pull
|
||||
|
||||
# First deploy: nothing to roll from; bring the whole stack up and gate on health.
|
||||
if [ -z "$(docker ps -aq -f name=scrabble-backend)" ]; then
|
||||
echo "first deploy: bringing the whole stack up"
|
||||
dc up -d --no-build --remove-orphans || { echo "compose up failed"; exit 1; }
|
||||
health_backend || { echo "backend not ready"; exit 1; }
|
||||
health_landing || { echo "landing not ready"; exit 1; }
|
||||
echo "$TAG" > "$STATE_FILE"
|
||||
echo "first deploy healthy ($TAG)."
|
||||
exit 0
|
||||
fi
|
||||
|
||||
# Migration deploy: freeze writes and snapshot a consistent dump before migrating.
|
||||
if [ "$MIGRATION" = 1 ]; then
|
||||
echo "migration deploy: opening maintenance window (stopping the backend = the only writer)"
|
||||
dc stop backend
|
||||
dump="$DUMP_DIR/pre-$TAG-$(date +%Y%m%d-%H%M%S).sql"
|
||||
if ! docker exec scrabble-postgres pg_dump -U "$PG_USER" -d "$PG_DB" -n backend > "$dump"; then
|
||||
echo "pg_dump failed; restarting the old backend and aborting"
|
||||
dc start backend
|
||||
exit 1
|
||||
fi
|
||||
echo "consistent dump: $dump"
|
||||
fi
|
||||
|
||||
# Roll one service at a time, least -> most dependent; any failure rolls everything back.
|
||||
roll postgres health_postgres || { rollback; exit 1; }
|
||||
roll backend health_backend || { rollback; exit 1; }
|
||||
roll gateway health_running scrabble-gateway || { rollback; exit 1; }
|
||||
roll landing health_landing || { rollback; exit 1; }
|
||||
roll validator health_running scrabble-telegram-validator || { rollback; exit 1; }
|
||||
roll caddy health_running scrabble-caddy || { rollback; exit 1; }
|
||||
|
||||
# Observability + node_exporter: bring up the remainder and pick up any config changes.
|
||||
dc up -d --no-build --remove-orphans || { rollback; exit 1; }
|
||||
|
||||
# Final internal sanity before committing the new tag.
|
||||
health_backend || { rollback; exit 1; }
|
||||
echo "$TAG" > "$STATE_FILE"
|
||||
echo "=== deploy healthy ($TAG) ==="
|
||||
@@ -18,3 +18,8 @@ scrape_configs:
|
||||
- job_name: postgres_exporter
|
||||
static_configs:
|
||||
- targets: ["postgres_exporter:9187"]
|
||||
# Host-level metrics (memory/CPU/disk). Matters most on the prod main host's tight
|
||||
# 1.9 GiB budget, where total host memory is the OOM-proximity signal.
|
||||
- job_name: node
|
||||
static_configs:
|
||||
- targets: ["node_exporter:9100"]
|
||||
|
||||
+28
-12
@@ -1056,8 +1056,10 @@ plaintext relay (`GATEWAY_BOTLINK_RELAY_ADDR`) the backend admin console calls.
|
||||
|
||||
The full contour (`deploy/docker-compose.yml`) runs one `gateway`, one `backend`,
|
||||
one Postgres, the static `landing`, the Telegram `validator` and `bot` (+ the bot's VPN
|
||||
sidecar) and the **observability stack** —
|
||||
OTel Collector (OTLP/gRPC ingest → Prometheus metrics + Tempo traces) and Grafana
|
||||
sidecar — the `bot`+`vpn` pair is gated to a `telegram-local` compose profile so the prod
|
||||
main host can omit them) and the **observability stack** —
|
||||
OTel Collector (OTLP/gRPC ingest → Prometheus metrics + Tempo traces), a `node_exporter`
|
||||
for host CPU/memory (the prod main host's OOM signal), and Grafana
|
||||
with provisioned datasources and dashboards. All services export OTLP to the
|
||||
collector; the bot shares the VPN sidecar's netns, so its `AWG_CONF` must not
|
||||
carry a `DNS=` directive (that would hijack resolv.conf and stop it resolving
|
||||
@@ -1081,16 +1083,30 @@ Two contours, two secret/variable prefixes (`TEST_` / `PROD_`):
|
||||
generated by `deploy/gen-certs.sh` before `compose up`; the bot keeps its VPN sidecar
|
||||
for Telegram egress and dials the gateway by its internal name, so the bot-link stays
|
||||
on the internal network.
|
||||
- **Prod**: a manual SSH deploy after `development → master`. There is no
|
||||
host caddy, so the contour ships its own caddy terminating TLS — set
|
||||
`CADDY_SITE_ADDRESS` to the domain and the caddy does its own ACME. The **bot runs
|
||||
on a separate host** with native Telegram access (no VPN), deployed by SSH alongside
|
||||
the main app (rolled together so the bot-link protocol versions never skew); the
|
||||
gateway **publishes** the bot-link port and the certificates come from `PROD_`
|
||||
secrets — a long-lived CA with leaves rotated by a scheduled job. The bot dials the
|
||||
gateway's public bot-link endpoint and holds no inbound port; login is unaffected if
|
||||
that host or the link is down. *(This prod wiring is the deferred final stage; the
|
||||
code and the unified test contour land first — see `PRERELEASE.md`.)*
|
||||
- **Prod**: a **manual** rollout — `.gitea/workflows/prod-deploy.yaml`, `workflow_dispatch`
|
||||
only (from `master`, `confirm=deploy`), run after `development → master` is merged green.
|
||||
It builds and pushes the images to the registry (`docker.iliadenisov.ru`), then deploys
|
||||
over SSH onto **two hosts** provisioned by `deploy/ansible/` (docker, a non-sudo `deploy`
|
||||
service account holding a dedicated CI key, key-only sshd, default-deny ufw, fail2ban):
|
||||
the **main host** runs the full stack (`docker-compose.yml` + `docker-compose.prod.yml`),
|
||||
the **bot host** runs only the bot (`docker-compose.bot.yml`, no VPN — native Bot API
|
||||
egress, telemetry off). There is no host caddy, so the contour caddy terminates TLS —
|
||||
`CADDY_SITE_ADDRESS` is the domain and caddy does its own ACME. The gateway **publishes**
|
||||
the bot-link `:9443`; the remote bot dials it over mTLS (certs from `PROD_BOTLINK_*`,
|
||||
ServerName `gateway`, so TLS validation is independent of the public dial address), holds
|
||||
no inbound port, and login is unaffected if that host or the link is down.
|
||||
`deploy/prod-deploy.sh` rolls the main stack **one service at a time in dependency order**
|
||||
(postgres → backend → gateway → landing → validator → caddy), health-checking after each;
|
||||
any failure **rolls the whole stack back to the previous image tag**. A **schema migration**
|
||||
adds a maintenance window: the backend (the sole writer) is stopped for a consistent
|
||||
`pg_dump` before the new backend migrates forward — image rollback stays DB-safe under the
|
||||
expand-contract migration rule, and the dump is kept for a manual restore. The main host is
|
||||
intentionally **launch-sized** (2 vCPU / 1.9 GiB): the prod overlay trims the R7 limits
|
||||
(`GOMAXPROCS=2`, smaller caps, 7d Prometheus retention) and a **node_exporter** feeds
|
||||
host-memory metrics to Grafana so it can be resized reactively as players arrive.
|
||||
`GATEWAY_ABUSE_BAN_ENABLED=true` in prod (the per-IP ban is meaningful only with real
|
||||
client IPs). The `vpn`+`bot` pair is gated to a `telegram-local` compose profile the test
|
||||
contour activates; the prod main host omits it.
|
||||
|
||||
## 14. CI & branches
|
||||
|
||||
|
||||
Reference in New Issue
Block a user