Environment_Infrastructure/roadmap/prod-env/03-infra-stack-changes.md

03 — docker-stack-infra.yml Changes (Prod)

Context

File strategy — overlay approach

Prod-specific service changes are not written directly into docker-stack-infra.yml; they are kept in a separate overlay file:

File	Usage
docker-stack-infra.yml	Base — works as-is for test
docker-stack-infra.prod.yml	Prod overlay — additional services and overrides

# Test deploy:
docker stack deploy -c docker-stack-infra.yml iklimco

# Prod deploy (Swarm merges both files):
docker stack deploy -c docker-stack-infra.yml -c docker-stack-infra.prod.yml iklimco

Docker Swarm merge rule: if the same service name appears in both files, the overlay wins (deploy, environment, etc.); services only present in the overlay are added.

Prod-specific changes summary

• APISIX: 1 → 3 replicas (overlay override)
• Redis: single-instance → Sentinel cluster — 1 master + 2 replicas + 3 sentinels (overlay adds new services)
• RabbitMQ: 1 → 3-node Erlang cluster (overlay override + env)
• Vault: 1 → 3-node Raft cluster (overlay override) — see 07-vault-raft-plan.md
• No separate APISIX etcd: Patroni etcd is shared (/apisix prefix)
• init/apisix-core/init.sh: when PROFILE=prod, rate limit policy:local → policy:redis

swag-vl volume — not used in prod, not defined in overlay

Test-env Step 9 adds the swag-vl named volume to the base file. In prod, SWAG mounts to the StorageBox via the ${SWAG_CONFIG_DIR} env var, so this volume is unused by any service. No need to remove it in the overlay — Swarm does not create unused volume definitions, it remains harmless.

No swag-vl definition is made in docker-stack-infra.prod.yml.

Monitoring Persistence (StorageBox)

Prometheus and Grafana run as single instances. To ensure monitoring data and dashboards survive a node failover (moving from iklim-app-01 to another node), their data is stored on the shared StorageBox:

• Prometheus: /mnt/storagebox/prometheus/data
• Grafana: /mnt/storagebox/grafana/data

These paths are mounted via env vars (PROMETHEUS_DATA_DIR, GRAFANA_DATA_DIR) with named-volume fallbacks for test. See Step 8 for implementation details.

Note: PostgreSQL and MongoDB are not in docker-stack-infra.yml. They run in separate stacks on DB nodes (iklim-db and iklim-patroni). See 08-prod-db-cluster-kurulum.md.

Step 1 — Apply all test-env changes first

Follow every step in test-env/03-infra-stack-changes.md:

• Add swag service
• Add cert-reloader service
• Remove published ports for vault, apisix, rabbitmq, prometheus, grafana, apisix-dashboard
• Add swag-vl volume

Step 2 — Vault: 3-node Raft cluster (prod)

Vault starts directly with 3 replicas; the Phase 1 single-instance stage is skipped in prod. See 07-vault-raft-plan.md Phase 2 for detailed setup steps.

vault:
  deploy:
    mode: replicated
    replicas: 3
    placement:
      max_replicas_per_node: 1
      constraints:
        - node.labels.type == service

Step 3 — APISIX: 3 replicas + init.sh rate limit update (prod overlay)

Add to docker-stack-infra.prod.yml:

# docker-stack-infra.prod.yml
services:
  apisix:
    deploy:
      mode: replicated
      replicas: 3
      placement:
        max_replicas_per_node: 1
        constraints:
          - node.labels.type == service

  apisix-dashboard:
    deploy:
      mode: replicated
      replicas: 3
      placement:
        max_replicas_per_node: 1
        constraints:
          - node.labels.type == service

APISIX and apisix-dashboard are stateless (config lives in Patroni etcd) — 3 replicas is safe. Swarm distributes SWAG requests to APISIX replicas via VIP (IPVS round-robin).

init.sh — rate limit policy:redis (prod)

With policy:local, each APISIX instance counts independently → the global limit effectively becomes 3× with 3 replicas. Switch to policy:redis for PROFILE=prod.

Keep the following APISIX plugin limits in init/apisix-core/init.sh for test/prod unless stated otherwise:

Scope	Plugin	Target limit
WebSocket /ws	limit-conn	conn: 5 per remote_addr
Auth routes /v1/auth/*, /v1/users/*	limit-count	count: 12, time_window: 60 per remote_addr
Global rule	limit-count	count: 60, time_window: 60 per remote_addr

Update the global rate limit block in init/apisix-core/init.sh:

if [[ "$PROFILE" != "dev" ]]; then
  if [[ "$PROFILE" == "prod" ]]; then
    RATE_POLICY="redis"
    RATE_REDIS=',\"redis_host\":\"redis\",\"redis_port\":6379,\"redis_password\":\"'\"$REDIS_PASSWORD\"'\"'
  else
    RATE_POLICY="local"
    RATE_REDIS=""
  fi

  call_api "global rate limit" -X PUT "$APISIX_ADMIN_URL/global_rules/1" \
    -H "X-API-KEY: $API_KEY" -H "Content-Type: application/json" \
    -d '{"plugins":{"limit-count":{"count":60,"time_window":60,"key_type":"var","key":"remote_addr","rejected_code":429,"policy":"'"$RATE_POLICY"'","allow_degradation":true'"$RATE_REDIS"'}}}'
fi

APISIX's limit-count plugin does not natively support Redis Sentinel; policy:redis works with a single endpoint. The redis service name stays constant within Swarm overlay DNS. allow_degradation: true ensures that if Redis is temporarily unreachable (e.g. Sentinel failover ~10-30 s, or master rescheduling), APISIX passes requests through instead of returning errors — rate limiting is briefly suspended but API access is unaffected. Microservices use Spring Data Redis Sentinel natively and are unaffected by master changes. Docker Swarm has no inter-service anti-affinity; the redis master placement relies on Swarm's spread strategy to avoid co-locating with a replica. This is a known limitation — accepted in favour of operational simplicity.

Step 4 — etcd: Separate APISIX etcd removed — Patroni etcd shared

The standalone etcd service in docker-stack-infra.yml is not used in prod and must be removed. APISIX uses the 3-node Patroni etcd cluster running on DB nodes, via the /apisix prefix.

Why consolidated?

• A standalone single-instance etcd was a SPOF for APISIX.
• Patroni etcd is already 3-node HA — APISIX gets a more reliable config store.
• etcd supports prefix-based namespacing; Patroni uses /service/, APISIX uses /apisix/ — no collision.

APISIX etcd connection configuration

Update the etcd endpoints in the APISIX service in docker-stack-infra.yml to point to DB nodes:

apisix:
  environment:
    APISIX_STAND_ALONE: "false"
  # via apisix/conf/config.yaml or environment:
  # etcd:
  #   host:
  #     - "http://iklim-db-01:2379"
  #     - "http://iklim-db-02:2379"
  #     - "http://iklim-db-03:2379"
  #   prefix: "/apisix"

The preferred method is mounting config.yaml via a Docker config or volume:

# config/apisix/config.yaml
etcd:
  host:
    - "http://iklim-db-01:2379"
    - "http://iklim-db-02:2379"
    - "http://iklim-db-03:2379"
  prefix: "/apisix"
  timeout: 30

Firewall requirement

etcd access from app nodes to DB nodes must be open:

# Each app node → each db node, port 2379
# If inside Hetzner private network it may be open by default;
# verify there are no ufw/firewalld rules blocking it:
nc -zv iklim-db-01 2379

Note: Docker Compose overlay files can only add/override services, not remove them. The standalone etcd service remains in the base stack and runs as an idle container in prod — APISIX connects to Patroni etcd instead (via config.yaml in the prod overlay). This is harmless; etcd uses negligible resources with no active clients.

Step 5 — Redis: Sentinel cluster (prod overlay)

Redis runs as a single instance in test. In prod, Sentinel provides HA. Bitnami images are used — all configuration is done via env vars, no separate .conf file needed.

Prerequisites

# Create Docker secret for Redis password:
openssl rand -hex 32 | docker secret create redis_password -

Topology

any app node: redis           (1 replica, spread by Swarm — not pinned)
2 app nodes:  redis-replica   (2 replicas, max 1/node, spread across app nodes)
all app nodes: redis-sentinel (3 replicas, max 1/node, spread across all app nodes)

docker-stack-infra.prod.yml — Redis services

The existing redis service is overridden in the prod overlay as master; redis-replica and redis-sentinel are added as new services. The service name (redis) remains unchanged so the APISIX connection config does not need updating.

# docker-stack-infra.prod.yml
services:
  redis:                          # override base single-instance redis → master
    image: bitnamisecure/redis:latest
    environment:
      ALLOW_EMPTY_PASSWORD: no
      REDIS_PASSWORD: ${REDIS_PASSWORD}
      REDIS_REPLICATION_MODE: master
    deploy:
      mode: replicated
      replicas: 1
      placement:
        constraints:
          - node.labels.type == service
      restart_policy:
        condition: any
        delay: 5s
    labels:
      project: co.iklim

  redis-replica:
    image: bitnamisecure/redis:latest
    environment:
      ALLOW_EMPTY_PASSWORD: no
      REDIS_REPLICATION_MODE: slave
      REDIS_MASTER_HOST: redis
      REDIS_MASTER_PORT_NUMBER: "6379"
      REDIS_MASTER_PASSWORD: ${REDIS_PASSWORD}
      REDIS_PASSWORD: ${REDIS_PASSWORD}
    deploy:
      mode: replicated
      replicas: 2
      placement:
        max_replicas_per_node: 1
        constraints:
          - node.labels.type == service
        preferences:
          - spread: node.hostname
      restart_policy:
        condition: any
        delay: 5s
    labels:
      project: co.iklim

  redis-sentinel:
    image: bitnamisecure/redis-sentinel:latest
    environment:
      REDIS_SENTINEL_MASTER_NAME: prod-master
      REDIS_MASTER_HOST: redis
      REDIS_MASTER_PORT_NUMBER: "6379"
      REDIS_MASTER_PASSWORD: ${REDIS_PASSWORD}
      REDIS_SENTINEL_QUORUM: "2"
      REDIS_SENTINEL_DOWN_AFTER_MILLISECONDS: "5000"
      REDIS_SENTINEL_FAILOVER_TIMEOUT: "10000"
    deploy:
      mode: replicated
      replicas: 3
      placement:
        max_replicas_per_node: 1
        constraints:
          - node.labels.type == service
        preferences:
          - spread: node.hostname
      restart_policy:
        condition: any
        delay: 5s
    labels:
      project: co.iklim

Microservice connection (Spring Data Redis)

Microservices must use a Sentinel-aware connection:

# application-prod.yml
spring:
  data:
    redis:
      sentinel:
        master: prod-master
        nodes:
          - redis-sentinel:26379
      password: ${REDIS_PASSWORD}

Verification

# Query master identity:
docker exec $(docker ps -q -f name=iklimco_redis-sentinel | head -1) \
  redis-cli -p 26379 SENTINEL get-master-addr-by-name prod-master

Step 6 — RabbitMQ: 3-node Erlang cluster (prod overlay)

RabbitMQ runs as a 3-node cluster with one instance per app node.

Prerequisites

# Create Docker secret for Erlang cookie (must be identical on all nodes):
openssl rand -hex 32 | docker secret create rabbitmq_erlang_cookie -

docker-stack-infra.prod.yml — RabbitMQ override

# docker-stack-infra.prod.yml (add alongside redis services)
services:
  rabbitmq:
    image: rabbitmq:3-management
    hostname: "rabbitmq-{{.Node.Hostname}}"
    environment:
      RABBITMQ_ERLANG_COOKIE_FILE: /run/secrets/rabbitmq_erlang_cookie
      RABBITMQ_USE_LONGNAME: "true"
      RABBITMQ_NODENAME: "rabbit@rabbitmq-{{.Node.Hostname}}"
    secrets:
      - rabbitmq_erlang_cookie
    networks:
      iklimco-net:
        aliases:
          - "rabbitmq-{{.Node.Hostname}}"
    deploy:
      mode: replicated
      replicas: 3
      placement:
        max_replicas_per_node: 1
        constraints:
          - node.labels.type == service
      update_config:
        parallelism: 1
        order: stop-first
    labels:
      project: co.iklim

secrets:
  rabbitmq_erlang_cookie:
    external: true

networks:
  iklimco-net:
    external: true

Cluster join procedure (first setup)

RabbitMQ nodes do not form a cluster automatically; manual join is required after first start:

# Find the RabbitMQ container on iklim-app-02:
CTR=$(docker ps -q -f name=iklimco_rabbitmq)

# Stop, join, start:
docker exec "$CTR" rabbitmqctl stop_app
docker exec "$CTR" rabbitmqctl join_cluster rabbit@rabbitmq-iklim-app-01
docker exec "$CTR" rabbitmqctl start_app

# Repeat for iklim-app-03

# Verify cluster status (from any node):
docker exec "$CTR" rabbitmqctl cluster_status

HA policy: After the cluster is formed, set quorum queues as the default:

docker exec "$CTR" rabbitmqctl set_policy ha-all ".*" \
  '{"queue-type":"quorum"}' --apply-to queues

Step 7 — RabbitMQ WebSocket Sticky Sessions (Consistent Hash)

RabbitMQ Web STOMP (over WebSocket) requires a persistent connection. In a 3-node RabbitMQ cluster, if an APISIX instance uses the default Swarm VIP for the rabbitmq upstream, it may cause unnecessary inter-node traffic or connection drops if the session doesn't persist on the same node.

To optimize this, we implement Consistent Hashing (chash) at the APISIX layer based on the client's IP address (remote_addr).

1. Update APISIX Upstream Configuration (init.sh)

Update the rabbitmq upstream definition in init/apisix-core/init.sh to target specific cluster nodes instead of the generic service name, enabling the chash algorithm for prod.

# Update upstream rabbitmq block in init.sh
if [[ "$PROFILE" == "prod" ]]; then
  # Direct node DNS names to bypass Swarm VIP and allow chash to work effectively
  RABBITMQ_NODES='{"rabbitmq-iklim-app-01:15674":1, "rabbitmq-iklim-app-02:15674":1, "rabbitmq-iklim-app-03:15674":1}'
  LB_TYPE="chash"
  HASH_KEY="remote_addr"
else
  RABBITMQ_NODES='{"rabbitmq:15674":1}'
  LB_TYPE="roundrobin"
  HASH_KEY=""
fi

call_api "upstream rabbitmq" -X PUT "$APISIX_ADMIN_URL/upstreams/rabbitmq-upstream" \
  -H "X-API-KEY: $API_KEY" -H "Content-Type: application/json" \
  -d '{
    "name": "rabbitmq-upstream",
    "type": "'"$LB_TYPE"'",
    "key": "'"$HASH_KEY"'",
    "nodes": '"$RABBITMQ_NODES"',
    "timeout": {"connect": 10, "send": 3600, "read": 3600},
    "scheme": "http",
    '"$HC"'
  }'

2. Enable Real IP Detection in APISIX

Consistent hashing by remote_addr requires APISIX to see the actual client IP, not the internal IP of the SWAG (Nginx) proxy.

DNS Note: For chash to work with node-specific names, the RabbitMQ service must have network aliases configured for each node (e.g., rabbitmq-{{.Node.Hostname}}) as shown in Step 6.

Update template/apisix-core/config.yaml.template:

nginx_config:
  http:
    real_ip_header: "X-Forwarded-For"
    real_ip_from:
      - 10.0.0.0/8
      - 172.16.0.0/12
      - 192.168.0.0/16

Step 8 — Create docker-stack-infra.prod.yml

Create this file in the repo root alongside docker-stack-infra.yml. It combines all prod-specific overrides from Steps 2–6:

# docker-stack-infra.prod.yml
# Prod overlay — deploy with:
#   docker stack deploy -c docker-stack-infra.yml -c docker-stack-infra.prod.yml iklimco

services:

  vault:
    environment:
      VAULT_LOCAL_CONFIG: >-
        {"api_addr":"https://vault.iklim.co:8200",
         "cluster_addr":"https://{{ .Node.Hostname }}:8201",
         "storage":{"raft":{"path":"/vault/file","node_id":"{{ .Node.Hostname }}"}},
         "listener":[{"tcp":{"address":"0.0.0.0:8200",
           "tls_cert_file":"/vault/certs/STAR.iklim.co.full.crt",
           "tls_key_file":"/vault/certs/STAR.iklim.co_key.pem"}}],
         "default_lease_ttl":"168h","max_lease_ttl":"720h","ui":true}
    volumes:
      - /opt/iklimco/vault/data:/vault/file
      - /mnt/storagebox/ssl:/vault/certs:ro
    deploy:
      mode: replicated
      replicas: 3
      placement:
        max_replicas_per_node: 1
        constraints:
          - node.labels.type == service

  apisix:
    deploy:
      mode: replicated
      replicas: 3
      placement:
        max_replicas_per_node: 1
        constraints:
          - node.labels.type == service

  apisix-dashboard:
    deploy:
      mode: replicated
      replicas: 3
      placement:
        max_replicas_per_node: 1
        constraints:
          - node.labels.type == service

  redis:
    image: bitnamisecure/redis:latest
    environment:
      ALLOW_EMPTY_PASSWORD: no
      REDIS_PASSWORD: ${REDIS_PASSWORD}
      REDIS_REPLICATION_MODE: master
    deploy:
      mode: replicated
      replicas: 1
      placement:
        constraints:
          - node.hostname == iklim-app-01
      restart_policy:
        condition: any
        delay: 5s
    labels:
      project: co.iklim

  redis-replica:
    image: bitnamisecure/redis:latest
    environment:
      ALLOW_EMPTY_PASSWORD: no
      REDIS_REPLICATION_MODE: slave
      REDIS_MASTER_HOST: redis
      REDIS_MASTER_PORT_NUMBER: "6379"
      REDIS_MASTER_PASSWORD: ${REDIS_PASSWORD}
      REDIS_PASSWORD: ${REDIS_PASSWORD}
    deploy:
      mode: replicated
      replicas: 2
      placement:
        max_replicas_per_node: 1
        constraints:
          - node.labels.type == service
        preferences:
          - spread: node.hostname
      restart_policy:
        condition: any
        delay: 5s
    labels:
      project: co.iklim

  redis-sentinel:
    image: bitnamisecure/redis-sentinel:latest
    environment:
      REDIS_SENTINEL_MASTER_NAME: prod-master
      REDIS_MASTER_HOST: redis
      REDIS_MASTER_PORT_NUMBER: "6379"
      REDIS_MASTER_PASSWORD: ${REDIS_PASSWORD}
      REDIS_SENTINEL_QUORUM: "2"
      REDIS_SENTINEL_DOWN_AFTER_MILLISECONDS: "5000"
      REDIS_SENTINEL_FAILOVER_TIMEOUT: "10000"
    deploy:
      mode: replicated
      replicas: 3
      placement:
        max_replicas_per_node: 1
        constraints:
          - node.labels.type == service
        preferences:
          - spread: node.hostname
      restart_policy:
        condition: any
        delay: 5s
    labels:
      project: co.iklim

  rabbitmq:
    image: rabbitmq:3-management
    hostname: "rabbitmq-{{.Node.Hostname}}"
    environment:
      RABBITMQ_ERLANG_COOKIE_FILE: /run/secrets/rabbitmq_erlang_cookie
      RABBITMQ_USE_LONGNAME: "true"
      RABBITMQ_NODENAME: "rabbit@rabbitmq-{{.Node.Hostname}}"
    secrets:
      - rabbitmq_erlang_cookie
    networks:
      iklimco-net:
        aliases:
          - "rabbitmq-{{.Node.Hostname}}"
    deploy:
      mode: replicated
      replicas: 3
      placement:
        max_replicas_per_node: 1
        constraints:
          - node.labels.type == service
      update_config:
        parallelism: 1
        order: stop-first
    labels:
      project: co.iklim

secrets:
  rabbitmq_erlang_cookie:
    external: true

networks:
  iklimco-net:
    external: true

Step 8 — Monitoring Data Persistence (StorageBox)

Prometheus and Grafana run as single instances. Without persistent storage, data is lost on node failover. This step mounts their data directories from the StorageBox shared filesystem.

Changes already applied to docker-stack-infra.yml:

prometheus:
  volumes:
    - ${PROMETHEUS_DATA_DIR:-prometheus-vl}:/prometheus

grafana:
  volumes:
    - ${GRAFANA_DATA_DIR:-grafana-vl}:/var/lib/grafana

Test uses the named Docker volume fallbacks (prometheus-vl, grafana-vl) — no test env change needed.

Add to prod/secrets/iklim.co/.env.prod on storagebox (already in env-prod/.env):

PROMETHEUS_DATA_DIR=/mnt/storagebox/prometheus/data
GRAFANA_DATA_DIR=/mnt/storagebox/grafana/data

Create directories on StorageBox before first prod deploy:

mkdir -p /mnt/storagebox/prometheus/data /mnt/storagebox/grafana/data

Grafana writes its SQLite database and dashboard JSON to /var/lib/grafana. Prometheus writes its TSDB to /prometheus. Both directories must exist before the stack starts.

Step 9 — Verify

# Base file must be valid on its own (test deploy):
docker stack config -c docker-stack-infra.yml > /dev/null && echo "base OK"

# Prod merge must be valid:
docker stack config -c docker-stack-infra.yml -c docker-stack-infra.prod.yml > /dev/null && echo "prod merge OK"

Placement and Replica Summary — prod

Service	File	Replicas	Placement	HA Note
swag	base	1	node.hostname == iklim-app-01	No clustering support; Floating IP pinned to node
cert-reloader	base	1	node.hostname == iklim-app-01	Cron-style task; duplicate would be problematic
vault	prod overlay	3	node.labels.type == service; max 1/node	Raft cluster — see 07-vault-raft-plan.md
apisix	prod overlay	3	node.labels.type == service; max 1/node	Stateless; config in Patroni etcd; rate limit policy:redis
apisix-dashboard	prod overlay	3	node.labels.type == service; max 1/node	Stateless; reads from etcd
redis (master)	prod overlay	1	node.labels.type == service; Swarm spread	Sentinel cluster master; not pinned — reschedules on node failure
redis-replica	prod overlay	2	node.labels.type == service; max 1/node	Sentinel replica; spread:hostname
redis-sentinel	prod overlay	3	node.labels.type == service; max 1/node	Quorum=2; failover automatic
rabbitmq	prod overlay	3	node.labels.type == service; max 1/node	Erlang cluster; quorum queues
etcd	base	1	node.labels.type == service	Idle in prod — APISIX uses Patroni etcd; standalone service remains in base stack
prometheus	base	1	node.labels.type == service	No native HA; Thanos is overkill at this scale
grafana	base	1	node.labels.type == service	Not critical

PostgreSQL and MongoDB run in separate DB stacks on iklim-db-* nodes. See 08-prod-db-cluster-kurulum.md. etcd: 3-node cluster on DB nodes — APISIX shares it via /apisix prefix.