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Hassle-free minimal CI/CD for git repositories with docker or docker-compose projects.

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GIT-PIPE

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Hassle-free minimal CI/CD for git repos for docker-based projects.

Features:

  • zero configuration for repos by default
  • automatic encrypted backup and recover via different providers including plain files or S3
  • optional automatic TLS by Let's Encrypt
  • optional automatic domain registration by supported providers
  • minimal additional overhead
  • multiple repos at once without ports conflicts

How does it work

git-pipe does for you:

  1. Clone/fetch remote repository
  2. Detect packaging type
  3. Build package
  4. Restore backup (if applicable)
  5. Starts container(s)
  6. Creates proxy router
  7. (optional) Registers DNS
  8. (optional) Generates TLS certificates by Let's Encrypt HTTP-01 ACME
  9. (background) Regularly creates backup
  10. Starts from (1) in case something changes in repo

Minimal working example

For installation from binaries:

git-pipe run https://github.com/kassambara/wordpress-docker-compose.git

Or for docker installation:

docker run -p 127.0.0.1:8080:80 -v /var/run/docker.sock:/var/run/docker.sock reddec/git-pipe run https://github.com/kassambara/wordpress-docker-compose.git

Where:

  • -p 127.0.0.1:8080:80 - docker instruction to expose port 8080 to localhost
  • -v /var/run/docker.sock:/var/run/docker.sock - expose docker control socket to git-pipe
  • https://github.com/kassambara/wordpress-docker-compose.git - repo to pull and build (literally I picked just random one. Could be several repos)

Check usage section for details.

Wait a bit to finish building and go to

Automatic UI/dashboard

Index page automatically generated for unknown domain. Ex: http://localhost:8080

image

Supported OS

  • linux - high priority
  • darwin - (i-wish-i-had-a-mac priority) should work...
  • windows - (community support) maybe works, never tested but compiled

Future goals

  • zero-deps: replace OpenSSL, git, ssh and docker-compose to Go-native variants
  • file config: support file-based per repo configurations
  • authorization:
    • by JWT
    • OIDC
  • support dynamic reconfiguration (over API/by file watch + signal)
  • support GitHub-like webhooks
  • lazy initialization (ie: bring up service on request only)
  • path routing as alternative to domain-based

Installation

Requirements

  • docker
  • docker-compose
  • git
  • openssl - for backup en(de)cryption

During the first deployment, the following images will be downloaded automatically from docker repository

  • busybox

Pre-built binary

Download binary for your OS and arch from github releases.

Docker

Versions

  • reddec/git-pipe:<version> - all-in-one image, Alpine based
  • reddec/git-pipe:<version>-light - without docker-compose

To download the latest version use:

docker pull reddec/git-pipe:latest

Debian/Ubuntu installation

Download and install required .deb file from github releases.

It is highly recommended to install docker and docker-compose from the official Docker repository instead of APT. APT repos could be very outdated.

Supported repo types

docker-compose

Requires docker-compose.yaml or docker-compose.yaml file in the root directory. See specific configuration details;

Flow:

  • build equal to docker-compose build
  • start equal to docker-compose up

docker

Requires Dockerfile in the root directory. Will be executed as-is.

Flow:

  • build equal to docker build
  • start equal to docker run

Docker Compose

tested on docker-compose 1.27

  • Deploys all services.
  • All ports in ports directive will be linked as sub-domains
  • Each service with at least one port supports an optional domainname attribute which overrides sub-domain. Default is service name.
  • First services with attribute x-root: yes or with name www, web, gateway will be additionally exposed without sub-domain.
  • All exposed ports will be additionally exposed as sub-sub-domain with port name as the name.
  • Volumes automatically backup-ed and restored (see Backup)
  • Root port for service picked by the same rules as for docker

Domains will be generated as> <port?>.<x-domain|service>.<x-domain|project>.<root-domain> and <x-domain|project>.<root-domain> points to <first x-root: true|www|web|gateway>

Minimal example:

version: '3'
services:
  web:
    image: nginx
    ports:
      - 8080:80
      - 8081:9000
  api:
    image: hashicorp/http-echo
    command: -listen :80 -text "web"
    ports:
      - 8082:80

Repo name: github.com/example/mini

Generated mapping (root domain (-d,--domain,$DOMAIN) is localhost):

  • web.mini.localhost - points to web service to internal port 80 (the first port in array)
  • 80.web.mini.localhost - same
  • 9000.web.mini.localhost - points to web service to internal port 9000
  • api.mini.localhost - points api service to internal port 80
  • 80.api.mini.localhost - same

Root domain: mini.localhost points to web service to internal port 80 (the first service with name web, first port in array)

Override everything example

version: '3'
services:
  web:
    domainname: index
    image: nginx
    ports:
      - 8080:80
      - 8081:9000
  api:
    domainname: echo
    x-root: yes
    image: hashicorp/http-echo
    command: -listen :80 -text "web"
    ports:
      - 8082:80

Repo name: github.com/example/mini

Generated mapping (root domain (-d,--domain,$DOMAIN) is localhost):

  • index.super.localhost - points to web service to internal port 80 (the first port in array)
  • 80.index.super.localhost - same
  • 9000.index.super.localhost - points to web service to internal port 9000
  • echo.super.localhost - points api service to internal port 80
  • 80.echo.super.localhost - same

Root domain: super.localhost points to api service to internal port 80 (the first service with x-root: yes, first port in array)

Backup

For the single Dockerfile setup:

  • All defined VOLUME section in Dockerfile will be added to the archive.

For docker-compose setup:

  • All non-external, local (driver local or empty) volumes defined in volumes: section in full notation will be added to archive.

Backup interval defined by -I,--backup-interval,$BACKUP_INTERVAL and by default equal to 1h (every 1 hour).

The default encryption is symmetric AES-256 CBC done by OpenSSL. Encryption key defined in --backup-key,-K,$BACKUP_KEY and by-default equal to git-pipe-change-me.

Restore will be done automatically before the first run.

Supported destination

Defined by -B,--backup,$BACKUP. Default is file://backups

  • file://<directory> - archive in directory. Creates temp (.!tmp suffix) during backup.
  • s3://<id>:<secret>@<endpoint>/<bucket>[?params] - upload/download to/from S3-like storage
  • <empty> or none - disable backup

S3 query params:

The bucket should be created by an administrator.

  • force_path=true|false, default false - force use path style for buckets. Required for Minio
  • region=<name>, default us-west-1 - region
  • disable_ssl=true|false, default false, disable SSL for endpoint

Example for local Minio:

Launch minio: docker run -p 9000:9000 minio/minio server /data

Backup URL: s3://minioadmin:minioadmin@127.0.0.1:9000/backups?force_path=true&disable_ssl=true

Example for BackBlaze (B2):

Backup URL: s3://<id>:<secret>@s3.<region>.backblazeb2.com/<bucket name>

(B2) There is some lag between backup and availability to download. Usually, it's around 2-5 minutes for me.

Git

git-pipe uses git executable so all configuration from ~/.git is supported.

It is a good idea to generate deployment SSH keys with read-only access for production usage, however, it is not mandatory.

Run

As binary

git-pipe [flags..] <repo, ...>

See usage for a list of all available flags.

Localhost example:

git-pipe run https://github.com/kassambara/wordpress-docker-compose.git

Expose to the public:

git-pipe run -b 0.0.0.0:8080 https://github.com/kassambara/wordpress-docker-compose.git

Public and with Let's Encrypt certificates:

git-pipe run --auto-tls https://github.com/kassambara/wordpress-docker-compose.git

--auto-tls implies binding to 0.0.0.0:443 and automatic certificates by HTTP-01 ACME protocol.

The node should be accessible from the public internet by 443 port and routed by the domain name. Generally, there are two universal methods of how to route traffic from the unknown amount of domains to the machine:

  1. Route wildcard * sub-domain to the node and use the sub-domain as root domain in git-pipe. For example: for wildcard domain *.apps.mydomain.com, git-pipe should be launched with flag -d apps.mydomain.com
  2. Use automatic DNS registration from providers

As docker

Version:

  • reddec/git-pipe:<version> - all-in-one image, Alpine based
  • reddec/git-pipe:<version>-light - without docker-compose

Basic

docker run -p 80:80 -v /var/run/docker.sock:/var/run/docker.sock reddec/git-pipe run <flags same as for bin>

Expose to the public with TLS

It's better to have wildcard certificate.

In ./certs should be file server.key and server.crt.

docker run -p 443:443 -v /var/run/docker.sock:/var/run/docker.sock -v $(pwd)/certs:/app/ssl reddec/git-pipe run --tls <flags same as for bin>

Automatic TLS

Uses Let's Encrypt ACME HTTP-01 protocol.

docker run -p 443:443 -v /var/run/docker.sock:/var/run/docker.sock reddec/git-pipe run --auto-tls <flags same as for bin>

Private repos

Feel free to mount SSH socket:

docker run -p 80:80 -v /var/run/docker.sock:/var/run/docker.sock -v $SSH_AUTH_SOCK:/ssh-agent -e SSH_AUTH_SOCK=/ssh-agent reddec/git-pipe run ...

By default, SSH will be used without strict host checking. To harden pulling you may mount your own config to /root/.ssh/config.

Volumes

/app/backups - default directory for backups. Will not be used in case of non-file (ex: S3) backup. Without S3 it makes sense to persist this volume.

/app/repos - default directory for cloned repository. It is not critical to persist this volume because git-pipe can re-download repos anytime.

/app/ssl - default directory for certificates. In the case of auto-tls it will be used to cache keys and certs, so I highly recommended to persist this volume to prevent hitting rate-limit from Let's Encrypt.

In case you are using your certificates, you should them as server.key and server.crt and you may mount them in read-only mode.

Environment variables

git-pipe will pass the environment to the packs by prefix: where prefix is repo name (simple or FQDN - depends on setup) in upper case with dash replaced to underscore. Passed keys will be trimmed from suffix: TINC_BOOT_X_Y_Z will be passed as X_Y_Z.

Environment variables can be passed by system-level and/or from file -e, --env-file path/to/file. Env files can be defined several times. Each next file overwrites the previous value with the same key. Latest goes system environment, which means that system's environment variables have the highest priority.

Basic example:

Let's guess that the application needs a database URL which you don't want to expose in the repo. App needs variable DB_URL.

By default, we need to pass it as MY_EXAMPLE_DB_URL=something because

  • Repo name is my-example which converted to MY_EXAMPLE_ prefix
  • Variable name DB_URL

In case you used --fqdn you should specify the full name of repo: MY_EXAMPLE.EXAMPLE.EXAMPLE.COM_DB_URL.

docker

Trivial: just use environment variables as-is.

docker-compose

To use env variables in compose use variables substitution:

version: '3'
services:
  app:
    image: my-app:latest
    environment:
      DB_URL: "${DB_URL:-localhost}"

Router

Router (proxy) provides reverse-proxy concept.

-D, --dummy, $DUMMY disables router completely. Could be useful for services deployed without HTTP services.

Domain routing

By-default, each repo and service deployed as separated domain. Root domain can be defined in -d,--domain,$DOMAIN.

Path routing

In case multiple domains is not an option the path-based routing can be useful. Enabled by flag -P,--path-routing,$PATH_ROUTING which means that services will be under the same domain, but under different path prefixes. In this mode, --domain flag will not be used for services name, however, it still required for automatic TLS.

DNS

git-pipe uses domain-based routing system which means that all exposed deployed containers will be externally accessible by unique domain.

To support automatic TLS certificates and DNS routing allocated domains should be routed by the DNS provider. It could be done in several ways:

  1. Wildcard * sub-domain pointed to the git-pipe node with the sub-domain as root domain in git-pipe. For example: for wildcard domain *.apps.mydomain.com, git-pipe should be launched with flag -d apps.mydomain.com
  2. With selected DNS providers it's possible to register domains automatically: use flag -p, --provider, $PROVIDER and provider-specific flags.

Supported providers

Cloudflare

Provider name: cloudflare

Requires API-Token for the zone in which you want to register sub-domains.

Enable by:

-d MYDOMAIN -p cloudflare --cloudflare.api-token XXXXX

Where MYDOMAIN is your root domain which will be added to all apps; XXXXX Cloudflare API token

-d, --domain, $DOMAIN <root domain name> is theoretically optional in case you hard-coded root domains in manifest, but I guess it's not a common situation and should be avoided in most setups.

Options:

  • --cloudflare.ip <IP> ($CLOUDFLARE_IP) - Public IP address for DNS record. If not defined - will be detected automatically by myexternalip.com
  • --cloudflare.proxy ($CLOUDFLARE_PROXY) - Let Cloudflare proxy traffic. Implies some level of protection and automatic SSL between client and Cloudflare
  • --cloudflare.api-token <TOKEN> ($CLOUDFLARE_API_TOKEN) - Cloudflare API token

Authorization

It's possible to secure exposed endpoints by JWT.

Important: index endpoint not secured by authorization, however, it can expose only list of deployed applications. Use --no-index flag to disable index page.

Supported claims:

  • nbf - not before
  • exp - expiration time. Permanent if not defined
  • sub - restrict to single group (repo) by name (or FQDN if --fqdn set)
  • aud - (required) client name (will be used for statistics and probably for lock)
  • methods - list of allowed methods: GET, POST, etc.. Case-insensitive, all methods allowed if list is empty or undefined.

To enable JWT authorization use --jwt <key> flag, where <key> shared key used for signing tokens.

Tokens can be (sorted by priority):

  • in header Authorization with Bearer (case-insensitive) kind
  • in query param token

For example you have token eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJhdWQiOiJjbGllbnQxIn0.tj2xpg4u-IHzqXtjfpmI8QUFKQIQUrxPdCQY4JSfCWI so cURL requests may be:

  • in header: curl -H 'Authorization: eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJhdWQiOiJjbGllbnQxIn0.tj2xpg4u-IHzqXtjfpmI8QUFKQIQUrxPdCQY4JSfCWI' http://app.example.com/
  • in query: curl http://app.example.com/?token=eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJhdWQiOiJjbGllbnQxIn0.tj2xpg4u-IHzqXtjfpmI8QUFKQIQUrxPdCQY4JSfCWI

Generate tokens

Check git-pipe jwt command in usage.

Example:

git-pipe jwt -s changeme my-client-1

will generate and print token labeled as my-client-1 without expiration, for all groups (repos), for all methods, assuming that shared key is changeme.

Example with restriction to single group (repo):

git-pipe jwt -s changeme -g my-app my-client-1

Example with restriction to single group (repo) and only for GET and HEAD methods:

git-pipe jwt -s changeme -g my-app -m GET -m HEAD my-client-1

Example with expiration after 3 hours 20 minutes and 5 seconds:

git-pipe jwt -s changeme -e 3h20m5s my-client-1

Example how to generate for multiple same clients:

git-pipe jwt -s changeme my-client-1 my-client-2 my-client-3 my-client-4

Health check

git-pipe supports health checks in single Dockerfile repositories. It will not route traffic to the service until container will become healthy.

See how to define health check in Dockerfile.

Example for common HTTP service:

FROM my-service
EXPOSE 80


## ....
HEALTHCHECK --interval=3s CMD curl -f http://localhost:80/health || exit 1


## ...

Usage

  • jwt - helper to generate JWT
  • run - (default) run git-pipe and serve repos

jwt

Usage:
  git-pipe [OPTIONS] jwt [jwt-OPTIONS] [name...]

Help Options:
  -h, --help            Show this help message

[jwt command options]
      -s, --secret=     Shared JWT secret [$SECRET]
      -g, --group=      Allowed group (repo name) [$GROUP]
      -e, --expiration= Expiration time [$EXPIRATION]
      -m, --methods=    Allowed HTTP methods [$METHODS]

[jwt command arguments]
  name:                 Client names for each token will be generated

run

Usage:
  git-pipe [OPTIONS] run [run-OPTIONS] [git-url...]

Help Options:
  -h, --help                      Show this help message

[run command options]
      -d, --domain=               Root domain, default is hostname (default:
                                  localhost) [$DOMAIN]
      -D, --dummy                 Dummy mode disables HTTP router [$DUMMY]
      -b, --bind=                 Address to where bind HTTP server (default:
                                  127.0.0.1:8080) [$BIND]
      -T, --auto-tls              Automatic TLS (Let's Encrypt), ignores bind
                                  address and uses 0.0.0.0:443 port [$AUTO_TLS]
          --tls                   Enable HTTPS serving with TLS. TLS files
                                  should support multiple domains, otherwise
                                  path-routing should be enabled. Ignored with
                                  --auto-tls' [$TLS]
          --ssl-dir=              Directory for SSL certificates and keys.
                                  Should contain server.{crt,key} files unless
                                  auto-tls enabled. For auto-tls it is used as
                                  cache dir (default: ssl) [$SSL_DIR]
          --no-index              Disable index page [$NO_INDEX]
      -P, --path-routing          Enable path routing instead of domain-based.
                                  Implicitly disables --domain [$PATH_ROUTING]
          --jwt=                  Define JWT secret and enable JWT-based
                                  authorization [$JWT]
      -n, --network=              Network name for internal communication
                                  (default: git-pipe) [$NETWORK]
      -i, --interval=             Interval to poll repositories (default: 30s)
                                  [$INTERVAL]
      -o, --output=               Output directory for clone (default: repos)
                                  [$OUTPUT]
      -B, --backup=               Backup location (default: file://backups)
                                  [$BACKUP]
      -K, --backup-key=           Backup key (default: git-pipe-change-me)
                                  [$BACKUP_KEY]
      -I, --backup-interval=      Backup interval (default: 1h)
                                  [$BACKUP_INTERVAL]
      -F, --fqdn                  Construct from URL unique FQDN based on path
                                  and domain [$FQDN]
          --graceful-shutdown=    Interval before server shutdown (default:
                                  15s) [$GRACEFUL_SHUTDOWN]
      -e, --env-file=             Environment variables files [$ENV_FILE]
      -p, --provider=[cloudflare] DNS provider for auto registration [$PROVIDER]

    Cloudflare config:
          --cloudflare.ip=        Public IP address for DNS record. If not
                                  defined - will be detected automatically by
                                  myexternalip.com [$CLOUDFLARE_IP]
          --cloudflare.proxy      Let Cloudflare proxy traffic. Implies some
                                  level of protection and automatic SSL between
                                  client and Cloudflare [$CLOUDFLARE_PROXY]
          --cloudflare.api-token= API token [$CLOUDFLARE_API_TOKEN]

[run command arguments]
  git-url:                        remote git URL to poll with optional
                                  branch/tag name after hash