The dip is a CLI dev–tool that provides native-like interaction with a Dockerized application. It gives the feeling that you are working without using mind-blowing commands to run containers.
- Local development with Docker containers
- Dockerized Ruby on Rails application
- Dockerized Node.js application: one, two
- Dockerized Ruby gem
- Dockerizing Ruby and Rails development
- Reusable development containers with Docker Compose and Dip
gem install dip
Dip can be injected into the current shell (ZSH or Bash).
eval "$(dip console)"
IMPORTANT: Beware of possible collisions with local tools. One particular example is supporting both local and Docker frontend build tools, such as Yarn. If you want some developer to run yarn
locally and other to use Docker for that, you should either avoid adding the yarn
command to the dip.yml
or avoid using the shell integration for hybrid development.
After that we can type commands without dip
prefix. For example:
<run-command> *any-args
compose *any-compose-arg
up <service>
ktl *any-kubectl-arg
provision
When we change the current directory, all shell aliases will be automatically removed. But when we enter back into a directory with a dip.yml
file, then shell aliases will be renewed.
Also, in shell mode Dip is trying to determine manually passed environment variables. For example:
VERSION=20180515103400 rails db:migrate:down
You could add this eval
at the end of your ~/.zshrc
, or ~/.bashrc
, or ~/.bash_profile
.
After that, it will be automatically applied when you open your preferred terminal.
dip --help
dip SUBCOMMAND --help
The configuration is loaded from dip.yml
file. It may be located in a working directory, or it will be found in the nearest parent directory up to the file system root. If nearby places dip.override.yml
file, it will be merged into the main config.
Also, in some cases, you may want to change the default config path by providing an environment variable DIP_FILE
.
Below is an example of a real config. Config file reference will be written soon. Also, you can check out examples at the top.
# Required minimum dip version
version: '8.0'
environment:
COMPOSE_EXT: development
STAGE: "staging"
compose:
files:
- docker/docker-compose.yml
- docker/docker-compose.$COMPOSE_EXT.yml
- docker/docker-compose.$DIP_OS.yml
project_name: bear
kubectl:
namespace: rocket-$STAGE
interaction:
shell:
description: Open the Bash shell in app's container
service: app
command: bash
compose:
run_options: [no-deps]
bundle:
description: Run Bundler commands
service: app
command: bundle
rake:
description: Run Rake commands
service: app
command: bundle exec rake
rspec:
description: Run Rspec commands
service: app
environment:
RAILS_ENV: test
command: bundle exec rspec
rails:
description: Run Rails commands
service: app
command: bundle exec rails
subcommands:
s:
description: Run Rails server at http://localhost:3000
service: web
compose:
run_options: [service-ports, use-aliases]
stack:
description: Run full stack (server, workers, etc.)
runner: docker_compose
compose:
profiles: [web, workers]
sidekiq:
description: Run sidekiq in background
service: worker
compose:
method: up
run_options: [detach]
psql:
description: Run Postgres psql console
service: app
default_args: db_dev
command: psql -h pg -U postgres
k:
description: Run commands in Kubernetes cluster
pod: svc/rocket-app:app-container
entrypoint: /env-entrypoint
subcommands:
bash:
description: Get a shell to the running container
command: /bin/bash
rails:
description: Run Rails commands
command: bundle exec rails
kafka-topics:
description: Manage Kafka topics
pod: svc/rocket-kafka
command: kafka-topics.sh --zookeeper zookeeper:2181
setup_key:
description: Copy key
service: app
command: cp `pwd`/config/key.pem /root/keys/
shell: false # you can disable shell interpolations on the host machine and send the command as is
clean_cache:
description: Delete cache files on the host machine
command: rm -rf $(pwd)/tmp/cache/*
provision:
- dip compose down --volumes
- dip clean_cache
- dip compose up -d pg redis
- dip bash -c ./bin/setup
Current OS architecture (e.g. linux
, darwin
, freebsd
, and so on). Sometime it may be useful to have one common docker-compose.yml
and OS-dependent Compose configs.
Relative path from the current directory to the nearest directory where a Dip's config is found. It is useful when you need to mount a specific local directory to a container along with ability to change its working dir. For example:
- project_root
|- dip.yml (1)
|- docker-compose.yml (2)
|- sub-project-dir
|- your current directory is here <<<
# dip.yml (1)
environment:
WORK_DIR: /app/${DIP_WORK_DIR_REL_PATH}
# docker-compose.yml (2)
services:
app:
working_dir: ${WORK_DIR:-/app}
cd sub-project-dir
dip run bash -c pwd
returned is /app/sub-project-dir
.
Exposes the current user ID (UID). It is useful when you need to run a container with the same user as the host machine. For example:
# dip.yml (1)
environment:
UID: ${DIP_CURRENT_USER}
# docker-compose.yml (2)
services:
app:
image: ruby
user: ${UID:-1000}
The container will run using the same user ID as your host machine.
Modules are defined as array in modules
section of dip.yml, modules are stored in .dip
subdirectory of dip.yml directory.
The main purpose of modules is to improve maintainability for a group of projects. Imagine having multiple gems which are managed with dip, each of them has the same commands, so to change one command in dip you need to update all gems individualy.
With modules
you can define a group of modules for dip.
For example having setup as this:
# ./dip.yml
modules:
- sasts
- rails
...
# ./.dip/sasts.yml
interaction:
brakeman:
description: Check brakeman sast
command: docker run ...
# ./.dip/rails.yml
interaction:
annotate:
description: Run annotate command
service: backend
command: bundle exec annotate
Will be expanded to:
# resultant configuration
interaction:
brakeman:
description: Check brakeman sast
command: docker run ...
annotate:
description: Run annotate command
service: backend
command: bundle exec annotate
Imagine .dip
to be a submodule so it can be managed only in one place.
If you want to override module command, you can redefine it in dip.yml
# ./dip.yml
modules:
- sasts
interaction:
brakeman:
description: Check brakeman sast
command: docker run another-image ...
# ./.dip/sasts.yml
interaction:
brakeman:
description: Check brakeman sast
command: docker run some-image ...
Will be expanded to:
# resultant configuration
interaction:
brakeman:
description: Check brakeman sast
command: docker run another-image ...
Nested modules are not supported.
Run commands defined within the interaction
section of dip.yml
A command will be executed by specified runner. Dip has three types of them:
docker compose
runner — used when theservice
option is defined.kubectl
runner — used when thepod
option is defined.local
runner — used when the previous ones are not defined.
dip run rails c
dip run rake db:migrate
Also, run
argument can be omitted
dip rake db:migrate
You can pass in a custom environment variable into a container:
dip VERSION=12352452 rake db:rollback
Use options -p, --publish=[]
if you need to additionally publish a container's port(s) to the host unless this behaviour is not configured at dip.yml:
dip run -p 3000:3000 bundle exec rackup config.ru
You can also override docker compose command by passing DIP_COMPOSE_COMMAND
if you wish. For example if you want to use mutagen-compose
run DIP_COMPOSE_COMMAND=mutagen-compose dip run
.
If you want to persist that change you can specify command in compose
section of dip.yml :
compose:
command: mutagen-compose
List all available run commands.
dip ls
bash # Open the Bash shell in app's container
rails # Run Rails command
rails s # Run Rails server at http://localhost:3000
Run commands each by each from provision
section of dip.yml
Run Docker Compose commands that are configured according to the application's dip.yml:
dip compose COMMAND [OPTIONS]
dip compose up -d redis
Runs shared Docker Compose services that are used by the current application. Useful for microservices.
There are several official infrastructure services available:
# dip.yml
infra:
foo:
git: https://github.com/owner/foo.git
ref: latest # default, optional
bar:
path: ~/path/to/bar
Repositories will be pulled to a ~/.dip/infra
folder. For example, for the foo
service it would be like this: ~/.dip/infra/foo/latest
and clonned with the following command: git clone -b <ref> --single-branch <git> --depth 1
.
Available CLI commands:
dip infra update
pulls updates from sourcesdip infra up
starts all infra servicesdip infra up -n kafka
starts a specific infra servicedip infra down
stops all infra servicesdip infra down -n kafka
stops a specific infra service
Run kubectl commands that are configured according to the application's dip.yml:
dip ktl COMMAND [OPTIONS]
STAGE=some dip ktl get pods
Runs ssh-agent container based on https://github.com/whilp/ssh-agent with your ~/.ssh/id_rsa.
It creates a named volume ssh_data
with ssh socket.
An application's docker-compose.yml should contains environment variable SSH_AUTH_SOCK=/ssh/auth/sock
and connects to external volume ssh_data
.
dip ssh up
docker-compose.yml
services:
web:
environment:
- SSH_AUTH_SOCK=/ssh/auth/sock
volumes:
- ssh-data:/ssh:ro
volumes:
ssh-data:
external:
name: ssh_data
if you want to use non-root user you can specify UID like so:
dip ssh up -u 1000
This especially helpful if you have something like this in your docker-compose.yml:
services:
web:
user: "1000:1000"