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mu-cli

Linux CLI support for setting up and starting mu projects and services.

Getting started

Getting started with mu-cli

First we install mu-cli, then we use it to create a new migration. As a last step we create a script in our repository.

Installation

Bash users

Add mu to your path and source completions.

git clone https://github.com/mu-semtech/mu-cli.git
cd mu-cli
echo "PATH=\"`pwd`/:\$PATH\"" >> ~/.bashrc
echo "source `pwd`/completions" >> ~/.bashrc
source ~/.bashrc

You now have the mu command on your system.

ZSH users

Add mu to your path and source completions.

git clone https://github.com/mu-semtech/mu-cli.git
cd mu-cli
echo "autoload -U +X bashcompinit && bashcompinit" >> ~/.zshrc
echo "PATH=\"`pwd`/:\$PATH\"" >> ~/.zshrc
echo "source `pwd`/completions" >> ~/.zshrc
source ~/.zshrc

You now have the mu command on your system.

Creating a project

The mu command can help you create a new project. Move into a folder of your liking and create a new project with a given name, running:

cd ~/code/mu/
mu project new getting-started

The available commands depend on your project. In a new mu-project, the migrations service will offer you a command. Let's create a new mu-project so we have a solid starting point.

Visiting the project, we can see the standard services in the mu-project.

cd getting-started
cat docker-compose.yml

Installing services

Common services can be installed through the cli. You can request the current versions of these services from the cli. Let's install the latest migrations service:

mu project add service migrations

You are greeted with a copy-paste section to add this service to your project. Copy-paste this snippet into the services section of your docker-compose.yml and ensure the indentation is correct.

Future versions of mu will insert this snippet for you.

Running scripts for an existing service

Let's first see which commands the migrations service offers. The description of the commands you can run come from within the containers of your project. The containers don't need to be running, as long as they're created the command will find its way.

We can list the commands to execute with the -h option.

docker compose up -d

mu script migrations -h

You are listed with the scripts your newly installed migrations service supports. Note that the scripts may differ between versions. We will run the new command and supply it with the name for our migration:

mu script migrations new hello-world

And there you have it, a new migration file is born. No need to search for the right variable name.

Writing your own script

Scripts should be added to the services they belong to. In many cases the scripts will be reusable by others using the same service. In order to write your own script, you have to create a command which lists the options for your script.

We will go about this in three steps. First we mount the scripts locally. Then we create the structure to list our script. Lastly, we implement our script and execute it.

A local development setup

You can develop scripts to add to your project, and you can develop them live by mounting the right folders. Let's create a script to add to the dispatcher. Assuming we can live without the current scripts of the dispatcher, we can override the current script by mounting a scripts folder. Add the following mount-point to the dispatcher:

volumes:
  - ./scripts/dispatcher/:/app/scripts/

Make sure you up your stack again so the scripts are picked up when running the mu command:

docker compose up -d

Adding the metadata for our command

The mu command currently requires some housekeeping so we know how to run your command. More sensible defaults to come in the near future.

Move the following script into the ./scripts/dispatcher/config.json folder:

{
  "version": "0.1",
  "scripts": [
    {
      "documentation": {
        "command": "catch-all-redirect",
        "description": "Introduces a catch-all redirect route",
        "arguments": []
      },
      "environment": {
        "image": "ubuntu",
        "interactive": false,
        "script": "catch-all/run.sh"
      },
      "mounts": {
        "app": "/data/app/"
      }
    }
  ]
}

Important things mentioned here are the mount point for "app", this will mount our mu-project in the "/data/app/" folder so we can manipulate the files of our project. Also note that we indicate the script to run and the image in which to run it, you can use any image and have any set of preinstalled content in there. The documentation section is used when running mu project script dispatcher -h.

Implementing the script

As specified in our metadata, our script will be stored in ./scripts/dispatcher/catch-all/run.sh. Let's write and run!

Our script will replace the line send_resp( conn, 404, "Route not found. See config/dispatcher.ex" ) with a new line like Proxy.forward conn, path, "https://semantic.works/". Not the best approach, but it will suffice:

#!/bin/bash
sed -i -e 's/send_resp( conn, 404, "Route not found.  See config\/dispatcher.ex" )/Proxy.forward conn, path, "https:\/\/semantic.works\/"/' /data/app/config/dispatcher/dispatcher.ex

With that file in place, we can ensure the execution bit is set on the file and run it through mu-cli!

chmod u+x ./scripts/dispatcher/catch-all/run.sh
mu script migration catch-all

And behold the glory of our new dispatcher:

git diff

Awesome!

How-to guides

Specific guides how to apply this container

Developing a new service script

Developing scripts can be done in a project.

Scripts are found by checking the existing containers of a mu-project and seeing if they have scripts defined in their /app/scripts/ folder. Because mu-cli checks the configuration of the container itself, you can specify a volume in the docker-compose.yml. You can skip the rest of this how-to, it more elaborately explains the process and can be used for reference if something is unclear.

In your docker-compose.yml, make sure your service has the right volume attached to it.

services:
  mine:
    ...
    volumes:
      /path/to/scripts/:/app/scripts

Make sure the service is created by running docker compose up -d (optionally followed by docker compose stop) and ensure you don't remove the mine container when running scripts (containers which are not created, will not be used for finding scripts).

Add the config.json in the /path/to/scripts/ folder.

When running mu script, you should see the scripts for service mine in the list.

You can develop your scripts in /path/to/scripts/. You don't need to restart the stack when updating the sources. Changes are picked up on each run.

Developing template scripts

Writing templates happens much less than writing scripts. Hence, tooling is vastly less smoothed out.

  1. create a service in which you will try out your template script.
    mu service new javascript mu-test-service
  1. make up a new tag under which you will develop your new script eg semtech/mu-javascript-template:new-script-dev.

  2. update the FROM statement of the Dockerfile of your microservice to the newly created tag.

  3. add the scripts you want to use to the /app/scripts/ folder of the template.

  4. create a new local build of the template service with the tag you chose before.

  5. try out your script in the microservice.

You can keep iterating between steps 3-5. There is no need to make a build of your microservice. The script will be available while developing the microservice, not while using the service in a stack.

Developing project-specific scripts

Many scripts can be shared across users. Some scripts are different and belong to your project.

Scripts are always bound to a microservice. The semtech/simple-script-store image is a blank state scripts container. It does not execute anything by default and exits after a few seconds. This approach allows you to store your project-specific scripts.

A common and sensible name for the container containing your project specific scripts is project-scripts. A common mount-point for the the scripts then becomes ./config/project-scripts. The resulting docker-compose.yml would thus become:

services:
  ...
  project-scripts:
    image: semtech/simple-script-store:1.0.0
    volumes:
      - ./config/project-scripts/:/app/scripts/
    restart: "no"

Before executing scripts, make sure the container has been created. You should up the service. The container should exit after a few seconds to preserve system resources, it's inner contents will stay available to simple-script-store.

docker compose up -d project-scripts

Add the config.json script to the ./config/project-scripts/ folder of your mu-project. Script files are best nested in folders beneath this folder, we suggest not to further nest scripts to keep them easy to find.

Once the config has been added, you can find your scripts using mu scripts project-scripts. Updates to the scripts don't require this service to be restarted or recreated as long as the sources are mounted.

Developing a service installation script

Installation scripts make it easy to embed new services. The script can run specific commands to update your configuration and can insert a snippet into the docker-compose.yml.

The install script is based off the install top-level keyword in the service's config.json. In order to install a service, a docker-compose.yml needs to be provided. Optionally, scripts can be ran on installation.

Set up the installation script key for the setup.

{
  "version": "0.1",
  "install": [
    {
      "type": "docker-compose",
      "source": "install/"
    }
  ]
}

This snippet will indent and append the ./install/docker-compose-snippet.yml snippet when the service is installed. The snippet should not have a top-level indentation.

migrationsservice:
  image: semtech/mu-migrations-service
  links:
    - db:database
  volumes:
    - ./config/migrations:/data/migrations

With this in place, installing the microservice will install the supplied snippet in the docker-compose.yml file of the project upon installation.

Reading a configuration parameter in a script

Reading parameters from a script may occur from many languages. This example reads from the commandline using a bash script.

In order to read contents from a user, your command needs to be ran in interactive mode.

When writing a script you may want to read information from the user. When using bash, you can use the read command as such:

read -p "Please enter your name: " NAME
echo "Your name is $NAME but I could have used it for something better than printing a command"

Be sure to set the interactive option on your command to true.

Reasoning

Background information about the approach we took

High-level architectural overview

mu-cli is a script which supplies a bunch of functions. It bases itself on a somewhat limited shell script and executes commands you may not have installed through Docker.

We find two series of scripts:

  • Creating new services and projects
  • Manipulating existing projects through scripts

Creating new services and projects

We assume you have Git installed. In order to create a new service or project, we either clone a template repository, or we create the minimal contents needed through a simple script.

Although the current approach works this way, the long-term flexibility may be more in line with either cloning template repositories or in line with running scripts.

Running scripts

Scripts are currently attached to a microservice defined in a project. We assume the scripts are defined in /app/scripts in the final output of the container.

When you choose to run a script, we parse the json file which describes the command. This describes how the script should be ran (in which image and which executable). The json file has some options to specify the environment which the script needs to run correctly.

Executing and finding scripts in a project

Finding the scripts in a project requires some wizardry. We find containers that are running for your project and inspect those to find the available scripts.

We want to be compatible with the options supplied in the docker-compose.yml file and select the "right" docker-compose files to find the services in. In case of conflict we want to stay as close as possible to your configuration. That includes things like mounted volumes for finding the scripts.

docker-compose offers a script which lists all containers active for the current project, regardless of the docker-compose file through which they were launched. Although this requires the stack to have been started before you can execute such scripts, it helps us make sure the environment for the container is what the user expects it to be. We copy the scripts folder from the existing container and start reasoning on its contents.

Once the script has been found, we execute it in the requested environment. The container in which the script runs can be set dynamically.

Base technologies

mu-cli is a command-line extension of mu.semte.ch. Searching for a limited set of dependencies, the result is a shell script which heavily relies on Docker for its base functionality.

Depending on a shell seems to be well-suited for terminal support. These scripts can be written in multiple languages. Tools are dependent on the language chosen. It is highly uncertain which scripts a person will have installed. We can request the user to install all necessary dependencies, but that would not be the nicest experience. Furthermore, depending on installed commands may also make us depend on specific versions.

Because the stack already requires Docker and docker-compose, we try to keep the shell dependencies low, and use a long-running docker-container for other functionality.

As such, the base dependency is a shell (we assume something Bash-compatible at this time) and Docker.

Installing a service

Installing a service is a different beast alltogether. We can't inspect the service's image or the environment like we do when running scripts.

We maintain an index of images compatible with mu.semte.ch. This list is queried for the name you're looknig for. If we find the service, we check the necessary image. We create a new container for that image and ensure it exists immediately. Once the container is created, we copy the scripts container from that image. Next we remove the container again.

The config.json describes what we need to when we want to install the image. Each of those commands in order.

Embedding scripts in the container

You may wonder why we share the scripts through the container itself rather than using some other system.

There are a few advantages to this approach:

  • We expect the majority of the scripts to be tied to a microservice. It makes sense to maintain the scripts which match a specific version of the microservice, so it makes sense for the scripts to be maintained with the sourcecode.
  • If you are using mu.semte.ch, you must have found ways to share Docker containers. You already have a sturdy way of sharing scripts.
  • By storing the scripts in a container and supporting mounted volumes, it's easy to develop scripts by mounting them in a container.
  • Although we can easily share scripts with a microservice, you may add a container which exits early (like semtech/simple-script-store) to embed project-specific scripts in the same manner.

A possible downside of our approach is that the image may get polluted with large scripts. We doubt this will be an issue in practice as you can run the scripts in a container with a different image. As such, you can embed extra dependencies in such an image. If the custom script itself becomes large, you can create a custom docker build for storing the information about that script.

Taking these factors into account, it makes sense to keep use this mechanism for sharing scripts.

API

Provided application interface

Scripts API config.json

This section describes the config.json as currently specified. The section is a listing containing the full path of a key, followed by a description of what it does.

  • version: Version number of the config file format. This documentation describes version "0.1".
  • scripts: Array containing json objects. Each of the objects describes an individual script.
  • scripts.documentation: JSON object describing what the user sees of the script.
  • scripts.documentation.command: The command as ran by the user. If the command is the string new, then mu script servicename new will launch the script in a service, or mu script new will launch the script if it comes from a template.
  • scripts.documentation.description: Human description of what the command will do. This will be printed on the console when a user lists commands.
  • scripts.documentation.arguments: Array of strings with argument names for the script. This exists for documentation purposes.
  • scripts.environment: JSON object describing the general environment in which the script will run.
  • scripts.environment.image: Docker image of the container in which the script will run. This does not need to be the same as the image of the service.
  • scripts.environment.interactive: When set to true, your Docker container is ran in interactive mode and can thus receive input from the user. Non-interactive scripts are easier to call by external scripts.
  • scripts.environment.join_networks: For scripts which run in a project, this will make the script container join the default network. Set to true to activate this option.
  • scripts.environment.script: The script which will be ran. Make sure this script is executable (chmod a+x your-script.sh). If the script can be ran by your container as a script, it's fine. You could use a shebang like #!/usr/bin/ruby as the first line of your script to run a ruby script, or you could have a standard shell script which launches something totally different.
  • scripts.mounts.app: For scripts which run in a project, this is the place where the full project folder will be mounted. It allows you to do things like create new files for the project.
  • scripts.mounts.service: For scripts which run from a template, this is the place where the service file will be mounted. It allows you to do things like create new files for the service.

Scripts API environment variables

We suspect that there's a whole bunch of info which may be valuable to pass to the scripts. It doesn't make sense to pass everything as arguments because that would pollute the interface of the script. As we do with HTTP headers, we use environment variables as a channel for meta information. Current environment variables:

  • SERVICE_HOST_DIR: For template services, contains the directory where the service is located on the host filesystem.