Andrew Welch · #devops #docker #dev

Published , updated · 5 min read ·


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Dock Life: Using Docker for All The Things!

Embrac­ing Dock­er for All The Things gives you a more flex­i­ble, robust, and trans­portable way to use tools on your com­put­er with­out messy setup

Dock life using docker for everything

Dock­er is a devops tool that some peo­ple find intim­i­dat­ing because there is much to learn in order to build things with it.

And while that’s true, it’s actu­al­ly quite sim­ple to start using Dock­er for some very prac­ti­cal and use­ful things, by lever­ag­ing what oth­er peo­ple have created.

While writing an iPhone app might be complex, using one isn’t. Same with Docker!

In this arti­cle, we’re going to talk a bit about the phi­los­o­phy behind using Dock­er for All The Things”, and show a num­ber of prac­ti­cal exam­ples you can start with today.

Docker all the things

All you will need to have is Dock­er Desk­top installed on your com­put­er to start using it imme­di­ate­ly for some very use­ful things.

So let’s get going!

Link Dock Life

Embrac­ing Dock­er means that we don’t install tools or pack­ages on our actu­al com­put­er using some­thing like Home­brew.

Woman on dock docker

We don’t install node. We don’t install composer. We don’t install a whole host of things that you might be used to using every day.

But with a lit­tle mag­ic, you’ll nev­er notice the difference.

You still will just type npm install <package> or composer install <package> and every­thing will just work.

Link Why bother?

If every­thing is going to work the same, why should we both­er using Docker?

Docker why bother

There are a num­ber of advan­tages to the con­tainer­ized” approach that Dock­er uses:

  • Dock­er images are dis­pos­able. If some­thing goes wrong, you throw them away, with­out them ever affect­ing your actu­al computer
  • You can run spe­cif­ic ver­sions. You’re not locked into the ver­sion of the tool you have installed on your com­put­er, you can spin up any ver­sion of the tool you need
  • Switch­ing to a new com­put­er is easy. You don’t have to spend hours metic­u­lous­ly recon­fig­ur­ing your shiny new Mac­Book Pro with all the inter­con­nect­ed tools & pack­ages you need
  • You can exper­i­ment with aplomb. If you’re curi­ous about a new tool or tech­nol­o­gy, you can just give it a whirl. If it does­n’t work out, just dis­card the image
  • Dock­er images are self-con­tained. You’re not going to have to scram­ble to down­load a set of inter­con­nect­ed depen­den­cies in order to get them to work

…and there are many oth­ers, too.

Link Docker images & containers

Instead of installing all of the tools & pack­ages you’re used to using, we use Dock­er images that some­one else has cre­at­ed that con­tain these tools & packages.

Docker images and containers

Think of a Dock­er image as a bun­dle of all of the files, exe­cuta­bles, etc. need­ed to run some tool we want to use.

There is a cen­tral reg­istry called Dock­er Hub where orga­ni­za­tions and peo­ple can pub­lish their Dock­er images, and we get to use them!

Images are used as a fac­to­ry to spin up a Dock­er con­tain­er, which is just a run­ning instance based on that image.

These run­ning Dock­er con­tain­ers are what do the actu­al work, and they are where the term con­tainer­iza­tion” comes from.

The first time you run a Dock­er con­tain­er, it will down­load the image. From then on, it’ll just run the con­tain­er, do the work, then exit.

Link Shell Aliases

In order to seam­less­ly pro­vide access to var­i­ous tools run via Dock­er, we’re going to use shell aliases.

Docker aliases are the glue

A shell is just the pro­gram that pro­vides the com­mand-line inter­face in your terminal.

Shell alias­es are user-defined com­mands that expand into some­thing else when you type them into your terminal.

Think of aliases as fancy macros

If you’re using recent ver­sions of MacOS, you’re prob­a­bly using the zsh as your shell. Oth­er­wise, you are most like­ly using bash as your shell.

You can find out what shell you’re using by typ­ing the fol­low­ing into your terminal:

echo "$SHELL"

Either way, both shells allow you to cre­ate shell alias­es, which is what we’re after.

For zsh, we’ll be putting our alias­es in the ~/.zshrc file. For bash, we’ll be putting our alias­es in ~/.bashrc

The ~/ pre­fix means in my home direc­to­ry”, and for the curi­ous, rc stands for run commands”.

Both files are lit­er­al­ly just a list of com­mands that are run when the shell is start­ed up, and we can lever­age that to add our alias­es in.

After you change some­thing in one of the rc files (such as to add an alias), you need to re-run the com­mands in the file to exe­cute them:

For zsh: source ~/.zshrc

For bash: source ~/.bashrc

For more on alias­es, check out the How to Cre­ate Bash Alias­es and How to Con­fig­ure and use Alias­es in Zsh articles.

Link Anatomy of a Docker Alias

While you don’t need to ful­ly grok the Dock­er alias­es we describe here to use them, let’s have a quick look at the com­po­nents in the alias­es we’re using.

Here’s a break­down of an exam­ple alias we might use to run node in a Dock­er container:

Anatomy of a docker alias

Anato­my of a Dock­er Alias

  • alias — tells our shell we’re defin­ing an alias
  • node — the name of our alias (what we type in ter­mi­nal to expand the alias)
  • docker — the Dock­er CLI command
  • run — tells Dock­er to run the container
  • --rm — auto­mat­i­cal­ly remove the con­tain­er when it exits
  • -it — cre­ate an inter­ac­tive Bash shell in the con­tain­er, to let us poten­tial­ly type fur­ther input
  • -v "$PWD":/app — mount a vol­ume from the cur­rent direc­to­ry (out­put by $PWD) to the /app direc­to­ry in the con­tain­er. This lets the con­tain­er read & write to the cur­rent direc­to­ry on our com­put­er. We put quotes around it to han­dle file paths with spaces in them properly
  • -w /app — set the work­ing direc­to­ry to /app in the container
  • node:16-alpine — use the node Dock­er image with the tag 16-alpine to cre­ate the container

Again, this does­n’t all need to make sense to you imme­di­ate­ly, you can still use the alias­es list­ed below.

But it’s here for you if you decide to mod­i­fy the alias­es, or cre­ate your own.

Now let’s get on to the alias­es we actu­al­ly used to run var­i­ous Dock­er images!

Link Composer alias

Com­pos­er is a pack­age man­ag­er for PHP, to run it via Dock­er con­tain­er, just add this alias to the rc file for your shell:

alias composer='docker run --rm -it -v "$PWD":/app -v ${COMPOSER_HOME:-$HOME/.composer}:/tmp composer '

Then source your rc file (see above) to reload it, and you’ll have composer avail­able glob­al­ly in your ter­mi­nal, with­out ever hav­ing installed it.

What it does is it runs the offi­cial com­pos­er Dock­er con­tain­er, mounts the cur­rent direc­to­ry as a shared vol­ume so the Dock­er con­tain­er can write to it, and then pass­es the composer com­mands into the con­tain­er to run them.

It also cre­ates a sec­ond shared vol­ume for Com­poser’s cache mount­ed to /​tmp on your com­put­er, so it can persist.

So you can do things like:

composer create-project craftcms/cms craft-test

But what if for some rea­son we need to run the old­er composer 1.x? No prob­lem, we can set up an alias for that too:

alias composer1='docker run --rm -it -v "$PWD":/app -v ${COMPOSER_HOME:-$HOME/.composer}:/tmp composer:1 '

Now if we type composer1 in our ter­mi­nal, it’ll use Com­pos­er v1.x.

In the composer:1 in the alias above, composer is the name of the Dock­er Hub image, and 1 is the tag, which lets you spec­i­fy which ver­sion of the image you want to use.

Link Node alias

Node.js is a JavaScript run­time that runs in your ter­mi­nal. To run it via Dock­er con­tain­er, just add this alias to the rc file for your shell:

alias node='docker run --rm -it -v "$PWD":/app -w /app node:16-alpine '

Then source your rc file (see above) to reload it, and you’ll have node avail­able glob­al­ly in your ter­mi­nal, with­out ever hav­ing installed it.

What it does is it runs the offi­cial node Dock­er con­tain­er, mounts the cur­rent direc­to­ry as a shared vol­ume so the Dock­er con­tain­er can write to it, and then pass­es the node com­mands into the con­tain­er to run them.

Then you can do things like:

node npm install

This uses Node 16 by default (as indi­cat­ed by the 16-alpine tag), but what if you want­ed to be able to run old­er ver­sions of Node? No prob­lem, add these aliases:

alias node14='docker run --rm -it -v "$PWD":/app -w /app node:14-alpine '
alias node12='docker run --rm -it -v "$PWD":/app -w /app node:12-alpine '
alias node10='docker run --rm -it -v "$PWD":/app -w /app node:10-alpine '

Then you can instant­ly run com­mands using any ver­sion of node by using node14, node12, and node10 respectively!

Link npm alias

But what if you use npm so much that you want an alias for that as well, so you can just type npm install, and not have to type node npm install? No prob­lem, just add this alias to the rc file for your shell:

alias npm='docker run --rm -it -v "$PWD":/app -w /app node:16-alpine npm '

Then source your rc file (see above) to reload it, and you’ll have npm avail­able glob­al­ly in your ter­mi­nal, with­out ever hav­ing installed it.

Note that if we make the alias npm here, we can’t use node npm any­more, because it will expand both the node and the npm alias­es. Either then always use npm on its own, or rename the alias to npmx or some­thing else.

What it does is it runs the same offi­cial node Dock­er con­tain­er, mounts the cur­rent direc­to­ry as a shared vol­ume so the Dock­er con­tain­er can write to it, and then runs npm and also pass­es your npm com­mands into the con­tain­er to run them.

Then you can do things like:

npm install

Link Deno alias

Deno is a mod­ern run­time for JavaScript and Type­Script that runs in your ter­mi­nal. To run it via Dock­er con­tain­er, just add this alias to the rc file for your shell:

alias deno='docker run --rm -it -v "$PWD":/app -w /app denoland/deno '

Then source your rc file (see above) to reload it, and you’ll have deno avail­able glob­al­ly in your ter­mi­nal, with­out ever hav­ing installed it.

What it does is it runs the offi­cial deno Dock­er con­tain­er, mounts the cur­rent direc­to­ry as a shared vol­ume so the Dock­er con­tain­er can write to it, and then pass­es the deno com­mands into the con­tain­er to run them.

Then you can do things like:

deno run /app/main.ts

Link AWS Alias

The AWS Com­mand Line Inter­face allows you to man­age your AWS ser­vices from your ter­mi­nal. To run it via Dock­er con­tain­er, just add this alias to the rc file for your shell:

alias aws='docker run --rm -it -v ~/.aws:/root/.aws amazon/aws-cli '

Then source your rc file (see above) to reload it, and you’ll have aws avail­able glob­al­ly in your ter­mi­nal, with­out ever hav­ing installed it.

What it does is it runs the offi­cial aws-cli Dock­er con­tain­er, mounts the hid­den ~/.aws direc­to­ry your home direc­to­ry as a shared vol­ume so the Dock­er con­tain­er can write to it, and then pass­es the aws com­mands into the con­tain­er to run them.

So you can do things like:

aws ec2 describe-instances

Link ffmpeg alias

ffm­peg is a cross-plat­form solu­tion to record, con­vert, and stream audio and video. To run it via Dock­er con­tain­er, just add this alias to the rc file for your shell:

alias ffmpeg='docker run --rm -it -v "$PWD":/app -w /app jrottenberg/ffmpeg '

Then source your rc file (see above) to reload it, and you’ll have ffmpeg avail­able glob­al­ly in your ter­mi­nal, with­out ever hav­ing installed it.

What it does is it runs the offi­cial ffm­peg Dock­er con­tain­er, mounts the cur­rent direc­to­ry as a shared vol­ume so the Dock­er con­tain­er can write to it, and then pass­es the ffmpeg com­mands into the con­tain­er to run them.

So you can do things like:

ffmpeg -i input.mp4 output.avi

Link yeoman alias

yeo­man is a gener­ic scaf­fold­ing sys­tem allow­ing the cre­ation of any kind of app. To run it via Dock­er con­tain­er, just add this alias to the rc file for your shell:

alias yo='docker run --rm -it -v "$PWD":/app nystudio107/node-yeoman:16-alpine '

Then source your rc file (see above) to reload it, and you’ll have yo avail­able glob­al­ly in your ter­mi­nal, with­out ever hav­ing installed it.

What it does is it runs a yeo­man Dock­er con­tain­er, mounts the cur­rent direc­to­ry as a shared vol­ume so the Dock­er con­tain­er can write to it, and then pass­es the yo com­mands into the con­tain­er to run them.

So you can do things like:

yo webapp

Link Tree Alias with parameters

tree is a CLI tool that allows you to view the hier­ar­chi­cal tree struc­ture of a direc­to­ry. In this case, we want to be able to pass CLI para­me­ters down to the tree com­mand, so we can tell it how deep of a file sys­tem tree we want to see.

In order to do this, we can set an alias as a func­tion, to obtain the CLI para­me­ters, and pass them into the tree com­mand inside of the Dock­er container.

To run it via Dock­er con­tain­er, just add this alias to the rc file for your shell:

alias tree='f(){ docker run --rm -it -v "$PWD":/app johnfmorton/tree-cli tree "$@";  unset -f f; }; f'

Then source your rc file (see above) to reload it, and you’ll have tree avail­able glob­al­ly in your ter­mi­nal, with­out ever hav­ing installed it.

What it does is it runs a tree Dock­er con­tain­er cre­at­ed by John Mor­ton, mounts the cur­rent direc­to­ry as a shared vol­ume so the Dock­er con­tain­er can read it, and then pass­es the tree com­mand along with any para­me­ters into the con­tain­er to run them.

We have to treat para­me­ters (any­thing pro­ceed­ed with a -) spe­cial and explic­it­ly extract them, or they are not passed into the Dock­er container. 

So you can do things like:

tree
                                                                                                                                   ✔
/~webdev
├── boilerplate
├── contrib
├── craft
├── generator-craftplugin
├── go
├── misc
├── node
├── rust
├── sites
└── twig

directory: 10

And we can also pass in CLI para­me­ters to tell it we want to see 2 lev­els deep:

tree -l 2
                                                                                                                                   ✔
/~webdev
├── boilerplate
|  ├── craft
|  ├── craft-plugin-buildchain
|  ├── craft-plugin-vite-buildchain
|  ├── craft-vite-buildchain
|  ├── plugindev
|  └── vitepress-starter
├── contrib
|  ├── awesome-vite
|  ├── cms
|  ├── craft-autocomplete
|  ├── craft-sprig
|  ├── craft-sprig-core
|  ├── docker
|  ├── europa-museum
|  ├── idea-php-symfony2-plugin
|  ├── minify-lib
|  ├── my-vanila-app
|  ├── rackspace
|  ├── spoke-and-chain
|  ├── vite
|  ├── vite-plugin-favicon
|  ├── vite-symlink-issue
|  ├── vitepress
|  └── vizy
├── craft
...
directory: 121 file: 5

Link Making your own Docker Aliases

Hope­ful­ly, you can see a pat­tern emerg­ing in terms of how to con­struct an alias that runs a Dock­er con­tain­er for you, so you can cre­ate your own, too!

A typ­i­cal pat­tern for me is going to Dock­er Hub, search­ing for the tool I’m inter­est­ed in, and then cre­at­ing a shell alias for it… and away we go!

Usu­al­ly, the Dock­er Images will have exam­ple usage com­mands list­ed along with them that makes it pret­ty pain­less to do.

Link Making your own Docker Images

Mak­ing your own Dock­er images is a bit of a leap from just using images that oth­ers have cre­at­ed, and is beyond the scope of this article.

In order to build Dock­er images your­self, it will require learn­ing a bit more about the ins & outs of Dock­er, and how it works.

I can high­ly rec­om­mend the Mas­ter­ing Dock­er video series from Bret The Cap­tain” Fish­er if your inter­est is piqued.

You can also look at the nys­tu­dio107/­dock­er-yeo­man repos­i­to­ry for a sim­ple Dock­er­file exam­ple, with GitHub actions that build & push the images to Dock­er Hub.

Link Tying Off at the Dock

There’s a rea­son why Dock­er has such a strong fol­low­ing in the devops and enter­prise worlds, but we can dip our toe gen­tly into the water, and still reap the benefits.

Docker wrapping up

If you want all of the alias­es list­ed above in one place for a sin­gle copy & paste, here they are:

# Docker aliases
alias composer='docker run --rm -it -v "$PWD":/app -v ${COMPOSER_HOME:-$HOME/.composer}:/tmp composer '
alias composer1='docker run --rm -it -v "$PWD":/app -v ${COMPOSER_HOME:-$HOME/.composer}:/tmp composer:1 '
alias node='docker run --rm -it -v "$PWD":/app -w /app node:16-alpine '
alias node14='docker run --rm -it -v "$PWD":/app -w /app node:14-alpine '
alias node12='docker run --rm -it -v "$PWD":/app -w /app node:12-alpine '
alias node10='docker run --rm -it -v "$PWD":/app -w /app node:10-alpine '
alias npm='docker run --rm -it -v "$PWD":/app -w /app node:16-alpine npm '
alias deno='docker run --rm -it -v "$PWD":/app -w /app denoland/deno '
alias aws='docker run --rm -it -v ~/.aws:/root/.aws amazon/aws-cli '
alias ffmpeg='docker run --rm -it -v "$PWD":/app -w /app jrottenberg/ffmpeg '
alias yo='docker run --rm -it -v "$PWD":/app nystudio107/node-yeoman:16-alpine '
alias tree='f(){ docker run --rm -it -v "$PWD":/app johnfmorton/tree-cli tree "$@";  unset -f f; }; f'

Inci­den­tal­ly, when you do move to a new com­put­er, all you have to do is copy your alias­es over, and all of your tools are now installed”. 🎉

If this has giv­en you a taste for Dock­er, check out the An Anno­tat­ed Dock­er Con­fig for Fron­tend Web Devel­op­ment & Run­ning Node.js in Dock­er for local devel­op­ment articles.

If you want to use your shell alias­es in a Make­file, check out the SHELL ALIAS­ES IN MAKE­FILES sec­tion of the Using Make & Make­files to Auto­mate your Fron­tend Work­flow article!

Don’t wor­ry, the glob­al alias­es you’ve defined here won’t over­ride the local alias­es you’ve set up in your Makefiles.

Thanks to Matt Gray for shar­ing some of his favorite Dock­er aliases!

Hap­py Dockerizing!