903 lines
45 KiB
Markdown
903 lines
45 KiB
Markdown
---
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title: We Already Have Go 2
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date: 2022-05-25
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tags:
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- golang
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- generics
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- context
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- modules
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---
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I've been using Go since Go 1.4. Since I started using Go then (2014-2015 ish),
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I’ve seen the language evolve significantly. The Go I write today is roughly the
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same Go as the Go I wrote back when I was still learning the language, but the
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toolchain has changed in ways that make it so much nicer in practice. Here are
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the biggest things that changed how I use Go on a regular basis:
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* The compiler rewrite in Go
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* Go modules
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* The context package
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* Generics
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This is a good thing. Go has had a lot of people use it. My career would not
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exist in its current form without Go. My time in the Go community has been
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_catalytic_ to my career goals and it’s made me into the professional I am
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today. Without having met the people I did in the Go slack, I would probably not
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have gotten as lucky as I have as consistently as I have.
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Releasing a "Go 2" has become a philosophical and political challenge due to the
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forces that be. "Go 2" has kind of gotten the feeling of "this is never going to
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happen, is it?" with how the political forces within and without the Go team are
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functioning. They seem to have been incrementally releasing new features and
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using version gating in `go.mod` to make it easier on people instead of a big
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release with breaking changes all over the standard library.
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This is pretty great and I am well in favour of this approach, but with all of
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the changes that have built up there really should be a Go 2 by this point. If
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only to make no significant changes and tag what we have today as Go 2.
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<xeblog-conv name="Cadey" mood="coffee">Take everything I say here with a grain
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of salt the size of east Texas. I am not an expert in programming language
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design and I do not pretend to be one on TV. I am also not a member of the Go
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team nor do I pretend to be one or see myself becoming one in the
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future.<br /><br />If you are on the Go team and think that something I said
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here is demonstrably wrong, please [contact me](/contact) so I can correct it. I
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have tried to contain my personal feelings or observations about things to these
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conversation snippets.</xeblog-conv>
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This is a look back at the huge progress that has been made since Go 1 released
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and what I'd consider to be the headline features of Go 2.
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This is a whirlwind tour of the huge progress in improvement to the Go compiler,
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toolchain, and standard library, including what I'd consider to be the headline
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features of Go 2. I highly encourage you read this fairly large post in chunks
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because it will feel like _a lot_ if you read it all at once.
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## The Compiler Rewrite in Go
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When the Go compiler was first written, it was written in C because the core Go
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team has a background in Plan 9 and C was its lingua franca. However as a result
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of either it being written in C or the design around all the tools it was
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shelling out to, it wasn’t easy to cross compile Go programs. If you were
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building windows programs on a Mac you needed to do a separate install of Go
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from source with other targets enabled. This worked, but it wasn’t the default
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and eventually the Go compiler rewrite in Go changed this so that Go could cross
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compile natively with no extra effort required.
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<xeblog-conv name="Cadey" mood="enby">This has been such an amazingly productive
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part of the Go toolchain that I was shocked that Go didn’t have this out of the
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gate at version 1. Most people that use Go today don’t know that there was a
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point where Go didn’t have the easy to use cross-compiling superpower it
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currently has, and I think that is a more sure marker of success than anything
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else.</xeblog-conv>
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<xeblog-conv name="Mara" mood="happy">The cross compliation powers are why
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Tailscale uses Go so extensively throughout its core product. Every Tailscale
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client is built on the same Go source tree and everything is in lockstep with
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eachother, provided people actually update their apps. This kind of thing would
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be at the least impossible or at the most very difficult in other languages like
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Rust or C++.</xeblog-conv>
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This one feature is probably at the heart of more CI flows, debian package
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releases and other workflows than we can know. It's really hard to understate
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how simple this kind of thing makes distributing software for other
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architectures, especially given that macOS has just switched over to aarch64
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CPUs.
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Having the compiler be self-hosting does end up causing a minor amount of
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grief for people wanting to bootstrap a Go compiler from absolute source code
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on a new Linux distribtion (and slightly more after the minimum Go compiler
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version to compile Go will be raised to Go 1.17 with the release of Go 1.19
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in about 6 months from the time of this post being written). This isn't too
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big of a practical issue given how fast the compiler builds, but it is a
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nonzero amount of work. The bootstrapping can be made simpler with
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[gccgo](https://gcc.gnu.org/onlinedocs/gccgo/), a GCC frontend that is mostly
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compatible with the semantics and user experience of the Go compiler that
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Google makes.
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Another key thing porting the compiler to Go unlocks is the ability to compile
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Go packages in parallel. Back when the compiler was written in C, the main point
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of parallelism was the fact that each Go package was compiled in parallel. This
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lead to people splitting up bigger packages into smaller sub-packages in order
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to speedhack the compiler. Having the compiler be written in Go means that the
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compiler can take advantage of Go features like its dead-simple concurrency
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primitives to spread the load out across all the cores on the machine.
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<xeblog-conv name="Mara" mood="hacker">The Go compiler is fast sure, but
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over a certain point having each package be compiled in a single-threaded manner
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adds up and can make build times slow. This was a lot worse when things like the
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AWS, GCP and Kubernetes client libraries had everything in one big package.
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Building those packages could take minutes, which is very long in Go
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time.</xeblog-conv>
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## Go Modules
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In Go's dependency model, you have a folder that contains all your Go code
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called the `GOPATH`. The `GOPATH` has a few top level folders that have a
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well-known meaning in the Go ecosystem:
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* bin: binary files made by `go install` or `go get` go here
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* pkg: intermediate compiler state goes here
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* src: Go packages go here
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`GOPATH` has one major advantage: it is ruthlessly easy to understand the
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correlation between the packages you import in your code to their locations on
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disk.
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If you need to see what `within.website/ln` is doing, you go to
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`GOPATH/src/within.website/ln`. The files you are looking for are somewhere in
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there. You don’t have to really understand how the package manager works (mostly
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because there isn’t one). If you want to hack something up you just go to the
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folder and add the changes you want to see.
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You can delete all of the intermediate compiler state easily in one fell swoop.
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Just delete the `pkg` folder and poof, it’s all gone. This was great when you
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needed to free up a bunch of disk space really quickly because over months the
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small amount of incremental compiler state can really add up.
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The Go compiler would fetch any missing packages from the internet at build time
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so things Just Worked™️. This makes it utterly trivial to check out a project and
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then build/run it. That combined with `go get` to automatically just figure
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things out and install them made installing programs written in Go so easy that
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it’s almost magic. This combined with Go's preference for making static binaries
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as much as possible meant that even if the user didn't have Go installed you could
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easily make a package to hand off to your users.
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The GOPATH was conceptually simple to reason about. Go code goes in the GOPATH. The
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best place for it was in the GOPATH. There's no reason to put it anywhere else.
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Everything was organized into its place and it was lovely.
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This wasn’t perfect though. There were notable flaws in this setup that were
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easy to run into in practice:
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* There wasn't a good way to make sure that everyone was using the _same copies_
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of every library. People did add vendoring tools later to check that everyone
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was using the same copies of every package, but this also introduced problems
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when one project used one version of a dependency and another project used
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another in ways that were mutually incompatible.
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* The process to get the newest version of a dependency was to grab the latest
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commit off of the default branch of that git repo. There was support for SVN,
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mercurial and fossil, but in practice Git was the most used one so it’s almost
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not worth mentioning the other version control systems. This also left you at
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the mercy of other random people having good code security sense and required
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you to audit your dependencies, but this is fairly standard across ecosystems.
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* Dependency names were case sensitive on Linux but not on Windows or macOS.
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Arguably this is a "Windows and macOS are broken for backwards compatibility
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reasons" thing, but this did bite me at random times without warning.
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* If the wrong random people deleted their GitHub repos, there's a chance your
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builds could break unless your GOPATH had the packages in it already. Then you
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could share that with your coworkers or the build machine somehow, maybe even
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upload those packages to a git repository to soft-fork it.
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* The default location for the GOPATH created a folder in your home directory.
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<xeblog-conv name="Cadey" mood="coffee">Yeah, yeah, this default was added later
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but still people complained about having to put the GOPATH somewhere at first.
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Having to choose a place to put all the Go code they would use seemed like a big
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choice that people really wanted solid guidance and defaults on. After a while
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they changed this to default to `~/go` (with an easy to use command to influence
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the defaults without having to set an environment variable). I don't personally
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understand the arguments people have for wanting to keep their home directory
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"clean", but their preferences are valid regardless.</xeblog-conv>
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Overall I think GOPATH was a net good thing for Go. It had its downsides, but as
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far as these things go it was a very opinionated place to start from. This is
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something typical to Go (much to people's arguments), but the main thing that it
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focused on was making Go conceptually simple. There's not a lot going on there.
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You have code in the folder and then that's where the Go compiler looks for
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other code. It's a very lightweight approach to things that a lot of other
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languages could learn a lot from. It's great for monorepos because it basically
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treats all your Go code as one big monorepo. So many other languages don’t
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really translate well to working in a monorepo context like Go does.
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### Vendoring
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That making sure everyone had the same versions of everything problem ended up
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becoming a big problem in practice. I'm assuming that the original intent of the
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GOPATH was to be similar to how Google's internal monorepo worked, where
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everyone clones and deals with the entire GOPATH in source control. You'd then
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have to do GOPATH juggling between monorepos, but the intent was to have
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everything in one big monorepo anyways, so this wasn't thought of as much of a
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big deal in practice. It turns out that people in fact did not want to treat Go
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code this way, in practice this conflicted with the dependency model that Go
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encouraged people to use with how people consume libraries from GitHub or other
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such repository hosting sites.
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The main disconnect between importing from a GOPATH monorepo and a Go library
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off of GitHub is that when you import from a monorepo with a GOPATH in it, you
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need to be sure to import the repository path and not the path used inside the
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repository. This sounds weird but this means you'd import
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`github.com/Xe/x/src/github.com/Xe/x/markov` instead of
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`github.com/Xe/x/markov`. This means that things need to be extracted _out of_
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monorepos and reformatted into "flat" repos so that you can only grab the one
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package you need. This became tedious in practice.
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In Go 1.5 (the one where they rewrote the compiler in Go) they added support for
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[vendoring code into your
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repo](https://medium.com/@freeformz/go-1-5-s-vendor-experiment-fd3e830f52c3).
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The idea here was to make it easy to get closer to the model that the Go authors
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envisioned for how people should use Go. Go code should all be in one big happy
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repo and everything should have its place in your GOPATH. This combined with
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other tools people made allowed you to vendor all of your dependencies into a
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`vendor` folder and then you could do whatever you wanted from there.
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One of the big advantages of the `vendor` folder was that you could clone your
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git repo, create a new process namespace and then run tests without a network
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stack. Everything would work offline and you wouldn't have to worry about
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external state leaking in. Not to mention removing the angle of someone deleting
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their GitHub repos causing a huge problem for your builds.
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<xeblog-conv name="Mara" mood="happy">Save tests that require internet access or
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a database engine!</xeblog-conv>
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This worked for a very long time. People were able to vendor their code into
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their repos and everything was better for people using Go. However the most
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critical oversight with the `vendor` folder approach was that the Go team didn't
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create an official tool to manage that `vendor` folder. They wanted to let tools
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like `godep` and `glide` handle that. This is kind of a reasonable take, Go
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comes from a very Google culture where this kind of problem doesn't happen, so
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as a result they probably won't be able to come up with something that meets the
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needs of the outside world very easily.
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<xeblog-conv name="Cadey" mood="enby">I can't speak for how `godep` or `glide`
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works, I never really used them enough to have a solid opinion. I do remember
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using [`vendor`](https://github.com/bmizerany/vendor) in my own projects though.
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That had no real dependency resolution algorithm to speak of because it assumed
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that you had everything working locally when you vendored the code.</xeblog-conv>
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### `dep`
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After a while the Go team worked with people in the community to come up with an
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"official experiment" in tracking dependencies called `dep`. `dep` was a tool
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that used some more fancy computer science maths to help developers declare
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dependencies for projects in a way like you do in other ecosystems. When `dep`
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was done thinking, it emitted a bunch of files in `vendor` and a lockfile in
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your repository. This worked really well and when I was working at Heroku this
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was basically our butter and bread for how to deal with Go code.
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<xeblog-conv name="Cadey" mood="enby">It probably helped that my manager was on
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the team that wrote `dep`.</xeblog-conv>
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One of the biggest advantages of `dep` over other tools was the way that it
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solved versioning. It worked by having each package declare
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[constraints](https://golang.github.io/dep/docs/the-solver.html) in the ranges
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of versions that everything requires. This allowed it to do some fancy
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dependency resolution math similar to how the solvers in `npm` or `cargo` work.
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This worked fantastically in the 99% case. There were some fairly easy to
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accidentally get yourself in cases where you could make the solver loop
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infinitely though, as well as ending up in a state where you have mutually
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incompatible transient dependencies without any real way around it.
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<xeblog-conv name="Mara" mood="hacker">`npm` and `cargo` work around this by
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letting you use multiple versions of a single dependency in a
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project.</xeblog-conv>
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However these cases were really really rare, only appearing in much, much larger
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repositories. I don't think I practically ran into this, but I'm sure someone
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reading this right now found themselves in `dep` hell and probably has a hell of
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a war story around it.
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### vgo and Modules
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This lead the Go team to come up with a middle path between the unrestricted
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madness of GOPATH and something more maximal like `dep`. They eventually called
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this Go modules and the core reasons for it are outlined in [this series of
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technical posts](https://research.swtch.com/vgo).
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<xeblog-conv name="Mara" mood="hacker">These posts are a very good read and I'd
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highly suggest reading them if you've never seem then before. It outlines the
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problem space and the justification for the choices that Go modules ended up
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using. I don't agree with all of what is said there, but overall it's well
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worth reading at least once if you want to get an idea of the inspirations
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that lead to Go modules.</xeblog-conv>
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Apparently the development of Go modules came out as a complete surprise,
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even to the core developer team of `dep`. I'm fairly sure this lead my
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manager to take up woodworking as his main non work side hobby, I can only
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wonder about the kind of resentment this created for other parts of the
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`dep` team. They were under the impression that `dep` was going to be the
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future of the ecosystem (likely under the subcommand `go dep`) and then had
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the rug pulled out from under their feet.
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<xeblog-conv name="Cadey" mood="coffee">The `dep` team was as close as we've
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gotten for having people in the _actual industry_ using Go _in production_
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outside of Google having a real voice in how Go is used in the real world. I
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fear that we will never have this kind of thing happen again.<br /><br />It's
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also worth noting that the fallout of this lead to the core `dep` team leaving
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the Go community.</xeblog-conv>
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<xeblog-conv name="Mara" mood="hmm">Well, Google has to be using Go modules in
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their monorepo, right? If that's the official build system for Go it makes sense
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that they'd be dogfooding it hard enough that they'd need to use the tool in the
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same way that everyone else did.</xeblog-conv>
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<xeblog-conv name="Numa" mood="delet">lol nope. They use an overcomplicated
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bazel/blaze abomination that has developed in parallel to their NIH'd source
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control server. Google doesn't have to deal with the downsides of Go modules
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unless it's in a project like Kubernetes. It's easy to imagine that they just
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don't have the same problems that everyone else does due to how weird Google
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prod is. Google only has problems that Google has, and statistically your
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company is NOT Google.</xeblog-conv>
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Go modules does solve one very critical problem for the Go ecosystem though: it
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allows you to have the equivalent of the GOPATH but with multiple versions of
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dependencies in it. It allows you to have `within.website/ln@v0.7` and
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`within.website/ln@0.9` as dependencies for _two different projects_ without
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having to vendor source code or do advanced GOPATH manipulation between
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projects. It also adds cryptographic checksumming for each Go module that you
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download from the internet, so that you can be sure the code wasn't tampered
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with in-flight. They also created a cryptographic checksum comparison server so
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that you could ask a third party to validate what it thinks the checksum is so
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you can be sure that the code isn't tampered with on the maintainer's side. This
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also allows you to avoid having to shell out to `git` every time you fetch a
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module that someone else has fetched before. Companies could run their own Go
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module proxy and then use that to provide offline access to Go code fetched from
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the internet.
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<xeblog-conv name="Mara" mood="hmm">Wait, couldn't this allow Google to see the
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source code of all of your Go dependencies? How would this intersect with
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private repositories that shouldn't ever be on anything but work
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machines?</xeblog-conv>
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<xeblog-conv name="Cadey" mood="coffee">Yeah, this was one of the big privacy
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disadvantages out of the gate with Go modules. I think that in practice the
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disadvantages are limited, but still the fact that it defaults to phoning home
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to Google every time you run a Go build without all the dependencies present
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locally is kind of questionable. They did make up for this with the checksum
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verification database a little, but it's still kinda sus.<br /><br />I'm not
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aware of any companies I've worked at running their own internal Go module
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caching servers, but I ran my own for a very long time.</xeblog-conv>
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The earliest version of Go modules basically was a glorified `vendor` folder
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manager named `vgo`. This worked out amazingly well and probably made
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prototyping this a hell of a lot easier. This worked well enough that we used
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this in production for many services at Heroku. We had no real issues with it
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and most of the friction was with the fact that most of the existing ecosystem
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had already been using `dep` or `glide`.
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<xeblog-conv name="Mara" mood="hacker">There was a bit of interoperability glue
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that allowed `vgo` to parse the dependency definitions in `dep`, `godep` and
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`glide`. This still exists today and helps `go mod init` tell what dependencies
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to import into the Go module to aid migration.</xeblog-conv>
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If they had shipped this in prod, it probably would have been a huge success. It
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would also let people continue to use `dep`, `glide` and `godep`, but just doing
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that would also leave the ecosystem kinda fragmented. You’d need to have code
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for all 4 version management systems to parse their configuration files and
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implement algorithms that would be compatible with the semantics of all of them.
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It would work and the Go team is definitely smart enough to do it, but in
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practice it would be a huge mess.
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This also solved the case-insensitive filesystem problem with
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[bang-casing](https://go.dev/ref/mod#goproxy-protocol). This allows them to
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encode the capital letters in a path in a way that works on macOS and Windows
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without having to worry about horrifying hacks that are only really in place for
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Photoshop to keep working.
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### The Subtle Problem of `v2`
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However one of the bigger downsides that came with Go modules is what I've been
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calling the "v2 landmine" that Semantic Import Versioning gives you. One of the
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very earliest bits of Go advice was to make the import paths for version 1 of a
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project and version 2 of a project different so that people can mix the two to
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allow more graceful upgrading across a larger project. Semantic Import
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Versioning enforces this at the toolchain level, which means that it can be the
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gate between compiling your code or not.
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<xeblog-conv name="Cadey" mood="coffee">Many people have been telling me that
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I’m kind of off base for thinking that this is a landmine for people, but I am
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using the term “landmine” to talk about this because I feel like it reflects the
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rough edges of unexpectedly encountering this in the wild. It kinda feels like
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you stepped on a landmine.</xeblog-conv>
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|
||
<xeblog-conv name="Numa" mood="delet">It's also worth noting that the protobuf
|
||
team didn't use major version 2 when making an API breaking change. They
|
||
defended this by saying that they are changing the import path away from GitHub,
|
||
but it feels like they wanted to avoid the v2 problem.</xeblog-conv>
|
||
|
||
The core of this is that when you create major version 2 of a Go project, you
|
||
need to adjust all your import paths everywhere in that project to import the
|
||
`v2` of that package or you will silently import the `v1` version of that
|
||
package. This can end up making large projects create circular dependencies on
|
||
themselves, which is quite confusing in practice. When consumers are aware of
|
||
this, then they can use that to more gradually upgrade larger codebases to the
|
||
next major version of a Go module, which will allow for smaller refactors.
|
||
|
||
This also applies to consumers. Given that this kind of thing is something that
|
||
you only do in Go it can come out of left field. The go router
|
||
[github.com/go-chi/chi](https://github.com/go-chi/chi/issues/462) tried doing
|
||
modules in the past and found that it lead to confusing users. Conveniently they
|
||
only really found this out after the Go modules design was considered final and
|
||
Semantic Import Versioning has always been a part of Go modules and the Go team
|
||
is now refusing to budge on this.
|
||
|
||
<xeblog-conv name="Cadey" mood="coffee">My suggestion to people is to never
|
||
release a version `1.x.x` of a Go project to avoid the "v2 landmine". The Go
|
||
team claims that the right bit of tooling can help ease the pain, but this
|
||
tooling never really made it out into the public. I bet it works great inside
|
||
Google's internal monorepo though!</xeblog-conv>
|
||
|
||
When you were upgrading a Go project that already hit major version 2 or
|
||
higher to Go modules, adopting Go modules forced maintainers to make another
|
||
major version bump because it would break all of the import paths for every
|
||
package in the module. This caused some maintainers to meet Go modules with
|
||
resistance to avoid confusing their consumers. The workarounds for people that
|
||
still used GOPATH using upstream code with Semantic Import Versioning in it
|
||
were also kind of annoying at first until the Go team added "minimal module
|
||
awareness" to GOPATH mode. Then it was fine.
|
||
|
||
<xeblog-conv name="Mara" mood="hmm">It feels like you are overly focusing on the
|
||
`v2` problem. It can't really be that bad, can it? `grpc-gateway` updated to v2
|
||
without any major issues. What's a real-world example of this?</xeblog-conv>
|
||
|
||
<xeblog-conv name="Numa" mood="delet">The situation with
|
||
[github.com/gofrs/uuid](https://github.com/gofrs/uuid/issues/61) was heckin'
|
||
bad. Arguably it's a teething issue as the ecosystem was still moving to the new
|
||
modules situation, but it was especially bad for projects that were already at
|
||
major version 2 or higher because adding Go modules support meant that they
|
||
needed to update the major version just for Go modules. This was a tough sell
|
||
and rightly so.<br /><br />This was claimed to be made a non-issue by the right
|
||
application of tooling on the side, but this tooling was either never developed
|
||
or not released to us mere mortals outside of Google. Even with automated
|
||
tooling this can still lead to massive diffs that are a huge pain to review,
|
||
even if the only thing that is changed is the version number in every import of
|
||
every package in that module. This was even worse for things that have C
|
||
dependencies, as if you didn't update it everywhere in your dependency chain you
|
||
could have two versions of the same C functions try to be linked in and this
|
||
really just does not work.</xeblog-conv>
|
||
|
||
Overall though, Go modules has been a net positive for the community and for
|
||
people wanting to create reliable software in Go. It’s just such a big semantics
|
||
break in how the toolchain works that I almost think it would have been easier
|
||
for the to accept if _that_ was Go 2. Especially since the semantic of how the
|
||
toolchain worked changed so much.
|
||
|
||
<xeblog-conv name="Mara" mood="hmm">Wait, doesn’t the Go compiler have a
|
||
backwards compatibility promise that any code built with Go 1.x works on go
|
||
1.(x+1)?</xeblog-conv>
|
||
|
||
<xeblog-conv name="Cadey" mood="coffee">Yes, but that only applies to _code you
|
||
write_, not _semantics of the toolchain_ itself. On one hand this makes a lot of
|
||
sense and on the other it feels like a cop-out. The changes in how `go get` now
|
||
refers to adding dependencies to a project and `go install` now installs a
|
||
binary to the system have made an entire half decade of tool installation
|
||
documentation obsolete. It’s understandable why they want to make that change,
|
||
but the way that it broke people’s muscle memory is [quite frustrating for
|
||
users](https://github.com/golang/go/issues/40276#issuecomment-1109797059) that
|
||
aren’t keeping on top of every single change in semantics of toolchains (this
|
||
bites me constantly when I need to quick and dirty grab something outside of a
|
||
Nix package). I understand _why_ this isn’t a breaking change as far as the
|
||
compatibility promise but this feels like a cop-out in my subjective
|
||
opinion.</xeblog-conv>
|
||
|
||
## Contexts
|
||
|
||
One of Go’s major features is its co-operative threading system that it calls
|
||
goroutines. Goroutines are kinda like coroutines that are scheduled by the
|
||
scheduler. However there is no easy way to "kill" a goroutine. You have to add
|
||
something to the invocation of the goroutine that lets you signal it to stop and
|
||
then opt-in the goroutine to stop.
|
||
|
||
Without contexts you would need to do all of this legwork manually. Every
|
||
project from the time before contexts still shows signs of this. The best
|
||
practice was to make a "stop" channel like this:
|
||
|
||
```go
|
||
stop := make(chan struct{})
|
||
```
|
||
|
||
And then you'd send a cancellation signal like this:
|
||
|
||
```go
|
||
stop <- struct{}{}
|
||
```
|
||
|
||
<xeblog-conv name="Mara" mood="hacker">The type `struct{}` is an anonymous
|
||
structure value that takes 0 bytes in ram. It was suggested to use this as your
|
||
stopping signal to avoid unneeded memory allocations. A `bool` needs one whole
|
||
machine word, which can be up to 64 bits of ram. In practice the compiler can
|
||
smoosh multiple bools in a struct together into one place in ram, but when
|
||
sending these values over a channel like this you can't really cheat that
|
||
way.</xeblog-conv>
|
||
|
||
This did work and was the heart of many event loops, but the main problem with
|
||
it is that the signal was only sent _once_. Many other people also followed up
|
||
the stop signal by closing the channel:
|
||
|
||
```go
|
||
close(stop)
|
||
```
|
||
|
||
However with naïve stopping logic the closed channel would successfully fire a
|
||
zero value of the event. So code like this would still work the way you wanted:
|
||
|
||
```go
|
||
select {
|
||
case <- stop:
|
||
haltAndCatchFire()
|
||
}
|
||
```
|
||
|
||
### Package `context`
|
||
|
||
However if your stop channel was a `chan bool` and you relied on the `bool`
|
||
value being `true`, this would fail because the value would be `false`. This
|
||
was a bit too brittle for comfortable widespread production use and we ended
|
||
up with the [context](https://pkg.go.dev/context) package in the standard
|
||
library. A Go context lets you more easily and uniformly handle timeouts and
|
||
giving up when there is no more work to be done.
|
||
|
||
<xeblog-conv name="Mara" mood="hacker">This started as something that existed
|
||
inside the Google monorepo that escaped out into the world. They also claim to
|
||
have an internal tool that makes
|
||
[`context.TODO()`](https://pkg.go.dev/context#TODO) useful (probably by showing
|
||
you the callsites above that function?), but they never released that tool as
|
||
open source so it’s difficult to know where to use it without that added
|
||
context.</xeblog-conv>
|
||
|
||
One of the most basic examples of using contexts comes when you are trying to
|
||
stop something from continuing. If you have something that constantly writes
|
||
data to clients such as a pub-sub queue, you probably want to stop writing data
|
||
to them when the client disconnects. If you have a large number of HTTP requests
|
||
to do and only so many workers can make outstanding requests at once, you
|
||
want to be able to set a timeout so that after a certain amount of time it gives
|
||
up.
|
||
|
||
Here's an example of using a context in an event processing loop (of course while
|
||
pretending that fetching the current time is anything else that isn't a contrived
|
||
example to show this concept off):
|
||
|
||
```go
|
||
t := time.NewTicker(30 * time.Second)
|
||
ctx, cancel := context.WithCancel(context.Background())
|
||
defer cancel()
|
||
|
||
for {
|
||
select {
|
||
case <- ctx.Done():
|
||
log.Printf("not doing anything more: %v", ctx.Err())
|
||
return
|
||
case data := <- t.C:
|
||
log.Printf("got data: %s", data)
|
||
}
|
||
}
|
||
```
|
||
|
||
This will have the Go runtime select between two channels, one of them will
|
||
emit the current time every 30 seconds and the other will fire when the
|
||
`cancel` function is called.
|
||
|
||
<xeblog-conv name="Mara" mood="happy">Don't worry, you can call the `cancel()`
|
||
function multiple times without any issues. Any additional calls will not do
|
||
anything special.</xeblog-conv>
|
||
|
||
If you want to set a timeout on this (so that the function only tries to run
|
||
for 5 minutes), you'd want to change the second line of that example to this:
|
||
|
||
```go
|
||
ctx, cancel := context.WithTimeout(context.Background(), 5 * time.Minute)
|
||
defer cancel()
|
||
```
|
||
|
||
<xeblog-conv name="Mara" mood="happy">You should always `defer cancel()` unless
|
||
you can prove that it is called elsewhere. If you don't do this you can leak
|
||
goroutines that will dutifully try to do their job potentially forever without
|
||
any ability to stop them.</xeblog-conv>
|
||
|
||
The context will be automatically cancelled after 5 minutes. You can cancel it
|
||
sooner by calling the `cancel()` function should you need to. Anything else in
|
||
the stack that is context-aware will automatically cancel as well as the
|
||
cancellation signal percolates down the stack and across goroutines.
|
||
|
||
You can attach this to an HTTP request by using
|
||
[`http.NewRequestWithContext`](https://pkg.go.dev/net/http#NewRequestWithContext):
|
||
|
||
```go
|
||
req, err := http.NewRequestWithContext(ctx, http.MethodGet, "https://xeiaso.net/.within/health", nil)
|
||
```
|
||
|
||
And then when you execute the request (such as with `http.DefaultClient.Do(req)`)
|
||
the context will automatically be cancelled if it takes too long to fetch the
|
||
response.
|
||
|
||
You can also wire this up to the `Control-c` signal using a bit of code
|
||
[like this](https://medium.com/@matryer/make-ctrl-c-cancel-the-context-context-bd006a8ad6ff).
|
||
Context cancellation propagates upwards, so you can use this to ensure that things
|
||
get stopped properly.
|
||
|
||
<xeblog-conv name="Mara" mood="hacker">Be sure to avoid creating a "god context"
|
||
across your entire app. This is a known anti-pattern and this pattern should only
|
||
be used for small command line tools that have an expected run time in the minutes
|
||
at worst, not hours like production bearing services.</xeblog-conv>
|
||
|
||
This is a huge benefit to the language because of how disjointed the process of
|
||
doing this before contexts was. Because this wasn’t in the core of the language,
|
||
every single implementation was different and required learning what the library
|
||
did. Not to mention adapting between libraries could be brittle at best and
|
||
confusing at worst.
|
||
|
||
I understand why they put data into the context type, but in practice I really
|
||
wish they didn’t do that. This feature has been abused a lot in my experience.
|
||
At Heroku a few of our production load bearing services used contexts as a
|
||
dependency injection framework. This did work, but it turned a lot of things
|
||
that would normally be compile time errors into runtime errors.
|
||
|
||
<xeblog-conv name="Cadey" mood="coffee">I say this as someone who maintains a
|
||
library that uses contexts to store [contextually relevant log
|
||
fields](https://pkg.go.dev/within.website/ln) as a way to make logs easier to
|
||
correlate between.<br /><br />Arguably you could make the case that people are misusing the
|
||
tool and of course this is what will happen when you do that but I don't know if
|
||
this is really the right thing to tell people.</xeblog-conv>
|
||
|
||
I wish contexts were in the core of the language from the beginning. I know that
|
||
it is difficult to do this in practice (especially on all the targets that Go
|
||
supports), but having cancellable syscalls would be so cool. It would also be
|
||
really neat if contexts could be goroutine-level globals so you didn’t have to
|
||
"pollute" the callsites of every function with them.
|
||
|
||
<xeblog-conv name="Cadey" mood="coffee">At the time contexts were introduced,
|
||
one of the major arguments I remember hearing against them was that contexts
|
||
"polluted" their function definitions and callsites. I can't disagree with this
|
||
sentiment, at some level it really does look like contexts propagate "virally"
|
||
throughout a codebase.<br /><br />I think that the net improvements to
|
||
reliability and understandability of how things get stopped do make up for this
|
||
though. Instead of a bunch of separate ways to cancel work in each individual
|
||
library you have the best practice in the standard library. Having contexts
|
||
around makes it a lot harder to "leak" goroutines on accident.</xeblog-conv>
|
||
|
||
## Generics
|
||
|
||
One of the biggest ticket items that Go has added is "generic types", or being
|
||
able to accept types as parameters for other types. This is really a huge ticket
|
||
item and I feel that in order to understand _why_ this is a huge change I need
|
||
to cover the context behind what you had before generics were added to the
|
||
language.
|
||
|
||
One of the major standout features of Go is interface types. They are like Rust
|
||
Traits, Java Interfaces, or Haskell Typeclasses; but the main difference is that
|
||
interface types are _implicit_ rather than explicit. When you want to meet the
|
||
signature of an interface, all you need to do is implement the contract that the
|
||
interface spells out. So if you have an interface like this:
|
||
|
||
```go
|
||
type Quacker interface {
|
||
Quack()
|
||
}
|
||
```
|
||
You can make a type like `Duck` a `Quacker` by defining the `Duck` type and a
|
||
`Quack` method like this:
|
||
|
||
```go
|
||
type Duck struct{}
|
||
|
||
func (Duck) Quack() { fmt.Println("Quack!") }
|
||
```
|
||
|
||
But this is not limited to just `Ducks`, you could easily make a `Sheep` a
|
||
`Quacker` fairly easily:
|
||
|
||
```go
|
||
type Sheep struct{}
|
||
|
||
func (Sheep) Quack() { fmt.Println("*confused sheep noises*") }
|
||
```
|
||
|
||
This allows you to deal with expected _behaviors_ of types rather than having to
|
||
have versions of functions for every concrete implementation of them. If you
|
||
want to read from a file, network socket, `tar` archive, `zip` archive, the
|
||
decrypted form of an encrypted stream, a TLS socket, or a HTTP/2 stream they're
|
||
all [`io.Reader`](https://pkg.go.dev/io#Reader) instances. With the example
|
||
above we can make a function that takes a `Quacker` and then does something with
|
||
it:
|
||
|
||
```go
|
||
func main() {
|
||
duck := Duck{}
|
||
sheep := Sheep{}
|
||
|
||
doSomething(duck)
|
||
doSomething(sheep)
|
||
}
|
||
|
||
func doSomething(q Quacker) {
|
||
q.Quack()
|
||
}
|
||
```
|
||
|
||
<xeblog-conv name="Mara" mood="hacker">If you want to play with this example,
|
||
check it out on the Go playground [here](https://go.dev/play/p/INK8O2O-D01). Try
|
||
to make a slice of Quackers and pass it to `doSomething`!</xeblog-conv>
|
||
|
||
You can also embed interfaces into other interfaces, which will let you create
|
||
composite interfaces that assert multiple behaviours at once. For example,
|
||
consider [`io.ReadWriteCloser`](https://pkg.go.dev/io#ReadWriteCloser). Any
|
||
value that matches an `io.Reader`, `io.Writer` and an `io.Closer` will be able
|
||
to be treated as an `io.ReadWriteCloser`. This allows you to assert a lot of
|
||
behaviour about types even though the actual underlying types are opaque to you.
|
||
|
||
This means it’s easy to split up a [`net.Conn`](https://pkg.go.dev/net#Conn)
|
||
into its reader half and its writer half without really thinking about
|
||
it:
|
||
|
||
```go
|
||
conn, _ := net.Dial("tcp", "127.0.0.1:42069")
|
||
|
||
var reader io.Reader = conn
|
||
var writer io.Writer = conn
|
||
```
|
||
|
||
And then you can pass the writer side off to one function and the reader side
|
||
off to another.
|
||
|
||
There’s also a bunch of room for "type-level middleware" like
|
||
[`io.LimitReader`](https://pkg.go.dev/io#LimitReader). This allows you to set
|
||
constraints or details around an interface type while still meeting the contract
|
||
for that interface, such as an `io.Reader` that doesn’t let you read too much,
|
||
an `io.Writer` that automatically encrypts everything you feed It with TLS, or
|
||
even something like sending data over a Unix socket instead of a TCP one. If it
|
||
fits the shape of the interface, it Just Works.
|
||
|
||
However, this falls apart when you want to deal with a collection of _only one_
|
||
type that meets an interface at once. When you create a slice of `Quacker`s and
|
||
pass it to a function, you can put both `Duck`s and `Sheep` into that slice:
|
||
|
||
```go
|
||
quackers := []Quacker{
|
||
Duck{},
|
||
Sheep{},
|
||
}
|
||
|
||
doSomething(quackers)
|
||
```
|
||
|
||
If you want to assert that every `Quacker` is the same type, you have to do some
|
||
fairly brittle things that step around Go's type safety like this:
|
||
|
||
```go
|
||
func doSomething(qs []Quacker) error {
|
||
// Store the name of the type of first Quacker.
|
||
// We have to use the name `typ` because `type` is
|
||
// a reserved keyword.
|
||
typ := fmt.Sprintf("%T", qs[0])
|
||
|
||
for i, q := range qs {
|
||
if qType := fmt.Sprintf("%T", q); qType != typ {
|
||
return fmt.Errorf("slice value %d was type %s, wanted: %s", qType, typ)
|
||
}
|
||
|
||
q.Quack()
|
||
}
|
||
|
||
return nil
|
||
}
|
||
```
|
||
|
||
This would explode at runtime. This same kind of weakness is basically the main
|
||
reason why the Go standard library package [`container`](https://pkg.go.dev/container)
|
||
is mostly unused. Everything in the `container` package deals with
|
||
`interface{}`/`any` values, which is Go for "literally anything". This means
|
||
that without careful wrapper code you need to either make interfaces around
|
||
everything in your lists (and then pay the cost of boxing everything in an
|
||
interface, which adds up a lot in practice in more ways than you'd think) or
|
||
have to type-assert anything going into or coming out of the list, combined
|
||
with having to pay super close attention to anything touching that code
|
||
during reviews.
|
||
|
||
<xeblog-conv name="Cadey" mood="enby">Don't get me wrong, interface types
|
||
are an _amazing_ standout feature of Go. They are one of the main reasons that
|
||
Go code is so easy to reason about and work with. You don't have to worry
|
||
about the entire tree of stuff that a value is made out of, you can just
|
||
assert that values have behaviors and then you're off to the races. I end up
|
||
missing the brutal simplicity of Go interfaces in other languages like Rust.
|
||
</xeblog-conv>
|
||
|
||
### Introducing Go Generics
|
||
|
||
In Go 1.18, support for adding types as parameters to other types was added.
|
||
This allows you to define constraints on what types are accepted by a function,
|
||
so that you can reuse the same logic for multiple different kinds of underlying
|
||
types.
|
||
|
||
That `doSomething` function from above could be rewritten like this with
|
||
generics:
|
||
|
||
```go
|
||
func doSomething[T Quacker](qs []T) {
|
||
for i, q := range qs {
|
||
q.Quack()
|
||
}
|
||
}
|
||
```
|
||
|
||
However this doesn't currently let you avoid mixing types of `Quacker`s at
|
||
compile time like I assumed while I was writing the first version of this
|
||
article. This does however let you write code like this:
|
||
|
||
```go
|
||
doSomething([]Duck{{}, {}, {}})
|
||
doSomething([]Sheep{{}, {}, {}})
|
||
```
|
||
|
||
And then this will reject anything that _is not a `Quacker`_ at compile time:
|
||
|
||
```go
|
||
doSomething([]string{"hi there this won't work"})
|
||
```
|
||
|
||
```
|
||
./prog.go:20:13: string does not implement Quacker (missing Quack method)
|
||
```
|
||
|
||
### Unions
|
||
|
||
This also lets you create untagged union types, or types that can be a range of
|
||
other types. These are typically useful when writing parsers or other similar
|
||
things.
|
||
|
||
<xeblog-conv name="Numa" mood="delet">It's frankly kind of fascinating that
|
||
something made by Google would even let you _think_ about the word "union" when
|
||
using it.</xeblog-conv>
|
||
|
||
Here's an example of a union type of several different kinds of values that you
|
||
could realistically see in a parser for a language like [LOLCODE](http://www.lolcode.org/):
|
||
|
||
```go
|
||
// Value can hold any LOLCODE value as defined by the LOLCODE 1.2 spec[1].
|
||
//
|
||
// [1]: https://github.com/justinmeza/lolcode-spec/blob/master/v1.2/lolcode-spec-v1.2.md#types
|
||
type Value interface {
|
||
int64 // NUMBR
|
||
float64 // NUMBAR
|
||
string // YARN
|
||
bool // TROOF
|
||
struct{} // NOOB
|
||
}
|
||
```
|
||
|
||
This is similar to making something like an
|
||
[`enum`](https://doc.rust-lang.org/book/ch06-01-defining-an-enum.html) in Rust,
|
||
except that there isn't any tag for what the data could be. You still have to do
|
||
a type-assertion over every value it _could_ be, but you can do it with only the
|
||
subset of values listed in the interface vs any possible type ever made. This
|
||
makes it easier to constrain what values can be so you can focus more on your
|
||
parsing code and less on defensively programming around variable types.
|
||
|
||
This adds up to a huge improvement to the language, making things that were
|
||
previously very tedious and difficult very easy. You can make your own
|
||
generic collections (such as a B-Tree) and take advantages of packages like
|
||
[`golang.org/x/exp/slices`](https://pkg.go.dev/golang.org/x/exp/slices) to avoid
|
||
the repetition of having to define utility functions for every single type you
|
||
use in a program.
|
||
|
||
<xeblog-conv name="Cadey" mood="enby">I'm barely scratching the surface with
|
||
generics here, please see the [type parameters proposal
|
||
document](https://go.googlesource.com/proposal/+/refs/heads/master/design/43651-type-parameters.md)
|
||
for a lot more information on how generics work. This is a well-written thing
|
||
and I highly suggest reading this at least once before you try to use generics
|
||
in your Go code. I've been watching this all develop from afar and I'm very
|
||
happy with what we have so far (the only things I'd want would be a bit more
|
||
ability to be precise about what you are allowing with slices and maps as
|
||
function arguments).</xeblog-conv>
|
||
|
||
---
|
||
|
||
In conclusion, I believe that we already have Go 2. It’s just called Go 1.18 for
|
||
some reason. It’s got so many improvements and fundamental changes that I
|
||
believe that this is already Go 2 in spirit. There are so many other things that
|
||
I'm not covering here (mostly because this post is so long already) like
|
||
fuzzing, RISC-V support, binary/octal/hexadecimal/imaginary number literals,
|
||
WebAssembly support, so many garbage collector improvements and more. This has
|
||
added up to make Go a fantastic choice for developing server-side applications.
|
||
|
||
I, as some random person on the internet that is not associated with the Go
|
||
team, think that if there was sufficient political will that they could probably
|
||
label what we have as Go 2, but I don’t think that is going to happen any time
|
||
soon. Until then, we still have a very great set of building blocks that allow
|
||
you to make easy to maintain production quality services, and I don’t see that
|
||
changing any time soon.
|
||
|
||
---
|
||
|
||
<xeblog-conv name="Mara" mood="happy">If you had subscribed to the
|
||
[Patreon](https://patreon.com/cadey) you could have read this a week
|
||
ago!</xeblog-conv>
|