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Last pushed: 9 months ago
Short Description
Go 1.6.1 CGO cross compiler
Full Description

xgo - Go CGO cross compiler

Although Go strives to be a cross platform language, cross compilation from one
platform to another is not as simple as it could be, as you need the Go sources
bootstrapped to each platform and architecture.

The first step towards cross compiling was Dave Cheney's golang-crosscompile
package, which automatically bootstrapped the necessary sources based on your
existing Go installation. Although this was enough for a lot of cases, certain
drawbacks became apparent where the official libraries used CGO internally: any
dependency to third party platform code is unavailable, hence those parts don't
cross compile nicely (native DNS resolution, system certificate access, etc).

A step forward in enabling cross compilation was Alan Shreve's gonative
package, which instead of bootstrapping the different platforms based on the
existing Go installation, downloaded the official pre-compiled binaries from the
golang website and injected those into the local toolchain. Since the pre-built
binaries already contained the necessary platform specific code, the few missing
dependencies were resolved, and true cross compilation could commence... of pure
Go code.

However, there was still one feature missing: cross compiling Go code that used
CGO itself, which isn't trivial since you need access to OS specific headers and
libraries. This becomes very annoying when you need access only to some trivial
OS specific functionality (e.g. query the CPU load), but need to configure and
maintain separate build environments to do it.

Enter xgo

My solution to the challenge of cross compiling Go code with embedded C/C++ snippets
(i.e. CGO_ENABLED=1) is based on the concept of lightweight Linux containers.
All the necessary Go tool-chains, C cross compilers and platform headers/libraries
have been assembled into a single Docker container, which can then be called as if
a single command to compile a Go package to various platforms and architectures.

Installation

Although you could build the container manually, it is available as an automatic
trusted build from Docker's container registry (not insignificant in size):

docker pull karalabe/xgo-latest

To prevent having to remember a potentially complex Docker command every time,
a lightweight Go wrapper was written on top of it.

go get github.com/karalabe/xgo

Usage

Simply specify the import path you want to build, and xgo will do the rest:

$ xgo github.com/project-iris/iris
...

$ ls -al
-rwxr-xr-x  1 root  root    9995000 Nov 24 16:44 iris-android-16-arm
-rwxr-xr-x  1 root  root    6776500 Nov 24 16:44 iris-darwin-10.6-386
-rwxr-xr-x  1 root  root    8755532 Nov 24 16:44 iris-darwin-10.6-amd64
-rwxr-xr-x  1 root  root    7114176 Nov 24 16:45 iris-ios-5.0-arm
-rwxr-xr-x  1 root  root   10135248 Nov 24 16:44 iris-linux-386
-rwxr-xr-x  1 root  root   12598472 Nov 24 16:44 iris-linux-amd64
-rwxr-xr-x  1 root  root   10040464 Nov 24 16:44 iris-linux-arm
-rwxr-xr-x  1 root  root    7516368 Nov 24 16:44 iris-windows-4.0-386.exe
-rwxr-xr-x  1 root  root    9549416 Nov 24 16:44 iris-windows-4.0-amd64.exe

If the path is not a canonical import path, but rather a local path (starts with
a dot . or a dash /), xgo will use the local GOPATH contents for the cross
compilation.

Build flags

A handful of flags can be passed to go build. The currently supported ones are

  • -v: prints the names of packages as they are compiled
  • -x: prints the build commands as compilation progresses
  • -race: enables data race detection (supported only on amd64, rest built without)
  • -tags='tag list': list of build tags to consider satisfied during the build
  • -ldflags='flag list': arguments to pass on each go tool link invocation
  • -buildmode=mode: binary type to produce by the compiler

Go releases

As newer versions of the language runtime, libraries and tools get released,
these will get incorporated into xgo too as extensions layers to the base cross
compilation image (only Go 1.3 and above will be supported).

You can select which Go release to work with through the -go command line flag
to xgo and if the specific release was already integrated, it will automatically
be retrieved and installed.

$ xgo -go 1.6.1 github.com/project-iris/iris

Additionally, a few wildcard release strings are also supported:

  • latest will use the latest Go release (this is the default)
  • 1.6.x will use the latest point release of a specific Go version
  • 1.6-develop will use the develop branch of a specific Go version
  • develop will use the develop branch of the entire Go repository

Output prefixing

xgo by default uses the name of the package being cross compiled as the output
file prefix. This can be overridden with the -out flag.

$ xgo -out iris-v0.3.2 github.com/project-iris/iris
...

$ ls -al
-rwxr-xr-x  1 root  root   9995000 Nov 24 16:44 iris-v0.3.2-android-16-arm
-rwxr-xr-x  1 root  root   6776500 Nov 24 16:44 iris-v0.3.2-darwin-10.6-386
-rwxr-xr-x  1 root  root   8755532 Nov 24 16:44 iris-v0.3.2-darwin-10.6-amd64
-rwxr-xr-x  1 root  root   7114176 Nov 24 16:45 iris-v0.3.2-ios-5.0-arm
-rwxr-xr-x  1 root  root  10135248 Nov 24 16:44 iris-v0.3.2-linux-386
-rwxr-xr-x  1 root  root  12598472 Nov 24 16:44 iris-v0.3.2-linux-amd64
-rwxr-xr-x  1 root  root  10040464 Nov 24 16:44 iris-v0.3.2-linux-arm
-rwxr-xr-x  1 root  root   7516368 Nov 24 16:44 iris-v0.3.2-windows-4.0-386.exe
-rwxr-xr-x  1 root  root   9549416 Nov 24 16:44 iris-v0.3.2-windows-4.0-amd64.exe

Branch selection

Similarly to go get, xgo also uses the master branch of a repository during
source code retrieval. To switch to a different branch before compilation pass
the desired branch name through the --branch argument.

$ xgo --branch release-branch.go1.4 golang.org/x/tools/cmd/goimports
...

$ ls -al
-rwxr-xr-x  1 root  root   4171248 Nov 24 16:40 goimports-android-16-arm
-rwxr-xr-x  1 root  root   4139868 Nov 24 16:40 goimports-darwin-10.6-386
-rwxr-xr-x  1 root  root   5186720 Nov 24 16:40 goimports-darwin-10.6-amd64
-rwxr-xr-x  1 root  root   3202364 Nov 24 16:40 goimports-ios-5.0-arm
-rwxr-xr-x  1 root  root   4189456 Nov 24 16:40 goimports-linux-386
-rwxr-xr-x  1 root  root   5264136 Nov 24 16:40 goimports-linux-amd64
-rwxr-xr-x  1 root  root   4209416 Nov 24 16:40 goimports-linux-arm
-rwxr-xr-x  1 root  root   4348416 Nov 24 16:40 goimports-windows-4.0-386.exe
-rwxr-xr-x  1 root  root   5415424 Nov 24 16:40 goimports-windows-4.0-amd64.exe

Remote selection

Yet again similarly to go get, xgo uses the repository remote corresponding to
the import path being built. To switch to a different remote while preserving the
original import path, use the --remote argument.

$ xgo --remote github.com/golang/tools golang.org/x/tools/cmd/goimports
...

Package selection

If you used the above branch or remote selection machanisms, it may happen
that the path you are trying to build is only present in the specific branch and
not the default respoitory, causing Go to fail at locating it. To circumvent this,
you may specify only the repository root for xgo, and use an additional --pkg
parameter to select the exact package within, honoring any prior branch and
remote selections.

$ xgo --pkg cmd/goimports golang.org/x/tools
...

$ ls -al
-rwxr-xr-x  1 root  root   4194956 Nov 24 16:38 goimports-android-16-arm
-rwxr-xr-x  1 root  root   4164448 Nov 24 16:38 goimports-darwin-10.6-386
-rwxr-xr-x  1 root  root   5223584 Nov 24 16:38 goimports-darwin-10.6-amd64
-rwxr-xr-x  1 root  root   3222848 Nov 24 16:39 goimports-ios-5.0-arm
-rwxr-xr-x  1 root  root   4217184 Nov 24 16:38 goimports-linux-386
-rwxr-xr-x  1 root  root   5295768 Nov 24 16:38 goimports-linux-amd64
-rwxr-xr-x  1 root  root   4233120 Nov 24 16:38 goimports-linux-arm
-rwxr-xr-x  1 root  root   4373504 Nov 24 16:38 goimports-windows-4.0-386.exe
-rwxr-xr-x  1 root  root   5450240 Nov 24 16:38 goimports-windows-4.0-amd64.exe

This argument may at some point be integrated into the import path itself, but for
now it exists as an independent build parameter. Also, there is not possibility
for now to build mulitple commands in one go.

Limit build targets

By default xgo will try and build the specified package to all platforms and
architectures supported by the underlying Go runtime. If you wish to restrict
the build to only a few target systems, use the comma separated --targets CLI
argument:

  • --targets=linux/arm: builds only the ARMv5 Linux binaries (arm-6/arm-7 allowed)
  • --targets=windows/*,darwin/*: builds all Windows and OSX binaries
  • --targets=*/arm: builds ARM binaries for all platforms
  • --targets=*/*: builds all suppoted targets (default)

The supported targets are:

  • Platforms: android, darwin, ios, linux, windows
  • Achitectures: 386, amd64, arm-5, arm-6, arm-7, arm64, mips, mipsle, mips64, mips64le

Platform versions

By default xgo tries to cross compile to the lowest possible versions of every
supported platform, in order to produce binaries that are portable among various
versions of the same operating system. This however can lead to issues if a used
dependency is only supported by more recent systems. As such, xgo supports the
selection of specific platform versions by appending them to the OS target string.

  • --targets=ios-8.1/*: cross compile to iOS 8.1
  • --targets=android-16/*: cross compile to Android Jelly Bean
  • --targets=darwin-10.9/*: cross compile to Mac OS X Mavericks
  • --targets=windows-6.0/*: cross compile to Windows Vista

The supported platforms are:

  • All Android APIs up to Android Lollipop 5.0 (API level ids)
  • All Windows APIs up to Windows 8.1 limited by mingw-w64 (API level ids)
  • OSX APIs in the range of 10.6 - 10.11
  • All iOS APIs up to iOS 9.3

Mobile libraries

Apart from the usual runnable binaries, xgo also supports building library
archives for Android (android/aar) and iOS (ios/framework). Opposed to
gomobile however xgo does not derive library APIs from the Go code, so
proper CGO C external methods must be defined within the package.

In the case of Android archives, all architectures will be bundled that are
supported by the requested Android platform version. For iOS frameworks xgo
will bundle armv7 and arm64 by default, and also the x86_64 simulator builds
if the iPhoneSimulator.sdk was injected by the user:

  • Create a new docker image based on xgo: FROM karalabe/xgo-latest
  • Inject the simulator SDK: ADD iPhoneSimulator9.3.sdk.tar.xz /iPhoneSimulator9.3.sdk.tar.xz
  • Bootstrap the simulator SDK: $UPDATE_IOS /iPhoneSimulator9.3.sdk.tar.xz

CGO dependencies

The main differentiator of xgo versus other cross compilers is support for basic
embedded C/C++ code and target-platform specific OS SDK availability. The current
xgo release introduces an experimental CGO dependency cross compilation, enabling
building Go programs that require external C/C++ libraries.

It is assumed that the dependent C/C++ library is configure/make based, was
properly prepared for cross compilation and is available as a tarball download
(.tar, .tar.gz or .tar.bz2). Further plans include extending this to cmake
based projects, if need arises (please open an issue if it's important to you).

Such dependencies can be added via the --deps argument. They will be retrieved
prior to starting the cross compilation and the packages cached to save bandwidth
on subsequent calls.

A complex sample for such a scenario is building the Ethereum CLI node, which has
the GNU Multiple Precision Arithmetic Library as it's dependency.

$ xgo --deps=https://gmplib.org/download/gmp/gmp-6.1.0.tar.bz2  \
    --targets=windows/* github.com/ethereum/go-ethereum/cmd/geth
...

$ ls -al
-rwxr-xr-x 1 root root 16315679 Nov 24 16:39 geth-windows-4.0-386.exe
-rwxr-xr-x 1 root root 19452036 Nov 24 16:38 geth-windows-4.0-amd64.exe

Some trivial arguments may be passed to the dependencies' configure script via
--depsargs.

$ xgo --deps=https://gmplib.org/download/gmp/gmp-6.1.0.tar.bz2  \
    --targets=ios/* --depsargs=--disable-assembly               \
    github.com/ethereum/go-ethereum/cmd/geth
...

$ ls -al
-rwxr-xr-x 1 root root 14804160 Nov 24 16:32 geth-ios-5.0-arm

Note, that since xgo needs to cross compile the dependencies for each platform
and architecture separately, build time can increase significantly.

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