Install go, yay!
gimme
is a shell script that knows how to install go. Fancy! 🎉
Install from github:
# assumes ~/bin exists and is in $PATH, so adjust accordingly!
curl -sL -o ~/bin/gimme https://raw.githubusercontent.com/travis-ci/gimme/master/gimme
chmod +x ~/bin/gimme
Homebrew (OS X):
brew install gimme
Arch AUR (Arch Linux), substituting yaourt
with
however you prefer to install from AUR:
# latest released version
yaourt -S gimme
# current git HEAD revision
yaourt -S gimme-git
Then check the help text a la:
gimme -h
# or
gimme --help
# or
gimme help
# or
gimme wat
To install and use version 1.4, for example:
eval "$(GIMME_GO_VERSION=1.4 gimme)"
# or:
eval "$(gimme 1.4)"
# or if you can't stand the thought of using `eval`:
gimme 1.4
source ~/.gimme/envs/go1.4.env
Or run without installing gimme:
eval "$(curl -sL https://raw.githubusercontent.com/travis-ci/gimme/master/gimme | GIMME_GO_VERSION=1.4 bash)"
To install and use the current stable release of Go:
gimme stable
To install the previous minor release of Go:
gimme oldstable
Or to install and use the development version (master branch) of Go:
gimme master
To list installed versions of Go:
gimme -l
# or
gimme --list
# or
gimme list
To force re-installation of an existing Go version:
gimme --force 1.4.1
# or
gimme -f 1.4.1
# or even
gimme force 1.4.1
To get the version of gimme:
gimme -V
# or
gimme --version
# or even
gimme version
The original goal of this project was trivial cross-compilation within Travis. The following is an example .travis.yml
file to accomplish this for a normal Go project:
language: go
env:
- GIMME_OS=linux GIMME_ARCH=amd64
- GIMME_OS=darwin GIMME_ARCH=amd64
- GIMME_OS=windows GIMME_ARCH=amd64
install:
- go get -d -v ./...
script:
- go build -v ./...
Gimme only supports downloading versions which the Go developers make available. If a version of Go is withdrawn, then Gimme has no logic to go look elsewhere for that version. Thus as the Go Maintainers withdraw old releases, they'll stop being available for Gimme to fetch.
Because Gimme caches builds, a testing framework which preserves that cache might still have older releases available, leading to sporadic failures. The only fix is to switch to only requesting currently available versions of Go.
The environment variable $GIMME_DOWNLOAD_BASE
can be used to point Gimme
at another location, so if you need to keep working with older Go releases,
then you can maintain your own software artifact mirror which preserves those
versions and point Gimme at that instead.
Invoke gimme -k
or gimme --known
to have Gimme report the versions which
can be installed; invoking gimme stable
installs the version which the Go
Maintainers have declared to be stable, and gimme oldstable
installs the last
stable release one minor version before the current stable. Both of these
involve making network requests to retrieve this information, although the
--known
output is cached. (Use --force-known-update
to ignore the cache).
The stable
request retrieves https://golang.org/VERSION?m=text and reports
that. The oldstable
request does the same and downgrades it by one minor
version.
The known
request retrieves https://golang.org/dl and parses the page to
find releases. This is not the same as the location where the images are
retrieved from, thus it's possible for known
to know about more or fewer
versions than are actually available. We proceed on the basis that the
documented releases are suitable and undocumented releases no longer are.
This known
list also includes any versions locally known.
Gimme now supports the concept of .x
, as a version suffix; eg, 1.10.x
might be 1.10
before the release of 1.10.1
but become 1.10.1
once that's
available.
To make this easier, and reduce duplicate invocations, Gimme now supports a
"query" which, instead of producing normal output, just prints the resolution
of a version specifier. This is the --resolve
option. It handles the .x
suffix, the stable
string, and the oldstable
string; all other inputs are
passed through unchanged, although unknown names will be accompanied by an
error message and an exit code of 2. A valid version identifier, even if not
currently downloadable from upstream, will resolve successfully. "Can resolve"
is not "exists".
Thus given a list of versions to invoke against, tooling might do a first pass
to use --resolve
on each and de-duplicate, so that if an alias and a
hard-coded version map to the same version, then only one invocation needs to
happen.
Gimme only supports .x
at the end of a version specifier.
The --resolve
option must be given a version on the command-line afterwards,
not by any other means.
The --resolve
option and mechanism ignores any installed versions and relies
solely upon upstream-exposed lists of available versions and resolvable tags.
A git tag named ending .x
will never be found.
Use of .x
will not find release candidates, alphas, betas or other
non-release versions: it's only for finding the last stable release.
Use of ${GIMME_TYPE}
to override auto
and prevent git
will affect
--resolve
by inhibiting use of git tags as valid names. This is a feature.
Note that because Gimme supports version identifiers which are git tags,
--resolve
defaults to handling this too. This means that --resolve
can be
heavy-weight: without the Go repo cloned, first the entire Go repo must be
cloned. We default to "correct". To avoid this, export GIMME_TYPE=binary
and disable the git resolution mechanism.