/go-selfupdate

self update your applications in go

Primary LanguageGoMIT LicenseMIT

Self-Update library for Github, Gitea and Gitlab hosted applications in Go

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Introduction

go-selfupdate detects the information of the latest release via a source provider and checks the current version. If a newer version than itself is detected, it downloads the released binary from the source provider and replaces itself.

  • Automatically detect the latest version of released binary on the source provider
  • Retrieve the proper binary for the OS and arch where the binary is running
  • Update the binary with rollback support on failure
  • Tested on Linux, macOS and Windows
  • Support for different versions of ARM architecture
  • Support macOS universal binaries
  • Many archive and compression formats are supported (zip, tar, gzip, xz, bzip2)
  • Support private repositories
  • Support hash, signature validation

Three source providers are available:

  • GitHub
  • Gitea
  • Gitlab

This library started as a fork of https://github.com/rhysd/go-github-selfupdate. A few things have changed from the original implementation:

  • don't expose an external semver.Version type, but provide the same functionality through the API: LessThan, Equal and GreaterThan
  • use an interface to send logs (compatible with standard log.Logger)
  • able to detect different ARM CPU architectures (the original library wasn't working on my different versions of raspberry pi)
  • support for assets compressed with bzip2 (.bz2)
  • can use a single file containing the sha256 checksums for all the files (one per line)
  • separate the provider and the updater, so we can add more providers (Github, Gitea, Gitlab, etc.)
  • return well defined wrapped errors that can be checked with errors.Is(err error, target error)

Example

Here's an example how to use the library for an application to update itself

func update(version string) error {
	latest, found, err := selfupdate.DetectLatest(context.Background(), selfupdate.ParseSlug("creativeprojects/resticprofile"))
	if err != nil {
		return fmt.Errorf("error occurred while detecting version: %w", err)
	}
	if !found {
		return fmt.Errorf("latest version for %s/%s could not be found from github repository", runtime.GOOS, runtime.GOARCH)
	}

	if latest.LessOrEqual(version) {
		log.Printf("Current version (%s) is the latest", version)
		return nil
	}

	exe, err := selfupdate.ExecutablePath()
	if err != nil {
		return errors.New("could not locate executable path")
	}
	if err := selfupdate.UpdateTo(context.Background(), latest.AssetURL, latest.AssetName, exe); err != nil {
		return fmt.Errorf("error occurred while updating binary: %w", err)
	}
	log.Printf("Successfully updated to version %s", latest.Version())
	return nil
}

Upgrade from v0+ to v1

Version v1+ has a stable API. It is slightly different from the API of versions 0+.

Repository

Some functions needed a couple owner/repo and some other a single string called slug. These have been replaced by a Repository.

Two constructors are available:

ParseSlug

Parses a slug string like owner/repository_name

func ParseSlug(slug string) RepositorySlug

NewRepositorySlug

Creates a repository from both owner and repo strings

func NewRepositorySlug(owner, repo string) RepositorySlug

NewRepositoryID (GitLab only)

GitLab can also refer to a repository via its internal ID. This constructor can be used with a numeric repository ID.

func NewRepositoryID(id int) RepositoryID

Context

All methods are now accepting a context as their first parameter. You can use it to cancel a long running operation.

Package functions

v0 v1
UpdateTo(assetURL, assetFileName, cmdPath string) error UpdateTo(ctx context.Context, assetURL, assetFileName, cmdPath string) error
DetectLatest(slug string) (*Release, bool, error) DetectLatest(ctx context.Context, repository Repository) (*Release, bool, error)
DetectVersion(slug string, version string) (*Release, bool, error) DetectVersion(ctx context.Context, repository Repository, version string) (*Release, bool, error)
UpdateCommand(cmdPath string, current string, slug string) (*Release, error) UpdateCommand(ctx context.Context, cmdPath string, current string, repository Repository) (*Release, error)
UpdateSelf(current string, slug string) (*Release, error) UpdateSelf(ctx context.Context, current string, repository Repository) (*Release, error)

Methods on Source interface

v0 v1
ListReleases(owner, repo string) ([]SourceRelease, error) ListReleases(ctx context.Context, repository Repository) ([]SourceRelease, error)
DownloadReleaseAsset(owner, repo string, releaseID, id int64) (io.ReadCloser, error) DownloadReleaseAsset(ctx context.Context, rel *Release, assetID int64) (io.ReadCloser, error)

Methods on Updater struct

v0 v1
DetectLatest(slug string) (release *Release, found bool, err error) DetectLatest(ctx context.Context, repository Repository) (release *Release, found bool, err error)
DetectVersion(slug string, version string) (release *Release, found bool, err error) DetectVersion(ctx context.Context, repository Repository, version string) (release *Release, found bool, err error)
UpdateCommand(cmdPath string, current string, slug string) (*Release, error) UpdateCommand(ctx context.Context, cmdPath string, current string, repository Repository) (*Release, error)
UpdateSelf(current string, slug string) (*Release, error) UpdateSelf(ctx context.Context, current string, repository Repository) (*Release, error)
UpdateTo(rel *Release, cmdPath string) error UpdateTo(ctx context.Context, rel *Release, cmdPath string) error

Naming Rules of Released Binaries

go-selfupdate assumes that released binaries are put for each combination of platforms and architectures. Binaries for each platform can be easily built using tools like goreleaser

You need to put the binaries with the following format.

{cmd}_{goos}_{goarch}{.ext}

{cmd} is a name of command. {goos} and {goarch} are the platform and the arch type of the binary. {.ext} is a file extension. go-selfupdate supports .zip, .gzip, .bz2, .tar.gz and .tar.xz. You can also use blank and it means binary is not compressed.

If you compress binary, uncompressed directory or file must contain the executable named {cmd}.

And you can also use - for separator instead of _ if you like.

For example, if your command name is foo-bar, one of followings is expected to be put in release page on GitHub as binary for platform linux and arch amd64.

  • foo-bar_linux_amd64 (executable)
  • foo-bar_linux_amd64.zip (zip file)
  • foo-bar_linux_amd64.tar.gz (tar file)
  • foo-bar_linux_amd64.xz (xzip file)
  • foo-bar-linux-amd64.tar.gz (- is also ok for separator)

If you compress and/or archive your release asset, it must contain an executable named one of followings:

  • foo-bar (only command name)
  • foo-bar_linux_amd64 (full name)
  • foo-bar-linux-amd64 (- is also ok for separator)

To archive the executable directly on Windows, .exe can be added before file extension like foo-bar_windows_amd64.exe.zip.

Naming Rules of Versions (=Git Tags)

go-selfupdate searches binaries' versions via Git tag names (not a release title). When your tool's version is 1.2.3, you should use the version number for tag of the Git repository (i.e. 1.2.3 or v1.2.3).

This library assumes you adopt semantic versioning. It is necessary for comparing versions systematically.

Prefix before version number \d+\.\d+\.\d+ is automatically omitted. For example, ver1.2.3 or release-1.2.3 are also ok.

Tags which don't contain a version number are ignored (i.e. nightly). And releases marked as pre-release are also ignored.

Structure of Releases

In summary, structure of releases on GitHub looks like:

  • v1.2.0
    • foo-bar-linux-amd64.tar.gz
    • foo-bar-linux-386.tar.gz
    • foo-bar-darwin-amd64.tar.gz
    • foo-bar-windows-amd64.zip
    • ... (Other binaries for v1.2.0)
  • v1.1.3
    • foo-bar-linux-amd64.tar.gz
    • foo-bar-linux-386.tar.gz
    • foo-bar-darwin-amd64.tar.gz
    • foo-bar-windows-amd64.zip
    • ... (Other binaries for v1.1.3)
  • ... (older versions)

Special case for ARM architecture

If you're using goreleaser targeting ARM CPUs, it will use the version of the ARM architecture as a name:

  • armv5
  • armv6
  • armv7

go-selfupdate will check which architecture was used to build the current binary. Please note it's not detecting the hardware, but the binary target instead. If you run an armv6 binary on an armv7 CPU, it will keep armv6 as a target.

As a rule, it will search for a binary with the same architecture first, then try the architectures below if available, and as a last resort will try a simple arm architecture tag.

So if you're running a armv6 binary, it will try these targets in order:

  • armv6
  • armv5
  • arm

More information on targeting ARM cpu can be found here: GoArm

Hash or Signature Validation

go-selfupdate supports hash or signature validation of the downloaded files. It comes with support for sha256 hashes or ECDSA signatures. If you need something different, you can implement the Validator interface with your own validation mechanism:

// Validator represents an interface which enables additional validation of releases.
type Validator interface {
	// Validate validates release bytes against an additional asset bytes.
	// See SHAValidator or ECDSAValidator for more information.
	Validate(filename string, release, asset []byte) error
	// GetValidationAssetName returns the additional asset name containing the validation checksum.
	// The asset containing the checksum can be based on the release asset name
	// Please note if the validation file cannot be found, the DetectLatest and DetectVersion methods
	// will fail with a wrapped ErrValidationAssetNotFound error
	GetValidationAssetName(releaseFilename string) string
}

SHA256

To verify the integrity by SHA256, generate a hash sum and save it within a file which has the same naming as original file with the suffix .sha256. For e.g. use sha256sum, the file selfupdate/testdata/foo.zip.sha256 is generated with:

sha256sum foo.zip > foo.zip.sha256

ECDSA

To verify the signature by ECDSA generate a signature and save it within a file which has the same naming as original file with the suffix .sig. For e.g. use openssl, the file selfupdate/testdata/foo.zip.sig is generated with:

openssl dgst -sha256 -sign Test.pem -out foo.zip.sig foo.zip

go-selfupdate makes use of go internal crypto package. Therefore the private key has to be compatible with FIPS 186-3.

Using a single checksum file for all your assets

Tools like goreleaser produce a single checksum file for all your assets. A Validator is provided out of the box for this case:

updater, _ := NewUpdater(Config{Validator: &ChecksumValidator{UniqueFilename: "checksums.txt"}})

macOS universal binaries

You can ask the updater to choose a macOS universal binary as a fallback if the native architecture wasn't found.

You need to provide the architecture name for the universal binary in the Config struct:

updater, _ := NewUpdater(Config{UniversalArch: "all"})

Default is empty, which means no fallback.

Other providers than Github

This library can be easily extended by providing a new source and release implementation for any git provider Currently implemented are

  • Github (default)
  • Gitea
  • Gitlab

GitLab

Support for GitLab landed in version 1.0.0.

To be able to download assets from a private instance of GitLab, you have to publish your files to the Generic Package Registry.

If you're using goreleaser, you just need to add this option:

# .goreleaser.yml
gitlab_urls:
  use_package_registry: true

See goreleaser documentation for more information.

Example:

func update() {
	source, err := selfupdate.NewGitLabSource(selfupdate.GitLabConfig{
		BaseURL: "https://private.instance.on.gitlab.com/",
	})
	if err != nil {
		log.Fatal(err)
	}
	updater, err := selfupdate.NewUpdater(selfupdate.Config{
		Source:    source,
		Validator: &selfupdate.ChecksumValidator{UniqueFilename: "checksums.txt"}, // checksum from goreleaser
	})
	if err != nil {
		log.Fatal(err)
	}
	release, found, err := updater.DetectLatest(context.Background(), selfupdate.NewRepositorySlug("owner", "cli-tool"))
	if err != nil {
		log.Fatal(err)
	}
	if !found {
		log.Print("Release not found")
		return
	}
	fmt.Printf("found release %s\n", release.Version())

	exe, err := selfupdate.ExecutablePath()
	if err != nil {
		return errors.New("could not locate executable path")
	}
	err = updater.UpdateTo(context.Background(), release, exe)
	if err != nil {
		log.Fatal(err)
	}
}

Http Based Repository

Support for http based repositories landed in version 1.4.0.

The HttpSource is designed to work with repositories built using goreleaser-http-repo-builder. This provides a simple way to add self-update support to software that is not open source, allowing you to host your own updates. It requires that you still use the owner/project url style, and you can set custom headers to be used with requests to authenticate.

Example:

If your repository is at example.com/repo/project, then you'd use the following example.

func update() {
	source, err := selfupdate.NewHttpSource(selfupdate.HttpConfig{
		BaseURL: "https://example.com/",
	})
	if err != nil {
		log.Fatal(err)
	}
	updater, err := selfupdate.NewUpdater(selfupdate.Config{
		Source:    source,
		Validator: &selfupdate.ChecksumValidator{UniqueFilename: "checksums.txt"}, // checksum from goreleaser
	})
	if err != nil {
		log.Fatal(err)
	}
	release, found, err := updater.DetectLatest(context.Background(), selfupdate.NewRepositorySlug("repo", "project"))
	if err != nil {
		log.Fatal(err)
	}
	if !found {
		log.Print("Release not found")
		return
	}
	fmt.Printf("found release %s\n", release.Version())

	exe, err := selfupdate.ExecutablePath()
	if err != nil {
		return errors.New("could not locate executable path")
	}
	err = updater.UpdateTo(context.Background(), release, exe)
	if err != nil {
		log.Fatal(err)
	}
}

Copyright

This work is heavily based on: