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releaser-pleaser/internal/forge/gitlab/gitlab.go
Julian Tölle 175d6d0633
feat: real user as commit author (#187) 
Previously all commits were authored and committed by

    releaser-pleaser <>

This looked weird when looking at the commit. We now check with the
Forge API for details on the currently authenticated user, and use that
name and email as the commit author. The commit committer stays the same
for now.

In GitHub, the default `$GITHUB_TOKEN` does not allow access to the
required endpoint, so for github the user `github-actions[bot]
<41898282+github-actions[bot]@users.noreply.github.com>` is hardcoded
when the request fails.
2025-06-09 08:06:56 +00:00

480 lines
12 KiB
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package gitlab
import (
"context"
"fmt"
"log/slog"
"os"
"slices"
"strings"
"github.com/blang/semver/v4"
"github.com/go-git/go-git/v5/plumbing/transport"
"github.com/go-git/go-git/v5/plumbing/transport/http"
gitlab "gitlab.com/gitlab-org/api/client-go"
"github.com/apricote/releaser-pleaser/internal/forge"
"github.com/apricote/releaser-pleaser/internal/git"
"github.com/apricote/releaser-pleaser/internal/pointer"
"github.com/apricote/releaser-pleaser/internal/releasepr"
)
const (
PerPageMax = 100
PRStateOpen = "opened"
PRStateMerged = "merged"
PRStateEventClose = "close"
EnvAPIToken = "GITLAB_TOKEN" // nolint:gosec // Not actually a hardcoded credential
// The following vars are from https://docs.gitlab.com/ee/ci/variables/predefined_variables.html
EnvAPIURL = "CI_API_V4_URL"
EnvProjectURL = "CI_PROJECT_URL"
EnvProjectPath = "CI_PROJECT_PATH"
)
type GitLab struct {
options *Options
client *gitlab.Client
log *slog.Logger
}
func (g *GitLab) RepoURL() string {
if g.options.ProjectURL != "" {
return g.options.ProjectURL
}
return fmt.Sprintf("https://gitlab.com/%s", g.options.Path)
}
func (g *GitLab) CloneURL() string {
return fmt.Sprintf("%s.git", g.RepoURL())
}
func (g *GitLab) ReleaseURL(version string) string {
return fmt.Sprintf("%s/-/releases/%s", g.RepoURL(), version)
}
func (g *GitLab) PullRequestURL(id int) string {
return fmt.Sprintf("%s/-/merge_requests/%d", g.RepoURL(), id)
}
func (g *GitLab) GitAuth() transport.AuthMethod {
return &http.BasicAuth{
// Username just needs to be any non-blank value
Username: "api-token",
Password: g.options.APIToken,
}
}
func (g *GitLab) CommitAuthor(ctx context.Context) (git.Author, error) {
g.log.DebugContext(ctx, "getting commit author from current token user")
user, _, err := g.client.Users.CurrentUser(gitlab.WithContext(ctx))
if err != nil {
return git.Author{}, err
}
// TODO: Return bot when nothing is returned?
return git.Author{
Name: user.Name,
Email: user.Email,
}, nil
}
func (g *GitLab) LatestTags(ctx context.Context) (git.Releases, error) {
g.log.DebugContext(ctx, "listing all tags in gitlab repository")
tags, err := all(func(listOptions gitlab.ListOptions) ([]*gitlab.Tag, *gitlab.Response, error) {
return g.client.Tags.ListTags(g.options.Path, &gitlab.ListTagsOptions{
OrderBy: pointer.Pointer("updated"),
ListOptions: listOptions,
}, gitlab.WithContext(ctx))
})
if err != nil {
return git.Releases{}, err
}
var releases git.Releases
for _, glTag := range tags {
tag := &git.Tag{
Hash: glTag.Commit.ID,
Name: glTag.Name,
}
version, err := semver.Parse(strings.TrimPrefix(tag.Name, "v"))
if err != nil {
g.log.WarnContext(
ctx, "unable to parse tag as semver, skipping",
"tag.name", tag.Name,
"tag.hash", tag.Hash,
"error", err,
)
continue
}
if releases.Latest == nil {
releases.Latest = tag
}
if len(version.Pre) == 0 {
// Stable version tag
// We return once we have found the latest stable tag, not needed to look at every single tag.
releases.Stable = tag
break
}
}
return releases, nil
}
func (g *GitLab) CommitsSince(ctx context.Context, tag *git.Tag) ([]git.Commit, error) {
var err error
head := g.options.BaseBranch
log := g.log.With("head", head)
refName := ""
if tag != nil {
log = log.With("base", tag.Hash)
refName = fmt.Sprintf("%s..%s", tag.Hash, head)
} else {
refName = head
}
log.Debug("listing commits", "ref.name", refName)
gitLabCommits, err := all(func(listOptions gitlab.ListOptions) ([]*gitlab.Commit, *gitlab.Response, error) {
return g.client.Commits.ListCommits(g.options.Path, &gitlab.ListCommitsOptions{
RefName: &refName,
ListOptions: listOptions,
}, gitlab.WithContext(ctx))
})
if err != nil {
return nil, err
}
var commits = make([]git.Commit, 0, len(gitLabCommits))
for _, ghCommit := range gitLabCommits {
commit := git.Commit{
Hash: ghCommit.ID,
Message: ghCommit.Message,
}
commit.PullRequest, err = g.prForCommit(ctx, commit)
if err != nil {
return nil, fmt.Errorf("failed to check for commit pull request: %w", err)
}
commits = append(commits, commit)
}
return commits, nil
}
func (g *GitLab) prForCommit(ctx context.Context, commit git.Commit) (*git.PullRequest, error) {
// We naively look up the associated MR for each commit through the "List merge requests associated with a commit"
// endpoint. This requires len(commits) requests.
// Using the "List merge requests" endpoint might be faster, as it allows us to fetch 100 arbitrary MRs per request,
// but worst case we need to look up all MRs made in the repository ever.
log := g.log.With("commit.hash", commit.Hash)
log.Debug("fetching pull requests associated with commit")
associatedMRs, _, err := g.client.Commits.ListMergeRequestsByCommit(
g.options.Path, commit.Hash,
gitlab.WithContext(ctx),
)
if err != nil {
return nil, err
}
var mergeRequest *gitlab.BasicMergeRequest
for _, mr := range associatedMRs {
// We only look for the MR that has this commit set as the "merge/squash commit" => The result of squashing this branch onto main
if mr.MergeCommitSHA == commit.Hash || mr.SquashCommitSHA == commit.Hash {
mergeRequest = mr
break
}
}
if mergeRequest == nil {
return nil, nil
}
return gitlabMRToPullRequest(mergeRequest), nil
}
func (g *GitLab) EnsureLabelsExist(ctx context.Context, labels []releasepr.Label) error {
g.log.Debug("fetching labels on repo")
glLabels, err := all(func(listOptions gitlab.ListOptions) ([]*gitlab.Label, *gitlab.Response, error) {
return g.client.Labels.ListLabels(g.options.Path, &gitlab.ListLabelsOptions{
ListOptions: listOptions,
}, gitlab.WithContext(ctx))
})
if err != nil {
return err
}
for _, label := range labels {
if !slices.ContainsFunc(glLabels, func(glLabel *gitlab.Label) bool {
return glLabel.Name == label.Name
}) {
g.log.Info("creating label in repository", "label.name", label)
_, _, err := g.client.Labels.CreateLabel(g.options.Path, &gitlab.CreateLabelOptions{
Name: pointer.Pointer(label.Name),
Color: pointer.Pointer("#" + label.Color),
Description: pointer.Pointer(label.Description),
},
)
if err != nil {
return err
}
}
}
return nil
}
func (g *GitLab) PullRequestForBranch(ctx context.Context, branch string) (*releasepr.ReleasePullRequest, error) {
// There should only be a single open merge request from branch into g.options.BaseBranch at any given moment.
// We can skip pagination and just return the first result.
mrs, _, err := g.client.MergeRequests.ListProjectMergeRequests(g.options.Path, &gitlab.ListProjectMergeRequestsOptions{
State: pointer.Pointer(PRStateOpen),
SourceBranch: pointer.Pointer(branch),
TargetBranch: pointer.Pointer(g.options.BaseBranch),
ListOptions: gitlab.ListOptions{
Page: 1,
PerPage: PerPageMax,
},
}, gitlab.WithContext(ctx))
if err != nil {
return nil, err
}
if len(mrs) >= 1 {
return gitlabMRToReleasePullRequest(mrs[0]), nil
}
return nil, nil
}
func (g *GitLab) CreatePullRequest(ctx context.Context, pr *releasepr.ReleasePullRequest) error {
labels := make(gitlab.LabelOptions, 0, len(pr.Labels))
for _, label := range pr.Labels {
labels = append(labels, label.Name)
}
glMR, _, err := g.client.MergeRequests.CreateMergeRequest(g.options.Path, &gitlab.CreateMergeRequestOptions{
Title: &pr.Title,
Description: &pr.Description,
SourceBranch: &pr.Head,
TargetBranch: &g.options.BaseBranch,
Labels: &labels,
}, gitlab.WithContext(ctx))
if err != nil {
return err
}
pr.ID = glMR.IID
return nil
}
func (g *GitLab) UpdatePullRequest(ctx context.Context, pr *releasepr.ReleasePullRequest) error {
_, _, err := g.client.MergeRequests.UpdateMergeRequest(g.options.Path, pr.ID, &gitlab.UpdateMergeRequestOptions{
Title: &pr.Title,
Description: &pr.Description,
}, gitlab.WithContext(ctx))
if err != nil {
return err
}
return nil
}
func (g *GitLab) SetPullRequestLabels(ctx context.Context, pr *releasepr.ReleasePullRequest, remove, add []releasepr.Label) error {
removeLabels := make(gitlab.LabelOptions, 0, len(remove))
for _, label := range remove {
removeLabels = append(removeLabels, label.Name)
}
addLabels := make(gitlab.LabelOptions, 0, len(add))
for _, label := range add {
addLabels = append(addLabels, label.Name)
}
_, _, err := g.client.MergeRequests.UpdateMergeRequest(g.options.Path, pr.ID, &gitlab.UpdateMergeRequestOptions{
RemoveLabels: &removeLabels,
AddLabels: &addLabels,
}, gitlab.WithContext(ctx))
if err != nil {
return err
}
return nil
}
func (g *GitLab) ClosePullRequest(ctx context.Context, pr *releasepr.ReleasePullRequest) error {
_, _, err := g.client.MergeRequests.UpdateMergeRequest(g.options.Path, pr.ID, &gitlab.UpdateMergeRequestOptions{
StateEvent: pointer.Pointer(PRStateEventClose),
}, gitlab.WithContext(ctx))
if err != nil {
return err
}
return nil
}
func (g *GitLab) PendingReleases(ctx context.Context, pendingLabel releasepr.Label) ([]*releasepr.ReleasePullRequest, error) {
glMRs, err := all(func(listOptions gitlab.ListOptions) ([]*gitlab.BasicMergeRequest, *gitlab.Response, error) {
return g.client.MergeRequests.ListMergeRequests(&gitlab.ListMergeRequestsOptions{
State: pointer.Pointer(PRStateMerged),
Labels: &gitlab.LabelOptions{pendingLabel.Name},
TargetBranch: pointer.Pointer(g.options.BaseBranch),
ListOptions: listOptions,
}, gitlab.WithContext(ctx))
})
if err != nil {
return nil, err
}
prs := make([]*releasepr.ReleasePullRequest, 0, len(glMRs))
for _, mr := range glMRs {
prs = append(prs, gitlabMRToReleasePullRequest(mr))
}
return prs, nil
}
func (g *GitLab) CreateRelease(ctx context.Context, commit git.Commit, title, changelog string, _, _ bool) error {
_, _, err := g.client.Releases.CreateRelease(g.options.Path, &gitlab.CreateReleaseOptions{
Name: &title,
TagName: &title,
Description: &changelog,
Ref: &commit.Hash,
}, gitlab.WithContext(ctx))
if err != nil {
return err
}
return nil
}
func all[T any](f func(listOptions gitlab.ListOptions) ([]T, *gitlab.Response, error)) ([]T, error) {
results := make([]T, 0)
page := 1
for {
pageResults, resp, err := f(gitlab.ListOptions{Page: page, PerPage: PerPageMax})
if err != nil {
return nil, err
}
results = append(results, pageResults...)
if page == resp.TotalPages || resp.TotalPages == 0 {
return results, nil
}
page = resp.NextPage
}
}
func gitlabMRToPullRequest(pr *gitlab.BasicMergeRequest) *git.PullRequest {
return &git.PullRequest{
ID: pr.IID,
Title: pr.Title,
Description: pr.Description,
}
}
func gitlabMRToReleasePullRequest(pr *gitlab.BasicMergeRequest) *releasepr.ReleasePullRequest {
labels := make([]releasepr.Label, 0, len(pr.Labels))
for _, labelName := range pr.Labels {
if i := slices.IndexFunc(releasepr.KnownLabels, func(label releasepr.Label) bool {
return label.Name == labelName
}); i >= 0 {
labels = append(labels, releasepr.KnownLabels[i])
}
}
// Commit SHA is saved in either [MergeCommitSHA] or [SquashCommitSHA] depending on which merge method was used.
var releaseCommit *git.Commit
if pr.MergeCommitSHA != "" {
releaseCommit = &git.Commit{Hash: pr.MergeCommitSHA}
} else if pr.SquashCommitSHA != "" {
releaseCommit = &git.Commit{Hash: pr.SquashCommitSHA}
}
return &releasepr.ReleasePullRequest{
PullRequest: *gitlabMRToPullRequest(pr),
Labels: labels,
Head: pr.SHA,
ReleaseCommit: releaseCommit,
}
}
func (g *Options) autodiscover() {
// Read settings from GitLab-CI env vars
if apiURL := os.Getenv(EnvAPIURL); apiURL != "" {
g.APIURL = apiURL
}
if apiToken := os.Getenv(EnvAPIToken); apiToken != "" {
g.APIToken = apiToken
}
if projectURL := os.Getenv(EnvProjectURL); projectURL != "" {
g.ProjectURL = projectURL
}
if projectPath := os.Getenv(EnvProjectPath); projectPath != "" {
g.Path = projectPath
}
}
func (g *Options) ClientOptions() []gitlab.ClientOptionFunc {
options := []gitlab.ClientOptionFunc{}
if g.APIURL != "" {
options = append(options, gitlab.WithBaseURL(g.APIURL))
}
return options
}
type Options struct {
forge.Options
ProjectURL string
Path string
APIURL string
APIToken string
}
func New(log *slog.Logger, options *Options) (*GitLab, error) {
log = log.With("forge", "gitlab")
options.autodiscover()
client, err := gitlab.NewClient(options.APIToken, options.ClientOptions()...)
if err != nil {
return nil, err
}
gl := &GitLab{
options: options,
client: client,
log: log,
}
return gl, nil
}
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