package gitlab
import (
"context"
"fmt"
"os"
"strconv"
"time"
"github.com/pkg/errors"
"github.com/xanzy/go-gitlab"
"github.com/MichaelMure/git-bug/bridge/core"
"github.com/MichaelMure/git-bug/bridge/core/auth"
"github.com/MichaelMure/git-bug/bug"
"github.com/MichaelMure/git-bug/cache"
"github.com/MichaelMure/git-bug/entity"
"github.com/MichaelMure/git-bug/entity/dag"
"github.com/MichaelMure/git-bug/identity"
)
var (
ErrMissingIdentityToken = errors.New("missing identity token")
)
// gitlabExporter implement the Exporter interface
type gitlabExporter struct {
conf core.Configuration
// cache identities clients
identityClient map[entity.Id]*gitlab.Client
// gitlab repository ID
repositoryID string
// cache identifiers used to speed up exporting operations
// cleared for each bug
cachedOperationIDs map[string]string
}
// Init .
func (ge *gitlabExporter) Init(_ context.Context, repo *cache.RepoCache, conf core.Configuration) error {
ge.conf = conf
ge.identityClient = make(map[entity.Id]*gitlab.Client)
ge.cachedOperationIDs = make(map[string]string)
// get repository node id
ge.repositoryID = ge.conf[confKeyProjectID]
// preload all clients
err := ge.cacheAllClient(repo, ge.conf[confKeyGitlabBaseUrl])
if err != nil {
return err
}
return nil
}
func (ge *gitlabExporter) cacheAllClient(repo *cache.RepoCache, baseURL string) error {
creds, err := auth.List(repo,
auth.WithTarget(target),
auth.WithKind(auth.KindToken),
auth.WithMeta(auth.MetaKeyBaseURL, baseURL),
)
if err != nil {
return err
}
for _, cred := range creds {
login, ok := cred.GetMetadata(auth.MetaKeyLogin)
if !ok {
_, _ = fmt.Fprintf(os.Stderr, "credential %s is not tagged with a Gitlab login\n", cred.ID().Human())
continue
}
user, err := repo.ResolveIdentityImmutableMetadata(metaKeyGitlabLogin, login)
if err == identity.ErrIdentityNotExist {
continue
}
if err != nil {
return nil
}
if _, ok := ge.identityClient[user.Id()]; !ok {
client, err := buildClient(ge.conf[confKeyGitlabBaseUrl], creds[0].(*auth.Token))
if err != nil {
return err
}
ge.identityClient[user.Id()] = client
}
}
return nil
}
// getIdentityClient return a gitlab v4 API client configured with the access token of the given identity.
func (ge *gitlabExporter) getIdentityClient(userId entity.Id) (*gitlab.Client, error) {
client, ok := ge.identityClient[userId]
if ok {
return client, nil
}
return nil, ErrMissingIdentityToken
}
// ExportAll export all event made by the current user to Gitlab
func (ge *gitlabExporter) ExportAll(ctx context.Context, repo *cache.RepoCache, since time.Time) (<-chan core.ExportResult, error) {
out := make(chan core.ExportResult)
go func() {
defer close(out)
allIdentitiesIds := make([]entity.Id, 0, len(ge.identityClient))
for id := range ge.identityClient {
allIdentitiesIds = append(allIdentitiesIds, id)
}
allBugsIds := repo.AllBugsIds()
for _, id := range allBugsIds {
select {
case <-ctx.Done():
return
default:
b, err := repo.ResolveBug(id)
if err != nil {
out <- core.NewExportError(err, id)
return
}
snapshot := b.Snapshot()
// ignore issues created before since date
// TODO: compare the Lamport time instead of using the unix time
if snapshot.CreateTime.Before(since) {
out <- core.NewExportNothing(b.Id(), "bug created before the since date")
continue
}
if snapshot.HasAnyActor(allIdentitiesIds...) {
// try to export the bug and it associated events
ge.exportBug(ctx, b, out)
}
}
}
}()
return out, nil
}
// exportBug publish bugs and related events
func (ge *gitlabExporter) exportBug(ctx context.Context, b *cache.BugCache, out chan<- core.ExportResult) {
snapshot := b.Snapshot()
var bugUpdated bool
var err error
var bugGitlabID int
var bugGitlabIDString string
var GitlabBaseUrl string
var bugCreationId string
// Special case:
// if a user try to export a bug that is not already exported to Gitlab (or imported
// from Gitlab) and we do not have the token of the bug author, there is nothing we can do.
// skip bug if origin is not allowed
origin, ok := snapshot.GetCreateMetadata(core.MetaKeyOrigin)
if ok && origin != target {
out <- core.NewExportNothing(b.Id(), fmt.Sprintf("issue tagged with origin: %s", origin))
return
}
// first operation is always createOp
createOp := snapshot.Operations[0].(*bug.CreateOperation)
author := snapshot.Author
// get gitlab bug ID
gitlabID, ok := snapshot.GetCreateMetadata(metaKeyGitlabId)
if ok {
gitlabBaseUrl, ok := snapshot.GetCreateMetadata(metaKeyGitlabBaseUrl)
if ok && gitlabBaseUrl != ge.conf[confKeyGitlabBaseUrl] {
out <- core.NewExportNothing(b.Id(), "skipping issue imported from another Gitlab instance")
return
}
projectID, ok := snapshot.GetCreateMetadata(metaKeyGitlabProject)
if !ok {
err := fmt.Errorf("expected to find gitlab project id")
out <- core.NewExportError(err, b.Id())
return
}
if projectID != ge.conf[confKeyProjectID] {
out <- core.NewExportNothing(b.Id(), "skipping issue imported from another repository")
return
}
// will be used to mark operation related to a bug as exported
bugGitlabIDString = gitlabID
bugGitlabID, err = strconv.Atoi(bugGitlabIDString)
if err != nil {
out <- core.NewExportError(fmt.Errorf("unexpected gitlab id format: %s", bugGitlabIDString), b.Id())
return
}
} else {
// check that we have a token for operation author
client, err := ge.getIdentityClient(author.Id())
if err != nil {
// if bug is still not exported and we do not have the author stop the execution
out <- core.NewExportNothing(b.Id(), fmt.Sprintf("missing author token"))
return
}
// create bug
_, id, url, err := createGitlabIssue(ctx, client, ge.repositoryID, createOp.Title, createOp.Message)
if err != nil {
err := errors.Wrap(err, "exporting gitlab issue")
out <- core.NewExportError(err, b.Id())
return
}
idString := strconv.Itoa(id)
out <- core.NewExportBug(b.Id())
_, err = b.SetMetadata(
createOp.Id(),
map[string]string{
metaKeyGitlabId: idString,
metaKeyGitlabUrl: url,
metaKeyGitlabProject: ge.repositoryID,
metaKeyGitlabBaseUrl: GitlabBaseUrl,
},
)
if err != nil {
err := errors.Wrap(err, "marking operation as exported")
out <- core.NewExportError(err, b.Id())
return
}
// commit operation to avoid creating multiple issues with multiple pushes
if err := b.CommitAsNeeded(); err != nil {
err := errors.Wrap(err, "bug commit")
out <- core.NewExportError(err, b.Id())
return
}
// cache bug gitlab ID and URL
bugGitlabID = id
bugGitlabIDString = idString
}
bugCreationId = createOp.Id().String()
// cache operation gitlab id
ge.cachedOperationIDs[bugCreationId] = bugGitlabIDString
labelSet := make(map[string]struct{})
for _, op := range snapshot.Operations[1:] {
// ignore SetMetadata operations
if _, ok := op.(dag.OperationDoesntChangeSnapshot); ok {
continue
}
// ignore operations already existing in gitlab (due to import or export)
// cache the ID of already exported or imported issues and events from Gitlab
if id, ok := op.GetMetadata(metaKeyGitlabId); ok {
ge.cachedOperationIDs[op.Id().String()] = id
continue
}
opAuthor := op.Author()
client, err := ge.getIdentityClient(opAuthor.Id())
if err != nil {
continue
}
var id int
var idString, url string
switch op := op.(type) {
case *bug.AddCommentOperation:
// send operation to gitlab
id, err = addCommentGitlabIssue(ctx, client, ge.repositoryID, bugGitlabID, op.Message)
if err != nil {
err := errors.Wrap(err, "adding comment")
out <- core.NewExportError(err, b.Id())
return
}
out <- core.NewExportComment(op.Id())
idString = strconv.Itoa(id)
// cache comment id
ge.cachedOperationIDs[op.Id().String()] = idString
case *bug.EditCommentOperation:
targetId := op.Target.String()
// Since gitlab doesn't consider the issue body as a comment
if targetId == bugCreationId {
// case bug creation operation: we need to edit the Gitlab issue
if err := updateGitlabIssueBody(ctx, client, ge.repositoryID, bugGitlabID, op.Message); err != nil {
err := errors.Wrap(err, "editing issue")
out <- core.NewExportError(err, b.Id())
return
}
out <- core.NewExportCommentEdition(op.Id())
id = bugGitlabID
} else {
// case comment edition operation: we need to edit the Gitlab comment
commentID, ok := ge.cachedOperationIDs[targetId]
if !ok {
out <- core.NewExportError(fmt.Errorf("unexpected error: comment id not found"), op.Target)
return
}
commentIDint, err := strconv.Atoi(commentID)
if err != nil {
out <- core.NewExportError(fmt.Errorf("unexpected comment id format"), op.Target)
return
}
if err := editCommentGitlabIssue(ctx, client, ge.repositoryID, bugGitlabID, commentIDint, op.Message); err != nil {
err := errors.Wrap(err, "editing comment")
out <- core.NewExportError(err, b.Id())
return
}
out <- core.NewExportCommentEdition(op.Id())
id = commentIDint
}
case *bug.SetStatusOperation:
if err := updateGitlabIssueStatus(ctx, client, ge.repositoryID, bugGitlabID, op.Status); err != nil {
err := errors.Wrap(err, "editing status")
out <- core.NewExportError(err, b.Id())
return
}
out <- core.NewExportStatusChange(op.Id())
id = bugGitlabID
case *bug.SetTitleOperation:
if err := updateGitlabIssueTitle(ctx, client, ge.repositoryID, bugGitlabID, op.Title); err != nil {
err := errors.Wrap(err, "editing title")
out <- core.NewExportError(err, b.Id())
return
}
out <- core.NewExportTitleEdition(op.Id())
id = bugGitlabID
case *bug.LabelChangeOperation:
// we need to set the actual list of labels at each label change operation
// because gitlab update issue requests need directly the latest list of the verison
for _, label := range op.Added {
labelSet[label.String()] = struct{}{}
}
for _, label := range op.Removed {
delete(labelSet, label.String())
}
labels := make([]string, 0, len(labelSet))
for key := range labelSet {
labels = append(labels, key)
}
if err := updateGitlabIssueLabels(ctx, client, ge.repositoryID, bugGitlabID, labels); err != nil {
err := errors.Wrap(err, "updating labels")
out <- core.NewExportError(err, b.Id())
return
}
out <- core.NewExportLabelChange(op.Id())
id = bugGitlabID
default:
panic("unhandled operation type case")
}
idString = strconv.Itoa(id)
// mark operation as exported
if err := markOperationAsExported(b, op.Id(), idString, url); err != nil {
err := errors.Wrap(err, "marking operation as exported")
out <- core.NewExportError(err, b.Id())
return
}
// commit at each operation export to avoid exporting same events multiple times
if err := b.CommitAsNeeded(); err != nil {
err := errors.Wrap(err, "bug commit")
out <- core.NewExportError(err, b.Id())
return
}
bugUpdated = true
}
if !bugUpdated {
out <- core.NewExportNothing(b.Id(), "nothing has been exported")
}
}
func markOperationAsExported(b *cache.BugCache, target entity.Id, gitlabID, gitlabURL string) error {
_, err := b.SetMetadata(
target,
map[string]string{
metaKeyGitlabId: gitlabID,
metaKeyGitlabUrl: gitlabURL,
},
)
return err
}
// create a gitlab. issue and return it ID
func createGitlabIssue(ctx context.Context, gc *gitlab.Client, repositoryID, title, body string) (int, int, string, error) {
ctx, cancel := context.WithTimeout(ctx, defaultTimeout)
defer cancel()
issue, _, err := gc.Issues.CreateIssue(
repositoryID,
&gitlab.CreateIssueOptions{
Title: &title,
Description: &body,
},
gitlab.WithContext(ctx),
)
if err != nil {
return 0, 0, "", err
}
return issue.ID, issue.IID, issue.WebURL, nil
}
// add a comment to an issue and return it ID
func addCommentGitlabIssue(ctx context.Context, gc *gitlab.Client, repositoryID string, issueID int, body string) (int, error) {
ctx, cancel := context.WithTimeout(ctx, defaultTimeout)
defer cancel()
note, _, err := gc.Notes.CreateIssueNote(
repositoryID, issueID,
&gitlab.CreateIssueNoteOptions{
Body: &body,
},
gitlab.WithContext(ctx),
)
if err != nil {
return 0, err
}
return note.ID, nil
}
func editCommentGitlabIssue(ctx context.Context, gc *gitlab.Client, repositoryID string, issueID, noteID int, body string) error {
ctx, cancel := context.WithTimeout(ctx, defaultTimeout)
defer cancel()
_, _, err := gc.Notes.UpdateIssueNote(
repositoryID, issueID, noteID,
&gitlab.UpdateIssueNoteOptions{
Body: &body,
},
gitlab.WithContext(ctx),
)
return err
}
func updateGitlabIssueStatus(ctx context.Context, gc *gitlab.Client, repositoryID string, issueID int, status bug.Status) error {
var state string
switch status {
case bug.OpenStatus:
state = "reopen"
case bug.ClosedStatus:
state = "close"
default:
panic("unknown bug state")
}
ctx, cancel := context.WithTimeout(ctx, defaultTimeout)
defer cancel()
_, _, err := gc.Issues.UpdateIssue(
repositoryID, issueID,
&gitlab.UpdateIssueOptions{
StateEvent: &state,
},
gitlab.WithContext(ctx),
)
return err
}
func updateGitlabIssueBody(ctx context.Context, gc *gitlab.Client, repositoryID string, issueID int, body string) error {
ctx, cancel := context.WithTimeout(ctx, defaultTimeout)
defer cancel()
_, _, err := gc.Issues.UpdateIssue(
repositoryID, issueID,
&gitlab.UpdateIssueOptions{
Description: &body,
},
gitlab.WithContext(ctx),
)
return err
}
func updateGitlabIssueTitle(ctx context.Context, gc *gitlab.Client, repositoryID string, issueID int, title string) error {
ctx, cancel := context.WithTimeout(ctx, defaultTimeout)
defer cancel()
_, _, err := gc.Issues.UpdateIssue(
repositoryID, issueID,
&gitlab.UpdateIssueOptions{
Title: &title,
},
gitlab.WithContext(ctx),
)
return err
}
// update gitlab. issue labels
func updateGitlabIssueLabels(ctx context.Context, gc *gitlab.Client, repositoryID string, issueID int, labels []string) error {
ctx, cancel := context.WithTimeout(ctx, defaultTimeout)
defer cancel()
gitlabLabels := gitlab.Labels(labels)
_, _, err := gc.Issues.UpdateIssue(
repositoryID, issueID,
&gitlab.UpdateIssueOptions{
Labels: &gitlabLabels,
},
gitlab.WithContext(ctx),
)
return err
}