package jira import ( "context" "encoding/json" "fmt" "net/http" "time" "github.com/pkg/errors" "github.com/MichaelMure/git-bug/bridge/core" "github.com/MichaelMure/git-bug/bug" "github.com/MichaelMure/git-bug/cache" "github.com/MichaelMure/git-bug/entity" ) // jiraExporter implement the Exporter interface type jiraExporter struct { conf core.Configuration // cache identities clients identityClient map[entity.Id]*Client // cache identifiers used to speed up exporting operations // cleared for each bug cachedOperationIDs map[entity.Id]string // cache labels used to speed up exporting labels events cachedLabels map[string]string // store JIRA project information project *Project } // Init . func (self *jiraExporter) Init(conf core.Configuration) error { self.conf = conf //TODO: initialize with multiple tokens self.identityClient = make(map[entity.Id]*Client) self.cachedOperationIDs = make(map[entity.Id]string) self.cachedLabels = make(map[string]string) return nil } // getIdentityClient return an API client configured with the credentials // of the given identity. If no client were found it will initialize it from // the known credentials map and cache it for next use func (self *jiraExporter) getIdentityClient( ctx *context.Context, id entity.Id) (*Client, error) { client, ok := self.identityClient[id] if ok { return client, nil } // TODO(josh)[]: The github exporter appears to contain code that will // allow it to export bugs owned by other people as long as we have a token // for that identity. I guess the equivalent for us will be as long as we // have a credentials pair for that identity. return nil, fmt.Errorf("Not implemented") } // ExportAll export all event made by the current user to Jira func (self *jiraExporter) ExportAll( ctx context.Context, repo *cache.RepoCache, since time.Time) ( <-chan core.ExportResult, error) { out := make(chan core.ExportResult) user, err := repo.GetUserIdentity() if err != nil { return nil, err } // TODO(josh)[]: The github exporter appears to contain code that will // allow it to export bugs owned by other people as long as we have a token // for that identity. I guess the equivalent for us will be as long as we // have a credentials pair for that identity. client := NewClient(self.conf[keyServer], &ctx) err = client.Login(self.conf) self.identityClient[user.Id()] = client if err != nil { return nil, err } client, err = self.getIdentityClient(&ctx, user.Id()) if err != nil { return nil, err } self.project, err = client.GetProject(self.conf[keyProject]) if err != nil { return nil, err } go func() { defer close(out) var allIdentitiesIds []entity.Id for id := range self.identityClient { allIdentitiesIds = append(allIdentitiesIds, id) } allBugsIds := repo.AllBugsIds() for _, id := range allBugsIds { b, err := repo.ResolveBug(id) if err != nil { out <- core.NewExportError(errors.Wrap(err, "can't load bug"), id) return } select { case <-ctx.Done(): // stop iterating if context cancel function is called return default: snapshot := b.Snapshot() // ignore issues whose last modification date is before the query date // TODO: compare the Lamport time instead of using the unix time if snapshot.CreatedAt.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 self.exportBug(ctx, b, since, out) } else { out <- core.NewExportNothing(id, "not an actor") } } } }() return out, nil } // exportBug publish bugs and related events func (self *jiraExporter) exportBug( ctx context.Context, b *cache.BugCache, since time.Time, out chan<- core.ExportResult) { snapshot := b.Snapshot() var bugJiraID string // Special case: // if a user try to export a bug that is not already exported to jira (or // imported from jira) and we do not have the token of the bug author, // there is nothing we can do. // first operation is always createOp createOp := snapshot.Operations[0].(*bug.CreateOperation) author := snapshot.Author // skip bug if it was imported from some other bug system origin, ok := snapshot.GetCreateMetadata(keyOrigin) if ok && origin != target { out <- core.NewExportNothing( b.Id(), fmt.Sprintf("issue tagged with origin: %s", origin)) return } // skip bug if it is a jira bug but is associated with another project // (one bridge per JIRA project) project, ok := snapshot.GetCreateMetadata(keyJiraProject) if ok && !stringInSlice(project, []string{self.project.ID, self.project.Key}) { out <- core.NewExportNothing( b.Id(), fmt.Sprintf("issue tagged with project: %s", project)) return } // get jira bug ID jiraID, ok := snapshot.GetCreateMetadata(keyJiraID) if ok { out <- core.NewExportNothing(b.Id(), "bug creation already exported") // will be used to mark operation related to a bug as exported bugJiraID = jiraID } else { // check that we have credentials for operation author client, err := self.getIdentityClient(&ctx, author.Id()) if err != nil { // if bug is not yet exported and we do not have the author's credentials // then there is nothing we can do, so just skip this bug out <- core.NewExportNothing( b.Id(), fmt.Sprintf("missing author token for user %.8s", author.Id().String())) return } // Load any custom fields required to create an issue from the git // config file. fields := make(map[string]interface{}) defaultFields, hasConf := self.conf[keyCreateDefaults] if hasConf { err = json.Unmarshal([]byte(defaultFields), &fields) if err != nil { panic("Invalid JSON in config") } } else { // If there is no configuration provided, at the very least the // "issueType" field is always required. 10001 is "story" which I'm // pretty sure is standard/default on all JIRA instances. fields["issueType"] = "10001" } bugIDField, hasConf := self.conf[keyCreateGitBug] if hasConf { // If the git configuration also indicates it, we can assign the git-bug // id to a custom field to assist in integrations fields[bugIDField] = b.Id().String() } // create bug result, err := client.CreateIssue( self.project.ID, createOp.Title, createOp.Message, fields) if err != nil { err := errors.Wrap(err, "exporting jira issue") out <- core.NewExportError(err, b.Id()) return } id := result.ID out <- core.NewExportBug(b.Id()) // mark bug creation operation as exported err = markOperationAsExported( b, createOp.Id(), id, self.project.Key, time.Time{}) 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 err = b.CommitAsNeeded() if err != nil { err := errors.Wrap(err, "bug commit") out <- core.NewExportError(err, b.Id()) return } // cache bug jira ID bugJiraID = id } // cache operation jira id self.cachedOperationIDs[createOp.Id()] = bugJiraID // lookup the mapping from git-bug "status" to JIRA "status" id statusMap := getStatusMap(self.conf) for _, op := range snapshot.Operations[1:] { // ignore SetMetadata operations if _, ok := op.(*bug.SetMetadataOperation); ok { continue } // ignore operations already existing in jira (due to import or export) // cache the ID of already exported or imported issues and events from // Jira if id, ok := op.GetMetadata(keyJiraID); ok { self.cachedOperationIDs[op.Id()] = id out <- core.NewExportNothing(op.Id(), "already exported operation") continue } opAuthor := op.GetAuthor() client, err := self.getIdentityClient(&ctx, opAuthor.Id()) if err != nil { out <- core.NewExportNothing( op.Id(), fmt.Sprintf( "missing operation author credentials for user %.8s", author.Id().String())) continue } var id string var exportTime time.Time switch opr := op.(type) { case *bug.AddCommentOperation: comment, err := client.AddComment(bugJiraID, opr.Message) if err != nil { err := errors.Wrap(err, "adding comment") out <- core.NewExportError(err, b.Id()) return } id = comment.ID out <- core.NewExportComment(op.Id()) // cache comment id self.cachedOperationIDs[op.Id()] = id case *bug.EditCommentOperation: if opr.Target == createOp.Id() { // An EditCommentOpreation with the Target set to the create operation // encodes a modification to the long-description/summary. exportTime, err = client.UpdateIssueBody(bugJiraID, opr.Message) if err != nil { err := errors.Wrap(err, "editing issue") out <- core.NewExportError(err, b.Id()) return } out <- core.NewExportCommentEdition(op.Id()) id = bugJiraID } else { // Otherwise it's an edit to an actual comment. A comment cannot be // edited before it was created, so it must be the case that we have // already observed and cached the AddCommentOperation. commentID, ok := self.cachedOperationIDs[opr.Target] if !ok { // Since an edit has to come after the creation, we expect we would // have cached the creation id. panic("unexpected error: comment id not found") } comment, err := client.UpdateComment(bugJiraID, commentID, opr.Message) if err != nil { err := errors.Wrap(err, "editing comment") out <- core.NewExportError(err, b.Id()) return } out <- core.NewExportCommentEdition(op.Id()) // JIRA doesn't track all comment edits, they will only tell us about // the most recent one. We must invent a consistent id for the operation // so we use the comment ID plus the timestamp of the update, as // reported by JIRA. Note that this must be consistent with the importer // during ensureComment() id = fmt.Sprintf("%s-%d", comment.ID, comment.Updated.Unix()) } case *bug.SetStatusOperation: jiraStatus, hasStatus := statusMap[opr.Status.String()] if hasStatus { exportTime, err = UpdateIssueStatus(client, bugJiraID, jiraStatus) if err != nil { err := errors.Wrap(err, "editing status") out <- core.NewExportError(err, b.Id()) // Failure to update status isn't necessarily a big error. It's // possible that we just don't have enough information to make that // update. In this case, just don't export the operation. continue } out <- core.NewExportStatusChange(op.Id()) // TODO(josh)[c2c6767]: query changelog to get the changelog-id so that // we don't re-import the same change. id = bugJiraID } else { out <- core.NewExportNothing( op.Id(), fmt.Sprintf( "No jira status mapped for %.8s", opr.Status.String())) } case *bug.SetTitleOperation: exportTime, err = client.UpdateIssueTitle(bugJiraID, opr.Title) if err != nil { err := errors.Wrap(err, "editing title") out <- core.NewExportError(err, b.Id()) return } out <- core.NewExportTitleEdition(op.Id()) // TODO(josh)[c2c6767]: query changelog to get the changelog-id so that // we don't re-import the same change. id = bugJiraID case *bug.LabelChangeOperation: exportTime, err = client.UpdateLabels( bugJiraID, opr.Added, opr.Removed) if err != nil { err := errors.Wrap(err, "updating labels") out <- core.NewExportError(err, b.Id()) return } out <- core.NewExportLabelChange(op.Id()) // TODO(josh)[c2c6767]: query changelog to get the changelog-id so that // we don't re-import the same change. id = bugJiraID default: panic("unhandled operation type case") } // mark operation as exported // TODO(josh)[c2c6767]: Should we query the changelog after we export? // Some of the operations above don't record an ID... so we are bound to // re-import them. It shouldn't cause too much of an issue but we will have // duplicate edit entries for everything and it would be nice to avoid that. err = markOperationAsExported( b, op.Id(), id, self.project.Key, exportTime) if 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 err = b.CommitAsNeeded() if err != nil { err := errors.Wrap(err, "bug commit") out <- core.NewExportError(err, b.Id()) return } } } func markOperationAsExported( b *cache.BugCache, target entity.Id, jiraID, jiraProject string, exportTime time.Time) error { newMetadata := map[string]string{ keyJiraID: jiraID, keyJiraProject: jiraProject, } if !exportTime.IsZero() { newMetadata[keyJiraExportTime] = exportTime.Format(http.TimeFormat) } _, err := b.SetMetadata(target, newMetadata) return err } // UpdateIssueStatus attempts to change the "status" field by finding a // transition which achieves the desired state and then performing that // transition func UpdateIssueStatus( client *Client, issueKeyOrID string, desiredStateNameOrID string) ( time.Time, error) { var responseTime time.Time tlist, err := client.GetTransitions(issueKeyOrID) if err != nil { return responseTime, err } transition := getTransitionTo(tlist, desiredStateNameOrID) if transition == nil { return responseTime, errTransitionNotFound } responseTime, err = client.DoTransition(issueKeyOrID, transition.ID) if err != nil { return responseTime, err } return responseTime, nil }