package jira import ( "context" "encoding/json" "fmt" "net/http" "sort" "strings" "time" "github.com/MichaelMure/git-bug/bridge/core" "github.com/MichaelMure/git-bug/bridge/core/auth" "github.com/MichaelMure/git-bug/cache" "github.com/MichaelMure/git-bug/entities/bug" "github.com/MichaelMure/git-bug/entities/common" "github.com/MichaelMure/git-bug/entity" "github.com/MichaelMure/git-bug/entity/dag" "github.com/MichaelMure/git-bug/util/text" ) const ( defaultPageSize = 10 ) // jiraImporter implement the Importer interface type jiraImporter struct { conf core.Configuration client *Client // send only channel out chan<- core.ImportResult } // Init . func (ji *jiraImporter) Init(ctx context.Context, repo *cache.RepoCache, conf core.Configuration) error { ji.conf = conf var cred auth.Credential // Prioritize LoginPassword credentials to avoid a prompt creds, err := auth.List(repo, auth.WithTarget(target), auth.WithKind(auth.KindLoginPassword), auth.WithMeta(auth.MetaKeyBaseURL, conf[confKeyBaseUrl]), auth.WithMeta(auth.MetaKeyLogin, conf[confKeyDefaultLogin]), ) if err != nil { return err } if len(creds) > 0 { cred = creds[0] goto end } creds, err = auth.List(repo, auth.WithTarget(target), auth.WithKind(auth.KindLogin), auth.WithMeta(auth.MetaKeyBaseURL, conf[confKeyBaseUrl]), auth.WithMeta(auth.MetaKeyLogin, conf[confKeyDefaultLogin]), ) if err != nil { return err } if len(creds) > 0 { cred = creds[0] } end: if cred == nil { return fmt.Errorf("no credential for this bridge") } // TODO(josh)[da52062]: Validate token and if it is expired then prompt for // credentials and generate a new one ji.client, err = buildClient(ctx, conf[confKeyBaseUrl], conf[confKeyCredentialType], cred) return err } // ImportAll iterate over all the configured repository issues and ensure the // creation of the missing issues / timeline items / edits / label events ... func (ji *jiraImporter) ImportAll(ctx context.Context, repo *cache.RepoCache, since time.Time) (<-chan core.ImportResult, error) { sinceStr := since.Format("2006-01-02 15:04") project := ji.conf[confKeyProject] out := make(chan core.ImportResult) ji.out = out go func() { defer close(ji.out) message, err := ji.client.Search( fmt.Sprintf("project=%s AND updatedDate>\"%s\"", project, sinceStr), 0, 0) if err != nil { out <- core.NewImportError(err, "") return } fmt.Printf("So far so good. Have %d issues to import\n", message.Total) jql := fmt.Sprintf("project=%s AND updatedDate>\"%s\"", project, sinceStr) var searchIter *SearchIterator for searchIter = ji.client.IterSearch(jql, defaultPageSize); searchIter.HasNext(); { issue := searchIter.Next() b, err := ji.ensureIssue(repo, *issue) if err != nil { err := fmt.Errorf("issue creation: %v", err) out <- core.NewImportError(err, "") return } var commentIter *CommentIterator for commentIter = ji.client.IterComments(issue.ID, defaultPageSize); commentIter.HasNext(); { comment := commentIter.Next() err := ji.ensureComment(repo, b, *comment) if err != nil { out <- core.NewImportError(err, "") } } if commentIter.HasError() { out <- core.NewImportError(commentIter.Err, "") } snapshot := b.Snapshot() opIdx := 0 var changelogIter *ChangeLogIterator for changelogIter = ji.client.IterChangeLog(issue.ID, defaultPageSize); changelogIter.HasNext(); { changelogEntry := changelogIter.Next() // Advance the operation iterator up to the first operation which has // an export date not before the changelog entry date. If the changelog // entry was created in response to an exported operation, then this // will be that operation. var exportTime time.Time for ; opIdx < len(snapshot.Operations); opIdx++ { exportTimeStr, hasTime := snapshot.Operations[opIdx].GetMetadata( metaKeyJiraExportTime) if !hasTime { continue } exportTime, err = http.ParseTime(exportTimeStr) if err != nil { continue } if !exportTime.Before(changelogEntry.Created.Time) { break } } if opIdx < len(snapshot.Operations) { err = ji.ensureChange(repo, b, *changelogEntry, snapshot.Operations[opIdx]) } else { err = ji.ensureChange(repo, b, *changelogEntry, nil) } if err != nil { out <- core.NewImportError(err, "") } } if changelogIter.HasError() { out <- core.NewImportError(changelogIter.Err, "") } if !b.NeedCommit() { out <- core.NewImportNothing(b.Id(), "no imported operation") } else if err := b.Commit(); err != nil { err = fmt.Errorf("bug commit: %v", err) out <- core.NewImportError(err, "") return } } if searchIter.HasError() { out <- core.NewImportError(searchIter.Err, "") } }() return out, nil } // Create a bug.Person from a JIRA user func (ji *jiraImporter) ensurePerson(repo *cache.RepoCache, user User) (*cache.IdentityCache, error) { // Look first in the cache i, err := repo.ResolveIdentityImmutableMetadata( metaKeyJiraUser, string(user.Key)) if err == nil { return i, nil } if _, ok := err.(entity.ErrMultipleMatch); ok { return nil, err } i, err = repo.NewIdentityRaw( user.DisplayName, user.EmailAddress, user.Key, "", nil, map[string]string{ metaKeyJiraUser: user.Key, }, ) if err != nil { return nil, err } ji.out <- core.NewImportIdentity(i.Id()) return i, nil } // Create a bug.Bug based from a JIRA issue func (ji *jiraImporter) ensureIssue(repo *cache.RepoCache, issue Issue) (*cache.BugCache, error) { author, err := ji.ensurePerson(repo, issue.Fields.Creator) if err != nil { return nil, err } b, err := repo.ResolveBugMatcher(func(excerpt *cache.BugExcerpt) bool { if _, ok := excerpt.CreateMetadata[metaKeyJiraBaseUrl]; ok && excerpt.CreateMetadata[metaKeyJiraBaseUrl] != ji.conf[confKeyBaseUrl] { return false } return excerpt.CreateMetadata[core.MetaKeyOrigin] == target && excerpt.CreateMetadata[metaKeyJiraId] == issue.ID && excerpt.CreateMetadata[metaKeyJiraProject] == ji.conf[confKeyProject] }) if err != nil && err != bug.ErrBugNotExist { return nil, err } if err == bug.ErrBugNotExist { b, _, err = repo.NewBugRaw( author, issue.Fields.Created.Unix(), text.CleanupOneLine(issue.Fields.Summary), text.Cleanup(issue.Fields.Description), nil, map[string]string{ core.MetaKeyOrigin: target, metaKeyJiraId: issue.ID, metaKeyJiraKey: issue.Key, metaKeyJiraProject: ji.conf[confKeyProject], metaKeyJiraBaseUrl: ji.conf[confKeyBaseUrl], }) if err != nil { return nil, err } ji.out <- core.NewImportBug(b.Id()) } return b, nil } // Return a unique string derived from a unique jira id and a timestamp func getTimeDerivedID(jiraID string, timestamp Time) string { return fmt.Sprintf("%s-%d", jiraID, timestamp.Unix()) } // Create a bug.Comment from a JIRA comment func (ji *jiraImporter) ensureComment(repo *cache.RepoCache, b *cache.BugCache, item Comment) error { // ensure person author, err := ji.ensurePerson(repo, item.Author) if err != nil { return err } targetOpID, err := b.ResolveOperationWithMetadata(metaKeyJiraId, item.ID) if err != nil && err != cache.ErrNoMatchingOp { return err } // If the comment is a new comment then create it if targetOpID == "" && err == cache.ErrNoMatchingOp { var cleanText string if item.Updated != item.Created { // We don't know the original text... we only have the updated text. cleanText = "" } else { cleanText = text.Cleanup(item.Body) } // add comment operation op, err := b.AddCommentRaw( author, item.Created.Unix(), cleanText, nil, map[string]string{ metaKeyJiraId: item.ID, }, ) if err != nil { return err } ji.out <- core.NewImportComment(op.Id()) targetOpID = op.Id() } // If there are no updates to this comment, then we are done if item.Updated == item.Created { return nil } // If there has been an update to this comment, we try to find it in the // database. We need a unique id so we'll concat the issue id with the update // timestamp. Note that this must be consistent with the exporter during // export of an EditCommentOperation derivedID := getTimeDerivedID(item.ID, item.Updated) _, err = b.ResolveOperationWithMetadata(metaKeyJiraId, derivedID) if err == nil { // Already imported this edition return nil } if err != cache.ErrNoMatchingOp { return err } // ensure editor identity editor, err := ji.ensurePerson(repo, item.UpdateAuthor) if err != nil { return err } // comment edition op, err := b.EditCommentRaw( editor, item.Updated.Unix(), entity.CombineIds(b.Id(), targetOpID), text.Cleanup(item.Body), map[string]string{ metaKeyJiraId: derivedID, }, ) if err != nil { return err } ji.out <- core.NewImportCommentEdition(op.Id()) return nil } // Return a unique string derived from a unique jira id and an index into the // data referred to by that jira id. func getIndexDerivedID(jiraID string, idx int) string { return fmt.Sprintf("%s-%d", jiraID, idx) } func labelSetsMatch(jiraSet []string, gitbugSet []bug.Label) bool { if len(jiraSet) != len(gitbugSet) { return false } sort.Strings(jiraSet) gitbugStrSet := make([]string, len(gitbugSet)) for idx, label := range gitbugSet { gitbugStrSet[idx] = label.String() } sort.Strings(gitbugStrSet) for idx, value := range jiraSet { if value != gitbugStrSet[idx] { return false } } return true } // Create a bug.Operation (or a series of operations) from a JIRA changelog // entry func (ji *jiraImporter) ensureChange(repo *cache.RepoCache, b *cache.BugCache, entry ChangeLogEntry, potentialOp dag.Operation) error { // If we have an operation which is already mapped to the entire changelog // entry then that means this changelog entry was induced by an export // operation and we've already done the match, so we skip this one _, err := b.ResolveOperationWithMetadata(metaKeyJiraDerivedId, entry.ID) if err == nil { return nil } else if err != cache.ErrNoMatchingOp { return err } // In general, multiple fields may be changed in changelog entry on // JIRA. For example, when an issue is closed both its "status" and its // "resolution" are updated within a single changelog entry. // I don't thing git-bug has a single operation to modify an arbitrary // number of fields in one go, so we break up the single JIRA changelog // entry into individual field updates. author, err := ji.ensurePerson(repo, entry.Author) if err != nil { return err } if len(entry.Items) < 1 { return fmt.Errorf("Received changelog entry with no item! (%s)", entry.ID) } statusMap, err := getStatusMapReverse(ji.conf) if err != nil { return err } // NOTE(josh): first do an initial scan and see if any of the changed items // matches the current potential operation. If it does, then we know that this // entire changelog entry was created in response to that git-bug operation. // So we associate the operation with the entire changelog, and not a specific // entry. for _, item := range entry.Items { switch item.Field { case "labels": fromLabels := removeEmpty(strings.Split(item.FromString, " ")) toLabels := removeEmpty(strings.Split(item.ToString, " ")) removedLabels, addedLabels, _ := setSymmetricDifference(fromLabels, toLabels) opr, isRightType := potentialOp.(*bug.LabelChangeOperation) if isRightType && labelSetsMatch(addedLabels, opr.Added) && labelSetsMatch(removedLabels, opr.Removed) { _, err := b.SetMetadata(opr.Id(), map[string]string{ metaKeyJiraDerivedId: entry.ID, }) if err != nil { return err } return nil } case "status": opr, isRightType := potentialOp.(*bug.SetStatusOperation) if isRightType && statusMap[opr.Status.String()] == item.To { _, err := b.SetMetadata(opr.Id(), map[string]string{ metaKeyJiraDerivedId: entry.ID, }) if err != nil { return err } return nil } case "summary": // NOTE(josh): JIRA calls it "summary", which sounds more like the body // text, but it's the title opr, isRightType := potentialOp.(*bug.SetTitleOperation) if isRightType && opr.Title == item.To { _, err := b.SetMetadata(opr.Id(), map[string]string{ metaKeyJiraDerivedId: entry.ID, }) if err != nil { return err } return nil } case "description": // NOTE(josh): JIRA calls it "description", which sounds more like the // title but it's actually the body opr, isRightType := potentialOp.(*bug.EditCommentOperation) if isRightType && opr.Target == b.Snapshot().Operations[0].Id() && opr.Message == item.ToString { _, err := b.SetMetadata(opr.Id(), map[string]string{ metaKeyJiraDerivedId: entry.ID, }) if err != nil { return err } return nil } } } // Since we didn't match the changelog entry to a known export operation, // then this is a changelog entry that we should import. We import each // changelog entry item as a separate git-bug operation. for idx, item := range entry.Items { derivedID := getIndexDerivedID(entry.ID, idx) _, err := b.ResolveOperationWithMetadata(metaKeyJiraDerivedId, derivedID) if err == nil { continue } if err != cache.ErrNoMatchingOp { return err } switch item.Field { case "labels": fromLabels := removeEmpty(strings.Split(item.FromString, " ")) toLabels := removeEmpty(strings.Split(item.ToString, " ")) removedLabels, addedLabels, _ := setSymmetricDifference(fromLabels, toLabels) op, err := b.ForceChangeLabelsRaw( author, entry.Created.Unix(), text.CleanupOneLineArray(addedLabels), text.CleanupOneLineArray(removedLabels), map[string]string{ metaKeyJiraId: entry.ID, metaKeyJiraDerivedId: derivedID, }, ) if err != nil { return err } ji.out <- core.NewImportLabelChange(op.Id()) case "status": statusStr, hasMap := statusMap[item.To] if hasMap { switch statusStr { case common.OpenStatus.String(): op, err := b.OpenRaw( author, entry.Created.Unix(), map[string]string{ metaKeyJiraId: entry.ID, metaKeyJiraDerivedId: derivedID, }, ) if err != nil { return err } ji.out <- core.NewImportStatusChange(op.Id()) case common.ClosedStatus.String(): op, err := b.CloseRaw( author, entry.Created.Unix(), map[string]string{ metaKeyJiraId: entry.ID, metaKeyJiraDerivedId: derivedID, }, ) if err != nil { return err } ji.out <- core.NewImportStatusChange(op.Id()) } } else { ji.out <- core.NewImportError( fmt.Errorf( "No git-bug status mapped for jira status %s (%s)", item.ToString, item.To), "") } case "summary": // NOTE(josh): JIRA calls it "summary", which sounds more like the body // text, but it's the title op, err := b.SetTitleRaw( author, entry.Created.Unix(), text.CleanupOneLine(item.ToString), map[string]string{ metaKeyJiraId: entry.ID, metaKeyJiraDerivedId: derivedID, }, ) if err != nil { return err } ji.out <- core.NewImportTitleEdition(op.Id()) case "description": // NOTE(josh): JIRA calls it "description", which sounds more like the // title but it's actually the body op, err := b.EditCreateCommentRaw( author, entry.Created.Unix(), text.Cleanup(item.ToString), map[string]string{ metaKeyJiraId: entry.ID, metaKeyJiraDerivedId: derivedID, }, ) if err != nil { return err } ji.out <- core.NewImportCommentEdition(op.Id()) default: ji.out <- core.NewImportWarning( fmt.Errorf( "Unhandled changelog event %s", item.Field), "") } // Other Examples: // "assignee" (jira) // "Attachment" (jira) // "Epic Link" (custom) // "Rank" (custom) // "resolution" (jira) // "Sprint" (custom) } return nil } func getStatusMap(conf core.Configuration) (map[string]string, error) { mapStr, hasConf := conf[confKeyIDMap] if !hasConf { return map[string]string{ common.OpenStatus.String(): "1", common.ClosedStatus.String(): "6", }, nil } statusMap := make(map[string]string) err := json.Unmarshal([]byte(mapStr), &statusMap) return statusMap, err } func getStatusMapReverse(conf core.Configuration) (map[string]string, error) { fwdMap, err := getStatusMap(conf) if err != nil { return fwdMap, err } outMap := map[string]string{} for key, val := range fwdMap { outMap[val] = key } mapStr, hasConf := conf[confKeyIDRevMap] if !hasConf { return outMap, nil } revMap := make(map[string]string) err = json.Unmarshal([]byte(mapStr), &revMap) for key, val := range revMap { outMap[key] = val } return outMap, err } func removeEmpty(values []string) []string { output := make([]string, 0, len(values)) for _, value := range values { value = strings.TrimSpace(value) if value != "" { output = append(output, value) } } return output }