func linkCommitsToReviewIssue(
config *moduleConfig,
owner string,
repo string,
issueNum int,
commits []*git.Commit,
) {
// Instantiate an API client.
client := ghutil.NewClient(config.Token)
// Loop over the commits and post a commit comment for each of them.
for _, commit := range commits {
task := fmt.Sprintf("Link commit %v to the associated review issue", commit.SHA)
log.Run(task)
body := fmt.Sprintf(
"This commit is being reviewed as a part of review issue #%v.", issueNum)
comment := &github.RepositoryComment{
Body: &body,
}
_, _, err := client.Repositories.CreateComment(owner, repo, commit.SHA, comment)
if err != nil {
// Just print the error to the console.
errs.LogError(task, err)
}
}
}
func tryToStageRunningRelease() {
stagingTask := "Try to stage the next release for acceptance"
log.Run(stagingTask)
_, err := commands.Stage(&commands.StageOptions{
SkipFetch: true,
})
if err != nil {
// Not terribly pretty, but it works. We just handle the known errors and continue.
// It is ok when the release branch does not exist yet or the release cannot be staged
// in the issue tracker.
rootCause := errs.RootCause(err)
if ex, ok := rootCause.(*git.ErrRefNotFound); ok {
log.Log(fmt.Sprintf("Git reference '%v' not found, not staging any release", ex.Ref))
} else if rootCause == common.ErrNotStageable {
log.Log("The next release cannot be staged yet, staging canceled")
} else {
errs.LogError(stagingTask, err)
log.Log("Failed to stage the next release, continuing anyway ...")
}
}
}
func rewriteCommits(commits []*git.Commit, firstMissingOffset int) ([]*git.Commit, error) {
// Fetch the stories in progress from the issue tracker.
storiesTask := "Missing Story-Id detected, fetch stories from the issue tracker"
log.Run(storiesTask)
tracker, err := modules.GetIssueTracker()
if err != nil {
return nil, errs.NewError(storiesTask, err)
}
task := "Fetch the user record from the issue tracker"
me, err := tracker.CurrentUser()
if err != nil {
return nil, errs.NewError(task, err)
}
stories, err := tracker.ReviewableStories()
if err != nil {
return nil, errs.NewError(storiesTask, err)
}
reviewedStories, err := tracker.ReviewedStories()
if err != nil {
return nil, errs.NewError(storiesTask, err)
}
// Show only the stories owned by the current user.
// Note: Go sucks here, badly.
filterStories := func(stories []common.Story, filter func(common.Story) bool) []common.Story {
ss := make([]common.Story, 0, len(stories))
for _, story := range stories {
if filter(story) {
ss = append(ss, story)
}
}
return ss
}
mine := func(story common.Story) bool {
for _, assignee := range story.Assignees() {
if assignee.Id() == me.Id() {
return true
}
}
return false
}
stories = filterStories(stories, mine)
reviewedStories = filterStories(reviewedStories, mine)
// Tell the user what is happening.
log.Run("Prepare a temporary branch to rewrite commit messages")
// Get the current branch name.
currentBranch, err := gitutil.CurrentBranch()
if err != nil {
return nil, err
}
// Get the parent of the first commit in the chain.
task = "Get the parent commit of the commit chain to be posted"
var parentSHA string
if firstMissingOffset != 0 {
// In case there are multiple commits being posted
// and the first missing offset is not pointing to the first commit,
// we can easily get the parent SHA by just accessing the commit list.
parentSHA = commits[firstMissingOffset-1].SHA
} else {
// Otherwise we have to ask git for help.
stdout, err := git.Log("--pretty=%P", "-n", "1", commits[firstMissingOffset].SHA)
if err != nil {
return nil, errs.NewError(task, err)
}
parentSHA = strings.Fields(stdout.String())[0]
}
// Prepare a temporary branch that will be used to amend commit messages.
task = "Create a temporary branch to rewrite commit messages"
if err := git.SetBranch(constants.TempBranchName, parentSHA); err != nil {
return nil, errs.NewError(task, err)
}
defer func() {
// Delete the temporary branch on exit.
task := "Delete the temporary branch"
if err := git.Branch("-D", constants.TempBranchName); err != nil {
errs.LogError(task, err)
}
}()
// Checkout the temporary branch.
task = "Checkout the temporary branch"
if err := git.Checkout(constants.TempBranchName); err != nil {
return nil, errs.NewError(task, err)
}
defer func() {
// Checkout the original branch on exit.
task := fmt.Sprintf("Checkout branch '%v'", currentBranch)
if err := git.Checkout(currentBranch); err != nil {
errs.LogError(task, err)
}
}()
// Loop and rewrite the commit messages.
var story common.Story
if flagAskOnce {
header := `
Some of the commits listed above are not assigned to any story.
Please pick up the story that these commits will be assigned to.
You can also insert 'u' to mark the commits as unassigned:`
selectedStory, err := promptForStory(header, stories, reviewedStories)
if err != nil {
return nil, err
}
story = selectedStory
}
// The temp branch is pointing to the parent of the first commit missing
// the Story-Id tag. So we only need to cherry-pick the commits that
// follow the first commit missing the Story-Id tag.
commitsToCherryPick := commits[firstMissingOffset:]
for _, commit := range commitsToCherryPick {
// Cherry-pick the commit.
task := fmt.Sprintf("Move commit %v onto the temporary branch", commit.SHA)
if err := git.CherryPick(commit.SHA); err != nil {
return nil, errs.NewError(task, err)
}
if commit.StoryIdTag == "" {
if !flagAskOnce {
commitMessageTitle := prompt.ShortenCommitTitle(commit.MessageTitle)
// Ask for the story ID for the current commit.
header := fmt.Sprintf(`
The following commit is not assigned to any story:
commit hash: %v
commit title: %v
Please pick up the story to assign the commit to.
Inserting 'u' will mark the commit as unassigned:`, commit.SHA, commitMessageTitle)
selectedStory, err := promptForStory(header, stories, reviewedStories)
if err != nil {
return nil, err
}
story = selectedStory
}
// Use the unassigned tag value in case no story is selected.
storyTag := git.StoryIdUnassignedTagValue
if story != nil {
storyTag = story.Tag()
}
// Extend the commit message to include Story-Id.
commitMessage := fmt.Sprintf("%v\nStory-Id: %v\n", commit.Message, storyTag)
// Amend the cherry-picked commit to include the new commit message.
task = "Amend the commit message for " + commit.SHA
stderr := new(bytes.Buffer)
cmd := exec.Command("git", "commit", "--amend", "-F", "-")
cmd.Stdin = bytes.NewBufferString(commitMessage)
cmd.Stderr = stderr
if err := cmd.Run(); err != nil {
return nil, errs.NewErrorWithHint(task, err, stderr.String())
}
}
}
// Reset the current branch to point to the new branch.
task = "Reset the current branch to point to the temporary branch"
if err := git.SetBranch(currentBranch, constants.TempBranchName); err != nil {
return nil, errs.NewError(task, err)
}
// Parse the commits again since the commit hashes have changed.
newCommits, err := git.ShowCommitRange(parentSHA + "..")
if err != nil {
return nil, err
}
log.NewLine("")
log.Log("Commit messages amended successfully")
// And we are done!
return newCommits, nil
}
func runMain() error {
// Load config.
config, err := git.LoadConfig()
if err != nil {
return err
}
var (
remoteName = config.RemoteName
trunkName = config.TrunkBranchName
)
// Make sure trunk is up to date.
task := fmt.Sprintf("Make sure branch '%v' is up to date", trunkName)
log.Run(task)
if err := git.CheckOrCreateTrackingBranch(trunkName, remoteName); err != nil {
return errs.NewError(task, err)
}
// Collect the story branches.
task = "Collect the story branches"
log.Run(task)
storyBranches, err := collectStoryBranches(remoteName)
if err != nil {
return errs.NewError(task, err)
}
// Split the branches that are not up to date.
task = "Split the branches that are not up to date"
log.Run(task)
storyBranches, err = splitBranchesNotInSync(storyBranches)
if err != nil {
return errs.NewError(task, err)
}
// Filter branches according to the story state.
task = "Filter branches according to the story state"
log.Run(task)
filteredBranches, err := filterBranches(storyBranches, trunkName)
if err != nil {
return errs.NewError(task, err)
}
if len(storyBranches) == 0 {
log.Log("No branches left to be deleted")
return nil
}
// Prompt the user to choose what branches to delete.
task = "Prompt the user to choose what branches to delete"
localToDelete, remoteToDelete, err := promptUserToChooseBranches(filteredBranches)
if err != nil {
return errs.NewError(task, err)
}
// Delete chosen local branches.
if len(localToDelete) != 0 {
task := "Delete chosen local branches"
log.Run(task)
args := make([]string, 1, 1+len(localToDelete))
args[0] = "-D"
args = append(args, localToDelete...)
if ex := git.Branch(args...); ex != nil {
errs.LogError(task, ex)
err = errors.New("failed to delete local branches")
}
}
// Delete chosen remote branches.
if len(remoteToDelete) != 0 {
task := "Delete chosen remote branches"
log.Run(task)
args := make([]string, 1, 1+len(remoteToDelete))
args[0] = "--delete"
args = append(args, remoteToDelete...)
if ex := git.Push(remoteName, args...); ex != nil {
errs.LogError(task, ex)
err = errors.New("failed to delete remote branches")
}
}
return err
}
func SetForBranch(ver *Version, branch string) (act action.Action, err error) {
var mainTask = fmt.Sprintf("Bump version to %v for branch '%v'", ver, branch)
// Make sure the repository is clean (don't check untracked files).
task := "Make sure the repository is clean"
if err := git.EnsureCleanWorkingTree(false); err != nil {
return nil, errs.NewError(task, err)
}
// Remember the current branch.
currentBranch, err := git.CurrentBranch()
if err != nil {
return nil, err
}
// Remember the current position of the target branch.
task = fmt.Sprintf("Remember the position of branch '%v'", branch)
originalPosition, err := git.Hexsha("refs/heads/" + branch)
if err != nil {
return nil, errs.NewError(task, err)
}
// Checkout the target branch.
task = fmt.Sprintf("Checkout branch '%v'", branch)
if err := git.Checkout(branch); err != nil {
return nil, errs.NewError(task, err)
}
defer func() {
// Checkout the original branch on return.
task := fmt.Sprintf("Checkout branch '%v'", currentBranch)
if ex := git.Checkout(currentBranch); ex != nil {
if err == nil {
err = ex
} else {
errs.LogError(task, ex)
}
}
}()
// Set the project version to the desired value.
if err := Set(ver); err != nil {
if ex, ok := err.(*scripts.ErrNotFound); ok {
return nil, fmt.Errorf(
"custom SalsaFlow script '%v' not found on branch '%v'", ex.ScriptName(), branch)
}
return nil, err
}
// Commit changes.
_, err = git.RunCommand("commit", "-a",
"-m", fmt.Sprintf("Bump version to %v", ver),
"-m", fmt.Sprintf("Story-Id: %v", git.StoryIdUnassignedTagValue))
if err != nil {
task := "Reset the working tree to the original state"
if err := git.Reset("--keep"); err != nil {
errs.LogError(task, err)
}
return nil, err
}
return action.ActionFunc(func() (err error) {
// On rollback, reset the target branch to the original position.
log.Rollback(mainTask)
return git.ResetKeep(branch, originalPosition)
}), nil
}
func runMain() error {
// Load git-related config.
gitConfig, err := git.LoadConfig()
if err != nil {
return err
}
var (
remoteName = gitConfig.RemoteName
trunkBranch = gitConfig.TrunkBranchName
releaseBranch = gitConfig.ReleaseBranchName
)
// Fetch the remote repository unless explicitly skipped.
if !flagNoFetch {
task := "Fetch the remote repository"
log.Run(task)
if err := git.UpdateRemotes(remoteName); err != nil {
return errs.NewError(task, err)
}
}
log.Run("Make sure all important branches are up to date")
// Check branches.
checkBranch := func(branchName string) error {
task := fmt.Sprintf("Make sure that branch '%v' exists and is up to date", branchName)
if err := git.CheckOrCreateTrackingBranch(branchName, remoteName); err != nil {
return errs.NewError(task, err)
}
return nil
}
for _, branch := range [...]string{releaseBranch, trunkBranch} {
if err := checkBranch(branch); err != nil {
return err
}
}
// Remember the current branch.
currentBranch, err := gitutil.CurrentBranch()
if err != nil {
return err
}
// Checkout the release branch.
task := "Checkout the release branch"
if err := git.Checkout(releaseBranch); err != nil {
return errs.NewError(task, err)
}
defer func() {
// Do not checkout the original branch in case the name is empty.
// This is later used to disable the checkout of the original branch.
if currentBranch == "" {
return
}
// Otherwise checkout the original branch.
task := fmt.Sprintf("Checkout the original branch (%v)", currentBranch)
if err := git.Checkout(currentBranch); err != nil {
errs.LogError(task, err)
}
}()
// Get the current release version string.
// It is enough to just call version.Get since
// we are already on the release branch.
task = "Get the release branch version string"
releaseVersion, err := version.Get()
if err != nil {
return errs.NewError(task, err)
}
// Get the stories associated with the current release.
task = "Fetch the stories associated with the current release"
log.Run(task)
tracker, err := modules.GetIssueTracker()
if err != nil {
return errs.NewError(task, err)
}
release := tracker.RunningRelease(releaseVersion)
stories, err := release.Stories()
if err != nil {
return errs.NewError(task, err)
}
if len(stories) == 0 {
return errs.NewError(task, errors.New("no relevant stories found"))
}
// Get the release changes.
task = "Collect the release changes"
log.Run(task)
groups, err := changes.StoryChanges(stories)
if err != nil {
return errs.NewError(task, err)
}
// Just return in case there are no relevant commits found.
if len(groups) == 0 {
return errs.NewError(task, errors.New("no relevant commits found"))
}
// Sort the change groups.
groups = changes.SortStoryChanges(groups, stories)
groups, err = releases.StoryChangesToCherryPick(groups)
if err != nil {
return errs.NewError(task, err)
}
var (
// Collect the changes not reachable from trunk.
// In case there are any, we abort the cherry-picking process.
unreachable = make([]*changes.StoryChangeGroup, 0, len(groups))
// When we are at iterating, we also collect all release commits
// so that we know what trunk commits to cherry-pick later.
releaseCommits = make(map[string]struct{})
trunkRef = fmt.Sprintf("refs/heads/%v", trunkBranch)
)
for _, group := range groups {
g := &changes.StoryChangeGroup{
StoryIdTag: group.StoryIdTag,
}
for _, ch := range group.Changes {
var ok bool
for _, c := range ch.Commits {
// Add the commit to the map of release commits.
releaseCommits[c.SHA] = struct{}{}
// Look for a commit that is on trunk.
if c.Source == trunkRef {
ok = true
}
}
if !ok {
// In case there is none, remember the change.
g.Changes = append(g.Changes, ch)
}
}
// In case there are some changes not reachable from trunk,
// add the story change to the list of unreachable story changes.
if len(g.Changes) != 0 {
unreachable = append(unreachable, g)
}
}
// In case there are some changes not reachable from the trunk branch,
// abort the process and tell the user to get the changes into trunk first.
if len(unreachable) != 0 {
var details bytes.Buffer
fmt.Fprint(&details, `
The following story changes are not reachable from the trunk branch:
`)
changes.DumpStoryChanges(&details, unreachable, tracker, false)
fmt.Fprint(&details, `
Please cherry-pick these changes onto the trunk branch.
Only then we can proceed and cherry-pick the changes.
`)
return errs.NewErrorWithHint(
task, errors.New("commits not reachable from trunk detected"), details.String())
}
// Everything seems fine, let's continue with the process
// by dumping the change details into the console.
fmt.Println()
changes.DumpStoryChanges(os.Stdout, groups, tracker, false)
// Ask the user to confirm before doing any cherry-picking.
task = "Ask the user to confirm cherry-picking"
fmt.Println(`
The changes listed above will be cherry-picked into the release branch.`)
confirmed, err := prompt.Confirm("Are you sure you want to continue?", false)
if err != nil {
return errs.NewError(task, err)
}
if !confirmed {
prompt.PanicCancel()
}
fmt.Println()
// Collect the trunk commits that were created since the last release.
task = "Collect the trunk commits added since the last release"
trunkCommits, err := releases.ListNewTrunkCommits()
if err != nil {
return errs.NewError(task, err)
}
// We need the list to start with the oldest commit.
for i, j := 0, len(trunkCommits)-1; i < j; i, j = i+1, j-1 {
trunkCommits[i], trunkCommits[j] = trunkCommits[j], trunkCommits[i]
}
// Collect the commits to cherry pick. These are the commits
// that are on trunk and they are associated with the release.
hashesToCherryPick := make([]string, 0, len(trunkCommits))
for _, commit := range trunkCommits {
if _, ok := releaseCommits[commit.SHA]; ok {
hashesToCherryPick = append(hashesToCherryPick, commit.SHA)
}
}
// Perform the cherry-pick itself.
task = "Cherry-pick the missing changes into the release branch"
log.Run(task)
if err := git.CherryPick(hashesToCherryPick...); err != nil {
hint := `
It was not possible to cherry-pick the missing changes into the release branch.
The cherry-picking process might be still in progress, though. Please check
the repository status and potentially resolve the cherry-picking manually.
`
// Do not checkout the original branch.
currentBranch = ""
return errs.NewErrorWithHint(task, err, hint)
}
log.Log("All missing changes cherry-picked into the release branch")
fmt.Println(`
###################################################################
# IMPORTANT: The release branch is not being pushed automatically #
###################################################################
`)
return nil
}
func openIssue(issue *github.Issue) {
task := fmt.Sprintf("Open issue #%v in the browser", *issue.Number)
if err := webbrowser.Open(*issue.HTMLURL); err != nil {
errs.LogError(task, err)
}
}
// EnsureBranchSynchronized makes sure the given branch is up to date.
// If that is not the case, *ErrRefNoInSync is returned.
func EnsureBranchSynchronized(branch, remote string) (err error) {
// Check whether the remote counterpart actually exists.
exists, err := RemoteBranchExists(branch, remote)
if err != nil {
return err
}
if !exists {
return nil
}
// Get the data needed.
var (
localRef = fmt.Sprintf("refs/heads/%v", branch)
remoteRef = fmt.Sprintf("refs/remotes/%v/%v", remote, branch)
)
localHexsha, err := Hexsha(localRef)
if err != nil {
return err
}
remoteHexsha, err := Hexsha(remoteRef)
if err != nil {
return err
}
if localHexsha == remoteHexsha {
// The branch is up to date, we are done here.
return nil
}
// Check whether the local branch can be fast-forwarded.
remoteBranch := fmt.Sprintf("%v/%v", remote, branch)
_, err = Run("merge-base", "--is-ancestor", branch, remoteBranch)
if err != nil {
// --is-ancestor returns exit status 0 on true, 1 on false, some other on error.
// We cannot check the value in a platform-independent way, but we count on the fact that
// stderr will be non-empty on error.
ex, ok := err.(errs.Err)
if !ok || len(ex.Hint()) != 0 {
// In case err is not implementing errs.Err or len(stderr) != 0, we return the error.
return err
}
// Otherwise the error means that --is-ancestor returned false,
// so we cannot fast-forward and we have to return an error.
return &ErrRefNotInSync{branch}
}
// Perform a fast-forward merge.
// Ask the user before doing so.
fmt.Println()
fmt.Printf("Branch '%v' is behind '%v', and can be fast-forwarded.\n", branch, remoteBranch)
proceed, err := prompt.Confirm("Shall we perform the merge? It's all safe!", true)
fmt.Println()
if err != nil {
return err
}
if !proceed {
return &ErrRefNotInSync{branch}
}
// Make sure the right branch is checked out.
currentBranch, err := gitutil.CurrentBranch()
if err != nil {
return err
}
if branch != currentBranch {
// Checkout the branch to be merged.
task := fmt.Sprintf("Checkout branch '%v'", branch)
if err := Checkout(branch); err != nil {
return errs.NewError(task, err)
}
defer func() {
// Checkout the original branch on return.
task := fmt.Sprintf("Checkout branch '%v'", currentBranch)
if ex := Checkout(currentBranch); ex != nil {
if err == nil {
err = ex
} else {
errs.LogError(task, err)
}
}
}()
}
// Merge. Use --ff-only, just to be sure.
// But we have already checked that this will be a fast-forward merge.
_, err = Run("merge", "--ff-only", remoteBranch)
if err != nil {
return err
}
log.Log(fmt.Sprintf("Branch '%v' fast-forwarded onto '%v'", branch, remoteBranch))
return nil
}
func runMain() (err error) {
// Load repo config.
gitConfig, err := git.LoadConfig()
if err != nil {
return err
}
var (
remoteName = gitConfig.RemoteName
stagingBranch = gitConfig.StagingBranchName
stableBranch = gitConfig.StableBranchName
)
// Fetch the repository.
if !flagNoFetch {
task := "Fetch the remote repository"
log.Run(task)
if err := git.UpdateRemotes(remoteName); err != nil {
return errs.NewError(task, err)
}
}
// Check branches.
checkBranch := func(branchName string) error {
// Make sure the branch exists.
task := fmt.Sprintf("Make sure that branch '%v' exists and is up to date", branchName)
log.Run(task)
if err := git.CheckOrCreateTrackingBranch(branchName, remoteName); err != nil {
return errs.NewError(task, err)
}
// Make sure we are not on the branch.
task = fmt.Sprintf("Make sure that branch '%v' is not checked out", branchName)
log.Run(task)
currentBranch, err := gitutil.CurrentBranch()
if err != nil {
return errs.NewError(task, err)
}
if currentBranch == branchName {
err := fmt.Errorf("cannot deploy while on branch '%v'", branchName)
return errs.NewError(task, err)
}
return nil
}
for _, branch := range []string{stableBranch, stagingBranch} {
if err := checkBranch(branch); err != nil {
return err
}
}
// Make sure the current staging branch can be released.
task := fmt.Sprintf("Make sure that branch '%v' can be released", stagingBranch)
log.Run(task)
tracker, err := modules.GetIssueTracker()
if err != nil {
return errs.NewError(task, err)
}
codeReviewTool, err := modules.GetCodeReviewTool()
if err != nil {
return errs.NewError(task, err)
}
stagingVersion, err := version.GetByBranch(stagingBranch)
if err != nil {
return errs.NewError(task, err)
}
// Make sure the release can be closed in the issue tracker.
issueTrackerRelease := tracker.RunningRelease(stagingVersion)
if err := issueTrackerRelease.EnsureClosable(); err != nil {
return err
}
// Make sure the release can be closed in the code review tool.
codeReviewRelease := codeReviewTool.NewRelease(stagingVersion)
if err := codeReviewRelease.EnsureClosable(); err != nil {
return err
}
// Reset the stable branch to point to stage.
task = fmt.Sprintf("Reset branch '%v' to point to branch '%v'", stableBranch, stagingBranch)
log.Run(task)
act, err := git.CreateOrResetBranch(stableBranch, stagingBranch)
if err != nil {
return errs.NewError(task, err)
}
defer action.RollbackTaskOnError(&err, task, act)
// Bump version for the stable branch.
stableVersion, err := stagingVersion.ToStableVersion()
if err != nil {
return err
}
task = fmt.Sprintf("Bump version (branch '%v' -> %v)", stableBranch, stableVersion)
log.Run(task)
act, err = version.SetForBranch(stableVersion, stableBranch)
if err != nil {
return errs.NewError(task, err)
}
defer action.RollbackTaskOnError(&err, task, act)
// Tag the stable branch.
tag := stableVersion.ReleaseTagString()
task = fmt.Sprintf("Tag branch '%v' with tag '%v'", stableBranch, tag)
log.Run(task)
if err := git.Tag(tag, stableBranch); err != nil {
return errs.NewError(task, err)
}
defer action.RollbackTaskOnError(&err, task, action.ActionFunc(func() error {
task := fmt.Sprintf("Delete tag '%v'", tag)
if err := git.Tag("-d", tag); err != nil {
return errs.NewError(task, err)
}
return nil
}))
// Generate the release notes.
// We try to do as much as possible before pushing.
task = fmt.Sprintf("Generate release notes for version '%v'", stableVersion)
log.Run(task)
rnm, err := modules.GetReleaseNotesManager()
if err != nil {
if _, ok := err.(*modules.ErrModuleNotSet); !ok {
return errs.NewError(task, err)
}
}
var nts *common.ReleaseNotes
// rnm will be nil in case the module is disabled.
if rnm != nil {
// Get the relevant stories.
stories, err := tracker.ListStoriesByRelease(stableVersion)
if err != nil {
return errs.NewError(task, err)
}
// Generate the release notes.
nts = notes.GenerateReleaseNotes(stableVersion, stories)
} else {
log.Log("Release notes module disabled, not doing anything")
}
// Close the release in the issue tracker.
act, err = issueTrackerRelease.Close()
if err != nil {
return err
}
defer action.RollbackOnError(&err, act)
// Close the release in the code review tool.
act, err = codeReviewRelease.Close()
if err != nil {
return err
}
defer action.RollbackOnError(&err, act)
// Push the changes to the remote repository.
task = "Push changes to the remote repository"
log.Run(task)
toPush := []string{
"--tags",
fmt.Sprintf("%v:%v", stableBranch, stableBranch),
}
if err := git.PushForce(remoteName, toPush...); err != nil {
return errs.NewError(task, err)
}
// Post the release notes.
task = fmt.Sprintf("Post the release notes for version '%v'", stableVersion)
if rnm != nil {
log.Run(task)
if _, err := rnm.PostReleaseNotes(nts); err != nil {
errs.LogError(task, err)
log.Warn("Failed to post the release notes, continuing anyway ...")
}
}
// Tell the user we succeeded.
color.Green("\n-----> Release %v deployed successfully!\n\n", stableVersion)
color.Cyan("Let's check whether the next release branch can be staged already.\n")
color.Cyan("In other words, we will try to run `release stage` and see what happens.\n\n")
// Now we proceed to the staging step. We do not roll back
// the previous changes on error since this is a separate step.
tryToStageRunningRelease()
return nil
}
func runMain() (err error) {
// Load repo config.
gitConfig, err := git.LoadConfig()
if err != nil {
return err
}
var (
remoteName = gitConfig.RemoteName()
stagingBranch = gitConfig.StagingBranchName()
stableBranch = gitConfig.StableBranchName()
)
// Fetch the repository.
if !flagNoFetch {
if err := git.UpdateRemotes(remoteName); err != nil {
return err
}
}
// Check branches.
checkBranch := func(branchName string) error {
// Make sure the branch exists.
task := fmt.Sprintf("Make sure that branch '%v' exists and is up to date", branchName)
if err := git.CheckOrCreateTrackingBranch(branchName, remoteName); err != nil {
return errs.NewError(task, err)
}
// Make sure we are not on the branch.
task = fmt.Sprintf("Make sure that branch '%v' is not checked out", branchName)
currentBranch, err := git.CurrentBranch()
if err != nil {
return errs.NewError(task, err)
}
if currentBranch == branchName {
err := fmt.Errorf("cannot deploy while on branch '%v'", branchName)
return errs.NewError(task, err)
}
return nil
}
for _, branch := range []string{stableBranch, stagingBranch} {
if err := checkBranch(branch); err != nil {
return err
}
}
// Make sure the current staging branch can be released.
task := fmt.Sprintf("Make sure that branch '%v' can be released", stagingBranch)
log.Run(task)
tracker, err := modules.GetIssueTracker()
if err != nil {
return errs.NewError(task, err)
}
stagingVersion, err := version.GetByBranch(stagingBranch)
if err != nil {
return errs.NewError(task, err)
}
release, err := tracker.RunningRelease(stagingVersion)
if err != nil {
return err
}
if err := release.EnsureReleasable(); err != nil {
return err
}
// Reset the stable branch to point to stage.
task = fmt.Sprintf("Reset branch '%v' to point to branch '%v'", stableBranch, stagingBranch)
log.Run(task)
act, err := git.CreateOrResetBranch(stableBranch, stagingBranch)
if err != nil {
return errs.NewError(task, err)
}
defer action.RollbackTaskOnError(&err, task, act)
// Bump version for the stable branch.
stableVersion, err := stagingVersion.ToStableVersion()
if err != nil {
return err
}
task = fmt.Sprintf("Bump version (branch '%v' -> %v)", stableBranch, stableVersion)
log.Run(task)
act, err = version.SetForBranch(stableVersion, stableBranch)
if err != nil {
return errs.NewError(task, err)
}
defer action.RollbackTaskOnError(&err, task, act)
// Tag the stable branch.
tag := stableVersion.ReleaseTagString()
task = fmt.Sprintf("Tag branch '%v' with tag '%v'", stableBranch, tag)
log.Run(task)
if err := git.Tag(tag, stableBranch); err != nil {
return errs.NewError(task, err)
}
defer action.RollbackTaskOnError(&err, task, action.ActionFunc(func() error {
task := fmt.Sprintf("Delete tag '%v'", tag)
if err := git.Tag("-d", tag); err != nil {
return errs.NewError(task, err)
}
return nil
}))
// Generate the release notes.
// We try to do as much as possible before pushing.
task = fmt.Sprintf("Generate release notes for version '%v'", stableVersion)
log.Run(task)
rnm, err := modules.GetReleaseNotesManager()
if err != nil {
return errs.NewError(task, err)
}
var nts *common.ReleaseNotes
// rnm will be nil in case the module is disabled.
if rnm != nil {
// Get the relevant stories.
stories, err := tracker.ListStoriesByRelease(stableVersion)
if err != nil {
return errs.NewError(task, err)
}
// Generate the release notes.
nts = notes.GenerateReleaseNotes(stableVersion, stories)
} else {
log.Log("Release notes module disabled, skipping ...")
}
// Push the changes to the remote repository.
task = "Push changes to the remote repository"
log.Run(task)
toPush := []string{
"--tags",
fmt.Sprintf("%v:%v", stableBranch, stableBranch),
}
if err := git.PushForce(remoteName, toPush...); err != nil {
return errs.NewError(task, err)
}
// Post the release notes.
task = fmt.Sprintf("Post the release notes for version '%v'", stableVersion)
if rnm != nil {
log.Run(task)
if _, err := rnm.PostReleaseNotes(nts); err != nil {
errs.LogError(task, err)
log.Warn("Failed to post the release notes, continuing anyway ...")
}
}
// Now we proceed to the staging step. We do not roll back
// the previous changes on error since this is a separate step.
tryToStageRunningRelease()
return nil
}