package jobs import ( "encoding/base64" "encoding/json" "errors" "io" "io/ioutil" "os" "os/exec" "path/filepath" "strings" "sync" "time" "git.rootprojects.org/root/gitdeploy/internal/log" "git.rootprojects.org/root/gitdeploy/internal/options" "git.rootprojects.org/root/gitdeploy/internal/webhooks" ) // Pending is the map of backlog jobs // map[webhooks.RefID]*webhooks.GitRef var Pending sync.Map // Actives is the map of jobs // map[webhooks.RefID]*Job var Actives sync.Map // Recents are jobs that are dead, but recent // map[webhooks.RevID]*Job var Recents sync.Map // Job represents a job started by the git webhook // and also the JSON we send back through the API about jobs type Job struct { // normal json StartedAt *time.Time `json:"started_at,omitempty"` // empty when pending ID string `json:"id"` // could be URLSafeRefID or URLSafeRevID GitRef *webhooks.Ref `json:"ref"` // always present PromoteTo string `json:"promote_to,omitempty"` // empty when deploy and test Promote bool `json:"promote,omitempty"` // empty when deploy and test EndedAt *time.Time `json:"ended_at,omitempty"` // empty when running ExitCode *int `json:"exit_code,omitempty"` // empty when running // full json Logs []Log `json:"logs,omitempty"` // exist when requested Report *Report `json:"report,omitempty"` // empty unless given // internal only cmd *exec.Cmd `json:"-"` mux sync.Mutex `json:"-"` } // Report should have many items type Report struct { Name string `json:"name"` Status string `json:"status,omitempty"` Message string `json:"message,omitempty"` Detail string `json:"detail,omitempty"` Results []Report `json:"results,omitempty"` } var initialized = false var done = make(chan struct{}) var deathRow = make(chan webhooks.RefID) var debounced = make(chan *webhooks.Ref) var debacklog = make(chan *webhooks.Ref) // Start starts the job loop, channels, and cleanup routines func Start(runOpts *options.ServerConfig) { go Run(runOpts) } // Run starts the job loop and waits for it to be stopped func Run(runOpts *options.ServerConfig) { log.Printf("[gitdeploy] Starting") if initialized { panic(errors.New("should not double initialize 'jobs'")) } initialized = true // TODO load the backlog from disk too oldJobs, err := WalkLogs(runOpts) if nil != err { panic(err) } for i := range oldJobs { job := oldJobs[i] job.ID = string(job.GitRef.GetRevID()) Recents.Store(job.GitRef.GetRevID(), job) } ticker := time.NewTicker(runOpts.StaleJobAge / 2) for { select { case h := <-webhooks.Hooks: hook := webhooks.New(h) //log.Printf("[%s] debouncing...", hook.GetRefID()) saveBacklog(hook, runOpts) debounce(hook, runOpts) case hook := <-debacklog: //log.Printf("[%s] checking for backlog...", hook.GetRefID()) debounce(hook, runOpts) case hook := <-debounced: //log.Printf("[%s] debounced!", hook.GetRefID()) run(hook, runOpts) case activeID := <-deathRow: //log.Printf("[%s] done", activeID) remove(activeID /*, false*/) case promotion := <-Promotions: log.Printf("[%s] promoting to %s", promotion.GitRef.GetRefID(), promotion.PromoteTo) promote(webhooks.New(*promotion.GitRef), promotion.PromoteTo, runOpts) case <-ticker.C: log.Printf("[gitdeploy] cleaning old jobs") expire(runOpts) case <-done: log.Printf("[gitdeploy] stopping") // TODO kill jobs ticker.Stop() } } } // Stop will cancel the job loop and its timers func Stop() { done <- struct{}{} initialized = false } // All returns all jobs, including active, recent, and (TODO) historical func All(then time.Time) []*Job { jobsTimersMux.Lock() defer jobsTimersMux.Unlock() jobsCopy := []*Job{} Pending.Range(func(key, value interface{}) bool { hook := value.(*webhooks.Ref) if hook.Timestamp.Sub(then) <= 0 { return true } jobCopy := &Job{ //StartedAt: job.StartedAt, ID: string(hook.GetURLSafeRefID()), GitRef: hook, //Promote: job.Promote, //EndedAt: job.EndedAt, } jobsCopy = append(jobsCopy, jobCopy) return true }) Actives.Range(func(key, value interface{}) bool { job := value.(*Job) if job.GitRef.Timestamp.Sub(then) <= 0 { return true } jobCopy := &Job{ StartedAt: job.StartedAt, ID: string(job.GitRef.GetURLSafeRefID()), GitRef: job.GitRef, //Promote: job.Promote, } if nil != job.ExitCode { jobCopy.ExitCode = &(*job.ExitCode) } jobsCopy = append(jobsCopy, jobCopy) return true }) Recents.Range(func(key, value interface{}) bool { job := value.(*Job) if job.GitRef.Timestamp.Sub(then) <= 0 { return true } jobCopy := &Job{ StartedAt: job.StartedAt, ID: string(job.GitRef.GetURLSafeRevID()), GitRef: job.GitRef, EndedAt: job.EndedAt, //Promote: job.Promote, } if nil != job.ExitCode { jobCopy.ExitCode = &(*job.ExitCode) } jobsCopy = append(jobsCopy, jobCopy) return true }) return jobsCopy } // SetReport will update jobs' logs func SetReport(urlRefID webhooks.URLSafeRefID, report *Report) error { b, err := base64.RawURLEncoding.DecodeString(string(urlRefID)) if nil != err { return err } refID := webhooks.RefID(b) value, ok := Actives.Load(refID) if !ok { return errors.New("active job not found by " + string(refID)) } job := value.(*Job) job.Report = report Actives.Store(refID, job) return nil } // Remove will put a job on death row func Remove(gitID webhooks.URLSafeRefID /*, nokill bool*/) { activeID, err := base64.RawURLEncoding.DecodeString(string(gitID)) if nil != err { log.Printf("bad id: %s", activeID) return } deathRow <- webhooks.RefID(activeID) } func getJobFilePath(baseDir string, hook *webhooks.Ref, suffix string) (string, string, error) { baseDir, _ = filepath.Abs(baseDir) fileTime := hook.Timestamp.UTC().Format(options.TimeFile) fileName := fileTime + "." + hook.RefName + "." + hook.Rev[:7] + suffix // ".log" or ".json" fileDir := filepath.Join(baseDir, hook.RepoID) err := os.MkdirAll(fileDir, 0755) return fileDir, fileName, err } func getJobFile(baseDir string, hook *webhooks.Ref, suffix string) (*os.File, error) { repoDir, repoFile, err := getJobFilePath(baseDir, hook, suffix) if nil != err { //log.Printf("[warn] could not create log directory '%s': %v", repoDir, err) return nil, err } path := filepath.Join(repoDir, repoFile) return os.OpenFile(path, os.O_CREATE|os.O_WRONLY, 0644) //return fmt.Sprintf("%s#%s", strings.ReplaceAll(hook.RepoID, "/", "-"), hook.RefName) } func openJobFile(baseDir string, hook *webhooks.Ref, suffix string) (*os.File, error) { repoDir, repoFile, _ := getJobFilePath(baseDir, hook, suffix) return os.Open(filepath.Join(repoDir, repoFile)) } func setOutput(logDir string, job *Job) *os.File { var f *os.File = nil defer func() { // TODO write to append-only log rather than keep in-memory // (noting that we want to keep Stdout vs Stderr and timing) cmd := job.cmd wout := &outWriter{job: job} werr := &errWriter{job: job} if nil != f { cmd.Stdout = io.MultiWriter(f, wout) cmd.Stderr = io.MultiWriter(f, werr) } else { cmd.Stdout = io.MultiWriter(os.Stdout, wout) cmd.Stderr = io.MultiWriter(os.Stderr, werr) } }() if "" == logDir { return nil } hook := job.GitRef f, err := getJobFile(logDir, hook, ".log") if nil != err { // f.Name() should be the full path log.Printf("[warn] could not create log file '%s': %v", logDir, err) return nil } cwd, _ := os.Getwd() log.Printf("[%s] log to ./%s", hook.GetRefID(), f.Name()[len(cwd)+1:]) return f } // Debounce puts a job in the queue, in time func Debounce(hook webhooks.Ref) { webhooks.Hooks <- hook } var jobsTimersMux sync.Mutex var debounceTimers = make(map[webhooks.RefID]*time.Timer) func debounce(hook *webhooks.Ref, runOpts *options.ServerConfig) { jobsTimersMux.Lock() defer jobsTimersMux.Unlock() activeID := hook.GetRefID() if _, ok := Actives.Load(activeID); ok { //log.Printf("[%s] will run again after current job", hook.GetRefID()) return } refID := hook.GetRefID() timer, ok := debounceTimers[refID] if ok { //log.Printf("[%s] replaced debounce timer", hook.GetRefID()) timer.Stop() } // this will not cause a mutual lock because it is async debounceTimers[refID] = time.AfterFunc(runOpts.DebounceDelay, func() { jobsTimersMux.Lock() delete(debounceTimers, refID) jobsTimersMux.Unlock() debounced <- hook }) } func saveBacklog(hook *webhooks.Ref, runOpts *options.ServerConfig) { pendingID := hook.GetRefID() Pending.Store(pendingID, hook) repoDir, repoFile, err := getBacklogFilePath(runOpts.TmpDir, hook) if nil != err { log.Printf("[warn] could not create backlog dir %s:\n%v", repoDir, err) return } f, err := ioutil.TempFile(repoDir, "tmp-*") if nil != err { log.Printf("[warn] could not create backlog file %s:\n%v", f.Name(), err) return } b, _ := json.MarshalIndent(hook, "", " ") if _, err := f.Write(b); nil != err { log.Printf("[warn] could not write backlog file %s:\n%v", f.Name(), err) return } replace := false backlogPath := filepath.Join(repoDir, repoFile) if _, err := os.Stat(backlogPath); nil == err { replace = true _ = os.Remove(backlogPath) } if err := os.Rename(f.Name(), backlogPath); nil != err { log.Printf("[warn] rename backlog json failed:\n%v", err) return } if replace { log.Printf("[%s] updated in queue", hook.GetRefID()) } else { log.Printf("[%s] added to queue", hook.GetRefID()) } } func getBacklogFilePath(baseDir string, hook *webhooks.Ref) (string, string, error) { baseDir, _ = filepath.Abs(baseDir) fileName := hook.RefName + ".json" fileDir := filepath.Join(baseDir, hook.RepoID) err := os.MkdirAll(fileDir, 0755) return fileDir, fileName, err } func run(curHook *webhooks.Ref, runOpts *options.ServerConfig) { // because we want to lock the whole transaction all of the state jobsTimersMux.Lock() defer jobsTimersMux.Unlock() pendingID := curHook.GetRefID() if _, ok := Actives.Load(pendingID); ok { log.Printf("[%s] already in progress", pendingID) return } var hook *webhooks.Ref // Legacy, but would be nice to repurpose for resuming on reload repoDir, repoFile, _ := getBacklogFilePath(runOpts.TmpDir, curHook) backlogFile := filepath.Join(repoDir, repoFile) if value, ok := Pending.Load(pendingID); ok { hook = value.(*webhooks.Ref) } else { // TODO add mutex (should not affect temp files) _ = os.Remove(backlogFile + ".cur") _ = os.Rename(backlogFile, backlogFile+".cur") b, err := ioutil.ReadFile(backlogFile + ".cur") if nil != err { if !os.IsNotExist(err) { log.Printf("[warn] could not read backlog file %s:\n%v", backlogFile, err) return } // doesn't exist => no backlog log.Printf("[%s] no backlog", pendingID) return } hook = &webhooks.Ref{} if err := json.Unmarshal(b, hook); nil != err { log.Printf("[warn] could not parse backlog %s:\n%v", backlogFile, err) return } hook = webhooks.New(*hook) } Pending.Delete(pendingID) _ = os.Remove(backlogFile) _ = os.Remove(backlogFile + ".cur") env := os.Environ() envs := getEnvs(runOpts.Addr, string(pendingID), runOpts.RepoList, hook) envs = append(envs, "GIT_DEPLOY_JOB_ID="+string(pendingID)) scriptPath, _ := filepath.Abs(runOpts.ScriptsPath + "/deploy.sh") args := []string{"-i", "--", scriptPath} log.Printf("[%s] bash %s %s %s", hook.GetRefID(), args[0], args[1], args[2]) cmd := exec.Command("bash", append(args, []string{ string(pendingID), hook.RefName, hook.RefType, hook.Owner, hook.Repo, hook.HTTPSURL, }...)...) cmd.Env = append(env, envs...) now := time.Now() j := &Job{ StartedAt: &now, cmd: cmd, GitRef: hook, Logs: []Log{}, Promote: false, } // TODO jobs.New() // Sets cmd.Stdout and cmd.Stderr txtFile := setOutput(runOpts.LogDir, j) if err := cmd.Start(); nil != err { log.Printf("[ERROR] failed to exec: %s\n", err) return } Actives.Store(pendingID, j) go func() { //log.Printf("[%s] job started", pendingID) if err := cmd.Wait(); nil != err { log.Printf("[%s] exited with error: %v", pendingID, err) } else { log.Printf("[%s] exited successfully", pendingID) } if nil != txtFile { _ = txtFile.Close() } // TODO move to deathRow only? updateExitStatus(j) // Switch ID to the more specific RevID j.ID = string(j.GitRef.GetRevID()) // replace the text log with a json log if jsonFile, err := getJobFile(runOpts.LogDir, j.GitRef, ".json"); nil != err { // jsonFile.Name() should be the full path log.Printf("[warn] could not create log file '%s': %v", runOpts.LogDir, err) } else { enc := json.NewEncoder(jsonFile) enc.SetIndent("", " ") if err := enc.Encode(j); nil != err { log.Printf("[warn] could not encode json log '%s': %v", jsonFile.Name(), err) } else { logdir, logname, _ := getJobFilePath(runOpts.LogDir, j.GitRef, ".log") _ = os.Remove(filepath.Join(logdir, logname)) } _ = jsonFile.Close() } // TODO move to deathRow only? j.Logs = []Log{} // this will completely clear the finished job deathRow <- pendingID // debounces without saving in the backlog // TODO move this into deathRow? debacklog <- hook }() } func getEnvs(addr, activeID string, repoList string, hook *webhooks.Ref) []string { port := strings.Split(addr, ":")[1] envs := []string{ "GIT_DEPLOY_JOB_ID=" + activeID, "GIT_DEPLOY_TIMESTAMP=" + hook.Timestamp.Format(time.RFC3339), "GIT_DEPLOY_CALLBACK_URL=" + "http://localhost:" + port + "/api/local/jobs/" + string(hook.GetURLSafeRefID()), "GIT_REF_NAME=" + hook.RefName, "GIT_REF_TYPE=" + hook.RefType, "GIT_REPO_ID=" + hook.RepoID, "GIT_REPO_OWNER=" + hook.Owner, "GIT_REPO_NAME=" + hook.Repo, "GIT_CLONE_URL=" + hook.HTTPSURL, // deprecated "GIT_HTTPS_URL=" + hook.HTTPSURL, "GIT_SSH_URL=" + hook.SSHURL, } // GIT_REPO_TRUSTED // Set GIT_REPO_TRUSTED=TRUE if the repo matches exactly, or by pattern repoID := strings.ToLower(hook.RepoID) for _, repo := range strings.Fields(repoList) { last := len(repo) - 1 if len(repo) < 0 { continue } repo = strings.ToLower(repo) if '*' == repo[last] { // Wildcard match a prefix, for example: // github.com/whatever/* MATCHES github.com/whatever/foo // github.com/whatever/ProjectX-* MATCHES github.com/whatever/ProjectX-Foo if strings.HasPrefix(repoID, repo[:last]) { envs = append(envs, "GIT_REPO_TRUSTED=true") break } } else if repo == repoID { envs = append(envs, "GIT_REPO_TRUSTED=true") break } } return envs } // Remove kills the job and moves it to recents func remove(activeID webhooks.RefID /*, nokill bool*/) { // Encapsulate the whole transaction jobsTimersMux.Lock() defer jobsTimersMux.Unlock() value, ok := Actives.Load(activeID) if !ok { log.Printf("[warn] could not find job to kill by RefID %s", activeID) return } job := value.(*Job) Actives.Delete(activeID) // transition to RevID for non-active, non-pending jobs job.ID = string(job.GitRef.GetRevID()) Recents.Store(job.GitRef.GetRevID(), job) updateExitStatus(job) // JSON should have been written to disk by this point job.Logs = []Log{} } func updateExitStatus(job *Job) { if nil == job.cmd.ProcessState { // is not yet finished if nil != job.cmd.Process { // but definitely was started if err := job.cmd.Process.Kill(); nil != err { log.Printf("error killing job:\n%v", err) } } } if nil != job.cmd.ProcessState { //*job.ExitCode = job.cmd.ProcessState.ExitCode() exitCode := job.cmd.ProcessState.ExitCode() job.ExitCode = &exitCode } now := time.Now() job.EndedAt = &now } func expire(runOpts *options.ServerConfig) { staleJobIDs := []webhooks.URLSafeRevID{} Recents.Range(func(key, value interface{}) bool { revID := key.(webhooks.URLSafeRevID) age := time.Now().Sub(value.(*Job).GitRef.Timestamp) if age > runOpts.StaleJobAge { staleJobIDs = append(staleJobIDs, revID) } return true }) for _, revID := range staleJobIDs { Recents.Delete(revID) } }