package main import ( "compress/flate" "encoding/base64" "encoding/json" "flag" "fmt" "log" "net/http" "os" "os/exec" "path/filepath" "strings" "time" "git.rootprojects.org/root/vfscopy" "git.rootprojects.org/root/gitdeploy/assets/public" "git.rootprojects.org/root/gitdeploy/assets/examples" "git.rootprojects.org/root/gitdeploy/internal/options" "git.rootprojects.org/root/gitdeploy/internal/webhooks" "github.com/go-chi/chi" "github.com/go-chi/chi/middleware" _ "github.com/joho/godotenv/autoload" ) var ( name = "gitdeploy" version = "0.0.0" date = "0001-01-01T00:00:00Z" commit = "0000000" ) func usage() { fmt.Println(ver()) fmt.Println("") fmt.Printf("Use '%s help '\n", name) fmt.Println(" init") fmt.Println(" run") } func ver() string { return fmt.Sprintf("%s v%s (%s) %s", name, version, commit[:7], date) } type job struct { ID string // {HTTPSURL}#{BRANCH} Cmd *exec.Cmd Ref webhooks.Ref CreatedAt time.Time } var jobs = make(map[string]*job) var killers = make(chan string) var runOpts *options.ServerConfig var runFlags *flag.FlagSet var initFlags *flag.FlagSet var promotions []string var promotionList string var defaultPromotionList = "production,staging,master" var oldScripts string func init() { runOpts = options.Server initFlags = options.InitFlags _ = initFlags.Bool("TODO", false, "init will eventually copy default assets into a local directory") runFlags = options.ServerFlags runFlags.StringVar(&runOpts.Addr, "listen", "", "the address and port on which to listen (default :4483)") runFlags.BoolVar(&runOpts.TrustProxy, "trust-proxy", false, "trust X-Forwarded-For header") runFlags.StringVar(&runOpts.RepoList, "trust-repos", "", "list of repos (ex: 'github.com/org/repo', or '*' for all) for which to run '.gitdeploy/deploy.sh'") runFlags.BoolVar(&runOpts.Compress, "compress", true, "enable compression for text,html,js,css,etc") runFlags.StringVar( &runOpts.ServePath, "serve-path", "", "path to serve, falls back to built-in web app") runFlags.StringVar( &oldScripts, "exec", "", "old alias for --scripts") runFlags.StringVar( &runOpts.ScriptsPath, "scripts", "", "path to ./scripts/{deploy.sh,promote.sh,etc}") //"path to bash script to run with git info as arguments") runFlags.StringVar(&promotionList, "promotions", "", "a list of promotable branches in descending order (default '"+defaultPromotionList+"')") } func main() { // Support [--]version and -V if len(os.Args) > 1 { if "version" == strings.TrimLeft(os.Args[1], "-") || "-V" == os.Args[1] { fmt.Println(ver()) os.Exit(0) return } } args := os.Args[:] if 1 == len(args) { // "run" should be the default args = append(args, "run") } if "help" == strings.TrimLeft(args[1], "-") { // top-level help if 2 == len(args) { usage() os.Exit(0) return } // move help to subcommand argument self := args[0] args = append([]string{self}, args[2:]...) args = append(args, "--help") } switch args[1] { case "version": fmt.Println(ver()) os.Exit(0) return case "init": _ = initFlags.Parse(args[2:]) vfs := vfscopy.NewVFS(examples.Assets) _, err := os.Open("scripts") if nil == err { fmt.Fprintf(os.Stderr, "./scripts already exists\n") os.Exit(1) return } fmt.Println("Copying ...") if err := vfscopy.CopyAll(vfs, ".", "./scripts", vfscopy.Options { Skip: func (path string) (bool, error) { f, _ := vfs.Open(path) fi, _ := f.Stat() if !fi.IsDir() { fmt.Println(" scripts/" + path) } return false, nil }, }); nil != err { fmt.Fprintf(os.Stderr, "error initializing ./scripts directory\n") os.Exit(1) return } fmt.Println("Done.") os.Exit(0) return case "run": _ = runFlags.Parse(args[2:]) if "" == runOpts.ScriptsPath { if "" != oldScripts { fmt.Fprintf(os.Stderr, "--exec is deprecated and will be removed. Please use --scripts instead.\n") runOpts.ScriptsPath = oldScripts } } if "" == runOpts.ScriptsPath { runOpts.ScriptsPath = "./scripts" pathname, _ := filepath.Abs("./scripts") if info, _ := os.Stat("./scripts/deploy.sh"); nil == info || !info.Mode().IsRegular() { fmt.Printf( "%q not found.\nPlease provide --scripts ./scripts/ as a path where \"deploy.sh\" can be found\n", pathname, ) os.Exit(1) } } if 0 == len(runOpts.Addr) { runOpts.Addr = os.Getenv("LISTEN") } if 0 == len(runOpts.Addr) { runOpts.Addr = "localhost:4483" } if 0 == len(runOpts.Addr) { fmt.Printf("--listen <[addr]:port> is a required flag") os.Exit(1) return } if 0 == len(runOpts.RepoList) { runOpts.RepoList = os.Getenv("TRUST_REPOS") } if len(runOpts.RepoList) > 0 { runOpts.RepoList = strings.ReplaceAll(runOpts.RepoList, ",", " ") runOpts.RepoList = strings.ReplaceAll(runOpts.RepoList, " ", " ") } if 0 == len(promotionList) { promotionList = os.Getenv("PROMOTIONS") } if 0 == len(promotionList) { promotionList = defaultPromotionList } promotions = strings.Fields( strings.ReplaceAll(promotionList, ",", " "), ) webhooks.MustRegisterAll() serve() default: usage() os.Exit(1) return } } // Job is the JSON we send back through the API about jobs type Job struct { JobID string `json:"job_id"` CreatedAt time.Time `json:"created_at"` Ref webhooks.Ref `json:"ref"` Promote bool `json:"promote,omitempty"` } // KillMsg describes which job to kill type KillMsg struct { JobID string `json:"job_id"` Kill bool `json:"kill"` } func serve() { r := chi.NewRouter() // A good base middleware stack if runOpts.TrustProxy { r.Use(middleware.RealIP) } if runOpts.Compress { r.Use(middleware.Compress(flate.DefaultCompression)) } r.Use(middleware.Logger) r.Use(middleware.Recoverer) r.Use(middleware.Recoverer) var staticHandler http.HandlerFunc pub := http.FileServer(public.Assets) if len(runOpts.ServePath) > 0 { // try the user-provided directory first, then fallback to the built-in devFS := http.Dir(runOpts.ServePath) dev := http.FileServer(devFS) staticHandler = func(w http.ResponseWriter, r *http.Request) { if _, err := devFS.Open(r.URL.Path); nil != err { pub.ServeHTTP(w, r) return } dev.ServeHTTP(w, r) } } else { staticHandler = func(w http.ResponseWriter, r *http.Request) { pub.ServeHTTP(w, r) } } webhooks.RouteHandlers(r) r.Get("/version", func(w http.ResponseWriter, r *http.Request) { w.Write(append([]byte(ver()), '\n')) }) r.Get("/api/version", func(w http.ResponseWriter, r *http.Request) { b, _ := json.MarshalIndent(struct { Name string `json:"name"` Version string `json:"version"` Date string `json:"date"` Commit string `json:"commit"` }{ Name: name, Version: version, Date: date, Commit: commit, }, "", " ") w.Write(append(b, '\n')) }) r.Route("/api/admin", func(r chi.Router) { r.Use(func(next http.Handler) http.Handler { return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) { // r.Body is always .Close()ed by Go's http server r.Body = http.MaxBytesReader(w, r.Body, options.DefaultMaxBodySize) // TODO admin auth middleware log.Println("TODO: handle authentication") next.ServeHTTP(w, r) }) }) r.Get("/repos", func(w http.ResponseWriter, r *http.Request) { repos := []Repo{} for _, id := range strings.Fields( strings.ReplaceAll(runOpts.RepoList, ",", " "), ) { repos = append(repos, Repo{ ID: id, CloneURL: fmt.Sprintf("https://%s.git", id), Promotions: promotions, }) } err := filepath.Walk(runOpts.ScriptsPath, func(path string, info os.FileInfo, err error) error { if nil != err { fmt.Printf("error walking %q: %v\n", path, err) return nil } // "scripts/github.com/org/repo" parts := strings.Split(filepath.ToSlash(path), "/") if len(parts) < 3 { return nil } path = strings.Join(parts[1:], "/") if info.Mode().IsRegular() && "deploy.sh" == info.Name() && runOpts.ScriptsPath != path { id := filepath.Dir(path) repos = append(repos, Repo{ ID: id, CloneURL: fmt.Sprintf("https://%s.git", id), Promotions: promotions, }) } return nil }) if nil != err { http.Error(w, "the scripts directory disappeared", http.StatusInternalServerError) return } b, _ := json.MarshalIndent(ReposResponse{ Success: true, Repos: repos, }, "", " ") w.Header().Set("Content-Type", "application/json") w.Write(append(b, '\n')) }) r.Get("/jobs", func(w http.ResponseWriter, r *http.Request) { // again, possible race condition, but not one that much matters jjobs := []Job{} for jobID, job := range jobs { jjobs = append(jjobs, Job{ JobID: jobID, Ref: job.Ref, CreatedAt: job.CreatedAt, }) } b, _ := json.Marshal(struct { Success bool `json:"success"` Jobs []Job `json:"jobs"` }{ Success: true, Jobs: jjobs, }) w.Write(append(b, '\n')) }) r.Post("/jobs", func(w http.ResponseWriter, r *http.Request) { defer func() { _ = r.Body.Close() }() decoder := json.NewDecoder(r.Body) msg := &KillMsg{} if err := decoder.Decode(msg); nil != err { log.Println("kill job invalid json:", err) http.Error(w, "invalid json body", http.StatusBadRequest) return } w.Header().Set("Content-Type", "application/json") // possible race condition, but not the kind that should matter if _, exists := jobs[msg.JobID]; !exists { w.Write([]byte( `{ "success": false, "error": "job does not exist" }` + "\n", )) return } // killing a job *should* always succeed ...right? killers <- msg.JobID w.Write([]byte( `{ "success": true }` + "\n", )) }) r.Post("/promote", func(w http.ResponseWriter, r *http.Request) { decoder := json.NewDecoder(r.Body) msg := &webhooks.Ref{} if err := decoder.Decode(msg); nil != err { log.Println("promotion job invalid json:", err) http.Error(w, "invalid json body", http.StatusBadRequest) return } if "" == msg.HTTPSURL || "" == msg.RefName { log.Println("promotion job incomplete json", msg) http.Error(w, "incomplete json body", http.StatusBadRequest) return } n := -2 for i := range promotions { if promotions[i] == msg.RefName { n = i - 1 break } } if n < 0 { log.Println("promotion job invalid: cannot promote:", n) http.Error(w, "invalid promotion", http.StatusBadRequest) return } promoteTo := promotions[n] runPromote(*msg, promoteTo) b, _ := json.Marshal(struct { Success bool `json:"success"` PromoteTo string `json:"promote_to"` }{ Success: true, PromoteTo: promoteTo, }) w.Write(append(b, '\n')) }) }) r.Get("/*", staticHandler) fmt.Println("Listening for http (with reasonable timeouts) on", runOpts.Addr) srv := &http.Server{ Addr: runOpts.Addr, Handler: r, ReadHeaderTimeout: 2 * time.Second, ReadTimeout: 10 * time.Second, WriteTimeout: 20 * time.Second, MaxHeaderBytes: 1024 * 1024, // 1MiB } go func() { // TODO read from backlog for { //hook := webhooks.Accept() select { case hook := <-webhooks.Hooks: runHook(hook) case jobID := <-killers: remove(jobID, false) } } }() if err := srv.ListenAndServe(); nil != err { fmt.Fprintf(os.Stderr, "%s", err) os.Exit(1) return } } func runHook(hook webhooks.Ref) { fmt.Printf("%#v\n", hook) jobID := base64.RawURLEncoding.EncodeToString([]byte( fmt.Sprintf("%s#%s", hook.HTTPSURL, hook.RefName), )) args := []string{ runOpts.ScriptsPath + "/deploy.sh", jobID, hook.RefName, hook.RefType, hook.Owner, hook.Repo, hook.HTTPSURL, } cmd := exec.Command("bash", args...) // https://git.example.com/example/project.git // => git.example.com/example/project repoID := strings.TrimPrefix(hook.HTTPSURL, "https://") repoID = strings.TrimPrefix(repoID, "https://") repoID = strings.TrimSuffix(repoID, ".git") env := os.Environ() envs := []string{ "GIT_DEPLOY_JOB_ID=" + jobID, "GIT_REF_NAME=" + hook.RefName, "GIT_REF_TYPE=" + hook.RefType, "GIT_REPO_ID=" + repoID, "GIT_REPO_OWNER=" + hook.Owner, "GIT_REPO_NAME=" + hook.Repo, "GIT_CLONE_URL=" + hook.HTTPSURL, } for _, repo := range strings.Fields(runOpts.RepoList) { if "*" == repo || repo == repoID { envs = append(envs, "GIT_REPO_TRUSTED=true") break } } cmd.Env = append(env, envs...) cmd.Stdout = os.Stdout cmd.Stderr = os.Stderr if _, exists := jobs[jobID]; exists { // TODO put job in backlog log.Printf("gitdeploy job already started for %s#%s\n", hook.HTTPSURL, hook.RefName) return } if err := cmd.Start(); nil != err { log.Printf("gitdeploy exec error: %s\n", err) return } jobs[jobID] = &job{ ID: jobID, Cmd: cmd, Ref: hook, CreatedAt: time.Now(), } go func() { log.Printf("gitdeploy job for %s#%s started\n", hook.HTTPSURL, hook.RefName) if err := cmd.Wait(); nil != err { log.Printf("gitdeploy job for %s#%s exited with error: %v", hook.HTTPSURL, hook.RefName, err) } else { log.Printf("gitdeploy job for %s#%s finished\n", hook.HTTPSURL, hook.RefName) } remove(jobID, true) // TODO check for backlog }() } func remove(jobID string, nokill bool) { job, exists := jobs[jobID] if !exists { return } delete(jobs, jobID) if nil != job.Cmd.ProcessState { // is not yet finished if nil != job.Cmd.Process { // but definitely was started err := job.Cmd.Process.Kill() log.Println("error killing job:", err) } } } func runPromote(hook webhooks.Ref, promoteTo string) { // TODO create an origin-branch tag with a timestamp? jobID1 := base64.RawURLEncoding.EncodeToString([]byte( fmt.Sprintf("%s#%s", hook.HTTPSURL, hook.RefName), )) jobID2 := base64.RawURLEncoding.EncodeToString([]byte( fmt.Sprintf("%s#%s", hook.HTTPSURL, promoteTo), )) args := []string{ runOpts.ScriptsPath + "/promote.sh", jobID1, promoteTo, hook.RefName, hook.RefType, hook.Owner, hook.Repo, hook.HTTPSURL, } cmd := exec.Command("bash", args...) env := os.Environ() envs := []string{ "GIT_DEPLOY_JOB_ID=" + jobID1, "GIT_DEPLOY_PROMOTE_TO=" + promoteTo, "GIT_REF_NAME=" + hook.RefName, "GIT_REF_TYPE=" + hook.RefType, "GIT_REPO_OWNER=" + hook.Owner, "GIT_REPO_NAME=" + hook.Repo, "GIT_CLONE_URL=" + hook.HTTPSURL, } cmd.Env = append(env, envs...) cmd.Stdout = os.Stdout cmd.Stderr = os.Stderr if _, exists := jobs[jobID1]; exists { // TODO put promote in backlog log.Printf("gitdeploy job already started for %s#%s\n", hook.HTTPSURL, hook.RefName) return } if _, exists := jobs[jobID2]; exists { // TODO put promote in backlog log.Printf("gitdeploy job already started for %s#%s\n", hook.HTTPSURL, promoteTo) return } if err := cmd.Start(); nil != err { log.Printf("gitdeploy exec error: %s\n", err) return } jobs[jobID1] = &job{ ID: jobID2, Cmd: cmd, Ref: hook, CreatedAt: time.Now(), } jobs[jobID2] = &job{ ID: jobID2, Cmd: cmd, Ref: hook, CreatedAt: time.Now(), } go func() { log.Printf("gitdeploy promote for %s#%s started\n", hook.HTTPSURL, hook.RefName) _ = cmd.Wait() killers <- jobID1 killers <- jobID2 log.Printf("gitdeploy promote for %s#%s finished\n", hook.HTTPSURL, hook.RefName) // TODO check for backlog }() } // ReposResponse is the successful response to /api/repos type ReposResponse struct { Success bool `json:"success"` Repos []Repo `json:"repos"` } // Repo is one of the elements of /api/repos type Repo struct { ID string `json:"id"` CloneURL string `json:"clone_url"` Promotions []string `json:"_promotions"` }