ref: 6959370835734d37d488136504db68b5b9a3277e
dir: /commands/hugo.go/
// Copyright 2019 The Hugo Authors. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Package commands defines and implements command-line commands and flags // used by Hugo. Commands and flags are implemented using Cobra. package commands import ( "context" "fmt" "io/ioutil" "os" "os/signal" "path/filepath" "runtime" "runtime/pprof" "runtime/trace" "strings" "sync/atomic" "syscall" "time" "github.com/gohugoio/hugo/hugofs" "github.com/gohugoio/hugo/resources/page" "github.com/pkg/errors" "github.com/gohugoio/hugo/common/herrors" "github.com/gohugoio/hugo/common/loggers" "github.com/gohugoio/hugo/common/terminal" "github.com/gohugoio/hugo/hugolib/filesystems" "golang.org/x/sync/errgroup" "github.com/gohugoio/hugo/config" flag "github.com/spf13/pflag" "github.com/fsnotify/fsnotify" "github.com/gohugoio/hugo/helpers" "github.com/gohugoio/hugo/hugolib" "github.com/gohugoio/hugo/livereload" "github.com/gohugoio/hugo/watcher" "github.com/spf13/afero" "github.com/spf13/cobra" "github.com/spf13/fsync" jww "github.com/spf13/jwalterweatherman" ) // The Response value from Execute. type Response struct { // The build Result will only be set in the hugo build command. Result *hugolib.HugoSites // Err is set when the command failed to execute. Err error // The command that was executed. Cmd *cobra.Command } // IsUserError returns true is the Response error is a user error rather than a // system error. func (r Response) IsUserError() bool { return r.Err != nil && isUserError(r.Err) } // Execute adds all child commands to the root command HugoCmd and sets flags appropriately. // The args are usually filled with os.Args[1:]. func Execute(args []string) Response { hugoCmd := newCommandsBuilder().addAll().build() cmd := hugoCmd.getCommand() cmd.SetArgs(args) c, err := cmd.ExecuteC() var resp Response if c == cmd && hugoCmd.c != nil { // Root command executed resp.Result = hugoCmd.c.hugo() } if err == nil { errCount := int(loggers.GlobalErrorCounter.Count()) if errCount > 0 { err = fmt.Errorf("logged %d errors", errCount) } else if resp.Result != nil { errCount = resp.Result.NumLogErrors() if errCount > 0 { err = fmt.Errorf("logged %d errors", errCount) } } } resp.Err = err resp.Cmd = c return resp } // InitializeConfig initializes a config file with sensible default configuration flags. func initializeConfig(mustHaveConfigFile, running bool, h *hugoBuilderCommon, f flagsToConfigHandler, cfgInit func(c *commandeer) error) (*commandeer, error) { c, err := newCommandeer(mustHaveConfigFile, running, h, f, cfgInit) if err != nil { return nil, err } return c, nil } func (c *commandeer) createLogger(cfg config.Provider, running bool) (loggers.Logger, error) { var ( logHandle = ioutil.Discard logThreshold = jww.LevelWarn logFile = cfg.GetString("logFile") outHandle = ioutil.Discard stdoutThreshold = jww.LevelWarn ) if !c.h.quiet { outHandle = os.Stdout } if c.h.verboseLog || c.h.logging || (c.h.logFile != "") { var err error if logFile != "" { logHandle, err = os.OpenFile(logFile, os.O_RDWR|os.O_APPEND|os.O_CREATE, 0666) if err != nil { return nil, newSystemError("Failed to open log file:", logFile, err) } } else { logHandle, err = ioutil.TempFile("", "hugo") if err != nil { return nil, newSystemError(err) } } } else if !c.h.quiet && cfg.GetBool("verbose") { stdoutThreshold = jww.LevelInfo } if cfg.GetBool("debug") { stdoutThreshold = jww.LevelDebug } if c.h.verboseLog { logThreshold = jww.LevelInfo if cfg.GetBool("debug") { logThreshold = jww.LevelDebug } } loggers.InitGlobalLogger(stdoutThreshold, logThreshold, outHandle, logHandle) helpers.InitLoggers() return loggers.NewLogger(stdoutThreshold, logThreshold, outHandle, logHandle, running), nil } func initializeFlags(cmd *cobra.Command, cfg config.Provider) { persFlagKeys := []string{ "debug", "verbose", "logFile", // Moved from vars } flagKeys := []string{ "cleanDestinationDir", "buildDrafts", "buildFuture", "buildExpired", "uglyURLs", "canonifyURLs", "enableRobotsTXT", "enableGitInfo", "pluralizeListTitles", "preserveTaxonomyNames", "ignoreCache", "forceSyncStatic", "noTimes", "noChmod", "ignoreVendor", "ignoreVendorPaths", "templateMetrics", "templateMetricsHints", // Moved from vars. "baseURL", "buildWatch", "cacheDir", "cfgFile", "confirm", "contentDir", "debug", "destination", "disableKinds", "dryRun", "force", "gc", "i18n-warnings", "invalidateCDN", "layoutDir", "logFile", "maxDeletes", "quiet", "renderToMemory", "source", "target", "theme", "themesDir", "verbose", "verboseLog", "duplicateTargetPaths", } for _, key := range persFlagKeys { setValueFromFlag(cmd.PersistentFlags(), key, cfg, "", false) } for _, key := range flagKeys { setValueFromFlag(cmd.Flags(), key, cfg, "", false) } setValueFromFlag(cmd.Flags(), "minify", cfg, "minifyOutput", true) // Set some "config aliases" setValueFromFlag(cmd.Flags(), "destination", cfg, "publishDir", false) setValueFromFlag(cmd.Flags(), "i18n-warnings", cfg, "logI18nWarnings", false) setValueFromFlag(cmd.Flags(), "path-warnings", cfg, "logPathWarnings", false) } func setValueFromFlag(flags *flag.FlagSet, key string, cfg config.Provider, targetKey string, force bool) { key = strings.TrimSpace(key) if (force && flags.Lookup(key) != nil) || flags.Changed(key) { f := flags.Lookup(key) configKey := key if targetKey != "" { configKey = targetKey } // Gotta love this API. switch f.Value.Type() { case "bool": bv, _ := flags.GetBool(key) cfg.Set(configKey, bv) case "string": cfg.Set(configKey, f.Value.String()) case "stringSlice": bv, _ := flags.GetStringSlice(key) cfg.Set(configKey, bv) case "int": iv, _ := flags.GetInt(key) cfg.Set(configKey, iv) default: panic(fmt.Sprintf("update switch with %s", f.Value.Type())) } } } func isTerminal() bool { return terminal.IsTerminal(os.Stdout) } func (c *commandeer) fullBuild() error { var ( g errgroup.Group langCount map[string]uint64 ) if !c.h.quiet { fmt.Println("Start building sites … ") if isTerminal() { defer func() { fmt.Print(showCursor + clearLine) }() } } copyStaticFunc := func() error { cnt, err := c.copyStatic() if err != nil { return errors.Wrap(err, "Error copying static files") } langCount = cnt return nil } buildSitesFunc := func() error { if err := c.buildSites(); err != nil { return errors.Wrap(err, "Error building site") } return nil } // Do not copy static files and build sites in parallel if cleanDestinationDir is enabled. // This flag deletes all static resources in /public folder that are missing in /static, // and it does so at the end of copyStatic() call. if c.Cfg.GetBool("cleanDestinationDir") { if err := copyStaticFunc(); err != nil { return err } if err := buildSitesFunc(); err != nil { return err } } else { g.Go(copyStaticFunc) g.Go(buildSitesFunc) if err := g.Wait(); err != nil { return err } } for _, s := range c.hugo().Sites { s.ProcessingStats.Static = langCount[s.Language().Lang] } if c.h.gc { count, err := c.hugo().GC() if err != nil { return err } for _, s := range c.hugo().Sites { // We have no way of knowing what site the garbage belonged to. s.ProcessingStats.Cleaned = uint64(count) } } return nil } func (c *commandeer) initCPUProfile() (func(), error) { if c.h.cpuprofile == "" { return nil, nil } f, err := os.Create(c.h.cpuprofile) if err != nil { return nil, errors.Wrap(err, "failed to create CPU profile") } if err := pprof.StartCPUProfile(f); err != nil { return nil, errors.Wrap(err, "failed to start CPU profile") } return func() { pprof.StopCPUProfile() f.Close() }, nil } func (c *commandeer) initMemProfile() { if c.h.memprofile == "" { return } f, err := os.Create(c.h.memprofile) if err != nil { c.logger.Errorf("could not create memory profile: ", err) } defer f.Close() runtime.GC() // get up-to-date statistics if err := pprof.WriteHeapProfile(f); err != nil { c.logger.Errorf("could not write memory profile: ", err) } } func (c *commandeer) initTraceProfile() (func(), error) { if c.h.traceprofile == "" { return nil, nil } f, err := os.Create(c.h.traceprofile) if err != nil { return nil, errors.Wrap(err, "failed to create trace file") } if err := trace.Start(f); err != nil { return nil, errors.Wrap(err, "failed to start trace") } return func() { trace.Stop() f.Close() }, nil } func (c *commandeer) initMutexProfile() (func(), error) { if c.h.mutexprofile == "" { return nil, nil } f, err := os.Create(c.h.mutexprofile) if err != nil { return nil, err } runtime.SetMutexProfileFraction(1) return func() { pprof.Lookup("mutex").WriteTo(f, 0) f.Close() }, nil } func (c *commandeer) initMemTicker() func() { memticker := time.NewTicker(5 * time.Second) quit := make(chan struct{}) printMem := func() { var m runtime.MemStats runtime.ReadMemStats(&m) fmt.Printf("\n\nAlloc = %v\nTotalAlloc = %v\nSys = %v\nNumGC = %v\n\n", formatByteCount(m.Alloc), formatByteCount(m.TotalAlloc), formatByteCount(m.Sys), m.NumGC) } go func() { for { select { case <-memticker.C: printMem() case <-quit: memticker.Stop() printMem() return } } }() return func() { close(quit) } } func (c *commandeer) initProfiling() (func(), error) { stopCPUProf, err := c.initCPUProfile() if err != nil { return nil, err } stopMutexProf, err := c.initMutexProfile() if err != nil { return nil, err } stopTraceProf, err := c.initTraceProfile() if err != nil { return nil, err } var stopMemTicker func() if c.h.printm { stopMemTicker = c.initMemTicker() } return func() { c.initMemProfile() if stopCPUProf != nil { stopCPUProf() } if stopMutexProf != nil { stopMutexProf() } if stopTraceProf != nil { stopTraceProf() } if stopMemTicker != nil { stopMemTicker() } }, nil } func (c *commandeer) build() error { stopProfiling, err := c.initProfiling() if err != nil { return err } defer func() { if stopProfiling != nil { stopProfiling() } }() if err := c.fullBuild(); err != nil { return err } // TODO(bep) Feedback? if !c.h.quiet { fmt.Println() c.hugo().PrintProcessingStats(os.Stdout) fmt.Println() if createCounter, ok := c.destinationFs.(hugofs.DuplicatesReporter); ok { dupes := createCounter.ReportDuplicates() if dupes != "" { c.logger.Warnln("Duplicate target paths:", dupes) } } } if c.h.buildWatch { watchDirs, err := c.getDirList() if err != nil { return err } baseWatchDir := c.Cfg.GetString("workingDir") rootWatchDirs := getRootWatchDirsStr(baseWatchDir, watchDirs) c.logger.Printf("Watching for changes in %s%s{%s}\n", baseWatchDir, helpers.FilePathSeparator, rootWatchDirs) c.logger.Println("Press Ctrl+C to stop") watcher, err := c.newWatcher(watchDirs...) checkErr(c.Logger, err) defer watcher.Close() sigs := make(chan os.Signal, 1) signal.Notify(sigs, syscall.SIGINT, syscall.SIGTERM) <-sigs } return nil } func (c *commandeer) serverBuild() error { defer c.timeTrack(time.Now(), "Built") stopProfiling, err := c.initProfiling() if err != nil { return err } defer func() { if stopProfiling != nil { stopProfiling() } }() if err := c.fullBuild(); err != nil { return err } // TODO(bep) Feedback? if !c.h.quiet { fmt.Println() c.hugo().PrintProcessingStats(os.Stdout) fmt.Println() } return nil } func (c *commandeer) copyStatic() (map[string]uint64, error) { m, err := c.doWithPublishDirs(c.copyStaticTo) if err == nil || os.IsNotExist(err) { return m, nil } return m, err } func (c *commandeer) doWithPublishDirs(f func(sourceFs *filesystems.SourceFilesystem) (uint64, error)) (map[string]uint64, error) { langCount := make(map[string]uint64) staticFilesystems := c.hugo().BaseFs.SourceFilesystems.Static if len(staticFilesystems) == 0 { c.logger.Infoln("No static directories found to sync") return langCount, nil } for lang, fs := range staticFilesystems { cnt, err := f(fs) if err != nil { return langCount, err } if lang == "" { // Not multihost for _, l := range c.languages { langCount[l.Lang] = cnt } } else { langCount[lang] = cnt } } return langCount, nil } type countingStatFs struct { afero.Fs statCounter uint64 } func (fs *countingStatFs) Stat(name string) (os.FileInfo, error) { f, err := fs.Fs.Stat(name) if err == nil { if !f.IsDir() { atomic.AddUint64(&fs.statCounter, 1) } } return f, err } func chmodFilter(dst, src os.FileInfo) bool { // Hugo publishes data from multiple sources, potentially // with overlapping directory structures. We cannot sync permissions // for directories as that would mean that we might end up with write-protected // directories inside /public. // One example of this would be syncing from the Go Module cache, // which have 0555 directories. return src.IsDir() } func (c *commandeer) copyStaticTo(sourceFs *filesystems.SourceFilesystem) (uint64, error) { publishDir := c.hugo().PathSpec.PublishDir // If root, remove the second '/' if publishDir == "//" { publishDir = helpers.FilePathSeparator } if sourceFs.PublishFolder != "" { publishDir = filepath.Join(publishDir, sourceFs.PublishFolder) } fs := &countingStatFs{Fs: sourceFs.Fs} syncer := fsync.NewSyncer() syncer.NoTimes = c.Cfg.GetBool("noTimes") syncer.NoChmod = c.Cfg.GetBool("noChmod") syncer.ChmodFilter = chmodFilter syncer.SrcFs = fs syncer.DestFs = c.Fs.Destination // Now that we are using a unionFs for the static directories // We can effectively clean the publishDir on initial sync syncer.Delete = c.Cfg.GetBool("cleanDestinationDir") if syncer.Delete { c.logger.Infoln("removing all files from destination that don't exist in static dirs") syncer.DeleteFilter = func(f os.FileInfo) bool { return f.IsDir() && strings.HasPrefix(f.Name(), ".") } } c.logger.Infoln("syncing static files to", publishDir) // because we are using a baseFs (to get the union right). // set sync src to root err := syncer.Sync(publishDir, helpers.FilePathSeparator) if err != nil { return 0, err } // Sync runs Stat 3 times for every source file (which sounds much) numFiles := fs.statCounter / 3 return numFiles, err } func (c *commandeer) firstPathSpec() *helpers.PathSpec { return c.hugo().Sites[0].PathSpec } func (c *commandeer) timeTrack(start time.Time, name string) { elapsed := time.Since(start) c.logger.Printf("%s in %v ms", name, int(1000*elapsed.Seconds())) } // getDirList provides NewWatcher() with a list of directories to watch for changes. func (c *commandeer) getDirList() ([]string, error) { var filenames []string walkFn := func(path string, fi hugofs.FileMetaInfo, err error) error { if err != nil { c.logger.Errorln("walker: ", err) return nil } if fi.IsDir() { if fi.Name() == ".git" || fi.Name() == "node_modules" || fi.Name() == "bower_components" { return filepath.SkipDir } filenames = append(filenames, fi.Meta().Filename()) } return nil } watchFiles := c.hugo().PathSpec.BaseFs.WatchDirs() for _, fi := range watchFiles { if !fi.IsDir() { filenames = append(filenames, fi.Meta().Filename()) continue } w := hugofs.NewWalkway(hugofs.WalkwayConfig{Logger: c.logger, Info: fi, WalkFn: walkFn}) if err := w.Walk(); err != nil { c.logger.Errorln("walker: ", err) } } filenames = helpers.UniqueStringsSorted(filenames) return filenames, nil } func (c *commandeer) buildSites() (err error) { return c.hugo().Build(hugolib.BuildCfg{}) } func (c *commandeer) handleBuildErr(err error, msg string) { c.buildErr = err c.logger.Errorln(msg + ":\n") c.logger.Errorln(helpers.FirstUpper(err.Error())) if !c.h.quiet && c.h.verbose { herrors.PrintStackTraceFromErr(err) } } func (c *commandeer) rebuildSites(events []fsnotify.Event) error { defer c.timeTrack(time.Now(), "Total") c.buildErr = nil visited := c.visitedURLs.PeekAllSet() if c.fastRenderMode { // Make sure we always render the home pages for _, l := range c.languages { langPath := c.hugo().PathSpec.GetLangSubDir(l.Lang) if langPath != "" { langPath = langPath + "/" } home := c.hugo().PathSpec.PrependBasePath("/"+langPath, false) visited[home] = true } } return c.hugo().Build(hugolib.BuildCfg{RecentlyVisited: visited, ErrRecovery: c.wasError}, events...) } func (c *commandeer) partialReRender(urls ...string) error { defer func() { c.wasError = false }() c.buildErr = nil visited := make(map[string]bool) for _, url := range urls { visited[url] = true } return c.hugo().Build(hugolib.BuildCfg{RecentlyVisited: visited, PartialReRender: true, ErrRecovery: c.wasError}) } func (c *commandeer) fullRebuild(changeType string) { if changeType == configChangeGoMod { // go.mod may be changed during the build itself, and // we really want to prevent superfluous builds. if !c.fullRebuildSem.TryAcquire(1) { return } c.fullRebuildSem.Release(1) } c.fullRebuildSem.Acquire(context.Background(), 1) go func() { defer c.fullRebuildSem.Release(1) c.printChangeDetected(changeType) defer func() { // Allow any file system events to arrive back. // This will block any rebuild on config changes for the // duration of the sleep. time.Sleep(2 * time.Second) }() defer c.timeTrack(time.Now(), "Rebuilt") c.commandeerHugoState = newCommandeerHugoState() err := c.loadConfig(true, true) if err != nil { // Set the processing on pause until the state is recovered. c.paused = true c.handleBuildErr(err, "Failed to reload config") } else { c.paused = false } if !c.paused { _, err := c.copyStatic() if err != nil { c.logger.Errorln(err) return } err = c.buildSites() if err != nil { c.logger.Errorln(err) } else if !c.h.buildWatch && !c.Cfg.GetBool("disableLiveReload") { livereload.ForceRefresh() } } }() } // newWatcher creates a new watcher to watch filesystem events. func (c *commandeer) newWatcher(dirList ...string) (*watcher.Batcher, error) { if runtime.GOOS == "darwin" { tweakLimit() } staticSyncer, err := newStaticSyncer(c) if err != nil { return nil, err } watcher, err := watcher.New(1 * time.Second) if err != nil { return nil, err } for _, d := range dirList { if d != "" { _ = watcher.Add(d) } } // Identifies changes to config (config.toml) files. configSet := make(map[string]bool) c.logger.Println("Watching for config changes in", strings.Join(c.configFiles, ", ")) for _, configFile := range c.configFiles { watcher.Add(configFile) configSet[configFile] = true } go func() { for { select { case evs := <-watcher.Events: c.handleEvents(watcher, staticSyncer, evs, configSet) if c.showErrorInBrowser && c.errCount() > 0 { // Need to reload browser to show the error livereload.ForceRefresh() } case err := <-watcher.Errors: if err != nil { c.logger.Errorln("Error while watching:", err) } } } }() return watcher, nil } func (c *commandeer) printChangeDetected(typ string) { msg := "\nChange" if typ != "" { msg += " of " + typ } msg += " detected, rebuilding site." c.logger.Println(msg) const layout = "2006-01-02 15:04:05.000 -0700" c.logger.Println(time.Now().Format(layout)) } const ( configChangeConfig = "config file" configChangeGoMod = "go.mod file" ) func (c *commandeer) handleEvents(watcher *watcher.Batcher, staticSyncer *staticSyncer, evs []fsnotify.Event, configSet map[string]bool) { defer func() { c.wasError = false }() var isHandled bool for _, ev := range evs { isConfig := configSet[ev.Name] configChangeType := configChangeConfig if isConfig { if strings.Contains(ev.Name, "go.mod") { configChangeType = configChangeGoMod } } if !isConfig { // It may be one of the /config folders dirname := filepath.Dir(ev.Name) if dirname != "." && configSet[dirname] { isConfig = true } } if isConfig { isHandled = true if ev.Op&fsnotify.Chmod == fsnotify.Chmod { continue } if ev.Op&fsnotify.Remove == fsnotify.Remove || ev.Op&fsnotify.Rename == fsnotify.Rename { for _, configFile := range c.configFiles { counter := 0 for watcher.Add(configFile) != nil { counter++ if counter >= 100 { break } time.Sleep(100 * time.Millisecond) } } } // Config file(s) changed. Need full rebuild. c.fullRebuild(configChangeType) return } } if isHandled { return } if c.paused { // Wait for the server to get into a consistent state before // we continue with processing. return } if len(evs) > 50 { // This is probably a mass edit of the content dir. // Schedule a full rebuild for when it slows down. c.debounce(func() { c.fullRebuild("") }) return } c.logger.Infoln("Received System Events:", evs) staticEvents := []fsnotify.Event{} dynamicEvents := []fsnotify.Event{} filtered := []fsnotify.Event{} for _, ev := range evs { if c.hugo().ShouldSkipFileChangeEvent(ev) { continue } // Check the most specific first, i.e. files. contentMapped := c.hugo().ContentChanges.GetSymbolicLinkMappings(ev.Name) if len(contentMapped) > 0 { for _, mapped := range contentMapped { filtered = append(filtered, fsnotify.Event{Name: mapped, Op: ev.Op}) } continue } // Check for any symbolic directory mapping. dir, name := filepath.Split(ev.Name) contentMapped = c.hugo().ContentChanges.GetSymbolicLinkMappings(dir) if len(contentMapped) == 0 { filtered = append(filtered, ev) continue } for _, mapped := range contentMapped { mappedFilename := filepath.Join(mapped, name) filtered = append(filtered, fsnotify.Event{Name: mappedFilename, Op: ev.Op}) } } evs = filtered for _, ev := range evs { ext := filepath.Ext(ev.Name) baseName := filepath.Base(ev.Name) istemp := strings.HasSuffix(ext, "~") || (ext == ".swp") || // vim (ext == ".swx") || // vim (ext == ".tmp") || // generic temp file (ext == ".DS_Store") || // OSX Thumbnail baseName == "4913" || // vim strings.HasPrefix(ext, ".goutputstream") || // gnome strings.HasSuffix(ext, "jb_old___") || // intelliJ strings.HasSuffix(ext, "jb_tmp___") || // intelliJ strings.HasSuffix(ext, "jb_bak___") || // intelliJ strings.HasPrefix(ext, ".sb-") || // byword strings.HasPrefix(baseName, ".#") || // emacs strings.HasPrefix(baseName, "#") // emacs if istemp { continue } if c.hugo().Deps.SourceSpec.IgnoreFile(ev.Name) { continue } // Sometimes during rm -rf operations a '"": REMOVE' is triggered. Just ignore these if ev.Name == "" { continue } // Write and rename operations are often followed by CHMOD. // There may be valid use cases for rebuilding the site on CHMOD, // but that will require more complex logic than this simple conditional. // On OS X this seems to be related to Spotlight, see: // https://github.com/go-fsnotify/fsnotify/issues/15 // A workaround is to put your site(s) on the Spotlight exception list, // but that may be a little mysterious for most end users. // So, for now, we skip reload on CHMOD. // We do have to check for WRITE though. On slower laptops a Chmod // could be aggregated with other important events, and we still want // to rebuild on those if ev.Op&(fsnotify.Chmod|fsnotify.Write|fsnotify.Create) == fsnotify.Chmod { continue } walkAdder := func(path string, f hugofs.FileMetaInfo, err error) error { if f.IsDir() { c.logger.Println("adding created directory to watchlist", path) if err := watcher.Add(path); err != nil { return err } } else if !staticSyncer.isStatic(path) { // Hugo's rebuilding logic is entirely file based. When you drop a new folder into // /content on OSX, the above logic will handle future watching of those files, // but the initial CREATE is lost. dynamicEvents = append(dynamicEvents, fsnotify.Event{Name: path, Op: fsnotify.Create}) } return nil } // recursively add new directories to watch list // When mkdir -p is used, only the top directory triggers an event (at least on OSX) if ev.Op&fsnotify.Create == fsnotify.Create { if s, err := c.Fs.Source.Stat(ev.Name); err == nil && s.Mode().IsDir() { _ = helpers.SymbolicWalk(c.Fs.Source, ev.Name, walkAdder) } } if staticSyncer.isStatic(ev.Name) { staticEvents = append(staticEvents, ev) } else { dynamicEvents = append(dynamicEvents, ev) } } if len(staticEvents) > 0 { c.printChangeDetected("Static files") if c.Cfg.GetBool("forceSyncStatic") { c.logger.Printf("Syncing all static files\n") _, err := c.copyStatic() if err != nil { c.logger.Errorln("Error copying static files to publish dir:", err) return } } else { if err := staticSyncer.syncsStaticEvents(staticEvents); err != nil { c.logger.Errorln("Error syncing static files to publish dir:", err) return } } if !c.h.buildWatch && !c.Cfg.GetBool("disableLiveReload") { // Will block forever trying to write to a channel that nobody is reading if livereload isn't initialized // force refresh when more than one file if !c.wasError && len(staticEvents) == 1 { ev := staticEvents[0] path := c.hugo().BaseFs.SourceFilesystems.MakeStaticPathRelative(ev.Name) path = c.firstPathSpec().RelURL(helpers.ToSlashTrimLeading(path), false) livereload.RefreshPath(path) } else { livereload.ForceRefresh() } } } if len(dynamicEvents) > 0 { partitionedEvents := partitionDynamicEvents( c.firstPathSpec().BaseFs.SourceFilesystems, dynamicEvents) doLiveReload := !c.h.buildWatch && !c.Cfg.GetBool("disableLiveReload") onePageName := pickOneWriteOrCreatePath(partitionedEvents.ContentEvents) c.printChangeDetected("") c.changeDetector.PrepareNew() if err := c.rebuildSites(dynamicEvents); err != nil { c.handleBuildErr(err, "Rebuild failed") } if doLiveReload { if len(partitionedEvents.ContentEvents) == 0 && len(partitionedEvents.AssetEvents) > 0 { if c.wasError { livereload.ForceRefresh() return } changed := c.changeDetector.changed() if c.changeDetector != nil && len(changed) == 0 { // Nothing has changed. return } else if len(changed) == 1 { pathToRefresh := c.firstPathSpec().RelURL(helpers.ToSlashTrimLeading(changed[0]), false) livereload.RefreshPath(pathToRefresh) } else { livereload.ForceRefresh() } } if len(partitionedEvents.ContentEvents) > 0 { navigate := c.Cfg.GetBool("navigateToChanged") // We have fetched the same page above, but it may have // changed. var p page.Page if navigate { if onePageName != "" { p = c.hugo().GetContentPage(onePageName) } } if p != nil { livereload.NavigateToPathForPort(p.RelPermalink(), p.Site().ServerPort()) } else { livereload.ForceRefresh() } } } } } // dynamicEvents contains events that is considered dynamic, as in "not static". // Both of these categories will trigger a new build, but the asset events // does not fit into the "navigate to changed" logic. type dynamicEvents struct { ContentEvents []fsnotify.Event AssetEvents []fsnotify.Event } func partitionDynamicEvents(sourceFs *filesystems.SourceFilesystems, events []fsnotify.Event) (de dynamicEvents) { for _, e := range events { if sourceFs.IsAsset(e.Name) { de.AssetEvents = append(de.AssetEvents, e) } else { de.ContentEvents = append(de.ContentEvents, e) } } return } func pickOneWriteOrCreatePath(events []fsnotify.Event) string { name := "" // Some editors (for example notepad.exe on Windows) triggers a change // both for directory and file. So we pick the longest path, which should // be the file itself. for _, ev := range events { if (ev.Op&fsnotify.Write == fsnotify.Write || ev.Op&fsnotify.Create == fsnotify.Create) && len(ev.Name) > len(name) { name = ev.Name } } return name } func formatByteCount(b uint64) string { const unit = 1000 if b < unit { return fmt.Sprintf("%d B", b) } div, exp := int64(unit), 0 for n := b / unit; n >= unit; n /= unit { div *= unit exp++ } return fmt.Sprintf("%.1f %cB", float64(b)/float64(div), "kMGTPE"[exp]) }