package deps import ( "context" "fmt" "io" "path/filepath" "sort" "strings" "sync" "sync/atomic" "github.com/bep/logg" "github.com/gohugoio/hugo/cache/dynacache" "github.com/gohugoio/hugo/cache/filecache" "github.com/gohugoio/hugo/common/hexec" "github.com/gohugoio/hugo/common/loggers" "github.com/gohugoio/hugo/common/maps" "github.com/gohugoio/hugo/common/types" "github.com/gohugoio/hugo/config" "github.com/gohugoio/hugo/config/allconfig" "github.com/gohugoio/hugo/config/security" "github.com/gohugoio/hugo/helpers" "github.com/gohugoio/hugo/hugofs" "github.com/gohugoio/hugo/identity" "github.com/gohugoio/hugo/internal/warpc" "github.com/gohugoio/hugo/media" "github.com/gohugoio/hugo/resources/page" "github.com/gohugoio/hugo/resources/postpub" "github.com/gohugoio/hugo/metrics" "github.com/gohugoio/hugo/resources" "github.com/gohugoio/hugo/source" "github.com/gohugoio/hugo/tpl" "github.com/spf13/afero" ) // Deps holds dependencies used by many. // There will be normally only one instance of deps in play // at a given time, i.e. one per Site built. type Deps struct { // The logger to use. Log loggers.Logger `json:"-"` ExecHelper *hexec.Exec // The templates to use. This will usually implement the full tpl.TemplateManager. tmplHandlers *tpl.TemplateHandlers // The file systems to use. Fs *hugofs.Fs `json:"-"` // The PathSpec to use *helpers.PathSpec `json:"-"` // The ContentSpec to use *helpers.ContentSpec `json:"-"` // The SourceSpec to use SourceSpec *source.SourceSpec `json:"-"` // The Resource Spec to use ResourceSpec *resources.Spec // The configuration to use Conf config.AllProvider `json:"-"` // The memory cache to use. MemCache *dynacache.Cache // The translation func to use Translate func(ctx context.Context, translationID string, templateData any) string `json:"-"` // The site building. Site page.Site TemplateProvider ResourceProvider // Used in tests OverloadedTemplateFuncs map[string]any TranslationProvider ResourceProvider Metrics metrics.Provider // BuildStartListeners will be notified before a build starts. BuildStartListeners *Listeners // BuildEndListeners will be notified after a build finishes. BuildEndListeners *Listeners // Resources that gets closed when the build is done or the server shuts down. BuildClosers *types.Closers // This is common/global for all sites. BuildState *BuildState // Holds RPC dispatchers for Katex etc. // TODO(bep) rethink this re. a plugin setup, but this will have to do for now. WasmDispatchers *warpc.Dispatchers *globalErrHandler } func (d Deps) Clone(s page.Site, conf config.AllProvider) (*Deps, error) { d.Conf = conf d.Site = s d.ExecHelper = nil d.ContentSpec = nil if err := d.Init(); err != nil { return nil, err } return &d, nil } func (d *Deps) SetTempl(t *tpl.TemplateHandlers) { d.tmplHandlers = t } func (d *Deps) Init() error { if d.Conf == nil { panic("conf is nil") } if d.Fs == nil { // For tests. d.Fs = hugofs.NewFrom(afero.NewMemMapFs(), d.Conf.BaseConfig()) } if d.Log == nil { d.Log = loggers.NewDefault() } if d.globalErrHandler == nil { d.globalErrHandler = &globalErrHandler{ logger: d.Log, } } if d.BuildState == nil { d.BuildState = &BuildState{} } if d.BuildState.DeferredExecutions == nil { if d.BuildState.DeferredExecutionsGroupedByRenderingContext == nil { d.BuildState.DeferredExecutionsGroupedByRenderingContext = make(map[tpl.RenderingContext]*DeferredExecutions) } d.BuildState.DeferredExecutions = &DeferredExecutions{ Executions: maps.NewCache[string, *tpl.DeferredExecution](), FilenamesWithPostPrefix: maps.NewCache[string, bool](), } } if d.BuildStartListeners == nil { d.BuildStartListeners = &Listeners{} } if d.BuildEndListeners == nil { d.BuildEndListeners = &Listeners{} } if d.BuildClosers == nil { d.BuildClosers = &types.Closers{} } if d.Metrics == nil && d.Conf.TemplateMetrics() { d.Metrics = metrics.NewProvider(d.Conf.TemplateMetricsHints()) } if d.ExecHelper == nil { d.ExecHelper = hexec.New(d.Conf.GetConfigSection("security").(security.Config), d.Conf.WorkingDir()) } if d.MemCache == nil { d.MemCache = dynacache.New(dynacache.Options{Watching: d.Conf.Watching(), Log: d.Log}) } if d.PathSpec == nil { hashBytesReceiverFunc := func(name string, match []byte) { s := string(match) switch s { case postpub.PostProcessPrefix: d.BuildState.AddFilenameWithPostPrefix(name) case tpl.HugoDeferredTemplatePrefix: d.BuildState.DeferredExecutions.FilenamesWithPostPrefix.Set(name, true) } } // Skip binary files. mediaTypes := d.Conf.GetConfigSection("mediaTypes").(media.Types) hashBytesShouldCheck := func(name string) bool { ext := strings.TrimPrefix(filepath.Ext(name), ".") return mediaTypes.IsTextSuffix(ext) } d.Fs.PublishDir = hugofs.NewHasBytesReceiver( d.Fs.PublishDir, hashBytesShouldCheck, hashBytesReceiverFunc, []byte(tpl.HugoDeferredTemplatePrefix), []byte(postpub.PostProcessPrefix)) pathSpec, err := helpers.NewPathSpec(d.Fs, d.Conf, d.Log) if err != nil { return err } d.PathSpec = pathSpec } else { var err error d.PathSpec, err = helpers.NewPathSpecWithBaseBaseFsProvided(d.Fs, d.Conf, d.Log, d.PathSpec.BaseFs) if err != nil { return err } } if d.ContentSpec == nil { contentSpec, err := helpers.NewContentSpec(d.Conf, d.Log, d.Content.Fs, d.ExecHelper) if err != nil { return err } d.ContentSpec = contentSpec } if d.SourceSpec == nil { d.SourceSpec = source.NewSourceSpec(d.PathSpec, nil, d.Fs.Source) } var common *resources.SpecCommon if d.ResourceSpec != nil { common = d.ResourceSpec.SpecCommon } fileCaches, err := filecache.NewCaches(d.PathSpec) if err != nil { return fmt.Errorf("failed to create file caches from configuration: %w", err) } resourceSpec, err := resources.NewSpec(d.PathSpec, common, fileCaches, d.MemCache, d.BuildState, d.Log, d, d.ExecHelper, d.BuildClosers, d.BuildState) if err != nil { return fmt.Errorf("failed to create resource spec: %w", err) } d.ResourceSpec = resourceSpec return nil } func (d *Deps) Compile(prototype *Deps) error { var err error if prototype == nil { if err = d.TemplateProvider.NewResource(d); err != nil { return err } if err = d.TranslationProvider.NewResource(d); err != nil { return err } return nil } if err = d.TemplateProvider.CloneResource(d, prototype); err != nil { return err } if err = d.TranslationProvider.CloneResource(d, prototype); err != nil { return err } return nil } type globalErrHandler struct { logger loggers.Logger // Channel for some "hard to get to" build errors buildErrors chan error // Used to signal that the build is done. quit chan struct{} } // SendError sends the error on a channel to be handled later. // This can be used in situations where returning and aborting the current // operation isn't practical. func (e *globalErrHandler) SendError(err error) { if e.buildErrors != nil { select { case <-e.quit: case e.buildErrors <- err: default: } return } e.logger.Errorln(err) } func (e *globalErrHandler) StartErrorCollector() chan error { e.quit = make(chan struct{}) e.buildErrors = make(chan error, 10) return e.buildErrors } func (e *globalErrHandler) StopErrorCollector() { if e.buildErrors != nil { close(e.quit) close(e.buildErrors) } } // Listeners represents an event listener. type Listeners struct { sync.Mutex // A list of funcs to be notified about an event. listeners []func() } // Add adds a function to a Listeners instance. func (b *Listeners) Add(f func()) { if b == nil { return } b.Lock() defer b.Unlock() b.listeners = append(b.listeners, f) } // Notify executes all listener functions. func (b *Listeners) Notify() { b.Lock() defer b.Unlock() for _, notify := range b.listeners { notify() } } // ResourceProvider is used to create and refresh, and clone resources needed. type ResourceProvider interface { NewResource(dst *Deps) error CloneResource(dst, src *Deps) error } func (d *Deps) Tmpl() tpl.TemplateHandler { return d.tmplHandlers.Tmpl } func (d *Deps) TextTmpl() tpl.TemplateParseFinder { return d.tmplHandlers.TxtTmpl } func (d *Deps) Close() error { if d.MemCache != nil { d.MemCache.Stop() } if d.WasmDispatchers != nil { d.WasmDispatchers.Close() } return d.BuildClosers.Close() } // DepsCfg contains configuration options that can be used to configure Hugo // on a global level, i.e. logging etc. // Nil values will be given default values. type DepsCfg struct { // The logger to use. Only set in some tests. // TODO(bep) get rid of this. TestLogger loggers.Logger // The logging level to use. LogLevel logg.Level // Where to write the logs. // Currently we typically write everything to stdout. LogOut io.Writer // The file systems to use Fs *hugofs.Fs // The Site in use Site page.Site Configs *allconfig.Configs // Template handling. TemplateProvider ResourceProvider // i18n handling. TranslationProvider ResourceProvider // ChangesFromBuild for changes passed back to the server/watch process. ChangesFromBuild chan []identity.Identity } // BuildState are state used during a build. type BuildState struct { counter uint64 mu sync.Mutex // protects state below. OnSignalRebuild func(ids ...identity.Identity) // A set of filenames in /public that // contains a post-processing prefix. filenamesWithPostPrefix map[string]bool DeferredExecutions *DeferredExecutions // Deferred executions grouped by rendering context. DeferredExecutionsGroupedByRenderingContext map[tpl.RenderingContext]*DeferredExecutions } type DeferredExecutions struct { // A set of filenames in /public that // contains a post-processing prefix. FilenamesWithPostPrefix *maps.Cache[string, bool] // Maps a placeholder to a deferred execution. Executions *maps.Cache[string, *tpl.DeferredExecution] } var _ identity.SignalRebuilder = (*BuildState)(nil) // StartStageRender will be called before a stage is rendered. func (b *BuildState) StartStageRender(stage tpl.RenderingContext) { } // StopStageRender will be called after a stage is rendered. func (b *BuildState) StopStageRender(stage tpl.RenderingContext) { b.DeferredExecutionsGroupedByRenderingContext[stage] = b.DeferredExecutions b.DeferredExecutions = &DeferredExecutions{ Executions: maps.NewCache[string, *tpl.DeferredExecution](), FilenamesWithPostPrefix: maps.NewCache[string, bool](), } } func (b *BuildState) SignalRebuild(ids ...identity.Identity) { b.OnSignalRebuild(ids...) } func (b *BuildState) AddFilenameWithPostPrefix(filename string) { b.mu.Lock() defer b.mu.Unlock() if b.filenamesWithPostPrefix == nil { b.filenamesWithPostPrefix = make(map[string]bool) } b.filenamesWithPostPrefix[filename] = true } func (b *BuildState) GetFilenamesWithPostPrefix() []string { b.mu.Lock() defer b.mu.Unlock() var filenames []string for filename := range b.filenamesWithPostPrefix { filenames = append(filenames, filename) } sort.Strings(filenames) return filenames } func (b *BuildState) Incr() int { return int(atomic.AddUint64(&b.counter, uint64(1))) }