// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // godoc: Go Documentation Server // Web server tree: // // http://godoc/ main landing page // http://godoc/doc/ serve from $GOROOT/doc - spec, mem, etc. // http://godoc/src/ serve files from $GOROOT/src; .go gets pretty-printed // http://godoc/cmd/ serve documentation about commands // http://godoc/pkg/ serve documentation about packages // (idea is if you say import "compress/zlib", you go to // http://godoc/pkg/compress/zlib) // // Command-line interface: // // godoc packagepath [name ...] // // godoc compress/zlib // - prints doc for package compress/zlib // godoc crypto/block Cipher NewCMAC // - prints doc for Cipher and NewCMAC in package crypto/block // +build !appengine package main import ( "archive/zip" "bytes" "errors" _ "expvar" // to serve /debug/vars "flag" "fmt" "go/ast" "go/build" "go/printer" "io" "log" "net/http" _ "net/http/pprof" // to serve /debug/pprof/* "net/url" "os" pathpkg "path" "path/filepath" "regexp" "runtime" "strings" ) const defaultAddr = ":6060" // default webserver address var ( // file system to serve // (with e.g.: zip -r go.zip $GOROOT -i \*.go -i \*.html -i \*.css -i \*.js -i \*.txt -i \*.c -i \*.h -i \*.s -i \*.png -i \*.jpg -i \*.sh -i favicon.ico) zipfile = flag.String("zip", "", "zip file providing the file system to serve; disabled if empty") // file-based index writeIndex = flag.Bool("write_index", false, "write index to a file; the file name must be specified with -index_files") // network httpAddr = flag.String("http", "", "HTTP service address (e.g., '"+defaultAddr+"')") serverAddr = flag.String("server", "", "webserver address for command line searches") // layout control html = flag.Bool("html", false, "print HTML in command-line mode") srcMode = flag.Bool("src", false, "print (exported) source in command-line mode") urlFlag = flag.String("url", "", "print HTML for named URL") // command-line searches query = flag.Bool("q", false, "arguments are considered search queries") ) func serveError(w http.ResponseWriter, r *http.Request, relpath string, err error) { w.WriteHeader(http.StatusNotFound) servePage(w, Page{ Title: "File " + relpath, Subtitle: relpath, Body: applyTemplate(errorHTML, "errorHTML", err), // err may contain an absolute path! }) } func usage() { fmt.Fprintf(os.Stderr, "usage: godoc package [name ...]\n"+ " godoc -http="+defaultAddr+"\n") flag.PrintDefaults() os.Exit(2) } func loggingHandler(h http.Handler) http.Handler { return http.HandlerFunc(func(w http.ResponseWriter, req *http.Request) { log.Printf("%s\t%s", req.RemoteAddr, req.URL) h.ServeHTTP(w, req) }) } func remoteSearch(query string) (res *http.Response, err error) { // list of addresses to try var addrs []string if *serverAddr != "" { // explicit server address - only try this one addrs = []string{*serverAddr} } else { addrs = []string{ defaultAddr, "golang.org", } } // remote search search := remoteSearchURL(query, *html) for _, addr := range addrs { url := "http://" + addr + search res, err = http.Get(url) if err == nil && res.StatusCode == http.StatusOK { break } } if err == nil && res.StatusCode != http.StatusOK { err = errors.New(res.Status) } return } // Does s look like a regular expression? func isRegexp(s string) bool { return strings.IndexAny(s, ".(|)*+?^$[]") >= 0 } // Make a regular expression of the form // names[0]|names[1]|...names[len(names)-1]. // Returns nil if the regular expression is illegal. func makeRx(names []string) (rx *regexp.Regexp) { if len(names) > 0 { s := "" for i, name := range names { if i > 0 { s += "|" } if isRegexp(name) { s += name } else { s += "^" + name + "$" // must match exactly } } rx, _ = regexp.Compile(s) // rx is nil if there's a compilation error } return } func main() { flag.Usage = usage flag.Parse() // Check usage: either server and no args, command line and args, or index creation mode if (*httpAddr != "" || *urlFlag != "") != (flag.NArg() == 0) && !*writeIndex { usage() } if *tabwidth < 0 { log.Fatalf("negative tabwidth %d", *tabwidth) } // Determine file system to use. // TODO(gri) - fs and fsHttp should really be the same. Try to unify. // - fsHttp doesn't need to be set up in command-line mode, // same is true for the http handlers in initHandlers. if *zipfile == "" { // use file system of underlying OS fs.Bind("/", OS(*goroot), "/", bindReplace) if *templateDir != "" { fs.Bind("/lib/godoc", OS(*templateDir), "/", bindBefore) } } else { // use file system specified via .zip file (path separator must be '/') rc, err := zip.OpenReader(*zipfile) if err != nil { log.Fatalf("%s: %s\n", *zipfile, err) } defer rc.Close() // be nice (e.g., -writeIndex mode) fs.Bind("/", NewZipFS(rc, *zipfile), *goroot, bindReplace) } // Bind $GOPATH trees into Go root. for _, p := range filepath.SplitList(build.Default.GOPATH) { fs.Bind("/src/pkg", OS(p), "/src", bindAfter) } readTemplates() initHandlers() if *writeIndex { // Write search index and exit. if *indexFiles == "" { log.Fatal("no index file specified") } log.Println("initialize file systems") *verbose = true // want to see what happens initFSTree() *indexThrottle = 1 updateIndex() log.Println("writing index file", *indexFiles) f, err := os.Create(*indexFiles) if err != nil { log.Fatal(err) } index, _ := searchIndex.get() err = index.(*Index).Write(f) if err != nil { log.Fatal(err) } log.Println("done") return } // Print content that would be served at the URL *urlFlag. if *urlFlag != "" { registerPublicHandlers(http.DefaultServeMux) initFSTree() updateMetadata() // Try up to 10 fetches, following redirects. urlstr := *urlFlag for i := 0; i < 10; i++ { // Prepare request. u, err := url.Parse(urlstr) if err != nil { log.Fatal(err) } req := &http.Request{ URL: u, } // Invoke default HTTP handler to serve request // to our buffering httpWriter. w := &httpWriter{h: http.Header{}, code: 200} http.DefaultServeMux.ServeHTTP(w, req) // Return data, error, or follow redirect. switch w.code { case 200: // ok os.Stdout.Write(w.Bytes()) return case 301, 302, 303, 307: // redirect redirect := w.h.Get("Location") if redirect == "" { log.Fatalf("HTTP %d without Location header", w.code) } urlstr = redirect default: log.Fatalf("HTTP error %d", w.code) } } log.Fatalf("too many redirects") } if *httpAddr != "" { // HTTP server mode. var handler http.Handler = http.DefaultServeMux if *verbose { log.Printf("Go Documentation Server") log.Printf("version = %s", runtime.Version()) log.Printf("address = %s", *httpAddr) log.Printf("goroot = %s", *goroot) log.Printf("tabwidth = %d", *tabwidth) switch { case !*indexEnabled: log.Print("search index disabled") case *maxResults > 0: log.Printf("full text index enabled (maxresults = %d)", *maxResults) default: log.Print("identifier search index enabled") } fs.Fprint(os.Stderr) handler = loggingHandler(handler) } registerPublicHandlers(http.DefaultServeMux) registerPlaygroundHandlers(http.DefaultServeMux) // Initialize default directory tree with corresponding timestamp. // (Do it in a goroutine so that launch is quick.) go initFSTree() // Immediately update metadata. updateMetadata() // Periodically refresh metadata. go refreshMetadataLoop() // Initialize search index. if *indexEnabled { go indexer() } // Start http server. if err := http.ListenAndServe(*httpAddr, handler); err != nil { log.Fatalf("ListenAndServe %s: %v", *httpAddr, err) } return } // Command line mode. if *html { packageText = packageHTML searchText = packageHTML } if *query { // Command-line queries. for i := 0; i < flag.NArg(); i++ { res, err := remoteSearch(flag.Arg(i)) if err != nil { log.Fatalf("remoteSearch: %s", err) } io.Copy(os.Stdout, res.Body) } return } // Determine paths. // // If we are passed an operating system path like . or ./foo or /foo/bar or c:\mysrc, // we need to map that path somewhere in the fs name space so that routines // like getPageInfo will see it. We use the arbitrarily-chosen virtual path "/target" // for this. That is, if we get passed a directory like the above, we map that // directory so that getPageInfo sees it as /target. const target = "/target" const cmdPrefix = "cmd/" path := flag.Arg(0) var forceCmd bool var abspath, relpath string if filepath.IsAbs(path) { fs.Bind(target, OS(path), "/", bindReplace) abspath = target } else if build.IsLocalImport(path) { cwd, _ := os.Getwd() // ignore errors path = filepath.Join(cwd, path) fs.Bind(target, OS(path), "/", bindReplace) abspath = target } else if strings.HasPrefix(path, cmdPrefix) { path = path[len(cmdPrefix):] forceCmd = true } else if bp, _ := build.Import(path, "", build.FindOnly); bp.Dir != "" && bp.ImportPath != "" { fs.Bind(target, OS(bp.Dir), "/", bindReplace) abspath = target relpath = bp.ImportPath } else { abspath = pathpkg.Join(pkgHandler.fsRoot, path) } if relpath == "" { relpath = abspath } var mode PageInfoMode if relpath == builtinPkgPath { // the fake built-in package contains unexported identifiers mode = noFiltering } if *srcMode { // only filter exports if we don't have explicit command-line filter arguments if flag.NArg() > 1 { mode |= noFiltering } mode |= showSource } // first, try as package unless forced as command var info PageInfo if !forceCmd { info = pkgHandler.getPageInfo(abspath, relpath, mode) } // second, try as command unless the path is absolute // (the go command invokes godoc w/ absolute paths; don't override) var cinfo PageInfo if !filepath.IsAbs(path) { abspath = pathpkg.Join(cmdHandler.fsRoot, path) cinfo = cmdHandler.getPageInfo(abspath, relpath, mode) } // determine what to use if info.IsEmpty() { if !cinfo.IsEmpty() { // only cinfo exists - switch to cinfo info = cinfo } } else if !cinfo.IsEmpty() { // both info and cinfo exist - use cinfo if info // contains only subdirectory information if info.PAst == nil && info.PDoc == nil { info = cinfo } else { fmt.Printf("use 'godoc %s%s' for documentation on the %s command \n\n", cmdPrefix, relpath, relpath) } } if info.Err != nil { log.Fatalf("%v", info.Err) } if info.PDoc != nil && info.PDoc.ImportPath == target { // Replace virtual /target with actual argument from command line. info.PDoc.ImportPath = flag.Arg(0) } // If we have more than one argument, use the remaining arguments for filtering if flag.NArg() > 1 { args := flag.Args()[1:] rx := makeRx(args) if rx == nil { log.Fatalf("illegal regular expression from %v", args) } filter := func(s string) bool { return rx.MatchString(s) } switch { case info.PAst != nil: cmap := ast.NewCommentMap(info.FSet, info.PAst, info.PAst.Comments) ast.FilterFile(info.PAst, filter) // Special case: Don't use templates for printing // so we only get the filtered declarations without // package clause or extra whitespace. for i, d := range info.PAst.Decls { // determine the comments associated with d only comments := cmap.Filter(d).Comments() cn := &printer.CommentedNode{Node: d, Comments: comments} if i > 0 { fmt.Println() } if *html { var buf bytes.Buffer writeNode(&buf, info.FSet, cn) FormatText(os.Stdout, buf.Bytes(), -1, true, "", nil) } else { writeNode(os.Stdout, info.FSet, cn) } fmt.Println() } return case info.PDoc != nil: info.PDoc.Filter(filter) } } if err := packageText.Execute(os.Stdout, info); err != nil { log.Printf("packageText.Execute: %s", err) } } // An httpWriter is an http.ResponseWriter writing to a bytes.Buffer. type httpWriter struct { bytes.Buffer h http.Header code int } func (w *httpWriter) Header() http.Header { return w.h } func (w *httpWriter) WriteHeader(code int) { w.code = code }