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// 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.
package main
import (
"bytes"
"flag"
"fmt"
"go/ast"
"go/doc"
"go/parser"
"go/printer"
"go/token"
"http"
"io"
"io/ioutil"
"log"
"os"
pathutil "path"
"regexp"
"runtime"
"sort"
"strings"
"template"
"time"
)
// ----------------------------------------------------------------------------
// Globals
type delayTime struct {
RWValue
}
func (dt *delayTime) backoff(max int) {
dt.mutex.Lock()
v := dt.value.(int) * 2
if v > max {
v = max
}
dt.value = v
// don't change dt.timestamp - calling backoff indicates an error condition
dt.mutex.Unlock()
}
var (
verbose = flag.Bool("v", false, "verbose mode")
// file system roots
// TODO(gri) consider the invariant that goroot always end in '/'
goroot = flag.String("goroot", runtime.GOROOT(), "Go root directory")
testDir = flag.String("testdir", "", "Go root subdirectory - for testing only (faster startups)")
pkgPath = flag.String("path", "", "additional package directories (colon-separated)")
filter = flag.String("filter", "", "filter file containing permitted package directory paths")
filterMin = flag.Int("filter_minutes", 0, "filter file update interval in minutes; disabled if <= 0")
filterDelay delayTime // actual filter update interval in minutes; usually filterDelay == filterMin, but filterDelay may back off exponentially
// layout control
tabwidth = flag.Int("tabwidth", 4, "tab width")
showTimestamps = flag.Bool("timestamps", true, "show timestamps with directory listings")
maxResults = flag.Int("maxresults", 10000, "maximum number of full text search results shown")
// file system mapping
fsMap Mapping // user-defined mapping
fsTree RWValue // *Directory tree of packages, updated with each sync
pathFilter RWValue // filter used when building fsMap directory trees
fsModified RWValue // timestamp of last call to invalidateIndex
// http handlers
fileServer http.Handler // default file server
cmdHandler httpHandler
pkgHandler httpHandler
)
func initHandlers() {
fsMap.Init(*pkgPath)
fileServer = http.FileServer(*goroot, "")
cmdHandler = httpHandler{"/cmd/", pathutil.Join(*goroot, "src/cmd"), false}
pkgHandler = httpHandler{"/pkg/", pathutil.Join(*goroot, "src/pkg"), true}
}
func registerPublicHandlers(mux *http.ServeMux) {
mux.Handle(cmdHandler.pattern, &cmdHandler)
mux.Handle(pkgHandler.pattern, &pkgHandler)
mux.HandleFunc("/doc/codewalk/", codewalk)
mux.HandleFunc("/search", search)
mux.Handle("/robots.txt", fileServer)
mux.HandleFunc("/", serveFile)
}
func initFSTree() {
fsTree.set(newDirectory(pathutil.Join(*goroot, *testDir), nil, -1))
invalidateIndex()
}
// ----------------------------------------------------------------------------
// Directory filters
// isParentOf returns true if p is a parent of (or the same as) q
// where p and q are directory paths.
func isParentOf(p, q string) bool {
n := len(p)
return strings.HasPrefix(q, p) && (len(q) <= n || q[n] == '/')
}
func setPathFilter(list []string) {
if len(list) == 0 {
pathFilter.set(nil)
return
}
// len(list) > 0
pathFilter.set(func(path string) bool {
// list is sorted in increasing order and for each path all its children are removed
i := sort.Search(len(list), func(i int) bool { return list[i] > path })
// Now we have list[i-1] <= path < list[i].
// Path may be a child of list[i-1] or a parent of list[i].
return i > 0 && isParentOf(list[i-1], path) || i < len(list) && isParentOf(path, list[i])
})
}
func getPathFilter() func(string) bool {
f, _ := pathFilter.get()
if f != nil {
return f.(func(string) bool)
}
return nil
}
// readDirList reads a file containing a newline-separated list
// of directory paths and returns the list of paths.
func readDirList(filename string) ([]string, os.Error) {
contents, err := ioutil.ReadFile(filename)
if err != nil {
return nil, err
}
// create a sorted list of valid directory names
filter := func(path string) bool {
d, e := os.Lstat(path)
if e != nil && err == nil {
// remember first error and return it from readDirList
// so we have at least some information if things go bad
err = e
}
return e == nil && isPkgDir(d)
}
list := canonicalizePaths(strings.Split(string(contents), "\n", -1), filter)
// for each parent path, remove all it's children q
// (requirement for binary search to work when filtering)
i := 0
for _, q := range list {
if i == 0 || !isParentOf(list[i-1], q) {
list[i] = q
i++
}
}
return list[0:i], err
}
// updateMappedDirs computes the directory tree for
// each user-defined file system mapping. If a filter
// is provided, it is used to filter directories.
//
func updateMappedDirs(filter func(string) bool) {
if !fsMap.IsEmpty() {
fsMap.Iterate(func(path string, value *RWValue) bool {
value.set(newDirectory(path, filter, -1))
return true
})
invalidateIndex()
}
}
func updateFilterFile() {
updateMappedDirs(nil) // no filter for accuracy
// collect directory tree leaf node paths
var buf bytes.Buffer
fsMap.Iterate(func(_ string, value *RWValue) bool {
v, _ := value.get()
if v != nil && v.(*Directory) != nil {
v.(*Directory).writeLeafs(&buf)
}
return true
})
// update filter file
if err := writeFileAtomically(*filter, buf.Bytes()); err != nil {
log.Printf("writeFileAtomically(%s): %s", *filter, err)
filterDelay.backoff(24 * 60) // back off exponentially, but try at least once a day
} else {
filterDelay.set(*filterMin) // revert to regular filter update schedule
}
}
func initDirTrees() {
// setup initial path filter
if *filter != "" {
list, err := readDirList(*filter)
if err != nil {
log.Printf("readDirList(%s): %s", *filter, err)
}
if *verbose || len(list) == 0 {
log.Printf("found %d directory paths in file %s", len(list), *filter)
}
setPathFilter(list)
}
go updateMappedDirs(getPathFilter()) // use filter for speed
// start filter update goroutine, if enabled.
if *filter != "" && *filterMin > 0 {
filterDelay.set(*filterMin) // initial filter update delay
go func() {
for {
if *verbose {
log.Printf("start update of %s", *filter)
}
updateFilterFile()
delay, _ := filterDelay.get()
if *verbose {
log.Printf("next filter update in %dmin", delay.(int))
}
time.Sleep(int64(delay.(int)) * 60e9)
}
}()
}
}
// ----------------------------------------------------------------------------
// Path mapping
func absolutePath(path, defaultRoot string) string {
abspath := fsMap.ToAbsolute(path)
if abspath == "" {
// no user-defined mapping found; use default mapping
abspath = pathutil.Join(defaultRoot, path)
}
return abspath
}
func relativePath(path string) string {
relpath := fsMap.ToRelative(path)
if relpath == "" {
// prefix must end in '/'
prefix := *goroot
if len(prefix) > 0 && prefix[len(prefix)-1] != '/' {
prefix += "/"
}
if strings.HasPrefix(path, prefix) {
// no user-defined mapping found; use default mapping
relpath = path[len(prefix):]
}
}
// Only if path is an invalid absolute path is relpath == ""
// at this point. This should never happen since absolute paths
// are only created via godoc for files that do exist. However,
// it is ok to return ""; it will simply provide a link to the
// top of the pkg or src directories.
return relpath
}
// ----------------------------------------------------------------------------
// Tab conversion
var spaces = []byte(" ") // 32 spaces seems like a good number
const (
indenting = iota
collecting
)
// A tconv is an io.Writer filter for converting leading tabs into spaces.
type tconv struct {
output io.Writer
state int // indenting or collecting
indent int // valid if state == indenting
}
func (p *tconv) writeIndent() (err os.Error) {
i := p.indent
for i >= len(spaces) {
i -= len(spaces)
if _, err = p.output.Write(spaces); err != nil {
return
}
}
// i < len(spaces)
if i > 0 {
_, err = p.output.Write(spaces[0:i])
}
return
}
func (p *tconv) Write(data []byte) (n int, err os.Error) {
if len(data) == 0 {
return
}
pos := 0 // valid if p.state == collecting
var b byte
for n, b = range data {
switch p.state {
case indenting:
switch b {
case '\t':
p.indent += *tabwidth
case '\n':
p.indent = 0
if _, err = p.output.Write(data[n : n+1]); err != nil {
return
}
case ' ':
p.indent++
default:
p.state = collecting
pos = n
if err = p.writeIndent(); err != nil {
return
}
}
case collecting:
if b == '\n' {
p.state = indenting
p.indent = 0
if _, err = p.output.Write(data[pos : n+1]); err != nil {
return
}
}
}
}
n = len(data)
if pos < n && p.state == collecting {
_, err = p.output.Write(data[pos:])
}
return
}
// ----------------------------------------------------------------------------
// Templates
// Write an AST node to w.
func writeNode(w io.Writer, fset *token.FileSet, x interface{}) {
// convert trailing tabs into spaces using a tconv filter
// to ensure a good outcome in most browsers (there may still
// be tabs in comments and strings, but converting those into
// the right number of spaces is much harder)
//
// TODO(gri) rethink printer flags - perhaps tconv can be eliminated
// with an another printer mode (which is more efficiently
// implemented in the printer than here with another layer)
mode := printer.TabIndent | printer.UseSpaces
(&printer.Config{mode, *tabwidth}).Fprint(&tconv{output: w}, fset, x)
}
// Write anything to w.
func writeAny(w io.Writer, fset *token.FileSet, x interface{}) {
switch v := x.(type) {
case []byte:
w.Write(v)
case string:
w.Write([]byte(v))
case ast.Decl, ast.Expr, ast.Stmt, *ast.File:
writeNode(w, fset, x)
default:
fmt.Fprint(w, x)
}
}
// Write anything html-escaped to w.
func writeAnyHTML(w io.Writer, fset *token.FileSet, x interface{}) {
switch v := x.(type) {
case []byte:
template.HTMLEscape(w, v)
case string:
template.HTMLEscape(w, []byte(v))
case ast.Decl, ast.Expr, ast.Stmt, *ast.File:
var buf bytes.Buffer
writeNode(&buf, fset, x)
FormatText(w, buf.Bytes(), -1, true, "", nil)
default:
var buf bytes.Buffer
fmt.Fprint(&buf, x)
template.HTMLEscape(w, buf.Bytes())
}
}
func fileset(x []interface{}) *token.FileSet {
if len(x) > 1 {
if fset, ok := x[1].(*token.FileSet); ok {
return fset
}
}
return nil
}
// Template formatter for "html-esc" format.
func htmlEscFmt(w io.Writer, format string, x ...interface{}) {
writeAnyHTML(w, fileset(x), x[0])
}
// Template formatter for "html-comment" format.
func htmlCommentFmt(w io.Writer, format string, x ...interface{}) {
var buf bytes.Buffer
writeAny(&buf, fileset(x), x[0])
// TODO(gri) Provide list of words (e.g. function parameters)
// to be emphasized by ToHTML.
doc.ToHTML(w, buf.Bytes(), nil) // does html-escaping
}
// Template formatter for "" (default) format.
func textFmt(w io.Writer, format string, x ...interface{}) {
writeAny(w, fileset(x), x[0])
}
// Template formatter for "urlquery-esc" format.
func urlQueryEscFmt(w io.Writer, format string, x ...interface{}) {
var buf bytes.Buffer
writeAny(&buf, fileset(x), x[0])
template.HTMLEscape(w, []byte(http.URLEscape(string(buf.Bytes()))))
}
// Template formatter for the various "url-xxx" formats excluding url-esc.
func urlFmt(w io.Writer, format string, x ...interface{}) {
var path string
var line int
var low, high int // selection
// determine path and position info, if any
type positioner interface {
Pos() token.Pos
End() token.Pos
}
switch t := x[0].(type) {
case string:
path = t
case positioner:
fset := fileset(x)
if p := t.Pos(); p.IsValid() {
pos := fset.Position(p)
path = pos.Filename
line = pos.Line
low = pos.Offset
}
if p := t.End(); p.IsValid() {
high = fset.Position(p).Offset
}
default:
// we should never reach here, but be resilient
// and assume the position is invalid (empty path,
// and line 0)
log.Printf("INTERNAL ERROR: urlFmt(%s) without a string or positioner", format)
}
// map path
relpath := relativePath(path)
// convert to relative URLs so that they can also
// be used as relative file names in .txt templates
switch format {
default:
// we should never reach here, but be resilient
// and assume the url-pkg format instead
log.Printf("INTERNAL ERROR: urlFmt(%s)", format)
fallthrough
case "url-pkg":
// because of the irregular mapping under goroot
// we need to correct certain relative paths
if strings.HasPrefix(relpath, "src/pkg/") {
relpath = relpath[len("src/pkg/"):]
}
template.HTMLEscape(w, []byte(pkgHandler.pattern[1:]+relpath)) // remove trailing '/' for relative URL
case "url-src":
template.HTMLEscape(w, []byte(relpath))
case "url-pos":
template.HTMLEscape(w, []byte(relpath))
// selection ranges are of form "s=low:high"
if low < high {
fmt.Fprintf(w, "?s=%d:%d", low, high)
// if we have a selection, position the page
// such that the selection is a bit below the top
line -= 10
if line < 1 {
line = 1
}
}
// line id's in html-printed source are of the
// form "L%d" where %d stands for the line number
if line > 0 {
fmt.Fprintf(w, "#L%d", line)
}
}
}
// The strings in infoKinds must be properly html-escaped.
var infoKinds = [nKinds]string{
PackageClause: "package&nbsp;clause",
ImportDecl: "import&nbsp;decl",
ConstDecl: "const&nbsp;decl",
TypeDecl: "type&nbsp;decl",
VarDecl: "var&nbsp;decl",
FuncDecl: "func&nbsp;decl",
MethodDecl: "method&nbsp;decl",
Use: "use",
}
// Template formatter for "infoKind" format.
func infoKindFmt(w io.Writer, format string, x ...interface{}) {
fmt.Fprintf(w, infoKinds[x[0].(SpotKind)]) // infoKind entries are html-escaped
}
// Template formatter for "infoLine" format.
func infoLineFmt(w io.Writer, format string, x ...interface{}) {
info := x[0].(SpotInfo)
line := info.Lori()
if info.IsIndex() {
index, _ := searchIndex.get()
if index != nil {
line = index.(*Index).Snippet(line).Line
} else {
// no line information available because
// we don't have an index - this should
// never happen; be conservative and don't
// crash
line = 0
}
}
fmt.Fprintf(w, "%d", line)
}
// Template formatter for "infoSnippet" format.
func infoSnippetFmt(w io.Writer, format string, x ...interface{}) {
info := x[0].(SpotInfo)
text := []byte(`<span class="alert">no snippet text available</span>`)
if info.IsIndex() {
index, _ := searchIndex.get()
// no escaping of snippet text needed;
// snippet text is escaped when generated
text = index.(*Index).Snippet(info.Lori()).Text
}
w.Write(text)
}
// Template formatter for "padding" format.
func paddingFmt(w io.Writer, format string, x ...interface{}) {
for i := x[0].(int); i > 0; i-- {
fmt.Fprint(w, `<td width="25"></td>`)
}
}
// Template formatter for "time" format.
func timeFmt(w io.Writer, format string, x ...interface{}) {
template.HTMLEscape(w, []byte(time.SecondsToLocalTime(x[0].(int64)/1e9).String()))
}
// Template formatter for "dir/" format.
func dirslashFmt(w io.Writer, format string, x ...interface{}) {
if x[0].(*os.FileInfo).IsDirectory() {
w.Write([]byte{'/'})
}
}
// Template formatter for "localname" format.
func localnameFmt(w io.Writer, format string, x ...interface{}) {
_, localname := pathutil.Split(x[0].(string))
template.HTMLEscape(w, []byte(localname))
}
// Template formatter for "numlines" format.
func numlinesFmt(w io.Writer, format string, x ...interface{}) {
list := x[0].([]int)
fmt.Fprintf(w, "%d", len(list))
}
var fmap = template.FormatterMap{
"": textFmt,
"html-esc": htmlEscFmt,
"html-comment": htmlCommentFmt,
"urlquery-esc": urlQueryEscFmt,
"url-pkg": urlFmt,
"url-src": urlFmt,
"url-pos": urlFmt,
"infoKind": infoKindFmt,
"infoLine": infoLineFmt,
"infoSnippet": infoSnippetFmt,
"padding": paddingFmt,
"time": timeFmt,
"dir/": dirslashFmt,
"localname": localnameFmt,
"numlines": numlinesFmt,
}
func readTemplate(name string) *template.Template {
path := pathutil.Join(*goroot, "lib/godoc/"+name)
data, err := ioutil.ReadFile(path)
if err != nil {
log.Fatalf("ReadFile %s: %v", path, err)
}
t, err := template.Parse(string(data), fmap)
if err != nil {
log.Fatalf("%s: %v", name, err)
}
return t
}
var (
codewalkHTML,
codewalkdirHTML,
dirlistHTML,
errorHTML,
godocHTML,
packageHTML,
packageText,
searchHTML,
searchText *template.Template
)
func readTemplates() {
// have to delay until after flags processing since paths depend on goroot
codewalkHTML = readTemplate("codewalk.html")
codewalkdirHTML = readTemplate("codewalkdir.html")
dirlistHTML = readTemplate("dirlist.html")
errorHTML = readTemplate("error.html")
godocHTML = readTemplate("godoc.html")
packageHTML = readTemplate("package.html")
packageText = readTemplate("package.txt")
searchHTML = readTemplate("search.html")
searchText = readTemplate("search.txt")
}
// ----------------------------------------------------------------------------
// Generic HTML wrapper
func servePage(w http.ResponseWriter, title, subtitle, query string, content []byte) {
d := struct {
Title string
Subtitle string
PkgRoots []string
Query string
Version string
Menu []byte
Content []byte
}{
title,
subtitle,
fsMap.PrefixList(),
query,
runtime.Version(),
nil,
content,
}
if err := godocHTML.Execute(w, &d); err != nil {
log.Printf("godocHTML.Execute: %s", err)
}
}
func serveText(w http.ResponseWriter, text []byte) {
w.SetHeader("Content-Type", "text/plain; charset=utf-8")
w.Write(text)
}
// ----------------------------------------------------------------------------
// Files
var (
titleRx = regexp.MustCompile(`<!-- title ([^\-]*)-->`)
subtitleRx = regexp.MustCompile(`<!-- subtitle ([^\-]*)-->`)
firstCommentRx = regexp.MustCompile(`<!--([^\-]*)-->`)
)
func extractString(src []byte, rx *regexp.Regexp) (s string) {
m := rx.FindSubmatch(src)
if m != nil {
s = strings.TrimSpace(string(m[1]))
}
return
}
func serveHTMLDoc(w http.ResponseWriter, r *http.Request, abspath, relpath string) {
// get HTML body contents
src, err := ioutil.ReadFile(abspath)
if err != nil {
log.Printf("ioutil.ReadFile: %s", err)
serveError(w, r, relpath, err)
return
}
// if it begins with "<!DOCTYPE " assume it is standalone
// html that doesn't need the template wrapping.
if bytes.HasPrefix(src, []byte("<!DOCTYPE ")) {
w.Write(src)
return
}
// if it's the language spec, add tags to EBNF productions
if strings.HasSuffix(abspath, "go_spec.html") {
var buf bytes.Buffer
linkify(&buf, src)
src = buf.Bytes()
}
// get title and subtitle, if any
title := extractString(src, titleRx)
if title == "" {
// no title found; try first comment for backward-compatibility
title = extractString(src, firstCommentRx)
}
subtitle := extractString(src, subtitleRx)
servePage(w, title, subtitle, "", src)
}
func applyTemplate(t *template.Template, name string, data interface{}) []byte {
var buf bytes.Buffer
if err := t.Execute(&buf, data); err != nil {
log.Printf("%s.Execute: %s", name, err)
}
return buf.Bytes()
}
func redirect(w http.ResponseWriter, r *http.Request) (redirected bool) {
if canonical := pathutil.Clean(r.URL.Path) + "/"; r.URL.Path != canonical {
http.Redirect(w, r, canonical, http.StatusMovedPermanently)
redirected = true
}
return
}
func serveTextFile(w http.ResponseWriter, r *http.Request, abspath, relpath, title string) {
src, err := ioutil.ReadFile(abspath)
if err != nil {
log.Printf("ioutil.ReadFile: %s", err)
serveError(w, r, relpath, err)
return
}
var buf bytes.Buffer
buf.WriteString("<pre>")
FormatText(&buf, src, 1, pathutil.Ext(abspath) == ".go", r.FormValue("h"), rangeSelection(r.FormValue("s")))
buf.WriteString("</pre>")
servePage(w, title+" "+relpath, "", "", buf.Bytes())
}
func serveDirectory(w http.ResponseWriter, r *http.Request, abspath, relpath string) {
if redirect(w, r) {
return
}
list, err := ioutil.ReadDir(abspath)
if err != nil {
log.Printf("ioutil.ReadDir: %s", err)
serveError(w, r, relpath, err)
return
}
for _, d := range list {
if d.IsDirectory() {
d.Size = 0
}
}
contents := applyTemplate(dirlistHTML, "dirlistHTML", list)
servePage(w, "Directory "+relpath, "", "", contents)
}
func serveFile(w http.ResponseWriter, r *http.Request) {
relpath := r.URL.Path[1:] // serveFile URL paths start with '/'
abspath := absolutePath(relpath, *goroot)
// pick off special cases and hand the rest to the standard file server
switch r.URL.Path {
case "/":
serveHTMLDoc(w, r, pathutil.Join(*goroot, "doc/root.html"), "doc/root.html")
return
case "/doc/root.html":
// hide landing page from its real name
http.Redirect(w, r, "/", http.StatusMovedPermanently)
return
}
switch pathutil.Ext(abspath) {
case ".html":
if strings.HasSuffix(abspath, "/index.html") {
// We'll show index.html for the directory.
// Use the dir/ version as canonical instead of dir/index.html.
http.Redirect(w, r, r.URL.Path[0:len(r.URL.Path)-len("index.html")], http.StatusMovedPermanently)
return
}
serveHTMLDoc(w, r, abspath, relpath)
return
case ".go":
serveTextFile(w, r, abspath, relpath, "Source file")
return
}
dir, err := os.Lstat(abspath)
if err != nil {
log.Print(err)
serveError(w, r, relpath, err)
return
}
if dir != nil && dir.IsDirectory() {
if redirect(w, r) {
return
}
if index := abspath + "/index.html"; isTextFile(index) {
serveHTMLDoc(w, r, index, relativePath(index))
return
}
serveDirectory(w, r, abspath, relpath)
return
}
if isTextFile(abspath) {
serveTextFile(w, r, abspath, relpath, "Text file")
return
}
fileServer.ServeHTTP(w, r)
}
// ----------------------------------------------------------------------------
// Packages
// Fake package file and name for commands. Contains the command documentation.
const fakePkgFile = "doc.go"
const fakePkgName = "documentation"
type PageInfoMode uint
const (
exportsOnly PageInfoMode = 1 << iota // only keep exported stuff
genDoc // generate documentation
)
type PageInfo struct {
Dirname string // directory containing the package
PList []string // list of package names found
FSet *token.FileSet // corresponding file set
PAst *ast.File // nil if no single AST with package exports
PDoc *doc.PackageDoc // nil if no single package documentation
Dirs *DirList // nil if no directory information
DirTime int64 // directory time stamp in seconds since epoch
IsPkg bool // false if this is not documenting a real package
Err os.Error // directory read error or nil
}
func (info *PageInfo) IsEmpty() bool {
return info.Err != nil || info.PAst == nil && info.PDoc == nil && info.Dirs == nil
}
type httpHandler struct {
pattern string // url pattern; e.g. "/pkg/"
fsRoot string // file system root to which the pattern is mapped
isPkg bool // true if this handler serves real package documentation (as opposed to command documentation)
}
// getPageInfo returns the PageInfo for a package directory abspath. If the
// parameter genAST is set, an AST containing only the package exports is
// computed (PageInfo.PAst), otherwise package documentation (PageInfo.Doc)
// is extracted from the AST. If there is no corresponding package in the
// directory, PageInfo.PAst and PageInfo.PDoc are nil. If there are no sub-
// directories, PageInfo.Dirs is nil. If a directory read error occurred,
// PageInfo.Err is set to the respective error but the error is not logged.
//
func (h *httpHandler) getPageInfo(abspath, relpath, pkgname string, mode PageInfoMode) PageInfo {
// filter function to select the desired .go files
filter := func(d *os.FileInfo) bool {
// If we are looking at cmd documentation, only accept
// the special fakePkgFile containing the documentation.
return isPkgFile(d) && (h.isPkg || d.Name == fakePkgFile)
}
// get package ASTs
fset := token.NewFileSet()
pkgs, err := parser.ParseDir(fset, abspath, filter, parser.ParseComments)
if err != nil && pkgs == nil {
// only report directory read errors, ignore parse errors
// (may be able to extract partial package information)
return PageInfo{Dirname: abspath, Err: err}
}
// select package
var pkg *ast.Package // selected package
var plist []string // list of other package (names), if any
if len(pkgs) == 1 {
// Exactly one package - select it.
for _, p := range pkgs {
pkg = p
}
} else if len(pkgs) > 1 {
// Multiple packages - select the best matching package: The
// 1st choice is the package with pkgname, the 2nd choice is
// the package with dirname, and the 3rd choice is a package
// that is not called "main" if there is exactly one such
// package. Otherwise, don't select a package.
dirpath, dirname := pathutil.Split(abspath)
// If the dirname is "go" we might be in a sub-directory for
// .go files - use the outer directory name instead for better
// results.
if dirname == "go" {
_, dirname = pathutil.Split(pathutil.Clean(dirpath))
}
var choice3 *ast.Package
loop:
for _, p := range pkgs {
switch {
case p.Name == pkgname:
pkg = p
break loop // 1st choice; we are done
case p.Name == dirname:
pkg = p // 2nd choice
case p.Name != "main":
choice3 = p
}
}
if pkg == nil && len(pkgs) == 2 {
pkg = choice3
}
// Compute the list of other packages
// (excluding the selected package, if any).
plist = make([]string, len(pkgs))
i := 0
for name := range pkgs {
if pkg == nil || name != pkg.Name {
plist[i] = name
i++
}
}
plist = plist[0:i]
}
// compute package documentation
var past *ast.File
var pdoc *doc.PackageDoc
if pkg != nil {
if mode&exportsOnly != 0 {
ast.PackageExports(pkg)
}
if mode&genDoc != 0 {
pdoc = doc.NewPackageDoc(pkg, pathutil.Clean(relpath)) // no trailing '/' in importpath
} else {
past = ast.MergePackageFiles(pkg, ast.FilterUnassociatedComments)
}
}
// get directory information
var dir *Directory
var timestamp int64
if tree, ts := fsTree.get(); tree != nil && tree.(*Directory) != nil {
// directory tree is present; lookup respective directory
// (may still fail if the file system was updated and the
// new directory tree has not yet been computed)
dir = tree.(*Directory).lookup(abspath)
timestamp = ts
}
if dir == nil {
// the path may refer to a user-specified file system mapped
// via fsMap; lookup that mapping and corresponding RWValue
// if any
var v *RWValue
fsMap.Iterate(func(path string, value *RWValue) bool {
if isParentOf(path, abspath) {
// mapping found
v = value
return false
}
return true
})
if v != nil {
// found a RWValue associated with a user-specified file
// system; a non-nil RWValue stores a (possibly out-of-date)
// directory tree for that file system
if tree, ts := v.get(); tree != nil && tree.(*Directory) != nil {
dir = tree.(*Directory).lookup(abspath)
timestamp = ts
}
}
}
if dir == nil {
// no directory tree present (too early after startup or
// command-line mode); compute one level for this page
// note: cannot use path filter here because in general
// it doesn't contain the fsTree path
dir = newDirectory(abspath, nil, 1)
timestamp = time.Seconds()
}
return PageInfo{abspath, plist, fset, past, pdoc, dir.listing(true), timestamp, h.isPkg, nil}
}
func (h *httpHandler) ServeHTTP(w http.ResponseWriter, r *http.Request) {
if redirect(w, r) {
return
}
relpath := r.URL.Path[len(h.pattern):]
abspath := absolutePath(relpath, h.fsRoot)
mode := exportsOnly
if r.FormValue("m") != "src" {
mode |= genDoc
}
info := h.getPageInfo(abspath, relpath, r.FormValue("p"), mode)
if info.Err != nil {
log.Print(info.Err)
serveError(w, r, relpath, info.Err)
return
}
if r.FormValue("f") == "text" {
contents := applyTemplate(packageText, "packageText", info)
serveText(w, contents)
return
}
var title, subtitle string
switch {
case info.PAst != nil:
title = "Package " + info.PAst.Name.Name
case info.PDoc != nil:
switch {
case h.isPkg:
title = "Package " + info.PDoc.PackageName
case info.PDoc.PackageName == fakePkgName:
// assume that the directory name is the command name
_, pkgname := pathutil.Split(pathutil.Clean(relpath))
title = "Command " + pkgname
default:
title = "Command " + info.PDoc.PackageName
}
default:
title = "Directory " + relativePath(info.Dirname)
if *showTimestamps {
subtitle = "Last update: " + time.SecondsToLocalTime(info.DirTime).String()
}
}
contents := applyTemplate(packageHTML, "packageHTML", info)
servePage(w, title, subtitle, "", contents)
}
// ----------------------------------------------------------------------------
// Search
var searchIndex RWValue
type SearchResult struct {
Query string
Alert string // error or warning message
// identifier matches
Hit *LookupResult // identifier matches of Query
Alt *AltWords // alternative identifiers to look for
// textual matches
Found int // number of textual occurrences found
Textual []FileLines // textual matches of Query
Complete bool // true if all textual occurrences of Query are reported
}
func lookup(query string) (result SearchResult) {
result.Query = query
index, timestamp := searchIndex.get()
if index != nil {
index := index.(*Index)
// identifier search
var err os.Error
result.Hit, result.Alt, err = index.Lookup(query)
if err != nil && *maxResults <= 0 {
// ignore the error if full text search is enabled
// since the query may be a valid regular expression
result.Alert = "Error in query string: " + err.String()
return
}
// full text search
if *maxResults > 0 && query != "" {
rx, err := regexp.Compile(query)
if err != nil {
result.Alert = "Error in query regular expression: " + err.String()
return
}
// If we get maxResults+1 results we know that there are more than
// maxResults results and thus the result may be incomplete (to be
// precise, we should remove one result from the result set, but
// nobody is going to count the results on the result page).
result.Found, result.Textual = index.LookupRegexp(rx, *maxResults+1)
result.Complete = result.Found <= *maxResults
if !result.Complete {
result.Found-- // since we looked for maxResults+1
}
}
}
// is the result accurate?
if _, ts := fsModified.get(); timestamp < ts {
// The index is older than the latest file system change
// under godoc's observation. Indexing may be in progress
// or start shortly (see indexer()).
result.Alert = "Indexing in progress: result may be inaccurate"
}
return
}
func search(w http.ResponseWriter, r *http.Request) {
query := strings.TrimSpace(r.FormValue("q"))
result := lookup(query)
if r.FormValue("f") == "text" {
contents := applyTemplate(searchText, "searchText", result)
serveText(w, contents)
return
}
var title string
if result.Hit != nil || len(result.Textual) > 0 {
title = fmt.Sprintf(`Results for query %q`, query)
} else {
title = fmt.Sprintf(`No results found for query %q`, query)
}
contents := applyTemplate(searchHTML, "searchHTML", result)
servePage(w, title, "", query, contents)
}
// ----------------------------------------------------------------------------
// Indexer
// invalidateIndex should be called whenever any of the file systems
// under godoc's observation change so that the indexer is kicked on.
//
func invalidateIndex() {
fsModified.set(nil)
}
// indexUpToDate() returns true if the search index is not older
// than any of the file systems under godoc's observation.
//
func indexUpToDate() bool {
_, fsTime := fsModified.get()
_, siTime := searchIndex.get()
return fsTime <= siTime
}
// feedDirnames feeds the directory names of all directories
// under the file system given by root to channel c.
//
func feedDirnames(root *RWValue, c chan<- string) {
if dir, _ := root.get(); dir != nil {
for d := range dir.(*Directory).iter(false) {
c <- d.Path
}
}
}
// fsDirnames() returns a channel sending all directory names
// of all the file systems under godoc's observation.
//
func fsDirnames() <-chan string {
c := make(chan string, 256) // asynchronous for fewer context switches
go func() {
feedDirnames(&fsTree, c)
fsMap.Iterate(func(_ string, root *RWValue) bool {
feedDirnames(root, c)
return true
})
close(c)
}()
return c
}
func indexer() {
for {
if !indexUpToDate() {
// index possibly out of date - make a new one
if *verbose {
log.Printf("updating index...")
}
start := time.Nanoseconds()
index := NewIndex(fsDirnames(), *maxResults > 0)
stop := time.Nanoseconds()
searchIndex.set(index)
if *verbose {
secs := float64((stop-start)/1e6) / 1e3
stats := index.Stats()
log.Printf("index updated (%gs, %d bytes of source, %d files, %d lines, %d unique words, %d spots)",
secs, stats.Bytes, stats.Files, stats.Lines, stats.Words, stats.Spots)
}
log.Printf("before GC: bytes = %d footprint = %d", runtime.MemStats.HeapAlloc, runtime.MemStats.Sys)
runtime.GC()
log.Printf("after GC: bytes = %d footprint = %d", runtime.MemStats.HeapAlloc, runtime.MemStats.Sys)
}
var delay int64 = 60 * 1e9 // by default, try every 60s
if *testDir != "" {
// in test mode, try once a second for fast startup
delay = 1 * 1e9
}
time.Sleep(delay)
}
}