// Copyright 2010 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 http import ( "io" "net/textproto" "sort" "strings" "sync" "time" ) var raceEnabled = false // set by race.go // A Header represents the key-value pairs in an HTTP header. type Header map[string][]string // Add adds the key, value pair to the header. // It appends to any existing values associated with key. func (h Header) Add(key, value string) { textproto.MIMEHeader(h).Add(key, value) } // Set sets the header entries associated with key to // the single element value. It replaces any existing // values associated with key. func (h Header) Set(key, value string) { textproto.MIMEHeader(h).Set(key, value) } // Get gets the first value associated with the given key. // It is case insensitive; textproto.CanonicalMIMEHeaderKey is used // to canonicalize the provided key. // If there are no values associated with the key, Get returns "". // To access multiple values of a key, or to use non-canonical keys, // access the map directly. func (h Header) Get(key string) string { return textproto.MIMEHeader(h).Get(key) } // get is like Get, but key must already be in CanonicalHeaderKey form. func (h Header) get(key string) string { if v := h[key]; len(v) > 0 { return v[0] } return "" } // Del deletes the values associated with key. func (h Header) Del(key string) { textproto.MIMEHeader(h).Del(key) } // Write writes a header in wire format. func (h Header) Write(w io.Writer) error { return h.WriteSubset(w, nil) } func (h Header) clone() Header { h2 := make(Header, len(h)) for k, vv := range h { vv2 := make([]string, len(vv)) copy(vv2, vv) h2[k] = vv2 } return h2 } var timeFormats = []string{ TimeFormat, time.RFC850, time.ANSIC, } // ParseTime parses a time header (such as the Date: header), // trying each of the three formats allowed by HTTP/1.1: // TimeFormat, time.RFC850, and time.ANSIC. func ParseTime(text string) (t time.Time, err error) { for _, layout := range timeFormats { t, err = time.Parse(layout, text) if err == nil { return } } return } var headerNewlineToSpace = strings.NewReplacer("\n", " ", "\r", " ") type writeStringer interface { WriteString(string) (int, error) } // stringWriter implements WriteString on a Writer. type stringWriter struct { w io.Writer } func (w stringWriter) WriteString(s string) (n int, err error) { return w.w.Write([]byte(s)) } type keyValues struct { key string values []string } // A headerSorter implements sort.Interface by sorting a []keyValues // by key. It's used as a pointer, so it can fit in a sort.Interface // interface value without allocation. type headerSorter struct { kvs []keyValues } func (s *headerSorter) Len() int { return len(s.kvs) } func (s *headerSorter) Swap(i, j int) { s.kvs[i], s.kvs[j] = s.kvs[j], s.kvs[i] } func (s *headerSorter) Less(i, j int) bool { return s.kvs[i].key < s.kvs[j].key } var headerSorterPool = sync.Pool{ New: func() interface{} { return new(headerSorter) }, } // sortedKeyValues returns h's keys sorted in the returned kvs // slice. The headerSorter used to sort is also returned, for possible // return to headerSorterCache. func (h Header) sortedKeyValues(exclude map[string]bool) (kvs []keyValues, hs *headerSorter) { hs = headerSorterPool.Get().(*headerSorter) if cap(hs.kvs) < len(h) { hs.kvs = make([]keyValues, 0, len(h)) } kvs = hs.kvs[:0] for k, vv := range h { if !exclude[k] { kvs = append(kvs, keyValues{k, vv}) } } hs.kvs = kvs sort.Sort(hs) return kvs, hs } // WriteSubset writes a header in wire format. // If exclude is not nil, keys where exclude[key] == true are not written. func (h Header) WriteSubset(w io.Writer, exclude map[string]bool) error { ws, ok := w.(writeStringer) if !ok { ws = stringWriter{w} } kvs, sorter := h.sortedKeyValues(exclude) for _, kv := range kvs { for _, v := range kv.values { v = headerNewlineToSpace.Replace(v) v = textproto.TrimString(v) for _, s := range []string{kv.key, ": ", v, "\r\n"} { if _, err := ws.WriteString(s); err != nil { headerSorterPool.Put(sorter) return err } } } } headerSorterPool.Put(sorter) return nil } // CanonicalHeaderKey returns the canonical format of the // header key s. The canonicalization converts the first // letter and any letter following a hyphen to upper case; // the rest are converted to lowercase. For example, the // canonical key for "accept-encoding" is "Accept-Encoding". // If s contains a space or invalid header field bytes, it is // returned without modifications. func CanonicalHeaderKey(s string) string { return textproto.CanonicalMIMEHeaderKey(s) } // hasToken reports whether token appears with v, ASCII // case-insensitive, with space or comma boundaries. // token must be all lowercase. // v may contain mixed cased. func hasToken(v, token string) bool { if len(token) > len(v) || token == "" { return false } if v == token { return true } for sp := 0; sp <= len(v)-len(token); sp++ { // Check that first character is good. // The token is ASCII, so checking only a single byte // is sufficient. We skip this potential starting // position if both the first byte and its potential // ASCII uppercase equivalent (b|0x20) don't match. // False positives ('^' => '~') are caught by EqualFold. if b := v[sp]; b != token[0] && b|0x20 != token[0] { continue } // Check that start pos is on a valid token boundary. if sp > 0 && !isTokenBoundary(v[sp-1]) { continue } // Check that end pos is on a valid token boundary. if endPos := sp + len(token); endPos != len(v) && !isTokenBoundary(v[endPos]) { continue } if strings.EqualFold(v[sp:sp+len(token)], token) { return true } } return false } func isTokenBoundary(b byte) bool { return b == ' ' || b == ',' || b == '\t' } func cloneHeader(h Header) Header { h2 := make(Header, len(h)) for k, vv := range h { vv2 := make([]string, len(vv)) copy(vv2, vv) h2[k] = vv2 } return h2 }