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server.go
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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.
// HTTP server. See RFC 2616.
package http
import (
"bufio"
"bytes"
"context"
"crypto/tls"
"errors"
"fmt"
"io"
"io/ioutil"
"log"
"net"
"net/textproto"
"net/url"
"os"
"path"
"runtime"
"strconv"
"strings"
"sync"
"sync/atomic"
"time"
"golang_org/x/net/lex/httplex"
)
// Errors used by the HTTP server.
var (
// ErrBodyNotAllowed is returned by ResponseWriter.Write calls
// when the HTTP method or response code does not permit a
// body.
ErrBodyNotAllowed = errors.New("http: request method or response status code does not allow body")
// ErrHijacked is returned by ResponseWriter.Write calls when
// the underlying connection has been hijacked using the
// Hijacker interface. A zero-byte write on a hijacked
// connection will return ErrHijacked without any other side
// effects.
ErrHijacked = errors.New("http: connection has been hijacked")
// ErrContentLength is returned by ResponseWriter.Write calls
// when a Handler set a Content-Length response header with a
// declared size and then attempted to write more bytes than
// declared.
ErrContentLength = errors.New("http: wrote more than the declared Content-Length")
// Deprecated: ErrWriteAfterFlush is no longer used.
ErrWriteAfterFlush = errors.New("unused")
)
// A Handler responds to an HTTP request.
//
// ServeHTTP should write reply headers and data to the ResponseWriter
// and then return. Returning signals that the request is finished; it
// is not valid to use the ResponseWriter or read from the
// Request.Body after or concurrently with the completion of the
// ServeHTTP call.
//
// Depending on the HTTP client software, HTTP protocol version, and
// any intermediaries between the client and the Go server, it may not
// be possible to read from the Request.Body after writing to the
// ResponseWriter. Cautious handlers should read the Request.Body
// first, and then reply.
//
// Except for reading the body, handlers should not modify the
// provided Request.
//
// If ServeHTTP panics, the server (the caller of ServeHTTP) assumes
// that the effect of the panic was isolated to the active request.
// It recovers the panic, logs a stack trace to the server error log,
// and either closes the network connection or sends an HTTP/2
// RST_STREAM, depending on the HTTP protocol. To abort a handler so
// the client sees an interrupted response but the server doesn't log
// an error, panic with the value ErrAbortHandler.
type Handler interface {
ServeHTTP(ResponseWriter, *Request)
}
// A ResponseWriter interface is used by an HTTP handler to
// construct an HTTP response.
//
// A ResponseWriter may not be used after the Handler.ServeHTTP method
// has returned.
type ResponseWriter interface {
// Header returns the header map that will be sent by
// WriteHeader. The Header map also is the mechanism with which
// Handlers can set HTTP trailers.
//
// Changing the header map after a call to WriteHeader (or
// Write) has no effect unless the modified headers are
// trailers.
//
// There are two ways to set Trailers. The preferred way is to
// predeclare in the headers which trailers you will later
// send by setting the "Trailer" header to the names of the
// trailer keys which will come later. In this case, those
// keys of the Header map are treated as if they were
// trailers. See the example. The second way, for trailer
// keys not known to the Handler until after the first Write,
// is to prefix the Header map keys with the TrailerPrefix
// constant value. See TrailerPrefix.
//
// To suppress implicit response headers (such as "Date"), set
// their value to nil.
Header() Header
// Write writes the data to the connection as part of an HTTP reply.
//
// If WriteHeader has not yet been called, Write calls
// WriteHeader(http.StatusOK) before writing the data. If the Header
// does not contain a Content-Type line, Write adds a Content-Type set
// to the result of passing the initial 512 bytes of written data to
// DetectContentType.
//
// Depending on the HTTP protocol version and the client, calling
// Write or WriteHeader may prevent future reads on the
// Request.Body. For HTTP/1.x requests, handlers should read any
// needed request body data before writing the response. Once the
// headers have been flushed (due to either an explicit Flusher.Flush
// call or writing enough data to trigger a flush), the request body
// may be unavailable. For HTTP/2 requests, the Go HTTP server permits
// handlers to continue to read the request body while concurrently
// writing the response. However, such behavior may not be supported
// by all HTTP/2 clients. Handlers should read before writing if
// possible to maximize compatibility.
Write([]byte) (int, error)
// WriteHeader sends an HTTP response header with the provided
// status code.
//
// If WriteHeader is not called explicitly, the first call to Write
// will trigger an implicit WriteHeader(http.StatusOK).
// Thus explicit calls to WriteHeader are mainly used to
// send error codes.
//
// The provided code must be a valid HTTP 1xx-5xx status code.
// Only one header may be written. Go does not currently
// support sending user-defined 1xx informational headers,
// with the exception of 100-continue response header that the
// Server sends automatically when the Request.Body is read.
WriteHeader(statusCode int)
}
// The Flusher interface is implemented by ResponseWriters that allow
// an HTTP handler to flush buffered data to the client.
//
// The default HTTP/1.x and HTTP/2 ResponseWriter implementations
// support Flusher, but ResponseWriter wrappers may not. Handlers
// should always test for this ability at runtime.
//
// Note that even for ResponseWriters that support Flush,
// if the client is connected through an HTTP proxy,
// the buffered data may not reach the client until the response
// completes.
type Flusher interface {
// Flush sends any buffered data to the client.
Flush()
}
// The Hijacker interface is implemented by ResponseWriters that allow
// an HTTP handler to take over the connection.
//
// The default ResponseWriter for HTTP/1.x connections supports
// Hijacker, but HTTP/2 connections intentionally do not.
// ResponseWriter wrappers may also not support Hijacker. Handlers
// should always test for this ability at runtime.
type Hijacker interface {
// Hijack lets the caller take over the connection.
// After a call to Hijack the HTTP server library
// will not do anything else with the connection.
//
// It becomes the caller's responsibility to manage
// and close the connection.
//
// The returned net.Conn may have read or write deadlines
// already set, depending on the configuration of the
// Server. It is the caller's responsibility to set
// or clear those deadlines as needed.
//
// The returned bufio.Reader may contain unprocessed buffered
// data from the client.
//
// After a call to Hijack, the original Request.Body must
// not be used.
Hijack() (net.Conn, *bufio.ReadWriter, error)
}
// The CloseNotifier interface is implemented by ResponseWriters which
// allow detecting when the underlying connection has gone away.
//
// This mechanism can be used to cancel long operations on the server
// if the client has disconnected before the response is ready.
type CloseNotifier interface {
// CloseNotify returns a channel that receives at most a
// single value (true) when the client connection has gone
// away.
//
// CloseNotify may wait to notify until Request.Body has been
// fully read.
//
// After the Handler has returned, there is no guarantee
// that the channel receives a value.
//
// If the protocol is HTTP/1.1 and CloseNotify is called while
// processing an idempotent request (such a GET) while
// HTTP/1.1 pipelining is in use, the arrival of a subsequent
// pipelined request may cause a value to be sent on the
// returned channel. In practice HTTP/1.1 pipelining is not
// enabled in browsers and not seen often in the wild. If this
// is a problem, use HTTP/2 or only use CloseNotify on methods
// such as POST.
CloseNotify() <-chan bool
}
var (
// ServerContextKey is a context key. It can be used in HTTP
// handlers with context.WithValue to access the server that
// started the handler. The associated value will be of
// type *Server.
ServerContextKey = &contextKey{"http-server"}
// LocalAddrContextKey is a context key. It can be used in
// HTTP handlers with context.WithValue to access the address
// the local address the connection arrived on.
// The associated value will be of type net.Addr.
LocalAddrContextKey = &contextKey{"local-addr"}
)
// A conn represents the server side of an HTTP connection.
type conn struct {
// server is the server on which the connection arrived.
// Immutable; never nil.
server *Server
// cancelCtx cancels the connection-level context.
cancelCtx context.CancelFunc
// rwc is the underlying network connection.
// This is never wrapped by other types and is the value given out
// to CloseNotifier callers. It is usually of type *net.TCPConn or
// *tls.Conn.
rwc net.Conn
// remoteAddr is rwc.RemoteAddr().String(). It is not populated synchronously
// inside the Listener's Accept goroutine, as some implementations block.
// It is populated immediately inside the (*conn).serve goroutine.
// This is the value of a Handler's (*Request).RemoteAddr.
remoteAddr string
// tlsState is the TLS connection state when using TLS.
// nil means not TLS.
tlsState *tls.ConnectionState
// werr is set to the first write error to rwc.
// It is set via checkConnErrorWriter{w}, where bufw writes.
werr error
// r is bufr's read source. It's a wrapper around rwc that provides
// io.LimitedReader-style limiting (while reading request headers)
// and functionality to support CloseNotifier. See *connReader docs.
r *connReader
// bufr reads from r.
bufr *bufio.Reader
// bufw writes to checkConnErrorWriter{c}, which populates werr on error.
bufw *bufio.Writer
// lastMethod is the method of the most recent request
// on this connection, if any.
lastMethod string
curReq atomic.Value // of *response (which has a Request in it)
curState atomic.Value // of ConnState
// mu guards hijackedv
mu sync.Mutex
// hijackedv is whether this connection has been hijacked
// by a Handler with the Hijacker interface.
// It is guarded by mu.
hijackedv bool
}
func (c *conn) hijacked() bool {
c.mu.Lock()
defer c.mu.Unlock()
return c.hijackedv
}
// c.mu must be held.
func (c *conn) hijackLocked() (rwc net.Conn, buf *bufio.ReadWriter, err error) {
if c.hijackedv {
return nil, nil, ErrHijacked
}
c.r.abortPendingRead()
c.hijackedv = true
rwc = c.rwc
rwc.SetDeadline(time.Time{})
buf = bufio.NewReadWriter(c.bufr, bufio.NewWriter(rwc))
if c.r.hasByte {
if _, err := c.bufr.Peek(c.bufr.Buffered() + 1); err != nil {
return nil, nil, fmt.Errorf("unexpected Peek failure reading buffered byte: %v", err)
}
}
c.setState(rwc, StateHijacked)
return
}
// This should be >= 512 bytes for DetectContentType,
// but otherwise it's somewhat arbitrary.
const bufferBeforeChunkingSize = 2048
// chunkWriter writes to a response's conn buffer, and is the writer
// wrapped by the response.bufw buffered writer.
//
// chunkWriter also is responsible for finalizing the Header, including
// conditionally setting the Content-Type and setting a Content-Length
// in cases where the handler's final output is smaller than the buffer
// size. It also conditionally adds chunk headers, when in chunking mode.
//
// See the comment above (*response).Write for the entire write flow.
type chunkWriter struct {
res *response
// header is either nil or a deep clone of res.handlerHeader
// at the time of res.WriteHeader, if res.WriteHeader is
// called and extra buffering is being done to calculate
// Content-Type and/or Content-Length.
header Header
// wroteHeader tells whether the header's been written to "the
// wire" (or rather: w.conn.buf). this is unlike
// (*response).wroteHeader, which tells only whether it was
// logically written.
wroteHeader bool
// set by the writeHeader method:
chunking bool // using chunked transfer encoding for reply body
}
var (
crlf = []byte("\r\n")
colonSpace = []byte(": ")
)
func (cw *chunkWriter) Write(p []byte) (n int, err error) {
if !cw.wroteHeader {
cw.writeHeader(p)
}
if cw.res.req.Method == "HEAD" {
// Eat writes.
return len(p), nil
}
if cw.chunking {
_, err = fmt.Fprintf(cw.res.conn.bufw, "%x\r\n", len(p))
if err != nil {
cw.res.conn.rwc.Close()
return
}
}
n, err = cw.res.conn.bufw.Write(p)
if cw.chunking && err == nil {
_, err = cw.res.conn.bufw.Write(crlf)
}
if err != nil {
cw.res.conn.rwc.Close()
}
return
}
func (cw *chunkWriter) flush() {
if !cw.wroteHeader {
cw.writeHeader(nil)
}
cw.res.conn.bufw.Flush()
}
func (cw *chunkWriter) close() {
if !cw.wroteHeader {
cw.writeHeader(nil)
}
if cw.chunking {
bw := cw.res.conn.bufw // conn's bufio writer
// zero chunk to mark EOF
bw.WriteString("0\r\n")
if trailers := cw.res.finalTrailers(); trailers != nil {
trailers.Write(bw) // the writer handles noting errors
}
// final blank line after the trailers (whether
// present or not)
bw.WriteString("\r\n")
}
}
// A response represents the server side of an HTTP response.
type response struct {
conn *conn
req *Request // request for this response
reqBody io.ReadCloser
cancelCtx context.CancelFunc // when ServeHTTP exits
wroteHeader bool // reply header has been (logically) written
wroteContinue bool // 100 Continue response was written
wants10KeepAlive bool // HTTP/1.0 w/ Connection "keep-alive"
wantsClose bool // HTTP request has Connection "close"
w *bufio.Writer // buffers output in chunks to chunkWriter
cw chunkWriter
// handlerHeader is the Header that Handlers get access to,
// which may be retained and mutated even after WriteHeader.
// handlerHeader is copied into cw.header at WriteHeader
// time, and privately mutated thereafter.
handlerHeader Header
calledHeader bool // handler accessed handlerHeader via Header
written int64 // number of bytes written in body
contentLength int64 // explicitly-declared Content-Length; or -1
status int // status code passed to WriteHeader
// close connection after this reply. set on request and
// updated after response from handler if there's a
// "Connection: keep-alive" response header and a
// Content-Length.
closeAfterReply bool
// requestBodyLimitHit is set by requestTooLarge when
// maxBytesReader hits its max size. It is checked in
// WriteHeader, to make sure we don't consume the
// remaining request body to try to advance to the next HTTP
// request. Instead, when this is set, we stop reading
// subsequent requests on this connection and stop reading
// input from it.
requestBodyLimitHit bool
// trailers are the headers to be sent after the handler
// finishes writing the body. This field is initialized from
// the Trailer response header when the response header is
// written.
trailers []string
handlerDone atomicBool // set true when the handler exits
// Buffers for Date, Content-Length, and status code
dateBuf [len(TimeFormat)]byte
clenBuf [10]byte
statusBuf [3]byte
// closeNotifyCh is the channel returned by CloseNotify.
// TODO(bradfitz): this is currently (for Go 1.8) always
// non-nil. Make this lazily-created again as it used to be?
closeNotifyCh chan bool
didCloseNotify int32 // atomic (only 0->1 winner should send)
}
// TrailerPrefix is a magic prefix for ResponseWriter.Header map keys
// that, if present, signals that the map entry is actually for
// the response trailers, and not the response headers. The prefix
// is stripped after the ServeHTTP call finishes and the values are
// sent in the trailers.
//
// This mechanism is intended only for trailers that are not known
// prior to the headers being written. If the set of trailers is fixed
// or known before the header is written, the normal Go trailers mechanism
// is preferred:
// https://golang.org/pkg/net/http/#ResponseWriter
// https://golang.org/pkg/net/http/#example_ResponseWriter_trailers
const TrailerPrefix = "Trailer:"
// finalTrailers is called after the Handler exits and returns a non-nil
// value if the Handler set any trailers.
func (w *response) finalTrailers() Header {
var t Header
for k, vv := range w.handlerHeader {
if strings.HasPrefix(k, TrailerPrefix) {
if t == nil {
t = make(Header)
}
t[strings.TrimPrefix(k, TrailerPrefix)] = vv
}
}
for _, k := range w.trailers {
if t == nil {
t = make(Header)
}
for _, v := range w.handlerHeader[k] {
t.Add(k, v)
}
}
return t
}
type atomicBool int32
func (b *atomicBool) isSet() bool { return atomic.LoadInt32((*int32)(b)) != 0 }
func (b *atomicBool) setTrue() { atomic.StoreInt32((*int32)(b), 1) }
// declareTrailer is called for each Trailer header when the
// response header is written. It notes that a header will need to be
// written in the trailers at the end of the response.
func (w *response) declareTrailer(k string) {
k = CanonicalHeaderKey(k)
switch k {
case "Transfer-Encoding", "Content-Length", "Trailer":
// Forbidden by RFC 2616 14.40.
return
}
w.trailers = append(w.trailers, k)
}
// requestTooLarge is called by maxBytesReader when too much input has
// been read from the client.
func (w *response) requestTooLarge() {
w.closeAfterReply = true
w.requestBodyLimitHit = true
if !w.wroteHeader {
w.Header().Set("Connection", "close")
}
}
// needsSniff reports whether a Content-Type still needs to be sniffed.
func (w *response) needsSniff() bool {
_, haveType := w.handlerHeader["Content-Type"]
return !w.cw.wroteHeader && !haveType && w.written < sniffLen
}
// writerOnly hides an io.Writer value's optional ReadFrom method
// from io.Copy.
type writerOnly struct {
io.Writer
}
func srcIsRegularFile(src io.Reader) (isRegular bool, err error) {
switch v := src.(type) {
case *os.File:
fi, err := v.Stat()
if err != nil {
return false, err
}
return fi.Mode().IsRegular(), nil
case *io.LimitedReader:
return srcIsRegularFile(v.R)
default:
return
}
}
// ReadFrom is here to optimize copying from an *os.File regular file
// to a *net.TCPConn with sendfile.
func (w *response) ReadFrom(src io.Reader) (n int64, err error) {
// Our underlying w.conn.rwc is usually a *TCPConn (with its
// own ReadFrom method). If not, or if our src isn't a regular
// file, just fall back to the normal copy method.
rf, ok := w.conn.rwc.(io.ReaderFrom)
regFile, err := srcIsRegularFile(src)
if err != nil {
return 0, err
}
if !ok || !regFile {
bufp := copyBufPool.Get().(*[]byte)
defer copyBufPool.Put(bufp)
return io.CopyBuffer(writerOnly{w}, src, *bufp)
}
// sendfile path:
if !w.wroteHeader {
w.WriteHeader(StatusOK)
}
if w.needsSniff() {
n0, err := io.Copy(writerOnly{w}, io.LimitReader(src, sniffLen))
n += n0
if err != nil {
return n, err
}
}
w.w.Flush() // get rid of any previous writes
w.cw.flush() // make sure Header is written; flush data to rwc
// Now that cw has been flushed, its chunking field is guaranteed initialized.
if !w.cw.chunking && w.bodyAllowed() {
n0, err := rf.ReadFrom(src)
n += n0
w.written += n0
return n, err
}
n0, err := io.Copy(writerOnly{w}, src)
n += n0
return n, err
}
// debugServerConnections controls whether all server connections are wrapped
// with a verbose logging wrapper.
const debugServerConnections = false
// Create new connection from rwc.
func (srv *Server) newConn(rwc net.Conn) *conn {
c := &conn{
server: srv,
rwc: rwc,
}
if debugServerConnections {
c.rwc = newLoggingConn("server", c.rwc)
}
return c
}
type readResult struct {
n int
err error
b byte // byte read, if n == 1
}
// connReader is the io.Reader wrapper used by *conn. It combines a
// selectively-activated io.LimitedReader (to bound request header
// read sizes) with support for selectively keeping an io.Reader.Read
// call blocked in a background goroutine to wait for activity and
// trigger a CloseNotifier channel.
type connReader struct {
conn *conn
mu sync.Mutex // guards following
hasByte bool
byteBuf [1]byte
cond *sync.Cond
inRead bool
aborted bool // set true before conn.rwc deadline is set to past
remain int64 // bytes remaining
}
func (cr *connReader) lock() {
cr.mu.Lock()
if cr.cond == nil {
cr.cond = sync.NewCond(&cr.mu)
}
}
func (cr *connReader) unlock() { cr.mu.Unlock() }
func (cr *connReader) startBackgroundRead() {
cr.lock()
defer cr.unlock()
if cr.inRead {
panic("invalid concurrent Body.Read call")
}
if cr.hasByte {
return
}
cr.inRead = true
cr.conn.rwc.SetReadDeadline(time.Time{})
go cr.backgroundRead()
}
func (cr *connReader) backgroundRead() {
n, err := cr.conn.rwc.Read(cr.byteBuf[:])
cr.lock()
if n == 1 {
cr.hasByte = true
// We were at EOF already (since we wouldn't be in a
// background read otherwise), so this is a pipelined
// HTTP request.
cr.closeNotifyFromPipelinedRequest()
}
if ne, ok := err.(net.Error); ok && cr.aborted && ne.Timeout() {
// Ignore this error. It's the expected error from
// another goroutine calling abortPendingRead.
} else if err != nil {
cr.handleReadError(err)
}
cr.aborted = false
cr.inRead = false
cr.unlock()
cr.cond.Broadcast()
}
func (cr *connReader) abortPendingRead() {
cr.lock()
defer cr.unlock()
if !cr.inRead {
return
}
cr.aborted = true
cr.conn.rwc.SetReadDeadline(aLongTimeAgo)
for cr.inRead {
cr.cond.Wait()
}
cr.conn.rwc.SetReadDeadline(time.Time{})
}
func (cr *connReader) setReadLimit(remain int64) { cr.remain = remain }
func (cr *connReader) setInfiniteReadLimit() { cr.remain = maxInt64 }
func (cr *connReader) hitReadLimit() bool { return cr.remain <= 0 }
// may be called from multiple goroutines.
func (cr *connReader) handleReadError(err error) {
cr.conn.cancelCtx()
cr.closeNotify()
}
// closeNotifyFromPipelinedRequest simply calls closeNotify.
//
// This method wrapper is here for documentation. The callers are the
// cases where we send on the closenotify channel because of a
// pipelined HTTP request, per the previous Go behavior and
// documentation (that this "MAY" happen).
//
// TODO: consider changing this behavior and making context
// cancelation and closenotify work the same.
func (cr *connReader) closeNotifyFromPipelinedRequest() {
cr.closeNotify()
}
// may be called from multiple goroutines.
func (cr *connReader) closeNotify() {
res, _ := cr.conn.curReq.Load().(*response)
if res != nil {
if atomic.CompareAndSwapInt32(&res.didCloseNotify, 0, 1) {
res.closeNotifyCh <- true
}
}
}
func (cr *connReader) Read(p []byte) (n int, err error) {
cr.lock()
if cr.inRead {
cr.unlock()
if cr.conn.hijacked() {
panic("invalid Body.Read call. After hijacked, the original Request must not be used")
}
panic("invalid concurrent Body.Read call")
}
if cr.hitReadLimit() {
cr.unlock()
return 0, io.EOF
}
if len(p) == 0 {
cr.unlock()
return 0, nil
}
if int64(len(p)) > cr.remain {
p = p[:cr.remain]
}
if cr.hasByte {
p[0] = cr.byteBuf[0]
cr.hasByte = false
cr.unlock()
return 1, nil
}
cr.inRead = true
cr.unlock()
n, err = cr.conn.rwc.Read(p)
cr.lock()
cr.inRead = false
if err != nil {
cr.handleReadError(err)
}
cr.remain -= int64(n)
cr.unlock()
cr.cond.Broadcast()
return n, err
}
var (
bufioReaderPool sync.Pool
bufioWriter2kPool sync.Pool
bufioWriter4kPool sync.Pool
)
var copyBufPool = sync.Pool{
New: func() interface{} {
b := make([]byte, 32*1024)
return &b
},
}
func bufioWriterPool(size int) *sync.Pool {
switch size {
case 2 << 10:
return &bufioWriter2kPool
case 4 << 10:
return &bufioWriter4kPool
}
return nil
}
func newBufioReader(r io.Reader) *bufio.Reader {
if v := bufioReaderPool.Get(); v != nil {
br := v.(*bufio.Reader)
br.Reset(r)
return br
}
// Note: if this reader size is ever changed, update
// TestHandlerBodyClose's assumptions.
return bufio.NewReader(r)
}
func putBufioReader(br *bufio.Reader) {
br.Reset(nil)
bufioReaderPool.Put(br)
}
func newBufioWriterSize(w io.Writer, size int) *bufio.Writer {
pool := bufioWriterPool(size)
if pool != nil {
if v := pool.Get(); v != nil {
bw := v.(*bufio.Writer)
bw.Reset(w)
return bw
}
}
return bufio.NewWriterSize(w, size)
}
func putBufioWriter(bw *bufio.Writer) {
bw.Reset(nil)
if pool := bufioWriterPool(bw.Available()); pool != nil {
pool.Put(bw)
}
}
// DefaultMaxHeaderBytes is the maximum permitted size of the headers
// in an HTTP request.
// This can be overridden by setting Server.MaxHeaderBytes.
const DefaultMaxHeaderBytes = 1 << 20 // 1 MB
func (srv *Server) maxHeaderBytes() int {
if srv.MaxHeaderBytes > 0 {
return srv.MaxHeaderBytes
}
return DefaultMaxHeaderBytes
}
func (srv *Server) initialReadLimitSize() int64 {
return int64(srv.maxHeaderBytes()) + 4096 // bufio slop
}
// wrapper around io.ReadCloser which on first read, sends an
// HTTP/1.1 100 Continue header
type expectContinueReader struct {
resp *response
readCloser io.ReadCloser
closed bool
sawEOF bool
}
func (ecr *expectContinueReader) Read(p []byte) (n int, err error) {
if ecr.closed {
return 0, ErrBodyReadAfterClose
}
if !ecr.resp.wroteContinue && !ecr.resp.conn.hijacked() {
ecr.resp.wroteContinue = true
ecr.resp.conn.bufw.WriteString("HTTP/1.1 100 Continue\r\n\r\n")
ecr.resp.conn.bufw.Flush()
}
n, err = ecr.readCloser.Read(p)
if err == io.EOF {
ecr.sawEOF = true
}
return
}
func (ecr *expectContinueReader) Close() error {
ecr.closed = true
return ecr.readCloser.Close()
}
// TimeFormat is the time format to use when generating times in HTTP
// headers. It is like time.RFC1123 but hard-codes GMT as the time
// zone. The time being formatted must be in UTC for Format to
// generate the correct format.
//
// For parsing this time format, see ParseTime.
const TimeFormat = "Mon, 02 Jan 2006 15:04:05 GMT"
// appendTime is a non-allocating version of []byte(t.UTC().Format(TimeFormat))
func appendTime(b []byte, t time.Time) []byte {
const days = "SunMonTueWedThuFriSat"
const months = "JanFebMarAprMayJunJulAugSepOctNovDec"
t = t.UTC()
yy, mm, dd := t.Date()
hh, mn, ss := t.Clock()
day := days[3*t.Weekday():]
mon := months[3*(mm-1):]
return append(b,
day[0], day[1], day[2], ',', ' ',
byte('0'+dd/10), byte('0'+dd%10), ' ',
mon[0], mon[1], mon[2], ' ',
byte('0'+yy/1000), byte('0'+(yy/100)%10), byte('0'+(yy/10)%10), byte('0'+yy%10), ' ',
byte('0'+hh/10), byte('0'+hh%10), ':',
byte('0'+mn/10), byte('0'+mn%10), ':',
byte('0'+ss/10), byte('0'+ss%10), ' ',
'G', 'M', 'T')
}
var errTooLarge = errors.New("http: request too large")
// Read next request from connection.
func (c *conn) readRequest(ctx context.Context) (w *response, err error) {
if c.hijacked() {
return nil, ErrHijacked
}
var (
wholeReqDeadline time.Time // or zero if none
hdrDeadline time.Time // or zero if none
)
t0 := time.Now()
if d := c.server.readHeaderTimeout(); d != 0 {
hdrDeadline = t0.Add(d)
}
if d := c.server.ReadTimeout; d != 0 {
wholeReqDeadline = t0.Add(d)
}
c.rwc.SetReadDeadline(hdrDeadline)
if d := c.server.WriteTimeout; d != 0 {
defer func() {
c.rwc.SetWriteDeadline(time.Now().Add(d))
}()
}
c.r.setReadLimit(c.server.initialReadLimitSize())
if c.lastMethod == "POST" {
// RFC 2616 section 4.1 tolerance for old buggy clients.
peek, _ := c.bufr.Peek(4) // ReadRequest will get err below
c.bufr.Discard(numLeadingCRorLF(peek))
}
req, err := readRequest(c.bufr, keepHostHeader)
if err != nil {
if c.r.hitReadLimit() {
return nil, errTooLarge
}
return nil, err
}
if !http1ServerSupportsRequest(req) {
return nil, badRequestError("unsupported protocol version")
}
c.lastMethod = req.Method
c.r.setInfiniteReadLimit()
hosts, haveHost := req.Header["Host"]
isH2Upgrade := req.isH2Upgrade()
if req.ProtoAtLeast(1, 1) && (!haveHost || len(hosts) == 0) && !isH2Upgrade && req.Method != "CONNECT" {
return nil, badRequestError("missing required Host header")
}
if len(hosts) > 1 {
return nil, badRequestError("too many Host headers")
}
if len(hosts) == 1 && !httplex.ValidHostHeader(hosts[0]) {
return nil, badRequestError("malformed Host header")
}
for k, vv := range req.Header {
if !httplex.ValidHeaderFieldName(k) {
return nil, badRequestError("invalid header name")
}
for _, v := range vv {
if !httplex.ValidHeaderFieldValue(v) {
return nil, badRequestError("invalid header value")
}
}
}
delete(req.Header, "Host")
ctx, cancelCtx := context.WithCancel(ctx)
req.ctx = ctx
req.RemoteAddr = c.remoteAddr
req.TLS = c.tlsState
if body, ok := req.Body.(*body); ok {
body.doEarlyClose = true
}
// Adjust the read deadline if necessary.
if !hdrDeadline.Equal(wholeReqDeadline) {
c.rwc.SetReadDeadline(wholeReqDeadline)
}
w = &response{
conn: c,
cancelCtx: cancelCtx,
req: req,
reqBody: req.Body,
handlerHeader: make(Header),