VictoriaMetrics/vendor/github.com/valyala/fasthttp/http.go
2020-04-17 13:25:18 +03:00

1852 lines
46 KiB
Go

package fasthttp
import (
"bufio"
"bytes"
"encoding/base64"
"errors"
"fmt"
"io"
"mime/multipart"
"net"
"os"
"sync"
"time"
"github.com/valyala/bytebufferpool"
)
// Request represents HTTP request.
//
// It is forbidden copying Request instances. Create new instances
// and use CopyTo instead.
//
// Request instance MUST NOT be used from concurrently running goroutines.
type Request struct {
noCopy noCopy //nolint:unused,structcheck
// Request header
//
// Copying Header by value is forbidden. Use pointer to Header instead.
Header RequestHeader
uri URI
postArgs Args
bodyStream io.Reader
w requestBodyWriter
body *bytebufferpool.ByteBuffer
multipartForm *multipart.Form
multipartFormBoundary string
// Group bool members in order to reduce Request object size.
parsedURI bool
parsedPostArgs bool
keepBodyBuffer bool
isTLS bool
// To detect scheme changes in redirects
schemaUpdate bool
// Request timeout. Usually set by DoDealine or DoTimeout
// if <= 0, means not set
timeout time.Duration
}
// Response represents HTTP response.
//
// It is forbidden copying Response instances. Create new instances
// and use CopyTo instead.
//
// Response instance MUST NOT be used from concurrently running goroutines.
type Response struct {
noCopy noCopy //nolint:unused,structcheck
// Response header
//
// Copying Header by value is forbidden. Use pointer to Header instead.
Header ResponseHeader
// Flush headers as soon as possible without waiting for first body bytes.
// Relevant for bodyStream only.
ImmediateHeaderFlush bool
bodyStream io.Reader
w responseBodyWriter
body *bytebufferpool.ByteBuffer
bodyRaw []byte
// Response.Read() skips reading body if set to true.
// Use it for reading HEAD responses.
//
// Response.Write() skips writing body if set to true.
// Use it for writing HEAD responses.
SkipBody bool
keepBodyBuffer bool
// Remote TCPAddr from concurrently net.Conn
raddr net.Addr
// Local TCPAddr from concurrently net.Conn
laddr net.Addr
}
// SetHost sets host for the request.
func (req *Request) SetHost(host string) {
req.URI().SetHost(host)
}
// SetHostBytes sets host for the request.
func (req *Request) SetHostBytes(host []byte) {
req.URI().SetHostBytes(host)
}
// Host returns the host for the given request.
func (req *Request) Host() []byte {
return req.URI().Host()
}
// SetRequestURI sets RequestURI.
func (req *Request) SetRequestURI(requestURI string) {
req.Header.SetRequestURI(requestURI)
req.parsedURI = false
}
// SetRequestURIBytes sets RequestURI.
func (req *Request) SetRequestURIBytes(requestURI []byte) {
req.Header.SetRequestURIBytes(requestURI)
req.parsedURI = false
}
// RequestURI returns request's URI.
func (req *Request) RequestURI() []byte {
if req.parsedURI {
requestURI := req.uri.RequestURI()
req.SetRequestURIBytes(requestURI)
}
return req.Header.RequestURI()
}
// StatusCode returns response status code.
func (resp *Response) StatusCode() int {
return resp.Header.StatusCode()
}
// SetStatusCode sets response status code.
func (resp *Response) SetStatusCode(statusCode int) {
resp.Header.SetStatusCode(statusCode)
}
// ConnectionClose returns true if 'Connection: close' header is set.
func (resp *Response) ConnectionClose() bool {
return resp.Header.ConnectionClose()
}
// SetConnectionClose sets 'Connection: close' header.
func (resp *Response) SetConnectionClose() {
resp.Header.SetConnectionClose()
}
// ConnectionClose returns true if 'Connection: close' header is set.
func (req *Request) ConnectionClose() bool {
return req.Header.ConnectionClose()
}
// SetConnectionClose sets 'Connection: close' header.
func (req *Request) SetConnectionClose() {
req.Header.SetConnectionClose()
}
// SendFile registers file on the given path to be used as response body
// when Write is called.
//
// Note that SendFile doesn't set Content-Type, so set it yourself
// with Header.SetContentType.
func (resp *Response) SendFile(path string) error {
f, err := os.Open(path)
if err != nil {
return err
}
fileInfo, err := f.Stat()
if err != nil {
f.Close()
return err
}
size64 := fileInfo.Size()
size := int(size64)
if int64(size) != size64 {
size = -1
}
resp.Header.SetLastModified(fileInfo.ModTime())
resp.SetBodyStream(f, size)
return nil
}
// SetBodyStream sets request body stream and, optionally body size.
//
// If bodySize is >= 0, then the bodyStream must provide exactly bodySize bytes
// before returning io.EOF.
//
// If bodySize < 0, then bodyStream is read until io.EOF.
//
// bodyStream.Close() is called after finishing reading all body data
// if it implements io.Closer.
//
// Note that GET and HEAD requests cannot have body.
//
// See also SetBodyStreamWriter.
func (req *Request) SetBodyStream(bodyStream io.Reader, bodySize int) {
req.ResetBody()
req.bodyStream = bodyStream
req.Header.SetContentLength(bodySize)
}
// SetBodyStream sets response body stream and, optionally body size.
//
// If bodySize is >= 0, then the bodyStream must provide exactly bodySize bytes
// before returning io.EOF.
//
// If bodySize < 0, then bodyStream is read until io.EOF.
//
// bodyStream.Close() is called after finishing reading all body data
// if it implements io.Closer.
//
// See also SetBodyStreamWriter.
func (resp *Response) SetBodyStream(bodyStream io.Reader, bodySize int) {
resp.ResetBody()
resp.bodyStream = bodyStream
resp.Header.SetContentLength(bodySize)
}
// IsBodyStream returns true if body is set via SetBodyStream*
func (req *Request) IsBodyStream() bool {
return req.bodyStream != nil
}
// IsBodyStream returns true if body is set via SetBodyStream*
func (resp *Response) IsBodyStream() bool {
return resp.bodyStream != nil
}
// SetBodyStreamWriter registers the given sw for populating request body.
//
// This function may be used in the following cases:
//
// * if request body is too big (more than 10MB).
// * if request body is streamed from slow external sources.
// * if request body must be streamed to the server in chunks
// (aka `http client push` or `chunked transfer-encoding`).
//
// Note that GET and HEAD requests cannot have body.
//
/// See also SetBodyStream.
func (req *Request) SetBodyStreamWriter(sw StreamWriter) {
sr := NewStreamReader(sw)
req.SetBodyStream(sr, -1)
}
// SetBodyStreamWriter registers the given sw for populating response body.
//
// This function may be used in the following cases:
//
// * if response body is too big (more than 10MB).
// * if response body is streamed from slow external sources.
// * if response body must be streamed to the client in chunks
// (aka `http server push` or `chunked transfer-encoding`).
//
// See also SetBodyStream.
func (resp *Response) SetBodyStreamWriter(sw StreamWriter) {
sr := NewStreamReader(sw)
resp.SetBodyStream(sr, -1)
}
// BodyWriter returns writer for populating response body.
//
// If used inside RequestHandler, the returned writer must not be used
// after returning from RequestHandler. Use RequestCtx.Write
// or SetBodyStreamWriter in this case.
func (resp *Response) BodyWriter() io.Writer {
resp.w.r = resp
return &resp.w
}
// BodyWriter returns writer for populating request body.
func (req *Request) BodyWriter() io.Writer {
req.w.r = req
return &req.w
}
type responseBodyWriter struct {
r *Response
}
func (w *responseBodyWriter) Write(p []byte) (int, error) {
w.r.AppendBody(p)
return len(p), nil
}
type requestBodyWriter struct {
r *Request
}
func (w *requestBodyWriter) Write(p []byte) (int, error) {
w.r.AppendBody(p)
return len(p), nil
}
func (resp *Response) parseNetConn(conn net.Conn) {
resp.raddr = conn.RemoteAddr()
resp.laddr = conn.LocalAddr()
}
// RemoteAddr returns the remote network address. The Addr returned is shared
// by all invocations of RemoteAddr, so do not modify it.
func (resp *Response) RemoteAddr() net.Addr {
return resp.raddr
}
// LocalAddr returns the local network address. The Addr returned is shared
// by all invocations of LocalAddr, so do not modify it.
func (resp *Response) LocalAddr() net.Addr {
return resp.laddr
}
// Body returns response body.
//
// The returned body is valid until the response modification.
func (resp *Response) Body() []byte {
if resp.bodyStream != nil {
bodyBuf := resp.bodyBuffer()
bodyBuf.Reset()
_, err := copyZeroAlloc(bodyBuf, resp.bodyStream)
resp.closeBodyStream() //nolint:errcheck
if err != nil {
bodyBuf.SetString(err.Error())
}
}
return resp.bodyBytes()
}
func (resp *Response) bodyBytes() []byte {
if resp.bodyRaw != nil {
return resp.bodyRaw
}
if resp.body == nil {
return nil
}
return resp.body.B
}
func (req *Request) bodyBytes() []byte {
if req.body == nil {
return nil
}
return req.body.B
}
func (resp *Response) bodyBuffer() *bytebufferpool.ByteBuffer {
if resp.body == nil {
resp.body = responseBodyPool.Get()
}
resp.bodyRaw = nil
return resp.body
}
func (req *Request) bodyBuffer() *bytebufferpool.ByteBuffer {
if req.body == nil {
req.body = requestBodyPool.Get()
}
return req.body
}
var (
responseBodyPool bytebufferpool.Pool
requestBodyPool bytebufferpool.Pool
)
// BodyGunzip returns un-gzipped body data.
//
// This method may be used if the request header contains
// 'Content-Encoding: gzip' for reading un-gzipped body.
// Use Body for reading gzipped request body.
func (req *Request) BodyGunzip() ([]byte, error) {
return gunzipData(req.Body())
}
// BodyGunzip returns un-gzipped body data.
//
// This method may be used if the response header contains
// 'Content-Encoding: gzip' for reading un-gzipped body.
// Use Body for reading gzipped response body.
func (resp *Response) BodyGunzip() ([]byte, error) {
return gunzipData(resp.Body())
}
func gunzipData(p []byte) ([]byte, error) {
var bb bytebufferpool.ByteBuffer
_, err := WriteGunzip(&bb, p)
if err != nil {
return nil, err
}
return bb.B, nil
}
// BodyInflate returns inflated body data.
//
// This method may be used if the response header contains
// 'Content-Encoding: deflate' for reading inflated request body.
// Use Body for reading deflated request body.
func (req *Request) BodyInflate() ([]byte, error) {
return inflateData(req.Body())
}
// BodyInflate returns inflated body data.
//
// This method may be used if the response header contains
// 'Content-Encoding: deflate' for reading inflated response body.
// Use Body for reading deflated response body.
func (resp *Response) BodyInflate() ([]byte, error) {
return inflateData(resp.Body())
}
func inflateData(p []byte) ([]byte, error) {
var bb bytebufferpool.ByteBuffer
_, err := WriteInflate(&bb, p)
if err != nil {
return nil, err
}
return bb.B, nil
}
// BodyWriteTo writes request body to w.
func (req *Request) BodyWriteTo(w io.Writer) error {
if req.bodyStream != nil {
_, err := copyZeroAlloc(w, req.bodyStream)
req.closeBodyStream() //nolint:errcheck
return err
}
if req.onlyMultipartForm() {
return WriteMultipartForm(w, req.multipartForm, req.multipartFormBoundary)
}
_, err := w.Write(req.bodyBytes())
return err
}
// BodyWriteTo writes response body to w.
func (resp *Response) BodyWriteTo(w io.Writer) error {
if resp.bodyStream != nil {
_, err := copyZeroAlloc(w, resp.bodyStream)
resp.closeBodyStream() //nolint:errcheck
return err
}
_, err := w.Write(resp.bodyBytes())
return err
}
// AppendBody appends p to response body.
//
// It is safe re-using p after the function returns.
func (resp *Response) AppendBody(p []byte) {
resp.AppendBodyString(b2s(p))
}
// AppendBodyString appends s to response body.
func (resp *Response) AppendBodyString(s string) {
resp.closeBodyStream() //nolint:errcheck
resp.bodyBuffer().WriteString(s) //nolint:errcheck
}
// SetBody sets response body.
//
// It is safe re-using body argument after the function returns.
func (resp *Response) SetBody(body []byte) {
resp.SetBodyString(b2s(body))
}
// SetBodyString sets response body.
func (resp *Response) SetBodyString(body string) {
resp.closeBodyStream() //nolint:errcheck
bodyBuf := resp.bodyBuffer()
bodyBuf.Reset()
bodyBuf.WriteString(body) //nolint:errcheck
}
// ResetBody resets response body.
func (resp *Response) ResetBody() {
resp.bodyRaw = nil
resp.closeBodyStream() //nolint:errcheck
if resp.body != nil {
if resp.keepBodyBuffer {
resp.body.Reset()
} else {
responseBodyPool.Put(resp.body)
resp.body = nil
}
}
}
// SetBodyRaw sets response body, but without copying it.
//
// From this point onward the body argument must not be changed.
func (resp *Response) SetBodyRaw(body []byte) {
resp.ResetBody()
resp.bodyRaw = body
}
// ReleaseBody retires the response body if it is greater than "size" bytes.
//
// This permits GC to reclaim the large buffer. If used, must be before
// ReleaseResponse.
//
// Use this method only if you really understand how it works.
// The majority of workloads don't need this method.
func (resp *Response) ReleaseBody(size int) {
resp.bodyRaw = nil
if cap(resp.body.B) > size {
resp.closeBodyStream() //nolint:errcheck
resp.body = nil
}
}
// ReleaseBody retires the request body if it is greater than "size" bytes.
//
// This permits GC to reclaim the large buffer. If used, must be before
// ReleaseRequest.
//
// Use this method only if you really understand how it works.
// The majority of workloads don't need this method.
func (req *Request) ReleaseBody(size int) {
if cap(req.body.B) > size {
req.closeBodyStream() //nolint:errcheck
req.body = nil
}
}
// SwapBody swaps response body with the given body and returns
// the previous response body.
//
// It is forbidden to use the body passed to SwapBody after
// the function returns.
func (resp *Response) SwapBody(body []byte) []byte {
bb := resp.bodyBuffer()
if resp.bodyStream != nil {
bb.Reset()
_, err := copyZeroAlloc(bb, resp.bodyStream)
resp.closeBodyStream() //nolint:errcheck
if err != nil {
bb.Reset()
bb.SetString(err.Error())
}
}
resp.bodyRaw = nil
oldBody := bb.B
bb.B = body
return oldBody
}
// SwapBody swaps request body with the given body and returns
// the previous request body.
//
// It is forbidden to use the body passed to SwapBody after
// the function returns.
func (req *Request) SwapBody(body []byte) []byte {
bb := req.bodyBuffer()
if req.bodyStream != nil {
bb.Reset()
_, err := copyZeroAlloc(bb, req.bodyStream)
req.closeBodyStream() //nolint:errcheck
if err != nil {
bb.Reset()
bb.SetString(err.Error())
}
}
oldBody := bb.B
bb.B = body
return oldBody
}
// Body returns request body.
//
// The returned body is valid until the request modification.
func (req *Request) Body() []byte {
if req.bodyStream != nil {
bodyBuf := req.bodyBuffer()
bodyBuf.Reset()
_, err := copyZeroAlloc(bodyBuf, req.bodyStream)
req.closeBodyStream() //nolint:errcheck
if err != nil {
bodyBuf.SetString(err.Error())
}
} else if req.onlyMultipartForm() {
body, err := marshalMultipartForm(req.multipartForm, req.multipartFormBoundary)
if err != nil {
return []byte(err.Error())
}
return body
}
return req.bodyBytes()
}
// AppendBody appends p to request body.
//
// It is safe re-using p after the function returns.
func (req *Request) AppendBody(p []byte) {
req.AppendBodyString(b2s(p))
}
// AppendBodyString appends s to request body.
func (req *Request) AppendBodyString(s string) {
req.RemoveMultipartFormFiles()
req.closeBodyStream() //nolint:errcheck
req.bodyBuffer().WriteString(s) //nolint:errcheck
}
// SetBody sets request body.
//
// It is safe re-using body argument after the function returns.
func (req *Request) SetBody(body []byte) {
req.SetBodyString(b2s(body))
}
// SetBodyString sets request body.
func (req *Request) SetBodyString(body string) {
req.RemoveMultipartFormFiles()
req.closeBodyStream() //nolint:errcheck
req.bodyBuffer().SetString(body)
}
// ResetBody resets request body.
func (req *Request) ResetBody() {
req.RemoveMultipartFormFiles()
req.closeBodyStream() //nolint:errcheck
if req.body != nil {
if req.keepBodyBuffer {
req.body.Reset()
} else {
requestBodyPool.Put(req.body)
req.body = nil
}
}
}
// CopyTo copies req contents to dst except of body stream.
func (req *Request) CopyTo(dst *Request) {
req.copyToSkipBody(dst)
if req.body != nil {
dst.bodyBuffer().Set(req.body.B)
} else if dst.body != nil {
dst.body.Reset()
}
}
func (req *Request) copyToSkipBody(dst *Request) {
dst.Reset()
req.Header.CopyTo(&dst.Header)
req.uri.CopyTo(&dst.uri)
dst.parsedURI = req.parsedURI
req.postArgs.CopyTo(&dst.postArgs)
dst.parsedPostArgs = req.parsedPostArgs
dst.isTLS = req.isTLS
// do not copy multipartForm - it will be automatically
// re-created on the first call to MultipartForm.
}
// CopyTo copies resp contents to dst except of body stream.
func (resp *Response) CopyTo(dst *Response) {
resp.copyToSkipBody(dst)
if resp.bodyRaw != nil {
dst.bodyRaw = resp.bodyRaw
if dst.body != nil {
dst.body.Reset()
}
} else if resp.body != nil {
dst.bodyBuffer().Set(resp.body.B)
} else if dst.body != nil {
dst.body.Reset()
}
}
func (resp *Response) copyToSkipBody(dst *Response) {
dst.Reset()
resp.Header.CopyTo(&dst.Header)
dst.SkipBody = resp.SkipBody
dst.raddr = resp.raddr
dst.laddr = resp.laddr
}
func swapRequestBody(a, b *Request) {
a.body, b.body = b.body, a.body
a.bodyStream, b.bodyStream = b.bodyStream, a.bodyStream
}
func swapResponseBody(a, b *Response) {
a.body, b.body = b.body, a.body
a.bodyRaw, b.bodyRaw = b.bodyRaw, a.bodyRaw
a.bodyStream, b.bodyStream = b.bodyStream, a.bodyStream
}
// URI returns request URI
func (req *Request) URI() *URI {
req.parseURI()
return &req.uri
}
func (req *Request) parseURI() {
if req.parsedURI {
return
}
req.parsedURI = true
req.uri.parse(req.Header.Host(), req.Header.RequestURI(), req.isTLS)
}
// PostArgs returns POST arguments.
func (req *Request) PostArgs() *Args {
req.parsePostArgs()
return &req.postArgs
}
func (req *Request) parsePostArgs() {
if req.parsedPostArgs {
return
}
req.parsedPostArgs = true
if !bytes.HasPrefix(req.Header.ContentType(), strPostArgsContentType) {
return
}
req.postArgs.ParseBytes(req.bodyBytes())
}
// ErrNoMultipartForm means that the request's Content-Type
// isn't 'multipart/form-data'.
var ErrNoMultipartForm = errors.New("request has no multipart/form-data Content-Type")
// MultipartForm returns requests's multipart form.
//
// Returns ErrNoMultipartForm if request's Content-Type
// isn't 'multipart/form-data'.
//
// RemoveMultipartFormFiles must be called after returned multipart form
// is processed.
func (req *Request) MultipartForm() (*multipart.Form, error) {
if req.multipartForm != nil {
return req.multipartForm, nil
}
req.multipartFormBoundary = string(req.Header.MultipartFormBoundary())
if len(req.multipartFormBoundary) == 0 {
return nil, ErrNoMultipartForm
}
ce := req.Header.peek(strContentEncoding)
body := req.bodyBytes()
if bytes.Equal(ce, strGzip) {
// Do not care about memory usage here.
var err error
if body, err = AppendGunzipBytes(nil, body); err != nil {
return nil, fmt.Errorf("cannot gunzip request body: %s", err)
}
} else if len(ce) > 0 {
return nil, fmt.Errorf("unsupported Content-Encoding: %q", ce)
}
f, err := readMultipartForm(bytes.NewReader(body), req.multipartFormBoundary, len(body), len(body))
if err != nil {
return nil, err
}
req.multipartForm = f
return f, nil
}
func marshalMultipartForm(f *multipart.Form, boundary string) ([]byte, error) {
var buf bytebufferpool.ByteBuffer
if err := WriteMultipartForm(&buf, f, boundary); err != nil {
return nil, err
}
return buf.B, nil
}
// WriteMultipartForm writes the given multipart form f with the given
// boundary to w.
func WriteMultipartForm(w io.Writer, f *multipart.Form, boundary string) error {
// Do not care about memory allocations here, since multipart
// form processing is slow.
if len(boundary) == 0 {
panic("BUG: form boundary cannot be empty")
}
mw := multipart.NewWriter(w)
if err := mw.SetBoundary(boundary); err != nil {
return fmt.Errorf("cannot use form boundary %q: %s", boundary, err)
}
// marshal values
for k, vv := range f.Value {
for _, v := range vv {
if err := mw.WriteField(k, v); err != nil {
return fmt.Errorf("cannot write form field %q value %q: %s", k, v, err)
}
}
}
// marshal files
for k, fvv := range f.File {
for _, fv := range fvv {
vw, err := mw.CreatePart(fv.Header)
if err != nil {
return fmt.Errorf("cannot create form file %q (%q): %s", k, fv.Filename, err)
}
fh, err := fv.Open()
if err != nil {
return fmt.Errorf("cannot open form file %q (%q): %s", k, fv.Filename, err)
}
if _, err = copyZeroAlloc(vw, fh); err != nil {
return fmt.Errorf("error when copying form file %q (%q): %s", k, fv.Filename, err)
}
if err = fh.Close(); err != nil {
return fmt.Errorf("cannot close form file %q (%q): %s", k, fv.Filename, err)
}
}
}
if err := mw.Close(); err != nil {
return fmt.Errorf("error when closing multipart form writer: %s", err)
}
return nil
}
func readMultipartForm(r io.Reader, boundary string, size, maxInMemoryFileSize int) (*multipart.Form, error) {
// Do not care about memory allocations here, since they are tiny
// compared to multipart data (aka multi-MB files) usually sent
// in multipart/form-data requests.
if size <= 0 {
return nil, fmt.Errorf("form size must be greater than 0. Given %d", size)
}
lr := io.LimitReader(r, int64(size))
mr := multipart.NewReader(lr, boundary)
f, err := mr.ReadForm(int64(maxInMemoryFileSize))
if err != nil {
return nil, fmt.Errorf("cannot read multipart/form-data body: %s", err)
}
return f, nil
}
// Reset clears request contents.
func (req *Request) Reset() {
req.Header.Reset()
req.resetSkipHeader()
req.timeout = 0
}
func (req *Request) resetSkipHeader() {
req.ResetBody()
req.uri.Reset()
req.parsedURI = false
req.postArgs.Reset()
req.parsedPostArgs = false
req.isTLS = false
}
// RemoveMultipartFormFiles removes multipart/form-data temporary files
// associated with the request.
func (req *Request) RemoveMultipartFormFiles() {
if req.multipartForm != nil {
// Do not check for error, since these files may be deleted or moved
// to new places by user code.
req.multipartForm.RemoveAll() //nolint:errcheck
req.multipartForm = nil
}
req.multipartFormBoundary = ""
}
// Reset clears response contents.
func (resp *Response) Reset() {
resp.Header.Reset()
resp.resetSkipHeader()
resp.SkipBody = false
resp.raddr = nil
resp.laddr = nil
resp.ImmediateHeaderFlush = false
}
func (resp *Response) resetSkipHeader() {
resp.ResetBody()
}
// Read reads request (including body) from the given r.
//
// RemoveMultipartFormFiles or Reset must be called after
// reading multipart/form-data request in order to delete temporarily
// uploaded files.
//
// If MayContinue returns true, the caller must:
//
// - Either send StatusExpectationFailed response if request headers don't
// satisfy the caller.
// - Or send StatusContinue response before reading request body
// with ContinueReadBody.
// - Or close the connection.
//
// io.EOF is returned if r is closed before reading the first header byte.
func (req *Request) Read(r *bufio.Reader) error {
return req.ReadLimitBody(r, 0)
}
const defaultMaxInMemoryFileSize = 16 * 1024 * 1024
// ErrGetOnly is returned when server expects only GET requests,
// but some other type of request came (Server.GetOnly option is true).
var ErrGetOnly = errors.New("non-GET request received")
// ReadLimitBody reads request from the given r, limiting the body size.
//
// If maxBodySize > 0 and the body size exceeds maxBodySize,
// then ErrBodyTooLarge is returned.
//
// RemoveMultipartFormFiles or Reset must be called after
// reading multipart/form-data request in order to delete temporarily
// uploaded files.
//
// If MayContinue returns true, the caller must:
//
// - Either send StatusExpectationFailed response if request headers don't
// satisfy the caller.
// - Or send StatusContinue response before reading request body
// with ContinueReadBody.
// - Or close the connection.
//
// io.EOF is returned if r is closed before reading the first header byte.
func (req *Request) ReadLimitBody(r *bufio.Reader, maxBodySize int) error {
req.resetSkipHeader()
if err := req.Header.Read(r); err != nil {
return err
}
return req.readLimitBody(r, maxBodySize, false, true)
}
func (req *Request) readLimitBody(r *bufio.Reader, maxBodySize int, getOnly bool, preParseMultipartForm bool) error {
// Do not reset the request here - the caller must reset it before
// calling this method.
if getOnly && !req.Header.IsGet() {
return ErrGetOnly
}
if req.MayContinue() {
// 'Expect: 100-continue' header found. Let the caller deciding
// whether to read request body or
// to return StatusExpectationFailed.
return nil
}
return req.ContinueReadBody(r, maxBodySize, preParseMultipartForm)
}
// MayContinue returns true if the request contains
// 'Expect: 100-continue' header.
//
// The caller must do one of the following actions if MayContinue returns true:
//
// - Either send StatusExpectationFailed response if request headers don't
// satisfy the caller.
// - Or send StatusContinue response before reading request body
// with ContinueReadBody.
// - Or close the connection.
func (req *Request) MayContinue() bool {
return bytes.Equal(req.Header.peek(strExpect), str100Continue)
}
// ContinueReadBody reads request body if request header contains
// 'Expect: 100-continue'.
//
// The caller must send StatusContinue response before calling this method.
//
// If maxBodySize > 0 and the body size exceeds maxBodySize,
// then ErrBodyTooLarge is returned.
func (req *Request) ContinueReadBody(r *bufio.Reader, maxBodySize int, preParseMultipartForm ...bool) error {
var err error
contentLength := req.Header.realContentLength()
if contentLength > 0 {
if maxBodySize > 0 && contentLength > maxBodySize {
return ErrBodyTooLarge
}
if len(preParseMultipartForm) == 0 || preParseMultipartForm[0] {
// Pre-read multipart form data of known length.
// This way we limit memory usage for large file uploads, since their contents
// is streamed into temporary files if file size exceeds defaultMaxInMemoryFileSize.
req.multipartFormBoundary = string(req.Header.MultipartFormBoundary())
if len(req.multipartFormBoundary) > 0 && len(req.Header.peek(strContentEncoding)) == 0 {
req.multipartForm, err = readMultipartForm(r, req.multipartFormBoundary, contentLength, defaultMaxInMemoryFileSize)
if err != nil {
req.Reset()
}
return err
}
}
}
if contentLength == -2 {
// identity body has no sense for http requests, since
// the end of body is determined by connection close.
// So just ignore request body for requests without
// 'Content-Length' and 'Transfer-Encoding' headers.
req.Header.SetContentLength(0)
return nil
}
bodyBuf := req.bodyBuffer()
bodyBuf.Reset()
bodyBuf.B, err = readBody(r, contentLength, maxBodySize, bodyBuf.B)
if err != nil {
req.Reset()
return err
}
req.Header.SetContentLength(len(bodyBuf.B))
return nil
}
// Read reads response (including body) from the given r.
//
// io.EOF is returned if r is closed before reading the first header byte.
func (resp *Response) Read(r *bufio.Reader) error {
return resp.ReadLimitBody(r, 0)
}
// ReadLimitBody reads response from the given r, limiting the body size.
//
// If maxBodySize > 0 and the body size exceeds maxBodySize,
// then ErrBodyTooLarge is returned.
//
// io.EOF is returned if r is closed before reading the first header byte.
func (resp *Response) ReadLimitBody(r *bufio.Reader, maxBodySize int) error {
resp.resetSkipHeader()
err := resp.Header.Read(r)
if err != nil {
return err
}
if resp.Header.StatusCode() == StatusContinue {
// Read the next response according to http://www.w3.org/Protocols/rfc2616/rfc2616-sec8.html .
if err = resp.Header.Read(r); err != nil {
return err
}
}
if !resp.mustSkipBody() {
bodyBuf := resp.bodyBuffer()
bodyBuf.Reset()
bodyBuf.B, err = readBody(r, resp.Header.ContentLength(), maxBodySize, bodyBuf.B)
if err != nil {
return err
}
resp.Header.SetContentLength(len(bodyBuf.B))
}
return nil
}
func (resp *Response) mustSkipBody() bool {
return resp.SkipBody || resp.Header.mustSkipContentLength()
}
var errRequestHostRequired = errors.New("missing required Host header in request")
// WriteTo writes request to w. It implements io.WriterTo.
func (req *Request) WriteTo(w io.Writer) (int64, error) {
return writeBufio(req, w)
}
// WriteTo writes response to w. It implements io.WriterTo.
func (resp *Response) WriteTo(w io.Writer) (int64, error) {
return writeBufio(resp, w)
}
func writeBufio(hw httpWriter, w io.Writer) (int64, error) {
sw := acquireStatsWriter(w)
bw := acquireBufioWriter(sw)
err1 := hw.Write(bw)
err2 := bw.Flush()
releaseBufioWriter(bw)
n := sw.bytesWritten
releaseStatsWriter(sw)
err := err1
if err == nil {
err = err2
}
return n, err
}
type statsWriter struct {
w io.Writer
bytesWritten int64
}
func (w *statsWriter) Write(p []byte) (int, error) {
n, err := w.w.Write(p)
w.bytesWritten += int64(n)
return n, err
}
func acquireStatsWriter(w io.Writer) *statsWriter {
v := statsWriterPool.Get()
if v == nil {
return &statsWriter{
w: w,
}
}
sw := v.(*statsWriter)
sw.w = w
return sw
}
func releaseStatsWriter(sw *statsWriter) {
sw.w = nil
sw.bytesWritten = 0
statsWriterPool.Put(sw)
}
var statsWriterPool sync.Pool
func acquireBufioWriter(w io.Writer) *bufio.Writer {
v := bufioWriterPool.Get()
if v == nil {
return bufio.NewWriter(w)
}
bw := v.(*bufio.Writer)
bw.Reset(w)
return bw
}
func releaseBufioWriter(bw *bufio.Writer) {
bufioWriterPool.Put(bw)
}
var bufioWriterPool sync.Pool
func (req *Request) onlyMultipartForm() bool {
return req.multipartForm != nil && (req.body == nil || len(req.body.B) == 0)
}
// Write writes request to w.
//
// Write doesn't flush request to w for performance reasons.
//
// See also WriteTo.
func (req *Request) Write(w *bufio.Writer) error {
if len(req.Header.Host()) == 0 || req.parsedURI {
uri := req.URI()
host := uri.Host()
if len(host) == 0 {
return errRequestHostRequired
}
req.Header.SetHostBytes(host)
req.Header.SetRequestURIBytes(uri.RequestURI())
if len(uri.username) > 0 {
// RequestHeader.SetBytesKV only uses RequestHeader.bufKV.key
// So we are free to use RequestHeader.bufKV.value as a scratch pad for
// the base64 encoding.
nl := len(uri.username) + len(uri.password) + 1
nb := nl + len(strBasicSpace)
tl := nb + base64.StdEncoding.EncodedLen(nl)
if tl > cap(req.Header.bufKV.value) {
req.Header.bufKV.value = make([]byte, 0, tl)
}
buf := req.Header.bufKV.value[:0]
buf = append(buf, uri.username...)
buf = append(buf, strColon...)
buf = append(buf, uri.password...)
buf = append(buf, strBasicSpace...)
base64.StdEncoding.Encode(buf[nb:tl], buf[:nl])
req.Header.SetBytesKV(strAuthorization, buf[nl:tl])
}
}
if req.bodyStream != nil {
return req.writeBodyStream(w)
}
body := req.bodyBytes()
var err error
if req.onlyMultipartForm() {
body, err = marshalMultipartForm(req.multipartForm, req.multipartFormBoundary)
if err != nil {
return fmt.Errorf("error when marshaling multipart form: %s", err)
}
req.Header.SetMultipartFormBoundary(req.multipartFormBoundary)
}
hasBody := false
if len(body) == 0 {
body = req.postArgs.QueryString()
}
if len(body) != 0 || !req.Header.ignoreBody() {
hasBody = true
req.Header.SetContentLength(len(body))
}
if err = req.Header.Write(w); err != nil {
return err
}
if hasBody {
_, err = w.Write(body)
} else if len(body) > 0 {
return fmt.Errorf("non-zero body for non-POST request. body=%q", body)
}
return err
}
// WriteGzip writes response with gzipped body to w.
//
// The method gzips response body and sets 'Content-Encoding: gzip'
// header before writing response to w.
//
// WriteGzip doesn't flush response to w for performance reasons.
func (resp *Response) WriteGzip(w *bufio.Writer) error {
return resp.WriteGzipLevel(w, CompressDefaultCompression)
}
// WriteGzipLevel writes response with gzipped body to w.
//
// Level is the desired compression level:
//
// * CompressNoCompression
// * CompressBestSpeed
// * CompressBestCompression
// * CompressDefaultCompression
// * CompressHuffmanOnly
//
// The method gzips response body and sets 'Content-Encoding: gzip'
// header before writing response to w.
//
// WriteGzipLevel doesn't flush response to w for performance reasons.
func (resp *Response) WriteGzipLevel(w *bufio.Writer, level int) error {
if err := resp.gzipBody(level); err != nil {
return err
}
return resp.Write(w)
}
// WriteDeflate writes response with deflated body to w.
//
// The method deflates response body and sets 'Content-Encoding: deflate'
// header before writing response to w.
//
// WriteDeflate doesn't flush response to w for performance reasons.
func (resp *Response) WriteDeflate(w *bufio.Writer) error {
return resp.WriteDeflateLevel(w, CompressDefaultCompression)
}
// WriteDeflateLevel writes response with deflated body to w.
//
// Level is the desired compression level:
//
// * CompressNoCompression
// * CompressBestSpeed
// * CompressBestCompression
// * CompressDefaultCompression
// * CompressHuffmanOnly
//
// The method deflates response body and sets 'Content-Encoding: deflate'
// header before writing response to w.
//
// WriteDeflateLevel doesn't flush response to w for performance reasons.
func (resp *Response) WriteDeflateLevel(w *bufio.Writer, level int) error {
if err := resp.deflateBody(level); err != nil {
return err
}
return resp.Write(w)
}
func (resp *Response) gzipBody(level int) error {
if len(resp.Header.peek(strContentEncoding)) > 0 {
// It looks like the body is already compressed.
// Do not compress it again.
return nil
}
if !resp.Header.isCompressibleContentType() {
// The content-type cannot be compressed.
return nil
}
if resp.bodyStream != nil {
// Reset Content-Length to -1, since it is impossible
// to determine body size beforehand of streamed compression.
// For https://github.com/valyala/fasthttp/issues/176 .
resp.Header.SetContentLength(-1)
// Do not care about memory allocations here, since gzip is slow
// and allocates a lot of memory by itself.
bs := resp.bodyStream
resp.bodyStream = NewStreamReader(func(sw *bufio.Writer) {
zw := acquireStacklessGzipWriter(sw, level)
fw := &flushWriter{
wf: zw,
bw: sw,
}
copyZeroAlloc(fw, bs) //nolint:errcheck
releaseStacklessGzipWriter(zw, level)
if bsc, ok := bs.(io.Closer); ok {
bsc.Close()
}
})
} else {
bodyBytes := resp.bodyBytes()
if len(bodyBytes) < minCompressLen {
// There is no sense in spending CPU time on small body compression,
// since there is a very high probability that the compressed
// body size will be bigger than the original body size.
return nil
}
w := responseBodyPool.Get()
w.B = AppendGzipBytesLevel(w.B, bodyBytes, level)
// Hack: swap resp.body with w.
if resp.body != nil {
responseBodyPool.Put(resp.body)
}
resp.body = w
resp.bodyRaw = nil
}
resp.Header.SetCanonical(strContentEncoding, strGzip)
return nil
}
func (resp *Response) deflateBody(level int) error {
if len(resp.Header.peek(strContentEncoding)) > 0 {
// It looks like the body is already compressed.
// Do not compress it again.
return nil
}
if !resp.Header.isCompressibleContentType() {
// The content-type cannot be compressed.
return nil
}
if resp.bodyStream != nil {
// Reset Content-Length to -1, since it is impossible
// to determine body size beforehand of streamed compression.
// For https://github.com/valyala/fasthttp/issues/176 .
resp.Header.SetContentLength(-1)
// Do not care about memory allocations here, since flate is slow
// and allocates a lot of memory by itself.
bs := resp.bodyStream
resp.bodyStream = NewStreamReader(func(sw *bufio.Writer) {
zw := acquireStacklessDeflateWriter(sw, level)
fw := &flushWriter{
wf: zw,
bw: sw,
}
copyZeroAlloc(fw, bs) //nolint:errcheck
releaseStacklessDeflateWriter(zw, level)
if bsc, ok := bs.(io.Closer); ok {
bsc.Close()
}
})
} else {
bodyBytes := resp.bodyBytes()
if len(bodyBytes) < minCompressLen {
// There is no sense in spending CPU time on small body compression,
// since there is a very high probability that the compressed
// body size will be bigger than the original body size.
return nil
}
w := responseBodyPool.Get()
w.B = AppendDeflateBytesLevel(w.B, bodyBytes, level)
// Hack: swap resp.body with w.
if resp.body != nil {
responseBodyPool.Put(resp.body)
}
resp.body = w
resp.bodyRaw = nil
}
resp.Header.SetCanonical(strContentEncoding, strDeflate)
return nil
}
// Bodies with sizes smaller than minCompressLen aren't compressed at all
const minCompressLen = 200
type writeFlusher interface {
io.Writer
Flush() error
}
type flushWriter struct {
wf writeFlusher
bw *bufio.Writer
}
func (w *flushWriter) Write(p []byte) (int, error) {
n, err := w.wf.Write(p)
if err != nil {
return 0, err
}
if err = w.wf.Flush(); err != nil {
return 0, err
}
if err = w.bw.Flush(); err != nil {
return 0, err
}
return n, nil
}
// Write writes response to w.
//
// Write doesn't flush response to w for performance reasons.
//
// See also WriteTo.
func (resp *Response) Write(w *bufio.Writer) error {
sendBody := !resp.mustSkipBody()
if resp.bodyStream != nil {
return resp.writeBodyStream(w, sendBody)
}
body := resp.bodyBytes()
bodyLen := len(body)
if sendBody || bodyLen > 0 {
resp.Header.SetContentLength(bodyLen)
}
if err := resp.Header.Write(w); err != nil {
return err
}
if sendBody {
if _, err := w.Write(body); err != nil {
return err
}
}
return nil
}
func (req *Request) writeBodyStream(w *bufio.Writer) error {
var err error
contentLength := req.Header.ContentLength()
if contentLength < 0 {
lrSize := limitedReaderSize(req.bodyStream)
if lrSize >= 0 {
contentLength = int(lrSize)
if int64(contentLength) != lrSize {
contentLength = -1
}
if contentLength >= 0 {
req.Header.SetContentLength(contentLength)
}
}
}
if contentLength >= 0 {
if err = req.Header.Write(w); err == nil {
err = writeBodyFixedSize(w, req.bodyStream, int64(contentLength))
}
} else {
req.Header.SetContentLength(-1)
if err = req.Header.Write(w); err == nil {
err = writeBodyChunked(w, req.bodyStream)
}
}
err1 := req.closeBodyStream()
if err == nil {
err = err1
}
return err
}
// ErrBodyStreamWritePanic is returned when panic happens during writing body stream.
type ErrBodyStreamWritePanic struct {
error
}
func (resp *Response) writeBodyStream(w *bufio.Writer, sendBody bool) (err error) {
defer func() {
if r := recover(); r != nil {
err = &ErrBodyStreamWritePanic{
error: fmt.Errorf("panic while writing body stream: %+v", r),
}
}
}()
contentLength := resp.Header.ContentLength()
if contentLength < 0 {
lrSize := limitedReaderSize(resp.bodyStream)
if lrSize >= 0 {
contentLength = int(lrSize)
if int64(contentLength) != lrSize {
contentLength = -1
}
if contentLength >= 0 {
resp.Header.SetContentLength(contentLength)
}
}
}
if contentLength >= 0 {
if err = resp.Header.Write(w); err == nil && sendBody {
if resp.ImmediateHeaderFlush {
err = w.Flush()
}
if err == nil {
err = writeBodyFixedSize(w, resp.bodyStream, int64(contentLength))
}
}
} else {
resp.Header.SetContentLength(-1)
if err = resp.Header.Write(w); err == nil && sendBody {
if resp.ImmediateHeaderFlush {
err = w.Flush()
}
if err == nil {
err = writeBodyChunked(w, resp.bodyStream)
}
}
}
err1 := resp.closeBodyStream()
if err == nil {
err = err1
}
return err
}
func (req *Request) closeBodyStream() error {
if req.bodyStream == nil {
return nil
}
var err error
if bsc, ok := req.bodyStream.(io.Closer); ok {
err = bsc.Close()
}
req.bodyStream = nil
return err
}
func (resp *Response) closeBodyStream() error {
if resp.bodyStream == nil {
return nil
}
var err error
if bsc, ok := resp.bodyStream.(io.Closer); ok {
err = bsc.Close()
}
resp.bodyStream = nil
return err
}
// String returns request representation.
//
// Returns error message instead of request representation on error.
//
// Use Write instead of String for performance-critical code.
func (req *Request) String() string {
return getHTTPString(req)
}
// String returns response representation.
//
// Returns error message instead of response representation on error.
//
// Use Write instead of String for performance-critical code.
func (resp *Response) String() string {
return getHTTPString(resp)
}
func getHTTPString(hw httpWriter) string {
w := bytebufferpool.Get()
bw := bufio.NewWriter(w)
if err := hw.Write(bw); err != nil {
return err.Error()
}
if err := bw.Flush(); err != nil {
return err.Error()
}
s := string(w.B)
bytebufferpool.Put(w)
return s
}
type httpWriter interface {
Write(w *bufio.Writer) error
}
func writeBodyChunked(w *bufio.Writer, r io.Reader) error {
vbuf := copyBufPool.Get()
buf := vbuf.([]byte)
var err error
var n int
for {
n, err = r.Read(buf)
if n == 0 {
if err == nil {
panic("BUG: io.Reader returned 0, nil")
}
if err == io.EOF {
if err = writeChunk(w, buf[:0]); err != nil {
break
}
err = nil
}
break
}
if err = writeChunk(w, buf[:n]); err != nil {
break
}
}
copyBufPool.Put(vbuf)
return err
}
func limitedReaderSize(r io.Reader) int64 {
lr, ok := r.(*io.LimitedReader)
if !ok {
return -1
}
return lr.N
}
func writeBodyFixedSize(w *bufio.Writer, r io.Reader, size int64) error {
if size > maxSmallFileSize {
// w buffer must be empty for triggering
// sendfile path in bufio.Writer.ReadFrom.
if err := w.Flush(); err != nil {
return err
}
}
// Unwrap a single limited reader for triggering sendfile path
// in net.TCPConn.ReadFrom.
lr, ok := r.(*io.LimitedReader)
if ok {
r = lr.R
}
n, err := copyZeroAlloc(w, r)
if ok {
lr.N -= n
}
if n != size && err == nil {
err = fmt.Errorf("copied %d bytes from body stream instead of %d bytes", n, size)
}
return err
}
func copyZeroAlloc(w io.Writer, r io.Reader) (int64, error) {
vbuf := copyBufPool.Get()
buf := vbuf.([]byte)
n, err := io.CopyBuffer(w, r, buf)
copyBufPool.Put(vbuf)
return n, err
}
var copyBufPool = sync.Pool{
New: func() interface{} {
return make([]byte, 4096)
},
}
func writeChunk(w *bufio.Writer, b []byte) error {
n := len(b)
if err := writeHexInt(w, n); err != nil {
return err
}
if _, err := w.Write(strCRLF); err != nil {
return err
}
if _, err := w.Write(b); err != nil {
return err
}
_, err := w.Write(strCRLF)
err1 := w.Flush()
if err == nil {
err = err1
}
return err
}
// ErrBodyTooLarge is returned if either request or response body exceeds
// the given limit.
var ErrBodyTooLarge = errors.New("body size exceeds the given limit")
func readBody(r *bufio.Reader, contentLength int, maxBodySize int, dst []byte) ([]byte, error) {
dst = dst[:0]
if contentLength >= 0 {
if maxBodySize > 0 && contentLength > maxBodySize {
return dst, ErrBodyTooLarge
}
return appendBodyFixedSize(r, dst, contentLength)
}
if contentLength == -1 {
return readBodyChunked(r, maxBodySize, dst)
}
return readBodyIdentity(r, maxBodySize, dst)
}
func readBodyIdentity(r *bufio.Reader, maxBodySize int, dst []byte) ([]byte, error) {
dst = dst[:cap(dst)]
if len(dst) == 0 {
dst = make([]byte, 1024)
}
offset := 0
for {
nn, err := r.Read(dst[offset:])
if nn <= 0 {
if err != nil {
if err == io.EOF {
return dst[:offset], nil
}
return dst[:offset], err
}
panic(fmt.Sprintf("BUG: bufio.Read() returned (%d, nil)", nn))
}
offset += nn
if maxBodySize > 0 && offset > maxBodySize {
return dst[:offset], ErrBodyTooLarge
}
if len(dst) == offset {
n := round2(2 * offset)
if maxBodySize > 0 && n > maxBodySize {
n = maxBodySize + 1
}
b := make([]byte, n)
copy(b, dst)
dst = b
}
}
}
func appendBodyFixedSize(r *bufio.Reader, dst []byte, n int) ([]byte, error) {
if n == 0 {
return dst, nil
}
offset := len(dst)
dstLen := offset + n
if cap(dst) < dstLen {
b := make([]byte, round2(dstLen))
copy(b, dst)
dst = b
}
dst = dst[:dstLen]
for {
nn, err := r.Read(dst[offset:])
if nn <= 0 {
if err != nil {
if err == io.EOF {
err = io.ErrUnexpectedEOF
}
return dst[:offset], err
}
panic(fmt.Sprintf("BUG: bufio.Read() returned (%d, nil)", nn))
}
offset += nn
if offset == dstLen {
return dst, nil
}
}
}
// ErrBrokenChunk is returned when server receives a broken chunked body (Transfer-Encoding: chunked).
type ErrBrokenChunk struct {
error
}
func readBodyChunked(r *bufio.Reader, maxBodySize int, dst []byte) ([]byte, error) {
if len(dst) > 0 {
panic("BUG: expected zero-length buffer")
}
strCRLFLen := len(strCRLF)
for {
chunkSize, err := parseChunkSize(r)
if err != nil {
return dst, err
}
if maxBodySize > 0 && len(dst)+chunkSize > maxBodySize {
return dst, ErrBodyTooLarge
}
dst, err = appendBodyFixedSize(r, dst, chunkSize+strCRLFLen)
if err != nil {
return dst, err
}
if !bytes.Equal(dst[len(dst)-strCRLFLen:], strCRLF) {
return dst, ErrBrokenChunk{
error: fmt.Errorf("cannot find crlf at the end of chunk"),
}
}
dst = dst[:len(dst)-strCRLFLen]
if chunkSize == 0 {
return dst, nil
}
}
}
func parseChunkSize(r *bufio.Reader) (int, error) {
n, err := readHexInt(r)
if err != nil {
return -1, err
}
for {
c, err := r.ReadByte()
if err != nil {
return -1, ErrBrokenChunk{
error: fmt.Errorf("cannot read '\r' char at the end of chunk size: %s", err),
}
}
// Skip any trailing whitespace after chunk size.
if c == ' ' {
continue
}
if c != '\r' {
return -1, ErrBrokenChunk{
error: fmt.Errorf("unexpected char %q at the end of chunk size. Expected %q", c, '\r'),
}
}
break
}
c, err := r.ReadByte()
if err != nil {
return -1, ErrBrokenChunk{
error: fmt.Errorf("cannot read '\n' char at the end of chunk size: %s", err),
}
}
if c != '\n' {
return -1, ErrBrokenChunk{
error: fmt.Errorf("unexpected char %q at the end of chunk size. Expected %q", c, '\n'),
}
}
return n, nil
}
func round2(n int) int {
if n <= 0 {
return 0
}
n--
x := uint(0)
for n > 0 {
n >>= 1
x++
}
return 1 << x
}