// 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 http import ( "bufio" "io" "net" "net/textproto" "os" "sync" ) var ( ErrPersistEOF = &ProtocolError{"persistent connection closed"} ErrPipeline = &ProtocolError{"pipeline error"} ) // A ServerConn reads requests and sends responses over an underlying // connection, until the HTTP keepalive logic commands an end. ServerConn // also allows hijacking the underlying connection by calling Hijack // to regain control over the connection. ServerConn supports pipe-lining, // i.e. requests can be read out of sync (but in the same order) while the // respective responses are sent. type ServerConn struct { lk sync.Mutex // read-write protects the following fields c net.Conn r *bufio.Reader re, we os.Error // read/write errors lastbody io.ReadCloser nread, nwritten int pipereq map[*Request]uint pipe textproto.Pipeline } // NewServerConn returns a new ServerConn reading and writing c. If r is not // nil, it is the buffer to use when reading c. func NewServerConn(c net.Conn, r *bufio.Reader) *ServerConn { if r == nil { r = bufio.NewReader(c) } return &ServerConn{c: c, r: r, pipereq: make(map[*Request]uint)} } // Hijack detaches the ServerConn and returns the underlying connection as well // as the read-side bufio which may have some left over data. Hijack may be // called before Read has signaled the end of the keep-alive logic. The user // should not call Hijack while Read or Write is in progress. func (sc *ServerConn) Hijack() (c net.Conn, r *bufio.Reader) { sc.lk.Lock() defer sc.lk.Unlock() c = sc.c r = sc.r sc.c = nil sc.r = nil return } // Close calls Hijack and then also closes the underlying connection func (sc *ServerConn) Close() os.Error { c, _ := sc.Hijack() if c != nil { return c.Close() } return nil } // Read returns the next request on the wire. An ErrPersistEOF is returned if // it is gracefully determined that there are no more requests (e.g. after the // first request on an HTTP/1.0 connection, or after a Connection:close on a // HTTP/1.1 connection). func (sc *ServerConn) Read() (req *Request, err os.Error) { // Ensure ordered execution of Reads and Writes id := sc.pipe.Next() sc.pipe.StartRequest(id) defer func() { sc.pipe.EndRequest(id) if req == nil { sc.pipe.StartResponse(id) sc.pipe.EndResponse(id) } else { // Remember the pipeline id of this request sc.lk.Lock() sc.pipereq[req] = id sc.lk.Unlock() } }() sc.lk.Lock() if sc.we != nil { // no point receiving if write-side broken or closed defer sc.lk.Unlock() return nil, sc.we } if sc.re != nil { defer sc.lk.Unlock() return nil, sc.re } if sc.r == nil { // connection closed by user in the meantime defer sc.lk.Unlock() return nil, os.EBADF } r := sc.r lastbody := sc.lastbody sc.lastbody = nil sc.lk.Unlock() // Make sure body is fully consumed, even if user does not call body.Close if lastbody != nil { // body.Close is assumed to be idempotent and multiple calls to // it should return the error that its first invokation // returned. err = lastbody.Close() if err != nil { sc.lk.Lock() defer sc.lk.Unlock() sc.re = err return nil, err } } req, err = ReadRequest(r) sc.lk.Lock() defer sc.lk.Unlock() if err != nil { if err == io.ErrUnexpectedEOF { // A close from the opposing client is treated as a // graceful close, even if there was some unparse-able // data before the close. sc.re = ErrPersistEOF return nil, sc.re } else { sc.re = err return req, err } } sc.lastbody = req.Body sc.nread++ if req.Close { sc.re = ErrPersistEOF return req, sc.re } return req, err } // Pending returns the number of unanswered requests // that have been received on the connection. func (sc *ServerConn) Pending() int { sc.lk.Lock() defer sc.lk.Unlock() return sc.nread - sc.nwritten } // Write writes resp in response to req. To close the connection gracefully, set the // Response.Close field to true. Write should be considered operational until // it returns an error, regardless of any errors returned on the Read side. func (sc *ServerConn) Write(req *Request, resp *Response) os.Error { // Retrieve the pipeline ID of this request/response pair sc.lk.Lock() id, ok := sc.pipereq[req] sc.pipereq[req] = 0, false if !ok { sc.lk.Unlock() return ErrPipeline } sc.lk.Unlock() // Ensure pipeline order sc.pipe.StartResponse(id) defer sc.pipe.EndResponse(id) sc.lk.Lock() if sc.we != nil { defer sc.lk.Unlock() return sc.we } if sc.c == nil { // connection closed by user in the meantime defer sc.lk.Unlock() return os.EBADF } c := sc.c if sc.nread <= sc.nwritten { defer sc.lk.Unlock() return os.NewError("persist server pipe count") } if resp.Close { // After signaling a keep-alive close, any pipelined unread // requests will be lost. It is up to the user to drain them // before signaling. sc.re = ErrPersistEOF } sc.lk.Unlock() err := resp.Write(c) sc.lk.Lock() defer sc.lk.Unlock() if err != nil { sc.we = err return err } sc.nwritten++ return nil } // A ClientConn sends request and receives headers over an underlying // connection, while respecting the HTTP keepalive logic. ClientConn // supports hijacking the connection calling Hijack to // regain control of the underlying net.Conn and deal with it as desired. type ClientConn struct { lk sync.Mutex // read-write protects the following fields c net.Conn r *bufio.Reader re, we os.Error // read/write errors lastbody io.ReadCloser nread, nwritten int pipereq map[*Request]uint pipe textproto.Pipeline writeReq func(*Request, io.Writer) os.Error readRes func(buf *bufio.Reader, method string) (*Response, os.Error) } // NewClientConn returns a new ClientConn reading and writing c. If r is not // nil, it is the buffer to use when reading c. func NewClientConn(c net.Conn, r *bufio.Reader) *ClientConn { if r == nil { r = bufio.NewReader(c) } return &ClientConn{ c: c, r: r, pipereq: make(map[*Request]uint), writeReq: (*Request).Write, readRes: ReadResponse, } } // NewProxyClientConn works like NewClientConn but writes Requests // using Request's WriteProxy method. func NewProxyClientConn(c net.Conn, r *bufio.Reader) *ClientConn { cc := NewClientConn(c, r) cc.writeReq = (*Request).WriteProxy return cc } // Hijack detaches the ClientConn and returns the underlying connection as well // as the read-side bufio which may have some left over data. Hijack may be // called before the user or Read have signaled the end of the keep-alive // logic. The user should not call Hijack while Read or Write is in progress. func (cc *ClientConn) Hijack() (c net.Conn, r *bufio.Reader) { cc.lk.Lock() defer cc.lk.Unlock() c = cc.c r = cc.r cc.c = nil cc.r = nil return } // Close calls Hijack and then also closes the underlying connection func (cc *ClientConn) Close() os.Error { c, _ := cc.Hijack() if c != nil { return c.Close() } return nil } // Write writes a request. An ErrPersistEOF error is returned if the connection // has been closed in an HTTP keepalive sense. If req.Close equals true, the // keepalive connection is logically closed after this request and the opposing // server is informed. An ErrUnexpectedEOF indicates the remote closed the // underlying TCP connection, which is usually considered as graceful close. func (cc *ClientConn) Write(req *Request) (err os.Error) { // Ensure ordered execution of Writes id := cc.pipe.Next() cc.pipe.StartRequest(id) defer func() { cc.pipe.EndRequest(id) if err != nil { cc.pipe.StartResponse(id) cc.pipe.EndResponse(id) } else { // Remember the pipeline id of this request cc.lk.Lock() cc.pipereq[req] = id cc.lk.Unlock() } }() cc.lk.Lock() if cc.re != nil { // no point sending if read-side closed or broken defer cc.lk.Unlock() return cc.re } if cc.we != nil { defer cc.lk.Unlock() return cc.we } if cc.c == nil { // connection closed by user in the meantime defer cc.lk.Unlock() return os.EBADF } c := cc.c if req.Close { // We write the EOF to the write-side error, because there // still might be some pipelined reads cc.we = ErrPersistEOF } cc.lk.Unlock() err = cc.writeReq(req, c) cc.lk.Lock() defer cc.lk.Unlock() if err != nil { cc.we = err return err } cc.nwritten++ return nil } // Pending returns the number of unanswered requests // that have been sent on the connection. func (cc *ClientConn) Pending() int { cc.lk.Lock() defer cc.lk.Unlock() return cc.nwritten - cc.nread } // Read reads the next response from the wire. A valid response might be // returned together with an ErrPersistEOF, which means that the remote // requested that this be the last request serviced. Read can be called // concurrently with Write, but not with another Read. func (cc *ClientConn) Read(req *Request) (resp *Response, err os.Error) { // Retrieve the pipeline ID of this request/response pair cc.lk.Lock() id, ok := cc.pipereq[req] cc.pipereq[req] = 0, false if !ok { cc.lk.Unlock() return nil, ErrPipeline } cc.lk.Unlock() // Ensure pipeline order cc.pipe.StartResponse(id) defer cc.pipe.EndResponse(id) cc.lk.Lock() if cc.re != nil { defer cc.lk.Unlock() return nil, cc.re } if cc.r == nil { // connection closed by user in the meantime defer cc.lk.Unlock() return nil, os.EBADF } r := cc.r lastbody := cc.lastbody cc.lastbody = nil cc.lk.Unlock() // Make sure body is fully consumed, even if user does not call body.Close if lastbody != nil { // body.Close is assumed to be idempotent and multiple calls to // it should return the error that its first invokation // returned. err = lastbody.Close() if err != nil { cc.lk.Lock() defer cc.lk.Unlock() cc.re = err return nil, err } } resp, err = cc.readRes(r, req.Method) cc.lk.Lock() defer cc.lk.Unlock() if err != nil { cc.re = err return resp, err } cc.lastbody = resp.Body cc.nread++ if resp.Close { cc.re = ErrPersistEOF // don't send any more requests return resp, cc.re } return resp, err } // Do is convenience method that writes a request and reads a response. func (cc *ClientConn) Do(req *Request) (resp *Response, err os.Error) { err = cc.Write(req) if err != nil { return } return cc.Read(req) }