src/pkg/http/persist.go - go - Git at Google

 // 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"
 	"container/list"
 	"io"
 	"net"
 	"os"
 	"sync"
 )

 var ErrPersistEOF = &ProtocolError{"persistent connection closed"}

 // A ServerConn reads requests and sends responses over an underlying
 // connection, until the HTTP keepalive logic commands an end. ServerConn
 // does not close the underlying connection. Instead, the user calls Close
 // and regains 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 {
 	c               net.Conn
 	r               *bufio.Reader
 	clsd            bool     // indicates a graceful close
 	re, we          os.Error // read/write errors
 	lastBody        io.ReadCloser
 	nread, nwritten int
 	lk              sync.Mutex // protected read/write to re,we
 }

 // 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}
 }

 // Close detaches the ServerConn and returns the underlying connection as well
 // as the read-side bufio which may have some left over data. Close may be
 // called before Read has signaled the end of the keep-alive logic. The user
 // should not call Close while Read or Write is in progress.
 func (sc *ServerConn) Close() (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
 }

 // 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). Read can be called concurrently with Write, but not
 // with another Read.
 func (sc *ServerConn) Read() (req *Request, err os.Error) {

 	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
 	}
 	sc.lk.Unlock()

 	// Make sure body is fully consumed, even if user does not call body.Close
 	if sc.lastBody != nil {
 		// body.Close is assumed to be idempotent and multiple calls to
 		// it should return the error that its first invokation
 		// returned.
 		err = sc.lastBody.Close()
 		sc.lastBody = nil
 		if err != nil {
 			sc.lk.Lock()
 			defer sc.lk.Unlock()
 			sc.re = err
 			return nil, err
 		}
 	}

 	req, err = ReadRequest(sc.r)
 	if err != nil {
 		sc.lk.Lock()
 		defer sc.lk.Unlock()
 		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
 		}
 	}
 	sc.lastBody = req.Body
 	sc.nread++
 	if req.Close {
 		sc.lk.Lock()
 		defer sc.lk.Unlock()
 		sc.re = ErrPersistEOF
 		return req, sc.re
 	}
 	return
 }

 // 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 a repsonse. 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.
 // Write can be called concurrently with Read, but not with another Write.
 func (sc *ServerConn) Write(resp *Response) os.Error {

 	sc.lk.Lock()
 	if sc.we != nil {
 		defer sc.lk.Unlock()
 		return sc.we
 	}
 	sc.lk.Unlock()
 	if sc.nread <= sc.nwritten {
 		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.lk.Lock()
 		sc.re = ErrPersistEOF
 		sc.lk.Unlock()
 	}

 	err := resp.Write(sc.c)
 	if err != nil {
 		sc.lk.Lock()
 		defer sc.lk.Unlock()
 		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 is not
 // responsible for closing the underlying connection. One must call Close to
 // regain control of that connection and deal with it as desired.
 type ClientConn struct {
 	c               net.Conn
 	r               *bufio.Reader
 	re, we          os.Error // read/write errors
 	lastBody        io.ReadCloser
 	nread, nwritten int
 	reqm            list.List  // request methods in order of execution
 	lk              sync.Mutex // protects read/write to reqm,re,we
 }

 // 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}
 }

 // Close detaches the ClientConn and returns the underlying connection as well
 // as the read-side bufio which may have some left over data. Close may be
 // called before the user or Read have signaled the end of the keep-alive
 // logic. The user should not call Close while Read or Write is in progress.
 func (cc *ClientConn) Close() (c net.Conn, r *bufio.Reader) {
 	cc.lk.Lock()
 	c = cc.c
 	r = cc.r
 	cc.c = nil
 	cc.r = nil
 	cc.reqm.Init()
 	cc.lk.Unlock()
 	return
 }

 // 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.
 // Write can be called concurrently with Read, but not with another Write.
 func (cc *ClientConn) Write(req *Request) os.Error {

 	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
 	}
 	cc.lk.Unlock()

 	if req.Close {
 		// We write the EOF to the write-side error, because there
 		// still might be some pipelined reads
 		cc.lk.Lock()
 		cc.we = ErrPersistEOF
 		cc.lk.Unlock()
 	}

 	err := req.Write(cc.c)
 	if err != nil {
 		cc.lk.Lock()
 		defer cc.lk.Unlock()
 		cc.we = err
 		return err
 	}
 	cc.nwritten++
 	cc.lk.Lock()
 	cc.reqm.PushBack(req.Method)
 	cc.lk.Unlock()

 	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() (resp *Response, err os.Error) {

 	cc.lk.Lock()
 	if cc.re != nil {
 		defer cc.lk.Unlock()
 		return nil, cc.re
 	}
 	cc.lk.Unlock()

 	if cc.nread >= cc.nwritten {
 		return nil, os.NewError("persist client pipe count")
 	}

 	// Make sure body is fully consumed, even if user does not call body.Close
 	if cc.lastBody != nil {
 		// body.Close is assumed to be idempotent and multiple calls to
 		// it should return the error that its first invokation
 		// returned.
 		err = cc.lastBody.Close()
 		cc.lastBody = nil
 		if err != nil {
 			cc.lk.Lock()
 			defer cc.lk.Unlock()
 			cc.re = err
 			return nil, err
 		}
 	}

 	cc.lk.Lock()
 	m := cc.reqm.Front()
 	cc.reqm.Remove(m)
 	cc.lk.Unlock()
 	resp, err = ReadResponse(cc.r, m.Value.(string))
 	if err != nil {
 		cc.lk.Lock()
 		defer cc.lk.Unlock()
 		cc.re = err
 		return
 	}
 	cc.lastBody = resp.Body

 	cc.nread++

 	if resp.Close {
 		cc.lk.Lock()
 		defer cc.lk.Unlock()
 		cc.re = ErrPersistEOF // don't send any more requests
 		return resp, cc.re
 	}
 	return
 }
	// 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"
	"container/list"
	"io"
	"net"
	"os"
	"sync"
	)

	var ErrPersistEOF = &ProtocolError{"persistent connection closed"}

	// A ServerConn reads requests and sends responses over an underlying
	// connection, until the HTTP keepalive logic commands an end. ServerConn
	// does not close the underlying connection. Instead, the user calls Close
	// and regains 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 {
	c net.Conn
	r *bufio.Reader
	clsd bool // indicates a graceful close
	re, we os.Error // read/write errors
	lastBody io.ReadCloser
	nread, nwritten int
	lk sync.Mutex // protected read/write to re,we
	}

	// 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}
	}

	// Close detaches the ServerConn and returns the underlying connection as well
	// as the read-side bufio which may have some left over data. Close may be
	// called before Read has signaled the end of the keep-alive logic. The user
	// should not call Close while Read or Write is in progress.
	func (sc ServerConn) Close() (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
	}

	// 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). Read can be called concurrently with Write, but not
	// with another Read.
	func (sc ServerConn) Read() (req Request, err os.Error) {

	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
	}
	sc.lk.Unlock()

	// Make sure body is fully consumed, even if user does not call body.Close
	if sc.lastBody != nil {
	// body.Close is assumed to be idempotent and multiple calls to
	// it should return the error that its first invokation
	// returned.
	err = sc.lastBody.Close()
	sc.lastBody = nil
	if err != nil {
	sc.lk.Lock()
	defer sc.lk.Unlock()
	sc.re = err
	return nil, err
	}
	}

	req, err = ReadRequest(sc.r)
	if err != nil {
	sc.lk.Lock()
	defer sc.lk.Unlock()
	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
	}
	}
	sc.lastBody = req.Body
	sc.nread++
	if req.Close {
	sc.lk.Lock()
	defer sc.lk.Unlock()
	sc.re = ErrPersistEOF
	return req, sc.re
	}
	return
	}

	// 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 a repsonse. 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.
	// Write can be called concurrently with Read, but not with another Write.
	func (sc ServerConn) Write(resp Response) os.Error {

	sc.lk.Lock()
	if sc.we != nil {
	defer sc.lk.Unlock()
	return sc.we
	}
	sc.lk.Unlock()
	if sc.nread <= sc.nwritten {
	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.lk.Lock()
	sc.re = ErrPersistEOF
	sc.lk.Unlock()
	}

	err := resp.Write(sc.c)
	if err != nil {
	sc.lk.Lock()
	defer sc.lk.Unlock()
	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 is not
	// responsible for closing the underlying connection. One must call Close to
	// regain control of that connection and deal with it as desired.
	type ClientConn struct {
	c net.Conn
	r *bufio.Reader
	re, we os.Error // read/write errors
	lastBody io.ReadCloser
	nread, nwritten int
	reqm list.List // request methods in order of execution
	lk sync.Mutex // protects read/write to reqm,re,we
	}

	// 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}
	}

	// Close detaches the ClientConn and returns the underlying connection as well
	// as the read-side bufio which may have some left over data. Close may be
	// called before the user or Read have signaled the end of the keep-alive
	// logic. The user should not call Close while Read or Write is in progress.
	func (cc ClientConn) Close() (c net.Conn, r bufio.Reader) {
	cc.lk.Lock()
	c = cc.c
	r = cc.r
	cc.c = nil
	cc.r = nil
	cc.reqm.Init()
	cc.lk.Unlock()
	return
	}

	// 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.
	// Write can be called concurrently with Read, but not with another Write.
	func (cc ClientConn) Write(req Request) os.Error {

	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
	}
	cc.lk.Unlock()

	if req.Close {
	// We write the EOF to the write-side error, because there
	// still might be some pipelined reads
	cc.lk.Lock()
	cc.we = ErrPersistEOF
	cc.lk.Unlock()
	}

	err := req.Write(cc.c)
	if err != nil {
	cc.lk.Lock()
	defer cc.lk.Unlock()
	cc.we = err
	return err
	}
	cc.nwritten++
	cc.lk.Lock()
	cc.reqm.PushBack(req.Method)
	cc.lk.Unlock()

	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() (resp Response, err os.Error) {

	cc.lk.Lock()
	if cc.re != nil {
	defer cc.lk.Unlock()
	return nil, cc.re
	}
	cc.lk.Unlock()

	if cc.nread >= cc.nwritten {
	return nil, os.NewError("persist client pipe count")
	}

	// Make sure body is fully consumed, even if user does not call body.Close
	if cc.lastBody != nil {
	// body.Close is assumed to be idempotent and multiple calls to
	// it should return the error that its first invokation
	// returned.
	err = cc.lastBody.Close()
	cc.lastBody = nil
	if err != nil {
	cc.lk.Lock()
	defer cc.lk.Unlock()
	cc.re = err
	return nil, err
	}
	}

	cc.lk.Lock()
	m := cc.reqm.Front()
	cc.reqm.Remove(m)
	cc.lk.Unlock()
	resp, err = ReadResponse(cc.r, m.Value.(string))
	if err != nil {
	cc.lk.Lock()
	defer cc.lk.Unlock()
	cc.re = err
	return
	}
	cc.lastBody = resp.Body

	cc.nread++

	if resp.Close {
	cc.lk.Lock()
	defer cc.lk.Unlock()
	cc.re = ErrPersistEOF // don't send any more requests
	return resp, cc.re
	}
	return
	}