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fcgi.go
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fcgi.go
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package web
import (
"bytes"
"bufio"
"encoding/binary"
"fmt"
"io"
"log"
"net"
"os"
)
const (
fcgiBeginRequest = iota + 1
fcgiAbortRequest
fcgiEndRequest
fcgiParams
fcgiStdin
fcgiStdout
fcgiStderr
fcgiData
fcgiGetValues
fcgiGetValuesResult
fcgiUnknownType
fcgiMaxType = fcgiUnknownType
)
const (
fcgiRequestComplete = iota
fcgiCantMpxConn
fcgiOverloaded
fcgiUnknownRole
)
type fcgiHeader struct {
Version uint8
Type uint8
RequestId uint16
ContentLength uint16
PaddingLength uint8
Reserved uint8
}
func (h fcgiHeader) bytes() []byte {
order := binary.BigEndian
buf := make([]byte, 8)
buf[0] = h.Version
buf[1] = h.Type
order.PutUint16(buf[2:4], h.RequestId)
order.PutUint16(buf[4:6], h.ContentLength)
buf[6] = h.PaddingLength
buf[7] = h.Reserved
return buf
}
func newFcgiRecord(typ int, requestId int, data []byte) []byte {
var record bytes.Buffer
l := len(data)
// round to the nearest 8
padding := make([]byte, uint8(-l&7))
hdr := fcgiHeader{
Version: 1,
Type: uint8(typ),
RequestId: uint16(requestId),
ContentLength: uint16(l),
PaddingLength: uint8(len(padding)),
}
//write the header
record.Write(hdr.bytes())
record.Write(data)
record.Write(padding)
return record.Bytes()
}
type fcgiEndReq struct {
appStatus uint32
protocolStatus uint8
reserved [3]uint8
}
func (er fcgiEndReq) bytes() []byte {
buf := make([]byte, 8)
binary.BigEndian.PutUint32(buf, er.appStatus)
buf[4] = er.protocolStatus
return buf
}
type fcgiConn struct {
requestId uint16
fd io.ReadWriteCloser
headers map[string][]string
wroteHeaders bool
}
func (conn *fcgiConn) fcgiWrite(data []byte) (err os.Error) {
l := len(data)
// round to the nearest 8
padding := make([]byte, uint8(-l&7))
hdr := fcgiHeader{
Version: 1,
Type: fcgiStdout,
RequestId: conn.requestId,
ContentLength: uint16(l),
PaddingLength: uint8(len(padding)),
}
//write the header
hdrBytes := hdr.bytes()
_, err = conn.fd.Write(hdrBytes)
if err != nil {
return err
}
_, err = conn.fd.Write(data)
if err != nil {
return err
}
_, err = conn.fd.Write(padding)
if err != nil {
return err
}
return err
}
func (conn *fcgiConn) Write(data []byte) (n int, err os.Error) {
var buf bytes.Buffer
if !conn.wroteHeaders {
conn.wroteHeaders = true
for k, v := range conn.headers {
for _, i := range v {
buf.WriteString(k + ": " + i + "\r\n")
}
}
buf.WriteString("\r\n")
conn.fcgiWrite(buf.Bytes())
}
err = conn.fcgiWrite(data)
if err != nil {
return 0, err
}
return len(data), nil
}
func (conn *fcgiConn) StartResponse(status int) {
var buf bytes.Buffer
text := statusText[status]
fmt.Fprintf(&buf, "HTTP/1.1 %d %s\r\n", status, text)
conn.fcgiWrite(buf.Bytes())
}
func (conn *fcgiConn) SetHeader(hdr string, val string, unique bool) {
if _, contains := conn.headers[hdr]; !contains {
conn.headers[hdr] = []string{val}
return
}
if unique {
//just overwrite the first value
conn.headers[hdr][0] = val
} else {
newHeaders := make([]string, len(conn.headers)+1)
copy(newHeaders, conn.headers[hdr])
newHeaders[len(newHeaders)-1] = val
conn.headers[hdr] = newHeaders
}
}
func (conn *fcgiConn) complete() {
content := fcgiEndReq{appStatus: 200, protocolStatus: fcgiRequestComplete}.bytes()
l := len(content)
hdr := fcgiHeader{
Version: 1,
Type: fcgiEndRequest,
RequestId: uint16(conn.requestId),
ContentLength: uint16(l),
PaddingLength: 0,
}
conn.fd.Write(hdr.bytes())
conn.fd.Write(content)
}
func (conn *fcgiConn) Close() {}
func readFcgiParamSize(data []byte, index int) (int, int) {
var size int
var shift = 0
if data[index]>>7 == 0 {
size = int(data[index])
shift = 1
} else {
var s uint32
binary.Read(bytes.NewBuffer(data[index:index+4]), binary.BigEndian, &s)
s ^= 1 << 31
size = int(s)
shift = 4
}
return size, shift
}
//read the fcgi parameters contained in data, and store them in storage
func readFcgiParams(data []byte, storage map[string]string) {
for idx := 0; len(data) > idx; {
keySize, shift := readFcgiParamSize(data, idx)
idx += shift
valSize, shift := readFcgiParamSize(data, idx)
idx += shift
key := data[idx : idx+keySize]
idx += keySize
val := data[idx : idx+valSize]
idx += valSize
storage[string(key)] = string(val)
}
}
func handleFcgiConnection(fd io.ReadWriteCloser) {
br := bufio.NewReader(fd)
var req *Request
var fc *fcgiConn
var body bytes.Buffer
headers := map[string]string{}
for {
var h fcgiHeader
err := binary.Read(br, binary.BigEndian, &h)
if err == os.EOF {
break
}
if err != nil {
log.Stderrf("FCGI Error", err.String())
break
}
content := make([]byte, h.ContentLength)
br.Read(content)
//read padding
if h.PaddingLength > 0 {
padding := make([]byte, h.PaddingLength)
br.Read(padding)
}
switch h.Type {
case fcgiBeginRequest:
fc = &fcgiConn{h.RequestId, fd, make(map[string][]string), false}
case fcgiParams:
if h.ContentLength > 0 {
readFcgiParams(content, headers)
}
case fcgiStdin:
if h.ContentLength > 0 {
body.Write(content)
} else if h.ContentLength == 0 {
req = newRequestCgi(headers, &body)
routeHandler(req, fc)
fc.complete()
}
case fcgiData:
if h.ContentLength > 0 {
body.Write(content)
}
case fcgiAbortRequest:
}
}
}
func listenAndServeFcgi(addr string) {
l, err := net.Listen("tcp", addr)
if err != nil {
log.Stderrf("FCGI listen error", err.String())
return
}
for {
fd, err := l.Accept()
if err != nil {
log.Stderrf("FCGI accept error", err.String())
break
}
go handleFcgiConnection(fd)
}
}