package phpfpm // FastCGI client to request via socket // Copyright 2012 Junqing Tan and The Go Authors // Use of this source code is governed by a BSD-style // Part of source code is from Go fcgi package // Fix bug: Can't recive more than 1 record untill FCGI_END_REQUEST 2012-09-15 // By: wofeiwo import ( "bufio" "bytes" "encoding/binary" "errors" "io" "net" "strconv" "sync" ) const FCGI_LISTENSOCK_FILENO uint8 = 0 const FCGI_HEADER_LEN uint8 = 8 const VERSION_1 uint8 = 1 const FCGI_NULL_REQUEST_ID uint8 = 0 const FCGI_KEEP_CONN uint8 = 1 const ( FCGI_BEGIN_REQUEST uint8 = iota + 1 FCGI_ABORT_REQUEST FCGI_END_REQUEST FCGI_PARAMS FCGI_STDIN FCGI_STDOUT FCGI_STDERR FCGI_DATA FCGI_GET_VALUES FCGI_GET_VALUES_RESULT FCGI_UNKNOWN_TYPE FCGI_MAXTYPE = FCGI_UNKNOWN_TYPE ) const ( FCGI_RESPONDER uint8 = iota + 1 FCGI_AUTHORIZER FCGI_FILTER ) const ( FCGI_REQUEST_COMPLETE uint8 = iota FCGI_CANT_MPX_CONN FCGI_OVERLOADED FCGI_UNKNOWN_ROLE ) const ( FCGI_MAX_CONNS string = "MAX_CONNS" FCGI_MAX_REQS string = "MAX_REQS" FCGI_MPXS_CONNS string = "MPXS_CONNS" ) const ( maxWrite = 6553500 // maximum record body maxPad = 255 ) type header struct { Version uint8 Type uint8 Id uint16 ContentLength uint16 PaddingLength uint8 Reserved uint8 } // for padding so we don't have to allocate all the time // not synchronized because we don't care what the contents are var pad [maxPad]byte func (h *header) init(recType uint8, reqId uint16, contentLength int) { h.Version = 1 h.Type = recType h.Id = reqId h.ContentLength = uint16(contentLength) h.PaddingLength = uint8(-contentLength & 7) } type record struct { h header buf [maxWrite + maxPad]byte } func (rec *record) read(r io.Reader) (err error) { if err = binary.Read(r, binary.BigEndian, &rec.h); err != nil { return err } if rec.h.Version != 1 { return errors.New("fcgi: invalid header version") } n := int(rec.h.ContentLength) + int(rec.h.PaddingLength) if _, err = io.ReadFull(r, rec.buf[:n]); err != nil { return err } return nil } func (r *record) content() []byte { return r.buf[:r.h.ContentLength] } type FCGIClient struct { mutex sync.Mutex rwc io.ReadWriteCloser h header buf bytes.Buffer keepAlive bool } func NewClient(h string, args ...interface{}) (fcgi *FCGIClient, err error) { var conn net.Conn if len(args) != 1 { err = errors.New("fcgi: not enough params") return } switch args[0].(type) { case int: addr := h + ":" + strconv.FormatInt(int64(args[0].(int)), 10) conn, err = net.Dial("tcp", addr) case string: laddr := net.UnixAddr{Name: args[0].(string), Net: h} conn, err = net.DialUnix(h, nil, &laddr) default: err = errors.New("fcgi: we only accept int (port) or string (socket) params.") } fcgi = &FCGIClient{ rwc: conn, keepAlive: false, } return } func (client *FCGIClient) writeRecord(recType uint8, reqId uint16, content []byte) (err error) { client.mutex.Lock() defer client.mutex.Unlock() client.buf.Reset() client.h.init(recType, reqId, len(content)) if err := binary.Write(&client.buf, binary.BigEndian, client.h); err != nil { return err } if _, err := client.buf.Write(content); err != nil { return err } if _, err := client.buf.Write(pad[:client.h.PaddingLength]); err != nil { return err } _, err = client.rwc.Write(client.buf.Bytes()) return err } func (client *FCGIClient) writeBeginRequest(reqId uint16, role uint16, flags uint8) error { b := [8]byte{byte(role >> 8), byte(role), flags} return client.writeRecord(FCGI_BEGIN_REQUEST, reqId, b[:]) } func (client *FCGIClient) writeEndRequest(reqId uint16, appStatus int, protocolStatus uint8) error { b := make([]byte, 8) binary.BigEndian.PutUint32(b, uint32(appStatus)) b[4] = protocolStatus return client.writeRecord(FCGI_END_REQUEST, reqId, b) } func (client *FCGIClient) writePairs(recType uint8, reqId uint16, pairs map[string]string) error { w := newWriter(client, recType, reqId) b := make([]byte, 8) for k, v := range pairs { n := encodeSize(b, uint32(len(k))) n += encodeSize(b[n:], uint32(len(v))) if _, err := w.Write(b[:n]); err != nil { return err } if _, err := w.WriteString(k); err != nil { return err } if _, err := w.WriteString(v); err != nil { return err } } w.Close() return nil } func readSize(s []byte) (uint32, int) { if len(s) == 0 { return 0, 0 } size, n := uint32(s[0]), 1 if size&(1<<7) != 0 { if len(s) < 4 { return 0, 0 } n = 4 size = binary.BigEndian.Uint32(s) size &^= 1 << 31 } return size, n } func readString(s []byte, size uint32) string { if size > uint32(len(s)) { return "" } return string(s[:size]) } func encodeSize(b []byte, size uint32) int { if size > 127 { size |= 1 << 31 binary.BigEndian.PutUint32(b, size) return 4 } b[0] = byte(size) return 1 } // bufWriter encapsulates bufio.Writer but also closes the underlying stream when // Closed. type bufWriter struct { closer io.Closer *bufio.Writer } func (w *bufWriter) Close() error { if err := w.Writer.Flush(); err != nil { w.closer.Close() return err } return w.closer.Close() } func newWriter(c *FCGIClient, recType uint8, reqId uint16) *bufWriter { s := &streamWriter{c: c, recType: recType, reqId: reqId} w := bufio.NewWriterSize(s, maxWrite) return &bufWriter{s, w} } // streamWriter abstracts out the separation of a stream into discrete records. // It only writes maxWrite bytes at a time. type streamWriter struct { c *FCGIClient recType uint8 reqId uint16 } func (w *streamWriter) Write(p []byte) (int, error) { nn := 0 for len(p) > 0 { n := len(p) if n > maxWrite { n = maxWrite } if err := w.c.writeRecord(w.recType, w.reqId, p[:n]); err != nil { return nn, err } nn += n p = p[n:] } return nn, nil } func (w *streamWriter) Close() error { // send empty record to close the stream return w.c.writeRecord(w.recType, w.reqId, nil) } func (client *FCGIClient) Request(env map[string]string, reqStr string) (retout []byte, reterr []byte, err error) { var reqId uint16 = 1 defer client.rwc.Close() err = client.writeBeginRequest(reqId, uint16(FCGI_RESPONDER), 0) if err != nil { return } err = client.writePairs(FCGI_PARAMS, reqId, env) if err != nil { return } if len(reqStr) > 0 { err = client.writeRecord(FCGI_STDIN, reqId, []byte(reqStr)) if err != nil { return } } rec := &record{} var err1 error // recive untill EOF or FCGI_END_REQUEST for { err1 = rec.read(client.rwc) if err1 != nil { if err1 != io.EOF { err = err1 } break } switch { case rec.h.Type == FCGI_STDOUT: retout = append(retout, rec.content()...) case rec.h.Type == FCGI_STDERR: reterr = append(reterr, rec.content()...) case rec.h.Type == FCGI_END_REQUEST: fallthrough default: break } } return }