// Copyright 2011 Xing Xing All rights reserved. // Use of this source code is governed by a MIT // license that can be found in the LICENSE file. package worker import ( "io" "net" "github.com/mikespook/gearman-go/common" ) // The agent of job server. type agent struct { conn net.Conn worker *Worker in chan []byte out chan *Job addr string } // Create the agent of job server. func newAgent(addr string, worker *Worker) (a *agent, err error) { conn, err := net.Dial(common.NETWORK, addr) if err != nil { return } a = &agent{ conn: conn, worker: worker, addr: addr, in: make(chan []byte, common.QUEUE_SIZE), out: make(chan *Job, common.QUEUE_SIZE), } // reset abilities a.WriteJob(newJob(common.REQ, common.RESET_ABILITIES, nil)) return } // outputing loop func (a *agent) outLoop() { ok := true var job *Job for ok { if job, ok = <-a.out; ok { if err := a.write(job.Encode()); err != nil { a.worker.err(err) } } } } // inputing loop func (a *agent) inLoop() { defer func() { if r := recover(); r != nil { a.worker.err(common.Errorf("Exiting: %s", r)) } close(a.in) close(a.out) a.worker.removeAgent(a) }() for a.worker.running { a.WriteJob(newJob(common.REQ, common.PRE_SLEEP, nil)) RESTART: // got noop msg and in queue is zero, grab job rel, err := a.read() if err != nil { if err == common.ErrConnection { for i:= 0; i < 3 && a.worker.running; i++ { if conn, err := net.Dial(common.NETWORK, a.addr); err != nil { a.worker.err(common.Errorf("Reconnection: %d faild", i)) continue } else { a.conn = conn goto RESTART } } a.worker.err(err) break } a.worker.err(err) continue } job, err := decodeJob(rel) if err != nil { a.worker.err(err) continue } switch job.DataType { case common.NOOP: a.WriteJob(newJob(common.REQ, common.GRAB_JOB_UNIQ, nil)) case common.ERROR, common.ECHO_RES, common.JOB_ASSIGN_UNIQ, common.JOB_ASSIGN: job.agent = a a.worker.in <- job } } } func (a *agent) Close() { a.conn.Close() } func (a *agent) Work() { go a.outLoop() go a.inLoop() } // Internal read func (a *agent) read() (data []byte, err error) { BEGIN: inlen := len(a.in) if inlen > 0 { // in queue is not empty for i := 0; i < inlen; i ++ { data = append(data, <-a.in...) } } else { for i := 0; i < 10; i ++ { buf := make([]byte, common.BUFFER_SIZE) var n int if n, err = a.conn.Read(buf); err != nil { if err == io.EOF && n == 0 { if data == nil { err = common.ErrConnection return } break } return } data = append(data, buf[0:n]...) if n < common.BUFFER_SIZE { break } } } // split package tl := len(data) if tl < 12 { // too few data to unpack, read more goto BEGIN } start := 0 for i := 0; i < tl - 11; i++ { if start + 12 > tl { // too few data to unpack, read more goto BEGIN } if string(data[start:start+4]) == common.RES_STR { l := int(common.BytesToUint32([4]byte{data[start+8], data[start+9], data[start+10], data[start+11]})) total := l + 12 if total == tl { // data is what we want return } else if total < tl{ // data[:total] is what we want, data[total:] is the more a.in <- data[total:] data = data[:total] return } else { // ops! It won't be possible. goto BEGIN } } else { // flag was not found, move to next step start++ } } goto BEGIN return nil, common.Errorf("Invalid data: %V", data) } // Send a job to the job server. func (a *agent) WriteJob(job *Job) { a.out <- job } // Internal write the encoded job. func (a *agent) write(buf []byte) (err error) { var n int for i := 0; i < len(buf); i += n { n, err = a.conn.Write(buf[i:]) if err != nil { return err } } return }