// result is PathWalkResult
func (f *NsFile) SeqWalk(sq *seq.Sequencer, path ...string) *NsFile {
subseq, results := sq.Subsequencer(fmt.Sprintf("seqwalk(%#v)", ([]string)(path)))
go func() {
var qids PathWalkResult
//log.Printf("seqwalk waiting on result chan %p", results)
<-results
for r := range results {
qids = append(qids, r.(seq.WalkResult).Q)
}
//log.Printf("seqwalk got result eof")
//log.Printf("seqwalk %p, %q, error %#v", subseq, subseq.name, subseq.Error())
if err := subseq.Error(); err != nil {
subseq.Result(nil, err)
return
}
subseq.Result(qids, nil)
}()
nfile, err := f.f.FileSys().NewFile()
if err != nil {
panic("out of files")
}
//log.Printf("NewFile -> %#v\n", nfile)
subseq.Do(f.f, seq.CloneReq{nfile})
for _, name := range path {
subseq.Do(nfile, seq.WalkReq{name})
}
subseq.Do(nil, nil)
return NewNsFile(nfile)
}
func (f *NsFile) seqops(sq *seq.Sequencer, ops ...seq.Req) {
//log.Printf("file.seqops %#v", ([]seq.Req)(ops))
subseq, results := sq.Subsequencer(fmt.Sprintf("nsfile.seqops(%#v)", ([]seq.Req)(ops)))
go func() {
result := make(OpResults, len(ops))
i := 0
for result[i] = range results {
i++
}
//log.Printf("seqops [%#v] got eof, error %#v\n", ([]seq.Req)(ops), subseq.Error())
// TODO(?): replies will be lost on error.
subseq.Result(result, subseq.Error())
}()
for _, op := range ops {
subseq.Do(f.f, op)
}
subseq.Do(nil, nil)
}
func (ns *Ns) seqops(sq *seq.Sequencer, name string, ops ...seq.Req) *NsFile {
subseq, results := sq.Subsequencer(fmt.Sprintf("ns.seqops(%#v)", ([]seq.Req)(ops)))
go func() {
<-results // walk result
r := <-results
_, ok := <-results
if ok {
panic("expected closed")
}
subseq.Result(r, subseq.Error())
}()
f, elem := ns.path(name)
f = f.SeqWalk(subseq, elem...)
f.seqops(subseq, ops...)
subseq.Do(nil, nil)
return f
}
func (ns *Ns) SeqCreate(sq *seq.Sequencer, path string, mode uint8, perm plan9.Perm) *NsFile {
f, elem := ns.path(path)
if len(elem) == 0 {
panic("no path elements") // TODO more sensible error handling
}
subseq, results := sq.Subsequencer("seqcreate")
go func() {
<-results // walk result
<-results // create result
_, ok := <-results
if ok {
panic("expected closed")
}
subseq.Result(nil, subseq.Error())
}()
elem, name := elem[0:len(elem)-1], elem[len(elem)-1]
f = f.SeqWalk(subseq, elem...)
f.seqops(subseq, seq.CreateReq{name, perm, mode})
subseq.Do(nil, nil)
return f
}
func (nsf *NsFile) SeqReadStream(sq *seq.Sequencer, nreqs, iounit int) io.ReadCloser {
cr := &streamReader{
c: make(chan readResult, 1),
reply: make(chan bool),
}
sq, results := sq.Subsequencer("stream reader")
buf := make([]byte, nreqs*iounit)
bufs := make(chan []byte, nreqs)
for i := 0; i < nreqs; i++ {
bufs <- buf[0:iounit]
buf = buf[iounit:]
}
buf = nil
var q safeQueue
done := make(chan bool)
// Stream requests.
go func() {
f := nsf.File()
offset := int64(0)
for {
b, ok := <-bufs
if !ok {
break
}
q.Put(b)
log.Printf("stream doer: read %v", offset)
sq.Do(f, seq.ReadReq{b, offset})
offset += int64(len(b))
}
log.Printf("stream doer: do(nil, nil)")
sq.Do(nil, nil)
done <- true
}()
// Stream replies on demand from the streamReader.
go func() {
readerClosed := false
for r := range results {
log.Printf("stream: got result %#v (chan %p)\n", r, results)
b := q.Get().([]byte)
cr.c <- readResult{b[0:r.(seq.ReadResult).Count], nil}
if !<-cr.reply {
readerClosed = true
break
}
bufs <- b
}
log.Printf("stream: closed")
// Stop as many requests as possible from being sent.
// If we implemented flush, we would flush the request now.
loop:
for {
select {
case <-bufs:
default:
break loop
}
}
close(bufs)
// Absorb and ignore any extra replies.
for r := range results {
log.Printf("stream: aborbing extra: %#v\n", r)
}
<-done
err := sq.Error()
if !readerClosed {
log.Printf("stream: sending error to reader")
if err == nil {
err = io.EOF
}
cr.c <- readResult{nil, err}
}
log.Printf("stream: yielding result, err %#v\n", err)
sq.Result(seq.StringResult("SeqReadStream"), err)
}()
return cr
}
func (t *traverser) readFile(sq *seq.Sequencer, fid *g9pc.NsFile, path string) {
t.printf("readFile %s", path)
sq, results := sq.Subsequencer("readFile")
go func() {
_, ok := <-results // open
if !ok {
t.printf("cannot open %s: %v", path, sq.Error())
return
}
<-results // stream
_, ok = <-results
if ok {
panic("expected closed")
}
sq.Result(seq.StringResult("readFile"), sq.Error())
}()
sq.Do(fid.File(), seq.OpenReq{g9p.OREAD})
rd := fid.SeqReadStream(sq, 20, 8192)
tot, _ := io.Copy(nullWriter{}, rd)
t.printf("%10d %s", tot, path)
sq.Do(nil, nil)
}
func (t *traverser) readDir(pseq *seq.Sequencer, fid *g9pc.NsFile, path string) {
t.printf("readDir %s", path)
sq, results := pseq.Subsequencer("readDir")
errc := make(chan error, 1)
go func() {
<-results // SeqWalk (clone)
_, ok := <-results // OpenReq
if !ok {
errc <- fmt.Errorf("cannot open %q: %#v", path, sq.Error())
return
}
<-results // NonseqReq
<-results // ReadStream
errc <- nil
_, ok = <-results // eof
if ok {
panic("expected closed")
}
errc <- nil
}()
rfid := fid.SeqWalk(sq)
// defer rfid.Close() TODO something better!
sq.Do(rfid.File(), seq.OpenReq{g9p.OREAD})
sq.Do(fid.File(), seq.NonseqReq{})
rd := rfid.SeqReadStream(sq, 5, 8192)
defer rd.Close()
buf, _ := ioutil.ReadAll(rd)
t.printf("read %d bytes from %q", len(buf), path)
err := <-errc
sq.Do(nil, nil)
<-errc
//we get here but fid still can be part of the sequence.
//maybe that means that subsequence has not terminated
//correctly. no it doesn't. it means that the overall sequence
//has not terminated correctly.
//
//question: should files opened as part of a subsequence be
//ratified by the subsequence finishing?
//only
if err != nil && len(buf) == 0 {
sq.Result(nil, err)
t.printf("error on %s: %v\n", path, err)
return
}
d, err := g9p.UnmarshalDirs(buf)
if err != nil {
t.printf("cannot unpack directory %s: %v\n", path, err)
return
}
sync := make(chan bool)
for i, dir := range d {
t.printf("%q[%d]: %v", path, i, dir)
go t.traverse(fid, path, dir.Name, sync)
}
for i := 0; i < len(d); i++ {
<-sync
}
t.printf("%s: %d entries", path, len(d))
sq.Result(seq.StringResult("readDir"), nil)
}
