package fzf import ( "bufio" "context" "io" "os" "os/exec" "path/filepath" "sync" "sync/atomic" "time" "github.com/junegunn/fzf/src/util" "github.com/saracen/walker" ) // Reader reads from command or standard input type Reader struct { pusher func([]byte) bool eventBox *util.EventBox delimNil bool event int32 finChan chan bool mutex sync.Mutex exec *exec.Cmd command *string killed bool wait bool } // NewReader returns new Reader object func NewReader(pusher func([]byte) bool, eventBox *util.EventBox, delimNil bool, wait bool) *Reader { return &Reader{pusher, eventBox, delimNil, int32(EvtReady), make(chan bool, 1), sync.Mutex{}, nil, nil, false, wait} } func (r *Reader) startEventPoller() { go func() { ptr := &r.event pollInterval := readerPollIntervalMin for { if atomic.CompareAndSwapInt32(ptr, int32(EvtReadNew), int32(EvtReady)) { r.eventBox.Set(EvtReadNew, (*string)(nil)) pollInterval = readerPollIntervalMin } else if atomic.LoadInt32(ptr) == int32(EvtReadFin) { if r.wait { r.finChan <- true } return } else { pollInterval += readerPollIntervalStep if pollInterval > readerPollIntervalMax { pollInterval = readerPollIntervalMax } } time.Sleep(pollInterval) } }() } func (r *Reader) fin(success bool) { atomic.StoreInt32(&r.event, int32(EvtReadFin)) if r.wait { <-r.finChan } r.mutex.Lock() ret := r.command if success || r.killed { ret = nil } r.mutex.Unlock() r.eventBox.Set(EvtReadFin, ret) } func (r *Reader) terminate() { r.mutex.Lock() defer func() { r.mutex.Unlock() }() r.killed = true if r.exec != nil && r.exec.Process != nil { util.KillCommand(r.exec) } else if defaultCommand != "" { os.Stdin.Close() } } func (r *Reader) restart(command string) { r.event = int32(EvtReady) r.startEventPoller() success := r.readFromCommand(nil, command) r.fin(success) } // ReadSource reads data from the default command or from standard input func (r *Reader) ReadSource() { r.startEventPoller() var success bool if util.IsTty() { // The default command for *nix requires bash shell := "bash" cmd := os.Getenv("FZF_DEFAULT_COMMAND") if len(cmd) == 0 { if defaultCommand != "" { success = r.readFromCommand(&shell, defaultCommand) } else { success = r.readFiles() } } else { success = r.readFromCommand(nil, cmd) } } else { success = r.readFromStdin() } r.fin(success) } func (r *Reader) feed(src io.Reader) { delim := byte('\n') if r.delimNil { delim = '\000' } reader := bufio.NewReaderSize(src, readerBufferSize) for { // ReadBytes returns err != nil if and only if the returned data does not // end in delim. bytea, err := reader.ReadBytes(delim) byteaLen := len(bytea) if byteaLen > 0 { if err == nil { // get rid of carriage return if under Windows: if util.IsWindows() && byteaLen >= 2 && bytea[byteaLen-2] == byte('\r') { bytea = bytea[:byteaLen-2] } else { bytea = bytea[:byteaLen-1] } } if r.pusher(bytea) { atomic.StoreInt32(&r.event, int32(EvtReadNew)) } } if err != nil { break } } } func (r *Reader) readFromStdin() bool { r.feed(os.Stdin) return true } func (r *Reader) readFiles() bool { r.killed = false fn := func(path string, mode os.FileInfo) error { path = filepath.Clean(path) if path != "." { isDir := mode.Mode().IsDir() if isDir && filepath.Base(path)[0] == '.' { return filepath.SkipDir } if !isDir && r.pusher([]byte(path)) { atomic.StoreInt32(&r.event, int32(EvtReadNew)) } } r.mutex.Lock() defer r.mutex.Unlock() if r.killed { return context.Canceled } return nil } cb := walker.WithErrorCallback(func(pathname string, err error) error { return nil }) return walker.Walk(".", fn, cb) == nil } func (r *Reader) readFromCommand(shell *string, command string) bool { r.mutex.Lock() r.killed = false r.command = &command if shell != nil { r.exec = util.ExecCommandWith(*shell, command, true) } else { r.exec = util.ExecCommand(command, true) } out, err := r.exec.StdoutPipe() if err != nil { r.mutex.Unlock() return false } err = r.exec.Start() r.mutex.Unlock() if err != nil { return false } r.feed(out) return r.exec.Wait() == nil }