package readline import ( "io" "os" "sync" "sync/atomic" ) var ( Stdin io.ReadCloser = os.Stdin Stdout io.WriteCloser = os.Stdout Stderr io.WriteCloser = os.Stderr ) var ( std *Instance stdOnce sync.Once ) // global instance will not submit history automatic func getInstance() *Instance { stdOnce.Do(func() { std, _ = NewEx(&Config{ DisableAutoSaveHistory: true, }) }) return std } // let readline load history from filepath // and try to persist history into disk // set fp to "" to prevent readline persisting history to disk // so the `AddHistory` will return nil error forever. func SetHistoryPath(fp string) { ins := getInstance() cfg := ins.Config.Clone() cfg.HistoryFile = fp ins.SetConfig(cfg) } // set auto completer to global instance func SetAutoComplete(completer AutoCompleter) { ins := getInstance() cfg := ins.Config.Clone() cfg.AutoComplete = completer ins.SetConfig(cfg) } // add history to global instance manually // raise error only if `SetHistoryPath` is set with a non-empty path func AddHistory(content string) error { ins := getInstance() return ins.SaveHistory(content) } func Password(prompt string) ([]byte, error) { ins := getInstance() return ins.ReadPassword(prompt) } // readline with global configs func Line(prompt string) (string, error) { ins := getInstance() ins.SetPrompt(prompt) return ins.Readline() } type CancelableStdin struct { r io.Reader mutex sync.Mutex stop chan struct{} closed int32 notify chan struct{} data []byte read int err error } func NewCancelableStdin(r io.Reader) *CancelableStdin { c := &CancelableStdin{ r: r, notify: make(chan struct{}), stop: make(chan struct{}), } go c.ioloop() return c } func (c *CancelableStdin) ioloop() { loop: for { select { case <-c.notify: c.read, c.err = c.r.Read(c.data) select { case c.notify <- struct{}{}: case <-c.stop: break loop } case <-c.stop: break loop } } } func (c *CancelableStdin) Read(b []byte) (n int, err error) { c.mutex.Lock() defer c.mutex.Unlock() if atomic.LoadInt32(&c.closed) == 1 { return 0, io.EOF } c.data = b select { case c.notify <- struct{}{}: case <-c.stop: return 0, io.EOF } select { case <-c.notify: return c.read, c.err case <-c.stop: return 0, io.EOF } } func (c *CancelableStdin) Close() error { if atomic.CompareAndSwapInt32(&c.closed, 0, 1) { close(c.stop) } return nil } // FillableStdin is a stdin reader which can prepend some data before // reading into the real stdin type FillableStdin struct { sync.Mutex stdin io.Reader stdinBuffer io.ReadCloser buf []byte bufErr error } // NewFillableStdin gives you FillableStdin func NewFillableStdin(stdin io.Reader) (io.ReadCloser, io.Writer) { r, w := io.Pipe() s := &FillableStdin{ stdinBuffer: r, stdin: stdin, } s.ioloop() return s, w } func (s *FillableStdin) ioloop() { go func() { for { bufR := make([]byte, 100) var n int n, s.bufErr = s.stdinBuffer.Read(bufR) if s.bufErr != nil { if s.bufErr == io.ErrClosedPipe { break } } s.Lock() s.buf = append(s.buf, bufR[:n]...) s.Unlock() } }() } // Read will read from the local buffer and if no data, read from stdin func (s *FillableStdin) Read(p []byte) (n int, err error) { s.Lock() i := len(s.buf) if len(p) < i { i = len(p) } if i > 0 { n := copy(p, s.buf) s.buf = s.buf[:0] cerr := s.bufErr s.bufErr = nil s.Unlock() return n, cerr } s.Unlock() n, err = s.stdin.Read(p) return n, err } func (s *FillableStdin) Close() error { s.stdinBuffer.Close() return nil }