package util import ( "bytes" "context" "fmt" "io" "os" "os/exec" "syscall" ) // An IOCommand exposes a forked process's std(in|out|err) through the io.ReadWriteCloser interface. type IOCommand struct { Cmd *exec.Cmd Stdin io.WriteCloser Stdout io.ReadCloser StderrBuf *bytes.Buffer ExitResult *IOCommandExitResult } const IOCommandStderrBufSize = 1024 type IOCommandError struct { WaitErr error Stderr []byte } type IOCommandExitResult struct { Error error WaitStatus syscall.WaitStatus } func (e IOCommandError) Error() string { return fmt.Sprintf("underlying process exited with error: %s\nstderr: %s\n", e.WaitErr, e.Stderr) } func RunIOCommand(ctx context.Context, command string, args ...string) (c *IOCommand, err error) { c, err = NewIOCommand(ctx, command, args, IOCommandStderrBufSize) if err != nil { return } err = c.Start() return } func NewIOCommand(ctx context.Context, command string, args []string, stderrBufSize int) (c *IOCommand, err error) { if stderrBufSize == 0 { stderrBufSize = IOCommandStderrBufSize } c = &IOCommand{} c.Cmd = exec.CommandContext(ctx, command, args...) if c.Stdout, err = c.Cmd.StdoutPipe(); err != nil { return } if c.Stdin, err = c.Cmd.StdinPipe(); err != nil { return } c.StderrBuf = bytes.NewBuffer(make([]byte, 0, stderrBufSize)) c.Cmd.Stderr = c.StderrBuf return } func (c *IOCommand) Start() (err error) { if err = c.Cmd.Start(); err != nil { return } return } // Read from process's stdout. // The behavior after Close()ing is undefined func (c *IOCommand) Read(buf []byte) (n int, err error) { n, err = c.Stdout.Read(buf) if err == io.EOF { if waitErr := c.doWait(); waitErr != nil { err = waitErr } } return } func (c *IOCommand) doWait() (err error) { waitErr := c.Cmd.Wait() var wasUs bool = false var waitStatus syscall.WaitStatus if c.Cmd.ProcessState == nil { fmt.Fprintf(os.Stderr, "util.IOCommand: c.Cmd.ProcessState is nil after c.Cmd.Wait()\n") } if c.Cmd.ProcessState != nil { sysSpecific := c.Cmd.ProcessState.Sys() var ok bool waitStatus, ok = sysSpecific.(syscall.WaitStatus) if !ok { fmt.Fprintf(os.Stderr, "util.IOCommand: c.Cmd.ProcessState.Sys() could not be converted to syscall.WaitStatus: %T\n", sysSpecific) os.Stderr.Sync() panic(sysSpecific) // this can only be true if we are not on UNIX, and we don't support that } wasUs = waitStatus.Signaled() && waitStatus.Signal() == syscall.SIGTERM // in Close() } if waitErr != nil && !wasUs { err = IOCommandError{ WaitErr: waitErr, Stderr: c.StderrBuf.Bytes(), } } c.ExitResult = &IOCommandExitResult{ Error: err, // is still empty if waitErr was due to signalling WaitStatus: waitStatus, } return } // Write to process's stdin. // The behavior after Close()ing is undefined func (c *IOCommand) Write(buf []byte) (n int, err error) { return c.Stdin.Write(buf) } // Terminate the child process and collect its exit status // It is safe to call Close() multiple times. func (c *IOCommand) Close() (err error) { if c.Cmd.ProcessState == nil { // racy... err = syscall.Kill(c.Cmd.Process.Pid, syscall.SIGTERM) if err != nil { return } return c.doWait() } else { return c.ExitResult.Error } }