// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package os import ( "syscall"; ) // ForkExec forks the current process and invokes Exec with the file, arguments, // and environment specified by argv0, argv, and envv. It returns the process // id of the forked process and an Error, if any. The fd array specifies the // file descriptors to be set up in the new process: fd[0] will be Unix file // descriptor 0 (standard input), fd[1] descriptor 1, and so on. A nil entry // will cause the child to have no open file descriptor with that index. // If dir is not empty, the child chdirs into the directory before execing the program. func ForkExec(argv0 string, argv []string, envv []string, dir string, fd []*File) (pid int, err Error) { // Create array of integer (system) fds. intfd := make([]int, len(fd)); for i, f := range fd { if f == nil { intfd[i] = -1 } else { intfd[i] = f.Fd() } } p, e := syscall.ForkExec(argv0, argv, envv, dir, intfd); if e != 0 { return 0, &PathError{"fork/exec", argv0, Errno(e)} } return p, nil; } // Exec replaces the current process with an execution of the program // named by argv0, with arguments argv and environment envv. // If successful, Exec never returns. If it fails, it returns an Error. // ForkExec is almost always a better way to execute a program. func Exec(argv0 string, argv []string, envv []string) Error { if envv == nil { envv = Environ() } e := syscall.Exec(argv0, argv, envv); if e != 0 { return &PathError{"exec", argv0, Errno(e)} } return nil; } // TODO(rsc): Should os implement its own syscall.WaitStatus // wrapper with the methods, or is exposing the underlying one enough? // // TODO(rsc): Certainly need to have Rusage struct, // since syscall one might have different field types across // different OS. // Waitmsg stores the information about an exited process as reported by Wait. type Waitmsg struct { Pid int; // The process's id. syscall.WaitStatus; // System-dependent status info. Rusage *syscall.Rusage; // System-dependent resource usage info. } // Options for Wait. const ( WNOHANG = syscall.WNOHANG; // Don't wait if no process has exited. WSTOPPED = syscall.WSTOPPED; // If set, status of stopped subprocesses is also reported. WUNTRACED = WSTOPPED; WRUSAGE = 1 << 20; // Record resource usage. ) // WRUSAGE must not be too high a bit, to avoid clashing with Linux's // WCLONE, WALL, and WNOTHREAD flags, which sit in the top few bits of // the options // Wait waits for process pid to exit or stop, and then returns a // Waitmsg describing its status and an Error, if any. The options // (WNOHANG etc.) affect the behavior of the Wait call. func Wait(pid int, options int) (w *Waitmsg, err Error) { var status syscall.WaitStatus; var rusage *syscall.Rusage; if options&WRUSAGE != 0 { rusage = new(syscall.Rusage); options ^= WRUSAGE; } pid1, e := syscall.Wait4(pid, &status, options, rusage); if e != 0 { return nil, NewSyscallError("wait", e) } w = new(Waitmsg); w.Pid = pid1; w.WaitStatus = status; w.Rusage = rusage; return w, nil; } // Convert i to decimal string. func itod(i int) string { if i == 0 { return "0" } u := uint64(i); if i < 0 { u = -u } // Assemble decimal in reverse order. var b [32]byte; bp := len(b); for ; u > 0; u /= 10 { bp--; b[bp] = byte(u%10) + '0'; } if i < 0 { bp--; b[bp] = '-'; } return string(b[bp:]); } func (w Waitmsg) String() string { // TODO(austin) Use signal names when possible? res := ""; switch { case w.Exited(): res = "exit status " + itod(w.ExitStatus()) case w.Signaled(): res = "signal " + itod(w.Signal()) case w.Stopped(): res = "stop signal " + itod(w.StopSignal()); if w.StopSignal() == syscall.SIGTRAP && w.TrapCause() != 0 { res += " (trap " + itod(w.TrapCause()) + ")" } case w.Continued(): res = "continued" } if w.CoreDump() { res += " (core dumped)" } return res; } // Getpid returns the process id of the caller. func Getpid() int { return syscall.Getpid() } // Getppid returns the process id of the caller's parent. func Getppid() int { return syscall.Getppid() }