// 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. //go:build unix || (js && wasm) || wasip1 || windows package os import ( "internal/itoa" "internal/syscall/execenv" "runtime" "syscall" ) // The only signal values guaranteed to be present in the os package on all // systems are os.Interrupt (send the process an interrupt) and os.Kill (force // the process to exit). On Windows, sending os.Interrupt to a process with // os.Process.Signal is not implemented; it will return an error instead of // sending a signal. var ( Interrupt Signal = syscall.SIGINT Kill Signal = syscall.SIGKILL ) func startProcess(name string, argv []string, attr *ProcAttr) (p *Process, err error) { // If there is no SysProcAttr (ie. no Chroot or changed // UID/GID), double-check existence of the directory we want // to chdir into. We can make the error clearer this way. if attr != nil && attr.Sys == nil && attr.Dir != "" { if _, err := Stat(attr.Dir); err != nil { pe := err.(*PathError) pe.Op = "chdir" return nil, pe } } attrSys, shouldDupPidfd := ensurePidfd(attr.Sys) sysattr := &syscall.ProcAttr{ Dir: attr.Dir, Env: attr.Env, Sys: attrSys, } if sysattr.Env == nil { sysattr.Env, err = execenv.Default(sysattr.Sys) if err != nil { return nil, err } } sysattr.Files = make([]uintptr, 0, len(attr.Files)) for _, f := range attr.Files { sysattr.Files = append(sysattr.Files, f.Fd()) } pid, h, e := syscall.StartProcess(name, argv, sysattr) // Make sure we don't run the finalizers of attr.Files. runtime.KeepAlive(attr) if e != nil { return nil, &PathError{Op: "fork/exec", Path: name, Err: e} } // For Windows, syscall.StartProcess above already returned a process handle. if runtime.GOOS != "windows" { var ok bool h, ok = getPidfd(sysattr.Sys, shouldDupPidfd) if !ok { return newPIDProcess(pid), nil } } return newHandleProcess(pid, h), nil } func (p *Process) kill() error { return p.Signal(Kill) } // ProcessState stores information about a process, as reported by Wait. type ProcessState struct { pid int // The process's id. status syscall.WaitStatus // System-dependent status info. rusage *syscall.Rusage } // Pid returns the process id of the exited process. func (p *ProcessState) Pid() int { return p.pid } func (p *ProcessState) exited() bool { return p.status.Exited() } func (p *ProcessState) success() bool { return p.status.ExitStatus() == 0 } func (p *ProcessState) sys() any { return p.status } func (p *ProcessState) sysUsage() any { return p.rusage } func (p *ProcessState) String() string { if p == nil { return "" } status := p.Sys().(syscall.WaitStatus) res := "" switch { case status.Exited(): code := status.ExitStatus() if runtime.GOOS == "windows" && uint(code) >= 1<<16 { // windows uses large hex numbers res = "exit status " + itoa.Uitox(uint(code)) } else { // unix systems use small decimal integers res = "exit status " + itoa.Itoa(code) // unix } case status.Signaled(): res = "signal: " + status.Signal().String() case status.Stopped(): res = "stop signal: " + status.StopSignal().String() if status.StopSignal() == syscall.SIGTRAP && status.TrapCause() != 0 { res += " (trap " + itoa.Itoa(status.TrapCause()) + ")" } case status.Continued(): res = "continued" } if status.CoreDump() { res += " (core dumped)" } return res } // ExitCode returns the exit code of the exited process, or -1 // if the process hasn't exited or was terminated by a signal. func (p *ProcessState) ExitCode() int { // return -1 if the process hasn't started. if p == nil { return -1 } return p.status.ExitStatus() }