Retro68/gcc/libgo/go/syscall/exec_bsd.go

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// Copyright 2011 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.
// +build darwin dragonfly freebsd netbsd openbsd solaris
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package syscall
import (
"unsafe"
)
type SysProcAttr struct {
Chroot string // Chroot.
Credential *Credential // Credential.
Ptrace bool // Enable tracing.
Setsid bool // Create session.
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Setpgid bool // Set process group ID to Pgid, or, if Pgid == 0, to new pid.
Setctty bool // Set controlling terminal to fd Ctty
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Noctty bool // Detach fd 0 from controlling terminal
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Ctty int // Controlling TTY fd
Foreground bool // Place child's process group in foreground. (Implies Setpgid. Uses Ctty as fd of controlling TTY)
Pgid int // Child's process group ID if Setpgid.
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}
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// Implemented in runtime package.
func runtime_BeforeFork()
func runtime_AfterFork()
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// Fork, dup fd onto 0..len(fd), and exec(argv0, argvv, envv) in child.
// If a dup or exec fails, write the errno error to pipe.
// (Pipe is close-on-exec so if exec succeeds, it will be closed.)
// In the child, this function must not acquire any locks, because
// they might have been locked at the time of the fork. This means
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// no rescheduling, no malloc calls, and no new stack segments.
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// For the same reason compiler does not race instrument it.
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// The calls to RawSyscall are okay because they are assembly
// functions that do not grow the stack.
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//go:norace
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func forkAndExecInChild(argv0 *byte, argv, envv []*byte, chroot, dir *byte, attr *ProcAttr, sys *SysProcAttr, pipe int) (pid int, err Errno) {
// Declare all variables at top in case any
// declarations require heap allocation (e.g., err1).
var (
r1 Pid_t
err1 Errno
nextfd int
i int
)
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// guard against side effects of shuffling fds below.
// Make sure that nextfd is beyond any currently open files so
// that we can't run the risk of overwriting any of them.
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fd := make([]int, len(attr.Files))
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nextfd = len(attr.Files)
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for i, ufd := range attr.Files {
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if nextfd < int(ufd) {
nextfd = int(ufd)
}
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fd[i] = int(ufd)
}
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nextfd++
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// About to call fork.
// No more allocation or calls of non-assembly functions.
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runtime_BeforeFork()
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r1, err1 = raw_fork()
if err1 != 0 {
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runtime_AfterFork()
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return 0, err1
}
if r1 != 0 {
// parent; return PID
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runtime_AfterFork()
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return int(r1), 0
}
// Fork succeeded, now in child.
// Enable tracing if requested.
if sys.Ptrace {
err1 = raw_ptrace(_PTRACE_TRACEME, 0, nil, nil)
if err1 != 0 {
goto childerror
}
}
// Session ID
if sys.Setsid {
err1 = raw_setsid()
if err1 != 0 {
goto childerror
}
}
// Set process group
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if sys.Setpgid || sys.Foreground {
// Place child in process group.
err1 = raw_setpgid(0, sys.Pgid)
if err1 != 0 {
goto childerror
}
}
if sys.Foreground {
pgrp := Pid_t(sys.Pgid)
if pgrp == 0 {
pgrp = raw_getpid()
}
// Place process group in foreground.
_, err1 = raw_ioctl_ptr(sys.Ctty, TIOCSPGRP, unsafe.Pointer(&pgrp))
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if err1 != 0 {
goto childerror
}
}
// Chroot
if chroot != nil {
err1 = raw_chroot(chroot)
if err1 != 0 {
goto childerror
}
}
// User and groups
if cred := sys.Credential; cred != nil {
ngroups := len(cred.Groups)
if ngroups == 0 {
err2 := setgroups(0, nil)
if err2 == nil {
err1 = 0
} else {
err1 = err2.(Errno)
}
} else {
groups := make([]Gid_t, ngroups)
for i, v := range cred.Groups {
groups[i] = Gid_t(v)
}
err2 := setgroups(ngroups, &groups[0])
if err2 == nil {
err1 = 0
} else {
err1 = err2.(Errno)
}
}
if err1 != 0 {
goto childerror
}
err2 := Setgid(int(cred.Gid))
if err2 != nil {
err1 = err2.(Errno)
goto childerror
}
err2 = Setuid(int(cred.Uid))
if err2 != nil {
err1 = err2.(Errno)
goto childerror
}
}
// Chdir
if dir != nil {
err1 = raw_chdir(dir)
if err1 != 0 {
goto childerror
}
}
// Pass 1: look for fd[i] < i and move those up above len(fd)
// so that pass 2 won't stomp on an fd it needs later.
if pipe < nextfd {
err1 = raw_dup2(pipe, nextfd)
if err1 != 0 {
goto childerror
}
raw_fcntl(nextfd, F_SETFD, FD_CLOEXEC)
pipe = nextfd
nextfd++
}
for i = 0; i < len(fd); i++ {
if fd[i] >= 0 && fd[i] < int(i) {
if nextfd == pipe { // don't stomp on pipe
nextfd++
}
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err1 = raw_dup2(fd[i], nextfd)
if err1 != 0 {
goto childerror
}
raw_fcntl(nextfd, F_SETFD, FD_CLOEXEC)
fd[i] = nextfd
nextfd++
}
}
// Pass 2: dup fd[i] down onto i.
for i = 0; i < len(fd); i++ {
if fd[i] == -1 {
raw_close(i)
continue
}
if fd[i] == int(i) {
// dup2(i, i) won't clear close-on-exec flag on Linux,
// probably not elsewhere either.
_, err1 = raw_fcntl(fd[i], F_SETFD, 0)
if err1 != 0 {
goto childerror
}
continue
}
// The new fd is created NOT close-on-exec,
// which is exactly what we want.
err1 = raw_dup2(fd[i], i)
if err1 != 0 {
goto childerror
}
}
// By convention, we don't close-on-exec the fds we are
// started with, so if len(fd) < 3, close 0, 1, 2 as needed.
// Programs that know they inherit fds >= 3 will need
// to set them close-on-exec.
for i = len(fd); i < 3; i++ {
raw_close(i)
}
// Detach fd 0 from tty
if sys.Noctty {
_, err1 = raw_ioctl(0, TIOCNOTTY, 0)
if err1 != 0 {
goto childerror
}
}
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// Set the controlling TTY to Ctty
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if sys.Setctty {
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_, err1 = raw_ioctl(sys.Ctty, TIOCSCTTY, 0)
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if err1 != 0 {
goto childerror
}
}
// Time to exec.
err1 = raw_execve(argv0, &argv[0], &envv[0])
childerror:
// send error code on pipe
raw_write(pipe, (*byte)(unsafe.Pointer(&err1)), int(unsafe.Sizeof(err1)))
for {
raw_exit(253)
}
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}
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// Try to open a pipe with O_CLOEXEC set on both file descriptors.
func forkExecPipe(p []int) error {
err := Pipe(p)
if err != nil {
return err
}
_, err = fcntl(p[0], F_SETFD, FD_CLOEXEC)
if err != nil {
return err
}
_, err = fcntl(p[1], F_SETFD, FD_CLOEXEC)
return err
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}