Source file src/syscall/exec_unix.go

     1  // Copyright 2009 The Go Authors. All rights reserved.
     2  // Use of this source code is governed by a BSD-style
     3  // license that can be found in the LICENSE file.
     4  
     5  //go:build unix
     6  
     7  // Fork, exec, wait, etc.
     8  
     9  package syscall
    10  
    11  import (
    12  	errorspkg "errors"
    13  	"internal/bytealg"
    14  	"runtime"
    15  	"sync"
    16  	"unsafe"
    17  )
    18  
    19  // ForkLock is used to synchronize creation of new file descriptors
    20  // with fork.
    21  //
    22  // We want the child in a fork/exec sequence to inherit only the
    23  // file descriptors we intend. To do that, we mark all file
    24  // descriptors close-on-exec and then, in the child, explicitly
    25  // unmark the ones we want the exec'ed program to keep.
    26  // Unix doesn't make this easy: there is, in general, no way to
    27  // allocate a new file descriptor close-on-exec. Instead you
    28  // have to allocate the descriptor and then mark it close-on-exec.
    29  // If a fork happens between those two events, the child's exec
    30  // will inherit an unwanted file descriptor.
    31  //
    32  // This lock solves that race: the create new fd/mark close-on-exec
    33  // operation is done holding ForkLock for reading, and the fork itself
    34  // is done holding ForkLock for writing. At least, that's the idea.
    35  // There are some complications.
    36  //
    37  // Some system calls that create new file descriptors can block
    38  // for arbitrarily long times: open on a hung NFS server or named
    39  // pipe, accept on a socket, and so on. We can't reasonably grab
    40  // the lock across those operations.
    41  //
    42  // It is worse to inherit some file descriptors than others.
    43  // If a non-malicious child accidentally inherits an open ordinary file,
    44  // that's not a big deal. On the other hand, if a long-lived child
    45  // accidentally inherits the write end of a pipe, then the reader
    46  // of that pipe will not see EOF until that child exits, potentially
    47  // causing the parent program to hang. This is a common problem
    48  // in threaded C programs that use popen.
    49  //
    50  // Luckily, the file descriptors that are most important not to
    51  // inherit are not the ones that can take an arbitrarily long time
    52  // to create: pipe returns instantly, and the net package uses
    53  // non-blocking I/O to accept on a listening socket.
    54  // The rules for which file descriptor-creating operations use the
    55  // ForkLock are as follows:
    56  //
    57  //   - [Pipe]. Use pipe2 if available. Otherwise, does not block,
    58  //     so use ForkLock.
    59  //   - [Socket]. Use SOCK_CLOEXEC if available. Otherwise, does not
    60  //     block, so use ForkLock.
    61  //   - [Open]. Use [O_CLOEXEC] if available. Otherwise, may block,
    62  //     so live with the race.
    63  //   - [Dup]. Use [F_DUPFD_CLOEXEC] or dup3 if available. Otherwise,
    64  //     does not block, so use ForkLock.
    65  var ForkLock sync.RWMutex
    66  
    67  // StringSlicePtr converts a slice of strings to a slice of pointers
    68  // to NUL-terminated byte arrays. If any string contains a NUL byte
    69  // this function panics instead of returning an error.
    70  //
    71  // Deprecated: Use [SlicePtrFromStrings] instead.
    72  func StringSlicePtr(ss []string) []*byte {
    73  	bb := make([]*byte, len(ss)+1)
    74  	for i := 0; i < len(ss); i++ {
    75  		bb[i] = StringBytePtr(ss[i])
    76  	}
    77  	bb[len(ss)] = nil
    78  	return bb
    79  }
    80  
    81  // SlicePtrFromStrings converts a slice of strings to a slice of
    82  // pointers to NUL-terminated byte arrays. If any string contains
    83  // a NUL byte, it returns (nil, [EINVAL]).
    84  func SlicePtrFromStrings(ss []string) ([]*byte, error) {
    85  	n := 0
    86  	for _, s := range ss {
    87  		if bytealg.IndexByteString(s, 0) != -1 {
    88  			return nil, EINVAL
    89  		}
    90  		n += len(s) + 1 // +1 for NUL
    91  	}
    92  	bb := make([]*byte, len(ss)+1)
    93  	b := make([]byte, n)
    94  	n = 0
    95  	for i, s := range ss {
    96  		bb[i] = &b[n]
    97  		copy(b[n:], s)
    98  		n += len(s) + 1
    99  	}
   100  	return bb, nil
   101  }
   102  
   103  func CloseOnExec(fd int) { fcntl(fd, F_SETFD, FD_CLOEXEC) }
   104  
   105  func SetNonblock(fd int, nonblocking bool) (err error) {
   106  	flag, err := fcntl(fd, F_GETFL, 0)
   107  	if err != nil {
   108  		return err
   109  	}
   110  	if (flag&O_NONBLOCK != 0) == nonblocking {
   111  		return nil
   112  	}
   113  	if nonblocking {
   114  		flag |= O_NONBLOCK
   115  	} else {
   116  		flag &^= O_NONBLOCK
   117  	}
   118  	_, err = fcntl(fd, F_SETFL, flag)
   119  	return err
   120  }
   121  
   122  // Credential holds user and group identities to be assumed
   123  // by a child process started by [StartProcess].
   124  type Credential struct {
   125  	Uid         uint32   // User ID.
   126  	Gid         uint32   // Group ID.
   127  	Groups      []uint32 // Supplementary group IDs.
   128  	NoSetGroups bool     // If true, don't set supplementary groups
   129  }
   130  
   131  // ProcAttr holds attributes that will be applied to a new process started
   132  // by [StartProcess].
   133  type ProcAttr struct {
   134  	Dir   string    // Current working directory.
   135  	Env   []string  // Environment.
   136  	Files []uintptr // File descriptors.
   137  	Sys   *SysProcAttr
   138  }
   139  
   140  var zeroProcAttr ProcAttr
   141  var zeroSysProcAttr SysProcAttr
   142  
   143  func forkExec(argv0 string, argv []string, attr *ProcAttr) (pid int, err error) {
   144  	var p [2]int
   145  	var n int
   146  	var err1 Errno
   147  	var wstatus WaitStatus
   148  
   149  	if attr == nil {
   150  		attr = &zeroProcAttr
   151  	}
   152  	sys := attr.Sys
   153  	if sys == nil {
   154  		sys = &zeroSysProcAttr
   155  	}
   156  
   157  	// Convert args to C form.
   158  	argv0p, err := BytePtrFromString(argv0)
   159  	if err != nil {
   160  		return 0, err
   161  	}
   162  	argvp, err := SlicePtrFromStrings(argv)
   163  	if err != nil {
   164  		return 0, err
   165  	}
   166  	envvp, err := SlicePtrFromStrings(attr.Env)
   167  	if err != nil {
   168  		return 0, err
   169  	}
   170  
   171  	if (runtime.GOOS == "freebsd" || runtime.GOOS == "dragonfly") && len(argv) > 0 && len(argv[0]) > len(argv0) {
   172  		argvp[0] = argv0p
   173  	}
   174  
   175  	var chroot *byte
   176  	if sys.Chroot != "" {
   177  		chroot, err = BytePtrFromString(sys.Chroot)
   178  		if err != nil {
   179  			return 0, err
   180  		}
   181  	}
   182  	var dir *byte
   183  	if attr.Dir != "" {
   184  		dir, err = BytePtrFromString(attr.Dir)
   185  		if err != nil {
   186  			return 0, err
   187  		}
   188  	}
   189  
   190  	// Both Setctty and Foreground use the Ctty field,
   191  	// but they give it slightly different meanings.
   192  	if sys.Setctty && sys.Foreground {
   193  		return 0, errorspkg.New("both Setctty and Foreground set in SysProcAttr")
   194  	}
   195  	if sys.Setctty && sys.Ctty >= len(attr.Files) {
   196  		return 0, errorspkg.New("Setctty set but Ctty not valid in child")
   197  	}
   198  
   199  	acquireForkLock()
   200  
   201  	// Allocate child status pipe close on exec.
   202  	if err = forkExecPipe(p[:]); err != nil {
   203  		releaseForkLock()
   204  		return 0, err
   205  	}
   206  
   207  	// Kick off child.
   208  	pid, err1 = forkAndExecInChild(argv0p, argvp, envvp, chroot, dir, attr, sys, p[1])
   209  	if err1 != 0 {
   210  		Close(p[0])
   211  		Close(p[1])
   212  		releaseForkLock()
   213  		return 0, Errno(err1)
   214  	}
   215  	releaseForkLock()
   216  
   217  	// Read child error status from pipe.
   218  	Close(p[1])
   219  	for {
   220  		n, err = readlen(p[0], (*byte)(unsafe.Pointer(&err1)), int(unsafe.Sizeof(err1)))
   221  		if err != EINTR {
   222  			break
   223  		}
   224  	}
   225  	Close(p[0])
   226  	if err != nil || n != 0 {
   227  		if n == int(unsafe.Sizeof(err1)) {
   228  			err = Errno(err1)
   229  		}
   230  		if err == nil {
   231  			err = EPIPE
   232  		}
   233  
   234  		// Child failed; wait for it to exit, to make sure
   235  		// the zombies don't accumulate.
   236  		_, err1 := Wait4(pid, &wstatus, 0, nil)
   237  		for err1 == EINTR {
   238  			_, err1 = Wait4(pid, &wstatus, 0, nil)
   239  		}
   240  		return 0, err
   241  	}
   242  
   243  	// Read got EOF, so pipe closed on exec, so exec succeeded.
   244  	return pid, nil
   245  }
   246  
   247  // Combination of fork and exec, careful to be thread safe.
   248  func ForkExec(argv0 string, argv []string, attr *ProcAttr) (pid int, err error) {
   249  	return forkExec(argv0, argv, attr)
   250  }
   251  
   252  // StartProcess wraps [ForkExec] for package os.
   253  func StartProcess(argv0 string, argv []string, attr *ProcAttr) (pid int, handle uintptr, err error) {
   254  	pid, err = forkExec(argv0, argv, attr)
   255  	return pid, 0, err
   256  }
   257  
   258  // Implemented in runtime package.
   259  func runtime_BeforeExec()
   260  func runtime_AfterExec()
   261  
   262  // execveLibc is non-nil on OS using libc syscall, set to execve in exec_libc.go; this
   263  // avoids a build dependency for other platforms.
   264  var execveLibc func(path uintptr, argv uintptr, envp uintptr) Errno
   265  var execveDarwin func(path *byte, argv **byte, envp **byte) error
   266  var execveOpenBSD func(path *byte, argv **byte, envp **byte) error
   267  
   268  // Exec invokes the execve(2) system call.
   269  func Exec(argv0 string, argv []string, envv []string) (err error) {
   270  	argv0p, err := BytePtrFromString(argv0)
   271  	if err != nil {
   272  		return err
   273  	}
   274  	argvp, err := SlicePtrFromStrings(argv)
   275  	if err != nil {
   276  		return err
   277  	}
   278  	envvp, err := SlicePtrFromStrings(envv)
   279  	if err != nil {
   280  		return err
   281  	}
   282  	runtime_BeforeExec()
   283  
   284  	rlim := origRlimitNofile.Load()
   285  	if rlim != nil {
   286  		Setrlimit(RLIMIT_NOFILE, rlim)
   287  	}
   288  
   289  	var err1 error
   290  	if runtime.GOOS == "solaris" || runtime.GOOS == "illumos" || runtime.GOOS == "aix" {
   291  		// RawSyscall should never be used on Solaris, illumos, or AIX.
   292  		err1 = execveLibc(
   293  			uintptr(unsafe.Pointer(argv0p)),
   294  			uintptr(unsafe.Pointer(&argvp[0])),
   295  			uintptr(unsafe.Pointer(&envvp[0])))
   296  	} else if runtime.GOOS == "darwin" || runtime.GOOS == "ios" {
   297  		// Similarly on Darwin.
   298  		err1 = execveDarwin(argv0p, &argvp[0], &envvp[0])
   299  	} else if runtime.GOOS == "openbsd" && runtime.GOARCH != "mips64" {
   300  		// Similarly on OpenBSD.
   301  		err1 = execveOpenBSD(argv0p, &argvp[0], &envvp[0])
   302  	} else {
   303  		_, _, err1 = RawSyscall(SYS_EXECVE,
   304  			uintptr(unsafe.Pointer(argv0p)),
   305  			uintptr(unsafe.Pointer(&argvp[0])),
   306  			uintptr(unsafe.Pointer(&envvp[0])))
   307  	}
   308  	runtime_AfterExec()
   309  	return err1
   310  }
   311  

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