mirror of https://github.com/python/cpython.git
502 lines
16 KiB
C
502 lines
16 KiB
C
/* Authors: Gregory P. Smith & Jeffrey Yasskin */
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#include "Python.h"
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#ifdef HAVE_PIPE2
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#define _GNU_SOURCE
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#endif
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#include <unistd.h>
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#include <fcntl.h>
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#define POSIX_CALL(call) if ((call) == -1) goto error
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/* Maximum file descriptor, initialized on module load. */
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static long max_fd;
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/* Given the gc module call gc.enable() and return 0 on success. */
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static int _enable_gc(PyObject *gc_module)
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{
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PyObject *result;
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result = PyObject_CallMethod(gc_module, "enable", NULL);
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if (result == NULL)
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return 1;
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Py_DECREF(result);
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return 0;
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}
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/*
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* This function is code executed in the child process immediately after fork
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* to set things up and call exec().
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*
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* All of the code in this function must only use async-signal-safe functions,
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* listed at `man 7 signal` or
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* http://www.opengroup.org/onlinepubs/009695399/functions/xsh_chap02_04.html.
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*
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* This restriction is documented at
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* http://www.opengroup.org/onlinepubs/009695399/functions/fork.html.
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*/
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static void child_exec(char *const exec_array[],
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char *const argv[],
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char *const envp[],
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const char *cwd,
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int p2cread, int p2cwrite,
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int c2pread, int c2pwrite,
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int errread, int errwrite,
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int errpipe_read, int errpipe_write,
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int close_fds, int restore_signals,
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int call_setsid, Py_ssize_t num_fds_to_keep,
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PyObject *py_fds_to_keep,
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PyObject *preexec_fn,
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PyObject *preexec_fn_args_tuple)
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{
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int i, saved_errno, fd_num;
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PyObject *result;
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const char* err_msg = "";
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/* Buffer large enough to hold a hex integer. We can't malloc. */
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char hex_errno[sizeof(saved_errno)*2+1];
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/* Close parent's pipe ends. */
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if (p2cwrite != -1) {
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POSIX_CALL(close(p2cwrite));
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}
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if (c2pread != -1) {
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POSIX_CALL(close(c2pread));
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}
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if (errread != -1) {
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POSIX_CALL(close(errread));
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}
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POSIX_CALL(close(errpipe_read));
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/* Dup fds for child.
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dup2() removes the CLOEXEC flag but we must do it ourselves if dup2()
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would be a no-op (issue #10806). */
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if (p2cread == 0) {
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int old = fcntl(p2cread, F_GETFD);
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if (old != -1)
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fcntl(p2cread, F_SETFD, old & ~FD_CLOEXEC);
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} else if (p2cread != -1) {
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POSIX_CALL(dup2(p2cread, 0)); /* stdin */
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}
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if (c2pwrite == 1) {
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int old = fcntl(c2pwrite, F_GETFD);
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if (old != -1)
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fcntl(c2pwrite, F_SETFD, old & ~FD_CLOEXEC);
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} else if (c2pwrite != -1) {
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POSIX_CALL(dup2(c2pwrite, 1)); /* stdout */
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}
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if (errwrite == 2) {
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int old = fcntl(errwrite, F_GETFD);
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if (old != -1)
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fcntl(errwrite, F_SETFD, old & ~FD_CLOEXEC);
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} else if (errwrite != -1) {
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POSIX_CALL(dup2(errwrite, 2)); /* stderr */
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}
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/* Close pipe fds. Make sure we don't close the same fd more than */
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/* once, or standard fds. */
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if (p2cread > 2) {
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POSIX_CALL(close(p2cread));
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}
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if (c2pwrite > 2) {
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POSIX_CALL(close(c2pwrite));
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}
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if (errwrite != c2pwrite && errwrite > 2) {
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POSIX_CALL(close(errwrite));
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}
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/* close() is intentionally not checked for errors here as we are closing */
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/* a large range of fds, some of which may be invalid. */
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if (close_fds) {
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Py_ssize_t keep_seq_idx;
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int start_fd = 3;
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for (keep_seq_idx = 0; keep_seq_idx < num_fds_to_keep; ++keep_seq_idx) {
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PyObject* py_keep_fd = PySequence_Fast_GET_ITEM(py_fds_to_keep,
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keep_seq_idx);
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int keep_fd = PyLong_AsLong(py_keep_fd);
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if (keep_fd < 0) { /* Negative number, overflow or not a Long. */
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err_msg = "bad value in fds_to_keep.";
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errno = 0; /* We don't want to report an OSError. */
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goto error;
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}
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if (keep_fd < start_fd)
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continue;
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for (fd_num = start_fd; fd_num < keep_fd; ++fd_num) {
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close(fd_num);
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}
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start_fd = keep_fd + 1;
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}
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if (start_fd <= max_fd) {
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for (fd_num = start_fd; fd_num < max_fd; ++fd_num) {
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close(fd_num);
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}
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}
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}
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if (cwd)
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POSIX_CALL(chdir(cwd));
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if (restore_signals)
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_Py_RestoreSignals();
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#ifdef HAVE_SETSID
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if (call_setsid)
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POSIX_CALL(setsid());
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#endif
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if (preexec_fn != Py_None && preexec_fn_args_tuple) {
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/* This is where the user has asked us to deadlock their program. */
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result = PyObject_Call(preexec_fn, preexec_fn_args_tuple, NULL);
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if (result == NULL) {
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/* Stringifying the exception or traceback would involve
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* memory allocation and thus potential for deadlock.
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* We've already faced potential deadlock by calling back
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* into Python in the first place, so it probably doesn't
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* matter but we avoid it to minimize the possibility. */
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err_msg = "Exception occurred in preexec_fn.";
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errno = 0; /* We don't want to report an OSError. */
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goto error;
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}
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/* Py_DECREF(result); - We're about to exec so why bother? */
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}
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/* This loop matches the Lib/os.py _execvpe()'s PATH search when */
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/* given the executable_list generated by Lib/subprocess.py. */
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saved_errno = 0;
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for (i = 0; exec_array[i] != NULL; ++i) {
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const char *executable = exec_array[i];
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if (envp) {
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execve(executable, argv, envp);
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} else {
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execv(executable, argv);
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}
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if (errno != ENOENT && errno != ENOTDIR && saved_errno == 0) {
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saved_errno = errno;
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}
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}
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/* Report the first exec error, not the last. */
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if (saved_errno)
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errno = saved_errno;
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error:
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saved_errno = errno;
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/* Report the posix error to our parent process. */
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if (saved_errno) {
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char *cur;
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write(errpipe_write, "OSError:", 8);
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cur = hex_errno + sizeof(hex_errno);
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while (saved_errno != 0 && cur > hex_errno) {
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*--cur = "0123456789ABCDEF"[saved_errno % 16];
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saved_errno /= 16;
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}
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write(errpipe_write, cur, hex_errno + sizeof(hex_errno) - cur);
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write(errpipe_write, ":", 1);
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/* We can't call strerror(saved_errno). It is not async signal safe.
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* The parent process will look the error message up. */
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} else {
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write(errpipe_write, "RuntimeError:0:", 15);
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write(errpipe_write, err_msg, strlen(err_msg));
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}
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}
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static PyObject *
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subprocess_fork_exec(PyObject* self, PyObject *args)
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{
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PyObject *gc_module = NULL;
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PyObject *executable_list, *py_close_fds, *py_fds_to_keep;
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PyObject *env_list, *preexec_fn;
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PyObject *process_args, *converted_args = NULL, *fast_args = NULL;
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PyObject *preexec_fn_args_tuple = NULL;
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int p2cread, p2cwrite, c2pread, c2pwrite, errread, errwrite;
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int errpipe_read, errpipe_write, close_fds, restore_signals;
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int call_setsid;
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PyObject *cwd_obj, *cwd_obj2;
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const char *cwd;
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pid_t pid;
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int need_to_reenable_gc = 0;
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char *const *exec_array, *const *argv = NULL, *const *envp = NULL;
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Py_ssize_t arg_num, num_fds_to_keep;
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if (!PyArg_ParseTuple(
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args, "OOOOOOiiiiiiiiiiO:fork_exec",
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&process_args, &executable_list, &py_close_fds, &py_fds_to_keep,
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&cwd_obj, &env_list,
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&p2cread, &p2cwrite, &c2pread, &c2pwrite,
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&errread, &errwrite, &errpipe_read, &errpipe_write,
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&restore_signals, &call_setsid, &preexec_fn))
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return NULL;
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close_fds = PyObject_IsTrue(py_close_fds);
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if (close_fds && errpipe_write < 3) { /* precondition */
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PyErr_SetString(PyExc_ValueError, "errpipe_write must be >= 3");
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return NULL;
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}
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num_fds_to_keep = PySequence_Length(py_fds_to_keep);
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if (num_fds_to_keep < 0) {
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PyErr_SetString(PyExc_ValueError, "bad fds_to_keep");
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return NULL;
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}
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/* We need to call gc.disable() when we'll be calling preexec_fn */
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if (preexec_fn != Py_None) {
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PyObject *result;
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gc_module = PyImport_ImportModule("gc");
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if (gc_module == NULL)
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return NULL;
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result = PyObject_CallMethod(gc_module, "isenabled", NULL);
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if (result == NULL) {
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Py_DECREF(gc_module);
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return NULL;
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}
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need_to_reenable_gc = PyObject_IsTrue(result);
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Py_DECREF(result);
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if (need_to_reenable_gc == -1) {
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Py_DECREF(gc_module);
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return NULL;
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}
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result = PyObject_CallMethod(gc_module, "disable", NULL);
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if (result == NULL) {
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Py_DECREF(gc_module);
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return NULL;
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}
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Py_DECREF(result);
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}
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exec_array = _PySequence_BytesToCharpArray(executable_list);
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if (!exec_array)
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return NULL;
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/* Convert args and env into appropriate arguments for exec() */
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/* These conversions are done in the parent process to avoid allocating
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or freeing memory in the child process. */
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if (process_args != Py_None) {
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Py_ssize_t num_args;
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/* Equivalent to: */
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/* tuple(PyUnicode_FSConverter(arg) for arg in process_args) */
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fast_args = PySequence_Fast(process_args, "argv must be a tuple");
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num_args = PySequence_Fast_GET_SIZE(fast_args);
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converted_args = PyTuple_New(num_args);
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if (converted_args == NULL)
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goto cleanup;
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for (arg_num = 0; arg_num < num_args; ++arg_num) {
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PyObject *borrowed_arg, *converted_arg;
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borrowed_arg = PySequence_Fast_GET_ITEM(fast_args, arg_num);
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if (PyUnicode_FSConverter(borrowed_arg, &converted_arg) == 0)
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goto cleanup;
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PyTuple_SET_ITEM(converted_args, arg_num, converted_arg);
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}
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argv = _PySequence_BytesToCharpArray(converted_args);
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Py_CLEAR(converted_args);
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Py_CLEAR(fast_args);
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if (!argv)
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goto cleanup;
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}
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if (env_list != Py_None) {
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envp = _PySequence_BytesToCharpArray(env_list);
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if (!envp)
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goto cleanup;
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}
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if (preexec_fn != Py_None) {
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preexec_fn_args_tuple = PyTuple_New(0);
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if (!preexec_fn_args_tuple)
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goto cleanup;
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_PyImport_AcquireLock();
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}
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if (cwd_obj != Py_None) {
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if (PyUnicode_FSConverter(cwd_obj, &cwd_obj2) == 0)
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goto cleanup;
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cwd = PyBytes_AsString(cwd_obj2);
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} else {
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cwd = NULL;
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cwd_obj2 = NULL;
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}
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pid = fork();
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if (pid == 0) {
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/* Child process */
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/*
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* Code from here to _exit() must only use async-signal-safe functions,
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* listed at `man 7 signal` or
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* http://www.opengroup.org/onlinepubs/009695399/functions/xsh_chap02_04.html.
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*/
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if (preexec_fn != Py_None) {
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/* We'll be calling back into Python later so we need to do this.
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* This call may not be async-signal-safe but neither is calling
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* back into Python. The user asked us to use hope as a strategy
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* to avoid deadlock... */
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PyOS_AfterFork();
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}
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child_exec(exec_array, argv, envp, cwd,
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p2cread, p2cwrite, c2pread, c2pwrite,
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errread, errwrite, errpipe_read, errpipe_write,
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close_fds, restore_signals, call_setsid,
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num_fds_to_keep, py_fds_to_keep,
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preexec_fn, preexec_fn_args_tuple);
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_exit(255);
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return NULL; /* Dead code to avoid a potential compiler warning. */
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}
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Py_XDECREF(cwd_obj2);
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if (pid == -1) {
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/* Capture the errno exception before errno can be clobbered. */
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PyErr_SetFromErrno(PyExc_OSError);
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}
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if (preexec_fn != Py_None &&
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_PyImport_ReleaseLock() < 0 && !PyErr_Occurred()) {
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PyErr_SetString(PyExc_RuntimeError,
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"not holding the import lock");
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}
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/* Parent process */
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if (envp)
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_Py_FreeCharPArray(envp);
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if (argv)
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_Py_FreeCharPArray(argv);
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_Py_FreeCharPArray(exec_array);
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/* Reenable gc in the parent process (or if fork failed). */
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if (need_to_reenable_gc && _enable_gc(gc_module)) {
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Py_XDECREF(gc_module);
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return NULL;
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}
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Py_XDECREF(preexec_fn_args_tuple);
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Py_XDECREF(gc_module);
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if (pid == -1)
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return NULL; /* fork() failed. Exception set earlier. */
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return PyLong_FromPid(pid);
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cleanup:
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if (envp)
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_Py_FreeCharPArray(envp);
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if (argv)
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_Py_FreeCharPArray(argv);
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_Py_FreeCharPArray(exec_array);
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Py_XDECREF(converted_args);
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Py_XDECREF(fast_args);
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Py_XDECREF(preexec_fn_args_tuple);
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/* Reenable gc if it was disabled. */
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if (need_to_reenable_gc)
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_enable_gc(gc_module);
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Py_XDECREF(gc_module);
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return NULL;
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}
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PyDoc_STRVAR(subprocess_fork_exec_doc,
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"fork_exec(args, executable_list, close_fds, cwd, env,\n\
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p2cread, p2cwrite, c2pread, c2pwrite,\n\
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errread, errwrite, errpipe_read, errpipe_write,\n\
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restore_signals, call_setsid, preexec_fn)\n\
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\n\
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Forks a child process, closes parent file descriptors as appropriate in the\n\
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child and dups the few that are needed before calling exec() in the child\n\
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process.\n\
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\n\
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The preexec_fn, if supplied, will be called immediately before exec.\n\
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WARNING: preexec_fn is NOT SAFE if your application uses threads.\n\
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It may trigger infrequent, difficult to debug deadlocks.\n\
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\n\
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If an error occurs in the child process before the exec, it is\n\
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serialized and written to the errpipe_write fd per subprocess.py.\n\
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\n\
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Returns: the child process's PID.\n\
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\n\
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Raises: Only on an error in the parent process.\n\
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");
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PyDoc_STRVAR(subprocess_cloexec_pipe_doc,
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"cloexec_pipe() -> (read_end, write_end)\n\n\
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Create a pipe whose ends have the cloexec flag set.");
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static PyObject *
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subprocess_cloexec_pipe(PyObject *self, PyObject *noargs)
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{
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int fds[2];
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int res;
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#ifdef HAVE_PIPE2
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Py_BEGIN_ALLOW_THREADS
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res = pipe2(fds, O_CLOEXEC);
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Py_END_ALLOW_THREADS
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if (res != 0 && errno == ENOSYS)
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{
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if (PyErr_WarnEx(
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PyExc_RuntimeWarning,
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"pipe2 set errno ENOSYS; falling "
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"back to non-atomic pipe+fcntl.", 1) != 0) {
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return NULL;
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}
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{
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#endif
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/* We hold the GIL which offers some protection from other code calling
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* fork() before the CLOEXEC flags have been set but we can't guarantee
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* anything without pipe2(). */
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long oldflags;
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res = pipe(fds);
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if (res == 0) {
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oldflags = fcntl(fds[0], F_GETFD, 0);
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if (oldflags < 0) res = oldflags;
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}
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if (res == 0)
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res = fcntl(fds[0], F_SETFD, oldflags | FD_CLOEXEC);
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if (res == 0) {
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oldflags = fcntl(fds[1], F_GETFD, 0);
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if (oldflags < 0) res = oldflags;
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}
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if (res == 0)
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res = fcntl(fds[1], F_SETFD, oldflags | FD_CLOEXEC);
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#ifdef HAVE_PIPE2
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}
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}
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#endif
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if (res != 0)
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return PyErr_SetFromErrno(PyExc_OSError);
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return Py_BuildValue("(ii)", fds[0], fds[1]);
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}
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/* module level code ********************************************************/
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PyDoc_STRVAR(module_doc,
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"A POSIX helper for the subprocess module.");
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static PyMethodDef module_methods[] = {
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|
{"fork_exec", subprocess_fork_exec, METH_VARARGS, subprocess_fork_exec_doc},
|
|
{"cloexec_pipe", subprocess_cloexec_pipe, METH_NOARGS, subprocess_cloexec_pipe_doc},
|
|
{NULL, NULL} /* sentinel */
|
|
};
|
|
|
|
|
|
static struct PyModuleDef _posixsubprocessmodule = {
|
|
PyModuleDef_HEAD_INIT,
|
|
"_posixsubprocess",
|
|
module_doc,
|
|
-1, /* No memory is needed. */
|
|
module_methods,
|
|
};
|
|
|
|
PyMODINIT_FUNC
|
|
PyInit__posixsubprocess(void)
|
|
{
|
|
#ifdef _SC_OPEN_MAX
|
|
max_fd = sysconf(_SC_OPEN_MAX);
|
|
if (max_fd == -1)
|
|
#endif
|
|
max_fd = 256; /* Matches Lib/subprocess.py */
|
|
|
|
return PyModule_Create(&_posixsubprocessmodule);
|
|
}
|