/* Copyright (C) 1993-2024 Free Software Foundation, Inc. This file is part of the GNU C Library. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, see . As a special exception, if you link the code in this file with files compiled with a GNU compiler to produce an executable, that does not cause the resulting executable to be covered by the GNU Lesser General Public License. This exception does not however invalidate any other reasons why the executable file might be covered by the GNU Lesser General Public License. This exception applies to code released by its copyright holders in files containing the exception. */ #include "libioP.h" #include #include #include #include #include #include #include #include #include #include struct _IO_proc_file { struct _IO_FILE_plus file; /* Following fields must match those in class procbuf (procbuf.h) */ pid_t pid; struct _IO_proc_file *next; }; typedef struct _IO_proc_file _IO_proc_file; static struct _IO_proc_file *proc_file_chain; #ifdef _IO_MTSAFE_IO static _IO_lock_t proc_file_chain_lock = _IO_lock_initializer; static void unlock (void *not_used) { _IO_lock_unlock (proc_file_chain_lock); } #endif /* These lock/unlock/resetlock functions are used during fork. */ void _IO_proc_file_chain_lock (void) { _IO_lock_lock (proc_file_chain_lock); } void _IO_proc_file_chain_unlock (void) { _IO_lock_unlock (proc_file_chain_lock); } void _IO_proc_file_chain_resetlock (void) { _IO_lock_init (proc_file_chain_lock); } /* POSIX states popen shall ensure that any streams from previous popen() calls that remain open in the parent process should be closed in the new child process. To avoid a race-condition between checking which file descriptors need to be close (by transversing the proc_file_chain list) and the insertion of a new one after a successful posix_spawn this function should be called with proc_file_chain_lock acquired. */ static int spawn_process (posix_spawn_file_actions_t *fa, FILE *fp, const char *command, int do_cloexec, int pipe_fds[2], int parent_end, int child_end, int child_pipe_fd) { int err = 0; for (struct _IO_proc_file *p = proc_file_chain; p; p = p->next) { int fd = _IO_fileno ((FILE *) p); /* If any stream from previous popen() calls has fileno child_pipe_fd, it has been already closed by the adddup2 action above. */ if (fd != child_pipe_fd) { err = __posix_spawn_file_actions_addclose (fa, fd); if (err != 0) return err; } } err = __posix_spawn (&((_IO_proc_file *) fp)->pid, _PATH_BSHELL, fa, 0, (char *const[]){ (char*) "sh", (char*) "-c", (char*) "--", (char *) command, NULL }, __environ); if (err != 0) return err; __close_nocancel (pipe_fds[child_end]); if (!do_cloexec) /* Undo the effects of the pipe2 call which set the close-on-exec flag. */ __fcntl (pipe_fds[parent_end], F_SETFD, 0); _IO_fileno (fp) = pipe_fds[parent_end]; ((_IO_proc_file *) fp)->next = proc_file_chain; proc_file_chain = (_IO_proc_file *) fp; return 0; } FILE * _IO_new_proc_open (FILE *fp, const char *command, const char *mode) { int read_or_write; /* These are indexes for pipe_fds. */ int parent_end, child_end; int pipe_fds[2]; int child_pipe_fd; int err; int do_read = 0; int do_write = 0; int do_cloexec = 0; while (*mode != '\0') switch (*mode++) { case 'r': do_read = 1; break; case 'w': do_write = 1; break; case 'e': do_cloexec = 1; break; default: errout: __set_errno (EINVAL); return NULL; } if ((do_read ^ do_write) == 0) goto errout; if (_IO_file_is_open (fp)) return NULL; /* Atomically set the O_CLOEXEC flag for the pipe end used by the child process (to avoid leaking the file descriptor in case of a concurrent fork). This is later reverted in the child process. When popen returns, the parent pipe end can be O_CLOEXEC or not, depending on the 'e' open mode, but there is only one flag which controls both descriptors. The parent end is adjusted below, after creating the child process. (In the child process, the parent end should be closed on execve, so O_CLOEXEC remains set there.) */ if (__pipe2 (pipe_fds, O_CLOEXEC) < 0) return NULL; if (do_read) { parent_end = 0; child_end = 1; read_or_write = _IO_NO_WRITES; child_pipe_fd = 1; } else { parent_end = 1; child_end = 0; read_or_write = _IO_NO_READS; child_pipe_fd = 0; } posix_spawn_file_actions_t fa; /* posix_spawn_file_actions_init does not fail. */ __posix_spawn_file_actions_init (&fa); /* The descriptor is already the one the child will use. In this case it must be moved to another one otherwise, there is no safe way to remove the close-on-exec flag in the child without creating a FD leak race in the parent. */ if (pipe_fds[child_end] == child_pipe_fd) { int tmp = __fcntl (child_pipe_fd, F_DUPFD_CLOEXEC, 0); if (tmp < 0) goto spawn_failure; __close_nocancel (pipe_fds[child_end]); pipe_fds[child_end] = tmp; } err = __posix_spawn_file_actions_adddup2 (&fa, pipe_fds[child_end], child_pipe_fd); if (err != 0) goto spawn_failure; #ifdef _IO_MTSAFE_IO _IO_cleanup_region_start_noarg (unlock); _IO_lock_lock (proc_file_chain_lock); #endif err = spawn_process (&fa, fp, command, do_cloexec, pipe_fds, parent_end, child_end, child_pipe_fd); #ifdef _IO_MTSAFE_IO _IO_lock_unlock (proc_file_chain_lock); _IO_cleanup_region_end (0); #endif __posix_spawn_file_actions_destroy (&fa); if (err != 0) { __set_errno (err); spawn_failure: __close_nocancel (pipe_fds[child_end]); __close_nocancel (pipe_fds[parent_end]); return NULL; } _IO_mask_flags (fp, read_or_write, _IO_NO_READS|_IO_NO_WRITES); return fp; } FILE * _IO_new_popen (const char *command, const char *mode) { struct locked_FILE { struct _IO_proc_file fpx; #ifdef _IO_MTSAFE_IO _IO_lock_t lock; #endif } *new_f; FILE *fp; new_f = (struct locked_FILE *) malloc (sizeof (struct locked_FILE)); if (new_f == NULL) return NULL; #ifdef _IO_MTSAFE_IO new_f->fpx.file.file._lock = &new_f->lock; #endif fp = &new_f->fpx.file.file; _IO_init_internal (fp, 0); _IO_JUMPS (&new_f->fpx.file) = &_IO_proc_jumps; _IO_new_file_init_internal (&new_f->fpx.file); if (_IO_new_proc_open (fp, command, mode) != NULL) return (FILE *) &new_f->fpx.file; _IO_un_link (&new_f->fpx.file); free (new_f); return NULL; } int _IO_new_proc_close (FILE *fp) { /* This is not name-space clean. FIXME! */ int wstatus; _IO_proc_file **ptr = &proc_file_chain; pid_t wait_pid; int status = -1; /* Unlink from proc_file_chain. */ #ifdef _IO_MTSAFE_IO _IO_cleanup_region_start_noarg (unlock); _IO_lock_lock (proc_file_chain_lock); #endif for ( ; *ptr != NULL; ptr = &(*ptr)->next) { if (*ptr == (_IO_proc_file *) fp) { *ptr = (*ptr)->next; status = 0; break; } } #ifdef _IO_MTSAFE_IO _IO_lock_unlock (proc_file_chain_lock); _IO_cleanup_region_end (0); #endif if (status < 0 || __close_nocancel (_IO_fileno(fp)) < 0) return -1; /* POSIX.2 Rationale: "Some historical implementations either block or ignore the signals SIGINT, SIGQUIT, and SIGHUP while waiting for the child process to terminate. Since this behavior is not described in POSIX.2, such implementations are not conforming." */ do { int state; __pthread_setcancelstate (PTHREAD_CANCEL_DISABLE, &state); wait_pid = __waitpid (((_IO_proc_file *) fp)->pid, &wstatus, 0); __pthread_setcancelstate (state, NULL); } while (wait_pid == -1 && errno == EINTR); if (wait_pid == -1) return -1; return wstatus; } strong_alias (_IO_new_popen, __new_popen) versioned_symbol (libc, _IO_new_popen, _IO_popen, GLIBC_2_1); versioned_symbol (libc, __new_popen, popen, GLIBC_2_1); versioned_symbol (libc, _IO_new_proc_open, _IO_proc_open, GLIBC_2_1); versioned_symbol (libc, _IO_new_proc_close, _IO_proc_close, GLIBC_2_1);