/*
* Copyright (c) 2009-2013 Todd C. Miller <Todd.Miller@courtesan.com>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include <config.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <sys/time.h>
#include <sys/wait.h>
#include <sys/ioctl.h>
#include <stdio.h>
#ifdef STDC_HEADERS
# include <stdlib.h>
# include <stddef.h>
#else
# ifdef HAVE_STDLIB_H
# include <stdlib.h>
# endif
#endif /* STDC_HEADERS */
#ifdef HAVE_STRING_H
# if defined(HAVE_MEMORY_H) && !defined(STDC_HEADERS)
# include <memory.h>
# endif
# include <string.h>
#endif /* HAVE_STRING_H */
#ifdef HAVE_STRINGS_H
# include <strings.h>
#endif /* HAVE_STRINGS_H */
#ifdef HAVE_UNISTD_H
# include <unistd.h>
#endif /* HAVE_UNISTD_H */
#ifdef TIME_WITH_SYS_TIME
# include <time.h>
#endif
#include <errno.h>
#include <fcntl.h>
#include <signal.h>
#include <termios.h>
#include "sudo.h"
#include "sudo_event.h"
#include "sudo_exec.h"
#include "sudo_plugin.h"
#include "sudo_plugin_int.h"
#define SFD_STDIN 0
#define SFD_STDOUT 1
#define SFD_STDERR 2
#define SFD_MASTER 3
#define SFD_SLAVE 4
#define SFD_USERTTY 5
/* Evaluates to true if the event has /dev/tty as its fd. */
#define USERTTY_EVENT(_ev) (sudo_ev_get_fd((_ev)) == io_fds[SFD_USERTTY])
#define TERM_COOKED 0
#define TERM_RAW 1
/* Compatibility with older tty systems. */
#if !defined(TIOCGWINSZ) && defined(TIOCGSIZE)
# define TIOCGWINSZ TIOCGSIZE
# define TIOCSWINSZ TIOCSSIZE
# define winsize ttysize
#endif
struct io_buffer {
SLIST_ENTRY(io_buffer) entries;
struct sudo_event *revent;
struct sudo_event *wevent;
bool (*action)(const char *buf, unsigned int len);
int len; /* buffer length (how much produced) */
int off; /* write position (how much already consumed) */
char buf[32 * 1024];
};
SLIST_HEAD(io_buffer_list, io_buffer);
static char slavename[PATH_MAX];
static bool foreground, pipeline, tty_initialized;
static int io_fds[6] = { -1, -1, -1, -1, -1, -1};
static int ttymode = TERM_COOKED;
static pid_t ppgrp, cmnd_pgrp, mon_pgrp;
static sigset_t ttyblock;
static struct io_buffer_list iobufs;
static void del_io_events(void);
static int exec_monitor(struct command_details *details, int backchannel);
static void exec_pty(struct command_details *details,
struct command_status *cstat, int errfd);
static void sigwinch(int s);
static void sync_ttysize(int src, int dst);
static void deliver_signal(pid_t pid, int signo, bool from_parent);
static int safe_close(int fd);
static void ev_free_by_fd(struct sudo_event_base *evbase, int fd);
static void check_foreground(void);
/*
* Cleanup hook for fatal()/fatalx()
*/
static void
pty_cleanup(void)
{
debug_decl(cleanup, SUDO_DEBUG_EXEC);
if (!TAILQ_EMPTY(&io_plugins) && io_fds[SFD_USERTTY] != -1)
term_restore(io_fds[SFD_USERTTY], 0);
#ifdef HAVE_SELINUX
selinux_restore_tty();
#endif
utmp_logout(slavename, 0); /* XXX - only if CD_SET_UTMP */
debug_return;
}
/*
* Generic handler for signals recieved by the monitor process.
* The other end of signal_pipe is checked in the monitor event loop.
*/
#ifdef SA_SIGINFO
static void
mon_handler(int s, siginfo_t *info, void *context)
{
unsigned char signo = (unsigned char)s;
/*
* If the signal came from the command we ran, just ignore
* it since we don't want the command to indirectly kill itself.
* This can happen with, e.g. BSD-derived versions of reboot
* that call kill(-1, SIGTERM) to kill all other processes.
*/
if (info != NULL && info->si_code == SI_USER && info->si_pid == cmnd_pid)
return;
/*
* The pipe is non-blocking, if we overflow the kernel's pipe
* buffer we drop the signal. This is not a problem in practice.
*/
ignore_result(write(signal_pipe[1], &signo, sizeof(signo)));
}
#else
static void
mon_handler(int s)
{
unsigned char signo = (unsigned char)s;
/*
* The pipe is non-blocking, if we overflow the kernel's pipe
* buffer we drop the signal. This is not a problem in practice.
*/
ignore_result(write(signal_pipe[1], &signo, sizeof(signo)));
}
#endif
/*
* Allocate a pty if /dev/tty is a tty.
* Fills in io_fds[SFD_USERTTY], io_fds[SFD_MASTER], io_fds[SFD_SLAVE]
* and slavename globals.
*/
void
pty_setup(uid_t uid, const char *tty, const char *utmp_user)
{
debug_decl(pty_setup, SUDO_DEBUG_EXEC);
io_fds[SFD_USERTTY] = open(_PATH_TTY, O_RDWR|O_NOCTTY, 0);
if (io_fds[SFD_USERTTY] != -1) {
if (!get_pty(&io_fds[SFD_MASTER], &io_fds[SFD_SLAVE],
slavename, sizeof(slavename), uid))
fatal(U_("unable to allocate pty"));
/* Add entry to utmp/utmpx? */
if (utmp_user != NULL)
utmp_login(tty, slavename, io_fds[SFD_SLAVE], utmp_user);
}
debug_return;
}
/* Call I/O plugin tty input log method. */
static bool
log_ttyin(const char *buf, unsigned int n)
{
struct plugin_container *plugin;
sigset_t omask;
bool rval = true;
debug_decl(log_ttyin, SUDO_DEBUG_EXEC);
sigprocmask(SIG_BLOCK, &ttyblock, &omask);
TAILQ_FOREACH(plugin, &io_plugins, entries) {
if (plugin->u.io->log_ttyin) {
if (!plugin->u.io->log_ttyin(buf, n)) {
rval = false;
break;
}
}
}
sigprocmask(SIG_SETMASK, &omask, NULL);
debug_return_bool(rval);
}
/* Call I/O plugin stdin log method. */
static bool
log_stdin(const char *buf, unsigned int n)
{
struct plugin_container *plugin;
sigset_t omask;
bool rval = true;
debug_decl(log_stdin, SUDO_DEBUG_EXEC);
sigprocmask(SIG_BLOCK, &ttyblock, &omask);
TAILQ_FOREACH(plugin, &io_plugins, entries) {
if (plugin->u.io->log_stdin) {
if (!plugin->u.io->log_stdin(buf, n)) {
rval = false;
break;
}
}
}
sigprocmask(SIG_SETMASK, &omask, NULL);
debug_return_bool(rval);
}
/* Call I/O plugin tty output log method. */
static bool
log_ttyout(const char *buf, unsigned int n)
{
struct plugin_container *plugin;
sigset_t omask;
bool rval = true;
debug_decl(log_ttyout, SUDO_DEBUG_EXEC);
sigprocmask(SIG_BLOCK, &ttyblock, &omask);
TAILQ_FOREACH(plugin, &io_plugins, entries) {
if (plugin->u.io->log_ttyout) {
if (!plugin->u.io->log_ttyout(buf, n)) {
rval = false;
break;
}
}
}
sigprocmask(SIG_SETMASK, &omask, NULL);
debug_return_bool(rval);
}
/* Call I/O plugin stdout log method. */
static bool
log_stdout(const char *buf, unsigned int n)
{
struct plugin_container *plugin;
sigset_t omask;
bool rval = true;
debug_decl(log_stdout, SUDO_DEBUG_EXEC);
sigprocmask(SIG_BLOCK, &ttyblock, &omask);
TAILQ_FOREACH(plugin, &io_plugins, entries) {
if (plugin->u.io->log_stdout) {
if (!plugin->u.io->log_stdout(buf, n)) {
rval = false;
break;
}
}
}
sigprocmask(SIG_SETMASK, &omask, NULL);
debug_return_bool(rval);
}
/* Call I/O plugin stderr log method. */
static bool
log_stderr(const char *buf, unsigned int n)
{
struct plugin_container *plugin;
sigset_t omask;
bool rval = true;
debug_decl(log_stderr, SUDO_DEBUG_EXEC);
sigprocmask(SIG_BLOCK, &ttyblock, &omask);
TAILQ_FOREACH(plugin, &io_plugins, entries) {
if (plugin->u.io->log_stderr) {
if (!plugin->u.io->log_stderr(buf, n)) {
rval = false;
break;
}
}
}
sigprocmask(SIG_SETMASK, &omask, NULL);
debug_return_bool(rval);
}
/*
* Check whether we are running in the foregroup.
* Updates the foreground global and does lazy init of the
* the pty slave as needed.
*/
static void
check_foreground(void)
{
debug_decl(check_foreground, SUDO_DEBUG_EXEC);
if (io_fds[SFD_USERTTY] != -1) {
foreground = tcgetpgrp(io_fds[SFD_USERTTY]) == ppgrp;
if (foreground && !tty_initialized) {
if (term_copy(io_fds[SFD_USERTTY], io_fds[SFD_SLAVE])) {
tty_initialized = true;
sync_ttysize(io_fds[SFD_USERTTY], io_fds[SFD_SLAVE]);
}
}
}
debug_return;
}
/*
* Suspend sudo if the underlying command is suspended.
* Returns SIGCONT_FG if the command should be resumed in the
* foreground or SIGCONT_BG if it is a background process.
*/
int
suspend_parent(int signo)
{
char signame[SIG2STR_MAX];
sigaction_t sa, osa;
int n, rval = 0;
debug_decl(suspend_parent, SUDO_DEBUG_EXEC);
switch (signo) {
case SIGTTOU:
case SIGTTIN:
/*
* If sudo is already the foreground process, just resume the command
* in the foreground. If not, we'll suspend sudo and resume later.
*/
if (!foreground)
check_foreground();
if (foreground) {
if (ttymode != TERM_RAW) {
do {
n = term_raw(io_fds[SFD_USERTTY], 0);
} while (!n && errno == EINTR);
ttymode = TERM_RAW;
}
rval = SIGCONT_FG; /* resume command in foreground */
break;
}
/* FALLTHROUGH */
case SIGSTOP:
case SIGTSTP:
/* Flush any remaining output and deschedule I/O events. */
del_io_events();
/* Restore original tty mode before suspending. */
if (ttymode != TERM_COOKED)
term_restore(io_fds[SFD_USERTTY], 0);
if (sig2str(signo, signame) == -1)
snprintf(signame, sizeof(signame), "%d", signo);
/* Suspend self and continue command when we resume. */
if (signo != SIGSTOP) {
memset(&sa, 0, sizeof(sa));
sigemptyset(&sa.sa_mask);
sa.sa_flags = SA_RESTART;
sa.sa_handler = SIG_DFL;
sudo_sigaction(signo, &sa, &osa);
}
sudo_debug_printf(SUDO_DEBUG_INFO, "kill parent SIG%s", signame);
if (killpg(ppgrp, signo) != 0)
warning("killpg(%d, SIG%s)", (int)ppgrp, signame);
/* Check foreground/background status on resume. */
check_foreground();
/*
* We always resume the command in the foreground if sudo itself
* is the foreground process. This helps work around poorly behaved
* programs that catch SIGTTOU/SIGTTIN but suspend themselves with
* SIGSTOP. At worst, sudo will go into the background but upon
* resume the command will be runnable. Otherwise, we can get into
* a situation where the command will immediately suspend itself.
*/
sudo_debug_printf(SUDO_DEBUG_INFO, "parent is in %s, ttymode %d -> %d",
foreground ? "foreground" : "background", ttymode,
foreground ? TERM_RAW : TERM_COOKED);
if (foreground) {
/* Foreground process, set tty to raw mode. */
do {
n = term_raw(io_fds[SFD_USERTTY], 0);
} while (!n && errno == EINTR);
ttymode = TERM_RAW;
} else {
/* Background process, no access to tty. */
ttymode = TERM_COOKED;
}
if (signo != SIGSTOP)
sudo_sigaction(signo, &osa, NULL);
rval = ttymode == TERM_RAW ? SIGCONT_FG : SIGCONT_BG;
break;
}
debug_return_int(rval);
}
/*
* Kill command with increasing urgency.
*/
void
terminate_command(pid_t pid, bool use_pgrp)
{
debug_decl(terminate_command, SUDO_DEBUG_EXEC);
/*
* Note that SIGCHLD will interrupt the sleep()
*/
if (use_pgrp) {
sudo_debug_printf(SUDO_DEBUG_INFO, "killpg %d SIGHUP", (int)pid);
killpg(pid, SIGHUP);
sudo_debug_printf(SUDO_DEBUG_INFO, "killpg %d SIGTERM", (int)pid);
killpg(pid, SIGTERM);
sleep(2);
sudo_debug_printf(SUDO_DEBUG_INFO, "killpg %d SIGKILL", (int)pid);
killpg(pid, SIGKILL);
} else {
sudo_debug_printf(SUDO_DEBUG_INFO, "kill %d SIGHUP", (int)pid);
kill(pid, SIGHUP);
sudo_debug_printf(SUDO_DEBUG_INFO, "kill %d SIGTERM", (int)pid);
kill(pid, SIGTERM);
sleep(2);
sudo_debug_printf(SUDO_DEBUG_INFO, "kill %d SIGKILL", (int)pid);
kill(pid, SIGKILL);
}
debug_return;
}
/*
* Read/write an iobuf that is ready.
*/
static void
io_callback(int fd, int what, void *v)
{
struct io_buffer *iob = v;
struct sudo_event_base *evbase;
int n;
debug_decl(io_callback, SUDO_DEBUG_EXEC);
if (ISSET(what, SUDO_EV_READ)) {
evbase = sudo_ev_get_base(iob->revent);
do {
n = read(fd, iob->buf + iob->len, sizeof(iob->buf) - iob->len);
} while (n == -1 && errno == EINTR);
switch (n) {
case -1:
if (errno == EAGAIN)
break;
/* treat read error as fatal and close the fd */
sudo_debug_printf(SUDO_DEBUG_ERROR,
"error reading fd %d: %s", fd, strerror(errno));
/* FALLTHROUGH */
case 0:
/* got EOF or pty has gone away */
if (n == 0) {
sudo_debug_printf(SUDO_DEBUG_INFO,
"read EOF from fd %d", fd);
}
safe_close(fd);
ev_free_by_fd(evbase, fd);
/* If writer already consumed the buffer, close it too. */
if (iob->wevent != NULL && iob->off == iob->len) {
safe_close(sudo_ev_get_fd(iob->wevent));
ev_free_by_fd(evbase, sudo_ev_get_fd(iob->wevent));
iob->off = iob->len = 0;
}
break;
default:
sudo_debug_printf(SUDO_DEBUG_INFO,
"read %d bytes from fd %d", n, fd);
if (!iob->action(iob->buf + iob->len, n))
terminate_command(cmnd_pid, true);
iob->len += n;
/* Enable writer if not /dev/tty or we are foreground pgrp. */
if (iob->wevent != NULL &&
(foreground || !USERTTY_EVENT(iob->wevent))) {
if (sudo_ev_add(evbase, iob->wevent, NULL, false) == -1)
fatal(U_("unable to add event to queue"));
}
/* Re-enable reader if buffer is not full. */
if (iob->len != sizeof(iob->buf)) {
if (sudo_ev_add(evbase, iob->revent, NULL, false) == -1)
fatal(U_("unable to add event to queue"));
}
break;
}
}
if (ISSET(what, SUDO_EV_WRITE)) {
evbase = sudo_ev_get_base(iob->wevent);
do {
n = write(fd, iob->buf + iob->off, iob->len - iob->off);
} while (n == -1 && errno == EINTR);
if (n == -1) {
switch (errno) {
case EPIPE:
case ENXIO:
case EIO:
case EBADF:
/* other end of pipe closed or pty revoked */
sudo_debug_printf(SUDO_DEBUG_INFO,
"unable to write %d bytes to fd %d",
iob->len - iob->off, fd);
if (iob->revent != NULL) {
safe_close(sudo_ev_get_fd(iob->revent));
ev_free_by_fd(evbase, sudo_ev_get_fd(iob->revent));
}
safe_close(fd);
ev_free_by_fd(evbase, fd);
break;
case EAGAIN:
/* not an error */
break;
default:
#if 0 /* XXX -- how to set cstat? stash in iobufs instead? */
if (cstat != NULL) {
cstat->type = CMD_ERRNO;
cstat->val = errno;
}
#endif /* XXX */
sudo_debug_printf(SUDO_DEBUG_ERROR,
"error writing fd %d: %s", fd, strerror(errno));
sudo_ev_loopbreak(evbase);
break;
}
} else {
sudo_debug_printf(SUDO_DEBUG_INFO,
"wrote %d bytes to fd %d", n, fd);
iob->off += n;
/* Reset buffer if fully consumed. */
if (iob->off == iob->len) {
iob->off = iob->len = 0;
/* Forward the EOF from reader to writer. */
if (iob->revent == NULL) {
safe_close(fd);
ev_free_by_fd(evbase, fd);
}
}
/* Re-enable writer if buffer is not empty. */
if (iob->len > iob->off) {
if (sudo_ev_add(evbase, iob->wevent, NULL, false) == -1)
fatal(U_("unable to add event to queue"));
}
/* Enable reader if buffer is not full. */
if (iob->revent != NULL &&
(ttymode == TERM_RAW || !USERTTY_EVENT(iob->revent))) {
if (iob->len != sizeof(iob->buf)) {
if (sudo_ev_add(evbase, iob->revent, NULL, false) == -1)
fatal(U_("unable to add event to queue"));
}
}
}
}
}
static void
io_buf_new(int rfd, int wfd, bool (*action)(const char *, unsigned int),
struct io_buffer_list *head)
{
int n;
struct io_buffer *iob;
debug_decl(io_buf_new, SUDO_DEBUG_EXEC);
/* Set non-blocking mode. */
n = fcntl(rfd, F_GETFL, 0);
if (n != -1 && !ISSET(n, O_NONBLOCK))
(void) fcntl(rfd, F_SETFL, n | O_NONBLOCK);
n = fcntl(wfd, F_GETFL, 0);
if (n != -1 && !ISSET(n, O_NONBLOCK))
(void) fcntl(wfd, F_SETFL, n | O_NONBLOCK);
/* Allocate and add to head of list. */
iob = emalloc(sizeof(*iob));
iob->revent = sudo_ev_alloc(rfd, SUDO_EV_READ, io_callback, iob);
iob->wevent = sudo_ev_alloc(wfd, SUDO_EV_WRITE, io_callback, iob);
iob->len = 0;
iob->off = 0;
iob->action = action;
iob->buf[0] = '\0';
if (iob->revent == NULL || iob->wevent == NULL)
fatal(NULL);
SLIST_INSERT_HEAD(head, iob, entries);
debug_return;
}
/*
* Fork a monitor process which runs the actual command as its own child
* process with std{in,out,err} hooked up to the pty or pipes as appropriate.
* Returns the child pid.
*/
int
fork_pty(struct command_details *details, int sv[], sigset_t *omask)
{
struct command_status cstat;
int io_pipe[3][2], n;
sigaction_t sa;
sigset_t mask;
pid_t child;
debug_decl(fork_pty, SUDO_DEBUG_EXEC);
ppgrp = getpgrp(); /* parent's pgrp, so child can signal us */
memset(&sa, 0, sizeof(sa));
sigemptyset(&sa.sa_mask);
if (io_fds[SFD_USERTTY] != -1) {
sa.sa_flags = SA_RESTART;
sa.sa_handler = sigwinch;
sudo_sigaction(SIGWINCH, &sa, NULL);
}
/* So we can block tty-generated signals */
sigemptyset(&ttyblock);
sigaddset(&ttyblock, SIGINT);
sigaddset(&ttyblock, SIGQUIT);
sigaddset(&ttyblock, SIGTSTP);
sigaddset(&ttyblock, SIGTTIN);
sigaddset(&ttyblock, SIGTTOU);
/*
* Setup stdin/stdout/stderr for child, to be duped after forking.
* In background mode there is no stdin.
*/
if (!ISSET(details->flags, CD_BACKGROUND))
io_fds[SFD_STDIN] = io_fds[SFD_SLAVE];
io_fds[SFD_STDOUT] = io_fds[SFD_SLAVE];
io_fds[SFD_STDERR] = io_fds[SFD_SLAVE];
if (io_fds[SFD_USERTTY] != -1) {
/* Read from /dev/tty, write to pty master */
if (!ISSET(details->flags, CD_BACKGROUND)) {
io_buf_new(io_fds[SFD_USERTTY], io_fds[SFD_MASTER],
log_ttyin, &iobufs);
}
/* Read from pty master, write to /dev/tty */
io_buf_new(io_fds[SFD_MASTER], io_fds[SFD_USERTTY],
log_ttyout, &iobufs);
/* Are we the foreground process? */
foreground = tcgetpgrp(io_fds[SFD_USERTTY]) == ppgrp;
}
/*
* If either stdin, stdout or stderr is not a tty we use a pipe
* to interpose ourselves instead of duping the pty fd.
*/
memset(io_pipe, 0, sizeof(io_pipe));
if (io_fds[SFD_STDIN] == -1 || !isatty(STDIN_FILENO)) {
sudo_debug_printf(SUDO_DEBUG_INFO, "stdin not a tty, creating a pipe");
pipeline = true;
if (pipe(io_pipe[STDIN_FILENO]) != 0)
fatal(U_("unable to create pipe"));
io_buf_new(STDIN_FILENO, io_pipe[STDIN_FILENO][1],
log_stdin, &iobufs);
io_fds[SFD_STDIN] = io_pipe[STDIN_FILENO][0];
}
if (io_fds[SFD_STDOUT] == -1 || !isatty(STDOUT_FILENO)) {
sudo_debug_printf(SUDO_DEBUG_INFO, "stdout not a tty, creating a pipe");
pipeline = true;
if (pipe(io_pipe[STDOUT_FILENO]) != 0)
fatal(U_("unable to create pipe"));
io_buf_new(io_pipe[STDOUT_FILENO][0], STDOUT_FILENO,
log_stdout, &iobufs);
io_fds[SFD_STDOUT] = io_pipe[STDOUT_FILENO][1];
}
if (io_fds[SFD_STDERR] == -1 || !isatty(STDERR_FILENO)) {
sudo_debug_printf(SUDO_DEBUG_INFO, "stderr not a tty, creating a pipe");
if (pipe(io_pipe[STDERR_FILENO]) != 0)
fatal(U_("unable to create pipe"));
io_buf_new(io_pipe[STDERR_FILENO][0], STDERR_FILENO,
log_stderr, &iobufs);
io_fds[SFD_STDERR] = io_pipe[STDERR_FILENO][1];
}
/* We don't want to receive SIGTTIN/SIGTTOU, getting EIO is preferable. */
sa.sa_handler = SIG_IGN;
sudo_sigaction(SIGTTIN, &sa, NULL);
sudo_sigaction(SIGTTOU, &sa, NULL);
/* Job control signals to relay from parent to child. */
sigfillset(&sa.sa_mask);
sa.sa_flags = SA_INTERRUPT; /* do not restart syscalls */
#ifdef SA_SIGINFO
sa.sa_flags |= SA_SIGINFO;
sa.sa_sigaction = handler;
#else
sa.sa_handler = handler;
#endif
sudo_sigaction(SIGTSTP, &sa, NULL);
if (foreground) {
/* Copy terminal attrs from user tty -> pty slave. */
if (term_copy(io_fds[SFD_USERTTY], io_fds[SFD_SLAVE])) {
tty_initialized = true;
sync_ttysize(io_fds[SFD_USERTTY], io_fds[SFD_SLAVE]);
}
/* Start out in raw mode unless part of a pipeline or backgrounded. */
if (!pipeline && !ISSET(details->flags, CD_EXEC_BG)) {
ttymode = TERM_RAW;
do {
n = term_raw(io_fds[SFD_USERTTY], 0);
} while (!n && errno == EINTR);
if (!n)
fatal(U_("unable to set terminal to raw mode"));
}
}
/*
* The policy plugin's session init must be run before we fork
* or certain pam modules won't be able to track their state.
*/
if (policy_init_session(details) != true)
fatalx(U_("policy plugin failed session initialization"));
/*
* Block some signals until cmnd_pid is set in the parent to avoid a
* race between exec of the command and receipt of a fatal signal from it.
*/
sigemptyset(&mask);
sigaddset(&mask, SIGTERM);
sigaddset(&mask, SIGHUP);
sigaddset(&mask, SIGINT);
sigaddset(&mask, SIGQUIT);
sigprocmask(SIG_BLOCK, &mask, omask);
child = sudo_debug_fork();
switch (child) {
case -1:
fatal(U_("unable to fork"));
break;
case 0:
/* child */
close(sv[0]);
close(signal_pipe[0]);
close(signal_pipe[1]);
fcntl(sv[1], F_SETFD, FD_CLOEXEC);
sigprocmask(SIG_SETMASK, omask, NULL);
/* Close the other end of the stdin/stdout/stderr pipes and exec. */
if (io_pipe[STDIN_FILENO][1])
close(io_pipe[STDIN_FILENO][1]);
if (io_pipe[STDOUT_FILENO][0])
close(io_pipe[STDOUT_FILENO][0]);
if (io_pipe[STDERR_FILENO][0])
close(io_pipe[STDERR_FILENO][0]);
exec_monitor(details, sv[1]);
cstat.type = CMD_ERRNO;
cstat.val = errno;
ignore_result(send(sv[1], &cstat, sizeof(cstat), 0));
_exit(1);
}
/* Close the other end of the stdin/stdout/stderr pipes. */
if (io_pipe[STDIN_FILENO][0])
close(io_pipe[STDIN_FILENO][0]);
if (io_pipe[STDOUT_FILENO][1])
close(io_pipe[STDOUT_FILENO][1]);
if (io_pipe[STDERR_FILENO][1])
close(io_pipe[STDERR_FILENO][1]);
debug_return_int(child);
}
void
pty_close(struct command_status *cstat)
{
struct io_buffer *iob;
int n;
debug_decl(pty_close, SUDO_DEBUG_EXEC);
/* Flush any remaining output (the plugin already got it) */
if (io_fds[SFD_USERTTY] != -1) {
n = fcntl(io_fds[SFD_USERTTY], F_GETFL, 0);
if (n != -1 && ISSET(n, O_NONBLOCK)) {
CLR(n, O_NONBLOCK);
(void) fcntl(io_fds[SFD_USERTTY], F_SETFL, n);
}
}
del_io_events();
/* Free I/O buffers. */
while ((iob = SLIST_FIRST(&iobufs)) != NULL) {
SLIST_REMOVE_HEAD(&iobufs, entries);
efree(iob);
}
/* Restore terminal settings. */
if (io_fds[SFD_USERTTY] != -1)
term_restore(io_fds[SFD_USERTTY], 0);
/* If child was signalled, write the reason to stdout like the shell. */
if (cstat->type == CMD_WSTATUS && WIFSIGNALED(cstat->val)) {
int signo = WTERMSIG(cstat->val);
if (signo && signo != SIGINT && signo != SIGPIPE) {
const char *reason = strsignal(signo);
n = io_fds[SFD_USERTTY] != -1 ?
io_fds[SFD_USERTTY] : STDOUT_FILENO;
if (write(n, reason, strlen(reason)) != -1) {
if (WCOREDUMP(cstat->val)) {
ignore_result(write(n, " (core dumped)", 14));
}
ignore_result(write(n, "\n", 1));
}
}
}
utmp_logout(slavename, cstat->type == CMD_WSTATUS ? cstat->val : 0); /* XXX - only if CD_SET_UTMP */
debug_return;
}
/*
* Schedule I/O events before starting the main event loop or
* resuming from suspend.
*/
void
add_io_events(struct sudo_event_base *evbase)
{
struct io_buffer *iob;
debug_decl(add_io_events, SUDO_DEBUG_EXEC);
/*
* Schedule all readers as long as the buffer is not full.
* Schedule writers that contain buffered data.
* Normally, write buffers are added on demand when data is read.
*/
SLIST_FOREACH(iob, &iobufs, entries) {
/* Don't read/write from /dev/tty if we are not in the foreground. */
if (iob->revent != NULL &&
(ttymode == TERM_RAW || !USERTTY_EVENT(iob->revent))) {
if (iob->len != sizeof(iob->buf)) {
sudo_debug_printf(SUDO_DEBUG_INFO,
"added I/O revent %p, fd %d, events %d",
iob->revent, iob->revent->fd, iob->revent->events);
if (sudo_ev_add(evbase, iob->revent, NULL, false) == -1)
fatal(U_("unable to add event to queue"));
}
}
if (iob->wevent != NULL &&
(foreground || !USERTTY_EVENT(iob->wevent))) {
if (iob->len > iob->off) {
sudo_debug_printf(SUDO_DEBUG_INFO,
"added I/O wevent %p, fd %d, events %d",
iob->wevent, iob->wevent->fd, iob->wevent->events);
if (sudo_ev_add(evbase, iob->wevent, NULL, false) == -1)
fatal(U_("unable to add event to queue"));
}
}
}
debug_return;
}
/*
* Flush any output buffered in iobufs or readable from fds other
* than /dev/tty. Removes I/O events from the event base when done.
*/
static void
del_io_events(void)
{
struct io_buffer *iob;
struct sudo_event_base *evbase;
debug_decl(del_io_events, SUDO_DEBUG_EXEC);
/* Remove iobufs from existing event base. */
SLIST_FOREACH(iob, &iobufs, entries) {
if (iob->revent != NULL) {
sudo_debug_printf(SUDO_DEBUG_INFO,
"deleted I/O revent %p, fd %d, events %d",
iob->revent, iob->revent->fd, iob->revent->events);
sudo_ev_del(NULL, iob->revent);
}
if (iob->wevent != NULL) {
sudo_debug_printf(SUDO_DEBUG_INFO,
"deleted I/O wevent %p, fd %d, events %d",
iob->wevent, iob->wevent->fd, iob->wevent->events);
sudo_ev_del(NULL, iob->wevent);
}
}
/* Create temporary event base for flushing. */
evbase = sudo_ev_base_alloc();
if (evbase == NULL)
fatal(NULL);
/* Avoid reading from /dev/tty, just flush existing data. */
SLIST_FOREACH(iob, &iobufs, entries) {
/* Don't read from /dev/tty while flushing. */
if (iob->revent != NULL && !USERTTY_EVENT(iob->revent)) {
if (iob->len != sizeof(iob->buf)) {
if (sudo_ev_add(evbase, iob->revent, NULL, false) == -1)
fatal(U_("unable to add event to queue"));
}
}
/* Flush any write buffers with data in them. */
if (iob->wevent != NULL) {
if (iob->len > iob->off) {
if (sudo_ev_add(evbase, iob->wevent, NULL, false) == -1)
fatal(U_("unable to add event to queue"));
}
}
}
(void) sudo_ev_loop(evbase, SUDO_EVLOOP_NONBLOCK);
/* Free temporary event base, removing its events. */
sudo_ev_base_free(evbase);
debug_return;
}
static void
deliver_signal(pid_t pid, int signo, bool from_parent)
{
char signame[SIG2STR_MAX];
int status;
debug_decl(deliver_signal, SUDO_DEBUG_EXEC);
if (signo == SIGCONT_FG)
strlcpy(signame, "CONT_FG", sizeof(signame));
else if (signo == SIGCONT_BG)
strlcpy(signame, "CONT_BG", sizeof(signame));
else if (sig2str(signo, signame) == -1)
snprintf(signame, sizeof(signame), "%d", signo);
/* Handle signal from parent. */
sudo_debug_printf(SUDO_DEBUG_INFO, "received SIG%s%s",
signame, from_parent ? " from parent" : "");
switch (signo) {
case SIGALRM:
terminate_command(pid, true);
break;
case SIGCONT_FG:
/* Continue in foreground, grant it controlling tty. */
do {
status = tcsetpgrp(io_fds[SFD_SLAVE], cmnd_pgrp);
} while (status == -1 && errno == EINTR);
killpg(pid, SIGCONT);
break;
case SIGCONT_BG:
/* Continue in background, I take controlling tty. */
do {
status = tcsetpgrp(io_fds[SFD_SLAVE], mon_pgrp);
} while (status == -1 && errno == EINTR);
killpg(pid, SIGCONT);
break;
case SIGKILL:
_exit(1); /* XXX */
/* NOTREACHED */
default:
/* Relay signal to command. */
killpg(pid, signo);
break;
}
debug_return;
}
/*
* Send status to parent over socketpair.
* Return value is the same as send(2).
*/
static int
send_status(int fd, struct command_status *cstat)
{
int n = -1;
debug_decl(send_status, SUDO_DEBUG_EXEC);
if (cstat->type != CMD_INVALID) {
sudo_debug_printf(SUDO_DEBUG_INFO,
"sending status message to parent: [%d, %d]",
cstat->type, cstat->val);
do {
n = send(fd, cstat, sizeof(*cstat), 0);
} while (n == -1 && errno == EINTR);
if (n != sizeof(*cstat)) {
sudo_debug_printf(SUDO_DEBUG_ERROR,
"unable to send status to parent: %s", strerror(errno));
}
cstat->type = CMD_INVALID; /* prevent re-sending */
}
debug_return_int(n);
}
/*
* Wait for command status after receiving SIGCHLD.
* If the command was stopped, the status is send back to the parent.
* Otherwise, cstat is filled in but not sent.
* Returns true if command is still alive, else false.
*/
static bool
handle_sigchld(int backchannel, struct command_status *cstat)
{
bool alive = true;
int status;
pid_t pid;
debug_decl(handle_sigchld, SUDO_DEBUG_EXEC);
/* read command status */
do {
pid = waitpid(cmnd_pid, &status, WUNTRACED|WNOHANG);
} while (pid == -1 && errno == EINTR);
if (pid == cmnd_pid) {
if (cstat->type != CMD_ERRNO) {
char signame[SIG2STR_MAX];
cstat->type = CMD_WSTATUS;
cstat->val = status;
if (WIFSTOPPED(status)) {
if (sig2str(WSTOPSIG(status), signame) == -1)
snprintf(signame, sizeof(signame), "%d", WSTOPSIG(status));
sudo_debug_printf(SUDO_DEBUG_INFO,
"command stopped, SIG%s", signame);
/* Saved the foreground pgid so we can restore it later. */
do {
pid = tcgetpgrp(io_fds[SFD_SLAVE]);
} while (pid == -1 && errno == EINTR);
if (pid != mon_pgrp)
cmnd_pgrp = pid;
if (send_status(backchannel, cstat) == -1)
return alive; /* XXX */
} else if (WIFSIGNALED(status)) {
if (sig2str(WTERMSIG(status), signame) == -1)
snprintf(signame, sizeof(signame), "%d", WTERMSIG(status));
sudo_debug_printf(SUDO_DEBUG_INFO,
"command killed, SIG%s", signame);
} else {
sudo_debug_printf(SUDO_DEBUG_INFO, "command exited: %d",
WEXITSTATUS(status));
}
}
if (!WIFSTOPPED(status))
alive = false;
}
debug_return_bool(alive);
}
struct monitor_closure {
struct sudo_event_base *evbase;
struct sudo_event *errpipe_event;
struct sudo_event *backchannel_event;
struct sudo_event *signal_pipe_event;
struct command_status *cstat;
int backchannel;
bool alive;
};
static void
mon_signal_pipe_cb(int fd, int what, void *v)
{
struct monitor_closure *mc = v;
unsigned char signo;
ssize_t n;
debug_decl(mon_signal_pipe_cb, SUDO_DEBUG_EXEC);
n = read(fd, &signo, sizeof(signo));
if (n == -1) {
if (errno != EINTR && errno != EAGAIN) {
warning(U_("error reading from signal pipe"));
sudo_ev_loopbreak(mc->evbase);
}
} else {
/*
* Handle SIGCHLD specially and deliver other signals
* directly to the command.
*/
if (signo == SIGCHLD) {
mc->alive = handle_sigchld(mc->backchannel, mc->cstat);
if (!mc->alive) {
/* Remove all but the errpipe event. */
sudo_ev_del(mc->evbase, mc->backchannel_event);
sudo_ev_del(mc->evbase, mc->signal_pipe_event);
}
} else {
deliver_signal(cmnd_pid, signo, false);
}
}
debug_return;
}
static void
mon_errpipe_cb(int fd, int what, void *v)
{
struct monitor_closure *mc = v;
ssize_t n;
debug_decl(mon_errpipe_cb, SUDO_DEBUG_EXEC);
/* read errno or EOF from command pipe */
n = read(fd, mc->cstat, sizeof(struct command_status));
if (n == -1) {
if (errno != EINTR && errno != EAGAIN) {
warning(U_("error reading from pipe"));
sudo_ev_loopbreak(mc->evbase);
}
} else {
/* Got errno or EOF, either way we are done with errpipe. */
sudo_ev_del(mc->evbase, mc->errpipe_event);
close(fd);
}
debug_return;
}
static void
mon_backchannel_cb(int fd, int what, void *v)
{
struct monitor_closure *mc = v;
struct command_status cstmp;
ssize_t n;
debug_decl(mon_backchannel_cb, SUDO_DEBUG_EXEC);
/* read command from backchannel, should be a signal */
n = recv(fd, &cstmp, sizeof(cstmp), MSG_WAITALL);
if (n != sizeof(cstmp)) {
if (n == -1) {
if (errno == EINTR || errno == EAGAIN)
debug_return;
warning(U_("error reading from socketpair"));
} else {
/* short read or EOF, parent process died? */
}
sudo_ev_loopbreak(mc->evbase);
} else {
if (cstmp.type == CMD_SIGNO) {
deliver_signal(cmnd_pid, cstmp.val, true);
} else {
warningx(U_("unexpected reply type on backchannel: %d"), cstmp.type);
}
}
debug_return;
}
/*
* Monitor process that creates a new session with the controlling tty,
* resets signal handlers and forks a child to call exec_pty().
* Waits for status changes from the command and relays them to the
* parent and relays signals from the parent to the command.
* Returns an error if fork(2) fails, else calls _exit(2).
*/
static int
exec_monitor(struct command_details *details, int backchannel)
{
struct command_status cstat;
struct sudo_event_base *evbase;
struct monitor_closure mc;
sigaction_t sa;
int errpipe[2], n;
debug_decl(exec_monitor, SUDO_DEBUG_EXEC);
/* Close unused fds. */
if (io_fds[SFD_MASTER] != -1)
close(io_fds[SFD_MASTER]);
if (io_fds[SFD_USERTTY] != -1)
close(io_fds[SFD_USERTTY]);
/*
* We use a pipe to atomically handle signal notification within
* the event loop.
*/
if (pipe_nonblock(signal_pipe) != 0)
fatal(U_("unable to create pipe"));
/* Reset SIGWINCH and SIGALRM. */
memset(&sa, 0, sizeof(sa));
sigemptyset(&sa.sa_mask);
sa.sa_flags = SA_RESTART;
sa.sa_handler = SIG_DFL;
sudo_sigaction(SIGWINCH, &sa, NULL);
sudo_sigaction(SIGALRM, &sa, NULL);
/* Ignore any SIGTTIN or SIGTTOU we get. */
sa.sa_handler = SIG_IGN;
sudo_sigaction(SIGTTIN, &sa, NULL);
sudo_sigaction(SIGTTOU, &sa, NULL);
/* Block all signals in mon_handler(). */
sigfillset(&sa.sa_mask);
/* Note: HP-UX poll() will not be interrupted if SA_RESTART is set. */
sa.sa_flags = SA_INTERRUPT;
#ifdef SA_SIGINFO
sa.sa_flags |= SA_SIGINFO;
sa.sa_sigaction = mon_handler;
#else
sa.sa_handler = mon_handler;
#endif
sudo_sigaction(SIGCHLD, &sa, NULL);
/* Catch common signals so we can cleanup properly. */
sa.sa_flags = SA_RESTART;
#ifdef SA_SIGINFO
sa.sa_flags |= SA_SIGINFO;
sa.sa_sigaction = mon_handler;
#else
sa.sa_handler = mon_handler;
#endif
sudo_sigaction(SIGHUP, &sa, NULL);
sudo_sigaction(SIGINT, &sa, NULL);
sudo_sigaction(SIGQUIT, &sa, NULL);
sudo_sigaction(SIGTERM, &sa, NULL);
sudo_sigaction(SIGTSTP, &sa, NULL);
sudo_sigaction(SIGUSR1, &sa, NULL);
sudo_sigaction(SIGUSR2, &sa, NULL);
/*
* Start a new session with the parent as the session leader
* and the slave pty as the controlling terminal.
* This allows us to be notified when the command has been suspended.
*/
if (setsid() == -1) {
warning("setsid");
goto bad;
}
if (io_fds[SFD_SLAVE] != -1) {
#ifdef TIOCSCTTY
if (ioctl(io_fds[SFD_SLAVE], TIOCSCTTY, NULL) != 0)
fatal(U_("unable to set controlling tty"));
#else
/* Set controlling tty by reopening slave. */
if ((n = open(slavename, O_RDWR)) >= 0)
close(n);
#endif
}
mon_pgrp = getpgrp(); /* save a copy of our process group */
/*
* If stdin/stdout is not a tty, start command in the background
* since it might be part of a pipeline that reads from /dev/tty.
* In this case, we rely on the command receiving SIGTTOU or SIGTTIN
* when it needs access to the controlling tty.
*/
if (pipeline)
foreground = false;
/* Start command and wait for it to stop or exit */
if (pipe(errpipe) == -1)
fatal(U_("unable to create pipe"));
cmnd_pid = sudo_debug_fork();
if (cmnd_pid == -1) {
warning(U_("unable to fork"));
goto bad;
}
if (cmnd_pid == 0) {
/* We pass errno back to our parent via pipe on exec failure. */
close(backchannel);
close(signal_pipe[0]);
close(signal_pipe[1]);
close(errpipe[0]);
fcntl(errpipe[1], F_SETFD, FD_CLOEXEC);
restore_signals();
/* setup tty and exec command */
exec_pty(details, &cstat, errpipe[1]);
ignore_result(write(errpipe[1], &cstat, sizeof(cstat)));
_exit(1);
}
close(errpipe[1]);
/* Send the command's pid to main sudo process. */
cstat.type = CMD_PID;
cstat.val = cmnd_pid;
ignore_result(send(backchannel, &cstat, sizeof(cstat), 0));
/* If any of stdin/stdout/stderr are pipes, close them in parent. */
if (io_fds[SFD_STDIN] != io_fds[SFD_SLAVE])
close(io_fds[SFD_STDIN]);
if (io_fds[SFD_STDOUT] != io_fds[SFD_SLAVE])
close(io_fds[SFD_STDOUT]);
if (io_fds[SFD_STDERR] != io_fds[SFD_SLAVE])
close(io_fds[SFD_STDERR]);
/* Put command in its own process group. */
cmnd_pgrp = cmnd_pid;
setpgid(cmnd_pid, cmnd_pgrp);
/* Make the command the foreground process for the pty slave. */
if (foreground && !ISSET(details->flags, CD_EXEC_BG)) {
do {
n = tcsetpgrp(io_fds[SFD_SLAVE], cmnd_pgrp);
} while (n == -1 && errno == EINTR);
}
/*
* Create new event base and register read events for the
* signal pipe, error pipe, and backchannel.
*/
evbase = sudo_ev_base_alloc();
if (evbase == NULL)
fatal(NULL);
memset(&cstat, 0, sizeof(cstat));
mc.cstat = &cstat;
mc.evbase = evbase;
mc.backchannel = backchannel;
mc.alive = true;
mc.signal_pipe_event = sudo_ev_alloc(signal_pipe[0],
SUDO_EV_READ|SUDO_EV_PERSIST, mon_signal_pipe_cb, &mc);
if (mc.signal_pipe_event == NULL)
fatal(NULL);
if (sudo_ev_add(evbase, mc.signal_pipe_event, NULL, false) == -1)
fatal(U_("unable to add event to queue"));
mc.errpipe_event = sudo_ev_alloc(errpipe[0],
SUDO_EV_READ|SUDO_EV_PERSIST, mon_errpipe_cb, &mc);
if (mc.errpipe_event == NULL)
fatal(NULL);
if (sudo_ev_add(evbase, mc.errpipe_event, NULL, false) == -1)
fatal(U_("unable to add event to queue"));
mc.backchannel_event = sudo_ev_alloc(backchannel,
SUDO_EV_READ|SUDO_EV_PERSIST, mon_backchannel_cb, &mc);
if (mc.backchannel_event == NULL)
fatal(NULL);
if (sudo_ev_add(evbase, mc.backchannel_event, NULL, false) == -1)
fatal(U_("unable to add event to queue"));
/*
* Wait for errno on pipe, signal on backchannel or for SIGCHLD.
* The event loop ends when the child is no longer running and
* the error pipe is closed.
*/
(void) sudo_ev_loop(evbase, 0);
if (mc.alive) {
/* XXX An error occurred, should send a message back. */
sudo_debug_printf(SUDO_DEBUG_ERROR,
"Command still running after event loop exit, sending SIGKILL");
kill(cmnd_pid, SIGKILL);
} else {
/* Send parent status. */
send_status(backchannel, &cstat);
}
sudo_debug_exit_int(__func__, __FILE__, __LINE__, sudo_debug_subsys, 1);
_exit(1);
bad:
debug_return_int(errno);
}
/*
* Sets up std{in,out,err} and executes the actual command.
* Returns only if execve() fails.
*/
static void
exec_pty(struct command_details *details,
struct command_status *cstat, int errfd)
{
pid_t self = getpid();
debug_decl(exec_pty, SUDO_DEBUG_EXEC);
/* Register cleanup function */
fatal_callback_register(pty_cleanup);
/* Set command process group here too to avoid a race. */
setpgid(0, self);
/* Wire up standard fds, note that stdout/stderr may be pipes. */
if (dup2(io_fds[SFD_STDIN], STDIN_FILENO) == -1 ||
dup2(io_fds[SFD_STDOUT], STDOUT_FILENO) == -1 ||
dup2(io_fds[SFD_STDERR], STDERR_FILENO) == -1)
fatal("dup2");
/* Wait for parent to grant us the tty if we are foreground. */
if (foreground && !ISSET(details->flags, CD_EXEC_BG)) {
while (tcgetpgrp(io_fds[SFD_SLAVE]) != self)
; /* spin */
}
/* We have guaranteed that the slave fd is > 2 */
if (io_fds[SFD_SLAVE] != -1)
close(io_fds[SFD_SLAVE]);
if (io_fds[SFD_STDIN] != io_fds[SFD_SLAVE])
close(io_fds[SFD_STDIN]);
if (io_fds[SFD_STDOUT] != io_fds[SFD_SLAVE])
close(io_fds[SFD_STDOUT]);
if (io_fds[SFD_STDERR] != io_fds[SFD_SLAVE])
close(io_fds[SFD_STDERR]);
/* Execute command; only returns on error. */
exec_cmnd(details, cstat, errfd);
debug_return;
}
/*
* Propagates tty size change signals to pty being used by the command.
*/
static void
sync_ttysize(int src, int dst)
{
#ifdef TIOCGWINSZ
struct winsize wsize;
pid_t pgrp;
debug_decl(sync_ttysize, SUDO_DEBUG_EXEC);
if (ioctl(src, TIOCGWINSZ, &wsize) == 0) {
ioctl(dst, TIOCSWINSZ, &wsize);
if ((pgrp = tcgetpgrp(dst)) != -1)
killpg(pgrp, SIGWINCH);
}
debug_return;
#endif
}
/*
* Handler for SIGWINCH in parent.
*/
static void
sigwinch(int s)
{
int serrno = errno;
sync_ttysize(io_fds[SFD_USERTTY], io_fds[SFD_SLAVE]);
errno = serrno;
}
/*
* Remove and free any events associated with the specified
* file descriptor present in the I/O buffers list.
*/
static void
ev_free_by_fd(struct sudo_event_base *evbase, int fd)
{
struct io_buffer *iob;
debug_decl(ev_free_by_fd, SUDO_DEBUG_EXEC);
/* Deschedule any users of the fd and free up the events. */
SLIST_FOREACH(iob, &iobufs, entries) {
if (iob->revent != NULL) {
if (sudo_ev_get_fd(iob->revent) == fd) {
sudo_debug_printf(SUDO_DEBUG_INFO,
"%s: deleting and freeing revent %p with fd %d",
__func__, iob->revent, fd);
sudo_ev_del(evbase, iob->revent);
sudo_ev_free(iob->revent);
iob->revent = NULL;
}
}
if (iob->wevent != NULL) {
if (sudo_ev_get_fd(iob->wevent) == fd) {
sudo_debug_printf(SUDO_DEBUG_INFO,
"%s: deleting and freeing wevent %p with fd %d",
__func__, iob->wevent, fd);
sudo_ev_del(evbase, iob->wevent);
sudo_ev_free(iob->wevent);
iob->wevent = NULL;
}
}
}
debug_return;
}
/*
* Only close the fd if it is not /dev/tty or std{in,out,err}.
* Return value is the same as close(2).
*/
static int
safe_close(int fd)
{
debug_decl(safe_close, SUDO_DEBUG_EXEC);
/* Avoid closing /dev/tty or std{in,out,err}. */
if (fd < 3 || fd == io_fds[SFD_USERTTY]) {
sudo_debug_printf(SUDO_DEBUG_INFO,
"%s: not closing fd %d (/dev/tty)", __func__, fd);
errno = EINVAL;
debug_return_int(-1);
}
sudo_debug_printf(SUDO_DEBUG_INFO, "%s: closing fd %d", __func__, fd);
debug_return_int(close(fd));
}
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