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/*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include <assert.h>
#include <errno.h>
#include <stdlib.h>
#include <string.h>
#include <sys/wait.h>
#include <process/process.h>
#include <talloc/talloc.h>
#include <waiter/waiter.h>
#include <log/log.h>
struct procset {
struct waitset *waitset;
struct list async_list;
int sigchld_pipe[2];
struct waiter *sigchld_waiter;
bool dry_run;
};
/* Internal data type for process handling
*
* Allocation: these structures may have multiple references:
* - from the original ctx pointer
* - due to inclusion in async_list
* - due to a currently-registered waiter
*
*/
struct process_info {
#ifdef DEBUG
/* prevent talloc_free(process) from working */
int __pad;
#endif
struct process process;
struct list_item async_list;
int stdout_buf_len;
struct waiter *stdout_waiter;
int stdout_pipe[2];
void *orig_ctx;
};
static struct procset *procset;
static struct process_info *get_info(struct process *process)
{
return container_of(process, struct process_info, process);
}
/* Read as much as possible into the currently-allocated stdout buffer, and
* possibly realloc it for the next read
*
* Returns:
* > 0 on success (even though no bytes may have been read)
* 0 on EOF (no error, but no more reads can be performed)
* < 0 on error
**/
static int process_read_stdout_once(struct process_info *procinfo)
{
struct process *process = &procinfo->process;
int rc, fd, max_len;
assert(process->keep_stdout);
fd = procinfo->stdout_pipe[0];
max_len = procinfo->stdout_buf_len - process->stdout_len - 1;
rc = read(fd, process->stdout_buf + process->stdout_len, max_len);
if (rc == 0)
return 0;
if (rc < 0) {
if (errno == EINTR)
return 1;
pb_log("%s: read failed: %s\n", __func__, strerror(errno));
return rc;
}
process->stdout_len += rc;
if (process->stdout_len == procinfo->stdout_buf_len - 1) {
procinfo->stdout_buf_len *= 2;
process->stdout_buf = talloc_realloc(procinfo,
process->stdout_buf, char,
procinfo->stdout_buf_len);
}
return 1;
}
static int process_setup_stdout_pipe(struct process_info *procinfo)
{
int rc;
if (!procinfo->process.keep_stdout)
return 0;
procinfo->stdout_buf_len = 4096;
procinfo->process.stdout_len = 0;
procinfo->process.stdout_buf = talloc_array(procinfo, char,
procinfo->stdout_buf_len);
rc = pipe(procinfo->stdout_pipe);
if (rc) {
pb_log("pipe failed");
return rc;
}
return 0;
}
static void process_setup_stdout_parent(struct process_info *procinfo)
{
if (!procinfo->process.keep_stdout)
return;
close(procinfo->stdout_pipe[1]);
}
static void process_setup_stdout_child(struct process_info *procinfo)
{
int log = fileno(pb_log_get_stream());
if (procinfo->process.keep_stdout)
dup2(procinfo->stdout_pipe[1], STDOUT_FILENO);
else
dup2(log, STDOUT_FILENO);
if (procinfo->process.keep_stdout && procinfo->process.add_stderr)
dup2(procinfo->stdout_pipe[1], STDERR_FILENO);
else
dup2(log, STDERR_FILENO);
}
static void process_finish_stdout(struct process_info *procinfo)
{
close(procinfo->stdout_pipe[0]);
procinfo->process.stdout_buf[procinfo->process.stdout_len] = '\0';
}
static int process_read_stdout(struct process_info *procinfo)
{
int rc;
if (!procinfo->process.keep_stdout)
return 0;
do {
rc = process_read_stdout_once(procinfo);
} while (rc > 0);
process_finish_stdout(procinfo);
return rc < 0 ? rc : 0;
}
static int process_stdout_cb(void *arg)
{
struct process_info *procinfo = arg;
int rc;
rc = process_read_stdout_once(procinfo);
/* if we're going to signal to the waitset that we're done (ie, non-zero
* return value), then the waiters will remove us, so we drop the
* reference */
if (rc < 0) {
talloc_unlink(procset, procinfo);
procinfo->stdout_waiter = NULL;
rc = -1;
} else {
rc = 0;
}
return rc;
}
static void sigchld_sigaction(int signo, siginfo_t *info,
void *arg __attribute__((unused)))
{
pid_t pid;
int rc;
if (signo != SIGCHLD)
return;
pid = info->si_pid;
rc = write(procset->sigchld_pipe[1], &pid, sizeof(pid));
if (rc != sizeof(pid))
pb_log("%s: write failed: %s\n", __func__, strerror(errno));
}
static int sigchld_pipe_event(void *arg)
{
struct process_info *procinfo;
struct procset *procset = arg;
struct process *process;
int pid, rc;
rc = read(procset->sigchld_pipe[0], &pid, sizeof(pid));
if (rc != sizeof(pid))
return 0;
process = NULL;
list_for_each_entry(&procset->async_list, procinfo, async_list) {
if (procinfo->process.pid == pid) {
process = &procinfo->process;
break;
}
}
/* We'll receive SIGCHLD for synchronous processes too; just ignore */
if (!process)
return 0;
rc = waitpid(process->pid, &process->exit_status, WNOHANG);
/* if the process is still running, ignore the event. We leave
* the process in async_list so we can manage the final signal */
if (rc == 0)
return 0;
/* ensure we have all of the child's stdout */
process_read_stdout(procinfo);
if (process->exit_cb)
process->exit_cb(process);
list_remove(&procinfo->async_list);
talloc_unlink(procset, procinfo);
return 0;
}
static int process_fini(void *p)
{
struct procset *procset = p;
struct sigaction sa;
memset(&sa, 0, sizeof(sa));
sa.sa_handler = SIG_DFL;
sigaction(SIGCHLD, &sa, NULL);
waiter_remove(procset->sigchld_waiter);
close(procset->sigchld_pipe[0]);
close(procset->sigchld_pipe[1]);
return 0;
}
struct procset *process_init(void *ctx, struct waitset *set, bool dry_run)
{
struct sigaction sa;
int rc;
procset = talloc(ctx, struct procset);
procset->waitset = set;
procset->dry_run = dry_run;
list_init(&procset->async_list);
rc = pipe(procset->sigchld_pipe);
if (rc) {
pb_log("%s: pipe() failed: %s\n", __func__, strerror(errno));
goto err_free;
}
procset->sigchld_waiter = waiter_register_io(set,
procset->sigchld_pipe[0], WAIT_IN,
sigchld_pipe_event, procset);
if (!procset->sigchld_waiter)
goto err_close;
memset(&sa, 0, sizeof(sa));
sa.sa_sigaction = sigchld_sigaction;
sa.sa_flags = SA_SIGINFO | SA_NOCLDSTOP;
rc = sigaction(SIGCHLD, &sa, NULL);
if (rc) {
pb_log("%s: sigaction() failed: %s\n", __func__,
strerror(errno));
goto err_remove;
}
talloc_set_destructor(procset, process_fini);
return procset;
err_remove:
waiter_remove(procset->sigchld_waiter);
err_close:
close(procset->sigchld_pipe[0]);
close(procset->sigchld_pipe[1]);
err_free:
talloc_free(procset);
return NULL;
}
struct process *process_create(void *ctx)
{
struct process_info *info = talloc_zero(ctx, struct process_info);
info->orig_ctx = ctx;
return &info->process;
}
void process_release(struct process *process)
{
struct process_info *info = get_info(process);
talloc_unlink(info->orig_ctx, info);
}
static int process_run_common(struct process_info *procinfo)
{
struct process *process = &procinfo->process;
const char *arg;
char *logmsg;
pid_t pid;
int rc, i;
logmsg = talloc_asprintf(procinfo, " exe: %s\n argv:", process->path);
for (i = 0, arg = process->argv[i]; arg; i++, arg = process->argv[i])
logmsg = talloc_asprintf_append(logmsg, " '%s'", arg);
pb_log("Running command:\n%s\n", logmsg);
rc = process_setup_stdout_pipe(procinfo);
if (rc)
return rc;
pid = fork();
if (pid < 0) {
pb_log("%s: fork failed: %s\n", __func__, strerror(errno));
return pid;
}
if (pid == 0) {
process_setup_stdout_child(procinfo);
if (procset->dry_run)
exit(EXIT_SUCCESS);
execvp(process->path, (char * const *)process->argv);
exit(EXIT_FAILURE);
}
process_setup_stdout_parent(procinfo);
process->pid = pid;
return 0;
}
int process_run_sync(struct process *process)
{
struct process_info *procinfo = get_info(process);
int rc;
rc = process_run_common(procinfo);
if (rc)
return rc;
process_read_stdout(procinfo);
for (;;) {
rc = waitpid(process->pid, &process->exit_status, 0);
if (rc >= 0)
break;
if (errno == EINTR)
continue;
pb_log("%s: waitpid failed: %s\n", __func__, strerror(errno));
return rc;
}
return 0;
}
int process_run_async(struct process *process)
{
struct process_info *procinfo = get_info(process);
int rc;
rc = process_run_common(procinfo);
if (rc)
return rc;
if (process->keep_stdout) {
procinfo->stdout_waiter = waiter_register_io(procset->waitset,
procinfo->stdout_pipe[0],
WAIT_IN, process_stdout_cb,
procinfo);
talloc_reference(procset, procinfo);
}
list_add(&procset->async_list, &procinfo->async_list);
talloc_reference(procset, procinfo);
return 0;
}
void process_stop_async(struct process *process)
{
pb_debug("process: sending SIGTERM to pid %d\n", process->pid);
kill(process->pid, SIGTERM);
}
int process_run_simple_argv(void *ctx, const char *argv[])
{
struct process *process;
int rc;
process = process_create(ctx);
process->path = argv[0];
process->argv = argv;
rc = process_run_sync(process);
if (!rc)
rc = process->exit_status;
process_release(process);
return rc;
}
int process_run_simple(void *ctx, const char *name, ...)
{
int rc, i, n_argv = 1;
const char **argv;
va_list ap;
va_start(ap, name);
while (va_arg(ap, char *))
n_argv++;
va_end(ap);
argv = talloc_array(ctx, const char *, n_argv + 1);
argv[0] = name;
va_start(ap, name);
for (i = 1; i < n_argv; i++)
argv[i] = va_arg(ap, const char *);
va_end(ap);
argv[i] = NULL;
rc = process_run_simple_argv(ctx, argv);
talloc_free(argv);
return rc;
}
bool process_exit_ok(struct process *process)
{
return WIFEXITED(process->exit_status) &&
WEXITSTATUS(process->exit_status) == 0;
}
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