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/* Copyright (c) 2005-2018 Dovecot authors, see the included COPYING file */
#include "common.h"
#include "array.h"
#include "ioloop.h"
#include "hash.h"
#include "llist.h"
#include "str.h"
#include "safe-mkstemp.h"
#include "time-util.h"
#include "sleep.h"
#include "master-client.h"
#include "service.h"
#include "service-process.h"
#include "service-process-notify.h"
#include "service-anvil.h"
#include "service-log.h"
#include "service-monitor.h"
#include <unistd.h>
#include <sys/wait.h>
#include <syslog.h>
#include <signal.h>
#define SERVICE_DROP_WARN_INTERVAL_SECS 1
#define SERVICE_DROP_TIMEOUT_MSECS (10*1000)
#define SERVICE_LOG_DROP_WARNING_DELAY_MSECS 500
#define MAX_DIE_WAIT_MSECS 5000
#define SERVICE_MAX_EXIT_FAILURES_IN_SEC 10
#define SERVICE_PREFORK_MAX_AT_ONCE 10
static void service_monitor_start_extra_avail(struct service *service);
static void service_status_more(struct service_process *process,
const struct master_status *status);
static void service_monitor_listen_start_force(struct service *service);
static void service_process_idle_kill_timeout(struct service_process *process)
{
struct master_status status;
service_error(process->service, "Process %s is ignoring idle SIGINT",
dec2str(process->pid));
/* assume this process is busy */
i_zero(&status);
service_status_more(process, &status);
process->available_count = 0;
}
static void service_kill_idle(struct service *service)
{
/* Kill extra idling processes to reduce their number. The idea here is
that if the load stays the same, by killing the lowwater number of
processes there won't be any extra idling processes left. */
unsigned int processes_to_kill =
service->process_idling_lowwater_since_kills;
service->process_idling_lowwater_since_kills = service->process_idling;
/* Always try to leave process_min_avail processes */
i_assert(processes_to_kill <= service->process_avail);
if (processes_to_kill <= service->set->process_min_avail) {
if (service->process_idling == 0)
timeout_remove(&service->to_idle);
return;
}
processes_to_kill -= service->set->process_min_avail;
/* Now, kill the processes with the oldest idle_start time.
(It's actually not important which processes get killed. A better
way could be to kill the oldest processes since they might have to
be restarted anyway soon due to reaching service_count, but we'd
have to use priority queue for tracking that, which is more
expensive and probably not worth it.) */
for (; processes_to_kill > 0; processes_to_kill--) {
struct service_process *process = service->idle_processes_head;
i_assert(process != NULL);
if (process->to_idle_kill != NULL) {
/* already tried to kill all the idle processes */
break;
}
i_assert(process->available_count == service->client_limit);
if (kill(process->pid, SIGINT) < 0 && errno != ESRCH) {
service_error(service, "kill(%s, SIGINT) failed: %m",
dec2str(process->pid));
}
process->last_kill_sent = ioloop_time;
process->to_idle_kill =
timeout_add(service->idle_kill * 1000,
service_process_idle_kill_timeout, process);
/* Move it to the end of the list, so it's not tried to be
killed again. */
DLLIST2_REMOVE(&service->idle_processes_head,
&service->idle_processes_tail, process);
DLLIST2_APPEND(&service->idle_processes_head,
&service->idle_processes_tail, process);
}
}
static void service_status_more(struct service_process *process,
const struct master_status *status)
{
struct service *service = process->service;
if (process->idle_start != 0) {
/* idling process became busy */
DLLIST2_REMOVE(&service->idle_processes_head,
&service->idle_processes_tail, process);
DLLIST_PREPEND(&service->busy_processes, process);
process->idle_start = 0;
i_assert(service->process_idling > 0);
service->process_idling--;
service->process_idling_lowwater_since_kills =
I_MIN(service->process_idling_lowwater_since_kills,
service->process_idling);
}
process->total_count +=
process->available_count - status->available_count;
if (status->available_count != 0)
return;
/* process used up all of its clients */
i_assert(service->process_avail > 0);
service->process_avail--;
if (service->type == SERVICE_TYPE_LOGIN &&
service->process_avail == 0 &&
service->process_count == service->process_limit)
service_login_notify(service, TRUE);
/* we may need to start more */
service_monitor_start_extra_avail(service);
service_monitor_listen_start(service);
}
static void service_check_idle(struct service_process *process)
{
struct service *service = process->service;
if (process->available_count != service->client_limit)
return;
if (process->idle_start == 0) {
/* busy process started idling */
DLLIST_REMOVE(&service->busy_processes, process);
service->process_idling++;
} else {
/* Idling process updated its status again to be idling. Maybe
it was busy for a little bit? Update its idle_start time. */
DLLIST2_REMOVE(&service->idle_processes_head,
&service->idle_processes_tail, process);
}
DLLIST2_APPEND(&service->idle_processes_head,
&service->idle_processes_tail, process);
process->idle_start = ioloop_time;
if (service->process_avail > service->set->process_min_avail &&
service->to_idle == NULL &&
service->idle_kill != UINT_MAX) {
/* We have more processes than we really need. Start a timer
to trigger idle_kill. */
service->to_idle =
timeout_add(service->idle_kill * 1000,
service_kill_idle, service);
}
}
static void service_status_less(struct service_process *process)
{
struct service *service = process->service;
/* some process got more connections - remove the delayed warning */
timeout_remove(&service->to_drop_warning);
if (process->available_count == 0) {
/* process can accept more clients again */
if (service->process_avail++ == 0)
service_monitor_listen_stop(service);
i_assert(service->process_avail <= service->process_count);
}
if (service->type == SERVICE_TYPE_LOGIN)
service_login_notify(service, FALSE);
}
static void
service_status_input_one(struct service *service,
const struct master_status *status)
{
struct service_process *process;
process = hash_table_lookup(service_pids, POINTER_CAST(status->pid));
if (process == NULL) {
/* we've probably wait()ed it away already. ignore */
return;
}
if (process->uid != status->uid || process->service != service) {
/* a) Process was closed and another process was created with
the same PID, but we're still receiving status update from
the old process.
b) Some process is trying to corrupt our internal state by
trying to pretend to be someone else. We could use stronger
randomness here, but the worst they can do is DoS and there
are already more serious problems if someone is able to do
this.. */
service_error(service, "Ignoring invalid update from child %s "
"(UID=%u)", dec2str(status->pid), status->uid);
return;
}
process->last_status_update = ioloop_time;
/* process worked a bit - it may have ignored idle-kill signal */
timeout_remove(&process->to_idle_kill);
/* first status notification */
timeout_remove(&process->to_status);
if (process->available_count != status->available_count) {
if (process->available_count > status->available_count) {
/* process started servicing some more clients */
service_status_more(process, status);
} else {
/* process finished servicing some clients */
service_status_less(process);
}
process->available_count = status->available_count;
}
service_check_idle(process);
}
static void service_status_input(struct service *service)
{
struct master_status status[1024/sizeof(struct master_status)];
unsigned int i, count;
ssize_t ret;
ret = read(service->status_fd[0], &status, sizeof(status));
if (ret <= 0) {
if (ret == 0)
service_error(service, "read(status) failed: EOF");
else if (errno != EAGAIN)
service_error(service, "read(status) failed: %m");
else
return;
service_monitor_stop(service);
return;
}
if ((ret % sizeof(struct master_status)) != 0) {
service_error(service, "service sent partial status update "
"(%d bytes)", (int)ret);
return;
}
count = ret / sizeof(struct master_status);
for (i = 0; i < count; i++)
service_status_input_one(service, &status[i]);
}
static void service_log_drop_warning(struct service *service)
{
const char *limit_name;
unsigned int limit;
if (service->last_drop_warning +
SERVICE_DROP_WARN_INTERVAL_SECS <= ioloop_time) {
service->last_drop_warning = ioloop_time;
if (service->process_limit > 1) {
limit_name = "process_limit";
limit = service->process_limit;
} else if (service->set->service_count == 1) {
i_assert(service->client_limit == 1);
limit_name = "client_limit/service_count";
limit = 1;
} else {
limit_name = "client_limit";
limit = service->client_limit;
}
i_warning("service(%s): %s (%u) reached, "
"client connections are being dropped",
service->set->name, limit_name, limit);
}
}
static void service_monitor_throttle(struct service *service)
{
if (service->to_throttle != NULL || service->list->destroying)
return;
i_assert(service->throttle_msecs > 0);
service_error(service,
"command startup failed, throttling for %u.%03u secs",
service->throttle_msecs / 1000,
service->throttle_msecs % 1000);
service_throttle(service, service->throttle_msecs);
service->throttle_msecs *= 2;
if (service->throttle_msecs >
SERVICE_STARTUP_FAILURE_THROTTLE_MAX_MSECS) {
service->throttle_msecs =
SERVICE_STARTUP_FAILURE_THROTTLE_MAX_MSECS;
}
}
static void service_drop_timeout(struct service *service)
{
struct service_listener *lp;
int fd;
i_assert(service->process_avail == 0);
/* drop all pending connections */
array_foreach_elem(&service->listeners, lp) {
while ((fd = net_accept(lp->fd, NULL, NULL)) > 0)
net_disconnect(fd);
}
service_monitor_listen_start_force(service);
service->listen_pending = TRUE;
}
static void service_monitor_listen_pending(struct service *service)
{
i_assert(service->process_avail == 0);
service_monitor_listen_stop(service);
service->listen_pending = TRUE;
service->to_drop = timeout_add(SERVICE_DROP_TIMEOUT_MSECS,
service_drop_timeout, service);
}
static void service_drop_connections(struct service_listener *l)
{
struct service *service = l->service;
int fd;
if (service->type != SERVICE_TYPE_WORKER)
service_log_drop_warning(service);
if (service->type == SERVICE_TYPE_LOGIN) {
/* reached process limit, notify processes that they
need to start killing existing connections if they
reach connection limit */
service_login_notify(service, TRUE);
service_monitor_listen_pending(service);
} else if (!service->listen_pending) {
/* maybe this is a temporary peak, stop for a while and
see if it goes away */
service_monitor_listen_pending(service);
if (service->to_drop_warning == NULL &&
service->type == SERVICE_TYPE_WORKER) {
service->to_drop_warning =
timeout_add_short(SERVICE_LOG_DROP_WARNING_DELAY_MSECS,
service_log_drop_warning, service);
}
} else {
/* this has been happening for a while now. just accept and
close the connection, so it's clear that this is happening
because of the limit, rather than because the service
processes aren't answering fast enough */
fd = net_accept(l->fd, NULL, NULL);
if (fd > 0)
net_disconnect(fd);
}
}
static void service_accept(struct service_listener *l)
{
struct service *service = l->service;
i_assert(service->process_avail == 0);
if (service->process_count == service->process_limit) {
/* we've reached our limits, new clients will have to
wait until there are more processes available */
service_drop_connections(l);
return;
}
/* create a child process and let it accept() this connection */
if (service_process_create(service) == NULL)
service_monitor_throttle(service);
else
service_monitor_listen_stop(service);
}
static bool
service_monitor_start_count(struct service *service, unsigned int limit)
{
unsigned int i, count;
i_assert(service->set->process_min_avail >= service->process_avail);
count = service->set->process_min_avail - service->process_avail;
if (service->process_count + count > service->process_limit)
count = service->process_limit - service->process_count;
if (count > limit)
count = limit;
for (i = 0; i < count; i++) {
if (service_process_create(service) == NULL) {
service_monitor_throttle(service);
break;
}
}
if (i > 0) {
/* we created some processes, they'll do the listening now */
service_monitor_listen_stop(service);
}
return i >= limit;
}
static void service_monitor_prefork_timeout(struct service *service)
{
/* don't prefork more processes if other more important processes had
been forked while we were waiting for this timeout (= master seems
busy) */
if (service->list->fork_counter != service->prefork_counter) {
service->prefork_counter = service->list->fork_counter;
return;
}
if (service->process_avail < service->set->process_min_avail) {
if (service_monitor_start_count(service, SERVICE_PREFORK_MAX_AT_ONCE) &&
service->process_avail < service->set->process_min_avail) {
/* All SERVICE_PREFORK_MAX_AT_ONCE were created, but
it still wasn't enough. Launch more in the next
timeout. */
return;
}
}
timeout_remove(&service->to_prefork);
}
static void service_monitor_start_extra_avail(struct service *service)
{
if (service->process_avail >= service->set->process_min_avail ||
service->process_count >= service->process_limit ||
service->list->destroying)
return;
if (service->process_avail == 0) {
/* quickly start one process now */
if (!service_monitor_start_count(service, 1))
return;
if (service->process_avail >= service->set->process_min_avail)
return;
}
if (service->to_prefork == NULL) {
/* ioloop handles timeouts before fds (= SIGCHLD callback),
so let the first timeout handler call simply update the fork
counter and the second one check if we're busy or not. */
service->to_prefork =
timeout_add_short(0, service_monitor_prefork_timeout, service);
}
}
static void service_monitor_listen_start_force(struct service *service)
{
struct service_listener *l;
service->listening = TRUE;
service->listen_pending = FALSE;
timeout_remove(&service->to_drop);
timeout_remove(&service->to_drop_warning);
array_foreach_elem(&service->listeners, l) {
if (l->io == NULL && l->fd != -1)
l->io = io_add(l->fd, IO_READ, service_accept, l);
}
}
void service_monitor_listen_start(struct service *service)
{
if (service->process_avail > 0 || service->to_throttle != NULL ||
(service->process_count == service->process_limit &&
service->listen_pending))
return;
service_monitor_listen_start_force(service);
}
void service_monitor_listen_stop(struct service *service)
{
struct service_listener *l;
array_foreach_elem(&service->listeners, l)
io_remove(&l->io);
service->listening = FALSE;
service->listen_pending = FALSE;
timeout_remove(&service->to_drop);
timeout_remove(&service->to_drop_warning);
}
static int service_login_create_notify_fd(struct service *service)
{
int fd, ret;
if (service->login_notify_fd != -1)
return 0;
T_BEGIN {
string_t *prefix = t_str_new(128);
const char *path;
str_append(prefix, service->set->master_set->base_dir);
str_append(prefix, "/login-master-notify");
fd = safe_mkstemp(prefix, 0600, (uid_t)-1, (gid_t)-1);
path = str_c(prefix);
if (fd == -1) {
service_error(service, "safe_mkstemp(%s) failed: %m",
path);
} else if (unlink(path) < 0) {
service_error(service, "unlink(%s) failed: %m", path);
} else {
fd_close_on_exec(fd, TRUE);
service->login_notify_fd = fd;
}
} T_END;
ret = fd == -1 ? -1 : 0;
if (fd != service->login_notify_fd)
i_close_fd(&fd);
return ret;
}
void services_monitor_start(struct service_list *service_list)
{
ARRAY(struct service *) listener_services;
struct service *service;
if (services_log_init(service_list) < 0)
return;
service_anvil_monitor_start(service_list);
if (service_list->io_master == NULL &&
service_list->master_fd != -1) {
service_list->io_master =
io_add(service_list->master_fd, IO_READ,
master_client_connected, service_list);
}
t_array_init(&listener_services, array_count(&service_list->services));
array_foreach_elem(&service_list->services, service) {
if (service->type == SERVICE_TYPE_LOGIN) {
if (service_login_create_notify_fd(service) < 0)
continue;
}
if (service->master_dead_pipe_fd[0] == -1) {
if (pipe(service->master_dead_pipe_fd) < 0) {
service_error(service, "pipe() failed: %m");
continue;
}
fd_close_on_exec(service->master_dead_pipe_fd[0], TRUE);
fd_close_on_exec(service->master_dead_pipe_fd[1], TRUE);
}
if (service->status_fd[0] == -1) {
/* we haven't yet created status pipe */
if (pipe(service->status_fd) < 0) {
service_error(service, "pipe() failed: %m");
continue;
}
net_set_nonblock(service->status_fd[0], TRUE);
fd_close_on_exec(service->status_fd[0], TRUE);
net_set_nonblock(service->status_fd[1], TRUE);
fd_close_on_exec(service->status_fd[1], TRUE);
}
if (service->io_status == NULL) {
service->io_status =
io_add(service->status_fd[0], IO_READ,
service_status_input, service);
}
service_monitor_listen_start(service);
array_push_back(&listener_services, &service);
}
/* create processes only after adding all listeners */
array_foreach_elem(&listener_services, service)
service_monitor_start_extra_avail(service);
if (service_list->log->status_fd[0] != -1) {
if (service_process_create(service_list->log) != NULL)
service_monitor_listen_stop(service_list->log);
}
/* start up a process for startup-services */
array_foreach_elem(&service_list->services, service) {
if (service->type == SERVICE_TYPE_STARTUP &&
service->status_fd[0] != -1) {
if (service_process_create(service) != NULL)
service_monitor_listen_stop(service);
}
}
}
static void service_monitor_close_dead_pipe(struct service *service)
{
if (service->master_dead_pipe_fd[0] != -1) {
i_close_fd(&service->master_dead_pipe_fd[0]);
i_close_fd(&service->master_dead_pipe_fd[1]);
}
}
void service_monitor_stop(struct service *service)
{
int i;
io_remove(&service->io_status);
if (service->status_fd[0] != -1 &&
service->type != SERVICE_TYPE_ANVIL) {
for (i = 0; i < 2; i++) {
if (close(service->status_fd[i]) < 0) {
service_error(service,
"close(status fd) failed: %m");
}
service->status_fd[i] = -1;
}
}
service_monitor_close_dead_pipe(service);
if (service->login_notify_fd != -1) {
if (close(service->login_notify_fd) < 0) {
service_error(service,
"close(login notify fd) failed: %m");
}
service->login_notify_fd = -1;
}
timeout_remove(&service->to_login_notify);
service_monitor_listen_stop(service);
timeout_remove(&service->to_throttle);
timeout_remove(&service->to_prefork);
timeout_remove(&service->to_idle);
}
void service_monitor_stop_close(struct service *service)
{
struct service_listener *l;
service_monitor_stop(service);
array_foreach_elem(&service->listeners, l)
i_close_fd(&l->fd);
}
static void services_monitor_wait(struct service_list *service_list)
{
struct service *service;
struct timeval tv_start;
bool finished;
io_loop_time_refresh();
tv_start = ioloop_timeval;
for (;;) {
finished = TRUE;
services_monitor_reap_children();
array_foreach_elem(&service_list->services, service) {
if (service->status_fd[0] != -1)
service_status_input(service);
if (service->process_avail > 0)
finished = FALSE;
}
io_loop_time_refresh();
if (finished ||
timeval_diff_msecs(&ioloop_timeval, &tv_start) > MAX_DIE_WAIT_MSECS)
break;
i_sleep_msecs(100);
}
}
static bool
service_processes_list_close_listeners(struct service *service,
struct service_process *processes)
{
struct service_process *process = processes;
bool ret = FALSE;
for (; process != NULL; process = process->next) {
if (kill(process->pid, SIGQUIT) == 0)
ret = TRUE;
else if (errno != ESRCH) {
service_error(service, "kill(%s, SIGQUIT) failed: %m",
dec2str(process->pid));
}
}
return ret;
}
static bool service_processes_close_listeners(struct service *service)
{
bool ret = FALSE;
if (service_processes_list_close_listeners(service,
service->busy_processes))
ret = TRUE;
if (service_processes_list_close_listeners(service,
service->idle_processes_head))
ret = TRUE;
return ret;
}
static bool
service_list_processes_close_listeners(struct service_list *service_list)
{
struct service *service;
bool ret = FALSE;
array_foreach_elem(&service_list->services, service) {
if (service_processes_close_listeners(service))
ret = TRUE;
}
return ret;
}
static void services_monitor_wait_and_kill(struct service_list *service_list)
{
/* we've notified all children that the master is dead.
now wait for the children to either die or to tell that
they're no longer listening for new connections. */
services_monitor_wait(service_list);
/* Even if the waiting stopped early because all the process_avail==0,
it can mean that there are processes that have the listener socket
open (just not actively being listened to). We'll need to make sure
that those sockets are closed before we exit, so that a restart
won't fail. Do this by sending SIGQUIT to all the child processes
that are left, which are handled by lib-master to immediately close
the listener in the signal handler itself. */
if (service_list_processes_close_listeners(service_list)) {
/* SIGQUITs were sent. wait a little bit to make sure they're
also processed before quitting. */
i_sleep_msecs(1000);
}
}
void services_monitor_stop(struct service_list *service_list, bool wait)
{
struct service *service;
array_foreach_elem(&service_list->services, service)
service_monitor_close_dead_pipe(service);
if (wait)
services_monitor_wait_and_kill(service_list);
io_remove(&service_list->io_master);
array_foreach_elem(&service_list->services, service)
service_monitor_stop(service);
services_log_deinit(service_list);
}
static bool
service_process_failure(struct service_process *process, int status)
{
struct service *service = process->service;
bool throttle;
service_process_log_status_error(process, status);
throttle = process->to_status != NULL;
if (!throttle && !service->have_successful_exits) {
/* this service has seen no successful exits yet.
try to avoid failure storms by throttling the service if it
only keeps failing rapidly. this is no longer done after
one success to avoid intentional DoSing, in case attacker
finds a way to quickly crash his own session. */
if (service->exit_failure_last != ioloop_time) {
service->exit_failure_last = ioloop_time;
service->exit_failures_in_sec = 0;
}
if (++service->exit_failures_in_sec > SERVICE_MAX_EXIT_FAILURES_IN_SEC)
throttle = TRUE;
}
service_process_notify_add(service_anvil_global->kills, process);
return throttle;
}
void services_monitor_reap_children(void)
{
struct service_process *process;
struct service *service;
pid_t pid;
int status;
bool service_stopped, throttle;
while ((pid = waitpid(-1, &status, WNOHANG)) > 0) {
process = hash_table_lookup(service_pids, POINTER_CAST(pid));
if (process == NULL) {
i_error("waitpid() returned unknown PID %s",
dec2str(pid));
continue;
}
service = process->service;
if (status == 0) {
/* success - one success resets all failures */
service->have_successful_exits = TRUE;
service->exit_failures_in_sec = 0;
service->throttle_msecs =
SERVICE_STARTUP_FAILURE_THROTTLE_MIN_MSECS;
throttle = FALSE;
} else {
throttle = service_process_failure(process, status);
}
if (service->type == SERVICE_TYPE_ANVIL)
service_anvil_process_destroyed(process);
/* if we're reloading, we may get here with a service list
that's going to be destroyed after this process is
destroyed. keep the list referenced until we're done. */
service_list_ref(service->list);
service_process_destroy(process);
if (throttle)
service_monitor_throttle(service);
service_stopped = service->status_fd[0] == -1;
if (!service_stopped && !service->list->destroying) {
service_monitor_start_extra_avail(service);
/* if there are no longer listening processes,
start listening for more */
if (service->to_throttle != NULL) {
/* throttling */
} else if (service == service->list->log &&
service->process_count == 0) {
/* log service must always be running */
if (service_process_create(service) == NULL)
service_monitor_throttle(service);
} else {
service_monitor_listen_start(service);
}
}
service_list_unref(service->list);
}
}
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