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|
/* Copyright (c) 2002-2018 Dovecot authors, see the included COPYING file */
#include "lib.h"
#include "array.h"
#include "backtrace-string.h"
#include "llist.h"
#include "time-util.h"
#include "istream-private.h"
#include "ioloop-private.h"
#include <unistd.h>
/* Dovecot attempts to detect also when time suddenly jumps forwards.
This is done by getting the minimum timeout wait in epoll() (or similar)
and then seeing if the current time after epoll() is past the timeout.
This can't be very exact, so likely the difference is always at least
1 microsecond. In high load situations it can be somewhat higher.
Dovecot generally doesn't have very important short timeouts, so to avoid
logging many warnings about this, use a rather high value. */
#define IOLOOP_TIME_MOVED_FORWARDS_MIN_USECS (100000)
time_t ioloop_time = 0;
struct timeval ioloop_timeval;
struct ioloop *current_ioloop = NULL;
uint64_t ioloop_global_wait_usecs = 0;
static ARRAY(io_switch_callback_t *) io_switch_callbacks = ARRAY_INIT;
static ARRAY(io_destroy_callback_t *) io_destroy_callbacks = ARRAY_INIT;
static bool panic_on_leak = FALSE, panic_on_leak_set = FALSE;
static time_t data_stack_last_free_unused = 0;
static void io_loop_initialize_handler(struct ioloop *ioloop)
{
unsigned int initial_fd_count;
initial_fd_count = ioloop->max_fd_count > 0 &&
ioloop->max_fd_count < IOLOOP_INITIAL_FD_COUNT ?
ioloop->max_fd_count : IOLOOP_INITIAL_FD_COUNT;
io_loop_handler_init(ioloop, initial_fd_count);
}
static struct io_file *
io_add_file(struct ioloop *ioloop, int fd, enum io_condition condition,
const char *source_filename,
unsigned int source_linenum,
io_callback_t *callback, void *context)
{
struct io_file *io;
i_assert(callback != NULL);
i_assert((condition & IO_NOTIFY) == 0);
io = i_new(struct io_file, 1);
io->io.condition = condition;
io->io.callback = callback;
io->io.context = context;
io->io.ioloop = ioloop;
io->io.source_filename = source_filename;
io->io.source_linenum = source_linenum;
io->refcount = 1;
io->fd = fd;
if (io->io.ioloop->cur_ctx != NULL) {
io->io.ctx = io->io.ioloop->cur_ctx;
io_loop_context_ref(io->io.ctx);
}
if (io->io.ioloop->handler_context == NULL)
io_loop_initialize_handler(io->io.ioloop);
if (fd != -1)
io_loop_handle_add(io);
else {
/* we're adding an istream whose only way to get notified
is to call i_stream_set_input_pending() */
}
if (io->io.ioloop->io_files != NULL) {
io->io.ioloop->io_files->prev = io;
io->next = io->io.ioloop->io_files;
}
io->io.ioloop->io_files = io;
return io;
}
#undef io_add_to
struct io *io_add_to(struct ioloop *ioloop, int fd, enum io_condition condition,
const char *source_filename, unsigned int source_linenum,
io_callback_t *callback, void *context)
{
struct io_file *io;
i_assert(fd >= 0);
io = io_add_file(ioloop, fd, condition,
source_filename, source_linenum,
callback, context);
return &io->io;
}
#undef io_add
struct io *io_add(int fd, enum io_condition condition,
const char *source_filename,
unsigned int source_linenum,
io_callback_t *callback, void *context)
{
return io_add_to(current_ioloop, fd, condition,
source_filename, source_linenum,
callback, context);
}
#undef io_add_istream_to
struct io *io_add_istream_to(struct ioloop *ioloop, struct istream *input,
const char *source_filename,
unsigned int source_linenum,
io_callback_t *callback, void *context)
{
struct io_file *io;
io = io_add_file(ioloop, i_stream_get_fd(input), IO_READ,
source_filename, source_linenum, callback, context);
io->istream = input;
i_stream_ref(io->istream);
i_stream_set_io(io->istream, &io->io);
return &io->io;
}
#undef io_add_istream
struct io *io_add_istream(struct istream *input, const char *source_filename,
unsigned int source_linenum,
io_callback_t *callback, void *context)
{
return io_add_istream_to(current_ioloop, input,
source_filename, source_linenum,
callback, context);
}
static void io_file_unlink(struct io_file *io)
{
if (io->prev != NULL)
io->prev->next = io->next;
else
io->io.ioloop->io_files = io->next;
if (io->next != NULL)
io->next->prev = io->prev;
/* if we got here from an I/O handler callback, make sure we
don't try to handle this one next. */
if (io->io.ioloop->next_io_file == io)
io->io.ioloop->next_io_file = io->next;
}
static void io_remove_full(struct io **_io, bool closed)
{
struct io *io = *_io;
i_assert(io->callback != NULL);
*_io = NULL;
/* make sure the callback doesn't get called anymore.
kqueue code relies on this. */
io->callback = NULL;
if (io->pending) {
i_assert(io->ioloop->io_pending_count > 0);
io->ioloop->io_pending_count--;
}
if (io->ctx != NULL)
io_loop_context_unref(&io->ctx);
if ((io->condition & IO_NOTIFY) != 0)
io_loop_notify_remove(io);
else {
struct io_file *io_file = (struct io_file *)io;
struct istream *istream = io_file->istream;
if (istream != NULL) {
/* remove io before it's freed */
i_stream_unset_io(istream, io);
}
io_file_unlink(io_file);
if (io_file->fd != -1)
io_loop_handle_remove(io_file, closed);
else
i_free(io);
/* remove io from the ioloop before unreferencing the istream,
because a destroyed istream may automatically close the
fd. */
i_stream_unref(&istream);
}
}
void io_remove(struct io **io)
{
if (*io == NULL)
return;
io_remove_full(io, FALSE);
}
void io_remove_closed(struct io **io)
{
if (*io == NULL)
return;
i_assert(((*io)->condition & IO_NOTIFY) == 0);
io_remove_full(io, TRUE);
}
void io_set_pending(struct io *io)
{
i_assert((io->condition & IO_NOTIFY) == 0);
if (!io->pending) {
io->pending = TRUE;
io->ioloop->io_pending_count++;
}
}
bool io_is_pending(struct io *io)
{
return io->pending;
}
void io_set_never_wait_alone(struct io *io, bool set)
{
io->never_wait_alone = set;
}
static void timeout_update_next(struct timeout *timeout, struct timeval *tv_now)
{
if (tv_now == NULL)
i_gettimeofday(&timeout->next_run);
else {
timeout->next_run.tv_sec = tv_now->tv_sec;
timeout->next_run.tv_usec = tv_now->tv_usec;
}
/* we don't want microsecond accuracy or this function will be
called all the time - millisecond is more than enough */
timeout->next_run.tv_usec -= timeout->next_run.tv_usec % 1000;
timeout->next_run.tv_sec += timeout->msecs/1000;
timeout->next_run.tv_usec += (timeout->msecs%1000)*1000;
if (timeout->next_run.tv_usec >= 1000000) {
timeout->next_run.tv_sec++;
timeout->next_run.tv_usec -= 1000000;
}
}
static struct timeout *
timeout_add_common(struct ioloop *ioloop, const char *source_filename,
unsigned int source_linenum,
timeout_callback_t *callback, void *context)
{
struct timeout *timeout;
timeout = i_new(struct timeout, 1);
timeout->item.idx = UINT_MAX;
timeout->source_filename = source_filename;
timeout->source_linenum = source_linenum;
timeout->ioloop = ioloop;
timeout->callback = callback;
timeout->context = context;
if (timeout->ioloop->cur_ctx != NULL) {
timeout->ctx = timeout->ioloop->cur_ctx;
io_loop_context_ref(timeout->ctx);
}
return timeout;
}
#undef timeout_add_to
struct timeout *timeout_add_to(struct ioloop *ioloop, unsigned int msecs,
const char *source_filename,
unsigned int source_linenum,
timeout_callback_t *callback, void *context)
{
struct timeout *timeout;
timeout = timeout_add_common(ioloop, source_filename, source_linenum,
callback, context);
timeout->msecs = msecs;
if (msecs > 0) {
/* start this timeout in the next run cycle */
array_push_back(&timeout->ioloop->timeouts_new, &timeout);
} else {
/* Trigger zero timeouts as soon as possible. When ioloop is
running, refresh the timestamp to prevent infinite loops
in case a timeout callback keeps recreating the 0-timeout. */
timeout_update_next(timeout, timeout->ioloop->running ?
NULL : &ioloop_timeval);
priorityq_add(timeout->ioloop->timeouts, &timeout->item);
}
return timeout;
}
#undef timeout_add
struct timeout *timeout_add(unsigned int msecs, const char *source_filename,
unsigned int source_linenum,
timeout_callback_t *callback, void *context)
{
return timeout_add_to(current_ioloop, msecs,
source_filename, source_linenum,
callback, context);
}
#undef timeout_add_short_to
struct timeout *
timeout_add_short_to(struct ioloop *ioloop, unsigned int msecs,
const char *source_filename, unsigned int source_linenum,
timeout_callback_t *callback, void *context)
{
return timeout_add_to(ioloop, msecs,
source_filename, source_linenum,
callback, context);
}
#undef timeout_add_short
struct timeout *
timeout_add_short(unsigned int msecs, const char *source_filename,
unsigned int source_linenum,
timeout_callback_t *callback, void *context)
{
return timeout_add(msecs, source_filename, source_linenum,
callback, context);
}
#undef timeout_add_absolute_to
struct timeout *
timeout_add_absolute_to(struct ioloop *ioloop, const struct timeval *time,
const char *source_filename,
unsigned int source_linenum,
timeout_callback_t *callback, void *context)
{
struct timeout *timeout;
timeout = timeout_add_common(ioloop, source_filename, source_linenum,
callback, context);
timeout->one_shot = TRUE;
timeout->next_run = *time;
priorityq_add(timeout->ioloop->timeouts, &timeout->item);
return timeout;
}
#undef timeout_add_absolute
struct timeout *
timeout_add_absolute(const struct timeval *time,
const char *source_filename,
unsigned int source_linenum,
timeout_callback_t *callback, void *context)
{
return timeout_add_absolute_to(current_ioloop, time,
source_filename, source_linenum,
callback, context);
}
static struct timeout *
timeout_copy(const struct timeout *old_to, struct ioloop *ioloop)
{
struct timeout *new_to;
new_to = timeout_add_common(ioloop,
old_to->source_filename, old_to->source_linenum,
old_to->callback, old_to->context);
new_to->one_shot = old_to->one_shot;
new_to->msecs = old_to->msecs;
new_to->next_run = old_to->next_run;
if (old_to->item.idx != UINT_MAX)
priorityq_add(new_to->ioloop->timeouts, &new_to->item);
else if (!new_to->one_shot) {
i_assert(new_to->msecs > 0);
array_push_back(&new_to->ioloop->timeouts_new, &new_to);
}
return new_to;
}
static void timeout_free(struct timeout *timeout)
{
if (timeout->ctx != NULL)
io_loop_context_unref(&timeout->ctx);
i_free(timeout);
}
void timeout_remove(struct timeout **_timeout)
{
struct timeout *timeout = *_timeout;
struct ioloop *ioloop;
if (timeout == NULL)
return;
ioloop = timeout->ioloop;
*_timeout = NULL;
if (timeout->item.idx != UINT_MAX)
priorityq_remove(timeout->ioloop->timeouts, &timeout->item);
else if (!timeout->one_shot && timeout->msecs > 0) {
struct timeout *const *to_idx;
array_foreach(&ioloop->timeouts_new, to_idx) {
if (*to_idx == timeout) {
array_delete(&ioloop->timeouts_new,
array_foreach_idx(&ioloop->timeouts_new, to_idx), 1);
break;
}
}
}
timeout_free(timeout);
}
static void ATTR_NULL(2)
timeout_reset_timeval(struct timeout *timeout, struct timeval *tv_now)
{
if (timeout->item.idx == UINT_MAX)
return;
timeout_update_next(timeout, tv_now);
/* If we came here from io_loop_handle_timeouts_real(), next_run must
be larger than tv_now or it can go to infinite loop. This would
mainly happen with 0 ms timeouts. Avoid this by making sure
next_run is at least 1 us higher than tv_now.
Note that some callers (like master process's process_min_avail
preforking timeout) really do want the 0 ms timeout to trigger
multiple times as rapidly as it can (but in separate ioloop runs).
So don't increase it more than by 1 us. */
if (tv_now != NULL && timeval_cmp(&timeout->next_run, tv_now) <= 0) {
timeout->next_run = *tv_now;
timeval_add_usecs(&timeout->next_run, 1);
}
priorityq_remove(timeout->ioloop->timeouts, &timeout->item);
priorityq_add(timeout->ioloop->timeouts, &timeout->item);
}
void timeout_reset(struct timeout *timeout)
{
i_assert(!timeout->one_shot);
timeout_reset_timeval(timeout, NULL);
}
static int timeout_get_wait_time(struct timeout *timeout, struct timeval *tv_r,
struct timeval *tv_now, bool in_timeout_loop)
{
int ret;
if (tv_now->tv_sec == 0)
i_gettimeofday(tv_now);
tv_r->tv_sec = tv_now->tv_sec;
tv_r->tv_usec = tv_now->tv_usec;
i_assert(tv_r->tv_sec > 0);
i_assert(timeout->next_run.tv_sec > 0);
tv_r->tv_sec = timeout->next_run.tv_sec - tv_r->tv_sec;
tv_r->tv_usec = timeout->next_run.tv_usec - tv_r->tv_usec;
if (tv_r->tv_usec < 0) {
tv_r->tv_sec--;
tv_r->tv_usec += 1000000;
}
if (tv_r->tv_sec < 0) {
/* The timeout should have been called already */
tv_r->tv_sec = 0;
tv_r->tv_usec = 0;
return 0;
}
if (tv_r->tv_sec == 0 && tv_r->tv_usec == 1 && !in_timeout_loop) {
/* Possibly 0 ms timeout. Don't wait for a full millisecond
for it to trigger. */
tv_r->tv_usec = 0;
return 0;
}
if (tv_r->tv_sec > INT_MAX/1000-1)
tv_r->tv_sec = INT_MAX/1000-1;
/* round wait times up to next millisecond */
ret = tv_r->tv_sec * 1000 + (tv_r->tv_usec + 999) / 1000;
i_assert(ret >= 0 && tv_r->tv_sec >= 0 && tv_r->tv_usec >= 0);
return ret;
}
static int io_loop_get_wait_time(struct ioloop *ioloop, struct timeval *tv_r)
{
struct timeval tv_now;
struct priorityq_item *item;
struct timeout *timeout;
int msecs;
item = priorityq_peek(ioloop->timeouts);
timeout = (struct timeout *)item;
/* we need to see if there are pending IO waiting,
if there is, we set msecs = 0 to ensure they are
processed without delay */
if (timeout == NULL && ioloop->io_pending_count == 0) {
/* no timeouts. use INT_MAX msecs for timeval and
return -1 for poll/epoll infinity. */
tv_r->tv_sec = INT_MAX / 1000;
tv_r->tv_usec = 0;
ioloop->next_max_time.tv_sec = (1ULL << (TIME_T_MAX_BITS-1)) - 1;
ioloop->next_max_time.tv_usec = 0;
return -1;
}
if (ioloop->io_pending_count > 0) {
i_gettimeofday(&tv_now);
msecs = 0;
tv_r->tv_sec = 0;
tv_r->tv_usec = 0;
} else {
tv_now.tv_sec = 0;
msecs = timeout_get_wait_time(timeout, tv_r, &tv_now, FALSE);
}
ioloop->next_max_time = tv_now;
timeval_add_msecs(&ioloop->next_max_time, msecs);
/* update ioloop_timeval - this is meant for io_loop_handle_timeouts()'s
ioloop_wait_usecs calculation. normally after this we go to the
ioloop and after that we update ioloop_timeval immediately again. */
ioloop_timeval = tv_now;
ioloop_time = tv_now.tv_sec;
i_assert(msecs == 0 || timeout->msecs > 0 || timeout->one_shot);
return msecs;
}
static bool io_loop_have_waitable_io_files(struct ioloop *ioloop)
{
struct io_file *io;
for (io = ioloop->io_files; io != NULL; io = io->next) {
if (io->io.callback != NULL && !io->io.never_wait_alone)
return TRUE;
}
return FALSE;
}
int io_loop_run_get_wait_time(struct ioloop *ioloop, struct timeval *tv_r)
{
int msecs = io_loop_get_wait_time(ioloop, tv_r);
if (msecs < 0 && !io_loop_have_waitable_io_files(ioloop))
i_panic("BUG: No IOs or timeouts set. Not waiting for infinity.");
return msecs;
}
static int timeout_cmp(const void *p1, const void *p2)
{
const struct timeout *to1 = p1, *to2 = p2;
return timeval_cmp(&to1->next_run, &to2->next_run);
}
static void
io_loop_default_time_moved(const struct timeval *old_time,
const struct timeval *new_time)
{
long long diff = timeval_diff_usecs(old_time, new_time);
if (diff > 0) {
i_warning("Time moved backwards by %lld.%06lld seconds.",
diff / 1000000, diff % 1000000);
}
}
static void io_loop_timeouts_start_new(struct ioloop *ioloop)
{
struct timeout *timeout;
if (array_count(&ioloop->timeouts_new) == 0)
return;
io_loop_time_refresh();
array_foreach_elem(&ioloop->timeouts_new, timeout) {
i_assert(timeout->next_run.tv_sec == 0 &&
timeout->next_run.tv_usec == 0);
i_assert(!timeout->one_shot);
i_assert(timeout->msecs > 0);
timeout_update_next(timeout, &ioloop_timeval);
priorityq_add(ioloop->timeouts, &timeout->item);
}
array_clear(&ioloop->timeouts_new);
}
static void io_loop_timeouts_update(struct ioloop *ioloop, long long diff_usecs)
{
struct priorityq_item *const *items;
unsigned int i, count;
count = priorityq_count(ioloop->timeouts);
items = priorityq_items(ioloop->timeouts);
for (i = 0; i < count; i++) {
struct timeout *to = (struct timeout *)items[i];
if (diff_usecs > 0)
timeval_add_usecs(&to->next_run, diff_usecs);
else
timeval_sub_usecs(&to->next_run, -diff_usecs);
}
}
static void io_loops_timeouts_update(long long diff_usecs)
{
struct ioloop *ioloop;
for (ioloop = current_ioloop; ioloop != NULL; ioloop = ioloop->prev)
io_loop_timeouts_update(ioloop, diff_usecs);
}
static void ioloop_add_wait_time(struct ioloop *ioloop)
{
struct io_wait_timer *timer;
long long diff;
diff = timeval_diff_usecs(&ioloop_timeval, &ioloop->wait_started);
if (diff < 0) {
/* time moved backwards */
diff = 0;
}
ioloop->ioloop_wait_usecs += diff;
ioloop_global_wait_usecs += diff;
for (timer = ioloop->wait_timers; timer != NULL; timer = timer->next)
timer->usecs += diff;
}
static void io_loop_handle_timeouts_real(struct ioloop *ioloop)
{
struct priorityq_item *item;
struct timeval tv_old, tv, tv_call;
long long diff_usecs;
data_stack_frame_t t_id;
tv_old = ioloop_timeval;
i_gettimeofday(&ioloop_timeval);
diff_usecs = timeval_diff_usecs(&ioloop_timeval, &tv_old);
if (unlikely(diff_usecs < 0)) {
/* time moved backwards */
io_loops_timeouts_update(diff_usecs);
ioloop->time_moved_callback(&tv_old, &ioloop_timeval);
i_assert(ioloop == current_ioloop);
/* the callback may have slept, so check the time again. */
i_gettimeofday(&ioloop_timeval);
} else {
diff_usecs = timeval_diff_usecs(&ioloop->next_max_time,
&ioloop_timeval);
if (unlikely(-diff_usecs >= IOLOOP_TIME_MOVED_FORWARDS_MIN_USECS)) {
io_loops_timeouts_update(-diff_usecs);
/* time moved forwards */
ioloop->time_moved_callback(&ioloop->next_max_time,
&ioloop_timeval);
i_assert(ioloop == current_ioloop);
}
ioloop_add_wait_time(ioloop);
}
ioloop_time = ioloop_timeval.tv_sec;
tv_call = ioloop_timeval;
while (ioloop->running &&
(item = priorityq_peek(ioloop->timeouts)) != NULL) {
struct timeout *timeout = (struct timeout *)item;
/* use tv_call to make sure we don't get to infinite loop in
case callbacks update ioloop_timeval. */
if (timeout_get_wait_time(timeout, &tv, &tv_call, TRUE) > 0)
break;
if (timeout->one_shot) {
/* remove timeout from queue */
priorityq_remove(timeout->ioloop->timeouts, &timeout->item);
} else {
/* update timeout's next_run and reposition it in the queue */
timeout_reset_timeval(timeout, &tv_call);
}
if (timeout->ctx != NULL)
io_loop_context_activate(timeout->ctx);
t_id = t_push_named("ioloop timeout handler %p",
(void *)timeout->callback);
timeout->callback(timeout->context);
if (!t_pop(&t_id)) {
i_panic("Leaked a t_pop() call in timeout handler %p",
(void *)timeout->callback);
}
if (ioloop->cur_ctx != NULL)
io_loop_context_deactivate(ioloop->cur_ctx);
i_assert(ioloop == current_ioloop);
}
}
void io_loop_handle_timeouts(struct ioloop *ioloop)
{
T_BEGIN {
io_loop_handle_timeouts_real(ioloop);
} T_END;
/* Free the unused memory in data stack once per second. This way if
the data stack has grown excessively large temporarily, it won't
permanently waste memory. And if the data stack grows back to the
same large size, re-allocating it once per second doesn't cause
performance problems. */
if (data_stack_last_free_unused != ioloop_time) {
if (data_stack_last_free_unused != 0)
data_stack_free_unused();
data_stack_last_free_unused = ioloop_time;
}
}
void io_loop_call_io(struct io *io)
{
struct ioloop *ioloop = io->ioloop;
data_stack_frame_t t_id;
if (io->pending) {
i_assert(ioloop->io_pending_count > 0);
ioloop->io_pending_count--;
io->pending = FALSE;
}
if (io->ctx != NULL)
io_loop_context_activate(io->ctx);
t_id = t_push_named("ioloop handler %p",
(void *)io->callback);
io->callback(io->context);
if (!t_pop(&t_id)) {
i_panic("Leaked a t_pop() call in I/O handler %p",
(void *)io->callback);
}
if (ioloop->cur_ctx != NULL)
io_loop_context_deactivate(ioloop->cur_ctx);
i_assert(ioloop == current_ioloop);
}
void io_loop_run(struct ioloop *ioloop)
{
if (ioloop->handler_context == NULL)
io_loop_initialize_handler(ioloop);
if (ioloop->cur_ctx != NULL)
io_loop_context_deactivate(ioloop->cur_ctx);
/* recursive io_loop_run() isn't allowed for the same ioloop.
it can break backends. */
i_assert(!ioloop->iolooping);
ioloop->iolooping = TRUE;
ioloop->running = TRUE;
while (ioloop->running)
io_loop_handler_run(ioloop);
ioloop->iolooping = FALSE;
}
static void io_loop_call_pending(struct ioloop *ioloop)
{
struct io_file *io;
while (ioloop->io_pending_count > 0) {
io = ioloop->io_files;
do {
ioloop->next_io_file = io->next;
if (io->io.pending)
io_loop_call_io(&io->io);
if (ioloop->io_pending_count == 0)
break;
io = ioloop->next_io_file;
} while (io != NULL);
}
}
void io_loop_handler_run(struct ioloop *ioloop)
{
i_assert(ioloop == current_ioloop);
io_loop_timeouts_start_new(ioloop);
ioloop->wait_started = ioloop_timeval;
io_loop_handler_run_internal(ioloop);
io_loop_call_pending(ioloop);
if (ioloop->stop_after_run_loop)
io_loop_stop(ioloop);
i_assert(ioloop == current_ioloop);
}
void io_loop_stop(struct ioloop *ioloop)
{
ioloop->running = FALSE;
ioloop->stop_after_run_loop = FALSE;
}
void io_loop_stop_delayed(struct ioloop *ioloop)
{
ioloop->stop_after_run_loop = TRUE;
}
void io_loop_set_running(struct ioloop *ioloop)
{
ioloop->running = TRUE;
}
void io_loop_set_max_fd_count(struct ioloop *ioloop, unsigned int max_fds)
{
ioloop->max_fd_count = max_fds;
}
bool io_loop_is_running(struct ioloop *ioloop)
{
return ioloop->running;
}
void io_loop_time_refresh(void)
{
i_gettimeofday(&ioloop_timeval);
ioloop_time = ioloop_timeval.tv_sec;
}
struct ioloop *io_loop_create(void)
{
struct ioloop *ioloop;
if (!panic_on_leak_set) {
panic_on_leak_set = TRUE;
panic_on_leak = getenv("CORE_IO_LEAK") != NULL;
}
/* initialize time */
i_gettimeofday(&ioloop_timeval);
ioloop_time = ioloop_timeval.tv_sec;
ioloop = i_new(struct ioloop, 1);
ioloop->timeouts = priorityq_init(timeout_cmp, 32);
i_array_init(&ioloop->timeouts_new, 8);
ioloop->time_moved_callback = current_ioloop != NULL ?
current_ioloop->time_moved_callback :
io_loop_default_time_moved;
ioloop->prev = current_ioloop;
io_loop_set_current(ioloop);
return ioloop;
}
void io_loop_destroy(struct ioloop **_ioloop)
{
struct ioloop *ioloop = *_ioloop;
struct timeout *to;
struct priorityq_item *item;
bool leaks = FALSE;
*_ioloop = NULL;
/* ->prev won't work unless loops are destroyed in create order */
i_assert(ioloop == current_ioloop);
if (array_is_created(&io_destroy_callbacks)) {
io_destroy_callback_t *callback;
array_foreach_elem(&io_destroy_callbacks, callback) T_BEGIN {
callback(current_ioloop);
} T_END;
}
io_loop_set_current(current_ioloop->prev);
if (ioloop->notify_handler_context != NULL)
io_loop_notify_handler_deinit(ioloop);
while (ioloop->io_files != NULL) {
struct io_file *io = ioloop->io_files;
struct io *_io = &io->io;
const char *error = t_strdup_printf(
"I/O leak: %p (%s:%u, fd %d)",
(void *)io->io.callback,
io->io.source_filename,
io->io.source_linenum, io->fd);
if (panic_on_leak)
i_panic("%s", error);
else
i_warning("%s", error);
io_remove(&_io);
leaks = TRUE;
}
i_assert(ioloop->io_pending_count == 0);
array_foreach_elem(&ioloop->timeouts_new, to) {
const char *error = t_strdup_printf(
"Timeout leak: %p (%s:%u)", (void *)to->callback,
to->source_filename,
to->source_linenum);
if (panic_on_leak)
i_panic("%s", error);
else
i_warning("%s", error);
timeout_free(to);
leaks = TRUE;
}
array_free(&ioloop->timeouts_new);
while ((item = priorityq_pop(ioloop->timeouts)) != NULL) {
struct timeout *to = (struct timeout *)item;
const char *error = t_strdup_printf(
"Timeout leak: %p (%s:%u)", (void *)to->callback,
to->source_filename,
to->source_linenum);
if (panic_on_leak)
i_panic("%s", error);
else
i_warning("%s", error);
timeout_free(to);
leaks = TRUE;
}
priorityq_deinit(&ioloop->timeouts);
while (ioloop->wait_timers != NULL) {
struct io_wait_timer *timer = ioloop->wait_timers;
const char *error = t_strdup_printf(
"IO wait timer leak: %s:%u",
timer->source_filename,
timer->source_linenum);
if (panic_on_leak)
i_panic("%s", error);
else
i_warning("%s", error);
io_wait_timer_remove(&timer);
leaks = TRUE;
}
if (leaks) {
const char *backtrace;
if (backtrace_get(&backtrace) == 0)
i_warning("Raw backtrace for leaks: %s", backtrace);
}
if (ioloop->handler_context != NULL)
io_loop_handler_deinit(ioloop);
if (ioloop->cur_ctx != NULL)
io_loop_context_unref(&ioloop->cur_ctx);
i_free(ioloop);
}
void io_loop_set_time_moved_callback(struct ioloop *ioloop,
io_loop_time_moved_callback_t *callback)
{
ioloop->time_moved_callback = callback;
}
static void io_switch_callbacks_free(void)
{
array_free(&io_switch_callbacks);
}
static void io_destroy_callbacks_free(void)
{
array_free(&io_destroy_callbacks);
}
void io_loop_set_current(struct ioloop *ioloop)
{
io_switch_callback_t *callback;
struct ioloop *prev_ioloop = current_ioloop;
if (ioloop == current_ioloop)
return;
current_ioloop = ioloop;
if (array_is_created(&io_switch_callbacks)) {
array_foreach_elem(&io_switch_callbacks, callback) T_BEGIN {
callback(prev_ioloop);
} T_END;
}
}
struct ioloop *io_loop_get_root(void)
{
struct ioloop *ioloop = current_ioloop;
while (ioloop->prev != NULL)
ioloop = ioloop->prev;
return ioloop;
}
void io_loop_add_switch_callback(io_switch_callback_t *callback)
{
if (!array_is_created(&io_switch_callbacks)) {
i_array_init(&io_switch_callbacks, 4);
lib_atexit_priority(io_switch_callbacks_free, LIB_ATEXIT_PRIORITY_LOW);
}
array_push_back(&io_switch_callbacks, &callback);
}
void io_loop_remove_switch_callback(io_switch_callback_t *callback)
{
io_switch_callback_t *const *callbackp;
unsigned int idx;
array_foreach(&io_switch_callbacks, callbackp) {
if (*callbackp == callback) {
idx = array_foreach_idx(&io_switch_callbacks, callbackp);
array_delete(&io_switch_callbacks, idx, 1);
return;
}
}
i_unreached();
}
void io_loop_add_destroy_callback(io_destroy_callback_t *callback)
{
if (!array_is_created(&io_destroy_callbacks)) {
i_array_init(&io_destroy_callbacks, 4);
lib_atexit_priority(io_destroy_callbacks_free, LIB_ATEXIT_PRIORITY_LOW);
}
array_push_back(&io_destroy_callbacks, &callback);
}
void io_loop_remove_destroy_callback(io_destroy_callback_t *callback)
{
io_destroy_callback_t *const *callbackp;
unsigned int idx;
array_foreach(&io_destroy_callbacks, callbackp) {
if (*callbackp == callback) {
idx = array_foreach_idx(&io_destroy_callbacks, callbackp);
array_delete(&io_destroy_callbacks, idx, 1);
return;
}
}
i_unreached();
}
struct ioloop_context *io_loop_context_new(struct ioloop *ioloop)
{
struct ioloop_context *ctx;
ctx = i_new(struct ioloop_context, 1);
ctx->refcount = 1;
ctx->ioloop = ioloop;
i_array_init(&ctx->callbacks, 4);
return ctx;
}
void io_loop_context_ref(struct ioloop_context *ctx)
{
i_assert(ctx->refcount > 0);
ctx->refcount++;
}
void io_loop_context_unref(struct ioloop_context **_ctx)
{
struct ioloop_context *ctx = *_ctx;
*_ctx = NULL;
i_assert(ctx->refcount > 0);
if (--ctx->refcount > 0)
return;
/* cur_ctx itself keeps a reference */
i_assert(ctx->ioloop->cur_ctx != ctx);
array_free(&ctx->callbacks);
array_free(&ctx->global_event_stack);
i_free(ctx);
}
#undef io_loop_context_add_callbacks
void io_loop_context_add_callbacks(struct ioloop_context *ctx,
io_callback_t *activate,
io_callback_t *deactivate, void *context)
{
struct ioloop_context_callback cb;
i_zero(&cb);
cb.activate = activate;
cb.deactivate = deactivate;
cb.context = context;
array_push_back(&ctx->callbacks, &cb);
}
#undef io_loop_context_remove_callbacks
void io_loop_context_remove_callbacks(struct ioloop_context *ctx,
io_callback_t *activate,
io_callback_t *deactivate, void *context)
{
struct ioloop_context_callback *cb;
array_foreach_modifiable(&ctx->callbacks, cb) {
if (cb->context == context &&
cb->activate == activate && cb->deactivate == deactivate) {
/* simply mark it as deleted, since we could get
here from activate/deactivate loop */
cb->activate = NULL;
cb->deactivate = NULL;
cb->context = NULL;
return;
}
}
i_panic("io_loop_context_remove_callbacks() context not found");
}
static void
io_loop_context_remove_deleted_callbacks(struct ioloop_context *ctx)
{
const struct ioloop_context_callback *cbs;
unsigned int i, count;
cbs = array_get(&ctx->callbacks, &count);
for (i = 0; i < count; ) {
if (cbs[i].activate != NULL)
i++;
else {
array_delete(&ctx->callbacks, i, 1);
cbs = array_get(&ctx->callbacks, &count);
}
}
}
static void io_loop_context_push_global_events(struct ioloop_context *ctx)
{
struct event *const *events;
unsigned int i, count;
ctx->root_global_event = event_get_global();
if (!array_is_created(&ctx->global_event_stack))
return;
/* push the global events from stack in reverse order */
events = array_get(&ctx->global_event_stack, &count);
if (count == 0)
return;
/* Remember the oldest global event. We're going to pop until that
event when deactivating the context. */
for (i = count; i > 0; i--)
event_push_global(events[i-1]);
array_clear(&ctx->global_event_stack);
}
static void io_loop_context_pop_global_events(struct ioloop_context *ctx)
{
struct event *event;
/* ioloop context is always global, so we can't push one ioloop context
on top of another one. We'll need to rewind the global event stack
until we've reached the event that started this context. We'll push
these global events back when the ioloop context is activated
again. (We'll assert-crash if the root event is freed before these
global events have been popped.) */
while ((event = event_get_global()) != ctx->root_global_event) {
i_assert(event != NULL);
if (!array_is_created(&ctx->global_event_stack))
i_array_init(&ctx->global_event_stack, 4);
array_push_back(&ctx->global_event_stack, &event);
event_pop_global(event);
}
ctx->root_global_event = NULL;
}
void io_loop_context_activate(struct ioloop_context *ctx)
{
struct ioloop_context_callback *cb;
i_assert(ctx->ioloop->cur_ctx == NULL);
ctx->ioloop->cur_ctx = ctx;
io_loop_context_push_global_events(ctx);
io_loop_context_ref(ctx);
array_foreach_modifiable(&ctx->callbacks, cb) {
i_assert(!cb->activated);
if (cb->activate != NULL) T_BEGIN {
cb->activate(cb->context);
} T_END;
cb->activated = TRUE;
}
}
void io_loop_context_deactivate(struct ioloop_context *ctx)
{
struct ioloop_context_callback *cb;
i_assert(ctx->ioloop->cur_ctx == ctx);
array_foreach_modifiable(&ctx->callbacks, cb) {
if (!cb->activated) {
/* we just added this callback. don't deactivate it
before it gets first activated. */
} else {
if (cb->deactivate != NULL) T_BEGIN {
cb->deactivate(cb->context);
} T_END;
cb->activated = FALSE;
}
}
ctx->ioloop->cur_ctx = NULL;
io_loop_context_pop_global_events(ctx);
io_loop_context_remove_deleted_callbacks(ctx);
io_loop_context_unref(&ctx);
}
void io_loop_context_switch(struct ioloop_context *ctx)
{
if (ctx->ioloop->cur_ctx != NULL) {
if (ctx->ioloop->cur_ctx == ctx)
return;
io_loop_context_deactivate(ctx->ioloop->cur_ctx);
/* deactivation may remove the cur_ctx */
if (ctx->ioloop->cur_ctx != NULL)
io_loop_context_unref(&ctx->ioloop->cur_ctx);
}
io_loop_context_activate(ctx);
}
struct ioloop_context *io_loop_get_current_context(struct ioloop *ioloop)
{
return ioloop->cur_ctx;
}
struct io *io_loop_move_io_to(struct ioloop *ioloop, struct io **_io)
{
struct io *old_io = *_io;
struct io_file *old_io_file, *new_io_file;
if (old_io == NULL)
return NULL;
i_assert((old_io->condition & IO_NOTIFY) == 0);
if (old_io->ioloop == ioloop)
return old_io;
old_io_file = (struct io_file *)old_io;
new_io_file = io_add_file(ioloop, old_io_file->fd,
old_io->condition, old_io->source_filename,
old_io->source_linenum,
old_io->callback, old_io->context);
if (old_io_file->istream != NULL) {
/* reference before io_remove() */
new_io_file->istream = old_io_file->istream;
i_stream_ref(new_io_file->istream);
}
if (old_io->pending)
io_set_pending(&new_io_file->io);
io_remove(_io);
if (new_io_file->istream != NULL) {
/* update istream io after it was removed with io_remove() */
i_stream_set_io(new_io_file->istream, &new_io_file->io);
}
return &new_io_file->io;
}
struct io *io_loop_move_io(struct io **_io)
{
return io_loop_move_io_to(current_ioloop, _io);
}
struct timeout *io_loop_move_timeout_to(struct ioloop *ioloop,
struct timeout **_timeout)
{
struct timeout *new_to, *old_to = *_timeout;
if (old_to == NULL || old_to->ioloop == ioloop)
return old_to;
new_to = timeout_copy(old_to, ioloop);
timeout_remove(_timeout);
return new_to;
}
struct timeout *io_loop_move_timeout(struct timeout **_timeout)
{
return io_loop_move_timeout_to(current_ioloop, _timeout);
}
bool io_loop_have_ios(struct ioloop *ioloop)
{
return ioloop->io_files != NULL;
}
bool io_loop_have_immediate_timeouts(struct ioloop *ioloop)
{
struct timeval tv;
return io_loop_get_wait_time(ioloop, &tv) == 0;
}
bool io_loop_is_empty(struct ioloop *ioloop)
{
return ioloop->io_files == NULL &&
priorityq_count(ioloop->timeouts) == 0 &&
array_count(&ioloop->timeouts_new) == 0;
}
uint64_t io_loop_get_wait_usecs(struct ioloop *ioloop)
{
return ioloop->ioloop_wait_usecs;
}
enum io_condition io_loop_find_fd_conditions(struct ioloop *ioloop, int fd)
{
enum io_condition conditions = 0;
struct io_file *io;
i_assert(fd >= 0);
for (io = ioloop->io_files; io != NULL; io = io->next) {
if (io->fd == fd)
conditions |= io->io.condition;
}
return conditions;
}
#undef io_wait_timer_add_to
struct io_wait_timer *
io_wait_timer_add_to(struct ioloop *ioloop, const char *source_filename,
unsigned int source_linenum)
{
struct io_wait_timer *timer;
timer = i_new(struct io_wait_timer, 1);
timer->ioloop = ioloop;
timer->source_filename = source_filename;
timer->source_linenum = source_linenum;
DLLIST_PREPEND(&ioloop->wait_timers, timer);
return timer;
}
#undef io_wait_timer_add
struct io_wait_timer *
io_wait_timer_add(const char *source_filename, unsigned int source_linenum)
{
return io_wait_timer_add_to(current_ioloop, source_filename,
source_linenum);
}
struct io_wait_timer *io_wait_timer_move_to(struct io_wait_timer **_timer,
struct ioloop *ioloop)
{
struct io_wait_timer *timer = *_timer;
*_timer = NULL;
DLLIST_REMOVE(&timer->ioloop->wait_timers, timer);
DLLIST_PREPEND(&ioloop->wait_timers, timer);
timer->ioloop = ioloop;
return timer;
}
struct io_wait_timer *io_wait_timer_move(struct io_wait_timer **_timer)
{
return io_wait_timer_move_to(_timer, current_ioloop);
}
void io_wait_timer_remove(struct io_wait_timer **_timer)
{
struct io_wait_timer *timer = *_timer;
*_timer = NULL;
DLLIST_REMOVE(&timer->ioloop->wait_timers, timer);
i_free(timer);
}
uint64_t io_wait_timer_get_usecs(struct io_wait_timer *timer)
{
return timer->usecs;
}
struct event *io_loop_get_active_global_root(void)
{
if (current_ioloop == NULL)
return NULL;
if (current_ioloop->cur_ctx == NULL)
return NULL;
return current_ioloop->cur_ctx->root_global_event;
}
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