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[chromium-blink-merge.git] / net / tools / epoll_server / epoll_server.cc
blob7b60ce2ae0d0b2be4d341038a4b190423ca0ced5
1 // Copyright 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "net/tools/epoll_server/epoll_server.h"
7 #include <unistd.h> // For read, pipe, close and write.
8 #include <stdlib.h> // for abort
9 #include <errno.h> // for errno and strerror_r
10 #include <algorithm>
11 #include <utility>
12 #include <vector>
14 #include "base/logging.h"
15 #include "base/time/time.h"
17 // Design notes: An efficient implementation of ready list has the following
18 // desirable properties:
20 // A. O(1) insertion into/removal from the list in any location.
21 // B. Once the callback is found by hash lookup using the fd, the lookup of
22 // corresponding entry in the list is O(1).
23 // C. Safe insertion into/removal from the list during list iteration. (The
24 // ready list's purpose is to enable completely event driven I/O model.
25 // Thus, all the interesting bits happen in the callback. It is critical
26 // to not place any restriction on the API during list iteration.
28 // The current implementation achieves these goals with the following design:
30 // - The ready list is constructed as a doubly linked list to enable O(1)
31 // insertion/removal (see man 3 queue).
32 // - The forward and backward links are directly embedded inside the
33 // CBAndEventMask struct. This enables O(1) lookup in the list for a given
34 // callback. (Techincally, we could've used std::list of hash_set::iterator,
35 // and keep a list::iterator in CBAndEventMask to achieve the same effect.
36 // However, iterators have two problems: no way to portably invalidate them,
37 // and no way to tell whether an iterator is singular or not. The only way to
38 // overcome these issues is to keep bools in both places, but that throws off
39 // memory alignment (up to 7 wasted bytes for each bool). The extra level of
40 // indirection will also likely be less cache friendly. Direct manipulation
41 // of link pointers makes it easier to retrieve the CBAndEventMask from the
42 // list, easier to check whether an CBAndEventMask is in the list, uses less
43 // memory (save 32 bytes/fd), and does not affect cache usage (we need to
44 // read in the struct to use the callback anyway).)
45 // - Embed the fd directly into CBAndEventMask and switch to using hash_set.
46 // This removes the need to store hash_map::iterator in the list just so that
47 // we can get both the fd and the callback.
48 // - The ready list is "one shot": each entry is removed before OnEvent is
49 // called. This removes the mutation-while-iterating problem.
50 // - Use two lists to keep track of callbacks. The ready_list_ is the one used
51 // for registration. Before iteration, the ready_list_ is swapped into the
52 // tmp_list_. Once iteration is done, tmp_list_ will be empty, and
53 // ready_list_ will have all the new ready fds.
55 // The size we use for buffers passed to strerror_r
56 static const int kErrorBufferSize = 256;
58 namespace net {
60 // Clears the pipe and returns. Used for waking the epoll server up.
61 class ReadPipeCallback : public EpollCallbackInterface {
62 public:
63 void OnEvent(int fd, EpollEvent* event) override {
64 DCHECK(event->in_events == EPOLLIN);
65 int data;
66 int data_read = 1;
67 // Read until the pipe is empty.
68 while (data_read > 0) {
69 data_read = read(fd, &data, sizeof(data));
72 void OnShutdown(EpollServer* eps, int fd) override {}
73 void OnRegistration(EpollServer*, int, int) override {}
74 void OnModification(int, int) override {} // COV_NF_LINE
75 void OnUnregistration(int, bool) override {} // COV_NF_LINE
78 ////////////////////////////////////////////////////////////////////////////////
79 ////////////////////////////////////////////////////////////////////////////////
81 EpollServer::EpollServer()
82 : epoll_fd_(epoll_create(1024)),
83 timeout_in_us_(0),
84 recorded_now_in_us_(0),
85 ready_list_size_(0),
86 wake_cb_(new ReadPipeCallback),
87 read_fd_(-1),
88 write_fd_(-1),
89 in_wait_for_events_and_execute_callbacks_(false),
90 in_shutdown_(false) {
91 // ensure that the epoll_fd_ is valid.
92 CHECK_NE(epoll_fd_, -1);
93 LIST_INIT(&ready_list_);
94 LIST_INIT(&tmp_list_);
96 int pipe_fds[2];
97 if (pipe(pipe_fds) < 0) {
98 // Unfortunately, it is impossible to test any such initialization in
99 // a constructor (as virtual methods do not yet work).
100 // This -could- be solved by moving initialization to an outside
101 // call...
102 int saved_errno = errno;
103 char buf[kErrorBufferSize];
104 LOG(FATAL) << "Error " << saved_errno
105 << " in pipe(): " << strerror_r(saved_errno, buf, sizeof(buf));
107 read_fd_ = pipe_fds[0];
108 write_fd_ = pipe_fds[1];
109 RegisterFD(read_fd_, wake_cb_.get(), EPOLLIN);
112 void EpollServer::CleanupFDToCBMap() {
113 FDToCBMap::iterator cb_iter = cb_map_.begin();
114 while (cb_iter != cb_map_.end()) {
115 int fd = cb_iter->fd;
116 CB* cb = cb_iter->cb;
118 cb_iter->in_use = true;
119 if (cb) {
120 cb->OnShutdown(this, fd);
123 cb_map_.erase(cb_iter);
124 cb_iter = cb_map_.begin();
128 void EpollServer::CleanupTimeToAlarmCBMap() {
129 TimeToAlarmCBMap::iterator erase_it;
131 // Call OnShutdown() on alarms. Note that the structure of the loop
132 // is similar to the structure of loop in the function HandleAlarms()
133 for (TimeToAlarmCBMap::iterator i = alarm_map_.begin();
134 i != alarm_map_.end();
136 // Note that OnShutdown() can call UnregisterAlarm() on
137 // other iterators. OnShutdown() should not call UnregisterAlarm()
138 // on self because by definition the iterator is not valid any more.
139 i->second->OnShutdown(this);
140 erase_it = i;
141 ++i;
142 alarm_map_.erase(erase_it);
146 EpollServer::~EpollServer() {
147 DCHECK_EQ(in_shutdown_, false);
148 in_shutdown_ = true;
149 #ifdef EPOLL_SERVER_EVENT_TRACING
150 LOG(INFO) << "\n" << event_recorder_;
151 #endif
152 VLOG(2) << "Shutting down epoll server ";
153 CleanupFDToCBMap();
155 LIST_INIT(&ready_list_);
156 LIST_INIT(&tmp_list_);
158 CleanupTimeToAlarmCBMap();
160 close(read_fd_);
161 close(write_fd_);
162 close(epoll_fd_);
165 // Whether a CBAandEventMask is on the ready list is determined by a non-NULL
166 // le_prev pointer (le_next being NULL indicates end of list).
167 inline void EpollServer::AddToReadyList(CBAndEventMask* cb_and_mask) {
168 if (cb_and_mask->entry.le_prev == NULL) {
169 LIST_INSERT_HEAD(&ready_list_, cb_and_mask, entry);
170 ++ready_list_size_;
174 inline void EpollServer::RemoveFromReadyList(
175 const CBAndEventMask& cb_and_mask) {
176 if (cb_and_mask.entry.le_prev != NULL) {
177 LIST_REMOVE(&cb_and_mask, entry);
178 // Clean up all the ready list states. Don't bother with the other fields
179 // as they are initialized when the CBAandEventMask is added to the ready
180 // list. This saves a few cycles in the inner loop.
181 cb_and_mask.entry.le_prev = NULL;
182 --ready_list_size_;
183 if (ready_list_size_ == 0) {
184 DCHECK(ready_list_.lh_first == NULL);
185 DCHECK(tmp_list_.lh_first == NULL);
190 void EpollServer::RegisterFD(int fd, CB* cb, int event_mask) {
191 CHECK(cb);
192 VLOG(3) << "RegisterFD fd=" << fd << " event_mask=" << event_mask;
193 FDToCBMap::iterator fd_i = cb_map_.find(CBAndEventMask(NULL, 0, fd));
194 if (cb_map_.end() != fd_i) {
195 // do we just abort, or do we just unregister the other guy?
196 // for now, lets just unregister the other guy.
198 // unregister any callback that may already be registered for this FD.
199 CB* other_cb = fd_i->cb;
200 if (other_cb) {
201 // Must remove from the ready list before erasing.
202 RemoveFromReadyList(*fd_i);
203 other_cb->OnUnregistration(fd, true);
204 ModFD(fd, event_mask);
205 } else {
206 // already unregistered, so just recycle the node.
207 AddFD(fd, event_mask);
209 fd_i->cb = cb;
210 fd_i->event_mask = event_mask;
211 fd_i->events_to_fake = 0;
212 } else {
213 AddFD(fd, event_mask);
214 cb_map_.insert(CBAndEventMask(cb, event_mask, fd));
218 // set the FD to be non-blocking.
219 SetNonblocking(fd);
221 cb->OnRegistration(this, fd, event_mask);
224 int EpollServer::GetFlags(int fd) {
225 return fcntl(fd, F_GETFL, 0);
228 void EpollServer::SetNonblocking(int fd) {
229 int flags = GetFlags(fd);
230 if (flags == -1) {
231 int saved_errno = errno;
232 char buf[kErrorBufferSize];
233 LOG(FATAL) << "Error " << saved_errno
234 << " doing fcntl(" << fd << ", F_GETFL, 0): "
235 << strerror_r(saved_errno, buf, sizeof(buf));
237 if (!(flags & O_NONBLOCK)) {
238 int saved_flags = flags;
239 flags = SetFlags(fd, flags | O_NONBLOCK);
240 if (flags == -1) {
241 // bad.
242 int saved_errno = errno;
243 char buf[kErrorBufferSize];
244 LOG(FATAL) << "Error " << saved_errno
245 << " doing fcntl(" << fd << ", F_SETFL, " << saved_flags << "): "
246 << strerror_r(saved_errno, buf, sizeof(buf));
251 int EpollServer::epoll_wait_impl(int epfd,
252 struct epoll_event* events,
253 int max_events,
254 int timeout_in_ms) {
255 return epoll_wait(epfd, events, max_events, timeout_in_ms);
258 void EpollServer::RegisterFDForWrite(int fd, CB* cb) {
259 RegisterFD(fd, cb, EPOLLOUT);
262 void EpollServer::RegisterFDForReadWrite(int fd, CB* cb) {
263 RegisterFD(fd, cb, EPOLLIN | EPOLLOUT);
266 void EpollServer::RegisterFDForRead(int fd, CB* cb) {
267 RegisterFD(fd, cb, EPOLLIN);
270 void EpollServer::UnregisterFD(int fd) {
271 FDToCBMap::iterator fd_i = cb_map_.find(CBAndEventMask(NULL, 0, fd));
272 if (cb_map_.end() == fd_i || fd_i->cb == NULL) {
273 // Doesn't exist in server, or has gone through UnregisterFD once and still
274 // inside the callchain of OnEvent.
275 return;
277 #ifdef EPOLL_SERVER_EVENT_TRACING
278 event_recorder_.RecordUnregistration(fd);
279 #endif
280 CB* cb = fd_i->cb;
281 // Since the links are embedded within the struct, we must remove it from the
282 // list before erasing it from the hash_set.
283 RemoveFromReadyList(*fd_i);
284 DelFD(fd);
285 cb->OnUnregistration(fd, false);
286 // fd_i->cb is NULL if that fd is unregistered inside the callchain of
287 // OnEvent. Since the EpollServer needs a valid CBAndEventMask after OnEvent
288 // returns in order to add it to the ready list, we cannot have UnregisterFD
289 // erase the entry if it is in use. Thus, a NULL fd_i->cb is used as a
290 // condition that tells the EpollServer that this entry is unused at a later
291 // point.
292 if (!fd_i->in_use) {
293 cb_map_.erase(fd_i);
294 } else {
295 // Remove all trace of the registration, and just keep the node alive long
296 // enough so the code that calls OnEvent doesn't have to worry about
297 // figuring out whether the CBAndEventMask is valid or not.
298 fd_i->cb = NULL;
299 fd_i->event_mask = 0;
300 fd_i->events_to_fake = 0;
304 void EpollServer::ModifyCallback(int fd, int event_mask) {
305 ModifyFD(fd, ~0, event_mask);
308 void EpollServer::StopRead(int fd) {
309 ModifyFD(fd, EPOLLIN, 0);
312 void EpollServer::StartRead(int fd) {
313 ModifyFD(fd, 0, EPOLLIN);
316 void EpollServer::StopWrite(int fd) {
317 ModifyFD(fd, EPOLLOUT, 0);
320 void EpollServer::StartWrite(int fd) {
321 ModifyFD(fd, 0, EPOLLOUT);
324 void EpollServer::HandleEvent(int fd, int event_mask) {
325 #ifdef EPOLL_SERVER_EVENT_TRACING
326 event_recorder_.RecordEpollEvent(fd, event_mask);
327 #endif
328 FDToCBMap::iterator fd_i = cb_map_.find(CBAndEventMask(NULL, 0, fd));
329 if (fd_i == cb_map_.end() || fd_i->cb == NULL) {
330 // Ignore the event.
331 // This could occur if epoll() returns a set of events, and
332 // while processing event A (earlier) we removed the callback
333 // for event B (and are now processing event B).
334 return;
336 fd_i->events_asserted = event_mask;
337 CBAndEventMask* cb_and_mask = const_cast<CBAndEventMask*>(&*fd_i);
338 AddToReadyList(cb_and_mask);
341 class TrueFalseGuard {
342 public:
343 explicit TrueFalseGuard(bool* guarded_bool) : guarded_bool_(guarded_bool) {
344 DCHECK(guarded_bool_ != NULL);
345 DCHECK(*guarded_bool_ == false);
346 *guarded_bool_ = true;
348 ~TrueFalseGuard() {
349 *guarded_bool_ = false;
351 private:
352 bool* guarded_bool_;
355 void EpollServer::WaitForEventsAndExecuteCallbacks() {
356 if (in_wait_for_events_and_execute_callbacks_) {
357 LOG(DFATAL) <<
358 "Attempting to call WaitForEventsAndExecuteCallbacks"
359 " when an ancestor to the current function is already"
360 " WaitForEventsAndExecuteCallbacks!";
361 // The line below is actually tested, but in coverage mode,
362 // we never see it.
363 return; // COV_NF_LINE
365 TrueFalseGuard recursion_guard(&in_wait_for_events_and_execute_callbacks_);
366 if (alarm_map_.empty()) {
367 // no alarms, this is business as usual.
368 WaitForEventsAndCallHandleEvents(timeout_in_us_,
369 events_,
370 events_size_);
371 recorded_now_in_us_ = 0;
372 return;
375 // store the 'now'. If we recomputed 'now' every iteration
376 // down below, then we might never exit that loop-- any
377 // long-running alarms might install other long-running
378 // alarms, etc. By storing it here now, we ensure that
379 // a more reasonable amount of work is done here.
380 int64 now_in_us = NowInUsec();
382 // Get the first timeout from the alarm_map where it is
383 // stored in absolute time.
384 int64 next_alarm_time_in_us = alarm_map_.begin()->first;
385 VLOG(4) << "next_alarm_time = " << next_alarm_time_in_us
386 << " now = " << now_in_us
387 << " timeout_in_us = " << timeout_in_us_;
389 int64 wait_time_in_us;
390 int64 alarm_timeout_in_us = next_alarm_time_in_us - now_in_us;
392 // If the next alarm is sooner than the default timeout, or if there is no
393 // timeout (timeout_in_us_ == -1), wake up when the alarm should fire.
394 // Otherwise use the default timeout.
395 if (alarm_timeout_in_us < timeout_in_us_ || timeout_in_us_ < 0) {
396 wait_time_in_us = std::max(alarm_timeout_in_us, static_cast<int64>(0));
397 } else {
398 wait_time_in_us = timeout_in_us_;
401 VLOG(4) << "wait_time_in_us = " << wait_time_in_us;
403 // wait for events.
405 WaitForEventsAndCallHandleEvents(wait_time_in_us,
406 events_,
407 events_size_);
408 CallAndReregisterAlarmEvents();
409 recorded_now_in_us_ = 0;
412 void EpollServer::SetFDReady(int fd, int events_to_fake) {
413 FDToCBMap::iterator fd_i = cb_map_.find(CBAndEventMask(NULL, 0, fd));
414 if (cb_map_.end() != fd_i && fd_i->cb != NULL) {
415 // This const_cast is necessary for LIST_HEAD_INSERT to work. Declaring
416 // entry mutable is insufficient because LIST_HEAD_INSERT assigns the
417 // forward pointer of the list head to the current cb_and_mask, and the
418 // compiler complains that it can't assign a const T* to a T*.
419 CBAndEventMask* cb_and_mask = const_cast<CBAndEventMask*>(&*fd_i);
420 // Note that there is no clearly correct behavior here when
421 // cb_and_mask->events_to_fake != 0 and this function is called.
422 // Of the two operations:
423 // cb_and_mask->events_to_fake = events_to_fake
424 // cb_and_mask->events_to_fake |= events_to_fake
425 // the first was picked because it discourages users from calling
426 // SetFDReady repeatedly to build up the correct event set as it is more
427 // efficient to call SetFDReady once with the correct, final mask.
428 cb_and_mask->events_to_fake = events_to_fake;
429 AddToReadyList(cb_and_mask);
433 void EpollServer::SetFDNotReady(int fd) {
434 FDToCBMap::iterator fd_i = cb_map_.find(CBAndEventMask(NULL, 0, fd));
435 if (cb_map_.end() != fd_i) {
436 RemoveFromReadyList(*fd_i);
440 bool EpollServer::IsFDReady(int fd) const {
441 FDToCBMap::const_iterator fd_i = cb_map_.find(CBAndEventMask(NULL, 0, fd));
442 return (cb_map_.end() != fd_i &&
443 fd_i->cb != NULL &&
444 fd_i->entry.le_prev != NULL);
447 void EpollServer::VerifyReadyList() const {
448 int count = 0;
449 CBAndEventMask* cur = ready_list_.lh_first;
450 for (; cur; cur = cur->entry.le_next) {
451 ++count;
453 for (cur = tmp_list_.lh_first; cur; cur = cur->entry.le_next) {
454 ++count;
456 CHECK_EQ(ready_list_size_, count) << "Ready list size does not match count";
459 void EpollServer::RegisterAlarm(int64 timeout_time_in_us, AlarmCB* ac) {
460 CHECK(ac);
461 if (ContainsAlarm(ac)) {
462 LOG(FATAL) << "Alarm already exists " << ac;
464 VLOG(4) << "RegisteringAlarm at : " << timeout_time_in_us;
466 TimeToAlarmCBMap::iterator alarm_iter =
467 alarm_map_.insert(std::make_pair(timeout_time_in_us, ac));
469 all_alarms_.insert(ac);
470 // Pass the iterator to the EpollAlarmCallbackInterface.
471 ac->OnRegistration(alarm_iter, this);
474 // Unregister a specific alarm callback: iterator_token must be a
475 // valid iterator. The caller must ensure the validity of the iterator.
476 void EpollServer::UnregisterAlarm(const AlarmRegToken& iterator_token) {
477 AlarmCB* cb = iterator_token->second;
478 alarm_map_.erase(iterator_token);
479 all_alarms_.erase(cb);
480 cb->OnUnregistration();
483 int EpollServer::NumFDsRegistered() const {
484 DCHECK_GE(cb_map_.size(), 1u);
485 // Omit the internal FD (read_fd_)
486 return cb_map_.size() - 1;
489 void EpollServer::Wake() {
490 char data = 'd'; // 'd' is for data. It's good enough for me.
491 int rv = write(write_fd_, &data, 1);
492 DCHECK_EQ(rv, 1);
495 int64 EpollServer::NowInUsec() const {
496 return base::Time::Now().ToInternalValue();
499 int64 EpollServer::ApproximateNowInUsec() const {
500 if (recorded_now_in_us_ != 0) {
501 return recorded_now_in_us_;
503 return this->NowInUsec();
506 std::string EpollServer::EventMaskToString(int event_mask) {
507 std::string s;
508 if (event_mask & EPOLLIN) s += "EPOLLIN ";
509 if (event_mask & EPOLLPRI) s += "EPOLLPRI ";
510 if (event_mask & EPOLLOUT) s += "EPOLLOUT ";
511 if (event_mask & EPOLLRDNORM) s += "EPOLLRDNORM ";
512 if (event_mask & EPOLLRDBAND) s += "EPOLLRDBAND ";
513 if (event_mask & EPOLLWRNORM) s += "EPOLLWRNORM ";
514 if (event_mask & EPOLLWRBAND) s += "EPOLLWRBAND ";
515 if (event_mask & EPOLLMSG) s += "EPOLLMSG ";
516 if (event_mask & EPOLLERR) s += "EPOLLERR ";
517 if (event_mask & EPOLLHUP) s += "EPOLLHUP ";
518 if (event_mask & EPOLLONESHOT) s += "EPOLLONESHOT ";
519 if (event_mask & EPOLLET) s += "EPOLLET ";
520 return s;
523 void EpollServer::LogStateOnCrash() {
524 LOG(ERROR) << "----------------------Epoll Server---------------------------";
525 LOG(ERROR) << "Epoll server " << this << " polling on fd " << epoll_fd_;
526 LOG(ERROR) << "timeout_in_us_: " << timeout_in_us_;
528 // Log sessions with alarms.
529 LOG(ERROR) << alarm_map_.size() << " alarms registered.";
530 for (TimeToAlarmCBMap::iterator it = alarm_map_.begin();
531 it != alarm_map_.end();
532 ++it) {
533 const bool skipped =
534 alarms_reregistered_and_should_be_skipped_.find(it->second)
535 != alarms_reregistered_and_should_be_skipped_.end();
536 LOG(ERROR) << "Alarm " << it->second << " registered at time " << it->first
537 << " and should be skipped = " << skipped;
540 LOG(ERROR) << cb_map_.size() << " fd callbacks registered.";
541 for (FDToCBMap::iterator it = cb_map_.begin();
542 it != cb_map_.end();
543 ++it) {
544 LOG(ERROR) << "fd: " << it->fd << " with mask " << it->event_mask
545 << " registered with cb: " << it->cb;
547 LOG(ERROR) << "----------------------/Epoll Server--------------------------";
552 ////////////////////////////////////////////////////////////////////////////////
553 ////////////////////////////////////////////////////////////////////////////////
555 void EpollServer::DelFD(int fd) const {
556 struct epoll_event ee;
557 memset(&ee, 0, sizeof(ee));
558 #ifdef EPOLL_SERVER_EVENT_TRACING
559 event_recorder_.RecordFDMaskEvent(fd, 0, "DelFD");
560 #endif
561 if (epoll_ctl(epoll_fd_, EPOLL_CTL_DEL, fd, &ee)) {
562 int saved_errno = errno;
563 char buf[kErrorBufferSize];
564 LOG(FATAL) << "Epoll set removal error for fd " << fd << ": "
565 << strerror_r(saved_errno, buf, sizeof(buf));
569 ////////////////////////////////////////
571 void EpollServer::AddFD(int fd, int event_mask) const {
572 struct epoll_event ee;
573 memset(&ee, 0, sizeof(ee));
574 ee.events = event_mask | EPOLLERR | EPOLLHUP;
575 ee.data.fd = fd;
576 #ifdef EPOLL_SERVER_EVENT_TRACING
577 event_recorder_.RecordFDMaskEvent(fd, ee.events, "AddFD");
578 #endif
579 if (epoll_ctl(epoll_fd_, EPOLL_CTL_ADD, fd, &ee)) {
580 int saved_errno = errno;
581 char buf[kErrorBufferSize];
582 LOG(FATAL) << "Epoll set insertion error for fd " << fd << ": "
583 << strerror_r(saved_errno, buf, sizeof(buf));
587 ////////////////////////////////////////
589 void EpollServer::ModFD(int fd, int event_mask) const {
590 struct epoll_event ee;
591 memset(&ee, 0, sizeof(ee));
592 ee.events = event_mask | EPOLLERR | EPOLLHUP;
593 ee.data.fd = fd;
594 #ifdef EPOLL_SERVER_EVENT_TRACING
595 event_recorder_.RecordFDMaskEvent(fd, ee.events, "ModFD");
596 #endif
597 VLOG(3) << "modifying fd= " << fd << " "
598 << EventMaskToString(ee.events);
599 if (epoll_ctl(epoll_fd_, EPOLL_CTL_MOD, fd, &ee)) {
600 int saved_errno = errno;
601 char buf[kErrorBufferSize];
602 LOG(FATAL) << "Epoll set modification error for fd " << fd << ": "
603 << strerror_r(saved_errno, buf, sizeof(buf));
607 ////////////////////////////////////////
609 void EpollServer::ModifyFD(int fd, int remove_event, int add_event) {
610 FDToCBMap::iterator fd_i = cb_map_.find(CBAndEventMask(NULL, 0, fd));
611 if (cb_map_.end() == fd_i) {
612 VLOG(2) << "Didn't find the fd " << fd << "in internal structures";
613 return;
616 if (fd_i->cb != NULL) {
617 int & event_mask = fd_i->event_mask;
618 VLOG(3) << "fd= " << fd
619 << " event_mask before: " << EventMaskToString(event_mask);
620 event_mask &= ~remove_event;
621 event_mask |= add_event;
623 VLOG(3) << " event_mask after: " << EventMaskToString(event_mask);
625 ModFD(fd, event_mask);
627 fd_i->cb->OnModification(fd, event_mask);
631 void EpollServer::WaitForEventsAndCallHandleEvents(int64 timeout_in_us,
632 struct epoll_event events[],
633 int events_size) {
634 if (timeout_in_us == 0 || ready_list_.lh_first != NULL) {
635 // If ready list is not empty, then don't sleep at all.
636 timeout_in_us = 0;
637 } else if (timeout_in_us < 0) {
638 LOG(INFO) << "Negative epoll timeout: " << timeout_in_us
639 << "us; epoll will wait forever for events.";
640 // If timeout_in_us is < 0 we are supposed to Wait forever. This means we
641 // should set timeout_in_us to -1000 so we will
642 // Wait(-1000/1000) == Wait(-1) == Wait forever.
643 timeout_in_us = -1000;
644 } else {
645 // If timeout is specified, and the ready list is empty.
646 if (timeout_in_us < 1000) {
647 timeout_in_us = 1000;
650 const int timeout_in_ms = timeout_in_us / 1000;
651 int nfds = epoll_wait_impl(epoll_fd_,
652 events,
653 events_size,
654 timeout_in_ms);
655 VLOG(3) << "nfds=" << nfds;
657 #ifdef EPOLL_SERVER_EVENT_TRACING
658 event_recorder_.RecordEpollWaitEvent(timeout_in_ms, nfds);
659 #endif
661 // If you're wondering why the NowInUsec() is recorded here, the answer is
662 // simple: If we did it before the epoll_wait_impl, then the max error for
663 // the ApproximateNowInUs() call would be as large as the maximum length of
664 // epoll_wait, which can be arbitrarily long. Since this would make
665 // ApproximateNowInUs() worthless, we instead record the time -after- we've
666 // done epoll_wait, which guarantees that the maximum error is the amount of
667 // time it takes to process all the events generated by epoll_wait.
668 recorded_now_in_us_ = NowInUsec();
669 if (nfds > 0) {
670 for (int i = 0; i < nfds; ++i) {
671 int event_mask = events[i].events;
672 int fd = events[i].data.fd;
673 HandleEvent(fd, event_mask);
675 } else if (nfds < 0) {
676 // Catch interrupted syscall and just ignore it and move on.
677 if (errno != EINTR && errno != 0) {
678 int saved_errno = errno;
679 char buf[kErrorBufferSize];
680 LOG(FATAL) << "Error " << saved_errno << " in epoll_wait: "
681 << strerror_r(saved_errno, buf, sizeof(buf));
685 // Now run through the ready list.
686 if (ready_list_.lh_first) {
687 CallReadyListCallbacks();
691 void EpollServer::CallReadyListCallbacks() {
692 // Check pre-conditions.
693 DCHECK(tmp_list_.lh_first == NULL);
694 // Swap out the ready_list_ into the tmp_list_ before traversing the list to
695 // enable SetFDReady() to just push new items into the ready_list_.
696 std::swap(ready_list_.lh_first, tmp_list_.lh_first);
697 if (tmp_list_.lh_first) {
698 tmp_list_.lh_first->entry.le_prev = &tmp_list_.lh_first;
699 EpollEvent event(0, false);
700 while (tmp_list_.lh_first != NULL) {
701 DCHECK_GT(ready_list_size_, 0);
702 CBAndEventMask* cb_and_mask = tmp_list_.lh_first;
703 RemoveFromReadyList(*cb_and_mask);
705 event.out_ready_mask = 0;
706 event.in_events =
707 cb_and_mask->events_asserted | cb_and_mask->events_to_fake;
708 // TODO(fenix): get rid of the two separate fields in cb_and_mask.
709 cb_and_mask->events_asserted = 0;
710 cb_and_mask->events_to_fake = 0;
712 // OnEvent() may call UnRegister, so we set in_use, here. Any
713 // UnRegister call will now simply set the cb to NULL instead of
714 // invalidating the cb_and_mask object (by deleting the object in the
715 // map to which cb_and_mask refers)
716 TrueFalseGuard in_use_guard(&(cb_and_mask->in_use));
717 cb_and_mask->cb->OnEvent(cb_and_mask->fd, &event);
720 // Since OnEvent may have called UnregisterFD, we must check here that
721 // the callback is still valid. If it isn't, then UnregisterFD *was*
722 // called, and we should now get rid of the object.
723 if (cb_and_mask->cb == NULL) {
724 cb_map_.erase(*cb_and_mask);
725 } else if (event.out_ready_mask != 0) {
726 cb_and_mask->events_to_fake = event.out_ready_mask;
727 AddToReadyList(cb_and_mask);
731 DCHECK(tmp_list_.lh_first == NULL);
734 void EpollServer::CallAndReregisterAlarmEvents() {
735 int64 now_in_us = recorded_now_in_us_;
736 DCHECK_NE(0, recorded_now_in_us_);
738 TimeToAlarmCBMap::iterator erase_it;
740 // execute alarms.
741 for (TimeToAlarmCBMap::iterator i = alarm_map_.begin();
742 i != alarm_map_.end();
744 if (i->first > now_in_us) {
745 break;
747 AlarmCB* cb = i->second;
748 // Execute the OnAlarm() only if we did not register
749 // it in this loop itself.
750 const bool added_in_this_round =
751 alarms_reregistered_and_should_be_skipped_.find(cb)
752 != alarms_reregistered_and_should_be_skipped_.end();
753 if (added_in_this_round) {
754 ++i;
755 continue;
757 all_alarms_.erase(cb);
758 const int64 new_timeout_time_in_us = cb->OnAlarm();
760 erase_it = i;
761 ++i;
762 alarm_map_.erase(erase_it);
764 if (new_timeout_time_in_us > 0) {
765 // We add to hash_set only if the new timeout is <= now_in_us.
766 // if timeout is > now_in_us then we have no fear that this alarm
767 // can be reexecuted in this loop, and hence we do not need to
768 // worry about a recursive loop.
769 DVLOG(3) << "Reregistering alarm "
770 << " " << cb
771 << " " << new_timeout_time_in_us
772 << " " << now_in_us;
773 if (new_timeout_time_in_us <= now_in_us) {
774 alarms_reregistered_and_should_be_skipped_.insert(cb);
776 RegisterAlarm(new_timeout_time_in_us, cb);
779 alarms_reregistered_and_should_be_skipped_.clear();
782 EpollAlarm::EpollAlarm() : eps_(NULL), registered_(false) {
785 EpollAlarm::~EpollAlarm() {
786 UnregisterIfRegistered();
789 int64 EpollAlarm::OnAlarm() {
790 registered_ = false;
791 return 0;
794 void EpollAlarm::OnRegistration(const EpollServer::AlarmRegToken& token,
795 EpollServer* eps) {
796 DCHECK_EQ(false, registered_);
798 token_ = token;
799 eps_ = eps;
800 registered_ = true;
803 void EpollAlarm::OnUnregistration() {
804 registered_ = false;
807 void EpollAlarm::OnShutdown(EpollServer* eps) {
808 registered_ = false;
809 eps_ = NULL;
812 // If the alarm was registered, unregister it.
813 void EpollAlarm::UnregisterIfRegistered() {
814 if (!registered_) {
815 return;
817 eps_->UnregisterAlarm(token_);
820 } // namespace net