Adding instrumentation to locate the source of jankiness.
[chromium-blink-merge.git] / ipc / ipc_channel_win.cc
blob870cf53245c9a6cde9b566f1e9930ada440b2e9c
1 // Copyright (c) 2012 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 "ipc/ipc_channel_win.h"
7 #include <windows.h>
9 #include "base/auto_reset.h"
10 #include "base/bind.h"
11 #include "base/compiler_specific.h"
12 #include "base/logging.h"
13 #include "base/pickle.h"
14 #include "base/process/process_handle.h"
15 #include "base/rand_util.h"
16 #include "base/strings/string_number_conversions.h"
17 #include "base/strings/utf_string_conversions.h"
18 #include "base/threading/thread_checker.h"
19 #include "base/win/scoped_handle.h"
20 #include "ipc/ipc_listener.h"
21 #include "ipc/ipc_logging.h"
22 #include "ipc/ipc_message_utils.h"
24 namespace {
26 enum DebugFlags {
27 INIT_DONE = 1 << 0,
28 CALLED_CONNECT = 1 << 1,
29 PENDING_CONNECT = 1 << 2,
30 CONNECT_COMPLETED = 1 << 3,
31 PIPE_CONNECTED = 1 << 4,
32 WRITE_MSG = 1 << 5,
33 READ_MSG = 1 << 6,
34 WRITE_COMPLETED = 1 << 7,
35 READ_COMPLETED = 1 << 8,
36 CLOSED = 1 << 9,
37 WAIT_FOR_READ = 1 << 10,
38 WAIT_FOR_WRITE = 1 << 11,
39 WAIT_FOR_READ_COMPLETE = 1 << 12,
40 WAIT_FOR_WRITE_COMPLETE = 1 << 13
43 } // namespace
45 namespace IPC {
47 ChannelWin::State::State(ChannelWin* channel) : is_pending(false) {
48 memset(&context.overlapped, 0, sizeof(context.overlapped));
49 context.handler = channel;
52 ChannelWin::State::~State() {
53 COMPILE_ASSERT(!offsetof(ChannelWin::State, context),
54 starts_with_io_context);
57 ChannelWin::ChannelWin(const IPC::ChannelHandle &channel_handle,
58 Mode mode, Listener* listener)
59 : ChannelReader(listener),
60 input_state_(this),
61 output_state_(this),
62 peer_pid_(base::kNullProcessId),
63 waiting_connect_(mode & MODE_SERVER_FLAG),
64 processing_incoming_(false),
65 validate_client_(false),
66 writing_(false),
67 debug_flags_(0),
68 write_error_(0),
69 last_write_error_(0),
70 write_size_(0),
71 client_secret_(0),
72 weak_factory_(this) {
73 CreatePipe(channel_handle, mode);
76 ChannelWin::~ChannelWin() {
77 Close();
80 void ChannelWin::Close() {
81 if (thread_check_.get()) {
82 DCHECK(thread_check_->CalledOnValidThread());
84 debug_flags_ |= CLOSED;
86 if (input_state_.is_pending || output_state_.is_pending)
87 CancelIo(pipe_.Get());
89 // Closing the handle at this point prevents us from issuing more requests
90 // form OnIOCompleted().
91 if (pipe_.IsValid())
92 pipe_.Close();
94 if (input_state_.is_pending)
95 debug_flags_ |= WAIT_FOR_READ;
97 if (output_state_.is_pending)
98 debug_flags_ |= WAIT_FOR_WRITE;
100 // Make sure all IO has completed.
101 base::Time start = base::Time::Now();
102 while (input_state_.is_pending || output_state_.is_pending) {
103 base::MessageLoopForIO::current()->WaitForIOCompletion(INFINITE, this);
106 while (!output_queue_.empty()) {
107 Message* m = output_queue_.front();
108 output_queue_.pop();
109 delete m;
113 bool ChannelWin::Send(Message* message) {
114 DCHECK(thread_check_->CalledOnValidThread());
115 DVLOG(2) << "sending message @" << message << " on channel @" << this
116 << " with type " << message->type()
117 << " (" << output_queue_.size() << " in queue)";
119 #ifdef IPC_MESSAGE_LOG_ENABLED
120 Logging::GetInstance()->OnSendMessage(message, "");
121 #endif
123 message->TraceMessageBegin();
124 output_queue_.push(message);
125 // ensure waiting to write
126 if (!waiting_connect_) {
127 if (!output_state_.is_pending) {
128 if (!ProcessOutgoingMessages(NULL, 0))
129 return false;
133 return true;
136 base::ProcessId ChannelWin::GetPeerPID() const {
137 return peer_pid_;
140 base::ProcessId ChannelWin::GetSelfPID() const {
141 return GetCurrentProcessId();
144 // static
145 bool ChannelWin::IsNamedServerInitialized(
146 const std::string& channel_id) {
147 if (WaitNamedPipe(PipeName(channel_id, NULL).c_str(), 1))
148 return true;
149 // If ERROR_SEM_TIMEOUT occurred, the pipe exists but is handling another
150 // connection.
151 return GetLastError() == ERROR_SEM_TIMEOUT;
154 ChannelWin::ReadState ChannelWin::ReadData(
155 char* buffer,
156 int buffer_len,
157 int* /* bytes_read */) {
158 if (!pipe_.IsValid())
159 return READ_FAILED;
161 debug_flags_ |= READ_MSG;
162 DWORD bytes_read = 0;
163 BOOL ok = ReadFile(pipe_.Get(), buffer, buffer_len,
164 &bytes_read, &input_state_.context.overlapped);
165 if (!ok) {
166 DWORD err = GetLastError();
167 if (err == ERROR_IO_PENDING) {
168 input_state_.is_pending = true;
169 return READ_PENDING;
171 LOG(ERROR) << "pipe error: " << err;
172 return READ_FAILED;
175 // We could return READ_SUCCEEDED here. But the way that this code is
176 // structured we instead go back to the message loop. Our completion port
177 // will be signalled even in the "synchronously completed" state.
179 // This allows us to potentially process some outgoing messages and
180 // interleave other work on this thread when we're getting hammered with
181 // input messages. Potentially, this could be tuned to be more efficient
182 // with some testing.
183 input_state_.is_pending = true;
184 return READ_PENDING;
187 bool ChannelWin::WillDispatchInputMessage(Message* msg) {
188 // Make sure we get a hello when client validation is required.
189 if (validate_client_)
190 return IsHelloMessage(*msg);
191 return true;
194 void ChannelWin::HandleInternalMessage(const Message& msg) {
195 DCHECK_EQ(msg.type(), static_cast<unsigned>(Channel::HELLO_MESSAGE_TYPE));
196 // The hello message contains one parameter containing the PID.
197 PickleIterator it(msg);
198 int32 claimed_pid;
199 bool failed = !it.ReadInt(&claimed_pid);
201 if (!failed && validate_client_) {
202 int32 secret;
203 failed = it.ReadInt(&secret) ? (secret != client_secret_) : true;
206 if (failed) {
207 NOTREACHED();
208 Close();
209 listener()->OnChannelError();
210 return;
213 peer_pid_ = claimed_pid;
214 // Validation completed.
215 validate_client_ = false;
216 listener()->OnChannelConnected(claimed_pid);
219 bool ChannelWin::DidEmptyInputBuffers() {
220 // We don't need to do anything here.
221 return true;
224 // static
225 const base::string16 ChannelWin::PipeName(
226 const std::string& channel_id, int32* secret) {
227 std::string name("\\\\.\\pipe\\chrome.");
229 // Prevent the shared secret from ending up in the pipe name.
230 size_t index = channel_id.find_first_of('\\');
231 if (index != std::string::npos) {
232 if (secret) // Retrieve the secret if asked for.
233 base::StringToInt(channel_id.substr(index + 1), secret);
234 return base::ASCIIToWide(name.append(channel_id.substr(0, index - 1)));
237 // This case is here to support predictable named pipes in tests.
238 if (secret)
239 *secret = 0;
240 return base::ASCIIToWide(name.append(channel_id));
243 bool ChannelWin::CreatePipe(const IPC::ChannelHandle &channel_handle,
244 Mode mode) {
245 DCHECK(!pipe_.IsValid());
246 base::string16 pipe_name;
247 // If we already have a valid pipe for channel just copy it.
248 if (channel_handle.pipe.handle) {
249 // TODO(rvargas) crbug.com/415294: ChannelHandle should either go away in
250 // favor of two independent entities (name/file), or it should be a move-
251 // only type with a base::File member. In any case, this code should not
252 // call DuplicateHandle.
253 DCHECK(channel_handle.name.empty());
254 pipe_name = L"Not Available"; // Just used for LOG
255 // Check that the given pipe confirms to the specified mode. We can
256 // only check for PIPE_TYPE_MESSAGE & PIPE_SERVER_END flags since the
257 // other flags (PIPE_TYPE_BYTE, and PIPE_CLIENT_END) are defined as 0.
258 DWORD flags = 0;
259 GetNamedPipeInfo(channel_handle.pipe.handle, &flags, NULL, NULL, NULL);
260 DCHECK(!(flags & PIPE_TYPE_MESSAGE));
261 if (((mode & MODE_SERVER_FLAG) && !(flags & PIPE_SERVER_END)) ||
262 ((mode & MODE_CLIENT_FLAG) && (flags & PIPE_SERVER_END))) {
263 LOG(WARNING) << "Inconsistent open mode. Mode :" << mode;
264 return false;
266 HANDLE local_handle;
267 if (!DuplicateHandle(GetCurrentProcess(),
268 channel_handle.pipe.handle,
269 GetCurrentProcess(),
270 &local_handle,
272 FALSE,
273 DUPLICATE_SAME_ACCESS)) {
274 LOG(WARNING) << "DuplicateHandle failed. Error :" << GetLastError();
275 return false;
277 pipe_.Set(local_handle);
278 } else if (mode & MODE_SERVER_FLAG) {
279 DCHECK(!channel_handle.pipe.handle);
280 const DWORD open_mode = PIPE_ACCESS_DUPLEX | FILE_FLAG_OVERLAPPED |
281 FILE_FLAG_FIRST_PIPE_INSTANCE;
282 pipe_name = PipeName(channel_handle.name, &client_secret_);
283 validate_client_ = !!client_secret_;
284 pipe_.Set(CreateNamedPipeW(pipe_name.c_str(),
285 open_mode,
286 PIPE_TYPE_BYTE | PIPE_READMODE_BYTE,
288 Channel::kReadBufferSize,
289 Channel::kReadBufferSize,
290 5000,
291 NULL));
292 } else if (mode & MODE_CLIENT_FLAG) {
293 DCHECK(!channel_handle.pipe.handle);
294 pipe_name = PipeName(channel_handle.name, &client_secret_);
295 pipe_.Set(CreateFileW(pipe_name.c_str(),
296 GENERIC_READ | GENERIC_WRITE,
298 NULL,
299 OPEN_EXISTING,
300 SECURITY_SQOS_PRESENT | SECURITY_IDENTIFICATION |
301 FILE_FLAG_OVERLAPPED,
302 NULL));
303 } else {
304 NOTREACHED();
307 if (!pipe_.IsValid()) {
308 // If this process is being closed, the pipe may be gone already.
309 PLOG(WARNING) << "Unable to create pipe \"" << pipe_name << "\" in "
310 << (mode & MODE_SERVER_FLAG ? "server" : "client") << " mode";
311 return false;
314 // Create the Hello message to be sent when Connect is called
315 scoped_ptr<Message> m(new Message(MSG_ROUTING_NONE,
316 HELLO_MESSAGE_TYPE,
317 IPC::Message::PRIORITY_NORMAL));
319 // Don't send the secret to the untrusted process, and don't send a secret
320 // if the value is zero (for IPC backwards compatability).
321 int32 secret = validate_client_ ? 0 : client_secret_;
322 if (!m->WriteInt(GetCurrentProcessId()) ||
323 (secret && !m->WriteUInt32(secret))) {
324 pipe_.Close();
325 return false;
328 debug_flags_ |= INIT_DONE;
330 output_queue_.push(m.release());
331 return true;
334 bool ChannelWin::Connect() {
335 DLOG_IF(WARNING, thread_check_.get()) << "Connect called more than once";
337 if (!thread_check_.get())
338 thread_check_.reset(new base::ThreadChecker());
340 if (!pipe_.IsValid())
341 return false;
343 base::MessageLoopForIO::current()->RegisterIOHandler(pipe_.Get(), this);
345 // Check to see if there is a client connected to our pipe...
346 if (waiting_connect_)
347 ProcessConnection();
349 if (!input_state_.is_pending) {
350 // Complete setup asynchronously. By not setting input_state_.is_pending
351 // to true, we indicate to OnIOCompleted that this is the special
352 // initialization signal.
353 base::MessageLoopForIO::current()->PostTask(
354 FROM_HERE,
355 base::Bind(&ChannelWin::OnIOCompleted,
356 weak_factory_.GetWeakPtr(),
357 &input_state_.context,
359 0));
362 if (!waiting_connect_)
363 ProcessOutgoingMessages(NULL, 0);
364 return true;
367 bool ChannelWin::ProcessConnection() {
368 DCHECK(thread_check_->CalledOnValidThread());
369 if (input_state_.is_pending)
370 input_state_.is_pending = false;
372 // Do we have a client connected to our pipe?
373 if (!pipe_.IsValid())
374 return false;
376 BOOL ok = ConnectNamedPipe(pipe_.Get(), &input_state_.context.overlapped);
377 debug_flags_ |= CALLED_CONNECT;
379 DWORD err = GetLastError();
380 if (ok) {
381 // Uhm, the API documentation says that this function should never
382 // return success when used in overlapped mode.
383 NOTREACHED();
384 return false;
387 switch (err) {
388 case ERROR_IO_PENDING:
389 input_state_.is_pending = true;
390 debug_flags_ |= PENDING_CONNECT;
391 break;
392 case ERROR_PIPE_CONNECTED:
393 debug_flags_ |= PIPE_CONNECTED;
394 waiting_connect_ = false;
395 break;
396 case ERROR_NO_DATA:
397 // The pipe is being closed.
398 return false;
399 default:
400 NOTREACHED();
401 return false;
404 return true;
407 bool ChannelWin::ProcessOutgoingMessages(
408 base::MessageLoopForIO::IOContext* context,
409 DWORD bytes_written) {
410 DCHECK(!waiting_connect_); // Why are we trying to send messages if there's
411 // no connection?
412 DCHECK(thread_check_->CalledOnValidThread());
414 if (output_state_.is_pending) {
415 DCHECK(context);
416 output_state_.is_pending = false;
417 if (!context || bytes_written == 0) {
418 DWORD err = GetLastError();
419 LOG(ERROR) << "pipe error: " << err;
420 return false;
422 // Message was sent.
423 CHECK(!output_queue_.empty());
424 Message* m = output_queue_.front();
425 output_queue_.pop();
426 delete m;
429 if (output_queue_.empty())
430 return true;
432 if (!pipe_.IsValid())
433 return false;
435 // Write to pipe...
436 Message* m = output_queue_.front();
437 DCHECK(m->size() <= INT_MAX);
438 debug_flags_ |= WRITE_MSG;
439 CHECK(!writing_);
440 writing_ = true;
441 write_size_ = static_cast<uint32>(m->size());
442 write_error_ = 0;
443 BOOL ok = WriteFile(pipe_.Get(),
444 m->data(),
445 write_size_,
446 NULL,
447 &output_state_.context.overlapped);
448 if (!ok) {
449 write_error_ = GetLastError();
450 if (write_error_ == ERROR_IO_PENDING) {
451 output_state_.is_pending = true;
453 DVLOG(2) << "sent pending message @" << m << " on channel @" << this
454 << " with type " << m->type();
456 return true;
458 writing_ = false;
459 last_write_error_ = write_error_;
460 LOG(ERROR) << "pipe error: " << write_error_;
461 return false;
464 DVLOG(2) << "sent message @" << m << " on channel @" << this
465 << " with type " << m->type();
467 output_state_.is_pending = true;
468 return true;
471 void ChannelWin::OnIOCompleted(
472 base::MessageLoopForIO::IOContext* context,
473 DWORD bytes_transfered,
474 DWORD error) {
475 bool ok = true;
476 DCHECK(thread_check_->CalledOnValidThread());
477 if (context == &input_state_.context) {
478 if (waiting_connect_) {
479 debug_flags_ |= CONNECT_COMPLETED;
480 if (!ProcessConnection())
481 return;
482 // We may have some messages queued up to send...
483 if (!output_queue_.empty() && !output_state_.is_pending)
484 ProcessOutgoingMessages(NULL, 0);
485 if (input_state_.is_pending)
486 return;
487 // else, fall-through and look for incoming messages...
490 // We don't support recursion through OnMessageReceived yet!
491 DCHECK(!processing_incoming_);
492 base::AutoReset<bool> auto_reset_processing_incoming(
493 &processing_incoming_, true);
495 // Process the new data.
496 if (input_state_.is_pending) {
497 // This is the normal case for everything except the initialization step.
498 debug_flags_ |= READ_COMPLETED;
499 if (debug_flags_ & WAIT_FOR_READ) {
500 CHECK(!(debug_flags_ & WAIT_FOR_READ_COMPLETE));
501 debug_flags_ |= WAIT_FOR_READ_COMPLETE;
503 input_state_.is_pending = false;
504 if (!bytes_transfered)
505 ok = false;
506 else if (pipe_.IsValid())
507 ok = AsyncReadComplete(bytes_transfered);
508 } else {
509 DCHECK(!bytes_transfered);
512 // Request more data.
513 if (ok)
514 ok = ProcessIncomingMessages();
515 } else {
516 DCHECK(context == &output_state_.context);
517 CHECK(writing_);
518 CHECK(output_state_.is_pending);
519 writing_ = false;
520 debug_flags_ |= WRITE_COMPLETED;
521 if (debug_flags_ & WAIT_FOR_WRITE) {
522 CHECK(!(debug_flags_ & WAIT_FOR_WRITE_COMPLETE));
523 debug_flags_ |= WAIT_FOR_WRITE_COMPLETE;
525 ok = ProcessOutgoingMessages(context, bytes_transfered);
527 if (!ok && pipe_.IsValid()) {
528 // We don't want to re-enter Close().
529 Close();
530 listener()->OnChannelError();
534 //------------------------------------------------------------------------------
535 // Channel's methods
537 // static
538 scoped_ptr<Channel> Channel::Create(
539 const IPC::ChannelHandle &channel_handle, Mode mode, Listener* listener) {
540 return scoped_ptr<Channel>(
541 new ChannelWin(channel_handle, mode, listener));
544 // static
545 bool Channel::IsNamedServerInitialized(const std::string& channel_id) {
546 return ChannelWin::IsNamedServerInitialized(channel_id);
549 // static
550 std::string Channel::GenerateVerifiedChannelID(const std::string& prefix) {
551 // Windows pipes can be enumerated by low-privileged processes. So, we
552 // append a strong random value after the \ character. This value is not
553 // included in the pipe name, but sent as part of the client hello, to
554 // hijacking the pipe name to spoof the client.
556 std::string id = prefix;
557 if (!id.empty())
558 id.append(".");
560 int secret;
561 do { // Guarantee we get a non-zero value.
562 secret = base::RandInt(0, std::numeric_limits<int>::max());
563 } while (secret == 0);
565 id.append(GenerateUniqueRandomChannelID());
566 return id.append(base::StringPrintf("\\%d", secret));
569 } // namespace IPC