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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.
4 
5 #include "jingle/glue/chrome_async_socket.h"
6 
7 #include <algorithm>
8 #include <cstdlib>
9 #include <cstring>
10 
11 #include "base/basictypes.h"
12 #include "base/bind.h"
13 #include "base/compiler_specific.h"
14 #include "base/logging.h"
15 #include "base/message_loop/message_loop.h"
16 #include "jingle/glue/resolving_client_socket_factory.h"
17 #include "net/base/address_list.h"
18 #include "net/base/host_port_pair.h"
19 #include "net/base/io_buffer.h"
20 #include "net/base/net_util.h"
21 #include "net/socket/client_socket_handle.h"
22 #include "net/socket/ssl_client_socket.h"
23 #include "net/socket/tcp_client_socket.h"
24 #include "net/ssl/ssl_config_service.h"
25 #include "third_party/webrtc/base/socketaddress.h"
26 
27 namespace jingle_glue {
28 
ChromeAsyncSocket(ResolvingClientSocketFactory * resolving_client_socket_factory,size_t read_buf_size,size_t write_buf_size)29 ChromeAsyncSocket::ChromeAsyncSocket(
30     ResolvingClientSocketFactory* resolving_client_socket_factory,
31     size_t read_buf_size,
32     size_t write_buf_size)
33     : resolving_client_socket_factory_(resolving_client_socket_factory),
34       state_(STATE_CLOSED),
35       error_(ERROR_NONE),
36       net_error_(net::OK),
37       read_state_(IDLE),
38       read_buf_(new net::IOBufferWithSize(read_buf_size)),
39       read_start_(0U),
40       read_end_(0U),
41       write_state_(IDLE),
42       write_buf_(new net::IOBufferWithSize(write_buf_size)),
43       write_end_(0U),
44       weak_ptr_factory_(this) {
45   DCHECK(resolving_client_socket_factory_.get());
46   DCHECK_GT(read_buf_size, 0U);
47   DCHECK_GT(write_buf_size, 0U);
48 }
49 
~ChromeAsyncSocket()50 ChromeAsyncSocket::~ChromeAsyncSocket() {}
51 
state()52 ChromeAsyncSocket::State ChromeAsyncSocket::state() {
53   return state_;
54 }
55 
error()56 ChromeAsyncSocket::Error ChromeAsyncSocket::error() {
57   return error_;
58 }
59 
GetError()60 int ChromeAsyncSocket::GetError() {
61   return net_error_;
62 }
63 
IsOpen() const64 bool ChromeAsyncSocket::IsOpen() const {
65   return (state_ == STATE_OPEN) || (state_ == STATE_TLS_OPEN);
66 }
67 
DoNonNetError(Error error)68 void ChromeAsyncSocket::DoNonNetError(Error error) {
69   DCHECK_NE(error, ERROR_NONE);
70   DCHECK_NE(error, ERROR_WINSOCK);
71   error_ = error;
72   net_error_ = net::OK;
73 }
74 
DoNetError(net::Error net_error)75 void ChromeAsyncSocket::DoNetError(net::Error net_error) {
76   error_ = ERROR_WINSOCK;
77   net_error_ = net_error;
78 }
79 
DoNetErrorFromStatus(int status)80 void ChromeAsyncSocket::DoNetErrorFromStatus(int status) {
81   DCHECK_LT(status, net::OK);
82   DoNetError(static_cast<net::Error>(status));
83 }
84 
85 // STATE_CLOSED -> STATE_CONNECTING
86 
Connect(const rtc::SocketAddress & address)87 bool ChromeAsyncSocket::Connect(const rtc::SocketAddress& address) {
88   if (state_ != STATE_CLOSED) {
89     LOG(DFATAL) << "Connect() called on non-closed socket";
90     DoNonNetError(ERROR_WRONGSTATE);
91     return false;
92   }
93   if (address.hostname().empty() || address.port() == 0) {
94     DoNonNetError(ERROR_DNS);
95     return false;
96   }
97 
98   DCHECK_EQ(state_, buzz::AsyncSocket::STATE_CLOSED);
99   DCHECK_EQ(read_state_, IDLE);
100   DCHECK_EQ(write_state_, IDLE);
101 
102   state_ = STATE_CONNECTING;
103 
104   DCHECK(!weak_ptr_factory_.HasWeakPtrs());
105   weak_ptr_factory_.InvalidateWeakPtrs();
106 
107   net::HostPortPair dest_host_port_pair(address.hostname(), address.port());
108 
109   transport_socket_ =
110       resolving_client_socket_factory_->CreateTransportClientSocket(
111           dest_host_port_pair);
112   int status = transport_socket_->Connect(
113       base::Bind(&ChromeAsyncSocket::ProcessConnectDone,
114                  weak_ptr_factory_.GetWeakPtr()));
115   if (status != net::ERR_IO_PENDING) {
116     // We defer execution of ProcessConnectDone instead of calling it
117     // directly here as the caller may not expect an error/close to
118     // happen here.  This is okay, as from the caller's point of view,
119     // the connect always happens asynchronously.
120     base::MessageLoop* message_loop = base::MessageLoop::current();
121     CHECK(message_loop);
122     message_loop->PostTask(
123         FROM_HERE,
124         base::Bind(&ChromeAsyncSocket::ProcessConnectDone,
125                    weak_ptr_factory_.GetWeakPtr(), status));
126   }
127   return true;
128 }
129 
130 // STATE_CONNECTING -> STATE_OPEN
131 // read_state_ == IDLE -> read_state_ == POSTED (via PostDoRead())
132 
ProcessConnectDone(int status)133 void ChromeAsyncSocket::ProcessConnectDone(int status) {
134   DCHECK_NE(status, net::ERR_IO_PENDING);
135   DCHECK_EQ(read_state_, IDLE);
136   DCHECK_EQ(write_state_, IDLE);
137   DCHECK_EQ(state_, STATE_CONNECTING);
138   if (status != net::OK) {
139     DoNetErrorFromStatus(status);
140     DoClose();
141     return;
142   }
143   state_ = STATE_OPEN;
144   PostDoRead();
145   // Write buffer should be empty.
146   DCHECK_EQ(write_end_, 0U);
147   SignalConnected();
148 }
149 
150 // read_state_ == IDLE -> read_state_ == POSTED
151 
PostDoRead()152 void ChromeAsyncSocket::PostDoRead() {
153   DCHECK(IsOpen());
154   DCHECK_EQ(read_state_, IDLE);
155   DCHECK_EQ(read_start_, 0U);
156   DCHECK_EQ(read_end_, 0U);
157   base::MessageLoop* message_loop = base::MessageLoop::current();
158   CHECK(message_loop);
159   message_loop->PostTask(
160       FROM_HERE,
161       base::Bind(&ChromeAsyncSocket::DoRead,
162                  weak_ptr_factory_.GetWeakPtr()));
163   read_state_ = POSTED;
164 }
165 
166 // read_state_ == POSTED -> read_state_ == PENDING
167 
DoRead()168 void ChromeAsyncSocket::DoRead() {
169   DCHECK(IsOpen());
170   DCHECK_EQ(read_state_, POSTED);
171   DCHECK_EQ(read_start_, 0U);
172   DCHECK_EQ(read_end_, 0U);
173   // Once we call Read(), we cannot call StartTls() until the read
174   // finishes.  This is okay, as StartTls() is called only from a read
175   // handler (i.e., after a read finishes and before another read is
176   // done).
177   int status =
178       transport_socket_->Read(
179           read_buf_.get(), read_buf_->size(),
180           base::Bind(&ChromeAsyncSocket::ProcessReadDone,
181                      weak_ptr_factory_.GetWeakPtr()));
182   read_state_ = PENDING;
183   if (status != net::ERR_IO_PENDING) {
184     ProcessReadDone(status);
185   }
186 }
187 
188 // read_state_ == PENDING -> read_state_ == IDLE
189 
ProcessReadDone(int status)190 void ChromeAsyncSocket::ProcessReadDone(int status) {
191   DCHECK_NE(status, net::ERR_IO_PENDING);
192   DCHECK(IsOpen());
193   DCHECK_EQ(read_state_, PENDING);
194   DCHECK_EQ(read_start_, 0U);
195   DCHECK_EQ(read_end_, 0U);
196   read_state_ = IDLE;
197   if (status > 0) {
198     read_end_ = static_cast<size_t>(status);
199     SignalRead();
200   } else if (status == 0) {
201     // Other side closed the connection.
202     error_ = ERROR_NONE;
203     net_error_ = net::OK;
204     DoClose();
205   } else {  // status < 0
206     DoNetErrorFromStatus(status);
207     DoClose();
208   }
209 }
210 
211 // (maybe) read_state_ == IDLE -> read_state_ == POSTED (via
212 // PostDoRead())
213 
Read(char * data,size_t len,size_t * len_read)214 bool ChromeAsyncSocket::Read(char* data, size_t len, size_t* len_read) {
215   if (!IsOpen() && (state_ != STATE_TLS_CONNECTING)) {
216     // Read() may be called on a closed socket if a previous read
217     // causes a socket close (e.g., client sends wrong password and
218     // server terminates connection).
219     //
220     // TODO(akalin): Fix handling of this on the libjingle side.
221     if (state_ != STATE_CLOSED) {
222       LOG(DFATAL) << "Read() called on non-open non-tls-connecting socket";
223     }
224     DoNonNetError(ERROR_WRONGSTATE);
225     return false;
226   }
227   DCHECK_LE(read_start_, read_end_);
228   if ((state_ == STATE_TLS_CONNECTING) || read_end_ == 0U) {
229     if (state_ == STATE_TLS_CONNECTING) {
230       DCHECK_EQ(read_state_, IDLE);
231       DCHECK_EQ(read_end_, 0U);
232     } else {
233       DCHECK_NE(read_state_, IDLE);
234     }
235     *len_read = 0;
236     return true;
237   }
238   DCHECK_EQ(read_state_, IDLE);
239   *len_read = std::min(len, read_end_ - read_start_);
240   DCHECK_GT(*len_read, 0U);
241   std::memcpy(data, read_buf_->data() + read_start_, *len_read);
242   read_start_ += *len_read;
243   if (read_start_ == read_end_) {
244     read_start_ = 0U;
245     read_end_ = 0U;
246     // We defer execution of DoRead() here for similar reasons as
247     // ProcessConnectDone().
248     PostDoRead();
249   }
250   return true;
251 }
252 
253 // (maybe) write_state_ == IDLE -> write_state_ == POSTED (via
254 // PostDoWrite())
255 
Write(const char * data,size_t len)256 bool ChromeAsyncSocket::Write(const char* data, size_t len) {
257   if (!IsOpen() && (state_ != STATE_TLS_CONNECTING)) {
258     LOG(DFATAL) << "Write() called on non-open non-tls-connecting socket";
259     DoNonNetError(ERROR_WRONGSTATE);
260     return false;
261   }
262   // TODO(akalin): Avoid this check by modifying the interface to have
263   // a "ready for writing" signal.
264   if ((static_cast<size_t>(write_buf_->size()) - write_end_) < len) {
265     LOG(DFATAL) << "queueing " << len << " bytes would exceed the "
266                 << "max write buffer size = " << write_buf_->size()
267                 << " by " << (len - write_buf_->size()) << " bytes";
268     DoNetError(net::ERR_INSUFFICIENT_RESOURCES);
269     return false;
270   }
271   std::memcpy(write_buf_->data() + write_end_, data, len);
272   write_end_ += len;
273   // If we're TLS-connecting, the write buffer will get flushed once
274   // the TLS-connect finishes.  Otherwise, start writing if we're not
275   // already writing and we have something to write.
276   if ((state_ != STATE_TLS_CONNECTING) &&
277       (write_state_ == IDLE) && (write_end_ > 0U)) {
278     // We defer execution of DoWrite() here for similar reasons as
279     // ProcessConnectDone().
280     PostDoWrite();
281   }
282   return true;
283 }
284 
285 // write_state_ == IDLE -> write_state_ == POSTED
286 
PostDoWrite()287 void ChromeAsyncSocket::PostDoWrite() {
288   DCHECK(IsOpen());
289   DCHECK_EQ(write_state_, IDLE);
290   DCHECK_GT(write_end_, 0U);
291   base::MessageLoop* message_loop = base::MessageLoop::current();
292   CHECK(message_loop);
293   message_loop->PostTask(
294       FROM_HERE,
295       base::Bind(&ChromeAsyncSocket::DoWrite,
296                  weak_ptr_factory_.GetWeakPtr()));
297   write_state_ = POSTED;
298 }
299 
300 // write_state_ == POSTED -> write_state_ == PENDING
301 
DoWrite()302 void ChromeAsyncSocket::DoWrite() {
303   DCHECK(IsOpen());
304   DCHECK_EQ(write_state_, POSTED);
305   DCHECK_GT(write_end_, 0U);
306   // Once we call Write(), we cannot call StartTls() until the write
307   // finishes.  This is okay, as StartTls() is called only after we
308   // have received a reply to a message we sent to the server and
309   // before we send the next message.
310   int status =
311       transport_socket_->Write(
312           write_buf_.get(), write_end_,
313           base::Bind(&ChromeAsyncSocket::ProcessWriteDone,
314                      weak_ptr_factory_.GetWeakPtr()));
315   write_state_ = PENDING;
316   if (status != net::ERR_IO_PENDING) {
317     ProcessWriteDone(status);
318   }
319 }
320 
321 // write_state_ == PENDING -> write_state_ == IDLE or POSTED (the
322 // latter via PostDoWrite())
323 
ProcessWriteDone(int status)324 void ChromeAsyncSocket::ProcessWriteDone(int status) {
325   DCHECK_NE(status, net::ERR_IO_PENDING);
326   DCHECK(IsOpen());
327   DCHECK_EQ(write_state_, PENDING);
328   DCHECK_GT(write_end_, 0U);
329   write_state_ = IDLE;
330   if (status < net::OK) {
331     DoNetErrorFromStatus(status);
332     DoClose();
333     return;
334   }
335   size_t written = static_cast<size_t>(status);
336   if (written > write_end_) {
337     LOG(DFATAL) << "bytes written = " << written
338                 << " exceeds bytes requested = " << write_end_;
339     DoNetError(net::ERR_UNEXPECTED);
340     DoClose();
341     return;
342   }
343   // TODO(akalin): Figure out a better way to do this; perhaps a queue
344   // of DrainableIOBuffers.  This'll also allow us to not have an
345   // artificial buffer size limit.
346   std::memmove(write_buf_->data(),
347                write_buf_->data() + written,
348                write_end_ - written);
349   write_end_ -= written;
350   if (write_end_ > 0U) {
351     PostDoWrite();
352   }
353 }
354 
355 // * -> STATE_CLOSED
356 
Close()357 bool ChromeAsyncSocket::Close() {
358   DoClose();
359   return true;
360 }
361 
362 // (not STATE_CLOSED) -> STATE_CLOSED
363 
DoClose()364 void ChromeAsyncSocket::DoClose() {
365   weak_ptr_factory_.InvalidateWeakPtrs();
366   if (transport_socket_.get()) {
367     transport_socket_->Disconnect();
368   }
369   transport_socket_.reset();
370   read_state_ = IDLE;
371   read_start_ = 0U;
372   read_end_ = 0U;
373   write_state_ = IDLE;
374   write_end_ = 0U;
375   if (state_ != STATE_CLOSED) {
376     state_ = STATE_CLOSED;
377     SignalClosed();
378   }
379   // Reset error variables after SignalClosed() so slots connected
380   // to it can read it.
381   error_ = ERROR_NONE;
382   net_error_ = net::OK;
383 }
384 
385 // STATE_OPEN -> STATE_TLS_CONNECTING
386 
StartTls(const std::string & domain_name)387 bool ChromeAsyncSocket::StartTls(const std::string& domain_name) {
388   if ((state_ != STATE_OPEN) || (read_state_ == PENDING) ||
389       (write_state_ != IDLE)) {
390     LOG(DFATAL) << "StartTls() called in wrong state";
391     DoNonNetError(ERROR_WRONGSTATE);
392     return false;
393   }
394 
395   state_ = STATE_TLS_CONNECTING;
396   read_state_ = IDLE;
397   read_start_ = 0U;
398   read_end_ = 0U;
399   DCHECK_EQ(write_end_, 0U);
400 
401   // Clear out any posted DoRead() tasks.
402   weak_ptr_factory_.InvalidateWeakPtrs();
403 
404   DCHECK(transport_socket_.get());
405   scoped_ptr<net::ClientSocketHandle> socket_handle(
406       new net::ClientSocketHandle());
407   socket_handle->SetSocket(transport_socket_.Pass());
408   transport_socket_ =
409       resolving_client_socket_factory_->CreateSSLClientSocket(
410           socket_handle.Pass(), net::HostPortPair(domain_name, 443));
411   int status = transport_socket_->Connect(
412       base::Bind(&ChromeAsyncSocket::ProcessSSLConnectDone,
413                  weak_ptr_factory_.GetWeakPtr()));
414   if (status != net::ERR_IO_PENDING) {
415     base::MessageLoop* message_loop = base::MessageLoop::current();
416     CHECK(message_loop);
417     message_loop->PostTask(
418         FROM_HERE,
419         base::Bind(&ChromeAsyncSocket::ProcessSSLConnectDone,
420                    weak_ptr_factory_.GetWeakPtr(), status));
421   }
422   return true;
423 }
424 
425 // STATE_TLS_CONNECTING -> STATE_TLS_OPEN
426 // read_state_ == IDLE -> read_state_ == POSTED (via PostDoRead())
427 // (maybe) write_state_ == IDLE -> write_state_ == POSTED (via
428 // PostDoWrite())
429 
ProcessSSLConnectDone(int status)430 void ChromeAsyncSocket::ProcessSSLConnectDone(int status) {
431   DCHECK_NE(status, net::ERR_IO_PENDING);
432   DCHECK_EQ(state_, STATE_TLS_CONNECTING);
433   DCHECK_EQ(read_state_, IDLE);
434   DCHECK_EQ(read_start_, 0U);
435   DCHECK_EQ(read_end_, 0U);
436   DCHECK_EQ(write_state_, IDLE);
437   if (status != net::OK) {
438     DoNetErrorFromStatus(status);
439     DoClose();
440     return;
441   }
442   state_ = STATE_TLS_OPEN;
443   PostDoRead();
444   if (write_end_ > 0U) {
445     PostDoWrite();
446   }
447   SignalSSLConnected();
448 }
449 
450 }  // namespace jingle_glue
451