2018269dc3
> Update talk to 58113193 together with https://webrtc-codereview.appspot.com/5309005/. > > R=mallinath@webrtc.org, niklas.enbom@webrtc.org > > Review URL: https://webrtc-codereview.appspot.com/5719004 TBR=wu@webrtc.org Review URL: https://webrtc-codereview.appspot.com/5729004 git-svn-id: http://webrtc.googlecode.com/svn/trunk@5275 4adac7df-926f-26a2-2b94-8c16560cd09d
601 lines
18 KiB
C++
601 lines
18 KiB
C++
/*
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* libjingle
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* Copyright 2004--2006, Google Inc.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are met:
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*
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* 1. Redistributions of source code must retain the above copyright notice,
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* this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright notice,
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* this list of conditions and the following disclaimer in the documentation
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* and/or other materials provided with the distribution.
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* 3. The name of the author may not be used to endorse or promote products
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* derived from this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
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* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
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* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO
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* EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
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* OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
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* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
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* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
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* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#include <string>
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#include "talk/base/basictypes.h"
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#include "talk/base/common.h"
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#include "talk/base/logging.h"
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#include "talk/base/scoped_ptr.h"
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#include "talk/base/stringutils.h"
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#include "talk/p2p/base/candidate.h"
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#include "talk/p2p/base/transportchannel.h"
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#include "pseudotcpchannel.h"
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using namespace talk_base;
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namespace cricket {
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extern const talk_base::ConstantLabel SESSION_STATES[];
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// MSG_WK_* - worker thread messages
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// MSG_ST_* - stream thread messages
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// MSG_SI_* - signal thread messages
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enum {
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MSG_WK_CLOCK = 1,
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MSG_WK_PURGE,
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MSG_ST_EVENT,
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MSG_SI_DESTROYCHANNEL,
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MSG_SI_DESTROY,
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};
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struct EventData : public MessageData {
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int event, error;
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EventData(int ev, int err = 0) : event(ev), error(err) { }
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};
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///////////////////////////////////////////////////////////////////////////////
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// PseudoTcpChannel::InternalStream
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///////////////////////////////////////////////////////////////////////////////
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class PseudoTcpChannel::InternalStream : public StreamInterface {
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public:
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InternalStream(PseudoTcpChannel* parent);
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virtual ~InternalStream();
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virtual StreamState GetState() const;
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virtual StreamResult Read(void* buffer, size_t buffer_len,
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size_t* read, int* error);
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virtual StreamResult Write(const void* data, size_t data_len,
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size_t* written, int* error);
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virtual void Close();
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private:
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// parent_ is accessed and modified exclusively on the event thread, to
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// avoid thread contention. This means that the PseudoTcpChannel cannot go
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// away until after it receives a Close() from TunnelStream.
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PseudoTcpChannel* parent_;
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};
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///////////////////////////////////////////////////////////////////////////////
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// PseudoTcpChannel
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// Member object lifetime summaries:
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// session_ - passed in constructor, cleared when channel_ goes away.
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// channel_ - created in Connect, destroyed when session_ or tcp_ goes away.
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// tcp_ - created in Connect, destroyed when channel_ goes away, or connection
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// closes.
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// worker_thread_ - created when channel_ is created, purged when channel_ is
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// destroyed.
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// stream_ - created in GetStream, destroyed by owner at arbitrary time.
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// this - created in constructor, destroyed when worker_thread_ and stream_
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// are both gone.
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///////////////////////////////////////////////////////////////////////////////
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//
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// Signal thread methods
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//
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PseudoTcpChannel::PseudoTcpChannel(Thread* stream_thread, Session* session)
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: signal_thread_(session->session_manager()->signaling_thread()),
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worker_thread_(NULL),
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stream_thread_(stream_thread),
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session_(session), channel_(NULL), tcp_(NULL), stream_(NULL),
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stream_readable_(false), pending_read_event_(false),
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ready_to_connect_(false) {
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ASSERT(signal_thread_->IsCurrent());
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ASSERT(NULL != session_);
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}
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PseudoTcpChannel::~PseudoTcpChannel() {
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ASSERT(signal_thread_->IsCurrent());
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ASSERT(worker_thread_ == NULL);
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ASSERT(session_ == NULL);
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ASSERT(channel_ == NULL);
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ASSERT(stream_ == NULL);
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ASSERT(tcp_ == NULL);
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}
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bool PseudoTcpChannel::Connect(const std::string& content_name,
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const std::string& channel_name,
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int component) {
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ASSERT(signal_thread_->IsCurrent());
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CritScope lock(&cs_);
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if (channel_)
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return false;
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ASSERT(session_ != NULL);
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worker_thread_ = session_->session_manager()->worker_thread();
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content_name_ = content_name;
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channel_ = session_->CreateChannel(
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content_name, channel_name, component);
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channel_name_ = channel_name;
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channel_->SetOption(Socket::OPT_DONTFRAGMENT, 1);
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channel_->SignalDestroyed.connect(this,
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&PseudoTcpChannel::OnChannelDestroyed);
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channel_->SignalWritableState.connect(this,
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&PseudoTcpChannel::OnChannelWritableState);
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channel_->SignalReadPacket.connect(this,
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&PseudoTcpChannel::OnChannelRead);
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channel_->SignalRouteChange.connect(this,
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&PseudoTcpChannel::OnChannelConnectionChanged);
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ASSERT(tcp_ == NULL);
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tcp_ = new PseudoTcp(this, 0);
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if (session_->initiator()) {
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// Since we may try several protocols and network adapters that won't work,
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// waiting until we get our first writable notification before initiating
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// TCP negotiation.
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ready_to_connect_ = true;
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}
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return true;
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}
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StreamInterface* PseudoTcpChannel::GetStream() {
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ASSERT(signal_thread_->IsCurrent());
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CritScope lock(&cs_);
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ASSERT(NULL != session_);
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if (!stream_)
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stream_ = new PseudoTcpChannel::InternalStream(this);
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//TODO("should we disallow creation of new stream at some point?");
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return stream_;
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}
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void PseudoTcpChannel::OnChannelDestroyed(TransportChannel* channel) {
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LOG_F(LS_INFO) << "(" << channel->component() << ")";
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ASSERT(signal_thread_->IsCurrent());
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CritScope lock(&cs_);
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ASSERT(channel == channel_);
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signal_thread_->Clear(this, MSG_SI_DESTROYCHANNEL);
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// When MSG_WK_PURGE is received, we know there will be no more messages from
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// the worker thread.
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worker_thread_->Clear(this, MSG_WK_CLOCK);
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worker_thread_->Post(this, MSG_WK_PURGE);
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session_ = NULL;
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channel_ = NULL;
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if ((stream_ != NULL)
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&& ((tcp_ == NULL) || (tcp_->State() != PseudoTcp::TCP_CLOSED)))
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stream_thread_->Post(this, MSG_ST_EVENT, new EventData(SE_CLOSE, 0));
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if (tcp_) {
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tcp_->Close(true);
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AdjustClock();
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}
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SignalChannelClosed(this);
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}
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void PseudoTcpChannel::OnSessionTerminate(Session* session) {
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// When the session terminates before we even connected
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CritScope lock(&cs_);
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if (session_ != NULL && channel_ == NULL) {
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ASSERT(session == session_);
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ASSERT(worker_thread_ == NULL);
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ASSERT(tcp_ == NULL);
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LOG(LS_INFO) << "Destroying unconnected PseudoTcpChannel";
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session_ = NULL;
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if (stream_ != NULL)
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stream_thread_->Post(this, MSG_ST_EVENT, new EventData(SE_CLOSE, -1));
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}
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// Even though session_ is being destroyed, we mustn't clear the pointer,
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// since we'll need it to tear down channel_.
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//
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// TODO: Is it always the case that if channel_ != NULL then we'll get
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// a channel-destroyed notification?
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}
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void PseudoTcpChannel::GetOption(PseudoTcp::Option opt, int* value) {
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ASSERT(signal_thread_->IsCurrent());
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CritScope lock(&cs_);
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ASSERT(tcp_ != NULL);
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tcp_->GetOption(opt, value);
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}
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void PseudoTcpChannel::SetOption(PseudoTcp::Option opt, int value) {
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ASSERT(signal_thread_->IsCurrent());
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CritScope lock(&cs_);
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ASSERT(tcp_ != NULL);
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tcp_->SetOption(opt, value);
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}
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//
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// Stream thread methods
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//
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StreamState PseudoTcpChannel::GetState() const {
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ASSERT(stream_ != NULL && stream_thread_->IsCurrent());
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CritScope lock(&cs_);
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if (!session_)
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return SS_CLOSED;
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if (!tcp_)
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return SS_OPENING;
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switch (tcp_->State()) {
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case PseudoTcp::TCP_LISTEN:
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case PseudoTcp::TCP_SYN_SENT:
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case PseudoTcp::TCP_SYN_RECEIVED:
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return SS_OPENING;
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case PseudoTcp::TCP_ESTABLISHED:
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return SS_OPEN;
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case PseudoTcp::TCP_CLOSED:
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default:
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return SS_CLOSED;
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}
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}
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StreamResult PseudoTcpChannel::Read(void* buffer, size_t buffer_len,
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size_t* read, int* error) {
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ASSERT(stream_ != NULL && stream_thread_->IsCurrent());
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CritScope lock(&cs_);
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if (!tcp_)
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return SR_BLOCK;
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stream_readable_ = false;
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int result = tcp_->Recv(static_cast<char*>(buffer), buffer_len);
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//LOG_F(LS_VERBOSE) << "Recv returned: " << result;
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if (result > 0) {
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if (read)
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*read = result;
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// PseudoTcp doesn't currently support repeated Readable signals. Simulate
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// them here.
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stream_readable_ = true;
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if (!pending_read_event_) {
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pending_read_event_ = true;
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stream_thread_->Post(this, MSG_ST_EVENT, new EventData(SE_READ), true);
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}
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return SR_SUCCESS;
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} else if (IsBlockingError(tcp_->GetError())) {
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return SR_BLOCK;
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} else {
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if (error)
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*error = tcp_->GetError();
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return SR_ERROR;
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}
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// This spot is never reached.
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}
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StreamResult PseudoTcpChannel::Write(const void* data, size_t data_len,
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size_t* written, int* error) {
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ASSERT(stream_ != NULL && stream_thread_->IsCurrent());
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CritScope lock(&cs_);
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if (!tcp_)
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return SR_BLOCK;
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int result = tcp_->Send(static_cast<const char*>(data), data_len);
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//LOG_F(LS_VERBOSE) << "Send returned: " << result;
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if (result > 0) {
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if (written)
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*written = result;
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return SR_SUCCESS;
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} else if (IsBlockingError(tcp_->GetError())) {
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return SR_BLOCK;
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} else {
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if (error)
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*error = tcp_->GetError();
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return SR_ERROR;
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}
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// This spot is never reached.
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}
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void PseudoTcpChannel::Close() {
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ASSERT(stream_ != NULL && stream_thread_->IsCurrent());
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CritScope lock(&cs_);
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stream_ = NULL;
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// Clear out any pending event notifications
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stream_thread_->Clear(this, MSG_ST_EVENT);
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if (tcp_) {
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tcp_->Close(false);
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AdjustClock();
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} else {
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CheckDestroy();
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}
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}
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//
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// Worker thread methods
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//
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void PseudoTcpChannel::OnChannelWritableState(TransportChannel* channel) {
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LOG_F(LS_VERBOSE) << "[" << channel_name_ << "]";
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ASSERT(worker_thread_->IsCurrent());
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CritScope lock(&cs_);
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if (!channel_) {
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LOG_F(LS_WARNING) << "NULL channel";
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return;
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}
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ASSERT(channel == channel_);
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if (!tcp_) {
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LOG_F(LS_WARNING) << "NULL tcp";
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return;
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}
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if (!ready_to_connect_ || !channel->writable())
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return;
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ready_to_connect_ = false;
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tcp_->Connect();
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AdjustClock();
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}
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void PseudoTcpChannel::OnChannelRead(TransportChannel* channel,
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const char* data, size_t size, int flags) {
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//LOG_F(LS_VERBOSE) << "(" << size << ")";
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ASSERT(worker_thread_->IsCurrent());
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CritScope lock(&cs_);
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if (!channel_) {
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LOG_F(LS_WARNING) << "NULL channel";
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return;
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}
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ASSERT(channel == channel_);
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if (!tcp_) {
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LOG_F(LS_WARNING) << "NULL tcp";
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return;
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}
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tcp_->NotifyPacket(data, size);
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AdjustClock();
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}
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void PseudoTcpChannel::OnChannelConnectionChanged(TransportChannel* channel,
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const Candidate& candidate) {
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LOG_F(LS_VERBOSE) << "[" << channel_name_ << "]";
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ASSERT(worker_thread_->IsCurrent());
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CritScope lock(&cs_);
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if (!channel_) {
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LOG_F(LS_WARNING) << "NULL channel";
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return;
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}
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ASSERT(channel == channel_);
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if (!tcp_) {
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LOG_F(LS_WARNING) << "NULL tcp";
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return;
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}
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uint16 mtu = 1280; // safe default
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int family = candidate.address().family();
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Socket* socket =
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worker_thread_->socketserver()->CreateAsyncSocket(family, SOCK_DGRAM);
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talk_base::scoped_ptr<Socket> mtu_socket(socket);
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if (socket == NULL) {
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LOG_F(LS_WARNING) << "Couldn't create socket while estimating MTU.";
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} else {
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if (mtu_socket->Connect(candidate.address()) < 0 ||
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mtu_socket->EstimateMTU(&mtu) < 0) {
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LOG_F(LS_WARNING) << "Failed to estimate MTU, error="
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<< mtu_socket->GetError();
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}
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}
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LOG_F(LS_VERBOSE) << "Using MTU of " << mtu << " bytes";
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tcp_->NotifyMTU(mtu);
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AdjustClock();
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}
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void PseudoTcpChannel::OnTcpOpen(PseudoTcp* tcp) {
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LOG_F(LS_VERBOSE) << "[" << channel_name_ << "]";
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ASSERT(cs_.CurrentThreadIsOwner());
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ASSERT(worker_thread_->IsCurrent());
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ASSERT(tcp == tcp_);
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if (stream_) {
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stream_readable_ = true;
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pending_read_event_ = true;
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stream_thread_->Post(this, MSG_ST_EVENT,
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new EventData(SE_OPEN | SE_READ | SE_WRITE));
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}
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}
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void PseudoTcpChannel::OnTcpReadable(PseudoTcp* tcp) {
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//LOG_F(LS_VERBOSE);
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ASSERT(cs_.CurrentThreadIsOwner());
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ASSERT(worker_thread_->IsCurrent());
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ASSERT(tcp == tcp_);
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if (stream_) {
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stream_readable_ = true;
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if (!pending_read_event_) {
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pending_read_event_ = true;
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stream_thread_->Post(this, MSG_ST_EVENT, new EventData(SE_READ));
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}
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}
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}
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void PseudoTcpChannel::OnTcpWriteable(PseudoTcp* tcp) {
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//LOG_F(LS_VERBOSE);
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ASSERT(cs_.CurrentThreadIsOwner());
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ASSERT(worker_thread_->IsCurrent());
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ASSERT(tcp == tcp_);
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if (stream_)
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stream_thread_->Post(this, MSG_ST_EVENT, new EventData(SE_WRITE));
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}
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void PseudoTcpChannel::OnTcpClosed(PseudoTcp* tcp, uint32 nError) {
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LOG_F(LS_VERBOSE) << "[" << channel_name_ << "]";
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ASSERT(cs_.CurrentThreadIsOwner());
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ASSERT(worker_thread_->IsCurrent());
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ASSERT(tcp == tcp_);
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if (stream_)
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stream_thread_->Post(this, MSG_ST_EVENT, new EventData(SE_CLOSE, nError));
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}
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//
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// Multi-thread methods
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//
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void PseudoTcpChannel::OnMessage(Message* pmsg) {
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if (pmsg->message_id == MSG_WK_CLOCK) {
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ASSERT(worker_thread_->IsCurrent());
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//LOG(LS_INFO) << "PseudoTcpChannel::OnMessage(MSG_WK_CLOCK)";
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CritScope lock(&cs_);
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if (tcp_) {
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tcp_->NotifyClock(PseudoTcp::Now());
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AdjustClock(false);
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}
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} else if (pmsg->message_id == MSG_WK_PURGE) {
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ASSERT(worker_thread_->IsCurrent());
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LOG_F(LS_INFO) << "(MSG_WK_PURGE)";
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// At this point, we know there are no additional worker thread messages.
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CritScope lock(&cs_);
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ASSERT(NULL == session_);
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ASSERT(NULL == channel_);
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worker_thread_ = NULL;
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CheckDestroy();
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} else if (pmsg->message_id == MSG_ST_EVENT) {
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ASSERT(stream_thread_->IsCurrent());
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//LOG(LS_INFO) << "PseudoTcpChannel::OnMessage(MSG_ST_EVENT, "
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// << data->event << ", " << data->error << ")";
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ASSERT(stream_ != NULL);
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EventData* data = static_cast<EventData*>(pmsg->pdata);
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if (data->event & SE_READ) {
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CritScope lock(&cs_);
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pending_read_event_ = false;
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}
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stream_->SignalEvent(stream_, data->event, data->error);
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delete data;
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} else if (pmsg->message_id == MSG_SI_DESTROYCHANNEL) {
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ASSERT(signal_thread_->IsCurrent());
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LOG_F(LS_INFO) << "(MSG_SI_DESTROYCHANNEL)";
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ASSERT(session_ != NULL);
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ASSERT(channel_ != NULL);
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session_->DestroyChannel(content_name_, channel_->component());
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} else if (pmsg->message_id == MSG_SI_DESTROY) {
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ASSERT(signal_thread_->IsCurrent());
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LOG_F(LS_INFO) << "(MSG_SI_DESTROY)";
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// The message queue is empty, so it is safe to destroy ourselves.
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delete this;
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} else {
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ASSERT(false);
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}
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}
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IPseudoTcpNotify::WriteResult PseudoTcpChannel::TcpWritePacket(
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PseudoTcp* tcp, const char* buffer, size_t len) {
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ASSERT(cs_.CurrentThreadIsOwner());
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ASSERT(tcp == tcp_);
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ASSERT(NULL != channel_);
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|
int sent = channel_->SendPacket(buffer, len, talk_base::DSCP_NO_CHANGE);
|
|
if (sent > 0) {
|
|
//LOG_F(LS_VERBOSE) << "(" << sent << ") Sent";
|
|
return IPseudoTcpNotify::WR_SUCCESS;
|
|
} else if (IsBlockingError(channel_->GetError())) {
|
|
LOG_F(LS_VERBOSE) << "Blocking";
|
|
return IPseudoTcpNotify::WR_SUCCESS;
|
|
} else if (channel_->GetError() == EMSGSIZE) {
|
|
LOG_F(LS_ERROR) << "EMSGSIZE";
|
|
return IPseudoTcpNotify::WR_TOO_LARGE;
|
|
} else {
|
|
PLOG(LS_ERROR, channel_->GetError()) << "PseudoTcpChannel::TcpWritePacket";
|
|
ASSERT(false);
|
|
return IPseudoTcpNotify::WR_FAIL;
|
|
}
|
|
}
|
|
|
|
void PseudoTcpChannel::AdjustClock(bool clear) {
|
|
ASSERT(cs_.CurrentThreadIsOwner());
|
|
ASSERT(NULL != tcp_);
|
|
|
|
long timeout = 0;
|
|
if (tcp_->GetNextClock(PseudoTcp::Now(), timeout)) {
|
|
ASSERT(NULL != channel_);
|
|
// Reset the next clock, by clearing the old and setting a new one.
|
|
if (clear)
|
|
worker_thread_->Clear(this, MSG_WK_CLOCK);
|
|
worker_thread_->PostDelayed(_max(timeout, 0L), this, MSG_WK_CLOCK);
|
|
return;
|
|
}
|
|
|
|
delete tcp_;
|
|
tcp_ = NULL;
|
|
ready_to_connect_ = false;
|
|
|
|
if (channel_) {
|
|
// If TCP has failed, no need for channel_ anymore
|
|
signal_thread_->Post(this, MSG_SI_DESTROYCHANNEL);
|
|
}
|
|
}
|
|
|
|
void PseudoTcpChannel::CheckDestroy() {
|
|
ASSERT(cs_.CurrentThreadIsOwner());
|
|
if ((worker_thread_ != NULL) || (stream_ != NULL))
|
|
return;
|
|
signal_thread_->Post(this, MSG_SI_DESTROY);
|
|
}
|
|
|
|
///////////////////////////////////////////////////////////////////////////////
|
|
// PseudoTcpChannel::InternalStream
|
|
///////////////////////////////////////////////////////////////////////////////
|
|
|
|
PseudoTcpChannel::InternalStream::InternalStream(PseudoTcpChannel* parent)
|
|
: parent_(parent) {
|
|
}
|
|
|
|
PseudoTcpChannel::InternalStream::~InternalStream() {
|
|
Close();
|
|
}
|
|
|
|
StreamState PseudoTcpChannel::InternalStream::GetState() const {
|
|
if (!parent_)
|
|
return SS_CLOSED;
|
|
return parent_->GetState();
|
|
}
|
|
|
|
StreamResult PseudoTcpChannel::InternalStream::Read(
|
|
void* buffer, size_t buffer_len, size_t* read, int* error) {
|
|
if (!parent_) {
|
|
if (error)
|
|
*error = ENOTCONN;
|
|
return SR_ERROR;
|
|
}
|
|
return parent_->Read(buffer, buffer_len, read, error);
|
|
}
|
|
|
|
StreamResult PseudoTcpChannel::InternalStream::Write(
|
|
const void* data, size_t data_len, size_t* written, int* error) {
|
|
if (!parent_) {
|
|
if (error)
|
|
*error = ENOTCONN;
|
|
return SR_ERROR;
|
|
}
|
|
return parent_->Write(data, data_len, written, error);
|
|
}
|
|
|
|
void PseudoTcpChannel::InternalStream::Close() {
|
|
if (!parent_)
|
|
return;
|
|
parent_->Close();
|
|
parent_ = NULL;
|
|
}
|
|
|
|
///////////////////////////////////////////////////////////////////////////////
|
|
|
|
} // namespace cricket
|