mirror of
https://github.com/debauchee/barrier.git
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545 lines
10 KiB
C++
545 lines
10 KiB
C++
/*
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* synergy -- mouse and keyboard sharing utility
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* Copyright (C) 2002 Chris Schoeneman
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*
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* This package is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* found in the file COPYING that should have accompanied this file.
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*
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* This package is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*/
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#include "CTCPSocket.h"
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#include "CNetworkAddress.h"
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#include "CSocketMultiplexer.h"
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#include "TSocketMultiplexerMethodJob.h"
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#include "XSocket.h"
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#include "CLock.h"
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#include "CLog.h"
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#include "IEventQueue.h"
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#include "IEventJob.h"
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#include "CArch.h"
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#include "XArch.h"
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#include <string.h>
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//
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// CTCPSocket
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//
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CTCPSocket::CTCPSocket() :
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m_mutex(),
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m_flushed(&m_mutex, true),
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m_eventFilter(NULL)
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{
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try {
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m_socket = ARCH->newSocket(IArchNetwork::kINET, IArchNetwork::kSTREAM);
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}
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catch (XArchNetwork& e) {
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throw XSocketCreate(e.what());
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}
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init();
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}
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CTCPSocket::CTCPSocket(CArchSocket socket) :
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m_mutex(),
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m_socket(socket),
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m_flushed(&m_mutex, true),
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m_eventFilter(NULL)
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{
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assert(m_socket != NULL);
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// socket starts in connected state
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init();
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onConnected();
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setJob(newJob());
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}
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CTCPSocket::~CTCPSocket()
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{
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try {
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close();
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}
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catch (...) {
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// ignore
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}
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}
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void
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CTCPSocket::bind(const CNetworkAddress& addr)
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{
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try {
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ARCH->bindSocket(m_socket, addr.getAddress());
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}
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catch (XArchNetworkAddressInUse& e) {
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throw XSocketAddressInUse(e.what());
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}
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catch (XArchNetwork& e) {
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throw XSocketBind(e.what());
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}
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}
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void
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CTCPSocket::close()
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{
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// remove ourself from the multiplexer
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setJob(NULL);
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CLock lock(&m_mutex);
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// clear buffers and enter disconnected state
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if (m_connected) {
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sendSocketEvent(getDisconnectedEvent());
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}
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onDisconnected();
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// close the socket
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if (m_socket != NULL) {
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CArchSocket socket = m_socket;
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m_socket = NULL;
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try {
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ARCH->closeSocket(socket);
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}
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catch (XArchNetwork& e) {
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// ignore, there's not much we can do
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LOG((CLOG_WARN "error closing socket: %s", e.what().c_str()));
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}
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}
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}
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void*
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CTCPSocket::getEventTarget() const
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{
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return const_cast<void*>(reinterpret_cast<const void*>(this));
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}
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UInt32
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CTCPSocket::read(void* buffer, UInt32 n)
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{
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// copy data directly from our input buffer
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CLock lock(&m_mutex);
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UInt32 size = m_inputBuffer.getSize();
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if (n > size) {
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n = size;
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}
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if (buffer != NULL) {
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memcpy(buffer, m_inputBuffer.peek(n), n);
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}
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m_inputBuffer.pop(n);
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// if no more data and we cannot read or write then send disconnected
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if (n > 0 && m_inputBuffer.getSize() == 0 && !m_readable && !m_writable) {
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sendSocketEvent(getDisconnectedEvent());
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m_connected = false;
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}
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return n;
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}
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void
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CTCPSocket::write(const void* buffer, UInt32 n)
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{
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bool wasEmpty;
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{
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CLock lock(&m_mutex);
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// must not have shutdown output
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if (!m_writable) {
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sendStreamEvent(getOutputErrorEvent());
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return;
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}
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// ignore empty writes
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if (n == 0) {
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return;
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}
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// copy data to the output buffer
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wasEmpty = (m_outputBuffer.getSize() == 0);
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m_outputBuffer.write(buffer, n);
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// there's data to write
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m_flushed = false;
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}
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// make sure we're waiting to write
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if (wasEmpty) {
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setJob(newJob());
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}
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}
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void
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CTCPSocket::flush()
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{
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CLock lock(&m_mutex);
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while (m_flushed == false) {
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m_flushed.wait();
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}
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}
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void
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CTCPSocket::shutdownInput()
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{
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bool useNewJob = false;
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{
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CLock lock(&m_mutex);
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// shutdown socket for reading
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try {
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ARCH->closeSocketForRead(m_socket);
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}
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catch (XArchNetwork&) {
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// ignore
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}
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// shutdown buffer for reading
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if (m_readable) {
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sendStreamEvent(getInputShutdownEvent());
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onInputShutdown();
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useNewJob = true;
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}
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}
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if (useNewJob) {
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setJob(newJob());
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}
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}
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void
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CTCPSocket::shutdownOutput()
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{
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bool useNewJob = false;
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{
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CLock lock(&m_mutex);
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// shutdown socket for writing
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try {
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ARCH->closeSocketForWrite(m_socket);
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}
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catch (XArchNetwork&) {
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// ignore
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}
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// shutdown buffer for writing
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if (m_writable) {
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sendStreamEvent(getOutputShutdownEvent());
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onOutputShutdown();
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useNewJob = true;
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}
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}
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if (useNewJob) {
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setJob(newJob());
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}
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}
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void
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CTCPSocket::setEventFilter(IEventJob* filter)
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{
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CLock lock(&m_mutex);
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m_eventFilter = filter;
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}
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bool
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CTCPSocket::isReady() const
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{
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CLock lock(&m_mutex);
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return (m_inputBuffer.getSize() > 0);
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}
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UInt32
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CTCPSocket::getSize() const
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{
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CLock lock(&m_mutex);
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return m_inputBuffer.getSize();
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}
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IEventJob*
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CTCPSocket::getEventFilter() const
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{
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CLock lock(&m_mutex);
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return m_eventFilter;
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}
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void
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CTCPSocket::connect(const CNetworkAddress& addr)
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{
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{
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CLock lock(&m_mutex);
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// fail on attempts to reconnect
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if (m_socket == NULL || m_connected) {
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sendConnectionFailedEvent("busy");
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return;
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}
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try {
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if (ARCH->connectSocket(m_socket, addr.getAddress())) {
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sendSocketEvent(getConnectedEvent());
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onConnected();
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}
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else {
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// connection is in progress
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m_writable = true;
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}
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}
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catch (XArchNetwork& e) {
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throw XSocketConnect(e.what());
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}
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}
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setJob(newJob());
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}
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void
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CTCPSocket::init()
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{
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// default state
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m_connected = false;
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m_readable = false;
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m_writable = false;
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try {
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// turn off Nagle algorithm. we send lots of very short messages
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// that should be sent without (much) delay. for example, the
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// mouse motion messages are much less useful if they're delayed.
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ARCH->setNoDelayOnSocket(m_socket, true);
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}
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catch (XArchNetwork& e) {
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try {
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ARCH->closeSocket(m_socket);
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m_socket = NULL;
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}
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catch (XArchNetwork&) {
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// ignore
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}
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throw XSocketCreate(e.what());
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}
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}
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void
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CTCPSocket::setJob(ISocketMultiplexerJob* job)
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{
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// multiplexer will delete the old job
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if (job == NULL) {
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CSocketMultiplexer::getInstance()->removeSocket(this);
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}
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else {
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CSocketMultiplexer::getInstance()->addSocket(this, job);
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}
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}
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ISocketMultiplexerJob*
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CTCPSocket::newJob()
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{
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// note -- must have m_mutex locked on entry
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if (m_socket == NULL || !(m_readable || m_writable)) {
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return NULL;
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}
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else if (!m_connected) {
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assert(!m_readable);
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return new TSocketMultiplexerMethodJob<CTCPSocket>(
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this, &CTCPSocket::serviceConnecting,
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m_socket, m_readable, m_writable);
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}
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else {
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return new TSocketMultiplexerMethodJob<CTCPSocket>(
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this, &CTCPSocket::serviceConnected,
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m_socket, m_readable,
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m_writable && (m_outputBuffer.getSize() > 0));
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}
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}
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void
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CTCPSocket::sendSocketEvent(CEvent::Type type)
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{
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EVENTQUEUE->addEvent(CEvent(type, getEventTarget(), NULL));
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}
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void
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CTCPSocket::sendConnectionFailedEvent(const char* msg)
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{
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CConnectionFailedInfo* info = (CConnectionFailedInfo*)malloc(
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sizeof(CConnectionFailedInfo) + strlen(msg));
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strcpy(info->m_what, msg);
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EVENTQUEUE->addEvent(CEvent(getConnectionFailedEvent(),
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getEventTarget(), info));
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}
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void
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CTCPSocket::sendStreamEvent(CEvent::Type type)
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{
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if (m_eventFilter != NULL) {
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m_eventFilter->run(CEvent(type, getEventTarget(), NULL));
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}
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else {
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EVENTQUEUE->addEvent(CEvent(type, getEventTarget(), NULL));
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}
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}
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void
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CTCPSocket::onConnected()
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{
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m_connected = true;
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m_readable = true;
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m_writable = true;
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}
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void
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CTCPSocket::onInputShutdown()
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{
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m_inputBuffer.pop(m_inputBuffer.getSize());
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m_readable = false;
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}
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void
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CTCPSocket::onOutputShutdown()
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{
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m_outputBuffer.pop(m_outputBuffer.getSize());
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m_writable = false;
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// we're now flushed
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m_flushed = true;
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m_flushed.broadcast();
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}
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void
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CTCPSocket::onDisconnected()
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{
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// disconnected
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onInputShutdown();
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onOutputShutdown();
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m_connected = false;
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}
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ISocketMultiplexerJob*
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CTCPSocket::serviceConnecting(ISocketMultiplexerJob* job,
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bool, bool write, bool error)
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{
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CLock lock(&m_mutex);
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if (error) {
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try {
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// connection may have failed or succeeded
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ARCH->throwErrorOnSocket(m_socket);
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}
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catch (XArchNetwork& e) {
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sendConnectionFailedEvent(e.what().c_str());
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onDisconnected();
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return newJob();
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}
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}
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if (write) {
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sendSocketEvent(getConnectedEvent());
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onConnected();
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return newJob();
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}
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return job;
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}
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ISocketMultiplexerJob*
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CTCPSocket::serviceConnected(ISocketMultiplexerJob* job,
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bool read, bool write, bool error)
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{
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CLock lock(&m_mutex);
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if (error) {
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sendSocketEvent(getDisconnectedEvent());
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onDisconnected();
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return newJob();
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}
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bool needNewJob = false;
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if (write) {
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try {
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// write data
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UInt32 n = m_outputBuffer.getSize();
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const void* buffer = m_outputBuffer.peek(n);
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n = (UInt32)ARCH->writeSocket(m_socket, buffer, n);
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// discard written data
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if (n > 0) {
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m_outputBuffer.pop(n);
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if (m_outputBuffer.getSize() == 0) {
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sendStreamEvent(getOutputFlushedEvent());
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m_flushed = true;
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m_flushed.broadcast();
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needNewJob = true;
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}
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}
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}
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catch (XArchNetworkShutdown&) {
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// remote read end of stream hungup. our output side
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// has therefore shutdown.
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onOutputShutdown();
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sendStreamEvent(getOutputShutdownEvent());
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if (!m_readable && m_inputBuffer.getSize() == 0) {
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sendSocketEvent(getDisconnectedEvent());
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m_connected = false;
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}
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needNewJob = true;
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}
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catch (XArchNetworkDisconnected&) {
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// stream hungup
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onDisconnected();
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sendSocketEvent(getDisconnectedEvent());
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needNewJob = true;
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}
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catch (XArchNetwork&) {
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// other write error
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onDisconnected();
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sendStreamEvent(getOutputErrorEvent());
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sendSocketEvent(getDisconnectedEvent());
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needNewJob = true;
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}
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}
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if (read && m_readable) {
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try {
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UInt8 buffer[4096];
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size_t n = ARCH->readSocket(m_socket, buffer, sizeof(buffer));
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if (n > 0) {
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bool wasEmpty = (m_inputBuffer.getSize() == 0);
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// slurp up as much as possible
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do {
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m_inputBuffer.write(buffer, n);
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n = ARCH->readSocket(m_socket, buffer, sizeof(buffer));
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} while (n > 0);
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// send input ready if input buffer was empty
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if (wasEmpty) {
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sendStreamEvent(getInputReadyEvent());
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}
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}
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else {
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// remote write end of stream hungup. our input side
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// has therefore shutdown but don't flush our buffer
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// since there's still data to be read.
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sendStreamEvent(getInputShutdownEvent());
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if (!m_writable && m_inputBuffer.getSize() == 0) {
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sendSocketEvent(getDisconnectedEvent());
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m_connected = false;
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}
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m_readable = false;
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needNewJob = true;
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}
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}
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catch (XArchNetworkDisconnected&) {
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// stream hungup
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sendSocketEvent(getDisconnectedEvent());
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onDisconnected();
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needNewJob = true;
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}
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catch (XArchNetwork&) {
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// ignore other read error
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}
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}
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return needNewJob ? newJob() : job;
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}
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