From 539364846a89987ac2679988653f50332cb91d26 Mon Sep 17 00:00:00 2001 From: "madmaxoft@gmail.com" Date: Thu, 30 Aug 2012 21:06:13 +0000 Subject: Implemented 1.3.2 protocol encryption using CryptoPP, up to Client Status packet (http://wiki.vg/Protocol_FAQ step 14) git-svn-id: http://mc-server.googlecode.com/svn/trunk@808 0a769ca7-a7f5-676a-18bf-c427514a06d6 --- CryptoPP/network.cpp | 550 +++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 550 insertions(+) create mode 100644 CryptoPP/network.cpp (limited to 'CryptoPP/network.cpp') diff --git a/CryptoPP/network.cpp b/CryptoPP/network.cpp new file mode 100644 index 000000000..9b7198d16 --- /dev/null +++ b/CryptoPP/network.cpp @@ -0,0 +1,550 @@ +// network.cpp - written and placed in the public domain by Wei Dai + +#include "pch.h" +#include "network.h" +#include "wait.h" + +#define CRYPTOPP_TRACE_NETWORK 0 + +NAMESPACE_BEGIN(CryptoPP) + +#ifdef HIGHRES_TIMER_AVAILABLE + +lword LimitedBandwidth::ComputeCurrentTransceiveLimit() +{ + if (!m_maxBytesPerSecond) + return ULONG_MAX; + + double curTime = GetCurTimeAndCleanUp(); + lword total = 0; + for (OpQueue::size_type i=0; i!=m_ops.size(); ++i) + total += m_ops[i].second; + return SaturatingSubtract(m_maxBytesPerSecond, total); +} + +double LimitedBandwidth::TimeToNextTransceive() +{ + if (!m_maxBytesPerSecond) + return 0; + + if (!m_nextTransceiveTime) + ComputeNextTransceiveTime(); + + return SaturatingSubtract(m_nextTransceiveTime, m_timer.ElapsedTimeAsDouble()); +} + +void LimitedBandwidth::NoteTransceive(lword size) +{ + if (m_maxBytesPerSecond) + { + double curTime = GetCurTimeAndCleanUp(); + m_ops.push_back(std::make_pair(curTime, size)); + m_nextTransceiveTime = 0; + } +} + +void LimitedBandwidth::ComputeNextTransceiveTime() +{ + double curTime = GetCurTimeAndCleanUp(); + lword total = 0; + for (unsigned int i=0; i!=m_ops.size(); ++i) + total += m_ops[i].second; + m_nextTransceiveTime = + (total < m_maxBytesPerSecond) ? curTime : m_ops.front().first + 1000; +} + +double LimitedBandwidth::GetCurTimeAndCleanUp() +{ + if (!m_maxBytesPerSecond) + return 0; + + double curTime = m_timer.ElapsedTimeAsDouble(); + while (m_ops.size() && (m_ops.front().first + 1000 < curTime)) + m_ops.pop_front(); + return curTime; +} + +void LimitedBandwidth::GetWaitObjects(WaitObjectContainer &container, const CallStack &callStack) +{ + double nextTransceiveTime = TimeToNextTransceive(); + if (nextTransceiveTime) + container.ScheduleEvent(nextTransceiveTime, CallStack("LimitedBandwidth::GetWaitObjects()", &callStack)); +} + +// ************************************************************* + +size_t NonblockingSource::GeneralPump2( + lword& byteCount, bool blockingOutput, + unsigned long maxTime, bool checkDelimiter, byte delimiter) +{ + m_blockedBySpeedLimit = false; + + if (!GetMaxBytesPerSecond()) + { + size_t ret = DoPump(byteCount, blockingOutput, maxTime, checkDelimiter, delimiter); + m_doPumpBlocked = (ret != 0); + return ret; + } + + bool forever = (maxTime == INFINITE_TIME); + unsigned long timeToGo = maxTime; + Timer timer(Timer::MILLISECONDS, forever); + lword maxSize = byteCount; + byteCount = 0; + + timer.StartTimer(); + + while (true) + { + lword curMaxSize = UnsignedMin(ComputeCurrentTransceiveLimit(), maxSize - byteCount); + + if (curMaxSize || m_doPumpBlocked) + { + if (!forever) timeToGo = SaturatingSubtract(maxTime, timer.ElapsedTime()); + size_t ret = DoPump(curMaxSize, blockingOutput, timeToGo, checkDelimiter, delimiter); + m_doPumpBlocked = (ret != 0); + if (curMaxSize) + { + NoteTransceive(curMaxSize); + byteCount += curMaxSize; + } + if (ret) + return ret; + } + + if (maxSize != ULONG_MAX && byteCount >= maxSize) + break; + + if (!forever) + { + timeToGo = SaturatingSubtract(maxTime, timer.ElapsedTime()); + if (!timeToGo) + break; + } + + double waitTime = TimeToNextTransceive(); + if (!forever && waitTime > timeToGo) + { + m_blockedBySpeedLimit = true; + break; + } + + WaitObjectContainer container; + LimitedBandwidth::GetWaitObjects(container, CallStack("NonblockingSource::GeneralPump2() - speed limit", 0)); + container.Wait((unsigned long)waitTime); + } + + return 0; +} + +size_t NonblockingSource::PumpMessages2(unsigned int &messageCount, bool blocking) +{ + if (messageCount == 0) + return 0; + + messageCount = 0; + + lword byteCount; + do { + byteCount = LWORD_MAX; + RETURN_IF_NONZERO(Pump2(byteCount, blocking)); + } while(byteCount == LWORD_MAX); + + if (!m_messageEndSent && SourceExhausted()) + { + RETURN_IF_NONZERO(AttachedTransformation()->Put2(NULL, 0, GetAutoSignalPropagation(), true)); + m_messageEndSent = true; + messageCount = 1; + } + return 0; +} + +lword NonblockingSink::TimedFlush(unsigned long maxTime, size_t targetSize) +{ + m_blockedBySpeedLimit = false; + + size_t curBufSize = GetCurrentBufferSize(); + if (curBufSize <= targetSize && (targetSize || !EofPending())) + return 0; + + if (!GetMaxBytesPerSecond()) + return DoFlush(maxTime, targetSize); + + bool forever = (maxTime == INFINITE_TIME); + unsigned long timeToGo = maxTime; + Timer timer(Timer::MILLISECONDS, forever); + lword totalFlushed = 0; + + timer.StartTimer(); + + while (true) + { + size_t flushSize = UnsignedMin(curBufSize - targetSize, ComputeCurrentTransceiveLimit()); + if (flushSize || EofPending()) + { + if (!forever) timeToGo = SaturatingSubtract(maxTime, timer.ElapsedTime()); + size_t ret = (size_t)DoFlush(timeToGo, curBufSize - flushSize); + if (ret) + { + NoteTransceive(ret); + curBufSize -= ret; + totalFlushed += ret; + } + } + + if (curBufSize <= targetSize && (targetSize || !EofPending())) + break; + + if (!forever) + { + timeToGo = SaturatingSubtract(maxTime, timer.ElapsedTime()); + if (!timeToGo) + break; + } + + double waitTime = TimeToNextTransceive(); + if (!forever && waitTime > timeToGo) + { + m_blockedBySpeedLimit = true; + break; + } + + WaitObjectContainer container; + LimitedBandwidth::GetWaitObjects(container, CallStack("NonblockingSink::TimedFlush() - speed limit", 0)); + container.Wait((unsigned long)waitTime); + } + + return totalFlushed; +} + +bool NonblockingSink::IsolatedFlush(bool hardFlush, bool blocking) +{ + TimedFlush(blocking ? INFINITE_TIME : 0); + return hardFlush && (!!GetCurrentBufferSize() || EofPending()); +} + +// ************************************************************* + +NetworkSource::NetworkSource(BufferedTransformation *attachment) + : NonblockingSource(attachment), m_buf(1024*16) + , m_waitingForResult(false), m_outputBlocked(false) + , m_dataBegin(0), m_dataEnd(0) +{ +} + +unsigned int NetworkSource::GetMaxWaitObjectCount() const +{ + return LimitedBandwidth::GetMaxWaitObjectCount() + + GetReceiver().GetMaxWaitObjectCount() + + AttachedTransformation()->GetMaxWaitObjectCount(); +} + +void NetworkSource::GetWaitObjects(WaitObjectContainer &container, CallStack const& callStack) +{ + if (BlockedBySpeedLimit()) + LimitedBandwidth::GetWaitObjects(container, CallStack("NetworkSource::GetWaitObjects() - speed limit", &callStack)); + else if (!m_outputBlocked) + { + if (m_dataBegin == m_dataEnd) + AccessReceiver().GetWaitObjects(container, CallStack("NetworkSource::GetWaitObjects() - no data", &callStack)); + else + container.SetNoWait(CallStack("NetworkSource::GetWaitObjects() - have data", &callStack)); + } + + AttachedTransformation()->GetWaitObjects(container, CallStack("NetworkSource::GetWaitObjects() - attachment", &callStack)); +} + +size_t NetworkSource::DoPump(lword &byteCount, bool blockingOutput, unsigned long maxTime, bool checkDelimiter, byte delimiter) +{ + NetworkReceiver &receiver = AccessReceiver(); + + lword maxSize = byteCount; + byteCount = 0; + bool forever = maxTime == INFINITE_TIME; + Timer timer(Timer::MILLISECONDS, forever); + BufferedTransformation *t = AttachedTransformation(); + + if (m_outputBlocked) + goto DoOutput; + + while (true) + { + if (m_dataBegin == m_dataEnd) + { + if (receiver.EofReceived()) + break; + + if (m_waitingForResult) + { + if (receiver.MustWaitForResult() && + !receiver.Wait(SaturatingSubtract(maxTime, timer.ElapsedTime()), + CallStack("NetworkSource::DoPump() - wait receive result", 0))) + break; + + unsigned int recvResult = receiver.GetReceiveResult(); +#if CRYPTOPP_TRACE_NETWORK + OutputDebugString((IntToString((unsigned int)this) + ": Received " + IntToString(recvResult) + " bytes\n").c_str()); +#endif + m_dataEnd += recvResult; + m_waitingForResult = false; + + if (!receiver.MustWaitToReceive() && !receiver.EofReceived() && m_dataEnd != m_buf.size()) + goto ReceiveNoWait; + } + else + { + m_dataEnd = m_dataBegin = 0; + + if (receiver.MustWaitToReceive()) + { + if (!receiver.Wait(SaturatingSubtract(maxTime, timer.ElapsedTime()), + CallStack("NetworkSource::DoPump() - wait receive", 0))) + break; + + receiver.Receive(m_buf+m_dataEnd, m_buf.size()-m_dataEnd); + m_waitingForResult = true; + } + else + { +ReceiveNoWait: + m_waitingForResult = true; + // call Receive repeatedly as long as data is immediately available, + // because some receivers tend to return data in small pieces +#if CRYPTOPP_TRACE_NETWORK + OutputDebugString((IntToString((unsigned int)this) + ": Receiving " + IntToString(m_buf.size()-m_dataEnd) + " bytes\n").c_str()); +#endif + while (receiver.Receive(m_buf+m_dataEnd, m_buf.size()-m_dataEnd)) + { + unsigned int recvResult = receiver.GetReceiveResult(); +#if CRYPTOPP_TRACE_NETWORK + OutputDebugString((IntToString((unsigned int)this) + ": Received " + IntToString(recvResult) + " bytes\n").c_str()); +#endif + m_dataEnd += recvResult; + if (receiver.EofReceived() || m_dataEnd > m_buf.size() /2) + { + m_waitingForResult = false; + break; + } + } + } + } + } + else + { + m_putSize = UnsignedMin(m_dataEnd - m_dataBegin, maxSize - byteCount); + + if (checkDelimiter) + m_putSize = std::find(m_buf+m_dataBegin, m_buf+m_dataBegin+m_putSize, delimiter) - (m_buf+m_dataBegin); + +DoOutput: + size_t result = t->PutModifiable2(m_buf+m_dataBegin, m_putSize, 0, forever || blockingOutput); + if (result) + { + if (t->Wait(SaturatingSubtract(maxTime, timer.ElapsedTime()), + CallStack("NetworkSource::DoPump() - wait attachment", 0))) + goto DoOutput; + else + { + m_outputBlocked = true; + return result; + } + } + m_outputBlocked = false; + + byteCount += m_putSize; + m_dataBegin += m_putSize; + if (checkDelimiter && m_dataBegin < m_dataEnd && m_buf[m_dataBegin] == delimiter) + break; + if (maxSize != ULONG_MAX && byteCount == maxSize) + break; + // once time limit is reached, return even if there is more data waiting + // but make 0 a special case so caller can request a large amount of data to be + // pumped as long as it is immediately available + if (maxTime > 0 && timer.ElapsedTime() > maxTime) + break; + } + } + + return 0; +} + +// ************************************************************* + +NetworkSink::NetworkSink(unsigned int maxBufferSize, unsigned int autoFlushBound) + : m_maxBufferSize(maxBufferSize), m_autoFlushBound(autoFlushBound) + , m_needSendResult(false), m_wasBlocked(false), m_eofState(EOF_NONE) + , m_buffer(STDMIN(16U*1024U+256, maxBufferSize)), m_skipBytes(0) + , m_speedTimer(Timer::MILLISECONDS), m_byteCountSinceLastTimerReset(0) + , m_currentSpeed(0), m_maxObservedSpeed(0) +{ +} + +float NetworkSink::ComputeCurrentSpeed() +{ + if (m_speedTimer.ElapsedTime() > 1000) + { + m_currentSpeed = m_byteCountSinceLastTimerReset * 1000 / m_speedTimer.ElapsedTime(); + m_maxObservedSpeed = STDMAX(m_currentSpeed, m_maxObservedSpeed * 0.98f); + m_byteCountSinceLastTimerReset = 0; + m_speedTimer.StartTimer(); +// OutputDebugString(("max speed: " + IntToString((int)m_maxObservedSpeed) + " current speed: " + IntToString((int)m_currentSpeed) + "\n").c_str()); + } + return m_currentSpeed; +} + +float NetworkSink::GetMaxObservedSpeed() const +{ + lword m = GetMaxBytesPerSecond(); + return m ? STDMIN(m_maxObservedSpeed, float(CRYPTOPP_VC6_INT64 m)) : m_maxObservedSpeed; +} + +unsigned int NetworkSink::GetMaxWaitObjectCount() const +{ + return LimitedBandwidth::GetMaxWaitObjectCount() + GetSender().GetMaxWaitObjectCount(); +} + +void NetworkSink::GetWaitObjects(WaitObjectContainer &container, CallStack const& callStack) +{ + if (BlockedBySpeedLimit()) + LimitedBandwidth::GetWaitObjects(container, CallStack("NetworkSink::GetWaitObjects() - speed limit", &callStack)); + else if (m_wasBlocked) + AccessSender().GetWaitObjects(container, CallStack("NetworkSink::GetWaitObjects() - was blocked", &callStack)); + else if (!m_buffer.IsEmpty()) + AccessSender().GetWaitObjects(container, CallStack("NetworkSink::GetWaitObjects() - buffer not empty", &callStack)); + else if (EofPending()) + AccessSender().GetWaitObjects(container, CallStack("NetworkSink::GetWaitObjects() - EOF pending", &callStack)); +} + +size_t NetworkSink::Put2(const byte *inString, size_t length, int messageEnd, bool blocking) +{ + if (m_eofState == EOF_DONE) + { + if (length || messageEnd) + throw Exception(Exception::OTHER_ERROR, "NetworkSink::Put2() being called after EOF had been sent"); + + return 0; + } + + if (m_eofState > EOF_NONE) + goto EofSite; + + { + if (m_skipBytes) + { + assert(length >= m_skipBytes); + inString += m_skipBytes; + length -= m_skipBytes; + } + + m_buffer.Put(inString, length); + + if (!blocking || m_buffer.CurrentSize() > m_autoFlushBound) + TimedFlush(0, 0); + + size_t targetSize = messageEnd ? 0 : m_maxBufferSize; + if (blocking) + TimedFlush(INFINITE_TIME, targetSize); + + if (m_buffer.CurrentSize() > targetSize) + { + assert(!blocking); + m_wasBlocked = true; + m_skipBytes += length; + size_t blockedBytes = UnsignedMin(length, m_buffer.CurrentSize() - targetSize); + return STDMAX(blockedBytes, 1); + } + + m_wasBlocked = false; + m_skipBytes = 0; + } + + if (messageEnd) + { + m_eofState = EOF_PENDING_SEND; + + EofSite: + TimedFlush(blocking ? INFINITE_TIME : 0, 0); + if (m_eofState != EOF_DONE) + return 1; + } + + return 0; +} + +lword NetworkSink::DoFlush(unsigned long maxTime, size_t targetSize) +{ + NetworkSender &sender = AccessSender(); + + bool forever = maxTime == INFINITE_TIME; + Timer timer(Timer::MILLISECONDS, forever); + unsigned int totalFlushSize = 0; + + while (true) + { + if (m_buffer.CurrentSize() <= targetSize) + break; + + if (m_needSendResult) + { + if (sender.MustWaitForResult() && + !sender.Wait(SaturatingSubtract(maxTime, timer.ElapsedTime()), + CallStack("NetworkSink::DoFlush() - wait send result", 0))) + break; + + unsigned int sendResult = sender.GetSendResult(); +#if CRYPTOPP_TRACE_NETWORK + OutputDebugString((IntToString((unsigned int)this) + ": Sent " + IntToString(sendResult) + " bytes\n").c_str()); +#endif + m_buffer.Skip(sendResult); + totalFlushSize += sendResult; + m_needSendResult = false; + + if (!m_buffer.AnyRetrievable()) + break; + } + + unsigned long timeOut = maxTime ? SaturatingSubtract(maxTime, timer.ElapsedTime()) : 0; + if (sender.MustWaitToSend() && !sender.Wait(timeOut, CallStack("NetworkSink::DoFlush() - wait send", 0))) + break; + + size_t contiguousSize = 0; + const byte *block = m_buffer.Spy(contiguousSize); + +#if CRYPTOPP_TRACE_NETWORK + OutputDebugString((IntToString((unsigned int)this) + ": Sending " + IntToString(contiguousSize) + " bytes\n").c_str()); +#endif + sender.Send(block, contiguousSize); + m_needSendResult = true; + + if (maxTime > 0 && timeOut == 0) + break; // once time limit is reached, return even if there is more data waiting + } + + m_byteCountSinceLastTimerReset += totalFlushSize; + ComputeCurrentSpeed(); + + if (m_buffer.IsEmpty() && !m_needSendResult) + { + if (m_eofState == EOF_PENDING_SEND) + { + sender.SendEof(); + m_eofState = sender.MustWaitForEof() ? EOF_PENDING_DELIVERY : EOF_DONE; + } + + while (m_eofState == EOF_PENDING_DELIVERY) + { + unsigned long timeOut = maxTime ? SaturatingSubtract(maxTime, timer.ElapsedTime()) : 0; + if (!sender.Wait(timeOut, CallStack("NetworkSink::DoFlush() - wait EOF", 0))) + break; + + if (sender.EofSent()) + m_eofState = EOF_DONE; + } + } + + return totalFlushSize; +} + +#endif // #ifdef HIGHRES_TIMER_AVAILABLE + +NAMESPACE_END -- cgit v1.2.3