mirror of
https://github.com/shadps4-emu/ext-cryptopp.git
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235 lines
8.0 KiB
C++
235 lines
8.0 KiB
C++
#ifndef CRYPTOPP_NETWORK_H
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#define CRYPTOPP_NETWORK_H
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#include "config.h"
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#if !defined(NO_OS_DEPENDENCE) && defined(SOCKETS_AVAILABLE)
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#include "filters.h"
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#include "hrtimer.h"
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#include "stdcpp.h"
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NAMESPACE_BEGIN(CryptoPP)
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class LimitedBandwidth
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{
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public:
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LimitedBandwidth(lword maxBytesPerSecond = 0)
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: m_maxBytesPerSecond(maxBytesPerSecond), m_timer(Timer::MILLISECONDS)
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, m_nextTransceiveTime(0)
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{ m_timer.StartTimer(); }
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lword GetMaxBytesPerSecond() const
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{ return m_maxBytesPerSecond; }
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void SetMaxBytesPerSecond(lword v)
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{ m_maxBytesPerSecond = v; }
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lword ComputeCurrentTransceiveLimit();
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double TimeToNextTransceive();
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void NoteTransceive(lword size);
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public:
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/*! GetWaitObjects() must be called despite the 0 return from GetMaxWaitObjectCount();
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the 0 is because the ScheduleEvent() method is used instead of adding a wait object */
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unsigned int GetMaxWaitObjectCount() const { return 0; }
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void GetWaitObjects(WaitObjectContainer &container, const CallStack &callStack);
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private:
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lword m_maxBytesPerSecond;
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typedef std::deque<std::pair<double, lword> > OpQueue;
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OpQueue m_ops;
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Timer m_timer;
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double m_nextTransceiveTime;
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void ComputeNextTransceiveTime();
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double GetCurTimeAndCleanUp();
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};
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//! a Source class that can pump from a device for a specified amount of time.
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class CRYPTOPP_NO_VTABLE NonblockingSource : public AutoSignaling<Source>, public LimitedBandwidth
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{
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public:
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NonblockingSource(BufferedTransformation *attachment)
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: m_messageEndSent(false) , m_doPumpBlocked(false), m_blockedBySpeedLimit(false) {Detach(attachment);}
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//! \name NONBLOCKING SOURCE
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//@{
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//! pump up to maxSize bytes using at most maxTime milliseconds
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/*! If checkDelimiter is true, pump up to delimiter, which itself is not extracted or pumped. */
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size_t GeneralPump2(lword &byteCount, bool blockingOutput=true, unsigned long maxTime=INFINITE_TIME, bool checkDelimiter=false, byte delimiter='\n');
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lword GeneralPump(lword maxSize=LWORD_MAX, unsigned long maxTime=INFINITE_TIME, bool checkDelimiter=false, byte delimiter='\n')
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{
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GeneralPump2(maxSize, true, maxTime, checkDelimiter, delimiter);
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return maxSize;
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}
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lword TimedPump(unsigned long maxTime)
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{return GeneralPump(LWORD_MAX, maxTime);}
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lword PumpLine(byte delimiter='\n', lword maxSize=1024)
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{return GeneralPump(maxSize, INFINITE_TIME, true, delimiter);}
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size_t Pump2(lword &byteCount, bool blocking=true)
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{return GeneralPump2(byteCount, blocking, blocking ? INFINITE_TIME : 0);}
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size_t PumpMessages2(unsigned int &messageCount, bool blocking=true);
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//@}
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protected:
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virtual size_t DoPump(lword &byteCount, bool blockingOutput,
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unsigned long maxTime, bool checkDelimiter, byte delimiter) =0;
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bool BlockedBySpeedLimit() const { return m_blockedBySpeedLimit; }
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private:
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bool m_messageEndSent, m_doPumpBlocked, m_blockedBySpeedLimit;
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};
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//! Network Receiver
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class CRYPTOPP_NO_VTABLE NetworkReceiver : public Waitable
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{
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public:
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virtual bool MustWaitToReceive() {return false;}
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virtual bool MustWaitForResult() {return false;}
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//! receive data from network source, returns whether result is immediately available
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virtual bool Receive(byte* buf, size_t bufLen) =0;
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virtual unsigned int GetReceiveResult() =0;
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virtual bool EofReceived() const =0;
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};
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class CRYPTOPP_NO_VTABLE NonblockingSinkInfo
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{
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public:
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virtual ~NonblockingSinkInfo() {}
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virtual size_t GetMaxBufferSize() const =0;
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virtual size_t GetCurrentBufferSize() const =0;
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virtual bool EofPending() const =0;
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//! compute the current speed of this sink in bytes per second
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virtual float ComputeCurrentSpeed() =0;
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//! get the maximum observed speed of this sink in bytes per second
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virtual float GetMaxObservedSpeed() const =0;
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};
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//! a Sink class that queues input and can flush to a device for a specified amount of time.
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class CRYPTOPP_NO_VTABLE NonblockingSink : public Sink, public NonblockingSinkInfo, public LimitedBandwidth
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{
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public:
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NonblockingSink() : m_blockedBySpeedLimit(false) {}
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bool IsolatedFlush(bool hardFlush, bool blocking);
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//! flush to device for no more than maxTime milliseconds
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/*! This function will repeatedly attempt to flush data to some device, until
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the queue is empty, or a total of maxTime milliseconds have elapsed.
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If maxTime == 0, at least one attempt will be made to flush some data, but
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it is likely that not all queued data will be flushed, even if the device
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is ready to receive more data without waiting. If you want to flush as much data
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as possible without waiting for the device, call this function in a loop.
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For example: while (sink.TimedFlush(0) > 0) {}
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\return number of bytes flushed
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*/
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lword TimedFlush(unsigned long maxTime, size_t targetSize = 0);
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virtual void SetMaxBufferSize(size_t maxBufferSize) =0;
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//! set a bound which will cause sink to flush if exceeded by GetCurrentBufferSize()
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virtual void SetAutoFlushBound(size_t bound) =0;
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protected:
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virtual lword DoFlush(unsigned long maxTime, size_t targetSize) = 0;
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bool BlockedBySpeedLimit() const { return m_blockedBySpeedLimit; }
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private:
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bool m_blockedBySpeedLimit;
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};
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//! Network Sender
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class CRYPTOPP_NO_VTABLE NetworkSender : public Waitable
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{
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public:
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virtual bool MustWaitToSend() {return false;}
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virtual bool MustWaitForResult() {return false;}
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virtual void Send(const byte* buf, size_t bufLen) =0;
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virtual unsigned int GetSendResult() =0;
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virtual bool MustWaitForEof() {return false;}
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virtual void SendEof() =0;
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virtual bool EofSent() {return false;} // implement if MustWaitForEof() == true
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};
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//! Network Source
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class CRYPTOPP_NO_VTABLE NetworkSource : public NonblockingSource
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{
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public:
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NetworkSource(BufferedTransformation *attachment);
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unsigned int GetMaxWaitObjectCount() const;
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void GetWaitObjects(WaitObjectContainer &container, CallStack const& callStack);
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bool SourceExhausted() const {return m_dataBegin == m_dataEnd && GetReceiver().EofReceived();}
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protected:
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size_t DoPump(lword &byteCount, bool blockingOutput, unsigned long maxTime, bool checkDelimiter, byte delimiter);
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virtual NetworkReceiver & AccessReceiver() =0;
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const NetworkReceiver & GetReceiver() const {return const_cast<NetworkSource *>(this)->AccessReceiver();}
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private:
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SecByteBlock m_buf;
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size_t m_putSize, m_dataBegin, m_dataEnd;
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bool m_waitingForResult, m_outputBlocked;
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};
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//! Network Sink
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class CRYPTOPP_NO_VTABLE NetworkSink : public NonblockingSink
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{
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public:
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NetworkSink(unsigned int maxBufferSize, unsigned int autoFlushBound);
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unsigned int GetMaxWaitObjectCount() const;
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void GetWaitObjects(WaitObjectContainer &container, CallStack const& callStack);
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size_t Put2(const byte *inString, size_t length, int messageEnd, bool blocking);
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void SetMaxBufferSize(size_t maxBufferSize) {m_maxBufferSize = maxBufferSize; m_buffer.SetNodeSize(UnsignedMin(maxBufferSize, 16U*1024U+256U));}
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void SetAutoFlushBound(size_t bound) {m_autoFlushBound = bound;}
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size_t GetMaxBufferSize() const {return m_maxBufferSize;}
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size_t GetCurrentBufferSize() const {return (size_t)m_buffer.CurrentSize();}
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void ClearBuffer() { m_buffer.Clear(); }
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bool EofPending() const { return m_eofState > EOF_NONE && m_eofState < EOF_DONE; }
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//! compute the current speed of this sink in bytes per second
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float ComputeCurrentSpeed();
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//! get the maximum observed speed of this sink in bytes per second
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float GetMaxObservedSpeed() const;
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protected:
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lword DoFlush(unsigned long maxTime, size_t targetSize);
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virtual NetworkSender & AccessSender() =0;
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const NetworkSender & GetSender() const {return const_cast<NetworkSink *>(this)->AccessSender();}
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private:
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enum EofState { EOF_NONE, EOF_PENDING_SEND, EOF_PENDING_DELIVERY, EOF_DONE };
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size_t m_maxBufferSize, m_autoFlushBound;
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bool m_needSendResult, m_wasBlocked;
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EofState m_eofState;
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ByteQueue m_buffer;
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size_t m_skipBytes;
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Timer m_speedTimer;
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float m_byteCountSinceLastTimerReset, m_currentSpeed, m_maxObservedSpeed;
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};
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NAMESPACE_END
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#endif // SOCKETS_AVAILABLE
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#endif // CRYPTOPP_NETWORK_H
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