mirror of
https://github.com/shadps4-emu/ext-cryptopp.git
synced 2024-11-24 02:19:41 +00:00
399a1546de
trap.h and CRYPTOPP_ASSERT has existed for over a year in Master. We deferred on the cut-over waiting for a minor version bump (5.7). We have to use it now due to CVE-2016-7420
575 lines
13 KiB
C++
575 lines
13 KiB
C++
// queue.cpp - written and placed in the public domain by Wei Dai
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#include "pch.h"
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#ifndef CRYPTOPP_IMPORTS
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#include "queue.h"
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#include "filters.h"
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NAMESPACE_BEGIN(CryptoPP)
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static const unsigned int s_maxAutoNodeSize = 16*1024;
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// this class for use by ByteQueue only
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class ByteQueueNode
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{
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public:
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ByteQueueNode(size_t maxSize)
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: buf(maxSize)
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{
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m_head = m_tail = 0;
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next = 0;
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}
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inline size_t MaxSize() const {return buf.size();}
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inline size_t CurrentSize() const
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{
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return m_tail-m_head;
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}
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inline bool UsedUp() const
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{
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return (m_head==MaxSize());
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}
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inline void Clear()
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{
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m_head = m_tail = 0;
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}
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inline size_t Put(const byte *begin, size_t length)
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{
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// Avoid passing NULL to memcpy
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if (!begin || !length) return length;
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size_t l = STDMIN(length, MaxSize()-m_tail);
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if (buf+m_tail != begin)
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memcpy(buf+m_tail, begin, l);
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m_tail += l;
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return l;
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}
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inline size_t Peek(byte &outByte) const
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{
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if (m_tail==m_head)
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return 0;
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outByte=buf[m_head];
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return 1;
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}
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inline size_t Peek(byte *target, size_t copyMax) const
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{
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size_t len = STDMIN(copyMax, m_tail-m_head);
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memcpy(target, buf+m_head, len);
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return len;
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}
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inline size_t CopyTo(BufferedTransformation &target, const std::string &channel=DEFAULT_CHANNEL) const
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{
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size_t len = m_tail-m_head;
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target.ChannelPut(channel, buf+m_head, len);
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return len;
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}
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inline size_t CopyTo(BufferedTransformation &target, size_t copyMax, const std::string &channel=DEFAULT_CHANNEL) const
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{
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size_t len = STDMIN(copyMax, m_tail-m_head);
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target.ChannelPut(channel, buf+m_head, len);
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return len;
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}
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inline size_t Get(byte &outByte)
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{
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size_t len = Peek(outByte);
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m_head += len;
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return len;
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}
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inline size_t Get(byte *outString, size_t getMax)
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{
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size_t len = Peek(outString, getMax);
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m_head += len;
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return len;
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}
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inline size_t TransferTo(BufferedTransformation &target, const std::string &channel=DEFAULT_CHANNEL)
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{
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size_t len = m_tail-m_head;
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target.ChannelPutModifiable(channel, buf+m_head, len);
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m_head = m_tail;
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return len;
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}
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inline size_t TransferTo(BufferedTransformation &target, lword transferMax, const std::string &channel=DEFAULT_CHANNEL)
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{
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size_t len = UnsignedMin(m_tail-m_head, transferMax);
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target.ChannelPutModifiable(channel, buf+m_head, len);
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m_head += len;
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return len;
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}
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inline size_t Skip(size_t skipMax)
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{
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size_t len = STDMIN(skipMax, m_tail-m_head);
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m_head += len;
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return len;
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}
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inline byte operator[](size_t i) const
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{
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return buf[m_head+i];
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}
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ByteQueueNode *next;
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SecByteBlock buf;
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size_t m_head, m_tail;
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};
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// ********************************************************
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ByteQueue::ByteQueue(size_t nodeSize)
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: Bufferless<BufferedTransformation>(), m_autoNodeSize(!nodeSize), m_nodeSize(nodeSize)
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, m_head(NULL), m_tail(NULL), m_lazyString(NULL), m_lazyLength(0), m_lazyStringModifiable(false)
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{
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SetNodeSize(nodeSize);
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m_head = m_tail = new ByteQueueNode(m_nodeSize);
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}
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void ByteQueue::SetNodeSize(size_t nodeSize)
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{
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m_autoNodeSize = !nodeSize;
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m_nodeSize = m_autoNodeSize ? 256 : nodeSize;
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}
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ByteQueue::ByteQueue(const ByteQueue ©)
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: Bufferless<BufferedTransformation>(copy), m_lazyString(NULL), m_lazyLength(0)
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{
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CopyFrom(copy);
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}
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void ByteQueue::CopyFrom(const ByteQueue ©)
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{
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m_lazyLength = 0;
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m_autoNodeSize = copy.m_autoNodeSize;
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m_nodeSize = copy.m_nodeSize;
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m_head = m_tail = new ByteQueueNode(*copy.m_head);
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for (ByteQueueNode *current=copy.m_head->next; current; current=current->next)
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{
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m_tail->next = new ByteQueueNode(*current);
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m_tail = m_tail->next;
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}
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m_tail->next = NULL;
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Put(copy.m_lazyString, copy.m_lazyLength);
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}
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ByteQueue::~ByteQueue()
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{
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Destroy();
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}
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void ByteQueue::Destroy()
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{
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for (ByteQueueNode *next, *current=m_head; current; current=next)
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{
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next=current->next;
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delete current;
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}
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}
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void ByteQueue::IsolatedInitialize(const NameValuePairs ¶meters)
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{
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m_nodeSize = parameters.GetIntValueWithDefault("NodeSize", 256);
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Clear();
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}
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lword ByteQueue::CurrentSize() const
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{
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lword size=0;
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for (ByteQueueNode *current=m_head; current; current=current->next)
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size += current->CurrentSize();
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return size + m_lazyLength;
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}
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bool ByteQueue::IsEmpty() const
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{
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return m_head==m_tail && m_head->CurrentSize()==0 && m_lazyLength==0;
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}
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void ByteQueue::Clear()
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{
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for (ByteQueueNode *next, *current=m_head->next; current; current=next)
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{
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next=current->next;
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delete current;
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}
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m_tail = m_head;
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m_head->Clear();
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m_head->next = NULL;
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m_lazyLength = 0;
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}
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size_t ByteQueue::Put2(const byte *inString, size_t length, int messageEnd, bool blocking)
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{
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CRYPTOPP_UNUSED(messageEnd), CRYPTOPP_UNUSED(blocking);
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if (m_lazyLength > 0)
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FinalizeLazyPut();
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size_t len;
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while ((len=m_tail->Put(inString, length)) < length)
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{
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inString += len;
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length -= len;
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if (m_autoNodeSize && m_nodeSize < s_maxAutoNodeSize)
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do
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{
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m_nodeSize *= 2;
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}
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while (m_nodeSize < length && m_nodeSize < s_maxAutoNodeSize);
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m_tail->next = new ByteQueueNode(STDMAX(m_nodeSize, length));
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m_tail = m_tail->next;
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}
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return 0;
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}
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void ByteQueue::CleanupUsedNodes()
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{
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// Test for m_head due to Enterprise Anlysis finding
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while (m_head && m_head != m_tail && m_head->UsedUp())
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{
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ByteQueueNode *temp=m_head;
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m_head=m_head->next;
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delete temp;
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}
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// Test for m_head due to Enterprise Anlysis finding
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if (m_head && m_head->CurrentSize() == 0)
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m_head->Clear();
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}
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void ByteQueue::LazyPut(const byte *inString, size_t size)
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{
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if (m_lazyLength > 0)
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FinalizeLazyPut();
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if (inString == m_tail->buf+m_tail->m_tail)
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Put(inString, size);
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else
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{
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m_lazyString = const_cast<byte *>(inString);
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m_lazyLength = size;
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m_lazyStringModifiable = false;
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}
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}
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void ByteQueue::LazyPutModifiable(byte *inString, size_t size)
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{
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if (m_lazyLength > 0)
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FinalizeLazyPut();
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m_lazyString = inString;
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m_lazyLength = size;
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m_lazyStringModifiable = true;
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}
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void ByteQueue::UndoLazyPut(size_t size)
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{
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if (m_lazyLength < size)
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throw InvalidArgument("ByteQueue: size specified for UndoLazyPut is too large");
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m_lazyLength -= size;
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}
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void ByteQueue::FinalizeLazyPut()
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{
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size_t len = m_lazyLength;
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m_lazyLength = 0;
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if (len)
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Put(m_lazyString, len);
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}
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size_t ByteQueue::Get(byte &outByte)
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{
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if (m_head->Get(outByte))
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{
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if (m_head->UsedUp())
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CleanupUsedNodes();
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return 1;
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}
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else if (m_lazyLength > 0)
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{
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outByte = *m_lazyString++;
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m_lazyLength--;
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return 1;
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}
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else
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return 0;
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}
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size_t ByteQueue::Get(byte *outString, size_t getMax)
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{
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ArraySink sink(outString, getMax);
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return (size_t)TransferTo(sink, getMax);
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}
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size_t ByteQueue::Peek(byte &outByte) const
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{
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if (m_head->Peek(outByte))
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return 1;
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else if (m_lazyLength > 0)
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{
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outByte = *m_lazyString;
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return 1;
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}
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else
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return 0;
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}
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size_t ByteQueue::Peek(byte *outString, size_t peekMax) const
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{
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ArraySink sink(outString, peekMax);
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return (size_t)CopyTo(sink, peekMax);
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}
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size_t ByteQueue::TransferTo2(BufferedTransformation &target, lword &transferBytes, const std::string &channel, bool blocking)
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{
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if (blocking)
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{
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lword bytesLeft = transferBytes;
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for (ByteQueueNode *current=m_head; bytesLeft && current; current=current->next)
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bytesLeft -= current->TransferTo(target, bytesLeft, channel);
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CleanupUsedNodes();
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size_t len = (size_t)STDMIN(bytesLeft, (lword)m_lazyLength);
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if (len)
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{
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if (m_lazyStringModifiable)
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target.ChannelPutModifiable(channel, m_lazyString, len);
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else
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target.ChannelPut(channel, m_lazyString, len);
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m_lazyString += len;
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m_lazyLength -= len;
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bytesLeft -= len;
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}
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transferBytes -= bytesLeft;
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return 0;
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}
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else
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{
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Walker walker(*this);
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size_t blockedBytes = walker.TransferTo2(target, transferBytes, channel, blocking);
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Skip(transferBytes);
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return blockedBytes;
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}
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}
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size_t ByteQueue::CopyRangeTo2(BufferedTransformation &target, lword &begin, lword end, const std::string &channel, bool blocking) const
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{
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Walker walker(*this);
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walker.Skip(begin);
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lword transferBytes = end-begin;
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size_t blockedBytes = walker.TransferTo2(target, transferBytes, channel, blocking);
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begin += transferBytes;
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return blockedBytes;
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}
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void ByteQueue::Unget(byte inByte)
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{
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Unget(&inByte, 1);
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}
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void ByteQueue::Unget(const byte *inString, size_t length)
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{
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size_t len = STDMIN(length, m_head->m_head);
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length -= len;
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m_head->m_head -= len;
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memcpy(m_head->buf + m_head->m_head, inString + length, len);
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if (length > 0)
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{
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ByteQueueNode *newHead = new ByteQueueNode(length);
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newHead->next = m_head;
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m_head = newHead;
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m_head->Put(inString, length);
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}
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}
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const byte * ByteQueue::Spy(size_t &contiguousSize) const
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{
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contiguousSize = m_head->m_tail - m_head->m_head;
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if (contiguousSize == 0 && m_lazyLength > 0)
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{
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contiguousSize = m_lazyLength;
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return m_lazyString;
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}
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else
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return m_head->buf + m_head->m_head;
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}
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byte * ByteQueue::CreatePutSpace(size_t &size)
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{
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if (m_lazyLength > 0)
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FinalizeLazyPut();
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if (m_tail->m_tail == m_tail->MaxSize())
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{
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m_tail->next = new ByteQueueNode(STDMAX(m_nodeSize, size));
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m_tail = m_tail->next;
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}
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size = m_tail->MaxSize() - m_tail->m_tail;
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return m_tail->buf + m_tail->m_tail;
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}
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ByteQueue & ByteQueue::operator=(const ByteQueue &rhs)
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{
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Destroy();
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CopyFrom(rhs);
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return *this;
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}
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bool ByteQueue::operator==(const ByteQueue &rhs) const
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{
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const lword currentSize = CurrentSize();
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if (currentSize != rhs.CurrentSize())
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return false;
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Walker walker1(*this), walker2(rhs);
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byte b1, b2;
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while (walker1.Get(b1) && walker2.Get(b2))
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if (b1 != b2)
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return false;
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return true;
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}
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byte ByteQueue::operator[](lword i) const
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{
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for (ByteQueueNode *current=m_head; current; current=current->next)
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{
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if (i < current->CurrentSize())
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return (*current)[(size_t)i];
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i -= current->CurrentSize();
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}
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CRYPTOPP_ASSERT(i < m_lazyLength);
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return m_lazyString[i];
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}
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void ByteQueue::swap(ByteQueue &rhs)
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{
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std::swap(m_autoNodeSize, rhs.m_autoNodeSize);
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std::swap(m_nodeSize, rhs.m_nodeSize);
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std::swap(m_head, rhs.m_head);
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std::swap(m_tail, rhs.m_tail);
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std::swap(m_lazyString, rhs.m_lazyString);
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std::swap(m_lazyLength, rhs.m_lazyLength);
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std::swap(m_lazyStringModifiable, rhs.m_lazyStringModifiable);
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}
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// ********************************************************
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void ByteQueue::Walker::IsolatedInitialize(const NameValuePairs ¶meters)
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{
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CRYPTOPP_UNUSED(parameters);
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m_node = m_queue.m_head;
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m_position = 0;
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m_offset = 0;
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m_lazyString = m_queue.m_lazyString;
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m_lazyLength = m_queue.m_lazyLength;
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}
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size_t ByteQueue::Walker::Get(byte &outByte)
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{
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ArraySink sink(&outByte, 1);
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return (size_t)TransferTo(sink, 1);
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}
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size_t ByteQueue::Walker::Get(byte *outString, size_t getMax)
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{
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ArraySink sink(outString, getMax);
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return (size_t)TransferTo(sink, getMax);
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}
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size_t ByteQueue::Walker::Peek(byte &outByte) const
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{
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ArraySink sink(&outByte, 1);
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return (size_t)CopyTo(sink, 1);
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}
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size_t ByteQueue::Walker::Peek(byte *outString, size_t peekMax) const
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{
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ArraySink sink(outString, peekMax);
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return (size_t)CopyTo(sink, peekMax);
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}
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size_t ByteQueue::Walker::TransferTo2(BufferedTransformation &target, lword &transferBytes, const std::string &channel, bool blocking)
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{
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lword bytesLeft = transferBytes;
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size_t blockedBytes = 0;
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while (m_node)
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{
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size_t len = (size_t)STDMIN(bytesLeft, (lword)m_node->CurrentSize()-m_offset);
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blockedBytes = target.ChannelPut2(channel, m_node->buf+m_node->m_head+m_offset, len, 0, blocking);
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if (blockedBytes)
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goto done;
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m_position += len;
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bytesLeft -= len;
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if (!bytesLeft)
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{
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m_offset += len;
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goto done;
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}
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m_node = m_node->next;
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m_offset = 0;
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}
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if (bytesLeft && m_lazyLength)
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{
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size_t len = (size_t)STDMIN(bytesLeft, (lword)m_lazyLength);
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blockedBytes = target.ChannelPut2(channel, m_lazyString, len, 0, blocking);
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if (blockedBytes)
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goto done;
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m_lazyString += len;
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m_lazyLength -= len;
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bytesLeft -= len;
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}
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done:
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transferBytes -= bytesLeft;
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return blockedBytes;
|
|
}
|
|
|
|
size_t ByteQueue::Walker::CopyRangeTo2(BufferedTransformation &target, lword &begin, lword end, const std::string &channel, bool blocking) const
|
|
{
|
|
Walker walker(*this);
|
|
walker.Skip(begin);
|
|
lword transferBytes = end-begin;
|
|
size_t blockedBytes = walker.TransferTo2(target, transferBytes, channel, blocking);
|
|
begin += transferBytes;
|
|
return blockedBytes;
|
|
}
|
|
|
|
NAMESPACE_END
|
|
|
|
#endif
|