// Copyright 2014 PDFium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com #ifndef _FXCRT_EXTENSION_IMP_ #define _FXCRT_EXTENSION_IMP_ class IFXCRT_FileAccess { public: virtual ~IFXCRT_FileAccess() {} virtual FX_BOOL Open(FX_BSTR fileName, FX_DWORD dwMode) = 0; virtual FX_BOOL Open(FX_WSTR fileName, FX_DWORD dwMode) = 0; virtual void Close() = 0; virtual void Release() = 0; virtual FX_FILESIZE GetSize() const = 0; virtual FX_FILESIZE GetPosition() const = 0; virtual FX_FILESIZE SetPosition(FX_FILESIZE pos) = 0; virtual size_t Read(void* pBuffer, size_t szBuffer) = 0; virtual size_t Write(const void* pBuffer, size_t szBuffer) = 0; virtual size_t ReadPos(void* pBuffer, size_t szBuffer, FX_FILESIZE pos) = 0; virtual size_t WritePos(const void* pBuffer, size_t szBuffer, FX_FILESIZE pos) = 0; virtual FX_BOOL Flush() = 0; virtual FX_BOOL Truncate(FX_FILESIZE szFile) = 0; }; IFXCRT_FileAccess* FXCRT_FileAccess_Create(); class CFX_CRTFileStream FX_FINAL : public IFX_FileStream, public CFX_Object { public: CFX_CRTFileStream(IFXCRT_FileAccess* pFA) : m_pFile(pFA), m_dwCount(1), m_bUseRange(FALSE), m_nOffset(0), m_nSize(0) {} ~CFX_CRTFileStream() { if (m_pFile) { m_pFile->Release(); } } virtual IFX_FileStream* Retain() { m_dwCount ++; return this; } virtual void Release() { FX_DWORD nCount = -- m_dwCount; if (!nCount) { delete this; } } virtual FX_FILESIZE GetSize() { return m_bUseRange ? m_nSize : m_pFile->GetSize(); } virtual FX_BOOL IsEOF() { return GetPosition() >= GetSize(); } virtual FX_FILESIZE GetPosition() { FX_FILESIZE pos = m_pFile->GetPosition(); if (m_bUseRange) { pos -= m_nOffset; } return pos; } virtual FX_BOOL SetRange(FX_FILESIZE offset, FX_FILESIZE size) { if (offset < 0 || offset + size > m_pFile->GetSize()) { return FALSE; } m_nOffset = offset, m_nSize = size; m_bUseRange = TRUE; m_pFile->SetPosition(m_nOffset); return TRUE; } virtual void ClearRange() { m_bUseRange = FALSE; } virtual FX_BOOL ReadBlock(void* buffer, FX_FILESIZE offset, size_t size) { if (m_bUseRange) { if (offset + size > (size_t)GetSize()) { return FALSE; } offset += m_nOffset; } return (FX_BOOL)m_pFile->ReadPos(buffer, size, offset); } virtual size_t ReadBlock(void* buffer, size_t size) { if (m_bUseRange) { FX_FILESIZE availSize = m_nOffset + m_nSize - m_pFile->GetPosition(); if ((size_t)availSize < size) { size -= size - (size_t)availSize; } } return m_pFile->Read(buffer, size); } virtual FX_BOOL WriteBlock(const void* buffer, FX_FILESIZE offset, size_t size) { if (m_bUseRange) { offset += m_nOffset; } return (FX_BOOL)m_pFile->WritePos(buffer, size, offset); } virtual FX_BOOL Flush() { return m_pFile->Flush(); } IFXCRT_FileAccess* m_pFile; FX_DWORD m_dwCount; FX_BOOL m_bUseRange; FX_FILESIZE m_nOffset; FX_FILESIZE m_nSize; }; #define FX_MEMSTREAM_BlockSize (64 * 1024) #define FX_MEMSTREAM_Consecutive 0x01 #define FX_MEMSTREAM_TakeOver 0x02 class CFX_MemoryStream FX_FINAL : public IFX_MemoryStream, public CFX_Object { public: CFX_MemoryStream(FX_BOOL bConsecutive) : m_dwCount(1) , m_nTotalSize(0) , m_nCurSize(0) , m_nCurPos(0) , m_nGrowSize(FX_MEMSTREAM_BlockSize) , m_bUseRange(FALSE) { m_dwFlags = FX_MEMSTREAM_TakeOver | (bConsecutive ? FX_MEMSTREAM_Consecutive : 0); } CFX_MemoryStream(FX_LPBYTE pBuffer, size_t nSize, FX_BOOL bTakeOver) : m_dwCount(1) , m_nTotalSize(nSize) , m_nCurSize(nSize) , m_nCurPos(0) , m_nGrowSize(FX_MEMSTREAM_BlockSize) , m_bUseRange(FALSE) { m_Blocks.Add(pBuffer); m_dwFlags = FX_MEMSTREAM_Consecutive | (bTakeOver ? FX_MEMSTREAM_TakeOver : 0); } ~CFX_MemoryStream() { if (m_dwFlags & FX_MEMSTREAM_TakeOver) { for (FX_INT32 i = 0; i < m_Blocks.GetSize(); i++) { FX_Free((FX_LPBYTE)m_Blocks[i]); } } m_Blocks.RemoveAll(); } virtual IFX_FileStream* Retain() { m_dwCount ++; return this; } virtual void Release() { FX_DWORD nCount = -- m_dwCount; if (nCount) { return; } delete this; } virtual FX_FILESIZE GetSize() { return m_bUseRange ? (FX_FILESIZE) m_nSize : (FX_FILESIZE)m_nCurSize; } virtual FX_BOOL IsEOF() { return m_nCurPos >= (size_t)GetSize(); } virtual FX_FILESIZE GetPosition() { FX_FILESIZE pos = (FX_FILESIZE)m_nCurPos; if (m_bUseRange) { pos -= (FX_FILESIZE)m_nOffset; } return pos; } virtual FX_BOOL SetRange(FX_FILESIZE offset, FX_FILESIZE size) { if (offset < 0 || (size_t)(offset + size) > m_nCurSize) { return FALSE; } m_nOffset = (size_t)offset, m_nSize = (size_t)size; m_bUseRange = TRUE; m_nCurPos = m_nOffset; return TRUE; } virtual void ClearRange() { m_bUseRange = FALSE; } virtual FX_BOOL ReadBlock(void* buffer, FX_FILESIZE offset, size_t size) { if (!buffer || !size) { return FALSE; } if (m_bUseRange) { offset += (FX_FILESIZE)m_nOffset; } if ((size_t)offset + size > m_nCurSize) { return FALSE; } m_nCurPos = (size_t)offset + size; if (m_dwFlags & FX_MEMSTREAM_Consecutive) { FXSYS_memcpy32(buffer, (FX_LPBYTE)m_Blocks[0] + (size_t)offset, size); return TRUE; } size_t nStartBlock = (size_t)offset / m_nGrowSize; offset -= (FX_FILESIZE)(nStartBlock * m_nGrowSize); while (size) { size_t nRead = m_nGrowSize - (size_t)offset; if (nRead > size) { nRead = size; } FXSYS_memcpy32(buffer, (FX_LPBYTE)m_Blocks[(int)nStartBlock] + (size_t)offset, nRead); buffer = ((FX_LPBYTE)buffer) + nRead; size -= nRead; nStartBlock ++; offset = 0; } return TRUE; } virtual size_t ReadBlock(void* buffer, size_t size) { if (m_nCurPos >= m_nCurSize) { return 0; } if (m_bUseRange) { size_t availSize = m_nOffset + m_nSize - m_nCurPos; if (availSize < size) { size -= size - (size_t)availSize; } } size_t nRead = FX_MIN(size, m_nCurSize - m_nCurPos); if (!ReadBlock(buffer, (FX_INT32)m_nCurPos, nRead)) { return 0; } return nRead; } virtual FX_BOOL WriteBlock(const void* buffer, FX_FILESIZE offset, size_t size) { if (!buffer || !size) { return FALSE; } if (m_bUseRange) { offset += (FX_FILESIZE)m_nOffset; } if (m_dwFlags & FX_MEMSTREAM_Consecutive) { m_nCurPos = (size_t)offset + size; if (m_nCurPos > m_nTotalSize) { m_nTotalSize = (m_nCurPos + m_nGrowSize - 1) / m_nGrowSize * m_nGrowSize; if (m_Blocks.GetSize() < 1) { void* block = FX_Alloc(FX_BYTE, m_nTotalSize); m_Blocks.Add(block); } else { m_Blocks[0] = FX_Realloc(FX_BYTE, m_Blocks[0], m_nTotalSize); } if (!m_Blocks[0]) { m_Blocks.RemoveAll(); return FALSE; } } FXSYS_memcpy32((FX_LPBYTE)m_Blocks[0] + (size_t)offset, buffer, size); if (m_nCurSize < m_nCurPos) { m_nCurSize = m_nCurPos; } return TRUE; } if (!ExpandBlocks((size_t)offset + size)) { return FALSE; } m_nCurPos = (size_t)offset + size; size_t nStartBlock = (size_t)offset / m_nGrowSize; offset -= (FX_FILESIZE)(nStartBlock * m_nGrowSize); while (size) { size_t nWrite = m_nGrowSize - (size_t)offset; if (nWrite > size) { nWrite = size; } FXSYS_memcpy32((FX_LPBYTE)m_Blocks[(int)nStartBlock] + (size_t)offset, buffer, nWrite); buffer = ((FX_LPBYTE)buffer) + nWrite; size -= nWrite; nStartBlock ++; offset = 0; } return TRUE; } virtual FX_BOOL Flush() { return TRUE; } virtual FX_BOOL IsConsecutive() const { return m_dwFlags & FX_MEMSTREAM_Consecutive; } virtual void EstimateSize(size_t nInitSize, size_t nGrowSize) { if (m_dwFlags & FX_MEMSTREAM_Consecutive) { if (m_Blocks.GetSize() < 1) { FX_LPBYTE pBlock = FX_Alloc(FX_BYTE, FX_MAX(nInitSize, 4096)); if (pBlock) { m_Blocks.Add(pBlock); } } m_nGrowSize = FX_MAX(nGrowSize, 4096); } else if (m_Blocks.GetSize() < 1) { m_nGrowSize = FX_MAX(nGrowSize, 4096); } } virtual FX_LPBYTE GetBuffer() const { return m_Blocks.GetSize() ? (FX_LPBYTE)m_Blocks[0] : NULL; } virtual void AttachBuffer(FX_LPBYTE pBuffer, size_t nSize, FX_BOOL bTakeOver = FALSE) { if (!(m_dwFlags & FX_MEMSTREAM_Consecutive)) { return; } m_Blocks.RemoveAll(); m_Blocks.Add(pBuffer); m_nTotalSize = m_nCurSize = nSize; m_nCurPos = 0; m_dwFlags = FX_MEMSTREAM_Consecutive | (bTakeOver ? FX_MEMSTREAM_TakeOver : 0); ClearRange(); } virtual void DetachBuffer() { if (!(m_dwFlags & FX_MEMSTREAM_Consecutive)) { return; } m_Blocks.RemoveAll(); m_nTotalSize = m_nCurSize = m_nCurPos = 0; m_dwFlags = FX_MEMSTREAM_TakeOver; ClearRange(); } protected: CFX_PtrArray m_Blocks; FX_DWORD m_dwCount; size_t m_nTotalSize; size_t m_nCurSize; size_t m_nCurPos; size_t m_nGrowSize; FX_DWORD m_dwFlags; FX_BOOL m_bUseRange; size_t m_nOffset; size_t m_nSize; FX_BOOL ExpandBlocks(size_t size) { if (m_nCurSize < size) { m_nCurSize = size; } if (size <= m_nTotalSize) { return TRUE; } FX_INT32 iCount = m_Blocks.GetSize(); size = (size - m_nTotalSize + m_nGrowSize - 1) / m_nGrowSize; m_Blocks.SetSize(m_Blocks.GetSize() + (FX_INT32)size, -1); while (size --) { FX_LPBYTE pBlock = FX_Alloc(FX_BYTE, m_nGrowSize); if (!pBlock) { return FALSE; } m_Blocks.SetAt(iCount ++, pBlock); m_nTotalSize += m_nGrowSize; } return TRUE; } }; #ifdef __cplusplus extern "C" { #endif #define MT_N 848 #define MT_M 456 #define MT_Matrix_A 0x9908b0df #define MT_Upper_Mask 0x80000000 #define MT_Lower_Mask 0x7fffffff typedef struct _FX_MTRANDOMCONTEXT { _FX_MTRANDOMCONTEXT() { mti = MT_N + 1; bHaveSeed = FALSE; } FX_DWORD mti; FX_BOOL bHaveSeed; FX_DWORD mt[MT_N]; } FX_MTRANDOMCONTEXT, * FX_LPMTRANDOMCONTEXT; typedef FX_MTRANDOMCONTEXT const * FX_LPCMTRANDOMCONTEXT; #if _FXM_PLATFORM_ == _FXM_PLATFORM_WINDOWS_ FX_BOOL FX_GenerateCryptoRandom(FX_LPDWORD pBuffer, FX_INT32 iCount); #endif #ifdef __cplusplus } #endif #endif