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// 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
#include "core/include/fxcrt/fx_basic.h"
#include "core/include/fxcrt/fx_ext.h"
#include "core/src/fxcrt/extension.h"
#if _FXM_PLATFORM_ == _FXM_PLATFORM_WINDOWS_
#include <wincrypt.h>
#else
#include <ctime>
#endif
CFX_CRTFileStream::CFX_CRTFileStream(IFXCRT_FileAccess* pFA)
: m_pFile(pFA), m_dwCount(1) {}
CFX_CRTFileStream::~CFX_CRTFileStream() {
if (m_pFile) {
m_pFile->Release();
}
}
IFX_FileStream* CFX_CRTFileStream::Retain() {
m_dwCount++;
return this;
}
void CFX_CRTFileStream::Release() {
FX_DWORD nCount = --m_dwCount;
if (!nCount) {
delete this;
}
}
FX_FILESIZE CFX_CRTFileStream::GetSize() {
return m_pFile->GetSize();
}
FX_BOOL CFX_CRTFileStream::IsEOF() {
return GetPosition() >= GetSize();
}
FX_FILESIZE CFX_CRTFileStream::GetPosition() {
return m_pFile->GetPosition();
}
FX_BOOL CFX_CRTFileStream::ReadBlock(void* buffer,
FX_FILESIZE offset,
size_t size) {
return (FX_BOOL)m_pFile->ReadPos(buffer, size, offset);
}
size_t CFX_CRTFileStream::ReadBlock(void* buffer, size_t size) {
return m_pFile->Read(buffer, size);
}
FX_BOOL CFX_CRTFileStream::WriteBlock(const void* buffer,
FX_FILESIZE offset,
size_t size) {
return (FX_BOOL)m_pFile->WritePos(buffer, size, offset);
}
FX_BOOL CFX_CRTFileStream::Flush() {
return m_pFile->Flush();
}
#ifdef PDF_ENABLE_XFA
IFX_FileAccess* FX_CreateDefaultFileAccess(const CFX_WideStringC& wsPath) {
if (wsPath.GetLength() == 0)
return NULL;
CFX_CRTFileAccess* pFA = NULL;
pFA = new CFX_CRTFileAccess;
if (NULL == pFA)
return NULL;
pFA->Init(wsPath);
return pFA;
}
#endif // PDF_ENABLE_XFA
IFX_FileStream* FX_CreateFileStream(const FX_CHAR* filename, FX_DWORD dwModes) {
IFXCRT_FileAccess* pFA = FXCRT_FileAccess_Create();
if (!pFA) {
return NULL;
}
if (!pFA->Open(filename, dwModes)) {
pFA->Release();
return NULL;
}
return new CFX_CRTFileStream(pFA);
}
IFX_FileStream* FX_CreateFileStream(const FX_WCHAR* filename,
FX_DWORD dwModes) {
IFXCRT_FileAccess* pFA = FXCRT_FileAccess_Create();
if (!pFA) {
return NULL;
}
if (!pFA->Open(filename, dwModes)) {
pFA->Release();
return NULL;
}
return new CFX_CRTFileStream(pFA);
}
IFX_FileRead* FX_CreateFileRead(const FX_CHAR* filename) {
return FX_CreateFileStream(filename, FX_FILEMODE_ReadOnly);
}
IFX_FileRead* FX_CreateFileRead(const FX_WCHAR* filename) {
return FX_CreateFileStream(filename, FX_FILEMODE_ReadOnly);
}
IFX_MemoryStream* FX_CreateMemoryStream(uint8_t* pBuffer,
size_t dwSize,
FX_BOOL bTakeOver) {
return new CFX_MemoryStream(pBuffer, dwSize, bTakeOver);
}
IFX_MemoryStream* FX_CreateMemoryStream(FX_BOOL bConsecutive) {
return new CFX_MemoryStream(bConsecutive);
}
FX_FLOAT FXSYS_tan(FX_FLOAT a) {
return (FX_FLOAT)tan(a);
}
FX_FLOAT FXSYS_logb(FX_FLOAT b, FX_FLOAT x) {
return FXSYS_log(x) / FXSYS_log(b);
}
FX_FLOAT FXSYS_strtof(const FX_CHAR* pcsStr,
int32_t iLength,
int32_t* pUsedLen) {
FXSYS_assert(pcsStr);
if (iLength < 0) {
iLength = (int32_t)FXSYS_strlen(pcsStr);
}
CFX_WideString ws =
CFX_WideString::FromLocal(CFX_ByteString(pcsStr, iLength));
return FXSYS_wcstof(ws.c_str(), iLength, pUsedLen);
}
FX_FLOAT FXSYS_wcstof(const FX_WCHAR* pwsStr,
int32_t iLength,
int32_t* pUsedLen) {
FXSYS_assert(pwsStr);
if (iLength < 0) {
iLength = (int32_t)FXSYS_wcslen(pwsStr);
}
if (iLength == 0) {
return 0.0f;
}
int32_t iUsedLen = 0;
FX_BOOL bNegtive = FALSE;
switch (pwsStr[iUsedLen]) {
case '-':
bNegtive = TRUE;
case '+':
iUsedLen++;
break;
}
FX_FLOAT fValue = 0.0f;
while (iUsedLen < iLength) {
FX_WCHAR wch = pwsStr[iUsedLen];
if (wch >= L'0' && wch <= L'9') {
fValue = fValue * 10.0f + (wch - L'0');
} else {
break;
}
iUsedLen++;
}
if (iUsedLen < iLength && pwsStr[iUsedLen] == L'.') {
FX_FLOAT fPrecise = 0.1f;
while (++iUsedLen < iLength) {
FX_WCHAR wch = pwsStr[iUsedLen];
if (wch >= L'0' && wch <= L'9') {
fValue += (wch - L'0') * fPrecise;
fPrecise *= 0.1f;
} else {
break;
}
}
}
if (pUsedLen) {
*pUsedLen = iUsedLen;
}
return bNegtive ? -fValue : fValue;
}
FX_WCHAR* FXSYS_wcsncpy(FX_WCHAR* dstStr,
const FX_WCHAR* srcStr,
size_t count) {
FXSYS_assert(dstStr && srcStr && count > 0);
for (size_t i = 0; i < count; ++i)
if ((dstStr[i] = srcStr[i]) == L'\0') {
break;
}
return dstStr;
}
int32_t FXSYS_wcsnicmp(const FX_WCHAR* s1, const FX_WCHAR* s2, size_t count) {
FXSYS_assert(s1 && s2 && count > 0);
FX_WCHAR wch1 = 0, wch2 = 0;
while (count-- > 0) {
wch1 = (FX_WCHAR)FXSYS_tolower(*s1++);
wch2 = (FX_WCHAR)FXSYS_tolower(*s2++);
if (wch1 != wch2) {
break;
}
}
return wch1 - wch2;
}
int32_t FXSYS_strnicmp(const FX_CHAR* s1, const FX_CHAR* s2, size_t count) {
FXSYS_assert(s1 && s2 && count > 0);
FX_CHAR ch1 = 0, ch2 = 0;
while (count-- > 0) {
ch1 = (FX_CHAR)FXSYS_tolower(*s1++);
ch2 = (FX_CHAR)FXSYS_tolower(*s2++);
if (ch1 != ch2) {
break;
}
}
return ch1 - ch2;
}
FX_DWORD FX_HashCode_String_GetA(const FX_CHAR* pStr,
int32_t iLength,
FX_BOOL bIgnoreCase) {
FXSYS_assert(pStr);
if (iLength < 0) {
iLength = (int32_t)FXSYS_strlen(pStr);
}
const FX_CHAR* pStrEnd = pStr + iLength;
FX_DWORD dwHashCode = 0;
if (bIgnoreCase) {
while (pStr < pStrEnd) {
dwHashCode = 31 * dwHashCode + FXSYS_tolower(*pStr++);
}
} else {
while (pStr < pStrEnd) {
dwHashCode = 31 * dwHashCode + *pStr++;
}
}
return dwHashCode;
}
FX_DWORD FX_HashCode_String_GetW(const FX_WCHAR* pStr,
int32_t iLength,
FX_BOOL bIgnoreCase) {
FXSYS_assert(pStr);
if (iLength < 0) {
iLength = (int32_t)FXSYS_wcslen(pStr);
}
const FX_WCHAR* pStrEnd = pStr + iLength;
FX_DWORD dwHashCode = 0;
if (bIgnoreCase) {
while (pStr < pStrEnd) {
dwHashCode = 1313 * dwHashCode + FXSYS_tolower(*pStr++);
}
} else {
while (pStr < pStrEnd) {
dwHashCode = 1313 * dwHashCode + *pStr++;
}
}
return dwHashCode;
}
void* FX_Random_MT_Start(FX_DWORD dwSeed) {
FX_MTRANDOMCONTEXT* pContext = FX_Alloc(FX_MTRANDOMCONTEXT, 1);
pContext->mt[0] = dwSeed;
FX_DWORD& i = pContext->mti;
FX_DWORD* pBuf = pContext->mt;
for (i = 1; i < MT_N; i++) {
pBuf[i] = (1812433253UL * (pBuf[i - 1] ^ (pBuf[i - 1] >> 30)) + i);
}
pContext->bHaveSeed = TRUE;
return pContext;
}
FX_DWORD FX_Random_MT_Generate(void* pContext) {
FXSYS_assert(pContext);
FX_MTRANDOMCONTEXT* pMTC = static_cast<FX_MTRANDOMCONTEXT*>(pContext);
FX_DWORD v;
static FX_DWORD mag[2] = {0, MT_Matrix_A};
FX_DWORD& mti = pMTC->mti;
FX_DWORD* pBuf = pMTC->mt;
if ((int)mti < 0 || mti >= MT_N) {
if (mti > MT_N && !pMTC->bHaveSeed) {
return 0;
}
FX_DWORD kk;
for (kk = 0; kk < MT_N - MT_M; kk++) {
v = (pBuf[kk] & MT_Upper_Mask) | (pBuf[kk + 1] & MT_Lower_Mask);
pBuf[kk] = pBuf[kk + MT_M] ^ (v >> 1) ^ mag[v & 1];
}
for (; kk < MT_N - 1; kk++) {
v = (pBuf[kk] & MT_Upper_Mask) | (pBuf[kk + 1] & MT_Lower_Mask);
pBuf[kk] = pBuf[kk + (MT_M - MT_N)] ^ (v >> 1) ^ mag[v & 1];
}
v = (pBuf[MT_N - 1] & MT_Upper_Mask) | (pBuf[0] & MT_Lower_Mask);
pBuf[MT_N - 1] = pBuf[MT_M - 1] ^ (v >> 1) ^ mag[v & 1];
mti = 0;
}
v = pBuf[mti++];
v ^= (v >> 11);
v ^= (v << 7) & 0x9d2c5680UL;
v ^= (v << 15) & 0xefc60000UL;
v ^= (v >> 18);
return v;
}
void FX_Random_MT_Close(void* pContext) {
FXSYS_assert(pContext);
FX_Free(pContext);
}
void FX_Random_GenerateMT(FX_DWORD* pBuffer, int32_t iCount) {
FX_DWORD dwSeed;
#if _FXM_PLATFORM_ == _FXM_PLATFORM_WINDOWS_
if (!FX_GenerateCryptoRandom(&dwSeed, 1)) {
FX_Random_GenerateBase(&dwSeed, 1);
}
#else
FX_Random_GenerateBase(&dwSeed, 1);
#endif
void* pContext = FX_Random_MT_Start(dwSeed);
while (iCount-- > 0) {
*pBuffer++ = FX_Random_MT_Generate(pContext);
}
FX_Random_MT_Close(pContext);
}
void FX_Random_GenerateBase(FX_DWORD* pBuffer, int32_t iCount) {
#if _FXM_PLATFORM_ == _FXM_PLATFORM_WINDOWS_
SYSTEMTIME st1, st2;
::GetSystemTime(&st1);
do {
::GetSystemTime(&st2);
} while (FXSYS_memcmp(&st1, &st2, sizeof(SYSTEMTIME)) == 0);
FX_DWORD dwHash1 =
FX_HashCode_String_GetA((const FX_CHAR*)&st1, sizeof(st1), TRUE);
FX_DWORD dwHash2 =
FX_HashCode_String_GetA((const FX_CHAR*)&st2, sizeof(st2), TRUE);
::srand((dwHash1 << 16) | (FX_DWORD)dwHash2);
#else
time_t tmLast = time(NULL);
time_t tmCur;
while ((tmCur = time(NULL)) == tmLast) {
continue;
}
::srand((tmCur << 16) | (tmLast & 0xFFFF));
#endif
while (iCount-- > 0) {
*pBuffer++ = (FX_DWORD)((::rand() << 16) | (::rand() & 0xFFFF));
}
}
#if _FXM_PLATFORM_ == _FXM_PLATFORM_WINDOWS_
FX_BOOL FX_GenerateCryptoRandom(FX_DWORD* pBuffer, int32_t iCount) {
HCRYPTPROV hCP = NULL;
if (!::CryptAcquireContext(&hCP, NULL, NULL, PROV_RSA_FULL, 0) || !hCP) {
return FALSE;
}
::CryptGenRandom(hCP, iCount * sizeof(FX_DWORD), (uint8_t*)pBuffer);
::CryptReleaseContext(hCP, 0);
return TRUE;
}
#endif
void FX_Random_GenerateCrypto(FX_DWORD* pBuffer, int32_t iCount) {
#if _FXM_PLATFORM_ == _FXM_PLATFORM_WINDOWS_
FX_GenerateCryptoRandom(pBuffer, iCount);
#else
FX_Random_GenerateBase(pBuffer, iCount);
#endif
}
#ifdef PDF_ENABLE_XFA
void FX_GUID_CreateV4(FX_LPGUID pGUID) {
FX_Random_GenerateMT((FX_DWORD*)pGUID, 4);
uint8_t& b = ((uint8_t*)pGUID)[6];
b = (b & 0x0F) | 0x40;
}
const FX_CHAR* gs_FX_pHexChars = "0123456789ABCDEF";
void FX_GUID_ToString(FX_LPCGUID pGUID,
CFX_ByteString& bsStr,
FX_BOOL bSeparator) {
FX_CHAR* pBuf = bsStr.GetBuffer(40);
uint8_t b;
for (int32_t i = 0; i < 16; i++) {
b = ((const uint8_t*)pGUID)[i];
*pBuf++ = gs_FX_pHexChars[b >> 4];
*pBuf++ = gs_FX_pHexChars[b & 0x0F];
if (bSeparator && (i == 3 || i == 5 || i == 7 || i == 9)) {
*pBuf++ = L'-';
}
}
bsStr.ReleaseBuffer(bSeparator ? 36 : 32);
}
#endif // PDF_ENABLE_XFA
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