/*****************************************************************************/ /* FileStream.cpp Copyright (c) Ladislav Zezula 2010 */ /*---------------------------------------------------------------------------*/ /* File stream support for StormLib */ /* */ /* Windows support: Written by Ladislav Zezula */ /* Mac support: Written by Sam Wilkins */ /* Linux support: Written by Sam Wilkins and Ivan Komissarov */ /* Big-endian: Written & debugged by Sam Wilkins */ /*---------------------------------------------------------------------------*/ /* Date Ver Who Comment */ /* -------- ---- --- ------- */ /* 11.06.10 1.00 Lad Derived from StormPortMac.cpp and StormPortLinux.cpp */ /*****************************************************************************/ #define __STORMLIB_SELF__ #include "StormLib.h" #include "StormCommon.h" #include "FileStream.h" #ifdef _MSC_VER #pragma comment(lib, "wininet.lib") // Internet functions for HTTP stream #pragma warning(disable: 4800) // 'BOOL' : forcing value to bool 'true' or 'false' (performance warning) #endif //----------------------------------------------------------------------------- // Local defines #ifndef INVALID_HANDLE_VALUE #define INVALID_HANDLE_VALUE ((HANDLE)-1) #endif //----------------------------------------------------------------------------- // Local functions - platform-specific functions #ifndef PLATFORM_WINDOWS static int nLastError = ERROR_SUCCESS; int GetLastError() { return nLastError; } void SetLastError(int nError) { nLastError = nError; } #endif //----------------------------------------------------------------------------- // Dummy init function static void BaseNone_Init(TFileStream *) { // Nothing here } //----------------------------------------------------------------------------- // Local functions - base file support static bool BaseFile_Create(TFileStream * pStream) { #ifdef PLATFORM_WINDOWS { DWORD dwWriteShare = (pStream->dwFlags & STREAM_FLAG_WRITE_SHARE) ? FILE_SHARE_WRITE : 0; pStream->Base.File.hFile = CreateFile(pStream->szFileName, GENERIC_READ | GENERIC_WRITE, dwWriteShare | FILE_SHARE_READ, NULL, CREATE_ALWAYS, 0, NULL); if(pStream->Base.File.hFile == INVALID_HANDLE_VALUE) return false; } #endif #if defined(PLATFORM_MAC) || defined(PLATFORM_LINUX) { intptr_t handle; handle = open(pStream->szFileName, O_RDWR | O_CREAT | O_TRUNC | O_LARGEFILE, S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH); if(handle == -1) { nLastError = errno; return false; } pStream->Base.File.hFile = (HANDLE)handle; } #endif // Reset the file size and position pStream->Base.File.FileSize = 0; pStream->Base.File.FilePos = 0; return true; } static bool BaseFile_Open(TFileStream * pStream, DWORD dwStreamFlags) { #ifdef PLATFORM_WINDOWS { ULARGE_INTEGER FileSize; DWORD dwWriteAccess = (dwStreamFlags & STREAM_FLAG_READ_ONLY) ? 0 : FILE_WRITE_DATA | FILE_APPEND_DATA | FILE_WRITE_ATTRIBUTES; DWORD dwWriteShare = (dwStreamFlags & STREAM_FLAG_WRITE_SHARE) ? FILE_SHARE_WRITE : 0; // Open the file pStream->Base.File.hFile = CreateFile(pStream->szFileName, FILE_READ_DATA | FILE_READ_ATTRIBUTES | dwWriteAccess, FILE_SHARE_READ | dwWriteShare, NULL, OPEN_EXISTING, 0, NULL); if(pStream->Base.File.hFile == INVALID_HANDLE_VALUE) return false; // Query the file size FileSize.LowPart = GetFileSize(pStream->Base.File.hFile, &FileSize.HighPart); pStream->Base.File.FileSize = FileSize.QuadPart; // Query last write time GetFileTime(pStream->Base.File.hFile, NULL, NULL, (LPFILETIME)&pStream->Base.File.FileTime); } #endif #if defined(PLATFORM_MAC) || defined(PLATFORM_LINUX) { struct stat64 fileinfo; int oflag = (dwStreamFlags & STREAM_FLAG_READ_ONLY) ? O_RDONLY : O_RDWR; intptr_t handle; // Open the file handle = open(szFileName, oflag | O_LARGEFILE); if(handle == -1) { nLastError = errno; return false; } // Get the file size if(fstat64(handle, &fileinfo) == -1) { nLastError = errno; return false; } // time_t is number of seconds since 1.1.1970, UTC. // 1 second = 10000000 (decimal) in FILETIME // Set the start to 1.1.1970 00:00:00 pStream->Base.File.FileTime = 0x019DB1DED53E8000ULL + (10000000 * fileinfo.st_mtime); pStream->Base.File.FileSize = (ULONGLONG)fileinfo.st_size; pStream->Base.File.hFile = (HANDLE)handle; } #endif // Reset the file position pStream->Base.File.FilePos = 0; return true; } static bool BaseFile_Read( TFileStream * pStream, // Pointer to an open stream ULONGLONG * pByteOffset, // Pointer to file byte offset. If NULL, it reads from the current position void * pvBuffer, // Pointer to data to be read DWORD dwBytesToRead) // Number of bytes to read from the file { ULONGLONG ByteOffset = (pByteOffset != NULL) ? *pByteOffset : pStream->Base.File.FilePos; DWORD dwBytesRead = 0; // Must be set by platform-specific code #ifdef PLATFORM_WINDOWS { // Note: StormLib no longer supports Windows 9x. // Thus, we can use the OVERLAPPED structure to specify // file offset to read from file. This allows us to skip // one system call to SetFilePointer // Update the byte offset pStream->Base.File.FilePos = ByteOffset; // Read the data if(dwBytesToRead != 0) { OVERLAPPED Overlapped; Overlapped.OffsetHigh = (DWORD)(ByteOffset >> 32); Overlapped.Offset = (DWORD)ByteOffset; Overlapped.hEvent = NULL; if(!ReadFile(pStream->Base.File.hFile, pvBuffer, dwBytesToRead, &dwBytesRead, &Overlapped)) return false; } } #endif #if defined(PLATFORM_MAC) || defined(PLATFORM_LINUX) { ssize_t bytes_read; // If the byte offset is different from the current file position, // we have to update the file position if(ByteOffset != pStream->FilePos) { lseek64((intptr_t)pStream->Base.File.hFile, (off64_t)(ByteOffset), SEEK_SET); pStream->FilePos = ByteOffset; } // Perform the read operation if(dwBytesToRead != 0) { bytes_read = read((intptr_t)pStream->Base.File.hFile, pvBuffer, (size_t)dwBytesToRead); if(bytes_read == -1) { nLastError = errno; return false; } dwBytesRead = (DWORD)(size_t)bytes_read; } } #endif // Increment the current file position by number of bytes read // If the number of bytes read doesn't match to required amount, return false pStream->Base.File.FilePos = ByteOffset + dwBytesRead; if(dwBytesRead != dwBytesToRead) SetLastError(ERROR_HANDLE_EOF); return (dwBytesRead == dwBytesToRead); } /** * \a pStream Pointer to an open stream * \a pByteOffset Pointer to file byte offset. If NULL, writes to current position * \a pvBuffer Pointer to data to be written * \a dwBytesToWrite Number of bytes to write to the file */ static bool BaseFile_Write(TFileStream * pStream, ULONGLONG * pByteOffset, const void * pvBuffer, DWORD dwBytesToWrite) { ULONGLONG ByteOffset = (pByteOffset != NULL) ? *pByteOffset : pStream->Base.File.FilePos; DWORD dwBytesWritten = 0; // Must be set by platform-specific code #ifdef PLATFORM_WINDOWS { // Note: StormLib no longer supports Windows 9x. // Thus, we can use the OVERLAPPED structure to specify // file offset to read from file. This allows us to skip // one system call to SetFilePointer // Update the byte offset pStream->Base.File.FilePos = ByteOffset; // Read the data if(dwBytesToWrite != 0) { OVERLAPPED Overlapped; Overlapped.OffsetHigh = (DWORD)(ByteOffset >> 32); Overlapped.Offset = (DWORD)ByteOffset; Overlapped.hEvent = NULL; if(!WriteFile(pStream->Base.File.hFile, pvBuffer, dwBytesToWrite, &dwBytesWritten, &Overlapped)) return false; } } #endif #if defined(PLATFORM_MAC) || defined(PLATFORM_LINUX) { ssize_t bytes_written; // If the byte offset is different from the current file position, // we have to update the file position if(ByteOffset != pStream->Base.File.FilePos) { lseek64((intptr_t)pStream->Base.File.hFile, (off64_t)(ByteOffset), SEEK_SET); pStream->Base.File.FilePos = ByteOffset; } // Perform the read operation bytes_written = write((intptr_t)pStream->Base.File.hFile, pvBuffer, (size_t)dwBytesToWrite); if(bytes_written == -1) { nLastError = errno; return false; } dwBytesWritten = (DWORD)(size_t)bytes_written; } #endif // Increment the current file position by number of bytes read pStream->Base.File.FilePos = ByteOffset + dwBytesWritten; // Also modify the file size, if needed if(pStream->Base.File.FilePos > pStream->Base.File.FileSize) pStream->Base.File.FileSize = pStream->Base.File.FilePos; if(dwBytesWritten != dwBytesToWrite) SetLastError(ERROR_DISK_FULL); return (dwBytesWritten == dwBytesToWrite); } /** * \a pStream Pointer to an open stream * \a NewFileSize New size of the file */ static bool BaseFile_Resize(TFileStream * pStream, ULONGLONG NewFileSize) { #ifdef PLATFORM_WINDOWS { LONG FileSizeHi = (LONG)(NewFileSize >> 32); LONG FileSizeLo; DWORD dwNewPos; bool bResult; // Set the position at the new file size dwNewPos = SetFilePointer(pStream->Base.File.hFile, (LONG)NewFileSize, &FileSizeHi, FILE_BEGIN); if(dwNewPos == INVALID_SET_FILE_POINTER && GetLastError() != ERROR_SUCCESS) return false; // Set the current file pointer as the end of the file bResult = (bool)SetEndOfFile(pStream->Base.File.hFile); // Restore the file position FileSizeHi = (LONG)(pStream->Base.File.FilePos >> 32); FileSizeLo = (LONG)(pStream->Base.File.FilePos); SetFilePointer(pStream->Base.File.hFile, FileSizeLo, &FileSizeHi, FILE_BEGIN); return bResult; } #endif #if defined(PLATFORM_MAC) || defined(PLATFORM_LINUX) { if(ftruncate64((intptr_t)pStream->Base.File.hFile, (off64_t)NewFileSize) == -1) { nLastError = errno; return false; } return true; } #endif } // Gives the current file size static bool BaseFile_GetSize(TFileStream * pStream, ULONGLONG * pFileSize) { // Note: Used by all thre base providers. // Requires the TBaseData union to have the same layout for all three base providers *pFileSize = pStream->Base.File.FileSize; return true; } // Gives the current file position static bool BaseFile_GetPos(TFileStream * pStream, ULONGLONG * pByteOffset) { // Note: Used by all thre base providers. // Requires the TBaseData union to have the same layout for all three base providers *pByteOffset = pStream->Base.File.FilePos; return true; } // Renames the file pointed by pStream so that it contains data from pNewStream static bool BaseFile_Replace(TFileStream * pStream, TFileStream * pNewStream) { #ifdef PLATFORM_WINDOWS // Delete the original stream file. Don't check the result value, // because if the file doesn't exist, it would fail DeleteFile(pStream->szFileName); // Rename the new file to the old stream's file return (bool)MoveFile(pNewStream->szFileName, pStream->szFileName); #endif #if defined(PLATFORM_MAC) || defined(PLATFORM_LINUX) // "rename" on Linux also works if the target file exists if(rename(pNewStream->szFileName, pStream->szFileName) == -1) { nLastError = errno; return false; } return true; #endif } static void BaseFile_Close(TFileStream * pStream) { if(pStream->Base.File.hFile != INVALID_HANDLE_VALUE) { #ifdef PLATFORM_WINDOWS CloseHandle(pStream->Base.File.hFile); #endif #if defined(PLATFORM_MAC) || defined(PLATFORM_LINUX) close((intptr_t)pStream->Base.File.hFile); #endif } // Also invalidate the handle pStream->Base.File.hFile = INVALID_HANDLE_VALUE; } // Initializes base functions for the disk file static void BaseFile_Init(TFileStream * pStream) { pStream->BaseCreate = BaseFile_Create; pStream->BaseOpen = BaseFile_Open; pStream->BaseRead = BaseFile_Read; pStream->BaseWrite = BaseFile_Write; pStream->BaseResize = BaseFile_Resize; pStream->BaseGetSize = BaseFile_GetSize; pStream->BaseGetPos = BaseFile_GetPos; pStream->BaseClose = BaseFile_Close; } //----------------------------------------------------------------------------- // Local functions - base memory-mapped file support static bool BaseMap_Open(TFileStream * pStream, DWORD dwStreamFlags) { #ifdef PLATFORM_WINDOWS ULARGE_INTEGER FileSize; HANDLE hFile; HANDLE hMap; bool bResult = false; // Keep compiler happy dwStreamFlags = dwStreamFlags; // Open the file for read access hFile = CreateFile(pStream->szFileName, FILE_READ_DATA, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0, NULL); if(hFile != NULL) { // Retrieve file size. Don't allow mapping file of a zero size. FileSize.LowPart = GetFileSize(hFile, &FileSize.HighPart); if(FileSize.QuadPart != 0) { // Now create mapping object hMap = CreateFileMapping(hFile, NULL, PAGE_READONLY, 0, 0, NULL); if(hMap != NULL) { // Map the entire view into memory // Note that this operation will fail if the file can't fit // into usermode address space pStream->Base.Map.pbFile = (LPBYTE)MapViewOfFile(hMap, FILE_MAP_READ, 0, 0, 0); if(pStream->Base.Map.pbFile != NULL) { // Retrieve file time GetFileTime(hFile, NULL, NULL, (LPFILETIME)&pStream->Base.Map.FileTime); // Retrieve file size and position pStream->Base.Map.FileSize = FileSize.QuadPart; pStream->Base.Map.FilePos = 0; bResult = true; } // Close the map handle CloseHandle(hMap); } } // Close the file handle CloseHandle(hFile); } // If the file is not there and is not available for random access, // report error if(bResult == false) return false; #endif #if defined(PLATFORM_MAC) || defined(PLATFORM_LINUX) struct stat64 fileinfo; intptr_t handle; bool bResult = false; // Open the file handle = open(szFileName, O_RDONLY); if(handle != -1) { // Get the file size if(fstat64(handle, &fileinfo) != -1) { pStream->Base.Map.pbFile = (LPBYTE)mmap(NULL, (size_t)fileinfo.st_size, PROT_READ, MAP_PRIVATE, handle, 0); if(pStream->Base.Map.pbFile != NULL) { // time_t is number of seconds since 1.1.1970, UTC. // 1 second = 10000000 (decimal) in FILETIME // Set the start to 1.1.1970 00:00:00 pStream->FileTime = 0x019DB1DED53E8000ULL + (10000000 * fileinfo.st_mtime); pStream->FileSize = (ULONGLONG)fileinfo.st_size; pStream->FilePos = 0; bResult = true; } } close(handle); } // Did the mapping fail? if(bResult == false) { nLastError = errno; return false; } #endif return true; } static bool BaseMap_Read( TFileStream * pStream, // Pointer to an open stream ULONGLONG * pByteOffset, // Pointer to file byte offset. If NULL, it reads from the current position void * pvBuffer, // Pointer to data to be read DWORD dwBytesToRead) // Number of bytes to read from the file { ULONGLONG ByteOffset = (pByteOffset != NULL) ? *pByteOffset : pStream->Base.Map.FilePos; // Do we have to read anything at all? if(dwBytesToRead != 0) { // Don't allow reading past file size if((ByteOffset + dwBytesToRead) > pStream->Base.Map.FileSize) return false; // Copy the required data memcpy(pvBuffer, pStream->Base.Map.pbFile + (size_t)ByteOffset, dwBytesToRead); } // Move the current file position pStream->Base.Map.FilePos += dwBytesToRead; return true; } static void BaseMap_Close(TFileStream * pStream) { #ifdef PLATFORM_WINDOWS if(pStream->Base.Map.pbFile != NULL) UnmapViewOfFile(pStream->Base.Map.pbFile); #endif #if defined(PLATFORM_MAC) || defined(PLATFORM_LINUX) if(pStream->Base.Map.pbFile != NULL) munmap(pStream->Base.Map.pbFile, (size_t )pStream->FileSize); #endif pStream->Base.Map.pbFile = NULL; } // Initializes base functions for the mapped file static void BaseMap_Init(TFileStream * pStream) { // Supply the file stream functions pStream->BaseOpen = BaseMap_Open; pStream->BaseRead = BaseMap_Read; pStream->BaseGetSize = BaseFile_GetSize; // Reuse BaseFile function pStream->BaseGetPos = BaseFile_GetPos; // Reuse BaseFile function pStream->BaseClose = BaseMap_Close; // Mapped files are read-only pStream->dwFlags |= STREAM_FLAG_READ_ONLY; } //----------------------------------------------------------------------------- // Local functions - base HTTP file support static const TCHAR * BaseHttp_ExtractServerName(const TCHAR * szFileName, TCHAR * szServerName) { // Check for HTTP if(!_tcsnicmp(szFileName, _T("http://"), 7)) szFileName += 7; // Cut off the server name if(szServerName != NULL) { while(szFileName[0] != 0 && szFileName[0] != _T('/')) *szServerName++ = *szFileName++; *szServerName = 0; } else { while(szFileName[0] != 0 && szFileName[0] != _T('/')) szFileName++; } // Return the remainder return szFileName; } static bool BaseHttp_Open(TFileStream * pStream, DWORD dwStreamFlags) { #ifdef PLATFORM_WINDOWS const TCHAR * szFileName; HINTERNET hRequest; DWORD dwTemp = 0; bool bFileAvailable = false; int nError = ERROR_SUCCESS; // Keep compiler happy dwStreamFlags = dwStreamFlags; // Don't connect to the internet if(!InternetGetConnectedState(&dwTemp, 0)) nError = GetLastError(); // Initiate the connection to the internet if(nError == ERROR_SUCCESS) { pStream->Base.Http.hInternet = InternetOpen(_T("StormLib HTTP MPQ reader"), INTERNET_OPEN_TYPE_PRECONFIG, NULL, NULL, 0); if(pStream->Base.Http.hInternet == NULL) nError = GetLastError(); } // Connect to the server if(nError == ERROR_SUCCESS) { TCHAR szServerName[MAX_PATH]; DWORD dwFlags = INTERNET_FLAG_KEEP_CONNECTION | INTERNET_FLAG_NO_UI | INTERNET_FLAG_NO_CACHE_WRITE; // Initiate connection with the server szFileName = BaseHttp_ExtractServerName(pStream->szFileName, szServerName); pStream->Base.Http.hConnect = InternetConnect(pStream->Base.Http.hInternet, szServerName, INTERNET_DEFAULT_HTTP_PORT, NULL, NULL, INTERNET_SERVICE_HTTP, dwFlags, 0); if(pStream->Base.Http.hConnect == NULL) nError = GetLastError(); } // Now try to query the file size if(nError == ERROR_SUCCESS) { // Open HTTP request to the file hRequest = HttpOpenRequest(pStream->Base.Http.hConnect, _T("GET"), szFileName, NULL, NULL, NULL, INTERNET_FLAG_NO_CACHE_WRITE, 0); if(hRequest != NULL) { if(HttpSendRequest(hRequest, NULL, 0, NULL, 0)) { ULONGLONG FileTime = 0; DWORD dwFileSize = 0; DWORD dwDataSize; DWORD dwIndex = 0; // Check if the MPQ has Last Modified field dwDataSize = sizeof(ULONGLONG); if(HttpQueryInfo(hRequest, HTTP_QUERY_LAST_MODIFIED | HTTP_QUERY_FLAG_SYSTEMTIME, &FileTime, &dwDataSize, &dwIndex)) pStream->Base.Http.FileTime = FileTime; // Verify if the server supports random access dwDataSize = sizeof(DWORD); if(HttpQueryInfo(hRequest, HTTP_QUERY_CONTENT_LENGTH | HTTP_QUERY_FLAG_NUMBER, &dwFileSize, &dwDataSize, &dwIndex)) { if(dwFileSize != 0) { pStream->Base.Http.FileSize = dwFileSize; pStream->Base.Http.FilePos = 0; bFileAvailable = true; } } } InternetCloseHandle(hRequest); } } // If the file is not there and is not available for random access, // report error if(bFileAvailable == false) { pStream->BaseClose(pStream); return false; } return true; #else // Not supported SetLastError(ERROR_NOT_SUPPORTED); pStream = pStream; return false; #endif } static bool BaseHttp_Read( TFileStream * pStream, // Pointer to an open stream ULONGLONG * pByteOffset, // Pointer to file byte offset. If NULL, it reads from the current position void * pvBuffer, // Pointer to data to be read DWORD dwBytesToRead) // Number of bytes to read from the file { #ifdef PLATFORM_WINDOWS ULONGLONG ByteOffset = (pByteOffset != NULL) ? *pByteOffset : pStream->Base.Http.FilePos; DWORD dwTotalBytesRead = 0; // Do we have to read anything at all? if(dwBytesToRead != 0) { HINTERNET hRequest; LPCTSTR szFileName; LPBYTE pbBuffer = (LPBYTE)pvBuffer; TCHAR szRangeRequest[0x80]; DWORD dwStartOffset = (DWORD)ByteOffset; DWORD dwEndOffset = dwStartOffset + dwBytesToRead; // Open HTTP request to the file szFileName = BaseHttp_ExtractServerName(pStream->szFileName, NULL); hRequest = HttpOpenRequest(pStream->Base.Http.hConnect, _T("GET"), szFileName, NULL, NULL, NULL, INTERNET_FLAG_NO_CACHE_WRITE, 0); if(hRequest != NULL) { // Add range request to the HTTP headers // http://www.clevercomponents.com/articles/article015/resuming.asp _stprintf(szRangeRequest, _T("Range: bytes=%d-%d"), dwStartOffset, dwEndOffset); HttpAddRequestHeaders(hRequest, szRangeRequest, 0xFFFFFFFF, HTTP_ADDREQ_FLAG_ADD_IF_NEW); // Send the request to the server if(HttpSendRequest(hRequest, NULL, 0, NULL, 0)) { while(dwTotalBytesRead < dwBytesToRead) { DWORD dwBlockBytesToRead = dwBytesToRead - dwTotalBytesRead; DWORD dwBlockBytesRead = 0; // Read the block from the file if(dwBlockBytesToRead > 0x200) dwBlockBytesToRead = 0x200; InternetReadFile(hRequest, pbBuffer, dwBlockBytesToRead, &dwBlockBytesRead); // Check for end if(dwBlockBytesRead == 0) break; // Move buffers dwTotalBytesRead += dwBlockBytesRead; pbBuffer += dwBlockBytesRead; } } InternetCloseHandle(hRequest); } } // Increment the current file position by number of bytes read pStream->Base.Http.FilePos = ByteOffset + dwTotalBytesRead; // If the number of bytes read doesn't match the required amount, return false if(dwTotalBytesRead != dwBytesToRead) SetLastError(ERROR_HANDLE_EOF); return (dwTotalBytesRead == dwBytesToRead); #else // Not supported pStream = pStream; pByteOffset = pByteOffset; pvBuffer = pvBuffer; dwBytesToRead = dwBytesToRead; SetLastError(ERROR_NOT_SUPPORTED); return false; #endif } static void BaseHttp_Close(TFileStream * pStream) { #ifdef PLATFORM_WINDOWS if(pStream->Base.Http.hConnect != NULL) InternetCloseHandle(pStream->Base.Http.hConnect); pStream->Base.Http.hConnect = NULL; if(pStream->Base.Http.hInternet != NULL) InternetCloseHandle(pStream->Base.Http.hInternet); pStream->Base.Http.hInternet = NULL; #else pStream = pStream; #endif } // Initializes base functions for the mapped file static void BaseHttp_Init(TFileStream * pStream) { // Supply the stream functions pStream->BaseOpen = BaseHttp_Open; pStream->BaseRead = BaseHttp_Read; pStream->BaseGetSize = BaseFile_GetSize; // Reuse BaseFile function pStream->BaseGetPos = BaseFile_GetPos; // Reuse BaseFile function pStream->BaseClose = BaseHttp_Close; // HTTP files are read-only pStream->dwFlags |= STREAM_FLAG_READ_ONLY; } //----------------------------------------------------------------------------- // Local functions - base block-based support // Generic function that loads blocks from the file // The function groups the block with the same availability, // so the called BlockRead can finish the request in a single system call static bool BlockStream_Read( TBlockStream * pStream, // Pointer to an open stream ULONGLONG * pByteOffset, // Pointer to file byte offset. If NULL, it reads from the current position void * pvBuffer, // Pointer to data to be read DWORD dwBytesToRead) // Number of bytes to read from the file { ULONGLONG BlockOffset0; ULONGLONG BlockOffset; ULONGLONG ByteOffset; ULONGLONG EndOffset; LPBYTE TransferBuffer; LPBYTE BlockBuffer; DWORD BlockBufferOffset; // Offset of the desired data in the block buffer DWORD BytesNeeded; // Number of bytes that really need to be read DWORD BlockSize = pStream->BlockSize; DWORD BlockCount; bool bPrevBlockAvailable; bool bBlockAvailable; bool bResult = true; // The base block read function must be present assert(pStream->BlockCheck != NULL); assert(pStream->BlockRead != NULL); // NOP reading of zero bytes if(dwBytesToRead == 0) return true; // Get the current position in the stream ByteOffset = (pByteOffset != NULL) ? pByteOffset[0] : pStream->StreamPos; EndOffset = ByteOffset + dwBytesToRead; if(EndOffset > pStream->StreamSize) { SetLastError(ERROR_CAN_NOT_COMPLETE); return false; } // Calculate the block parameters BlockOffset0 = BlockOffset = ByteOffset & ~((ULONGLONG)BlockSize - 1); BlockCount = (DWORD)(((EndOffset - BlockOffset) + (BlockSize - 1)) / BlockSize); BytesNeeded = (DWORD)(EndOffset - BlockOffset); // Remember where we have our data assert((BlockSize & (BlockSize - 1)) == 0); BlockBufferOffset = (DWORD)(ByteOffset & (BlockSize - 1)); // Allocate buffer for reading blocks TransferBuffer = BlockBuffer = STORM_ALLOC(BYTE, (BlockCount * BlockSize)); if(TransferBuffer == NULL) { SetLastError(ERROR_NOT_ENOUGH_MEMORY); return false; } // If all blocks are available, just read all blocks at once if(pStream->IsComplete == 0) { // Now parse the blocks and send the block read request // to all blocks with the same availability bPrevBlockAvailable = pStream->BlockCheck(pStream, BlockOffset); // Loop as long as we have something to read while(BlockOffset < EndOffset) { // Determine availability of the next block bBlockAvailable = pStream->BlockCheck(pStream, BlockOffset); // If the availability has changed, read all blocks up to this one if(bBlockAvailable != bPrevBlockAvailable) { // Load the continuous blocks with the same availability assert(BlockOffset > BlockOffset0); bResult = pStream->BlockRead(pStream, BlockOffset0, BlockOffset, BlockBuffer, BytesNeeded, bPrevBlockAvailable); if(!bResult) break; // Move the block offset BlockBuffer += (DWORD)(BlockOffset - BlockOffset0); BytesNeeded -= (DWORD)(BlockOffset - BlockOffset0); bPrevBlockAvailable = bBlockAvailable; BlockOffset0 = BlockOffset; } // Move to the block offset in the stream BlockOffset += BlockSize; } // If there is a block(s) remaining to be read, do it if(BlockOffset > BlockOffset0) { // Read the complete blocks from the file if(BlockOffset > pStream->StreamSize) BlockOffset = pStream->StreamSize; bResult = pStream->BlockRead(pStream, BlockOffset0, BlockOffset, BlockBuffer, BytesNeeded, bPrevBlockAvailable); } } else { // Read the complete blocks from the file if(EndOffset > pStream->StreamSize) EndOffset = pStream->StreamSize; bResult = pStream->BlockRead(pStream, BlockOffset, EndOffset, BlockBuffer, BytesNeeded, true); } // Now copy the data to the user buffer if(bResult) { memcpy(pvBuffer, TransferBuffer + BlockBufferOffset, dwBytesToRead); pStream->StreamPos = ByteOffset + dwBytesToRead; } // Free the block buffer and return STORM_FREE(TransferBuffer); return bResult; } static bool BlockStream_GetSize(TFileStream * pStream, ULONGLONG * pFileSize) { *pFileSize = pStream->StreamSize; return true; } static bool BlockStream_GetPos(TFileStream * pStream, ULONGLONG * pByteOffset) { *pByteOffset = pStream->StreamPos; return true; } static void BlockStream_Close(TBlockStream * pStream) { // Free the data map, if any if(pStream->FileBitmap != NULL) STORM_FREE(pStream->FileBitmap); pStream->FileBitmap = NULL; // Call the base class for closing the stream pStream->BaseClose(pStream); } //----------------------------------------------------------------------------- // File stream allocation function static STREAM_INIT StreamBaseInit[4] = { BaseFile_Init, BaseMap_Init, BaseHttp_Init, BaseNone_Init }; // This function allocates an empty structure for the file stream // The stream structure is created as variable length, linear block of data // The file name is placed after the end of the stream structure data static TFileStream * AllocateFileStream( const TCHAR * szFileName, size_t StreamSize, DWORD dwStreamFlags) { TFileStream * pMaster = NULL; TFileStream * pStream; const TCHAR * szNextFile = szFileName; size_t FileNameSize; // Sanity check assert(StreamSize != 0); // The caller can specify chain of files in the following form: // C:\archive.MPQ*http://www.server.com/MPQs/archive-server.MPQ // In that case, we use the part after "*" as master file name while(szNextFile[0] != 0 && szNextFile[0] != _T('*')) szNextFile++; FileNameSize = (size_t)((szNextFile - szFileName) * sizeof(TCHAR)); // If we have a next file, we need to open it as master stream // Note that we don't care if the master stream exists or not, // If it doesn't, later attempts to read missing file block will fail if(szNextFile[0] == _T('*')) { // Don't allow another master file in the string if(_tcschr(szNextFile + 1, _T('*')) != NULL) { SetLastError(ERROR_INVALID_PARAMETER); return NULL; } // Open the master file pMaster = FileStream_OpenFile(szNextFile + 1, STREAM_FLAG_READ_ONLY); } // Allocate the stream structure for the given stream type pStream = (TFileStream *)STORM_ALLOC(BYTE, StreamSize + FileNameSize + sizeof(TCHAR)); if(pStream != NULL) { // Zero the entire structure memset(pStream, 0, StreamSize); pStream->pMaster = pMaster; pStream->dwFlags = dwStreamFlags; // Initialize the file name pStream->szFileName = (TCHAR *)((BYTE *)pStream + StreamSize); memcpy(pStream->szFileName, szFileName, FileNameSize); pStream->szFileName[FileNameSize / sizeof(TCHAR)] = 0; // Initialize the stream functions StreamBaseInit[dwStreamFlags & 0x03](pStream); } return pStream; } //----------------------------------------------------------------------------- // Local functions - linear stream support static DWORD LinearStream_CheckFile(TBlockStream * pStream) { LPBYTE FileBitmap = (LPBYTE)pStream->FileBitmap; DWORD WholeByteCount = (pStream->BlockCount / 8); DWORD ExtraBitsCount = (pStream->BlockCount & 7); BYTE ExpectedValue; // Verify the whole bytes - their value must be 0xFF for(DWORD i = 0; i < WholeByteCount; i++) { if(FileBitmap[i] != 0xFF) return 0; } // If there are extra bits, calculate the mask if(ExtraBitsCount != 0) { ExpectedValue = (BYTE)((1 << ExtraBitsCount) - 1); if(FileBitmap[WholeByteCount] != ExpectedValue) return 0; } // Yes, the file is complete return 1; } static bool LinearStream_LoadBitmap(TBlockStream * pStream) { FILE_BITMAP_FOOTER Footer; ULONGLONG ByteOffset; LPBYTE FileBitmap; DWORD BlockCount; DWORD BitmapSize; // Do not load the bitmap if we should not have to if(!(pStream->dwFlags & STREAM_FLAG_USE_BITMAP)) return false; // Only if the size is greater than size of bitmap footer if(pStream->Base.File.FileSize > sizeof(FILE_BITMAP_FOOTER)) { // Load the bitmap footer ByteOffset = pStream->Base.File.FileSize - sizeof(FILE_BITMAP_FOOTER); if(pStream->StreamRead(pStream, &ByteOffset, &Footer, sizeof(FILE_BITMAP_FOOTER))) { // Make sure that the array is properly BSWAP-ed BSWAP_ARRAY32_UNSIGNED((LPDWORD)(&Footer), sizeof(FILE_BITMAP_FOOTER)); // Verify if there is actually a footer if(Footer.Signature == ID_FILE_BITMAP_FOOTER && Footer.Version == 0x03) { // Get the offset of the bitmap, number of blocks and size of the bitmap ByteOffset = MAKE_OFFSET64(Footer.MapOffsetHi, Footer.MapOffsetLo); BlockCount = (DWORD)(((ByteOffset - 1) / Footer.BlockSize) + 1); BitmapSize = ((BlockCount + 7) / 8); // Check if the sizes match if(ByteOffset + BitmapSize + sizeof(FILE_BITMAP_FOOTER) == pStream->Base.File.FileSize) { // Allocate space for the linear bitmap FileBitmap = STORM_ALLOC(BYTE, BitmapSize); if(FileBitmap != NULL) { // Load the bitmap bits if(!pStream->BaseRead(pStream, &ByteOffset, FileBitmap, BitmapSize)) { STORM_FREE(FileBitmap); return false; } // Update the stream size pStream->StreamSize = ByteOffset; // Fill the bitmap information pStream->FileBitmap = FileBitmap; pStream->BitmapSize = BitmapSize; pStream->BlockSize = Footer.BlockSize; pStream->BlockCount = BlockCount; pStream->IsComplete = LinearStream_CheckFile(pStream); return true; } } } } } return false; } static void LinearStream_UpdateBitmap( TBlockStream * pStream, // Pointer to an open stream ULONGLONG StartOffset, ULONGLONG EndOffset) { LPBYTE FileBitmap = (LPBYTE)pStream->FileBitmap; DWORD BlockIndex; DWORD BlockSize = pStream->BlockSize; DWORD ByteIndex; BYTE BitMask; // Sanity checks assert((StartOffset & (BlockSize - 1)) == 0); assert(FileBitmap != NULL); // Calculate the index of the block BlockIndex = (DWORD)(StartOffset / BlockSize); ByteIndex = (BlockIndex / 0x08); BitMask = (BYTE)(1 << (BlockIndex & 0x07)); // Set all bits for the specified range while(StartOffset < EndOffset) { // Set the bit FileBitmap[ByteIndex] |= BitMask; // Move all StartOffset += BlockSize; ByteIndex += (BitMask >> 0x07); BitMask = (BitMask >> 0x07) | (BitMask << 0x01); } } static bool LinearStream_BlockCheck( TBlockStream * pStream, // Pointer to an open stream ULONGLONG BlockOffset) { LPBYTE FileBitmap = (LPBYTE)pStream->FileBitmap; DWORD BlockIndex; BYTE BitMask; // Sanity checks assert((BlockOffset & (pStream->BlockSize - 1)) == 0); assert(FileBitmap != NULL); // Calculate the index of the block BlockIndex = (DWORD)(BlockOffset / pStream->BlockSize); BitMask = (BYTE)(1 << (BlockIndex & 0x07)); // Check if the bit is present return (FileBitmap[BlockIndex / 0x08] & BitMask) ? true : false; } static bool LinearStream_BlockRead( TBlockStream * pStream, // Pointer to an open stream ULONGLONG StartOffset, ULONGLONG EndOffset, LPBYTE BlockBuffer, DWORD BytesNeeded, bool bAvailable) { DWORD BytesToRead = (DWORD)(EndOffset - StartOffset); // The starting offset must be aligned to size of the block assert(pStream->FileBitmap != NULL && pStream->IsComplete == 0); assert((StartOffset & (pStream->BlockSize - 1)) == 0); assert(StartOffset < EndOffset); // If the blocks are not available, we need to load them from the master // and then save to the mirror if(bAvailable == false) { // If we have no master, we cannot satisfy read request if(pStream->pMaster == NULL) return false; // Load the blocks from the master stream // Note that we always have to read complete blocks // so they get properly stored to the mirror stream if(!FileStream_Read(pStream->pMaster, &StartOffset, BlockBuffer, BytesToRead)) return false; // Store the loaded blocks to the mirror file. // Note that this operation is not required to succeed if(pStream->BaseWrite(pStream, &StartOffset, BlockBuffer, BytesToRead) && bAvailable == false) LinearStream_UpdateBitmap(pStream, StartOffset, EndOffset); return true; } else { if(BytesToRead > BytesNeeded) BytesToRead = BytesNeeded; return pStream->BaseRead(pStream, &StartOffset, BlockBuffer, BytesToRead); } } static bool LinearStream_CreateMirror(TBlockStream * pStream) { // Do we have master function and base creation function? if(pStream->pMaster == NULL || pStream->BaseCreate == NULL) return false; return false; } static TFileStream * LinearStream_Open(const TCHAR * szFileName, DWORD dwStreamFlags) { TBlockStream * pStream; // Create new empty stream pStream = (TBlockStream *)AllocateFileStream(szFileName, sizeof(TBlockStream), dwStreamFlags); if(pStream == NULL) return NULL; // Attempt to open the base stream. If this fails // and we have a master stream, we can create new mirror assert(pStream->BaseOpen != NULL); if(!pStream->BaseOpen(pStream, dwStreamFlags)) { // Do we have base create function and master stream? // if(!LinearStream_CreateMirror(pStream)) { FileStream_Close(pStream); SetLastError(ERROR_FILE_NOT_FOUND); return NULL; } } // Set the stream function as if this was linear file without bitmap pStream->StreamRead = pStream->BaseRead; pStream->StreamWrite = pStream->BaseWrite; pStream->StreamResize = pStream->BaseResize; pStream->StreamGetSize = pStream->BaseGetSize; pStream->StreamGetPos = pStream->BaseGetPos; pStream->StreamClose = pStream->BaseClose; // Setup the stream size pStream->StreamSize = pStream->Base.File.FileSize; // If we load the bitmap and find out that it's an incomplete file, // We set the reading functions which check presence of each file block if(LinearStream_LoadBitmap(pStream)) { // Set the stream position to zero. Stream size is already set assert(pStream->StreamSize != 0); pStream->StreamPos = 0; pStream->dwFlags |= STREAM_FLAG_READ_ONLY; // Set the reading function if(pStream->IsComplete == 0) { // Supply the reading function pStream->StreamRead = (STREAM_READ)BlockStream_Read; pStream->StreamGetSize = BlockStream_GetSize; pStream->StreamGetPos = BlockStream_GetPos; pStream->StreamClose = (STREAM_CLOSE)BlockStream_Close; // Supply the block functions pStream->BlockCheck = (BLOCK_CHECK)LinearStream_BlockCheck; pStream->BlockRead = (BLOCK_READ)LinearStream_BlockRead; } } return pStream; } //----------------------------------------------------------------------------- // Local functions - partial stream support static bool IsPartHeader(PPART_FILE_HEADER pPartHdr) { // Version number must be 2 if(pPartHdr->PartialVersion == 2) { // GameBuildNumber must be an ASCII number if(isdigit(pPartHdr->GameBuildNumber[0]) && isdigit(pPartHdr->GameBuildNumber[1]) && isdigit(pPartHdr->GameBuildNumber[2])) { // Block size must be power of 2 if((pPartHdr->BlockSize & (pPartHdr->BlockSize - 1)) == 0) return true; } } return false; } static bool PartialStream_LoadBitmap(TBlockStream * pStream) { PPART_FILE_MAP_ENTRY FileBitmap; PART_FILE_HEADER PartHdr; ULONGLONG ByteOffset = 0; ULONGLONG StreamSize = 0; DWORD BlockCount; DWORD BitmapSize; // Only if the size is greater than size of the bitmap header if(pStream->Base.File.FileSize > sizeof(PART_FILE_HEADER)) { // Attempt to read PART file header if(pStream->BaseRead(pStream, &ByteOffset, &PartHdr, sizeof(PART_FILE_HEADER))) { // We need to swap PART file header on big-endian platforms BSWAP_ARRAY32_UNSIGNED(&PartHdr, sizeof(PART_FILE_HEADER)); // Verify the PART file header if(IsPartHeader(&PartHdr)) { // Get the number of blocks and size of one block StreamSize = MAKE_OFFSET64(PartHdr.FileSizeHi, PartHdr.FileSizeLo); ByteOffset = sizeof(PART_FILE_HEADER); BlockCount = (DWORD)((StreamSize + PartHdr.BlockSize - 1) / PartHdr.BlockSize); BitmapSize = BlockCount * sizeof(PART_FILE_MAP_ENTRY); // Check if sizes match if((ByteOffset + BitmapSize) < pStream->Base.File.FileSize) { // Allocate space for the array of PART_FILE_MAP_ENTRY FileBitmap = STORM_ALLOC(PART_FILE_MAP_ENTRY, BlockCount); if(FileBitmap != NULL) { // Load the block map if(!pStream->BaseRead(pStream, &ByteOffset, FileBitmap, BitmapSize)) { STORM_FREE(FileBitmap); return false; } // Make sure that the byte order is correct BSWAP_ARRAY32_UNSIGNED(FileBitmap, BitmapSize); // Update the stream size pStream->StreamSize = StreamSize; // Fill the bitmap information pStream->FileBitmap = FileBitmap; pStream->BitmapSize = BitmapSize; pStream->BlockSize = PartHdr.BlockSize; pStream->BlockCount = BlockCount; pStream->IsComplete = 0; return true; } } } } } return false; } static bool PartialStream_BlockCheck( TBlockStream * pStream, // Pointer to an open stream ULONGLONG BlockOffset) { PPART_FILE_MAP_ENTRY FileBitmap = (PPART_FILE_MAP_ENTRY)pStream->FileBitmap; DWORD BlockIndex; // Sanity checks assert((BlockOffset & (pStream->BlockSize - 1)) == 0); assert(FileBitmap != NULL); // Calculate the index of the block BlockIndex = (DWORD)(BlockOffset / pStream->BlockSize); // Check if the flags are present return (FileBitmap[BlockIndex].Flags & 0x03) ? true : false; } static bool PartialStream_BlockRead( TBlockStream * pStream, ULONGLONG StartOffset, ULONGLONG EndOffset, LPBYTE BlockBuffer, DWORD BytesNeeded, bool bAvailable) { PPART_FILE_MAP_ENTRY FileBitmap; ULONGLONG ByteOffset; DWORD BytesToRead; DWORD BlockIndex = (DWORD)(StartOffset / pStream->BlockSize); // The starting offset must be aligned to size of the block assert(pStream->FileBitmap != NULL); assert((StartOffset & (pStream->BlockSize - 1)) == 0); assert(StartOffset < EndOffset); // Get the file map entry FileBitmap = (PPART_FILE_MAP_ENTRY)pStream->FileBitmap + BlockIndex; // If the blocks are not available, we need to load them from the master // and then save to the mirror if(bAvailable == false) { // TODO: Support for downloading blocks return false; } else { while(StartOffset < EndOffset) { // Get the number of bytes to be read BytesToRead = (DWORD)(EndOffset - StartOffset); if(BytesToRead > pStream->BlockSize) BytesToRead = pStream->BlockSize; if(BytesToRead > BytesNeeded) BytesToRead = BytesNeeded; // Read the block ByteOffset = MAKE_OFFSET64(FileBitmap->BlockOffsHi, FileBitmap->BlockOffsLo); if(!pStream->BaseRead(pStream, &ByteOffset, BlockBuffer, BytesToRead)) return false; // Move the pointers StartOffset += pStream->BlockSize; BlockBuffer += pStream->BlockSize; BytesNeeded -= pStream->BlockSize; } } return true; } static TFileStream * PartialStream_Open(const TCHAR * szFileName, DWORD dwStreamFlags) { TBlockStream * pStream; // Create new empty stream pStream = (TBlockStream *)AllocateFileStream(szFileName, sizeof(TBlockStream), dwStreamFlags); if(pStream == NULL) return NULL; // Attempt to open the base stream. If this fails // and we have a master stream, we can create new mirror assert(pStream->BaseOpen != NULL); if(!pStream->BaseOpen(pStream, dwStreamFlags)) { // Do we have base create function and master stream? // if(!PartialStream_CreateMirror(pStream)) { FileStream_Close(pStream); SetLastError(ERROR_FILE_NOT_FOUND); return NULL; } } // Load the stream bitmap if(PartialStream_LoadBitmap(pStream)) { // Set the stream position to zero. Stream size is already set assert(pStream->StreamSize != 0); pStream->StreamPos = 0; pStream->dwFlags |= STREAM_FLAG_READ_ONLY; // Set new function pointers pStream->StreamRead = (STREAM_READ)BlockStream_Read; pStream->StreamGetPos = BlockStream_GetPos; pStream->StreamGetSize = BlockStream_GetSize; pStream->StreamClose = (STREAM_CLOSE)BlockStream_Close; // Supply the block functions pStream->BlockCheck = (BLOCK_CHECK)PartialStream_BlockCheck; pStream->BlockRead = (BLOCK_READ)PartialStream_BlockRead; return pStream; } // Cleanup the stream and return FileStream_Close(pStream); SetLastError(ERROR_BAD_FORMAT); return NULL; } //----------------------------------------------------------------------------- // Local functions - encrypted stream support static const char * szKeyTemplate = "expand 32-byte k000000000000000000000000000000000000000000000000"; static const char * AuthCodeArray[] = { // Starcraft II (Heart of the Swarm) // Authentication code URL: http://dist.blizzard.com/mediakey/hots-authenticationcode-bgdl.txt // -0C- -1C--08- -18--04- -14--00- -10- "S48B6CDTN5XEQAKQDJNDLJBJ73FDFM3U", // SC2 Heart of the Swarm-all : "expand 32-byte kQAKQ0000FM3UN5XE000073FD6CDT0000LJBJS48B0000DJND" // Diablo III: Agent.exe (1.0.0.954) // Address of decryption routine: 00502b00 // Pointer to decryptor object: ECX // Pointer to key: ECX+0x5C // Authentication code URL: http://dist.blizzard.com/mediakey/d3-authenticationcode-enGB.txt // -0C- -1C--08- -18--04- -14--00- -10- "UCMXF6EJY352EFH4XFRXCFH2XC9MQRZK", // Diablo III Installer (deDE): "expand 32-byte kEFH40000QRZKY3520000XC9MF6EJ0000CFH2UCMX0000XFRX" "MMKVHY48RP7WXP4GHYBQ7SL9J9UNPHBP", // Diablo III Installer (enGB): "expand 32-byte kXP4G0000PHBPRP7W0000J9UNHY4800007SL9MMKV0000HYBQ" "8MXLWHQ7VGGLTZ9MQZQSFDCLJYET3CPP", // Diablo III Installer (enSG): "expand 32-byte kTZ9M00003CPPVGGL0000JYETWHQ70000FDCL8MXL0000QZQS" "EJ2R5TM6XFE2GUNG5QDGHKQ9UAKPWZSZ", // Diablo III Installer (enUS): "expand 32-byte kGUNG0000WZSZXFE20000UAKP5TM60000HKQ9EJ2R00005QDG" "PBGFBE42Z6LNK65UGJQ3WZVMCLP4HQQT", // Diablo III Installer (esES): "expand 32-byte kK65U0000HQQTZ6LN0000CLP4BE420000WZVMPBGF0000GJQ3" "X7SEJJS9TSGCW5P28EBSC47AJPEY8VU2", // Diablo III Installer (esMX): "expand 32-byte kW5P200008VU2TSGC0000JPEYJJS90000C47AX7SE00008EBS" "5KVBQA8VYE6XRY3DLGC5ZDE4XS4P7YA2", // Diablo III Installer (frFR): "expand 32-byte kRY3D00007YA2YE6X0000XS4PQA8V0000ZDE45KVB0000LGC5" "478JD2K56EVNVVY4XX8TDWYT5B8KB254", // Diablo III Installer (itIT): "expand 32-byte kVVY40000B2546EVN00005B8KD2K50000DWYT478J0000XX8T" "8TS4VNFQRZTN6YWHE9CHVDH9NVWD474A", // Diablo III Installer (koKR): "expand 32-byte k6YWH0000474ARZTN0000NVWDVNFQ0000VDH98TS40000E9CH" "LJ52Z32DF4LZ4ZJJXVKK3AZQA6GABLJB", // Diablo III Installer (plPL): "expand 32-byte k4ZJJ0000BLJBF4LZ0000A6GAZ32D00003AZQLJ520000XVKK" "K6BDHY2ECUE2545YKNLBJPVYWHE7XYAG", // Diablo III Installer (ptBR): "expand 32-byte k545Y0000XYAGCUE20000WHE7HY2E0000JPVYK6BD0000KNLB" "NDVW8GWLAYCRPGRNY8RT7ZZUQU63VLPR", // Diablo III Installer (ruRU): "expand 32-byte kXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX" "6VWCQTN8V3ZZMRUCZXV8A8CGUX2TAA8H", // Diablo III Installer (zhTW): "expand 32-byte kMRUC0000AA8HV3ZZ0000UX2TQTN80000A8CG6VWC0000ZXV8" // "XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX", // Diablo III Installer (zhCN): "expand 32-byte kXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX" // Starcraft II (Wings of Liberty): Installer.exe (4.1.1.4219) // Address of decryption routine: 0053A3D0 // Pointer to decryptor object: ECX // Pointer to key: ECX+0x5C // Authentication code URL: http://dist.blizzard.com/mediakey/sc2-authenticationcode-enUS.txt // -0C- -1C--08- -18--04- -14--00- -10- "Y45MD3CAK4KXSSXHYD9VY64Z8EKJ4XFX", // SC2 Wings of Liberty (deDE): "expand 32-byte kSSXH00004XFXK4KX00008EKJD3CA0000Y64ZY45M0000YD9V" "G8MN8UDG6NA2ANGY6A3DNY82HRGF29ZH", // SC2 Wings of Liberty (enGB): "expand 32-byte kANGY000029ZH6NA20000HRGF8UDG0000NY82G8MN00006A3D" "W9RRHLB2FDU9WW5B3ECEBLRSFWZSF7HW", // SC2 Wings of Liberty (enSG): "expand 32-byte kWW5B0000F7HWFDU90000FWZSHLB20000BLRSW9RR00003ECE" "3DH5RE5NVM5GTFD85LXGWT6FK859ETR5", // SC2 Wings of Liberty (enUS): "expand 32-byte kTFD80000ETR5VM5G0000K859RE5N0000WT6F3DH500005LXG" "8WLKUAXE94PFQU4Y249PAZ24N4R4XKTQ", // SC2 Wings of Liberty (esES): "expand 32-byte kQU4Y0000XKTQ94PF0000N4R4UAXE0000AZ248WLK0000249P" "A34DXX3VHGGXSQBRFE5UFFDXMF9G4G54", // SC2 Wings of Liberty (esMX): "expand 32-byte kSQBR00004G54HGGX0000MF9GXX3V0000FFDXA34D0000FE5U" "ZG7J9K938HJEFWPQUA768MA2PFER6EAJ", // SC2 Wings of Liberty (frFR): "expand 32-byte kFWPQ00006EAJ8HJE0000PFER9K9300008MA2ZG7J0000UA76" "NE7CUNNNTVAPXV7E3G2BSVBWGVMW8BL2", // SC2 Wings of Liberty (itIT): "expand 32-byte kXV7E00008BL2TVAP0000GVMWUNNN0000SVBWNE7C00003G2B" "3V9E2FTMBM9QQWK7U6MAMWAZWQDB838F", // SC2 Wings of Liberty (koKR): "expand 32-byte kQWK70000838FBM9Q0000WQDB2FTM0000MWAZ3V9E0000U6MA" "2NSFB8MELULJ83U6YHA3UP6K4MQD48L6", // SC2 Wings of Liberty (plPL): "expand 32-byte k83U6000048L6LULJ00004MQDB8ME0000UP6K2NSF0000YHA3" "QA2TZ9EWZ4CUU8BMB5WXCTY65F9CSW4E", // SC2 Wings of Liberty (ptBR): "expand 32-byte kU8BM0000SW4EZ4CU00005F9CZ9EW0000CTY6QA2T0000B5WX" "VHB378W64BAT9SH7D68VV9NLQDK9YEGT", // SC2 Wings of Liberty (ruRU): "expand 32-byte k9SH70000YEGT4BAT0000QDK978W60000V9NLVHB30000D68V" "U3NFQJV4M6GC7KBN9XQJ3BRDN3PLD9NE", // SC2 Wings of Liberty (zhTW): "expand 32-byte k7KBN0000D9NEM6GC0000N3PLQJV400003BRDU3NF00009XQJ" NULL }; static DWORD Rol32(DWORD dwValue, DWORD dwRolCount) { DWORD dwShiftRight = 32 - dwRolCount; return (dwValue << dwRolCount) | (dwValue >> dwShiftRight); } static void CreateKeyFromAuthCode( LPBYTE pbKeyBuffer, const char * szAuthCode) { LPDWORD KeyPosition = (LPDWORD)(pbKeyBuffer + 0x10); LPDWORD AuthCode32 = (LPDWORD)szAuthCode; memcpy(pbKeyBuffer, szKeyTemplate, MPQE_CHUNK_SIZE); KeyPosition[0x00] = AuthCode32[0x03]; KeyPosition[0x02] = AuthCode32[0x07]; KeyPosition[0x03] = AuthCode32[0x02]; KeyPosition[0x05] = AuthCode32[0x06]; KeyPosition[0x06] = AuthCode32[0x01]; KeyPosition[0x08] = AuthCode32[0x05]; KeyPosition[0x09] = AuthCode32[0x00]; KeyPosition[0x0B] = AuthCode32[0x04]; BSWAP_ARRAY32_UNSIGNED(pbKeyBuffer, MPQE_CHUNK_SIZE); } static void DecryptFileChunk( DWORD * MpqData, LPBYTE pbKey, ULONGLONG ByteOffset, DWORD dwLength) { ULONGLONG ChunkOffset; DWORD KeyShuffled[0x10]; DWORD KeyMirror[0x10]; DWORD RoundCount = 0x14; // Prepare the key ChunkOffset = ByteOffset / MPQE_CHUNK_SIZE; memcpy(KeyMirror, pbKey, MPQE_CHUNK_SIZE); BSWAP_ARRAY32_UNSIGNED(KeyMirror, MPQE_CHUNK_SIZE); KeyMirror[0x05] = (DWORD)(ChunkOffset >> 32); KeyMirror[0x08] = (DWORD)(ChunkOffset); while(dwLength >= MPQE_CHUNK_SIZE) { // Shuffle the key - part 1 KeyShuffled[0x0E] = KeyMirror[0x00]; KeyShuffled[0x0C] = KeyMirror[0x01]; KeyShuffled[0x05] = KeyMirror[0x02]; KeyShuffled[0x0F] = KeyMirror[0x03]; KeyShuffled[0x0A] = KeyMirror[0x04]; KeyShuffled[0x07] = KeyMirror[0x05]; KeyShuffled[0x0B] = KeyMirror[0x06]; KeyShuffled[0x09] = KeyMirror[0x07]; KeyShuffled[0x03] = KeyMirror[0x08]; KeyShuffled[0x06] = KeyMirror[0x09]; KeyShuffled[0x08] = KeyMirror[0x0A]; KeyShuffled[0x0D] = KeyMirror[0x0B]; KeyShuffled[0x02] = KeyMirror[0x0C]; KeyShuffled[0x04] = KeyMirror[0x0D]; KeyShuffled[0x01] = KeyMirror[0x0E]; KeyShuffled[0x00] = KeyMirror[0x0F]; // Shuffle the key - part 2 for(DWORD i = 0; i < RoundCount; i += 2) { KeyShuffled[0x0A] = KeyShuffled[0x0A] ^ Rol32((KeyShuffled[0x0E] + KeyShuffled[0x02]), 0x07); KeyShuffled[0x03] = KeyShuffled[0x03] ^ Rol32((KeyShuffled[0x0A] + KeyShuffled[0x0E]), 0x09); KeyShuffled[0x02] = KeyShuffled[0x02] ^ Rol32((KeyShuffled[0x03] + KeyShuffled[0x0A]), 0x0D); KeyShuffled[0x0E] = KeyShuffled[0x0E] ^ Rol32((KeyShuffled[0x02] + KeyShuffled[0x03]), 0x12); KeyShuffled[0x07] = KeyShuffled[0x07] ^ Rol32((KeyShuffled[0x0C] + KeyShuffled[0x04]), 0x07); KeyShuffled[0x06] = KeyShuffled[0x06] ^ Rol32((KeyShuffled[0x07] + KeyShuffled[0x0C]), 0x09); KeyShuffled[0x04] = KeyShuffled[0x04] ^ Rol32((KeyShuffled[0x06] + KeyShuffled[0x07]), 0x0D); KeyShuffled[0x0C] = KeyShuffled[0x0C] ^ Rol32((KeyShuffled[0x04] + KeyShuffled[0x06]), 0x12); KeyShuffled[0x0B] = KeyShuffled[0x0B] ^ Rol32((KeyShuffled[0x05] + KeyShuffled[0x01]), 0x07); KeyShuffled[0x08] = KeyShuffled[0x08] ^ Rol32((KeyShuffled[0x0B] + KeyShuffled[0x05]), 0x09); KeyShuffled[0x01] = KeyShuffled[0x01] ^ Rol32((KeyShuffled[0x08] + KeyShuffled[0x0B]), 0x0D); KeyShuffled[0x05] = KeyShuffled[0x05] ^ Rol32((KeyShuffled[0x01] + KeyShuffled[0x08]), 0x12); KeyShuffled[0x09] = KeyShuffled[0x09] ^ Rol32((KeyShuffled[0x0F] + KeyShuffled[0x00]), 0x07); KeyShuffled[0x0D] = KeyShuffled[0x0D] ^ Rol32((KeyShuffled[0x09] + KeyShuffled[0x0F]), 0x09); KeyShuffled[0x00] = KeyShuffled[0x00] ^ Rol32((KeyShuffled[0x0D] + KeyShuffled[0x09]), 0x0D); KeyShuffled[0x0F] = KeyShuffled[0x0F] ^ Rol32((KeyShuffled[0x00] + KeyShuffled[0x0D]), 0x12); KeyShuffled[0x04] = KeyShuffled[0x04] ^ Rol32((KeyShuffled[0x0E] + KeyShuffled[0x09]), 0x07); KeyShuffled[0x08] = KeyShuffled[0x08] ^ Rol32((KeyShuffled[0x04] + KeyShuffled[0x0E]), 0x09); KeyShuffled[0x09] = KeyShuffled[0x09] ^ Rol32((KeyShuffled[0x08] + KeyShuffled[0x04]), 0x0D); KeyShuffled[0x0E] = KeyShuffled[0x0E] ^ Rol32((KeyShuffled[0x09] + KeyShuffled[0x08]), 0x12); KeyShuffled[0x01] = KeyShuffled[0x01] ^ Rol32((KeyShuffled[0x0C] + KeyShuffled[0x0A]), 0x07); KeyShuffled[0x0D] = KeyShuffled[0x0D] ^ Rol32((KeyShuffled[0x01] + KeyShuffled[0x0C]), 0x09); KeyShuffled[0x0A] = KeyShuffled[0x0A] ^ Rol32((KeyShuffled[0x0D] + KeyShuffled[0x01]), 0x0D); KeyShuffled[0x0C] = KeyShuffled[0x0C] ^ Rol32((KeyShuffled[0x0A] + KeyShuffled[0x0D]), 0x12); KeyShuffled[0x00] = KeyShuffled[0x00] ^ Rol32((KeyShuffled[0x05] + KeyShuffled[0x07]), 0x07); KeyShuffled[0x03] = KeyShuffled[0x03] ^ Rol32((KeyShuffled[0x00] + KeyShuffled[0x05]), 0x09); KeyShuffled[0x07] = KeyShuffled[0x07] ^ Rol32((KeyShuffled[0x03] + KeyShuffled[0x00]), 0x0D); KeyShuffled[0x05] = KeyShuffled[0x05] ^ Rol32((KeyShuffled[0x07] + KeyShuffled[0x03]), 0x12); KeyShuffled[0x02] = KeyShuffled[0x02] ^ Rol32((KeyShuffled[0x0F] + KeyShuffled[0x0B]), 0x07); KeyShuffled[0x06] = KeyShuffled[0x06] ^ Rol32((KeyShuffled[0x02] + KeyShuffled[0x0F]), 0x09); KeyShuffled[0x0B] = KeyShuffled[0x0B] ^ Rol32((KeyShuffled[0x06] + KeyShuffled[0x02]), 0x0D); KeyShuffled[0x0F] = KeyShuffled[0x0F] ^ Rol32((KeyShuffled[0x0B] + KeyShuffled[0x06]), 0x12); } // Decrypt one data chunk BSWAP_ARRAY32_UNSIGNED(MpqData, MPQE_CHUNK_SIZE); MpqData[0x00] = MpqData[0x00] ^ (KeyShuffled[0x0E] + KeyMirror[0x00]); MpqData[0x01] = MpqData[0x01] ^ (KeyShuffled[0x04] + KeyMirror[0x0D]); MpqData[0x02] = MpqData[0x02] ^ (KeyShuffled[0x08] + KeyMirror[0x0A]); MpqData[0x03] = MpqData[0x03] ^ (KeyShuffled[0x09] + KeyMirror[0x07]); MpqData[0x04] = MpqData[0x04] ^ (KeyShuffled[0x0A] + KeyMirror[0x04]); MpqData[0x05] = MpqData[0x05] ^ (KeyShuffled[0x0C] + KeyMirror[0x01]); MpqData[0x06] = MpqData[0x06] ^ (KeyShuffled[0x01] + KeyMirror[0x0E]); MpqData[0x07] = MpqData[0x07] ^ (KeyShuffled[0x0D] + KeyMirror[0x0B]); MpqData[0x08] = MpqData[0x08] ^ (KeyShuffled[0x03] + KeyMirror[0x08]); MpqData[0x09] = MpqData[0x09] ^ (KeyShuffled[0x07] + KeyMirror[0x05]); MpqData[0x0A] = MpqData[0x0A] ^ (KeyShuffled[0x05] + KeyMirror[0x02]); MpqData[0x0B] = MpqData[0x0B] ^ (KeyShuffled[0x00] + KeyMirror[0x0F]); MpqData[0x0C] = MpqData[0x0C] ^ (KeyShuffled[0x02] + KeyMirror[0x0C]); MpqData[0x0D] = MpqData[0x0D] ^ (KeyShuffled[0x06] + KeyMirror[0x09]); MpqData[0x0E] = MpqData[0x0E] ^ (KeyShuffled[0x0B] + KeyMirror[0x06]); MpqData[0x0F] = MpqData[0x0F] ^ (KeyShuffled[0x0F] + KeyMirror[0x03]); BSWAP_ARRAY32_UNSIGNED(MpqData, MPQE_CHUNK_SIZE); // Update byte offset in the key KeyMirror[0x08]++; if(KeyMirror[0x08] == 0) KeyMirror[0x05]++; // Move pointers and decrease number of bytes to decrypt MpqData += (MPQE_CHUNK_SIZE / sizeof(DWORD)); dwLength -= MPQE_CHUNK_SIZE; } } static bool EncryptedStream_DetectFileKey(TEncryptedStream * pStream) { ULONGLONG ByteOffset = 0; BYTE EncryptedHeader[MPQE_CHUNK_SIZE]; BYTE FileHeader[MPQE_CHUNK_SIZE]; // Read the first file chunk if(pStream->BaseRead(pStream, &ByteOffset, EncryptedHeader, sizeof(EncryptedHeader))) { // We just try all known keys one by one for(int i = 0; AuthCodeArray[i] != NULL; i++) { // Prepare they decryption key from game serial number CreateKeyFromAuthCode(pStream->Key, AuthCodeArray[i]); // Try to decrypt with the given key memcpy(FileHeader, EncryptedHeader, MPQE_CHUNK_SIZE); DecryptFileChunk((LPDWORD)FileHeader, pStream->Key, ByteOffset, MPQE_CHUNK_SIZE); // We check the decrypted data // All known encrypted MPQs have header at the begin of the file, // so we check for MPQ signature there. if(FileHeader[0] == 'M' && FileHeader[1] == 'P' && FileHeader[2] == 'Q') { // Update the stream size pStream->StreamSize = pStream->Base.File.FileSize; // Fill the block information pStream->BlockSize = MPQE_CHUNK_SIZE; pStream->BlockCount = (DWORD)(pStream->Base.File.FileSize + MPQE_CHUNK_SIZE - 1) / MPQE_CHUNK_SIZE; pStream->IsComplete = 1; return true; } } } // Key not found, sorry return false; } static bool EncryptedStream_BlockCheck(TEncryptedStream *, ULONGLONG) { return true; } static bool EncryptedStream_BlockRead( TEncryptedStream * pStream, ULONGLONG StartOffset, ULONGLONG EndOffset, LPBYTE BlockBuffer, DWORD BytesNeeded, bool bAvailable) { DWORD dwBytesToRead; assert((StartOffset & (pStream->BlockSize - 1)) == 0); assert(StartOffset < EndOffset); assert(bAvailable != false); BytesNeeded = BytesNeeded; // Read the file from the stream as-is // Limit the reading to number of blocks really needed dwBytesToRead = (DWORD)(EndOffset - StartOffset); if(!pStream->BaseRead(pStream, &StartOffset, BlockBuffer, dwBytesToRead)) return false; // Decrypt the data dwBytesToRead = (dwBytesToRead + MPQE_CHUNK_SIZE - 1) & ~(MPQE_CHUNK_SIZE - 1); DecryptFileChunk((LPDWORD)BlockBuffer, pStream->Key, StartOffset, dwBytesToRead); return true; } /* static bool EncryptedStream_Read( TEncryptedStream * pStream, // Pointer to an open stream ULONGLONG * pByteOffset, // Pointer to file byte offset. If NULL, it reads from the current position void * pvBuffer, // Pointer to data to be read DWORD dwBytesToRead) // Number of bytes to read from the file { ULONGLONG StartOffset; // Offset of the first byte to be read from the file ULONGLONG ByteOffset; // Offset that the caller wants ULONGLONG EndOffset; // End offset that is to be read from the file DWORD dwBytesToAllocate; DWORD dwBytesToDecrypt; DWORD dwOffsetInCache; LPBYTE pbMpqData = NULL; bool bResult = false; // Get the byte offset ByteOffset = (pByteOffset != NULL) ? *pByteOffset : pStream->StreamPos; // Cut it down to MPQE chunk size StartOffset = ByteOffset; StartOffset = StartOffset & ~(MPQE_CHUNK_SIZE - 1); EndOffset = ByteOffset + dwBytesToRead; // Calculate number of bytes to decrypt dwBytesToDecrypt = (DWORD)(EndOffset - StartOffset); dwBytesToAllocate = (dwBytesToDecrypt + MPQE_CHUNK_SIZE - 1) & ~(MPQE_CHUNK_SIZE - 1); // Allocate buffers for encrypted and decrypted data pbMpqData = STORM_ALLOC(BYTE, dwBytesToAllocate); if(pbMpqData) { // Get the offset of the desired data in the cache dwOffsetInCache = (DWORD)(ByteOffset - StartOffset); // Read the file from the stream as-is if(pStream->BaseRead(pStream, &StartOffset, pbMpqData, dwBytesToDecrypt)) { // Decrypt the data DecryptFileChunk((LPDWORD)pbMpqData, pStream->Key, StartOffset, dwBytesToAllocate); // Copy the decrypted data memcpy(pvBuffer, pbMpqData + dwOffsetInCache, dwBytesToRead); bResult = true; } else { assert(false); } // Free decryption buffer STORM_FREE(pbMpqData); } // Update stream position pStream->StreamPos = ByteOffset + dwBytesToRead; return bResult; } */ static TFileStream * EncryptedStream_Open(const TCHAR * szFileName, DWORD dwStreamFlags) { TEncryptedStream * pStream; // Create new empty stream pStream = (TEncryptedStream *)AllocateFileStream(szFileName, sizeof(TEncryptedStream), dwStreamFlags); if(pStream == NULL) return NULL; // Attempt to open the base stream assert(pStream->BaseOpen != NULL); if(!pStream->BaseOpen(pStream, dwStreamFlags)) return NULL; // Determine the encryption key for the MPQ if(EncryptedStream_DetectFileKey(pStream)) { // Set the stream position and size assert(pStream->StreamSize != 0); pStream->StreamPos = 0; pStream->dwFlags |= STREAM_FLAG_READ_ONLY; // Set new function pointers pStream->StreamRead = (STREAM_READ)BlockStream_Read; pStream->StreamGetPos = BlockStream_GetPos; pStream->StreamGetSize = BlockStream_GetSize; pStream->StreamClose = pStream->BaseClose; // Supply the block functions pStream->BlockCheck = (BLOCK_CHECK)EncryptedStream_BlockCheck; pStream->BlockRead = (BLOCK_READ)EncryptedStream_BlockRead; return pStream; } // Cleanup the stream and return FileStream_Close(pStream); SetLastError(ERROR_UNKNOWN_FILE_KEY); return NULL; } //----------------------------------------------------------------------------- // Public functions /** * This function creates a new file for read-write access * * - If the current platform supports file sharing, * the file must be created for read sharing (i.e. another application * can open the file for read, but not for write) * - If the file does not exist, the function must create new one * - If the file exists, the function must rewrite it and set to zero size * - The parameters of the function must be validate by the caller * - The function must initialize all stream function pointers in TFileStream * - If the function fails from any reason, it must close all handles * and free all memory that has been allocated in the process of stream creation, * including the TFileStream structure itself * * \a szFileName Name of the file to create */ TFileStream * FileStream_CreateFile( const TCHAR * szFileName, DWORD dwStreamFlags) { TFileStream * pStream; // We only support creation of linear, local file if((dwStreamFlags & (STREAM_PROVIDERS_MASK)) != (STREAM_PROVIDER_LINEAR | BASE_PROVIDER_FILE)) { SetLastError(ERROR_NOT_SUPPORTED); return NULL; } // Allocate file stream structure for linear stream pStream = AllocateFileStream(szFileName, sizeof(TBlockStream), dwStreamFlags); if(pStream != NULL) { // Attempt to create the disk file if(BaseFile_Create(pStream)) { // Fill the stream provider functions pStream->StreamRead = pStream->BaseRead; pStream->StreamWrite = pStream->BaseWrite; pStream->StreamResize = pStream->BaseResize; pStream->StreamGetSize = pStream->BaseGetSize; pStream->StreamGetPos = pStream->BaseGetPos; pStream->StreamClose = pStream->BaseClose; return pStream; } // File create failed, delete the stream STORM_FREE(pStream); pStream = NULL; } // Return the stream return pStream; } /** * This function opens an existing file for read or read-write access * - If the current platform supports file sharing, * the file must be open for read sharing (i.e. another application * can open the file for read, but not for write) * - If the file does not exist, the function must return NULL * - If the file exists but cannot be open, then function must return NULL * - The parameters of the function must be validate by the caller * - The function must initialize all stream function pointers in TFileStream * - If the function fails from any reason, it must close all handles * and free all memory that has been allocated in the process of stream creation, * including the TFileStream structure itself * * \a szFileName Name of the file to open * \a dwStreamFlags specifies the provider and base storage type */ TFileStream * FileStream_OpenFile( const TCHAR * szFileName, DWORD dwStreamFlags) { DWORD dwBaseProvider = dwStreamFlags & BASE_PROVIDER_MASK; // The "file:" prefix forces the BASE_PROVIDER_FILE if(!_tcsicmp(szFileName, _T("file:"))) { dwBaseProvider = BASE_PROVIDER_FILE; szFileName += 5; } // The "map:" prefix forces the BASE_PROVIDER_MAP if(!_tcsicmp(szFileName, _T("map:"))) { dwBaseProvider = BASE_PROVIDER_MAP; szFileName += 4; } // The "http:" prefix forces the BASE_PROVIDER_HTTP if(!_tcsicmp(szFileName, _T("http:"))) { dwBaseProvider = BASE_PROVIDER_HTTP; szFileName += 5; } // Re-assemble the stream flags dwStreamFlags = (dwStreamFlags & STREAM_OPTIONS_MASK) | (dwStreamFlags & STREAM_PROVIDER_MASK) | dwBaseProvider; switch(dwStreamFlags & STREAM_PROVIDER_MASK) { case STREAM_PROVIDER_LINEAR: return LinearStream_Open(szFileName, dwStreamFlags); case STREAM_PROVIDER_PARTIAL: return PartialStream_Open(szFileName, dwStreamFlags); case STREAM_PROVIDER_ENCRYPTED: return EncryptedStream_Open(szFileName, dwStreamFlags); default: SetLastError(ERROR_INVALID_PARAMETER); return NULL; } } /** * Reads data from the stream * * - Returns true if the read operation succeeded and all bytes have been read * - Returns false if either read failed or not all bytes have been read * - If the pByteOffset is NULL, the function must read the data from the current file position * - The function can be called with dwBytesToRead = 0. In that case, pvBuffer is ignored * and the function just adjusts file pointer. * * \a pStream Pointer to an open stream * \a pByteOffset Pointer to file byte offset. If NULL, it reads from the current position * \a pvBuffer Pointer to data to be read * \a dwBytesToRead Number of bytes to read from the file * * \returns * - If the function reads the required amount of bytes, it returns true. * - If the function reads less than required bytes, it returns false and GetLastError() returns ERROR_HANDLE_EOF * - If the function fails, it reads false and GetLastError() returns an error code different from ERROR_HANDLE_EOF */ bool FileStream_Read(TFileStream * pStream, ULONGLONG * pByteOffset, void * pvBuffer, DWORD dwBytesToRead) { assert(pStream->StreamRead != NULL); return pStream->StreamRead(pStream, pByteOffset, pvBuffer, dwBytesToRead); } /** * This function writes data to the stream * * - Returns true if the write operation succeeded and all bytes have been written * - Returns false if either write failed or not all bytes have been written * - If the pByteOffset is NULL, the function must write the data to the current file position * * \a pStream Pointer to an open stream * \a pByteOffset Pointer to file byte offset. If NULL, it reads from the current position * \a pvBuffer Pointer to data to be written * \a dwBytesToWrite Number of bytes to write to the file */ bool FileStream_Write(TFileStream * pStream, ULONGLONG * pByteOffset, const void * pvBuffer, DWORD dwBytesToWrite) { if(pStream->dwFlags & STREAM_FLAG_READ_ONLY) { SetLastError(ERROR_ACCESS_DENIED); return false; } assert(pStream->StreamWrite != NULL); return pStream->StreamWrite(pStream, pByteOffset, pvBuffer, dwBytesToWrite); } /** * Returns the size of a file * * \a pStream Pointer to an open stream * \a FileSize Pointer where to store the file size */ bool FileStream_GetSize(TFileStream * pStream, ULONGLONG * pFileSize) { assert(pStream->StreamGetSize != NULL); return pStream->StreamGetSize(pStream, pFileSize); } /** * Sets the size of a file * * \a pStream Pointer to an open stream * \a NewFileSize File size to set */ bool FileStream_SetSize(TFileStream * pStream, ULONGLONG NewFileSize) { if(pStream->dwFlags & STREAM_FLAG_READ_ONLY) { SetLastError(ERROR_ACCESS_DENIED); return false; } assert(pStream->StreamResize != NULL); return pStream->StreamResize(pStream, NewFileSize); } /** * This function returns the current file position * \a pStream * \a pByteOffset */ bool FileStream_GetPos(TFileStream * pStream, ULONGLONG * pByteOffset) { assert(pStream->StreamGetPos != NULL); return pStream->StreamGetPos(pStream, pByteOffset); } /** * Returns the last write time of a file * * \a pStream Pointer to an open stream * \a pFileType Pointer where to store the file last write time */ bool FileStream_GetTime(TFileStream * pStream, ULONGLONG * pFileTime) { // Just use the saved filetime value *pFileTime = pStream->Base.File.FileTime; return true; } /** * Returns the stream flags * * \a pStream Pointer to an open stream * \a pdwStreamFlags Pointer where to store the stream flags */ bool FileStream_GetFlags(TFileStream * pStream, LPDWORD pdwStreamFlags) { *pdwStreamFlags = pStream->dwFlags; return true; } /** * Switches a stream with another. Used for final phase of archive compacting. * Performs these steps: * * 1) Closes the handle to the existing MPQ * 2) Renames the temporary MPQ to the original MPQ, overwrites existing one * 3) Opens the MPQ stores the handle and stream position to the new stream structure * * \a pStream Pointer to an open stream * \a pNewStream Temporary ("working") stream (created during archive compacting) */ bool FileStream_Replace(TFileStream * pStream, TFileStream * pNewStream) { // Only supported on linear files if((pStream->dwFlags & STREAM_PROVIDERS_MASK) != (STREAM_PROVIDER_LINEAR | BASE_PROVIDER_FILE)) { SetLastError(ERROR_NOT_SUPPORTED); return false; } // Not supported on read-only streams if(pStream->dwFlags & STREAM_FLAG_READ_ONLY) { SetLastError(ERROR_ACCESS_DENIED); return false; } // Close both stream's base providers pNewStream->BaseClose(pNewStream); pStream->BaseClose(pStream); // Now we have to delete the (now closed) old file and rename the new file if(!BaseFile_Replace(pStream, pNewStream)) return false; // Now open the base file again if(BaseFile_Open(pStream, pStream->dwFlags)) return false; // Cleanup the new stream FileStream_Close(pNewStream); return true; } /** * Returns the file name of the stream * * \a pStream Pointer to an open stream */ const TCHAR * FileStream_GetFileName(TFileStream * pStream) { assert(pStream != NULL); return pStream->szFileName; } /** * Returns true if the stream is read-only * * \a pStream Pointer to an open stream */ bool FileStream_IsReadOnly(TFileStream * pStream) { return (pStream->dwFlags & STREAM_FLAG_READ_ONLY) ? true : false; } /** * This function closes an archive file and frees any data buffers * that have been allocated for stream management. The function must also * support partially allocated structure, i.e. one or more buffers * can be NULL, if there was an allocation failure during the process * * \a pStream Pointer to an open stream */ void FileStream_Close(TFileStream * pStream) { // Check if the stream structure is allocated at all if(pStream != NULL) { // Free the master stream, if any if(pStream->pMaster != NULL) FileStream_Close(pStream->pMaster); pStream->pMaster = NULL; // Close the stream provider. if(pStream->StreamClose != NULL) pStream->StreamClose(pStream); // Also close base stream, if any else if(pStream->BaseClose != NULL) pStream->BaseClose(pStream); // Free the stream itself STORM_FREE(pStream); } } //----------------------------------------------------------------------------- // Utility functions (ANSI) const char * GetPlainFileName(const char * szFileName) { const char * szPlainName = szFileName; while(*szFileName != 0) { if(*szFileName == '\\' || *szFileName == '/') szPlainName = szFileName + 1; szFileName++; } return szPlainName; } void CopyFileName(char * szTarget, const char * szSource, size_t cchLength) { memcpy(szTarget, szSource, cchLength); szTarget[cchLength] = 0; } //----------------------------------------------------------------------------- // Utility functions (UNICODE) only exist in the ANSI version of the library // In ANSI builds, TCHAR = char, so we don't need these functions implemented #ifdef _UNICODE const TCHAR * GetPlainFileName(const TCHAR * szFileName) { const TCHAR * szPlainName = szFileName; while(*szFileName != 0) { if(*szFileName == '\\' || *szFileName == '/') szPlainName = szFileName + 1; szFileName++; } return szPlainName; } void CopyFileName(TCHAR * szTarget, const char * szSource, size_t cchLength) { mbstowcs(szTarget, szSource, cchLength); szTarget[cchLength] = 0; } void CopyFileName(char * szTarget, const TCHAR * szSource, size_t cchLength) { wcstombs(szTarget, szSource, cchLength); szTarget[cchLength] = 0; } #endif //----------------------------------------------------------------------------- // main - for testing purposes #ifdef __STORMLIB_TEST__ int FileStream_Test(const TCHAR * szFileName, DWORD dwStreamFlags) { TFileStream * pStream; TMPQHeader MpqHeader; ULONGLONG FilePos; TMPQBlock * pBlock; TMPQHash * pHash; InitializeMpqCryptography(); pStream = FileStream_OpenFile(szFileName, dwStreamFlags); if(pStream == NULL) return GetLastError(); // Read the MPQ header FileStream_Read(pStream, NULL, &MpqHeader, MPQ_HEADER_SIZE_V2); if(MpqHeader.dwID != ID_MPQ) return ERROR_FILE_CORRUPT; // Read the hash table pHash = STORM_ALLOC(TMPQHash, MpqHeader.dwHashTableSize); if(pHash != NULL) { FilePos = MpqHeader.dwHashTablePos; FileStream_Read(pStream, &FilePos, pHash, MpqHeader.dwHashTableSize * sizeof(TMPQHash)); DecryptMpqBlock(pHash, MpqHeader.dwHashTableSize * sizeof(TMPQHash), MPQ_KEY_HASH_TABLE); STORM_FREE(pHash); } // Read the block table pBlock = STORM_ALLOC(TMPQBlock, MpqHeader.dwBlockTableSize); if(pBlock != NULL) { FilePos = MpqHeader.dwBlockTablePos; FileStream_Read(pStream, &FilePos, pBlock, MpqHeader.dwBlockTableSize * sizeof(TMPQBlock)); DecryptMpqBlock(pBlock, MpqHeader.dwBlockTableSize * sizeof(TMPQBlock), MPQ_KEY_BLOCK_TABLE); STORM_FREE(pBlock); } FileStream_Close(pStream); return ERROR_SUCCESS; } #endif