/*++ Copyright (c) 1989-2000 Microsoft Corporation Module Name: write.c Abstract: This module implements low level primitives that are win32 compatible. Author: dmunsil created sometime in 1999 Revision History: --*/ #include "sdbp.h" #define ALLOCATION_INCREMENT 65536 // 64K bytes BOOL SdbpWriteBufferedData( PDB pdb, DWORD dwOffset, const PVOID pBuffer, DWORD dwSize) /*++ Return: TRUE on success, FALSE otherwise. Desc: Appends the specified buffer to the mapped view of the db. --*/ { if (!pdb->bWrite) { DBGPRINT((sdlError, "SdbpWriteBufferedData", "Invalid parameter.\n")); return FALSE; } // // Reallocate the buffer if necessary // if (dwOffset + dwSize > pdb->dwAllocatedSize) { DWORD dwNewAllocation; PVOID* pNewBase; dwNewAllocation = dwOffset + dwSize + ALLOCATION_INCREMENT; pNewBase = SdbAlloc(dwNewAllocation); if (pNewBase == NULL) { DBGPRINT((sdlError, "SdbpWriteBufferedData", "Failed to allocate %d bytes.\n", dwNewAllocation)); return FALSE; } if (pdb->pBase) { memcpy(pNewBase, pdb->pBase, pdb->dwAllocatedSize); SdbFree(pdb->pBase); } pdb->pBase = pNewBase; pdb->dwAllocatedSize = dwNewAllocation; } // // Copy in the new bytes. // memcpy((PBYTE)pdb->pBase + dwOffset, pBuffer, dwSize); // // Adjust the size. // if (dwOffset + dwSize > pdb->dwSize) { pdb->dwSize = dwOffset + dwSize; } return TRUE; } HANDLE SdbpCreateFile( IN LPCWSTR szPath, // the full path to the database file to be created IN PATH_TYPE eType // DOS_PATH for the popular DOS paths or NT_PATH for // nt internal paths. ) /*++ Return: The handle to the created file or INVALID_HANDLE_VALUE if it fails. Desc: Creates a file with the path specified. --*/ { OBJECT_ATTRIBUTES ObjectAttributes; IO_STATUS_BLOCK IoStatusBlock; UNICODE_STRING UnicodeString; HANDLE hFile = INVALID_HANDLE_VALUE; HRESULT status; RTL_RELATIVE_NAME RelativeName; RtlInitUnicodeString(&UnicodeString, szPath); if (eType == DOS_PATH) { if (!RtlDosPathNameToNtPathName_U(UnicodeString.Buffer, &UnicodeString, NULL, &RelativeName)) { DBGPRINT((sdlError, "SdbpCreateFile", "Failed to convert DOS path \"%s\"\n", szPath)); return INVALID_HANDLE_VALUE; } } InitializeObjectAttributes(&ObjectAttributes, &UnicodeString, OBJ_CASE_INSENSITIVE, NULL, NULL); status = NtCreateFile(&hFile, GENERIC_READ | GENERIC_WRITE | SYNCHRONIZE | FILE_READ_ATTRIBUTES, &ObjectAttributes, &IoStatusBlock, 0, FILE_ATTRIBUTE_NORMAL, 0, FILE_OVERWRITE_IF, FILE_NON_DIRECTORY_FILE | FILE_SYNCHRONOUS_IO_NONALERT, NULL, 0); if (eType == DOS_PATH) { RtlFreeUnicodeString(&UnicodeString); } if (!NT_SUCCESS(status)) { DBGPRINT((sdlError, "SdbpCreateFile", "Failed to create the file \"%s\". Status 0x%x\n", szPath, status)); return INVALID_HANDLE_VALUE; } return hFile; } void SdbpDeleteFile( IN LPCWSTR szPath, // the full path to the database file to be deleted. IN PATH_TYPE eType // DOS_PATH for the popular DOS paths or NT_PATH for // nt internal paths. ) /*++ Return: ? Desc: ?. --*/ { OBJECT_ATTRIBUTES ObjectAttributes; UNICODE_STRING UnicodeString; RTL_RELATIVE_NAME RelativeName; NTSTATUS status; RtlInitUnicodeString(&UnicodeString, szPath); if (eType == DOS_PATH) { if (!RtlDosPathNameToNtPathName_U(UnicodeString.Buffer, &UnicodeString, NULL, &RelativeName)) { DBGPRINT((sdlError, "SdbpDeleteFile", "Failed to convert DOS path \"%s\"\n", szPath)); return; } } InitializeObjectAttributes(&ObjectAttributes, &UnicodeString, OBJ_CASE_INSENSITIVE, NULL, NULL); status = NtDeleteFile(&ObjectAttributes); if (DOS_PATH == eType) { RtlFreeUnicodeString(&UnicodeString); } if (!NT_SUCCESS(status)) { DBGPRINT((sdlError, "SdbpDeleteFile", "Failed to delete the file \"%s\". Status 0x%x\n", szPath, status)); } } PDB SdbCreateDatabase( IN LPCWSTR szPath, IN PATH_TYPE eType ) /*++ Return: A pointer to the created database. Desc: Self explanatory. --*/ { HANDLE hFile; DB_HEADER DBHeader; PDB pdb; SYSTEMTIME time; hFile = SdbpCreateFile(szPath, eType); if (hFile == INVALID_HANDLE_VALUE) { DBGPRINT((sdlError, "SdbCreateDatabase", "Failed to create the database.\n")); return NULL; } pdb = SdbAlloc(sizeof(DB)); if (pdb == NULL) { DBGPRINT((sdlError, "SdbCreateDatabase", "Failed to allocate %d bytes.\n", sizeof(DB))); goto err1; } ZeroMemory(pdb, sizeof(DB)); pdb->hFile = hFile; pdb->bWrite = TRUE; // // Create the initial header // DBHeader.dwMagic = SHIMDB_MAGIC; DBHeader.dwMajorVersion = SHIMDB_MAJOR_VERSION; SdbpGetCurrentTime(&time); DBHeader.dwMinorVersion = time.wDay + time.wMonth * 100 + (time.wYear - 2000) * 10000; if (!SdbpWriteBufferedData(pdb, 0, &DBHeader, sizeof(DB_HEADER))) { DBGPRINT((sdlError, "SdbCreateDatabase", "Failed to write the header to disk.\n")); goto err2; } return pdb; err2: SdbFree(pdb); err1: SdbpCloseFile(hFile); return NULL; } // // WRITE functions // TAGID SdbBeginWriteListTag( IN PDB pdb, IN TAG tTag ) /*++ Return: BUGBUG: ? Desc: BUGBUG: ? --*/ { TAGID tiReturn; assert(pdb); // // The tagid is just the file offset to the tag // tiReturn = pdb->dwSize; if (GETTAGTYPE(tTag) != TAG_TYPE_LIST) { DBGPRINT((sdlError, "SdbBeginWriteListTag", "This is not a list tag.\n")); return TAGID_NULL; } if (!SdbpWriteTagData(pdb, tTag, NULL, TAG_SIZE_UNFINISHED)) { DBGPRINT((sdlError, "SdbBeginWriteListTag", "Failed to write the data.\n")); return TAGID_NULL; } return tiReturn; } BOOL SdbEndWriteListTag( IN PDB pdb, IN TAGID tiList ) /*++ Return: BUGBUG: ? Desc: BUGBUG: ? --*/ { DWORD dwSize; DWORD i; assert(pdb); if (GETTAGTYPE(SdbGetTagFromTagID(pdb, tiList)) != TAG_TYPE_LIST) { DBGPRINT((sdlError, "SdbEndWriteListTag", "This is not a list tag.\n")); return FALSE; } // // The size of this tag is the offset from the beginning to the end of the // file, minus the tag and size itself. // dwSize = pdb->dwSize - tiList - sizeof(TAG) - sizeof(DWORD); if (!SdbpWriteBufferedData(pdb, tiList + sizeof(TAG), &dwSize, sizeof(DWORD))) { DBGPRINT((sdlError, "SdbEndWriteListTag", "Failed to write the data.\n")); return FALSE; } // // Check if we need to add index entries // for (i = 0; i < pdb->dwIndexes; i++) { // // Is there an index of this type, that is currently active? // if (pdb->aIndexes[i].tWhich == SdbGetTagFromTagID(pdb, tiList) && pdb->aIndexes[i].bActive) { // // We have an index on this tag, check for a key. // TAGID tiKey; INDEX_RECORD IndexRecord; BOOL bWrite = TRUE; // this is the variable that determines // whether we actually write an index entry, // used for "uniqueKey" indexes PINDEX_INFO pIndex = &pdb->aIndexes[i]; // // Find the key value and fill out INDEX_RECORD structure. // tiKey = SdbFindFirstTag(pdb, tiList, pIndex->tKey); // // If we don't have a key, that's OK. This tag will get indexed with key 0 // if (tiKey) { IndexRecord.ullKey = SdbpTagToKey(pdb, tiKey); } else { IndexRecord.ullKey = (ULONGLONG)0; } IndexRecord.tiRef = tiList; // // If the index is of "UniqueKey" type we don't write anything at // this time, we just collect the info and write it all out at the end. // if (pIndex->bUniqueKey) { // // Use the buffer // // has the last written key been the same as this one? // if (pIndex->ullLastKey == IndexRecord.ullKey) { bWrite = FALSE; } else { // // Actually write the key, store the buffer // pIndex->ullLastKey = IndexRecord.ullKey; } } if (bWrite) { // // Check for walking off the end of the index // if (pIndex->dwIndexEntry == pIndex->dwIndexEnd) { DBGPRINT((sdlError, "SdbEndWriteListTag", "Too many index entries for tag %04x, key %04x.\n", pdb->aIndexes[i].tWhich, pdb->aIndexes[i].tKey)); return FALSE; } // // Stick in the new entry, and increment // SdbpWriteBufferedData(pdb, pIndex->dwIndexEntry, &IndexRecord, sizeof(INDEX_RECORD)); pIndex->dwIndexEntry += sizeof(INDEX_RECORD); } } } return TRUE; } BOOL SdbWriteNULLTag( IN PDB pdb, IN TAG tTag ) /*++ Return: BUGBUG: ? Desc: BUGBUG: ? --*/ { assert(pdb); if (GETTAGTYPE(tTag) != TAG_TYPE_NULL) { return FALSE; } if (!SdbpWriteTagData(pdb, tTag, NULL, 0)) { return FALSE; } return TRUE; } #define WRITETYPEDTAG(ttype, type) \ { \ assert(pdb); \ \ if (GETTAGTYPE(tTag) != ttype) { \ return FALSE; \ } \ \ if (!SdbpWriteTagData(pdb, tTag, &xData, sizeof(type))) { \ return FALSE; \ } \ \ return TRUE; \ } BOOL SdbWriteBYTETag(PDB pdb, TAG tTag, BYTE xData) { WRITETYPEDTAG(TAG_TYPE_BYTE, BYTE); } BOOL SdbWriteWORDTag(PDB pdb, TAG tTag, WORD xData) { WRITETYPEDTAG(TAG_TYPE_WORD, WORD); } BOOL SdbWriteDWORDTag(PDB pdb, TAG tTag, DWORD xData) { WRITETYPEDTAG(TAG_TYPE_DWORD, DWORD); } BOOL SdbWriteQWORDTag(PDB pdb, TAG tTag, ULONGLONG xData) { WRITETYPEDTAG(TAG_TYPE_QWORD, ULONGLONG); } BOOL SdbWriteStringTag( IN PDB pdb, IN TAG tTag, IN LPCWSTR pwszData ) /*++ Return: BUGBUG: ? Desc: BUGBUG: ? --*/ { TAG_TYPE ttThis; assert(pdb); ttThis = GETTAGTYPE(tTag); // // It must be either a STRING type, in which case we // write it directly, or a STRINGREF, in which case we // put it in the string table and add a string table reference // in place here. // if (ttThis == TAG_TYPE_STRINGREF) { STRINGREF srThis; srThis = SdbpAddStringToTable(pdb, pwszData); if (srThis == STRINGREF_NULL) { return FALSE; } return SdbWriteStringRefTag(pdb, tTag, srThis); } else if (ttThis == TAG_TYPE_STRING) { return SdbWriteStringTagDirect(pdb, tTag, pwszData); } return FALSE; } BOOL SdbWriteBinaryTag( IN PDB pdb, IN TAG tTag, IN PBYTE pBuffer, IN DWORD dwSize ) /*++ Return: BUGBUG: ? Desc: BUGBUG: ? --*/ { assert(pdb); if (GETTAGTYPE(tTag) != TAG_TYPE_BINARY) { return FALSE; } if (!SdbpWriteTagData(pdb, tTag, pBuffer, dwSize)) { return FALSE; } return TRUE; } BOOL SdbWriteBinaryTagFromFile( IN PDB pdb, IN TAG tTag, IN LPCWSTR pwszPath ) /*++ Return: BUGBUG: ? Desc: BUGBUG: ? --*/ { HANDLE hTempFile; DWORD dwSize; BOOL bSuccess = FALSE; PBYTE pBuffer; LARGE_INTEGER liOffset; IO_STATUS_BLOCK IoStatusBlock; NTSTATUS status; assert(pdb && pwszPath); hTempFile = SdbpOpenFile(pwszPath, DOS_PATH); if (hTempFile == INVALID_HANDLE_VALUE) { return FALSE; } dwSize = SdbpGetFileSize(hTempFile); pBuffer = SdbAlloc(dwSize); if (pBuffer == NULL) { bSuccess = FALSE; goto err1; } liOffset.LowPart = 0; liOffset.HighPart = 0; status = NtReadFile(hTempFile, NULL, NULL, NULL, &IoStatusBlock, pBuffer, dwSize, &liOffset, NULL); if (!NT_SUCCESS(status)) { DBGPRINT((sdlError, "SdbWriteBinaryTagFromFile", "Failed to read data. Status: 0x%x.\n", status)); goto err2; } bSuccess = SdbWriteBinaryTag(pdb, tTag, pBuffer, dwSize); err2: SdbFree(pBuffer); err1: SdbpCloseFile(hTempFile); return bSuccess; } BOOL SdbpWriteTagData( PDB pdb, TAG tTag, const PVOID pBuffer, DWORD dwSize ) /*++ Return: BUGBUG: ? Desc: BUGBUG: ? --*/ { BYTE bPadding = 0xDB; assert(pdb); // // Write the tag. // if (!SdbpWriteBufferedData(pdb, pdb->dwSize, &tTag, sizeof(TAG))) { return FALSE; } // // Write the size. // if (GETTAGTYPE(tTag) >= TAG_TYPE_LIST) { if (!SdbpWriteBufferedData(pdb, pdb->dwSize, &dwSize, sizeof(DWORD))) { return FALSE; } } // // Write the data. // if (pBuffer) { if (!SdbpWriteBufferedData(pdb, pdb->dwSize, pBuffer, dwSize)) { return FALSE; } // // Align the tag. // if (dwSize & 1) { if (!SdbpWriteBufferedData(pdb, pdb->dwSize, &bPadding, 1)) { DBGPRINT((sdlError, "SdbpWriteTagData", "Failed to write padding data 1 byte\n")); return FALSE; } } } return TRUE; } BOOL SdbWriteStringRefTag( IN PDB pdb, IN TAG tTag, IN STRINGREF srData ) { assert(pdb); if (GETTAGTYPE(tTag) != TAG_TYPE_STRINGREF) { return FALSE; } if (!SdbpWriteTagData(pdb, tTag, &srData, sizeof(srData))) { return FALSE; } return TRUE; } BOOL SdbWriteStringTagDirect( IN PDB pdb, IN TAG tTag, IN LPCWSTR pwszData ) { DWORD dwSize; assert(pdb && pwszData); dwSize = (wcslen(pwszData) + 1) * sizeof(WCHAR); if (GETTAGTYPE(tTag) != TAG_TYPE_STRING) { return FALSE; } if (!SdbpWriteTagData(pdb, tTag, (const PVOID)pwszData, dwSize)) { return FALSE; } return TRUE; } void SdbCloseDatabase( IN PDB pdb // IN - DB to close ) /*++ Params: described above. Return: void. Desc: Closes a database and frees all memory and file handles associated with it. --*/ { assert(pdb != NULL); // copy the string table and indexes onto the end of the file if (pdb->bWrite && pdb->pdbStringTable != NULL) { TAGID tiString; tiString = SdbFindFirstTag(pdb->pdbStringTable, TAGID_ROOT, TAG_STRINGTABLE_ITEM); if (tiString != TAGID_NULL) { TAGID tiTable; tiTable = SdbBeginWriteListTag(pdb, TAG_STRINGTABLE); while (tiString != TAGID_NULL) { TCHAR* pszTemp; pszTemp = SdbGetStringTagPtr(pdb->pdbStringTable, tiString); if (pszTemp == NULL) { DBGPRINT((sdlWarning, "SdbCloseDatabase", "Failed to read a string.\n")); break; } if (!SdbWriteStringTagDirect(pdb, TAG_STRINGTABLE_ITEM, pszTemp)) { DBGPRINT((sdlError, "SdbCloseDatabase", "Failed to write stringtable item\n")); break; } tiString = SdbFindNextTag(pdb->pdbStringTable, TAGID_ROOT, tiString); } if (!SdbEndWriteListTag(pdb, tiTable)) { DBGPRINT((sdlError, "SdbCloseDatabase", "Failed to write end list tag for the string table\n")); goto err1; } } } // // Now sort all the indexes if necessary. // if (pdb->bWrite) { DWORD i; for (i = 0; i < pdb->dwIndexes; ++i) { if (!SdbpSortIndex(pdb, pdb->aIndexes[i].tiIndex)) { DBGPRINT((sdlError, "SdbCloseDatabase", "Failed to sort index.\n")); goto err1; } } } err1: if (pdb->pdbStringTable != NULL) { SdbCloseDatabase(pdb->pdbStringTable); pdb->pdbStringTable = NULL; // // Delete the file // if (pdb->ustrTempStringtable.Buffer) { SdbpDeleteFile(pdb->ustrTempStringtable.Buffer, DOS_PATH); } FREE_TEMP_STRINGTABLE(pdb); } // // The string hash is used when writing to the database for the purpose of // caching the string table. // if (pdb->pStringHash != NULL) { HashFree(pdb->pStringHash); pdb->pStringHash = NULL; } if (pdb->pBase != NULL) { if (pdb->bWrite) { LARGE_INTEGER liOffset; IO_STATUS_BLOCK IoStatusBlock; HRESULT status; liOffset.LowPart = 0; liOffset.HighPart = 0; // // Flush the buffer to disk. // status = NtWriteFile(pdb->hFile, NULL, NULL, NULL, &IoStatusBlock, pdb->pBase, pdb->dwSize, &liOffset, NULL); if (!NT_SUCCESS(status)) { DBGPRINT((sdlError, "SdbCloseDatabase", "Failed to write the sdb.\n")); } SdbFree(pdb->pBase); pdb->pBase = NULL; // BUGBUG: should we call SdbpUnmapAndCloseDB in this case ? } else { SdbpUnmapAndCloseDB(pdb); } } if (pdb->hFile != INVALID_HANDLE_VALUE) { SdbpCloseFile(pdb->hFile); pdb->hFile = INVALID_HANDLE_VALUE; } SdbFree(pdb); } // // INDEX functions (used during write) // BOOL SdbDeclareIndex( IN PDB pdb, IN TAG tWhich, IN TAG tKey, IN DWORD dwEntries, IN BOOL bUniqueKey, OUT INDEXID* piiIndex ) { BOOL bReturn = FALSE; DWORD dwSize = 0; TAGID tiIndex = TAGID_NULL; PVOID pFiller = NULL; TAGID tiIndexBits = TAGID_NULL; DWORD dwFlags = 0; if (bUniqueKey) { // this is a special unique-key index which we will write out dwFlags |= SHIMDB_INDEX_UNIQUE_KEY; } if (GETTAGTYPE(tWhich) != TAG_TYPE_LIST) { DBGPRINT((sdlError, "SdbDeclareIndex", "Illegal to index non-LIST tag.\n")); goto err1; } if (GETTAGTYPE(tKey) == TAG_TYPE_LIST) { DBGPRINT((sdlError, "SdbDeclareIndex", "Illegal to use LIST type as a key.\n")); goto err1; } if (!pdb->bWritingIndexes) { if (pdb->dwSize != sizeof(DB_HEADER)) { DBGPRINT((sdlError, "SdbDeclareIndex", "Began declaring indexes after writing other data.\n")); goto err1; } pdb->bWritingIndexes = TRUE; pdb->tiIndexes = SdbBeginWriteListTag(pdb, TAG_INDEXES); if (!pdb->tiIndexes) { DBGPRINT((sdlError, "SdbDeclareIndex", "Error beginning TAG_INDEXES.\n")); goto err1; } } if (pdb->dwIndexes == MAX_INDEXES) { DBGPRINT((sdlError, "SdbDeclareIndex", "Hit limit of %d indexes. Increase MAX_INDEXES and recompile.\n", MAX_INDEXES)); goto err1; } tiIndex = SdbBeginWriteListTag(pdb, TAG_INDEX); if (!tiIndex) { DBGPRINT((sdlError, "SdbDeclareIndex", "Error beginning TAG_INDEX.\n")); goto err1; } if (!SdbWriteWORDTag(pdb, TAG_INDEX_TAG, tWhich)) { DBGPRINT((sdlError, "SdbDeclareIndex", "Error writing TAG_INDEX_TAG.\n")); goto err1; } if (!SdbWriteWORDTag(pdb, TAG_INDEX_KEY, tKey)) { DBGPRINT((sdlError, "SdbDeclareIndex", "Error writing TAG_INDEX_KEY.\n")); goto err1; } if (dwFlags && !SdbWriteDWORDTag(pdb, TAG_INDEX_FLAGS, dwFlags)) { DBGPRINT((sdlError, "SdbDeclareIndex", "Error writing TAG_INDEX_FLAGS.\n")); goto err1; } // // allocate and write out space-filler garbage, which // will be filled in with the real index later. // dwSize = dwEntries * sizeof(INDEX_RECORD); pFiller = SdbAlloc(dwSize); if (!pFiller) { goto err1; } tiIndexBits = pdb->dwSize; if (!SdbWriteBinaryTag(pdb, TAG_INDEX_BITS, pFiller, dwSize)) { DBGPRINT((sdlError, "SdbDeclareIndex", "Error writing TAG_INDEX_BITS.\n")); goto err1; } SdbFree(pFiller); pFiller = NULL; if (!SdbEndWriteListTag(pdb, tiIndex)) { DBGPRINT((sdlError, "SdbDeclareIndex", "Error ending TAG_INDEX.\n")); goto err1; } pdb->aIndexes[pdb->dwIndexes].tWhich = tWhich; pdb->aIndexes[pdb->dwIndexes].tKey = tKey; pdb->aIndexes[pdb->dwIndexes].tiIndex = tiIndexBits; pdb->aIndexes[pdb->dwIndexes].dwIndexEntry = tiIndexBits + sizeof(TAG) + sizeof(DWORD); pdb->aIndexes[pdb->dwIndexes].dwIndexEnd = pdb->aIndexes[pdb->dwIndexes].dwIndexEntry + dwSize; pdb->aIndexes[pdb->dwIndexes].ullLastKey = 0; pdb->aIndexes[pdb->dwIndexes].bUniqueKey = bUniqueKey; *piiIndex = pdb->dwIndexes; pdb->dwIndexes++; bReturn = TRUE; err1: if (pFiller) { SdbFree(pFiller); pFiller = NULL; } return bReturn; } BOOL SdbCommitIndexes( IN PDB pdb ) { pdb->bWritingIndexes = FALSE; if (!SdbEndWriteListTag(pdb, pdb->tiIndexes)) { DBGPRINT((sdlError, "SdbDeclareIndex", "Error ending TAG_INDEXES.\n")); return FALSE; } return TRUE; } BOOL SdbStartIndexing( IN PDB pdb, IN INDEXID iiWhich ) { if (iiWhich >= pdb->dwIndexes) { return FALSE; } pdb->aIndexes[iiWhich].bActive = TRUE; return TRUE; } BOOL SdbStopIndexing( IN PDB pdb, IN INDEXID iiWhich ) { if (iiWhich >= pdb->dwIndexes) { return FALSE; } pdb->aIndexes[iiWhich].bActive = FALSE; return TRUE; } int __cdecl CompareIndexRecords( const void* p1, const void* p2 ) /*++ Params: BUGBUG: comments ? Return: TRUE if successful, FALSE otherwise. Desc: Callback used by qsort. --*/ { ULONGLONG ullKey1; ULONGLONG ullKey2; ullKey1 = ((INDEX_RECORD UNALIGNED*)p1)->ullKey; ullKey2 = ((INDEX_RECORD UNALIGNED*)p2)->ullKey; if (ullKey1 == ullKey2) { TAGID ti1, ti2; // // Secondary sort on TAGID, so we'll always walk // the exe records from the beginning to the end, and // take advantage of cache read-ahead // ti1 = ((INDEX_RECORD UNALIGNED*)p1)->tiRef; ti2 = ((INDEX_RECORD UNALIGNED*)p2)->tiRef; if (ti1 == ti2) { return 0; } else if (ti1 < ti2) { return -1; } else { return 1; } } else if (ullKey1 < ullKey2) { return -1; } else { return 1; } } BOOL SdbpSortIndex( PDB pdb, TAGID tiIndexBits ) /*++ Params: BUGBUG: comments ? Return: TRUE if successful, FALSE otherwise. Desc: Sorts an index. --*/ { INDEX_RECORD* pIndexRecords = NULL; DWORD dwRecords = 0; if (SdbGetTagFromTagID(pdb, tiIndexBits) != TAG_INDEX_BITS) { DBGPRINT((sdlError, "SdbpSortIndex", "Not an index.\n")); return FALSE; } pIndexRecords = SdbpGetMappedTagData(pdb, tiIndexBits); if (pIndexRecords == NULL) { DBGPRINT((sdlError, "SdbpSortIndex", "Index referenced by 0x%x is not valid\n", tiIndexBits)); return FALSE; } dwRecords = SdbGetTagDataSize(pdb, tiIndexBits) / sizeof(INDEX_RECORD); qsort(pIndexRecords, dwRecords, sizeof(INDEX_RECORD), CompareIndexRecords); return TRUE; } //////////////////////////////////////////////////////////////////////////////// // // String writing routine // STRINGREF SdbpAddStringToTable( PDB pdb, LPCTSTR szData) { STRINGREF srReturn = STRINGREF_NULL; BOOL bSuccess; TAGID tiTemp; assert(pdb); // // Add a string table if one doesn't exist // if (!pdb->pdbStringTable) { DWORD dwLength; TCHAR szBuffer[MAX_PATH]; TCHAR szTempFile[MAX_PATH]; // // Create temp string table db // dwLength = GetTempPath(CHARCOUNT(szBuffer), szBuffer); if (!dwLength || dwLength > CHARCOUNT(szBuffer)) { DBGPRINT((sdlError, "SdbpAddStringToTable", "Error Gettting temp path 0x%lx\n", GetLastError())); goto err1; } // // We got the directory, generate the file now // dwLength = GetTempFileName(szBuffer, TEXT("SDB"), 0, szTempFile); if (!dwLength) { DBGPRINT((sdlError, "SdbpAddStringToTable", "Error Gettting temp filename 0x%lx\n", GetLastError())); goto err1; } // // If we are successful, we'd have a string table file now. // pdb->pdbStringTable = SdbCreateDatabase(szTempFile, DOS_PATH); if (!pdb->pdbStringTable) { goto err1; } // // success !!! set the name of the file into the pdb so we could remove it later // if (!COPY_TEMP_STRINGTABLE(pdb, szTempFile)) { DBGPRINT((sdlError, "SdbpAddStringToTable", "Error copying string table temp filename\n")); goto err1; } } if (!pdb->pStringHash) { pdb->pStringHash = HashCreate(); if (pdb->pStringHash == NULL) { DBGPRINT((sdlError, "SdbpAddStringToTable", "Error creating hash table\n")); goto err1; } } srReturn = HashFindString((PSTRHASH)pdb->pStringHash, szData); if (!srReturn) { // // A stringref is the offset from the beginning of the string table to // the string tag itself. We have to adjust for the header of the temporary // DB, and the tag and size that will be written later. // srReturn = pdb->pdbStringTable->dwSize - sizeof (DB_HEADER) + sizeof(TAG) + sizeof(DWORD); bSuccess = SdbWriteStringTagDirect(pdb->pdbStringTable, TAG_STRINGTABLE_ITEM, szData); if (!bSuccess) { DBGPRINT((sdlError, "SdbpAddStringToTable", "Failed to write stringtableitem into the string table\n")); srReturn = STRINGREF_NULL; } HashAddString((PSTRHASH)pdb->pStringHash, szData, srReturn); } err1: return srReturn; }