windows-nt/Source/XPSP1/NT/windows/appcompat/sdbapi/sdbp.h
2020-09-26 16:20:57 +08:00

2028 lines
46 KiB
C

#ifndef __SDBP_H__
#define __SDBP_H__
#ifndef SDB_ANSI_LIB
#define UNICODE
#define _UNICODE
#endif
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <memory.h>
#include <malloc.h>
#include <stddef.h>
#ifndef KERNEL_MODE
#include <nt.h>
#include <ntrtl.h>
#include <nturtl.h>
#include <windows.h>
#else // KERNEL_MODE
#include <ntosp.h>
#include <zwapi.h>
#include <ntimage.h>
#include <windef.h>
#include <winver.h>
#include <winerror.h>
#include <stdarg.h>
#include <ntldr.h>
#define NtCreateFile ZwCreateFile
#define NtClose ZwClose
#define NtReadFile ZwReadFile
#define NtOpenKey ZwOpenKey
#define NtQueryValueKey ZwQueryValueKey
#define NtMapViewOfSection ZwMapViewOfSection
#define NtUnmapViewOfSection ZwUnmapViewOfSection
#define NtOpenFile ZwOpenFile
#define NtQueryInformationFile ZwQueryInformationFile
#ifndef MAKEINTRESOURCE
#define MAKEINTRESOURCEW(i) (LPWSTR)((ULONG_PTR)((WORD)(i)))
#define MAKEINTRESOURCE MAKEINTRESOURCEW
#endif // not defined MAKEINTRESOURCE
#ifndef RT_VERSION
#define RT_VERSION MAKEINTRESOURCE(16)
#endif // not defined RT_VERSION
#ifndef INVALID_HANDLE_VALUE
#define INVALID_HANDLE_VALUE ((HANDLE)(LONG_PTR)-1)
#endif // not defined INVALID_HANDLE_VALUE
#ifndef SEC_COMMIT
#define SEC_COMMIT 0x8000000
#endif
#endif // KERNEL_MODE
#include <tchar.h>
#include "shimdb.h"
#define MAX_INDEXES 10
#define TABLETPC_KEY_PATH TEXT("System\\WPA\\TabletPC")
#define EHOME_KEY_PATH TEXT("SYSTEM\\WPA\\MediaCenter")
#define IS_OS_INSTALL_VALUE TEXT("Installed")
//
// This is a flag stored for each index.
// Currently it is only used to flag "unique key" types.
//
#define SHIMDB_INDEX_UNIQUE_KEY 0x00000001
// index could be of 2 types:
// containing simply all record and containing only
// "unique" keys with the records linked (the records have to be sorted for this
// type of index to work)
typedef struct _INDEX_INFO {
TAGID tiIndex; // points at the INDEX_BITS tag
TAG tWhich; // what tag is being indexed
TAG tKey; // what subtag is the key?
BOOL bActive; // are we actually indexing now?
BOOL bUniqueKey; // are the keys unique?
ULONGLONG ullLastKey;
DWORD dwIndexEntry; // offset to the next available index entry
DWORD dwIndexEnd; // one byte past the end of the index block
DWORD dwFlags;
} INDEX_INFO, *PINDEX_INFO;
//
// Flags for use in DB structure DB.dwFlags
//
#define DB_IN_MEMORY 0x00000001
#define DB_GUID_VALID 0x00000002
typedef struct _DB {
// used for both read and write
HANDLE hFile;
PVOID pBase; // for both memory-mapping & buffered writes
BOOL bWrite; // was it opened with create?
DWORD dwSize; // the size of the whole db, in bytes
DWORD dwFlags; // flags (such as IN-memory flag)
GUID guidDB; // optional id for the database
DWORD dwIndexes; // the number of indexes
INDEX_INFO aIndexes[MAX_INDEXES]; // data for the indexes
// stuff that's used for read
HANDLE hSection; // for memory-mapping
TAGID tiStringTable; // pointer to the stringtable for string handling
BOOL bIndexesScanned; // have the indexes been looked at?
// stuff that's used for write
struct _DB* pdbStringTable; // stringtable is a subdatabase that's created on the side
PVOID pStringHash; // stringtable hash (same info as in stringtable)
DWORD dwAllocatedSize; // the size allocated for buffered writes
BOOL bWritingIndexes; // are we in the process of allocating index space?
TAGID tiIndexes; // used during index allocation
//
// BUGBUG Hack alert read from unaligned (v1.0) database is enabled here
//
BOOL bUnalignedRead;
#ifdef WIN32A_MODE
PVOID pHashStringBody; // hash of the strings located within the body
PVOID pHashStringTable; // hash for the strings in the stringtable
#endif
#ifndef WIN32A_MODE
UNICODE_STRING ustrTempStringtable; // string table temp filename
#else
LPCTSTR pszTempStringtable;
#endif
} DB, *PDB;
//
// We're using the high 4 bits of the TAGID to
// say what PDB the TAGID is from. Kludge? Perhaps.
//
#define PDB_MAIN 0x00000000
#define PDB_TEST 0x10000000
// all other entries are local (custom) pdbs
#define PDB_LOCAL 0x20000000
#define TAGREF_STRIP_TAGID 0x0FFFFFFF
#define TAGREF_STRIP_PDB 0xF0000000
typedef WCHAR* PWSZ;
ULONG
ShimExceptionHandler(
PEXCEPTION_POINTERS pexi,
char* pszFile,
DWORD dwLine
);
#if DBG
#define SHIM_EXCEPT_HANDLER ShimExceptionHandler(GetExceptionInformation(), __FILE__, __LINE__)
#else
#define SHIM_EXCEPT_HANDLER ShimExceptionHandler(GetExceptionInformation(), "", 0)
#endif
//
// Function prototypes for use in attributes.c (from version.dll)
//
//
typedef DWORD (WINAPI* PFNGetFileVersionInfoSize) (LPTSTR lptstrFilename,
LPDWORD lpdwHandle);
typedef BOOL (WINAPI* PFNGetFileVersionInfo)(LPTSTR lpstrFilename,
DWORD dwHandle,
DWORD dwLen,
LPVOID lpData);
typedef BOOL (WINAPI* PFNVerQueryValue)(const LPVOID pBlock,
LPTSTR lpSubBlock,
LPVOID* lplpBuffer,
PUINT puLen);
#ifdef WIN32A_MODE
#define VERQUERYVALUEAPINAME "VerQueryValueA"
#define GETFILEVERSIONINFOAPINAME "GetFileVersionInfoA"
#define GETFILEVERSIONINFOSIZEAPINAME "GetFileVersionInfoSizeA"
#else
#define VERQUERYVALUEAPINAME "VerQueryValueW"
#define GETFILEVERSIONINFOAPINAME "GetFileVersionInfoW"
#define GETFILEVERSIONINFOSIZEAPINAME "GetFileVersionInfoSizeW"
#endif
//
// custom db cache entry and header
//
typedef struct tagUSERSDBLOOKUPENTRY {
ULARGE_INTEGER liTimeStamp; // we don't need this item, but just for debugging ...
GUID guidDB;
} USERSDBLOOKUPENTRY, *PUSERSDBLOOKUPENTRY;
//
// Lookup vectors
//
//
typedef struct tagUSERSDBLOOKUP {
struct tagUSERSDBLOOKUP* pNext;
struct tagUSERSDBLOOKUP* pPrev;
LPWSTR pwszItemName; // item name
BOOL bLayer; // true if layer
DWORD dwCount; // item count
USERSDBLOOKUPENTRY rgEntries[1]; // actual names
} USERSDBLOOKUP, *PUSERSDBLOOKUP;
//
// HSDB flags
//
#define HSDBF_USE_ATTRIBUTES 0x00000001
#define MAX_SDBS 16
/*++
Flags for use with SdbOpenLocalDatabaseEx
--*/
#define SDBCUSTOM_GUID 0x00000001 // this is a "type" -- when specified, database guid is used to find/open the database
#define SDBCUSTOM_GUID_BINARY 0x00000001 // guid is provided in binary form
#define SDBCUSTOM_GUID_STRING 0x00010001 // guid is provided as a string "{....}"
#define SDBCUSTOM_PATH 0x00000002 // when specified, database path is used to find/open the database
#define SDBCUSTOM_PATH_DOS 0x00000002 // path is provided in dos form
#define SDBCUSTOM_PATH_NT 0x00010002 // path is provided in nt form
#define SDBCUSTOM_USE_INDEX 0x10000000 // when specified, an index is provided to use a particular entry within the sdb table
#define SDBCUSTOM_FLAGS(dwFlags) ((dwFlags) & 0xFFFF0000)
#define SDBCUSTOM_TYPE(dwFlags) ((dwFlags) & 0x0FFFF)
#define SDBCUSTOM_SET_MASK(hSDB, dwIndex) \
(((PSDBCONTEXT)hSDB)->dwDatabaseMask |= (1 << (dwIndex)))
#define SDBCUSTOM_CLEAR_MASK(hSDB, dwIndex) \
(((PSDBCONTEXT)hSDB)->dwDatabaseMask &= ~(1 << (dwIndex)))
#define SDBCUSTOM_CHECK_INDEX(hSDB, dwIndex) \
(((PSDBCONTEXT)hSDB)->dwDatabaseMask & (1 << (dwIndex)))
#define SDB_CUSTOM_MASK 0x0FFF8 // except 0, 1 and 2 -- bits for main, test and local
/*++
These macros convert from the mask form (as found in TAGREF's high 4 bits) to
index form and back
--*/
#define SDB_MASK_TO_INDEX(dwMask) ((((DWORD)(dwMask)) >> 28) & 0x0F)
#define SDB_INDEX_TO_MASK(dwIndex) (((DWORD)(dwIndex)) << 28)
typedef struct tagSDBENTRY {
GUID guidDB; // guid of a custom db
PDB pdb; // pdb for the db
DWORD dwFlags; // see SDBENTRY_ flags
} SDBENTRY, *PSDBENTRY;
/*++
Given a context and index (or mask) for an sdb - retrieve a pointer to
the appropriate entry (PSDBENTRY)
--*/
#define SDBGETENTRY(hSDB, dwIndex) \
(&((PSDBCONTEXT)hSDB)->rgSDB[dwIndex])
#define SDBGETENTRYBYMASK(hSDB, dwMask) \
SDBGETENTRY(hSDB, SDB_MASK_TO_INDEX(dwMask))
/*++
Retrieve main, test and temporary entries respectively
--*/
#define SDBGETMAINENTRY(hSDB) SDBGETENTRY(hSDB, SDB_MASK_TO_INDEX(PDB_MAIN))
#define SDBGETTESTENTRY(hSDB) SDBGETENTRY(hSDB, SDB_MASK_TO_INDEX(PDB_TEST))
#define SDBGETLOCALENTRY(hSDB) SDBGETENTRY(hSDB, SDB_MASK_TO_INDEX(PDB_LOCAL))
#define SDB_LOCALDB_INDEX SDB_MASK_TO_INDEX(PDB_LOCAL)
#define SDB_FIRST_ENTRY_INDEX 3 // since 0 is main, 1 is test and 2 is local
/*++
Flags that are valid in SDBENTRY.dwFlags
--*/
#define SDBENTRY_VALID_GUID 0x00000001 // indicated that an entry has valid guid for lookup
#define SDBENTRY_VALID_ENTRY 0x00000002 // indicates whether an entry is free
#define SDBENTRY_INVALID_INDEX ((DWORD)-1)
/*++
Macros that allow us access to some of the members of hSDB w/o derefencing the type
Makes it a bit easier of the typecasts in code
--*/
#ifdef WIN32A_MODE
#define SDBCONTEXT_IS_INSTRUMENTED(hSDB) FALSE
#define SDBCONTEXT_GET_PIPE(hSDB) INVALID_HANDLE_VALUE
#else
#define SDBCONTEXT_GET_PIPE(hSDB) \
(((PSDBCONTEXT)(hSDB))->hPipe)
#define SDBCONTEXT_IS_INSTRUMENTED(hSDB) \
(((PSDBCONTEXT)(hSDB))->hPipe != INVALID_HANDLE_VALUE)
#endif
typedef struct tagSDBCONTEXT {
DWORD dwFlags;
//
// Database handles
//
PDB pdbMain; // main database (sysmain)
PDB pdbTest; // test database (systest)
PDB pdbLocal; // local database
//
// database table
//
DWORD dwDatabaseCount; // number of entries in the table below
DWORD dwDatabaseMask; // bit-field mask for databases
SDBENTRY rgSDB[MAX_SDBS];
//
// Pointer to the file attribute cache (see attributes.c for details)
//
PVOID pFileAttributeCache;
//
// function pointers for use with version.dll
// (see attributes.c)
//
PFNVerQueryValue pfnVerQueryValue;
PFNGetFileVersionInfo pfnGetFileVersionInfo;
PFNGetFileVersionInfoSize pfnGetFileVersionInfoSize;
//
// processor architecture, cached to perform checks of RUNTIME_PLATFORM
//
DWORD dwRuntimePlatform;
//
// OS SKU
//
DWORD dwOSSKU;
//
// OS SP mask
//
DWORD dwSPMask;
//
// User SDB cache
//
PUSERSDBLOOKUP pLookupHead;
#ifndef WIN32A_MODE
//
// debug pipe
//
HANDLE hPipe;
#endif // WIN32A_MODE
} SDBCONTEXT, *PSDBCONTEXT;
//
// These flags are used to direct
// SearchDB routine not to use process_history or
// to prepare for lookup in local DB
//
#define SEARCHDBF_INITIALIZED 0x00000001
#define SEARCHDBF_NO_PROCESS_HISTORY 0x00000002
//
// note the gap here -- there was a flag related to local dbs - it's
// defunct and has been removed
//
#define SEARCHDBF_NO_ATTRIBUTE_CACHE 0x00000008
#define SEARCHDBF_NO_LFN 0x00000010
typedef struct tagSEARCHPATHPART {
LPCTSTR pszPart;
ULONG PartLength;
} SEARCHPATHPART, *PSEARCHPATHPART;
typedef struct tagSEARCHPATH {
ULONG PartCount; // count parts
SEARCHPATHPART Parts[];
} SEARCHPATHPARTS, *PSEARCHPATHPARTS;
typedef struct tagSEARCHDBCONTEXT {
DWORD dwFlags; // flags directing how the context is used
// we may, for instance, not want to use ProcessHistory
// at all SEARCHDBF* flags apply
HANDLE hMainFile; // handle of the main file we are checking
LPVOID pImageBase; // pointer to image base for the main file. We will use the image pointer
DWORD dwImageSize; // image size as provided by k-mode code
LPTSTR szDir; // directory, we allocate it, we free it
LPTSTR szName; // filename for the file we're looking up, we allocate and free it
LPTSTR szModuleName; // for 16-bit apps only; we allocate and free
LPCTSTR pEnvironment; // we DON'T touch this at all
LPTSTR szProcessHistory; // buffer for the search path string (unparsed), allocated by us, we free it
PSEARCHPATHPARTS pSearchParts; // search path undone, we allocate and free it
} SEARCHDBCONTEXT, *PSEARCHDBCONTEXT;
// HASH structures
typedef struct tagStringHashElement {
TCHAR* szStr; // the string itself (points past buffer)
STRINGREF srStr; // stringref (where the string is)
struct tagStringHashElement* pNext;
} STRHASHELEMENT, *PSTRHASHELEMENT;
typedef struct tagStringHash {
DWORD dwHashSize; // hash size
PSTRHASHELEMENT* pTable;
} STRHASH, *PSTRHASH;
#ifndef WIN32A_MODE
//
// apphelp info stuff (see apphelp.c)
//
//
// dwContextFlags can have these values:
//
#define AHC_DBDETAILS_NOCLOSE 0x00000001
#define AHC_HSDB_NOCLOSE 0x00000002
typedef struct tagAPPHELPINFOCONTEXT {
HSDB hSDB; // handle to the database
PDB pdb; // pdb where we have exe or null (we work through hsdb then
PDB pdbDetails; // pdb where we have details
DWORD dwDatabaseType; // this is the database type (of the db that contains the match)
DWORD dwContextFlags; // flags specific to the context
GUID guidDB; // database guid
GUID guidID; // guid of the matching entry
DWORD dwMask; // mask which tells us whether members are valid
TAGID tiExe; // tagid of an exe entry
TAGID tiApphelpExe; // apphelp in the main db
DWORD dwHtmlHelpID; // html help id
DWORD dwSeverity;
DWORD dwFlags;
TAGID tiApphelpDetails; // apphelp stuff in the details db
TAGID tiLink;
LPCWSTR pwszAppName;
LPCWSTR pwszApphelpURL;
LPCWSTR pwszVendorName;
LPCWSTR pwszExeName;
LPCWSTR pwszLinkURL;
LPCWSTR pwszLinkText;
LPCWSTR pwszTitle;
LPCWSTR pwszDetails;
LPCWSTR pwszContact;
LPWSTR pwszHelpCtrURL; // help center URL
BOOL bOfflineContent; // pass FALSE
BOOL bUseHtmlHelp; // pass FALSE
UNICODE_STRING ustrChmFile;
UNICODE_STRING ustrDetailsDatabase;
} APPHELPINFOCONTEXT, *PAPPHELPINFOCONTEXT;
#endif // WIN32A_MODE
void* SdbAlloc(size_t size);
void SdbFree(void* pWhat);
// Base primitives.
HANDLE
SdbpOpenFile(
LPCTSTR szPath,
PATH_TYPE eType
);
#if defined(WIN32A_MODE) || defined(WIN32U_MODE)
#define SdbpCloseFile(hFile) CloseHandle(hFile)
#else
#define SdbpCloseFile(hFile) NtClose(hFile)
#endif
BOOL
SdbpCreateSearchPathPartsFromPath(
IN LPCTSTR pszPath,
OUT PSEARCHPATHPARTS* ppSearchPathParts
);
BOOL
SdbpGetLongFileName(
IN LPCTSTR szFullPath,
OUT LPTSTR szLongFileName
);
void
SdbpGetWinDir(
LPTSTR pwszDir
);
void
SdbpGetAppPatchDir(
LPTSTR szAppPatchPath
);
DWORD
SdbExpandEnvironmentStrings(
IN LPCTSTR lpSrc,
OUT LPTSTR lpDst,
IN DWORD nSize);
BOOL
SdbpGUIDFromString(
LPCTSTR lpszGuid,
GUID* pGuid
);
DWORD
SdbpGetStringRefLength(
HSDB hSDB,
TAGREF trString
);
LPCTSTR
SdbpGetStringRefPtr(
IN HSDB hSDB,
IN TAGREF trString
);
BOOL
SdbpWriteBitsToFile(
LPCTSTR szFile,
PBYTE pBuffer,
DWORD dwSize
);
// DB access primitives
void
SdbCloseDatabaseRead(
PDB pdb
);
BOOL
SdbpOpenAndMapDB(
PDB pdb,
LPCTSTR pszPath,
PATH_TYPE eType
);
PDB
SdbpOpenDatabaseInMemory(
LPVOID pImageDatabase,
DWORD dwSize
);
BOOL
SdbpUnmapAndCloseDB(
PDB pdb
);
DWORD
SdbpGetFileSize(
HANDLE hFile
);
BOOL
SdbpReadMappedData(
PDB pdb,
DWORD dwOffset,
PVOID pBuffer,
DWORD dwSize
);
PVOID
SdbpGetMappedData(
PDB pdb,
DWORD dwOffset
);
TAGID
SdbpGetNextTagId(
PDB pdb,
TAGID tiWhich
);
DWORD
SdbpGetStandardDatabasePath(
IN DWORD dwDatabaseType,
IN DWORD dwFlags, // specify HID_DOS_PATHS for dos paths
OUT LPTSTR pszDatabasePath,
IN DWORD dwBufferSize // in tchars
);
LPTSTR
GetProcessHistory(
IN LPCTSTR pEnvironment,
IN LPTSTR szDir,
IN LPTSTR szName
);
void
PrepareFormatForUnicode(
PCH fmtUnicode,
PCH format
);
#ifndef WIN32A_MODE
#define PREPARE_FORMAT(pszFormat, Format) \
{ \
STACK_ALLOC(pszFormat, (strlen(Format) + 1) * sizeof(*Format)); \
if (pszFormat != NULL) { \
PrepareFormatForUnicode(pszFormat, Format); \
} \
}
#define CONVERT_FORMAT(pwsz, psz) \
{ \
ANSI_STRING str; \
UNICODE_STRING ustr; \
ULONG Length; \
NTSTATUS Status; \
\
RtlInitAnsiString(&str, (psz)); \
Length = RtlAnsiStringToUnicodeSize(&str); \
pwsz = (LPWSTR)_alloca(Length); \
\
if (pwsz != NULL) { \
ustr.MaximumLength = (USHORT)Length; \
ustr.Buffer = pwsz; \
Status = RtlAnsiStringToUnicodeString(&ustr, &str, FALSE); \
if (!NT_SUCCESS(Status)) { \
pwsz = NULL; \
} \
} \
}
#else // WIN32A_MODE
#define PREPARE_FORMAT(pszFormat, Format) (pszFormat = (Format))
#define CONVERT_FORMAT(pwsz, psz) (pwsz = (psz))
#endif // WIN32A_MODE
#ifdef KERNEL_MODE
#define SdbpGetWow64Flag() KEY_WOW64_64KEY
#else // !KERNEL_MODE
DWORD SdbpGetWow64Flag(VOID);
#endif // KERNEL_MODE
// READ
DWORD
SdbpGetTagHeadSize(
PDB pdb,
TAGID tiWhich
);
TAGID
SdbpGetLibraryFile(
IN PDB pdb, // handle to the database channel
IN LPCTSTR szDllName // the name of the FILE to find in LIBRARY (main db only)
);
#define SdbpGetMainLibraryFile(hSDB, szFileName) \
SdbpGetLibraryFile(((PSDBCONTEXT)(hSDB))->pdbMain, (szFileName))
STRINGREF SdbpReadStringRef(PDB pdb, TAGID tiWhich);
BOOL SdbpReadStringFromTable(PDB pdb, STRINGREF srData, LPTSTR szBuffer, DWORD dwBufferSize);
//
// Custom db stuff
//
VOID
SdbpCleanupUserSDBCache(
IN PSDBCONTEXT pSdbContext
);
HANDLE
SdbpCreateKeyPath(
LPCWSTR pwszPath,
BOOL bMachine
);
BOOL
SdbOpenNthLocalDatabase(
IN HSDB hSDB, // handle to the database channel
IN LPCTSTR pszItemName, // the name of the exectutable, without the path or the layer name
IN LPDWORD pdwIndex, // zero based index of the local DB to open
IN BOOL bLayer
);
BOOL
SdbpAddMatch( // internal function see sdbapi for more info
IN OUT PSDBQUERYRESULT pQueryResult,
IN PSDBCONTEXT pSdbContext,
IN PDB pdb,
IN TAGID* ptiExes,
IN DWORD dwNumExes,
IN TAGID* ptiLayers,
IN DWORD dwNumLayers,
IN GUID* pguidExeID,
IN DWORD dwExeFlags,
IN OUT PMATCHMODE pMode
);
BOOL
SdbOpenLocalDatabaseEx(
IN HSDB hSDB,
IN LPCVOID pDatabaseID,
IN DWORD dwFLags,
OUT PDB* pPDB OPTIONAL,
IN OUT LPDWORD pdwLocalDBMask OPTIONAL // local db mask for tagref
);
BOOL
SdbCloseLocalDatabaseEx(
IN HSDB hSDB,
IN PDB pdb,
IN DWORD dwIndex
);
BOOL
SdbpIsMainPDB(
IN HSDB hSDB,
IN PDB pdb
);
BOOL
SdbpIsLocalTempPDB(
IN HSDB hSDB,
IN PDB pdb
);
DWORD
SdbpRetainLocalDBEntry(
IN HSDB hSDB,
OUT PDB* ppPDB OPTIONAL // optional pointer to the pdb
);
BOOL
SdbpCleanupLocalDatabaseSupport(
IN HSDB hSDB
);
BOOL
SdbpFindLocalDatabaseByGUID(
IN HSDB hSDB,
IN GUID* pGuidDB,
IN BOOL bExcludeLocalDB,
OUT LPDWORD pdwIndex
);
BOOL
SdbpFindLocalDatabaseByPDB(
IN HSDB hSDB,
IN PDB pdb,
IN BOOL bExcludeLocalDB, // exclude local temp db entry?
OUT LPDWORD pdwIndex
);
LPCTSTR
SdbpGetDatabaseDescriptionPtr(
IN PDB pdb
);
// HASH
PVOID
HashCreate(
void
);
void
HashFree(
PVOID pStringHash
);
DWORD
HashString(
PSTRHASH pHash,
LPCTSTR szString
);
DWORD
HashStringRef(
PSTRHASH pHash,
STRINGREF srString);
// BULK
BOOL
SdbpReadMappedData(
PDB pdb,
DWORD dwOffset,
PVOID pBuffer,
DWORD dwSize
);
BOOL
SdbpCheckForMatch(
HSDB pDBContext,
PDB pdb,
TAGID tiExe,
PSEARCHDBCONTEXT pContext,
PMATCHMODE pMMode,
GUID* pGUID,
DWORD* pdwFlags
);
BOOL
bGetExeID(
PDB pdb,
TAGID tiExe,
GUID* pGuid
);
BOOL
SdbpBinarySearchUnique(
PINDEX_RECORD pRecords,
DWORD nRecords,
ULONGLONG ullKey,
DWORD* pdwIndex
);
BOOL
SdbpBinarySearchFirst(
PINDEX_RECORD pRecords,
DWORD nRecords,
ULONGLONG ullKey,
DWORD* pdwIndex
);
char*
SdbpKeyToAnsiString(
ULONGLONG ullKey,
char* szString
);
// ATTRIBUTES
BOOL
SafeNCat(
LPTSTR lpszDest,
int nSize,
LPCTSTR lpszSrc,
int nSizeAppend
);
BOOL
SdbpSanitizeXML(
LPTSTR pchOut,
int nSize,
LPCTSTR lpszXML
);
////////////////////////////////////////////////////////////////////////////
//
// Image File Data
// Helpful structure that is used in functions dealing with
// image properties retrieval
//
typedef struct tagIMAGEFILEDATA {
HANDLE hFile; // we do not manage this
DWORD dwFlags; // flags that tell us not to mess with the file's handle
HANDLE hSection; // section of the fileview
PVOID pBase; // base ptr
SIZE_T ViewSize; // size of the view
ULONGLONG FileSize; // size of the file
} IMAGEFILEDATA, *PIMAGEFILEDATA;
#define IMAGEFILEDATA_HANDLEVALID 0x00000001
#define IMAGEFILEDATA_NOFILECLOSE 0x00000002
#define IMAGEFILEDATA_PBASEVALID 0x00000004
#define IMAGEFILEDATA_NOFILEMAP 0x00000008
//
// FILEINFORMATION structure used in file attribute cache, see attributes.c
//
//
typedef struct tagFILEINFORMATION {
//
// "Signature" to insure that it's legitimate memory when
// operating of file attributes
//
DWORD dwMagic;
HANDLE hFile; // we store this handle
LPVOID pImageBase;
DWORD dwImageSize;
//
// pointer to the next item in cache
//
struct tagFILEINFORMATION* pNext; // pointer to the next item in cache
LPTSTR FilePath; // file name with path (allocated by us with this struct)
DWORD dwFlags; // flags
PVOID pVersionInfo; // version info ptr, retained (allocated by us)
LPTSTR pDescription16; // string, points to the buffer for 16-bit description
LPTSTR pModuleName16; // string, points to the buffer for 16-bit module name
ATTRINFO Attributes[];
} FILEINFO, *PFILEINFO;
//
// This structure is used to recover directory-related attributes of a file
// we used to have time here as well... but not anymore
// only low part of the file size is of any significance
//
typedef struct tagFILEDIRECTORYATTRIBUTES {
DWORD dwFlags; // flags that show which attributes are valid
DWORD dwFileSizeHigh;
DWORD dwFileSizeLow;
} FILEDIRECTORYATTRIBUTES, *PFILEDIRECTORYATTRIBUTES;
//
// Attribute names. Use SdbTagToString if you want to get the name of
// a tag ID.
//
typedef struct _TAG_INFO {
TAG tWhich;
TCHAR* szName;
} TAG_INFO, *PTAG_INFO;
typedef struct _MOD_TYPE_STRINGS {
DWORD dwModuleType;
LPTSTR szModuleType;
} MOD_TYPE_STRINGS;
typedef struct tagLANGANDCODEPAGE {
WORD wLanguage;
WORD wCodePage;
} LANGANDCODEPAGE, *PLANGANDCODEPAGE;
BOOL
SdbpGetHeaderAttributes(
IN PSDBCONTEXT pContext,
OUT PFILEINFO pFileInfo
);
LPTSTR
SdbpQueryVersionString(
HSDB hSDB,
PVOID pVersionData,
PLANGANDCODEPAGE pTranslations,
DWORD dwCount,
LPCTSTR szString
);
BOOL
SdbpGetFileChecksum(
PULONG pChecksum,
PIMAGEFILEDATA pImageData
);
BOOL
SdbpGetModulePECheckSum(
PULONG pChecksum,
LPDWORD pdwLinkerVersion,
LPDWORD pdwLinkDate,
PIMAGEFILEDATA pImageData
);
BOOL
SdbpCheckVersion(
ULONGLONG qwDBFileVer,
ULONGLONG qwBinFileVer
);
BOOL
SdbpCheckUptoVersion(
ULONGLONG qwDBFileVer,
ULONGLONG qwBinFileVer
);
#ifdef KERNEL_MODE
//
// Special versions of functions for kernel-mode implementation (in ntkmode.c).
//
BOOL
SdbpGetFileDirectoryAttributesNT(
PFILEINFO pFileInfo,
PIMAGEFILEDATA pImageData
);
BOOL
SdbpQueryFileDirectoryAttributesNT(
PIMAGEFILEDATA pImageData,
PFILEDIRECTORYATTRIBUTES pFileDirectoryAttributes
);
#else
BOOL
SdbpGetFileDirectoryAttributes(
OUT PFILEINFO pFileInfo
);
BOOL
SdbpGetVersionAttributes(
IN PSDBCONTEXT pContext,
OUT PFILEINFO pFileInfo
);
#endif // KERNEL_MODE
int
TagToIndex(
IN TAG tag // the tag
);
BOOL
SdbpSetAttribute(
OUT PFILEINFO pFileInfo, // pointer to the FILEINFO structure.
IN TAG AttrID, // Attribute ID (tag, as in TAG_SIZE
IN PVOID pValue // value
);
void
SdbpQueryStringVersionInformation(
IN PSDBCONTEXT pContext,
IN PFILEINFO pFileInfo,
OUT LPVOID pVersionInfo
);
VOID
SdbpQueryBinVersionInformation(
IN PSDBCONTEXT pContext,
IN PFILEINFO pFileInfo,
OUT VS_FIXEDFILEINFO* pFixedInfo
);
BOOL
SdbpGetAttribute(
IN PSDBCONTEXT pContext,
OUT PFILEINFO pFileInfo,
IN TAG AttrID
);
BOOL
SdbpGetImageNTHeader(
OUT PIMAGE_NT_HEADERS* ppHeader,
IN PIMAGEFILEDATA pImageData
);
BOOL
SdbpGetVersionAttributesNT(
PSDBCONTEXT pContext,
PFILEINFO pFileInfo,
PIMAGEFILEDATA pImageData
);
VOID
SdbpCleanupAttributeMgr(
PSDBCONTEXT pContext
);
BOOL
SdbpCheckAttribute(
HSDB hSDB,
PVOID pFileData,
TAG tAttrID,
PVOID pAttribute
);
BOOL
SdbpCheckAllAttributes(
HSDB hSDB,
PDB pdb,
TAGID tiMatch,
PVOID pFileData);
// READ FUNCTIONS
BOOL SdbpReadTagData(PDB pdb, TAGID tiWhich, PVOID pBuffer, DWORD dwBufferSize);
// WRITE
BOOL
SdbpWriteTagData(
PDB pdb,
TAG tTag,
const PVOID pBuffer,
DWORD dwSize
);
// STRING FUNCTIONS
WCHAR* SdbpGetMappedStringFromTable(PDB pdb, STRINGREF srData);
STRINGREF SdbpAddStringToTable(PDB pdb, LPCTSTR szData);
// INDEX FUNCTIONS
PINDEX_RECORD
SdbpGetIndex(
PDB pdb,
TAGID tiIndex,
DWORD* pdwNumRecs
);
void
SdbpScanIndexes(
PDB pdb
);
TAGID
SdbpGetFirstIndexedRecord(
PDB pdb,
TAGID tiIndex,
ULONGLONG ullKey,
FIND_INFO* pFindInfo
);
TAGID
SdbpGetNextIndexedRecord(
PDB pdb,
TAGID tiIndex,
FIND_INFO* pFindInfo
);
TAGID
SdbpFindFirstIndexedWildCardTag(
PDB pdb,
TAG tWhich,
TAG tKey,
LPCTSTR szName,
FIND_INFO* pFindInfo
);
TAGID
SdbpFindNextIndexedWildCardTag(
PDB pdb,
FIND_INFO* pFindInfo
);
BOOL
SdbpSortIndex(
PDB pdb,
TAGID tiIndexBits
);
ULONGLONG
SdbpTagToKey(
PDB pdb,
TAGID tiTag
);
// FINDTAG
TAGID
tiFindFirstNamedTag(
PDB pdb,
TAGID tiParent,
TAG tToFind,
TAG tName,
LPCTSTR pszName
);
TAGID
SdbpFindNextNamedTag(
PDB pdb,
TAGID tiParent,
TAGID tiPrev,
TAG tName,
LPCTSTR pszName
);
TAGID
SdbpFindMatchingName(
PDB pdb,
TAGID tiStart,
FIND_INFO* pFindInfo
);
TAGID
SdbpFindMatchingDWORD(
PDB pdb,
TAGID tiStart,
FIND_INFO* pFindInfo
);
TAGID
SdbpFindMatchingGUID(
IN PDB pdb, // DB to use
IN TAGID tiStart, // the tag where to start from
IN FIND_INFO* pFindInfo // pointer to the search context structure
);
BOOL bTagRefToTagID(HSDB, TAGREF trWhich, PDB* ppdb, TAGID* ptiWhich);
DWORD SdbpGetTagRefDataSize(HSDB, TAGREF trWhich);
BOOL SdbpReadBinaryTagRef(HSDB, TAGREF trWhich, PBYTE pBuffer, DWORD dwBufferSize);
//
// Debug functions (pipe-related)
//
HANDLE
SdbpOpenDebugPipe(
VOID
);
BOOL
SdbpCloseDebugPipe(
IN HANDLE hPipe
);
BOOL
SdbpWriteDebugPipe(
HSDB hSDB,
LPCSTR pszBuffer
);
//
// APPCOMPAT_EXE_DATA
//
//
#define MAX_SHIM_ENGINE_NAME 32
typedef struct tagAPPCOMPAT_EXE_DATA {
//
// WARNING: never ever change the position of 'szShimEngine'.
//
// It MUST be the first element of this structure
//
// this structure is referenced during installation of
// an appcompat backend (base\ntdll)
WCHAR szShimEngine[MAX_SHIM_ENGINE_NAME];
DWORD dwFlags; // flags (if any)
DWORD cbSize; // struct size(allocation size)
DWORD dwMagic; // magic (signature)
TAGREF atrExes[SDB_MAX_EXES];
TAGREF atrLayers[SDB_MAX_LAYERS];
TAGREF trAppHelp; // if there's an apphelp to display
DWORD dwDatabaseMap; // count local dbs
GUID rgGuidDB[MAX_SDBS]; // local dbs
} APPCOMPAT_EXE_DATA, *PAPPCOMPAT_EXE_DATA;
PVOID SdbpGetMappedTagData(PDB pdb, TAGID tiWhich);
BOOL bWStrEqual(const WCHAR* szOne, const WCHAR* szTwo);
BOOL bFlushBufferedData(PDB pdb);
void vReleaseBufferedData(PDB pdb);
BOOL SdbpPatternMatchAnsi(LPCSTR pszPattern, LPCSTR pszTestString);
BOOL SdbpPatternMatch(LPCTSTR pszPattern, LPCTSTR pszTestString);
//
// Registry access functions
//
//
typedef WCHAR* PWSZ;
void
SdbpQueryAppCompatFlagsByExeID(
LPCWSTR pwszKeyPath,
PUNICODE_STRING pustrExeID,
LPDWORD lpdwFlags
);
#ifdef _DEBUG_SPEW
typedef struct tagDBGLEVELINFO {
LPCSTR szStrTag;
INT iLevel;
} DBGLEVELINFO;
#define DEBUG_LEVELS 4
//
// Shim Debug Level variable
// In it's initial state -- we have -1 here,
// further, upon the very first call to ShimDbgPrint, we examine the
// environment variable -- and then we set it up appropriately
//
#define SHIM_DEBUG_UNINITIALIZED 0x0C0FFEE
#endif // _DEBUG_SPEW
/*++
bWStrEqual
Currently a wrapper for _wcsicmp. Potentially will use a faster
routine that just checks equality, rather than also trying to get
less than/greater than.
--*/
#define bWStrEqual(s1, s2) (0 == _wcsicmp((s1), (s2)))
#define ISEQUALSTRING(s1, s2) (0 == _tcsicmp((s1), (s2)))
/*++
dwGetTagDataOffset
Returns the total size of the tag: the tag header plus the tag data.
Used for skipping past a tag and going to the next tag in the file.
--*/
//
// HACK ALERT BUGBUG
// remove this when the code to write aligned db has propagated
// throught
//
#define GETTAGDATASIZEALIGNED(pdb, tiWhich) \
((pdb)->bUnalignedRead ? (SdbGetTagDataSize(pdb, tiWhich)) : \
((SdbGetTagDataSize(pdb, tiWhich) + 1) & (~1)))
#if 0 // this is good code that we should but back at some point
#define GETTAGDATASIZEALIGNED(pdb, tiWhich) \
((SdbGetTagDataSize(pdb, tiWhich) + 1) & (~1))
#endif // End good code
#define GETTAGDATAOFFSET(pdb, tiWhich) \
(GETTAGDATASIZEALIGNED(pdb, tiWhich) + SdbpGetTagHeadSize(pdb, tiWhich))
#ifndef WIN32A_MODE
///////////////////////////////////////////////////////////////////////////////////
//
// UNICODE - specific macros and definitions
//
#define IS_MEMORY_EQUAL(p1, p2, Size) RtlEqualMemory(p1, p2, Size)
#define CONVERT_STRINGPTR(pdb, pwszSrc, tagType, srWhich) ((WCHAR*)pwszSrc)
#define READ_STRING(pdb, tiWhich, pwszBuffer, dwBufferSize) \
(SdbpReadTagData((pdb), (tiWhich), (pwszBuffer), (dwBufferSize) * sizeof(WCHAR)))
//
// The macro below is a substitution for a function that exists in non-unicode code
//
#define SdbpDoesFileExists(FilePath) RtlDoesFileExists_U(FullPath)
NTSTATUS
SdbpGUIDToUnicodeString(
IN GUID* pGuid,
OUT PUNICODE_STRING pUnicodeString
);
VOID
SdbpFreeUnicodeString(
PUNICODE_STRING pUnicodeString
);
#define GUID_TO_UNICODE_STRING(pGuid, pUnicodeString) \
SdbpGUIDToUnicodeString(pGuid, pUnicodeString)
#define FREE_GUID_STRING(pUnicodeString) \
SdbpFreeUnicodeString(pUnicodeString)
#ifdef KERNEL_MODE
NTSTATUS
SdbpUpcaseUnicodeStringToMultiByteN(
OUT LPSTR lpszDest, // dest buffer
IN DWORD dwSize, // size in characters
IN LPCWSTR lpszSrc // source
);
BOOL SdbpCreateUnicodeString(
PUNICODE_STRING pStr,
LPCWSTR lpwsz
);
BOOL
SdbpDoesFileExists_U(
LPCWSTR pwszPath
);
#define DOES_FILE_EXISTS_U(pwszPath) \
SdbpDoesFileExists_U(pwszPath)
#define UPCASE_UNICODETOMULTIBYTEN(szDest, dwDestSize, szSrc) \
SdbpUpcaseUnicodeStringToMultiByteN(szDest, dwDestSize, szSrc)
#else // not KERNEL_MODE code below
#define DOES_FILE_EXISTS_U(pwszPath) \
RtlDoesFileExists_U(pwszPath)
#define UPCASE_UNICODETOMULTIBYTEN(szDest, dwDestSize, szSrc) \
RtlUpcaseUnicodeToMultiByteN((szDest), \
(dwDestSize) * sizeof(*(szDest)), \
NULL, \
(WCHAR*)(szSrc), \
(wcslen((szSrc)) + 1) * sizeof(WCHAR))
#define FREE_TEMP_STRINGTABLE(pdb) \
RtlFreeUnicodeString(&pdb->ustrTempStringtable)
#define COPY_TEMP_STRINGTABLE(pdb, pszTempStringtable) \
RtlCreateUnicodeString(&pdb->ustrTempStringtable, pszTempStringtable)
void
SdbpGetCurrentTime(
LPSYSTEMTIME lpTime
);
BOOL
SdbpBuildUserKeyPath(
IN LPCWSTR pwszPath,
OUT PUNICODE_STRING puserKeyPath
);
#endif // KERNEL_MODE
//
// Convert unicode char to upper case
//
#define UPCASE_CHAR(ch) RtlUpcaseUnicodeChar((ch))
//
// String cache which does not exist in unicode
//
#define CLEANUP_STRING_CACHE_READ(pdb)
#define SDB_BREAK_POINT() DbgBreakPoint()
#else // WIN32A_MODE
#define IS_MEMORY_EQUAL(p1, p2, Size) (memcmp((p1), (p2), (Size)) == 0)
//
// From Win32Base.c
//
LPSTR
SdbpFastUnicodeToAnsi(
IN PDB pdb,
IN LPCWSTR pwszSrc,
IN TAG_TYPE ttTag,
IN DWORD dwRef
);
BOOL
SdbpReadStringToAnsi(
PDB pdb,
TAGID tiWhich,
LPSTR pszBuffer,
DWORD dwBufferSize);
#define CONVERT_STRINGPTR(pdb, pwszSrc, tagType, srWhich) \
SdbpFastUnicodeToAnsi(pdb, (WCHAR*)pwszSrc, tagType, (DWORD)srWhich)
#define READ_STRING(pdb, tiWhich, pwszBuffer, dwBufferSize) \
(SdbpReadStringToAnsi((pdb), (tiWhich), (pwszBuffer), (dwBufferSize)))
BOOL
SdbpDoesFileExists(
LPCTSTR pszFilePath
);
#define UPCASE_CHAR(ch) _totupper((ch))
#define UPCASE_UNICODETOMULTIBYTEN(szDest, dwDestSize, szSrc) \
(_tcsncpy((szDest), (szSrc), (dwDestSize)), \
(szDest)[(dwDestSize) - 1] = 0, \
_tcsupr((szDest)), \
STATUS_SUCCESS)
#define FREE_LOCALDB_NAME(pSDBContext) \
{ \
if (NULL != pSDBContext->pszPDBLocal) { \
SdbFree(pSDBContext->pszPDBLocal); \
pSDBContext->pszPDBLocal = NULL; \
} \
}
#define COPY_LOCALDB_NAME(pSDBContext, pszLocalDatabase) \
((pSDBContext->pszPDBLocal = SdbpDuplicateString(pszLocalDatabase)), \
(NULL != pSDBContext->pszPDBLocal))
#define CLEANUP_STRING_CACHE_READ(pdb) \
{ \
if (pdb->pHashStringTable != NULL) { \
HashFree(pdb->pHashStringTable); \
pdb->pHashStringTable = NULL; \
} \
\
if (pdb->pHashStringBody != NULL) { \
HashFree(pdb->pHashStringBody); \
pdb->pHashStringBody = NULL; \
} \
}
#define FREE_TEMP_STRINGTABLE(pdb) \
if (pdb->pszTempStringtable) { \
SdbFree(pdb->pszTempStringtable); \
pdb->pszTempStringtable = NULL; \
}
#define COPY_TEMP_STRINGTABLE(pdb, pszTempStringtable) \
((pdb->pszTempStringtable = SdbpDuplicateString(pszTempStringtable)), \
(NULL != pdb->pszTempStringtable))
#define SDB_BREAK_POINT() DebugBreak()
#define GUID_TO_STRING SdbGUIDToString
#endif // WIN32A_MODE
BOOL
SdbpMapFile(
HANDLE hFile, // handle to the open file (this is done previously)
PIMAGEFILEDATA pImageData
);
BOOL
SdbpUnmapFile(
PIMAGEFILEDATA pImageData
);
BOOL
SdbpOpenAndMapFile(
IN LPCTSTR szPath,
OUT PIMAGEFILEDATA pImageData,
IN PATH_TYPE ePathType
);
BOOL
SdbpUnmapAndCloseFile(
PIMAGEFILEDATA pImageData
);
NTSTATUS
SdbpGetEnvVar(
IN LPCTSTR pEnvironment,
IN LPCTSTR pszVariableName,
OUT LPTSTR pszVariableValue,
OUT LPDWORD pdwBufferSize);
LPTSTR HashAddStringByRef(PSTRHASH pHash, LPCTSTR szString, STRINGREF srString);
LPTSTR HashFindStringByRef(PSTRHASH pHash, STRINGREF srString);
/////////////////////////////////////////////////////////////////////////////////
//
// Private versions of functions to check for resources...
// found in ntver.c
//
BOOL
SdbpVerQueryValue(
const LPVOID pb,
LPVOID lpSubBlockX, // can be only unicode
LPVOID* lplpBuffer,
PUINT puLen
);
BOOL
SdbpGetFileVersionInformation(
IN PIMAGEFILEDATA pImageData, // we assume that the file has been mapped in for other purposes
OUT LPVOID* ppVersionInfo, // receives pointer to the (allocated) version resource
OUT VS_FIXEDFILEINFO** ppFixedVersionInfo // receives pointer to fixed version info
);
BOOL
SdbpGetModuleType( // retrieve module type
OUT LPDWORD lpdwModuleType, // OUT - module type
IN PIMAGEFILEDATA pImageData // IN - image data
);
BOOL
SdbpCreateSearchDBContext(
PSEARCHDBCONTEXT pContext,
LPCTSTR szPath,
LPCTSTR szModuleName,
LPCTSTR pEnvironment
);
DWORD
SdbpSearchDB(
IN HSDB hSDB,
IN PDB pdb, // pdb to search in
IN TAG tiSearchTag, // OPTIONAL - target tag (TAG_EXE or TAG_APPHELP_EXE)
IN PSEARCHDBCONTEXT pContext,
OUT TAGID* ptiExes, // caller needs to provide array of size SDB_MAX_EXES
OUT GUID* pLastExeGUID,
OUT DWORD* pLastExeFlags,
IN OUT PMATCHMODE pMatchMode // reason why we stopped scanning
);
void
SdbpReleaseSearchDBContext(
PSEARCHDBCONTEXT pContext
);
//
// this macro is used to retrieve ulonglong from the index
//
//
#if defined(_WIN64)
#define READ_INDEX_KEY(pIndexRecord, iIndex, pullKey) \
RtlMoveMemory((pullKey), &pIndexRecord[iIndex].ullKey, sizeof(*(pullKey)))
#else
#define READ_INDEX_KEY(pIndexRecord, iIndex, pullKey) \
*pullKey = pIndexRecord[iIndex].ullKey
#endif
#define READ_INDEX_KEY_VAL(pIndexRecord, iIndex, pullKey) \
( READ_INDEX_KEY(pIndexRecord, iIndex, pullKey), *(pullKey) )
//
// this macro is used to allocate cheap pointer on the stack
//
#if DBG | defined(KERNEL_MODE) | defined(_WIN64)
#define STACK_ALLOC(ptrVar, nSize) \
{ \
PVOID* ppVar = (PVOID*)&(ptrVar); \
*ppVar = SdbAlloc(nSize); \
}
#define STACK_FREE(pMemory) \
SdbFree(pMemory)
#else // hack-routine to reset the stack after an overflow
//
// this routine is a replica of a _resetstkoflw which lives in the crt
// crtw32\heap\resetstk.c
//
VOID
SdbResetStackOverflow(
VOID
);
//
// HACK ALERT
//
// The code below works because when we hit a stack overflow - we catch the exception
// and subsequently fix the stack up using a crt routine
//
#define STACK_ALLOC(ptrVar, nSize) \
__try { \
PVOID* ppVar = (PVOID*)&(ptrVar); \
*ppVar = _alloca(nSize); \
} __except (GetExceptionCode() == EXCEPTION_STACK_OVERFLOW ? \
EXCEPTION_EXECUTE_HANDLER:EXCEPTION_CONTINUE_SEARCH) { \
(ptrVar) = NULL; \
} \
\
if (ptrVar == NULL) { \
SdbResetStackOverflow(); \
}
#define STACK_FREE(pMemory)
#endif
LPTSTR
SdbpDuplicateString(
LPCTSTR pszSrc);
#define FDA_FILESIZE 0x00000001
BOOL
SdbpQueryFileDirectoryAttributes(
LPCTSTR FilePath,
PFILEDIRECTORYATTRIBUTES pFileDirectoryAttributes
);
//
// Magic fileinfo signature
//
#define FILEINFO_MAGIC 0xA4C0FFEE
WCHAR*
DuplicateUnicodeString(
IN PUNICODE_STRING pStr,
IN PUSHORT pLength OPTIONAL
); // pLength is an allocated length
LPWSTR
StringToUnicodeString(
IN LPCSTR pszSrc
);
//
// defined for uni/non-uni separately
//
BOOL
SdbpGet16BitDescription(
LPTSTR* ppszDescription,
PIMAGEFILEDATA pImageData
);
BOOL
SdbpGet16BitModuleName(
LPTSTR* ppszModuleName,
PIMAGEFILEDATA pImageData
);
//
// in attributes.c
//
BOOL
SdbpQuery16BitDescription(
LPSTR szBuffer, // min length -- 256 chars !
PIMAGEFILEDATA pImageData
);
BOOL
SdbpQuery16BitModuleName(
LPSTR szBuffer, // min length -- 256 chars !
PIMAGEFILEDATA pImageData
);
LPCTSTR
SdbpModuleTypeToString(
DWORD dwModuleType
);
//
// in index.c
//
BOOL
SdbpPatternMatch(
IN LPCTSTR pszPattern,
IN LPCTSTR pszTestString);
BOOL
SdbpPatternMatchAnsi(
IN LPCSTR pszPattern,
IN LPCSTR pszTestString);
//
// defined for uni/non-uni separately
//
//////////////////////////////////////////////////////////////////////////////////
//
// GetFileInfo
// 1. performs check on a file to determine if it exists
// 2. if it does exist -- it leaves a cache entry (creates a fileinfo struct)
// if it does NOT exist -- we leave no mention of it on record
// if bNoCache == TRUE the file is not entered into the cache
// caller must free the stucture using FreeFileData
//
// Parameters:
// tiMatch - IN - match id from the database, used temporary
// FilePath - IN - file path that we are to check
// bNoCache - IN - whether we should enter the file into cache
//
// returns:
// Pointer to internal data structure that should be used in
// subsequent calls to SdbpCheckAttribute or NULL if file was not available
//
PVOID
SdbGetFileInfo(
IN HSDB hSDB,
IN LPCTSTR pszFilePath,
IN HANDLE hFile OPTIONAL,
IN LPVOID pImageBase OPTIONAL,
IN DWORD dwImageSize OPTIONAL,
IN BOOL bNoCache
);
//
// in attributes.c
//
PFILEINFO
CreateFileInfo(
IN PSDBCONTEXT pContext,
IN LPCTSTR FullPath,
IN DWORD dwLength OPTIONAL, // length (in characters) of FullPath string
IN HANDLE hFile OPTIONAL, // file handle
IN LPVOID pImageBase OPTIONAL,
IN DWORD dwImageSize OPTIONAL,
IN BOOL bNoCache
);
PFILEINFO
FindFileInfo(
PSDBCONTEXT pContext,
LPCTSTR FilePath
);
// defined unicode and non-unicode
INT GetShimDbgLevel(VOID);
//
// from index.c
//
STRINGREF HashFindString(PSTRHASH pHash, LPCTSTR szString);
BOOL HashAddString(PSTRHASH pHash, LPCTSTR szString, STRINGREF srString);
BOOL
SdbpIsPathOnCdRom(
LPCTSTR pszPath
);
BOOL
SdbpBuildSignature(
LPCTSTR pszPath,
LPTSTR pszPathSigned
);
//
// in ntbase/win32base
//
DWORD
SdbpGetProcessorArchitecture(
VOID
);
VOID
SdbpGetOSSKU(
LPDWORD lpdwSKU,
LPDWORD lpdwSP
);
//
// in Attributes.c
//
BOOL
SdbpCheckRuntimePlatform(
IN PSDBCONTEXT pContext, // pointer to the database channel
IN LPCTSTR pszMatchingFile,
IN DWORD dwPlatformDB
);
//
// convenient define
//
#ifndef OFFSETOF
#define OFFSETOF offsetof
#endif
/* // Use this pragma below in conjunction with the commented block
// in the beginning of the file to compile with warning level 4
#pragma warning(pop)
*/
#endif // __SDBP_H__