// // Helpful macro // #define FIELDOFFSET(type, field) ((int)(&((type *)1)->field)-1) // // The macro that should be used to check for apphack flags // #define APPCOMPATFLAG(_flag) (NtCurrentPeb()->AppCompatFlags.QuadPart & (_flag)) // // Application compatibility flags and information // #define KACF_OLDGETSHORTPATHNAME 0x00000001 // Don't be like Win9x: in GetShortPathName(), NT 4 // did not care if the file existed - it would give // the short path name anyway. This behavior was // changed in NT 5 (Win2000) to reflect behavior of // Win9x which will fail if the file does not exist. // Turning on this flag will give the old behavior // for the app. #define KACF_VERSIONLIE 0x00000002 // Used to signify app will // be lied to wrt what version // of the OS its running on via // GetVersion(), GetVersionEx() #define KACF_GETDISKFREESPACE 0x00000008 // Make GetDiskFreeSpace 2G friendly #define KACF_GETTEMPPATH 0x00000010 // Make GetTempPath return x:\temp #define KACF_FTMFROMCURRENTAPT 0x00000020 // If set, a DCOM Free-Threaded-Marshaled Object has // its' stub parked in the apartment that the object is // marshaled from instead of the Neutral-Apartment. // Having to set this bit indicates a busted App // that is not following the rules for FTM objects. The // app probably has other subtle problems that NT 4 or // Win9x didn't show. Blindly using the ATL wizard to // enable using the FTM is usually the source of the bug. #define KACF_DISALLOWORBINDINGCHANGES 0x00000040 // If set, the process will not be notified of changes // in the local machine bindings used by COM. #define KACF_OLE32VALIDATEPTRS 0x00000080 // If set, ole32.dll will use the IsBadReadPtr family of // functions to verify pointer arguments in the standard COM APIs. // This was the default behavior on all platforms prior to Whistler. #define KACF_DISABLECICERO 0x00000100 // If set, Cicero support for the current process // is disabled. enum { AVT_OSVERSIONINFO = 1, // Designates that an OSVERSIONINFO type info is contained within AVT_PATCHINFO // Designates that patching info is contained within }; // // This variable length struct is the main basic data type contained within // the ApplicationGoo registry entry. Anything can be contained within here: // ResourceVersionInfo, VersionlyingInfo, patches, etc. You need to use the // XXX function to bounce down these correctly. // typedef struct _APP_VARIABLE_INFO { // // Type of variable length struct (defined above) // ULONG dwVariableType; // // Total size of this particular variable length struct // ULONG dwVariableInfoSize; // // The variable length data itself is to follow. It's commented out // as the length is undefined, could even be zero. // // UCHAR VariableInfo[]; } APP_VARIABLE_INFO, *PAPP_VARIABLE_INFO; typedef struct _PRE_APP_COMPAT_INFO { // // Total size of this entry // ULONG dwEntryTotalSize; // // Amount of version resource information present in this entry // ULONG dwResourceInfoSize; // // Actual version resource information itself. It's commented out // as some apps have no version info. For the apps that do, below // is where it would start // // UCHAR ResourceInfo[]; } PRE_APP_COMPAT_INFO, *PPRE_APP_COMPAT_INFO; // // This struct is what is read directly out of the registry under // HKLM\Software\Microsoft\Windows NT\CurrentVersion\Image File Execution Options\EXEname - ApplicationGoo. // Its a "Pre" structure cuz we won't be keeping all of it, if we decide its // a match to the app in question. You should make no assumptions of what // is contained beyond AppCompatEntry, as everything will be variable length. // If a match is found to the app being executed, a cleaner "Post" structure // is made and should be used by all. // typedef struct _APP_COMPAT_GOO { // // Total size of the "Pre" structure // ULONG dwTotalGooSize; // // At least one "Pre" app compat entry will be present (possibly more) // PRE_APP_COMPAT_INFO AppCompatEntry[1]; } APP_COMPAT_GOO, *PAPP_COMPAT_GOO; // // This is the "Post" app compat structure. Variable length data can follow // the CompatibilityFlags field, so you should use the XXX function to find // any variable length data you might have in here. We have a "Pre" and // "Post" struct to try and save space in the registry and in resident RAM. // typedef struct _APP_COMPAT_INFO { // // Size of app compat entry // ULONG dwTotalSize; // // Bitmask of various app compat flags, see KACF definitions // ULARGE_INTEGER CompatibilityFlags; // // We may have zero, or many APP_VARIABLE_INFO structs to follow // } APP_COMPAT_INFO, *PAPP_COMPAT_INFO; typedef struct { ULONG dwOSVersionInfoSize; ULONG dwMajorVersion; ULONG dwMinorVersion; ULONG dwBuildNumber; ULONG dwPlatformId; USHORT wServicePackMajor; USHORT wServicePackMinor; USHORT wSuiteMask; UCHAR wProductType; UCHAR wReserved; WCHAR szCSDVersion[ 128 ]; } EFFICIENTOSVERSIONINFOEXW, *PEFFICIENTOSVERSIONINFOEXW; // // New shim application compatibility flags and information // #define KACF_DISABLESYSKEYMESSAGES 0x00000001 // Sucks up WM_SYSKEYUP, WM_SYSKEYDOWN, WM_SYSMENU // so a particular app will not be able to alt-tab // to the desktop typedef struct _APP_COMPAT_SHIM_INFO { // // List of API hooked // PVOID pHookAPIList; // // List of patch hooks // PVOID pHookPatchList; // // List of the APIs to be hooked // PVOID ppHookAPI; // // Count of hooked APIs // ULONG dwHookAPICount; // // Exe specific inclusions/exclusion // PVOID pExeFilter; // // Global exclusions // PVOID pGlobalFilterList; // // Late bound DLL exclusions // PVOID pLBFilterList; // // Crit sec // PVOID pCritSec; // // Shim heap // PVOID pShimHeap; } APP_COMPAT_SHIM_INFO, *PAPP_COMPAT_SHIM_INFO;