/*++ Copyright (c) 1994-2000 Microsoft Corporation Module Name: heappage.h Abstract: External interface for page heap manager. Author: Tom McGuire (TomMcg) 06-Jan-1995 Silviu Calinoiu (SilviuC) 22-Feb-2000 Revision History: --*/ #ifndef _HEAP_PAGE_H_ #define _HEAP_PAGE_H_ // // #defining DEBUG_PAGE_HEAP will cause the page heap manager // to be compiled. Only #define this flag if NOT kernel mode. // Probably want to define this just for checked-build (DBG). // #ifndef NTOS_KERNEL_RUNTIME #define DEBUG_PAGE_HEAP 1 #endif //silviuc: #include "heappagi.h" #ifndef DEBUG_PAGE_HEAP // // These macro-based hooks should be defined to nothing so they // simply "go away" during compile if the debug heap manager is // not desired (retail builds). // #define IS_DEBUG_PAGE_HEAP_HANDLE( HeapHandle ) FALSE #define IF_DEBUG_PAGE_HEAP_THEN_RETURN( Handle, ReturnThis ) #define IF_DEBUG_PAGE_HEAP_THEN_CALL( Handle, CallThis ) #define IF_DEBUG_PAGE_HEAP_THEN_BREAK( Handle, Text, ReturnThis ) #define HEAP_FLAG_PAGE_ALLOCS 0 #define RtlpDebugPageHeapValidate( HeapHandle, Flags, Address ) TRUE #else // DEBUG_PAGE_HEAP // // The following definitions and prototypes are the external interface // for hooking the debug heap manager in the retail heap manager. // #define HEAP_FLAG_PAGE_ALLOCS 0x01000000 #define HEAP_PROTECTION_ENABLED 0x02000000 #define HEAP_BREAK_WHEN_OUT_OF_VM 0x04000000 #define HEAP_NO_ALIGNMENT 0x08000000 #define IS_DEBUG_PAGE_HEAP_HANDLE( HeapHandle ) \ (((PHEAP)(HeapHandle))->ForceFlags & HEAP_FLAG_PAGE_ALLOCS ) #define IF_DEBUG_PAGE_HEAP_THEN_RETURN( Handle, ReturnThis ) \ { \ if ( IS_DEBUG_PAGE_HEAP_HANDLE( Handle )) \ { \ return ReturnThis; \ } \ } #define IF_DEBUG_PAGE_HEAP_THEN_CALL( Handle, CallThis ) \ { \ if ( IS_DEBUG_PAGE_HEAP_HANDLE( Handle )) \ { \ CallThis; \ return; \ } \ } #define IF_DEBUG_PAGE_HEAP_THEN_BREAK( Handle, Text, ReturnThis ) \ { \ if ( IS_DEBUG_PAGE_HEAP_HANDLE( Handle )) \ { \ RtlpDebugPageHeapBreak( Text ); \ return ReturnThis; \ } \ } PVOID RtlpDebugPageHeapCreate( IN ULONG Flags, IN PVOID HeapBase, IN SIZE_T ReserveSize, IN SIZE_T CommitSize, IN PVOID Lock, IN PRTL_HEAP_PARAMETERS Parameters ); PVOID RtlpDebugPageHeapAllocate( IN PVOID HeapHandle, IN ULONG Flags, IN SIZE_T Size ); BOOLEAN RtlpDebugPageHeapFree( IN PVOID HeapHandle, IN ULONG Flags, IN PVOID Address ); PVOID RtlpDebugPageHeapReAllocate( IN PVOID HeapHandle, IN ULONG Flags, IN PVOID Address, IN SIZE_T Size ); PVOID RtlpDebugPageHeapDestroy( IN PVOID HeapHandle ); SIZE_T RtlpDebugPageHeapSize( IN PVOID HeapHandle, IN ULONG Flags, IN PVOID Address ); ULONG RtlpDebugPageHeapGetProcessHeaps( ULONG NumberOfHeaps, PVOID *ProcessHeaps ); ULONG RtlpDebugPageHeapCompact( IN PVOID HeapHandle, IN ULONG Flags ); BOOLEAN RtlpDebugPageHeapValidate( IN PVOID HeapHandle, IN ULONG Flags, IN PVOID Address ); NTSTATUS RtlpDebugPageHeapWalk( IN PVOID HeapHandle, IN OUT PRTL_HEAP_WALK_ENTRY Entry ); BOOLEAN RtlpDebugPageHeapLock( IN PVOID HeapHandle ); BOOLEAN RtlpDebugPageHeapUnlock( IN PVOID HeapHandle ); BOOLEAN RtlpDebugPageHeapSetUserValue( IN PVOID HeapHandle, IN ULONG Flags, IN PVOID Address, IN PVOID UserValue ); BOOLEAN RtlpDebugPageHeapGetUserInfo( IN PVOID HeapHandle, IN ULONG Flags, IN PVOID Address, OUT PVOID* UserValue, OUT PULONG UserFlags ); BOOLEAN RtlpDebugPageHeapSetUserFlags( IN PVOID HeapHandle, IN ULONG Flags, IN PVOID Address, IN ULONG UserFlagsReset, IN ULONG UserFlagsSet ); BOOLEAN RtlpDebugPageHeapSerialize( IN PVOID HeapHandle ); NTSTATUS RtlpDebugPageHeapExtend( IN PVOID HeapHandle, IN ULONG Flags, IN PVOID Base, IN SIZE_T Size ); NTSTATUS RtlpDebugPageHeapZero( IN PVOID HeapHandle, IN ULONG Flags ); NTSTATUS RtlpDebugPageHeapReset( IN PVOID HeapHandle, IN ULONG Flags ); NTSTATUS RtlpDebugPageHeapUsage( IN PVOID HeapHandle, IN ULONG Flags, IN OUT PRTL_HEAP_USAGE Usage ); BOOLEAN RtlpDebugPageHeapIsLocked( IN PVOID HeapHandle ); VOID RtlpDebugPageHeapBreak( PCH Text ); // // Page Heap Global Flags // // These flags are kept in a global variable that can be set from // debugger. During heap creation these flags are stored in a per heap // structure and control the behavior of that particular heap. // // PAGE_HEAP_ENABLE_PAGE_HEAP // // This flag is set by default. It means that page heap allocations // should be used always. The flag is useful if we want to use page // heap only for certain heaps and stick with normal heaps for the // others. It can be changed on the fly (after heap creation) to direct // allocations in one heap or another. // // PAGE_HEAP_CATCH_BACKWARD_OVERRUNS // // Places the N/A page at the beginning of the block. // // PAGE_HEAP_UNALIGNED_ALLOCATIONS // // For historical reasons (related to RPC) by default page heap // aligns allocations at 8 byte boundaries. With this flag set // this does not happen and we can catch instantly off by one // errors for unaligned allocations. // // PAGE_HEAP_SMART_MEMORY_USAGE // // This flag reduces the committed memory consumption in half // by using decommitted ranges (reserved virtual space) instead // of N/A committed pages. This flag is disabled by catch backward // overruns. // // PAGE_HEAP_USE_SIZE_RANGE // // Use page heap for allocations in the size range specified by: // RtlpDphSizeRangeStart..RtlpDphSizeRangeEnd. // // PAGE_HEAP_USE_DLL_RANGE // // Use page heap for allocations in the address range specified by: // RtlpDphDllRangeStart..RtlpDphDllRangeEnd. If the stack trace // of the allocation contains one address in this range then // allocation will be made from page heap. // // PAGE_HEAP_USE_RANDOM_DECISION // // Use page heap if we randomly decide so. // // PAGE_HEAP_USE_DLL_NAMES // // Use page heap if allocation call was generated from on of the // target dlls. // // PAGE_HEAP_USE_FAULT_INJECTION // // Fault inject heap allocation calls based on a simple // probabilistic model (see FaultProbability and FaultTimeOut). // // PAGE_HEAP_PROTECT_META_DATA // // Keep page heap metadata read only if we are not executing inside // the page heap code. // // PAGE_CHECK_NO_SERIALIZE_ACCESS // // Additional checks for multi-threaded access for no_serialize // heaps. This flag can trigger false positives in MPheap. It needs // to be used only on processes that do not use MPheap-like heaps. // #define PAGE_HEAP_ENABLE_PAGE_HEAP 0x0001 #define PAGE_HEAP_COLLECT_STACK_TRACES 0x0002 #define PAGE_HEAP_RESERVED_04 0x0004 #define PAGE_HEAP_RESERVED_08 0x0008 #define PAGE_HEAP_CATCH_BACKWARD_OVERRUNS 0x0010 #define PAGE_HEAP_UNALIGNED_ALLOCATIONS 0x0020 #define PAGE_HEAP_SMART_MEMORY_USAGE 0x0040 #define PAGE_HEAP_USE_SIZE_RANGE 0x0080 #define PAGE_HEAP_USE_DLL_RANGE 0x0100 #define PAGE_HEAP_USE_RANDOM_DECISION 0x0200 #define PAGE_HEAP_USE_DLL_NAMES 0x0400 #define PAGE_HEAP_USE_FAULT_INJECTION 0x0800 #define PAGE_HEAP_PROTECT_META_DATA 0x1000 #define PAGE_HEAP_CHECK_NO_SERIALIZE_ACCESS 0x2000 #define PAGE_HEAP_NO_LOCK_CHECKS 0x4000 // // Is page heap enabled for this process? // extern BOOLEAN RtlpDebugPageHeap; // // `RtlpDphGlobalFlags' stores the global page heap flags. // The value of this variable is copied into the per heap // flags (ExtraFlags field) during heap creation. This variable // might get its value from the `PageHeap' ImageFileOptions // registry key. // extern ULONG RtlpDphGlobalFlags; // // Page heap global flags. They might be read from the // `ImageFileOptions' registry key. // extern ULONG RtlpDphSizeRangeStart; extern ULONG RtlpDphSizeRangeEnd; extern ULONG RtlpDphDllRangeStart; extern ULONG RtlpDphDllRangeEnd; extern ULONG RtlpDphRandomProbability; extern WCHAR RtlpDphTargetDlls[]; // // If not zero controls the probability with which // allocations will be failed on purpose by page heap // manager. Timeout represents the initial period during // process initialization when faults are not allowed. // extern ULONG RtlpDphFaultProbability; extern ULONG RtlpDphFaultTimeOut; // // Stuff needed for per dll logic implemented in the loader // const WCHAR * RtlpDphIsDllTargeted ( const WCHAR * Name ); VOID RtlpDphTargetDllsLoadCallBack ( PUNICODE_STRING Name, PVOID Address, ULONG Size ); // // Functions needed to turn on/off fault injection. // They are needed in the loader so that allocations // succeed while in LdrLoadDll code path. // VOID RtlpDphDisableFaultInjection ( ); VOID RtlpDphEnableFaultInjection ( ); #endif // DEBUG_PAGE_HEAP #endif // _HEAP_PAGE_H_