/*++ Copyright (c) 1991 Microsoft Corporation Module Name: handle.c Abstract: This module contains a simple handle allocator for use by the Local and Global memory allocators. Author: Steve Wood (stevewo) 25-Jul-1991 Revision History: --*/ #include "ntrtlp.h" void RtlInitializeHandleTable( IN ULONG MaximumNumberOfHandles, IN ULONG SizeOfHandleTableEntry, OUT PRTL_HANDLE_TABLE HandleTable ) { RtlZeroMemory( HandleTable, sizeof( *HandleTable ) ); HandleTable->MaximumNumberOfHandles = MaximumNumberOfHandles; HandleTable->SizeOfHandleTableEntry = SizeOfHandleTableEntry; return; } NTSTATUS RtlDestroyHandleTable( IN OUT PRTL_HANDLE_TABLE HandleTable ) { NTSTATUS Status; PVOID BaseAddress; SIZE_T ReserveSize; BaseAddress = HandleTable->CommittedHandles; ReserveSize = (PUCHAR)(HandleTable->MaxReservedHandles) - (PUCHAR)(HandleTable->CommittedHandles); Status = STATUS_SUCCESS; if (ARGUMENT_PRESENT (BaseAddress)) { Status = NtFreeVirtualMemory( NtCurrentProcess(), &BaseAddress, &ReserveSize, MEM_RELEASE ); } return Status; } PRTL_HANDLE_TABLE_ENTRY RtlAllocateHandle( IN PRTL_HANDLE_TABLE HandleTable, OUT PULONG HandleIndex OPTIONAL ) { NTSTATUS Status; PVOID BaseAddress; ULONG n; SIZE_T ReserveSize; SIZE_T CommitSize; PRTL_HANDLE_TABLE_ENTRY p, *pp; if (HandleTable->FreeHandles == NULL) { try { if (HandleTable->UnCommittedHandles == NULL) { ReserveSize = HandleTable->MaximumNumberOfHandles * HandleTable->SizeOfHandleTableEntry; BaseAddress = NULL; Status = NtAllocateVirtualMemory( NtCurrentProcess(), &BaseAddress, 0, &ReserveSize, MEM_RESERVE, PAGE_READWRITE ); if (NT_SUCCESS( Status )) { HandleTable->CommittedHandles = (PRTL_HANDLE_TABLE_ENTRY)BaseAddress; HandleTable->UnCommittedHandles = (PRTL_HANDLE_TABLE_ENTRY)BaseAddress; HandleTable->MaxReservedHandles = (PRTL_HANDLE_TABLE_ENTRY) ((PCHAR)BaseAddress + ReserveSize); } } else { Status = STATUS_SUCCESS; } if (NT_SUCCESS( Status )) { p = HandleTable->UnCommittedHandles; if (p >= HandleTable->MaxReservedHandles) { Status = STATUS_NO_MEMORY; } else { CommitSize = PAGE_SIZE; Status = NtAllocateVirtualMemory( NtCurrentProcess(), (PVOID *)&p, 0, &CommitSize, MEM_COMMIT, PAGE_READWRITE ); if (NT_SUCCESS( Status )) { HandleTable->UnCommittedHandles = (PRTL_HANDLE_TABLE_ENTRY) ((PCH)p + CommitSize); } } } } except( EXCEPTION_EXECUTE_HANDLER ) { Status = GetExceptionCode(); } if (!NT_SUCCESS( Status )) { return NULL; } pp = &HandleTable->FreeHandles; while (p < HandleTable->UnCommittedHandles) { *pp = p; pp = &p->NextFree; p = (PRTL_HANDLE_TABLE_ENTRY)((PUCHAR)p + HandleTable->SizeOfHandleTableEntry); } } // // Remove handle table entry from head of free list. // p = HandleTable->FreeHandles; HandleTable->FreeHandles = p->NextFree; // // Clear free list link field, which also leaves the handle allocated bit // clear. This allows the caller to mark it is allocated after they are // done filling in their portion. // p->NextFree = NULL; // // If requested, return the index of this handle table entry // if (ARGUMENT_PRESENT( HandleIndex )) { *HandleIndex = (ULONG) (((PCHAR)p - (PCHAR)HandleTable->CommittedHandles) / HandleTable->SizeOfHandleTableEntry); } // // Return a pointer to the handle table entry. // return p; } BOOLEAN RtlFreeHandle( IN PRTL_HANDLE_TABLE HandleTable, IN PRTL_HANDLE_TABLE_ENTRY Handle ) { #if DBG if (!RtlIsValidHandle( HandleTable, Handle )) { DbgPrint( "RTL: RtlFreeHandle( %lx ) - invalid handle\n", Handle ); if (NtCurrentPeb()->BeingDebugged) { DbgBreakPoint(); } return FALSE; } #endif RtlZeroMemory( Handle, HandleTable->SizeOfHandleTableEntry ); Handle->NextFree = HandleTable->FreeHandles; HandleTable->FreeHandles = Handle; return TRUE; } BOOLEAN RtlIsValidHandle( IN PRTL_HANDLE_TABLE HandleTable, IN PRTL_HANDLE_TABLE_ENTRY Handle ) { if (Handle == NULL || Handle < HandleTable->CommittedHandles || Handle >= HandleTable->UnCommittedHandles || (ULONG_PTR)Handle & (HandleTable->SizeOfHandleTableEntry - 1) || !(Handle->Flags & RTL_HANDLE_ALLOCATED) ) { return FALSE; } else { return TRUE; } } BOOLEAN RtlIsValidIndexHandle( IN PRTL_HANDLE_TABLE HandleTable, IN ULONG HandleIndex, OUT PRTL_HANDLE_TABLE_ENTRY *Handle ) { PRTL_HANDLE_TABLE_ENTRY p; p = (PRTL_HANDLE_TABLE_ENTRY) ((PCHAR)HandleTable->CommittedHandles + (HandleIndex * HandleTable->SizeOfHandleTableEntry)); if (RtlIsValidHandle( HandleTable, p )) { *Handle = p; return TRUE; } else { return FALSE; } }