/*** *resetstk.c - Recover from Stack overflow. * * Copyright (c) 1989-2001, Microsoft Corporation. All rights reserved. * *Purpose: * Defines the _resetstkoflw() function. * *Revision History: * 12-10-99 GB Module Created * 04-17-01 PML Enable for Win9x, return success code (vs7#239962) * 06-04-01 PML Do nothing if guard page not missing, don't shrink * committed space (vs7#264306) * *******************************************************************************/ #include #include #include #define MIN_STACK_REQ_WIN9X 0x11000 #define MIN_STACK_REQ_WINNT 0x2000 /*** * void _resetstkoflw(void) - Recovers from Stack Overflow * * Purpose: * Sets the guard page to its position before the stack overflow. * * Exit: * Returns nonzero on success, zero on failure * *******************************************************************************/ int _resetstkoflw(void) { LPBYTE pStack, pGuard, pStackBase, pMaxGuard, pMinGuard; MEMORY_BASIC_INFORMATION mbi; SYSTEM_INFO si; DWORD PageSize; DWORD flNewProtect; DWORD flOldProtect; // Use _alloca() to get the current stack pointer pStack = _alloca(1); // Find the base of the stack. if (VirtualQuery(pStack, &mbi, sizeof mbi) == 0) return 0; pStackBase = mbi.AllocationBase; // Find the page just below where the stack pointer currently points. // This is the highest potential guard page. GetSystemInfo(&si); PageSize = si.dwPageSize; pMaxGuard = (LPBYTE) (((DWORD_PTR)pStack & ~(DWORD_PTR)(PageSize - 1)) - PageSize); // If the potential guard page is too close to the start of the stack // region, abandon the reset effort for lack of space. Win9x has a // larger reserved stack requirement. pMinGuard = pStackBase + ((_osplatform == VER_PLATFORM_WIN32_WINDOWS) ? MIN_STACK_REQ_WIN9X : MIN_STACK_REQ_WINNT); if (pMaxGuard < pMinGuard) return 0; // On a non-Win9x system, do nothing if a guard page is already present, // else set up the guard page to the bottom of the committed range. // For Win9x, just set guard page below the current stack page. if (_osplatform != VER_PLATFORM_WIN32_WINDOWS) { // Find first block of committed memory in the stack region pGuard = pStackBase; do { if (VirtualQuery(pGuard, &mbi, sizeof mbi) == 0) return 0; pGuard = pGuard + mbi.RegionSize; } while ((mbi.State & MEM_COMMIT) == 0); pGuard = mbi.BaseAddress; // If first committed block is already marked as a guard page, // there is nothing that needs to be done, so return success. if (mbi.Protect & PAGE_GUARD) return 1; // Fail if the first committed block is above the highest potential // guard page. Should never happen. if (pMaxGuard < pGuard) return 0; VirtualAlloc(pGuard, PageSize, MEM_COMMIT, PAGE_READWRITE); } else { pGuard = pMaxGuard; } // Enable the new guard page. flNewProtect = _osplatform == VER_PLATFORM_WIN32_WINDOWS ? PAGE_NOACCESS : PAGE_READWRITE | PAGE_GUARD; return VirtualProtect(pGuard, PageSize, flNewProtect, &flOldProtect); }