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442 lines
16 KiB
C++
442 lines
16 KiB
C++
////////////////////////////////////////////////////////////////////////////////
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// $Id: callstack.cpp,v 1.20 2006/11/18 03:12:34 dmouldin Exp $
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//
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// Visual Leak Detector - CallStack Class Implementations
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// Copyright (c) 2005-2006 Dan Moulding
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//
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// This library is free software; you can redistribute it and/or
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// modify it under the terms of the GNU Lesser General Public
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// License as published by the Free Software Foundation; either
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// version 2.1 of the License, or (at your option) any later version.
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//
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// This library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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// Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public
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// License along with this library; if not, write to the Free Software
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// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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//
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// See COPYING.txt for the full terms of the GNU Lesser General Public License.
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//
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////////////////////////////////////////////////////////////////////////////////
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#include <cassert>
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#include <windows.h>
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#define __out_xcount(x) // Workaround for the specstrings.h bug in the Platform SDK.
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#define DBGHELP_TRANSLATE_TCHAR
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#include <dbghelp.h> // Provides symbol handling services.
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#define VLDBUILD
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#include "callstack.h" // This class' header.
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#include "utility.h" // Provides various utility functions.
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#include "vldheap.h" // Provides internal new and delete operators.
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#include "vldint.h" // Provides access to VLD internals.
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#define MAXSYMBOLNAMELENGTH 256
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// Imported global variables.
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extern HANDLE currentprocess;
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extern HANDLE currentthread;
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extern CRITICAL_SECTION stackwalklock;
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extern CRITICAL_SECTION symbollock;
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// Constructor - Initializes the CallStack with an initial size of zero and one
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// Chunk of capacity.
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//
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CallStack::CallStack ()
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{
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m_capacity = CALLSTACKCHUNKSIZE;
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m_size = 0;
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m_status = 0x0;
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m_store.next = NULL;
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m_topchunk = &m_store;
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m_topindex = 0;
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}
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// Copy Constructor - For efficiency, we want to avoid ever making copies of
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// CallStacks (only pointer passing or reference passing should be performed).
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// The sole purpose of this copy constructor is to ensure that no copying is
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// being done inadvertently.
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//
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CallStack::CallStack (const CallStack &)
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{
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// Don't make copies of CallStacks!
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assert(FALSE);
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}
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// Destructor - Frees all memory allocated to the CallStack.
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//
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CallStack::~CallStack ()
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{
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CallStack::chunk_t *chunk = m_store.next;
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CallStack::chunk_t *temp;
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while (chunk) {
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temp = chunk;
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chunk = temp->next;
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delete temp;
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}
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}
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// operator = - Assignment operator. For efficiency, we want to avoid ever
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// making copies of CallStacks (only pointer passing or reference passing
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// should be performed). The sole purpose of this assignment operator is to
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// ensure that no copying is being done inadvertently.
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//
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CallStack& CallStack::operator = (const CallStack &)
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{
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// Don't make copies of CallStacks!
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assert(FALSE);
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return *this;
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}
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// operator == - Equality operator. Compares the CallStack to another CallStack
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// for equality. Two CallStacks are equal if they are the same size and if
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// every frame in each is identical to the corresponding frame in the other.
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//
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// other (IN) - Reference to the CallStack to compare the current CallStack
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// against for equality.
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//
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// Return Value:
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//
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// Returns true if the two CallStacks are equal. Otherwise returns false.
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//
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BOOL CallStack::operator == (const CallStack &other) const
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{
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const CallStack::chunk_t *chunk = &m_store;
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UINT32 index;
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const CallStack::chunk_t *otherchunk = &other.m_store;
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const CallStack::chunk_t *prevchunk = NULL;
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if (m_size != other.m_size) {
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// They can't be equal if the sizes are different.
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return FALSE;
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}
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// Walk the chunk list and within each chunk walk the frames array until we
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// either find a mismatch, or until we reach the end of the call stacks.
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while (prevchunk != m_topchunk) {
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for (index = 0; index < ((chunk == m_topchunk) ? m_topindex : CALLSTACKCHUNKSIZE); index++) {
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if (chunk->frames[index] != otherchunk->frames[index]) {
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// Found a mismatch. They are not equal.
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return FALSE;
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}
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}
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prevchunk = chunk;
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chunk = chunk->next;
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otherchunk = otherchunk->next;
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}
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// Reached the end of the call stacks. They are equal.
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return TRUE;
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}
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// operator [] - Random access operator. Retrieves the frame at the specified
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// index.
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//
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// Note: We give up a bit of efficiency here, in favor of efficiency of push
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// operations. This is because walking of a CallStack is done infrequently
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// (only if a leak is found), whereas pushing is done very frequently (for
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// each frame in the program's call stack when the program allocates some
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// memory).
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//
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// - index (IN): Specifies the index of the frame to retrieve.
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//
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// Return Value:
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//
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// Returns the program counter for the frame at the specified index. If the
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// specified index is out of range for the CallStack, the return value is
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// undefined.
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//
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SIZE_T CallStack::operator [] (UINT32 index) const
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{
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UINT32 count;
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const CallStack::chunk_t *chunk = &m_store;
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UINT32 chunknumber = index / CALLSTACKCHUNKSIZE;
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for (count = 0; count < chunknumber; count++) {
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chunk = chunk->next;
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}
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return chunk->frames[index % CALLSTACKCHUNKSIZE];
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}
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// clear - Resets the CallStack, returning it to a state where no frames have
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// been pushed onto it, readying it for reuse.
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//
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// Note: Calling this function does not release any memory allocated to the
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// CallStack. We give up a bit of memory-usage efficiency here in favor of
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// performance of push operations.
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//
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// Return Value:
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//
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// None.
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//
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VOID CallStack::clear ()
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{
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m_size = 0;
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m_topchunk = &m_store;
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m_topindex = 0;
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}
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// dump - Dumps a nicely formatted rendition of the CallStack, including
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// symbolic information (function names and line numbers) if available.
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//
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// Note: The symbol handler must be initialized prior to calling this
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// function.
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//
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// - showinternalframes (IN): If true, then all frames in the CallStack will be
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// dumped. Otherwise, frames internal to the heap will not be dumped.
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//
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// Return Value:
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//
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// None.
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//
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VOID CallStack::dump (BOOL showinternalframes) const
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{
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DWORD displacement;
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DWORD64 displacement64;
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BOOL foundline;
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UINT32 frame;
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SYMBOL_INFO *functioninfo;
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LPWSTR functionname;
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SIZE_T programcounter;
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IMAGEHLP_LINE64 sourceinfo = { 0 };
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BYTE symbolbuffer [sizeof(SYMBOL_INFO) + (MAXSYMBOLNAMELENGTH * sizeof(WCHAR)) - 1] = { 0 };
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if (m_status & CALLSTACK_STATUS_INCOMPLETE) {
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// This call stack appears to be incomplete. Using StackWalk64 may be
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// more reliable.
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report(L" HINT: The following call stack may be incomplete. Setting \"StackWalkMethod\"\n"
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L" in the vld.ini file to \"safe\" instead of \"fast\" may result in a more\n"
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L" complete stack trace.\n");
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}
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// Initialize structures passed to the symbol handler.
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functioninfo = (SYMBOL_INFO*)&symbolbuffer;
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functioninfo->SizeOfStruct = sizeof(SYMBOL_INFO);
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functioninfo->MaxNameLen = MAXSYMBOLNAMELENGTH;
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sourceinfo.SizeOfStruct = sizeof(IMAGEHLP_LINE64);
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// Iterate through each frame in the call stack.
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for (frame = 0; frame < m_size; frame++) {
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// Try to get the source file and line number associated with
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// this program counter address.
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programcounter = (*this)[frame];
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EnterCriticalSection(&symbollock);
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if ((foundline = SymGetLineFromAddrW64(currentprocess, programcounter, &displacement, &sourceinfo)) == TRUE) {
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if (!showinternalframes) {
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_wcslwr_s(sourceinfo.FileName, wcslen(sourceinfo.FileName) + 1);
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if (wcsstr(sourceinfo.FileName, L"afxmem.cpp") ||
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wcsstr(sourceinfo.FileName, L"dbgheap.c") ||
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wcsstr(sourceinfo.FileName, L"malloc.c") ||
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wcsstr(sourceinfo.FileName, L"new.cpp") ||
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wcsstr(sourceinfo.FileName, L"newaop.cpp")) {
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// Don't show frames in files internal to the heap.
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continue;
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}
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}
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}
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// Try to get the name of the function containing this program
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// counter address.
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if (SymFromAddrW(currentprocess, (*this)[frame], &displacement64, functioninfo)) {
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functionname = functioninfo->Name;
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}
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else {
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functionname = L"(Function name unavailable)";
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}
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LeaveCriticalSection(&symbollock);
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// Display the current stack frame's information.
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if (foundline) {
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report(L" %s (%d): %s\n", sourceinfo.FileName, sourceinfo.LineNumber, functionname);
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}
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else {
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report(L" " ADDRESSFORMAT L" (File and line number not available): ", (*this)[frame]);
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report(L"%s\n", functionname);
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}
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}
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}
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// push_back - Pushes a frame's program counter onto the CallStack. Pushes are
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// always appended to the back of the chunk list (aka the "top" chunk).
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//
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// Note: This function will allocate additional memory as necessary to make
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// room for new program counter addresses.
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//
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// - programcounter (IN): The program counter address of the frame to be pushed
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// onto the CallStack.
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//
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// Return Value:
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//
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// None.
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//
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VOID CallStack::push_back (const SIZE_T programcounter)
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{
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CallStack::chunk_t *chunk;
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if (m_size == m_capacity) {
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// At current capacity. Allocate additional storage.
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chunk = new CallStack::chunk_t;
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chunk->next = NULL;
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m_topchunk->next = chunk;
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m_topchunk = chunk;
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m_topindex = 0;
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m_capacity += CALLSTACKCHUNKSIZE;
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}
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else if (m_topindex == CALLSTACKCHUNKSIZE) {
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// There is more capacity, but not in this chunk. Go to the next chunk.
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// Note that this only happens if this CallStack has previously been
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// cleared (clearing resets the data, but doesn't give up any allocated
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// space).
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m_topchunk = m_topchunk->next;
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m_topindex = 0;
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}
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m_topchunk->frames[m_topindex++] = programcounter;
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m_size++;
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}
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// getstacktrace - Traces the stack as far back as possible, or until 'maxdepth'
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// frames have been traced. Populates the CallStack with one entry for each
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// stack frame traced.
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//
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// Note: This function uses a very efficient method to walk the stack from
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// frame to frame, so it is quite fast. However, unconventional stack frames
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// (such as those created when frame pointer omission optimization is used)
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// will not be successfully walked by this function and will cause the
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// stack trace to terminate prematurely.
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//
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// - maxdepth (IN): Maximum number of frames to trace back.
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//
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// - framepointer (IN): Frame (base) pointer at which to begin the stack trace.
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// If NULL, then the stack trace will begin at this function.
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//
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// Return Value:
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//
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// None.
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//
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VOID FastCallStack::getstacktrace (UINT32 maxdepth, SIZE_T *framepointer)
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{
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UINT32 count = 0;
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if (framepointer == NULL) {
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// Begin the stack trace with the current frame. Obtain the current
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// frame pointer.
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FRAMEPOINTER(framepointer);
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}
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while (count < maxdepth) {
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if ((SIZE_T*)*framepointer < framepointer) {
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if ((SIZE_T*)*framepointer == NULL) {
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// Looks like we reached the end of the stack.
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break;
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}
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else {
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// Invalid frame pointer. Frame pointer addresses should always
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// increase as we move up the stack.
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m_status |= CALLSTACK_STATUS_INCOMPLETE;
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break;
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}
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}
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if ((SIZE_T)*framepointer & (sizeof(SIZE_T*) - 1)) {
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// Invalid frame pointer. Frame pointer addresses should always
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// be aligned to the size of a pointer. This probably means that
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// we've encountered a frame that was created by a module built with
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// frame pointer omission (FPO) optimization turned on.
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m_status |= CALLSTACK_STATUS_INCOMPLETE;
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break;
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}
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if (IsBadReadPtr((SIZE_T*)*framepointer, sizeof(SIZE_T*))) {
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// Bogus frame pointer. Again, this probably means that we've
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// encountered a frame built with FPO optimization.
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m_status |= CALLSTACK_STATUS_INCOMPLETE;
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break;
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}
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count++;
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push_back(*(framepointer + 1));
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framepointer = (SIZE_T*)*framepointer;
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}
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}
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// getstacktrace - Traces the stack as far back as possible, or until 'maxdepth'
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// frames have been traced. Populates the CallStack with one entry for each
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// stack frame traced.
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//
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// Note: This function uses a documented Windows API to walk the stack. This
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// API is supposed to be the most reliable way to walk the stack. It claims
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// to be able to walk stack frames that do not follow the conventional stack
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// frame layout. However, this robustness comes at a cost: it is *extremely*
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// slow compared to walking frames by following frame (base) pointers.
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//
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// - maxdepth (IN): Maximum number of frames to trace back.
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//
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// - framepointer (IN): Frame (base) pointer at which to begin the stack trace.
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// If NULL, then the stack trace will begin at this function.
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//
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// Return Value:
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//
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// None.
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//
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VOID SafeCallStack::getstacktrace (UINT32 maxdepth, SIZE_T *framepointer)
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{
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DWORD architecture;
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CONTEXT context;
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UINT32 count = 0;
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STACKFRAME64 frame;
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SIZE_T programcounter;
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SIZE_T stackpointer;
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if (framepointer == NULL) {
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// Begin the stack trace with the current frame. Obtain the current
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// frame pointer.
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FRAMEPOINTER(framepointer);
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}
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// Get the required values for initialization of the STACKFRAME64 structure
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// to be passed to StackWalk64(). Required fields are AddrPC and AddrFrame.
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#if defined(_M_IX86) || defined(_M_X64)
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architecture = X86X64ARCHITECTURE;
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programcounter = *(framepointer + 1);
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stackpointer = *framepointer; // An approximation.
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context.BPREG = *framepointer;
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context.IPREG = programcounter;
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context.SPREG = stackpointer;
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#else
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// If you want to retarget Visual Leak Detector to another processor
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// architecture then you'll need to provide architecture-specific code to
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// obtain the program counter and stack pointer from the given frame pointer.
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#error "Visual Leak Detector is not supported on this architecture."
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#endif // _M_IX86 || _M_X64
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// Initialize the STACKFRAME64 structure.
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memset(&frame, 0x0, sizeof(frame));
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frame.AddrFrame.Offset = *framepointer;
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frame.AddrFrame.Mode = AddrModeFlat;
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frame.AddrPC.Offset = programcounter;
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frame.AddrPC.Mode = AddrModeFlat;
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frame.AddrStack.Offset = stackpointer;
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frame.AddrStack.Mode = AddrModeFlat;
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// Walk the stack.
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EnterCriticalSection(&stackwalklock);
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while (count < maxdepth) {
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count++;
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if (!StackWalk64(architecture, currentprocess, currentthread, &frame, &context, NULL,
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SymFunctionTableAccess64, SymGetModuleBase64, NULL)) {
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// Couldn't trace back through any more frames.
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break;
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}
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if (frame.AddrFrame.Offset == 0) {
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// End of stack.
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break;
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}
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// Push this frame's program counter onto the CallStack.
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push_back((SIZE_T)frame.AddrPC.Offset);
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}
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LeaveCriticalSection(&stackwalklock);
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}
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