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|
/**
* @file llwindebug.cpp
* @brief Windows debugging functions
*
* $LicenseInfo:firstyear=2004&license=viewergpl$
*
* Copyright (c) 2004-2009, Linden Research, Inc.
*
* Second Life Viewer Source Code
* The source code in this file ("Source Code") is provided by Linden Lab
* to you under the terms of the GNU General Public License, version 2.0
* ("GPL"), unless you have obtained a separate licensing agreement
* ("Other License"), formally executed by you and Linden Lab. Terms of
* the GPL can be found in doc/GPL-license.txt in this distribution, or
* online at http://secondlifegrid.net/programs/open_source/licensing/gplv2
*
* There are special exceptions to the terms and conditions of the GPL as
* it is applied to this Source Code. View the full text of the exception
* in the file doc/FLOSS-exception.txt in this software distribution, or
* online at
* http://secondlifegrid.net/programs/open_source/licensing/flossexception
*
* By copying, modifying or distributing this software, you acknowledge
* that you have read and understood your obligations described above,
* and agree to abide by those obligations.
*
* ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO
* WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY,
* COMPLETENESS OR PERFORMANCE.
* $/LicenseInfo$
*/
#include "llviewerprecompiledheaders.h"
#include <tchar.h>
#include <tlhelp32.h>
#include "llwindebug.h"
#include "llviewercontrol.h"
#include "lldir.h"
#include "llsd.h"
#include "llsdserialize.h"
#pragma warning(disable: 4200) //nonstandard extension used : zero-sized array in struct/union
#pragma warning(disable: 4100) //unreferenced formal parameter
/*
LLSD Block for Windows Dump Information
<llsd>
<map>
<key>Platform</key>
<string></string>
<key>Process</key>
<string></string>
<key>Module</key>
<string></string>
<key>DateModified</key>
<string></string>
<key>ExceptionCode</key>
<string></string>
<key>ExceptionRead/WriteAddress</key>
<string></string>
<key>Instruction</key>
<string></string>
<key>Registers</key>
<map>
<!-- Continued for all registers -->
<key>EIP</key>
<string>...</string>
<!-- ... -->
</map>
<key>Call Stack</key>
<array>
<!-- One map per stack frame -->
<map>
<key>ModuleName</key>
<string></string>
<key>ModuleBaseAddress</key>
<string></string>
<key>ModuleOffsetAddress</key>
<string></string>
<key>Parameters</key>
<array>
<string></string>
</array>
</map>
<!-- ... -->
</array>
</map>
</llsd>
*/
extern void (*gCrashCallback)(void);
// based on dbghelp.h
typedef BOOL (WINAPI *MINIDUMPWRITEDUMP)(HANDLE hProcess, DWORD dwPid, HANDLE hFile, MINIDUMP_TYPE DumpType,
CONST PMINIDUMP_EXCEPTION_INFORMATION ExceptionParam,
CONST PMINIDUMP_USER_STREAM_INFORMATION UserStreamParam,
CONST PMINIDUMP_CALLBACK_INFORMATION CallbackParam
);
MINIDUMPWRITEDUMP f_mdwp = NULL;
#undef UNICODE
static LPTOP_LEVEL_EXCEPTION_FILTER gFilterFunc = NULL;
HMODULE hDbgHelp;
// Tool Help functions.
typedef HANDLE (WINAPI * CREATE_TOOL_HELP32_SNAPSHOT)(DWORD dwFlags, DWORD th32ProcessID);
typedef BOOL (WINAPI * MODULE32_FIRST)(HANDLE hSnapshot, LPMODULEENTRY32 lpme);
typedef BOOL (WINAPI * MODULE32_NEST)(HANDLE hSnapshot, LPMODULEENTRY32 lpme);
CREATE_TOOL_HELP32_SNAPSHOT CreateToolhelp32Snapshot_;
MODULE32_FIRST Module32First_;
MODULE32_NEST Module32Next_;
#define DUMP_SIZE_MAX 8000 //max size of our dump
#define CALL_TRACE_MAX ((DUMP_SIZE_MAX - 2000) / (MAX_PATH + 40)) //max number of traced calls
#define NL L"\r\n" //new line
typedef struct STACK
{
STACK * Ebp;
PBYTE Ret_Addr;
DWORD Param[0];
} STACK, * PSTACK;
BOOL WINAPI Get_Module_By_Ret_Addr(PBYTE Ret_Addr, LPWSTR Module_Name, PBYTE & Module_Addr);
void WINAPI Get_Call_Stack(const EXCEPTION_RECORD* exception_record,
const CONTEXT* context_record,
LLSD& info);
void printError( CHAR* msg )
{
DWORD eNum;
TCHAR sysMsg[256];
TCHAR* p;
eNum = GetLastError( );
FormatMessage( FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS,
NULL, eNum,
MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), // Default language
sysMsg, 256, NULL );
// Trim the end of the line and terminate it with a null
p = sysMsg;
while( ( *p > 31 ) || ( *p == 9 ) )
++p;
do { *p-- = 0; } while( ( p >= sysMsg ) &&
( ( *p == '.' ) || ( *p < 33 ) ) );
// Display the message
printf( "\n WARNING: %s failed with error %d (%s)", msg, eNum, sysMsg );
}
BOOL GetProcessThreadIDs(DWORD process_id, std::vector<DWORD>& thread_ids)
{
HANDLE hThreadSnap = INVALID_HANDLE_VALUE;
THREADENTRY32 te32;
// Take a snapshot of all running threads
hThreadSnap = CreateToolhelp32Snapshot( TH32CS_SNAPTHREAD, 0 );
if( hThreadSnap == INVALID_HANDLE_VALUE )
return( FALSE );
// Fill in the size of the structure before using it.
te32.dwSize = sizeof(THREADENTRY32 );
// Retrieve information about the first thread,
// and exit if unsuccessful
if( !Thread32First( hThreadSnap, &te32 ) )
{
printError( "Thread32First" ); // Show cause of failure
CloseHandle( hThreadSnap ); // Must clean up the snapshot object!
return( FALSE );
}
// Now walk the thread list of the system,
// and display information about each thread
// associated with the specified process
do
{
if( te32.th32OwnerProcessID == process_id )
{
thread_ids.push_back(te32.th32ThreadID);
}
} while( Thread32Next(hThreadSnap, &te32 ) );
// Don't forget to clean up the snapshot object.
CloseHandle( hThreadSnap );
return( TRUE );
}
BOOL GetThreadCallStack(DWORD thread_id, LLSD& info)
{
if(GetCurrentThreadId() == thread_id)
{
// Early exit for the current thread.
// Suspending the current thread would be a bad idea.
// Plus you can't retrieve a valid current thread context.
return false;
}
HANDLE thread_handle = INVALID_HANDLE_VALUE;
thread_handle = OpenThread(THREAD_ALL_ACCESS, FALSE, thread_id);
if(INVALID_HANDLE_VALUE == thread_handle)
{
return FALSE;
}
BOOL result = false;
if(-1 != SuspendThread(thread_handle))
{
CONTEXT context_struct;
context_struct.ContextFlags = CONTEXT_FULL;
if(GetThreadContext(thread_handle, &context_struct))
{
Get_Call_Stack(NULL, &context_struct, info);
result = true;
}
ResumeThread(thread_handle);
}
else
{
// Couldn't suspend thread.
}
CloseHandle(thread_handle);
return result;
}
//Windows Call Stack Construction idea from
//http://www.codeproject.com/tools/minidump.asp
//****************************************************************************************
BOOL WINAPI Get_Module_By_Ret_Addr(PBYTE Ret_Addr, LPWSTR Module_Name, PBYTE & Module_Addr)
//****************************************************************************************
// Find module by Ret_Addr (address in the module).
// Return Module_Name (full path) and Module_Addr (start address).
// Return TRUE if found.
{
MODULEENTRY32 M = {sizeof(M)};
HANDLE hSnapshot;
bool found = false;
if (CreateToolhelp32Snapshot_)
{
hSnapshot = CreateToolhelp32Snapshot_(TH32CS_SNAPMODULE, 0);
if ((hSnapshot != INVALID_HANDLE_VALUE) &&
Module32First_(hSnapshot, &M))
{
do
{
if (DWORD(Ret_Addr - M.modBaseAddr) < M.modBaseSize)
{
lstrcpyn(Module_Name, M.szExePath, MAX_PATH);
Module_Addr = M.modBaseAddr;
found = true;
break;
}
} while (Module32Next_(hSnapshot, &M));
}
CloseHandle(hSnapshot);
}
return found;
} //Get_Module_By_Ret_Addr
bool has_valid_call_before(PDWORD cur_stack_loc)
{
PBYTE p_first_byte = (PBYTE)(*cur_stack_loc - 1);
PBYTE p_second_byte = (PBYTE)(*cur_stack_loc -2);
PBYTE p_fifth_byte = (PBYTE)(*cur_stack_loc - 5);
PBYTE p_sixth_byte = (PBYTE)(*cur_stack_loc - 6);
// make sure we can read it
if(IsBadReadPtr(p_sixth_byte, 6 * sizeof(BYTE)))
{
return false;
}
// check for 9a + 4 bytes
if(*p_fifth_byte == 0x9A)
{
return true;
}
// Check for E8 + 4 bytes and last byte is 00 or FF
if(*p_fifth_byte == 0xE8 && (*p_first_byte == 0x00 || *p_first_byte == 0xFF))
{
return true;
}
// the other is six bytes
if(*p_sixth_byte == 0xFF || *p_second_byte == 0xFF)
{
return true;
}
return false;
}
PBYTE get_valid_frame(PBYTE esp)
{
PDWORD cur_stack_loc = NULL;
const int max_search = 400;
WCHAR module_name[MAX_PATH];
PBYTE module_addr = 0;
// round to highest multiple of four
esp = (esp + (4 - ((int)esp % 4)) % 4);
// scroll through stack a few hundred places.
for (cur_stack_loc = (PDWORD) esp; cur_stack_loc < (PDWORD)esp + max_search; cur_stack_loc += 1)
{
// if you can read the pointer,
if (IsBadReadPtr(cur_stack_loc, sizeof(PDWORD)))
{
continue;
}
// check if it's in a module
if (!Get_Module_By_Ret_Addr((PBYTE)*cur_stack_loc, module_name, module_addr))
{
continue;
}
// check if the code before the instruction ptr is a call
if(!has_valid_call_before(cur_stack_loc))
{
continue;
}
// if these all pass, return that ebp, otherwise continue till we're dead
return (PBYTE)(cur_stack_loc - 1);
}
return NULL;
}
bool shouldUseStackWalker(PSTACK Ebp, int max_depth)
{
WCHAR Module_Name[MAX_PATH];
PBYTE Module_Addr = 0;
int depth = 0;
while (depth < max_depth)
{
if (IsBadReadPtr(Ebp, sizeof(PSTACK)) ||
IsBadReadPtr(Ebp->Ebp, sizeof(PSTACK)) ||
Ebp->Ebp < Ebp ||
Ebp->Ebp - Ebp > 0xFFFFFF ||
IsBadCodePtr(FARPROC(Ebp->Ebp->Ret_Addr)) ||
!Get_Module_By_Ret_Addr(Ebp->Ebp->Ret_Addr, Module_Name, Module_Addr))
{
return true;
}
depth++;
Ebp = Ebp->Ebp;
}
return false;
}
//******************************************************************
void WINAPI Get_Call_Stack(const EXCEPTION_RECORD* exception_record,
const CONTEXT* context_record,
LLSD& info)
//******************************************************************
// Fill Str with call stack info.
// pException can be either GetExceptionInformation() or NULL.
// If pException = NULL - get current call stack.
{
LPWSTR Module_Name = new WCHAR[MAX_PATH];
PBYTE Module_Addr = 0;
LLSD params;
PBYTE Esp = NULL;
LLSD tmp_info;
bool fake_frame = false;
bool ebp_used = false;
const int HEURISTIC_MAX_WALK = 20;
int heuristic_walk_i = 0;
int Ret_Addr_I = 0;
STACK Stack = {0, 0};
PSTACK Ebp;
if (exception_record && context_record) //fake frame for exception address
{
Stack.Ebp = (PSTACK)(context_record->Ebp);
Stack.Ret_Addr = (PBYTE)exception_record->ExceptionAddress;
Ebp = &Stack;
Esp = (PBYTE) context_record->Esp;
fake_frame = true;
}
else if(context_record)
{
Ebp = (PSTACK)(context_record->Ebp);
Esp = (PBYTE)(context_record->Esp);
}
else
{
Ebp = (PSTACK)&exception_record - 1; //frame addr of Get_Call_Stack()
Esp = (PBYTE)&exception_record;
// Skip frame of Get_Call_Stack().
if (!IsBadReadPtr(Ebp, sizeof(PSTACK)))
Ebp = Ebp->Ebp; //caller ebp
}
// Trace CALL_TRACE_MAX calls maximum - not to exceed DUMP_SIZE_MAX.
// Break trace on wrong stack frame.
for (Ret_Addr_I = 0;
heuristic_walk_i < HEURISTIC_MAX_WALK &&
Ret_Addr_I < CALL_TRACE_MAX && !IsBadReadPtr(Ebp, sizeof(PSTACK)) && !IsBadCodePtr(FARPROC(Ebp->Ret_Addr));
Ret_Addr_I++)
{
// If module with Ebp->Ret_Addr found.
if (Get_Module_By_Ret_Addr(Ebp->Ret_Addr, Module_Name, Module_Addr))
{
// Save module's address and full path.
tmp_info["CallStack"][Ret_Addr_I]["ModuleName"] = ll_convert_wide_to_string(Module_Name);
tmp_info["CallStack"][Ret_Addr_I]["ModuleAddress"] = (int)Module_Addr;
tmp_info["CallStack"][Ret_Addr_I]["CallOffset"] = (int)(Ebp->Ret_Addr - Module_Addr);
// Save 5 params of the call. We don't know the real number of params.
if (fake_frame && !Ret_Addr_I) //fake frame for exception address
params[0] = "Exception Offset";
else if (!IsBadReadPtr(Ebp, sizeof(PSTACK) + 5 * sizeof(DWORD)))
{
for(int j = 0; j < 5; ++j)
{
params[j] = (int)Ebp->Param[j];
}
}
tmp_info["CallStack"][Ret_Addr_I]["Parameters"] = params;
}
tmp_info["CallStack"][Ret_Addr_I]["ReturnAddress"] = (int)Ebp->Ret_Addr;
// get ready for next frame
// Set ESP to just after return address. Not the real esp, but just enough after the return address
if(!fake_frame) {
Esp = (PBYTE)Ebp + 8;
}
else
{
fake_frame = false;
}
// is next ebp valid?
// only run if we've never found a good ebp
// and make sure the one after is valid as well
if( !ebp_used &&
shouldUseStackWalker(Ebp, 2))
{
heuristic_walk_i++;
PBYTE new_ebp = get_valid_frame(Esp);
if (new_ebp != NULL)
{
Ebp = (PSTACK)new_ebp;
}
}
else
{
ebp_used = true;
Ebp = Ebp->Ebp;
}
}
/* TODO remove or turn this code back on to edit the stack after i see a few raw ones. -Palmer
// Now go back through and edit out heuristic stacks that could very well be bogus.
// Leave the top and the last 3 stack chosen by the heuristic, however.
if(heuristic_walk_i > 2)
{
info["CallStack"][0] = tmp_info["CallStack"][0];
std::string ttest = info["CallStack"][0]["ModuleName"];
for(int cur_frame = 1;
(cur_frame + heuristic_walk_i - 2 < Ret_Addr_I);
++cur_frame)
{
// edit out the middle heuristic found frames
info["CallStack"][cur_frame] = tmp_info["CallStack"][cur_frame + heuristic_walk_i - 2];
}
}
else
{
info = tmp_info;
}
*/
info = tmp_info;
info["HeuristicWalkI"] = heuristic_walk_i;
info["EbpUsed"] = ebp_used;
} //Get_Call_Stack
//***********************************
void WINAPI Get_Version_Str(LLSD& info)
//***********************************
// Fill Str with Windows version.
{
OSVERSIONINFOEX V = {sizeof(OSVERSIONINFOEX)}; //EX for NT 5.0 and later
if (!GetVersionEx((POSVERSIONINFO)&V))
{
ZeroMemory(&V, sizeof(V));
V.dwOSVersionInfoSize = sizeof(OSVERSIONINFO);
GetVersionEx((POSVERSIONINFO)&V);
}
if (V.dwPlatformId != VER_PLATFORM_WIN32_NT)
V.dwBuildNumber = LOWORD(V.dwBuildNumber); //for 9x HIWORD(dwBuildNumber) = 0x04xx
info["Platform"] = llformat("Windows: %d.%d.%d, SP %d.%d, Product Type %d", //SP - service pack, Product Type - VER_NT_WORKSTATION,...
V.dwMajorVersion, V.dwMinorVersion, V.dwBuildNumber, V.wServicePackMajor, V.wServicePackMinor, V.wProductType);
} //Get_Version_Str
//*************************************************************
LLSD WINAPI Get_Exception_Info(PEXCEPTION_POINTERS pException)
//*************************************************************
// Allocate Str[DUMP_SIZE_MAX] and return Str with dump, if !pException - just return call stack in Str.
{
LLSD info;
LPWSTR Str;
int Str_Len;
// int i;
LPWSTR Module_Name = new WCHAR[MAX_PATH];
PBYTE Module_Addr;
HANDLE hFile;
FILETIME Last_Write_Time;
FILETIME Local_File_Time;
SYSTEMTIME T;
Str = new WCHAR[DUMP_SIZE_MAX];
Str_Len = 0;
if (!Str)
return NULL;
Get_Version_Str(info);
GetModuleFileName(NULL, Str, MAX_PATH);
info["Process"] = ll_convert_wide_to_string(Str);
info["ThreadID"] = (S32)GetCurrentThreadId();
// If exception occurred.
if (pException)
{
EXCEPTION_RECORD & E = *pException->ExceptionRecord;
CONTEXT & C = *pException->ContextRecord;
// If module with E.ExceptionAddress found - save its path and date.
if (Get_Module_By_Ret_Addr((PBYTE)E.ExceptionAddress, Module_Name, Module_Addr))
{
info["Module"] = ll_convert_wide_to_string(Module_Name);
if ((hFile = CreateFile(Module_Name, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING,
FILE_ATTRIBUTE_NORMAL, NULL)) != INVALID_HANDLE_VALUE)
{
if (GetFileTime(hFile, NULL, NULL, &Last_Write_Time))
{
FileTimeToLocalFileTime(&Last_Write_Time, &Local_File_Time);
FileTimeToSystemTime(&Local_File_Time, &T);
info["DateModified"] = llformat("%02d/%02d/%d", T.wMonth, T.wDay, T.wYear);
}
CloseHandle(hFile);
}
}
else
{
info["ExceptionAddr"] = (int)E.ExceptionAddress;
}
info["ExceptionCode"] = (int)E.ExceptionCode;
/*
//TODO: Fix this
if (E.ExceptionCode == EXCEPTION_ACCESS_VIOLATION)
{
// Access violation type - Write/Read.
LLSD exception_info;
exception_info["Type"] = E.ExceptionInformation[0] ? "Write" : "Read";
exception_info["Address"] = llformat("%08x", E.ExceptionInformation[1]);
info["Exception Information"] = exception_info;
}
*/
// Save instruction that caused exception.
/*
std::string str;
for (i = 0; i < 16; i++)
str += llformat(" %02X", PBYTE(E.ExceptionAddress)[i]);
info["Instruction"] = str;
*/
LLSD registers;
registers["EAX"] = (int)C.Eax;
registers["EBX"] = (int)C.Ebx;
registers["ECX"] = (int)C.Ecx;
registers["EDX"] = (int)C.Edx;
registers["ESI"] = (int)C.Esi;
registers["EDI"] = (int)C.Edi;
registers["ESP"] = (int)C.Esp;
registers["EBP"] = (int)C.Ebp;
registers["EIP"] = (int)C.Eip;
registers["EFlags"] = (int)C.EFlags;
info["Registers"] = registers;
} //if (pException)
// Save call stack info.
Get_Call_Stack(pException->ExceptionRecord, pException->ContextRecord, info);
return info;
} //Get_Exception_Info
#define UNICODE
class LLMemoryReserve {
public:
LLMemoryReserve();
~LLMemoryReserve();
void reserve();
void release();
protected:
unsigned char *mReserve;
static const size_t MEMORY_RESERVATION_SIZE;
};
LLMemoryReserve::LLMemoryReserve() :
mReserve(NULL)
{
};
LLMemoryReserve::~LLMemoryReserve()
{
release();
}
// I dunno - this just seemed like a pretty good value.
const size_t LLMemoryReserve::MEMORY_RESERVATION_SIZE = 5 * 1024 * 1024;
void LLMemoryReserve::reserve()
{
if(NULL == mReserve)
mReserve = new unsigned char[MEMORY_RESERVATION_SIZE];
};
void LLMemoryReserve::release()
{
delete [] mReserve;
mReserve = NULL;
};
static LLMemoryReserve gEmergencyMemoryReserve;
#ifndef _M_IX86
#error "The following code only works for x86!"
#endif
LPTOP_LEVEL_EXCEPTION_FILTER WINAPI MyDummySetUnhandledExceptionFilter(
LPTOP_LEVEL_EXCEPTION_FILTER lpTopLevelExceptionFilter)
{
if(lpTopLevelExceptionFilter == gFilterFunc)
return gFilterFunc;
llinfos << "Someone tried to set the exception filter. Listing call stack modules" << llendl;
LLSD cs_info;
Get_Call_Stack(NULL, NULL, cs_info);
if(cs_info.has("CallStack") && cs_info["CallStack"].isArray())
{
LLSD cs = cs_info["CallStack"];
for(LLSD::array_iterator i = cs.beginArray();
i != cs.endArray();
++i)
{
llinfos << "Module: " << (*i)["ModuleName"] << llendl;
}
}
return gFilterFunc;
}
BOOL PreventSetUnhandledExceptionFilter()
{
HMODULE hKernel32 = LoadLibrary(_T("kernel32.dll"));
if (hKernel32 == NULL)
return FALSE;
void *pOrgEntry = GetProcAddress(hKernel32, "SetUnhandledExceptionFilter");
if(pOrgEntry == NULL)
return FALSE;
unsigned char newJump[ 100 ];
DWORD dwOrgEntryAddr = (DWORD)pOrgEntry;
dwOrgEntryAddr += 5; // add 5 for 5 op-codes for jmp far
void *pNewFunc = &MyDummySetUnhandledExceptionFilter;
DWORD dwNewEntryAddr = (DWORD) pNewFunc;
DWORD dwRelativeAddr = dwNewEntryAddr - dwOrgEntryAddr;
newJump[ 0 ] = 0xE9; // JMP absolute
memcpy(&newJump[ 1 ], &dwRelativeAddr, sizeof(pNewFunc));
SIZE_T bytesWritten;
BOOL bRet = WriteProcessMemory(GetCurrentProcess(),
pOrgEntry, newJump, sizeof(pNewFunc) + 1, &bytesWritten);
return bRet;
}
// static
void LLWinDebug::initExceptionHandler(LPTOP_LEVEL_EXCEPTION_FILTER filter_func)
{
static bool s_first_run = true;
// Load the dbghelp dll now, instead of waiting for the crash.
// Less potential for stack mangling
if (s_first_run)
{
// First, try loading from the directory that the app resides in.
std::string local_dll_name = gDirUtilp->findFile("dbghelp.dll", gDirUtilp->getWorkingDir(), gDirUtilp->getExecutableDir());
HMODULE hDll = NULL;
hDll = LoadLibraryA(local_dll_name.c_str());
if (!hDll)
{
hDll = LoadLibrary(L"dbghelp.dll");
}
if (!hDll)
{
LL_WARNS("AppInit") << "Couldn't find dbghelp.dll!" << LL_ENDL;
}
else
{
f_mdwp = (MINIDUMPWRITEDUMP) GetProcAddress(hDll, "MiniDumpWriteDump");
if (!f_mdwp)
{
FreeLibrary(hDll);
hDll = NULL;
}
}
gEmergencyMemoryReserve.reserve();
s_first_run = false;
}
// Try to get Tool Help library functions.
HMODULE hKernel32;
hKernel32 = GetModuleHandle(_T("KERNEL32"));
CreateToolhelp32Snapshot_ = (CREATE_TOOL_HELP32_SNAPSHOT)GetProcAddress(hKernel32, "CreateToolhelp32Snapshot");
Module32First_ = (MODULE32_FIRST)GetProcAddress(hKernel32, "Module32FirstW");
Module32Next_ = (MODULE32_NEST)GetProcAddress(hKernel32, "Module32NextW");
LPTOP_LEVEL_EXCEPTION_FILTER prev_filter;
prev_filter = SetUnhandledExceptionFilter(filter_func);
// *REMOVE:Mani
//PreventSetUnhandledExceptionFilter();
if(prev_filter != gFilterFunc)
{
LL_WARNS("AppInit")
<< "Replacing unknown exception (" << (void *)prev_filter << ") with (" << (void *)filter_func << ") !" << LL_ENDL;
}
gFilterFunc = filter_func;
}
bool LLWinDebug::checkExceptionHandler()
{
bool ok = true;
LPTOP_LEVEL_EXCEPTION_FILTER prev_filter;
prev_filter = SetUnhandledExceptionFilter(gFilterFunc);
if (prev_filter != gFilterFunc)
{
LL_WARNS("AppInit") << "Our exception handler (" << (void *)gFilterFunc << ") replaced with " << prev_filter << "!" << LL_ENDL;
ok = false;
}
if (prev_filter == NULL)
{
ok = FALSE;
if (gFilterFunc == NULL)
{
LL_WARNS("AppInit") << "Exception handler uninitialized." << LL_ENDL;
}
else
{
LL_WARNS("AppInit") << "Our exception handler (" << (void *)gFilterFunc << ") replaced with NULL!" << LL_ENDL;
}
}
return ok;
}
void LLWinDebug::writeDumpToFile(MINIDUMP_TYPE type, MINIDUMP_EXCEPTION_INFORMATION *ExInfop, const std::string& filename)
{
if(f_mdwp == NULL || gDirUtilp == NULL)
{
return;
//write_debug("No way to generate a minidump, no MiniDumpWriteDump function!\n");
}
else
{
std::string dump_path = gDirUtilp->getExpandedFilename(LL_PATH_LOGS, filename);
HANDLE hFile = CreateFileA(dump_path.c_str(),
GENERIC_WRITE,
FILE_SHARE_WRITE,
NULL,
CREATE_ALWAYS,
FILE_ATTRIBUTE_NORMAL,
NULL);
if (hFile != INVALID_HANDLE_VALUE)
{
// Write the dump, ignoring the return value
f_mdwp(GetCurrentProcess(),
GetCurrentProcessId(),
hFile,
type,
ExInfop,
NULL,
NULL);
CloseHandle(hFile);
}
}
}
// static
void LLWinDebug::generateCrashStacks(struct _EXCEPTION_POINTERS *exception_infop)
{
// *NOTE:Mani - This method is no longer the exception handler.
// Its called from viewer_windows_exception_handler() and other places.
//
// Let go of a bunch of reserved memory to give library calls etc
// a chance to execute normally in the case that we ran out of
// memory.
//
LLSD info;
std::string dump_path = gDirUtilp->getExpandedFilename(LL_PATH_LOGS,
"SecondLifeException");
std::string log_path = dump_path + ".log";
if (exception_infop)
{
// Since there is exception info... Release the hounds.
gEmergencyMemoryReserve.release();
if(gSavedSettings.getControl("SaveMinidump").notNull() && gSavedSettings.getBOOL("SaveMinidump"))
{
_MINIDUMP_EXCEPTION_INFORMATION ExInfo;
ExInfo.ThreadId = ::GetCurrentThreadId();
ExInfo.ExceptionPointers = exception_infop;
ExInfo.ClientPointers = NULL;
writeDumpToFile(MiniDumpNormal, &ExInfo, "SecondLife.dmp");
writeDumpToFile((MINIDUMP_TYPE)(MiniDumpWithDataSegs | MiniDumpWithIndirectlyReferencedMemory), &ExInfo, "SecondLifePlus.dmp");
}
info = Get_Exception_Info(exception_infop);
}
LLSD threads;
std::vector<DWORD> thread_ids;
GetProcessThreadIDs(GetCurrentProcessId(), thread_ids);
for(std::vector<DWORD>::iterator th_itr = thread_ids.begin();
th_itr != thread_ids.end();
++th_itr)
{
LLSD thread_info;
if(*th_itr != GetCurrentThreadId())
{
GetThreadCallStack(*th_itr, thread_info);
}
if(thread_info)
{
threads[llformat("ID %d", *th_itr)] = thread_info;
}
}
info["Threads"] = threads;
llofstream out_file(log_path);
LLSDSerialize::toPrettyXML(info, out_file);
out_file.close();
}
void LLWinDebug::clearCrashStacks()
{
LLSD info;
std::string dump_path = gDirUtilp->getExpandedFilename(LL_PATH_LOGS, "SecondLifeException.log");
LLFile::remove(dump_path);
}
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