CWE-ou-minkata/Sources/Plasma/NucleusLib/pnCrashExe/Win32/pnCreError.cpp

/*==LICENSE==*

CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011 Cyan Worlds, Inc.

This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.

Additional permissions under GNU GPL version 3 section 7

If you modify this Program, or any covered work, by linking or
combining it with any of RAD Game Tools Bink SDK, Autodesk 3ds Max SDK,
NVIDIA PhysX SDK, Microsoft DirectX SDK, OpenSSL library, Independent
JPEG Group JPEG library, Microsoft Windows Media SDK, or Apple QuickTime SDK
(or a modified version of those libraries),
containing parts covered by the terms of the Bink SDK EULA, 3ds Max EULA,
PhysX SDK EULA, DirectX SDK EULA, OpenSSL and SSLeay licenses, IJG
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 or by snail mail at:
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*==LICENSE==*/
/*****************************************************************************
*
*	$/Plasma20/Sources/Plasma/NucleusLib/pnCrashExe/pnCreError.cpp
*	
***/

#include "../Pch.h"
#pragma	hdrstop


namespace Crash	{
/*****************************************************************************
*
*	Private
*
***/

struct Module {
	LINK(Module)	link;
	
	unsigned_ptr	address;
	unsigned		buildId;
	unsigned		branchId;
	wchar *			name;
	wchar *			buildString;
	
	~Module	() { FREE(name); FREE(buildString); }
};

struct EmailParams : AtomicRef {
	char *			smtp;
	char *			sender;
	char *			recipients;
	char *			username;
	char *			password;
	char *			replyTo;
	
	~EmailParams () {
		FREE(smtp);
		FREE(sender);
		FREE(recipients);
		FREE(username);
		FREE(password);
		FREE(replyTo);
	}
};

struct ErrLog {
	unsigned	pos;
	wchar		name[MAX_PATH];
	char		buffer[512*1024];
	char		terminator;
};

struct DeadlockCheck {
	LINK(DeadlockCheck)	link;
	HANDLE				thread;
	unsigned			deadlockEmailMs;
	unsigned			deadlockTerminateMs;
	bool				deadlocked;
	bool				emailSent;
	wchar				debugStr[256];
};


/*****************************************************************************
*
*	Private	data
*
***/

// Assertion results from ProcessErrorLog()
const unsigned kErrFlagAssertionBreakpoint	= 0x01;
const unsigned kErrFlagAssertionExitProgram	= 0x02;

// Exception results from ProcessErrorLog()
const unsigned kErrFlagExceptionBreakpoint  = 0x04;
const unsigned kErrFlagExceptionExecHandler	= 0x08;

static const char	s_unknown[]			= "*unknown*";
static const char	s_sectionFmt_s[]	= "--------> %s <--------\r\n";

static const unsigned kStackDumpBytes	= 1024;
static const unsigned kCodeDumpBytes	= 64;

static unsigned							s_deadlockEmailMs;		// sends an email if a thread exceeds this time. If set to zero this is disabled		
static unsigned							s_deadlockTerminateMs;	// kills the process if a thread exceeds this time. If set to zero this is disabled
static CCritSect *						s_critsect;
static LISTDECL(Module,	link)			s_modules;
static EmailParams *					s_params;
static bool								s_running;

static bool								s_deadlockEnabled;
static unsigned							s_nextDeadlockCheck;
static LISTDECL(DeadlockCheck, link)	s_deadlockList;

static CCritSect						s_spareCrit;
static TSpareList<DeadlockCheck>		s_deadlockSpares;


#define SAFE_CRITSECT_ENTER()	if (s_critsect) s_critsect->Enter()
#define SAFE_CRITSECT_LEAVE()	if (s_critsect) s_critsect->Leave()


/*****************************************************************************
*
*	Internal functions
*
***/

//============================================================================
static void DelayDeadlockChecking () {
	// Delay deadlock checking for the next 2 minutes
	s_nextDeadlockCheck = 1 | (TimeGetMs() + 2 * 60 * 1000);
}

//============================================================================
static void	ReplaceEmailParams (EmailParams	* newParams) {

	if (newParams)
		newParams->IncRef();	
	
	SAFE_CRITSECT_ENTER();
	{
		SWAP(newParams,	s_params);
	}
	SAFE_CRITSECT_LEAVE();
	
	if (newParams)
		newParams->DecRef();
}

//============================================================================
static EmailParams * GetEmailParamsIncRef () {
	EmailParams	* params;
	
	SAFE_CRITSECT_ENTER();
	{
		if (nil	!= (params = s_params))
			params->IncRef();
	}
	SAFE_CRITSECT_LEAVE();
	
	return params;
};

//============================================================================
#ifdef _M_IX86
static void __declspec(naked) CrashFunc () {

	*(int *) 0 = 0;
}
#endif // def _M_IX86

//============================================================================
#ifdef _M_IX86
static void MakeThreadCrashOnResume (HANDLE handle) {
	
	// Point the thread's instruction pointer to CrashFunc 
	// so that it will crash once we resume it.
	CONTEXT context;
	context.ContextFlags = CONTEXT_CONTROL;
	GetThreadContext(handle, &context);
	context.Eip = (DWORD) CrashFunc;
	SetThreadContext(handle, &context);
}
#endif // def _M_IX86

//============================================================================
static inline const	char * GetExceptionString (unsigned	code) {
	#if	defined(HS_DEBUGGING) || defined(SERVER)
	switch (code) {
		#define	EXCEPTION(x) case EXCEPTION_##x: return	#x;
		EXCEPTION(ACCESS_VIOLATION)
		EXCEPTION(DATATYPE_MISALIGNMENT)
		EXCEPTION(BREAKPOINT)
		EXCEPTION(SINGLE_STEP)
		EXCEPTION(ARRAY_BOUNDS_EXCEEDED)
		EXCEPTION(FLT_DENORMAL_OPERAND)
		EXCEPTION(FLT_DIVIDE_BY_ZERO)
		EXCEPTION(FLT_INEXACT_RESULT)
		EXCEPTION(FLT_INVALID_OPERATION)
		EXCEPTION(FLT_OVERFLOW)
		EXCEPTION(FLT_STACK_CHECK)
		EXCEPTION(FLT_UNDERFLOW)
		EXCEPTION(INT_DIVIDE_BY_ZERO)
		EXCEPTION(INT_OVERFLOW)
		EXCEPTION(PRIV_INSTRUCTION)
		EXCEPTION(IN_PAGE_ERROR)
		EXCEPTION(ILLEGAL_INSTRUCTION)
		EXCEPTION(NONCONTINUABLE_EXCEPTION)
		EXCEPTION(STACK_OVERFLOW)
		EXCEPTION(INVALID_DISPOSITION)
		EXCEPTION(GUARD_PAGE)
		EXCEPTION(INVALID_HANDLE)
		#undef EXCEPTION

		default:
		return s_unknown;
	}
	#else	// if defined(HS_DEBUGGING)	|| defined(SERVER)
	{
		ref(code);
		return "";
	}
	#endif	// if defined(HS_DEBUGGING)	|| defined(SERVER)
}

//============================================================================
static void LogWriteToDisk (ErrLog * const log) {

	HANDLE file = CreateFileW(
		log->name,
		GENERIC_WRITE,
		FILE_SHARE_READ,
		(LPSECURITY_ATTRIBUTES) nil,
		OPEN_ALWAYS,
		FILE_ATTRIBUTE_NORMAL,
		(HANDLE) nil
	);
	if (file != INVALID_HANDLE_VALUE) {
		DWORD bytesWritten;
		SetFilePointer(file, 0, 0, FILE_END);
		WriteFile(file, log->buffer, StrLen(log->buffer), &bytesWritten, 0);
		CloseHandle(file);
	}
}

//============================================================================
static unsigned ProcessErrorLog (
    ErrLog * const	log,
    const char		programName[],
    const char		errorType[]
) {
	
	LogWriteToDisk(log);
	
	// Servers email the error and continue running	
	#ifdef SERVER
	{
		// @@@ TODO: Write log to file here
		
		if (EmailParams * params = GetEmailParamsIncRef()) {
			CrashSendEmail(
				params->smtp,
				params->sender,
				params->recipients,
				params->username,
				params->password,
				params->replyTo,
				programName,
				errorType,
				log->buffer
			);
			params->DecRef();
		}
		return kErrFlagAssertionBreakpoint | kErrFlagExceptionExecHandler;
	}
	
	// Client programs display an error dialog giving the user a choice of
	// sending the error or not
	#else
	{
		// Todo: make a dialog box to handle this
		return kErrFlagAssertionExitProgram | kErrFlagExceptionExecHandler;
	}
	#endif
}

//============================================================================
static unsigned ProcessBreakException () {

	#ifdef SERVER

		// Servers running as daemons should attempt to keep running
		if (ErrorGetOption(kErrOptNonGuiAsserts))
			return kErrFlagExceptionExecHandler;
		else
			return kErrFlagExceptionBreakpoint;

	#else

		return kErrFlagExceptionBreakpoint;

	#endif
}

//============================================================================
static ErrLog *	CreateErrLog () {
	// Allocate	log	memory
	ErrLog * log = (ErrLog *) VirtualAlloc(nil, sizeof(*log), MEM_COMMIT, PAGE_READWRITE);
	log->pos		= 0;
	log->terminator	= 0;

	// Initialize log filename
	wchar srcName[MAX_PATH];
	SYSTEMTIME currTime;
	GetLocalTime(&currTime);
	StrPrintf(
		srcName,
		arrsize(srcName),
		L"Crash%02u%02u%02u.log",
		currTime.wYear % 100,
		currTime.wMonth,
		currTime.wDay
	);

	// Set log directory + filename
	AsyncLogGetDirectory(log->name,	arrsize(log->name));
	PathAddFilename(log->name, log->name, srcName, arrsize(log->name));

	return log;
}

//============================================================================
static void	DestroyErrLog (ErrLog *	errLog)	{
	VirtualFree(errLog,	0, MEM_RELEASE);
}

//============================================================================
static void	__cdecl	LogPrintf (
	ErrLog * const	log,
	const char		fmt[],
	...
) {
	va_list	args;
	va_start(args, fmt);
	char * pos = log->buffer + log->pos;
	unsigned len = StrPrintfV(
		pos,
		arrsize(log->buffer) - log->pos,
		fmt,
		args
	);
	va_end(args);
	log->pos +=	len;
}

//============================================================================
static inline void LogSectionHeader	(
	ErrLog * const	log,
	const char		section[]
) {
	LogPrintf(log, s_sectionFmt_s, section);
}

//============================================================================
#ifdef _M_IX86
static void	LogStackWalk (
	ErrLog * const		log,
	const CImageHelp &	ih,	
	HANDLE				hThread, 
	const CONTEXT &		ctx
) {
	STACKFRAME stk;
	ZeroMemory(&stk, sizeof(stk));
	stk.AddrPC.Offset		= ctx.Eip;
	stk.AddrPC.Mode			= AddrModeFlat;
	stk.AddrStack.Offset	= ctx.Esp;
	stk.AddrStack.Mode		= AddrModeFlat;
	stk.AddrFrame.Offset	= ctx.Ebp;
	stk.AddrFrame.Mode		= AddrModeFlat;

	LogSectionHeader(log, "Trace");
	for	(unsigned i	= 0; i < 100; i++) {
		const bool result =	ih.StackWalk(
			IMAGE_FILE_MACHINE_I386,
			ih.Process(),
			hThread,
			&stk,
			nil,	// context
			nil,	// read	memory routine
			ih.SymFunctionTableAccess,
			ih.SymGetModuleBase,
			nil	// translate address routine
		);
		if (!result)
			break;

		LogPrintf(
			log,
			"Pc:%08x Fr:%08x Rt:%08x Arg:%08x %08x %08x %08x ",
			stk.AddrPC.Offset,
			stk.AddrFrame.Offset,
			stk.AddrReturn.Offset,
			stk.Params[0],
			stk.Params[1],
			stk.Params[2],
			stk.Params[3]
		);

		LogPrintf(log, "\r\n");
	}

	LogPrintf(log, "\r\n");
}
#endif // _M_IX86

//============================================================================
static void	LogThread (
	ErrLog * const		log,
	const CImageHelp &	ih,
	HANDLE				hThread,
	const wchar			name[],
	const CONTEXT &		ctx
) {
	char threadName[256];
	StrPrintf(threadName, arrsize(threadName), "%SThread %#x", name, hThread);
	LogSectionHeader(log, threadName);
	
	LogPrintf(
		log,
		 "eax=%08lx ebx=%08lx ecx=%08lx edx=%08lx\r\n"
		 "esi=%08lx edi=%08lx\r\n"
		 "eip=%08lx esp=%08lx ebp=%08lx\r\n"
		 "cs=%04lx ss=%04lx ds=%04lx es=%04lx fs=%04lx gs=%04lx efl=%08lx\r\n\r\n",
		ctx.Eax, ctx.Ebx, ctx.Ecx, ctx.Edx,	ctx.Esi, ctx.Edi,
		ctx.Eip, ctx.Esp, ctx.Ebp, ctx.EFlags,
		ctx.SegCs, ctx.SegSs, ctx.SegDs, ctx.SegEs,	ctx.SegFs, ctx.SegGs, ctx.EFlags
	);

	#ifdef _M_IX86
	LogStackWalk(log, ih, hThread, ctx);
	#else
	ref(ih);
	ref(hThread);
	#endif
}

//============================================================================
static void	LogCrashInfo (
	const char			msg[],
	ErrLog * const		log,
	const CImageHelp &	ih
) {
	// Log application information
	{
		LogSectionHeader(log, "Program");
		
		wchar productIdStr[64];
		GuidToString(ProductId(), productIdStr, arrsize(productIdStr));
		
		wchar productBuildTag[128];
		ProductString(productBuildTag, arrsize(productBuildTag));
		
		SYSTEMTIME currtime;
		GetLocalTime(&currtime);
		LogPrintf(
			log,
			// beginning of	format string
			"App        : %s\r\n"
			"Build      : "
			#ifdef PLASMA_EXTERNAL_RELEASE
			"External "
			#else
			"Internal "
			#endif
			#ifdef HS_DEBUGGING
			"Debug"
			#else
			"Release"
			#endif
			"\r\n"
			"BuildMark  : %S\r\n"
			"ProductTag : %S\r\n"
			"ProductId  : %S\r\n"
			"Crashed    : %d/%d/%d %02d:%02d:%02d\r\n"
			"Msg        : %s\r\n"
			"\r\n",
			// end of format string
			ih.GetProgramName(),
			ProductBuildString(),
			productBuildTag,
			productIdStr,
			currtime.wMonth,
			currtime.wDay,
			currtime.wYear,
			currtime.wHour,
			currtime.wMinute,
			currtime.wSecond,
			msg
		);
	}

	// Log system information
	{
		LogSectionHeader(log, "System");

		char machineName[128];
		DWORD len =	arrsize(machineName);
		if (!GetComputerName(machineName, &len))
			StrCopy(machineName, s_unknown,	arrsize(machineName));
		LogPrintf(log, "Machine    : %s\r\n", machineName);

		for (;;) {
			WSADATA wsaData;
			if (WSAStartup(0x101, &wsaData) || (wsaData.wVersion != 0x101))
				break;

			wchar ipAddress[256];
			NetAddressNode addrNodes[16];
			unsigned addrCount = NetAddressGetLocal(16, addrNodes);
			LogPrintf(log, "IpAddrs    : ");
			for (unsigned i = 0; i < addrCount; ++i) {
				NetAddressNodeToString(addrNodes[i], ipAddress, arrsize(ipAddress));
				LogPrintf(log, "%S, ", ipAddress);
			}
			LogPrintf(log, "\r\n");

			WSACleanup();			
			break;
		}
		
		SYSTEM_INFO	si;
		GetSystemInfo(&si);
		DWORD ver =	GetVersion();

		LogPrintf(
			log,
			"OS Version : %u.%u\r\n"
			"CPU Count  : %u\r\n"
			"\r\n",
			LOBYTE(LOWORD(ver)), HIBYTE(LOWORD(ver)),
			si.dwNumberOfProcessors
	   );
	}

	// Log loaded modules
	{
		LogSectionHeader(log, "Modules");
		SAFE_CRITSECT_ENTER();
		for	(const Module *	p =	s_modules.Head(); p; p = p->link.Next()) {
			LogPrintf(
				log,
				"%p %S (%u.%u.%S)\r\n",
				p->address,
				p->name,
				p->buildId,
				p->branchId,
				p->buildString
			);
		}
		SAFE_CRITSECT_LEAVE();
		LogPrintf(log, "\r\n");
	}
}

//============================================================================
static LONG	ProcessException (const char occasion[], EXCEPTION_POINTERS * ep) {

	// log non-breakpont exceptions
	unsigned result;
	if (ep->ExceptionRecord->ExceptionCode != EXCEPTION_BREAKPOINT)	{

		// if this is a	stack fault, allocate a	new	stack so we	have
		// enough space	to log the error.
		static void	* newStack;
		#define	STACKBYTES (64 * 1024)
		if (ep->ExceptionRecord->ExceptionCode == STATUS_STACK_OVERFLOW) {
			newStack = VirtualAlloc(nil, STACKBYTES, MEM_COMMIT, PAGE_READWRITE);
			__asm {
				mov		eax, [newStack]			// get new memory block
				add		eax, STACKBYTES	- 4		// point to	end	of block
				mov		[eax], esp				// save	current	stack pointer
				mov		esp, eax				// set new stack pointer
			}
		}

		DelayDeadlockChecking();

		// Allocate	error log memory
		ErrLog * log = CreateErrLog();

		// get crash log data
		static const char s_exception[]	= "Exception";
		LogSectionHeader(log, "Crash");
		LogPrintf(
			log,
			"%s: %08x %s\r\n",
			s_exception,
			ep->ExceptionRecord->ExceptionCode,
			GetExceptionString(ep->ExceptionRecord->ExceptionCode)
		);
		if (ep->ExceptionRecord->ExceptionCode == EXCEPTION_ACCESS_VIOLATION) {
			LogPrintf(
				log,
				"Memory at address %08x could not be %s\r\n",
				ep->ExceptionRecord->ExceptionInformation[1],
				ep->ExceptionRecord->ExceptionInformation[0] ? "written" : "read"
			);
		}
		LogPrintf(log, "\r\n");
		
		CImageHelp ih((HINSTANCE)ModuleGetInstance());
		LogCrashInfo(occasion, log, ih);

		// log crashed thread
		LogThread(
			log,
			ih,
			GetCurrentThread(),
			L"",
			*ep->ContextRecord
		);

		// display the error
		result = ProcessErrorLog(
			log,
			ih.GetProgramName(),
			occasion
		);

		DestroyErrLog(log);
		ErrorSetOption(kErrOptDisableMemLeakChecking, true);

		// if this is a	stack overflow,	restore	original stack
		if (ep->ExceptionRecord->ExceptionCode == STATUS_STACK_OVERFLOW) {
			__asm {
				mov		eax, [newStack]			// get new memory block
				add		eax, STACKBYTES	- 4		// point to	end	of block
				mov		esp, [eax]				// restore old stack pointer
			}

			VirtualFree(newStack, 0, MEM_RELEASE);
		}
	}
	else {
		result = ProcessBreakException();
	}

	// If this is a	debug build	and	the	user pressed the "debug" button
	// then	we return EXCEPTION_CONTINUE_SEARCH	so the program will	
	// activate	just-in-time debugging,	or barring that, bring up the 
	// Microsoft error handler.
	if (result & kErrFlagExceptionBreakpoint)
		return EXCEPTION_CONTINUE_SEARCH;

	return EXCEPTION_EXECUTE_HANDLER;
}


//============================================================================
static LONG	WINAPI ExceptionFilter (EXCEPTION_POINTERS * ep) {
	LONG result	= ProcessException("Unhandled Exception", ep);

	// If the instruction pointer is inside	CrashFunc then this	exception
	// is a	deadlock that couldn't be resumed, so terminate	the	program.
	#ifdef _M_IX86
	if ((ep->ContextRecord->Eip	>= (DWORD) CrashFunc)
	&&	(ep->ContextRecord->Eip	<= (DWORD) CrashFunc + 5))
		TerminateProcess(GetCurrentProcess(), 1);
	#else
	# error	"ExceptionFilter not implemented for this CPU"
	#endif	// def _M_IX86

	return result;
}

//============================================================================
static void ProcessDeadlock_CS (const char occasion[], bool crashIt = true) {

	unsigned currTimeMs = TimeGetMs();
	unsigned crashCount = 0;

	// Suspend all threads so that we can dump their callstacks
	DeadlockCheck * next, * check = s_deadlockList.Head();
	for (; check; check = next) {
		next = s_deadlockList.Next(check);
		SuspendThread(check->thread);
	}
	
	// Allocate	error log memory
	ErrLog * log = CreateErrLog();

	// Log report header and system data
	CImageHelp ih((HINSTANCE)ModuleGetInstance());
	LogCrashInfo(occasion, log, ih);

	// Log all threads
	if (!s_deadlockList.Head())
		LogPrintf(log, "*** No threads queued for deadlock check ***\r\n\r\n");
		
	check = s_deadlockList.Head();
	for (; check; check = next) {
		next = s_deadlockList.Next(check);
        CONTEXT ctx;
        ctx.ContextFlags = CONTEXT_SEGMENTS | CONTEXT_INTEGER | CONTEXT_CONTROL;
        GetThreadContext(
            check->thread,
            &ctx
        );
		if (true == (check->deadlocked = (int)(check->deadlockEmailMs - currTimeMs) < 0) && !check->emailSent && s_deadlockEmailMs) {
			LogPrintf(log, "This thread has hit the min deadlock check time\r\n");
			check->emailSent = true;
		}
		else if (true == (check->deadlocked = (int)(check->deadlockTerminateMs - currTimeMs) < 0) && s_deadlockTerminateMs) {
			LogPrintf(log, "This thread has hit the max deadlock check time\r\n");
			if (crashIt) {
				MakeThreadCrashOnResume(check->thread);
				++crashCount;
			}
		}

		if(check->deadlocked) {
			LogPrintf(log, "Debug information: ");
			LogPrintf(log, "%S\r\n", check->debugStr);
		}

		LogThread(
			log,
			ih,
			check->thread,
			L"",
			ctx
		);
	}	

	(void) ProcessErrorLog(
		log,
		ih.GetProgramName(),
		occasion
	);
	
	DestroyErrLog(log);
	ErrorSetOption(kErrOptDisableMemLeakChecking, true);

	// Resume all threads
	unsigned elapsedMs = TimeGetMs() - currTimeMs;
	check = s_deadlockList.Head();
	for (; check; check = next) {
		next = s_deadlockList.Next(check);

		if (check->deadlocked && crashIt)
			// remove 'check' from list since we're crashing the thread on resume
			check->link.Unlink();
		else {
			// Update deadlock time to offset by the amount of time we had them suspended.
			check->deadlockEmailMs += elapsedMs;
			check->deadlockTerminateMs += elapsedMs;
		}

		ResumeThread(check->thread);
	}

	// Allow the resumed thread a bit of time to crash and
	// send the resulting email then terminate the process
	if (crashCount) {
		Sleep(60 * 1000);
		TerminateProcess(GetCurrentProcess(), 1);
	}	
}

//============================================================================
static void DeadlockCheckProc (void *) {
	while (s_running) {
		Sleep(5 * 1000);

		if (!s_deadlockEnabled)
			continue;

		unsigned currTimeMs = TimeGetMs();

		// Check for a forced delay in deadlock checking
		if (s_nextDeadlockCheck && (int)(s_nextDeadlockCheck - currTimeMs) > 0)
			continue;
		s_nextDeadlockCheck = 0;
		
		SAFE_CRITSECT_ENTER();
		for (;;) {
			DeadlockCheck * next, * check = s_deadlockList.Head();
			for (; check; check = next) {
				next = s_deadlockList.Next(check);
				if ((int)(check->deadlockEmailMs - currTimeMs) <= 0 && !check->emailSent && s_deadlockEmailMs) {
					// we have hit our minimum deadlock check time. Send and email but dont crash the process, yet.
					ProcessDeadlock_CS("DeadlockChecker", false);
					check->emailSent = true;
					break;
				}
				else if ((int)(check->deadlockTerminateMs - currTimeMs) <= 0 && s_deadlockTerminateMs){
					// we have hit out max deadlock check time. This will send an email and crash the process so the service can restart.
					ProcessDeadlock_CS("DeadlockChecker(Process Terminated)");
					break;
				}
			}
			break;
		}
		SAFE_CRITSECT_LEAVE(); 
	}
}

//============================================================================
#ifdef SERVER
static void StartDeadlockThread () {
	(void)_beginthread(DeadlockCheckProc, 0, nil);
}
#endif

//============================================================================
#ifdef SERVER
static void DeadlockCheckNowProc (void *) {
	SAFE_CRITSECT_ENTER();
	{
		ProcessDeadlock_CS("Deadlock Check");
	}
	SAFE_CRITSECT_LEAVE();
}
#endif

//============================================================================
#ifdef SERVER
static void ThreadReportProc (void *) {
	SAFE_CRITSECT_ENTER();
	{
		ProcessDeadlock_CS("Thread Report", false);
	}
	SAFE_CRITSECT_LEAVE();
}
#endif

//============================================================================
static void	pnCrashExeShutdown () {
	s_running = false;

	ReplaceEmailParams(nil);
	ASSERT(!s_deadlockList.Head());
	s_deadlockSpares.CleanUp();
}

//============================================================================
AUTO_INIT_FUNC(pnCrashExe) {
    // The critical section has to be initialized
    // before program startup and never freed
    static byte rawMemory[sizeof CCritSect];
    s_critsect = new(rawMemory) CCritSect;

	s_running = true;
	
	atexit(pnCrashExeShutdown);

	#ifdef SERVER
	SetUnhandledExceptionFilter(ExceptionFilter);
	StartDeadlockThread();
	#endif
}



/*****************************************************************************
*
*	Module functions
*
***/


} // namespace Crash


/*****************************************************************************
*
*	Exports
*
***/

//============================================================================
void CrashExceptionDump	(const char occasion[], void * info) {

	(void) ProcessException(occasion, (EXCEPTION_POINTERS *) info);
}

//============================================================================
void CrashSetEmailParameters (
	const char		smtp[],
	const char		sender[],
	const char		recipients[],
	const char		username[],
	const char		password[],
	const char		replyTo[]
) {
	ASSERT(smtp);
	ASSERT(sender);
	ASSERT(recipients);
	
	EmailParams	* params = NEWZERO(EmailParams);
	
	params->smtp		= StrDup(smtp);
	params->sender		= StrDup(sender);
	params->recipients	= StrDup(recipients);
	if (username)
		params->username = StrDup(username);
	if (password)
		params->password = StrDup(password);
	if (replyTo)
		params->replyTo	 = StrDup(replyTo);
		
	ReplaceEmailParams(params);
}

//============================================================================
void * CrashAddModule (
	unsigned_ptr	address,
	unsigned		buildId,
	unsigned		branchId,
	const wchar		name[],
	const wchar		buildString[]
) {
	ASSERT(name);
	Module * module	= NEWZERO(Module);
	
	module->address		= address;
	module->buildId		= buildId;
	module->branchId	= branchId;
	module->name		= StrDup(name);
	module->buildString	= StrDup(buildString);
	// trim trailing spaces from buildString
	for (unsigned i = StrLen(buildString) - 1; i > 0; --i) {
		if (module->buildString[i] != L' ')
			break;
		module->buildString[i] = 0;
	}
	
	SAFE_CRITSECT_ENTER();
	{
		s_modules.Link(module);
	}
	SAFE_CRITSECT_LEAVE();
	
	return module;
}

//============================================================================
void CrashRemoveModule (
	void *			param
) {
	Module * module	= (Module *) param;
	SAFE_CRITSECT_ENTER();
	{
		DEL(module);
	}
	SAFE_CRITSECT_LEAVE();
}


/*****************************************************************************
*
*   Deadlock detection (server only)
*
***/

//============================================================================
#ifdef SERVER
void * CrashAddDeadlockCheck (
	void *		thread,
	const wchar debugStr[]
) {
	s_spareCrit.Enter();
	DeadlockCheck * check = (DeadlockCheck *)s_deadlockSpares.Alloc();
	s_spareCrit.Leave();
	
	(void) new(check) DeadlockCheck;

	check->deadlockEmailMs = TimeGetMs() + s_deadlockEmailMs;
	check->deadlockTerminateMs = TimeGetMs() + s_deadlockTerminateMs;
	check->thread = (HANDLE) thread;
	check->emailSent = false;
	StrCopy(check->debugStr, debugStr, arrsize(check->debugStr));
	
	SAFE_CRITSECT_ENTER();
	{
		s_deadlockList.Link(check);
	}
	SAFE_CRITSECT_LEAVE();
	
	return check;
}
#endif

//============================================================================
#ifdef SERVER
void CrashRemoveDeadlockCheck (
	void *		ptr
) {
	ASSERT(ptr);
	DeadlockCheck * check = (DeadlockCheck *)ptr;
	SAFE_CRITSECT_ENTER();
	{
		s_deadlockList.Unlink(check);
	}
	SAFE_CRITSECT_LEAVE();
	
	check->~DeadlockCheck();
	s_spareCrit.Enter();
	s_deadlockSpares.Free(check);
	s_spareCrit.Leave();
}
#endif

//============================================================================
#ifdef SERVER
bool CrashEnableDeadlockChecking (
	bool			enable
) {
	SWAP(s_deadlockEnabled, enable);
	return enable;
}
#endif

//============================================================================
#ifdef SERVER
void CrashSetDeadlockCheckTimes(unsigned emailSec, unsigned terminateSec) {
	if(!emailSec && !terminateSec)
		CrashEnableDeadlockChecking(false);
	else {
		CrashEnableDeadlockChecking(true);
		s_deadlockEmailMs = emailSec * 1000;
		s_deadlockTerminateMs = terminateSec * 1000;
	}
}
#endif

//============================================================================
#ifdef SERVER
void CrashDeadlockCheckNow () {
	// Perform in a thread not queued for deadlock checking
	(void)_beginthread(DeadlockCheckNowProc, 0, nil);
}
#endif

//============================================================================
#ifdef SERVER
void CrashSendThreadReport () {
	// Perform in a thread not queued for deadlock checking
	(void)_beginthread(ThreadReportProc, 0, nil);
}
#endif