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path: root/LibOVRKernel/Src/Kernel/OVR_DebugHelp.cpp
blob: 0eae3515f979c4a4e9b27cd883b0e683b1587a32 (plain)
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/************************************************************************************

Filename    :   ExceptionHandler.cpp
Content     :   Platform-independent exception handling interface
Created     :   October 6, 2014

Copyright   :   Copyright 2014 Oculus VR, LLC. All Rights reserved.

Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at

http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.

************************************************************************************/

#include "OVR_DebugHelp.h"

#if !defined(HEADLESS_APP)

#include "OVR_Types.h"
#include "OVR_UTF8Util.h"
#include "OVR_Atomic.h"
#include "OVR_SysFile.h"
#include "Util/Util_SystemGUI.h"

#include <stdlib.h>
#include <time.h>

#if defined(OVR_OS_WIN32) || defined(OVR_OS_WIN64)
    #pragma warning(push, 0)
    #include "OVR_Win32_IncludeWindows.h"
    #include <ShlObj.h>
    #include <WinNT.h>
    #include <DbgHelp.h>
    #include <WinVer.h>
    #include <share.h>
    #include <Psapi.h>
    #include <TlHelp32.h>
    #include <comutil.h>
    #include <Wbemcli.h>
    #include <Wbemidl.h>
    #include <ObjBase.h>
    #include <process.h>
    #pragma warning(pop)

    #pragma comment(lib, "Psapi.lib")   // To consider: It may be a problem to statically link to these libraries if the application at runtime intends to dynamically
    #pragma comment(lib, "ole32.lib")   // link to a different version of the same library, and we are statically linked into that application instead of being a DLL.
    #pragma comment(lib, "shell32.lib")
    #pragma comment(lib, "Version.lib")

    // NtQueryInformation and THREAD_BASIC_INFORMATION are undocumented but frequently needed for digging into thread information.
    typedef LONG (WINAPI *NtQueryInformationThreadFunc)(HANDLE, int, PVOID, ULONG, PULONG);

    struct THREAD_BASIC_INFORMATION
    {
        LONG  ExitStatus;
        PVOID TebBaseAddress;
        PVOID UniqueProcessId;
        PVOID UniqueThreadId;
        PVOID Priority;
        PVOID BasePriority;
    };

    #ifndef UNW_FLAG_NHANDLER // Older Windows SDKs don't support this.
        #define UNW_FLAG_NHANDLER 0
    #endif

#elif defined(OVR_OS_MAC)
    #include <unistd.h>
    #include <sys/sysctl.h>
    #include <sys/utsname.h>
    #include <sys/types.h>
    #include <sys/mman.h>
    #include <stdlib.h>
    #include <stdio.h>
    #include <pthread.h>
    #include <mach/mach.h>
    #include <mach/mach_error.h>
    #include <mach/thread_status.h>
    #include <mach/exception.h>
    #include <mach/task.h>
    #include <mach/thread_act.h>
    #include <mach-o/dyld.h>
    #include <mach-o/dyld_images.h>
    #include <libproc.h>
    #include <libgen.h>
    #include <execinfo.h>
    #include <cxxabi.h>
    #include "OVR_mach_exc_OSX.h"

    #if defined(__LP64__)
        typedef struct mach_header_64     MachHeader;
        typedef struct segment_command_64 SegmentCommand;
        typedef struct section_64         Section;
        #define kLCSegment                LC_SEGMENT_64
    #else
        typedef struct mach_header        MachHeader;
        typedef struct segment_command    SegmentCommand;
        typedef struct section            Section;
        #define kLCSegment                LC_SEGMENT
    #endif

    extern "C" const struct dyld_all_image_infos* _dyld_get_all_image_infos(); // From libdyld.dylib

#elif defined(OVR_OS_UNIX)
    #include <unistd.h>
    #include "sys/stat.h"
#if defined(OVR_OS_ANDROID)
    #include <linux/sysctl.h>
#else
    #include <sys/sysctl.h>
#endif
    #include <sys/utsname.h>
    #include <sys/types.h>
    #include <sys/ptrace.h>
    #include <sys/wait.h>
    #include <sys/mman.h>
    #include <stdlib.h>
    #include <stdio.h>
    #include <pthread.h>
    #include <libgen.h>
#if !defined(OVR_OS_ANDROID)
    #include <execinfo.h>
#endif
    #include <cxxabi.h>
  //#include <libunwind.h> // Can't use this until we can ensure that we have an installed version of it.
#endif

#if !defined(MIN)
    #define MIN(X,Y) ((X) < (Y) ? (X) : (Y))
    #define MAX(X,Y) ((X) > (Y) ? (X) : (Y))
#endif


OVR_DISABLE_MSVC_WARNING(4351) // new behavior: elements of array will be default initialized
OVR_DISABLE_MSVC_WARNING(4996) // This function or variable may be unsafe




#if defined(OVR_OS_APPLE)
    static OVR::ExceptionHandler* sExceptionHandler = nullptr;
    const uint32_t sMachCancelMessageType = 0x0ca9ce11;  // This is a made-up value of our own choice.

    extern "C"
    {
        kern_return_t catch_mach_exception_raise_OVR(mach_port_t /*exceptionPort*/, mach_port_t /*threadSysId*/,
                                        mach_port_t /*machTask*/, exception_type_t /*machExceptionType*/,
                                        mach_exception_data_t /*machExceptionData*/, mach_msg_type_number_t /*machExceptionDataCount*/)
        {
            return KERN_FAILURE;
        }

        kern_return_t catch_mach_exception_raise_state_OVR(mach_port_t /*exceptionPort*/, exception_type_t /*exceptionType*/,
                                        const mach_exception_data_t /*machExceptionData*/, mach_msg_type_number_t /*machExceptionDataCount*/,
                                        int* /*pMachExceptionFlavor*/, const thread_state_t /*threadStatePrev*/, mach_msg_type_number_t /*threaStatePrevCount*/,
                                        thread_state_t /*threadStateNew*/, mach_msg_type_number_t* /*pThreadStateNewCount*/)
        {
            return KERN_FAILURE;
        }

        kern_return_t catch_mach_exception_raise_state_identity_OVR(mach_port_t exceptionPort, mach_port_t threadSysId, mach_port_t machTask,
                                            exception_type_t exceptionType, mach_exception_data_type_t* pMachExceptionData,
                                            mach_msg_type_number_t machExceptionDataCount, int* pMachExceptionFlavor,
                                            thread_state_t threadStatePrev, mach_msg_type_number_t threadStatePrevCount,
                                            thread_state_t threadStateNew, mach_msg_type_number_t* pThreadStateNewCount)
        {
            return sExceptionHandler->HandleMachException(exceptionPort, threadSysId, machTask, exceptionType, pMachExceptionData,
                                                machExceptionDataCount, pMachExceptionFlavor, threadStatePrev, threadStatePrevCount,
                                                threadStateNew, pThreadStateNewCount);
        }

        void* MachHandlerThreadFunctionStatic(void* pExceptionHandlerVoid)
        {
            return static_cast<OVR::ExceptionHandler*>(pExceptionHandlerVoid)->MachHandlerThreadFunction();
        }

    } // extern "C"
#endif


namespace OVR {


void GetInstructionPointer(void*& pInstruction)
{
    #if defined(OVR_CC_MSVC)
        pInstruction = _ReturnAddress();
    #else // GCC, clang
        pInstruction = __builtin_return_address(0);
    #endif
}


// addressStrCapacity should be at least 2+16+1 = 19 characters.
static size_t SprintfAddress(char* addressStr, size_t addressStrCapacity, const void* pAddress)
{
    #if defined(OVR_CC_MSVC)
        #if (OVR_PTR_SIZE >= 8)
            return OVR_snprintf(addressStr, addressStrCapacity, "0x%016I64x", pAddress);  // e.g. 0x0123456789abcdef
        #else
            return OVR_snprintf(addressStr, addressStrCapacity, "0x%08x", pAddress);      // e.g. 0x89abcdef
        #endif
    #else
        #if (OVR_PTR_SIZE >= 8)
            return OVR_snprintf(addressStr, addressStrCapacity, "%016llx", pAddress);     // e.g. 0x0123456789abcdef
        #else
            return OVR_snprintf(addressStr, addressStrCapacity, "%08x", pAddress);        // e.g. 0x89abcdef
        #endif
    #endif
}


// threadHandleStrCapacity should be at least 2+16+1 = 19 characters.
static size_t SprintfThreadHandle(char* threadHandleStr, size_t threadHandleStrCapacity, const ThreadHandle& threadHandle)
{
    return SprintfAddress(threadHandleStr, threadHandleStrCapacity, threadHandle);
}


// threadSysIdStrCapacity should be at least 20+4+16+2 = 42 characters.
static size_t SprintfThreadSysId(char* threadSysIdStr, size_t threadSysIdStrCapacity, const ThreadSysId& threadSysId)
{
    #if defined(OVR_CC_MSVC) // Somebody could conceivably use VC++ with a different standard library that supports %ll. And VS2012+ also support %ll.
        return OVR_snprintf(threadSysIdStr, threadSysIdStrCapacity, "%I64u (0x%I64x)", (uint64_t)threadSysId, (uint64_t)threadSysId); // e.g. 5642 (0x160a)
    #else
        return OVR_snprintf(threadSysIdStr, threadSysIdStrCapacity, "%llu (0x%llx)", (uint64_t)threadSysId, (uint64_t)threadSysId);
    #endif
}





void GetThreadStackBounds(void*& pStackBase, void*& pStackLimit, ThreadHandle threadHandle)
{
    #if defined(OVR_OS_WIN64) || defined(OVR_OS_WIN32)
        ThreadSysId threadSysIdCurrent = (ThreadSysId)GetCurrentThreadId();
        ThreadSysId threadSysId;
        NT_TIB*     pTIB = nullptr;

        if(threadHandle == OVR_THREADHANDLE_INVALID)
            threadSysId = threadSysIdCurrent;
        else
            threadSysId = ConvertThreadHandleToThreadSysId(threadHandle);

        if(threadSysId == threadSysIdCurrent)
        {
            #if (OVR_PTR_SIZE == 4)
                // Need to use __asm__("movl %%fs:0x18, %0" : "=r" (pTIB) : : ); under gcc/clang.
                __asm {
                    mov eax, fs:[18h]
                    mov pTIB, eax
                }
            #else
                pTIB = (NT_TIB*)NtCurrentTeb();
            #endif
        }
        else
        {
            #if (OVR_PTR_SIZE == 4)
                // It turns out we don't need to suspend the thread when getting SegFs/SegGS, as that's
                // constant per thread and doesn't require the thread to be suspended.
                //SuspendThread((HANDLE)threadHandle);
                CONTEXT context;
                memset(&context, 0, sizeof(context));
                context.ContextFlags = CONTEXT_SEGMENTS;
                GetThreadContext((HANDLE)threadHandle, &context); // Requires THREAD_QUERY_INFORMATION privileges.

                LDT_ENTRY ldtEntry;
                if(GetThreadSelectorEntry(threadHandle, context.SegFs, &ldtEntry)) // Requires THREAD_QUERY_INFORMATION
                    pTIB = (NT_TIB*)((ldtEntry.HighWord.Bits.BaseHi << 24 ) | (ldtEntry.HighWord.Bits.BaseMid << 16) | ldtEntry.BaseLow);

                //ResumeThread((HANDLE)threadHandle);
            #else
                // We cannot use GetThreadSelectorEntry or Wow64GetThreadSelectorEntry on Win64.
                // We need to read the SegGs qword at offset 0x30. We can't use pTIB = (NT_TIB*)__readgsqword(0x30) because that reads only the current setGs offset.
                //    mov rax, qword ptr gs:[30h]
                //    mov qword ptr [pTIB],rax
                // In the meantime we rely on the NtQueryInformationThread function.

                static NtQueryInformationThreadFunc spNtQueryInformationThread = nullptr;

                if(!spNtQueryInformationThread)
                {
                    HMODULE hNTDLL = GetModuleHandleA("ntdll.dll");
                    spNtQueryInformationThread = (NtQueryInformationThreadFunc)(uintptr_t)GetProcAddress(hNTDLL, "NtQueryInformationThread");
                }

                if(spNtQueryInformationThread)
                {
                    THREAD_BASIC_INFORMATION tbi;

                    memset(&tbi, 0, sizeof(tbi));
                    LONG result = spNtQueryInformationThread(threadHandle, 0, &tbi, sizeof(tbi), nullptr); // Requires THREAD_QUERY_INFORMATION privileges
                    if(result == 0)
                        pTIB = (NT_TIB*)tbi.TebBaseAddress;
                }
            #endif
        }

        if(pTIB)
        {
            pStackBase  = (void*)pTIB->StackBase;
            pStackLimit = (void*)pTIB->StackLimit;
        }
        else
        {
            pStackBase  = nullptr;
            pStackLimit = nullptr;
        }

    #elif defined(OVR_OS_APPLE)
        if(!threadHandle)
            threadHandle = pthread_self();

        pStackBase = pthread_get_stackaddr_np((pthread_t)threadHandle);
        size_t stackSize = pthread_get_stacksize_np((pthread_t)threadHandle);
        pStackLimit = (void*)((size_t)pStackBase - stackSize);

    #elif defined(OVR_OS_UNIX)
        pStackBase  = nullptr;
        pStackLimit = nullptr;

        pthread_attr_t threadAttr;
        pthread_attr_init(&threadAttr);

        #if defined(OVR_OS_LINUX)
            int result = pthread_getattr_np((pthread_t)threadHandle, &threadAttr);
        #else
            int result = pthread_attr_get_np((pthread_t)threadHandle, &threadAttr);
        #endif

        if(result == 0)
        {
            size_t stackSize = 0;
            result = pthread_attr_getstack(&threadAttr, &pStackLimit, &stackSize);

            if(result == 0)
                pStackBase = (void*)((uintptr_t)pStackLimit + stackSize); // We assume the stack grows downward.
        }

    #endif
}


bool OVRIsDebuggerPresent()
{
    #if defined(OVR_OS_MS)
        return ::IsDebuggerPresent() != 0;

    #elif defined(OVR_OS_APPLE)
        int               mib[4] = { CTL_KERN, KERN_PROC, KERN_PROC_PID, getpid() };
        struct kinfo_proc info;
        size_t            size = sizeof(info);

        info.kp_proc.p_flag = 0;
        sysctl(mib, sizeof(mib) / sizeof(*mib), &info, &size, nullptr, 0);

        return ((info.kp_proc.p_flag & P_TRACED) != 0);

    #elif defined(PT_TRACE_ME) && !defined(OVR_OS_ANDROID)
        return (ptrace(PT_TRACE_ME, 0, 1, 0) < 0);

    #elif (defined(OVR_OS_LINUX) || defined(OVR_OS_BSD)) && !defined(OVR_OS_ANDROID)
        // This works better than the PT_TRACE_ME approach, but causes the debugger to get
        // confused when executed under a debugger.
        // It also presents this problem:
        //     http://pubs.opengroup.org/onlinepubs/009695399/functions/fork.html
        //     When the application calls fork() from a signal handler and any of the
        //     fork handlers registered by pthread_atfork() calls a function that is
        //     not asynch-signal-safe, the behavior is undefined.
        // We may need to provide two pathways within this function, one of which
        // doesn't fork and instead uses PT_TRACE_ME.
        int  pid = fork();
        int  status;
        bool present = false;

        if (pid == -1) // If fork failed...
        {
            // perror("fork");
        }
        else if (pid == 0) // If we are the child process...
        {
            int ppid = getppid();

          #if defined(OVR_OS_LINUX)
            if (ptrace(PTRACE_ATTACH, ppid, nullptr, nullptr) == 0)
          #else
            if (ptrace(PT_ATTACH, ppid, nullptr, nullptr) == 0)
          #endif
            {
                waitpid(ppid, nullptr, 0);

              #if defined(OVR_OS_LINUX)
                ptrace(PTRACE_CONT, getppid(), nullptr, nullptr);
                ptrace(PTRACE_DETACH, getppid(), nullptr, nullptr);
              #else
                ptrace(PT_CONTINUE, getppid(), nullptr, nullptr);
                ptrace(PT_DETACH, getppid(), nullptr, nullptr);
              #endif
            }
            else
            {
                // ptrace failed so the debugger is present.
                present = true;
            }

            exit(present ? 1 : 0); // The WEXITSTATUS call below will read this exit value.
        }
        else // Else we are the original process.
        {
            waitpid(pid, &status, 0);
            present = WEXITSTATUS(status) ? true : false; // Read the exit value from the child's call to exit.
        }

        return present;

    #else
        return false;
    #endif
}


// Exits the process with the given exit code.
void ExitProcess(intptr_t processReturnValue)
{
    exit((int)processReturnValue);
}


// Note that we can't just return sizeof(void*) == 8, as we may have the case of a
// 32 bit app running on a 64 bit operating system.
static bool Is64BitOS()
{
    #if (OVR_PTR_SIZE >= 8)
        return true;

    #elif defined(OVR_OS_WIN32) || defined(OVR_OS_WIN64)
        BOOL is64BitOS = FALSE;
        bool IsWow64ProcessPresent = (GetProcAddress(GetModuleHandleW(L"kernel32.dll"), "IsWow64Process") != nullptr);
        return (IsWow64ProcessPresent && IsWow64Process(GetCurrentProcess(), &is64BitOS) && is64BitOS);

    #elif defined(OVR_OS_MAC) || defined(OVR_OS_UNIX)
        utsname utsName;
        memset(&utsName, 0, sizeof(utsName));
        return (uname(&utsName) == 0) && (strcmp(utsName.machine, "x86_64") == 0);

    #else
        return false;
    #endif
}


// The output will always be 0-terminated.
// Returns the required strlen of the output.
// Returns (size_t)-1 on failure.
size_t SpawnShellCommand(const char* shellCommand, char* output, size_t outputCapacity)
{
    #if defined(OVR_OS_UNIX) || defined(OVR_OS_APPLE)
        FILE* pFile = popen(shellCommand, "r");

        if(pFile)
        {
            size_t requiredLength = 0;
            char buffer[256];

            while(fgets(buffer, sizeof(buffer), pFile)) // fgets 0-terminates the buffer.
            {
                size_t length = OVR_strlen(buffer);
                requiredLength += length;

                if(outputCapacity)
                {
                    OVR_strlcpy(output, buffer, outputCapacity);
                    length = MIN(outputCapacity, length);
                }

                output         += length;
                outputCapacity -= length;
            }

            pclose(pFile);
            return requiredLength;
        }
    #else
        // To do. Properly solving this on Windows requires a bit of code.
        OVR_UNUSED(shellCommand);
        OVR_UNUSED(output);
        OVR_UNUSED(outputCapacity);
    #endif

    return (size_t)-1;
}

// Retrieves the name of the given thread.
// To do: Move this to OVR_Threads.h
bool GetThreadName(OVR::ThreadHandle threadHandle, char* threadName, size_t threadNameCapacity)
{
    #if (defined(OVR_OS_APPLE) || defined(OVR_OS_LINUX)) && !defined(OVR_OS_ANDROID)
        int result = pthread_getname_np((pthread_t)threadHandle, threadName, threadNameCapacity);
        if(result == 0)
            return true;
    #else
        // This is not currently possible on Windows, as only the debugger stores the thread name. We could potentially use a vectored
        // exception handler to catch all thread name exceptions (0x406d1388) and record them in a static list at runtime. To detect
        // thread exit we could use WMI Win32_ThreadStopTrace. Maintain a list of thread names between these two events.
        OVR_UNUSED(threadHandle);
        OVR_UNUSED(threadNameCapacity);
    #endif

    if(threadNameCapacity)
        threadName[0] = 0;

    return false;
}


OVR::ThreadSysId ConvertThreadHandleToThreadSysId(OVR::ThreadHandle threadHandle)
{
    #if defined(OVR_OS_WIN64)
        return (OVR::ThreadSysId)::GetThreadId(threadHandle); // Requires THREAD_QUERY_INFORMATION privileges.

    #elif defined(OVR_OS_WIN32)
        typedef DWORD (WINAPI *GetThreadIdFunc)(HANDLE);

        static volatile bool sInitialized = false;
        static GetThreadIdFunc spGetThreadIdFunc = nullptr;
        static NtQueryInformationThreadFunc spNtQueryInformationThread = nullptr;

        if(!sInitialized)
        {
            HMODULE hKernel32 = GetModuleHandleA("kernel32.dll");
            if(hKernel32)
                spGetThreadIdFunc = (GetThreadIdFunc)(uintptr_t)GetProcAddress(hKernel32, "GetThreadId");

            if(!spGetThreadIdFunc)
            {
                HMODULE hNTDLL = GetModuleHandleA("ntdll.dll");

                if(hNTDLL)
                    spNtQueryInformationThread = (NtQueryInformationThreadFunc)(uintptr_t)GetProcAddress(hNTDLL, "NtQueryInformationThread");
            }

            sInitialized = true;
        }

        if(spGetThreadIdFunc)
            return (OVR::ThreadSysId)spGetThreadIdFunc(threadHandle);

        if(spNtQueryInformationThread)
        {
            THREAD_BASIC_INFORMATION tbi;

            if(spNtQueryInformationThread(threadHandle, 0, &tbi, sizeof(tbi), nullptr) == 0)
                return (OVR::ThreadSysId)tbi.UniqueThreadId;
        }

        return OVR_THREADSYSID_INVALID;

    #elif defined(OVR_OS_APPLE)
        mach_port_t threadSysId = pthread_mach_thread_np((pthread_t)threadHandle);  // OS 10.4 and later.
        return (ThreadSysId)threadSysId;

    #elif defined(OVR_OS_LINUX)

        // I believe we can usually (though not portably) intepret the pthread_t as a pointer to a struct whose first member is a lwp id.
        OVR_UNUSED(threadHandle);
        return OVR_THREADSYSID_INVALID;

    #else
        OVR_UNUSED(threadHandle);
        return OVR_THREADSYSID_INVALID;
    #endif
}


OVR::ThreadHandle ConvertThreadSysIdToThreadHandle(OVR::ThreadSysId threadSysId)
{
    #if defined(OVR_OS_MS)
        // We currently request the given rights because that's what users of this function typically need it for. Ideally there would
        // be a way to specify the requested rights in order to avoid the problem if we need only a subset of them but can't get it.
        // The solution we use below to try opening with successively reduced rights will work for our uses here but isn't a good general solution to this.
        OVR::ThreadHandle threadHandle = ::OpenThread(THREAD_SUSPEND_RESUME | THREAD_GET_CONTEXT | THREAD_QUERY_INFORMATION, TRUE, (DWORD)threadSysId);

        if(threadHandle == OVR_THREADHANDLE_INVALID)
        {
            threadHandle = ::OpenThread(THREAD_GET_CONTEXT | THREAD_QUERY_INFORMATION, TRUE, (DWORD)threadSysId);

            if(threadHandle == OVR_THREADHANDLE_INVALID)
                threadHandle = ::OpenThread(THREAD_QUERY_INFORMATION, TRUE, (DWORD)threadSysId);
        }

        return threadHandle;
    #elif defined(OVR_OS_MAC)
        return (ThreadHandle)pthread_from_mach_thread_np((mach_port_t)threadSysId);
    #else
        return (ThreadHandle)threadSysId;
    #endif
}


void FreeThreadHandle(OVR::ThreadHandle threadHandle)
{
    #if defined(OVR_OS_MS)
        if(threadHandle != OVR_THREADHANDLE_INVALID)
            ::CloseHandle(threadHandle);
    #else
        OVR_UNUSED(threadHandle);
    #endif
}


OVR::ThreadSysId GetCurrentThreadSysId()
{
    #if defined(OVR_OS_MS)
        return ::GetCurrentThreadId();
    #elif defined(OVR_OS_APPLE)
        return (ThreadSysId)mach_thread_self();
    #else
        return (ThreadSysId)pthread_self();
    #endif
}



static void GetCurrentProcessFilePath(char* appPath, size_t appPathCapacity)
{
    appPath[0] = 0;

    #if defined(OVR_OS_MS)
        wchar_t pathW[OVR_MAX_PATH];
        GetModuleFileNameW(0, pathW, (DWORD)OVR_ARRAY_COUNT(pathW));

        size_t requiredUTF8Length = (size_t)OVR::UTF8Util::GetEncodeStringSize(pathW); // Returns required strlen.

        if(requiredUTF8Length < appPathCapacity)
        {
            OVR::UTF8Util::EncodeString(appPath, pathW, -1);
        }
        else
        {
            appPath[0] = 0;
        }

    #elif defined(OVR_OS_APPLE)
        struct BunderFolder
        {
            // Returns true if pStr ends with pFind, case insensitively.
            // To do: Move OVR_striend to OVRKernel/Std.h
            static bool OVR_striend(const char* pStr, const char* pFind, size_t strLength = (size_t)-1, size_t findLength = (size_t)-1)
            {
                if(strLength == (size_t)-1)
                    strLength = OVR_strlen(pStr);
                if(findLength == (size_t)-1)
                    findLength = OVR_strlen(pFind);
                if(strLength >= findLength)
                    return (OVR_stricmp(pStr + strLength - findLength, pFind) == 0);
                return false;
            }

            static bool IsBundleFolder(const char* filePath)
            {
                // https://developer.apple.com/library/mac/documentation/CoreFoundation/Conceptual/CFBundles/AboutBundles/AboutBundles.html#//apple_ref/doc/uid/10000123i-CH100-SW1
                static const char* extensionArray[] = { ".app", ".bundle", ".framework", ".plugin", ".kext" };

                for(size_t i = 0; i < OVR_ARRAY_COUNT(extensionArray); i++)
                {
                    if(OVR_striend(filePath, extensionArray[i]))
                        return true;
                }

                return false;
            }
        };

        char     appPathTemp[PATH_MAX];
        uint32_t appPathTempCapacity32 = PATH_MAX;
        size_t   requiredStrlen = appPathCapacity;

        if(_NSGetExecutablePath(appPathTemp, &appPathTempCapacity32) == 0)
        {
            char appPathTempReal[PATH_MAX];

            if(realpath(appPathTemp, appPathTempReal))  // If the path is a symbolic link, this converts it to the real path.
            {
                // To consider: Enable reading the internal bundle executable path. An application on Mac may in
                // fact be within a file bundle, which is an private file system within a file. With Objective C
                // we could use: [[NSWorkspace sharedWorkspace] isFilePackageAtPath:fullPath];
                bool shouldReadTheBunderPath = false;

                if(shouldReadTheBunderPath)
                {
                    // We recursively call dirname() until we find .app/.bundle/.plugin as a directory name.
                    OVR_strlcpy(appPathTemp, appPathTempReal, OVR_ARRAY_COUNT(appPathTemp));
                    bool found = BunderFolder::IsBundleFolder(appPathTemp);

                    while(!found && OVR_strcmp(appPathTemp, ".") && OVR_strcmp(appPathTemp, "/"))
                    {
                        OVR_strlcpy(appPathTemp, dirname(appPathTemp), OVR_ARRAY_COUNT(appPathTemp));
                        found = BunderFolder::IsBundleFolder(appPathTemp);
                    }

                    if(found) // If somewhere above we found a parent bundle container...
                        requiredStrlen = OVR_strlcpy(appPath, appPathTemp, appPathCapacity);
                    else
                        requiredStrlen = OVR_strlcpy(appPath, appPathTempReal, appPathCapacity);
                }
                else
                {
                    requiredStrlen = OVR_strlcpy(appPath, appPathTempReal, appPathCapacity);
                }
            }
        }

        if(requiredStrlen >= appPathCapacity)
            appPath[0] = '\0';

    #elif defined(OVR_OS_LINUX)
        ssize_t length = readlink("/proc/self/exe", appPath, appPathCapacity);

        if((length != -1) && ((size_t)length < (appPathCapacity - 1)))
        {
            appPath[length] = '\0';
        }
    #endif
}


static const char* GetFileNameFromPath(const char* filePath)
{
    const char* lastPathSeparator = strrchr(filePath, '/');

    #if defined(OVR_OS_MS)
        // Microsoft APIs are inconsistent with respect to allowing / as a path separator.
        const char* candidate = strrchr(filePath, '\\');

        if(candidate > lastPathSeparator)
        {
            lastPathSeparator = candidate;
        }
    #endif

    if(lastPathSeparator)
        return lastPathSeparator + 1;

    return filePath;
}



static void FormatDateTime(char* buffer, size_t bufferCapacity, time_t timeValue, bool getDate, bool getTime, bool localDateTime, bool fileNameSafeCharacters = false)
{
    char      temp[128];
    const tm* pTime = localDateTime ? localtime(&timeValue) : gmtime(&timeValue);

    if(bufferCapacity)
        buffer[0] = 0;

    if(getDate)
    {
        const char* format = fileNameSafeCharacters ? "%Y-%m-%d" : "%Y/%m/%d";
        strftime(temp, OVR_ARRAY_COUNT(temp), format, pTime);
        OVR::OVR_strlcpy(buffer, temp, bufferCapacity);
    }

    if(getTime)
    {
        const char* format = fileNameSafeCharacters ? " %H.%M.%S" : " %H:%M:%S";
        strftime(temp, OVR_ARRAY_COUNT(temp), (getDate ? format : format + 1), pTime);
        OVR::OVR_strlcat(buffer, temp, bufferCapacity);
    }
}


static void GetOSVersionName(char* versionName, size_t versionNameCapacity)
{
    #if defined(OVR_OS_MS)
        const char* name = "unknown";

        OSVERSIONINFOEXW vi;
        memset(&vi, 0, sizeof(vi));
        vi.dwOSVersionInfoSize = sizeof(vi);

        if(GetVersionExW((LPOSVERSIONINFOW)&vi))
        {
            if(vi.dwMajorVersion >= 7)
            {
                // Unknown recent version.
            }
            if(vi.dwMajorVersion >= 6)
            {
                if(vi.dwMinorVersion >= 4)
                    name = "Windows 10";
                else if(vi.dwMinorVersion >= 3)
                {
                    if(vi.wProductType == VER_NT_WORKSTATION)
                        name = "Windows 8.1";
                    else
                        name = "Windows Server 2012 R2";
                }
                else if(vi.dwMinorVersion >= 2)
                {
                    if(vi.wProductType == VER_NT_WORKSTATION)
                        name = "Windows 8";
                    else
                        name = "Windows Server 2012";
                }
                else if(vi.dwMinorVersion >= 1)
                {
                    if(vi.wProductType == VER_NT_WORKSTATION)
                        name = "Windows 7";
                    else
                        name = "Windows Server 2008 R2";
                }
                else
                {
                    if(vi.wProductType == VER_NT_WORKSTATION)
                        name = "Windows Vista";
                    else
                        name = "Windows Server 2008";
                }
            }
            else if(vi.dwMajorVersion >= 5)
            {
                if(vi.dwMinorVersion == 0)
                    name = "Windows 2000";
                else if(vi.dwMinorVersion == 1)
                    name = "Windows XP";
                else // vi.dwMinorVersion == 2
                {
                    if(GetSystemMetrics(SM_SERVERR2) != 0)
                        name = "Windows Server 2003 R2";
                    else if(vi.wSuiteMask & VER_SUITE_WH_SERVER)
                        name = "Windows Home Server";
                    if(GetSystemMetrics(SM_SERVERR2) == 0)
                        name = "Windows Server 2003";
                    else
                        name = "Windows XP Professional x64 Edition";
                }
            }
            else
                name = "Windows 98 or earlier";
        }

        OVR_strlcpy(versionName, name, versionNameCapacity);

    #elif defined(OVR_OS_UNIX) || defined(OVR_OS_APPLE)
        utsname utsName;
        memset(&utsName, 0, sizeof(utsName));

        if(uname(&utsName) == 0)
            OVR_snprintf(versionName, versionNameCapacity, "%s %s %s %s", utsName.sysname, utsName.release, utsName.version, utsName.machine);
        else
            OVR_snprintf(versionName, versionNameCapacity, "Unix");
    #endif
}




void CreateException(CreateExceptionType exceptionType)
{
    char buffer[1024] = {};

    switch(exceptionType)
    {
        case kCETAccessViolation:
        {
            int* pNullPtr = reinterpret_cast<int*>((rand() / 2) / RAND_MAX);
            pNullPtr[0] = 0;    // This line should generate an exception.
            sprintf(buffer, "%p", pNullPtr);
            break;
        }

        case kCETDivideByZero:
        {
            int smallValue = 1;
            int largeValue = (1000 * exceptionType);
            int divByZero = (smallValue / largeValue); // This line should generate a div/0 exception.
            sprintf(buffer, "%d", divByZero);
            break;
        }

        case kCETIllegalInstruction:
        {
            #if defined(OVR_CPU_X86) || (defined(OVR_CPU_X86_64) && !defined(OVR_CC_MSVC)) // (if x86) or (if x64 and any computer but VC++)...
                #if defined(OVR_CC_MSVC)
                    __asm ud2
                #else // e.g. GCC
                    asm volatile("ud2");
                #endif

            #elif defined(OVR_CPU_X86_64) && (defined(OVR_OS_MS) && defined(PAGE_EXECUTE_READWRITE))
                // VC++ for x64 doesn't support inline asm.
                void*   pVoid          = _AddressOfReturnAddress();
                void**  ppVoid         = reinterpret_cast<void**>(pVoid);
                void*   pReturnAddress = *ppVoid;
                DWORD   dwProtectPrev  = 0;

                if(VirtualProtect(pReturnAddress, 2, PAGE_EXECUTE_READWRITE, &dwProtectPrev)) // If we can set the memory to be executable...
                {
                    // Modify the code we return to.
                    uint8_t asm_ud2[] = { 0x0f, 0x0b };
                    memcpy(pReturnAddress, asm_ud2, sizeof(asm_ud2));
                    VirtualProtect(pReturnAddress, 2, dwProtectPrev, &dwProtectPrev);
                }
                else
                {
                    // To do: Fix this.
                }

            #else
                // To do: Fix this.
            #endif

            break;
        }

        case kCETStackCorruption:
        {
            size_t size = (sizeof(buffer) * 16) - (rand() % 16);
            char*  pOutsizeStack = buffer - ((sizeof(buffer) * 16) + (rand() % 16));

            memset(buffer, 0, size);
            memset(pOutsizeStack, 0, size); // This line should generate an exception, or an exception will be generated upon return from this function.
            break;
        }

        case kCETStackOverflow:
        {
            CreateException(exceptionType);             // Call ourselves recursively. This line should generate a div/0 exception.
            sprintf(buffer, "%d", exceptionType);
            break;
        }

        case kCETAlignment:
        {
            // Not all platforms generate alignment exceptions. Some internally handle it.
            void*     pAligned      = malloc(16);
            char*     pMisaligned   = (char*)pAligned + 1;
            uint64_t* pMisaligned64 = reinterpret_cast<uint64_t*>(pMisaligned);

            *pMisaligned64 = 0; // This line should generate an exception.
            free(pAligned);
            break;
        }

        case kCETFPU:
            // Platforms usually have FPU exceptions disabled. In order to test FPU exceptions we will need to at least
            // temporarily disable them before executing code here to generate such exceptions.
            // To do.
            break;

        case kCETTrap:
            // To do. This is hardware-specific.
            break;
    }
}


//-----------------------------------------------------------------------------
// SymbolLookup

#if defined(OVR_OS_MS)
    #if defined(OVR_CC_MSVC)
        // The Lock below is one that we want to keep around as long as possible, as there may be application code that
        // needs to do symbol lookups during process teardown after main has returned. The init_seg(lib) statement
        // below makes it so that this module's globals are initialized right after the C standard library has initialized,
        // and are destroyed right before the C standard library is destroyed (after after all other app globals are destroyed).
        #pragma warning(disable: 4073) // warning C4073: initializers put in library initialization area.
        #pragma warning(disable: 4075) // warning C4075: initializers put in unrecognized initialization area.
        #pragma init_seg(lib)
    #endif

    typedef BOOL    (WINAPI * StackWalk64Type)(DWORD MachineType, HANDLE hProcess, HANDLE hThread, LPSTACKFRAME64 StackFrame, PVOID ContextRecord, PREAD_PROCESS_MEMORY_ROUTINE64 ReadMemoryRoutine, PFUNCTION_TABLE_ACCESS_ROUTINE64 FunctionTableAccessRoutine, PGET_MODULE_BASE_ROUTINE64 GetModuleBaseRoutine, PTRANSLATE_ADDRESS_ROUTINE64 TranslateAddress);
    typedef PVOID   (WINAPI * SymFunctionTableAccess64Type)(HANDLE hProcess, DWORD64 dwAddr);
    typedef DWORD64 (WINAPI * SymGetModuleBase64Type)(HANDLE hProcess, DWORD64 dwAddr);
    typedef DWORD   (WINAPI * SymSetOptionsType)(DWORD SymOptions);
    typedef BOOL    (WINAPI * SymInitializeWType)(HANDLE hProcess, PCWSTR UserSearchPath, BOOL fInvadeProcess);
    typedef BOOL    (WINAPI * SymCleanupType)(HANDLE hProcess);
    typedef DWORD64 (WINAPI * SymLoadModule64Type)(HANDLE hProcess, HANDLE hFile, PCSTR ImageName, PCSTR ModuleName, DWORD64 BaseOfDll, DWORD SizeOfDll);
    typedef BOOL    (WINAPI * SymFromAddrType)(HANDLE hProcess, DWORD64 Address, PDWORD64 Displacement, PSYMBOL_INFO Symbol);
    typedef BOOL    (WINAPI * SymGetLineFromAddr64Type)(HANDLE hProcess, DWORD64 qwAddr, PDWORD pdwDisplacement, PIMAGEHLP_LINE64 Line64);

    static StackWalk64Type              pStackWalk64 = nullptr;
    static SymFunctionTableAccess64Type pSymFunctionTableAccess64 = nullptr;
    static SymGetModuleBase64Type       pSymGetModuleBase64 = nullptr;
    static SymSetOptionsType            pSymSetOptions = nullptr;
    static SymInitializeWType           pSymInitializeW = nullptr;
    static SymCleanupType               pSymCleanup = nullptr;
    static SymLoadModule64Type          pSymLoadModule64 = nullptr;
    static SymFromAddrType              pSymFromAddr = nullptr;
    static SymGetLineFromAddr64Type     pSymGetLineFromAddr64 = nullptr;
    static int32_t                      sSymUsageCount = 0;
    static HMODULE                      sDbgHelp = nullptr;
    static OVR::Lock                    sDbgHelpLock;

    bool SymbolLookup::Initialize()
    {
        OVR::Lock::Locker autoLock(&sDbgHelpLock);

        if (++sSymUsageCount > 1)
        {
            OVR_ASSERT(pSymInitializeW != nullptr); // If it was already initialized then the pointers should be valid.
            return true;
        }

        // http://msdn.microsoft.com/en-us/library/windows/desktop/ms679294%28v=vs.85%29.aspx
        sDbgHelp = LoadLibraryW(L"DbgHelp.dll"); // It's best if the application supplies a recent version of this.

        if (sDbgHelp)
        {
            pStackWalk64              = (StackWalk64Type)(uintptr_t)::GetProcAddress(sDbgHelp, "StackWalk64");
            pSymFunctionTableAccess64 = (SymFunctionTableAccess64Type)(uintptr_t)::GetProcAddress(sDbgHelp, "SymFunctionTableAccess64");
            pSymGetModuleBase64       = (SymGetModuleBase64Type)(uintptr_t)::GetProcAddress(sDbgHelp, "SymGetModuleBase64");
            pSymSetOptions            = (SymSetOptionsType)(uintptr_t)::GetProcAddress(sDbgHelp, "SymSetOptions");
            pSymInitializeW           = (SymInitializeWType)(uintptr_t)::GetProcAddress(sDbgHelp, "SymInitializeW");
            pSymCleanup               = (SymCleanupType)(uintptr_t)::GetProcAddress(sDbgHelp, "SymCleanup");
            pSymLoadModule64          = (SymLoadModule64Type)(uintptr_t)::GetProcAddress(sDbgHelp, "SymLoadModule64");
            pSymFromAddr              = (SymFromAddrType)(uintptr_t)::GetProcAddress(sDbgHelp, "SymFromAddr");
            pSymGetLineFromAddr64     = (SymGetLineFromAddr64Type)(uintptr_t)::GetProcAddress(sDbgHelp, "SymGetLineFromAddr64");

            // To consider: Use a manually created search path:
            // wchar_t searchPathW[4096]; // Semicolon-separated strings.
            //     The current working directory of the application.
            //     The directory of the application itself (GetModuleFileName).
            //     The _NT_SYMBOL_PATH environment variable.
            //     The _NT_ALTERNATE_SYMBOL_PATH environment variable.

            if (pSymInitializeW)
            {
                if (pSymInitializeW(GetCurrentProcess(), nullptr /*searchPathW*/, FALSE))
                {
                    if (pSymSetOptions)
                    {
                        pSymSetOptions(SYMOPT_UNDNAME | SYMOPT_DEFERRED_LOADS);
                    }

                    return true;
                }
            }
        }

        return false;
    }

    bool SymbolLookup::IsInitialized()
    {
        // Note that it's possible that another thread could change the state of this right after the return.
        OVR::Lock::Locker autoLock(&sDbgHelpLock);
        return (sSymUsageCount != 0);
    }

    void SymbolLookup::Shutdown()
    {
        OVR::Lock::Locker autoLock(&sDbgHelpLock);

        if (sSymUsageCount > 0 &&
            --sSymUsageCount <= 0)
        {
            pSymCleanup(GetCurrentProcess());

            pStackWalk64              = nullptr;
            pSymFunctionTableAccess64 = nullptr;
            pSymGetModuleBase64       = nullptr;
            pSymSetOptions            = nullptr;
            pSymInitializeW           = nullptr;
            pSymCleanup               = nullptr;
            pSymLoadModule64          = nullptr;
            pSymFromAddr              = nullptr;
            pSymGetLineFromAddr64     = nullptr;

            FreeLibrary(sDbgHelp);
            sDbgHelp = nullptr;
        }
    }
#else
    bool SymbolLookup::Initialize()
    {
        return true;
    }

    bool SymbolLookup::IsInitialized()
    {
        return true;
    }

    void SymbolLookup::Shutdown()
    {
    }
#endif

SymbolLookup::SymbolLookup() :
    AllowMemoryAllocation(true),
    ModuleListUpdated(false),
    ModuleInfoArray(),
    ModuleInfoArraySize(0)
{
}

SymbolLookup::~SymbolLookup()
{
}

void SymbolLookup::AddSourceCodeDirectory(const char* pDirectory)
{
    OVR_UNUSED(pDirectory);
}

void SymbolLookup::EnableMemoryAllocation(bool enabled)
{
    AllowMemoryAllocation = enabled;
}


bool SymbolLookup::Refresh()
{
    ModuleListUpdated = false;
    return RefreshModuleList();
}


OVR_DISABLE_MSVC_WARNING(4740) // flow in or out of inline asm code suppresses global optimization
OVR_DISABLE_MSVC_WARNING(4748) // /GS can not protect parameters and local variables from local buffer overrun because optimizations are disabled in function


size_t SymbolLookup::GetBacktrace(void* addressArray[], size_t addressArrayCapacity, size_t skipCount, void* platformThreadContext, OVR::ThreadSysId threadSysIdHelp)
{
    #if defined(OVR_OS_WIN64)
        OVR_UNUSED(threadSysIdHelp);

        // The DbgHelp library must be loaded already.
        OVR_ASSERT(sSymUsageCount > 0);

        if(platformThreadContext == nullptr)
            return RtlCaptureStackBackTrace((DWORD)skipCount, (ULONG)addressArrayCapacity, addressArray, nullptr);

        // We need to get the call stack of another thread.
        size_t            frameIndex = 0;
        CONTEXT           context;
        PRUNTIME_FUNCTION pRuntimeFunction;
        ULONG64           imageBase = 0;
        ULONG64           imageBasePrev = 0;

        memcpy(&context, (CONTEXT*)platformThreadContext, sizeof(CONTEXT));
        context.ContextFlags = CONTEXT_CONTROL;

        if(context.Rip && (frameIndex < addressArrayCapacity))
            addressArray[frameIndex++] = (void*)(uintptr_t)context.Rip;

        while(context.Rip && (frameIndex < addressArrayCapacity))
        {
            imageBasePrev = imageBase;
            pRuntimeFunction = (PRUNTIME_FUNCTION)RtlLookupFunctionEntry(context.Rip, &imageBase, nullptr);

            if(pRuntimeFunction)
            {
                VOID*   handlerData = nullptr;
                ULONG64 establisherFramePointers[2] = { 0, 0 };
                RtlVirtualUnwind(UNW_FLAG_NHANDLER, imageBase, context.Rip, pRuntimeFunction, &context, &handlerData,  establisherFramePointers, nullptr);
            }
            else
            {
                context.Rip  = (ULONG64)(*(PULONG64)context.Rsp);
                context.Rsp += 8;
            }

            if(context.Rip && (frameIndex < addressArrayCapacity))
            {
                if(skipCount)
                    --skipCount;
                else
                    addressArray[frameIndex++] = (void*)(uintptr_t)context.Rip;
            }
        }

        return frameIndex;

    #elif defined(OVR_OS_WIN32)
        OVR_UNUSED(threadSysIdHelp);

        OVR::Lock::Locker autoLock(&sDbgHelpLock);
        size_t frameIndex = 0;

        if(pStackWalk64)
        {
            CONTEXT context;

            if(platformThreadContext)
            {
                memcpy(&context, platformThreadContext, sizeof(context));
                context.ContextFlags = CONTEXT_CONTROL;
            }
            else
            {
                memset(&context, 0, sizeof(context));
                context.ContextFlags = CONTEXT_CONTROL;

                __asm {
                    mov context.Ebp, EBP
                    mov context.Esp, ESP
                    call GetEIP
                    GetEIP:
                    pop context.Eip
                }
            }

            STACKFRAME64 sf;
            memset(&sf, 0, sizeof(sf));
            sf.AddrPC.Offset     = context.Eip;
            sf.AddrPC.Mode       = AddrModeFlat;
            sf.AddrStack.Offset  = context.Esp;
            sf.AddrStack.Mode    = AddrModeFlat;
            sf.AddrFrame.Offset  = context.Ebp;
            sf.AddrFrame.Mode    = AddrModeFlat;

            const HANDLE hCurrentProcess = ::GetCurrentProcess();
            const HANDLE hCurrentThread  = ::GetCurrentThread();

            if(!platformThreadContext) // If we are reading the current thread's call stack then we ignore this current function.
                skipCount++;

            while(frameIndex < addressArrayCapacity)
            {
                if(!pStackWalk64(IMAGE_FILE_MACHINE_I386, hCurrentProcess, hCurrentThread, &sf, &context, nullptr, pSymFunctionTableAccess64, pSymGetModuleBase64, nullptr))
                    break;

                if(sf.AddrFrame.Offset == 0)
                    break;

                if(skipCount)
                    --skipCount;
                else
                    addressArray[frameIndex++] = ((void*)(uintptr_t)sf.AddrPC.Offset);
            }
        }

        return frameIndex;

    #elif defined(OVR_OS_APPLE)
        struct StackFrame
        {
            StackFrame* pParentStackFrame;
            void*       pReturnPC;
        };

        void*       pInstruction;
        StackFrame* pStackFrame;
        size_t      frameIndex = 0;

        if(platformThreadContext)
        {
            #if defined(OVR_CPU_ARM)
                arm_thread_state_t* pThreadState = (arm_thread_state_t*)platformThreadContext;
                pStackFrame  = (StackFrame*)pThreadState->__fp;
                pInstruction = (void*)      pThreadState->__pc;
                #define FrameIsAligned(pStackFrame) ((((uintptr_t)pStackFrame) & 0x1) == 0)
            #elif defined(OVR_CPU_X86_64)
                x86_thread_state_t* pThreadState = (x86_thread_state_t*)platformThreadContext;
                pInstruction = (void*)      pThreadState->uts.ts64.__rip;
                pStackFrame  = (StackFrame*)pThreadState->uts.ts64.__rbp;
                #define FrameIsAligned(pStackFrame) ((((uintptr_t)pStackFrame) & 0xf) == 0)
            #elif defined(OVR_CPU_X86)
                x86_thread_state_t* pThreadState = (x86_thread_state_t*)platformThreadContext;
                pInstruction = (void*)      pThreadState->uts.ts32.__eip;
                pStackFrame  = (StackFrame*)pThreadState->uts.ts32.__ebp;
                #define FrameIsAligned(pStackFrame) ((((uintptr_t)pStackFrame) & 0xf) == 8)
            #endif

            if(frameIndex < addressArrayCapacity)
                addressArray[frameIndex++] = pInstruction;
        }
        else // Else get the current values...
        {
            pStackFrame = (StackFrame*)__builtin_frame_address(0);
            GetInstructionPointer(pInstruction);
        }

        pthread_t   threadSelf         = pthread_self();
        void*       pCurrentStackBase  = pthread_get_stackaddr_np(threadSelf);
        void*       pCurrentStackLimit = (void*)((uintptr_t)pCurrentStackBase - pthread_get_stacksize_np(threadSelf));
        bool        threadIsCurrent    = (platformThreadContext == nullptr) || (((void*)pStackFrame > pCurrentStackLimit) && ((void*)pStackFrame <= pCurrentStackBase));
        StackFrame* pStackBase;
        StackFrame* pStackLimit;

        if(threadIsCurrent)
        {
            pStackBase  = (StackFrame*)pCurrentStackBase;
            pStackLimit = (StackFrame*)pCurrentStackLimit;
        }
        else if(threadSysIdHelp)
        {
            pthread_t threadHandle = pthread_from_mach_thread_np((mach_port_t)threadSysIdHelp);
            pStackBase  = (StackFrame*)pthread_get_stackaddr_np(threadHandle);
            pStackLimit = (StackFrame*)((uintptr_t)pStackBase - pthread_get_stacksize_np(threadHandle));
        }
        else
        {   // We guess what the limits are.
            pStackBase  = pStackFrame + ((384 * 1024) / sizeof(StackFrame));
            pStackLimit = pStackFrame - ((384 * 1024) / sizeof(StackFrame));
        }

        if((frameIndex < addressArrayCapacity) && pStackFrame && FrameIsAligned(pStackFrame))
        {
            addressArray[frameIndex++] = pStackFrame->pReturnPC;

            while(pStackFrame && pStackFrame->pReturnPC && (frameIndex < addressArrayCapacity))
            {
                pStackFrame = pStackFrame->pParentStackFrame;

                if(pStackFrame && FrameIsAligned(pStackFrame) && pStackFrame->pReturnPC && (pStackFrame > pStackLimit) && (pStackFrame < pStackBase))
                {
                    if(skipCount)
                        --skipCount;
                    else
                        addressArray[frameIndex++] = pStackFrame->pReturnPC;
                }
                else
                    break;
            }
        }

        return frameIndex;

    #elif defined(OVR_OS_LINUX) && (defined( __LIBUNWIND__) || defined(LIBUNWIND_AVAIL))
        // Libunwind-based solution. Requires installation of libunwind package.
        // Libunwind isn't always safe for threads that are in signal handlers.
        // An approach to get the callstack of another thread is to use signal injection into the target thread.

        OVR_UNUSED(platformThreadContext);
        OVR_UNUSED(threadSysIdHelp);

        size_t        frameIndex = 0;
        unw_cursor_t  cursor;
        unw_context_t uc;
        unw_word_t    ip, sp;

        unw_getcontext(&uc);            // This gets the current thread's context. We could alternatively initialize another thread's context with it.
        unw_init_local(&cursor, &uc);

        while((unw_step(&cursor) > 0) && (frameIndex < addressArrayCapacity))
        {
            // We can get the function name here too on some platforms with unw_get_proc_info() and unw_get_proc_name().

            if(skipCount)
                --skipCount;
            else
            {
                unw_get_reg(&cursor, UNW_REG_IP, &ip);
                addressArray[frameIndex++] = (void*)ip;
            }
        }

        return frameIndex;
    #else
        OVR_UNUSED(addressArray);
        OVR_UNUSED(addressArrayCapacity);
        OVR_UNUSED(skipCount);
        OVR_UNUSED(platformThreadContext);
        OVR_UNUSED(threadSysIdHelp);

        return 0;
    #endif
}


size_t SymbolLookup::GetBacktraceFromThreadHandle(void* addressArray[], size_t addressArrayCapacity, size_t skipCount, OVR::ThreadHandle threadHandle)
{
    #if defined(OVR_OS_MS)
        size_t count = 0;
        DWORD  threadSysId = (DWORD)ConvertThreadHandleToThreadSysId(threadHandle);

        // Compare to 0, compare to the self 'pseudohandle' and compare to the self id.
        if((threadHandle == OVR_THREADHANDLE_INVALID) || (threadHandle == ::GetCurrentThread()) || (threadSysId == ::GetCurrentThreadId())) // If threadSysId refers to the current thread...
            return GetBacktrace(addressArray, addressArrayCapacity, skipCount, nullptr);

        // We are working with another thread. We need to suspend it and get its CONTEXT.
        // Suspending other threads is risky, as they may be in some state that cannot be safely blocked.
        BOOL  result = false;
        DWORD suspendResult = ::SuspendThread(threadHandle); // Requires that the handle have THREAD_SUSPEND_RESUME rights.

        if(suspendResult != (DWORD)-1) // Returns previous suspend count, or -1 if failed.
        {
            CONTEXT context;
            context.ContextFlags = CONTEXT_CONTROL | CONTEXT_INTEGER; // Requires that the handle have THREAD_GET_CONTEXT rights.
            result = ::GetThreadContext(threadHandle, &context);
            count = GetBacktrace(addressArray, addressArrayCapacity, skipCount, &context);
            suspendResult = ::ResumeThread(threadHandle);
            OVR_ASSERT_AND_UNUSED(suspendResult != (DWORD)-1, suspendResult);
        }

        return count;

    #elif defined(OVR_OS_APPLE)
        mach_port_t threadSysID = pthread_mach_thread_np((pthread_t)threadHandle); // Convert pthread_t to mach thread id.
        return GetBacktraceFromThreadSysId(addressArray, addressArrayCapacity, skipCount, (OVR::ThreadSysId)threadSysID);

    #elif defined(OVR_OS_LINUX)
        // To do.
        OVR_UNUSED(addressArray);
        OVR_UNUSED(addressArrayCapacity);
        OVR_UNUSED(skipCount);
        OVR_UNUSED(threadHandle);
        return 0;
    #endif
}


size_t SymbolLookup::GetBacktraceFromThreadSysId(void* addressArray[], size_t addressArrayCapacity, size_t skipCount, OVR::ThreadSysId threadSysId)
{
    #if defined(OVR_OS_MS)
        OVR::ThreadHandle threadHandle = ConvertThreadSysIdToThreadHandle(threadSysId);
        if(threadHandle)
        {
            size_t count = GetBacktraceFromThreadHandle(addressArray, addressArrayCapacity, skipCount, threadHandle);
            FreeThreadHandle(threadHandle);
            return count;
        }
        return 0;

    #elif defined(OVR_OS_APPLE)
        mach_port_t threadCurrent = pthread_mach_thread_np(pthread_self());
        mach_port_t thread = (mach_port_t)threadSysId;

        if(thread == threadCurrent)
        {
            return GetBacktrace(addressArray, addressArrayCapacity, skipCount, nullptr);
        }
        else
        {
            kern_return_t result = thread_suspend(thread);    // Do we need to do this if it's an thread who exception is being handled?
            size_t        count  = 0;

            if(result == KERN_SUCCESS)
            {
                #if defined(OVR_CPU_X86) || defined(OVR_CPU_X86_64)
                    x86_thread_state_t threadState;
                #elif defined(OVR_CPU_ARM)
                    arm_thread_state_t threadState;
                #endif
                mach_msg_type_number_t stateCount = MACHINE_THREAD_STATE_COUNT;

                result = thread_get_state(thread, MACHINE_THREAD_STATE, (natural_t*)(uintptr_t)&threadState, &stateCount);

                if(result == KERN_SUCCESS)
                    count = GetBacktrace(addressArray, addressArrayCapacity, skipCount, &threadState, threadSysId);

                thread_resume(thread);

                return count;
            }
        }

        return 0;

    #elif defined(OVR_OS_LINUX)
        // To do.
        OVR_UNUSED(addressArray);
        OVR_UNUSED(addressArrayCapacity);
        OVR_UNUSED(skipCount);
        OVR_UNUSED(threadSysId);
        return 0;
    #endif
}


// We need to return the required moduleInfoArrayCapacity.
size_t SymbolLookup::GetModuleInfoArray(ModuleInfo* pModuleInfoArray, size_t moduleInfoArrayCapacity)
{
    #if defined(OVR_OS_MS)
        size_t       moduleCountRequired = 0;         // The count we would copy to pModuleInfoArray if moduleInfoArrayCapacity was enough.
        size_t       moduleCount = 0;                 // The count we actually copy to pModuleInfoArray. Will be <= moduleInfoArrayCapacity.
        HANDLE       hProcess = GetCurrentProcess();
        HMODULE      hModuleArray[200];
        DWORD        cbNeeded = 0;
        MODULEINFO   mi;

        if(EnumProcessModules(hProcess, hModuleArray, sizeof(hModuleArray), &cbNeeded))
        {
            moduleCountRequired = ((cbNeeded / sizeof(HMODULE)) < OVR_ARRAY_COUNT(hModuleArray)) ? (cbNeeded / sizeof(HMODULE)) : OVR_ARRAY_COUNT(hModuleArray);
            moduleCount         = MIN(moduleCountRequired, OVR_ARRAY_COUNT(hModuleArray));
            moduleCount         = MIN(moduleCount, moduleInfoArrayCapacity);

            for(size_t i = 0; i < moduleCount; i++)
            {
                ModuleInfo& moduleInfo = pModuleInfoArray[i];

                memset(&mi, 0, sizeof(mi));
                BOOL result = GetModuleInformation(hProcess, hModuleArray[i], &mi, sizeof(mi));

                if(result)
                {
                    wchar_t pathW[OVR_MAX_PATH];
                    char    pathA[OVR_MAX_PATH * 3]; // *3 to handle UTF8 multibyte encoding.

                    moduleInfo.handle      = hModuleArray[i];
                    moduleInfo.baseAddress = (uintptr_t)mi.lpBaseOfDll;
                    moduleInfo.size        = mi.SizeOfImage;

                    GetModuleFileNameW(hModuleArray[i], pathW, OVR_ARRAY_COUNT(pathW));
                    OVR::UTF8Util::EncodeString(pathA, pathW, -1); // Problem: DecodeString provides no way to specify the destination capacity.
                    OVR::OVR_strlcpy(moduleInfo.filePath, pathA, OVR_ARRAY_COUNT(moduleInfo.filePath));

                    const char* fileName = GetFileNameFromPath(pathA);
                    OVR::OVR_strlcpy(moduleInfo.name, fileName, OVR_ARRAY_COUNT(moduleInfo.name));
                }
                else
                {
                    moduleInfo.handle = 0;
                    moduleInfo.baseAddress = 0;
                    moduleInfo.size = 0;
                    moduleInfo.filePath[0] = 0;
                    moduleInfo.name[0] = 0;
                }
            }
        }

        return moduleCountRequired;

    #elif defined(OVR_OS_MAC)
        size_t moduleCountRequired = 0;
        size_t moduleCount = 0;

        struct MacModuleInfo // This struct exists solely so we can have a local function within this function..
        {
            static void AddMacModuleInfo(ModuleInfo* pModuleInfoArrayL, size_t& moduleCountRequiredL, size_t& moduleCountL, size_t moduleInfoArrayCapacityL,
                                        const char* pTypeFilterL, const char* pModulePath, uintptr_t currentSegmentPos, const MachHeader* pMachHeader, uint64_t offset)
            {
                for(size_t i = 0; i < pMachHeader->ncmds; i++)
                {
                    const SegmentCommand* pSegmentCommand = reinterpret_cast<const SegmentCommand*>(currentSegmentPos);

                    if(pSegmentCommand->cmd == kLCSegment)
                    {
                        const size_t segnameSize = (sizeof(pSegmentCommand->segname) + 1); // +1 so we can have a trailing '\0'.
                        char segname[segnameSize];

                        memcpy(segname, pSegmentCommand->segname, sizeof(pSegmentCommand->segname));
                        segname[segnameSize - 1] = '\0';

                        if(!pTypeFilterL || OVR_strncmp(segname, pTypeFilterL, sizeof(segname)))
                        {
                            moduleCountRequiredL++;

                            if(moduleCountL < moduleInfoArrayCapacityL)
                            {
                                ModuleInfo& info = pModuleInfoArrayL[moduleCountL++];

                                info.baseAddress = (uint64_t)(pSegmentCommand->vmaddr + offset);
                                info.handle      = reinterpret_cast<ModuleHandle>((uintptr_t)info.baseAddress);
                                info.size        = (uint64_t)pSegmentCommand->vmsize;
                                OVR_strlcpy(info.filePath, pModulePath, OVR_ARRAY_COUNT(info.filePath));
                                OVR_strlcpy(info.name, GetFileNameFromPath(pModulePath), OVR_ARRAY_COUNT(info.name));

                                info.permissions[0] = (pSegmentCommand->initprot & VM_PROT_READ)    ? 'r' : '-';
                                info.permissions[1] = (pSegmentCommand->initprot & VM_PROT_WRITE)   ? 'w' : '-';
                                info.permissions[2] = (pSegmentCommand->initprot & VM_PROT_EXECUTE) ? 'x' : '-';
                                info.permissions[3] = '/';
                                info.permissions[4] = (pSegmentCommand->maxprot  & VM_PROT_READ)    ? 'r' : '-';
                                info.permissions[5] = (pSegmentCommand->maxprot  & VM_PROT_WRITE)   ? 'w' : '-';
                                info.permissions[6] = (pSegmentCommand->maxprot  & VM_PROT_EXECUTE) ? 'x' : '-';
                                info.permissions[7] = '\0';

                                OVR_strlcpy(info.type, pSegmentCommand->segname, OVR_ARRAY_COUNT(info.type));
                            }
                        }
                    }

                    currentSegmentPos += pSegmentCommand->cmdsize;
                }
            }
        };

        // Iterate dyld_all_image_infos->infoArray
        const struct dyld_all_image_infos* pAllImageInfos = _dyld_get_all_image_infos();

        for(uint32_t i = 0; i < pAllImageInfos->infoArrayCount; i++)
        {
            const char* pModulePath = pAllImageInfos->infoArray[i].imageFilePath;

            if(pModulePath && *pModulePath)
            {
                uintptr_t         currentSegmentPos = (uintptr_t)pAllImageInfos->infoArray[i].imageLoadAddress;
                const MachHeader* pMachHeader       = reinterpret_cast<const MachHeader*>(currentSegmentPos);
                uint64_t          offset            = (uint64_t)_dyld_get_image_vmaddr_slide(i);

                currentSegmentPos += sizeof(*pMachHeader);

                MacModuleInfo::AddMacModuleInfo(pModuleInfoArray, moduleCountRequired, moduleCount, moduleInfoArrayCapacity,
                                                nullptr /*"__TEXT"*/, pModulePath, currentSegmentPos, pMachHeader, offset);
            }
        }

        // In addition to iterating dyld_all_image_infos->infoArray we need to also iterate /usr/lib/dyld entries.
        const MachHeader* pMachHeader = (const MachHeader*)pAllImageInfos->dyldImageLoadAddress;
        uintptr_t         currentSegmentPos = (uintptr_t)pMachHeader + sizeof(*pMachHeader);
        char              modulePath[OVR_MAX_PATH] = "";
        pid_t             pid = getpid();
        int               filenameLen = proc_regionfilename((int)pid, currentSegmentPos, modulePath, (uint32_t)sizeof(modulePath));

        if(filenameLen > 0)
            MacModuleInfo::AddMacModuleInfo(pModuleInfoArray, moduleCountRequired, moduleCount, moduleInfoArrayCapacity,
                                                "__TEXT", modulePath, currentSegmentPos, pMachHeader, 0);

        return moduleCountRequired;

    #elif defined(OVR_OS_LINUX)
        // One approach is to read /proc/self/maps, which is supported by Linux (though not BSD).
        // Linux glibc dladdr() can tell us what module an arbitrary function address comes from, but can't tell us the list of modules.
        OVR_UNUSED(pModuleInfoArray);
        OVR_UNUSED(moduleInfoArrayCapacity);
        return 0;

    #else
        OVR_UNUSED(pModuleInfoArray);
        OVR_UNUSED(moduleInfoArrayCapacity);
        return 0;
    #endif
}


size_t SymbolLookup::GetThreadList(ThreadHandle* threadHandleArray, ThreadSysId* threadSysIdArray, size_t threadArrayCapacity)
{
    size_t countRequired = 0;
    size_t count = 0;

    #if defined(OVR_OS_MS)
        // Print a list of threads.
        DWORD  currentProcessId = GetCurrentProcessId();
        HANDLE hThreadSnap = CreateToolhelp32Snapshot(TH32CS_SNAPTHREAD, currentProcessId); // ICreateToolhelp32Snapshot actually ignores currentProcessId.

        if(hThreadSnap != INVALID_HANDLE_VALUE)
        {
            THREADENTRY32 te32;
            te32.dwSize = sizeof(THREADENTRY32);

            if(Thread32First(hThreadSnap, &te32))
            {
                do
                {
                    if(te32.th32OwnerProcessID == currentProcessId)
                    {
                        HANDLE hThread = ConvertThreadSysIdToThreadHandle(te32.th32ThreadID);

                        if(hThread)
                        {
                            ++countRequired;

                            if((threadHandleArray || threadSysIdArray) && (count < threadArrayCapacity))
                            {
                                if(threadHandleArray)
                                    threadHandleArray[count] = hThread; // The caller must call CloseHandle on this thread, or call DoneThreadList on the returned array.
                                if(threadSysIdArray)
                                    threadSysIdArray[count] = ConvertThreadHandleToThreadSysId(hThread);
                                ++count;
                            }

                            if(!threadHandleArray) // If we aren't giving this back to the user...
                                FreeThreadHandle(hThread);
                        }
                    }
                } while(Thread32Next(hThreadSnap, &te32));
            }

            CloseHandle(hThreadSnap);
        }

    #elif defined(OVR_OS_APPLE)
        mach_port_t             taskSelf   = mach_task_self();
        thread_act_port_array_t threadArray;
        mach_msg_type_number_t  threadCount;

        kern_return_t result = task_threads(taskSelf, &threadArray, &threadCount);

        if(result == KERN_SUCCESS)
        {
            for(mach_msg_type_number_t i = 0; i < threadCount; i++)
            {
                ++countRequired;

                if((threadHandleArray || threadSysIdArray) && (count < threadArrayCapacity))
                {
                    if(threadHandleArray)
                        threadHandleArray[count] = pthread_from_mach_thread_np(threadArray[i]);
                    if(threadSysIdArray)
                        threadSysIdArray[count] = threadArray[i];
                    ++count;
                }
            }

            vm_deallocate(taskSelf, (vm_address_t)threadArray, threadCount * sizeof(thread_act_t));
        }

    #elif defined(OVR_OS_LINUX)
        // To do.
        OVR_UNUSED(count);
        OVR_UNUSED(threadHandleArray);
        OVR_UNUSED(threadSysIdArray);
        OVR_UNUSED(threadArrayCapacity);
    #endif

    return countRequired;
}


void SymbolLookup::DoneThreadList(ThreadHandle* threadHandleArray, ThreadSysId* threadSysIdArray, size_t threadArrayCount)
{
    #if defined(OVR_OS_MS)
        for(size_t i = 0; i != threadArrayCount; ++i)
        {
            if(threadHandleArray[i])
            {
                CloseHandle(threadHandleArray[i]);
                threadHandleArray[i] = OVR_THREADHANDLE_INVALID;
            }
        }

        OVR_UNUSED(threadSysIdArray);
    #else
        OVR_UNUSED(threadHandleArray);
        OVR_UNUSED(threadSysIdArray);
        OVR_UNUSED(threadArrayCount);
    #endif
}


// Writes a given thread's callstack wity symbols to the given output.
// It may not be safe to call this from an exception handler, as sOutput allocates memory.
bool SymbolLookup::ReportThreadCallstack(OVR::String& sOutput, size_t skipCount, ThreadSysId threadSysId)
{
    sOutput.Clear();

    if(!threadSysId)
        threadSysId = GetCurrentThreadSysId();

    void*  addressArray[64];
    size_t addressCount = GetBacktraceFromThreadSysId(addressArray, OVR_ARRAY_COUNT(addressArray), skipCount, threadSysId);

    // Print the header
    char         headerBuffer[256];
    char         threadName[32];
    char         threadHandleStr[24];
    char         threadSysIdStr[48];
    char         stackBaseStr[24];
    char         stackLimitStr[24];
    void*        pStackBase;
    void*        pStackLimit;
  //void*        pStackCurrent;  // Current stack pointer. To do: support reporting this.
    ThreadHandle threadHandle = ConvertThreadSysIdToThreadHandle(threadSysId);
    OVR::GetThreadStackBounds(pStackBase, pStackLimit, threadHandle);

    Thread::GetThreadName(threadName, OVR_ARRAY_COUNT(threadName), threadName);
    SprintfThreadHandle(threadHandleStr, OVR_ARRAY_COUNT(threadHandleStr), threadHandle);
    SprintfThreadSysId(threadSysIdStr, OVR_ARRAY_COUNT(threadSysIdStr), threadSysId);
    SprintfAddress(stackBaseStr, OVR_ARRAY_COUNT(stackBaseStr), pStackBase);
    SprintfAddress(stackLimitStr, OVR_ARRAY_COUNT(stackLimitStr), pStackLimit);

    if(threadName[0])
        OVR_snprintf(headerBuffer, OVR_ARRAY_COUNT(headerBuffer), "Thread \"%s\" handle: %s, id: %s, stack base: %s, stack limit: %s\n", threadName, threadHandleStr, threadSysIdStr, stackBaseStr, stackLimitStr);
    else
        OVR_snprintf(headerBuffer, OVR_ARRAY_COUNT(headerBuffer), "Thread handle: %s, id: %s, stack base: %s, stack limit: %s\n", threadHandleStr, threadSysIdStr, stackBaseStr, stackLimitStr);

    sOutput += headerBuffer;

    // Print the backtrace info
    char        backtraceBuffer[1024];  // Sometimes function symbol names are very long.
    SymbolInfo  symbolInfo;
    const char* pModuleName;

    if(addressCount == 0)
    {
        sOutput += "<Unable to read backtrace>\n";
    }
    else
    {
        for(size_t i = 0; i < addressCount; ++i)
        {
            LookupSymbol((uint64_t)addressArray[i], symbolInfo);

            if(symbolInfo.pModuleInfo && symbolInfo.pModuleInfo->name[0])
                pModuleName = symbolInfo.pModuleInfo->name;
            else
                pModuleName = "(unknown module)";

            char addressStr[24];
            SprintfAddress(addressStr, OVR_ARRAY_COUNT(addressStr), addressArray[i]);

            if(symbolInfo.filePath[0])
                OVR_snprintf(backtraceBuffer, OVR_ARRAY_COUNT(backtraceBuffer), "%-2u %-24s %s %s+%d %s:%d\n", (unsigned)i, pModuleName, addressStr, symbolInfo.function, symbolInfo.functionOffset, symbolInfo.filePath, symbolInfo.fileLineNumber);
            else
                OVR_snprintf(backtraceBuffer, OVR_ARRAY_COUNT(backtraceBuffer), "%-2u %-24s %s %s+%d\n", (unsigned)i, pModuleName, addressStr, symbolInfo.function, symbolInfo.functionOffset);

            sOutput += backtraceBuffer;
        }
    }

    FreeThreadHandle(threadHandle);

    return (addressCount > 0);
}


// Writes all thread's callstacks with symbols to the given output.
// It may not be safe to call this from an exception handler, as sOutput allocates memory.
bool SymbolLookup::ReportThreadCallstacks(OVR::String& sOutput, size_t skipCount)
{
    sOutput.Clear();

    ThreadSysId threadSysIdArray[64];
    size_t      threadSysIdCount = GetThreadList(nullptr, threadSysIdArray, OVR_ARRAY_COUNT(threadSysIdArray));

    if (threadSysIdCount > OVR_ARRAY_COUNT(threadSysIdArray))
        threadSysIdCount = OVR_ARRAY_COUNT(threadSysIdArray);

    for (size_t i = 0; i < threadSysIdCount; i++)
    {
        String sTemp;
        ReportThreadCallstack(sTemp, skipCount, threadSysIdArray[i]);
        if(i > 0)
            sOutput += "\n";
        sOutput += sTemp;
    }

    return (threadSysIdCount > 0);
}

bool SymbolLookup::ReportModuleInformation(OVR::String& sOutput)
{
    sOutput.Clear();

    RefreshModuleList();

    char backtraceBuffer[1024];

    for (size_t i = 0; i < ModuleInfoArraySize; ++i)
    {
        OVR_snprintf(backtraceBuffer, OVR_ARRAY_COUNT(backtraceBuffer), "Base: 0x%llx Size: 0x%llx Name: '%s' Path: '%s'\n",
                     ModuleInfoArray[i].baseAddress, ModuleInfoArray[i].size, ModuleInfoArray[i].name, ModuleInfoArray[i].filePath);
        sOutput += backtraceBuffer;
    }

    return true;
}

bool SymbolLookup::RefreshModuleList()
{
    if(!ModuleListUpdated)
    {
        #if defined(OVR_OS_MS)
            OVR::Lock::Locker autoLock(&sDbgHelpLock);

            // We can't rely on SymRefreshModuleList because it's present in DbgHelp 6.5,
            // which doesn't distribute with Windows 7.

            // Currently we support only refreshing the list once ever. With a little effort we could revise this code to
            // support re-refreshing the list at runtime to account for the possibility that modules have recently been
            // added or removed.
            if(pSymLoadModule64)
            {
                const size_t requiredCount = GetModuleInfoArray(ModuleInfoArray, OVR_ARRAY_COUNT(ModuleInfoArray));
                ModuleInfoArraySize = MIN(requiredCount, OVR_ARRAY_COUNT(ModuleInfoArray));

                HANDLE hProcess = GetCurrentProcess();

                for(size_t i = 0; i < ModuleInfoArraySize; i++)
                    pSymLoadModule64(hProcess, nullptr, ModuleInfoArray[i].filePath, nullptr, ModuleInfoArray[i].baseAddress, (DWORD)ModuleInfoArray[i].size);

                ModuleListUpdated = true;
            }
        #else
            const size_t requiredCount = GetModuleInfoArray(ModuleInfoArray, OVR_ARRAY_COUNT(ModuleInfoArray));
            ModuleInfoArraySize = MIN(requiredCount, OVR_ARRAY_COUNT(ModuleInfoArray));
            ModuleListUpdated = true;
        #endif
    }

    return true;
}


bool SymbolLookup::LookupSymbol(uint64_t address, SymbolInfo& symbolInfo)
{
    return LookupSymbols(&address, &symbolInfo, 1);
}


bool SymbolLookup::LookupSymbols(uint64_t* addressArray, SymbolInfo* pSymbolInfoArray, size_t arraySize)
{
    bool success = false;

    if(!ModuleListUpdated)
    {
        RefreshModuleList();
    }

    #if defined(OVR_OS_MS)
        OVR::Lock::Locker autoLock(&sDbgHelpLock);

        union SYMBOL_INFO_UNION
        {
            SYMBOL_INFO msSymbolInfo;
            char        suffixPadding[sizeof(SYMBOL_INFO) + 1024];
        };

        for(size_t i = 0; i < arraySize; i++)
        {
            uint64_t&   address    = addressArray[i];
            SymbolInfo& symbolInfo = pSymbolInfoArray[i];

            // Copy the address and ModuleInfo
            symbolInfo.address     = addressArray[i];
            symbolInfo.pModuleInfo = GetModuleInfoForAddress(address); // We could also use siu.msSymbolInfo.ModBase to get the module slightly faster.

            // Get the function/offset.
            SYMBOL_INFO_UNION siu;
            memset(&siu, 0, sizeof(siu));
            siu.msSymbolInfo.SizeOfStruct = sizeof(siu.msSymbolInfo);
            siu.msSymbolInfo.MaxNameLen   = sizeof(siu.suffixPadding) - sizeof(SYMBOL_INFO) + 1; // +1 because SYMBOL_INFO itself has Name[1].

            HANDLE  hProcess = GetCurrentProcess();
            DWORD64 displacement64 = 0;
            bool    bResult = (pSymFromAddr != nullptr) && (pSymFromAddr(hProcess, address, &displacement64, &siu.msSymbolInfo) != FALSE);

            if(bResult)
            {
                success = true;
                symbolInfo.size = siu.msSymbolInfo.Size;
                OVR_strlcpy(symbolInfo.function, siu.msSymbolInfo.Name, OVR_ARRAY_COUNT(symbolInfo.function));
                symbolInfo.functionOffset = (int32_t)displacement64;
            }
            else
            {
                symbolInfo.size = kMISizeInvalid;
                symbolInfo.function[0] = 0;
                symbolInfo.functionOffset = kMIFunctionOffsetInvalid;
            }

            // Get the file/line
            IMAGEHLP_LINE64 iLine64;
            DWORD displacement = 0;
            memset(&iLine64, 0, sizeof(iLine64));
            iLine64.SizeOfStruct = sizeof(iLine64);

            bResult = (pSymGetLineFromAddr64 != nullptr) && (pSymGetLineFromAddr64(hProcess, address, &displacement, &iLine64) != FALSE);

            if(bResult)
            {
                success = true;
                OVR_strlcpy(symbolInfo.filePath, iLine64.FileName, OVR_ARRAY_COUNT(symbolInfo.filePath));
                symbolInfo.fileLineNumber = (int32_t)iLine64.LineNumber;
            }
            else
            {
                symbolInfo.filePath[0] = 0;
                symbolInfo.fileLineNumber = kMILineNumberInvalid;
            }

            // To do: get the source code when possible. We need to use the user-registered directory paths and the symbolInfo.filePath
            // and find the given file in the tree(s), then open the file and find the symbolInfo.fileLineNumber line (and surrounding lines).
            // symbolInfo.sourceCode[1024]
            symbolInfo.sourceCode[0] = '\0';
        }

    #elif defined(OVR_OS_APPLE)
        // Apple has an internal CoreSymbolication library which could help with this.
        // Third party implementations of the CoreSymbolication header are available and could be used
        // to get file/line info better than other means. It used Objective C, so we'll need a .m or .mm file.

        memset(pSymbolInfoArray, 0, arraySize * sizeof(SymbolInfo));

        for(size_t i = 0; i < arraySize; i++)
        {
            pSymbolInfoArray[i].address = addressArray[i];
            pSymbolInfoArray[i].pModuleInfo = GetModuleInfoForAddress(addressArray[i]);
        }

        // Problem: backtrace_symbols allocates memory from malloc. If you got into a SIGSEGV due to
        // malloc arena corruption (quite common) you will likely fault in backtrace_symbols.
        // To do: Use allowMemoryAllocation here.

        #if (OVR_PTR_SIZE == 4)
            // backtrace_symbols takes a void* array, but we have a uint64_t array. So for 32 bit we
            // need to convert the 64 bit array to 32 bit temporarily for the backtrace_symbols call.
            void* ptr32Array[256]; // To do: Remove this limit.
            for(size_t i = 0, iEnd = MIN(arraySize, OVR_ARRAY_COUNT(ptr32Array)); i < iEnd; i++)
                ptr32Array[i] = reinterpret_cast<void*>(addressArray[i]);
            char** symbolArray = backtrace_symbols(reinterpret_cast<void**>(ptr32Array), (int)arraySize);
        #else
            char** symbolArray = backtrace_symbols(reinterpret_cast<void**>(addressArray), (int)arraySize);
        #endif

        if(symbolArray)
        {
            success = true;

            for(size_t i = 0; i < arraySize; i++)
            {
                // Generates a string like this: "0 OculusWorldDemo 0x000000010000cfd5 _ZN18OculusWorldDemoApp9OnStartupEiPPKc + 213"
                static_assert(OVR_ARRAY_COUNT(pSymbolInfoArray[i].function) == 128, "Need to change the string format size below");

                sscanf(symbolArray[i], "%*d %*s %*x %128s + %d", pSymbolInfoArray[i].function, &pSymbolInfoArray[i].functionOffset);

                if(AllowMemoryAllocation)
                {
                    int   status = 0;
                    char* strDemangled = abi::__cxa_demangle(pSymbolInfoArray[i].function, nullptr, nullptr, &status);

                    if(strDemangled)
                    {
                        OVR_strlcpy(pSymbolInfoArray[i].function, strDemangled, OVR_ARRAY_COUNT(pSymbolInfoArray[i].function));
                        free(strDemangled);
                    }
                }
            }

            free(symbolArray);
        }

        // To consider: use CoreSybolication to get file/line info instead. atos is a bit slow and cumbersome.
        // https://developer.apple.com/library/mac/documentation/Darwin/Reference/ManPages/man1/atos.1.html
        // atos -p <pid> <addr> <addr> ...
        // atos -o <binary image path> -l <load-address> <addr> <addr> ...
        // Generates output like this: "OVR::CreateException(OVR::CreateExceptionType) (in OculusWorldDemo) (ExceptionHandler.cpp:598)"
        for(size_t i = 0; i < arraySize; i++)
        {
            struct stat statStruct;

            if(pSymbolInfoArray[i].pModuleInfo && pSymbolInfoArray[i].pModuleInfo->filePath[0] && (stat(pSymbolInfoArray[i].pModuleInfo->filePath, &statStruct) == 0))
            {
                char command[PATH_MAX * 2];   // Problem: We can't unilaterally use pSymbolInfoArray[0] for all addresses. We need to match addresses to the corresponding modules.
                OVR_snprintf(command, OVR_ARRAY_COUNT(command), "atos -o %s -l 0x%llx 0x%llx",
                            pSymbolInfoArray[i].pModuleInfo->filePath, (int64_t)pSymbolInfoArray[i].pModuleInfo->baseAddress, (int64_t)pSymbolInfoArray[i].address);

                char output[512];
                if(SpawnShellCommand(command, output, OVR_ARRAY_COUNT(output)) != (size_t)-1)
                {
                    char* pLastOpenParen = strrchr(output, '(');
                    char* pColon = strrchr(output, ':');

                    if(pLastOpenParen && (pColon > pLastOpenParen))
                    {
                        *pColon = '\0';
                        OVR_strlcpy(pSymbolInfoArray[i].filePath, pLastOpenParen + 1, OVR_ARRAY_COUNT(pSymbolInfoArray[i].filePath));
                    }
                }
            }
        }

    #elif defined(OVR_OS_LINUX)
        // We can use libunwind's unw_get_proc_name to try to get function name info. It can work regardless of relocation.
        // Use backtrace_symbols and addr2line. Need to watch out for module load-time relocation.
        // Ned to pass the -rdynamic flag to the linker. It will cause the linker to out in the link
        // tables the name of all the none static functions in your code, not just the exported ones.
        OVR_UNUSED(addressArray);
        OVR_UNUSED(pSymbolInfoArray);
        OVR_UNUSED(arraySize);
    #endif

    return success;
}


const ModuleInfo* SymbolLookup::GetModuleInfoForAddress(uint64_t address)
{
    // This is a linear seach. To consider: it would be significantly faster to search by
    // address if we ordered it by base address and did a binary search.
    for(size_t i = 0; i < ModuleInfoArraySize; ++i)
    {
        const ModuleInfo& mi = ModuleInfoArray[i];

        if((mi.baseAddress <= address) && (address < (mi.baseAddress + mi.size)))
            return &mi;
    }

    return nullptr;
}




ExceptionInfo::ExceptionInfo()
  : time()
  , timeVal(0)
  , backtrace()
  , backtraceCount(0)
  , threadHandle(OVR_THREADHANDLE_INVALID)
  , threadSysId(OVR_THREADSYSID_INVALID)
  , threadName()
  , pExceptionInstructionAddress(nullptr)
  , pExceptionMemoryAddress(nullptr)
  , cpuContext()
  , exceptionDescription()
  , symbolInfo()
 #if defined(OVR_OS_MS)
  , exceptionRecord()
 #elif defined(OVR_OS_APPLE)
  , exceptionType(0)
  , cpuExceptionId(0)
  , cpuExceptionIdError(0)
  , machExceptionData()
  , machExceptionDataCount(0)
 #endif
{
}



ExceptionHandler::ExceptionHandler()
  : enabled(false)
  , pauseCount(0)
  , reportPrivacyEnabled(true)
  , exceptionResponse(kERHandle)
  , exceptionListener(nullptr)
  , exceptionListenerUserValue(0)
  , appDescription()
  , codeBasePathArray()
  , reportFilePath()
  , miniDumpFlags(0)
  , miniDumpFilePath()
  , file(nullptr)
  , scratchBuffer()
  , exceptionOccurred(false)
  , handlingBusy(0)
  , reportFilePathActual()
  , minidumpFilePathActual()
  , terminateReturnValue(0)
  , exceptionInfo()
 #if defined(OVR_OS_MS)
  , vectoredHandle(nullptr)
  , previousFilter(nullptr)
  , pExceptionPointers(nullptr)
 #elif defined(OVR_OS_MAC)
  , machHandlerInitialized(false)
  , machExceptionPort(0)
  , machExceptionPortsSaved()
  , machThreadShouldContinue(false)
  , machThreadExecuting(false)
  , machThread((pthread_t)OVR_THREADHANDLE_INVALID)
 #endif
{
    SetExceptionPaths("default", "default");
}

void ExceptionHandler::SetPathsFromNames(const char* organizationName, const char* ApplicationName, const char* exceptionFormat, const char* minidumpFormat)
{
    char exceptionPath[OVR_MAX_PATH];
    char miniDumpPath[OVR_MAX_PATH];
    GetCrashDumpDirectory(exceptionPath, OVR_MAX_PATH);
    OVR_strlcat(exceptionPath, organizationName, OVR_MAX_PATH);

    //make the organization folder if necessary
    #ifdef OVR_OS_MS
        WCHAR wpath[128];
        OVR::UTF8Util::DecodeString(wpath, exceptionPath);
        CreateDirectoryW(wpath,NULL);
    #else
        mkdir(exceptionPath,S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH);
    #endif

    #ifdef OVR_OS_MS
      const char* separator = "\\";
    #else
      const char* separator = "/";
    #endif
    OVR_strlcat(exceptionPath, separator, OVR_MAX_PATH);
    OVR_strlcat(exceptionPath, ApplicationName, OVR_MAX_PATH);
    #ifdef OVR_OS_MS
        OVR::UTF8Util::DecodeString(wpath, exceptionPath);
        CreateDirectoryW(wpath, NULL);
    #else
        mkdir(exceptionPath,S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH);
    #endif
    OVR_strlcat(exceptionPath, separator, OVR_MAX_PATH);
    OVR_strcpy(miniDumpPath, OVR_MAX_PATH, exceptionPath);

    OVR::OVR_strlcat(exceptionPath, exceptionFormat, OVR_MAX_PATH);
    OVR::OVR_strlcat(miniDumpPath, minidumpFormat, OVR_MAX_PATH);

    SetExceptionPaths(exceptionPath, miniDumpPath);
}

ExceptionHandler::~ExceptionHandler()
{
    if(enabled)
    {
        Enable(false);
    }
}

size_t ExceptionHandler::GetCrashDumpDirectory(char* directoryPath, size_t directoryPathCapacity)
{
    #if defined(OVR_OS_MS)
        wchar_t pathW[OVR_MAX_PATH + 1]; // +1 because we append a path separator.
        HRESULT hr = SHGetFolderPathW(nullptr, CSIDL_APPDATA | CSIDL_FLAG_CREATE, nullptr, SHGFP_TYPE_CURRENT, pathW);

        if (SUCCEEDED(hr))
        {
            intptr_t requiredUTF8Length = OVR::UTF8Util::GetEncodeStringSize(pathW); // Returns required strlen.
            if (requiredUTF8Length < OVR_MAX_PATH) // We need space for a trailing path separator.
            {
                OVR::UTF8Util::EncodeString(directoryPath, pathW, -1);
                OVR::OVR_strlcat(directoryPath, "\\", directoryPathCapacity);
            }

            return (requiredUTF8Length + 1);
        }

    #elif defined(OVR_OS_MAC)
        // This is the same location that Apple puts its OS-generated .crash files.
        const char* home = getenv("HOME");
        size_t requiredStrlen = OVR::OVR_snprintf(directoryPath, directoryPathCapacity, "%s/Library/Logs/DiagnosticReports/", home ? home : "/Users/Shared/Logs/DiagnosticReports/");
        // To do: create the directory if it doesn't already exist.
        return requiredStrlen;

    #elif defined(OVR_OS_UNIX)
        const char* home = getenv("HOME");
        size_t requiredStrlen = OVR::OVR_snprintf(directoryPath, directoryPathCapacity, "%s/Library/", home ? home : "/Users/Shared/");
        // To do: create the directory if it doesn't already exist.
        return requiredStrlen;
    #endif

    return 0;
}


#if defined(OVR_OS_MS)

static ExceptionHandler* sExceptionHandler = nullptr;

    unsigned WINAPI ExceptionHandler::ExceptionHandlerThreadExec(void * callingHandler)
    {
        ExceptionHandler* caller = reinterpret_cast<ExceptionHandler*>(callingHandler);
        if (caller->miniDumpFilePath[0])
            caller->WriteMiniDump();

        if (caller->reportFilePath[0])
            caller->WriteReport();

        if (caller->exceptionListener)
            caller->exceptionListener->HandleException(caller->exceptionListenerUserValue, caller, &caller->exceptionInfo, caller->reportFilePathActual);
        return 1;
    }

    LONG WINAPI Win32ExceptionFilter(LPEXCEPTION_POINTERS pExceptionPointers)
    {
        if(sExceptionHandler)
            return (LONG)sExceptionHandler->ExceptionFilter(pExceptionPointers);
        return EXCEPTION_CONTINUE_SEARCH;
    }

    LONG ExceptionHandler::ExceptionFilter(LPEXCEPTION_POINTERS pExceptionPointers)
    {
        if(pauseCount)
            return EXCEPTION_CONTINUE_SEARCH;

        // Exception codes < 0x80000000 are not true exceptions but rather are debugger notifications. They include DBG_TERMINATE_THREAD,
        // DBG_TERMINATE_PROCESS, DBG_CONTROL_BREAK, DBG_COMMAND_EXCEPTION, DBG_CONTROL_C, DBG_PRINTEXCEPTION_C, DBG_RIPEXCEPTION,
        // and 0x406d1388 (thread named, http://blogs.msdn.com/b/stevejs/archive/2005/12/19/505815.aspx).

        if(pExceptionPointers->ExceptionRecord->ExceptionCode < 0x80000000)
            return EXCEPTION_CONTINUE_SEARCH;

        // VC++ C++ exceptions use code 0xe06d7363 ('Emsc')
        // http://support.microsoft.com/kb/185294
        // http://blogs.msdn.com/b/oldnewthing/archive/2010/07/30/10044061.aspx
        if(pExceptionPointers->ExceptionRecord->ExceptionCode == 0xe06d7363)
            return EXCEPTION_CONTINUE_SEARCH;

        if(handlingBusy.CompareAndSet_Acquire(0, 1)) // If we can successfully change it from 0 to 1.
        {
            exceptionOccurred = true;

            SymbolLookup::Initialize();

            this->pExceptionPointers = pExceptionPointers;

            // Disable the handler while we do this processing.
            ULONG result = RemoveVectoredExceptionHandler(vectoredHandle);
            OVR_ASSERT_AND_UNUSED(result != 0, result);

            // Time
            exceptionInfo.timeVal = time(nullptr);
            exceptionInfo.time = *gmtime(&exceptionInfo.timeVal);

            // Thread id
            // This is the thread id of the current thread and not the exception thread.
            if(!DuplicateHandle(GetCurrentProcess(), GetCurrentThread(), GetCurrentProcess(), &exceptionInfo.threadHandle, 0, true, DUPLICATE_SAME_ACCESS))
                exceptionInfo.threadHandle = 0;
            exceptionInfo.threadSysId = ConvertThreadHandleToThreadSysId(exceptionInfo.threadHandle);

            OVR::GetThreadName(exceptionInfo.threadHandle, exceptionInfo.threadName, OVR_ARRAY_COUNT(exceptionInfo.threadName));

            // Backtraces
            exceptionInfo.backtraceCount = symbolLookup.GetBacktrace(exceptionInfo.backtrace, OVR_ARRAY_COUNT(exceptionInfo.backtrace));

            // Context
            exceptionInfo.cpuContext = *pExceptionPointers->ContextRecord;
            exceptionInfo.exceptionRecord = *pExceptionPointers->ExceptionRecord;
            exceptionInfo.pExceptionInstructionAddress  = exceptionInfo.exceptionRecord.ExceptionAddress;
            if((exceptionInfo.exceptionRecord.ExceptionCode == EXCEPTION_ACCESS_VIOLATION) || (exceptionInfo.exceptionRecord.ExceptionCode == EXCEPTION_IN_PAGE_ERROR))
                exceptionInfo.pExceptionMemoryAddress = (void*)exceptionInfo.exceptionRecord.ExceptionInformation[1]; // ExceptionInformation[0] indicates if it was a read (0), write (1), or data execution attempt (8).
            else
                exceptionInfo.pExceptionMemoryAddress = pExceptionPointers->ExceptionRecord->ExceptionAddress;

            WriteExceptionDescription();

            if (pExceptionPointers->ExceptionRecord->ExceptionCode == EXCEPTION_STACK_OVERFLOW){
                unsigned int IdValue;

                void* ThreadHandle = (HANDLE)_beginthreadex(0, (unsigned)128 * 1024,
                    ExceptionHandlerThreadExec, this, 0, (unsigned*)&IdValue);
                WaitForSingleObject(ThreadHandle, INFINITE);
                CloseHandle(ThreadHandle);

            }
            else
            {
                if (miniDumpFilePath[0])
                    WriteMiniDump();

                if (reportFilePath[0])
                    WriteReport();

                if (exceptionListener)
                    exceptionListener->HandleException(exceptionListenerUserValue, this, &exceptionInfo, reportFilePathActual);
            }
            if(exceptionInfo.threadHandle)
            {
                CloseHandle(exceptionInfo.threadHandle);
                exceptionInfo.threadHandle = 0;
            }

            SymbolLookup::Shutdown();

            // Restore the handler that we temporarily disabled above.
            vectoredHandle = AddVectoredExceptionHandler(1, Win32ExceptionFilter);

            handlingBusy.Store_Release(0);
        }

        if(exceptionResponse == ExceptionHandler::kERContinue)
            return EXCEPTION_CONTINUE_EXECUTION;
        else if(exceptionResponse == ExceptionHandler::kERHandle)
            return EXCEPTION_EXECUTE_HANDLER;
        else if(exceptionResponse == ExceptionHandler::kERTerminate)
        {
            TerminateProcess(GetCurrentProcess(), (UINT)terminateReturnValue);
            return terminateReturnValue;
        }
        else if(exceptionResponse == ExceptionHandler::kERThrow)
            return EXCEPTION_CONTINUE_SEARCH;

        // kERDefault
        return EXCEPTION_EXECUTE_HANDLER;
    }

#endif // defined(OVR_OS_MS)


#if defined(OVR_OS_APPLE)
    // http://www.opensource.apple.com/source/xnu/xnu-2050.22.13/
    // http://www.opensource.apple.com/source/xnu/xnu-2050.22.13/osfmk/man/
    // http://www.opensource.apple.com/source/Libc/Libc-825.26/
    // https://mikeash.com/pyblog/friday-qa-2013-01-11-mach-exception-handlers.html

    void* ExceptionHandler::MachHandlerThreadFunction()
    {
        __Request__mach_exception_raise_state_identity_t msg;
        __Reply__mach_exception_raise_state_identity_t reply;
        mach_msg_return_t result;

        machThreadExecuting = true;
        pthread_setname_np("ExceptionHandler");

        while(machThreadShouldContinue)
        {
            mach_msg_option_t options = MACH_RCV_MSG | MACH_RCV_LARGE;
            natural_t         timeout = 0; // Would be better to support a non-zero time.

            if(timeout)
                options |= MACH_RCV_TIMEOUT;

            result = mach_msg(&msg.Head, options, 0, sizeof(msg), machExceptionPort, timeout, MACH_PORT_NULL);

            if(msg.Head.msgh_id != sMachCancelMessageType)
            {
                if(result == MACH_MSG_SUCCESS)
                {
                    if(mach_exc_server_OVR(&msg.Head, &reply.Head) == 0)  //This will call our HandleMachException function.
                        result = ~MACH_MSG_SUCCESS;
                }

                // Send the reply
                if(result == MACH_MSG_SUCCESS)
                {
                    result = mach_msg(&reply.Head, MACH_SEND_MSG, reply.Head.msgh_size, 0, MACH_PORT_NULL, MACH_MSG_TIMEOUT_NONE, MACH_PORT_NULL);

                    if(result != MACH_MSG_SUCCESS)
                    {
                        // Failure.
                    }
                }
            }
        }

        machThreadExecuting = false;

        return nullptr;
    }


    kern_return_t ExceptionHandler::HandleMachException(mach_port_t /*machPort*/, mach_port_t threadSysId, mach_port_t machTask,
                                            exception_type_t machExceptionType, mach_exception_data_type_t* pMachExceptionData,
                                            mach_msg_type_number_t exceptionDataCount, int* /*pMachExceptionFlavor*/, thread_state_t threadStatePrev,
                                            mach_msg_type_number_t /*threadStatePrevCount*/, thread_state_t /*threadStateNew*/,
                                            mach_msg_type_number_t* /*pThreadStateNewCount*/)
    {
        // We don't want to handle exceptions for other processes.
        if(machTask != mach_task_self())
            return ForwardMachException(threadSysId, machTask, machExceptionType, pMachExceptionData, exceptionDataCount);

        if(handlingBusy.CompareAndSet_Acquire(0, 1)) // If we can successfully change it from 0 to 1.
        {
            exceptionOccurred = true;

            // Disable the handler while we do this processing.
            // To do.

            // Time
            exceptionInfo.timeVal = time(nullptr);
            exceptionInfo.time = *gmtime(&exceptionInfo.timeVal);

            // Thread id
            exceptionInfo.threadHandle = pthread_from_mach_thread_np(threadSysId);
            exceptionInfo.threadSysId  = threadSysId;
            pthread_getname_np((pthread_t)exceptionInfo.threadHandle, exceptionInfo.threadName, sizeof(exceptionInfo.threadName));

            // Backtraces
            exceptionInfo.backtraceCount = symbolLookup.GetBacktraceFromThreadSysId(exceptionInfo.backtrace, OVR_ARRAY_COUNT(exceptionInfo.backtrace), 0, threadSysId);

            // Context
            #if defined(OVR_CPU_X86) || defined(OVR_CPU_X86_64)
                // We can read x86_THREAD_STATE directly fromk threadStatePrev.
                exceptionInfo.cpuContext.threadState = *reinterpret_cast<x86_thread_state_t*>(threadStatePrev);

                mach_msg_type_number_t stateCount = x86_FLOAT_STATE_COUNT;
                thread_get_state(threadSysId, x86_FLOAT_STATE, (natural_t*)&exceptionInfo.cpuContext.floatState, &stateCount);

                stateCount = x86_DEBUG_STATE_COUNT;
                thread_get_state(threadSysId, x86_DEBUG_STATE, (natural_t*)&exceptionInfo.cpuContext.debugState, &stateCount);

                stateCount = x86_AVX_STATE_COUNT;
                thread_get_state(threadSysId, x86_AVX_STATE, (natural_t*)&exceptionInfo.cpuContext.avxState, &stateCount);

                stateCount = x86_EXCEPTION_STATE_COUNT;
                thread_get_state(threadSysId, x86_EXCEPTION_STATE, (natural_t*)&exceptionInfo.cpuContext.exceptionState, &stateCount);

                #if defined(OVR_CPU_X86)
                    exceptionInfo.pExceptionInstructionAddress = (void*)exceptionInfo.cpuContext.threadState.uts.ts32.__eip;
                    exceptionInfo.pExceptionMemoryAddress      = (void*)exceptionInfo.cpuContext.exceptionState.ues.es32.__faultvaddr;
                    exceptionInfo.cpuExceptionId               = exceptionInfo.cpuContext.exceptionState.ues.es32.__trapno;
                    exceptionInfo.cpuExceptionIdError          = exceptionInfo.cpuContext.exceptionState.ues.es32.__err;
                #else
                    exceptionInfo.pExceptionInstructionAddress = (void*)exceptionInfo.cpuContext.threadState.uts.ts64.__rip;
                    exceptionInfo.pExceptionMemoryAddress      = (void*)exceptionInfo.cpuContext.exceptionState.ues.es64.__faultvaddr;
                    exceptionInfo.cpuExceptionId               = exceptionInfo.cpuContext.exceptionState.ues.es64.__trapno;
                    exceptionInfo.cpuExceptionIdError          = exceptionInfo.cpuContext.exceptionState.ues.es64.__err;
                #endif
            #endif

            exceptionInfo.exceptionType = machExceptionType;

            exceptionInfo.machExceptionDataCount = MIN(exceptionDataCount, OVR_ARRAY_COUNT(exceptionInfo.machExceptionData));
            for(int i = 0; i < exceptionInfo.machExceptionDataCount; i++)
                exceptionInfo.machExceptionData[i] = pMachExceptionData[i];

            WriteExceptionDescription();

            if(reportFilePath[0])
                WriteReport();

            if(miniDumpFilePath[0])
                WriteMiniDump();

            if(exceptionListener)
                exceptionListener->HandleException(exceptionListenerUserValue, this, &exceptionInfo, reportFilePathActual);

            // Re-restore the handler.
            // To do.

            handlingBusy.Store_Release(0);
        }

        kern_return_t result = KERN_FAILURE; // By default pass on the exception to another handler after we are done here.

        if(exceptionResponse == ExceptionHandler::kERContinue)
            result = KERN_SUCCESS; // This will trigger a re-execution of the function.
        else if(exceptionResponse == ExceptionHandler::kERTerminate)
            ::exit(terminateReturnValue);
        else if(exceptionResponse == ExceptionHandler::kERThrow)
            ForwardMachException(threadSysId, machTask, machExceptionType, pMachExceptionData, exceptionDataCount);
        else if(exceptionResponse == ExceptionHandler::kERDefault)
            ::exit(terminateReturnValue);

        // kERHandle
        return result;
    }


    bool ExceptionHandler::InitMachExceptionHandler()
    {
        if(!machHandlerInitialized)
        {
            mach_port_t      machTaskSelf = mach_task_self();
            kern_return_t    result = MACH_MSG_SUCCESS;
            exception_mask_t mask = EXC_MASK_BAD_ACCESS | EXC_MASK_BAD_INSTRUCTION | EXC_MASK_ARITHMETIC | EXC_MASK_CRASH;

            if(machExceptionPort == MACH_PORT_NULL)
            {
                result = mach_port_allocate(machTaskSelf, MACH_PORT_RIGHT_RECEIVE, &machExceptionPort);

                if(result == MACH_MSG_SUCCESS)
                {
                    result = mach_port_insert_right(machTaskSelf, machExceptionPort, machExceptionPort, MACH_MSG_TYPE_MAKE_SEND);

                    if(result == MACH_MSG_SUCCESS)
                        result = task_get_exception_ports(machTaskSelf, mask, machExceptionPortsSaved.masks, &machExceptionPortsSaved.count,
                                                          machExceptionPortsSaved.ports, machExceptionPortsSaved.behaviors, machExceptionPortsSaved.flavors);
                }
            }

            if(result == MACH_MSG_SUCCESS)
            {
                result = task_set_exception_ports(machTaskSelf, mask, machExceptionPort, EXCEPTION_STATE_IDENTITY | MACH_EXCEPTION_CODES, MACHINE_THREAD_STATE);

                if(result == MACH_MSG_SUCCESS)
                {
                    machThreadShouldContinue = true;

                    pthread_attr_t attr;
                    pthread_attr_init(&attr);

                    result = pthread_create(&machThread, &attr, MachHandlerThreadFunctionStatic, (void*)this);
                    pthread_attr_destroy(&attr);

                    machHandlerInitialized = (result == 0);
                }
            }

            if(!machHandlerInitialized)
                ShutdownMachExceptionHandler();
        }

        return machHandlerInitialized;
    }


    void ExceptionHandler::ShutdownMachExceptionHandler()
    {
        if(machThreadExecuting)
        {
            machThreadShouldContinue = false; // Tell it to stop.

            // Cancel the current exception handler thread (which is probably blocking in a call to mach_msg) by sending it a cencel message.
            struct CancelMessage
            {
                mach_msg_header_t msgHeader;
            };

            CancelMessage msg;
            memset(&msg.msgHeader, 0, sizeof(CancelMessage));
            msg.msgHeader.msgh_id          = sMachCancelMessageType;
            msg.msgHeader.msgh_size        = sizeof(CancelMessage);
            msg.msgHeader.msgh_bits        = MACH_MSGH_BITS_REMOTE(MACH_MSG_TYPE_MAKE_SEND);
            msg.msgHeader.msgh_remote_port = machExceptionPort;
            msg.msgHeader.msgh_local_port  = MACH_PORT_NULL;

            mach_msg_return_t result = mach_msg(&msg.msgHeader, MACH_SEND_MSG, msg.msgHeader.msgh_size, 0, MACH_PORT_NULL, MACH_MSG_TIMEOUT_NONE, MACH_PORT_NULL);

            if(result == MACH_MSG_SUCCESS)
            {
                const time_t secondsLater = time(NULL) + 4;

                while(machThreadExecuting && (time(NULL) < secondsLater))
                {
                    timespec ts = { 0, 1000000000 };
                    nanosleep(&ts, nullptr);
                }
            }

            void* joinResult = nullptr;
            pthread_join(machThread, &joinResult);
            machThread = 0;
        }

        if(machExceptionPort != MACH_PORT_NULL)
        {
            // Restore the previous ports
            kern_return_t result = KERN_SUCCESS;
            mach_port_t   machTaskSelf = mach_task_self();

            for(unsigned i = 0; (i < machExceptionPortsSaved.count) && (result == KERN_SUCCESS); i++)
            {
                result = task_set_exception_ports(machTaskSelf, machExceptionPortsSaved.masks[i], machExceptionPortsSaved.ports[i],
                              machExceptionPortsSaved.behaviors[i], machExceptionPortsSaved.flavors[i]);
            }

            mach_port_deallocate(machTaskSelf, machExceptionPort);
            machExceptionPort = MACH_PORT_NULL;
        }

        machHandlerInitialized = false;
    }


    kern_return_t ExceptionHandler::ForwardMachException(mach_port_t thread, mach_port_t task, exception_type_t exceptionType,
                                                mach_exception_data_t pMachExceptionData, mach_msg_type_number_t exceptionDataCount)
    {
        kern_return_t result = KERN_FAILURE;
        mach_msg_type_number_t i;

        for(i = 0; i < machExceptionPortsSaved.count; i++)
        {
            if(machExceptionPortsSaved.masks[i] & (1 << exceptionType))
                break;
        }

        if(i < machExceptionPortsSaved.count)
        {
            mach_port_t            port             = machExceptionPortsSaved.ports[i];
            exception_behavior_t   behavior         = machExceptionPortsSaved.behaviors[i];
            thread_state_flavor_t  flavor           = machExceptionPortsSaved.flavors[i];
            mach_msg_type_number_t threadStateCount = THREAD_STATE_MAX;
            thread_state_data_t    threadState;

            if(behavior != EXCEPTION_DEFAULT)
                thread_get_state(thread, flavor, threadState, &threadStateCount);

            switch(behavior)
            {
                case EXCEPTION_DEFAULT:
                    result = mach_exception_raise_OVR(port, thread, task, exceptionType, pMachExceptionData, exceptionDataCount);
                    break;

                case EXCEPTION_STATE:
                    result = mach_exception_raise_state_OVR(port, exceptionType, pMachExceptionData, exceptionDataCount,
                                       &flavor, threadState, threadStateCount, threadState, &threadStateCount);
                    break;

                case EXCEPTION_STATE_IDENTITY:
                    result = mach_exception_raise_state_identity_OVR(port, thread, task, exceptionType, pMachExceptionData,
                                    exceptionDataCount, &flavor, threadState, threadStateCount, threadState, &threadStateCount);
                    break;

                default:
                    result = KERN_FAILURE;
                    break;
            }

            if(behavior != EXCEPTION_DEFAULT)
                result = thread_set_state(thread, flavor, threadState, threadStateCount);
        }

        return result;
    }


#endif // OVR_OS_APPLE


bool ExceptionHandler::Enable(bool enable)
{
    #if defined(OVR_OS_MS)
        if(enable && !enabled)
        {
            OVR_ASSERT(vectoredHandle == nullptr);
            vectoredHandle = AddVectoredExceptionHandler(1, Win32ExceptionFilter); // Windows call.
            enabled = (vectoredHandle != nullptr);
            OVR_ASSERT(enabled);
            sExceptionHandler = this;
            return enabled;
        }
        else if(!enable && enabled)
        {
            if(sExceptionHandler == this)
                sExceptionHandler = nullptr;
            OVR_ASSERT(vectoredHandle != nullptr);
            ULONG result = RemoveVectoredExceptionHandler(vectoredHandle); // Windows call.
            OVR_ASSERT_AND_UNUSED(result != 0, result);
            vectoredHandle = nullptr;
            enabled = false;
            return true;
        }

    #elif defined(OVR_OS_APPLE)

        if(enable && !enabled)
        {
            enabled = InitMachExceptionHandler();
            OVR_ASSERT(enabled);
            sExceptionHandler = this;
            return enabled;
        }
        else if(!enable && enabled)
        {
            if(sExceptionHandler == this)
                sExceptionHandler = nullptr;
            ShutdownMachExceptionHandler();
            enabled = false;
            return true;
        }
    #else
        OVR_UNUSED(enable);
    #endif

    return true;
}

int ExceptionHandler::PauseHandling(bool pause)
{
    if(pause)
        return ++pauseCount;

    OVR_ASSERT(pauseCount > 0);
    return --pauseCount;
}

void ExceptionHandler::EnableReportPrivacy(bool enable)
{
    reportPrivacyEnabled = enable;
}

void ExceptionHandler::WriteExceptionDescription()
{
    #if defined(OVR_OS_MS)
        // There is some extra information available for AV exception.
        if(exceptionInfo.exceptionRecord.ExceptionCode == EXCEPTION_ACCESS_VIOLATION)
        {
            const char* error = (exceptionInfo.exceptionRecord.ExceptionInformation[0] == 0) ? "reading" :
                               ((exceptionInfo.exceptionRecord.ExceptionInformation[0] == 1) ? "writing" : "executing");

            char addressStr[24];
            SprintfAddress(addressStr, OVR_ARRAY_COUNT(addressStr), exceptionInfo.pExceptionMemoryAddress);
            OVR::OVR_snprintf(exceptionInfo.exceptionDescription, OVR_ARRAY_COUNT(exceptionInfo.exceptionDescription), "ACCESS_VIOLATION %s address %s", error, addressStr);
        }
        else
        {
            exceptionInfo.exceptionDescription[0] = 0;

            // Process "standard" exceptions, other than 'access violation'
            #define FORMAT_EXCEPTION(x)           \
                case EXCEPTION_##x:               \
                    OVR::OVR_strlcpy(exceptionInfo.exceptionDescription, #x, OVR_ARRAY_COUNT(exceptionInfo.exceptionDescription)); \
                    break;

            switch(exceptionInfo.exceptionRecord.ExceptionCode)
            {
              //FORMAT_EXCEPTION(ACCESS_VIOLATION) Already handled above.
                FORMAT_EXCEPTION(DATATYPE_MISALIGNMENT)
                FORMAT_EXCEPTION(BREAKPOINT)
                FORMAT_EXCEPTION(SINGLE_STEP)
                FORMAT_EXCEPTION(ARRAY_BOUNDS_EXCEEDED)
                FORMAT_EXCEPTION(FLT_DENORMAL_OPERAND)
                FORMAT_EXCEPTION(FLT_DIVIDE_BY_ZERO)
                FORMAT_EXCEPTION(FLT_INEXACT_RESULT)
                FORMAT_EXCEPTION(FLT_INVALID_OPERATION)
                FORMAT_EXCEPTION(FLT_OVERFLOW)
                FORMAT_EXCEPTION(FLT_STACK_CHECK)
                FORMAT_EXCEPTION(FLT_UNDERFLOW)
                FORMAT_EXCEPTION(INT_DIVIDE_BY_ZERO)
                FORMAT_EXCEPTION(INT_OVERFLOW)
                FORMAT_EXCEPTION(PRIV_INSTRUCTION)
                FORMAT_EXCEPTION(IN_PAGE_ERROR)
                FORMAT_EXCEPTION(ILLEGAL_INSTRUCTION)
                FORMAT_EXCEPTION(NONCONTINUABLE_EXCEPTION)
                FORMAT_EXCEPTION(STACK_OVERFLOW)
                FORMAT_EXCEPTION(INVALID_DISPOSITION)
                FORMAT_EXCEPTION(GUARD_PAGE)
                FORMAT_EXCEPTION(INVALID_HANDLE)
              #if defined(EXCEPTION_POSSIBLE_DEADLOCK) && defined(STATUS_POSSIBLE_DEADLOCK) // This type seems to be non-existant in practice.
                FORMAT_EXCEPTION(POSSIBLE_DEADLOCK)
              #endif
            }

            // If not one of the "known" exceptions, try to get the string from NTDLL.DLL's message table.
            if(exceptionInfo.exceptionDescription[0] == 0)
            {
                char addressStr[24];
                SprintfAddress(addressStr, OVR_ARRAY_COUNT(addressStr), exceptionInfo.pExceptionMemoryAddress);

                char  buffer[384];
                DWORD capacity = OVR_ARRAY_COUNT(buffer);

                const size_t length = (size_t)FormatMessageA(FORMAT_MESSAGE_IGNORE_INSERTS | FORMAT_MESSAGE_FROM_HMODULE,
                                                    GetModuleHandleW(L"NTDLL.DLL"), exceptionInfo.exceptionRecord.ExceptionCode, 0, buffer, capacity, nullptr);
                if(length)
                    OVR::OVR_snprintf(exceptionInfo.exceptionDescription, OVR_ARRAY_COUNT(exceptionInfo.exceptionDescription),
                                        "%s at instruction %s", buffer, addressStr);

                // If everything else failed just show the hex code.
                if(exceptionInfo.exceptionDescription[0] == 0)
                    OVR::OVR_snprintf(exceptionInfo.exceptionDescription, OVR_ARRAY_COUNT(exceptionInfo.exceptionDescription),
                                      "Unknown exception 0x%08x at instruction %s", exceptionInfo.exceptionRecord.ExceptionCode, addressStr);
            }
        }

    #elif defined(OVR_OS_APPLE)
        struct MachExceptionInfo
        {
            static const char* GetCPUExceptionIdString(uint32_t cpuExceptionId)
            {
                const char* id;

                #if defined(OVR_CPU_X86) || defined(OVR_CPU_X86_64)
                    switch (cpuExceptionId)
                    {
                        case  0: id = "integer div/0";               break;
                        case  1: id = "breakpoint fault";            break;
                        case  2: id = "non-maskable interrupt";      break;
                        case  3: id = "int 3";                       break;
                        case  4: id = "overflow";                    break;
                        case  5: id = "bounds check failure";        break;
                        case  6: id = "invalid instruction";         break;
                        case  7: id = "coprocessor unavailable";     break;
                        case  8: id = "exception within exception";  break;
                        case  9: id = "coprocessor segment overrun"; break;
                        case 10: id = "invalid task switch";         break;
                        case 11: id = "segment not present";         break;
                        case 12: id = "stack exception";             break;
                        case 13: id = "general protection fault";    break;
                        case 14: id = "page fault";                  break;
                        case 16: id = "coprocessor error";           break;
                        default: id = "<unknown>";                   break;
                    }
                #else
                    // To do: Support ARM or others.
                #endif

                return id;
            }

            static const char* GetMachExceptionTypeString(uint64_t exceptionCause)
            {
                switch (exceptionCause)
                {
                    case EXC_ARITHMETIC:      return "EXC_ARITHMETIC";
                    case EXC_BAD_ACCESS:      return "EXC_BAD_ACCESS";
                    case EXC_BAD_INSTRUCTION: return "EXC_BAD_INSTRUCTION";
                    case EXC_BREAKPOINT:      return "EXC_BREAKPOINT";
                    case EXC_CRASH:           return "EXC_CRASH";
                    case EXC_EMULATION:       return "EXC_EMULATION";
                    case EXC_MACH_SYSCALL:    return "EXC_MACH_SYSCALL";
                    case EXC_RPC_ALERT:       return "EXC_RPC_ALERT";
                    case EXC_SOFTWARE:        return "EXC_SOFTWARE";
                    case EXC_SYSCALL:         return "EXC_SYSCALL";
                };

                return "EXC_<unknown>";
            }

            static const char* GetMachExceptionIdString(uint64_t machExceptionId, uint64_t code0)
            {
                const char* id = "<unknown>";

                #if defined(OVR_CPU_X86) || defined(OVR_CPU_X86_64)
                    switch (machExceptionId)
                    {
                        case EXC_ARITHMETIC:
                            switch (code0)
                            {
                                case EXC_I386_BOUND:     id = "EXC_I386_BOUND";     break;
                                case EXC_I386_DIV:       id = "EXC_I386_DIV";       break;
                                case EXC_I386_EMERR:     id = "EXC_I386_EMERR";     break;
                                case EXC_I386_EXTERR:    id = "EXC_I386_EXTERR";    break;
                                case EXC_I386_EXTOVR:    id = "EXC_I386_EXTOVR";    break;
                                case EXC_I386_INTO:      id = "EXC_I386_INTO";      break;
                                case EXC_I386_NOEXT:     id = "EXC_I386_NOEXT";     break;
                                case EXC_I386_SSEEXTERR: id = "EXC_I386_SSEEXTERR"; break;
                            }
                            break;

                        case EXC_BAD_INSTRUCTION:
                            if(code0 == EXC_I386_INVOP)
                                id = "EXC_I386_INVOP";
                            break;

                        case EXC_BREAKPOINT:
                            if(code0 == EXC_I386_BPT)
                                id = "EXC_I386_BPT";
                            else if(code0 == EXC_I386_SGL)
                                id = "EXC_I386_SGL";
                            break;
                    };
                #else
                    // To do.
                #endif

                return id;
            }
        };

        OVR::OVR_snprintf(exceptionInfo.exceptionDescription, OVR_ARRAY_COUNT(exceptionInfo.exceptionDescription),
                            "Mach exception type: %llu (%s)\n", exceptionInfo.exceptionType, MachExceptionInfo::GetMachExceptionTypeString(exceptionInfo.exceptionType));

        OVR::OVR_snprintf(scratchBuffer, OVR_ARRAY_COUNT(scratchBuffer), "CPU exception info: exception id: %u (%s), exception id error: %u, fault memory address: %p\n",
                            exceptionInfo.cpuExceptionId, MachExceptionInfo::GetCPUExceptionIdString(exceptionInfo.cpuExceptionId), exceptionInfo.cpuExceptionIdError, exceptionInfo.pExceptionMemoryAddress);
        OVR::OVR_strlcat(exceptionInfo.exceptionDescription, scratchBuffer, OVR_ARRAY_COUNT(exceptionInfo.exceptionDescription));


        OVR::OVR_snprintf(scratchBuffer, OVR_ARRAY_COUNT(scratchBuffer), "Mach exception info: exception id: %llu (%s), 0x%llx (%llu)\n", (uint64_t)exceptionInfo.machExceptionData[0],
                           MachExceptionInfo::GetMachExceptionIdString(exceptionInfo.exceptionType, exceptionInfo.machExceptionData[0]),
                           (uint64_t)exceptionInfo.machExceptionData[1], (uint64_t)exceptionInfo.machExceptionData[1]);
        OVR::OVR_strlcat(exceptionInfo.exceptionDescription, scratchBuffer, OVR_ARRAY_COUNT(exceptionInfo.exceptionDescription));
    #else
        // To do.
        exceptionInfo.exceptionDescription[0] = 0;
    #endif
}


void ExceptionHandler::WriteReportLine(const char* pLine)
{
    fwrite(pLine, strlen(pLine), 1, file);
}


void ExceptionHandler::WriteReportLineF(const char* format, ...)
{
    va_list args;
    va_start(args, format);
    int length = OVR_vsnprintf(scratchBuffer, OVR_ARRAY_COUNT(scratchBuffer), format, args);
    if(length >= (int)OVR_ARRAY_COUNT(scratchBuffer))     // If we didn't have enough space...
        length = (OVR_ARRAY_COUNT(scratchBuffer) - 1);    // ... use what we have.
    va_end(args);

    fwrite(scratchBuffer, length, 1, file);
}


// Thread <name> <handle> <id>
// 0   <module> <address> <function> <file>:<line>
// 1   <module> <address> <function> <file>:<line>
// . . .
//
void ExceptionHandler::WriteThreadCallstack(ThreadHandle threadHandle, ThreadSysId threadSysId, const char* additionalInfo)
{
    // We intentionally do not directly use the SymbolInfo::ReportThreadCallstack function because that function allocates memory,
    // which we cannot do due to possibly being within an exception handler.

    // Print the header
    char    threadName[32];
    char    threadHandleStr[32];
    char    threadSysIdStr[32];
    char    stackBaseStr[24];
    char    stackLimitStr[24];
    char    stackCurrentStr[24];
    void*   pStackBase;
    void*   pStackLimit;
    bool    isExceptionThread = (threadSysId == exceptionInfo.threadSysId);

    #if defined(OVR_OS_MS) && (OVR_PTR_SIZE == 8)
      void* pStackCurrent = (threadSysId == exceptionInfo.threadSysId) ? (void*)exceptionInfo.cpuContext.Rsp : nullptr; // We would need to suspend the thread, get its context, resume it, then read the rsp register. It turns out we are already doing that suspend/resume below in the backtrace call.
    #elif defined(OVR_OS_MS)
      void* pStackCurrent = (threadSysId == exceptionInfo.threadSysId) ? (void*)exceptionInfo.cpuContext.Esp : nullptr;
    #elif defined(OVR_OS_MAC) && (OVR_PTR_SIZE == 8)
      void* pStackCurrent = (threadSysId == exceptionInfo.threadSysId) ? (void*)exceptionInfo.cpuContext.threadState.uts.ts64.__rsp : nullptr;
    #elif defined(OVR_OS_MAC)
      void* pStackCurrent = (threadSysId == exceptionInfo.threadSysId) ? (void*)exceptionInfo.cpuContext.threadState.uts.ts32.__esp : nullptr;
    #elif defined(OVR_OS_LINUX)
      void* pStackCurrent = nullptr; // To do.
    #endif

    OVR::GetThreadStackBounds(pStackBase, pStackLimit, threadHandle);

    OVR::Thread::GetThreadName(threadName, OVR_ARRAY_COUNT(threadName), threadName);
    SprintfThreadHandle(threadHandleStr,  OVR_ARRAY_COUNT(threadHandleStr), threadHandle);
    SprintfThreadSysId(threadSysIdStr, OVR_ARRAY_COUNT(threadSysIdStr), threadSysId);
    SprintfAddress(stackBaseStr, OVR_ARRAY_COUNT(stackBaseStr), pStackBase);
    SprintfAddress(stackLimitStr, OVR_ARRAY_COUNT(stackLimitStr), pStackLimit);
    SprintfAddress(stackCurrentStr, OVR_ARRAY_COUNT(stackCurrentStr), pStackCurrent);

    if(threadName[0])
        WriteReportLineF("Thread \"%s\" handle: %s, id: %s, stack base: %s, stack limit: %s, stack current: %s, %s\n", threadName, threadHandleStr, threadSysIdStr, stackBaseStr, stackLimitStr, stackCurrentStr, additionalInfo ? additionalInfo : "");
    else
        WriteReportLineF("Thread handle: %s, id: %s, stack base: %s, stack limit: %s, stack current: %s, %s\n", threadHandleStr, threadSysIdStr, stackBaseStr, stackLimitStr, stackCurrentStr, additionalInfo ? additionalInfo : "");

    // Print the backtrace info
    void*       addressArray[64];
    size_t      addressCount = symbolLookup.GetBacktraceFromThreadSysId(addressArray, OVR_ARRAY_COUNT(addressArray), 0, threadSysId);
    SymbolInfo  symbolInfo;
    const char* pModuleName;
    size_t      backtraceSkipCount = 0;

    if(isExceptionThread)
    {
        // If this thread is the exception thread, skip some frames.
        #if defined(OVR_OS_MS)
            size_t i, iEnd = MIN(16, addressCount);

            for(i = 0; i < iEnd; i++)
            {
                symbolLookup.LookupSymbol((uint64_t)addressArray[i], symbolInfo);
                if(strstr(symbolInfo.function, "UserExceptionDispatcher") != nullptr)
                    break;
            }

            if(i < iEnd) // If found...
                backtraceSkipCount = i;
            else if(addressCount >= 9)      // Else default to 9, which is coincidentally what works.
                backtraceSkipCount = 9;
            else
                backtraceSkipCount = 0;

            addressArray[backtraceSkipCount] = exceptionInfo.pExceptionInstructionAddress;
        #endif
    }

    if(addressCount == 0)
    {
        WriteReportLine("<Unable to read backtrace>\n\n");
    }
    else
    {
        for(size_t i = backtraceSkipCount; i < addressCount; ++i)
        {
            symbolLookup.LookupSymbol((uint64_t)addressArray[i], symbolInfo);

            if(symbolInfo.pModuleInfo && symbolInfo.pModuleInfo->name[0])
                pModuleName = symbolInfo.pModuleInfo->name;
            else
                pModuleName = "(unknown module)";

            char addressStr[24];
            SprintfAddress(addressStr, OVR_ARRAY_COUNT(addressStr), addressArray[i]);

            if(symbolInfo.filePath[0])
                WriteReportLineF("%-2u %-24s %s %s+%d %s:%d\n%s", (unsigned)i, pModuleName, addressStr,
                                    symbolInfo.function, symbolInfo.functionOffset, symbolInfo.filePath,
                                    symbolInfo.fileLineNumber, (i + 1) == addressCount ? "\n" : "");
            else
                WriteReportLineF("%-2u %-24s %s %s+%d\n%s", (unsigned)i, pModuleName, addressStr,
                                    symbolInfo.function, symbolInfo.functionOffset, (i + 1) == addressCount ? "\n" : ""); // If this is the last line, append another \n.
        }
    }
}


void ExceptionHandler::WriteReport()
{
    // It's important that we don't allocate any memory here if we can help it.
    using namespace OVR;

    if(strstr(reportFilePath, "%s")) // If the user-specified file path includes a date/time component...
    {
        char dateTimeBuffer[64];
        FormatDateTime(dateTimeBuffer, OVR_ARRAY_COUNT(dateTimeBuffer), exceptionInfo.timeVal, true, true, false, true);
        OVR_snprintf(reportFilePathActual, OVR_ARRAY_COUNT(reportFilePathActual), reportFilePath, dateTimeBuffer);
    }
    else
    {
        OVR_strlcpy(reportFilePathActual, reportFilePath, OVR_ARRAY_COUNT(reportFilePathActual));
    }

    file = fopen(reportFilePathActual, "w");
    OVR_ASSERT(file != nullptr);
    if(!file)
        return;

    SymbolLookup::Initialize();

    {
        // Exception information
        WriteReportLine("Exception Info\n");

        WriteReportLineF("Exception report file: %s\n", reportFilePathActual);

        #if defined(OVR_OS_MS)
            if(miniDumpFilePath[0])
                WriteReportLineF("Exception minidump file: %s\n", minidumpFilePathActual);
        #endif

        char dateTimeBuffer[64];
        FormatDateTime(dateTimeBuffer, OVR_ARRAY_COUNT(dateTimeBuffer), exceptionInfo.timeVal, true, true, false, false);
        WriteReportLineF("Time (GMT): %s\n", dateTimeBuffer);

        FormatDateTime(dateTimeBuffer, OVR_ARRAY_COUNT(scratchBuffer), exceptionInfo.timeVal, true, true, true, false);
        WriteReportLineF("Time (local): %s\n", dateTimeBuffer);
        WriteReportLineF("Thread name: %s\n", exceptionInfo.threadName[0] ? exceptionInfo.threadName : "(not available)"); // It's never possible on Windows to get thread names, as they are stored in the debugger at runtime.

        SprintfThreadHandle(scratchBuffer, OVR_ARRAY_COUNT(scratchBuffer), exceptionInfo.threadHandle);
        OVR_strlcat(scratchBuffer, "\n", OVR_ARRAY_COUNT(scratchBuffer));
        WriteReportLine("Thread handle: ");
        WriteReportLine(scratchBuffer);

        SprintfThreadSysId(scratchBuffer, OVR_ARRAY_COUNT(scratchBuffer), exceptionInfo.threadSysId);
        OVR_strlcat(scratchBuffer, "\n", OVR_ARRAY_COUNT(scratchBuffer));
        WriteReportLine("Thread sys id: ");
        WriteReportLine(scratchBuffer);

        char addressStr[24];
        SprintfAddress(addressStr, OVR_ARRAY_COUNT(addressStr), exceptionInfo.pExceptionInstructionAddress);
        WriteReportLineF("Exception instruction address: %s (see callstack below)\n", addressStr);
        WriteReportLineF("Exception description: %s\n", exceptionInfo.exceptionDescription);

        if (symbolLookup.LookupSymbol((uint64_t)exceptionInfo.pExceptionInstructionAddress, exceptionInfo.symbolInfo))
        {
            if(exceptionInfo.symbolInfo.filePath[0])
                WriteReportLineF("Exception location: %s (%d)\n", exceptionInfo.symbolInfo.filePath, exceptionInfo.symbolInfo.fileLineNumber);
            else
                WriteReportLineF("Exception location: %s (%d)\n", exceptionInfo.symbolInfo.function, exceptionInfo.symbolInfo.functionOffset);
        }

        // To consider: print exceptionInfo.cpuContext registers
    }

    #if 0 // Disabled while we move this to the Util module or some other location.
    /*
    // OVR information
    WriteReportLine("\nOVR Info\n");
    WriteReportLineF("OVR time: %f\n", ovr_GetTimeInSeconds());
    WriteReportLineF("OVR version: %s\n", ovr_GetVersionString());

    // OVR util information
    // The following would be useful to use if they didn't allocate memory, which we can't do.
    // To do: see if we can have versions of the functions below which don't allocate memory
    // or allocate it safely (e.g. use an alternative heap).
    // String OVR::GetDisplayDriverVersion();
    // String OVR::GetCameraDriverVersion();

    // OVR HMD information
    WriteReportLine("\nOVR HMD Info\n");

    // XXX rewrite this to use EnumerateHMDStateList() with a callback...
    const OVR::List<OVR::CAPI::HMDState>& hmdStateList = OVR::CAPI::HMDState::GetHMDStateList();
    const OVR::CAPI::HMDState* pHMDState = hmdStateList.GetFirst();

    if(hmdStateList.IsNull(pHMDState))
    {
        WriteReportLine("No HMDs found.\n");
    }

    while(!hmdStateList.IsNull(pHMDState))
    {
        if(pHMDState->pProfile)
        {
            const char* user = pHMDState->pProfile->GetValue(OVR_KEY_USER);

            if(user)
                WriteReportLineF("Profile user: %s\n", reportPrivacyEnabled ? "<disabled by report privacy settings>" : user);
            else
                WriteReportLine("Null profile user\n");

            float NeckEyeDistance[2];
            float EyeToNoseDistance[2];
            float MaxEyeToPlateDist[2];
            pHMDState->pProfile->GetFloatValues(OVR_KEY_NECK_TO_EYE_DISTANCE, NeckEyeDistance, 2);
            pHMDState->pProfile->GetFloatValues(OVR_KEY_EYE_TO_NOSE_DISTANCE, EyeToNoseDistance, 2);
            pHMDState->pProfile->GetFloatValues(OVR_KEY_MAX_EYE_TO_PLATE_DISTANCE, MaxEyeToPlateDist, 2);

            WriteReportLineF("Player height: %f, eye height: %f, IPD: %f, Neck eye distance: %f,%f, eye relief dial: %d, eye to nose distance: %f,%f, max eye to plate distance: %f,%f, custom eye render: %s\n",
                        pHMDState->pProfile->GetFloatValue(OVR_KEY_PLAYER_HEIGHT, 0.f),
                        pHMDState->pProfile->GetFloatValue(OVR_KEY_EYE_HEIGHT, 0.f),
                        pHMDState->pProfile->GetFloatValue(OVR_KEY_IPD, 0.f),
                        NeckEyeDistance[0], NeckEyeDistance[1],
                        pHMDState->pProfile->GetIntValue(OVR_KEY_EYE_RELIEF_DIAL, 0),
                        EyeToNoseDistance[0], EyeToNoseDistance[1],
                        MaxEyeToPlateDist[0], MaxEyeToPlateDist[1],
                        pHMDState->pProfile->GetBoolValue(OVR_KEY_CUSTOM_EYE_RENDER, false) ? "yes" : "no");

            // Not currently used:
            // OVR_KEY_NAME
            // OVR_KEY_GENDER
            // OVR_KEY_EYE_CUP
            // OVR_KEY_CAMERA_POSITION
        }
        else
        {
            WriteReportLine("Null HMD profile\n");
        }

        if(pHMDState->pHmdDesc) // This should usually be true.
        {
            WriteReportLineF("HMD %d: Type: %u ProductName: %s, Manufacturer: %s VendorId: %d, ProductId: %d, SerialNumber: %s, FirmwareMajor: %d, FirmwareMinor: %d, Resolution: %dx%d, DisplayDeviceName: %s, DisplayId: %d\n",
                            0, (unsigned)pHMDState->pHmdDesc->Type, pHMDState->pHmdDesc->ProductName, pHMDState->pHmdDesc->Manufacturer, pHMDState->pHmdDesc->VendorId,
                            pHMDState->pHmdDesc->ProductId, pHMDState->pHmdDesc->SerialNumber, pHMDState->pHmdDesc->FirmwareMajor, pHMDState->pHmdDesc->FirmwareMinor,
                            pHMDState->pHmdDesc->Resolution.w, pHMDState->pHmdDesc->Resolution.h, pHMDState->pHmdDesc->DisplayDeviceName, pHMDState->pHmdDesc->DisplayId);

            // HSW display state
            ovrHSWDisplayState hswDS;
            ovrHmd_GetHSWDisplayState(pHMDState->pHmdDesc, &hswDS);
            WriteReportLineF("HSW displayed for hmd: %s\n", hswDS.Displayed ? "yes" : "no");
        }

        char threadIdStr[24];
        SprintfAddress(threadIdStr, OVR_ARRAY_COUNT(threadIdStr), pHMDState->BeginFrameThreadId);

        WriteReportLineF("Hmd Caps: %x, Hmd Service Caps: %x, Latency test active: %s, Last frame time: %f, Last get frame time: %f, Rendering configred: %s, Begin frame called: %s, Begin frame thread id: %s\n",
                    pHMDState->EnabledHmdCaps, pHMDState->EnabledServiceHmdCaps, pHMDState->LatencyTestActive ? "yes" : "no", pHMDState->LastFrameTimeSeconds, pHMDState->LastGetFrameTimeSeconds, pHMDState->RenderingConfigured ? "yes" : "no",
                    pHMDState->BeginFrameCalled ? "yes" : "no", threadIdStr);

        if(pHMDState->pLastError)
        {
            WriteReportLineF("OVR last error for hmd: %s\n", pHMDState->pLastError);
        }

        pHMDState = hmdStateList.GetNext(pHMDState);
    }
    */
    #endif // #if 0

    #if defined(OVR_OS_WIN32)
        {
            WriteReportLine("\nApp Info\n");

            // Print the app path.
            char appPath[OVR_MAX_PATH];
            GetCurrentProcessFilePath(appPath, OVR_ARRAY_COUNT(appPath));
            WriteReportLineF("Process path: %s\n", appPath);

            #if (OVR_PTR_SIZE == 4)
                WriteReportLine("App format: 32 bit\n");
            #else
                WriteReportLine("App format: 64 bit\n");
            #endif

            // Print the app version
            wchar_t pathW[OVR_MAX_PATH] = {};
            GetModuleFileNameW(0, pathW, (DWORD)OVR_ARRAY_COUNT(pathW));
            DWORD dwUnused;
            DWORD dwSize = GetFileVersionInfoSizeW(pathW, &dwUnused);
            scratchBuffer[0] = 0;

            if(dwSize > 0)
            {
                void* const pVersionData = SafeMMapAlloc(dwSize);

                if(pVersionData)
                {
                    if(GetFileVersionInfoW(pathW, 0, dwSize, pVersionData))
                    {
                        VS_FIXEDFILEINFO* pFFI;
                        UINT size;

                        if(VerQueryValueA(pVersionData, "\\", (void**)&pFFI, &size))
                        {
                            WriteReportLineF("App version: %u.%u.%u.%u\n",
                                            HIWORD(pFFI->dwFileVersionMS), LOWORD(pFFI->dwFileVersionMS),
                                            HIWORD(pFFI->dwFileVersionLS), LOWORD(pFFI->dwFileVersionLS));
                        }
                    }

                    SafeMMapFree(pVersionData, dwSize);
                }
            }

            if(!scratchBuffer[0]) // If version info couldn't be found or read...
                WriteReportLine("App version info not present\n");
        }

        {
            WriteReportLine("\nSystem Info\n");

            OSVERSIONINFOEXW vi;
            memset(&vi, 0, sizeof(vi));
            vi.dwOSVersionInfoSize = sizeof(vi);
            GetVersionExW((LPOSVERSIONINFOW)&vi); // Cast to the older type.

            char osVersionName[256];
            GetOSVersionName(osVersionName, OVR_ARRAY_COUNT(osVersionName));
            WriteReportLineF("OS name: %s, version: %u.%u build %u, %s, platform id: %u, service pack: %ls\n",
                            osVersionName, vi.dwMajorVersion, vi.dwMinorVersion, vi.dwBuildNumber, Is64BitOS() ? "64 bit" : "32 bit",
                            vi.dwPlatformId, vi.szCSDVersion[0] ? vi.szCSDVersion : L"<none>");

            WriteReportLineF("Debugger present: %s\n", OVRIsDebuggerPresent() ? "yes" : "no");

            // System info
            SYSTEM_INFO systemInfo;
            GetNativeSystemInfo(&systemInfo);

            WriteReportLineF("Processor count: %u\n", systemInfo.dwNumberOfProcessors);

            // Windows Vista and later:
            // BOOL WINAPI GetLogicalProcessorInformation(PSYSTEM_LOGICAL_PROCESSOR_INFORMATION Buffer, PDWORD ReturnLength);

            if(systemInfo.wProcessorArchitecture == 0)
                WriteReportLineF("Processor type: x86\n");
            else if(systemInfo.wProcessorArchitecture == 9)
                WriteReportLineF("Processor type: x86-64\n");
            else if(systemInfo.wProcessorArchitecture == 10)
                WriteReportLineF("Processor type: x86 on x86-64\n");

            WriteReportLineF("Processor level: %u\n", systemInfo.wProcessorLevel);
            WriteReportLineF("Processor revision: %u\n", systemInfo.wProcessorRevision);

            // Memory information
            MEMORYSTATUSEX memoryStatusEx;
            memset(&memoryStatusEx, 0, sizeof(memoryStatusEx));
            memoryStatusEx.dwLength = sizeof(memoryStatusEx);
            GlobalMemoryStatusEx(&memoryStatusEx);

            WriteReportLineF("Memory load: %d%%\n", memoryStatusEx.dwMemoryLoad);
            WriteReportLineF("Total physical memory: %I64d MiB\n", memoryStatusEx.ullTotalPhys / (1024 * 1024)); // Or are Mebibytes equal to (1024 * 1000)
            WriteReportLineF("Available physical memory: %I64d MiB\n", memoryStatusEx.ullAvailPhys / (1024 * 1024));
            WriteReportLineF("Total page file memory: %I64d MiB\n", memoryStatusEx.ullTotalPageFile / (1024 * 1024));
            WriteReportLineF("Available page file memory: %I64d MiB\n", memoryStatusEx.ullAvailPageFile / (1024 * 1024));
            WriteReportLineF("Total virtual memory: %I64d MiB\n", memoryStatusEx.ullTotalVirtual / (1024 * 1024));
            WriteReportLineF("Free virtual memory: %I64d MiB\n", memoryStatusEx.ullAvailVirtual / (1024 * 1024));

            DISPLAY_DEVICEW dd;
            memset(&dd, 0, sizeof(DISPLAY_DEVICE));
            dd.cb = sizeof(DISPLAY_DEVICE);

            for(int i = 0; EnumDisplayDevicesW(nullptr, (DWORD)i, &dd, EDD_GET_DEVICE_INTERFACE_NAME); ++i)
            {
                WriteReportLineF("Display Device %d name: %ls, context: %ls, primary: %s, mirroring: %s\n",
                             i, dd.DeviceName, dd.DeviceString, (dd.StateFlags & DISPLAY_DEVICE_PRIMARY_DEVICE) ? "yes" : "no", (dd.StateFlags & DISPLAY_DEVICE_MIRRORING_DRIVER) ? "yes" : "no");
            }
        }

        // Print video card information
        // http://msdn.microsoft.com/en-us/library/aa394512%28v=vs.85%29.aspx
        {
            IWbemLocator*         pIWbemLocator = nullptr;
            BSTR                  bstrServer = nullptr;
            IWbemServices*        pIWbemServices = nullptr;
            BSTR                  bstrWQL  = nullptr;
            BSTR                  bstrPath = nullptr;
            IEnumWbemClassObject* pEnum = nullptr;

            CoInitializeEx(nullptr, COINIT_MULTITHREADED);

            HRESULT hr = CoCreateInstance(__uuidof(WbemLocator), nullptr, CLSCTX_INPROC_SERVER, __uuidof(IWbemLocator), (LPVOID*)&pIWbemLocator);
            if(FAILED(hr))
                goto End;

            bstrServer = SysAllocString(L"\\\\.\\root\\cimv2");
            hr = pIWbemLocator->ConnectServer(bstrServer, nullptr, nullptr, 0L, 0L, nullptr, nullptr, &pIWbemServices);
            if(FAILED(hr))
                goto End;

            hr = CoSetProxyBlanket(pIWbemServices, RPC_C_AUTHN_WINNT, RPC_C_AUTHZ_NONE, nullptr, RPC_C_AUTHN_LEVEL_CALL,
                                    RPC_C_IMP_LEVEL_IMPERSONATE, nullptr, EOAC_DEFAULT);
            if(FAILED(hr))
                goto End;

            bstrWQL  = SysAllocString(L"WQL");
            bstrPath = SysAllocString(L"select * from Win32_VideoController");
            hr = pIWbemServices->ExecQuery(bstrWQL, bstrPath, WBEM_FLAG_FORWARD_ONLY, nullptr, &pEnum);
            if(FAILED(hr))
                goto End;

            ULONG uReturned;
            IWbemClassObject* pObj = nullptr;
            hr = pEnum->Next(WBEM_INFINITE, 1, &pObj, &uReturned);
            if(FAILED(hr))
                goto End;

            WriteReportLine("\nDisplay adapter list\n");

            for(unsigned i = 0; SUCCEEDED(hr) && uReturned; i++)
            {
                char    sString[256];
                VARIANT var;

                if(i > 0)
                    WriteReportLine("\n");

                WriteReportLineF("Info for display adapter %u\n", i);

                hr = pObj->Get(L"Name", 0, &var, nullptr, nullptr);
                if(SUCCEEDED(hr))
                {
                    WideCharToMultiByte(CP_ACP, 0, var.bstrVal, -1, sString, sizeof(sString), nullptr, nullptr);
                    WriteReportLineF("Display Adapter Name: %s\n", sString);
                }

                hr = pObj->Get(L"AdapterRAM", 0, &var, nullptr, nullptr);
                if(SUCCEEDED(hr))
                {
                    WriteReportLineF("Display Adapter RAM: %u %s\n",
                            ((uint32_t)var.lVal > (1024*1024*1024) ? (uint32_t)var.lVal/(1024*1024*1024) : (uint32_t)var.lVal/(1024*1024)), ((uint32_t)var.lVal > (1024*1024*1024) ? "GiB" : "MiB"));
                }

                hr = pObj->Get(L"DeviceID", 0, &var, nullptr, nullptr);
                if(SUCCEEDED(hr))
                {
                    WideCharToMultiByte(CP_ACP, 0, var.bstrVal, -1, sString, sizeof(sString), nullptr, nullptr);
                    WriteReportLineF("Display Adapter DeviceID: %s\n", sString);
                }

                hr = pObj->Get(L"DriverVersion", 0, &var, nullptr, nullptr);
                if(SUCCEEDED(hr))
                {
                    WideCharToMultiByte(CP_ACP, 0, var.bstrVal, -1, sString, sizeof(sString), nullptr, nullptr);
                    WriteReportLineF("Display Adapter DriverVersion: %s\n", sString);
                }

                hr = pObj->Get(L"DriverDate", 0, &var, nullptr, nullptr);
                if(SUCCEEDED(hr))
                {
                    // http://technet.microsoft.com/en-us/library/ee156576.aspx
                    wchar_t year[5] = { var.bstrVal[0], var.bstrVal[1], var.bstrVal[2], var.bstrVal[3], 0 };
                    wchar_t month[3] = { var.bstrVal[4], var.bstrVal[5], 0 };
                    wchar_t monthDay[3] = { var.bstrVal[6], var.bstrVal[7], 0 };

                    WriteReportLineF("Display Adapter DriverDate (US format): %ls/%ls/%ls\n", month, monthDay, year);
                }

                // VideoProcessor
                hr = pObj->Get(L"VideoProcessor", 0, &var, nullptr, nullptr);
                if(SUCCEEDED(hr))
                {
                    WideCharToMultiByte(CP_ACP, 0, var.bstrVal, -1, sString, sizeof(sString), nullptr, nullptr);
                    WriteReportLineF("Display Adapter VideoProcessor %s\n", sString);
                }

                hr = pObj->Get(L"VideoModeDescription", 0, &var, nullptr, nullptr);
                if(SUCCEEDED(hr))
                {
                    WideCharToMultiByte(CP_ACP, 0, var.bstrVal, -1, sString, sizeof(sString), nullptr, nullptr);
                    WriteReportLineF("Display Adapter VideoModeDescription: %s\n", sString);
                }

                pObj->Release();

                hr = pEnum->Next(WBEM_INFINITE, 1, &pObj, &uReturned);
            }

            End:
            if(pEnum)
                pEnum->Release();
            if(bstrPath)
                SysFreeString(bstrPath);
            if(bstrWQL)
                SysFreeString(bstrWQL);
            if(pIWbemServices)
                pIWbemServices->Release();
            if(bstrServer)
                SysFreeString(bstrServer);
            if(pIWbemLocator)
                pIWbemLocator->Release();

            CoUninitialize();
        }

        {
            // Print a list of threads.
            DWORD  currentProcessId = GetCurrentProcessId();
            HANDLE hThreadSnap = CreateToolhelp32Snapshot(TH32CS_SNAPTHREAD, currentProcessId); // ICreateToolhelp32Snapshot actually ignores currentProcessId.

            if(hThreadSnap != INVALID_HANDLE_VALUE)
            {
                THREADENTRY32 te32;
                te32.dwSize = sizeof(THREADENTRY32);

                if(Thread32First(hThreadSnap, &te32))
                {
                    WriteReportLine("\nThread list\n");

                    do {
                        if(te32.th32OwnerProcessID == currentProcessId)
                        {
                            HANDLE hThread = ConvertThreadSysIdToThreadHandle(te32.th32ThreadID);

                            if(hThread)
                            {
                                char buffer[96]; // Can't use scratchBuffer, because it's used by WriteThreadCallstack.
                                OVR_snprintf(buffer, OVR_ARRAY_COUNT(buffer), "base priority: %ld, delta priority: %ld", te32.tpBasePri, te32.tpDeltaPri);

                                bool threadIsExceptionThread = (te32.th32ThreadID == (DWORD)exceptionInfo.threadSysId);
                                if(threadIsExceptionThread)
                                    OVR_strlcat(buffer, ", exception thread", OVR_ARRAY_COUNT(buffer));

                                WriteThreadCallstack(hThread, (OVR::ThreadSysId)te32.th32ThreadID, buffer);
                                FreeThreadHandle(hThread);
                            }
                        }
                    } while(Thread32Next(hThreadSnap, &te32));
                }

                CloseHandle(hThreadSnap);
            }
        }

        {
            // Print a list of the current modules within this process.
            // DbgHelp.dll also provides a EnumerateLoadedModules64 function.
            // To do: Convert the code below to use the GetModuleInfoArray function which we now have.
            HMODULE hModule = LoadLibraryW(L"psapi.dll");

            if(hModule)
            {
                typedef BOOL  (WINAPI * ENUMPROCESSMODULES)  (HANDLE hProcess, HMODULE* phModule, DWORD cb, LPDWORD lpcbNeeded);
                typedef DWORD (WINAPI * GETMODULEBASENAME)   (HANDLE hProcess, HMODULE hModule, LPWSTR lpFilename, DWORD nSize);
                typedef DWORD (WINAPI * GETMODULEFILENAMEEX) (HANDLE hProcess, HMODULE hModule, LPWSTR lpFilename, DWORD nSize);
                typedef BOOL  (WINAPI * GETMODULEINFORMATION)(HANDLE hProcess, HMODULE hModule, MODULEINFO* pmi, DWORD nSize);

                ENUMPROCESSMODULES   pEnumProcessModules   = (ENUMPROCESSMODULES)  (uintptr_t)GetProcAddress(hModule, "EnumProcessModules");
                GETMODULEBASENAME    pGetModuleBaseName    = (GETMODULEBASENAME)   (uintptr_t)GetProcAddress(hModule, "GetModuleBaseNameW");
                GETMODULEFILENAMEEX  pGetModuleFileNameEx  = (GETMODULEFILENAMEEX) (uintptr_t)GetProcAddress(hModule, "GetModuleFileNameExW");
                GETMODULEINFORMATION pGetModuleInformation = (GETMODULEINFORMATION)(uintptr_t)GetProcAddress(hModule, "GetModuleInformation");

                HANDLE  hProcess = GetCurrentProcess();
                HMODULE hModuleArray[200];
                DWORD   cbNeeded;

                if(pEnumProcessModules(hProcess, hModuleArray, sizeof(hModuleArray), &cbNeeded))
                {
                    size_t actualModuleCount = (cbNeeded / sizeof(HMODULE));

                    if(actualModuleCount > OVR_ARRAY_COUNT(hModuleArray))  //If hModuleArray's capacity was not enough...
                        actualModuleCount = OVR_ARRAY_COUNT(hModuleArray);

                    // Print a header
                    WriteReportLine("\nModule list\n");

                    #if (OVR_PTR_SIZE == 4)
                        WriteReportLine("Base        Size       Entrypoint Name                     Path\n");
                    #else
                        WriteReportLine("Base                Size               Entrypoint         Name                     Path\n");
                    #endif

                    // And go through the list one by one
                    for(size_t i = 0; i < actualModuleCount; i++)
                    {
                        MODULEINFO mi;
                        size_t     length;

                        if(!pGetModuleInformation(hProcess, hModuleArray[i], &mi, sizeof(mi)))
                        {
                            mi.EntryPoint  = nullptr;
                            mi.lpBaseOfDll = nullptr;
                            mi.SizeOfImage = 0;
                        }

                        // Write the base name.
                        wchar_t name[OVR_MAX_PATH + 3];
                        name[0] = '"';
                        if(pGetModuleBaseName(hProcess, hModuleArray[i], name + 1, OVR_MAX_PATH))
                            length = wcslen(name);
                        else
                        {
                            wcscpy(name + 1, L"(unknown)");
                            length = 10;
                        }

                        name[length] = '"';
                        name[length + 1] = '\0';

                        // Write the path
                        wchar_t path[OVR_MAX_PATH + 3];
                        path[0] = '"';
                        if(pGetModuleFileNameEx(hProcess, hModuleArray[i], path + 1, OVR_MAX_PATH))
                            length = wcslen(path);
                        else
                        {
                            wcscpy(path + 1, L"(unknown)");
                            length = 10;
                        }
                        path[length]     = '"';
                        path[length + 1] = '\0';

                        #if (OVR_PTR_SIZE == 4)
                            WriteReportLineF("0x%08x, 0x%08x 0x%08x %-24ls %ls\n", (uint32_t)mi.lpBaseOfDll, (uint32_t)mi.SizeOfImage, (uint32_t)mi.EntryPoint, name, path);
                        #else
                            WriteReportLineF("0x%016I64x 0x%016I64x 0x%016I64x %-24ls %ls\n", (uint64_t)mi.lpBaseOfDll, (uint64_t)mi.SizeOfImage, (uint64_t)mi.EntryPoint, name, path);
                        #endif
                    }
                }
            }
        }

        {
            // Print a list of processes.
            // DbgHelp.dll provides a SymEnumProcesses function, but it's available with DbgHelp.dll v6.2 which doesn't ship with Windows until Windows 8.
            WriteReportLine("\nProcess list\n");

            if(reportPrivacyEnabled)
                WriteReportLine("Disabled by report privacy settings\n");
            else
            {
                HANDLE hProcessSnapshot = CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, 0);

                if(hProcessSnapshot != INVALID_HANDLE_VALUE)
                {
                    PROCESSENTRY32W pe32;
                    memset(&pe32, 0, sizeof(pe32));
                    pe32.dwSize = sizeof(pe32);

                    if(Process32FirstW(hProcessSnapshot, &pe32))
                    {
                        WriteReportLine("Process Id File\n");

                        do {
                            // Try to get the full path to the process, as pe32.szExeFile holds only the process file name.
                            // This will typically fail with a privilege error unless this process has debug privileges: http://support.microsoft.com/kb/131065/en-us
                            wchar_t filePathW[OVR_MAX_PATH];
                            const wchar_t* pFilePathW = pe32.szExeFile;
                            HANDLE hProcess = ::OpenProcess(PROCESS_QUERY_INFORMATION | PROCESS_VM_READ, FALSE, pe32.th32ProcessID); // With Windows Vista+ we can use PROCESS_QUERY_LIMITED_INFORMATION.
                            if(hProcess)
                            {
                                if(GetProcessImageFileNameW(hProcess, filePathW, (DWORD)OVR_ARRAY_COUNT(filePathW)))
                                    pFilePathW = filePathW;
                            }

                            WriteReportLineF("0x%08x %ls\n", pe32.th32ProcessID, pFilePathW);
                        } while(Process32NextW(hProcessSnapshot, &pe32));
                    }

                    CloseHandle(hProcessSnapshot);
                }
                else
                {
                    WriteReportLine("Unable to read process list\n");
                }
            }
        }

    #elif defined(OVR_OS_APPLE)

        WriteReportLine("\nApp Info\n");

        // App path
        const pid_t processId = getpid();
        WriteReportLineF("Process id: ", "%lld (0x%llx)\n", (int64_t)processId, (int64_t)processId);

        char appPath[PATH_MAX];
        GetCurrentProcessFilePath(appPath, OVR_ARRAY_COUNT(appPath));
        WriteReportLineF("Process path: %s\n", appPath);

        #if (OVR_PTR_SIZE == 4)
            WriteReportLine("App format: 32 bit\n");
        #else
            WriteReportLine("App format: 64 bit\n");
        #endif

        // App version
        // To do.

        // System Info
        WriteReportLine("\nSystem Info\n");

        char osVersionName[256];
        GetOSVersionName(osVersionName, OVR_ARRAY_COUNT(osVersionName));
        WriteReportLineF("OS name: %s, %s\n", osVersionName, Is64BitOS() ? "64 bit" : "32 bit");

        int     name[2];
        int     intValue;
        size_t  length;
        char    tempBuffer[256];

        name[0] = CTL_KERN;
        name[1] = KERN_OSTYPE;
        length = sizeof(tempBuffer);
        tempBuffer[0] = 0;
        if(sysctl(name, 2, tempBuffer, &length, nullptr, 0) == 0)
        {
            WriteReportLineF("KERN_OSTYPE: %s\n", tempBuffer);
        }

        name[0] = CTL_KERN;
        name[1] = KERN_OSREV;
        length = sizeof(intValue);
        intValue = 0;
        if(sysctl(name, 2, &intValue, &length, nullptr, 0) == 0)
        {
            WriteReportLineF("KERN_OSREV: %d\n", intValue);
        }

        name[0] = CTL_KERN;
        name[1] = KERN_OSRELEASE;
        length = sizeof(tempBuffer);
        tempBuffer[0] = 0;
        if(sysctl(name, 2, tempBuffer, &length, nullptr, 0) == 0)
            WriteReportLineF("KERN_OSRELEASE: %s\n", tempBuffer);

        name[0] = CTL_HW;
        name[1] = HW_MACHINE;
        length = sizeof(tempBuffer);
        tempBuffer[0] = 0;
        if(sysctl(name, 2, tempBuffer, &length, nullptr, 0) == 0)
            WriteReportLineF("HW_MACHINE: %s\n", tempBuffer);

        name[0] = CTL_HW;
        name[1] = HW_MODEL;
        length = sizeof(tempBuffer);
        tempBuffer[0] = 0;
        if(sysctl(name, 2, tempBuffer, &length, nullptr, 0) == 0)
            WriteReportLineF("sHW_MODEL: %s\n", tempBuffer);

        name[0] = CTL_HW;
        name[1] = HW_NCPU;
        length = sizeof(intValue);
        intValue = 0;
        if(sysctl(name, 2, &intValue, &length, nullptr, 0) == 0)
            WriteReportLineF("HW_NCPU: %d\n", intValue);

        length = sizeof(tempBuffer);
        tempBuffer[0] = 0;
        if(sysctlbyname("machdep.cpu.brand_string", &tempBuffer, &length, nullptr, 0) == 0)
            WriteReportLineF("machdep.cpu.brand_string: %s\n", tempBuffer);

        length = sizeof(tempBuffer);
        tempBuffer[0] = 0;
        if(sysctlbyname("hw.acpi.thermal.tz0.temperature", &tempBuffer, &length, nullptr, 0) == 0)
            WriteReportLineF("hw.acpi.thermal.tz0.temperature: %s\n", tempBuffer);

        host_basic_info_data_t hostinfo;
        mach_msg_type_number_t count = HOST_BASIC_INFO_COUNT;
        kern_return_t          kr = host_info(mach_host_self(), HOST_BASIC_INFO, (host_info_t)&hostinfo, &count);

        if(kr == KERN_SUCCESS)
        {
            const uint64_t memoryMib = (uint64_t)hostinfo.max_mem / (1024 * 1024);
            WriteReportLineF("System memory: %lld Mib (%.1f Gib)\n", memoryMib, (double)memoryMib / 1024);
        }

        // Video card info
        // To do.

        // Thread list
        mach_port_t             taskSelf   = mach_task_self();
        thread_act_port_array_t threadArray;
        mach_msg_type_number_t  threadCount;

        kern_return_t result = task_threads(taskSelf, &threadArray, &threadCount);

        if(result == KERN_SUCCESS)
        {
            WriteReportLine("\nThread list\n");

            for(mach_msg_type_number_t i = 0; i < threadCount; i++)
            {
                union TBIUnion{
                    natural_t words[THREAD_INFO_MAX];
                    thread_basic_info tbi;
                };

                TBIUnion    tbiUnion;
                mach_port_t thread = threadArray[i];
                pthread_t   pthread = pthread_from_mach_thread_np(thread); // We assume the thread was created through pthreads.

                char threadState[32] = "unknown";
                mach_msg_type_number_t threadInfoCount = THREAD_INFO_MAX;
                result = thread_info(thread, THREAD_BASIC_INFO, (thread_info_t)&tbiUnion, &threadInfoCount);

                if(result == KERN_SUCCESS)
                {
                    const char* state;

                    switch (tbiUnion.tbi.run_state)
                    {
                        case TH_STATE_HALTED:          state = "halted";          break;
                        case TH_STATE_RUNNING:         state = "running";         break;
                        case TH_STATE_STOPPED:         state = "stopped";         break;
                        case TH_STATE_UNINTERRUPTIBLE: state = "uninterruptible"; break;
                        case TH_STATE_WAITING:         state = "waiting";         break;
                        default:                       state = "<unknown>";       break;
                    }

                    OVR_snprintf(threadState, OVR_ARRAY_COUNT(threadState), "%s", state);
                    if(tbiUnion.tbi.flags & TH_FLAGS_IDLE)
                        OVR_strlcat(threadState, ", idle", sizeof(threadState));
                    if(tbiUnion.tbi.flags & TH_FLAGS_SWAPPED)
                        OVR_strlcat(threadState, ", swapped", sizeof(threadState));
                }

                thread_identifier_info threadIdentifierInfo;
                memset(&threadIdentifierInfo, 0, sizeof(threadIdentifierInfo));

                mach_msg_type_number_t threadIdentifierInfoCount = THREAD_IDENTIFIER_INFO_COUNT;
                thread_info(thread, THREAD_IDENTIFIER_INFO, (thread_info_t)&threadIdentifierInfo, &threadIdentifierInfoCount);

                proc_threadinfo procThreadInfo;
                memset(&procThreadInfo, 0, sizeof(procThreadInfo));
                result = proc_pidinfo(processId, PROC_PIDTHREADINFO, threadIdentifierInfo.thread_handle, &procThreadInfo, sizeof(procThreadInfo));
                OVR_UNUSED(result);

                char buffer[256]; // Can't use scratchBuffer, because it's used by WriteThreadCallstack.
                OVR_snprintf(buffer, OVR_ARRAY_COUNT(buffer), "state: %s, suspend count: %d, kernel priority: %d", threadState, (int)tbiUnion.tbi.suspend_count, (int)procThreadInfo.pth_curpri);

                bool threadIsExceptionThread = (thread == exceptionInfo.threadSysId);
                if(threadIsExceptionThread)
                    OVR_strlcat(buffer, ", exception thread", OVR_ARRAY_COUNT(buffer));

                WriteThreadCallstack(pthread, thread, buffer);
            }

            vm_deallocate(taskSelf, (vm_address_t)threadArray, threadCount * sizeof(thread_act_t));
        }


        WriteReportLine("\nModule list\n");

        const size_t mifCapacity  = 256;
        const size_t mifAllocSize = mifCapacity * sizeof(ModuleInfo);
        ModuleInfo* moduleInfoArray = (ModuleInfo*)SafeMMapAlloc(mifAllocSize);

        if(moduleInfoArray)
        {
            #if (OVR_PTR_SIZE == 4)
                WriteReportLine("Base        Size       Name                     Path\n");
            #else
                WriteReportLine("Base                Size               Name                     Path\n");
            #endif

            size_t moduleCount = symbolLookup.GetModuleInfoArray(moduleInfoArray, mifCapacity);
            if(moduleCount > mifCapacity)
                moduleCount = mifCapacity;

            for(size_t i = 0; i < moduleCount; i++)
            {
                const ModuleInfo& mi = moduleInfoArray[i];

                #if (OVR_PTR_SIZE == 4)
                    WriteReportLineF("0x%08x, 0x%08x %-24s %s\n", (uint32_t)mi.baseAddress, (uint32_t)mi.size, mi.name, mi.filePath);
                #else
                    WriteReportLineF("0x%016llx 0x%016llx %-24s %s\n", (uint64_t)mi.baseAddress, (uint64_t)mi.size, mi.name, mi.filePath);
                #endif
            }

            SafeMMapFree(moduleInfoArray, mifAllocSize);
        }


        WriteReportLine("\nProcess list\n");

        if(reportPrivacyEnabled)
            WriteReportLine("Disabled by report privacy settings\n");
        else
        {
            WriteReportLine("Process Id File\n");

            pid_t pidArray[1024];
            int   processCount = proc_listpids(PROC_ALL_PIDS, 0, pidArray, sizeof(pidArray)); // Important that we use sizeof not OVR_ARRAY_COUNT.
            char  processFilePath[PATH_MAX];

            for(int i = 0; i < processCount; i++)
            {
                if(proc_pidpath(pidArray[i], processFilePath, sizeof(processFilePath)) > 0)
                    WriteReportLineF("%-10d %s\n", pidArray[i], processFilePath);
            }

            if(!processCount)
                WriteReportLine("Unable to read process list\n");
        }

    #elif defined(OVR_OS_UNIX)
         Is64BitOS();
         GetCurrentProcessFilePath(nullptr, 0);
         GetFileNameFromPath(nullptr);
         GetOSVersionName(nullptr, 0);

    #endif // OVR_OS_MS

    SymbolLookup::Shutdown();

    fclose(file);
    file = nullptr;
}


void ExceptionHandler::WriteMiniDump()
{
    if(strstr(miniDumpFilePath, "%s")) // If the user-specified file path includes a date/time component...
    {
        char dateTimeBuffer[64];
        FormatDateTime(dateTimeBuffer, OVR_ARRAY_COUNT(dateTimeBuffer), exceptionInfo.timeVal, true, true, false, true);
        OVR_snprintf(minidumpFilePathActual, OVR_ARRAY_COUNT(minidumpFilePathActual), miniDumpFilePath, dateTimeBuffer);
    }
    else
    {
        OVR_strlcpy(minidumpFilePathActual, miniDumpFilePath, OVR_ARRAY_COUNT(minidumpFilePathActual));
    }

    #if defined(OVR_OS_WIN32) || defined(OVR_OS_WIN64)
        typedef BOOL (WINAPI * MINIDUMPWRITEDUMP)(HANDLE hProcess, DWORD ProcessId, HANDLE hFile, MINIDUMP_TYPE dumpType, CONST PMINIDUMP_EXCEPTION_INFORMATION ExceptionParam, CONST PMINIDUMP_USER_STREAM_INFORMATION UserStreamParam, CONST PMINIDUMP_CALLBACK_INFORMATION CallbackParam);
        HMODULE hModuleDbgHelp = LoadLibraryW(L"DbgHelp.dll");

        MINIDUMPWRITEDUMP pMiniDumpWriteDump = hModuleDbgHelp ? (MINIDUMPWRITEDUMP)(void*)GetProcAddress(hModuleDbgHelp, "MiniDumpWriteDump") : nullptr;

        if(pMiniDumpWriteDump)
        {
            wchar_t miniDumpFilePathW[OVR_MAX_PATH];
            OVR::UTF8Util::DecodeString(miniDumpFilePathW, minidumpFilePathActual, -1); // Problem: DecodeString provides no way to specify the destination capacity.

            HANDLE hFile = CreateFileW(miniDumpFilePathW, GENERIC_READ | GENERIC_WRITE, 0, 0, CREATE_ALWAYS, FILE_FLAG_WRITE_THROUGH, 0);

            if(hFile != INVALID_HANDLE_VALUE)
            {
                MINIDUMP_EXCEPTION_INFORMATION minidumpExceptionInfo = { ::GetCurrentThreadId(), pExceptionPointers, TRUE };

                BOOL result = pMiniDumpWriteDump(GetCurrentProcess(), GetCurrentProcessId(), hFile,
                                                    (MINIDUMP_TYPE)miniDumpFlags, &minidumpExceptionInfo,
                                                    (CONST PMINIDUMP_USER_STREAM_INFORMATION)nullptr, (CONST PMINIDUMP_CALLBACK_INFORMATION)nullptr);

                OVR_ASSERT_AND_UNUSED(result, result);
                CloseHandle(hFile);
                hFile = 0;
            }
            else
            {
                OVR_ASSERT(pMiniDumpWriteDump);  // OVR_FAIL_F(("ExceptionHandler::WriteMiniDump: Failed to create minidump file at %s", minidumpFilePathActual));
            }
        }

        FreeLibrary(hModuleDbgHelp);
    #else
        // Some platforms support various forms or exception reports and core dumps which are automatically generated upon us
        // returning from our own exception handling. We might want to put something here if we are using a custom version of
        // this, such as Google Breakpad.
    #endif
}


void ExceptionHandler::SetExceptionListener(ExceptionListener* pExceptionListener, uintptr_t userValue)
{
    exceptionListener = pExceptionListener;
    exceptionListenerUserValue = userValue;
}


void ExceptionHandler::SetAppDescription(const char* pAppDescription)
{
    appDescription = pAppDescription;
}


void ExceptionHandler::SetExceptionPaths(const char* exceptionReportPath, const char* exceptionMiniDumpFilePath)
{
    char tempPath[OVR_MAX_PATH];

    if(exceptionReportPath)
    {
        if(OVR_stricmp(exceptionReportPath, "default") == 0)
        {
            GetCrashDumpDirectory(tempPath, OVR_ARRAY_COUNT(tempPath));
            OVR::OVR_strlcat(tempPath, "Exception Report (%s).txt", OVR_ARRAY_COUNT(tempPath));
            exceptionReportPath = tempPath;
        }

        OVR_strlcpy(reportFilePath, exceptionReportPath, OVR_ARRAY_COUNT(reportFilePath));
    }
    else
    {
        reportFilePath[0] = '\0';
    }

    if(exceptionMiniDumpFilePath)
    {
        if(OVR_stricmp(exceptionMiniDumpFilePath, "default") == 0)
        {
            GetCrashDumpDirectory(tempPath, OVR_ARRAY_COUNT(tempPath));
            OVR::OVR_strlcat(tempPath, "Exception Minidump (%s).mdmp", OVR_ARRAY_COUNT(tempPath));
            exceptionMiniDumpFilePath = tempPath;
        }

        OVR_strlcpy(miniDumpFilePath, exceptionMiniDumpFilePath, OVR_ARRAY_COUNT(miniDumpFilePath));
    }
    else
    {
        miniDumpFilePath[0] = '\0';
    }
}


void ExceptionHandler::SetCodeBaseDirectoryPaths(const char* codeBaseDirectoryPathArray[], size_t codeBaseDirectoryPathCount)
{
    for(size_t i = 0, iCount = OVR::Alg::Min<size_t>(codeBaseDirectoryPathCount, OVR_ARRAY_COUNT(codeBasePathArray)); i != iCount; ++i)
    {
        codeBasePathArray[i] = codeBaseDirectoryPathArray[i];
    }
}

const char* ExceptionHandler::GetExceptionUIText(const char* exceptionReportPath)
{
    char* uiText = nullptr;
    OVR::SysFile file(exceptionReportPath, SysFile::Open_Read, SysFile::Mode_ReadWrite);

    if(file.IsValid())
    {
        size_t length = (size_t)file.GetLength();
        uiText = (char*)OVR::SafeMMapAlloc(length + 1);

        if(uiText)
        {
            file.Read((uint8_t*)uiText, (int)length);
            uiText[length] = '\0';
            file.Close();

            // Currently on Mac our message box implementation is unable to display arbitrarily large amounts of text.
            // So we reduce its size to a more summary version before presenting.
            #if defined(OVR_OS_MAC)
                struct Find { static char* PreviousChar(char* p, char c){ while(*p != c) p--; return p; } }; // Assumes the given c is present prior to p.

                // Print that the full report is at <file path>
                // Exception Info section
                // Exception thread callstack.
                char  empty[]               = "";
                char* pExceptionInfoBegin   = strstr(uiText, "Exception Info") ? strstr(uiText, "Exception Info") : empty;
                char* pExceptionInfoEnd     = (pExceptionInfoBegin == empty) ? (empty + 1) : strstr(uiText, "\n\n");
                char* pExceptionThreadArea  = strstr(uiText, ", exception thread");
                char* pExceptionThreadBegin = pExceptionThreadArea ? Find::PreviousChar(pExceptionThreadArea, '\n') + 1 : empty;
                char* pExceptionThreadEnd   = (pExceptionThreadBegin == empty) ? (empty + 1) : strstr(pExceptionThreadArea, "\n\n");

                if(!pExceptionInfoEnd)
                    pExceptionInfoEnd = pExceptionInfoBegin;
                *pExceptionInfoEnd = '\0';

                if(!pExceptionThreadEnd)
                    pExceptionThreadEnd = pExceptionThreadBegin;
                *pExceptionThreadEnd = '\0';

                size_t uiTextBriefLength = OVR_snprintf(nullptr, 0, "Full report:%s\n\nSummary report:\n%s\n\n%s", exceptionReportPath, pExceptionInfoBegin, pExceptionThreadBegin);
                char* uiTextBrief = (char*)OVR::SafeMMapAlloc(uiTextBriefLength + 1);

                if(uiTextBrief)
                {
                    OVR_snprintf(uiTextBrief, uiTextBriefLength + 1, "Full report:%s\n\nSummary report:\n%s\n\n%s", exceptionReportPath, pExceptionInfoBegin, pExceptionThreadBegin);
                    OVR::SafeMMapFree(uiText, length);
                    uiText = uiTextBrief;
                }
           #endif
        }
    }

    return uiText;
}

void ExceptionHandler::FreeExceptionUIText(const char* messageBoxText)
{
    OVR::SafeMMapFree(messageBoxText, OVR_strlen(messageBoxText));
}

void ExceptionHandler::ReportDeadlock(const char* threadName,
                                      const char* organizationName,
                                      const char* applicationName)
{
    ExceptionHandler handler;

    if (!organizationName || !organizationName[0] ||
        !applicationName || !applicationName[0])
    {
        char tempPath[OVR_MAX_PATH];
        GetCrashDumpDirectory(tempPath, OVR_ARRAY_COUNT(tempPath));
        OVR_strlcat(tempPath, "Deadlock Report (%s).txt", OVR_ARRAY_COUNT(tempPath));
        handler.SetExceptionPaths(tempPath);
    }
    else
    {
        handler.SetPathsFromNames(organizationName, applicationName, "Deadlock Report (%s).txt");
    }

    OVR_snprintf(handler.exceptionInfo.exceptionDescription,
                 sizeof(handler.exceptionInfo.exceptionDescription),
                 "Deadlock in thread '%s'", threadName ? threadName : "(null)");

    handler.exceptionInfo.timeVal = time(nullptr);
    handler.exceptionInfo.time = *gmtime(&handler.exceptionInfo.timeVal);
    handler.WriteReport();
}


//-----------------------------------------------------------------------------
// GUI Exception Listener

GUIExceptionListener::GUIExceptionListener() :
    Handler()
{
}

int GUIExceptionListener::HandleException(uintptr_t userValue,
                                          ExceptionHandler* pExceptionHandler,
                                          ExceptionInfo* pExceptionInfo,
                                          const char* reportFilePath)
{
    OVR_UNUSED3(userValue, pExceptionHandler, pExceptionInfo);

    // If debugger is not present,
    if (!OVRIsDebuggerPresent())
    {
        const char* uiText = ExceptionHandler::GetExceptionUIText(reportFilePath);
        if (uiText)
        {
            OVR::Util::DisplayMessageBox("Exception occurred", uiText);
            ExceptionHandler::FreeExceptionUIText(uiText);
        }
    }
    return 0;
}


} // namespace OVR


OVR_RESTORE_MSVC_WARNING()

#else /* !defined(HEADLESS_APP) */

namespace OVR {
    // Exits the process with the given exit code.
    void ExitProcess(intptr_t processReturnValue)
    {
        exit((int)processReturnValue);
    }
    bool OVRIsDebuggerPresent()
    {
        return false;
    }
    void ExceptionHandler::ReportDeadlock(const char* threadName,
                                          const char* organizationName,
                                          const char* applicationName)
    {
    }


    bool SymbolLookup::Initialize()
    {
        return true;
    }

    bool SymbolLookup::IsInitialized()
    {
        return true;
    }

    void SymbolLookup::Shutdown()
    {
    }

    bool SymbolLookup::Refresh()
    {
        return true;
    }

    size_t SymbolLookup::GetBacktrace(void* addressArray[], size_t addressArrayCapacity, size_t skipCount, void* platformThreadContext, OVR::ThreadSysId threadSysIdHelp) 
    {
        return 0;
    }
    bool SymbolLookup::LookupSymbol(uint64_t address, SymbolInfo& symbolInfo)
    {
        return false;
    }
    bool SymbolLookup::LookupSymbols(uint64_t* addressArray, SymbolInfo* pSymbolInfoArray, size_t arraySize)
    {
        return false;
    }
    SymbolLookup::SymbolLookup() { }
    SymbolLookup::~SymbolLookup() { }
    bool SymbolLookup::ReportThreadCallstack(OVR::String& sOutput, size_t skipCount, ThreadSysId threadSysId) {
        sOutput.Clear();
        return false;
    }
    bool SymbolLookup::ReportThreadCallstacks(OVR::String& sOutput, size_t skipCount)
    {
        sOutput.Clear();
        return true;
    }
    bool SymbolLookup::ReportModuleInformation(OVR::String& sOutput)
    {
        sOutput.Clear();
        return true;
    }
} // namespace OVR

#endif /* !defined(HEADLESS_APP) */