Exemplo n.º 1
0
        private static unsafe int RhpCalculateStackTraceWorker(IntPtr *pOutputBuffer, uint outputBufferLength)
        {
            uint nFrames = 0;
            bool success = true;

            StackFrameIterator frameIter = new StackFrameIterator();

            bool isValid = frameIter.Init(null);

            Debug.Assert(isValid, "Missing RhGetCurrentThreadStackTrace frame");

            // Note that the while loop will skip RhGetCurrentThreadStackTrace frame
            while (frameIter.Next())
            {
                if (nFrames < outputBufferLength)
                {
                    pOutputBuffer[nFrames] = new IntPtr(frameIter.ControlPC);
                }
                else
                {
                    success = false;
                }

                nFrames++;
            }

            return(success ? (int)nFrames : -(int)nFrames);
        }
Exemplo n.º 2
0
        public static unsafe int RhpCalculateStackTraceWorker(IntPtr[] outputBuffer)
        {
            int  nFrames = 0;
            bool success = (outputBuffer != null);

            StackFrameIterator frameIter = new StackFrameIterator();
            bool isValid = frameIter.Init(null);

            for (; isValid; isValid = frameIter.Next())
            {
                if (outputBuffer != null)
                {
                    if (nFrames < outputBuffer.Length)
                    {
                        outputBuffer[nFrames] = new IntPtr(frameIter.ControlPC);
                    }
                    else
                    {
                        success = false;
                    }
                }
                nFrames++;
            }
            return(success ? nFrames : -nFrames);
        }
Exemplo n.º 3
0
        private static void DispatchEx(ref StackFrameIterator frameIter, ref ExInfo exInfo, uint startIdx)
        {
            Debug.Assert(exInfo._passNumber == 1, "expected asm throw routine to set the pass");
            object exceptionObj = exInfo.ThrownException;

            // ------------------------------------------------
            //
            // First pass
            //
            // ------------------------------------------------
            UIntPtr handlingFrameSP      = MaxSP;
            byte *  pCatchHandler        = null;
            uint    catchingTryRegionIdx = MaxTryRegionIdx;

            bool isFirstRethrowFrame = (startIdx != MaxTryRegionIdx);
            bool isFirstFrame        = true;

            byte *  prevControlPC         = null;
            UIntPtr prevFramePtr          = UIntPtr.Zero;
            bool    unwoundReversePInvoke = false;

            bool isValid = frameIter.Init(exInfo._pExContext);

            Debug.Assert(isValid, "RhThrowEx called with an unexpected context");
            DebuggerNotify.BeginFirstPass(exceptionObj, frameIter.ControlPC, frameIter.SP);
            for (; isValid; isValid = frameIter.Next(out startIdx, out unwoundReversePInvoke))
            {
                // For GC stackwalking, we'll happily walk across native code blocks, but for EH dispatch, we
                // disallow dispatching exceptions across native code.
                if (unwoundReversePInvoke)
                {
                    break;
                }

                prevControlPC = frameIter.ControlPC;

                DebugScanCallFrame(exInfo._passNumber, frameIter.ControlPC, frameIter.SP);

                // A debugger can subscribe to get callbacks at a specific frame of exception dispatch
                // exInfo._notifyDebuggerSP can be populated by the debugger from out of process
                // at any time.
                if (exInfo._notifyDebuggerSP == frameIter.SP)
                {
                    DebuggerNotify.FirstPassFrameEntered(exceptionObj, frameIter.ControlPC, frameIter.SP);
                }

                UpdateStackTrace(exceptionObj, ref exInfo, ref isFirstRethrowFrame, ref prevFramePtr, ref isFirstFrame);

                byte *pHandler;
                if (FindFirstPassHandler(exceptionObj, startIdx, ref frameIter,
                                         out catchingTryRegionIdx, out pHandler))
                {
                    handlingFrameSP = frameIter.SP;
                    pCatchHandler   = pHandler;

                    DebugVerifyHandlingFrame(handlingFrameSP);
                    break;
                }
            }
            DebuggerNotify.EndFirstPass(exceptionObj, pCatchHandler, handlingFrameSP);

            if (pCatchHandler == null)
            {
                UnhandledExceptionFailFastViaClasslib(
                    RhFailFastReason.PN_UnhandledException,
                    exceptionObj,
                    (IntPtr)prevControlPC, // IP of the last frame that did not handle the exception
                    ref exInfo);
            }

            // We FailFast above if the exception goes unhandled.  Therefore, we cannot run the second pass
            // without a catch handler.
            Debug.Assert(pCatchHandler != null, "We should have a handler if we're starting the second pass");

            DebuggerNotify.BeginSecondPass();
            // ------------------------------------------------
            //
            // Second pass
            //
            // ------------------------------------------------

            // Due to the stackwalker logic, we cannot tolerate triggering a GC from the dispatch code once we
            // are in the 2nd pass.  This is because the stackwalker applies a particular unwind semantic to
            // 'collapse' funclets which gets confused when we walk out of the dispatch code and encounter the
            // 'main body' without first encountering the funclet.  The thunks used to invoke 2nd-pass
            // funclets will always toggle this mode off before invoking them.
            InternalCalls.RhpSetThreadDoNotTriggerGC();

            exInfo._passNumber = 2;
            startIdx           = MaxTryRegionIdx;
            isValid            = frameIter.Init(exInfo._pExContext);
            for (; isValid && ((byte *)frameIter.SP <= (byte *)handlingFrameSP); isValid = frameIter.Next(out startIdx))
            {
                Debug.Assert(isValid, "second-pass EH unwind failed unexpectedly");
                DebugScanCallFrame(exInfo._passNumber, frameIter.ControlPC, frameIter.SP);

                if (frameIter.SP == handlingFrameSP)
                {
                    // invoke only a partial second-pass here...
                    InvokeSecondPass(ref exInfo, startIdx, catchingTryRegionIdx);
                    break;
                }

                InvokeSecondPass(ref exInfo, startIdx);
            }

            // ------------------------------------------------
            //
            // Call the handler and resume execution
            //
            // ------------------------------------------------
            exInfo._idxCurClause = catchingTryRegionIdx;
            InternalCalls.RhpCallCatchFunclet(
                exceptionObj, pCatchHandler, frameIter.RegisterSet, ref exInfo);
            // currently, RhpCallCatchFunclet will resume after the catch
            Debug.Assert(false, "unreachable");
            FallbackFailFast(RhFailFastReason.InternalError, null);
        }
Exemplo n.º 4
0
        public static unsafe int RhpCalculateStackTraceWorker(IntPtr[] outputBuffer)
        {
            int nFrames = 0;
            bool success = (outputBuffer != null);

            StackFrameIterator frameIter = new StackFrameIterator();
            bool isValid = frameIter.Init(null);
            for (; isValid; isValid = frameIter.Next())
            {
                if (outputBuffer != null)
                {
                    if (nFrames < outputBuffer.Length)
                        outputBuffer[nFrames] = new IntPtr(frameIter.ControlPC);
                    else
                        success = false;
                }
                nFrames++;
            }
            return success ? nFrames : -nFrames;
        }
Exemplo n.º 5
0
        private static void DispatchEx(ref StackFrameIterator frameIter, ref ExInfo exInfo, uint startIdx)
        {
            Debug.Assert(exInfo._passNumber == 1, "expected asm throw routine to set the pass");
            object exceptionObj = exInfo.ThrownException;

            // ------------------------------------------------
            //
            // First pass
            //
            // ------------------------------------------------
            UIntPtr handlingFrameSP = MaxSP;
            byte* pCatchHandler = null;
            uint catchingTryRegionIdx = MaxTryRegionIdx;

            bool isFirstRethrowFrame = (startIdx != MaxTryRegionIdx);
            bool isFirstFrame = true;

            byte* prevControlPC = null;
            UIntPtr prevFramePtr = UIntPtr.Zero;
            bool unwoundReversePInvoke = false;

            bool isValid = frameIter.Init(exInfo._pExContext);
            Debug.Assert(isValid, "RhThrowEx called with an unexpected context");
            DebuggerNotify.BeginFirstPass(exceptionObj, frameIter.ControlPC, frameIter.SP);
            for (; isValid; isValid = frameIter.Next(out startIdx, out unwoundReversePInvoke))
            {
                // For GC stackwalking, we'll happily walk across native code blocks, but for EH dispatch, we
                // disallow dispatching exceptions across native code.
                if (unwoundReversePInvoke)
                    break;

                prevControlPC = frameIter.ControlPC;

                DebugScanCallFrame(exInfo._passNumber, frameIter.ControlPC, frameIter.SP);

                // A debugger can subscribe to get callbacks at a specific frame of exception dispatch
                // exInfo._notifyDebuggerSP can be populated by the debugger from out of process
                // at any time.
                if (exInfo._notifyDebuggerSP == frameIter.SP)
                    DebuggerNotify.FirstPassFrameEntered(exceptionObj, frameIter.ControlPC, frameIter.SP);

                UpdateStackTrace(exceptionObj, ref exInfo, ref isFirstRethrowFrame, ref prevFramePtr, ref isFirstFrame);

                byte* pHandler;
                if (FindFirstPassHandler(exceptionObj, startIdx, ref frameIter,
                                         out catchingTryRegionIdx, out pHandler))
                {
                    handlingFrameSP = frameIter.SP;
                    pCatchHandler = pHandler;

                    DebugVerifyHandlingFrame(handlingFrameSP);
                    break;
                }
            }
            DebuggerNotify.EndFirstPass(exceptionObj, pCatchHandler, handlingFrameSP);

            if (pCatchHandler == null)
            {
                UnhandledExceptionFailFastViaClasslib(
                    RhFailFastReason.PN_UnhandledException,
                    exceptionObj,
                    (IntPtr)prevControlPC, // IP of the last frame that did not handle the exception
                    ref exInfo);
            }

            // We FailFast above if the exception goes unhandled.  Therefore, we cannot run the second pass
            // without a catch handler.
            Debug.Assert(pCatchHandler != null, "We should have a handler if we're starting the second pass");

            DebuggerNotify.BeginSecondPass();
            // ------------------------------------------------
            //
            // Second pass
            //
            // ------------------------------------------------

            // Due to the stackwalker logic, we cannot tolerate triggering a GC from the dispatch code once we
            // are in the 2nd pass.  This is because the stackwalker applies a particular unwind semantic to
            // 'collapse' funclets which gets confused when we walk out of the dispatch code and encounter the
            // 'main body' without first encountering the funclet.  The thunks used to invoke 2nd-pass 
            // funclets will always toggle this mode off before invoking them.
            InternalCalls.RhpSetThreadDoNotTriggerGC();

            exInfo._passNumber = 2;
            startIdx = MaxTryRegionIdx;
            isValid = frameIter.Init(exInfo._pExContext);
            for (; isValid && ((byte*)frameIter.SP <= (byte*)handlingFrameSP); isValid = frameIter.Next(out startIdx))
            {
                Debug.Assert(isValid, "second-pass EH unwind failed unexpectedly");
                DebugScanCallFrame(exInfo._passNumber, frameIter.ControlPC, frameIter.SP);

                if (frameIter.SP == handlingFrameSP)
                {
                    // invoke only a partial second-pass here...
                    InvokeSecondPass(ref exInfo, startIdx, catchingTryRegionIdx);
                    break;
                }

                InvokeSecondPass(ref exInfo, startIdx);
            }

            // ------------------------------------------------
            //
            // Call the handler and resume execution
            //
            // ------------------------------------------------
            exInfo._idxCurClause = catchingTryRegionIdx;
            InternalCalls.RhpCallCatchFunclet(
                exceptionObj, pCatchHandler, frameIter.RegisterSet, ref exInfo);
            // currently, RhpCallCatchFunclet will resume after the catch
            Debug.Assert(false, "unreachable");
            FallbackFailFast(RhFailFastReason.InternalError, null);
        }
Exemplo n.º 6
0
        private static unsafe int RhpCalculateStackTraceWorker(IntPtr * pOutputBuffer, uint outputBufferLength)
        {
            uint nFrames = 0;
            bool success = true;

            StackFrameIterator frameIter = new StackFrameIterator();

            bool isValid = frameIter.Init(null);
            Debug.Assert(isValid, "Missing RhGetCurrentThreadStackTrace frame");

            // Note that the while loop will skip RhGetCurrentThreadStackTrace frame
            while (frameIter.Next())
            {
                if (nFrames < outputBufferLength)
                    pOutputBuffer[nFrames] = new IntPtr(frameIter.ControlPC);
                else
                    success = false;

                nFrames++;
            }

            return success ? (int)nFrames : -(int)nFrames;
        }