/*++ Copyright (c) 1990 Microsoft Corporation Copyright (c) 1998 Intel Corporation Module Name: kdtrap.c Abstract: This module contains code to implement the target side of the portable kernel debugger. Author: David N. Cutler 27-July-1990 Revision History: --*/ #include "kdp.h" #ifdef _GAMBIT_ #include "ssc.h" #endif // _GAMBIT_ BOOLEAN KdpTrap ( IN PKTRAP_FRAME TrapFrame, IN PKEXCEPTION_FRAME ExceptionFrame, IN PEXCEPTION_RECORD ExceptionRecord, IN PCONTEXT ContextRecord, IN KPROCESSOR_MODE PreviousMode, IN BOOLEAN SecondChance ) /*++ Routine Description: This routine is called whenever a exception is dispatched and the kernel debugger is active. Arguments: TrapFrame - Supplies a pointer to a trap frame that describes the trap. ExceptionFrame - Supplies a pointer to a exception frame that describes the trap. ExceptionRecord - Supplies a pointer to an exception record that describes the exception. ContextRecord - Supplies the context at the time of the exception. PreviousMode - Supplies the previous processor mode. SecondChance - Supplies a boolean value that determines whether this is the second chance (TRUE) that the exception has been raised. Return Value: A value of TRUE is returned if the exception is handled. Otherwise a value of FALSE is returned. --*/ { BOOLEAN Completion = FALSE; BOOLEAN UnloadSymbols = FALSE; ULONGLONG OldStIIP, OldStIPSR; // // Disable all hardware breakpoints // KeSetLowPsrBit(PSR_DB, 0); // // Synchronize processor execution, save processor state, enter debugger, // and flush the current TB. // KeFlushCurrentTb(); // // If this is a breakpoint instruction, then check to determine if is // an internal command. // if ((ExceptionRecord->ExceptionCode == STATUS_BREAKPOINT) && (ExceptionRecord->ExceptionInformation[0] >= BREAKPOINT_PRINT)) { // // Switch on the breakpoint code. // switch (ExceptionRecord->ExceptionInformation[0]) { // // Print a debug string. // // Arguments: IA64 passes arguments via RSE not GR's. Since arguments are not // part of CONTEXT struct, they need to be copies Temp registers. // (see NTOS/RTL/IA64/DEBUGSTB.S) // // T0 - Supplies a pointer to an output string buffer. // T1 - Supplies the length of the output string buffer. // T2 - Supplies the Id of the calling component. // T3 - Supplies the output filter level. // case BREAKPOINT_PRINT: // // Advance to next instruction slot so that the BREAK instruction // does not get re-executed. // RtlIa64IncrementIP((ULONG_PTR)ExceptionRecord->ExceptionAddress >> 2, ContextRecord->StIPSR, ContextRecord->StIIP); // // Print the debug message. // ContextRecord->IntV0 = KdpPrint((ULONG)ContextRecord->IntT2, (ULONG)ContextRecord->IntT3, (PCHAR)ContextRecord->IntT0, (USHORT)ContextRecord->IntT1, PreviousMode, TrapFrame, ExceptionFrame, &Completion); return Completion; // // Print a debug prompt string, then input a string. // // T0 - Supplies a pointer to an output string buffer. // T1 - Supplies the length of the output string buffer.. // T2 - supplies a pointer to an input string buffer. // T3 - Supplies the length of the input string bufffer. // case BREAKPOINT_PROMPT: // // Advance to next instruction slot so that the BREAK instruction // does not get re-executed. // RtlIa64IncrementIP((ULONG_PTR)ExceptionRecord->ExceptionAddress >> 2, ContextRecord->StIPSR, ContextRecord->StIIP); ContextRecord->IntV0 = KdpPrompt((PCHAR)ContextRecord->IntT0, (USHORT)ContextRecord->IntT1, (PCHAR)ContextRecord->IntT2, (USHORT)ContextRecord->IntT3, PreviousMode, TrapFrame, ExceptionFrame); return TRUE; // // Load the symbolic information for an image. // // Arguments: // // T0 - Supplies a pointer to an output string descriptor. // T1 - Supplies a the base address of the image. // case BREAKPOINT_UNLOAD_SYMBOLS: UnloadSymbols = TRUE; // // Fall through // case BREAKPOINT_LOAD_SYMBOLS: OldStIPSR = ContextRecord->StIPSR; OldStIIP = ContextRecord->StIIP; KdpSymbol((PSTRING)ContextRecord->IntT0, (PKD_SYMBOLS_INFO)ContextRecord->IntT1, UnloadSymbols, PreviousMode, ContextRecord, TrapFrame, ExceptionFrame); // // If the kernel debugger did not update the IP, then increment // past the breakpoint instruction. // if ((ContextRecord->StIIP == OldStIIP) && ((ContextRecord->StIPSR & IPSR_RI_MASK) == (OldStIPSR & IPSR_RI_MASK))) { RtlIa64IncrementIP((ULONG_PTR)ExceptionRecord->ExceptionAddress >> 2, ContextRecord->StIPSR, ContextRecord->StIIP); } return TRUE; case BREAKPOINT_COMMAND_STRING: OldStIPSR = ContextRecord->StIPSR; OldStIIP = ContextRecord->StIIP; KdpCommandString((PSTRING)ContextRecord->IntT0, (PSTRING)ContextRecord->IntT1, PreviousMode, ContextRecord, TrapFrame, ExceptionFrame); // // If the kernel debugger did not update the IP, then increment // past the breakpoint instruction. // if ((ContextRecord->StIIP == OldStIIP) && ((ContextRecord->StIPSR & IPSR_RI_MASK) == (OldStIPSR & IPSR_RI_MASK))) { RtlIa64IncrementIP((ULONG_PTR)ExceptionRecord->ExceptionAddress >> 2, ContextRecord->StIPSR, ContextRecord->StIIP); } return TRUE; // // Kernel breakin break // case BREAKPOINT_BREAKIN: // // Advance to next instruction slot so that the BREAK instruction // does not get re-executed // RtlIa64IncrementIP((ULONG_PTR)ExceptionRecord->ExceptionAddress >> 2, ContextRecord->StIPSR, ContextRecord->StIIP); break; // // Basic breakpoint. // case BREAKPOINT_STOP: break; // // Unknown internal command. // default: return FALSE; } } // // Report state change to the kernel debugger. // return KdpReport(TrapFrame, ExceptionFrame, ExceptionRecord, ContextRecord, PreviousMode, SecondChance); } BOOLEAN KdIsThisAKdTrap ( IN PEXCEPTION_RECORD ExceptionRecord, IN PCONTEXT ContextRecord, IN KPROCESSOR_MODE PreviousMode ) /*++ Routine Description: This routine is called whenever a user-mode exception occurs and it might be a kernel debugger exception (Like DbgPrint/DbgPrompt ). Arguments: ExceptionRecord - Supplies a pointer to an exception record that describes the exception. ContextRecord - Supplies the context at the time of the exception. PreviousMode - Supplies the previous processor mode. Return Value: A value of TRUE is returned if this is for the kernel debugger. Otherwise, a value of FALSE is returned. --*/ { ULONG_PTR BreakpointCode; // // Single step is also handled by the kernel debugger // if (ExceptionRecord->ExceptionCode == STATUS_SINGLE_STEP) { #if DEVL return TRUE; #else if (PreviousMode == KernelMode) { return TRUE; } else { return FALSE; } #endif } // // If is is not status breakpoint then it is not a kernel debugger trap. // if (ExceptionRecord->ExceptionCode != STATUS_BREAKPOINT) { return FALSE; } // // Isolate the breakpoint code from the breakpoint instruction which // is stored by the exception dispatch code in the information field // of the exception record. // BreakpointCode = (ULONG) ExceptionRecord->ExceptionInformation[0]; // // Switch on the breakpoint code. // switch (BreakpointCode) { // // Kernel breakpoint codes. // case KERNEL_BREAKPOINT: case BREAKPOINT_BREAKIN: case BREAKPOINT_PRINT: case BREAKPOINT_PROMPT: case BREAKPOINT_STOP: return TRUE; case BREAKPOINT_LOAD_SYMBOLS: case BREAKPOINT_UNLOAD_SYMBOLS: if (PreviousMode == KernelMode) { return TRUE; } else { return FALSE; } // // All other codes. // default: return FALSE; } } BOOLEAN KdpStub ( IN PKTRAP_FRAME TrapFrame, IN PKEXCEPTION_FRAME ExceptionFrame, IN PEXCEPTION_RECORD ExceptionRecord, IN PCONTEXT ContextRecord, IN KPROCESSOR_MODE PreviousMode, IN BOOLEAN SecondChance ) /*++ Routine Description: This routine provides a kernel debugger stub routine that catchs debug prints in checked systems when the kernel debugger is not active. Arguments: TrapFrame - Supplies a pointer to a trap frame that describes the trap. ExceptionFrame - Supplies a pointer to a exception frame that describes the trap. ExceptionRecord - Supplies a pointer to an exception record that describes the exception. ContextRecord - Supplies the context at the time of the exception. PreviousMode - Supplies the previous processor mode. SecondChance - Supplies a boolean value that determines whether this is the second chance (TRUE) that the exception has been raised. Return Value: A value of TRUE is returned if the exception is handled. Otherwise a value of FALSE is returned. --*/ { ULONG_PTR BreakpointCode; // // Isolate the breakpoint code from the breakpoint instruction which // is stored by the exception dispatch code in the information field // of the exception record. // BreakpointCode = (ULONG) ExceptionRecord->ExceptionInformation[0]; // // If the breakpoint is a debug print, debug load symbols, or debug // unload symbols, then return TRUE. Otherwise, return FALSE; // if ((BreakpointCode == BREAKPOINT_PRINT) || (BreakpointCode == BREAKPOINT_LOAD_SYMBOLS) || (BreakpointCode == BREAKPOINT_UNLOAD_SYMBOLS)) { // // Advance to next instruction slot so that the BREAK instruction // does not get re-executed // RtlIa64IncrementIP((ULONG_PTR)ExceptionRecord->ExceptionAddress >> 2, ContextRecord->StIPSR, ContextRecord->StIIP); return TRUE; } else { return FALSE; } }