Esempio n. 1
0
bool
CpuStateX86::SetRegisterValue(const Register* reg, const BVariant& value)
{
	int32 index = reg->Index();
	if (index >= X86_INT_REGISTER_END)
		return false;

	fIntRegisters[index] = value.ToUInt32();
	fSetRegisters[index] = 1;
	return true;
}
Esempio n. 2
0
status_t
DwarfImageDebugInfo::CreateFrame(Image* image,
	FunctionInstance* functionInstance, CpuState* cpuState,
	StackFrame*& _previousFrame, CpuState*& _previousCpuState)
{
	DwarfFunctionDebugInfo* function = dynamic_cast<DwarfFunctionDebugInfo*>(
		functionInstance->GetFunctionDebugInfo());
	if (function == NULL)
		return B_BAD_VALUE;

	TRACE_CFI("DwarfImageDebugInfo::CreateFrame(): subprogram DIE: %p\n",
		function->SubprogramEntry());

	int32 registerCount = fArchitecture->CountRegisters();
	const Register* registers = fArchitecture->Registers();

	// get the DWARF <-> architecture register maps
	RegisterMap* toDwarfMap;
	RegisterMap* fromDwarfMap;
	status_t error = fArchitecture->GetDwarfRegisterMaps(&toDwarfMap,
		&fromDwarfMap);
	if (error != B_OK)
		return error;
	Reference<RegisterMap> toDwarfMapReference(toDwarfMap, true);
	Reference<RegisterMap> fromDwarfMapReference(fromDwarfMap, true);

	// create a clean CPU state for the previous frame
	CpuState* previousCpuState;
	error = fArchitecture->CreateCpuState(previousCpuState);
	if (error != B_OK)
		return error;
	Reference<CpuState> previousCpuStateReference(previousCpuState, true);

	// create the target interfaces
	UnwindTargetInterface* inputInterface
		= new(std::nothrow) UnwindTargetInterface(registers, registerCount,
			fromDwarfMap, toDwarfMap, cpuState, fArchitecture, fTeamMemory);
	if (inputInterface == NULL)
		return B_NO_MEMORY;
	Reference<UnwindTargetInterface> inputInterfaceReference(inputInterface,
		true);

	UnwindTargetInterface* outputInterface
		= new(std::nothrow) UnwindTargetInterface(registers, registerCount,
			fromDwarfMap, toDwarfMap, previousCpuState, fArchitecture,
			fTeamMemory);
	if (outputInterface == NULL)
		return B_NO_MEMORY;
	Reference<UnwindTargetInterface> outputInterfaceReference(outputInterface,
		true);

	// do the unwinding
	target_addr_t instructionPointer
		= cpuState->InstructionPointer() - fRelocationDelta;
	target_addr_t framePointer;
	CompilationUnit* unit = function->GetCompilationUnit();
	error = fFile->UnwindCallFrame(unit, function->SubprogramEntry(),
		instructionPointer, inputInterface, outputInterface, framePointer);
	if (error != B_OK) {
		TRACE_CFI("Failed to unwind call frame: %s\n", strerror(error));
		return B_UNSUPPORTED;
	}

	TRACE_CFI_ONLY(
		TRACE_CFI("unwound registers:\n");
		for (int32 i = 0; i < registerCount; i++) {
			const Register* reg = registers + i;
			BVariant value;
			if (previousCpuState->GetRegisterValue(reg, value))
				TRACE_CFI("  %3s: %#lx\n", reg->Name(), value.ToUInt32());
			else
				TRACE_CFI("  %3s: undefined\n", reg->Name());
		}
	)