/**@file IA32 specific debug support functions Copyright (c) 2006 - 2007, Intel Corporation All rights reserved. This program and the accompanying materials are licensed and made available under the terms and conditions of the BSD License which accompanies this distribution. The full text of the license may be found at http://opensource.org/licenses/bsd-license.php THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. **/ // // private header files // #include "PlDebugSupport.h" // // This the global main table to keep track of the interrupts // IDT_ENTRY *IdtEntryTable = NULL; DESCRIPTOR NullDesc = 0; EFI_STATUS CreateEntryStub ( IN EFI_EXCEPTION_TYPE ExceptionType, OUT VOID **Stub ) /*++ Routine Description: Allocate pool for a new IDT entry stub. Copy the generic stub into the new buffer and fixup the vector number and jump target address. Arguments: ExceptionType - This is the exception type that the new stub will be created for. Stub - On successful exit, *Stub contains the newly allocated entry stub. Returns: Typically EFI_SUCCESS other possibilities are passed through from AllocatePool --*/ { UINT8 *StubCopy; StubCopy = *Stub; // // Fixup the stub code for this vector // // The stub code looks like this: // // 00000000 89 25 00000004 R mov AppEsp, esp ; save stack top // 00000006 BC 00008014 R mov esp, offset DbgStkBot ; switch to debugger stack // 0000000B 6A 00 push 0 ; push vector number - will be modified before installed // 0000000D E9 db 0e9h ; jump rel32 // 0000000E 00000000 dd 0 ; fixed up to relative address of CommonIdtEntry // // // poke in the exception type so the second push pushes the exception type // StubCopy[0x0c] = (UINT8) ExceptionType; // // fixup the jump target to point to the common entry // *(UINT32 *) &StubCopy[0x0e] = (UINT32) CommonIdtEntry - (UINT32) &StubCopy[StubSize]; return EFI_SUCCESS; } EFI_STATUS HookEntry ( IN EFI_EXCEPTION_TYPE ExceptionType, IN VOID (*NewCallback) () ) /*++ Routine Description: Creates a nes entry stub. Then saves the current IDT entry and replaces it with an interrupt gate for the new entry point. The IdtEntryTable is updated with the new registered function. This code executes in boot services context. The stub entry executes in interrupt context. Arguments: ExceptionType - specifies which vector to hook. NewCallback - a pointer to the new function to be registered. Returns: EFI_SUCCESS Other possibilities are passed through by CreateEntryStub --*/ { BOOLEAN OldIntFlagState; EFI_STATUS Status; Status = CreateEntryStub (ExceptionType, (VOID **) &IdtEntryTable[ExceptionType].StubEntry); if (Status == EFI_SUCCESS) { OldIntFlagState = WriteInterruptFlag (0); ReadIdt (ExceptionType, &(IdtEntryTable[ExceptionType].OrigDesc)); ((UINT16 *) &IdtEntryTable[ExceptionType].OrigVector)[0] = ((UINT16 *) &IdtEntryTable[ExceptionType].OrigDesc)[0]; ((UINT16 *) &IdtEntryTable[ExceptionType].OrigVector)[1] = ((UINT16 *) &IdtEntryTable[ExceptionType].OrigDesc)[3]; Vect2Desc (&IdtEntryTable[ExceptionType].NewDesc, IdtEntryTable[ExceptionType].StubEntry); IdtEntryTable[ExceptionType].RegisteredCallback = NewCallback; WriteIdt (ExceptionType, &(IdtEntryTable[ExceptionType].NewDesc)); WriteInterruptFlag (OldIntFlagState); } return Status; } EFI_STATUS UnhookEntry ( IN EFI_EXCEPTION_TYPE ExceptionType ) /*++ Routine Description: Undoes HookEntry. This code executes in boot services context. Arguments: ExceptionType - specifies which entry to unhook Returns: EFI_SUCCESS --*/ { BOOLEAN OldIntFlagState; OldIntFlagState = WriteInterruptFlag (0); WriteIdt (ExceptionType, &(IdtEntryTable[ExceptionType].OrigDesc)); WriteInterruptFlag (OldIntFlagState); return EFI_SUCCESS; } EFI_STATUS ManageIdtEntryTable ( VOID (*NewCallback)(), EFI_EXCEPTION_TYPE ExceptionType ) /*++ Routine Description: This is the main worker function that manages the state of the interrupt handlers. It both installs and uninstalls interrupt handlers based on the value of NewCallback. If NewCallback is NULL, then uninstall is indicated. If NewCallback is non-NULL, then install is indicated. Arguments: NewCallback - If non-NULL, NewCallback specifies the new handler to register. If NULL, specifies that the previously registered handler should be uninstalled. ExceptionType - Indicates which entry to manage Returns: EFI_SUCCESS EFI_INVALID_PARAMETER - requested uninstalling a handler from a vector that has no handler registered for it EFI_ALREADY_STARTED - requested install to a vector that already has a handler registered. Other possible return values are passed through from UnHookEntry and HookEntry. --*/ { EFI_STATUS Status; Status = EFI_SUCCESS; if (!FeaturePcdGet (PcdNtEmulatorEnable)) { if (CompareDescriptor (&IdtEntryTable[ExceptionType].NewDesc, &NullDesc)) { // // we've already installed to this vector // if (NewCallback != NULL) { // // if the input handler is non-null, error // Status = EFI_ALREADY_STARTED; } else { Status = UnhookEntry (ExceptionType); } } else { // // no user handler installed on this vector // if (NewCallback == NULL) { // // if the input handler is null, error // Status = EFI_INVALID_PARAMETER; } else { Status = HookEntry (ExceptionType, NewCallback); } } } return Status; } EFI_STATUS EFIAPI GetMaximumProcessorIndex ( IN EFI_DEBUG_SUPPORT_PROTOCOL *This, OUT UINTN *MaxProcessorIndex ) /*++ Routine Description: This is a DebugSupport protocol member function. Arguments: This - The DebugSupport instance MaxProcessorIndex - The maximuim supported processor index Returns: Always returns EFI_SUCCESS with *MaxProcessorIndex set to 0 --*/ { *MaxProcessorIndex = 0; return (EFI_SUCCESS); } EFI_STATUS EFIAPI RegisterPeriodicCallback ( IN EFI_DEBUG_SUPPORT_PROTOCOL *This, IN UINTN ProcessorIndex, IN EFI_PERIODIC_CALLBACK PeriodicCallback ) /*++ Routine Description: This is a DebugSupport protocol member function. Arguments: This - The DebugSupport instance ProcessorIndex - Which processor the callback applies to. PeriodicCallback - Callback function Returns: EFI_SUCCESS EFI_INVALID_PARAMETER - requested uninstalling a handler from a vector that has no handler registered for it EFI_ALREADY_STARTED - requested install to a vector that already has a handler registered. Other possible return values are passed through from UnHookEntry and HookEntry. --*/ { return ManageIdtEntryTable (PeriodicCallback, SYSTEM_TIMER_VECTOR); } EFI_STATUS EFIAPI RegisterExceptionCallback ( IN EFI_DEBUG_SUPPORT_PROTOCOL *This, IN UINTN ProcessorIndex, IN EFI_EXCEPTION_CALLBACK NewCallback, IN EFI_EXCEPTION_TYPE ExceptionType ) /*++ Routine Description: This is a DebugSupport protocol member function. This code executes in boot services context. Arguments: This - The DebugSupport instance ProcessorIndex - Which processor the callback applies to. NewCallback - Callback function ExceptionType - Which exception to hook Returns: EFI_SUCCESS EFI_INVALID_PARAMETER - requested uninstalling a handler from a vector that has no handler registered for it EFI_ALREADY_STARTED - requested install to a vector that already has a handler registered. Other possible return values are passed through from UnHookEntry and HookEntry. --*/ { return ManageIdtEntryTable (NewCallback, ExceptionType); } EFI_STATUS EFIAPI InvalidateInstructionCache ( IN EFI_DEBUG_SUPPORT_PROTOCOL *This, IN UINTN ProcessorIndex, IN VOID *Start, IN UINT64 Length ) /*++ Routine Description: This is a DebugSupport protocol member function. Calls assembly routine to flush cache. Arguments: This - The DebugSupport instance ProcessorIndex - Which processor the callback applies to. Start - Physical base of the memory range to be invalidated Length - mininum number of bytes in instruction cache to invalidate Returns: EFI_SUCCESS - always return success --*/ { AsmWbinvd (); return EFI_SUCCESS; } EFI_STATUS plInitializeDebugSupportDriver ( VOID ) /*++ Routine Description: Initializes driver's handler registration database. This code executes in boot services context. Arguments: None Returns: EFI_SUCCESS EFI_UNSUPPORTED - if IA32 processor does not support FXSTOR/FXRSTOR instructions, the context save will fail, so these processor's are not supported. EFI_OUT_OF_RESOURCES - not resource to finish initialization --*/ { EFI_EXCEPTION_TYPE ExceptionType; if (!FxStorSupport ()) { return EFI_UNSUPPORTED; } IdtEntryTable = AllocateZeroPool (sizeof (IDT_ENTRY) * NUM_IDT_ENTRIES); if (IdtEntryTable == NULL) { return EFI_OUT_OF_RESOURCES; } for (ExceptionType = 0; ExceptionType < NUM_IDT_ENTRIES; ExceptionType++) { IdtEntryTable[ExceptionType].StubEntry = (DEBUG_PROC) (UINTN) AllocatePool (StubSize); if (IdtEntryTable[ExceptionType].StubEntry == NULL) { goto ErrorCleanup; } CopyMem ((VOID *)(UINTN)IdtEntryTable[ExceptionType].StubEntry, InterruptEntryStub, StubSize); } return EFI_SUCCESS; ErrorCleanup: for (ExceptionType = 0; ExceptionType < NUM_IDT_ENTRIES; ExceptionType++) { if (IdtEntryTable[ExceptionType].StubEntry != NULL) { FreePool ((VOID *)(UINTN)IdtEntryTable[ExceptionType].StubEntry); } } FreePool (IdtEntryTable); return EFI_OUT_OF_RESOURCES; } EFI_STATUS EFIAPI plUnloadDebugSupportDriver ( IN EFI_HANDLE ImageHandle ) /*++ Routine Description: This is the callback that is written to the LoadedImage protocol instance on the image handle. It uninstalls all registered handlers and frees all entry stub memory. This code executes in boot services context. Arguments: ImageHandle - The image handle of the unload handler Returns: EFI_SUCCESS - always return success --*/ { EFI_EXCEPTION_TYPE ExceptionType; for (ExceptionType = 0; ExceptionType < NUM_IDT_ENTRIES; ExceptionType++) { ManageIdtEntryTable (NULL, ExceptionType); } FreePool (IdtEntryTable); return EFI_SUCCESS; } VOID InterruptDistrubutionHub ( EFI_EXCEPTION_TYPE ExceptionType, EFI_SYSTEM_CONTEXT_IA32 *ContextRecord ) /*++ Routine Description: Common piece of code that invokes the registered handlers. This code executes in exception context so no efi calls are allowed. Arguments: ExceptionType - exception type ContextRecord - system context Returns: None --*/ { if (IdtEntryTable[ExceptionType].RegisteredCallback != NULL) { if (ExceptionType != SYSTEM_TIMER_VECTOR) { IdtEntryTable[ExceptionType].RegisteredCallback (ExceptionType, ContextRecord); } else { OrigVector = IdtEntryTable[ExceptionType].OrigVector; IdtEntryTable[ExceptionType].RegisteredCallback (ContextRecord); } } }