/** @file BootServices overrides module. By dmazar, 26/09/2012 **/ #include #include #include #include #include #include "Common.h" /** Flag is TRUE before ExitBootServices() is called. FALSE in runtime. */ BOOLEAN InBootServices = TRUE; /** Original boot services. */ EFI_BOOT_SERVICES gOrgBS; #if CAPTURE_CONSOLE_OUTPUT >= 1 EFI_TEXT_STRING gOrgConOutOutputString = 0; BOOLEAN InConsolePrint = FALSE; #endif /** Helper function that calls GetMemoryMap() and returns new MapKey. * Uses gOrgBS.GetMemoryMap to avoid our log PRINT. */ EFI_STATUS GetMemoryMapKey(OUT UINTN *MapKey) { EFI_STATUS Status; UINTN MemoryMapSize; EFI_MEMORY_DESCRIPTOR *MemoryMap; UINTN DescriptorSize; UINT32 DescriptorVersion; Status = GetMemoryMapAlloc(gOrgBS.GetMemoryMap, &MemoryMapSize, &MemoryMap, MapKey, &DescriptorSize, &DescriptorVersion); return Status; } //////////////////////////////////////////// // // Boot services overrides // EFI_TPL EFIAPI OvrRaiseTPL(IN EFI_TPL NewTpl) { EFI_TPL Status; Status = gOrgBS.RaiseTPL(NewTpl); // do not print - it's called by UEFI events and timers (from timer interrupts) many times //PRINT("->RaiseTPL(NewTpl=%d) = %d\n", NewTpl, Status); return Status; } VOID EFIAPI OvrRestoreTPL(IN EFI_TPL OldTpl) { gOrgBS.RestoreTPL(OldTpl); // do not print - it's called by UEFI events and timers (from timer interrupts) many times //PRINT("->RestoreTPL(OldTpl=%d)\n", OldTpl); return; } EFI_STATUS EFIAPI OvrAllocatePages( IN EFI_ALLOCATE_TYPE Type, IN EFI_MEMORY_TYPE MemoryType, IN UINTN NumberOfPages, IN OUT EFI_PHYSICAL_ADDRESS *Memory ) { EFI_STATUS Status; // EFI_PHYSICAL_ADDRESS inMemory = *Memory; Status = gOrgBS.AllocatePages(Type, MemoryType, NumberOfPages, Memory); // PRINT("-> AllocatePages(%s, %s, 0x%x, 0x%lx/0x%lx) = %r\n", EfiAllocateTypeDesc[Type], EfiMemoryTypeDesc[MemoryType], NumberOfPages, inMemory, *Memory, Status); return Status; } EFI_STATUS EFIAPI OvrFreePages( IN EFI_PHYSICAL_ADDRESS Memory, IN UINTN Pages ) { EFI_STATUS Status; Status = gOrgBS.FreePages(Memory, Pages); // PRINT("->FreePages(0x%lx, 0x%x) = %r\n", Memory, Pages, Status); return Status; } EFI_STATUS EFIAPI OvrGetMemoryMap( IN OUT UINTN *MemoryMapSize, IN OUT EFI_MEMORY_DESCRIPTOR *MemoryMap, OUT UINTN *MapKey, OUT UINTN *DescriptorSize, OUT UINT32 *DescriptorVersion ) { EFI_STATUS Status; // UINTN inMemoryMapSize = *MemoryMapSize; Status = gOrgBS.GetMemoryMap(MemoryMapSize, MemoryMap, MapKey, DescriptorSize, DescriptorVersion); // if print to console, then ExitBootServices will not work // PRINT("->GetMemoryMap(0x%x/0x%x, %p, 0x%x, 0x%x, 0x%x) = %r\n", inMemoryMapSize, *MemoryMapSize, MemoryMap, *MapKey, *DescriptorSize, *DescriptorVersion, Status); if (Status == EFI_SUCCESS) { #if PRINT_MEMORY_MAP == 1 PrintMemMap(*MemoryMapSize, MemoryMap, *DescriptorSize, *DescriptorVersion); #endif } //Print(L"OvrGetMemoryMap\n"); return Status; } EFI_STATUS EFIAPI OvrAllocatePool( IN EFI_MEMORY_TYPE PoolType, IN UINTN Size, OUT VOID **Buffer ) { EFI_STATUS Status; Status = gOrgBS.AllocatePool(PoolType, Size, Buffer); // printing to console requires AllocatePool - recursion, but this is solved by safety check in LogPrint // do not print to serial - too many calls from UEFI //DebugPrint(1, "->AllocatePool(%s, 0x%x, %p) = %r\n", EfiMemoryTypeDesc[PoolType], Size, *Buffer, Status); #if PRINT_ALLOCATE_POOL == 1 PRINT("->AllocatePool(%s, 0x%x, %p) = %r\n", EfiMemoryTypeDesc[PoolType], Size, *Buffer, Status); #endif return Status; } EFI_STATUS EFIAPI OvrFreePool( IN VOID *Buffer ) { EFI_STATUS Status; Status = gOrgBS.FreePool(Buffer); // do not print to console - requires FreePool - recursion // do not print to serial - too many calls from UEFI //DebugPrint(1, "->FreePool(%p) = %r\n", Buffer, Status); return Status; } EFI_STATUS EFIAPI OvrCreateEvent( IN UINT32 Type, IN EFI_TPL NotifyTpl, IN EFI_EVENT_NOTIFY NotifyFunction, IN VOID *NotifyContext, OUT EFI_EVENT *Event ) { EFI_STATUS Status; Status = gOrgBS.CreateEvent(Type, NotifyTpl, NotifyFunction, NotifyContext, Event); //PRINT("->CreateEvent(0x%x, 0x%x, %p, %p, %p) = %r\n", Type, NotifyTpl, NotifyFunction, NotifyContext, *Event, Status); return Status; } EFI_STATUS EFIAPI OvrSetTimer( IN EFI_EVENT Event, IN EFI_TIMER_DELAY Type, IN UINT64 TriggerTime ) { EFI_STATUS Status; Status = gOrgBS.SetTimer(Event, Type, TriggerTime); PRINT("->SetTimer(%p, %d, 0x%x) = %r\n", Event, Type, TriggerTime, Status); return Status; } EFI_STATUS EFIAPI OvrWaitForEvent( IN UINTN NumberOfEvents, IN EFI_EVENT *Event, OUT UINTN *Index ) { EFI_STATUS Status; Status = gOrgBS.WaitForEvent(NumberOfEvents, Event, Index); // PRINT("->WaitForEvent(%d, %p, %d) = %r\n", NumberOfEvents, *Event, *Index, Status); return Status; } EFI_STATUS EFIAPI OvrSignalEvent( IN EFI_EVENT Event ) { EFI_STATUS Status; Status = gOrgBS.SignalEvent(Event); //PRINT("->SignalEvent(%p) = %r\n", Event, Status); return Status; } EFI_STATUS EFIAPI OvrCloseEvent( IN EFI_EVENT Event ) { EFI_STATUS Status; Status = gOrgBS.CloseEvent(Event); //PRINT("->CloseEvent(%p) = %r\n", Event, Status); return Status; } EFI_STATUS EFIAPI OvrCheckEvent( IN EFI_EVENT Event ) { EFI_STATUS Status; Status = gOrgBS.CheckEvent(Event); //PRINT("->CheckEvent(%p) = %r\n", Event, Status); return Status; } EFI_STATUS EFIAPI OvrInstallProtocolInterface( IN OUT EFI_HANDLE *Handle, IN EFI_GUID *Protocol, IN EFI_INTERFACE_TYPE InterfaceType, IN VOID *Interface ) { EFI_STATUS Status; Status = gOrgBS.InstallProtocolInterface(Handle, Protocol, InterfaceType, Interface); PRINT("->InstallProtocolInterface(%p, %s, %d, %p) = %r\n", Handle, GuidStr(Protocol), InterfaceType, Interface, Status); return Status; } EFI_STATUS EFIAPI OvrReinstallProtocolInterface( IN EFI_HANDLE Handle, IN EFI_GUID *Protocol, IN VOID *OldInterface, IN VOID *NewInterface ) { EFI_STATUS Status; Status = gOrgBS.ReinstallProtocolInterface(Handle, Protocol, OldInterface, NewInterface); PRINT("->ReinstallProtocolInterface(%p, %s, %p, %p) = %r\n", Handle, GuidStr(Protocol), OldInterface, NewInterface, Status); return Status; } EFI_STATUS EFIAPI OvrUninstallProtocolInterface( IN EFI_HANDLE Handle, IN EFI_GUID *Protocol, IN VOID *Interface ) { EFI_STATUS Status; Status = gOrgBS.UninstallProtocolInterface(Handle, Protocol, Interface); PRINT("->UninstallProtocolInterface(%p, %s, %p) = %r\n", Handle, GuidStr(Protocol), Interface, Status); return Status; } EFI_STATUS EFIAPI OvrHandleProtocol( IN EFI_HANDLE Handle, IN EFI_GUID *Protocol, OUT VOID **Interface ) { EFI_STATUS Status; Status = gOrgBS.HandleProtocol(Handle, Protocol, Interface); PRINT("->HandleProtocol(%p, %s, %p) = %r\n", Handle, GuidStr(Protocol), *Interface, Status); return Status; } EFI_STATUS EFIAPI OvrRegisterProtocolNotify( IN EFI_GUID *Protocol, IN EFI_EVENT Event, OUT VOID **Registration ) { EFI_STATUS Status; Status = gOrgBS.RegisterProtocolNotify(Protocol, Event, Registration); PRINT("->RegisterProtocolNotify(%s, %p, %p) = %r\n", GuidStr(Protocol), Event, *Registration, Status); return Status; } EFI_STATUS EFIAPI OvrLocateHandle( IN EFI_LOCATE_SEARCH_TYPE SearchType, IN EFI_GUID *Protocol, IN VOID *SearchKey, IN OUT UINTN *BufferSize, OUT EFI_HANDLE *Buffer ) { EFI_STATUS Status; UINTN BufferSizeIn = *BufferSize; Status = gOrgBS.LocateHandle(SearchType, Protocol, SearchKey, BufferSize, Buffer); PRINT("->LocateHandle(%d, %s, %p, 0x%x/0x%x, %p) = %r\n", SearchType, GuidStr(Protocol), SearchKey, BufferSizeIn, *BufferSize, Buffer, Status); return Status; } EFI_STATUS EFIAPI OvrLocateDevicePath( IN EFI_GUID *Protocol, IN OUT EFI_DEVICE_PATH_PROTOCOL **DevicePath, OUT EFI_HANDLE *Device ) { EFI_STATUS Status; EFI_DEVICE_PATH_PROTOCOL *DevicePathIn = *DevicePath; // PRINT("... try to do LocateDevicePath\n"); Status = gOrgBS.LocateDevicePath(Protocol, DevicePath, Device); // TODO: device path to str PRINT("->LocateDevicePath(%s, %p/%p, %p) = %r\n", GuidStr(Protocol), DevicePathIn, DevicePath, Device, Status); return Status; } EFI_STATUS EFIAPI OvrInstallConfigurationTable( IN EFI_GUID *Guid, IN VOID *Table ) { EFI_STATUS Status; Status = gOrgBS.InstallConfigurationTable(Guid, Table); // TODO: table guids to Lib.c PRINT("->InstallConfigurationTable(%s, %p) = %r\n", GuidStr(Guid), Table, Status); return Status; } EFI_STATUS EFIAPI OvrLoadImage( IN BOOLEAN BootPolicy, IN EFI_HANDLE ParentImageHandle, IN EFI_DEVICE_PATH_PROTOCOL *DevicePath, IN VOID *SourceBuffer, IN UINTN SourceSize, OUT EFI_HANDLE *ImageHandle ) { EFI_STATUS Status; Status = gOrgBS.LoadImage(BootPolicy, ParentImageHandle, DevicePath, SourceBuffer, SourceSize, ImageHandle); // TODO: dev path to str PRINT("->LoadImage(%c, %p, %p, %p, 0x%x, %p) = %r\n", BootPolicy ? L'T' : L'F', ParentImageHandle, DevicePath, SourceBuffer, SourceSize, ImageHandle, Status); return Status; } EFI_STATUS EFIAPI OvrStartImage( IN EFI_HANDLE ImageHandle, OUT UINTN *ExitDataSize, OUT CHAR16 **ExitData ) { EFI_STATUS Status; Status = gOrgBS.StartImage(ImageHandle, ExitDataSize, ExitData); PRINT("->StartImage(%p, 0x%x, %p) = %r\n", ImageHandle, *ExitDataSize, *ExitData, Status); return Status; } EFI_STATUS EFIAPI OvrExit( IN EFI_HANDLE ImageHandle, IN EFI_STATUS ExitStatus, IN UINTN ExitDataSize, IN CHAR16 *ExitData ) { EFI_STATUS Status; Status = gOrgBS.Exit(ImageHandle, ExitStatus, ExitDataSize, ExitData); PRINT("->Exit(%p, %r, 0x%x, %s) = %r\n", ImageHandle, ExitStatus, ExitDataSize, ExitData, Status); return Status; } EFI_STATUS EFIAPI OvrUnloadImage( IN EFI_HANDLE ImageHandle ) { EFI_STATUS Status; Status = gOrgBS.UnloadImage(ImageHandle); PRINT("->UnloadImage(%p) = %r\n", ImageHandle, Status); return Status; } EFI_STATUS EFIAPI OvrExitBootServices( IN EFI_HANDLE ImageHandle, IN UINTN MapKey ) { EFI_STATUS Status; UINTN NewMapKey; PRINT("ExitBootServices called. Doing some more dumps ...\n"); #if PRINT_DUMPS >= 1 // Print ST PrintSystemTable(gST); // Print RT vars PrintRTVariables(&gOrgRS); #endif // Restore RT services if we should not log calls during runtime #if WORK_DURING_RUNTIME == 0 RestoreRuntimeServices(gRT); #endif PRINT("->ExitBootServices(%p, 0x%x) ...\n", ImageHandle, MapKey); // Set flag to FALSE to stop some loggers from messing with memory InBootServices = FALSE; // Restore original OutputString #if CAPTURE_CONSOLE_OUTPUT >= 1 gST->ConOut->OutputString = gOrgConOutOutputString; #endif // Notify loggers that boot services are over // Saving our log file can cause a vast amount of logging output on some firmwares, so do this after stopping loggers. LogOnExitBootServices(); // Call original Status = gOrgBS.ExitBootServices(ImageHandle, MapKey); if (Status == EFI_SUCCESS) { PRINT("... ExitBootServices = %r\n", Status); } else { // // Error exiting boot services. Probably because // some of our loggers changed memory map state. // We'll just force exiting by obtaining new // MapKey and calling ExitBootServices again. // PRINT("... ExitBootServices = %r\n", Status); PRINT("Forcing ExitBootServices ...\n"); Status = GetMemoryMapKey(&NewMapKey); if (Status == EFI_SUCCESS) { // we have latest mem map and NewMapKey // we'll try again ExitBootServices with NewMapKey Status = gOrgBS.ExitBootServices(ImageHandle, NewMapKey); PRINT("ExitBootServices: 2nd try = %r\n", Status); } else { PRINT("ERROR obtaining new map key: %r\n", Status); Status = EFI_INVALID_PARAMETER; } } return Status; } EFI_STATUS EFIAPI OvrGetNextMonotonicCount( OUT UINT64 *Count ) { EFI_STATUS Status; Status = gOrgBS.GetNextMonotonicCount(Count); PRINT("->GetNextMonotonicCount(0x%x) = %r\n", *Count, Status); return Status; } EFI_STATUS EFIAPI OvrStall( IN UINTN Microseconds ) { EFI_STATUS Status; Status = gOrgBS.Stall(Microseconds); // do not print - too many calls //PRINT("->Stall(%d) = %r\n", Microseconds, Status); return Status; } EFI_STATUS EFIAPI OvrSetWatchdogTimer( IN UINTN Timeout, IN UINT64 WatchdogCode, IN UINTN DataSize, IN CHAR16 *WatchdogData ) { EFI_STATUS Status; Status = gOrgBS.SetWatchdogTimer(Timeout, WatchdogCode, DataSize, WatchdogData); PRINT("->SetWatchdogTimer(%d, 0x%x, %d, %s) = %r\n", Timeout, WatchdogCode, DataSize, WatchdogData, Status); return Status; } EFI_STATUS EFIAPI OvrConnectController( IN EFI_HANDLE ControllerHandle, IN EFI_HANDLE *DriverImageHandle, IN EFI_DEVICE_PATH_PROTOCOL *RemainingDevicePath, IN BOOLEAN Recursive ) { EFI_STATUS Status; Status = gOrgBS.ConnectController(ControllerHandle, DriverImageHandle, RemainingDevicePath, Recursive); // TODO: dev path to str PRINT("->ConnectController(%p, %p, %p, %c) = %r\n", ControllerHandle, DriverImageHandle, RemainingDevicePath, Recursive ? L'T' : L'F', Status); return Status; } EFI_STATUS EFIAPI OvrDisconnectController( IN EFI_HANDLE ControllerHandle, IN EFI_HANDLE DriverImageHandle, IN EFI_HANDLE ChildHandle ) { EFI_STATUS Status; Status = gOrgBS.DisconnectController(ControllerHandle, DriverImageHandle, ChildHandle); PRINT("->DisconnectController(%p, %p, %p) = %r\n", ControllerHandle, DriverImageHandle, ChildHandle, Status); return Status; } EFI_STATUS EFIAPI OvrOpenProtocol( IN EFI_HANDLE Handle, IN EFI_GUID *Protocol, OUT VOID **Interface, IN EFI_HANDLE AgentHandle, IN EFI_HANDLE ControllerHandle, IN UINT32 Attributes ) { EFI_STATUS Status; VOID *InterfaceIn = *Interface; Status = gOrgBS.OpenProtocol(Handle, Protocol, Interface, AgentHandle, ControllerHandle, Attributes); PRINT("->OpenProtocol(%p, %s, %p/%p, %p, %p, %x) = %r\n", Handle, GuidStr(Protocol), InterfaceIn, *Interface, AgentHandle, ControllerHandle, Attributes, Status); return Status; } EFI_STATUS EFIAPI OvrCloseProtocol( IN EFI_HANDLE Handle, IN EFI_GUID *Protocol, IN EFI_HANDLE AgentHandle, IN EFI_HANDLE ControllerHandle ) { EFI_STATUS Status; Status = gOrgBS.CloseProtocol(Handle, Protocol, AgentHandle, ControllerHandle); PRINT("->CloseProtocol(%p, %s, %p, %p) = %r\n", Handle, GuidStr(Protocol), AgentHandle, ControllerHandle, Status); return Status; } EFI_STATUS EFIAPI OvrOpenProtocolInformation( IN EFI_HANDLE Handle, IN EFI_GUID *Protocol, OUT EFI_OPEN_PROTOCOL_INFORMATION_ENTRY **EntryBuffer, OUT UINTN *EntryCount ) { EFI_STATUS Status; Status = gOrgBS.OpenProtocolInformation(Handle, Protocol, EntryBuffer, EntryCount); PRINT("->OpenProtocolInformation(%p, %s, %p, %d) = %r\n", Handle, GuidStr(Protocol), *EntryBuffer, *EntryCount, Status); return Status; } EFI_STATUS EFIAPI OvrProtocolsPerHandle( IN EFI_HANDLE Handle, OUT EFI_GUID ***ProtocolBuffer, OUT UINTN *ProtocolBufferCount ) { EFI_STATUS Status; Status = gOrgBS.ProtocolsPerHandle(Handle, ProtocolBuffer, ProtocolBufferCount); // TODO: print list of protocols returned PRINT("->ProtocolsPerHandle(%p, %p, %d) = %r\n", Handle, *ProtocolBuffer, *ProtocolBufferCount, Status); return Status; } EFI_STATUS EFIAPI OvrLocateHandleBuffer( IN EFI_LOCATE_SEARCH_TYPE SearchType, IN EFI_GUID *Protocol, IN VOID *SearchKey, IN OUT UINTN *NoHandles, OUT EFI_HANDLE **Buffer ) { EFI_STATUS Status; STATIC UINTN OldBuffer = 0; Status = gOrgBS.LocateHandleBuffer(SearchType, Protocol, SearchKey, NoHandles, Buffer); if (!CompareGuid(Protocol, &mEfiSimplePointerProtocolGuid) || (UINTN)Buffer != OldBuffer) { OldBuffer = (UINTN)Buffer; PRINT("->LocateHandleBuffer(%s, %s, %p, %d, %p) = %r\n", EfiLocateSearchType[SearchType], GuidStr(Protocol), SearchKey, *NoHandles, *Buffer, Status); } return Status; } EFI_STATUS EFIAPI OvrLocateProtocol( IN EFI_GUID *Protocol, IN VOID *Registration, OUT VOID **Interface ) { EFI_STATUS Status; VOID *InterfaceIn = *Interface; Status = gOrgBS.LocateProtocol(Protocol, Registration, Interface); PRINT("->LocateProtocol(%s, %p, %p/%p) = %r\n", GuidStr(Protocol), Registration, InterfaceIn, *Interface, Status); return Status; } EFI_STATUS EFIAPI OvrInstallMultipleProtocolInterfaces( IN OUT EFI_HANDLE *Handle, ... ) { EFI_STATUS Status; EFI_HANDLE HandleIn = *Handle; VA_LIST Args; EFI_GUID *Protocol[4]; VOID *Interface[4]; UINTN Index; // oh my, va args ... well, we'll just have to support constant number VA_START(Args, Handle); // will start with Index=1 to cover the case when no Protocol/Interface is specified at all for (Index = 1; Index < 4; Index++) { Protocol[Index] = VA_ARG(Args, EFI_GUID *); if (Protocol[Index] == NULL) { Index--; break; } Interface[Index] = VA_ARG(Args, VOID *); } VA_END(Args); switch (Index) { case 0: Status = gOrgBS.InstallMultipleProtocolInterfaces(Handle, NULL); PRINT("->InstallMultipleProtocolInterfaces(%p/%p) = %r\n", HandleIn, *Handle, Status); break; case 1: Status = gOrgBS.InstallMultipleProtocolInterfaces(Handle, Protocol[1], Interface[1], NULL); PRINT("->InstallMultipleProtocolInterfaces(%p/%p, %s, %p) = %r\n", HandleIn, *Handle, GuidStr(Protocol[1]), Interface[1], Status); break; case 2: Status = gOrgBS.InstallMultipleProtocolInterfaces(Handle, Protocol[1], Interface[1], Protocol[2], Interface[2], NULL); PRINT("->InstallMultipleProtocolInterfaces(%p/%p, %s, %p, %s, %p) = %r\n", HandleIn, *Handle, GuidStr(Protocol[1]), Interface[1], GuidStr(Protocol[2]), Interface[2], Status); break; case 3: Status = gOrgBS.InstallMultipleProtocolInterfaces(Handle, Protocol[1], Interface[1], Protocol[2], Interface[2], Protocol[3], Interface[3], NULL); PRINT("->InstallMultipleProtocolInterfaces(%p/%p, %s, %p, %s, %p, %s, %p) = %r\n", HandleIn, *Handle, GuidStr(Protocol[1]), Interface[1], GuidStr(Protocol[2]), Interface[2], GuidStr(Protocol[3]), Interface[3], Status); break; default: Status = EFI_UNSUPPORTED; PRINT("->InstallMultipleProtocolInterfaces(%p, ...) = %r, too many Protocol/Interface pairs\n", *Handle, Status); break; } return Status; } EFI_STATUS EFIAPI OvrUninstallMultipleProtocolInterfaces( IN EFI_HANDLE Handle, ... ) { EFI_STATUS Status; EFI_HANDLE HandleIn = Handle; VA_LIST Args; EFI_GUID *Protocol[4]; VOID *Interface[4]; UINTN Index; // again, va args ... we'll just have to support constant number VA_START(Args, Handle); // will start with Index=1 to cover the case when no Protocol/Interface is specified at all for (Index = 1; Index < 4; Index++) { Protocol[Index] = VA_ARG(Args, EFI_GUID *); if (Protocol[Index] == NULL) { Index--; break; } Interface[Index] = VA_ARG(Args, VOID *); } VA_END(Args); switch (Index) { case 0: Status = gOrgBS.UninstallMultipleProtocolInterfaces(Handle); PRINT("->UninstallMultipleProtocolInterfaces(%p/%p) = %r\n", HandleIn, Handle, Status); break; case 1: Status = gOrgBS.UninstallMultipleProtocolInterfaces(Handle, Protocol[1], Interface[1]); PRINT("->UninstallMultipleProtocolInterfaces(%p/%p, %s, %p) = %r\n", HandleIn, Handle, GuidStr(Protocol[1]), Interface[1], Status); break; case 2: Status = gOrgBS.UninstallMultipleProtocolInterfaces(Handle, Protocol[1], Interface[1], Protocol[2], Interface[2]); PRINT("->UninstallMultipleProtocolInterfaces(%p/%p, %s, %p, %s, %p) = %r\n", HandleIn, Handle, GuidStr(Protocol[1]), Interface[1], GuidStr(Protocol[2]), Interface[2], Status); break; case 3: Status = gOrgBS.UninstallMultipleProtocolInterfaces(Handle, Protocol[1], Interface[1], Protocol[2], Interface[2], Protocol[3], Interface[3]); PRINT("->UninstallMultipleProtocolInterfaces(%p/%p, %s, %p, %s, %p, %s, %p) = %r\n", HandleIn, Handle, GuidStr(Protocol[1]), Interface[1], GuidStr(Protocol[2]), Interface[2], GuidStr(Protocol[3]), Interface[3], Status); break; default: Status = EFI_UNSUPPORTED; PRINT("->UninstallMultipleProtocolInterfaces(%p, ...) = %r, too many Protocol/Interface pairs\n", Handle, Status); break; } return Status; } EFI_STATUS EFIAPI OvrCalculateCrc32( IN VOID *Data, IN UINTN DataSize, OUT UINT32 *Crc32 ) { EFI_STATUS Status; Status = gOrgBS.CalculateCrc32(Data, DataSize, Crc32); // Omit printing this when using append while logging, as it can end up in calling a file operating inside another file operation // (some implementations of File functions use CalculateCrc32) #if (LOG_TO_FILE <= 2) && (CLEANER_LOG != 1) // Better not print this for cleaner logs - reported by XyZ PRINT("->CalculateCrc32(%p, %d, 0x%x) = %r\n", Data, DataSize, Crc32, Status); #endif return Status; } VOID EFIAPI OvrCopyMem( IN VOID *Destination, IN VOID *Source, IN UINTN Length ) { gOrgBS.CopyMem(Destination, Source, Length); //PRINT("->CopyMem(%p, %p, 0x%x)\n", Destination, Source, Length); return; } VOID EFIAPI OvrSetMem( IN VOID *Buffer, IN UINTN Size, IN UINT8 Value ) { gOrgBS.SetMem(Buffer, Size, Value); //PRINT("->SetMem(%p, 0x%x, 0x%x)\n", Buffer, Size, Value); return; } EFI_STATUS EFIAPI OvrCreateEventEx( IN UINT32 Type, IN EFI_TPL NotifyTpl, IN EFI_EVENT_NOTIFY NotifyFunction, IN CONST VOID *NotifyContext, IN CONST EFI_GUID *EventGroup, OUT EFI_EVENT *Event ) { EFI_STATUS Status; Status = gOrgBS.CreateEventEx(Type, NotifyTpl, NotifyFunction, NotifyContext, EventGroup, Event); // PRINT("->CreateEventEx(0x%x, 0x%x, %p, %p, %g, %p) = %r\n", Type, NotifyTpl, NotifyFunction, NotifyContext, EventGroup, *Event, Status); return Status; } //////////////////////////////////////////// // // Other functions // #if CAPTURE_CONSOLE_OUTPUT >= 1 EFI_STATUS EFIAPI OvrConOutOutputString(IN EFI_SIMPLE_TEXT_OUTPUT_PROTOCOL *This, IN CHAR16 *String) { EFI_STATUS Status; #if CAPTURE_CONSOLE_OUTPUT <= 1 Status = gOrgConOutOutputString(This,String); #else Status = EFI_SUCCESS; #endif // Print to file only if not invoked from our PRINT() if (!InConsolePrint) { // Set var to avoid printing to screen again when overriding OutputString InConsolePrint = TRUE; PRINT("%s",String); InConsolePrint = FALSE; } return Status; } #endif /** Installs our boot services overrides. */ EFI_STATUS EFIAPI OvrBootServices(EFI_BOOT_SERVICES *BS) { PRINT("Overriding boot services ...\n"); // store orig BS CopyMem(&gOrgBS, BS, sizeof(EFI_BOOT_SERVICES)); BS->RaiseTPL = OvrRaiseTPL; BS->RestoreTPL = OvrRestoreTPL; BS->AllocatePages = OvrAllocatePages; BS->FreePages = OvrFreePages; BS->GetMemoryMap = OvrGetMemoryMap; BS->AllocatePool = OvrAllocatePool; BS->FreePool = OvrFreePool; BS->CreateEvent = OvrCreateEvent; BS->SetTimer = OvrSetTimer; BS->WaitForEvent = OvrWaitForEvent; BS->SignalEvent = OvrSignalEvent; BS->CloseEvent = OvrCloseEvent; BS->CheckEvent = OvrCheckEvent; BS->InstallProtocolInterface = OvrInstallProtocolInterface; BS->ReinstallProtocolInterface = OvrReinstallProtocolInterface; BS->UninstallProtocolInterface = OvrUninstallProtocolInterface; BS->HandleProtocol = OvrHandleProtocol; BS->RegisterProtocolNotify = OvrRegisterProtocolNotify; BS->LocateHandle = OvrLocateHandle; BS->LocateDevicePath = OvrLocateDevicePath; BS->InstallConfigurationTable = OvrInstallConfigurationTable; BS->LoadImage = OvrLoadImage; BS->StartImage = OvrStartImage; BS->Exit = OvrExit; BS->UnloadImage = OvrUnloadImage; BS->ExitBootServices = OvrExitBootServices; BS->GetNextMonotonicCount = OvrGetNextMonotonicCount; BS->Stall = OvrStall; BS->SetWatchdogTimer = OvrSetWatchdogTimer; BS->ConnectController = OvrConnectController; BS->DisconnectController = OvrDisconnectController; BS->OpenProtocol = OvrOpenProtocol; BS->CloseProtocol = OvrCloseProtocol; BS->OpenProtocolInformation = OvrOpenProtocolInformation; BS->ProtocolsPerHandle = OvrProtocolsPerHandle; BS->LocateHandleBuffer = OvrLocateHandleBuffer; BS->LocateProtocol = OvrLocateProtocol; BS->InstallMultipleProtocolInterfaces = OvrInstallMultipleProtocolInterfaces; BS->UninstallMultipleProtocolInterfaces = OvrUninstallMultipleProtocolInterfaces; BS->CalculateCrc32 = OvrCalculateCrc32; BS->CopyMem = OvrCopyMem; BS->SetMem = OvrSetMem; BS->CreateEventEx = OvrCreateEventEx; BS->Hdr.CRC32 = 0; // use orig function to avoid our PRINT gOrgBS.CalculateCrc32(BS, BS->Hdr.HeaderSize, &BS->Hdr.CRC32); PRINT("Boot services overriden!\n"); #if CAPTURE_CONSOLE_OUTPUT >= 1 PRINT("Overriding console output ...\n"); #if CAPTURE_CONSOLE_OUTPUT == 2 PRINT("Preventing any further console output, please wait until booting starts ...\n"); #endif gOrgConOutOutputString = gST->ConOut->OutputString; gST->ConOut->OutputString = OvrConOutOutputString; PRINT("Console output overriden!\n"); #endif return EFI_SUCCESS; }