/*++ Copyright (c) 2006, 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. Module Name: EsalServiceLib.c Abstract: --*/ #include EXTENDED_SAL_BOOT_SERVICE_PROTOCOL *mEsalBootService = NULL; EFI_PLABEL mPlabel; STATIC EFI_STATUS EFIAPI DxeSalLibInitialize ( VOID ) { EFI_PLABEL *Plabel; EFI_STATUS Status; if (mEsalBootService != NULL) { return EFI_SUCCESS; } // // The protocol contains a function pointer, which is an indirect procedure call. // An indirect procedure call goes through a plabel, and pointer to a function is // a pointer to a plabel. To implement indirect procedure calls that can work in // both physical and virtual mode, two plabels are required (one physical and one // virtual). So lets grap the physical PLABEL for the EsalEntryPoint and store it // away. We cache it in a module global, so we can register the vitrual version. // Status = gBS->LocateProtocol (&gEfiExtendedSalBootServiceProtocolGuid, NULL, (VOID **) &mEsalBootService); if (EFI_ERROR (Status)) { mEsalBootService = NULL; return EFI_SUCCESS; } Plabel = (EFI_PLABEL *) (UINTN) mEsalBootService->ExtendedSalProc; mPlabel.EntryPoint = Plabel->EntryPoint; mPlabel.GP = Plabel->GP; SetEsalPhysicalEntryPoint (mPlabel.EntryPoint, mPlabel.GP); return EFI_SUCCESS; } VOID EFIAPI DxeSalVirtualNotifyEvent ( IN EFI_EVENT Event, IN VOID *Context ) /*++ Routine Description: Fixup virtual address pointer of label. Arguments: Event - The Event that is being processed Context - Event Context Returns: None --*/ { UINT64 PhysicalEntryPoint; PhysicalEntryPoint = mPlabel.EntryPoint; EfiConvertPointer (0x0, (VOID **) &mPlabel.EntryPoint); mPlabel.GP += mPlabel.EntryPoint - PhysicalEntryPoint; SetEsalVirtualEntryPoint (mPlabel.EntryPoint, mPlabel.GP); } EFI_STATUS EFIAPI RegisterEsalFunction ( IN UINT64 FunctionId, IN EFI_GUID *ClassGuid, IN SAL_INTERNAL_EXTENDED_SAL_PROC Function, IN VOID *ModuleGlobal ) /*++ Routine Description: Register ESAL Class Function and it's asociated global. This function is boot service only! Arguments: FunctionId - ID of function to register ClassGuid - GUID of function class Function - Function to register under ClassGuid/FunctionId pair ModuleGlobal - Module global for Function. Returns: EFI_SUCCESS - If ClassGuid/FunctionId Function was registered. --*/ { DxeSalLibInitialize (); return mEsalBootService->AddExtendedSalProc ( mEsalBootService, ClassGuid, FunctionId, Function, ModuleGlobal ); } EFI_STATUS EFIAPI RegisterEsalClass ( IN EFI_GUID *ClassGuid, IN VOID *ModuleGlobal, ... ) /*++ Routine Description: Register ESAL Class and it's asociated global. This function is boot service only! Arguments: ClassGuid - GUID of function class ModuleGlobal - Module global for Function. ... - SAL_INTERNAL_EXTENDED_SAL_PROC and FunctionId pairs. NULL indicates the end of the list. Returns: EFI_SUCCESS - All members of ClassGuid registered --*/ { VA_LIST Args; EFI_STATUS Status; SAL_INTERNAL_EXTENDED_SAL_PROC Function; UINT64 FunctionId; EFI_HANDLE NewHandle; VA_START (Args, ModuleGlobal); Status = EFI_SUCCESS; while (!EFI_ERROR (Status)) { Function = (SAL_INTERNAL_EXTENDED_SAL_PROC) VA_ARG (Args, SAL_INTERNAL_EXTENDED_SAL_PROC); if (Function == NULL) { break; } FunctionId = VA_ARG (Args, UINT64); Status = RegisterEsalFunction (FunctionId, ClassGuid, Function, ModuleGlobal); } if (EFI_ERROR (Status)) { return Status; } NewHandle = NULL; return gBS->InstallProtocolInterface ( &NewHandle, ClassGuid, EFI_NATIVE_INTERFACE, NULL ); } SAL_RETURN_REGS EFIAPI EfiCallEsalService ( IN EFI_GUID *ClassGuid, IN UINT64 FunctionId, IN UINT64 Arg2, IN UINT64 Arg3, IN UINT64 Arg4, IN UINT64 Arg5, IN UINT64 Arg6, IN UINT64 Arg7, IN UINT64 Arg8 ) /*++ Routine Description: Call module that is not linked direclty to this module. This code is IP relative and hides the binding issues of virtual or physical calling. The function that gets dispatched has extra arguments that include the registered module global and a boolean flag to indicate if the system is in virutal mode. Arguments: ClassGuid - GUID of function FunctionId - Function in ClassGuid to call Arg2 - Argument 2 ClassGuid/FunctionId defined Arg3 - Argument 3 ClassGuid/FunctionId defined Arg4 - Argument 4 ClassGuid/FunctionId defined Arg5 - Argument 5 ClassGuid/FunctionId defined Arg6 - Argument 6 ClassGuid/FunctionId defined Arg7 - Argument 7 ClassGuid/FunctionId defined Arg8 - Argument 8 ClassGuid/FunctionId defined Returns: Status of ClassGuid/FuncitonId --*/ { SAL_RETURN_REGS ReturnReg; SAL_EXTENDED_SAL_PROC EsalProc; ReturnReg = GetEsalEntryPoint (); if (ReturnReg.Status != EFI_SAL_SUCCESS) { return ReturnReg; } // // Look at the physical mode ESAL entry point to determine of the ESAL entry point has been initialized // if (*(UINT64 *)ReturnReg.r9 == 0 && *(UINT64 *)(ReturnReg.r9 + 8) == 0) { // // Both the function ponter and the GP value are zero, so attempt to initialize the ESAL Entry Point // DxeSalLibInitialize (); ReturnReg = GetEsalEntryPoint (); if (ReturnReg.Status != EFI_SAL_SUCCESS) { return ReturnReg; } if (*(UINT64 *)ReturnReg.r9 == 0 && *(UINT64 *)(ReturnReg.r9 + 8) == 0) { // // The ESAL Entry Point could not be initialized // ReturnReg.Status = EFI_SAL_ERROR; return ReturnReg; } } if (ReturnReg.r11 & PSR_IT_MASK) { // // Virtual mode plabel to entry point // EsalProc = (SAL_EXTENDED_SAL_PROC) ReturnReg.r10; } else { // // Physical mode plabel to entry point // EsalProc = (SAL_EXTENDED_SAL_PROC) ReturnReg.r9; } return EsalProc ( ClassGuid, FunctionId, Arg2, Arg3, Arg4, Arg5, Arg6, Arg7, Arg8 ); }