/*++ 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: PeiMain.c Abstract: Pei Core Main Entry Point Revision History --*/ #include // //CAR is filled with this initial value during SEC phase // #define INIT_CAR_VALUE 0x5AA55AA5 static EFI_PEI_PPI_DESCRIPTOR mMemoryDiscoveredPpi = { (EFI_PEI_PPI_DESCRIPTOR_PPI | EFI_PEI_PPI_DESCRIPTOR_TERMINATE_LIST), &gEfiPeiMemoryDiscoveredPpiGuid, NULL }; // // Pei Core Module Variables // // static EFI_PEI_SERVICES mPS = { { PEI_SERVICES_SIGNATURE, PEI_SERVICES_REVISION, sizeof (EFI_PEI_SERVICES), 0, 0 }, PeiInstallPpi, PeiReInstallPpi, PeiLocatePpi, PeiNotifyPpi, PeiGetBootMode, PeiSetBootMode, PeiGetHobList, PeiCreateHob, PeiFvFindNextVolume, PeiFfsFindNextFile, PeiFfsFindSectionData, PeiInstallPeiMemory, PeiAllocatePages, PeiAllocatePool, (EFI_PEI_COPY_MEM)CopyMem, (EFI_PEI_SET_MEM)SetMem, PeiReportStatusCode, PeiResetSystem }; EFI_STATUS EFIAPI PeiCore ( IN EFI_PEI_STARTUP_DESCRIPTOR *PeiStartupDescriptor, IN PEI_CORE_INSTANCE *OldCoreData ) /*++ Routine Description: Main entry point to Pei Core. After switching stack in the PEI core, it will restart with the old core data. Arguments: PeiStartupDescriptor - Information and services provided by SEC phase. OldCoreData - Pointer to old core data that is used to initialize the core's data areas. Returns: This function never returns EFI_NOT_FOUND - Never reach --*/ { PEI_CORE_INSTANCE PrivateData; EFI_STATUS Status; PEI_CORE_TEMP_POINTERS TempPtr; PEI_CORE_DISPATCH_DATA *DispatchData; UINT64 mTick; mTick = 0; #ifdef EFI_PEI_PERFORMANCE if (OldCoreData == NULL) { mTick = GetPerformanceCounter (); } #endif // // For IPF in CAR mode the real memory access is uncached,in InstallPeiMemory() // the 63-bit of address is set to 1. // SWITCH_TO_CACHE_MODE (OldCoreData); if (OldCoreData != NULL) { CopyMem (&PrivateData, OldCoreData, sizeof (PEI_CORE_INSTANCE)); } else { ZeroMem (&PrivateData, sizeof (PEI_CORE_INSTANCE)); } PrivateData.Signature = PEI_CORE_HANDLE_SIGNATURE; PrivateData.PS = &mPS; // // Initialize libraries that the PeiCore is linked against // BUGBUG: The FfsHeader is passed in as NULL. Do we look it up or remove it from the lib init? // ProcessLibraryConstructorList (NULL, &PrivateData.PS); InitializeMemoryServices (&PrivateData.PS, PeiStartupDescriptor, OldCoreData); InitializePpiServices (&PrivateData.PS, OldCoreData); InitializeSecurityServices (&PrivateData.PS, OldCoreData); InitializeDispatcherData (&PrivateData.PS, OldCoreData, PeiStartupDescriptor); if (OldCoreData != NULL) { PERF_END (NULL,"PreMem", NULL, 0); PERF_START (NULL,"PostMem", NULL, 0); // // The following code dumps out interesting cache as RAM usage information // so we can keep tabs on how the cache as RAM is being utilized. The // DEBUG_CODE macro is used to prevent this code from being compiled // on a debug build. // DEBUG_CODE ( UINTN *StackPointer; UINTN StackValue; StackValue = INIT_CAR_VALUE; for (StackPointer = (UINTN *) OldCoreData->MaxTopOfCarHeap; ((UINTN) StackPointer < ((UINTN) OldCoreData->BottomOfCarHeap + OldCoreData->SizeOfCacheAsRam)) && StackValue == INIT_CAR_VALUE; StackPointer++) { StackValue = *StackPointer; } DEBUG ((EFI_D_INFO, "Total Cache as RAM: %d bytes.\n", OldCoreData->SizeOfCacheAsRam)); DEBUG ((EFI_D_INFO, " CAR stack ever used: %d bytes.\n", ((UINTN) OldCoreData->TopOfCarHeap - (UINTN) StackPointer) )); DEBUG ((EFI_D_INFO, " CAR heap used: %d bytes.\n", ((UINTN) OldCoreData->HobList.HandoffInformationTable->EfiFreeMemoryBottom - (UINTN) OldCoreData->HobList.Raw) )); ); // // Alert any listeners that there is permanent memory available // PERF_START (NULL,"DisMem", NULL, 0); Status = PeiCoreInstallPpi (&mMemoryDiscoveredPpi); PERF_END (NULL,"DisMem", NULL, 0); } else { // // Report Status Code EFI_SW_PC_INIT // REPORT_STATUS_CODE ( EFI_PROGRESS_CODE, EFI_SOFTWARE_PEI_CORE | EFI_SW_PC_INIT ); // // If first pass, start performance measurement. // PERF_START (NULL,"PreMem", NULL, mTick); // // If SEC provided any PPI services to PEI, install them. // if (PeiStartupDescriptor->DispatchTable != NULL) { Status = PeiCoreInstallPpi (PeiStartupDescriptor->DispatchTable); ASSERT_EFI_ERROR (Status); } } DispatchData = &PrivateData.DispatchData; // // Call PEIM dispatcher // PeiDispatcher (PeiStartupDescriptor, &PrivateData, DispatchData); // // Check if InstallPeiMemory service was called. // ASSERT(PrivateData.PeiMemoryInstalled == TRUE); PERF_END (NULL, "PostMem", NULL, 0); Status = PeiCoreLocatePpi ( &gEfiDxeIplPpiGuid, 0, NULL, (VOID **)&TempPtr.DxeIpl ); ASSERT_EFI_ERROR (Status); DEBUG ((EFI_D_INFO, "DXE IPL Entry\n")); Status = TempPtr.DxeIpl->Entry ( TempPtr.DxeIpl, &PrivateData.PS, PrivateData.HobList ); ASSERT_EFI_ERROR (Status); return EFI_NOT_FOUND; }