/* $NetBSD: salpal.c,v 1.1.1.1 2014/04/01 16:16:07 jakllsch Exp $ */ /*++ Copyright (c) 1999 Intel Corporation Module Name: salpal.c Abstract: Functions to make SAL and PAL proc calls Revision History --*/ #include "lib.h" #include "palproc.h" #include "salproc.h" /*++ Copyright (c) 1999 Intel Corporation Module Name: EfiRtLib.h Abstract: EFI Runtime library functions Revision History --*/ #include "efi.h" #include "efilib.h" rArg MakeStaticPALCall ( IN UINT64 PALPROCPtr, IN UINT64 Arg1, IN UINT64 Arg2, IN UINT64 Arg3, IN UINT64 Arg4 ); rArg MakeStackedPALCall ( IN UINT64 PALPROCPtr, IN UINT64 Arg1, IN UINT64 Arg2, IN UINT64 Arg3, IN UINT64 Arg4 ); PLABEL SalProcPlabel; PLABEL PalProcPlabel; CALL_SAL_PROC GlobalSalProc; CALL_PAL_PROC GlobalPalProc; VOID LibInitSalAndPalProc ( OUT PLABEL *SalPlabel, OUT UINT64 *PalEntry ) { SAL_SYSTEM_TABLE_ASCENDING_ORDER *SalSystemTable; EFI_STATUS Status; GlobalSalProc = NULL; GlobalPalProc = NULL; Status = LibGetSystemConfigurationTable(&SalSystemTableGuid, (VOID **)&SalSystemTable); if (EFI_ERROR(Status)) { return; } // // BugBug: Add code to test checksum on the Sal System Table // if (SalSystemTable->Entry0.Type != 0) { return; } SalProcPlabel.ProcEntryPoint = SalSystemTable->Entry0.SalProcEntry; SalProcPlabel.GP = SalSystemTable->Entry0.GlobalDataPointer; GlobalSalProc = (CALL_SAL_PROC)&SalProcPlabel.ProcEntryPoint; // // Need to check the PAL spec to make sure I'm not responsible for // storing more state. // We are passing in a Plabel that should be ignorred by the PAL. Call // this way will cause use to retore our gp after the PAL returns. // PalProcPlabel.ProcEntryPoint = SalSystemTable->Entry0.PalProcEntry; PalProcPlabel.GP = SalSystemTable->Entry0.GlobalDataPointer; GlobalPalProc = (CALL_PAL_PROC)PalProcPlabel.ProcEntryPoint; *PalEntry = PalProcPlabel.ProcEntryPoint; *SalPlabel = SalProcPlabel; } EFI_STATUS LibGetSalIoPortMapping ( OUT UINT64 *IoPortMapping ) /*++ Get the IO Port Map from the SAL System Table. DO NOT USE THIS TO DO YOU OWN IO's!!!!!!!!!!!! Only use this for getting info, or initing the built in EFI IO abstraction. Always use the EFI Device IO protoocl to access IO space. --*/ { SAL_SYSTEM_TABLE_ASCENDING_ORDER *SalSystemTable; SAL_ST_MEMORY_DESCRIPTOR_ENTRY *SalMemDesc; EFI_STATUS Status; Status = LibGetSystemConfigurationTable(&SalSystemTableGuid, (VOID **)&SalSystemTable); if (EFI_ERROR(Status)) { return EFI_UNSUPPORTED; } // // BugBug: Add code to test checksum on the Sal System Table // if (SalSystemTable->Entry0.Type != 0) { return EFI_UNSUPPORTED; } // // The SalSystemTable pointer includes the Type 0 entry. // The SalMemDesc is Type 1 so it comes next. // SalMemDesc = (SAL_ST_MEMORY_DESCRIPTOR_ENTRY *)(SalSystemTable + 1); while (SalMemDesc->Type == SAL_ST_MEMORY_DESCRIPTOR) { if (SalMemDesc->MemoryType == SAL_IO_PORT_MAPPING) { *IoPortMapping = SalMemDesc->PhysicalMemoryAddress; return EFI_SUCCESS; } SalMemDesc++; } return EFI_UNSUPPORTED; } EFI_STATUS LibGetSalIpiBlock ( OUT UINT64 *IpiBlock ) /*++ Get the IPI block from the SAL system table --*/ { SAL_SYSTEM_TABLE_ASCENDING_ORDER *SalSystemTable; SAL_ST_MEMORY_DESCRIPTOR_ENTRY *SalMemDesc; EFI_STATUS Status; Status = LibGetSystemConfigurationTable(&SalSystemTableGuid, (VOID*)&SalSystemTable); if (EFI_ERROR(Status)) { return EFI_UNSUPPORTED; } // // BugBug: Add code to test checksum on the Sal System Table // if (SalSystemTable->Entry0.Type != 0) { return EFI_UNSUPPORTED; } // // The SalSystemTable pointer includes the Type 0 entry. // The SalMemDesc is Type 1 so it comes next. // SalMemDesc = (SAL_ST_MEMORY_DESCRIPTOR_ENTRY *)(SalSystemTable + 1); while (SalMemDesc->Type == SAL_ST_MEMORY_DESCRIPTOR) { if (SalMemDesc->MemoryType == SAL_SAPIC_IPI_BLOCK ) { *IpiBlock = SalMemDesc->PhysicalMemoryAddress; return EFI_SUCCESS; } SalMemDesc++; } return EFI_UNSUPPORTED; } EFI_STATUS LibGetSalWakeupVector ( OUT UINT64 *WakeVector ) /*++ Get the wakeup vector from the SAL system table --*/ { SAL_ST_AP_WAKEUP_DECRIPTOR *ApWakeUp; ApWakeUp = LibSearchSalSystemTable (SAL_ST_AP_WAKEUP); if (!ApWakeUp) { *WakeVector = -1; return EFI_UNSUPPORTED; } *WakeVector = ApWakeUp->ExternalInterruptVector; return EFI_SUCCESS; } VOID * LibSearchSalSystemTable ( IN UINT8 EntryType ) { EFI_STATUS Status; UINT8 *SalTableHack; SAL_SYSTEM_TABLE_ASCENDING_ORDER *SalSystemTable; UINT16 EntryCount; UINT16 Count; Status = LibGetSystemConfigurationTable(&SalSystemTableGuid, (VOID*)&SalSystemTable); if (EFI_ERROR(Status)) { return NULL; } EntryCount = SalSystemTable->Header.EntryCount; if (EntryCount == 0) { return NULL; } // // BugBug: Add code to test checksum on the Sal System Table // SalTableHack = (UINT8 *)&SalSystemTable->Entry0; for (Count = 0; Count < EntryCount ;Count++) { if (*SalTableHack == EntryType) { return (VOID *)SalTableHack; } switch (*SalTableHack) { case SAL_ST_ENTRY_POINT: SalTableHack += 48; break; case SAL_ST_MEMORY_DESCRIPTOR: SalTableHack += 32; break; case SAL_ST_PLATFORM_FEATURES: SalTableHack += 16; break; case SAL_ST_TR_USAGE: SalTableHack += 32; break; case SAL_ST_PTC: SalTableHack += 16; break; case SAL_ST_AP_WAKEUP: SalTableHack += 16; break; default: ASSERT(FALSE); break; } } return NULL; } VOID LibSalProc ( IN UINT64 Arg1, IN UINT64 Arg2, IN UINT64 Arg3, IN UINT64 Arg4, IN UINT64 Arg5, IN UINT64 Arg6, IN UINT64 Arg7, IN UINT64 Arg8, OUT rArg *Results OPTIONAL ) { rArg ReturnValue; ReturnValue.p0 = -3; // SAL status return completed with error if (GlobalSalProc) { ReturnValue = GlobalSalProc(Arg1, Arg2, Arg3, Arg4, Arg5, Arg6, Arg7, Arg8); } if (Results) { CopyMem (Results, &ReturnValue, sizeof(rArg)); } } VOID LibPalProc ( IN UINT64 Arg1, // Pal Proc index IN UINT64 Arg2, IN UINT64 Arg3, IN UINT64 Arg4, OUT rArg *Results OPTIONAL ) { rArg ReturnValue; ReturnValue.p0 = -3; // PAL status return completed with error // // check for valid PalProc entry point // if (!GlobalPalProc) { if (Results) CopyMem (Results, &ReturnValue, sizeof(rArg)); return; } // // check if index falls within stacked or static register calling conventions // and call appropriate Pal stub call // if (((Arg1 >=255) && (Arg1 <=511)) || ((Arg1 >=768) && (Arg1 <=1023))) { ReturnValue = MakeStackedPALCall((UINT64)GlobalPalProc,Arg1,Arg2,Arg3,Arg4); } else { ReturnValue = MakeStaticPALCall((UINT64)GlobalPalProc,Arg1,Arg2,Arg3,Arg4); } if (Results) CopyMem (Results, &ReturnValue, sizeof(rArg)); return; }