audk/ArmPlatformPkg/PrePeiCore/MainMPCore.c

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/** @file
*
* Copyright (c) 2011-2012, ARM Limited. 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.
*
**/
#include <Library/ArmGicLib.h>
#include <Ppi/ArmMpCoreInfo.h>
#include "PrePeiCore.h"
/*
* This is the main function for secondary cores. They loop around until a non Null value is written to
* SYS_FLAGS register.The SYS_FLAGS register is platform specific.
* Note:The secondary cores, while executing secondary_main, assumes that:
* : SGI 0 is configured as Non-secure interrupt
* : Priority Mask is configured to allow SGI 0
* : Interrupt Distributor and CPU interfaces are enabled
*
*/
VOID
EFIAPI
SecondaryMain (
IN UINTN MpId
)
{
EFI_STATUS Status;
UINTN PpiListSize;
UINTN PpiListCount;
EFI_PEI_PPI_DESCRIPTOR *PpiList;
ARM_MP_CORE_INFO_PPI *ArmMpCoreInfoPpi;
UINTN Index;
UINTN ArmCoreCount;
ARM_CORE_INFO *ArmCoreInfoTable;
UINT32 ClusterId;
UINT32 CoreId;
VOID (*SecondaryStart)(VOID);
UINTN SecondaryEntryAddr;
UINTN AcknowledgedCoreId;
ClusterId = GET_CLUSTER_ID(MpId);
CoreId = GET_CORE_ID(MpId);
// Get the gArmMpCoreInfoPpiGuid
PpiListSize = 0;
ArmPlatformGetPlatformPpiList (&PpiListSize, &PpiList);
PpiListCount = PpiListSize / sizeof(EFI_PEI_PPI_DESCRIPTOR);
for (Index = 0; Index < PpiListCount; Index++, PpiList++) {
if (CompareGuid (PpiList->Guid, &gArmMpCoreInfoPpiGuid) == TRUE) {
break;
}
}
// On MP Core Platform we must implement the ARM MP Core Info PPI
ASSERT (Index != PpiListCount);
ArmMpCoreInfoPpi = PpiList->Ppi;
ArmCoreCount = 0;
Status = ArmMpCoreInfoPpi->GetMpCoreInfo (&ArmCoreCount, &ArmCoreInfoTable);
ASSERT_EFI_ERROR (Status);
// Find the core in the ArmCoreTable
for (Index = 0; Index < ArmCoreCount; Index++) {
if ((ArmCoreInfoTable[Index].ClusterId == ClusterId) && (ArmCoreInfoTable[Index].CoreId == CoreId)) {
break;
}
}
// The ARM Core Info Table must define every core
ASSERT (Index != ArmCoreCount);
// Clear Secondary cores MailBox
MmioWrite32 (ArmCoreInfoTable[Index].MailboxClearAddress, ArmCoreInfoTable[Index].MailboxClearValue);
do {
ArmCallWFI ();
// Read the Mailbox
SecondaryEntryAddr = MmioRead32 (ArmCoreInfoTable[Index].MailboxGetAddress);
// Acknowledge the interrupt and send End of Interrupt signal.
ArmGicAcknowledgeInterrupt (PcdGet32(PcdGicDistributorBase), PcdGet32(PcdGicInterruptInterfaceBase), &AcknowledgedCoreId, NULL);
} while ((SecondaryEntryAddr == 0) && (AcknowledgedCoreId != PcdGet32 (PcdGicPrimaryCoreId)));
// Jump to secondary core entry point.
SecondaryStart = (VOID (*)())SecondaryEntryAddr;
SecondaryStart();
// The secondaries shouldn't reach here
ASSERT(FALSE);
}
VOID
EFIAPI
PrimaryMain (
IN EFI_PEI_CORE_ENTRY_POINT PeiCoreEntryPoint
)
{
EFI_SEC_PEI_HAND_OFF SecCoreData;
UINTN PpiListSize;
EFI_PEI_PPI_DESCRIPTOR *PpiList;
UINTN TemporaryRamBase;
UINTN TemporaryRamSize;
// Check PcdGicPrimaryCoreId has been set in case the Primary Core is not the core 0 of Cluster 0
DEBUG_CODE_BEGIN();
if ((PcdGet32(PcdArmPrimaryCore) != 0) && (PcdGet32 (PcdGicPrimaryCoreId) == 0)) {
DEBUG((EFI_D_WARN,"Warning: the PCD PcdGicPrimaryCoreId does not seem to be set up for the configuration.\n"));
}
DEBUG_CODE_END();
CreatePpiList (&PpiListSize, &PpiList);
// Enable the GIC Distributor
ArmGicEnableDistributor(PcdGet32(PcdGicDistributorBase));
// If ArmVe has not been built as Standalone then we need to wake up the secondary cores
if (FeaturePcdGet (PcdSendSgiToBringUpSecondaryCores)) {
// Sending SGI to all the Secondary CPU interfaces
ArmGicSendSgiTo (PcdGet32(PcdGicDistributorBase), ARM_GIC_ICDSGIR_FILTER_EVERYONEELSE, 0x0E, PcdGet32 (PcdGicSgiIntId));
}
// Adjust the Temporary Ram as the new Ppi List (Common + Platform Ppi Lists) is created at
// the base of the primary core stack
PpiListSize = ALIGN_VALUE(PpiListSize, 0x4);
TemporaryRamBase = (UINTN)PcdGet32 (PcdCPUCoresStackBase) + PpiListSize;
TemporaryRamSize = (UINTN)PcdGet32 (PcdCPUCorePrimaryStackSize) - PpiListSize;
// Make sure the size is 8-byte aligned. Once divided by 2, the size should be 4-byte aligned
// to ensure the stack pointer is 4-byte aligned.
TemporaryRamSize = TemporaryRamSize - (TemporaryRamSize & (0x8-1));
//
// Bind this information into the SEC hand-off state
// Note: this must be in sync with the stuff in the asm file
// Note also: HOBs (pei temp ram) MUST be above stack
//
SecCoreData.DataSize = sizeof(EFI_SEC_PEI_HAND_OFF);
SecCoreData.BootFirmwareVolumeBase = (VOID *)(UINTN)PcdGet32 (PcdFvBaseAddress);
SecCoreData.BootFirmwareVolumeSize = PcdGet32 (PcdFvSize);
SecCoreData.TemporaryRamBase = (VOID *)TemporaryRamBase; // We run on the primary core (and so we use the first stack)
SecCoreData.TemporaryRamSize = TemporaryRamSize;
SecCoreData.PeiTemporaryRamBase = SecCoreData.TemporaryRamBase;
SecCoreData.PeiTemporaryRamSize = SecCoreData.TemporaryRamSize / 2;
SecCoreData.StackBase = (VOID *)ALIGN_VALUE((UINTN)(SecCoreData.TemporaryRamBase) + SecCoreData.PeiTemporaryRamSize, 0x4);
SecCoreData.StackSize = (TemporaryRamBase + TemporaryRamSize) - (UINTN)SecCoreData.StackBase;
// Jump to PEI core entry point
(PeiCoreEntryPoint)(&SecCoreData, PpiList);
}