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8d0fe26cbf
mirror_edk2/ArmPlatformPkg/Sec/Sec.c
oliviermartin 8d0fe26cbf ArmPlatformPkg: Remove ArmPlatformBootRemapping() function from the ArmPlatformLib 
Memory map remapping is a platform specific feature only enabled by some platforms.
Instead of keeping this function empty for most platforms, the function has been
removed. This feature can easily fit in any other ArmPlatformLib function.



git-svn-id: https://edk2.svn.sourceforge.net/svnroot/edk2/trunk/edk2@12632 6f19259b-4bc3-4df7-8a09-765794883524
2011-11-01 23:36:59 +00:00

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/** @file
* Main file supporting the SEC Phase on ARM Platforms
*
* Copyright (c) 2011, 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/DebugAgentLib.h>
#include <Library/PrintLib.h>
#include <Library/BaseMemoryLib.h>
#include <Library/SerialPortLib.h>
#include <Library/ArmGicLib.h>
#include <Library/ArmCpuLib.h>
#include "SecInternal.h"
#define SerialPrint(txt) SerialPortWrite ((UINT8*)txt, AsciiStrLen(txt)+1);
extern VOID *monitor_vector_table;
VOID
CEntryPoint (
IN UINTN MpId
)
{
CHAR8 Buffer[100];
UINTN CharCount;
UINTN JumpAddress;
// Primary CPU clears out the SCU tag RAMs, secondaries wait
if (IS_PRIMARY_CORE(MpId)) {
ArmCpuSetup (MpId);
if (ArmIsMpCore()) {
ArmCpuSynchronizeSignal (ARM_CPU_EVENT_BOOT_MEM_INIT);
}
// SEC phase needs to run library constructors by hand. This assumes we are linked against the SerialLib
// In non SEC modules the init call is in autogenerated code.
SerialPortInitialize ();
// Start talking
CharCount = AsciiSPrint (Buffer,sizeof (Buffer),"UEFI firmware built at %a on %a\n\r",__TIME__, __DATE__);
SerialPortWrite ((UINT8 *) Buffer, CharCount);
// Initialize the Debug Agent for Source Level Debugging
InitializeDebugAgent (DEBUG_AGENT_INIT_PREMEM_SEC, NULL, NULL);
SaveAndSetDebugTimerInterrupt (TRUE);
// Now we've got UART, make the check:
// - The Vector table must be 32-byte aligned
ASSERT(((UINT32)SecVectorTable & ((1 << 5)-1)) == 0);
// Enable the GIC distributor and CPU Interface
// - no other Interrupts are enabled, doesn't have to worry about the priority.
// - all the cores are in secure state, use secure SGI's
ArmGicEnableDistributor (PcdGet32(PcdGicDistributorBase));
ArmGicEnableInterruptInterface (PcdGet32(PcdGicInterruptInterfaceBase));
} else {
// Enable the GIC CPU Interface
ArmGicEnableInterruptInterface (PcdGet32(PcdGicInterruptInterfaceBase));
}
// Invalidate the data cache. Doesn't have to do the Data cache clean.
ArmInvalidateDataCache();
// Invalidate Instruction Cache
ArmInvalidateInstructionCache();
// Invalidate I & D TLBs
ArmInvalidateInstructionAndDataTlb();
// Enable Full Access to CoProcessors
ArmWriteCPACR (CPACR_CP_FULL_ACCESS);
if (FixedPcdGet32 (PcdVFPEnabled)) {
ArmEnableVFP();
}
if (IS_PRIMARY_CORE(MpId)) {
// Initialize peripherals that must be done at the early stage
// Example: Some L2x0 controllers must be initialized in Secure World
ArmPlatformSecInitialize ();
// If we skip the PEI Core we could want to initialize the DRAM in the SEC phase.
// If we are in standalone, we need the initialization to copy the UEFI firmware into DRAM
if (FeaturePcdGet (PcdSystemMemoryInitializeInSec)) {
// Initialize system memory (DRAM)
ArmPlatformInitializeSystemMemory ();
}
}
// Test if Trustzone is supported on this platform
if (FixedPcdGetBool (PcdTrustzoneSupport)) {
// Ensure the Monitor Stack Base & Size have been set
ASSERT(PcdGet32(PcdCPUCoresSecMonStackBase) != 0);
ASSERT(PcdGet32(PcdCPUCoreSecMonStackSize) != 0);
if (ArmIsMpCore()) {
// Setup SMP in Non Secure world
ArmCpuSetupSmpNonSecure (GET_CORE_ID(MpId));
}
// Enter Monitor Mode
enter_monitor_mode ((VOID*)(PcdGet32(PcdCPUCoresSecMonStackBase) + (PcdGet32(PcdCPUCoreSecMonStackSize) * GET_CORE_POS(MpId))));
//Write the monitor mode vector table address
ArmWriteVMBar((UINT32) &monitor_vector_table);
//-------------------- Monitor Mode ---------------------
// Setup the Trustzone Chipsets
if (IS_PRIMARY_CORE(MpId)) {
ArmPlatformTrustzoneInit ();
// Waiting for the Primary Core to have finished to initialize the Secure World
ArmCpuSynchronizeSignal (ARM_CPU_EVENT_SECURE_INIT);
} else {
// The secondary cores need to wait until the Trustzone chipsets configuration is done
// before switching to Non Secure World
// Waiting for the Primary Core to have finished to initialize the Secure World
ArmCpuSynchronizeWait (ARM_CPU_EVENT_SECURE_INIT);
}
// Transfer the interrupt to Non-secure World
ArmGicSetupNonSecure (PcdGet32(PcdGicDistributorBase), PcdGet32(PcdGicInterruptInterfaceBase));
// Write to CP15 Non-secure Access Control Register :
// - Enable CP10 and CP11 accesses in NS World
// - Enable Access to Preload Engine in NS World
// - Enable lockable TLB entries allocation in NS world
// - Enable R/W access to SMP bit of Auxiliary Control Register in NS world
ArmWriteNsacr (NSACR_NS_SMP | NSACR_TL | NSACR_PLE | NSACR_CP(10) | NSACR_CP(11));
// CP15 Secure Configuration Register with Non Secure bit (SCR_NS), CPSR.A modified in any
// security state (SCR_AW), CPSR.F modified in any security state (SCR_FW)
ArmWriteScr (SCR_NS | SCR_FW | SCR_AW);
} else {
if (IS_PRIMARY_CORE(MpId)) {
SerialPrint ("Trust Zone Configuration is disabled\n\r");
}
// With Trustzone support the transition from Sec to Normal world is done by return_from_exception().
// If we want to keep this function call we need to ensure the SVC's SPSR point to the same Program
// Status Register as the the current one (CPSR).
copy_cpsr_into_spsr ();
}
JumpAddress = PcdGet32 (PcdFvBaseAddress);
ArmPlatformSecExtraAction (MpId, &JumpAddress);
return_from_exception (JumpAddress);
//-------------------- Non Secure Mode ---------------------
// PEI Core should always load and never return
ASSERT (FALSE);
}
VOID
SecCommonExceptionEntry (
IN UINT32 Entry,
IN UINT32 LR
)
{
CHAR8 Buffer[100];
UINTN CharCount;
switch (Entry) {
case 0:
CharCount = AsciiSPrint (Buffer,sizeof (Buffer),"Reset Exception at 0x%X\n\r",LR);
break;
case 1:
CharCount = AsciiSPrint (Buffer,sizeof (Buffer),"Undefined Exception at 0x%X\n\r",LR);
break;
case 2:
CharCount = AsciiSPrint (Buffer,sizeof (Buffer),"SWI Exception at 0x%X\n\r",LR);
break;
case 3:
CharCount = AsciiSPrint (Buffer,sizeof (Buffer),"PrefetchAbort Exception at 0x%X\n\r",LR);
break;
case 4:
CharCount = AsciiSPrint (Buffer,sizeof (Buffer),"DataAbort Exception at 0x%X\n\r",LR);
break;
case 5:
CharCount = AsciiSPrint (Buffer,sizeof (Buffer),"Reserved Exception at 0x%X\n\r",LR);
break;
case 6:
CharCount = AsciiSPrint (Buffer,sizeof (Buffer),"IRQ Exception at 0x%X\n\r",LR);
break;
case 7:
CharCount = AsciiSPrint (Buffer,sizeof (Buffer),"FIQ Exception at 0x%X\n\r",LR);
break;
default:
CharCount = AsciiSPrint (Buffer,sizeof (Buffer),"Unknown Exception at 0x%X\n\r",LR);
break;
}
SerialPortWrite ((UINT8 *) Buffer, CharCount);
while(1);
}
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