mirror of https://github.com/acidanthera/audk.git
350 lines
13 KiB
C
350 lines
13 KiB
C
/** @file
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*
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* Copyright (c) 2011-2014, ARM Limited. All rights reserved.
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*
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* This program and the accompanying materials
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* are licensed and made available under the terms and conditions of the BSD License
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* which accompanies this distribution. The full text of the license may be found at
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* http://opensource.org/licenses/bsd-license.php
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*
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* THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
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* WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
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*
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**/
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#include <Library/ArmGicLib.h>
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#include <Ppi/ArmMpCoreInfo.h>
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#include <Library/IoLib.h>
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#include "BdsInternal.h"
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#include "BdsLinuxLoader.h"
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/*
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Linux kernel booting: Look at the doc in the Kernel source :
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Documentation/arm64/booting.txt
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The kernel image must be placed at the start of the memory to be used by the
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kernel (2MB aligned) + 0x80000.
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The Device tree blob is expected to be under 2MB and be within the first 512MB
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of kernel memory and be 2MB aligned.
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A Flattened Device Tree (FDT) used to boot linux needs to be updated before
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the kernel is started. It needs to indicate how secondary cores are brought up
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and where they are waiting before loading Linux. The FDT also needs to hold
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the correct kernel command line and filesystem RAM-disk information.
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At the moment we do not fully support generating this FDT information at
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runtime. A prepared FDT should be provided at boot. FDT is the only supported
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method for booting the AArch64 Linux kernel.
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Linux does not use any runtime services at this time, so we can let it
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overwrite UEFI.
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*/
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#define LINUX_ALIGN_VAL (0x080000) // 2MB + 0x80000 mask
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#define LINUX_ALIGN_MASK (0x1FFFFF) // Bottom 21bits
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#define ALIGN_2MB(addr) ALIGN_POINTER(addr , (2*1024*1024))
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/* ARM32 and AArch64 kernel handover differ.
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* x0 is set to FDT base.
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* x1-x3 are reserved for future use and should be set to zero.
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*/
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typedef VOID (*LINUX_KERNEL64)(UINTN ParametersBase, UINTN Reserved0,
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UINTN Reserved1, UINTN Reserved2);
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/* These externs are used to relocate some ASM code into Linux memory. */
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extern VOID *SecondariesPenStart;
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extern VOID *SecondariesPenEnd;
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extern UINTN *AsmMailboxbase;
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STATIC
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EFI_STATUS
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PreparePlatformHardware (
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VOID
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)
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{
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//Note: Interrupts will be disabled by the GIC driver when ExitBootServices() will be called.
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// Clean before Disable else the Stack gets corrupted with old data.
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ArmCleanDataCache ();
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ArmDisableDataCache ();
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// Invalidate all the entries that might have snuck in.
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ArmInvalidateDataCache ();
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// Disable and invalidate the instruction cache
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ArmDisableInstructionCache ();
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ArmInvalidateInstructionCache ();
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// Turn off MMU
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ArmDisableMmu();
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return EFI_SUCCESS;
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}
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STATIC
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EFI_STATUS
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StartLinux (
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IN EFI_PHYSICAL_ADDRESS LinuxImage,
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IN UINTN LinuxImageSize,
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IN EFI_PHYSICAL_ADDRESS FdtBlobBase,
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IN UINTN FdtBlobSize
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)
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{
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EFI_STATUS Status;
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LINUX_KERNEL64 LinuxKernel = (LINUX_KERNEL64)LinuxImage;
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// Send msg to secondary cores to go to the kernel pen.
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ArmGicSendSgiTo (PcdGet32(PcdGicDistributorBase), ARM_GIC_ICDSGIR_FILTER_EVERYONEELSE, 0x0E, PcdGet32 (PcdGicSgiIntId));
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// Shut down UEFI boot services. ExitBootServices() will notify every driver that created an event on
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// ExitBootServices event. Example the Interrupt DXE driver will disable the interrupts on this event.
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Status = ShutdownUefiBootServices ();
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if(EFI_ERROR(Status)) {
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DEBUG((EFI_D_ERROR,"ERROR: Can not shutdown UEFI boot services. Status=0x%X\n", Status));
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goto Exit;
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}
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// Check if the Linux Image is a uImage
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if (*(UINTN*)LinuxKernel == LINUX_UIMAGE_SIGNATURE) {
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// Assume the Image Entry Point is just after the uImage header (64-byte size)
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LinuxKernel = (LINUX_KERNEL64)((UINTN)LinuxKernel + 64);
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LinuxImageSize -= 64;
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}
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//
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// Switch off interrupts, caches, mmu, etc
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//
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Status = PreparePlatformHardware ();
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ASSERT_EFI_ERROR(Status);
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// Register and print out performance information
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PERF_END (NULL, "BDS", NULL, 0);
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if (PerformanceMeasurementEnabled ()) {
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PrintPerformance ();
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}
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//
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// Start the Linux Kernel
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//
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// x1-x3 are reserved (set to zero) for future use.
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LinuxKernel ((UINTN)FdtBlobBase, 0, 0, 0);
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// Kernel should never exit
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// After Life services are not provided
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ASSERT(FALSE);
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Exit:
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// Only be here if we fail to start Linux
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Print (L"ERROR : Can not start the kernel. Status=0x%X\n", Status);
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// Free Runtimee Memory (kernel and FDT)
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return Status;
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}
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/**
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Start a Linux kernel from a Device Path
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@param LinuxKernel Device Path to the Linux Kernel
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@param Parameters Linux kernel agruments
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@param Fdt Device Path to the Flat Device Tree
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@retval EFI_SUCCESS All drivers have been connected
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@retval EFI_NOT_FOUND The Linux kernel Device Path has not been found
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@retval EFI_OUT_OF_RESOURCES There is not enough resource memory to store the matching results.
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**/
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EFI_STATUS
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BdsBootLinuxAtag (
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IN EFI_DEVICE_PATH_PROTOCOL* LinuxKernelDevicePath,
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IN EFI_DEVICE_PATH_PROTOCOL* InitrdDevicePath,
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IN CONST CHAR8* Arguments
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)
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{
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// NOTE : AArch64 Linux kernel does not support ATAG, FDT only.
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ASSERT(0);
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return RETURN_UNSUPPORTED;
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}
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/**
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Start a Linux kernel from a Device Path
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@param LinuxKernel Device Path to the Linux Kernel
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@param Parameters Linux kernel agruments
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@param Fdt Device Path to the Flat Device Tree
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@retval EFI_SUCCESS All drivers have been connected
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@retval EFI_NOT_FOUND The Linux kernel Device Path has not been found
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@retval EFI_OUT_OF_RESOURCES There is not enough resource memory to store the matching results.
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**/
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EFI_STATUS
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BdsBootLinuxFdt (
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IN EFI_DEVICE_PATH_PROTOCOL* LinuxKernelDevicePath,
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IN EFI_DEVICE_PATH_PROTOCOL* InitrdDevicePath,
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IN CONST CHAR8* Arguments,
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IN EFI_DEVICE_PATH_PROTOCOL* FdtDevicePath
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)
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{
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EFI_STATUS Status;
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EFI_STATUS PenBaseStatus;
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UINTN LinuxImageSize;
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UINTN InitrdImageSize;
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UINTN InitrdImageBaseSize;
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UINTN FdtBlobSize;
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EFI_PHYSICAL_ADDRESS FdtBlobBase;
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EFI_PHYSICAL_ADDRESS LinuxImage;
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EFI_PHYSICAL_ADDRESS InitrdImage;
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EFI_PHYSICAL_ADDRESS InitrdImageBase;
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ARM_PROCESSOR_TABLE *ArmProcessorTable;
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ARM_CORE_INFO *ArmCoreInfoTable;
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UINTN Index;
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EFI_PHYSICAL_ADDRESS PenBase;
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UINTN PenSize;
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UINTN MailBoxBase;
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PenBaseStatus = EFI_UNSUPPORTED;
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PenSize = 0;
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InitrdImage = 0;
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InitrdImageSize = 0;
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InitrdImageBase = 0;
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InitrdImageBaseSize = 0;
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PERF_START (NULL, "BDS", NULL, 0);
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//
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// Load the Linux kernel from a device path
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//
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// Try to put the kernel at the start of RAM so as to give it access to all memory.
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// If that fails fall back to try loading it within LINUX_KERNEL_MAX_OFFSET of memory start.
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LinuxImage = PcdGet64 (PcdSystemMemoryBase) + 0x80000;
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Status = BdsLoadImage (LinuxKernelDevicePath, AllocateAddress, &LinuxImage, &LinuxImageSize);
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if (EFI_ERROR(Status)) {
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// Try again but give the loader more freedom of where to put the image.
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LinuxImage = LINUX_KERNEL_MAX_OFFSET;
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Status = BdsLoadImage (LinuxKernelDevicePath, AllocateMaxAddress, &LinuxImage, &LinuxImageSize);
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if (EFI_ERROR(Status)) {
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Print (L"ERROR: Did not find Linux kernel (%r).\n", Status);
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return Status;
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}
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}
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// Adjust the kernel location slightly if required. The kernel needs to be placed at start
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// of memory (2MB aligned) + 0x80000.
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if ((LinuxImage & LINUX_ALIGN_MASK) != LINUX_ALIGN_VAL) {
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LinuxImage = (EFI_PHYSICAL_ADDRESS)CopyMem (ALIGN_2MB(LinuxImage) + 0x80000, (VOID*)(UINTN)LinuxImage, LinuxImageSize);
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}
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if (InitrdDevicePath) {
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InitrdImageBase = LINUX_KERNEL_MAX_OFFSET;
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Status = BdsLoadImage (InitrdDevicePath, AllocateMaxAddress, &InitrdImageBase, &InitrdImageBaseSize);
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if (Status == EFI_OUT_OF_RESOURCES) {
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Status = BdsLoadImage (InitrdDevicePath, AllocateAnyPages, &InitrdImageBase, &InitrdImageBaseSize);
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}
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if (EFI_ERROR (Status)) {
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Print (L"ERROR: Did not find initrd image (%r).\n", Status);
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goto EXIT_FREE_LINUX;
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}
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// Check if the initrd is a uInitrd
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if (*(UINTN*)((UINTN)InitrdImageBase) == LINUX_UIMAGE_SIGNATURE) {
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// Skip the 64-byte image header
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InitrdImage = (EFI_PHYSICAL_ADDRESS)((UINTN)InitrdImageBase + 64);
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InitrdImageSize = InitrdImageBaseSize - 64;
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} else {
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InitrdImage = InitrdImageBase;
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InitrdImageSize = InitrdImageBaseSize;
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}
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}
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// Load the FDT binary from a device path.
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// The FDT will be reloaded later to a more appropriate location for the Linux kernel.
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FdtBlobBase = LINUX_KERNEL_MAX_OFFSET;
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Status = BdsLoadImage (FdtDevicePath, AllocateMaxAddress, &FdtBlobBase, &FdtBlobSize);
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if (EFI_ERROR(Status)) {
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Print (L"ERROR: Did not find Device Tree blob (%r).\n", Status);
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goto EXIT_FREE_INITRD;
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}
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//
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// Install secondary core pens if the Power State Coordination Interface is not supported
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//
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if (FeaturePcdGet (PcdArmLinuxSpinTable)) {
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// Place Pen at the start of Linux memory. We can then tell Linux to not use this bit of memory
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PenBase = LinuxImage - 0x80000;
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PenSize = (UINTN)&SecondariesPenEnd - (UINTN)&SecondariesPenStart;
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// Reserve the memory as RuntimeServices
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PenBaseStatus = gBS->AllocatePages (AllocateAddress, EfiRuntimeServicesCode, EFI_SIZE_TO_PAGES (PenSize), &PenBase);
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if (EFI_ERROR (PenBaseStatus)) {
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Print (L"Warning: Failed to reserve the memory required for the secondary cores at 0x%lX, Status = %r\n", PenBase, PenBaseStatus);
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// Even if there is a risk of memory corruption we carry on
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}
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// Put mailboxes below the pen code so we know where they are relative to code.
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MailBoxBase = (UINTN)PenBase + ((UINTN)&SecondariesPenEnd - (UINTN)&SecondariesPenStart);
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// Make sure this is 8 byte aligned.
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if (MailBoxBase % sizeof(MailBoxBase) != 0) {
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MailBoxBase += sizeof(MailBoxBase) - MailBoxBase % sizeof(MailBoxBase);
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}
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CopyMem ( (VOID*)(PenBase), (VOID*)&SecondariesPenStart, PenSize);
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// Update the MailboxBase variable used in the pen code
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*(UINTN*)(PenBase + ((UINTN)&AsmMailboxbase - (UINTN)&SecondariesPenStart)) = MailBoxBase;
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for (Index=0; Index < gST->NumberOfTableEntries; Index++) {
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// Check for correct GUID type
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if (CompareGuid (&gArmMpCoreInfoGuid, &(gST->ConfigurationTable[Index].VendorGuid))) {
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UINTN i;
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// Get them under our control. Move from depending on 32bit reg(sys_flags) and SWI
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// to 64 bit addr and WFE
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ArmProcessorTable = (ARM_PROCESSOR_TABLE *)gST->ConfigurationTable[Index].VendorTable;
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ArmCoreInfoTable = ArmProcessorTable->ArmCpus;
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for (i = 0; i < ArmProcessorTable->NumberOfEntries; i++ ) {
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// This goes into the SYSFLAGS register for the VE platform. We only have one 32bit reg to use
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MmioWrite32(ArmCoreInfoTable[i].MailboxSetAddress, (UINTN)PenBase);
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// So FDT can set the mailboxes correctly with the parser. These are 64bit Memory locations.
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ArmCoreInfoTable[i].MailboxSetAddress = (UINTN)MailBoxBase + i*sizeof(MailBoxBase);
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// Clear the mailboxes for the respective cores
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*((UINTN*)(ArmCoreInfoTable[i].MailboxSetAddress)) = 0x0;
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}
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}
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}
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// Flush caches to make sure our pen gets to mem before we free the cores.
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ArmCleanDataCache();
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}
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// By setting address=0 we leave the memory allocation to the function
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Status = PrepareFdt (Arguments, InitrdImage, InitrdImageSize, &FdtBlobBase, &FdtBlobSize);
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if (EFI_ERROR(Status)) {
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Print(L"ERROR: Can not load Linux kernel with Device Tree. Status=0x%X\n", Status);
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goto EXIT_FREE_FDT;
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}
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return StartLinux (LinuxImage, LinuxImageSize, FdtBlobBase, FdtBlobSize);
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EXIT_FREE_FDT:
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if (!EFI_ERROR (PenBaseStatus)) {
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gBS->FreePages (PenBase, EFI_SIZE_TO_PAGES (PenSize));
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}
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gBS->FreePages (FdtBlobBase, EFI_SIZE_TO_PAGES (FdtBlobSize));
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EXIT_FREE_INITRD:
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if (InitrdDevicePath) {
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gBS->FreePages (InitrdImageBase, EFI_SIZE_TO_PAGES (InitrdImageBaseSize));
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}
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EXIT_FREE_LINUX:
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gBS->FreePages (LinuxImage, EFI_SIZE_TO_PAGES (LinuxImageSize));
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return Status;
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}
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