mirror of https://github.com/acidanthera/audk.git
203 lines
6.3 KiB
ArmAsm
203 lines
6.3 KiB
ArmAsm
//
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// Copyright (c) 2011-2013, ARM Limited. All rights reserved.
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// Copyright (c) 2015-2016, Linaro Limited. All rights reserved.
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//
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// SPDX-License-Identifier: BSD-2-Clause-Patent
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//
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//
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#include <AsmMacroIoLibV8.h>
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ASM_FUNC(_ModuleEntryPoint)
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//
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// We are built as a ET_DYN PIE executable, so we need to process all
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// relative relocations regardless of whether or not we are executing from
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// the same offset we were linked at. This is only possible if we are
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// running from RAM.
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//
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adr x8, __reloc_base
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adr x9, __reloc_start
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adr x10, __reloc_end
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.Lreloc_loop:
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cmp x9, x10
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bhs .Lreloc_done
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//
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// AArch64 uses the ELF64 RELA format, which means each entry in the
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// relocation table consists of
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//
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// UINT64 offset : the relative offset of the value that needs to
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// be relocated
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// UINT64 info : relocation type and symbol index (the latter is
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// not used for R_AARCH64_RELATIVE relocations)
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// UINT64 addend : value to be added to the value being relocated
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//
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ldp x11, x12, [x9], #24 // read offset into x11 and info into x12
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cmp x12, #0x403 // check info == R_AARCH64_RELATIVE?
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bne .Lreloc_loop // not a relative relocation? then skip
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ldr x12, [x9, #-8] // read addend into x12
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add x12, x12, x8 // add reloc base to addend to get relocated value
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str x12, [x11, x8] // write relocated value at offset
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b .Lreloc_loop
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.Lreloc_done:
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bl ASM_PFX(DiscoverDramFromDt)
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// Get ID of this CPU in Multicore system
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bl ASM_PFX(ArmReadMpidr)
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// Keep a copy of the MpId register value
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mov x20, x0
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// Check if we can install the stack at the top of the System Memory or if we need
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// to install the stacks at the bottom of the Firmware Device (case the FD is located
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// at the top of the DRAM)
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_SetupStackPosition:
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// Compute Top of System Memory
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ldr x1, PcdGet64 (PcdSystemMemoryBase)
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ldr x2, PcdGet64 (PcdSystemMemorySize)
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sub x2, x2, #1
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add x1, x1, x2 // x1 = SystemMemoryTop = PcdSystemMemoryBase + PcdSystemMemorySize
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// Calculate Top of the Firmware Device
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ldr x2, PcdGet64 (PcdFdBaseAddress)
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MOV32 (w3, FixedPcdGet32 (PcdFdSize) - 1)
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add x3, x3, x2 // x3 = FdTop = PcdFdBaseAddress + PcdFdSize
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// UEFI Memory Size (stacks are allocated in this region)
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MOV32 (x4, FixedPcdGet32(PcdSystemMemoryUefiRegionSize))
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//
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// Reserve the memory for the UEFI region (contain stacks on its top)
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//
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// Calculate how much space there is between the top of the Firmware and the Top of the System Memory
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subs x0, x1, x3 // x0 = SystemMemoryTop - FdTop
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b.mi _SetupStack // Jump if negative (FdTop > SystemMemoryTop). Case when the PrePi is in XIP memory outside of the DRAM
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cmp x0, x4
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b.ge _SetupStack
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// Case the top of stacks is the FdBaseAddress
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mov x1, x2
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_SetupStack:
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// x1 contains the top of the stack (and the UEFI Memory)
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// Because the 'push' instruction is equivalent to 'stmdb' (decrement before), we need to increment
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// one to the top of the stack. We check if incrementing one does not overflow (case of DRAM at the
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// top of the memory space)
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adds x21, x1, #1
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b.cs _SetupOverflowStack
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_SetupAlignedStack:
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mov x1, x21
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b _GetBaseUefiMemory
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_SetupOverflowStack:
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// Case memory at the top of the address space. Ensure the top of the stack is EFI_PAGE_SIZE
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// aligned (4KB)
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and x1, x1, ~EFI_PAGE_MASK
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_GetBaseUefiMemory:
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// Calculate the Base of the UEFI Memory
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sub x21, x1, x4
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_GetStackBase:
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// r1 = The top of the Mpcore Stacks
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mov sp, x1
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// Stack for the primary core = PrimaryCoreStack
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MOV32 (x2, FixedPcdGet32(PcdCPUCorePrimaryStackSize))
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sub x22, x1, x2
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mov x0, x20
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mov x1, x21
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mov x2, x22
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// Set the frame pointer to NULL so any backtraces terminate here
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mov x29, xzr
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// Jump to PrePiCore C code
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// x0 = MpId
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// x1 = UefiMemoryBase
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// x2 = StacksBase
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bl ASM_PFX(CEntryPoint)
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_NeverReturn:
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b _NeverReturn
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// VOID
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// DiscoverDramFromDt (
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// VOID *DeviceTreeBaseAddress, // passed by loader in x0
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// VOID *ImageBase // passed by FDF trampoline in x1
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// );
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ASM_PFX(DiscoverDramFromDt):
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//
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// If we are booting from RAM using the Linux kernel boot protocol, x0 will
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// point to the DTB image in memory. Otherwise, use the default value defined
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// by the platform.
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//
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cbnz x0, 0f
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ldr x0, PcdGet64 (PcdDeviceTreeInitialBaseAddress)
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0:mov x29, x30 // preserve LR
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mov x28, x0 // preserve DTB pointer
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mov x27, x1 // preserve base of image pointer
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//
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// The base of the runtime image has been preserved in x1. Check whether
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// the expected magic number can be found in the header.
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//
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ldr w8, .LArm64LinuxMagic
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ldr w9, [x1, #0x38]
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cmp w8, w9
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bne .Lout
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//
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//
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// OK, so far so good. We have confirmed that we likely have a DTB and are
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// booting via the arm64 Linux boot protocol. Update the base-of-image PCD
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// to the actual relocated value, and add the shift of PcdFdBaseAddress to
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// PcdFvBaseAddress as well
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//
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adr x8, PcdGet64 (PcdFdBaseAddress)
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adr x9, PcdGet64 (PcdFvBaseAddress)
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ldr x6, [x8]
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ldr x7, [x9]
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sub x7, x7, x6
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add x7, x7, x1
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str x1, [x8]
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str x7, [x9]
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//
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// Discover the memory size and offset from the DTB, and record in the
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// respective PCDs. This will also return false if a corrupt DTB is
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// encountered. Since we are calling a C function, use the window at the
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// beginning of the FD image as a temp stack.
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//
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adr x1, PcdGet64 (PcdSystemMemoryBase)
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adr x2, PcdGet64 (PcdSystemMemorySize)
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mov sp, x7
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bl FindMemnode
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cbz x0, .Lout
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//
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// Copy the DTB to the slack space right after the 64 byte arm64/Linux style
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// image header at the base of this image (defined in the FDF), and record the
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// pointer in PcdDeviceTreeInitialBaseAddress.
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//
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adr x8, PcdGet64 (PcdDeviceTreeInitialBaseAddress)
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add x27, x27, #0x40
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str x27, [x8]
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mov x0, x27
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mov x1, x28
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bl CopyFdt
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.Lout:
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ret x29
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.LArm64LinuxMagic:
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.byte 0x41, 0x52, 0x4d, 0x64
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