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/* SPDX-License-Identifier: GPL-2.0 */
/*
 *  linux/boot/head.S
 *
 *  Copyright (C) 1991, 1992, 1993  Linus Torvalds
 */

/*
 *  head.S contains the 32-bit startup code.
 *
 * NOTE!!! Startup happens at absolute address 0x00001000, which is also where
 * the page directory will exist. The startup code will be overwritten by
 * the page directory. [According to comments etc elsewhere on a compressed
 * kernel it will end up at 0x1000 + 1Mb I hope so as I assume this. - AC]
 *
 * Page 0 is deliberately kept safe, since System Management Mode code in 
 * laptops may need to access the BIOS data stored there.  This is also
 * useful for future device drivers that either access the BIOS via VM86 
 * mode.
 */

/*
 * High loaded stuff by Hans Lermen & Werner Almesberger, Feb. 1996
 */
	.code32
	.text

#include <linux/init.h>
#include <linux/linkage.h>
#include <asm/segment.h>
#include <asm/boot.h>
#include <asm/msr.h>
#include <asm/processor-flags.h>
#include <asm/asm-offsets.h>
#include <asm/bootparam.h>
#include "pgtable.h"

/*
 * Locally defined symbols should be marked hidden:
 */
	.hidden _bss
	.hidden _ebss
	.hidden _got
	.hidden _egot
	.hidden _end

	__HEAD
	.code32
SYM_FUNC_START(startup_32)
	/*
	 * 32bit entry is 0 and it is ABI so immutable!
	 * If we come here directly from a bootloader,
	 * kernel(text+data+bss+brk) ramdisk, zero_page, command line
	 * all need to be under the 4G limit.
	 */
	cld
	cli

/*
 * Calculate the delta between where we were compiled to run
 * at and where we were actually loaded at.  This can only be done
 * with a short local call on x86.  Nothing  else will tell us what
 * address we are running at.  The reserved chunk of the real-mode
 * data at 0x1e4 (defined as a scratch field) are used as the stack
 * for this calculation. Only 4 bytes are needed.
 */
	leal	(BP_scratch+4)(%esi), %esp
	call	1f
1:	popl	%ebp
	subl	$1b, %ebp

	/* Load new GDT with the 64bit segments using 32bit descriptor */
	leal	gdt(%ebp), %eax
	movl	%eax, 2(%eax)
	lgdt	(%eax)

	/* Load segment registers with our descriptors */
	movl	$__BOOT_DS, %eax
	movl	%eax, %ds
	movl	%eax, %es
	movl	%eax, %fs
	movl	%eax, %gs
	movl	%eax, %ss

/* setup a stack and make sure cpu supports long mode. */
	leal	boot_stack_end(%ebp), %esp

	call	verify_cpu
	testl	%eax, %eax
	jnz	.Lno_longmode

/*
 * Compute the delta between where we were compiled to run at
 * and where the code will actually run at.
 *
 * %ebp contains the address we are loaded at by the boot loader and %ebx
 * contains the address where we should move the kernel image temporarily
 * for safe in-place decompression.
 */

#ifdef CONFIG_RELOCATABLE
	movl	%ebp, %ebx

#ifdef CONFIG_EFI_STUB
/*
 * If we were loaded via the EFI LoadImage service, startup_32 will be at an
 * offset to the start of the space allocated for the image. efi_pe_entry will
 * set up image_offset to tell us where the image actually starts, so that we
 * can use the full available buffer.
 *	image_offset = startup_32 - image_base
 * Otherwise image_offset will be zero and has no effect on the calculations.
 */
	subl    image_offset(%ebp), %ebx
#endif

	movl	BP_kernel_alignment(%esi), %eax
	decl	%eax
	addl	%eax, %ebx
	notl	%eax
	andl	%eax, %ebx
	cmpl	$LOAD_PHYSICAL_ADDR, %ebx
	jae	1f
#endif
	movl	$LOAD_PHYSICAL_ADDR, %ebx
1:

	/* Target address to relocate to for decompression */
	addl	BP_init_size(%esi), %ebx
	subl	$_end, %ebx

/*
 * Prepare for entering 64 bit mode
 */

	/* Enable PAE mode */
	movl	%cr4, %eax
	orl	$X86_CR4_PAE, %eax
	movl	%eax, %cr4

 /*
  * Build early 4G boot pagetable
  */
	/*
	 * If SEV is active then set the encryption mask in the page tables.
	 * This will insure that when the kernel is copied and decompressed
	 * it will be done so encrypted.
	 */
	call	get_sev_encryption_bit
	xorl	%edx, %edx
	testl	%eax, %eax
	jz	1f
	subl	$32, %eax	/* Encryption bit is always above bit 31 */
	bts	%eax, %edx	/* Set encryption mask for page tables */
1:

	/* Initialize Page tables to 0 */
	leal	pgtable(%ebx), %edi
	xorl	%eax, %eax
	movl	$(BOOT_INIT_PGT_SIZE/4), %ecx
	rep	stosl

	/* Build Level 4 */
	leal	pgtable + 0(%ebx), %edi
	leal	0x1007 (%edi), %eax
	movl	%eax, 0(%edi)
	addl	%edx, 4(%edi)

	/* Build Level 3 */
	leal	pgtable + 0x1000(%ebx), %edi
	leal	0x1007(%edi), %eax
	movl	$4, %ecx
1:	movl	%eax, 0x00(%edi)
	addl	%edx, 0x04(%edi)
	addl	$0x00001000, %eax
	addl	$8, %edi
	decl	%ecx
	jnz	1b

	/* Build Level 2 */
	leal	pgtable + 0x2000(%ebx), %edi
	movl	$0x00000183, %eax
	movl	$2048, %ecx
1:	movl	%eax, 0(%edi)
	addl	%edx, 4(%edi)
	addl	$0x00200000, %eax
	addl	$8, %edi
	decl	%ecx
	jnz	1b

	/* Enable the boot page tables */
	leal	pgtable(%ebx), %eax
	movl	%eax, %cr3

	/* Enable Long mode in EFER (Extended Feature Enable Register) */
	movl	$MSR_EFER, %ecx
	rdmsr
	btsl	$_EFER_LME, %eax
	wrmsr

	/* After gdt is loaded */
	xorl	%eax, %eax
	lldt	%ax
	movl    $__BOOT_TSS, %eax
	ltr	%ax

	/*
	 * Setup for the jump to 64bit mode
	 *
	 * When the jump is performend we will be in long mode but
	 * in 32bit compatibility mode with EFER.LME = 1, CS.L = 0, CS.D = 1
	 * (and in turn EFER.LMA = 1).	To jump into 64bit mode we use
	 * the new gdt/idt that has __KERNEL_CS with CS.L = 1.
	 * We place all of the values on our mini stack so lret can
	 * used to perform that far jump.
	 */
	pushl	$__KERNEL_CS
	leal	startup_64(%ebp), %eax
#ifdef CONFIG_EFI_MIXED
	movl	efi32_boot_args(%ebp), %edi
	cmp	$0, %edi
	jz	1f
	leal	efi64_stub_entry(%ebp), %eax
	movl	efi32_boot_args+4(%ebp), %esi
	movl	efi32_boot_args+8(%ebp), %edx	// saved bootparams pointer
	cmpl	$0, %edx
	jnz	1f
	leal	efi_pe_entry(%ebp), %eax
	movl	%edi, %ecx			// MS calling convention
	movl	%esi, %edx
1:
#endif
	pushl	%eax

	/* Enter paged protected Mode, activating Long Mode */
	movl	$(X86_CR0_PG | X86_CR0_PE), %eax /* Enable Paging and Protected mode */
	movl	%eax, %cr0

	/* Jump from 32bit compatibility mode into 64bit mode. */
	lret
SYM_FUNC_END(startup_32)

#ifdef CONFIG_EFI_MIXED
	.org 0x190
SYM_FUNC_START(efi32_stub_entry)
	add	$0x4, %esp		/* Discard return address */
	popl	%ecx
	popl	%edx
	popl	%esi

	call	1f
1:	pop	%ebp
	subl	$1b, %ebp

	movl	%esi, efi32_boot_args+8(%ebp)
SYM_INNER_LABEL(efi32_pe_stub_entry, SYM_L_LOCAL)
	movl	%ecx, efi32_boot_args(%ebp)
	movl	%edx, efi32_boot_args+4(%ebp)
	movb	$0, efi_is64(%ebp)

	/* Save firmware GDTR and code/data selectors */
	sgdtl	efi32_boot_gdt(%ebp)
	movw	%cs, efi32_boot_cs(%ebp)
	movw	%ds, efi32_boot_ds(%ebp)

	/* Disable paging */
	movl	%cr0, %eax
	btrl	$X86_CR0_PG_BIT, %eax
	movl	%eax, %cr0

	jmp	startup_32
SYM_FUNC_END(efi32_stub_entry)
#endif

	.code64
	.org 0x200
SYM_CODE_START(startup_64)
	/*
	 * 64bit entry is 0x200 and it is ABI so immutable!
	 * We come here either from startup_32 or directly from a
	 * 64bit bootloader.
	 * If we come here from a bootloader, kernel(text+data+bss+brk),
	 * ramdisk, zero_page, command line could be above 4G.
	 * We depend on an identity mapped page table being provided
	 * that maps our entire kernel(text+data+bss+brk), zero page
	 * and command line.
	 */

	cld
	cli

	/* Setup data segments. */
	xorl	%eax, %eax
	movl	%eax, %ds
	movl	%eax, %es
	movl	%eax, %ss
	movl	%eax, %fs
	movl	%eax, %gs

	/*
	 * Compute the decompressed kernel start address.  It is where
	 * we were loaded at aligned to a 2M boundary. %rbp contains the
	 * decompressed kernel start address.
	 *
	 * If it is a relocatable kernel then decompress and run the kernel
	 * from load address aligned to 2MB addr, otherwise decompress and
	 * run the kernel from LOAD_PHYSICAL_ADDR
	 *
	 * We cannot rely on the calculation done in 32-bit mode, since we
	 * may have been invoked via the 64-bit entry point.
	 */

	/* Start with the delta to where the kernel will run at. */
#ifdef CONFIG_RELOCATABLE
	leaq	startup_32(%rip) /* - $startup_32 */, %rbp

#ifdef CONFIG_EFI_STUB
/*
 * If we were loaded via the EFI LoadImage service, startup_32 will be at an
 * offset to the start of the space allocated for the image. efi_pe_entry will
 * set up image_offset to tell us where the image actually starts, so that we
 * can use the full available buffer.
 *	image_offset = startup_32 - image_base
 * Otherwise image_offset will be zero and has no effect on the calculations.
 */
	movl    image_offset(%rip), %eax
	subq	%rax, %rbp
#endif

	movl	BP_kernel_alignment(%rsi), %eax
	decl	%eax
	addq	%rax, %rbp
	notq	%rax
	andq	%rax, %rbp
	cmpq	$LOAD_PHYSICAL_ADDR, %rbp
	jae	1f
#endif
	movq	$LOAD_PHYSICAL_ADDR, %rbp
1:

	/* Target address to relocate to for decompression */
	movl	BP_init_size(%rsi), %ebx
	subl	$_end, %ebx
	addq	%rbp, %rbx

	/* Set up the stack */
	leaq	boot_stack_end(%rbx), %rsp

	/*
	 * paging_prepare() and cleanup_trampoline() below can have GOT
	 * references. Adjust the table with address we are running at.
	 *
	 * Zero RAX for adjust_got: the GOT was not adjusted before;
	 * there's no adjustment to undo.
	 */
	xorq	%rax, %rax

	/*
	 * Calculate the address the binary is loaded at and use it as
	 * a GOT adjustment.
	 */
	call	1f
1:	popq	%rdi
	subq	$1b, %rdi

	call	.Ladjust_got

	/*
	 * At this point we are in long mode with 4-level paging enabled,
	 * but we might want to enable 5-level paging or vice versa.
	 *
	 * The problem is that we cannot do it directly. Setting or clearing
	 * CR4.LA57 in long mode would trigger #GP. So we need to switch off
	 * long mode and paging first.
	 *
	 * We also need a trampoline in lower memory to switch over from
	 * 4- to 5-level paging for cases when the bootloader puts the kernel
	 * above 4G, but didn't enable 5-level paging for us.
	 *
	 * The same trampoline can be used to switch from 5- to 4-level paging
	 * mode, like when starting 4-level paging kernel via kexec() when
	 * original kernel worked in 5-level paging mode.
	 *
	 * For the trampoline, we need the top page table to reside in lower
	 * memory as we don't have a way to load 64-bit values into CR3 in
	 * 32-bit mode.
	 *
	 * We go though the trampoline even if we don't have to: if we're
	 * already in a desired paging mode. This way the trampoline code gets
	 * tested on every boot.
	 */

	/* Make sure we have GDT with 32-bit code segment */
	leaq	gdt64(%rip), %rax
	addq	%rax, 2(%rax)
	lgdt	(%rax)

	/* Reload CS so IRET returns to a CS actually in the GDT */
	pushq	$__KERNEL_CS
	leaq	.Lon_kernel_cs(%rip), %rax
	pushq	%rax
	lretq

.Lon_kernel_cs:

	/*
	 * paging_prepare() sets up the trampoline and checks if we need to
	 * enable 5-level paging.
	 *
	 * paging_prepare() returns a two-quadword structure which lands
	 * into RDX:RAX:
	 *   - Address of the trampoline is returned in RAX.
	 *   - Non zero RDX means trampoline needs to enable 5-level
	 *     paging.
	 *
	 * RSI holds real mode data and needs to be preserved across
	 * this function call.
	 */
	pushq	%rsi
	movq	%rsi, %rdi		/* real mode address */
	call	paging_prepare
	popq	%rsi

	/* Save the trampoline address in RCX */
	movq	%rax, %rcx

	/*
	 * Load the address of trampoline_return() into RDI.
	 * It will be used by the trampoline to return to the main code.
	 */
	leaq	trampoline_return(%rip), %rdi

	/* Switch to compatibility mode (CS.L = 0 CS.D = 1) via far return */
	pushq	$__KERNEL32_CS
	leaq	TRAMPOLINE_32BIT_CODE_OFFSET(%rax), %rax
	pushq	%rax
	lretq
trampoline_return:
	/* Restore the stack, the 32-bit trampoline uses its own stack */
	leaq	boot_stack_end(%rbx), %rsp

	/*
	 * cleanup_trampoline() would restore trampoline memory.
	 *
	 * RDI is address of the page table to use instead of page table
	 * in trampoline memory (if required).
	 *
	 * RSI holds real mode data and needs to be preserved across
	 * this function call.
	 */
	pushq	%rsi
	leaq	top_pgtable(%rbx), %rdi
	call	cleanup_trampoline
	popq	%rsi

	/* Zero EFLAGS */
	pushq	$0
	popfq

	/*
	 * Previously we've adjusted the GOT with address the binary was
	 * loaded at. Now we need to re-adjust for relocation address.
	 *
	 * Calculate the address the binary is loaded at, so that we can
	 * undo the previous GOT adjustment.
	 */
	call	1f
1:	popq	%rax
	subq	$1b, %rax

	/* The new adjustment is the relocation address */
	movq	%rbx, %rdi
	call	.Ladjust_got

/*
 * Copy the compressed kernel to the end of our buffer
 * where decompression in place becomes safe.
 */
	pushq	%rsi
	leaq	(_bss-8)(%rip), %rsi
	leaq	(_bss-8)(%rbx), %rdi
	movq	$_bss /* - $startup_32 */, %rcx
	shrq	$3, %rcx
	std
	rep	movsq
	cld
	popq	%rsi

	/*
	 * The GDT may get overwritten either during the copy we just did or
	 * during extract_kernel below. To avoid any issues, repoint the GDTR
	 * to the new copy of the GDT.
	 */
	leaq	gdt64(%rbx), %rax
	leaq	gdt(%rbx), %rdx
	movq	%rdx, 2(%rax)
	lgdt	(%rax)

/*
 * Jump to the relocated address.
 */
	leaq	.Lrelocated(%rbx), %rax
	jmp	*%rax
SYM_CODE_END(startup_64)

#ifdef CONFIG_EFI_STUB
	.org 0x390
SYM_FUNC_START(efi64_stub_entry)
SYM_FUNC_START_ALIAS(efi_stub_entry)
	and	$~0xf, %rsp			/* realign the stack */
	movq	%rdx, %rbx			/* save boot_params pointer */
	call	efi_main
	movq	%rbx,%rsi
	leaq	startup_64(%rax), %rax
	jmp	*%rax
SYM_FUNC_END(efi64_stub_entry)
SYM_FUNC_END_ALIAS(efi_stub_entry)
#endif

	.text
SYM_FUNC_START_LOCAL_NOALIGN(.Lrelocated)

/*
 * Clear BSS (stack is currently empty)
 */
	xorl	%eax, %eax
	leaq    _bss(%rip), %rdi
	leaq    _ebss(%rip), %rcx
	subq	%rdi, %rcx
	shrq	$3, %rcx
	rep	stosq

/*
 * Do the extraction, and jump to the new kernel..
 */
	pushq	%rsi			/* Save the real mode argument */
	movq	%rsi, %rdi		/* real mode address */
	leaq	boot_heap(%rip), %rsi	/* malloc area for uncompression */
	leaq	input_data(%rip), %rdx  /* input_data */
	movl	$z_input_len, %ecx	/* input_len */
	movq	%rbp, %r8		/* output target address */
	movl	$z_output_len, %r9d	/* decompressed length, end of relocs */
	call	extract_kernel		/* returns kernel location in %rax */
	popq	%rsi

/*
 * Jump to the decompressed kernel.
 */
	jmp	*%rax
SYM_FUNC_END(.Lrelocated)

/*
 * Adjust the global offset table
 *
 * RAX is the previous adjustment of the table to undo (use 0 if it's the
 * first time we touch GOT).
 * RDI is the new adjustment to apply.
 */
.Ladjust_got:
	/* Walk through the GOT adding the address to the entries */
	leaq	_got(%rip), %rdx
	leaq	_egot(%rip), %rcx
1:
	cmpq	%rcx, %rdx
	jae	2f
	subq	%rax, (%rdx)	/* Undo previous adjustment */
	addq	%rdi, (%rdx)	/* Apply the new adjustment */
	addq	$8, %rdx
	jmp	1b
2:
	ret

	.code32
/*
 * This is the 32-bit trampoline that will be copied over to low memory.
 *
 * RDI contains the return address (might be above 4G).
 * ECX contains the base address of the trampoline memory.
 * Non zero RDX means trampoline needs to enable 5-level paging.
 */
SYM_CODE_START(trampoline_32bit_src)
	/* Set up data and stack segments */
	movl	$__KERNEL_DS, %eax
	movl	%eax, %ds
	movl	%eax, %ss

	/* Set up new stack */
	leal	TRAMPOLINE_32BIT_STACK_END(%ecx), %esp

	/* Disable paging */
	movl	%cr0, %eax
	btrl	$X86_CR0_PG_BIT, %eax
	movl	%eax, %cr0

	/* Check what paging mode we want to be in after the trampoline */
	cmpl	$0, %edx
	jz	1f

	/* We want 5-level paging: don't touch CR3 if it already points to 5-level page tables */
	movl	%cr4, %eax
	testl	$X86_CR4_LA57, %eax
	jnz	3f
	jmp	2f
1:
	/* We want 4-level paging: don't touch CR3 if it already points to 4-level page tables */
	movl	%cr4, %eax
	testl	$X86_CR4_LA57, %eax
	jz	3f
2:
	/* Point CR3 to the trampoline's new top level page table */
	leal	TRAMPOLINE_32BIT_PGTABLE_OFFSET(%ecx), %eax
	movl	%eax, %cr3
3:
	/* Set EFER.LME=1 as a precaution in case hypervsior pulls the rug */
	pushl	%ecx
	pushl	%edx
	movl	$MSR_EFER, %ecx
	rdmsr
	btsl	$_EFER_LME, %eax
	wrmsr
	popl	%edx
	popl	%ecx

	/* Enable PAE and LA57 (if required) paging modes */
	movl	$X86_CR4_PAE, %eax
	cmpl	$0, %edx
	jz	1f
	orl	$X86_CR4_LA57, %eax
1:
	movl	%eax, %cr4

	/* Calculate address of paging_enabled() once we are executing in the trampoline */
	leal	.Lpaging_enabled - trampoline_32bit_src + TRAMPOLINE_32BIT_CODE_OFFSET(%ecx), %eax

	/* Prepare the stack for far return to Long Mode */
	pushl	$__KERNEL_CS
	pushl	%eax

	/* Enable paging again */
	movl	$(X86_CR0_PG | X86_CR0_PE), %eax
	movl	%eax, %cr0

	lret
SYM_CODE_END(trampoline_32bit_src)

	.code64
SYM_FUNC_START_LOCAL_NOALIGN(.Lpaging_enabled)
	/* Return from the trampoline */
	jmp	*%rdi
SYM_FUNC_END(.Lpaging_enabled)

	/*
         * The trampoline code has a size limit.
         * Make sure we fail to compile if the trampoline code grows
         * beyond TRAMPOLINE_32BIT_CODE_SIZE bytes.
	 */
	.org	trampoline_32bit_src + TRAMPOLINE_32BIT_CODE_SIZE

	.code32
SYM_FUNC_START_LOCAL_NOALIGN(.Lno_longmode)
	/* This isn't an x86-64 CPU, so hang intentionally, we cannot continue */
1:
	hlt
	jmp     1b
SYM_FUNC_END(.Lno_longmode)

#include "../../kernel/verify_cpu.S"

	.data
SYM_DATA_START_LOCAL(gdt64)
	.word	gdt_end - gdt - 1
	.quad   gdt - gdt64
SYM_DATA_END(gdt64)
	.balign	8
SYM_DATA_START_LOCAL(gdt)
	.word	gdt_end - gdt - 1
	.long	0
	.word	0
	.quad	0x00cf9a000000ffff	/* __KERNEL32_CS */
	.quad	0x00af9a000000ffff	/* __KERNEL_CS */
	.quad	0x00cf92000000ffff	/* __KERNEL_DS */
	.quad	0x0080890000000000	/* TS descriptor */
	.quad   0x0000000000000000	/* TS continued */
SYM_DATA_END_LABEL(gdt, SYM_L_LOCAL, gdt_end)

#ifdef CONFIG_EFI_STUB
SYM_DATA(image_offset, .long 0)
#endif

#ifdef CONFIG_EFI_MIXED
SYM_DATA_LOCAL(efi32_boot_args, .long 0, 0, 0)
SYM_DATA(efi_is64, .byte 1)

#define ST32_boottime		60 // offsetof(efi_system_table_32_t, boottime)
#define BS32_handle_protocol	88 // offsetof(efi_boot_services_32_t, handle_protocol)
#define LI32_image_base		32 // offsetof(efi_loaded_image_32_t, image_base)

	.text
	.code32
SYM_FUNC_START(efi32_pe_entry)
/*
 * efi_status_t efi32_pe_entry(efi_handle_t image_handle,
 *			       efi_system_table_32_t *sys_table)
 */

	pushl	%ebp
	movl	%esp, %ebp
	pushl	%eax				// dummy push to allocate loaded_image

	pushl	%ebx				// save callee-save registers
	pushl	%edi

	call	verify_cpu			// check for long mode support
	testl	%eax, %eax
	movl	$0x80000003, %eax		// EFI_UNSUPPORTED
	jnz	2f

	call	1f
1:	pop	%ebx
	subl	$1b, %ebx

	/* Get the loaded image protocol pointer from the image handle */
	leal	-4(%ebp), %eax
	pushl	%eax				// &loaded_image
	leal	loaded_image_proto(%ebx), %eax
	pushl	%eax				// pass the GUID address
	pushl	8(%ebp)				// pass the image handle

	/*
	 * Note the alignment of the stack frame.
	 *   sys_table
	 *   handle             <-- 16-byte aligned on entry by ABI
	 *   return address
	 *   frame pointer
	 *   loaded_image       <-- local variable
	 *   saved %ebx		<-- 16-byte aligned here
	 *   saved %edi
	 *   &loaded_image
	 *   &loaded_image_proto
	 *   handle             <-- 16-byte aligned for call to handle_protocol
	 */

	movl	12(%ebp), %eax			// sys_table
	movl	ST32_boottime(%eax), %eax	// sys_table->boottime
	call	*BS32_handle_protocol(%eax)	// sys_table->boottime->handle_protocol
	addl	$12, %esp			// restore argument space
	testl	%eax, %eax
	jnz	2f

	movl	8(%ebp), %ecx			// image_handle
	movl	12(%ebp), %edx			// sys_table
	movl	-4(%ebp), %esi			// loaded_image
	movl	LI32_image_base(%esi), %esi	// loaded_image->image_base
	movl	%ebx, %ebp			// startup_32 for efi32_pe_stub_entry
	/*
	 * We need to set the image_offset variable here since startup_32() will
	 * use it before we get to the 64-bit efi_pe_entry() in C code.
	 */
	subl	%esi, %ebx
	movl	%ebx, image_offset(%ebp)	// save image_offset
	jmp	efi32_pe_stub_entry

2:	popl	%edi				// restore callee-save registers
	popl	%ebx
	leave
	ret
SYM_FUNC_END(efi32_pe_entry)

	.section ".rodata"
	/* EFI loaded image protocol GUID */
	.balign 4
SYM_DATA_START_LOCAL(loaded_image_proto)
	.long	0x5b1b31a1
	.word	0x9562, 0x11d2
	.byte	0x8e, 0x3f, 0x00, 0xa0, 0xc9, 0x69, 0x72, 0x3b
SYM_DATA_END(loaded_image_proto)
#endif

/*
 * Stack and heap for uncompression
 */
	.bss
	.balign 4
SYM_DATA_LOCAL(boot_heap,	.fill BOOT_HEAP_SIZE, 1, 0)

SYM_DATA_START_LOCAL(boot_stack)
	.fill BOOT_STACK_SIZE, 1, 0
SYM_DATA_END_LABEL(boot_stack, SYM_L_LOCAL, boot_stack_end)

/*
 * Space for page tables (not in .bss so not zeroed)
 */
	.section ".pgtable","aw",@nobits
	.balign 4096
SYM_DATA_LOCAL(pgtable,		.fill BOOT_PGT_SIZE, 1, 0)

/*
 * The page table is going to be used instead of page table in the trampoline
 * memory.
 */
SYM_DATA_LOCAL(top_pgtable,	.fill PAGE_SIZE, 1, 0)