arch/x86/realmode/rm/trampoline_64.S - arm/linux - Git at Google

 /*
  *
  *	Trampoline.S	Derived from Setup.S by Linus Torvalds
  *
  *	4 Jan 1997 Michael Chastain: changed to gnu as.
  *	15 Sept 2005 Eric Biederman: 64bit PIC support
  *
  *	Entry: CS:IP point to the start of our code, we are
  *	in real mode with no stack, but the rest of the
  *	trampoline page to make our stack and everything else
  *	is a mystery.
  *
  *	On entry to trampoline_start, the processor is in real mode
  *	with 16-bit addressing and 16-bit data.  CS has some value
  *	and IP is zero.  Thus, data addresses need to be absolute
  *	(no relocation) and are taken with regard to r_base.
  *
  *	With the addition of trampoline_level4_pgt this code can
  *	now enter a 64bit kernel that lives at arbitrary 64bit
  *	physical addresses.
  *
  *	If you work on this file, check the object module with objdump
  *	--full-contents --reloc to make sure there are no relocation
  *	entries.
  */

 #include <linux/linkage.h>
 #include <asm/pgtable_types.h>
 #include <asm/page_types.h>
 #include <asm/msr.h>
 #include <asm/segment.h>
 #include <asm/processor-flags.h>
 #include <asm/realmode.h>
 #include "realmode.h"

 	.text
 	.code16

 	.balign	PAGE_SIZE
 ENTRY(trampoline_start)
 	cli			# We should be safe anyway
 	wbinvd

 	LJMPW_RM(1f)
 1:
 	mov	%cs, %ax	# Code and data in the same place
 	mov	%ax, %ds
 	mov	%ax, %es
 	mov	%ax, %ss

 	movl	$0xA5A5A5A5, trampoline_status
 	# write marker for master knows we're running

 	# Setup stack
 	movl	$rm_stack_end, %esp

 	call	verify_cpu		# Verify the cpu supports long mode
 	testl   %eax, %eax		# Check for return code
 	jnz	no_longmode

 	/*
 	 * GDT tables in non default location kernel can be beyond 16MB and
 	 * lgdt will not be able to load the address as in real mode default
 	 * operand size is 16bit. Use lgdtl instead to force operand size
 	 * to 32 bit.
 	 */

 	lidtl	tr_idt	# load idt with 0, 0
 	lgdtl	tr_gdt	# load gdt with whatever is appropriate

 	movw	$__KERNEL_DS, %dx	# Data segment descriptor

 	# Enable protected mode
 	movl	$X86_CR0_PE, %eax	# protected mode (PE) bit
 	movl	%eax, %cr0		# into protected mode

 	# flush prefetch and jump to startup_32
 	ljmpl	$__KERNEL32_CS, $pa_startup_32

 no_longmode:
 	hlt
 	jmp no_longmode
 #include "../kernel/verify_cpu.S"

 	.section ".text32","ax"
 	.code32
 	.balign 4
 ENTRY(startup_32)
 	movl	%edx, %ss
 	addl	$pa_real_mode_base, %esp
 	movl	%edx, %ds
 	movl	%edx, %es
 	movl	%edx, %fs
 	movl	%edx, %gs

 	/*
 	 * Check for memory encryption support. This is a safety net in
 	 * case BIOS hasn't done the necessary step of setting the bit in
 	 * the MSR for this AP. If SME is active and we've gotten this far
 	 * then it is safe for us to set the MSR bit and continue. If we
 	 * don't we'll eventually crash trying to execute encrypted
 	 * instructions.
 	 */
 	bt	$TH_FLAGS_SME_ACTIVE_BIT, pa_tr_flags
 	jnc	.Ldone
 	movl	$MSR_K8_SYSCFG, %ecx
 	rdmsr
 	bts	$MSR_K8_SYSCFG_MEM_ENCRYPT_BIT, %eax
 	jc	.Ldone

 	/*
 	 * Memory encryption is enabled but the SME enable bit for this
 	 * CPU has has not been set.  It is safe to set it, so do so.
 	 */
 	wrmsr
 .Ldone:

 	movl	pa_tr_cr4, %eax
 	movl	%eax, %cr4		# Enable PAE mode

 	# Setup trampoline 4 level pagetables
 	movl	$pa_trampoline_pgd, %eax
 	movl	%eax, %cr3

 	# Set up EFER
 	movl	pa_tr_efer, %eax
 	movl	pa_tr_efer + 4, %edx
 	movl	$MSR_EFER, %ecx
 	wrmsr

 	# Enable paging and in turn activate Long Mode
 	movl	$(X86_CR0_PG | X86_CR0_WP | X86_CR0_PE), %eax
 	movl	%eax, %cr0

 	/*
 	 * At this point we're in long mode but in 32bit compatibility mode
 	 * with EFER.LME = 1, CS.L = 0, CS.D = 1 (and in turn
 	 * EFER.LMA = 1). Now we want to jump in 64bit mode, to do that we use
 	 * the new gdt/idt that has __KERNEL_CS with CS.L = 1.
 	 */
 	ljmpl	$__KERNEL_CS, $pa_startup_64

 	.section ".text64","ax"
 	.code64
 	.balign 4
 ENTRY(startup_64)
 	# Now jump into the kernel using virtual addresses
 	jmpq	*tr_start(%rip)

 	.section ".rodata","a"
 	# Duplicate the global descriptor table
 	# so the kernel can live anywhere
 	.balign	16
 	.globl tr_gdt
 tr_gdt:
 	.short	tr_gdt_end - tr_gdt - 1	# gdt limit
 	.long	pa_tr_gdt
 	.short	0
 	.quad	0x00cf9b000000ffff	# __KERNEL32_CS
 	.quad	0x00af9b000000ffff	# __KERNEL_CS
 	.quad	0x00cf93000000ffff	# __KERNEL_DS
 tr_gdt_end:

 	.bss
 	.balign	PAGE_SIZE
 GLOBAL(trampoline_pgd)		.space	PAGE_SIZE

 	.balign	8
 GLOBAL(trampoline_header)
 	tr_start:		.space	8
 	GLOBAL(tr_efer)		.space	8
 	GLOBAL(tr_cr4)		.space	4
 	GLOBAL(tr_flags)	.space	4
 END(trampoline_header)

 #include "trampoline_common.S"
	/*
	*
	* Trampoline.S Derived from Setup.S by Linus Torvalds
	*
	* 4 Jan 1997 Michael Chastain: changed to gnu as.
	* 15 Sept 2005 Eric Biederman: 64bit PIC support
	*
	* Entry: CS:IP point to the start of our code, we are
	* in real mode with no stack, but the rest of the
	* trampoline page to make our stack and everything else
	* is a mystery.
	*
	* On entry to trampoline_start, the processor is in real mode
	* with 16-bit addressing and 16-bit data. CS has some value
	* and IP is zero. Thus, data addresses need to be absolute
	* (no relocation) and are taken with regard to r_base.
	*
	* With the addition of trampoline_level4_pgt this code can
	* now enter a 64bit kernel that lives at arbitrary 64bit
	* physical addresses.
	*
	* If you work on this file, check the object module with objdump
	* --full-contents --reloc to make sure there are no relocation
	* entries.
	*/

	#include <linux/linkage.h>
	#include <asm/pgtable_types.h>
	#include <asm/page_types.h>
	#include <asm/msr.h>
	#include <asm/segment.h>
	#include <asm/processor-flags.h>
	#include <asm/realmode.h>
	#include "realmode.h"

	.text
	.code16

	.balign PAGE_SIZE
	ENTRY(trampoline_start)
	cli # We should be safe anyway
	wbinvd

	LJMPW_RM(1f)
	1:
	mov %cs, %ax # Code and data in the same place
	mov %ax, %ds
	mov %ax, %es
	mov %ax, %ss

	movl $0xA5A5A5A5, trampoline_status
	# write marker for master knows we're running

	# Setup stack
	movl $rm_stack_end, %esp

	call verify_cpu # Verify the cpu supports long mode
	testl %eax, %eax # Check for return code
	jnz no_longmode

	/*
	* GDT tables in non default location kernel can be beyond 16MB and
	* lgdt will not be able to load the address as in real mode default
	* operand size is 16bit. Use lgdtl instead to force operand size
	* to 32 bit.
	*/

	lidtl tr_idt # load idt with 0, 0
	lgdtl tr_gdt # load gdt with whatever is appropriate

	movw $__KERNEL_DS, %dx # Data segment descriptor

	# Enable protected mode
	movl $X86_CR0_PE, %eax # protected mode (PE) bit
	movl %eax, %cr0 # into protected mode

	# flush prefetch and jump to startup_32
	ljmpl $__KERNEL32_CS, $pa_startup_32

	no_longmode:
	hlt
	jmp no_longmode
	#include "../kernel/verify_cpu.S"

	.section ".text32","ax"
	.code32
	.balign 4
	ENTRY(startup_32)
	movl %edx, %ss
	addl $pa_real_mode_base, %esp
	movl %edx, %ds
	movl %edx, %es
	movl %edx, %fs
	movl %edx, %gs

	/*
	* Check for memory encryption support. This is a safety net in
	* case BIOS hasn't done the necessary step of setting the bit in
	* the MSR for this AP. If SME is active and we've gotten this far
	* then it is safe for us to set the MSR bit and continue. If we
	* don't we'll eventually crash trying to execute encrypted
	* instructions.
	*/
	bt $TH_FLAGS_SME_ACTIVE_BIT, pa_tr_flags
	jnc .Ldone
	movl $MSR_K8_SYSCFG, %ecx
	rdmsr
	bts $MSR_K8_SYSCFG_MEM_ENCRYPT_BIT, %eax
	jc .Ldone

	/*
	* Memory encryption is enabled but the SME enable bit for this
	* CPU has has not been set. It is safe to set it, so do so.
	*/
	wrmsr
	.Ldone:

	movl pa_tr_cr4, %eax
	movl %eax, %cr4 # Enable PAE mode

	# Setup trampoline 4 level pagetables
	movl $pa_trampoline_pgd, %eax
	movl %eax, %cr3

	# Set up EFER
	movl pa_tr_efer, %eax
	movl pa_tr_efer + 4, %edx
	movl $MSR_EFER, %ecx
	wrmsr

	# Enable paging and in turn activate Long Mode
	movl $(X86_CR0_PG \| X86_CR0_WP \| X86_CR0_PE), %eax
	movl %eax, %cr0

	/*
	* At this point we're in long mode but in 32bit compatibility mode
	* with EFER.LME = 1, CS.L = 0, CS.D = 1 (and in turn
	* EFER.LMA = 1). Now we want to jump in 64bit mode, to do that we use
	* the new gdt/idt that has __KERNEL_CS with CS.L = 1.
	*/
	ljmpl $__KERNEL_CS, $pa_startup_64

	.section ".text64","ax"
	.code64
	.balign 4
	ENTRY(startup_64)
	# Now jump into the kernel using virtual addresses
	jmpq *tr_start(%rip)

	.section ".rodata","a"
	# Duplicate the global descriptor table
	# so the kernel can live anywhere
	.balign 16
	.globl tr_gdt
	tr_gdt:
	.short tr_gdt_end - tr_gdt - 1 # gdt limit
	.long pa_tr_gdt
	.short 0
	.quad 0x00cf9b000000ffff # __KERNEL32_CS
	.quad 0x00af9b000000ffff # __KERNEL_CS
	.quad 0x00cf93000000ffff # __KERNEL_DS
	tr_gdt_end:

	.bss
	.balign PAGE_SIZE
	GLOBAL(trampoline_pgd) .space PAGE_SIZE

	.balign 8
	GLOBAL(trampoline_header)
	tr_start: .space 8
	GLOBAL(tr_efer) .space 8
	GLOBAL(tr_cr4) .space 4
	GLOBAL(tr_flags) .space 4
	END(trampoline_header)

	#include "trampoline_common.S"