entry-armv.S 24.5 KB
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/*
 *  linux/arch/arm/kernel/entry-armv.S
 *
 *  Copyright (C) 1996,1997,1998 Russell King.
 *  ARM700 fix by Matthew Godbolt (linux-user@willothewisp.demon.co.uk)
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 *  nommu support by Hyok S. Choi (hyok.choi@samsung.com)
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 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 as
 * published by the Free Software Foundation.
 *
 *  Low-level vector interface routines
 *
 *  Note:  there is a StrongARM bug in the STMIA rn, {regs}^ instruction that causes
 *  it to save wrong values...  Be aware!
 */

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#include <asm/memory.h>
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#include <asm/glue.h>
#include <asm/vfpmacros.h>
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#include <asm/arch/entry-macro.S>
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#include <asm/thread_notify.h>
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#include "entry-header.S"

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/*
 * Interrupt handling.  Preserves r7, r8, r9
 */
	.macro	irq_handler
1:	get_irqnr_and_base r0, r6, r5, lr
	movne	r1, sp
	@
	@ routine called with r0 = irq number, r1 = struct pt_regs *
	@
	adrne	lr, 1b
	bne	asm_do_IRQ
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#ifdef CONFIG_SMP
	/*
	 * XXX
	 *
	 * this macro assumes that irqstat (r6) and base (r5) are
	 * preserved from get_irqnr_and_base above
	 */
	test_for_ipi r0, r6, r5, lr
	movne	r0, sp
	adrne	lr, 1b
	bne	do_IPI
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#ifdef CONFIG_LOCAL_TIMERS
	test_for_ltirq r0, r6, r5, lr
	movne	r0, sp
	adrne	lr, 1b
	bne	do_local_timer
#endif
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#endif

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	.endm

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/*
 * Invalid mode handlers
 */
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	.macro	inv_entry, reason
	sub	sp, sp, #S_FRAME_SIZE
	stmib	sp, {r1 - lr}
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	mov	r1, #\reason
	.endm

__pabt_invalid:
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	inv_entry BAD_PREFETCH
	b	common_invalid
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__dabt_invalid:
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	inv_entry BAD_DATA
	b	common_invalid
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__irq_invalid:
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	inv_entry BAD_IRQ
	b	common_invalid
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__und_invalid:
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	inv_entry BAD_UNDEFINSTR

	@
	@ XXX fall through to common_invalid
	@

@
@ common_invalid - generic code for failed exception (re-entrant version of handlers)
@
common_invalid:
	zero_fp

	ldmia	r0, {r4 - r6}
	add	r0, sp, #S_PC		@ here for interlock avoidance
	mov	r7, #-1			@  ""   ""    ""        ""
	str	r4, [sp]		@ save preserved r0
	stmia	r0, {r5 - r7}		@ lr_<exception>,
					@ cpsr_<exception>, "old_r0"
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	mov	r0, sp
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	and	r2, r6, #0x1f
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	b	bad_mode

/*
 * SVC mode handlers
 */
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#if defined(CONFIG_AEABI) && (__LINUX_ARM_ARCH__ >= 5)
#define SPFIX(code...) code
#else
#define SPFIX(code...)
#endif

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	.macro	svc_entry
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	sub	sp, sp, #S_FRAME_SIZE
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 SPFIX(	tst	sp, #4		)
 SPFIX(	bicne	sp, sp, #4	)
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	stmib	sp, {r1 - r12}

	ldmia	r0, {r1 - r3}
	add	r5, sp, #S_SP		@ here for interlock avoidance
	mov	r4, #-1			@  ""  ""      ""       ""
	add	r0, sp, #S_FRAME_SIZE   @  ""  ""      ""       ""
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 SPFIX(	addne	r0, r0, #4	)
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	str	r1, [sp]		@ save the "real" r0 copied
					@ from the exception stack

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	mov	r1, lr

	@
	@ We are now ready to fill in the remaining blanks on the stack:
	@
	@  r0 - sp_svc
	@  r1 - lr_svc
	@  r2 - lr_<exception>, already fixed up for correct return/restart
	@  r3 - spsr_<exception>
	@  r4 - orig_r0 (see pt_regs definition in ptrace.h)
	@
	stmia	r5, {r0 - r4}
	.endm

	.align	5
__dabt_svc:
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	svc_entry
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	@
	@ get ready to re-enable interrupts if appropriate
	@
	mrs	r9, cpsr
	tst	r3, #PSR_I_BIT
	biceq	r9, r9, #PSR_I_BIT

	@
	@ Call the processor-specific abort handler:
	@
	@  r2 - aborted context pc
	@  r3 - aborted context cpsr
	@
	@ The abort handler must return the aborted address in r0, and
	@ the fault status register in r1.  r9 must be preserved.
	@
#ifdef MULTI_ABORT
	ldr	r4, .LCprocfns
	mov	lr, pc
	ldr	pc, [r4]
#else
	bl	CPU_ABORT_HANDLER
#endif

	@
	@ set desired IRQ state, then call main handler
	@
	msr	cpsr_c, r9
	mov	r2, sp
	bl	do_DataAbort

	@
	@ IRQs off again before pulling preserved data off the stack
	@
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	disable_irq
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	@
	@ restore SPSR and restart the instruction
	@
	ldr	r0, [sp, #S_PSR]
	msr	spsr_cxsf, r0
	ldmia	sp, {r0 - pc}^			@ load r0 - pc, cpsr

	.align	5
__irq_svc:
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	svc_entry

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#ifdef CONFIG_PREEMPT
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	get_thread_info tsk
	ldr	r8, [tsk, #TI_PREEMPT]		@ get preempt count
	add	r7, r8, #1			@ increment it
	str	r7, [tsk, #TI_PREEMPT]
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#endif
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	irq_handler
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#ifdef CONFIG_PREEMPT
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	ldr	r0, [tsk, #TI_FLAGS]		@ get flags
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	tst	r0, #_TIF_NEED_RESCHED
	blne	svc_preempt
preempt_return:
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	ldr	r0, [tsk, #TI_PREEMPT]		@ read preempt value
	str	r8, [tsk, #TI_PREEMPT]		@ restore preempt count
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	teq	r0, r7
	strne	r0, [r0, -r0]			@ bug()
#endif
	ldr	r0, [sp, #S_PSR]		@ irqs are already disabled
	msr	spsr_cxsf, r0
	ldmia	sp, {r0 - pc}^			@ load r0 - pc, cpsr

	.ltorg

#ifdef CONFIG_PREEMPT
svc_preempt:
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	teq	r8, #0				@ was preempt count = 0
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	ldreq	r6, .LCirq_stat
	movne	pc, lr				@ no
	ldr	r0, [r6, #4]			@ local_irq_count
	ldr	r1, [r6, #8]			@ local_bh_count
	adds	r0, r0, r1
	movne	pc, lr
	mov	r7, #0				@ preempt_schedule_irq
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	str	r7, [tsk, #TI_PREEMPT]		@ expects preempt_count == 0
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1:	bl	preempt_schedule_irq		@ irq en/disable is done inside
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	ldr	r0, [tsk, #TI_FLAGS]		@ get new tasks TI_FLAGS
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	tst	r0, #_TIF_NEED_RESCHED
	beq	preempt_return			@ go again
	b	1b
#endif

	.align	5
__und_svc:
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	svc_entry
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	@
	@ call emulation code, which returns using r9 if it has emulated
	@ the instruction, or the more conventional lr if we are to treat
	@ this as a real undefined instruction
	@
	@  r0 - instruction
	@
	ldr	r0, [r2, #-4]
	adr	r9, 1f
	bl	call_fpe

	mov	r0, sp				@ struct pt_regs *regs
	bl	do_undefinstr

	@
	@ IRQs off again before pulling preserved data off the stack
	@
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1:	disable_irq
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	@
	@ restore SPSR and restart the instruction
	@
	ldr	lr, [sp, #S_PSR]		@ Get SVC cpsr
	msr	spsr_cxsf, lr
	ldmia	sp, {r0 - pc}^			@ Restore SVC registers

	.align	5
__pabt_svc:
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	svc_entry
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	@
	@ re-enable interrupts if appropriate
	@
	mrs	r9, cpsr
	tst	r3, #PSR_I_BIT
	biceq	r9, r9, #PSR_I_BIT
	msr	cpsr_c, r9

	@
	@ set args, then call main handler
	@
	@  r0 - address of faulting instruction
	@  r1 - pointer to registers on stack
	@
	mov	r0, r2				@ address (pc)
	mov	r1, sp				@ regs
	bl	do_PrefetchAbort		@ call abort handler

	@
	@ IRQs off again before pulling preserved data off the stack
	@
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	disable_irq
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	@
	@ restore SPSR and restart the instruction
	@
	ldr	r0, [sp, #S_PSR]
	msr	spsr_cxsf, r0
	ldmia	sp, {r0 - pc}^			@ load r0 - pc, cpsr

	.align	5
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.LCcralign:
	.word	cr_alignment
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#ifdef MULTI_ABORT
.LCprocfns:
	.word	processor
#endif
.LCfp:
	.word	fp_enter
#ifdef CONFIG_PREEMPT
.LCirq_stat:
	.word	irq_stat
#endif

/*
 * User mode handlers
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 *
 * EABI note: sp_svc is always 64-bit aligned here, so should S_FRAME_SIZE
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 */
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#if defined(CONFIG_AEABI) && (__LINUX_ARM_ARCH__ >= 5) && (S_FRAME_SIZE & 7)
#error "sizeof(struct pt_regs) must be a multiple of 8"
#endif

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	.macro	usr_entry
	sub	sp, sp, #S_FRAME_SIZE
	stmib	sp, {r1 - r12}

	ldmia	r0, {r1 - r3}
	add	r0, sp, #S_PC		@ here for interlock avoidance
	mov	r4, #-1			@  ""  ""     ""        ""

	str	r1, [sp]		@ save the "real" r0 copied
					@ from the exception stack
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#if __LINUX_ARM_ARCH__ < 6 && !defined(CONFIG_NEEDS_SYSCALL_FOR_CMPXCHG)
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#ifndef CONFIG_MMU
#warning "NPTL on non MMU needs fixing"
#else
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	@ make sure our user space atomic helper is aborted
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	cmp	r2, #TASK_SIZE
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	bichs	r3, r3, #PSR_Z_BIT
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#endif
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#endif

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	@
	@ We are now ready to fill in the remaining blanks on the stack:
	@
	@  r2 - lr_<exception>, already fixed up for correct return/restart
	@  r3 - spsr_<exception>
	@  r4 - orig_r0 (see pt_regs definition in ptrace.h)
	@
	@ Also, separately save sp_usr and lr_usr
	@
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	stmia	r0, {r2 - r4}
	stmdb	r0, {sp, lr}^
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	@
	@ Enable the alignment trap while in kernel mode
	@
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	alignment_trap r0
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	@
	@ Clear FP to mark the first stack frame
	@
	zero_fp
	.endm

	.align	5
__dabt_usr:
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	usr_entry
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	@
	@ Call the processor-specific abort handler:
	@
	@  r2 - aborted context pc
	@  r3 - aborted context cpsr
	@
	@ The abort handler must return the aborted address in r0, and
	@ the fault status register in r1.
	@
#ifdef MULTI_ABORT
	ldr	r4, .LCprocfns
	mov	lr, pc
	ldr	pc, [r4]
#else
	bl	CPU_ABORT_HANDLER
#endif

	@
	@ IRQs on, then call the main handler
	@
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	enable_irq
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	mov	r2, sp
	adr	lr, ret_from_exception
	b	do_DataAbort

	.align	5
__irq_usr:
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	usr_entry
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	get_thread_info tsk
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#ifdef CONFIG_PREEMPT
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	ldr	r8, [tsk, #TI_PREEMPT]		@ get preempt count
	add	r7, r8, #1			@ increment it
	str	r7, [tsk, #TI_PREEMPT]
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#endif
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	irq_handler
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#ifdef CONFIG_PREEMPT
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	ldr	r0, [tsk, #TI_PREEMPT]
	str	r8, [tsk, #TI_PREEMPT]
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	teq	r0, r7
	strne	r0, [r0, -r0]
#endif
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	mov	why, #0
	b	ret_to_user

	.ltorg

	.align	5
__und_usr:
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	usr_entry
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	tst	r3, #PSR_T_BIT			@ Thumb mode?
	bne	fpundefinstr			@ ignore FP
	sub	r4, r2, #4

	@
	@ fall through to the emulation code, which returns using r9 if
	@ it has emulated the instruction, or the more conventional lr
	@ if we are to treat this as a real undefined instruction
	@
	@  r0 - instruction
	@
1:	ldrt	r0, [r4]
	adr	r9, ret_from_exception
	adr	lr, fpundefinstr
	@
	@ fallthrough to call_fpe
	@

/*
 * The out of line fixup for the ldrt above.
 */
	.section .fixup, "ax"
2:	mov	pc, r9
	.previous
	.section __ex_table,"a"
	.long	1b, 2b
	.previous

/*
 * Check whether the instruction is a co-processor instruction.
 * If yes, we need to call the relevant co-processor handler.
 *
 * Note that we don't do a full check here for the co-processor
 * instructions; all instructions with bit 27 set are well
 * defined.  The only instructions that should fault are the
 * co-processor instructions.  However, we have to watch out
 * for the ARM6/ARM7 SWI bug.
 *
 * Emulators may wish to make use of the following registers:
 *  r0  = instruction opcode.
 *  r2  = PC+4
 *  r10 = this threads thread_info structure.
 */
call_fpe:
	tst	r0, #0x08000000			@ only CDP/CPRT/LDC/STC have bit 27
#if defined(CONFIG_CPU_ARM610) || defined(CONFIG_CPU_ARM710)
	and	r8, r0, #0x0f000000		@ mask out op-code bits
	teqne	r8, #0x0f000000			@ SWI (ARM6/7 bug)?
#endif
	moveq	pc, lr
	get_thread_info r10			@ get current thread
	and	r8, r0, #0x00000f00		@ mask out CP number
	mov	r7, #1
	add	r6, r10, #TI_USED_CP
	strb	r7, [r6, r8, lsr #8]		@ set appropriate used_cp[]
#ifdef CONFIG_IWMMXT
	@ Test if we need to give access to iWMMXt coprocessors
	ldr	r5, [r10, #TI_FLAGS]
	rsbs	r7, r8, #(1 << 8)		@ CP 0 or 1 only
	movcss	r7, r5, lsr #(TIF_USING_IWMMXT + 1)
	bcs	iwmmxt_task_enable
#endif
	add	pc, pc, r8, lsr #6
	mov	r0, r0

	mov	pc, lr				@ CP#0
	b	do_fpe				@ CP#1 (FPE)
	b	do_fpe				@ CP#2 (FPE)
	mov	pc, lr				@ CP#3
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#ifdef CONFIG_CRUNCH
	b	crunch_task_enable		@ CP#4 (MaverickCrunch)
	b	crunch_task_enable		@ CP#5 (MaverickCrunch)
	b	crunch_task_enable		@ CP#6 (MaverickCrunch)
#else
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	mov	pc, lr				@ CP#4
	mov	pc, lr				@ CP#5
	mov	pc, lr				@ CP#6
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#endif
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	mov	pc, lr				@ CP#7
	mov	pc, lr				@ CP#8
	mov	pc, lr				@ CP#9
#ifdef CONFIG_VFP
	b	do_vfp				@ CP#10 (VFP)
	b	do_vfp				@ CP#11 (VFP)
#else
	mov	pc, lr				@ CP#10 (VFP)
	mov	pc, lr				@ CP#11 (VFP)
#endif
	mov	pc, lr				@ CP#12
	mov	pc, lr				@ CP#13
	mov	pc, lr				@ CP#14 (Debug)
	mov	pc, lr				@ CP#15 (Control)

do_fpe:
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	enable_irq
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	ldr	r4, .LCfp
	add	r10, r10, #TI_FPSTATE		@ r10 = workspace
	ldr	pc, [r4]			@ Call FP module USR entry point

/*
 * The FP module is called with these registers set:
 *  r0  = instruction
 *  r2  = PC+4
 *  r9  = normal "successful" return address
 *  r10 = FP workspace
 *  lr  = unrecognised FP instruction return address
 */

	.data
ENTRY(fp_enter)
	.word	fpundefinstr
	.text

fpundefinstr:
	mov	r0, sp
	adr	lr, ret_from_exception
	b	do_undefinstr

	.align	5
__pabt_usr:
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	usr_entry
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	enable_irq				@ Enable interrupts
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	mov	r0, r2				@ address (pc)
	mov	r1, sp				@ regs
	bl	do_PrefetchAbort		@ call abort handler
	/* fall through */
/*
 * This is the return code to user mode for abort handlers
 */
ENTRY(ret_from_exception)
	get_thread_info tsk
	mov	why, #0
	b	ret_to_user

/*
 * Register switch for ARMv3 and ARMv4 processors
 * r0 = previous task_struct, r1 = previous thread_info, r2 = next thread_info
 * previous and next are guaranteed not to be the same.
 */
ENTRY(__switch_to)
	add	ip, r1, #TI_CPU_SAVE
	ldr	r3, [r2, #TI_TP_VALUE]
	stmia	ip!, {r4 - sl, fp, sp, lr}	@ Store most regs on stack
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#ifdef CONFIG_MMU
	ldr	r6, [r2, #TI_CPU_DOMAIN]
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#endif
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#if __LINUX_ARM_ARCH__ >= 6
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#ifdef CONFIG_CPU_32v6K
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	clrex
#else
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	strex	r5, r4, [ip]			@ Clear exclusive monitor
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#endif
#endif
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#if defined(CONFIG_CPU_XSCALE) && !defined(CONFIG_IWMMXT)
	mra	r4, r5, acc0
	stmia   ip, {r4, r5}
#endif
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#if defined(CONFIG_HAS_TLS_REG)
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	mcr	p15, 0, r3, c13, c0, 3		@ set TLS register
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#elif !defined(CONFIG_TLS_REG_EMUL)
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	mov	r4, #0xffff0fff
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	str	r3, [r4, #-15]			@ TLS val at 0xffff0ff0
#endif
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#ifdef CONFIG_MMU
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	mcr	p15, 0, r6, c3, c0, 0		@ Set domain register
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#endif
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#if defined(CONFIG_CPU_XSCALE) && !defined(CONFIG_IWMMXT)
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	add	r4, r2, #TI_CPU_DOMAIN + 40	@ cpu_context_save->extra
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	ldmib	r4, {r4, r5}
	mar	acc0, r4, r5
#endif
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	mov	r5, r0
	add	r4, r2, #TI_CPU_SAVE
	ldr	r0, =thread_notify_head
	mov	r1, #THREAD_NOTIFY_SWITCH
	bl	atomic_notifier_call_chain
	mov	r0, r5
	ldmia	r4, {r4 - sl, fp, sp, pc}	@ Load all regs saved previously
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	__INIT
606 607 608 609 610 611 612 613 614 615 616 617 618 619 620 621 622 623 624 625 626 627 628 629 630 631 632 633 634 635 636

/*
 * User helpers.
 *
 * These are segment of kernel provided user code reachable from user space
 * at a fixed address in kernel memory.  This is used to provide user space
 * with some operations which require kernel help because of unimplemented
 * native feature and/or instructions in many ARM CPUs. The idea is for
 * this code to be executed directly in user mode for best efficiency but
 * which is too intimate with the kernel counter part to be left to user
 * libraries.  In fact this code might even differ from one CPU to another
 * depending on the available  instruction set and restrictions like on
 * SMP systems.  In other words, the kernel reserves the right to change
 * this code as needed without warning. Only the entry points and their
 * results are guaranteed to be stable.
 *
 * Each segment is 32-byte aligned and will be moved to the top of the high
 * vector page.  New segments (if ever needed) must be added in front of
 * existing ones.  This mechanism should be used only for things that are
 * really small and justified, and not be abused freely.
 *
 * User space is expected to implement those things inline when optimizing
 * for a processor that has the necessary native support, but only if such
 * resulting binaries are already to be incompatible with earlier ARM
 * processors due to the use of unsupported instructions other than what
 * is provided here.  In other words don't make binaries unable to run on
 * earlier processors just for the sake of not using these kernel helpers
 * if your compiled code is not going to use the new instructions for other
 * purpose.
 */

637 638 639 640 641 642 643 644
	.macro	usr_ret, reg
#ifdef CONFIG_ARM_THUMB
	bx	\reg
#else
	mov	pc, \reg
#endif
	.endm

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	.align	5
	.globl	__kuser_helper_start
__kuser_helper_start:

649 650 651 652 653 654 655 656 657 658 659 660 661 662 663 664 665 666 667 668 669 670 671 672 673 674 675 676 677
/*
 * Reference prototype:
 *
 *	void __kernel_memory_barrier(void)
 *
 * Input:
 *
 *	lr = return address
 *
 * Output:
 *
 *	none
 *
 * Clobbered:
 *
 *	the Z flag might be lost
 *
 * Definition and user space usage example:
 *
 *	typedef void (__kernel_dmb_t)(void);
 *	#define __kernel_dmb (*(__kernel_dmb_t *)0xffff0fa0)
 *
 * Apply any needed memory barrier to preserve consistency with data modified
 * manually and __kuser_cmpxchg usage.
 *
 * This could be used as follows:
 *
 * #define __kernel_dmb() \
 *         asm volatile ( "mov r0, #0xffff0fff; mov lr, pc; sub pc, r0, #95" \
678
 *	        : : : "r0", "lr","cc" )
679 680 681 682 683 684 685
 */

__kuser_memory_barrier:				@ 0xffff0fa0

#if __LINUX_ARM_ARCH__ >= 6 && defined(CONFIG_SMP)
	mcr	p15, 0, r0, c7, c10, 5	@ dmb
#endif
686
	usr_ret	lr
687 688 689

	.align	5

690 691 692 693 694 695 696 697 698 699 700 701 702 703 704 705 706 707 708 709 710 711 712 713 714 715 716 717 718 719 720
/*
 * Reference prototype:
 *
 *	int __kernel_cmpxchg(int oldval, int newval, int *ptr)
 *
 * Input:
 *
 *	r0 = oldval
 *	r1 = newval
 *	r2 = ptr
 *	lr = return address
 *
 * Output:
 *
 *	r0 = returned value (zero or non-zero)
 *	C flag = set if r0 == 0, clear if r0 != 0
 *
 * Clobbered:
 *
 *	r3, ip, flags
 *
 * Definition and user space usage example:
 *
 *	typedef int (__kernel_cmpxchg_t)(int oldval, int newval, int *ptr);
 *	#define __kernel_cmpxchg (*(__kernel_cmpxchg_t *)0xffff0fc0)
 *
 * Atomically store newval in *ptr if *ptr is equal to oldval for user space.
 * Return zero if *ptr was changed or non-zero if no exchange happened.
 * The C flag is also set if *ptr was changed to allow for assembly
 * optimization in the calling code.
 *
721 722 723 724 725 726
 * Notes:
 *
 *    - This routine already includes memory barriers as needed.
 *
 *    - A failure might be transient, i.e. it is possible, although unlikely,
 *      that "failure" be returned even if *ptr == oldval.
727
 *
728 729 730 731 732 733 734 735 736 737 738 739 740 741 742 743 744 745 746 747 748
 * For example, a user space atomic_add implementation could look like this:
 *
 * #define atomic_add(ptr, val) \
 *	({ register unsigned int *__ptr asm("r2") = (ptr); \
 *	   register unsigned int __result asm("r1"); \
 *	   asm volatile ( \
 *	       "1: @ atomic_add\n\t" \
 *	       "ldr	r0, [r2]\n\t" \
 *	       "mov	r3, #0xffff0fff\n\t" \
 *	       "add	lr, pc, #4\n\t" \
 *	       "add	r1, r0, %2\n\t" \
 *	       "add	pc, r3, #(0xffff0fc0 - 0xffff0fff)\n\t" \
 *	       "bcc	1b" \
 *	       : "=&r" (__result) \
 *	       : "r" (__ptr), "rIL" (val) \
 *	       : "r0","r3","ip","lr","cc","memory" ); \
 *	   __result; })
 */

__kuser_cmpxchg:				@ 0xffff0fc0

749
#if defined(CONFIG_NEEDS_SYSCALL_FOR_CMPXCHG)
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	/*
	 * Poor you.  No fast solution possible...
	 * The kernel itself must perform the operation.
	 * A special ghost syscall is used for that (see traps.c).
	 */
756 757 758
	stmfd	sp!, {r7, lr}
	mov	r7, #0xff00		@ 0xfff0 into r7 for EABI
	orr	r7, r7, #0xf0
759
	swi	#0x9ffff0
760
	ldmfd	sp!, {r7, pc}
761 762

#elif __LINUX_ARM_ARCH__ < 6
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	/*
	 * Theory of operation:
	 *
	 * We set the Z flag before loading oldval. If ever an exception
	 * occurs we can not be sure the loaded value will still be the same
	 * when the exception returns, therefore the user exception handler
	 * will clear the Z flag whenever the interrupted user code was
	 * actually from the kernel address space (see the usr_entry macro).
	 *
	 * The post-increment on the str is used to prevent a race with an
	 * exception happening just after the str instruction which would
	 * clear the Z flag although the exchange was done.
	 */
777
#ifdef CONFIG_MMU
778 779 780 781 782 783
	teq	ip, ip			@ set Z flag
	ldr	ip, [r2]		@ load current val
	add	r3, r2, #1		@ prepare store ptr
	teqeq	ip, r0			@ compare with oldval if still allowed
	streq	r1, [r3, #-1]!		@ store newval if still allowed
	subs	r0, r2, r3		@ if r2 == r3 the str occured
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#else
#warning "NPTL on non MMU needs fixing"
	mov	r0, #-1
	adds	r0, r0, #0
#endif
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	usr_ret	lr
790 791 792

#else

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#ifdef CONFIG_SMP
	mcr	p15, 0, r0, c7, c10, 5	@ dmb
#endif
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	ldrex	r3, [r2]
	subs	r3, r3, r0
	strexeq	r3, r1, [r2]
	rsbs	r0, r3, #0
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#ifdef CONFIG_SMP
	mcr	p15, 0, r0, c7, c10, 5	@ dmb
#endif
803
	usr_ret	lr
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#endif

	.align	5

/*
 * Reference prototype:
 *
 *	int __kernel_get_tls(void)
 *
 * Input:
 *
 *	lr = return address
 *
 * Output:
 *
 *	r0 = TLS value
 *
 * Clobbered:
 *
 *	the Z flag might be lost
 *
 * Definition and user space usage example:
 *
 *	typedef int (__kernel_get_tls_t)(void);
 *	#define __kernel_get_tls (*(__kernel_get_tls_t *)0xffff0fe0)
 *
 * Get the TLS value as previously set via the __ARM_NR_set_tls syscall.
 *
 * This could be used as follows:
 *
 * #define __kernel_get_tls() \
 *	({ register unsigned int __val asm("r0"); \
 *         asm( "mov r0, #0xffff0fff; mov lr, pc; sub pc, r0, #31" \
 *	        : "=r" (__val) : : "lr","cc" ); \
 *	   __val; })
 */

__kuser_get_tls:				@ 0xffff0fe0

844
#if !defined(CONFIG_HAS_TLS_REG) && !defined(CONFIG_TLS_REG_EMUL)
845 846 847 848
	ldr	r0, [pc, #(16 - 8)]		@ TLS stored at 0xffff0ff0
#else
	mrc	p15, 0, r0, c13, c0, 3		@ read TLS register
#endif
849
	usr_ret	lr
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	.rep	5
	.word	0			@ pad up to __kuser_helper_version
	.endr

/*
 * Reference declaration:
 *
 *	extern unsigned int __kernel_helper_version;
 *
 * Definition and user space usage example:
 *
 *	#define __kernel_helper_version (*(unsigned int *)0xffff0ffc)
 *
 * User space may read this to determine the curent number of helpers
 * available.
 */

__kuser_helper_version:				@ 0xffff0ffc
	.word	((__kuser_helper_end - __kuser_helper_start) >> 5)

	.globl	__kuser_helper_end
__kuser_helper_end:


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/*
 * Vector stubs.
 *
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 * This code is copied to 0xffff0200 so we can use branches in the
 * vectors, rather than ldr's.  Note that this code must not
 * exceed 0x300 bytes.
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 *
 * Common stub entry macro:
 *   Enter in IRQ mode, spsr = SVC/USR CPSR, lr = SVC/USR PC
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 *
 * SP points to a minimal amount of processor-private memory, the address
 * of which is copied into r0 for the mode specific abort handler.
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 */
888
	.macro	vector_stub, name, mode, correction=0
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	.align	5

vector_\name:
	.if \correction
	sub	lr, lr, #\correction
	.endif
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	@
	@ Save r0, lr_<exception> (parent PC) and spsr_<exception>
	@ (parent CPSR)
	@
	stmia	sp, {r0, lr}		@ save r0, lr
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	mrs	lr, spsr
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	str	lr, [sp, #8]		@ save spsr

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	@
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	@ Prepare for SVC32 mode.  IRQs remain disabled.
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	@
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	mrs	r0, cpsr
908
	eor	r0, r0, #(\mode ^ SVC_MODE)
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	msr	spsr_cxsf, r0
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	@
	@ the branch table must immediately follow this code
	@
	and	lr, lr, #0x0f
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	mov	r0, sp
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	ldr	lr, [pc, lr, lsl #2]
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	movs	pc, lr			@ branch to handler in SVC mode
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	.endm

920
	.globl	__stubs_start
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__stubs_start:
/*
 * Interrupt dispatcher
 */
925
	vector_stub	irq, IRQ_MODE, 4
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	.long	__irq_usr			@  0  (USR_26 / USR_32)
	.long	__irq_invalid			@  1  (FIQ_26 / FIQ_32)
	.long	__irq_invalid			@  2  (IRQ_26 / IRQ_32)
	.long	__irq_svc			@  3  (SVC_26 / SVC_32)
	.long	__irq_invalid			@  4
	.long	__irq_invalid			@  5
	.long	__irq_invalid			@  6
	.long	__irq_invalid			@  7
	.long	__irq_invalid			@  8
	.long	__irq_invalid			@  9
	.long	__irq_invalid			@  a
	.long	__irq_invalid			@  b
	.long	__irq_invalid			@  c
	.long	__irq_invalid			@  d
	.long	__irq_invalid			@  e
	.long	__irq_invalid			@  f

/*
 * Data abort dispatcher
 * Enter in ABT mode, spsr = USR CPSR, lr = USR PC
 */
948
	vector_stub	dabt, ABT_MODE, 8
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	.long	__dabt_usr			@  0  (USR_26 / USR_32)
	.long	__dabt_invalid			@  1  (FIQ_26 / FIQ_32)
	.long	__dabt_invalid			@  2  (IRQ_26 / IRQ_32)
	.long	__dabt_svc			@  3  (SVC_26 / SVC_32)
	.long	__dabt_invalid			@  4
	.long	__dabt_invalid			@  5
	.long	__dabt_invalid			@  6
	.long	__dabt_invalid			@  7
	.long	__dabt_invalid			@  8
	.long	__dabt_invalid			@  9
	.long	__dabt_invalid			@  a
	.long	__dabt_invalid			@  b
	.long	__dabt_invalid			@  c
	.long	__dabt_invalid			@  d
	.long	__dabt_invalid			@  e
	.long	__dabt_invalid			@  f

/*
 * Prefetch abort dispatcher
 * Enter in ABT mode, spsr = USR CPSR, lr = USR PC
 */
971
	vector_stub	pabt, ABT_MODE, 4
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	.long	__pabt_usr			@  0 (USR_26 / USR_32)
	.long	__pabt_invalid			@  1 (FIQ_26 / FIQ_32)
	.long	__pabt_invalid			@  2 (IRQ_26 / IRQ_32)
	.long	__pabt_svc			@  3 (SVC_26 / SVC_32)
	.long	__pabt_invalid			@  4
	.long	__pabt_invalid			@  5
	.long	__pabt_invalid			@  6
	.long	__pabt_invalid			@  7
	.long	__pabt_invalid			@  8
	.long	__pabt_invalid			@  9
	.long	__pabt_invalid			@  a
	.long	__pabt_invalid			@  b
	.long	__pabt_invalid			@  c
	.long	__pabt_invalid			@  d
	.long	__pabt_invalid			@  e
	.long	__pabt_invalid			@  f

/*
 * Undef instr entry dispatcher
 * Enter in UND mode, spsr = SVC/USR CPSR, lr = SVC/USR PC
 */
994
	vector_stub	und, UND_MODE
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	.long	__und_usr			@  0 (USR_26 / USR_32)
	.long	__und_invalid			@  1 (FIQ_26 / FIQ_32)
	.long	__und_invalid			@  2 (IRQ_26 / IRQ_32)
	.long	__und_svc			@  3 (SVC_26 / SVC_32)
	.long	__und_invalid			@  4
	.long	__und_invalid			@  5
	.long	__und_invalid			@  6
	.long	__und_invalid			@  7
	.long	__und_invalid			@  8
	.long	__und_invalid			@  9
	.long	__und_invalid			@  a
	.long	__und_invalid			@  b
	.long	__und_invalid			@  c
	.long	__und_invalid			@  d
	.long	__und_invalid			@  e
	.long	__und_invalid			@  f

	.align	5

/*=============================================================================
 * Undefined FIQs
 *-----------------------------------------------------------------------------
 * Enter in FIQ mode, spsr = ANY CPSR, lr = ANY PC
 * MUST PRESERVE SVC SPSR, but need to switch to SVC mode to show our msg.
 * Basically to switch modes, we *HAVE* to clobber one register...  brain
 * damage alert!  I don't think that we can execute any code in here in any
 * other mode than FIQ...  Ok you can switch to another mode, but you can't
 * get out of that mode without clobbering one register.
 */
vector_fiq:
	disable_fiq
	subs	pc, lr, #4

/*=============================================================================
 * Address exception handler
 *-----------------------------------------------------------------------------
 * These aren't too critical.
 * (they're not supposed to happen, and won't happen in 32-bit data mode).
 */

vector_addrexcptn:
	b	vector_addrexcptn

/*
 * We group all the following data together to optimise
 * for CPUs with separate I & D caches.
 */
	.align	5

.LCvswi:
	.word	vector_swi

1048
	.globl	__stubs_end
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__stubs_end:

1051
	.equ	stubs_offset, __vectors_start + 0x200 - __stubs_start
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1053 1054
	.globl	__vectors_start
__vectors_start:
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	swi	SYS_ERROR0
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	b	vector_und + stubs_offset
	ldr	pc, .LCvswi + stubs_offset
	b	vector_pabt + stubs_offset
	b	vector_dabt + stubs_offset
	b	vector_addrexcptn + stubs_offset
	b	vector_irq + stubs_offset
	b	vector_fiq + stubs_offset

	.globl	__vectors_end
__vectors_end:
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	.data

	.globl	cr_alignment
	.globl	cr_no_alignment
cr_alignment:
	.space	4
cr_no_alignment:
	.space	4