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ba999a0402
The memcpy template is a bit unusual in the way it manages the stack
pointer: depending on the execution path through the function, the SP
assumes different values as different subsets of the register file are
preserved and restored again. This is problematic when it comes to EHABI
unwind info, as it is not instruction accurate, and does not allow
tracking the SP value as it changes.
Commit 279f487e0b
("ARM: 8225/1: Add unwinding support for memory
copy functions") addressed this by carving up the function in different
chunks as far as the unwinder is concerned, and keeping a set of unwind
directives for each of them, each corresponding with the state of the
stack pointer during execution of the chunk in question. This not only
duplicates unwind info unnecessarily, but it also complicates unwinding
the stack upon overflow.
Instead, let's do what the compiler does when the SP is updated halfway
through a function, which is to use a frame pointer and emit the
appropriate unwind directives to communicate this to the unwinder.
Note that Thumb-2 uses R7 for this, while ARM uses R11 aka FP. So let's
avoid touching R7 in the body of the template, so that Thumb-2 can use
it as the frame pointer. R11 was not modified in the first place.
Signed-off-by: Ard Biesheuvel <ardb@kernel.org>
Tested-by: Keith Packard <keithpac@amazon.com>
Tested-by: Marc Zyngier <maz@kernel.org>
Tested-by: Vladimir Murzin <vladimir.murzin@arm.com> # ARMv7M
274 lines
6.2 KiB
ArmAsm
274 lines
6.2 KiB
ArmAsm
/* SPDX-License-Identifier: GPL-2.0-only */
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/*
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* linux/arch/arm/lib/copy_template.s
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*
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* Code template for optimized memory copy functions
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*
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* Author: Nicolas Pitre
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* Created: Sep 28, 2005
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* Copyright: MontaVista Software, Inc.
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*/
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/*
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* Theory of operation
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* -------------------
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*
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* This file provides the core code for a forward memory copy used in
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* the implementation of memcopy(), copy_to_user() and copy_from_user().
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*
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* The including file must define the following accessor macros
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* according to the need of the given function:
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*
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* ldr1w ptr reg abort
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*
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* This loads one word from 'ptr', stores it in 'reg' and increments
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* 'ptr' to the next word. The 'abort' argument is used for fixup tables.
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*
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* ldr4w ptr reg1 reg2 reg3 reg4 abort
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* ldr8w ptr, reg1 reg2 reg3 reg4 reg5 reg6 reg7 reg8 abort
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*
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* This loads four or eight words starting from 'ptr', stores them
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* in provided registers and increments 'ptr' past those words.
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* The'abort' argument is used for fixup tables.
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*
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* ldr1b ptr reg cond abort
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*
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* Similar to ldr1w, but it loads a byte and increments 'ptr' one byte.
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* It also must apply the condition code if provided, otherwise the
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* "al" condition is assumed by default.
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*
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* str1w ptr reg abort
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* str8w ptr reg1 reg2 reg3 reg4 reg5 reg6 reg7 reg8 abort
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* str1b ptr reg cond abort
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*
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* Same as their ldr* counterparts, but data is stored to 'ptr' location
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* rather than being loaded.
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*
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* enter reg1 reg2
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*
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* Preserve the provided registers on the stack plus any additional
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* data as needed by the implementation including this code. Called
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* upon code entry.
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*
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* usave reg1 reg2
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*
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* Unwind annotation macro is corresponding for 'enter' macro.
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* It tell unwinder that preserved some provided registers on the stack
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* and additional data by a prior 'enter' macro.
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*
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* exit reg1 reg2
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*
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* Restore registers with the values previously saved with the
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* 'preserv' macro. Called upon code termination.
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*
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* LDR1W_SHIFT
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* STR1W_SHIFT
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*
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* Correction to be applied to the "ip" register when branching into
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* the ldr1w or str1w instructions (some of these macros may expand to
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* than one 32bit instruction in Thumb-2)
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*/
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UNWIND( .fnstart )
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enter r4, UNWIND(fpreg,) lr
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UNWIND( .setfp fpreg, sp )
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UNWIND( mov fpreg, sp )
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subs r2, r2, #4
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blt 8f
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ands ip, r0, #3
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PLD( pld [r1, #0] )
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bne 9f
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ands ip, r1, #3
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bne 10f
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1: subs r2, r2, #(28)
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stmfd sp!, {r5, r6, r8, r9}
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blt 5f
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CALGN( ands ip, r0, #31 )
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CALGN( rsb r3, ip, #32 )
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CALGN( sbcsne r4, r3, r2 ) @ C is always set here
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CALGN( bcs 2f )
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CALGN( adr r4, 6f )
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CALGN( subs r2, r2, r3 ) @ C gets set
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CALGN( add pc, r4, ip )
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PLD( pld [r1, #0] )
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2: PLD( subs r2, r2, #96 )
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PLD( pld [r1, #28] )
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PLD( blt 4f )
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PLD( pld [r1, #60] )
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PLD( pld [r1, #92] )
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3: PLD( pld [r1, #124] )
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4: ldr8w r1, r3, r4, r5, r6, r8, r9, ip, lr, abort=20f
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subs r2, r2, #32
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str8w r0, r3, r4, r5, r6, r8, r9, ip, lr, abort=20f
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bge 3b
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PLD( cmn r2, #96 )
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PLD( bge 4b )
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5: ands ip, r2, #28
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rsb ip, ip, #32
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#if LDR1W_SHIFT > 0
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lsl ip, ip, #LDR1W_SHIFT
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#endif
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addne pc, pc, ip @ C is always clear here
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b 7f
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6:
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.rept (1 << LDR1W_SHIFT)
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W(nop)
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.endr
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ldr1w r1, r3, abort=20f
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ldr1w r1, r4, abort=20f
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ldr1w r1, r5, abort=20f
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ldr1w r1, r6, abort=20f
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ldr1w r1, r8, abort=20f
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ldr1w r1, r9, abort=20f
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ldr1w r1, lr, abort=20f
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#if LDR1W_SHIFT < STR1W_SHIFT
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lsl ip, ip, #STR1W_SHIFT - LDR1W_SHIFT
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#elif LDR1W_SHIFT > STR1W_SHIFT
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lsr ip, ip, #LDR1W_SHIFT - STR1W_SHIFT
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#endif
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add pc, pc, ip
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nop
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.rept (1 << STR1W_SHIFT)
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W(nop)
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.endr
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str1w r0, r3, abort=20f
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str1w r0, r4, abort=20f
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str1w r0, r5, abort=20f
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str1w r0, r6, abort=20f
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str1w r0, r8, abort=20f
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str1w r0, r9, abort=20f
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str1w r0, lr, abort=20f
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CALGN( bcs 2b )
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7: ldmfd sp!, {r5, r6, r8, r9}
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8: movs r2, r2, lsl #31
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ldr1b r1, r3, ne, abort=21f
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ldr1b r1, r4, cs, abort=21f
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ldr1b r1, ip, cs, abort=21f
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str1b r0, r3, ne, abort=21f
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str1b r0, r4, cs, abort=21f
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str1b r0, ip, cs, abort=21f
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exit r4, UNWIND(fpreg,) pc
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9: rsb ip, ip, #4
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cmp ip, #2
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ldr1b r1, r3, gt, abort=21f
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ldr1b r1, r4, ge, abort=21f
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ldr1b r1, lr, abort=21f
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str1b r0, r3, gt, abort=21f
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str1b r0, r4, ge, abort=21f
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subs r2, r2, ip
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str1b r0, lr, abort=21f
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blt 8b
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ands ip, r1, #3
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beq 1b
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10: bic r1, r1, #3
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cmp ip, #2
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ldr1w r1, lr, abort=21f
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beq 17f
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bgt 18f
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.macro forward_copy_shift pull push
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subs r2, r2, #28
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blt 14f
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CALGN( ands ip, r0, #31 )
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CALGN( rsb ip, ip, #32 )
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CALGN( sbcsne r4, ip, r2 ) @ C is always set here
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CALGN( subcc r2, r2, ip )
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CALGN( bcc 15f )
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11: stmfd sp!, {r5, r6, r8 - r10}
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PLD( pld [r1, #0] )
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PLD( subs r2, r2, #96 )
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PLD( pld [r1, #28] )
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PLD( blt 13f )
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PLD( pld [r1, #60] )
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PLD( pld [r1, #92] )
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12: PLD( pld [r1, #124] )
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13: ldr4w r1, r4, r5, r6, r8, abort=19f
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mov r3, lr, lspull #\pull
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subs r2, r2, #32
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ldr4w r1, r9, r10, ip, lr, abort=19f
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orr r3, r3, r4, lspush #\push
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mov r4, r4, lspull #\pull
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orr r4, r4, r5, lspush #\push
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mov r5, r5, lspull #\pull
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orr r5, r5, r6, lspush #\push
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mov r6, r6, lspull #\pull
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orr r6, r6, r8, lspush #\push
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mov r8, r8, lspull #\pull
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orr r8, r8, r9, lspush #\push
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mov r9, r9, lspull #\pull
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orr r9, r9, r10, lspush #\push
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mov r10, r10, lspull #\pull
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orr r10, r10, ip, lspush #\push
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mov ip, ip, lspull #\pull
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orr ip, ip, lr, lspush #\push
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str8w r0, r3, r4, r5, r6, r8, r9, r10, ip, abort=19f
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bge 12b
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PLD( cmn r2, #96 )
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PLD( bge 13b )
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ldmfd sp!, {r5, r6, r8 - r10}
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14: ands ip, r2, #28
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beq 16f
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15: mov r3, lr, lspull #\pull
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ldr1w r1, lr, abort=21f
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subs ip, ip, #4
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orr r3, r3, lr, lspush #\push
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str1w r0, r3, abort=21f
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bgt 15b
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CALGN( cmp r2, #0 )
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CALGN( bge 11b )
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16: sub r1, r1, #(\push / 8)
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b 8b
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.endm
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forward_copy_shift pull=8 push=24
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17: forward_copy_shift pull=16 push=16
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18: forward_copy_shift pull=24 push=8
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UNWIND( .fnend )
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/*
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* Abort preamble and completion macros.
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* If a fixup handler is required then those macros must surround it.
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* It is assumed that the fixup code will handle the private part of
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* the exit macro.
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*/
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.macro copy_abort_preamble
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19: ldmfd sp!, {r5, r6, r8 - r10}
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b 21f
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20: ldmfd sp!, {r5, r6, r8, r9}
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21:
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.endm
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.macro copy_abort_end
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ldmfd sp!, {r4, UNWIND(fpreg,) pc}
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.endm
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