mirror_ubuntu-kernels/arch/x86/lib/memmove_32.S

/* SPDX-License-Identifier: GPL-2.0 */

#include <linux/export.h>
#include <linux/linkage.h>

SYM_FUNC_START(memmove)
/*
 * void *memmove(void *dest_in, const void *src_in, size_t n)
 * -mregparm=3 passes these in registers:
 * dest_in: %eax
 * src_in: %edx
 * n: %ecx
 * See also: arch/x86/entry/calling.h for description of the calling convention.
 *
 * n can remain in %ecx, but for `rep movsl`, we'll need dest in %edi and src
 * in %esi.
 */
.set dest_in, %eax
.set dest, %edi
.set src_in, %edx
.set src, %esi
.set n, %ecx
.set tmp0, %edx
.set tmp0w, %dx
.set tmp1, %ebx
.set tmp1w, %bx
.set tmp2, %eax
.set tmp3b, %cl

/*
 * Save all callee-saved registers, because this function is going to clobber
 * all of them:
 */
	pushl	%ebp
	movl	%esp, %ebp	// set standard frame pointer

	pushl	%ebx
	pushl	%edi
	pushl	%esi
	pushl	%eax		// save 'dest_in' parameter [eax] as the return value

	movl src_in, src
	movl dest_in, dest

	/* Handle more 16 bytes in loop */
	cmpl	$0x10, n
	jb	.Lmove_16B

	/* Decide forward/backward copy mode */
	cmpl	dest, src
	jb	.Lbackwards_header

	/*
	 * movs instruction have many startup latency
	 * so we handle small size by general register.
	 */
	cmpl	$680, n
	jb	.Ltoo_small_forwards
	/* movs instruction is only good for aligned case. */
	movl	src, tmp0
	xorl	dest, tmp0
	andl	$0xff, tmp0
	jz	.Lforward_movs
.Ltoo_small_forwards:
	subl	$0x10, n

	/* We gobble 16 bytes forward in each loop. */
.Lmove_16B_forwards_loop:
	subl	$0x10, n
	movl	0*4(src), tmp0
	movl	1*4(src), tmp1
	movl	tmp0, 0*4(dest)
	movl	tmp1, 1*4(dest)
	movl	2*4(src), tmp0
	movl	3*4(src), tmp1
	movl	tmp0, 2*4(dest)
	movl	tmp1, 3*4(dest)
	leal	0x10(src), src
	leal	0x10(dest), dest
	jae	.Lmove_16B_forwards_loop
	addl	$0x10, n
	jmp	.Lmove_16B

	/* Handle data forward by movs. */
.p2align 4
.Lforward_movs:
	movl	-4(src, n), tmp0
	leal	-4(dest, n), tmp1
	shrl	$2, n
	rep	movsl
	movl	tmp0, (tmp1)
	jmp	.Ldone

	/* Handle data backward by movs. */
.p2align 4
.Lbackwards_movs:
	movl	(src), tmp0
	movl	dest, tmp1
	leal	-4(src, n), src
	leal	-4(dest, n), dest
	shrl	$2, n
	std
	rep	movsl
	movl	tmp0,(tmp1)
	cld
	jmp	.Ldone

	/* Start to prepare for backward copy. */
.p2align 4
.Lbackwards_header:
	cmpl	$680, n
	jb	.Ltoo_small_backwards
	movl	src, tmp0
	xorl	dest, tmp0
	andl	$0xff, tmp0
	jz	.Lbackwards_movs

	/* Calculate copy position to tail. */
.Ltoo_small_backwards:
	addl	n, src
	addl	n, dest
	subl	$0x10, n

	/* We gobble 16 bytes backward in each loop. */
.Lmove_16B_backwards_loop:
	subl	$0x10, n

	movl	-1*4(src), tmp0
	movl	-2*4(src), tmp1
	movl	tmp0, -1*4(dest)
	movl	tmp1, -2*4(dest)
	movl	-3*4(src), tmp0
	movl	-4*4(src), tmp1
	movl	tmp0, -3*4(dest)
	movl	tmp1, -4*4(dest)
	leal	-0x10(src), src
	leal	-0x10(dest), dest
	jae	.Lmove_16B_backwards_loop
	/* Calculate copy position to head. */
	addl	$0x10, n
	subl	n, src
	subl	n, dest

	/* Move data from 8 bytes to 15 bytes. */
.p2align 4
.Lmove_16B:
	cmpl	$8, n
	jb	.Lmove_8B
	movl	0*4(src), tmp0
	movl	1*4(src), tmp1
	movl	-2*4(src, n), tmp2
	movl	-1*4(src, n), src

	movl	tmp0, 0*4(dest)
	movl	tmp1, 1*4(dest)
	movl	tmp2, -2*4(dest, n)
	movl	src, -1*4(dest, n)
	jmp	.Ldone

	/* Move data from 4 bytes to 7 bytes. */
.p2align 4
.Lmove_8B:
	cmpl	$4, n
	jb	.Lmove_4B
	movl	0*4(src), tmp0
	movl	-1*4(src, n), tmp1
	movl	tmp0, 0*4(dest)
	movl	tmp1, -1*4(dest, n)
	jmp	.Ldone

	/* Move data from 2 bytes to 3 bytes. */
.p2align 4
.Lmove_4B:
	cmpl	$2, n
	jb	.Lmove_1B
	movw	0*2(src), tmp0w
	movw	-1*2(src, n), tmp1w
	movw	tmp0w, 0*2(dest)
	movw	tmp1w, -1*2(dest, n)
	jmp	.Ldone

	/* Move data for 1 byte. */
.p2align 4
.Lmove_1B:
	cmpl	$1, n
	jb	.Ldone
	movb	(src), tmp3b
	movb	tmp3b, (dest)
.p2align 4
.Ldone:
	popl	dest_in	// restore 'dest_in' [eax] as the return value
	/* Restore all callee-saved registers: */
	popl	%esi
	popl	%edi
	popl	%ebx
	popl	%ebp

	RET
SYM_FUNC_END(memmove)
EXPORT_SYMBOL(memmove)