linux/arch/s390/lib/mem.S
Martin Schwidefsky 26a374ae7a s390: add missing ENDPROC statements to assembler functions
The assembler code in arch/s390 misses proper ENDPROC statements
to properly end functions in a few places. Add them.

Signed-off-by: Martin Schwidefsky <schwidefsky@de.ibm.com>
2019-05-02 13:54:11 +02:00

192 lines
3.6 KiB
ArmAsm

/* SPDX-License-Identifier: GPL-2.0 */
/*
* String handling functions.
*
* Copyright IBM Corp. 2012
*/
#include <linux/linkage.h>
#include <asm/export.h>
#include <asm/nospec-insn.h>
GEN_BR_THUNK %r14
/*
* void *memmove(void *dest, const void *src, size_t n)
*/
WEAK(memmove)
ENTRY(__memmove)
ltgr %r4,%r4
lgr %r1,%r2
jz .Lmemmove_exit
aghi %r4,-1
clgr %r2,%r3
jnh .Lmemmove_forward
la %r5,1(%r4,%r3)
clgr %r2,%r5
jl .Lmemmove_reverse
.Lmemmove_forward:
srlg %r0,%r4,8
ltgr %r0,%r0
jz .Lmemmove_forward_remainder
.Lmemmove_forward_loop:
mvc 0(256,%r1),0(%r3)
la %r1,256(%r1)
la %r3,256(%r3)
brctg %r0,.Lmemmove_forward_loop
.Lmemmove_forward_remainder:
larl %r5,.Lmemmove_mvc
ex %r4,0(%r5)
.Lmemmove_exit:
BR_EX %r14
.Lmemmove_reverse:
ic %r0,0(%r4,%r3)
stc %r0,0(%r4,%r1)
brctg %r4,.Lmemmove_reverse
ic %r0,0(%r4,%r3)
stc %r0,0(%r4,%r1)
BR_EX %r14
.Lmemmove_mvc:
mvc 0(1,%r1),0(%r3)
ENDPROC(__memmove)
EXPORT_SYMBOL(memmove)
/*
* memset implementation
*
* This code corresponds to the C construct below. We do distinguish
* between clearing (c == 0) and setting a memory array (c != 0) simply
* because nearly all memset invocations in the kernel clear memory and
* the xc instruction is preferred in such cases.
*
* void *memset(void *s, int c, size_t n)
* {
* if (likely(c == 0))
* return __builtin_memset(s, 0, n);
* return __builtin_memset(s, c, n);
* }
*/
WEAK(memset)
ENTRY(__memset)
ltgr %r4,%r4
jz .Lmemset_exit
ltgr %r3,%r3
jnz .Lmemset_fill
aghi %r4,-1
srlg %r3,%r4,8
ltgr %r3,%r3
lgr %r1,%r2
jz .Lmemset_clear_remainder
.Lmemset_clear_loop:
xc 0(256,%r1),0(%r1)
la %r1,256(%r1)
brctg %r3,.Lmemset_clear_loop
.Lmemset_clear_remainder:
larl %r3,.Lmemset_xc
ex %r4,0(%r3)
.Lmemset_exit:
BR_EX %r14
.Lmemset_fill:
cghi %r4,1
lgr %r1,%r2
je .Lmemset_fill_exit
aghi %r4,-2
srlg %r5,%r4,8
ltgr %r5,%r5
jz .Lmemset_fill_remainder
.Lmemset_fill_loop:
stc %r3,0(%r1)
mvc 1(255,%r1),0(%r1)
la %r1,256(%r1)
brctg %r5,.Lmemset_fill_loop
.Lmemset_fill_remainder:
stc %r3,0(%r1)
larl %r5,.Lmemset_mvc
ex %r4,0(%r5)
BR_EX %r14
.Lmemset_fill_exit:
stc %r3,0(%r1)
BR_EX %r14
.Lmemset_xc:
xc 0(1,%r1),0(%r1)
.Lmemset_mvc:
mvc 1(1,%r1),0(%r1)
ENDPROC(__memset)
EXPORT_SYMBOL(memset)
/*
* memcpy implementation
*
* void *memcpy(void *dest, const void *src, size_t n)
*/
WEAK(memcpy)
ENTRY(__memcpy)
ltgr %r4,%r4
jz .Lmemcpy_exit
aghi %r4,-1
srlg %r5,%r4,8
ltgr %r5,%r5
lgr %r1,%r2
jnz .Lmemcpy_loop
.Lmemcpy_remainder:
larl %r5,.Lmemcpy_mvc
ex %r4,0(%r5)
.Lmemcpy_exit:
BR_EX %r14
.Lmemcpy_loop:
mvc 0(256,%r1),0(%r3)
la %r1,256(%r1)
la %r3,256(%r3)
brctg %r5,.Lmemcpy_loop
j .Lmemcpy_remainder
.Lmemcpy_mvc:
mvc 0(1,%r1),0(%r3)
ENDPROC(__memcpy)
EXPORT_SYMBOL(memcpy)
/*
* __memset16/32/64
*
* void *__memset16(uint16_t *s, uint16_t v, size_t count)
* void *__memset32(uint32_t *s, uint32_t v, size_t count)
* void *__memset64(uint64_t *s, uint64_t v, size_t count)
*/
.macro __MEMSET bits,bytes,insn
ENTRY(__memset\bits)
ltgr %r4,%r4
jz .L__memset_exit\bits
cghi %r4,\bytes
je .L__memset_store\bits
aghi %r4,-(\bytes+1)
srlg %r5,%r4,8
ltgr %r5,%r5
lgr %r1,%r2
jz .L__memset_remainder\bits
.L__memset_loop\bits:
\insn %r3,0(%r1)
mvc \bytes(256-\bytes,%r1),0(%r1)
la %r1,256(%r1)
brctg %r5,.L__memset_loop\bits
.L__memset_remainder\bits:
\insn %r3,0(%r1)
larl %r5,.L__memset_mvc\bits
ex %r4,0(%r5)
BR_EX %r14
.L__memset_store\bits:
\insn %r3,0(%r2)
.L__memset_exit\bits:
BR_EX %r14
.L__memset_mvc\bits:
mvc \bytes(1,%r1),0(%r1)
ENDPROC(__memset\bits)
.endm
__MEMSET 16,2,sth
EXPORT_SYMBOL(__memset16)
__MEMSET 32,4,st
EXPORT_SYMBOL(__memset32)
__MEMSET 64,8,stg
EXPORT_SYMBOL(__memset64)