linux/linux-5.18.11/arch/powerpc/lib/copyuser_64.S

565 lines
11 KiB
ArmAsm

/* SPDX-License-Identifier: GPL-2.0-or-later */
/*
* Copyright (C) 2002 Paul Mackerras, IBM Corp.
*/
#include <asm/processor.h>
#include <asm/ppc_asm.h>
#include <asm/export.h>
#include <asm/asm-compat.h>
#include <asm/feature-fixups.h>
#ifndef SELFTEST_CASE
/* 0 == most CPUs, 1 == POWER6, 2 == Cell */
#define SELFTEST_CASE 0
#endif
#ifdef __BIG_ENDIAN__
#define sLd sld /* Shift towards low-numbered address. */
#define sHd srd /* Shift towards high-numbered address. */
#else
#define sLd srd /* Shift towards low-numbered address. */
#define sHd sld /* Shift towards high-numbered address. */
#endif
/*
* These macros are used to generate exception table entries.
* The exception handlers below use the original arguments
* (stored on the stack) and the point where we're up to in
* the destination buffer, i.e. the address of the first
* unmodified byte. Generally r3 points into the destination
* buffer, but the first unmodified byte is at a variable
* offset from r3. In the code below, the symbol r3_offset
* is set to indicate the current offset at each point in
* the code. This offset is then used as a negative offset
* from the exception handler code, and those instructions
* before the exception handlers are addi instructions that
* adjust r3 to point to the correct place.
*/
.macro lex /* exception handler for load */
100: EX_TABLE(100b, .Lld_exc - r3_offset)
.endm
.macro stex /* exception handler for store */
100: EX_TABLE(100b, .Lst_exc - r3_offset)
.endm
.align 7
_GLOBAL_TOC(__copy_tofrom_user)
#ifdef CONFIG_PPC_BOOK3S_64
BEGIN_FTR_SECTION
nop
FTR_SECTION_ELSE
b __copy_tofrom_user_power7
ALT_FTR_SECTION_END_IFCLR(CPU_FTR_VMX_COPY)
#endif
_GLOBAL(__copy_tofrom_user_base)
/* first check for a 4kB copy on a 4kB boundary */
cmpldi cr1,r5,16
cmpdi cr6,r5,4096
or r0,r3,r4
neg r6,r3 /* LS 3 bits = # bytes to 8-byte dest bdry */
andi. r0,r0,4095
std r3,-24(r1)
crand cr0*4+2,cr0*4+2,cr6*4+2
std r4,-16(r1)
std r5,-8(r1)
dcbt 0,r4
beq .Lcopy_page_4K
andi. r6,r6,7
PPC_MTOCRF(0x01,r5)
blt cr1,.Lshort_copy
/* Below we want to nop out the bne if we're on a CPU that has the
* CPU_FTR_UNALIGNED_LD_STD bit set and the CPU_FTR_CP_USE_DCBTZ bit
* cleared.
* At the time of writing the only CPU that has this combination of bits
* set is Power6.
*/
test_feature = (SELFTEST_CASE == 1)
BEGIN_FTR_SECTION
nop
FTR_SECTION_ELSE
bne .Ldst_unaligned
ALT_FTR_SECTION_END(CPU_FTR_UNALIGNED_LD_STD | CPU_FTR_CP_USE_DCBTZ, \
CPU_FTR_UNALIGNED_LD_STD)
.Ldst_aligned:
addi r3,r3,-16
r3_offset = 16
test_feature = (SELFTEST_CASE == 0)
BEGIN_FTR_SECTION
andi. r0,r4,7
bne .Lsrc_unaligned
END_FTR_SECTION_IFCLR(CPU_FTR_UNALIGNED_LD_STD)
blt cr1,.Ldo_tail /* if < 16 bytes to copy */
srdi r0,r5,5
cmpdi cr1,r0,0
lex; ld r7,0(r4)
lex; ld r6,8(r4)
addi r4,r4,16
mtctr r0
andi. r0,r5,0x10
beq 22f
addi r3,r3,16
r3_offset = 0
addi r4,r4,-16
mr r9,r7
mr r8,r6
beq cr1,72f
21:
lex; ld r7,16(r4)
lex; ld r6,24(r4)
addi r4,r4,32
stex; std r9,0(r3)
r3_offset = 8
stex; std r8,8(r3)
r3_offset = 16
22:
lex; ld r9,0(r4)
lex; ld r8,8(r4)
stex; std r7,16(r3)
r3_offset = 24
stex; std r6,24(r3)
addi r3,r3,32
r3_offset = 0
bdnz 21b
72:
stex; std r9,0(r3)
r3_offset = 8
stex; std r8,8(r3)
r3_offset = 16
andi. r5,r5,0xf
beq+ 3f
addi r4,r4,16
.Ldo_tail:
addi r3,r3,16
r3_offset = 0
bf cr7*4+0,246f
lex; ld r9,0(r4)
addi r4,r4,8
stex; std r9,0(r3)
addi r3,r3,8
246: bf cr7*4+1,1f
lex; lwz r9,0(r4)
addi r4,r4,4
stex; stw r9,0(r3)
addi r3,r3,4
1: bf cr7*4+2,2f
lex; lhz r9,0(r4)
addi r4,r4,2
stex; sth r9,0(r3)
addi r3,r3,2
2: bf cr7*4+3,3f
lex; lbz r9,0(r4)
stex; stb r9,0(r3)
3: li r3,0
blr
.Lsrc_unaligned:
r3_offset = 16
srdi r6,r5,3
addi r5,r5,-16
subf r4,r0,r4
srdi r7,r5,4
sldi r10,r0,3
cmpldi cr6,r6,3
andi. r5,r5,7
mtctr r7
subfic r11,r10,64
add r5,r5,r0
bt cr7*4+0,28f
lex; ld r9,0(r4) /* 3+2n loads, 2+2n stores */
lex; ld r0,8(r4)
sLd r6,r9,r10
lex; ldu r9,16(r4)
sHd r7,r0,r11
sLd r8,r0,r10
or r7,r7,r6
blt cr6,79f
lex; ld r0,8(r4)
b 2f
28:
lex; ld r0,0(r4) /* 4+2n loads, 3+2n stores */
lex; ldu r9,8(r4)
sLd r8,r0,r10
addi r3,r3,-8
r3_offset = 24
blt cr6,5f
lex; ld r0,8(r4)
sHd r12,r9,r11
sLd r6,r9,r10
lex; ldu r9,16(r4)
or r12,r8,r12
sHd r7,r0,r11
sLd r8,r0,r10
addi r3,r3,16
r3_offset = 8
beq cr6,78f
1: or r7,r7,r6
lex; ld r0,8(r4)
stex; std r12,8(r3)
r3_offset = 16
2: sHd r12,r9,r11
sLd r6,r9,r10
lex; ldu r9,16(r4)
or r12,r8,r12
stex; stdu r7,16(r3)
r3_offset = 8
sHd r7,r0,r11
sLd r8,r0,r10
bdnz 1b
78:
stex; std r12,8(r3)
r3_offset = 16
or r7,r7,r6
79:
stex; std r7,16(r3)
r3_offset = 24
5: sHd r12,r9,r11
or r12,r8,r12
stex; std r12,24(r3)
r3_offset = 32
bne 6f
li r3,0
blr
6: cmpwi cr1,r5,8
addi r3,r3,32
r3_offset = 0
sLd r9,r9,r10
ble cr1,7f
lex; ld r0,8(r4)
sHd r7,r0,r11
or r9,r7,r9
7:
bf cr7*4+1,1f
#ifdef __BIG_ENDIAN__
rotldi r9,r9,32
#endif
stex; stw r9,0(r3)
#ifdef __LITTLE_ENDIAN__
rotrdi r9,r9,32
#endif
addi r3,r3,4
1: bf cr7*4+2,2f
#ifdef __BIG_ENDIAN__
rotldi r9,r9,16
#endif
stex; sth r9,0(r3)
#ifdef __LITTLE_ENDIAN__
rotrdi r9,r9,16
#endif
addi r3,r3,2
2: bf cr7*4+3,3f
#ifdef __BIG_ENDIAN__
rotldi r9,r9,8
#endif
stex; stb r9,0(r3)
#ifdef __LITTLE_ENDIAN__
rotrdi r9,r9,8
#endif
3: li r3,0
blr
.Ldst_unaligned:
r3_offset = 0
PPC_MTOCRF(0x01,r6) /* put #bytes to 8B bdry into cr7 */
subf r5,r6,r5
li r7,0
cmpldi cr1,r5,16
bf cr7*4+3,1f
100: EX_TABLE(100b, .Lld_exc_r7)
lbz r0,0(r4)
100: EX_TABLE(100b, .Lst_exc_r7)
stb r0,0(r3)
addi r7,r7,1
1: bf cr7*4+2,2f
100: EX_TABLE(100b, .Lld_exc_r7)
lhzx r0,r7,r4
100: EX_TABLE(100b, .Lst_exc_r7)
sthx r0,r7,r3
addi r7,r7,2
2: bf cr7*4+1,3f
100: EX_TABLE(100b, .Lld_exc_r7)
lwzx r0,r7,r4
100: EX_TABLE(100b, .Lst_exc_r7)
stwx r0,r7,r3
3: PPC_MTOCRF(0x01,r5)
add r4,r6,r4
add r3,r6,r3
b .Ldst_aligned
.Lshort_copy:
r3_offset = 0
bf cr7*4+0,1f
lex; lwz r0,0(r4)
lex; lwz r9,4(r4)
addi r4,r4,8
stex; stw r0,0(r3)
stex; stw r9,4(r3)
addi r3,r3,8
1: bf cr7*4+1,2f
lex; lwz r0,0(r4)
addi r4,r4,4
stex; stw r0,0(r3)
addi r3,r3,4
2: bf cr7*4+2,3f
lex; lhz r0,0(r4)
addi r4,r4,2
stex; sth r0,0(r3)
addi r3,r3,2
3: bf cr7*4+3,4f
lex; lbz r0,0(r4)
stex; stb r0,0(r3)
4: li r3,0
blr
/*
* exception handlers follow
* we have to return the number of bytes not copied
* for an exception on a load, we set the rest of the destination to 0
* Note that the number of bytes of instructions for adjusting r3 needs
* to equal the amount of the adjustment, due to the trick of using
* .Lld_exc - r3_offset as the handler address.
*/
.Lld_exc_r7:
add r3,r3,r7
b .Lld_exc
/* adjust by 24 */
addi r3,r3,8
nop
/* adjust by 16 */
addi r3,r3,8
nop
/* adjust by 8 */
addi r3,r3,8
nop
/*
* Here we have had a fault on a load and r3 points to the first
* unmodified byte of the destination. We use the original arguments
* and r3 to work out how much wasn't copied. Since we load some
* distance ahead of the stores, we continue copying byte-by-byte until
* we hit the load fault again in order to copy as much as possible.
*/
.Lld_exc:
ld r6,-24(r1)
ld r4,-16(r1)
ld r5,-8(r1)
subf r6,r6,r3
add r4,r4,r6
subf r5,r6,r5 /* #bytes left to go */
/*
* first see if we can copy any more bytes before hitting another exception
*/
mtctr r5
r3_offset = 0
100: EX_TABLE(100b, .Ldone)
43: lbz r0,0(r4)
addi r4,r4,1
stex; stb r0,0(r3)
addi r3,r3,1
bdnz 43b
li r3,0 /* huh? all copied successfully this time? */
blr
/*
* here we have trapped again, amount remaining is in ctr.
*/
.Ldone:
mfctr r3
blr
/*
* exception handlers for stores: we need to work out how many bytes
* weren't copied, and we may need to copy some more.
* Note that the number of bytes of instructions for adjusting r3 needs
* to equal the amount of the adjustment, due to the trick of using
* .Lst_exc - r3_offset as the handler address.
*/
.Lst_exc_r7:
add r3,r3,r7
b .Lst_exc
/* adjust by 24 */
addi r3,r3,8
nop
/* adjust by 16 */
addi r3,r3,8
nop
/* adjust by 8 */
addi r3,r3,4
/* adjust by 4 */
addi r3,r3,4
.Lst_exc:
ld r6,-24(r1) /* original destination pointer */
ld r4,-16(r1) /* original source pointer */
ld r5,-8(r1) /* original number of bytes */
add r7,r6,r5
/*
* If the destination pointer isn't 8-byte aligned,
* we may have got the exception as a result of a
* store that overlapped a page boundary, so we may be
* able to copy a few more bytes.
*/
17: andi. r0,r3,7
beq 19f
subf r8,r6,r3 /* #bytes copied */
100: EX_TABLE(100b,19f)
lbzx r0,r8,r4
100: EX_TABLE(100b,19f)
stb r0,0(r3)
addi r3,r3,1
cmpld r3,r7
blt 17b
19: subf r3,r3,r7 /* #bytes not copied in r3 */
blr
/*
* Routine to copy a whole page of data, optimized for POWER4.
* On POWER4 it is more than 50% faster than the simple loop
* above (following the .Ldst_aligned label).
*/
.macro exc
100: EX_TABLE(100b, .Labort)
.endm
.Lcopy_page_4K:
std r31,-32(1)
std r30,-40(1)
std r29,-48(1)
std r28,-56(1)
std r27,-64(1)
std r26,-72(1)
std r25,-80(1)
std r24,-88(1)
std r23,-96(1)
std r22,-104(1)
std r21,-112(1)
std r20,-120(1)
li r5,4096/32 - 1
addi r3,r3,-8
li r0,5
0: addi r5,r5,-24
mtctr r0
exc; ld r22,640(4)
exc; ld r21,512(4)
exc; ld r20,384(4)
exc; ld r11,256(4)
exc; ld r9,128(4)
exc; ld r7,0(4)
exc; ld r25,648(4)
exc; ld r24,520(4)
exc; ld r23,392(4)
exc; ld r10,264(4)
exc; ld r8,136(4)
exc; ldu r6,8(4)
cmpwi r5,24
1:
exc; std r22,648(3)
exc; std r21,520(3)
exc; std r20,392(3)
exc; std r11,264(3)
exc; std r9,136(3)
exc; std r7,8(3)
exc; ld r28,648(4)
exc; ld r27,520(4)
exc; ld r26,392(4)
exc; ld r31,264(4)
exc; ld r30,136(4)
exc; ld r29,8(4)
exc; std r25,656(3)
exc; std r24,528(3)
exc; std r23,400(3)
exc; std r10,272(3)
exc; std r8,144(3)
exc; std r6,16(3)
exc; ld r22,656(4)
exc; ld r21,528(4)
exc; ld r20,400(4)
exc; ld r11,272(4)
exc; ld r9,144(4)
exc; ld r7,16(4)
exc; std r28,664(3)
exc; std r27,536(3)
exc; std r26,408(3)
exc; std r31,280(3)
exc; std r30,152(3)
exc; stdu r29,24(3)
exc; ld r25,664(4)
exc; ld r24,536(4)
exc; ld r23,408(4)
exc; ld r10,280(4)
exc; ld r8,152(4)
exc; ldu r6,24(4)
bdnz 1b
exc; std r22,648(3)
exc; std r21,520(3)
exc; std r20,392(3)
exc; std r11,264(3)
exc; std r9,136(3)
exc; std r7,8(3)
addi r4,r4,640
addi r3,r3,648
bge 0b
mtctr r5
exc; ld r7,0(4)
exc; ld r8,8(4)
exc; ldu r9,16(4)
3:
exc; ld r10,8(4)
exc; std r7,8(3)
exc; ld r7,16(4)
exc; std r8,16(3)
exc; ld r8,24(4)
exc; std r9,24(3)
exc; ldu r9,32(4)
exc; stdu r10,32(3)
bdnz 3b
4:
exc; ld r10,8(4)
exc; std r7,8(3)
exc; std r8,16(3)
exc; std r9,24(3)
exc; std r10,32(3)
9: ld r20,-120(1)
ld r21,-112(1)
ld r22,-104(1)
ld r23,-96(1)
ld r24,-88(1)
ld r25,-80(1)
ld r26,-72(1)
ld r27,-64(1)
ld r28,-56(1)
ld r29,-48(1)
ld r30,-40(1)
ld r31,-32(1)
li r3,0
blr
/*
* on an exception, reset to the beginning and jump back into the
* standard __copy_tofrom_user
*/
.Labort:
ld r20,-120(1)
ld r21,-112(1)
ld r22,-104(1)
ld r23,-96(1)
ld r24,-88(1)
ld r25,-80(1)
ld r26,-72(1)
ld r27,-64(1)
ld r28,-56(1)
ld r29,-48(1)
ld r30,-40(1)
ld r31,-32(1)
ld r3,-24(r1)
ld r4,-16(r1)
li r5,4096
b .Ldst_aligned
EXPORT_SYMBOL(__copy_tofrom_user)