1 /* SPDX-License-Identifier: GPL-2.0-only */ <<
2 /* 1 /*
3 * Copyright (C) 2013 Regents of the Universit !! 2 * This file is subject to the terms and conditions of the GNU General Public
>> 3 * License. See the file "COPYING" in the main directory of this archive
>> 4 * for more details.
>> 5 *
>> 6 * Copyright (C) 1998, 1999, 2000 by Ralf Baechle
>> 7 * Copyright (C) 1999, 2000 Silicon Graphics, Inc.
>> 8 * Copyright (C) 2007 by Maciej W. Rozycki
>> 9 * Copyright (C) 2011, 2012 MIPS Technologies, Inc.
4 */ 10 */
>> 11 #include <asm/asm.h>
>> 12 #include <asm/asm-offsets.h>
>> 13 #include <asm/export.h>
>> 14 #include <asm/regdef.h>
>> 15
>> 16 #if LONGSIZE == 4
>> 17 #define LONG_S_L swl
>> 18 #define LONG_S_R swr
>> 19 #else
>> 20 #define LONG_S_L sdl
>> 21 #define LONG_S_R sdr
>> 22 #endif
5 23
>> 24 #ifdef CONFIG_CPU_MICROMIPS
>> 25 #define STORSIZE (LONGSIZE * 2)
>> 26 #define STORMASK (STORSIZE - 1)
>> 27 #define FILL64RG t8
>> 28 #define FILLPTRG t7
>> 29 #undef LONG_S
>> 30 #define LONG_S LONG_SP
>> 31 #else
>> 32 #define STORSIZE LONGSIZE
>> 33 #define STORMASK LONGMASK
>> 34 #define FILL64RG a1
>> 35 #define FILLPTRG t0
>> 36 #endif
6 37
7 #include <linux/linkage.h> !! 38 #define LEGACY_MODE 1
8 #include <asm/asm.h> !! 39 #define EVA_MODE 2
>> 40
>> 41 /*
>> 42 * No need to protect it with EVA #ifdefery. The generated block of code
>> 43 * will never be assembled if EVA is not enabled.
>> 44 */
>> 45 #define __EVAFY(insn, reg, addr) __BUILD_EVA_INSN(insn##e, reg, addr)
>> 46 #define ___BUILD_EVA_INSN(insn, reg, addr) __EVAFY(insn, reg, addr)
>> 47
>> 48 #define EX(insn,reg,addr,handler) \
>> 49 .if \mode == LEGACY_MODE; \
>> 50 9: insn reg, addr; \
>> 51 .else; \
>> 52 9: ___BUILD_EVA_INSN(insn, reg, addr); \
>> 53 .endif; \
>> 54 .section __ex_table,"a"; \
>> 55 PTR 9b, handler; \
>> 56 .previous
>> 57
>> 58 .macro f_fill64 dst, offset, val, fixup, mode
>> 59 EX(LONG_S, \val, (\offset + 0 * STORSIZE)(\dst), \fixup)
>> 60 EX(LONG_S, \val, (\offset + 1 * STORSIZE)(\dst), \fixup)
>> 61 EX(LONG_S, \val, (\offset + 2 * STORSIZE)(\dst), \fixup)
>> 62 EX(LONG_S, \val, (\offset + 3 * STORSIZE)(\dst), \fixup)
>> 63 #if ((defined(CONFIG_CPU_MICROMIPS) && (LONGSIZE == 4)) || !defined(CONFIG_CPU_MICROMIPS))
>> 64 EX(LONG_S, \val, (\offset + 4 * STORSIZE)(\dst), \fixup)
>> 65 EX(LONG_S, \val, (\offset + 5 * STORSIZE)(\dst), \fixup)
>> 66 EX(LONG_S, \val, (\offset + 6 * STORSIZE)(\dst), \fixup)
>> 67 EX(LONG_S, \val, (\offset + 7 * STORSIZE)(\dst), \fixup)
>> 68 #endif
>> 69 #if (!defined(CONFIG_CPU_MICROMIPS) && (LONGSIZE == 4))
>> 70 EX(LONG_S, \val, (\offset + 8 * STORSIZE)(\dst), \fixup)
>> 71 EX(LONG_S, \val, (\offset + 9 * STORSIZE)(\dst), \fixup)
>> 72 EX(LONG_S, \val, (\offset + 10 * STORSIZE)(\dst), \fixup)
>> 73 EX(LONG_S, \val, (\offset + 11 * STORSIZE)(\dst), \fixup)
>> 74 EX(LONG_S, \val, (\offset + 12 * STORSIZE)(\dst), \fixup)
>> 75 EX(LONG_S, \val, (\offset + 13 * STORSIZE)(\dst), \fixup)
>> 76 EX(LONG_S, \val, (\offset + 14 * STORSIZE)(\dst), \fixup)
>> 77 EX(LONG_S, \val, (\offset + 15 * STORSIZE)(\dst), \fixup)
>> 78 #endif
>> 79 .endm
9 80
10 /* void *memset(void *, int, size_t) */ !! 81 .set noreorder
11 SYM_FUNC_START(__memset) !! 82 .align 5
12 move t0, a0 /* Preserve return value <<
13 <<
14 /* Defer to byte-oriented fill for sma <<
15 sltiu a3, a2, 16 <<
16 bnez a3, 4f <<
17 83
18 /* 84 /*
19 * Round to nearest XLEN-aligned addre !! 85 * Macro to generate the __bzero{,_user} symbol
20 * greater than or equal to start addr !! 86 * Arguments:
>> 87 * mode: LEGACY_MODE or EVA_MODE
21 */ 88 */
22 addi a3, t0, SZREG-1 !! 89 .macro __BUILD_BZERO mode
23 andi a3, a3, ~(SZREG-1) !! 90 /* Initialize __memset if this is the first time we call this macro */
24 beq a3, t0, 2f /* Skip if already ali !! 91 .ifnotdef __memset
25 /* Handle initial misalignment */ !! 92 .set __memset, 1
26 sub a4, a3, t0 !! 93 .hidden __memset /* Make sure it does not leak */
>> 94 .endif
>> 95
>> 96 sltiu t0, a2, STORSIZE /* very small region? */
>> 97 bnez t0, .Lsmall_memset\@
>> 98 andi t0, a0, STORMASK /* aligned? */
>> 99
>> 100 #ifdef CONFIG_CPU_MICROMIPS
>> 101 move t8, a1 /* used by 'swp' instruction */
>> 102 move t9, a1
>> 103 #endif
>> 104 #ifndef CONFIG_CPU_DADDI_WORKAROUNDS
>> 105 beqz t0, 1f
>> 106 PTR_SUBU t0, STORSIZE /* alignment in bytes */
>> 107 #else
>> 108 .set noat
>> 109 li AT, STORSIZE
>> 110 beqz t0, 1f
>> 111 PTR_SUBU t0, AT /* alignment in bytes */
>> 112 .set at
>> 113 #endif
>> 114
>> 115 #ifndef CONFIG_CPU_MIPSR6
>> 116 R10KCBARRIER(0(ra))
>> 117 #ifdef __MIPSEB__
>> 118 EX(LONG_S_L, a1, (a0), .Lfirst_fixup\@) /* make word/dword aligned */
>> 119 #else
>> 120 EX(LONG_S_R, a1, (a0), .Lfirst_fixup\@) /* make word/dword aligned */
>> 121 #endif
>> 122 PTR_SUBU a0, t0 /* long align ptr */
>> 123 PTR_ADDU a2, t0 /* correct size */
>> 124
>> 125 #else /* CONFIG_CPU_MIPSR6 */
>> 126 #define STORE_BYTE(N) \
>> 127 EX(sb, a1, N(a0), .Lbyte_fixup\@); \
>> 128 beqz t0, 0f; \
>> 129 PTR_ADDU t0, 1;
>> 130
>> 131 PTR_ADDU a2, t0 /* correct size */
>> 132 PTR_ADDU t0, 1
>> 133 STORE_BYTE(0)
>> 134 STORE_BYTE(1)
>> 135 #if LONGSIZE == 4
>> 136 EX(sb, a1, 2(a0), .Lbyte_fixup\@)
>> 137 #else
>> 138 STORE_BYTE(2)
>> 139 STORE_BYTE(3)
>> 140 STORE_BYTE(4)
>> 141 STORE_BYTE(5)
>> 142 EX(sb, a1, 6(a0), .Lbyte_fixup\@)
>> 143 #endif
>> 144 0:
>> 145 ori a0, STORMASK
>> 146 xori a0, STORMASK
>> 147 PTR_ADDIU a0, STORSIZE
>> 148 #endif /* CONFIG_CPU_MIPSR6 */
>> 149 1: ori t1, a2, 0x3f /* # of full blocks */
>> 150 xori t1, 0x3f
>> 151 beqz t1, .Lmemset_partial\@ /* no block to fill */
>> 152 andi t0, a2, 0x40-STORSIZE
>> 153
>> 154 PTR_ADDU t1, a0 /* end address */
>> 155 .set reorder
>> 156 1: PTR_ADDIU a0, 64
>> 157 R10KCBARRIER(0(ra))
>> 158 f_fill64 a0, -64, FILL64RG, .Lfwd_fixup\@, \mode
>> 159 bne t1, a0, 1b
>> 160 .set noreorder
>> 161
>> 162 .Lmemset_partial\@:
>> 163 R10KCBARRIER(0(ra))
>> 164 PTR_LA t1, 2f /* where to start */
>> 165 #ifdef CONFIG_CPU_MICROMIPS
>> 166 LONG_SRL t7, t0, 1
>> 167 #endif
>> 168 #if LONGSIZE == 4
>> 169 PTR_SUBU t1, FILLPTRG
>> 170 #else
>> 171 .set noat
>> 172 LONG_SRL AT, FILLPTRG, 1
>> 173 PTR_SUBU t1, AT
>> 174 .set at
>> 175 #endif
>> 176 jr t1
>> 177 PTR_ADDU a0, t0 /* dest ptr */
>> 178
>> 179 .set push
>> 180 .set noreorder
>> 181 .set nomacro
>> 182 /* ... but first do longs ... */
>> 183 f_fill64 a0, -64, FILL64RG, .Lpartial_fixup\@, \mode
>> 184 2: .set pop
>> 185 andi a2, STORMASK /* At most one long to go */
>> 186
>> 187 beqz a2, 1f
>> 188 #ifndef CONFIG_CPU_MIPSR6
>> 189 PTR_ADDU a0, a2 /* What's left */
>> 190 R10KCBARRIER(0(ra))
>> 191 #ifdef __MIPSEB__
>> 192 EX(LONG_S_R, a1, -1(a0), .Llast_fixup\@)
>> 193 #else
>> 194 EX(LONG_S_L, a1, -1(a0), .Llast_fixup\@)
>> 195 #endif
>> 196 #else
>> 197 PTR_SUBU t0, $0, a2
>> 198 PTR_ADDIU t0, 1
>> 199 STORE_BYTE(0)
>> 200 STORE_BYTE(1)
>> 201 #if LONGSIZE == 4
>> 202 EX(sb, a1, 2(a0), .Lbyte_fixup\@)
>> 203 #else
>> 204 STORE_BYTE(2)
>> 205 STORE_BYTE(3)
>> 206 STORE_BYTE(4)
>> 207 STORE_BYTE(5)
>> 208 EX(sb, a1, 6(a0), .Lbyte_fixup\@)
>> 209 #endif
>> 210 0:
>> 211 #endif
>> 212 1: jr ra
>> 213 move a2, zero
>> 214
>> 215 .Lsmall_memset\@:
>> 216 beqz a2, 2f
>> 217 PTR_ADDU t1, a0, a2
>> 218
>> 219 1: PTR_ADDIU a0, 1 /* fill bytewise */
>> 220 R10KCBARRIER(0(ra))
>> 221 bne t1, a0, 1b
>> 222 EX(sb, a1, -1(a0), .Lsmall_fixup\@)
>> 223
>> 224 2: jr ra /* done */
>> 225 move a2, zero
>> 226 .if __memset == 1
>> 227 END(memset)
>> 228 .set __memset, 0
>> 229 .hidden __memset
>> 230 .endif
>> 231
>> 232 #ifdef CONFIG_CPU_MIPSR6
>> 233 .Lbyte_fixup\@:
>> 234 PTR_SUBU a2, $0, t0
>> 235 jr ra
>> 236 PTR_ADDIU a2, 1
>> 237 #endif /* CONFIG_CPU_MIPSR6 */
>> 238
>> 239 .Lfirst_fixup\@:
>> 240 jr ra
>> 241 nop
>> 242
>> 243 .Lfwd_fixup\@:
>> 244 PTR_L t0, TI_TASK($28)
>> 245 andi a2, 0x3f
>> 246 LONG_L t0, THREAD_BUADDR(t0)
>> 247 LONG_ADDU a2, t1
>> 248 jr ra
>> 249 LONG_SUBU a2, t0
>> 250
>> 251 .Lpartial_fixup\@:
>> 252 PTR_L t0, TI_TASK($28)
>> 253 andi a2, STORMASK
>> 254 LONG_L t0, THREAD_BUADDR(t0)
>> 255 LONG_ADDU a2, a0
>> 256 jr ra
>> 257 LONG_SUBU a2, t0
>> 258
>> 259 .Llast_fixup\@:
>> 260 jr ra
>> 261 nop
>> 262
>> 263 .Lsmall_fixup\@:
>> 264 PTR_SUBU a2, t1, a0
>> 265 jr ra
>> 266 PTR_ADDIU a2, 1
>> 267
>> 268 .endm
>> 269
>> 270 /*
>> 271 * memset(void *s, int c, size_t n)
>> 272 *
>> 273 * a0: start of area to clear
>> 274 * a1: char to fill with
>> 275 * a2: size of area to clear
>> 276 */
>> 277
>> 278 LEAF(memset)
>> 279 EXPORT_SYMBOL(memset)
>> 280 beqz a1, 1f
>> 281 move v0, a0 /* result */
>> 282
>> 283 andi a1, 0xff /* spread fillword */
>> 284 LONG_SLL t1, a1, 8
>> 285 or a1, t1
>> 286 LONG_SLL t1, a1, 16
>> 287 #if LONGSIZE == 8
>> 288 or a1, t1
>> 289 LONG_SLL t1, a1, 32
>> 290 #endif
>> 291 or a1, t1
27 1: 292 1:
28 sb a1, 0(t0) !! 293 #ifndef CONFIG_EVA
29 addi t0, t0, 1 !! 294 FEXPORT(__bzero)
30 bltu t0, a3, 1b !! 295 EXPORT_SYMBOL(__bzero)
31 sub a2, a2, a4 /* Update count */ !! 296 #else
32 !! 297 FEXPORT(__bzero_kernel)
33 2: /* Duff's device with 32 XLEN stores per it !! 298 EXPORT_SYMBOL(__bzero_kernel)
34 /* Broadcast value into all bytes */ !! 299 #endif
35 andi a1, a1, 0xff !! 300 __BUILD_BZERO LEGACY_MODE
36 slli a3, a1, 8 !! 301
37 or a1, a3, a1 !! 302 #ifdef CONFIG_EVA
38 slli a3, a1, 16 !! 303 LEAF(__bzero)
39 or a1, a3, a1 !! 304 EXPORT_SYMBOL(__bzero)
40 #ifdef CONFIG_64BIT !! 305 __BUILD_BZERO EVA_MODE
41 slli a3, a1, 32 !! 306 END(__bzero)
42 or a1, a3, a1 !! 307 #endif
43 #endif <<
44 <<
45 /* Calculate end address */ <<
46 andi a4, a2, ~(SZREG-1) <<
47 add a3, t0, a4 <<
48 <<
49 andi a4, a4, 31*SZREG /* Calculate re <<
50 beqz a4, 3f /* Shortcut if <<
51 neg a4, a4 <<
52 addi a4, a4, 32*SZREG /* Calculate in <<
53 <<
54 /* Adjust start address with offset */ <<
55 sub t0, t0, a4 <<
56 <<
57 /* Jump into loop body */ <<
58 /* Assumes 32-bit instruction lengths <<
59 la a5, 3f <<
60 #ifdef CONFIG_64BIT <<
61 srli a4, a4, 1 <<
62 #endif <<
63 add a5, a5, a4 <<
64 jr a5 <<
65 3: <<
66 REG_S a1, 0(t0) <<
67 REG_S a1, SZREG(t0) <<
68 REG_S a1, 2*SZREG(t0) <<
69 REG_S a1, 3*SZREG(t0) <<
70 REG_S a1, 4*SZREG(t0) <<
71 REG_S a1, 5*SZREG(t0) <<
72 REG_S a1, 6*SZREG(t0) <<
73 REG_S a1, 7*SZREG(t0) <<
74 REG_S a1, 8*SZREG(t0) <<
75 REG_S a1, 9*SZREG(t0) <<
76 REG_S a1, 10*SZREG(t0) <<
77 REG_S a1, 11*SZREG(t0) <<
78 REG_S a1, 12*SZREG(t0) <<
79 REG_S a1, 13*SZREG(t0) <<
80 REG_S a1, 14*SZREG(t0) <<
81 REG_S a1, 15*SZREG(t0) <<
82 REG_S a1, 16*SZREG(t0) <<
83 REG_S a1, 17*SZREG(t0) <<
84 REG_S a1, 18*SZREG(t0) <<
85 REG_S a1, 19*SZREG(t0) <<
86 REG_S a1, 20*SZREG(t0) <<
87 REG_S a1, 21*SZREG(t0) <<
88 REG_S a1, 22*SZREG(t0) <<
89 REG_S a1, 23*SZREG(t0) <<
90 REG_S a1, 24*SZREG(t0) <<
91 REG_S a1, 25*SZREG(t0) <<
92 REG_S a1, 26*SZREG(t0) <<
93 REG_S a1, 27*SZREG(t0) <<
94 REG_S a1, 28*SZREG(t0) <<
95 REG_S a1, 29*SZREG(t0) <<
96 REG_S a1, 30*SZREG(t0) <<
97 REG_S a1, 31*SZREG(t0) <<
98 addi t0, t0, 32*SZREG <<
99 bltu t0, a3, 3b <<
100 andi a2, a2, SZREG-1 /* Update count <<
101 <<
102 4: <<
103 /* Handle trailing misalignment */ <<
104 beqz a2, 6f <<
105 add a3, t0, a2 <<
106 5: <<
107 sb a1, 0(t0) <<
108 addi t0, t0, 1 <<
109 bltu t0, a3, 5b <<
110 6: <<
111 ret <<
112 SYM_FUNC_END(__memset) <<
113 SYM_FUNC_ALIAS_WEAK(memset, __memset) <<
114 SYM_FUNC_ALIAS(__pi_memset, __memset) <<
115 SYM_FUNC_ALIAS(__pi___memset, __memset) <<
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