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[mirror_ubuntu-focal-kernel.git] / arch / mips / include / asm / hazards.h
1 /*
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) 2003, 04, 07 Ralf Baechle <ralf@linux-mips.org>
7 * Copyright (C) MIPS Technologies, Inc.
8 * written by Ralf Baechle <ralf@linux-mips.org>
9 */
10 #ifndef _ASM_HAZARDS_H
11 #define _ASM_HAZARDS_H
12
13 #include <linux/stringify.h>
14 #include <asm/compiler.h>
15
16 #define ___ssnop \
17 sll $0, $0, 1
18
19 #define ___ehb \
20 sll $0, $0, 3
21
22 /*
23 * TLB hazards
24 */
25 #if (defined(CONFIG_CPU_MIPSR2) || defined(CONFIG_CPU_MIPSR6)) && \
26 !defined(CONFIG_CPU_CAVIUM_OCTEON) && !defined(CONFIG_LOONGSON3_ENHANCEMENT)
27
28 /*
29 * MIPSR2 defines ehb for hazard avoidance
30 */
31
32 #define __mtc0_tlbw_hazard \
33 ___ehb
34
35 #define __mtc0_tlbr_hazard \
36 ___ehb
37
38 #define __tlbw_use_hazard \
39 ___ehb
40
41 #define __tlb_read_hazard \
42 ___ehb
43
44 #define __tlb_probe_hazard \
45 ___ehb
46
47 #define __irq_enable_hazard \
48 ___ehb
49
50 #define __irq_disable_hazard \
51 ___ehb
52
53 #define __back_to_back_c0_hazard \
54 ___ehb
55
56 /*
57 * gcc has a tradition of misscompiling the previous construct using the
58 * address of a label as argument to inline assembler. Gas otoh has the
59 * annoying difference between la and dla which are only usable for 32-bit
60 * rsp. 64-bit code, so can't be used without conditional compilation.
61 * The alternative is switching the assembler to 64-bit code which happens
62 * to work right even for 32-bit code...
63 */
64 #define instruction_hazard() \
65 do { \
66 unsigned long tmp; \
67 \
68 __asm__ __volatile__( \
69 " .set push \n" \
70 " .set "MIPS_ISA_LEVEL" \n" \
71 " dla %0, 1f \n" \
72 " jr.hb %0 \n" \
73 " .set pop \n" \
74 "1: \n" \
75 : "=r" (tmp)); \
76 } while (0)
77
78 #elif (defined(CONFIG_CPU_MIPSR1) && !defined(CONFIG_MIPS_ALCHEMY)) || \
79 defined(CONFIG_CPU_BMIPS)
80
81 /*
82 * These are slightly complicated by the fact that we guarantee R1 kernels to
83 * run fine on R2 processors.
84 */
85
86 #define __mtc0_tlbw_hazard \
87 ___ssnop; \
88 ___ssnop; \
89 ___ehb
90
91 #define __mtc0_tlbr_hazard \
92 ___ssnop; \
93 ___ssnop; \
94 ___ehb
95
96 #define __tlbw_use_hazard \
97 ___ssnop; \
98 ___ssnop; \
99 ___ssnop; \
100 ___ehb
101
102 #define __tlb_read_hazard \
103 ___ssnop; \
104 ___ssnop; \
105 ___ssnop; \
106 ___ehb
107
108 #define __tlb_probe_hazard \
109 ___ssnop; \
110 ___ssnop; \
111 ___ssnop; \
112 ___ehb
113
114 #define __irq_enable_hazard \
115 ___ssnop; \
116 ___ssnop; \
117 ___ssnop; \
118 ___ehb
119
120 #define __irq_disable_hazard \
121 ___ssnop; \
122 ___ssnop; \
123 ___ssnop; \
124 ___ehb
125
126 #define __back_to_back_c0_hazard \
127 ___ssnop; \
128 ___ssnop; \
129 ___ssnop; \
130 ___ehb
131
132 /*
133 * gcc has a tradition of misscompiling the previous construct using the
134 * address of a label as argument to inline assembler. Gas otoh has the
135 * annoying difference between la and dla which are only usable for 32-bit
136 * rsp. 64-bit code, so can't be used without conditional compilation.
137 * The alternative is switching the assembler to 64-bit code which happens
138 * to work right even for 32-bit code...
139 */
140 #define __instruction_hazard() \
141 do { \
142 unsigned long tmp; \
143 \
144 __asm__ __volatile__( \
145 " .set push \n" \
146 " .set mips64r2 \n" \
147 " dla %0, 1f \n" \
148 " jr.hb %0 \n" \
149 " .set pop \n" \
150 "1: \n" \
151 : "=r" (tmp)); \
152 } while (0)
153
154 #define instruction_hazard() \
155 do { \
156 if (cpu_has_mips_r2_r6) \
157 __instruction_hazard(); \
158 } while (0)
159
160 #elif defined(CONFIG_MIPS_ALCHEMY) || defined(CONFIG_CPU_CAVIUM_OCTEON) || \
161 defined(CONFIG_CPU_LOONGSON2) || defined(CONFIG_LOONGSON3_ENHANCEMENT) || \
162 defined(CONFIG_CPU_R10000) || defined(CONFIG_CPU_R5500) || defined(CONFIG_CPU_XLR)
163
164 /*
165 * R10000 rocks - all hazards handled in hardware, so this becomes a nobrainer.
166 */
167
168 #define __mtc0_tlbw_hazard
169
170 #define __mtc0_tlbr_hazard
171
172 #define __tlbw_use_hazard
173
174 #define __tlb_read_hazard
175
176 #define __tlb_probe_hazard
177
178 #define __irq_enable_hazard
179
180 #define __irq_disable_hazard
181
182 #define __back_to_back_c0_hazard
183
184 #define instruction_hazard() do { } while (0)
185
186 #elif defined(CONFIG_CPU_SB1)
187
188 /*
189 * Mostly like R4000 for historic reasons
190 */
191 #define __mtc0_tlbw_hazard
192
193 #define __mtc0_tlbr_hazard
194
195 #define __tlbw_use_hazard
196
197 #define __tlb_read_hazard
198
199 #define __tlb_probe_hazard
200
201 #define __irq_enable_hazard
202
203 #define __irq_disable_hazard \
204 ___ssnop; \
205 ___ssnop; \
206 ___ssnop
207
208 #define __back_to_back_c0_hazard
209
210 #define instruction_hazard() do { } while (0)
211
212 #else
213
214 /*
215 * Finally the catchall case for all other processors including R4000, R4400,
216 * R4600, R4700, R5000, RM7000, NEC VR41xx etc.
217 *
218 * The taken branch will result in a two cycle penalty for the two killed
219 * instructions on R4000 / R4400. Other processors only have a single cycle
220 * hazard so this is nice trick to have an optimal code for a range of
221 * processors.
222 */
223 #define __mtc0_tlbw_hazard \
224 nop; \
225 nop
226
227 #define __mtc0_tlbr_hazard \
228 nop; \
229 nop
230
231 #define __tlbw_use_hazard \
232 nop; \
233 nop; \
234 nop
235
236 #define __tlb_read_hazard \
237 nop; \
238 nop; \
239 nop
240
241 #define __tlb_probe_hazard \
242 nop; \
243 nop; \
244 nop
245
246 #define __irq_enable_hazard \
247 ___ssnop; \
248 ___ssnop; \
249 ___ssnop
250
251 #define __irq_disable_hazard \
252 nop; \
253 nop; \
254 nop
255
256 #define __back_to_back_c0_hazard \
257 ___ssnop; \
258 ___ssnop; \
259 ___ssnop
260
261 #define instruction_hazard() do { } while (0)
262
263 #endif
264
265
266 /* FPU hazards */
267
268 #if defined(CONFIG_CPU_SB1)
269
270 #define __enable_fpu_hazard \
271 .set push; \
272 .set mips64; \
273 .set noreorder; \
274 ___ssnop; \
275 bnezl $0, .+4; \
276 ___ssnop; \
277 .set pop
278
279 #define __disable_fpu_hazard
280
281 #elif defined(CONFIG_CPU_MIPSR2) || defined(CONFIG_CPU_MIPSR6)
282
283 #define __enable_fpu_hazard \
284 ___ehb
285
286 #define __disable_fpu_hazard \
287 ___ehb
288
289 #else
290
291 #define __enable_fpu_hazard \
292 nop; \
293 nop; \
294 nop; \
295 nop
296
297 #define __disable_fpu_hazard \
298 ___ehb
299
300 #endif
301
302 #ifdef __ASSEMBLY__
303
304 #define _ssnop ___ssnop
305 #define _ehb ___ehb
306 #define mtc0_tlbw_hazard __mtc0_tlbw_hazard
307 #define mtc0_tlbr_hazard __mtc0_tlbr_hazard
308 #define tlbw_use_hazard __tlbw_use_hazard
309 #define tlb_read_hazard __tlb_read_hazard
310 #define tlb_probe_hazard __tlb_probe_hazard
311 #define irq_enable_hazard __irq_enable_hazard
312 #define irq_disable_hazard __irq_disable_hazard
313 #define back_to_back_c0_hazard __back_to_back_c0_hazard
314 #define enable_fpu_hazard __enable_fpu_hazard
315 #define disable_fpu_hazard __disable_fpu_hazard
316
317 #else
318
319 #define _ssnop() \
320 do { \
321 __asm__ __volatile__( \
322 __stringify(___ssnop) \
323 ); \
324 } while (0)
325
326 #define _ehb() \
327 do { \
328 __asm__ __volatile__( \
329 __stringify(___ehb) \
330 ); \
331 } while (0)
332
333
334 #define mtc0_tlbw_hazard() \
335 do { \
336 __asm__ __volatile__( \
337 __stringify(__mtc0_tlbw_hazard) \
338 ); \
339 } while (0)
340
341
342 #define mtc0_tlbr_hazard() \
343 do { \
344 __asm__ __volatile__( \
345 __stringify(__mtc0_tlbr_hazard) \
346 ); \
347 } while (0)
348
349
350 #define tlbw_use_hazard() \
351 do { \
352 __asm__ __volatile__( \
353 __stringify(__tlbw_use_hazard) \
354 ); \
355 } while (0)
356
357
358 #define tlb_read_hazard() \
359 do { \
360 __asm__ __volatile__( \
361 __stringify(__tlb_read_hazard) \
362 ); \
363 } while (0)
364
365
366 #define tlb_probe_hazard() \
367 do { \
368 __asm__ __volatile__( \
369 __stringify(__tlb_probe_hazard) \
370 ); \
371 } while (0)
372
373
374 #define irq_enable_hazard() \
375 do { \
376 __asm__ __volatile__( \
377 __stringify(__irq_enable_hazard) \
378 ); \
379 } while (0)
380
381
382 #define irq_disable_hazard() \
383 do { \
384 __asm__ __volatile__( \
385 __stringify(__irq_disable_hazard) \
386 ); \
387 } while (0)
388
389
390 #define back_to_back_c0_hazard() \
391 do { \
392 __asm__ __volatile__( \
393 __stringify(__back_to_back_c0_hazard) \
394 ); \
395 } while (0)
396
397
398 #define enable_fpu_hazard() \
399 do { \
400 __asm__ __volatile__( \
401 __stringify(__enable_fpu_hazard) \
402 ); \
403 } while (0)
404
405
406 #define disable_fpu_hazard() \
407 do { \
408 __asm__ __volatile__( \
409 __stringify(__disable_fpu_hazard) \
410 ); \
411 } while (0)
412
413 /*
414 * MIPS R2 instruction hazard barrier. Needs to be called as a subroutine.
415 */
416 extern void mips_ihb(void);
417
418 #endif /* __ASSEMBLY__ */
419
420 #endif /* _ASM_HAZARDS_H */
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