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BRT: Clear bv_entcount_dirty on destroy
[zfs.git] / module / zfs / vdev_raidz_math_avx512bw.c
blob3b709ed34fc469f939e129e03464f35e3c2d2288
1 /*
2 * CDDL HEADER START
3 *
4 * The contents of this file are subject to the terms of the
5 * Common Development and Distribution License (the "License").
6 * You may not use this file except in compliance with the License.
7 *
8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9 * or https://opensource.org/licenses/CDDL-1.0.
10 * See the License for the specific language governing permissions
11 * and limitations under the License.
12 *
13 * When distributing Covered Code, include this CDDL HEADER in each
14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15 * If applicable, add the following below this CDDL HEADER, with the
16 * fields enclosed by brackets "[]" replaced with your own identifying
17 * information: Portions Copyright [yyyy] [name of copyright owner]
18 *
19 * CDDL HEADER END
20 */
21 /*
22 * Copyright (C) 2016 Romain Dolbeau. All rights reserved.
23 * Copyright (C) 2016 Gvozden Nešković. All rights reserved.
24 */
25
26 #include <sys/isa_defs.h>
27
28 #if defined(__x86_64) && defined(HAVE_AVX512BW)
29
30 #include <sys/param.h>
31 #include <sys/types.h>
32 #include <sys/simd.h>
33
34
35 #ifdef __linux__
36 #define __asm __asm__ __volatile__
37 #endif
38
39 #define _REG_CNT(_0, _1, _2, _3, _4, _5, _6, _7, N, ...) N
40 #define REG_CNT(r...) _REG_CNT(r, 8, 7, 6, 5, 4, 3, 2, 1)
41
42 #define VR0_(REG, ...) "zmm"#REG
43 #define VR1_(_1, REG, ...) "zmm"#REG
44 #define VR2_(_1, _2, REG, ...) "zmm"#REG
45 #define VR3_(_1, _2, _3, REG, ...) "zmm"#REG
46 #define VR4_(_1, _2, _3, _4, REG, ...) "zmm"#REG
47 #define VR5_(_1, _2, _3, _4, _5, REG, ...) "zmm"#REG
48 #define VR6_(_1, _2, _3, _4, _5, _6, REG, ...) "zmm"#REG
49 #define VR7_(_1, _2, _3, _4, _5, _6, _7, REG, ...) "zmm"#REG
50
51 #define VR0(r...) VR0_(r)
52 #define VR1(r...) VR1_(r)
53 #define VR2(r...) VR2_(r, 1)
54 #define VR3(r...) VR3_(r, 1, 2)
55 #define VR4(r...) VR4_(r, 1, 2)
56 #define VR5(r...) VR5_(r, 1, 2, 3)
57 #define VR6(r...) VR6_(r, 1, 2, 3, 4)
58 #define VR7(r...) VR7_(r, 1, 2, 3, 4, 5)
59
60 #define R_01(REG1, REG2, ...) REG1, REG2
61 #define _R_23(_0, _1, REG2, REG3, ...) REG2, REG3
62 #define R_23(REG...) _R_23(REG, 1, 2, 3)
63
64 #define ZFS_ASM_BUG() ASSERT(0)
65
66 extern const uint8_t gf_clmul_mod_lt[4*256][16];
67
68 #define ELEM_SIZE 64
69
70 typedef struct v {
71 uint8_t b[ELEM_SIZE] __attribute__((aligned(ELEM_SIZE)));
72 } v_t;
73
74 #define XOR_ACC(src, r...) \
75 { \
76 switch (REG_CNT(r)) { \
77 case 4: \
78 __asm( \
79 "vpxorq 0x00(%[SRC]), %%" VR0(r)", %%" VR0(r) "\n" \
80 "vpxorq 0x40(%[SRC]), %%" VR1(r)", %%" VR1(r) "\n" \
81 "vpxorq 0x80(%[SRC]), %%" VR2(r)", %%" VR2(r) "\n" \
82 "vpxorq 0xc0(%[SRC]), %%" VR3(r)", %%" VR3(r) "\n" \
83 : : [SRC] "r" (src)); \
84 break; \
85 case 2: \
86 __asm( \
87 "vpxorq 0x00(%[SRC]), %%" VR0(r)", %%" VR0(r) "\n" \
88 "vpxorq 0x40(%[SRC]), %%" VR1(r)", %%" VR1(r) "\n" \
89 : : [SRC] "r" (src)); \
90 break; \
91 default: \
92 ZFS_ASM_BUG(); \
93 } \
94 }
95
96 #define XOR(r...) \
97 { \
98 switch (REG_CNT(r)) { \
99 case 8: \
100 __asm( \
101 "vpxorq %" VR0(r) ", %" VR4(r)", %" VR4(r) "\n" \
102 "vpxorq %" VR1(r) ", %" VR5(r)", %" VR5(r) "\n" \
103 "vpxorq %" VR2(r) ", %" VR6(r)", %" VR6(r) "\n" \
104 "vpxorq %" VR3(r) ", %" VR7(r)", %" VR7(r)); \
105 break; \
106 case 4: \
107 __asm( \
108 "vpxorq %" VR0(r) ", %" VR2(r)", %" VR2(r) "\n" \
109 "vpxorq %" VR1(r) ", %" VR3(r)", %" VR3(r)); \
110 break; \
111 default: \
112 ZFS_ASM_BUG(); \
113 } \
114 }
115
116 #define ZERO(r...) XOR(r, r)
117
118 #define COPY(r...) \
119 { \
120 switch (REG_CNT(r)) { \
121 case 8: \
122 __asm( \
123 "vmovdqa64 %" VR0(r) ", %" VR4(r) "\n" \
124 "vmovdqa64 %" VR1(r) ", %" VR5(r) "\n" \
125 "vmovdqa64 %" VR2(r) ", %" VR6(r) "\n" \
126 "vmovdqa64 %" VR3(r) ", %" VR7(r)); \
127 break; \
128 case 4: \
129 __asm( \
130 "vmovdqa64 %" VR0(r) ", %" VR2(r) "\n" \
131 "vmovdqa64 %" VR1(r) ", %" VR3(r)); \
132 break; \
133 default: \
134 ZFS_ASM_BUG(); \
135 } \
136 }
137
138 #define LOAD(src, r...) \
139 { \
140 switch (REG_CNT(r)) { \
141 case 4: \
142 __asm( \
143 "vmovdqa64 0x00(%[SRC]), %%" VR0(r) "\n" \
144 "vmovdqa64 0x40(%[SRC]), %%" VR1(r) "\n" \
145 "vmovdqa64 0x80(%[SRC]), %%" VR2(r) "\n" \
146 "vmovdqa64 0xc0(%[SRC]), %%" VR3(r) "\n" \
147 : : [SRC] "r" (src)); \
148 break; \
149 case 2: \
150 __asm( \
151 "vmovdqa64 0x00(%[SRC]), %%" VR0(r) "\n" \
152 "vmovdqa64 0x40(%[SRC]), %%" VR1(r) "\n" \
153 : : [SRC] "r" (src)); \
154 break; \
155 default: \
156 ZFS_ASM_BUG(); \
157 } \
158 }
159
160 #define STORE(dst, r...) \
161 { \
162 switch (REG_CNT(r)) { \
163 case 4: \
164 __asm( \
165 "vmovdqa64 %%" VR0(r) ", 0x00(%[DST])\n" \
166 "vmovdqa64 %%" VR1(r) ", 0x40(%[DST])\n" \
167 "vmovdqa64 %%" VR2(r) ", 0x80(%[DST])\n" \
168 "vmovdqa64 %%" VR3(r) ", 0xc0(%[DST])\n" \
169 : : [DST] "r" (dst)); \
170 break; \
171 case 2: \
172 __asm( \
173 "vmovdqa64 %%" VR0(r) ", 0x00(%[DST])\n" \
174 "vmovdqa64 %%" VR1(r) ", 0x40(%[DST])\n" \
175 : : [DST] "r" (dst)); \
176 break; \
177 default: \
178 ZFS_ASM_BUG(); \
179 } \
180 }
181
182 #define MUL2_SETUP() \
183 { \
184 __asm("vmovq %0, %%xmm22" :: "r"(0x1d1d1d1d1d1d1d1d)); \
185 __asm("vpbroadcastq %xmm22, %zmm22"); \
186 __asm("vpxord %zmm23, %zmm23 ,%zmm23"); \
187 }
188
189 #define _MUL2(r...) \
190 { \
191 switch (REG_CNT(r)) { \
192 case 2: \
193 __asm( \
194 "vpcmpb $1, %zmm23, %" VR0(r)", %k1\n" \
195 "vpcmpb $1, %zmm23, %" VR1(r)", %k2\n" \
196 "vpaddb %" VR0(r)", %" VR0(r)", %" VR0(r) "\n" \
197 "vpaddb %" VR1(r)", %" VR1(r)", %" VR1(r) "\n" \
198 "vpxord %zmm22, %" VR0(r)", %zmm12\n" \
199 "vpxord %zmm22, %" VR1(r)", %zmm13\n" \
200 "vmovdqu8 %zmm12, %" VR0(r) "{%k1}\n" \
201 "vmovdqu8 %zmm13, %" VR1(r) "{%k2}"); \
202 break; \
203 default: \
204 ZFS_ASM_BUG(); \
205 } \
206 }
207
208 #define MUL2(r...) \
209 { \
210 switch (REG_CNT(r)) { \
211 case 4: \
212 _MUL2(R_01(r)); \
213 _MUL2(R_23(r)); \
214 break; \
215 case 2: \
216 _MUL2(r); \
217 break; \
218 default: \
219 ZFS_ASM_BUG(); \
220 } \
221 }
222
223 #define MUL4(r...) \
224 { \
225 MUL2(r); \
226 MUL2(r); \
227 }
228
229 #define _0f "zmm15"
230 #define _as "zmm14"
231 #define _bs "zmm13"
232 #define _ltmod "zmm12"
233 #define _ltmul "zmm11"
234 #define _ta "zmm10"
235 #define _tb "zmm15"
236
237 static const uint8_t __attribute__((aligned(64))) _mul_mask = 0x0F;
238
239 #define _MULx2(c, r...) \
240 { \
241 switch (REG_CNT(r)) { \
242 case 2: \
243 __asm( \
244 "vpbroadcastb (%[mask]), %%" _0f "\n" \
245 /* upper bits */ \
246 "vbroadcasti32x4 0x00(%[lt]), %%" _ltmod "\n" \
247 "vbroadcasti32x4 0x10(%[lt]), %%" _ltmul "\n" \
248 \
249 "vpsraw $0x4, %%" VR0(r) ", %%"_as "\n" \
250 "vpsraw $0x4, %%" VR1(r) ", %%"_bs "\n" \
251 "vpandq %%" _0f ", %%" VR0(r) ", %%" VR0(r) "\n" \
252 "vpandq %%" _0f ", %%" VR1(r) ", %%" VR1(r) "\n" \
253 "vpandq %%" _0f ", %%" _as ", %%" _as "\n" \
254 "vpandq %%" _0f ", %%" _bs ", %%" _bs "\n" \
255 \
256 "vpshufb %%" _as ", %%" _ltmod ", %%" _ta "\n" \
257 "vpshufb %%" _bs ", %%" _ltmod ", %%" _tb "\n" \
258 "vpshufb %%" _as ", %%" _ltmul ", %%" _as "\n" \
259 "vpshufb %%" _bs ", %%" _ltmul ", %%" _bs "\n" \
260 /* lower bits */ \
261 "vbroadcasti32x4 0x20(%[lt]), %%" _ltmod "\n" \
262 "vbroadcasti32x4 0x30(%[lt]), %%" _ltmul "\n" \
263 \
264 "vpxorq %%" _ta ", %%" _as ", %%" _as "\n" \
265 "vpxorq %%" _tb ", %%" _bs ", %%" _bs "\n" \
266 \
267 "vpshufb %%" VR0(r) ", %%" _ltmod ", %%" _ta "\n" \
268 "vpshufb %%" VR1(r) ", %%" _ltmod ", %%" _tb "\n" \
269 "vpshufb %%" VR0(r) ", %%" _ltmul ", %%" VR0(r) "\n"\
270 "vpshufb %%" VR1(r) ", %%" _ltmul ", %%" VR1(r) "\n"\
271 \
272 "vpxorq %%" _ta ", %%" VR0(r) ", %%" VR0(r) "\n" \
273 "vpxorq %%" _as ", %%" VR0(r) ", %%" VR0(r) "\n" \
274 "vpxorq %%" _tb ", %%" VR1(r) ", %%" VR1(r) "\n" \
275 "vpxorq %%" _bs ", %%" VR1(r) ", %%" VR1(r) "\n" \
276 : : [mask] "r" (&_mul_mask), \
277 [lt] "r" (gf_clmul_mod_lt[4*(c)])); \
278 break; \
279 default: \
280 ZFS_ASM_BUG(); \
281 } \
282 }
283
284 #define MUL(c, r...) \
285 { \
286 switch (REG_CNT(r)) { \
287 case 4: \
288 _MULx2(c, R_01(r)); \
289 _MULx2(c, R_23(r)); \
290 break; \
291 case 2: \
292 _MULx2(c, R_01(r)); \
293 break; \
294 default: \
295 ZFS_ASM_BUG(); \
296 } \
297 }
298
299 #define raidz_math_begin() kfpu_begin()
300 #define raidz_math_end() kfpu_end()
301
302 /*
303 * ZERO, COPY, and MUL operations are already 2x unrolled, which means that
304 * the stride of these operations for avx512 must not exceed 4. Otherwise, a
305 * single step would exceed 512B block size.
306 */
307
308 #define SYN_STRIDE 4
309
310 #define ZERO_STRIDE 4
311 #define ZERO_DEFINE() {}
312 #define ZERO_D 0, 1, 2, 3
313
314 #define COPY_STRIDE 4
315 #define COPY_DEFINE() {}
316 #define COPY_D 0, 1, 2, 3
317
318 #define ADD_STRIDE 4
319 #define ADD_DEFINE() {}
320 #define ADD_D 0, 1, 2, 3
321
322 #define MUL_STRIDE 4
323 #define MUL_DEFINE() {}
324 #define MUL_D 0, 1, 2, 3
325
326 #define GEN_P_STRIDE 4
327 #define GEN_P_DEFINE() {}
328 #define GEN_P_P 0, 1, 2, 3
329
330 #define GEN_PQ_STRIDE 4
331 #define GEN_PQ_DEFINE() {}
332 #define GEN_PQ_D 0, 1, 2, 3
333 #define GEN_PQ_C 4, 5, 6, 7
334
335 #define GEN_PQR_STRIDE 4
336 #define GEN_PQR_DEFINE() {}
337 #define GEN_PQR_D 0, 1, 2, 3
338 #define GEN_PQR_C 4, 5, 6, 7
339
340 #define SYN_Q_DEFINE() {}
341 #define SYN_Q_D 0, 1, 2, 3
342 #define SYN_Q_X 4, 5, 6, 7
343
344 #define SYN_R_DEFINE() {}
345 #define SYN_R_D 0, 1, 2, 3
346 #define SYN_R_X 4, 5, 6, 7
347
348 #define SYN_PQ_DEFINE() {}
349 #define SYN_PQ_D 0, 1, 2, 3
350 #define SYN_PQ_X 4, 5, 6, 7
351
352 #define REC_PQ_STRIDE 2
353 #define REC_PQ_DEFINE() {}
354 #define REC_PQ_X 0, 1
355 #define REC_PQ_Y 2, 3
356 #define REC_PQ_T 4, 5
357
358 #define SYN_PR_DEFINE() {}
359 #define SYN_PR_D 0, 1, 2, 3
360 #define SYN_PR_X 4, 5, 6, 7
361
362 #define REC_PR_STRIDE 2
363 #define REC_PR_DEFINE() {}
364 #define REC_PR_X 0, 1
365 #define REC_PR_Y 2, 3
366 #define REC_PR_T 4, 5
367
368 #define SYN_QR_DEFINE() {}
369 #define SYN_QR_D 0, 1, 2, 3
370 #define SYN_QR_X 4, 5, 6, 7
371
372 #define REC_QR_STRIDE 2
373 #define REC_QR_DEFINE() {}
374 #define REC_QR_X 0, 1
375 #define REC_QR_Y 2, 3
376 #define REC_QR_T 4, 5
377
378 #define SYN_PQR_DEFINE() {}
379 #define SYN_PQR_D 0, 1, 2, 3
380 #define SYN_PQR_X 4, 5, 6, 7
381
382 #define REC_PQR_STRIDE 2
383 #define REC_PQR_DEFINE() {}
384 #define REC_PQR_X 0, 1
385 #define REC_PQR_Y 2, 3
386 #define REC_PQR_Z 4, 5
387 #define REC_PQR_XS 6, 7
388 #define REC_PQR_YS 8, 9
389
390
391 #include <sys/vdev_raidz_impl.h>
392 #include "vdev_raidz_math_impl.h"
393
394 DEFINE_GEN_METHODS(avx512bw);
395 DEFINE_REC_METHODS(avx512bw);
396
397 static boolean_t
398 raidz_will_avx512bw_work(void)
399 {
400 return (kfpu_allowed() && zfs_avx_available() &&
401 zfs_avx512f_available() && zfs_avx512bw_available());
402 }
403
404 const raidz_impl_ops_t vdev_raidz_avx512bw_impl = {
405 .init = NULL,
406 .fini = NULL,
407 .gen = RAIDZ_GEN_METHODS(avx512bw),
408 .rec = RAIDZ_REC_METHODS(avx512bw),
409 .is_supported = &raidz_will_avx512bw_work,
410 .name = "avx512bw"
411 };
412
413 #endif /* defined(__x86_64) && defined(HAVE_AVX512BW) */
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