loongarch_simd.c 13 KB

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  1. // SPDX-License-Identifier: GPL-2.0-or-later
  2. /*
  3. * RAID6 syndrome calculations in LoongArch SIMD (LSX & LASX)
  4. *
  5. * Copyright 2023 WANG Xuerui <git@xen0n.name>
  6. *
  7. * Based on the generic RAID-6 code (int.uc):
  8. *
  9. * Copyright 2002-2004 H. Peter Anvin
  10. */
  11. #include <linux/raid/pq.h>
  12. #include "loongarch.h"
  13. /*
  14. * The vector algorithms are currently priority 0, which means the generic
  15. * scalar algorithms are not being disabled if vector support is present.
  16. * This is like the similar LoongArch RAID5 XOR code, with the main reason
  17. * repeated here: it cannot be ruled out at this point of time, that some
  18. * future (maybe reduced) models could run the vector algorithms slower than
  19. * the scalar ones, maybe for errata or micro-op reasons. It may be
  20. * appropriate to revisit this after one or two more uarch generations.
  21. */
  22. #ifdef CONFIG_CPU_HAS_LSX
  23. #define NSIZE 16
  24. static int raid6_has_lsx(void)
  25. {
  26. return cpu_has_lsx;
  27. }
  28. static void raid6_lsx_gen_syndrome(int disks, size_t bytes, void **ptrs)
  29. {
  30. u8 **dptr = (u8 **)ptrs;
  31. u8 *p, *q;
  32. int d, z, z0;
  33. z0 = disks - 3; /* Highest data disk */
  34. p = dptr[z0+1]; /* XOR parity */
  35. q = dptr[z0+2]; /* RS syndrome */
  36. kernel_fpu_begin();
  37. /*
  38. * $vr0, $vr1, $vr2, $vr3: wp
  39. * $vr4, $vr5, $vr6, $vr7: wq
  40. * $vr8, $vr9, $vr10, $vr11: wd
  41. * $vr12, $vr13, $vr14, $vr15: w2
  42. * $vr16, $vr17, $vr18, $vr19: w1
  43. */
  44. for (d = 0; d < bytes; d += NSIZE*4) {
  45. /* wq$$ = wp$$ = *(unative_t *)&dptr[z0][d+$$*NSIZE]; */
  46. asm volatile("vld $vr0, %0" : : "m"(dptr[z0][d+0*NSIZE]));
  47. asm volatile("vld $vr1, %0" : : "m"(dptr[z0][d+1*NSIZE]));
  48. asm volatile("vld $vr2, %0" : : "m"(dptr[z0][d+2*NSIZE]));
  49. asm volatile("vld $vr3, %0" : : "m"(dptr[z0][d+3*NSIZE]));
  50. asm volatile("vori.b $vr4, $vr0, 0");
  51. asm volatile("vori.b $vr5, $vr1, 0");
  52. asm volatile("vori.b $vr6, $vr2, 0");
  53. asm volatile("vori.b $vr7, $vr3, 0");
  54. for (z = z0-1; z >= 0; z--) {
  55. /* wd$$ = *(unative_t *)&dptr[z][d+$$*NSIZE]; */
  56. asm volatile("vld $vr8, %0" : : "m"(dptr[z][d+0*NSIZE]));
  57. asm volatile("vld $vr9, %0" : : "m"(dptr[z][d+1*NSIZE]));
  58. asm volatile("vld $vr10, %0" : : "m"(dptr[z][d+2*NSIZE]));
  59. asm volatile("vld $vr11, %0" : : "m"(dptr[z][d+3*NSIZE]));
  60. /* wp$$ ^= wd$$; */
  61. asm volatile("vxor.v $vr0, $vr0, $vr8");
  62. asm volatile("vxor.v $vr1, $vr1, $vr9");
  63. asm volatile("vxor.v $vr2, $vr2, $vr10");
  64. asm volatile("vxor.v $vr3, $vr3, $vr11");
  65. /* w2$$ = MASK(wq$$); */
  66. asm volatile("vslti.b $vr12, $vr4, 0");
  67. asm volatile("vslti.b $vr13, $vr5, 0");
  68. asm volatile("vslti.b $vr14, $vr6, 0");
  69. asm volatile("vslti.b $vr15, $vr7, 0");
  70. /* w1$$ = SHLBYTE(wq$$); */
  71. asm volatile("vslli.b $vr16, $vr4, 1");
  72. asm volatile("vslli.b $vr17, $vr5, 1");
  73. asm volatile("vslli.b $vr18, $vr6, 1");
  74. asm volatile("vslli.b $vr19, $vr7, 1");
  75. /* w2$$ &= NBYTES(0x1d); */
  76. asm volatile("vandi.b $vr12, $vr12, 0x1d");
  77. asm volatile("vandi.b $vr13, $vr13, 0x1d");
  78. asm volatile("vandi.b $vr14, $vr14, 0x1d");
  79. asm volatile("vandi.b $vr15, $vr15, 0x1d");
  80. /* w1$$ ^= w2$$; */
  81. asm volatile("vxor.v $vr16, $vr16, $vr12");
  82. asm volatile("vxor.v $vr17, $vr17, $vr13");
  83. asm volatile("vxor.v $vr18, $vr18, $vr14");
  84. asm volatile("vxor.v $vr19, $vr19, $vr15");
  85. /* wq$$ = w1$$ ^ wd$$; */
  86. asm volatile("vxor.v $vr4, $vr16, $vr8");
  87. asm volatile("vxor.v $vr5, $vr17, $vr9");
  88. asm volatile("vxor.v $vr6, $vr18, $vr10");
  89. asm volatile("vxor.v $vr7, $vr19, $vr11");
  90. }
  91. /* *(unative_t *)&p[d+NSIZE*$$] = wp$$; */
  92. asm volatile("vst $vr0, %0" : "=m"(p[d+NSIZE*0]));
  93. asm volatile("vst $vr1, %0" : "=m"(p[d+NSIZE*1]));
  94. asm volatile("vst $vr2, %0" : "=m"(p[d+NSIZE*2]));
  95. asm volatile("vst $vr3, %0" : "=m"(p[d+NSIZE*3]));
  96. /* *(unative_t *)&q[d+NSIZE*$$] = wq$$; */
  97. asm volatile("vst $vr4, %0" : "=m"(q[d+NSIZE*0]));
  98. asm volatile("vst $vr5, %0" : "=m"(q[d+NSIZE*1]));
  99. asm volatile("vst $vr6, %0" : "=m"(q[d+NSIZE*2]));
  100. asm volatile("vst $vr7, %0" : "=m"(q[d+NSIZE*3]));
  101. }
  102. kernel_fpu_end();
  103. }
  104. static void raid6_lsx_xor_syndrome(int disks, int start, int stop,
  105. size_t bytes, void **ptrs)
  106. {
  107. u8 **dptr = (u8 **)ptrs;
  108. u8 *p, *q;
  109. int d, z, z0;
  110. z0 = stop; /* P/Q right side optimization */
  111. p = dptr[disks-2]; /* XOR parity */
  112. q = dptr[disks-1]; /* RS syndrome */
  113. kernel_fpu_begin();
  114. /*
  115. * $vr0, $vr1, $vr2, $vr3: wp
  116. * $vr4, $vr5, $vr6, $vr7: wq
  117. * $vr8, $vr9, $vr10, $vr11: wd
  118. * $vr12, $vr13, $vr14, $vr15: w2
  119. * $vr16, $vr17, $vr18, $vr19: w1
  120. */
  121. for (d = 0; d < bytes; d += NSIZE*4) {
  122. /* P/Q data pages */
  123. /* wq$$ = wp$$ = *(unative_t *)&dptr[z0][d+$$*NSIZE]; */
  124. asm volatile("vld $vr0, %0" : : "m"(dptr[z0][d+0*NSIZE]));
  125. asm volatile("vld $vr1, %0" : : "m"(dptr[z0][d+1*NSIZE]));
  126. asm volatile("vld $vr2, %0" : : "m"(dptr[z0][d+2*NSIZE]));
  127. asm volatile("vld $vr3, %0" : : "m"(dptr[z0][d+3*NSIZE]));
  128. asm volatile("vori.b $vr4, $vr0, 0");
  129. asm volatile("vori.b $vr5, $vr1, 0");
  130. asm volatile("vori.b $vr6, $vr2, 0");
  131. asm volatile("vori.b $vr7, $vr3, 0");
  132. for (z = z0-1; z >= start; z--) {
  133. /* wd$$ = *(unative_t *)&dptr[z][d+$$*NSIZE]; */
  134. asm volatile("vld $vr8, %0" : : "m"(dptr[z][d+0*NSIZE]));
  135. asm volatile("vld $vr9, %0" : : "m"(dptr[z][d+1*NSIZE]));
  136. asm volatile("vld $vr10, %0" : : "m"(dptr[z][d+2*NSIZE]));
  137. asm volatile("vld $vr11, %0" : : "m"(dptr[z][d+3*NSIZE]));
  138. /* wp$$ ^= wd$$; */
  139. asm volatile("vxor.v $vr0, $vr0, $vr8");
  140. asm volatile("vxor.v $vr1, $vr1, $vr9");
  141. asm volatile("vxor.v $vr2, $vr2, $vr10");
  142. asm volatile("vxor.v $vr3, $vr3, $vr11");
  143. /* w2$$ = MASK(wq$$); */
  144. asm volatile("vslti.b $vr12, $vr4, 0");
  145. asm volatile("vslti.b $vr13, $vr5, 0");
  146. asm volatile("vslti.b $vr14, $vr6, 0");
  147. asm volatile("vslti.b $vr15, $vr7, 0");
  148. /* w1$$ = SHLBYTE(wq$$); */
  149. asm volatile("vslli.b $vr16, $vr4, 1");
  150. asm volatile("vslli.b $vr17, $vr5, 1");
  151. asm volatile("vslli.b $vr18, $vr6, 1");
  152. asm volatile("vslli.b $vr19, $vr7, 1");
  153. /* w2$$ &= NBYTES(0x1d); */
  154. asm volatile("vandi.b $vr12, $vr12, 0x1d");
  155. asm volatile("vandi.b $vr13, $vr13, 0x1d");
  156. asm volatile("vandi.b $vr14, $vr14, 0x1d");
  157. asm volatile("vandi.b $vr15, $vr15, 0x1d");
  158. /* w1$$ ^= w2$$; */
  159. asm volatile("vxor.v $vr16, $vr16, $vr12");
  160. asm volatile("vxor.v $vr17, $vr17, $vr13");
  161. asm volatile("vxor.v $vr18, $vr18, $vr14");
  162. asm volatile("vxor.v $vr19, $vr19, $vr15");
  163. /* wq$$ = w1$$ ^ wd$$; */
  164. asm volatile("vxor.v $vr4, $vr16, $vr8");
  165. asm volatile("vxor.v $vr5, $vr17, $vr9");
  166. asm volatile("vxor.v $vr6, $vr18, $vr10");
  167. asm volatile("vxor.v $vr7, $vr19, $vr11");
  168. }
  169. /* P/Q left side optimization */
  170. for (z = start-1; z >= 0; z--) {
  171. /* w2$$ = MASK(wq$$); */
  172. asm volatile("vslti.b $vr12, $vr4, 0");
  173. asm volatile("vslti.b $vr13, $vr5, 0");
  174. asm volatile("vslti.b $vr14, $vr6, 0");
  175. asm volatile("vslti.b $vr15, $vr7, 0");
  176. /* w1$$ = SHLBYTE(wq$$); */
  177. asm volatile("vslli.b $vr16, $vr4, 1");
  178. asm volatile("vslli.b $vr17, $vr5, 1");
  179. asm volatile("vslli.b $vr18, $vr6, 1");
  180. asm volatile("vslli.b $vr19, $vr7, 1");
  181. /* w2$$ &= NBYTES(0x1d); */
  182. asm volatile("vandi.b $vr12, $vr12, 0x1d");
  183. asm volatile("vandi.b $vr13, $vr13, 0x1d");
  184. asm volatile("vandi.b $vr14, $vr14, 0x1d");
  185. asm volatile("vandi.b $vr15, $vr15, 0x1d");
  186. /* wq$$ = w1$$ ^ w2$$; */
  187. asm volatile("vxor.v $vr4, $vr16, $vr12");
  188. asm volatile("vxor.v $vr5, $vr17, $vr13");
  189. asm volatile("vxor.v $vr6, $vr18, $vr14");
  190. asm volatile("vxor.v $vr7, $vr19, $vr15");
  191. }
  192. /*
  193. * *(unative_t *)&p[d+NSIZE*$$] ^= wp$$;
  194. * *(unative_t *)&q[d+NSIZE*$$] ^= wq$$;
  195. */
  196. asm volatile(
  197. "vld $vr20, %0\n\t"
  198. "vld $vr21, %1\n\t"
  199. "vld $vr22, %2\n\t"
  200. "vld $vr23, %3\n\t"
  201. "vld $vr24, %4\n\t"
  202. "vld $vr25, %5\n\t"
  203. "vld $vr26, %6\n\t"
  204. "vld $vr27, %7\n\t"
  205. "vxor.v $vr20, $vr20, $vr0\n\t"
  206. "vxor.v $vr21, $vr21, $vr1\n\t"
  207. "vxor.v $vr22, $vr22, $vr2\n\t"
  208. "vxor.v $vr23, $vr23, $vr3\n\t"
  209. "vxor.v $vr24, $vr24, $vr4\n\t"
  210. "vxor.v $vr25, $vr25, $vr5\n\t"
  211. "vxor.v $vr26, $vr26, $vr6\n\t"
  212. "vxor.v $vr27, $vr27, $vr7\n\t"
  213. "vst $vr20, %0\n\t"
  214. "vst $vr21, %1\n\t"
  215. "vst $vr22, %2\n\t"
  216. "vst $vr23, %3\n\t"
  217. "vst $vr24, %4\n\t"
  218. "vst $vr25, %5\n\t"
  219. "vst $vr26, %6\n\t"
  220. "vst $vr27, %7\n\t"
  221. : "+m"(p[d+NSIZE*0]), "+m"(p[d+NSIZE*1]),
  222. "+m"(p[d+NSIZE*2]), "+m"(p[d+NSIZE*3]),
  223. "+m"(q[d+NSIZE*0]), "+m"(q[d+NSIZE*1]),
  224. "+m"(q[d+NSIZE*2]), "+m"(q[d+NSIZE*3])
  225. );
  226. }
  227. kernel_fpu_end();
  228. }
  229. const struct raid6_calls raid6_lsx = {
  230. raid6_lsx_gen_syndrome,
  231. raid6_lsx_xor_syndrome,
  232. raid6_has_lsx,
  233. "lsx",
  234. .priority = 0 /* see the comment near the top of the file for reason */
  235. };
  236. #undef NSIZE
  237. #endif /* CONFIG_CPU_HAS_LSX */
  238. #ifdef CONFIG_CPU_HAS_LASX
  239. #define NSIZE 32
  240. static int raid6_has_lasx(void)
  241. {
  242. return cpu_has_lasx;
  243. }
  244. static void raid6_lasx_gen_syndrome(int disks, size_t bytes, void **ptrs)
  245. {
  246. u8 **dptr = (u8 **)ptrs;
  247. u8 *p, *q;
  248. int d, z, z0;
  249. z0 = disks - 3; /* Highest data disk */
  250. p = dptr[z0+1]; /* XOR parity */
  251. q = dptr[z0+2]; /* RS syndrome */
  252. kernel_fpu_begin();
  253. /*
  254. * $xr0, $xr1: wp
  255. * $xr2, $xr3: wq
  256. * $xr4, $xr5: wd
  257. * $xr6, $xr7: w2
  258. * $xr8, $xr9: w1
  259. */
  260. for (d = 0; d < bytes; d += NSIZE*2) {
  261. /* wq$$ = wp$$ = *(unative_t *)&dptr[z0][d+$$*NSIZE]; */
  262. asm volatile("xvld $xr0, %0" : : "m"(dptr[z0][d+0*NSIZE]));
  263. asm volatile("xvld $xr1, %0" : : "m"(dptr[z0][d+1*NSIZE]));
  264. asm volatile("xvori.b $xr2, $xr0, 0");
  265. asm volatile("xvori.b $xr3, $xr1, 0");
  266. for (z = z0-1; z >= 0; z--) {
  267. /* wd$$ = *(unative_t *)&dptr[z][d+$$*NSIZE]; */
  268. asm volatile("xvld $xr4, %0" : : "m"(dptr[z][d+0*NSIZE]));
  269. asm volatile("xvld $xr5, %0" : : "m"(dptr[z][d+1*NSIZE]));
  270. /* wp$$ ^= wd$$; */
  271. asm volatile("xvxor.v $xr0, $xr0, $xr4");
  272. asm volatile("xvxor.v $xr1, $xr1, $xr5");
  273. /* w2$$ = MASK(wq$$); */
  274. asm volatile("xvslti.b $xr6, $xr2, 0");
  275. asm volatile("xvslti.b $xr7, $xr3, 0");
  276. /* w1$$ = SHLBYTE(wq$$); */
  277. asm volatile("xvslli.b $xr8, $xr2, 1");
  278. asm volatile("xvslli.b $xr9, $xr3, 1");
  279. /* w2$$ &= NBYTES(0x1d); */
  280. asm volatile("xvandi.b $xr6, $xr6, 0x1d");
  281. asm volatile("xvandi.b $xr7, $xr7, 0x1d");
  282. /* w1$$ ^= w2$$; */
  283. asm volatile("xvxor.v $xr8, $xr8, $xr6");
  284. asm volatile("xvxor.v $xr9, $xr9, $xr7");
  285. /* wq$$ = w1$$ ^ wd$$; */
  286. asm volatile("xvxor.v $xr2, $xr8, $xr4");
  287. asm volatile("xvxor.v $xr3, $xr9, $xr5");
  288. }
  289. /* *(unative_t *)&p[d+NSIZE*$$] = wp$$; */
  290. asm volatile("xvst $xr0, %0" : "=m"(p[d+NSIZE*0]));
  291. asm volatile("xvst $xr1, %0" : "=m"(p[d+NSIZE*1]));
  292. /* *(unative_t *)&q[d+NSIZE*$$] = wq$$; */
  293. asm volatile("xvst $xr2, %0" : "=m"(q[d+NSIZE*0]));
  294. asm volatile("xvst $xr3, %0" : "=m"(q[d+NSIZE*1]));
  295. }
  296. kernel_fpu_end();
  297. }
  298. static void raid6_lasx_xor_syndrome(int disks, int start, int stop,
  299. size_t bytes, void **ptrs)
  300. {
  301. u8 **dptr = (u8 **)ptrs;
  302. u8 *p, *q;
  303. int d, z, z0;
  304. z0 = stop; /* P/Q right side optimization */
  305. p = dptr[disks-2]; /* XOR parity */
  306. q = dptr[disks-1]; /* RS syndrome */
  307. kernel_fpu_begin();
  308. /*
  309. * $xr0, $xr1: wp
  310. * $xr2, $xr3: wq
  311. * $xr4, $xr5: wd
  312. * $xr6, $xr7: w2
  313. * $xr8, $xr9: w1
  314. */
  315. for (d = 0; d < bytes; d += NSIZE*2) {
  316. /* P/Q data pages */
  317. /* wq$$ = wp$$ = *(unative_t *)&dptr[z0][d+$$*NSIZE]; */
  318. asm volatile("xvld $xr0, %0" : : "m"(dptr[z0][d+0*NSIZE]));
  319. asm volatile("xvld $xr1, %0" : : "m"(dptr[z0][d+1*NSIZE]));
  320. asm volatile("xvori.b $xr2, $xr0, 0");
  321. asm volatile("xvori.b $xr3, $xr1, 0");
  322. for (z = z0-1; z >= start; z--) {
  323. /* wd$$ = *(unative_t *)&dptr[z][d+$$*NSIZE]; */
  324. asm volatile("xvld $xr4, %0" : : "m"(dptr[z][d+0*NSIZE]));
  325. asm volatile("xvld $xr5, %0" : : "m"(dptr[z][d+1*NSIZE]));
  326. /* wp$$ ^= wd$$; */
  327. asm volatile("xvxor.v $xr0, $xr0, $xr4");
  328. asm volatile("xvxor.v $xr1, $xr1, $xr5");
  329. /* w2$$ = MASK(wq$$); */
  330. asm volatile("xvslti.b $xr6, $xr2, 0");
  331. asm volatile("xvslti.b $xr7, $xr3, 0");
  332. /* w1$$ = SHLBYTE(wq$$); */
  333. asm volatile("xvslli.b $xr8, $xr2, 1");
  334. asm volatile("xvslli.b $xr9, $xr3, 1");
  335. /* w2$$ &= NBYTES(0x1d); */
  336. asm volatile("xvandi.b $xr6, $xr6, 0x1d");
  337. asm volatile("xvandi.b $xr7, $xr7, 0x1d");
  338. /* w1$$ ^= w2$$; */
  339. asm volatile("xvxor.v $xr8, $xr8, $xr6");
  340. asm volatile("xvxor.v $xr9, $xr9, $xr7");
  341. /* wq$$ = w1$$ ^ wd$$; */
  342. asm volatile("xvxor.v $xr2, $xr8, $xr4");
  343. asm volatile("xvxor.v $xr3, $xr9, $xr5");
  344. }
  345. /* P/Q left side optimization */
  346. for (z = start-1; z >= 0; z--) {
  347. /* w2$$ = MASK(wq$$); */
  348. asm volatile("xvslti.b $xr6, $xr2, 0");
  349. asm volatile("xvslti.b $xr7, $xr3, 0");
  350. /* w1$$ = SHLBYTE(wq$$); */
  351. asm volatile("xvslli.b $xr8, $xr2, 1");
  352. asm volatile("xvslli.b $xr9, $xr3, 1");
  353. /* w2$$ &= NBYTES(0x1d); */
  354. asm volatile("xvandi.b $xr6, $xr6, 0x1d");
  355. asm volatile("xvandi.b $xr7, $xr7, 0x1d");
  356. /* wq$$ = w1$$ ^ w2$$; */
  357. asm volatile("xvxor.v $xr2, $xr8, $xr6");
  358. asm volatile("xvxor.v $xr3, $xr9, $xr7");
  359. }
  360. /*
  361. * *(unative_t *)&p[d+NSIZE*$$] ^= wp$$;
  362. * *(unative_t *)&q[d+NSIZE*$$] ^= wq$$;
  363. */
  364. asm volatile(
  365. "xvld $xr10, %0\n\t"
  366. "xvld $xr11, %1\n\t"
  367. "xvld $xr12, %2\n\t"
  368. "xvld $xr13, %3\n\t"
  369. "xvxor.v $xr10, $xr10, $xr0\n\t"
  370. "xvxor.v $xr11, $xr11, $xr1\n\t"
  371. "xvxor.v $xr12, $xr12, $xr2\n\t"
  372. "xvxor.v $xr13, $xr13, $xr3\n\t"
  373. "xvst $xr10, %0\n\t"
  374. "xvst $xr11, %1\n\t"
  375. "xvst $xr12, %2\n\t"
  376. "xvst $xr13, %3\n\t"
  377. : "+m"(p[d+NSIZE*0]), "+m"(p[d+NSIZE*1]),
  378. "+m"(q[d+NSIZE*0]), "+m"(q[d+NSIZE*1])
  379. );
  380. }
  381. kernel_fpu_end();
  382. }
  383. const struct raid6_calls raid6_lasx = {
  384. raid6_lasx_gen_syndrome,
  385. raid6_lasx_xor_syndrome,
  386. raid6_has_lasx,
  387. "lasx",
  388. .priority = 0 /* see the comment near the top of the file for reason */
  389. };
  390. #undef NSIZE
  391. #endif /* CONFIG_CPU_HAS_LASX */