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[linux-2.6/verdex.git] / drivers / md / raid6sse1.c
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1 /* -*- linux-c -*- ------------------------------------------------------- *
3 * Copyright 2002 H. Peter Anvin - All Rights Reserved
5 * This program is free software; you can redistribute it and/or modify
6 * it under the terms of the GNU General Public License as published by
7 * the Free Software Foundation, Inc., 53 Temple Place Ste 330,
8 * Bostom MA 02111-1307, USA; either version 2 of the License, or
9 * (at your option) any later version; incorporated herein by reference.
11 * ----------------------------------------------------------------------- */
14 * raid6sse1.c
16 * SSE-1/MMXEXT implementation of RAID-6 syndrome functions
18 * This is really an MMX implementation, but it requires SSE-1 or
19 * AMD MMXEXT for prefetch support and a few other features. The
20 * support for nontemporal memory accesses is enough to make this
21 * worthwhile as a separate implementation.
24 #if defined(__i386__)
26 #include "raid6.h"
27 #include "raid6x86.h"
29 /* Defined in raid6mmx.c */
30 extern const struct raid6_mmx_constants {
31 u64 x1d;
32 } raid6_mmx_constants;
34 static int raid6_have_sse1_or_mmxext(void)
36 #ifdef __KERNEL__
37 /* Not really boot_cpu but "all_cpus" */
38 return boot_cpu_has(X86_FEATURE_MMX) &&
39 (boot_cpu_has(X86_FEATURE_XMM) ||
40 boot_cpu_has(X86_FEATURE_MMXEXT));
41 #else
42 /* User space test code - this incorrectly breaks on some Athlons */
43 u32 features = cpuid_features();
44 return ( (features & (5<<23)) == (5<<23) );
45 #endif
49 * Plain SSE1 implementation
51 static void raid6_sse11_gen_syndrome(int disks, size_t bytes, void **ptrs)
53 u8 **dptr = (u8 **)ptrs;
54 u8 *p, *q;
55 int d, z, z0;
56 raid6_mmx_save_t sa;
58 z0 = disks - 3; /* Highest data disk */
59 p = dptr[z0+1]; /* XOR parity */
60 q = dptr[z0+2]; /* RS syndrome */
62 /* This is really MMX code, not SSE */
63 raid6_before_mmx(&sa);
65 asm volatile("movq %0,%%mm0" : : "m" (raid6_mmx_constants.x1d));
66 asm volatile("pxor %mm5,%mm5"); /* Zero temp */
68 for ( d = 0 ; d < bytes ; d += 8 ) {
69 asm volatile("prefetchnta %0" : : "m" (dptr[z0][d]));
70 asm volatile("movq %0,%%mm2" : : "m" (dptr[z0][d])); /* P[0] */
71 asm volatile("prefetchnta %0" : : "m" (dptr[z0-1][d]));
72 asm volatile("movq %mm2,%mm4"); /* Q[0] */
73 asm volatile("movq %0,%%mm6" : : "m" (dptr[z0-1][d]));
74 for ( z = z0-2 ; z >= 0 ; z-- ) {
75 asm volatile("prefetchnta %0" : : "m" (dptr[z][d]));
76 asm volatile("pcmpgtb %mm4,%mm5");
77 asm volatile("paddb %mm4,%mm4");
78 asm volatile("pand %mm0,%mm5");
79 asm volatile("pxor %mm5,%mm4");
80 asm volatile("pxor %mm5,%mm5");
81 asm volatile("pxor %mm6,%mm2");
82 asm volatile("pxor %mm6,%mm4");
83 asm volatile("movq %0,%%mm6" : : "m" (dptr[z][d]));
85 asm volatile("pcmpgtb %mm4,%mm5");
86 asm volatile("paddb %mm4,%mm4");
87 asm volatile("pand %mm0,%mm5");
88 asm volatile("pxor %mm5,%mm4");
89 asm volatile("pxor %mm5,%mm5");
90 asm volatile("pxor %mm6,%mm2");
91 asm volatile("pxor %mm6,%mm4");
93 asm volatile("movntq %%mm2,%0" : "=m" (p[d]));
94 asm volatile("movntq %%mm4,%0" : "=m" (q[d]));
97 raid6_after_mmx(&sa);
98 asm volatile("sfence" : : : "memory");
101 const struct raid6_calls raid6_sse1x1 = {
102 raid6_sse11_gen_syndrome,
103 raid6_have_sse1_or_mmxext,
104 "sse1x1",
105 1 /* Has cache hints */
109 * Unrolled-by-2 SSE1 implementation
111 static void raid6_sse12_gen_syndrome(int disks, size_t bytes, void **ptrs)
113 u8 **dptr = (u8 **)ptrs;
114 u8 *p, *q;
115 int d, z, z0;
116 raid6_mmx_save_t sa;
118 z0 = disks - 3; /* Highest data disk */
119 p = dptr[z0+1]; /* XOR parity */
120 q = dptr[z0+2]; /* RS syndrome */
122 raid6_before_mmx(&sa);
124 asm volatile("movq %0,%%mm0" : : "m" (raid6_mmx_constants.x1d));
125 asm volatile("pxor %mm5,%mm5"); /* Zero temp */
126 asm volatile("pxor %mm7,%mm7"); /* Zero temp */
128 /* We uniformly assume a single prefetch covers at least 16 bytes */
129 for ( d = 0 ; d < bytes ; d += 16 ) {
130 asm volatile("prefetchnta %0" : : "m" (dptr[z0][d]));
131 asm volatile("movq %0,%%mm2" : : "m" (dptr[z0][d])); /* P[0] */
132 asm volatile("movq %0,%%mm3" : : "m" (dptr[z0][d+8])); /* P[1] */
133 asm volatile("movq %mm2,%mm4"); /* Q[0] */
134 asm volatile("movq %mm3,%mm6"); /* Q[1] */
135 for ( z = z0-1 ; z >= 0 ; z-- ) {
136 asm volatile("prefetchnta %0" : : "m" (dptr[z][d]));
137 asm volatile("pcmpgtb %mm4,%mm5");
138 asm volatile("pcmpgtb %mm6,%mm7");
139 asm volatile("paddb %mm4,%mm4");
140 asm volatile("paddb %mm6,%mm6");
141 asm volatile("pand %mm0,%mm5");
142 asm volatile("pand %mm0,%mm7");
143 asm volatile("pxor %mm5,%mm4");
144 asm volatile("pxor %mm7,%mm6");
145 asm volatile("movq %0,%%mm5" : : "m" (dptr[z][d]));
146 asm volatile("movq %0,%%mm7" : : "m" (dptr[z][d+8]));
147 asm volatile("pxor %mm5,%mm2");
148 asm volatile("pxor %mm7,%mm3");
149 asm volatile("pxor %mm5,%mm4");
150 asm volatile("pxor %mm7,%mm6");
151 asm volatile("pxor %mm5,%mm5");
152 asm volatile("pxor %mm7,%mm7");
154 asm volatile("movntq %%mm2,%0" : "=m" (p[d]));
155 asm volatile("movntq %%mm3,%0" : "=m" (p[d+8]));
156 asm volatile("movntq %%mm4,%0" : "=m" (q[d]));
157 asm volatile("movntq %%mm6,%0" : "=m" (q[d+8]));
160 raid6_after_mmx(&sa);
161 asm volatile("sfence" : :: "memory");
164 const struct raid6_calls raid6_sse1x2 = {
165 raid6_sse12_gen_syndrome,
166 raid6_have_sse1_or_mmxext,
167 "sse1x2",
168 1 /* Has cache hints */
171 #endif