1 // SPDX-License-Identifier: GPL-2.0 1 // SPDX-License-Identifier: GPL-2.0 2 /* 2 /* 3 * raid6_vx$#.c 3 * raid6_vx$#.c 4 * 4 * 5 * $#-way unrolled RAID6 gen/xor functions for 5 * $#-way unrolled RAID6 gen/xor functions for s390 6 * based on the vector facility 6 * based on the vector facility 7 * 7 * 8 * Copyright IBM Corp. 2016 8 * Copyright IBM Corp. 2016 9 * Author(s): Martin Schwidefsky <schwidefsky@d 9 * Author(s): Martin Schwidefsky <schwidefsky@de.ibm.com> 10 * 10 * 11 * This file is postprocessed using unroll.awk 11 * This file is postprocessed using unroll.awk. 12 */ 12 */ 13 13 14 #include <linux/raid/pq.h> 14 #include <linux/raid/pq.h> 15 #include <asm/fpu.h> 15 #include <asm/fpu.h> 16 16 17 #define NSIZE 16 17 #define NSIZE 16 18 18 19 static __always_inline void LOAD_CONST(void) 19 static __always_inline void LOAD_CONST(void) 20 { 20 { 21 fpu_vrepib(24, 0x07); 21 fpu_vrepib(24, 0x07); 22 fpu_vrepib(25, 0x1d); 22 fpu_vrepib(25, 0x1d); 23 } 23 } 24 24 25 /* 25 /* 26 * The SHLBYTE() operation shifts each of the 26 * The SHLBYTE() operation shifts each of the 16 bytes in 27 * vector register y left by 1 bit and stores 27 * vector register y left by 1 bit and stores the result in 28 * vector register x. 28 * vector register x. 29 */ 29 */ 30 #define SHLBYTE(x, y) fpu_vab(x, y, 30 #define SHLBYTE(x, y) fpu_vab(x, y, y) 31 31 32 /* 32 /* 33 * For each of the 16 bytes in the vector regi 33 * For each of the 16 bytes in the vector register y the MASK() 34 * operation returns 0xFF if the high bit of t 34 * operation returns 0xFF if the high bit of the byte is 1, 35 * or 0x00 if the high bit is 0. The result is 35 * or 0x00 if the high bit is 0. The result is stored in vector 36 * register x. 36 * register x. 37 */ 37 */ 38 #define MASK(x, y) fpu_vesravb(x, 38 #define MASK(x, y) fpu_vesravb(x, y, 24) 39 39 40 #define AND(x, y, z) fpu_vn(x, y, z 40 #define AND(x, y, z) fpu_vn(x, y, z) 41 #define XOR(x, y, z) fpu_vx(x, y, z 41 #define XOR(x, y, z) fpu_vx(x, y, z) 42 #define LOAD_DATA(x, ptr) fpu_vlm(x, x + 42 #define LOAD_DATA(x, ptr) fpu_vlm(x, x + $# - 1, ptr) 43 #define STORE_DATA(x, ptr) fpu_vstm(x, x 43 #define STORE_DATA(x, ptr) fpu_vstm(x, x + $# - 1, ptr) 44 #define COPY_VEC(x, y) fpu_vlr(x, y) 44 #define COPY_VEC(x, y) fpu_vlr(x, y) 45 45 46 static void raid6_s390vx$#_gen_syndrome(int di 46 static void raid6_s390vx$#_gen_syndrome(int disks, size_t bytes, void **ptrs) 47 { 47 { 48 DECLARE_KERNEL_FPU_ONSTACK32(vxstate); 48 DECLARE_KERNEL_FPU_ONSTACK32(vxstate); 49 u8 **dptr, *p, *q; 49 u8 **dptr, *p, *q; 50 int d, z, z0; 50 int d, z, z0; 51 51 52 kernel_fpu_begin(&vxstate, KERNEL_VXR) 52 kernel_fpu_begin(&vxstate, KERNEL_VXR); 53 LOAD_CONST(); 53 LOAD_CONST(); 54 54 55 dptr = (u8 **) ptrs; 55 dptr = (u8 **) ptrs; 56 z0 = disks - 3; /* Highest dat 56 z0 = disks - 3; /* Highest data disk */ 57 p = dptr[z0 + 1]; /* XOR parity 57 p = dptr[z0 + 1]; /* XOR parity */ 58 q = dptr[z0 + 2]; /* RS syndrome 58 q = dptr[z0 + 2]; /* RS syndrome */ 59 59 60 for (d = 0; d < bytes; d += $#*NSIZE) 60 for (d = 0; d < bytes; d += $#*NSIZE) { 61 LOAD_DATA(0,&dptr[z0][d]); 61 LOAD_DATA(0,&dptr[z0][d]); 62 COPY_VEC(8+$$,0+$$); 62 COPY_VEC(8+$$,0+$$); 63 for (z = z0 - 1; z >= 0; z--) 63 for (z = z0 - 1; z >= 0; z--) { 64 MASK(16+$$,8+$$); 64 MASK(16+$$,8+$$); 65 AND(16+$$,16+$$,25); 65 AND(16+$$,16+$$,25); 66 SHLBYTE(8+$$,8+$$); 66 SHLBYTE(8+$$,8+$$); 67 XOR(8+$$,8+$$,16+$$); 67 XOR(8+$$,8+$$,16+$$); 68 LOAD_DATA(16,&dptr[z][ 68 LOAD_DATA(16,&dptr[z][d]); 69 XOR(0+$$,0+$$,16+$$); 69 XOR(0+$$,0+$$,16+$$); 70 XOR(8+$$,8+$$,16+$$); 70 XOR(8+$$,8+$$,16+$$); 71 } 71 } 72 STORE_DATA(0,&p[d]); 72 STORE_DATA(0,&p[d]); 73 STORE_DATA(8,&q[d]); 73 STORE_DATA(8,&q[d]); 74 } 74 } 75 kernel_fpu_end(&vxstate, KERNEL_VXR); 75 kernel_fpu_end(&vxstate, KERNEL_VXR); 76 } 76 } 77 77 78 static void raid6_s390vx$#_xor_syndrome(int di 78 static void raid6_s390vx$#_xor_syndrome(int disks, int start, int stop, 79 size_t 79 size_t bytes, void **ptrs) 80 { 80 { 81 DECLARE_KERNEL_FPU_ONSTACK32(vxstate); 81 DECLARE_KERNEL_FPU_ONSTACK32(vxstate); 82 u8 **dptr, *p, *q; 82 u8 **dptr, *p, *q; 83 int d, z, z0; 83 int d, z, z0; 84 84 85 dptr = (u8 **) ptrs; 85 dptr = (u8 **) ptrs; 86 z0 = stop; /* P/Q right s 86 z0 = stop; /* P/Q right side optimization */ 87 p = dptr[disks - 2]; /* XOR parity 87 p = dptr[disks - 2]; /* XOR parity */ 88 q = dptr[disks - 1]; /* RS syndrome 88 q = dptr[disks - 1]; /* RS syndrome */ 89 89 90 kernel_fpu_begin(&vxstate, KERNEL_VXR) 90 kernel_fpu_begin(&vxstate, KERNEL_VXR); 91 LOAD_CONST(); 91 LOAD_CONST(); 92 92 93 for (d = 0; d < bytes; d += $#*NSIZE) 93 for (d = 0; d < bytes; d += $#*NSIZE) { 94 /* P/Q data pages */ 94 /* P/Q data pages */ 95 LOAD_DATA(0,&dptr[z0][d]); 95 LOAD_DATA(0,&dptr[z0][d]); 96 COPY_VEC(8+$$,0+$$); 96 COPY_VEC(8+$$,0+$$); 97 for (z = z0 - 1; z >= start; z 97 for (z = z0 - 1; z >= start; z--) { 98 MASK(16+$$,8+$$); 98 MASK(16+$$,8+$$); 99 AND(16+$$,16+$$,25); 99 AND(16+$$,16+$$,25); 100 SHLBYTE(8+$$,8+$$); 100 SHLBYTE(8+$$,8+$$); 101 XOR(8+$$,8+$$,16+$$); 101 XOR(8+$$,8+$$,16+$$); 102 LOAD_DATA(16,&dptr[z][ 102 LOAD_DATA(16,&dptr[z][d]); 103 XOR(0+$$,0+$$,16+$$); 103 XOR(0+$$,0+$$,16+$$); 104 XOR(8+$$,8+$$,16+$$); 104 XOR(8+$$,8+$$,16+$$); 105 } 105 } 106 /* P/Q left side optimization 106 /* P/Q left side optimization */ 107 for (z = start - 1; z >= 0; z- 107 for (z = start - 1; z >= 0; z--) { 108 MASK(16+$$,8+$$); 108 MASK(16+$$,8+$$); 109 AND(16+$$,16+$$,25); 109 AND(16+$$,16+$$,25); 110 SHLBYTE(8+$$,8+$$); 110 SHLBYTE(8+$$,8+$$); 111 XOR(8+$$,8+$$,16+$$); 111 XOR(8+$$,8+$$,16+$$); 112 } 112 } 113 LOAD_DATA(16,&p[d]); 113 LOAD_DATA(16,&p[d]); 114 XOR(16+$$,16+$$,0+$$); 114 XOR(16+$$,16+$$,0+$$); 115 STORE_DATA(16,&p[d]); 115 STORE_DATA(16,&p[d]); 116 LOAD_DATA(16,&q[d]); 116 LOAD_DATA(16,&q[d]); 117 XOR(16+$$,16+$$,8+$$); 117 XOR(16+$$,16+$$,8+$$); 118 STORE_DATA(16,&q[d]); 118 STORE_DATA(16,&q[d]); 119 } 119 } 120 kernel_fpu_end(&vxstate, KERNEL_VXR); 120 kernel_fpu_end(&vxstate, KERNEL_VXR); 121 } 121 } 122 122 123 static int raid6_s390vx$#_valid(void) 123 static int raid6_s390vx$#_valid(void) 124 { 124 { 125 return cpu_has_vx(); 125 return cpu_has_vx(); 126 } 126 } 127 127 128 const struct raid6_calls raid6_s390vx$# = { 128 const struct raid6_calls raid6_s390vx$# = { 129 raid6_s390vx$#_gen_syndrome, 129 raid6_s390vx$#_gen_syndrome, 130 raid6_s390vx$#_xor_syndrome, 130 raid6_s390vx$#_xor_syndrome, 131 raid6_s390vx$#_valid, 131 raid6_s390vx$#_valid, 132 "vx128x$#", 132 "vx128x$#", 133 1 133 1 134 }; 134 };
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