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kernel_samsung_sm7125/lib/raid6/s390vx.uc

169 lines
3.8 KiB

/*
* raid6_vx$#.c
*
* $#-way unrolled RAID6 gen/xor functions for s390
* based on the vector facility
*
* Copyright IBM Corp. 2016
* Author(s): Martin Schwidefsky <schwidefsky@de.ibm.com>
*
* This file is postprocessed using unroll.awk.
*/
#include <linux/raid/pq.h>
#include <asm/fpu/api.h>
asm(".include \"asm/vx-insn.h\"\n");
#define NSIZE 16
static inline void LOAD_CONST(void)
{
asm volatile("VREPIB %v24,7");
asm volatile("VREPIB %v25,0x1d");
}
/*
* The SHLBYTE() operation shifts each of the 16 bytes in
* vector register y left by 1 bit and stores the result in
* vector register x.
*/
static inline void SHLBYTE(int x, int y)
{
asm volatile ("VAB %0,%1,%1" : : "i" (x), "i" (y));
}
/*
* For each of the 16 bytes in the vector register y the MASK()
* operation returns 0xFF if the high bit of the byte is 1,
* or 0x00 if the high bit is 0. The result is stored in vector
* register x.
*/
static inline void MASK(int x, int y)
{
asm volatile ("VESRAVB %0,%1,24" : : "i" (x), "i" (y));
}
static inline void AND(int x, int y, int z)
{
asm volatile ("VN %0,%1,%2" : : "i" (x), "i" (y), "i" (z));
}
static inline void XOR(int x, int y, int z)
{
asm volatile ("VX %0,%1,%2" : : "i" (x), "i" (y), "i" (z));
}
static inline void LOAD_DATA(int x, int n, u8 *ptr)
{
typedef struct { u8 _[16*n]; } addrtype;
register addrtype *__ptr asm("1") = (addrtype *) ptr;
asm volatile ("VLM %2,%3,0,%r1"
: : "m" (*__ptr), "a" (__ptr), "i" (x), "i" (x + n - 1));
}
static inline void STORE_DATA(int x, int n, u8 *ptr)
{
typedef struct { u8 _[16*n]; } addrtype;
register addrtype *__ptr asm("1") = (addrtype *) ptr;
asm volatile ("VSTM %2,%3,0,1"
: "=m" (*__ptr) : "a" (__ptr), "i" (x), "i" (x + n - 1));
}
static inline void COPY_VEC(int x, int y)
{
asm volatile ("VLR %0,%1" : : "i" (x), "i" (y));
}
static void raid6_s390vx$#_gen_syndrome(int disks, size_t bytes, void **ptrs)
{
struct kernel_fpu vxstate;
u8 **dptr, *p, *q;
int d, z, z0;
kernel_fpu_begin(&vxstate, KERNEL_VXR);
LOAD_CONST();
dptr = (u8 **) ptrs;
z0 = disks - 3; /* Highest data disk */
p = dptr[z0 + 1]; /* XOR parity */
q = dptr[z0 + 2]; /* RS syndrome */
for (d = 0; d < bytes; d += $#*NSIZE) {
LOAD_DATA(0,$#,&dptr[z0][d]);
COPY_VEC(8+$$,0+$$);
for (z = z0 - 1; z >= 0; z--) {
MASK(16+$$,8+$$);
AND(16+$$,16+$$,25);
SHLBYTE(8+$$,8+$$);
XOR(8+$$,8+$$,16+$$);
LOAD_DATA(16,$#,&dptr[z][d]);
XOR(0+$$,0+$$,16+$$);
XOR(8+$$,8+$$,16+$$);
}
STORE_DATA(0,$#,&p[d]);
STORE_DATA(8,$#,&q[d]);
}
kernel_fpu_end(&vxstate, KERNEL_VXR);
}
static void raid6_s390vx$#_xor_syndrome(int disks, int start, int stop,
size_t bytes, void **ptrs)
{
struct kernel_fpu vxstate;
u8 **dptr, *p, *q;
int d, z, z0;
dptr = (u8 **) ptrs;
z0 = stop; /* P/Q right side optimization */
p = dptr[disks - 2]; /* XOR parity */
q = dptr[disks - 1]; /* RS syndrome */
kernel_fpu_begin(&vxstate, KERNEL_VXR);
LOAD_CONST();
for (d = 0; d < bytes; d += $#*NSIZE) {
/* P/Q data pages */
LOAD_DATA(0,$#,&dptr[z0][d]);
COPY_VEC(8+$$,0+$$);
for (z = z0 - 1; z >= start; z--) {
MASK(16+$$,8+$$);
AND(16+$$,16+$$,25);
SHLBYTE(8+$$,8+$$);
XOR(8+$$,8+$$,16+$$);
LOAD_DATA(16,$#,&dptr[z][d]);
XOR(0+$$,0+$$,16+$$);
XOR(8+$$,8+$$,16+$$);
}
/* P/Q left side optimization */
for (z = start - 1; z >= 0; z--) {
MASK(16+$$,8+$$);
AND(16+$$,16+$$,25);
SHLBYTE(8+$$,8+$$);
XOR(8+$$,8+$$,16+$$);
}
LOAD_DATA(16,$#,&p[d]);
XOR(16+$$,16+$$,0+$$);
STORE_DATA(16,$#,&p[d]);
LOAD_DATA(16,$#,&q[d]);
XOR(16+$$,16+$$,8+$$);
STORE_DATA(16,$#,&q[d]);
}
kernel_fpu_end(&vxstate, KERNEL_VXR);
}
static int raid6_s390vx$#_valid(void)
{
return MACHINE_HAS_VX;
}
const struct raid6_calls raid6_s390vx$# = {
raid6_s390vx$#_gen_syndrome,
raid6_s390vx$#_xor_syndrome,
raid6_s390vx$#_valid,
"vx128x$#",
1
};