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-rw-r--r--arch/arm64/crypto/crct10dif-ce-core.S314
1 files changed, 239 insertions, 75 deletions
diff --git a/arch/arm64/crypto/crct10dif-ce-core.S b/arch/arm64/crypto/crct10dif-ce-core.S
index 663ea71cdb38..9e82e8e8ed05 100644
--- a/arch/arm64/crypto/crct10dif-ce-core.S
+++ b/arch/arm64/crypto/crct10dif-ce-core.S
@@ -80,7 +80,186 @@
vzr .req v13
-ENTRY(crc_t10dif_pmull)
+ ad .req v14
+ bd .req v10
+
+ k00_16 .req v15
+ k32_48 .req v16
+
+ t3 .req v17
+ t4 .req v18
+ t5 .req v19
+ t6 .req v20
+ t7 .req v21
+ t8 .req v22
+ t9 .req v23
+
+ perm1 .req v24
+ perm2 .req v25
+ perm3 .req v26
+ perm4 .req v27
+
+ bd1 .req v28
+ bd2 .req v29
+ bd3 .req v30
+ bd4 .req v31
+
+ .macro __pmull_init_p64
+ .endm
+
+ .macro __pmull_pre_p64, bd
+ .endm
+
+ .macro __pmull_init_p8
+ // k00_16 := 0x0000000000000000_000000000000ffff
+ // k32_48 := 0x00000000ffffffff_0000ffffffffffff
+ movi k32_48.2d, #0xffffffff
+ mov k32_48.h[2], k32_48.h[0]
+ ushr k00_16.2d, k32_48.2d, #32
+
+ // prepare the permutation vectors
+ mov_q x5, 0x080f0e0d0c0b0a09
+ movi perm4.8b, #8
+ dup perm1.2d, x5
+ eor perm1.16b, perm1.16b, perm4.16b
+ ushr perm2.2d, perm1.2d, #8
+ ushr perm3.2d, perm1.2d, #16
+ ushr perm4.2d, perm1.2d, #24
+ sli perm2.2d, perm1.2d, #56
+ sli perm3.2d, perm1.2d, #48
+ sli perm4.2d, perm1.2d, #40
+ .endm
+
+ .macro __pmull_pre_p8, bd
+ tbl bd1.16b, {\bd\().16b}, perm1.16b
+ tbl bd2.16b, {\bd\().16b}, perm2.16b
+ tbl bd3.16b, {\bd\().16b}, perm3.16b
+ tbl bd4.16b, {\bd\().16b}, perm4.16b
+ .endm
+
+__pmull_p8_core:
+.L__pmull_p8_core:
+ ext t4.8b, ad.8b, ad.8b, #1 // A1
+ ext t5.8b, ad.8b, ad.8b, #2 // A2
+ ext t6.8b, ad.8b, ad.8b, #3 // A3
+
+ pmull t4.8h, t4.8b, bd.8b // F = A1*B
+ pmull t8.8h, ad.8b, bd1.8b // E = A*B1
+ pmull t5.8h, t5.8b, bd.8b // H = A2*B
+ pmull t7.8h, ad.8b, bd2.8b // G = A*B2
+ pmull t6.8h, t6.8b, bd.8b // J = A3*B
+ pmull t9.8h, ad.8b, bd3.8b // I = A*B3
+ pmull t3.8h, ad.8b, bd4.8b // K = A*B4
+ b 0f
+
+.L__pmull_p8_core2:
+ tbl t4.16b, {ad.16b}, perm1.16b // A1
+ tbl t5.16b, {ad.16b}, perm2.16b // A2
+ tbl t6.16b, {ad.16b}, perm3.16b // A3
+
+ pmull2 t4.8h, t4.16b, bd.16b // F = A1*B
+ pmull2 t8.8h, ad.16b, bd1.16b // E = A*B1
+ pmull2 t5.8h, t5.16b, bd.16b // H = A2*B
+ pmull2 t7.8h, ad.16b, bd2.16b // G = A*B2
+ pmull2 t6.8h, t6.16b, bd.16b // J = A3*B
+ pmull2 t9.8h, ad.16b, bd3.16b // I = A*B3
+ pmull2 t3.8h, ad.16b, bd4.16b // K = A*B4
+
+0: eor t4.16b, t4.16b, t8.16b // L = E + F
+ eor t5.16b, t5.16b, t7.16b // M = G + H
+ eor t6.16b, t6.16b, t9.16b // N = I + J
+
+ uzp1 t8.2d, t4.2d, t5.2d
+ uzp2 t4.2d, t4.2d, t5.2d
+ uzp1 t7.2d, t6.2d, t3.2d
+ uzp2 t6.2d, t6.2d, t3.2d
+
+ // t4 = (L) (P0 + P1) << 8
+ // t5 = (M) (P2 + P3) << 16
+ eor t8.16b, t8.16b, t4.16b
+ and t4.16b, t4.16b, k32_48.16b
+
+ // t6 = (N) (P4 + P5) << 24
+ // t7 = (K) (P6 + P7) << 32
+ eor t7.16b, t7.16b, t6.16b
+ and t6.16b, t6.16b, k00_16.16b
+
+ eor t8.16b, t8.16b, t4.16b
+ eor t7.16b, t7.16b, t6.16b
+
+ zip2 t5.2d, t8.2d, t4.2d
+ zip1 t4.2d, t8.2d, t4.2d
+ zip2 t3.2d, t7.2d, t6.2d
+ zip1 t6.2d, t7.2d, t6.2d
+
+ ext t4.16b, t4.16b, t4.16b, #15
+ ext t5.16b, t5.16b, t5.16b, #14
+ ext t6.16b, t6.16b, t6.16b, #13
+ ext t3.16b, t3.16b, t3.16b, #12
+
+ eor t4.16b, t4.16b, t5.16b
+ eor t6.16b, t6.16b, t3.16b
+ ret
+ENDPROC(__pmull_p8_core)
+
+ .macro __pmull_p8, rq, ad, bd, i
+ .ifnc \bd, v10
+ .err
+ .endif
+ mov ad.16b, \ad\().16b
+ .ifb \i
+ pmull \rq\().8h, \ad\().8b, bd.8b // D = A*B
+ .else
+ pmull2 \rq\().8h, \ad\().16b, bd.16b // D = A*B
+ .endif
+
+ bl .L__pmull_p8_core\i
+
+ eor \rq\().16b, \rq\().16b, t4.16b
+ eor \rq\().16b, \rq\().16b, t6.16b
+ .endm
+
+ .macro fold64, p, reg1, reg2
+ ldp q11, q12, [arg2], #0x20
+
+ __pmull_\p v8, \reg1, v10, 2
+ __pmull_\p \reg1, \reg1, v10
+
+CPU_LE( rev64 v11.16b, v11.16b )
+CPU_LE( rev64 v12.16b, v12.16b )
+
+ __pmull_\p v9, \reg2, v10, 2
+ __pmull_\p \reg2, \reg2, v10
+
+CPU_LE( ext v11.16b, v11.16b, v11.16b, #8 )
+CPU_LE( ext v12.16b, v12.16b, v12.16b, #8 )
+
+ eor \reg1\().16b, \reg1\().16b, v8.16b
+ eor \reg2\().16b, \reg2\().16b, v9.16b
+ eor \reg1\().16b, \reg1\().16b, v11.16b
+ eor \reg2\().16b, \reg2\().16b, v12.16b
+ .endm
+
+ .macro fold16, p, reg, rk
+ __pmull_\p v8, \reg, v10
+ __pmull_\p \reg, \reg, v10, 2
+ .ifnb \rk
+ ldr_l q10, \rk, x8
+ __pmull_pre_\p v10
+ .endif
+ eor v7.16b, v7.16b, v8.16b
+ eor v7.16b, v7.16b, \reg\().16b
+ .endm
+
+ .macro __pmull_p64, rd, rn, rm, n
+ .ifb \n
+ pmull \rd\().1q, \rn\().1d, \rm\().1d
+ .else
+ pmull2 \rd\().1q, \rn\().2d, \rm\().2d
+ .endif
+ .endm
+
+ .macro crc_t10dif_pmull, p
frame_push 3, 128
mov arg1_low32, w0
@@ -89,6 +268,8 @@ ENTRY(crc_t10dif_pmull)
movi vzr.16b, #0 // init zero register
+ __pmull_init_\p
+
// adjust the 16-bit initial_crc value, scale it to 32 bits
lsl arg1_low32, arg1_low32, #16
@@ -96,7 +277,7 @@ ENTRY(crc_t10dif_pmull)
cmp arg3, #256
// for sizes less than 128, we can't fold 64B at a time...
- b.lt _less_than_128
+ b.lt .L_less_than_128_\@
// load the initial crc value
// crc value does not need to be byte-reflected, but it needs
@@ -137,6 +318,7 @@ CPU_LE( ext v7.16b, v7.16b, v7.16b, #8 )
ldr_l q10, rk3, x8 // xmm10 has rk3 and rk4
// type of pmull instruction
// will determine which constant to use
+ __pmull_pre_\p v10
//
// we subtract 256 instead of 128 to save one instruction from the loop
@@ -147,41 +329,19 @@ CPU_LE( ext v7.16b, v7.16b, v7.16b, #8 )
// buffer. The _fold_64_B_loop will fold 64B at a time
// until we have 64+y Bytes of buffer
-
// fold 64B at a time. This section of the code folds 4 vector
// registers in parallel
-_fold_64_B_loop:
+.L_fold_64_B_loop_\@:
- .macro fold64, reg1, reg2
- ldp q11, q12, [arg2], #0x20
-
- pmull2 v8.1q, \reg1\().2d, v10.2d
- pmull \reg1\().1q, \reg1\().1d, v10.1d
-
-CPU_LE( rev64 v11.16b, v11.16b )
-CPU_LE( rev64 v12.16b, v12.16b )
-
- pmull2 v9.1q, \reg2\().2d, v10.2d
- pmull \reg2\().1q, \reg2\().1d, v10.1d
-
-CPU_LE( ext v11.16b, v11.16b, v11.16b, #8 )
-CPU_LE( ext v12.16b, v12.16b, v12.16b, #8 )
-
- eor \reg1\().16b, \reg1\().16b, v8.16b
- eor \reg2\().16b, \reg2\().16b, v9.16b
- eor \reg1\().16b, \reg1\().16b, v11.16b
- eor \reg2\().16b, \reg2\().16b, v12.16b
- .endm
-
- fold64 v0, v1
- fold64 v2, v3
- fold64 v4, v5
- fold64 v6, v7
+ fold64 \p, v0, v1
+ fold64 \p, v2, v3
+ fold64 \p, v4, v5
+ fold64 \p, v6, v7
subs arg3, arg3, #128
// check if there is another 64B in the buffer to be able to fold
- b.lt _fold_64_B_end
+ b.lt .L_fold_64_B_end_\@
if_will_cond_yield_neon
stp q0, q1, [sp, #.Lframe_local_offset]
@@ -195,11 +355,13 @@ CPU_LE( ext v12.16b, v12.16b, v12.16b, #8 )
ldp q6, q7, [sp, #.Lframe_local_offset + 96]
ldr_l q10, rk3, x8
movi vzr.16b, #0 // init zero register
+ __pmull_init_\p
+ __pmull_pre_\p v10
endif_yield_neon
- b _fold_64_B_loop
+ b .L_fold_64_B_loop_\@
-_fold_64_B_end:
+.L_fold_64_B_end_\@:
// at this point, the buffer pointer is pointing at the last y Bytes
// of the buffer the 64B of folded data is in 4 of the vector
// registers: v0, v1, v2, v3
@@ -208,38 +370,29 @@ _fold_64_B_end:
// constants
ldr_l q10, rk9, x8
+ __pmull_pre_\p v10
- .macro fold16, reg, rk
- pmull v8.1q, \reg\().1d, v10.1d
- pmull2 \reg\().1q, \reg\().2d, v10.2d
- .ifnb \rk
- ldr_l q10, \rk, x8
- .endif
- eor v7.16b, v7.16b, v8.16b
- eor v7.16b, v7.16b, \reg\().16b
- .endm
-
- fold16 v0, rk11
- fold16 v1, rk13
- fold16 v2, rk15
- fold16 v3, rk17
- fold16 v4, rk19
- fold16 v5, rk1
- fold16 v6
+ fold16 \p, v0, rk11
+ fold16 \p, v1, rk13
+ fold16 \p, v2, rk15
+ fold16 \p, v3, rk17
+ fold16 \p, v4, rk19
+ fold16 \p, v5, rk1
+ fold16 \p, v6
// instead of 64, we add 48 to the loop counter to save 1 instruction
// from the loop instead of a cmp instruction, we use the negative
// flag with the jl instruction
adds arg3, arg3, #(128-16)
- b.lt _final_reduction_for_128
+ b.lt .L_final_reduction_for_128_\@
// now we have 16+y bytes left to reduce. 16 Bytes is in register v7
// and the rest is in memory. We can fold 16 bytes at a time if y>=16
// continue folding 16B at a time
-_16B_reduction_loop:
- pmull v8.1q, v7.1d, v10.1d
- pmull2 v7.1q, v7.2d, v10.2d
+.L_16B_reduction_loop_\@:
+ __pmull_\p v8, v7, v10
+ __pmull_\p v7, v7, v10, 2
eor v7.16b, v7.16b, v8.16b
ldr q0, [arg2], #16
@@ -251,22 +404,22 @@ CPU_LE( ext v0.16b, v0.16b, v0.16b, #8 )
// instead of a cmp instruction, we utilize the flags with the
// jge instruction equivalent of: cmp arg3, 16-16
// check if there is any more 16B in the buffer to be able to fold
- b.ge _16B_reduction_loop
+ b.ge .L_16B_reduction_loop_\@
// now we have 16+z bytes left to reduce, where 0<= z < 16.
// first, we reduce the data in the xmm7 register
-_final_reduction_for_128:
+.L_final_reduction_for_128_\@:
// check if any more data to fold. If not, compute the CRC of
// the final 128 bits
adds arg3, arg3, #16
- b.eq _128_done
+ b.eq .L_128_done_\@
// here we are getting data that is less than 16 bytes.
// since we know that there was data before the pointer, we can
// offset the input pointer before the actual point, to receive
// exactly 16 bytes. after that the registers need to be adjusted.
-_get_last_two_regs:
+.L_get_last_two_regs_\@:
add arg2, arg2, arg3
ldr q1, [arg2, #-16]
CPU_LE( rev64 v1.16b, v1.16b )
@@ -291,47 +444,48 @@ CPU_LE( ext v1.16b, v1.16b, v1.16b, #8 )
bsl v0.16b, v2.16b, v1.16b
// fold 16 Bytes
- pmull v8.1q, v7.1d, v10.1d
- pmull2 v7.1q, v7.2d, v10.2d
+ __pmull_\p v8, v7, v10
+ __pmull_\p v7, v7, v10, 2
eor v7.16b, v7.16b, v8.16b
eor v7.16b, v7.16b, v0.16b
-_128_done:
+.L_128_done_\@:
// compute crc of a 128-bit value
ldr_l q10, rk5, x8 // rk5 and rk6 in xmm10
+ __pmull_pre_\p v10
// 64b fold
ext v0.16b, vzr.16b, v7.16b, #8
mov v7.d[0], v7.d[1]
- pmull v7.1q, v7.1d, v10.1d
+ __pmull_\p v7, v7, v10
eor v7.16b, v7.16b, v0.16b
// 32b fold
ext v0.16b, v7.16b, vzr.16b, #4
mov v7.s[3], vzr.s[0]
- pmull2 v0.1q, v0.2d, v10.2d
+ __pmull_\p v0, v0, v10, 2
eor v7.16b, v7.16b, v0.16b
// barrett reduction
-_barrett:
ldr_l q10, rk7, x8
+ __pmull_pre_\p v10
mov v0.d[0], v7.d[1]
- pmull v0.1q, v0.1d, v10.1d
+ __pmull_\p v0, v0, v10
ext v0.16b, vzr.16b, v0.16b, #12
- pmull2 v0.1q, v0.2d, v10.2d
+ __pmull_\p v0, v0, v10, 2
ext v0.16b, vzr.16b, v0.16b, #12
eor v7.16b, v7.16b, v0.16b
mov w0, v7.s[1]
-_cleanup:
+.L_cleanup_\@:
// scale the result back to 16 bits
lsr x0, x0, #16
frame_pop
ret
-_less_than_128:
- cbz arg3, _cleanup
+.L_less_than_128_\@:
+ cbz arg3, .L_cleanup_\@
movi v0.16b, #0
mov v0.s[3], arg1_low32 // get the initial crc value
@@ -342,20 +496,21 @@ CPU_LE( ext v7.16b, v7.16b, v7.16b, #8 )
eor v7.16b, v7.16b, v0.16b // xor the initial crc value
cmp arg3, #16
- b.eq _128_done // exactly 16 left
- b.lt _less_than_16_left
+ b.eq .L_128_done_\@ // exactly 16 left
+ b.lt .L_less_than_16_left_\@
ldr_l q10, rk1, x8 // rk1 and rk2 in xmm10
+ __pmull_pre_\p v10
// update the counter. subtract 32 instead of 16 to save one
// instruction from the loop
subs arg3, arg3, #32
- b.ge _16B_reduction_loop
+ b.ge .L_16B_reduction_loop_\@
add arg3, arg3, #16
- b _get_last_two_regs
+ b .L_get_last_two_regs_\@
-_less_than_16_left:
+.L_less_than_16_left_\@:
// shl r9, 4
adr_l x0, tbl_shf_table + 16
sub x0, x0, arg3
@@ -363,8 +518,17 @@ _less_than_16_left:
movi v9.16b, #0x80
eor v0.16b, v0.16b, v9.16b
tbl v7.16b, {v7.16b}, v0.16b
- b _128_done
-ENDPROC(crc_t10dif_pmull)
+ b .L_128_done_\@
+ .endm
+
+ENTRY(crc_t10dif_pmull_p8)
+ crc_t10dif_pmull p8
+ENDPROC(crc_t10dif_pmull_p8)
+
+ .align 5
+ENTRY(crc_t10dif_pmull_p64)
+ crc_t10dif_pmull p64
+ENDPROC(crc_t10dif_pmull_p64)
// precomputed constants
// these constants are precomputed from the poly: