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crypto/sha256: add sha-ni implementation
goos: linux
goarch: amd64
pkg: crypto/sha256
cpu: 11th Gen Intel(R) Core(TM) i7-1185G7 @ 3.00GHz
│ bench.old │ bench.new │
│ sec/op │ sec/op vs base │
Hash8Bytes/New-4 169.20n ± 7% 65.40n ± 5% -61.35% (p=0.000 n=10)
Hash8Bytes/Sum224-4 166.10n ± 3% 65.20n ± 8% -60.74% (p=0.000 n=10)
Hash8Bytes/Sum256-4 168.50n ± 6% 63.58n ± 7% -62.27% (p=0.000 n=10)
Hash1K/New-4 2275.5n ± 5% 618.5n ± 2% -72.82% (p=0.000 n=10)
Hash1K/Sum224-4 2364.5n ± 1% 618.1n ± 1% -73.86% (p=0.000 n=10)
Hash1K/Sum256-4 2338.5n ± 2% 613.0n ± 2% -73.79% (p=0.000 n=10)
Hash8K/New-4 17.530µ ± 2% 4.501µ ± 1% -74.33% (p=0.000 n=10)
Hash8K/Sum224-4 17.456µ ± 2% 4.505µ ± 1% -74.19% (p=0.000 n=10)
Hash8K/Sum256-4 17.417µ ± 2% 4.504µ ± 1% -74.14% (p=0.000 n=10)
geomean 1.897µ 564.3n -70.25%
│ bench.old │ bench.new │
│ B/s │ B/s vs base │
Hash8Bytes/New-4 45.11Mi ± 6% 116.66Mi ± 5% +158.62% (p=0.000 n=10)
Hash8Bytes/Sum224-4 45.92Mi ± 3% 117.04Mi ± 8% +154.89% (p=0.000 n=10)
Hash8Bytes/Sum256-4 45.29Mi ± 6% 120.00Mi ± 7% +164.99% (p=0.000 n=10)
Hash1K/New-4 429.2Mi ± 5% 1578.9Mi ± 2% +267.92% (p=0.000 n=10)
Hash1K/Sum224-4 413.0Mi ± 1% 1579.8Mi ± 1% +282.49% (p=0.000 n=10)
Hash1K/Sum256-4 417.6Mi ± 1% 1593.1Mi ± 2% +281.53% (p=0.000 n=10)
Hash8K/New-4 445.7Mi ± 1% 1735.9Mi ± 1% +289.50% (p=0.000 n=10)
Hash8K/Sum224-4 447.6Mi ± 2% 1734.5Mi ± 1% +287.54% (p=0.000 n=10)
Hash8K/Sum256-4 448.6Mi ± 2% 1734.8Mi ± 1% +286.75% (p=0.000 n=10)
geomean 204.3Mi 686.8Mi +236.11%
│ bench.old │ bench.new │
│ B/op │ B/op vs base │
Hash8Bytes/New-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
Hash8Bytes/Sum224-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
Hash8Bytes/Sum256-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
Hash1K/New-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
Hash1K/Sum224-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
Hash1K/Sum256-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
Hash8K/New-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
Hash8K/Sum224-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
Hash8K/Sum256-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
geomean ² +0.00% ²
¹ all samples are equal
² summaries must be >0 to compute geomean
│ bench.old │ bench.new │
│ allocs/op │ allocs/op vs base │
Hash8Bytes/New-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
Hash8Bytes/Sum224-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
Hash8Bytes/Sum256-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
Hash1K/New-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
Hash1K/Sum224-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
Hash1K/Sum256-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
Hash8K/New-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
Hash8K/Sum224-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
Hash8K/Sum256-4 0.000 ± 0% 0.000 ± 0% ~ (p=1.000 n=10) ¹
geomean ² +0.00% ²
¹ all samples are equal
² summaries must be >0 to compute geomean
Fixes #50543.
Change-Id: Ie9783647fe82f40fcbd91989a96a24f2d3d5b9a0
Reviewed-on: https://go-review.googlesource.com/c/go/+/408795
Reviewed-by: Paulo Gomes <paulo.gomes.uk@gmail.com>
TryBot-Result: Gopher Robot <gobot@golang.org>
Run-TryBot: Russ Cox <rsc@golang.org>
Reviewed-by: Alan Donovan <adonovan@google.com>
Auto-Submit: Russ Cox <rsc@golang.org>
Reviewed-by: Russ Cox <rsc@golang.org>
This commit is contained in:
Ted Painter
Gopher Robot
parent
e29dd78ffe
commit
1a64574f42
@ -7,3 +7,4 @@ package sha256
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import "internal/cpu"
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import "internal/cpu"
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var useAVX2 = cpu.X86.HasAVX2 && cpu.X86.HasBMI2
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var useAVX2 = cpu.X86.HasAVX2 && cpu.X86.HasBMI2
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var useSHA = useAVX2 && cpu.X86.HasSHA
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@ -179,7 +179,7 @@
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#define XFER Y9
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#define XFER Y9
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#define BYTE_FLIP_MASK Y13 // mask to convert LE -> BE
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#define BYTE_FLIP_MASK Y13 // mask to convert LE -> BE
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#define X_BYTE_FLIP_MASK X13
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#define X_BYTE_FLIP_MASK X13
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#define NUM_BYTES DX
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#define NUM_BYTES DX
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@ -232,14 +232,14 @@
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RORXL $13, a, T1; \ // T1 = a >> 13 // S0B
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RORXL $13, a, T1; \ // T1 = a >> 13 // S0B
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; \
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; \
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XORL y1, y0; \ // y0 = (e>>25) ^ (e>>11) // S1
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XORL y1, y0; \ // y0 = (e>>25) ^ (e>>11) // S1
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XORL g, y2; \ // y2 = f^g // CH
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XORL g, y2; \ // y2 = f^g // CH
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VPADDD XDWORD0, XTMP0, XTMP0; \ // XTMP0 = W[-7] + W[-16] // y1 = (e >> 6) // S1
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VPADDD XDWORD0, XTMP0, XTMP0; \ // XTMP0 = W[-7] + W[-16] // y1 = (e >> 6) // S1
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RORXL $6, e, y1; \ // y1 = (e >> 6) // S1
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RORXL $6, e, y1; \ // y1 = (e >> 6) // S1
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; \
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; \
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ANDL e, y2; \ // y2 = (f^g)&e // CH
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ANDL e, y2; \ // y2 = (f^g)&e // CH
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XORL y1, y0; \ // y0 = (e>>25) ^ (e>>11) ^ (e>>6) // S1
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XORL y1, y0; \ // y0 = (e>>25) ^ (e>>11) ^ (e>>6) // S1
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RORXL $22, a, y1; \ // y1 = a >> 22 // S0A
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RORXL $22, a, y1; \ // y1 = a >> 22 // S0A
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ADDL h, d; \ // d = k + w + h + d // --
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ADDL h, d; \ // d = k + w + h + d // --
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; \
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; \
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ANDL b, y3; \ // y3 = (a|c)&b // MAJA
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ANDL b, y3; \ // y3 = (a|c)&b // MAJA
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VPALIGNR $4, XDWORD0, XDWORD1, XTMP1; \ // XTMP1 = W[-15]
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VPALIGNR $4, XDWORD0, XDWORD1, XTMP1; \ // XTMP1 = W[-15]
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@ -270,7 +270,7 @@
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MOVL a, y3; \ // y3 = a // MAJA
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MOVL a, y3; \ // y3 = a // MAJA
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RORXL $25, e, y0; \ // y0 = e >> 25 // S1A
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RORXL $25, e, y0; \ // y0 = e >> 25 // S1A
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RORXL $11, e, y1; \ // y1 = e >> 11 // S1B
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RORXL $11, e, y1; \ // y1 = e >> 11 // S1B
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ADDL (disp + 1*4)(SP)(SRND*1), h; \ // h = k + w + h // --
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ADDL (disp + 1*4)(SP)(SRND*1), h; \ // h = k + w + h // --
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ORL c, y3; \ // y3 = a|c // MAJA
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ORL c, y3; \ // y3 = a|c // MAJA
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; \
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; \
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VPSRLD $3, XTMP1, XTMP4; \ // XTMP4 = W[-15] >> 3
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VPSRLD $3, XTMP1, XTMP4; \ // XTMP4 = W[-15] >> 3
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@ -316,7 +316,7 @@
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; \
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; \
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MOVL a, y3; \ // y3 = a // MAJA
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MOVL a, y3; \ // y3 = a // MAJA
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RORXL $25, e, y0; \ // y0 = e >> 25 // S1A
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RORXL $25, e, y0; \ // y0 = e >> 25 // S1A
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ADDL (disp + 2*4)(SP)(SRND*1), h; \ // h = k + w + h // --
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ADDL (disp + 2*4)(SP)(SRND*1), h; \ // h = k + w + h // --
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; \
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; \
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VPSRLQ $19, XTMP2, XTMP3; \ // XTMP3 = W[-2] ror 19 {xBxA}
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VPSRLQ $19, XTMP2, XTMP3; \ // XTMP3 = W[-2] ror 19 {xBxA}
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RORXL $11, e, y1; \ // y1 = e >> 11 // S1B
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RORXL $11, e, y1; \ // y1 = e >> 11 // S1B
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@ -495,7 +495,7 @@
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; \
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; \
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XORL T1, y1; \ // y1 = (a>>22) ^ (a>>13) // S0
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XORL T1, y1; \ // y1 = (a>>22) ^ (a>>13) // S0
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RORXL $2, a, T1; \ // T1 = (a >> 2) // S0
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RORXL $2, a, T1; \ // T1 = (a >> 2) // S0
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ADDL (disp + 2*4)(SP)(SRND*1), h; \ // h = k + w + h // --
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ADDL (disp + 2*4)(SP)(SRND*1), h; \ // h = k + w + h // --
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ORL c, y3; \ // y3 = a|c // MAJA
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ORL c, y3; \ // y3 = a|c // MAJA
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; \
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; \
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XORL T1, y1; \ // y1 = (a>>22) ^ (a>>13) ^ (a>>2) // S0
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XORL T1, y1; \ // y1 = (a>>22) ^ (a>>13) ^ (a>>2) // S0
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@ -531,7 +531,7 @@
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; \
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; \
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XORL T1, y1; \ // y1 = (a>>22) ^ (a>>13) // S0
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XORL T1, y1; \ // y1 = (a>>22) ^ (a>>13) // S0
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RORXL $2, a, T1; \ // T1 = (a >> 2) // S0
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RORXL $2, a, T1; \ // T1 = (a >> 2) // S0
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ADDL (disp + 3*4)(SP)(SRND*1), h; \ // h = k + w + h // --
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ADDL (disp + 3*4)(SP)(SRND*1), h; \ // h = k + w + h // --
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ORL c, y3; \ // y3 = a|c // MAJA
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ORL c, y3; \ // y3 = a|c // MAJA
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; \
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; \
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XORL T1, y1; \ // y1 = (a>>22) ^ (a>>13) ^ (a>>2) // S0
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XORL T1, y1; \ // y1 = (a>>22) ^ (a>>13) ^ (a>>2) // S0
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@ -550,9 +550,80 @@
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; \
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; \
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ADDL y3, h // h = t1 + S0 + MAJ // --
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ADDL y3, h // h = t1 + S0 + MAJ // --
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// Definitions for sha-ni version
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//
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// The sha-ni implementation uses Intel(R) SHA extensions SHA256RNDS2, SHA256MSG1, SHA256MSG2
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// It also reuses portions of the flip_mask (half) and K256 table (stride 32) from the avx2 version
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//
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// Reference
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// S. Gulley, et al, "New Instructions Supporting the Secure Hash
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// Algorithm on Intel® Architecture Processors", July 2013
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// https://www.intel.com/content/www/us/en/developer/articles/technical/intel-sha-extensions.html
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//
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#define digestPtr DI // input/output, base pointer to digest hash vector H0, H1, ..., H7
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#define dataPtr SI // input, base pointer to first input data block
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#define numBytes DX // input, number of input bytes to be processed
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#define sha256Constants AX // round contants from K256 table, indexed by round number x 32
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#define msg X0 // input data
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#define state0 X1 // round intermediates and outputs
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#define state1 X2
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#define m0 X3 // m0, m1,... m4 -- round message temps
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#define m1 X4
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#define m2 X5
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#define m3 X6
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#define m4 X7
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#define shufMask X8 // input data endian conversion control mask
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#define abefSave X9 // digest hash vector inter-block buffer abef
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#define cdghSave X10 // digest hash vector inter-block buffer cdgh
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#define nop(m,a) // nop instead of final SHA256MSG1 for first and last few rounds
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#define sha256msg1(m,a) \ // final SHA256MSG1 for middle rounds that require it
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SHA256MSG1 m, a
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#define vmov(a,b) \ // msg copy for all but rounds 12-15
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VMOVDQA a, b
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#define vmovrev(a,b) \ // reverse copy for rounds 12-15
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VMOVDQA b, a
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// sha rounds 0 to 11
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// identical with the exception of the final msg op
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// which is replaced with a nop for rounds where it is not needed
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// refer to Gulley, et al for more information
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#define rounds0to11(m,a,c,sha256Msg1) \
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VMOVDQU c*16(dataPtr), msg \
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PSHUFB shufMask, msg \
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VMOVDQA msg, m \
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PADDD (c*32)(sha256Constants), msg \
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SHA256RNDS2 msg, state0, state1 \
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PSHUFD $0x0e, msg, msg \
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SHA256RNDS2 msg, state1, state0 \
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sha256Msg1 (m,a)
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// sha rounds 12 to 59
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// identical with the exception of the final msg op
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// and the reverse copy(m,msg) in round 12 which is required
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// after the last data load
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// refer to Gulley, et al for more information
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#define rounds12to59(m,c,a,t,sha256Msg1,movop) \
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movop (m,msg) \
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PADDD (c*32)(sha256Constants), msg \
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SHA256RNDS2 msg, state0, state1 \
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VMOVDQA m, m4 \
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PALIGNR $4, a, m4 \
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PADDD m4, t \
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SHA256MSG2 m, t \
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PSHUFD $0x0e, msg, msg \
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SHA256RNDS2 msg, state1, state0 \
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sha256Msg1 (m,a)
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TEXT ·block(SB), 0, $536-32
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TEXT ·block(SB), 0, $536-32
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CMPB ·useAVX2(SB), $1
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CMPB ·useSHA(SB), $1
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JE avx2
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JE sha_ni
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CMPB ·useAVX2(SB), $1
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JE avx2
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MOVQ p_base+8(FP), SI
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MOVQ p_base+8(FP), SI
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MOVQ p_len+16(FP), DX
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MOVQ p_len+16(FP), DX
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@ -862,6 +933,77 @@ done_hash:
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VZEROUPPER
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VZEROUPPER
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RET
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RET
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sha_ni:
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MOVQ dig+0(FP), digestPtr // init digest hash vector H0, H1,..., H7 pointer
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MOVQ p_base+8(FP), dataPtr // init input data base pointer
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MOVQ p_len+16(FP), numBytes // get number of input bytes to hash
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SHRQ $6, numBytes // force modulo 64 input buffer length
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SHLQ $6, numBytes
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CMPQ numBytes, $0 // exit early for zero-length input buffer
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JEQ done
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ADDQ dataPtr, numBytes // point numBytes to end of input buffer
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VMOVDQU (0*16)(digestPtr), state0 // load initial hash values and reorder
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VMOVDQU (1*16)(digestPtr), state1 // DCBA, HGFE -> ABEF, CDGH
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PSHUFD $0xb1, state0, state0 // CDAB
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PSHUFD $0x1b, state1, state1 // EFGH
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VMOVDQA state0, m4
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PALIGNR $8, state1, state0 // ABEF
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PBLENDW $0xf0, m4, state1 // CDGH
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VMOVDQA flip_mask<>(SB), shufMask
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LEAQ K256<>(SB), sha256Constants
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roundLoop:
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// save hash values for addition after rounds
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VMOVDQA state0, abefSave
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VMOVDQA state1, cdghSave
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// do rounds 0-59
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rounds0to11 (m0,-,0,nop) // 0-3
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rounds0to11 (m1,m0,1,sha256msg1) // 4-7
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rounds0to11 (m2,m1,2,sha256msg1) // 8-11
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VMOVDQU (3*16)(dataPtr), msg
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PSHUFB shufMask, msg
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rounds12to59 (m3,3,m2,m0,sha256msg1,vmovrev) // 12-15
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rounds12to59 (m0,4,m3,m1,sha256msg1,vmov) // 16-19
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rounds12to59 (m1,5,m0,m2,sha256msg1,vmov) // 20-23
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rounds12to59 (m2,6,m1,m3,sha256msg1,vmov) // 24-27
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rounds12to59 (m3,7,m2,m0,sha256msg1,vmov) // 28-31
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rounds12to59 (m0,8,m3,m1,sha256msg1,vmov) // 32-35
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rounds12to59 (m1,9,m0,m2,sha256msg1,vmov) // 36-39
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rounds12to59 (m2,10,m1,m3,sha256msg1,vmov) // 40-43
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rounds12to59 (m3,11,m2,m0,sha256msg1,vmov) // 44-47
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rounds12to59 (m0,12,m3,m1,sha256msg1,vmov) // 48-51
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rounds12to59 (m1,13,m0,m2,nop,vmov) // 52-55
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rounds12to59 (m2,14,m1,m3,nop,vmov) // 56-59
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// do rounds 60-63
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VMOVDQA m3, msg
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PADDD (15*32)(sha256Constants), msg
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SHA256RNDS2 msg, state0, state1
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PSHUFD $0x0e, msg, msg
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SHA256RNDS2 msg, state1, state0
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// add current hash values with previously saved
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PADDD abefSave, state0
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PADDD cdghSave, state1
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||||||
|
// advance data pointer; loop until buffer empty
|
||||||
|
ADDQ $64, dataPtr
|
||||||
|
CMPQ numBytes, dataPtr
|
||||||
|
JNE roundLoop
|
||||||
|
|
||||||
|
// write hash values back in the correct order
|
||||||
|
PSHUFD $0x1b, state0, state0 // FEBA
|
||||||
|
PSHUFD $0xb1, state1, state1 // DCHG
|
||||||
|
VMOVDQA state0, m4
|
||||||
|
PBLENDW $0xf0, state1, state0 // DCBA
|
||||||
|
PALIGNR $8, m4, state1 // HGFE
|
||||||
|
VMOVDQU state0, (0*16)(digestPtr)
|
||||||
|
VMOVDQU state1, (1*16)(digestPtr)
|
||||||
|
|
||||||
|
done:
|
||||||
|
RET
|
||||||
|
|
||||||
// shuffle byte order from LE to BE
|
// shuffle byte order from LE to BE
|
||||||
DATA flip_mask<>+0x00(SB)/8, $0x0405060700010203
|
DATA flip_mask<>+0x00(SB)/8, $0x0405060700010203
|
||||||
DATA flip_mask<>+0x08(SB)/8, $0x0c0d0e0f08090a0b
|
DATA flip_mask<>+0x08(SB)/8, $0x0c0d0e0f08090a0b
|
||||||
|
|||||||
Loading…
Reference in New Issue
Block a user