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author | Ricardo Catalinas Jiménez <r@untroubled.be> | 2016-02-22 06:00:43 +0800 |
---|---|---|
committer | Ricardo Catalinas Jiménez <r@untroubled.be> | 2016-02-22 06:34:34 +0800 |
commit | 0a1da69fac3766b48a116580295f98df93122503 (patch) | |
tree | 9325176034343d5528f7eed1cf105c8bd03e8f68 /crypto | |
parent | f8d98f7fcd08bd2eff36d5366ac2a14b52255d57 (diff) | |
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crypto/sha3: Delete old copied code
Diffstat (limited to 'crypto')
-rw-r--r-- | crypto/sha3/keccakf.go | 434 | ||||
-rw-r--r-- | crypto/sha3/sha3.go | 237 |
2 files changed, 0 insertions, 671 deletions
diff --git a/crypto/sha3/keccakf.go b/crypto/sha3/keccakf.go deleted file mode 100644 index 5fb98cbeb..000000000 --- a/crypto/sha3/keccakf.go +++ /dev/null @@ -1,434 +0,0 @@ -// Copyright 2014 The Go Authors. All rights reserved. -// -// Redistribution and use in source and binary forms, with or without -// modification, are permitted provided that the following conditions are -// met: -// -// * Redistributions of source code must retain the above copyright -// notice, this list of conditions and the following disclaimer. -// * Redistributions in binary form must reproduce the above -// copyright notice, this list of conditions and the following disclaimer -// in the documentation and/or other materials provided with the -// distribution. -// * Neither the name of Google Inc. nor the names of its -// contributors may be used to endorse or promote products derived from -// this software without specific prior written permission. -// -// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS -// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT -// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR -// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT -// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, -// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT -// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, -// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY -// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT -// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE -// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - -package sha3 - -// rc stores the round constants for use in the ι step. -var rc = [24]uint64{ - 0x0000000000000001, - 0x0000000000008082, - 0x800000000000808A, - 0x8000000080008000, - 0x000000000000808B, - 0x0000000080000001, - 0x8000000080008081, - 0x8000000000008009, - 0x000000000000008A, - 0x0000000000000088, - 0x0000000080008009, - 0x000000008000000A, - 0x000000008000808B, - 0x800000000000008B, - 0x8000000000008089, - 0x8000000000008003, - 0x8000000000008002, - 0x8000000000000080, - 0x000000000000800A, - 0x800000008000000A, - 0x8000000080008081, - 0x8000000000008080, - 0x0000000080000001, - 0x8000000080008008, -} - -// keccakF1600 applies the Keccak permutation to a 1600b-wide -// state represented as a slice of 25 uint64s. -func keccakF1600(a *[25]uint64) { - // Implementation translated from Keccak-inplace.c - // in the keccak reference code. - var t, bc0, bc1, bc2, bc3, bc4, d0, d1, d2, d3, d4 uint64 - - for i := 0; i < 24; i += 4 { - // Combines the 5 steps in each round into 2 steps. - // Unrolls 4 rounds per loop and spreads some steps across rounds. - - // Round 1 - bc0 = a[0] ^ a[5] ^ a[10] ^ a[15] ^ a[20] - bc1 = a[1] ^ a[6] ^ a[11] ^ a[16] ^ a[21] - bc2 = a[2] ^ a[7] ^ a[12] ^ a[17] ^ a[22] - bc3 = a[3] ^ a[8] ^ a[13] ^ a[18] ^ a[23] - bc4 = a[4] ^ a[9] ^ a[14] ^ a[19] ^ a[24] - d0 = bc4 ^ (bc1<<1 | bc1>>63) - d1 = bc0 ^ (bc2<<1 | bc2>>63) - d2 = bc1 ^ (bc3<<1 | bc3>>63) - d3 = bc2 ^ (bc4<<1 | bc4>>63) - d4 = bc3 ^ (bc0<<1 | bc0>>63) - - bc0 = a[0] ^ d0 - t = a[6] ^ d1 - bc1 = t<<44 | t>>(64-44) - t = a[12] ^ d2 - bc2 = t<<43 | t>>(64-43) - t = a[18] ^ d3 - bc3 = t<<21 | t>>(64-21) - t = a[24] ^ d4 - bc4 = t<<14 | t>>(64-14) - a[0] = bc0 ^ (bc2 &^ bc1) ^ rc[i] - a[6] = bc1 ^ (bc3 &^ bc2) - a[12] = bc2 ^ (bc4 &^ bc3) - a[18] = bc3 ^ (bc0 &^ bc4) - a[24] = bc4 ^ (bc1 &^ bc0) - - t = a[10] ^ d0 - bc2 = t<<3 | t>>(64-3) - t = a[16] ^ d1 - bc3 = t<<45 | t>>(64-45) - t = a[22] ^ d2 - bc4 = t<<61 | t>>(64-61) - t = a[3] ^ d3 - bc0 = t<<28 | t>>(64-28) - t = a[9] ^ d4 - bc1 = t<<20 | t>>(64-20) - a[10] = bc0 ^ (bc2 &^ bc1) - a[16] = bc1 ^ (bc3 &^ bc2) - a[22] = bc2 ^ (bc4 &^ bc3) - a[3] = bc3 ^ (bc0 &^ bc4) - a[9] = bc4 ^ (bc1 &^ bc0) - - t = a[20] ^ d0 - bc4 = t<<18 | t>>(64-18) - t = a[1] ^ d1 - bc0 = t<<1 | t>>(64-1) - t = a[7] ^ d2 - bc1 = t<<6 | t>>(64-6) - t = a[13] ^ d3 - bc2 = t<<25 | t>>(64-25) - t = a[19] ^ d4 - bc3 = t<<8 | t>>(64-8) - a[20] = bc0 ^ (bc2 &^ bc1) - a[1] = bc1 ^ (bc3 &^ bc2) - a[7] = bc2 ^ (bc4 &^ bc3) - a[13] = bc3 ^ (bc0 &^ bc4) - a[19] = bc4 ^ (bc1 &^ bc0) - - t = a[5] ^ d0 - bc1 = t<<36 | t>>(64-36) - t = a[11] ^ d1 - bc2 = t<<10 | t>>(64-10) - t = a[17] ^ d2 - bc3 = t<<15 | t>>(64-15) - t = a[23] ^ d3 - bc4 = t<<56 | t>>(64-56) - t = a[4] ^ d4 - bc0 = t<<27 | t>>(64-27) - a[5] = bc0 ^ (bc2 &^ bc1) - a[11] = bc1 ^ (bc3 &^ bc2) - a[17] = bc2 ^ (bc4 &^ bc3) - a[23] = bc3 ^ (bc0 &^ bc4) - a[4] = bc4 ^ (bc1 &^ bc0) - - t = a[15] ^ d0 - bc3 = t<<41 | t>>(64-41) - t = a[21] ^ d1 - bc4 = t<<2 | t>>(64-2) - t = a[2] ^ d2 - bc0 = t<<62 | t>>(64-62) - t = a[8] ^ d3 - bc1 = t<<55 | t>>(64-55) - t = a[14] ^ d4 - bc2 = t<<39 | t>>(64-39) - a[15] = bc0 ^ (bc2 &^ bc1) - a[21] = bc1 ^ (bc3 &^ bc2) - a[2] = bc2 ^ (bc4 &^ bc3) - a[8] = bc3 ^ (bc0 &^ bc4) - a[14] = bc4 ^ (bc1 &^ bc0) - - // Round 2 - bc0 = a[0] ^ a[5] ^ a[10] ^ a[15] ^ a[20] - bc1 = a[1] ^ a[6] ^ a[11] ^ a[16] ^ a[21] - bc2 = a[2] ^ a[7] ^ a[12] ^ a[17] ^ a[22] - bc3 = a[3] ^ a[8] ^ a[13] ^ a[18] ^ a[23] - bc4 = a[4] ^ a[9] ^ a[14] ^ a[19] ^ a[24] - d0 = bc4 ^ (bc1<<1 | bc1>>63) - d1 = bc0 ^ (bc2<<1 | bc2>>63) - d2 = bc1 ^ (bc3<<1 | bc3>>63) - d3 = bc2 ^ (bc4<<1 | bc4>>63) - d4 = bc3 ^ (bc0<<1 | bc0>>63) - - bc0 = a[0] ^ d0 - t = a[16] ^ d1 - bc1 = t<<44 | t>>(64-44) - t = a[7] ^ d2 - bc2 = t<<43 | t>>(64-43) - t = a[23] ^ d3 - bc3 = t<<21 | t>>(64-21) - t = a[14] ^ d4 - bc4 = t<<14 | t>>(64-14) - a[0] = bc0 ^ (bc2 &^ bc1) ^ rc[i+1] - a[16] = bc1 ^ (bc3 &^ bc2) - a[7] = bc2 ^ (bc4 &^ bc3) - a[23] = bc3 ^ (bc0 &^ bc4) - a[14] = bc4 ^ (bc1 &^ bc0) - - t = a[20] ^ d0 - bc2 = t<<3 | t>>(64-3) - t = a[11] ^ d1 - bc3 = t<<45 | t>>(64-45) - t = a[2] ^ d2 - bc4 = t<<61 | t>>(64-61) - t = a[18] ^ d3 - bc0 = t<<28 | t>>(64-28) - t = a[9] ^ d4 - bc1 = t<<20 | t>>(64-20) - a[20] = bc0 ^ (bc2 &^ bc1) - a[11] = bc1 ^ (bc3 &^ bc2) - a[2] = bc2 ^ (bc4 &^ bc3) - a[18] = bc3 ^ (bc0 &^ bc4) - a[9] = bc4 ^ (bc1 &^ bc0) - - t = a[15] ^ d0 - bc4 = t<<18 | t>>(64-18) - t = a[6] ^ d1 - bc0 = t<<1 | t>>(64-1) - t = a[22] ^ d2 - bc1 = t<<6 | t>>(64-6) - t = a[13] ^ d3 - bc2 = t<<25 | t>>(64-25) - t = a[4] ^ d4 - bc3 = t<<8 | t>>(64-8) - a[15] = bc0 ^ (bc2 &^ bc1) - a[6] = bc1 ^ (bc3 &^ bc2) - a[22] = bc2 ^ (bc4 &^ bc3) - a[13] = bc3 ^ (bc0 &^ bc4) - a[4] = bc4 ^ (bc1 &^ bc0) - - t = a[10] ^ d0 - bc1 = t<<36 | t>>(64-36) - t = a[1] ^ d1 - bc2 = t<<10 | t>>(64-10) - t = a[17] ^ d2 - bc3 = t<<15 | t>>(64-15) - t = a[8] ^ d3 - bc4 = t<<56 | t>>(64-56) - t = a[24] ^ d4 - bc0 = t<<27 | t>>(64-27) - a[10] = bc0 ^ (bc2 &^ bc1) - a[1] = bc1 ^ (bc3 &^ bc2) - a[17] = bc2 ^ (bc4 &^ bc3) - a[8] = bc3 ^ (bc0 &^ bc4) - a[24] = bc4 ^ (bc1 &^ bc0) - - t = a[5] ^ d0 - bc3 = t<<41 | t>>(64-41) - t = a[21] ^ d1 - bc4 = t<<2 | t>>(64-2) - t = a[12] ^ d2 - bc0 = t<<62 | t>>(64-62) - t = a[3] ^ d3 - bc1 = t<<55 | t>>(64-55) - t = a[19] ^ d4 - bc2 = t<<39 | t>>(64-39) - a[5] = bc0 ^ (bc2 &^ bc1) - a[21] = bc1 ^ (bc3 &^ bc2) - a[12] = bc2 ^ (bc4 &^ bc3) - a[3] = bc3 ^ (bc0 &^ bc4) - a[19] = bc4 ^ (bc1 &^ bc0) - - // Round 3 - bc0 = a[0] ^ a[5] ^ a[10] ^ a[15] ^ a[20] - bc1 = a[1] ^ a[6] ^ a[11] ^ a[16] ^ a[21] - bc2 = a[2] ^ a[7] ^ a[12] ^ a[17] ^ a[22] - bc3 = a[3] ^ a[8] ^ a[13] ^ a[18] ^ a[23] - bc4 = a[4] ^ a[9] ^ a[14] ^ a[19] ^ a[24] - d0 = bc4 ^ (bc1<<1 | bc1>>63) - d1 = bc0 ^ (bc2<<1 | bc2>>63) - d2 = bc1 ^ (bc3<<1 | bc3>>63) - d3 = bc2 ^ (bc4<<1 | bc4>>63) - d4 = bc3 ^ (bc0<<1 | bc0>>63) - - bc0 = a[0] ^ d0 - t = a[11] ^ d1 - bc1 = t<<44 | t>>(64-44) - t = a[22] ^ d2 - bc2 = t<<43 | t>>(64-43) - t = a[8] ^ d3 - bc3 = t<<21 | t>>(64-21) - t = a[19] ^ d4 - bc4 = t<<14 | t>>(64-14) - a[0] = bc0 ^ (bc2 &^ bc1) ^ rc[i+2] - a[11] = bc1 ^ (bc3 &^ bc2) - a[22] = bc2 ^ (bc4 &^ bc3) - a[8] = bc3 ^ (bc0 &^ bc4) - a[19] = bc4 ^ (bc1 &^ bc0) - - t = a[15] ^ d0 - bc2 = t<<3 | t>>(64-3) - t = a[1] ^ d1 - bc3 = t<<45 | t>>(64-45) - t = a[12] ^ d2 - bc4 = t<<61 | t>>(64-61) - t = a[23] ^ d3 - bc0 = t<<28 | t>>(64-28) - t = a[9] ^ d4 - bc1 = t<<20 | t>>(64-20) - a[15] = bc0 ^ (bc2 &^ bc1) - a[1] = bc1 ^ (bc3 &^ bc2) - a[12] = bc2 ^ (bc4 &^ bc3) - a[23] = bc3 ^ (bc0 &^ bc4) - a[9] = bc4 ^ (bc1 &^ bc0) - - t = a[5] ^ d0 - bc4 = t<<18 | t>>(64-18) - t = a[16] ^ d1 - bc0 = t<<1 | t>>(64-1) - t = a[2] ^ d2 - bc1 = t<<6 | t>>(64-6) - t = a[13] ^ d3 - bc2 = t<<25 | t>>(64-25) - t = a[24] ^ d4 - bc3 = t<<8 | t>>(64-8) - a[5] = bc0 ^ (bc2 &^ bc1) - a[16] = bc1 ^ (bc3 &^ bc2) - a[2] = bc2 ^ (bc4 &^ bc3) - a[13] = bc3 ^ (bc0 &^ bc4) - a[24] = bc4 ^ (bc1 &^ bc0) - - t = a[20] ^ d0 - bc1 = t<<36 | t>>(64-36) - t = a[6] ^ d1 - bc2 = t<<10 | t>>(64-10) - t = a[17] ^ d2 - bc3 = t<<15 | t>>(64-15) - t = a[3] ^ d3 - bc4 = t<<56 | t>>(64-56) - t = a[14] ^ d4 - bc0 = t<<27 | t>>(64-27) - a[20] = bc0 ^ (bc2 &^ bc1) - a[6] = bc1 ^ (bc3 &^ bc2) - a[17] = bc2 ^ (bc4 &^ bc3) - a[3] = bc3 ^ (bc0 &^ bc4) - a[14] = bc4 ^ (bc1 &^ bc0) - - t = a[10] ^ d0 - bc3 = t<<41 | t>>(64-41) - t = a[21] ^ d1 - bc4 = t<<2 | t>>(64-2) - t = a[7] ^ d2 - bc0 = t<<62 | t>>(64-62) - t = a[18] ^ d3 - bc1 = t<<55 | t>>(64-55) - t = a[4] ^ d4 - bc2 = t<<39 | t>>(64-39) - a[10] = bc0 ^ (bc2 &^ bc1) - a[21] = bc1 ^ (bc3 &^ bc2) - a[7] = bc2 ^ (bc4 &^ bc3) - a[18] = bc3 ^ (bc0 &^ bc4) - a[4] = bc4 ^ (bc1 &^ bc0) - - // Round 4 - bc0 = a[0] ^ a[5] ^ a[10] ^ a[15] ^ a[20] - bc1 = a[1] ^ a[6] ^ a[11] ^ a[16] ^ a[21] - bc2 = a[2] ^ a[7] ^ a[12] ^ a[17] ^ a[22] - bc3 = a[3] ^ a[8] ^ a[13] ^ a[18] ^ a[23] - bc4 = a[4] ^ a[9] ^ a[14] ^ a[19] ^ a[24] - d0 = bc4 ^ (bc1<<1 | bc1>>63) - d1 = bc0 ^ (bc2<<1 | bc2>>63) - d2 = bc1 ^ (bc3<<1 | bc3>>63) - d3 = bc2 ^ (bc4<<1 | bc4>>63) - d4 = bc3 ^ (bc0<<1 | bc0>>63) - - bc0 = a[0] ^ d0 - t = a[1] ^ d1 - bc1 = t<<44 | t>>(64-44) - t = a[2] ^ d2 - bc2 = t<<43 | t>>(64-43) - t = a[3] ^ d3 - bc3 = t<<21 | t>>(64-21) - t = a[4] ^ d4 - bc4 = t<<14 | t>>(64-14) - a[0] = bc0 ^ (bc2 &^ bc1) ^ rc[i+3] - a[1] = bc1 ^ (bc3 &^ bc2) - a[2] = bc2 ^ (bc4 &^ bc3) - a[3] = bc3 ^ (bc0 &^ bc4) - a[4] = bc4 ^ (bc1 &^ bc0) - - t = a[5] ^ d0 - bc2 = t<<3 | t>>(64-3) - t = a[6] ^ d1 - bc3 = t<<45 | t>>(64-45) - t = a[7] ^ d2 - bc4 = t<<61 | t>>(64-61) - t = a[8] ^ d3 - bc0 = t<<28 | t>>(64-28) - t = a[9] ^ d4 - bc1 = t<<20 | t>>(64-20) - a[5] = bc0 ^ (bc2 &^ bc1) - a[6] = bc1 ^ (bc3 &^ bc2) - a[7] = bc2 ^ (bc4 &^ bc3) - a[8] = bc3 ^ (bc0 &^ bc4) - a[9] = bc4 ^ (bc1 &^ bc0) - - t = a[10] ^ d0 - bc4 = t<<18 | t>>(64-18) - t = a[11] ^ d1 - bc0 = t<<1 | t>>(64-1) - t = a[12] ^ d2 - bc1 = t<<6 | t>>(64-6) - t = a[13] ^ d3 - bc2 = t<<25 | t>>(64-25) - t = a[14] ^ d4 - bc3 = t<<8 | t>>(64-8) - a[10] = bc0 ^ (bc2 &^ bc1) - a[11] = bc1 ^ (bc3 &^ bc2) - a[12] = bc2 ^ (bc4 &^ bc3) - a[13] = bc3 ^ (bc0 &^ bc4) - a[14] = bc4 ^ (bc1 &^ bc0) - - t = a[15] ^ d0 - bc1 = t<<36 | t>>(64-36) - t = a[16] ^ d1 - bc2 = t<<10 | t>>(64-10) - t = a[17] ^ d2 - bc3 = t<<15 | t>>(64-15) - t = a[18] ^ d3 - bc4 = t<<56 | t>>(64-56) - t = a[19] ^ d4 - bc0 = t<<27 | t>>(64-27) - a[15] = bc0 ^ (bc2 &^ bc1) - a[16] = bc1 ^ (bc3 &^ bc2) - a[17] = bc2 ^ (bc4 &^ bc3) - a[18] = bc3 ^ (bc0 &^ bc4) - a[19] = bc4 ^ (bc1 &^ bc0) - - t = a[20] ^ d0 - bc3 = t<<41 | t>>(64-41) - t = a[21] ^ d1 - bc4 = t<<2 | t>>(64-2) - t = a[22] ^ d2 - bc0 = t<<62 | t>>(64-62) - t = a[23] ^ d3 - bc1 = t<<55 | t>>(64-55) - t = a[24] ^ d4 - bc2 = t<<39 | t>>(64-39) - a[20] = bc0 ^ (bc2 &^ bc1) - a[21] = bc1 ^ (bc3 &^ bc2) - a[22] = bc2 ^ (bc4 &^ bc3) - a[23] = bc3 ^ (bc0 &^ bc4) - a[24] = bc4 ^ (bc1 &^ bc0) - } -} diff --git a/crypto/sha3/sha3.go b/crypto/sha3/sha3.go deleted file mode 100644 index ee24df5c9..000000000 --- a/crypto/sha3/sha3.go +++ /dev/null @@ -1,237 +0,0 @@ -// Copyright 2013 The Go Authors. All rights reserved. -// -// Redistribution and use in source and binary forms, with or without -// modification, are permitted provided that the following conditions are -// met: -// -// * Redistributions of source code must retain the above copyright -// notice, this list of conditions and the following disclaimer. -// * Redistributions in binary form must reproduce the above -// copyright notice, this list of conditions and the following disclaimer -// in the documentation and/or other materials provided with the -// distribution. -// * Neither the name of Google Inc. nor the names of its -// contributors may be used to endorse or promote products derived from -// this software without specific prior written permission. -// -// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS -// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT -// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR -// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT -// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, -// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT -// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, -// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY -// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT -// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE -// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - -// Package sha3 implements the SHA3 hash algorithm (formerly called Keccak) chosen by NIST in 2012. -// This file provides a SHA3 implementation which implements the standard hash.Hash interface. -// Writing input data, including padding, and reading output data are computed in this file. -// Note that the current implementation can compute the hash of an integral number of bytes only. -// This is a consequence of the hash interface in which a buffer of bytes is passed in. -// The internals of the Keccak-f function are computed in keccakf.go. -// For the detailed specification, refer to the Keccak web site (http://keccak.noekeon.org/). -package sha3 - -import ( - "encoding/binary" - "hash" -) - -// laneSize is the size in bytes of each "lane" of the internal state of SHA3 (5 * 5 * 8). -// Note that changing this size would requires using a type other than uint64 to store each lane. -const laneSize = 8 - -// sliceSize represents the dimensions of the internal state, a square matrix of -// sliceSize ** 2 lanes. This is the size of both the "rows" and "columns" dimensions in the -// terminology of the SHA3 specification. -const sliceSize = 5 - -// numLanes represents the total number of lanes in the state. -const numLanes = sliceSize * sliceSize - -// stateSize is the size in bytes of the internal state of SHA3 (5 * 5 * WSize). -const stateSize = laneSize * numLanes - -// digest represents the partial evaluation of a checksum. -// Note that capacity, and not outputSize, is the critical security parameter, as SHA3 can output -// an arbitrary number of bytes for any given capacity. The Keccak proposal recommends that -// capacity = 2*outputSize to ensure that finding a collision of size outputSize requires -// O(2^{outputSize/2}) computations (the birthday lower bound). Future standards may modify the -// capacity/outputSize ratio to allow for more output with lower cryptographic security. -type digest struct { - a [numLanes]uint64 // main state of the hash - outputSize int // desired output size in bytes - capacity int // number of bytes to leave untouched during squeeze/absorb - absorbed int // number of bytes absorbed thus far -} - -// minInt returns the lesser of two integer arguments, to simplify the absorption routine. -func minInt(v1, v2 int) int { - if v1 <= v2 { - return v1 - } - return v2 -} - -// rate returns the number of bytes of the internal state which can be absorbed or squeezed -// in between calls to the permutation function. -func (d *digest) rate() int { - return stateSize - d.capacity -} - -// Reset clears the internal state by zeroing bytes in the state buffer. -// This can be skipped for a newly-created hash state; the default zero-allocated state is correct. -func (d *digest) Reset() { - d.absorbed = 0 - for i := range d.a { - d.a[i] = 0 - } -} - -// BlockSize, required by the hash.Hash interface, does not have a standard intepretation -// for a sponge-based construction like SHA3. We return the data rate: the number of bytes which -// can be absorbed per invocation of the permutation function. For Merkle-Damgård based hashes -// (ie SHA1, SHA2, MD5) the output size of the internal compression function is returned. -// We consider this to be roughly equivalent because it represents the number of bytes of output -// produced per cryptographic operation. -func (d *digest) BlockSize() int { return d.rate() } - -// Size returns the output size of the hash function in bytes. -func (d *digest) Size() int { - return d.outputSize -} - -// unalignedAbsorb is a helper function for Write, which absorbs data that isn't aligned with an -// 8-byte lane. This requires shifting the individual bytes into position in a uint64. -func (d *digest) unalignedAbsorb(p []byte) { - var t uint64 - for i := len(p) - 1; i >= 0; i-- { - t <<= 8 - t |= uint64(p[i]) - } - offset := (d.absorbed) % d.rate() - t <<= 8 * uint(offset%laneSize) - d.a[offset/laneSize] ^= t - d.absorbed += len(p) -} - -// Write "absorbs" bytes into the state of the SHA3 hash, updating as needed when the sponge -// "fills up" with rate() bytes. Since lanes are stored internally as type uint64, this requires -// converting the incoming bytes into uint64s using a little endian interpretation. This -// implementation is optimized for large, aligned writes of multiples of 8 bytes (laneSize). -// Non-aligned or uneven numbers of bytes require shifting and are slower. -func (d *digest) Write(p []byte) (int, error) { - // An initial offset is needed if the we aren't absorbing to the first lane initially. - offset := d.absorbed % d.rate() - toWrite := len(p) - - // The first lane may need to absorb unaligned and/or incomplete data. - if (offset%laneSize != 0 || len(p) < 8) && len(p) > 0 { - toAbsorb := minInt(laneSize-(offset%laneSize), len(p)) - d.unalignedAbsorb(p[:toAbsorb]) - p = p[toAbsorb:] - offset = (d.absorbed) % d.rate() - - // For every rate() bytes absorbed, the state must be permuted via the F Function. - if (d.absorbed)%d.rate() == 0 { - keccakF1600(&d.a) - } - } - - // This loop should absorb the bulk of the data into full, aligned lanes. - // It will call the update function as necessary. - for len(p) > 7 { - firstLane := offset / laneSize - lastLane := minInt(d.rate()/laneSize, firstLane+len(p)/laneSize) - - // This inner loop absorbs input bytes into the state in groups of 8, converted to uint64s. - for lane := firstLane; lane < lastLane; lane++ { - d.a[lane] ^= binary.LittleEndian.Uint64(p[:laneSize]) - p = p[laneSize:] - } - d.absorbed += (lastLane - firstLane) * laneSize - // For every rate() bytes absorbed, the state must be permuted via the F Function. - if (d.absorbed)%d.rate() == 0 { - keccakF1600(&d.a) - } - - offset = 0 - } - - // If there are insufficient bytes to fill the final lane, an unaligned absorption. - // This should always start at a correct lane boundary though, or else it would be caught - // by the uneven opening lane case above. - if len(p) > 0 { - d.unalignedAbsorb(p) - } - - return toWrite, nil -} - -// pad computes the SHA3 padding scheme based on the number of bytes absorbed. -// The padding is a 1 bit, followed by an arbitrary number of 0s and then a final 1 bit, such that -// the input bits plus padding bits are a multiple of rate(). Adding the padding simply requires -// xoring an opening and closing bit into the appropriate lanes. -func (d *digest) pad() { - offset := d.absorbed % d.rate() - // The opening pad bit must be shifted into position based on the number of bytes absorbed - padOpenLane := offset / laneSize - d.a[padOpenLane] ^= 0x0000000000000001 << uint(8*(offset%laneSize)) - // The closing padding bit is always in the last position - padCloseLane := (d.rate() / laneSize) - 1 - d.a[padCloseLane] ^= 0x8000000000000000 -} - -// finalize prepares the hash to output data by padding and one final permutation of the state. -func (d *digest) finalize() { - d.pad() - keccakF1600(&d.a) -} - -// squeeze outputs an arbitrary number of bytes from the hash state. -// Squeezing can require multiple calls to the F function (one per rate() bytes squeezed), -// although this is not the case for standard SHA3 parameters. This implementation only supports -// squeezing a single time, subsequent squeezes may lose alignment. Future implementations -// may wish to support multiple squeeze calls, for example to support use as a PRNG. -func (d *digest) squeeze(in []byte, toSqueeze int) []byte { - // Because we read in blocks of laneSize, we need enough room to read - // an integral number of lanes - needed := toSqueeze + (laneSize-toSqueeze%laneSize)%laneSize - if cap(in)-len(in) < needed { - newIn := make([]byte, len(in), len(in)+needed) - copy(newIn, in) - in = newIn - } - out := in[len(in) : len(in)+needed] - - for len(out) > 0 { - for i := 0; i < d.rate() && len(out) > 0; i += laneSize { - binary.LittleEndian.PutUint64(out[:], d.a[i/laneSize]) - out = out[laneSize:] - } - if len(out) > 0 { - keccakF1600(&d.a) - } - } - return in[:len(in)+toSqueeze] // Re-slice in case we wrote extra data. -} - -// Sum applies padding to the hash state and then squeezes out the desired nubmer of output bytes. -func (d *digest) Sum(in []byte) []byte { - // Make a copy of the original hash so that caller can keep writing and summing. - dup := *d - dup.finalize() - return dup.squeeze(in, dup.outputSize) -} - -// The NewKeccakX constructors enable initializing a hash in any of the four recommend sizes -// from the Keccak specification, all of which set capacity=2*outputSize. Note that the final -// NIST standard for SHA3 may specify different input/output lengths. -// The output size is indicated in bits but converted into bytes internally. -func NewKeccak224() hash.Hash { return &digest{outputSize: 224 / 8, capacity: 2 * 224 / 8} } -func NewKeccak256() hash.Hash { return &digest{outputSize: 256 / 8, capacity: 2 * 256 / 8} } -func NewKeccak384() hash.Hash { return &digest{outputSize: 384 / 8, capacity: 2 * 384 / 8} } -func NewKeccak512() hash.Hash { return &digest{outputSize: 512 / 8, capacity: 2 * 512 / 8} } |