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// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package cubed
import ( "fmt"
"gitlab.com/nitya-sattva/go-x11/hash" )
// HashSize holds the size of a hash in bytes.
const HashSize = int(64)
// BlockSize holds the size of a block in bytes.
const BlockSize = uintptr(32)
////////////////
type digest struct { ptr uintptr
h [32]uint32
b [BlockSize]byte }
// New returns a new digest compute a CUBEHASH512 hash.
func New() hash.Digest { ref := &digest{} ref.Reset() return ref }
////////////////
// Reset resets the digest to its initial state.
func (ref *digest) Reset() { ref.ptr = 0 copy(ref.h[:], kInit[:]) }
// Sum appends the current hash to dst and returns the result
// as a slice. It does not change the underlying hash state.
func (ref *digest) Sum(dst []byte) []byte { dgt := *ref hsh := [64]byte{} dgt.Close(hsh[:], 0, 0) return append(dst, hsh[:]...) }
// Write more data to the running hash, never returns an error.
func (ref *digest) Write(src []byte) (int, error) { sln := uintptr(len(src)) fln := len(src) ptr := ref.ptr
if sln < (BlockSize - ptr) { copy(ref.b[ptr:], src[:sln]) ref.ptr += sln return int(sln), nil }
st := ref.h[:] buf := ref.b[:] for sln > 0 { cln := BlockSize - ptr
if cln > sln { cln = sln } sln -= cln
copy(buf[ptr:], src[:cln]) src = src[cln:] ptr += cln
if ptr == BlockSize { st[0x00] ^= decUInt32le(buf[0:]) st[0x01] ^= decUInt32le(buf[4:]) st[0x02] ^= decUInt32le(buf[8:]) st[0x03] ^= decUInt32le(buf[12:]) st[0x04] ^= decUInt32le(buf[16:]) st[0x05] ^= decUInt32le(buf[20:]) st[0x06] ^= decUInt32le(buf[24:]) st[0x07] ^= decUInt32le(buf[28:])
runRounds(st) runRounds(st)
runRounds(st) runRounds(st)
runRounds(st) runRounds(st)
runRounds(st) runRounds(st)
ptr = 0 } }
ref.ptr = ptr return fln, nil }
// Close the digest by writing the last bits and storing the hash
// in dst. This prepares the digest for reuse by calling reset. A call
// to Close with a dst that is smaller then HashSize will return an error.
func (ref *digest) Close(dst []byte, bits uint8, bcnt uint8) error { if ln := len(dst); HashSize > ln { return fmt.Errorf("Cubed Close: dst min length: %d, got %d", HashSize, ln) } st := ref.h[:]
{ buf := ref.b[:] ptr := ref.ptr + 1
z := uint8(0x80) >> bcnt buf[ref.ptr] = uint8((bits & -z) | z)
memset(buf[ptr:], 0) st[0x00] ^= decUInt32le(buf[0:]) st[0x01] ^= decUInt32le(buf[4:]) st[0x02] ^= decUInt32le(buf[8:]) st[0x03] ^= decUInt32le(buf[12:]) st[0x04] ^= decUInt32le(buf[16:]) st[0x05] ^= decUInt32le(buf[20:]) st[0x06] ^= decUInt32le(buf[24:]) st[0x07] ^= decUInt32le(buf[28:]) }
for i := uint8(0); i < 11; i++ { runRounds(st) runRounds(st)
runRounds(st) runRounds(st)
runRounds(st) runRounds(st)
runRounds(st) runRounds(st)
if i == 0 { st[0x1F] ^= uint32(1) } }
for i := uint8(0); i < 16; i++ { encUInt32le(dst[(i<<2):], ref.h[i]) }
ref.Reset() return nil }
// Size returns the number of bytes required to store the hash.
func (*digest) Size() int { return int(HashSize) }
// BlockSize returns the block size of the hash.
func (*digest) BlockSize() int { return int(BlockSize) }
////////////////
func memset(dst []byte, src byte) { for i := range dst { dst[i] = src } }
func decUInt32le(src []byte) uint32 { return (uint32(src[0]) | uint32(src[1])<<8 | uint32(src[2])<<16 | uint32(src[3])<<24) }
func encUInt32le(dst []byte, src uint32) { dst[0] = uint8(src) dst[1] = uint8(src >> 8) dst[2] = uint8(src >> 16) dst[3] = uint8(src >> 24) }
func runRounds(st []uint32) { st[0x10] = (st[0x00] + st[0x10]) st[0x00] = (st[0x00] << 7) | (st[0x00] >> (32 - 7)) st[0x11] = (st[0x01] + st[0x11]) st[0x01] = (st[0x01] << 7) | (st[0x01] >> (32 - 7)) st[0x12] = (st[0x02] + st[0x12]) st[0x02] = (st[0x02] << 7) | (st[0x02] >> (32 - 7)) st[0x13] = (st[0x03] + st[0x13]) st[0x03] = (st[0x03] << 7) | (st[0x03] >> (32 - 7)) st[0x14] = (st[0x04] + st[0x14]) st[0x04] = (st[0x04] << 7) | (st[0x04] >> (32 - 7)) st[0x15] = (st[0x05] + st[0x15]) st[0x05] = (st[0x05] << 7) | (st[0x05] >> (32 - 7)) st[0x16] = (st[0x06] + st[0x16]) st[0x06] = (st[0x06] << 7) | (st[0x06] >> (32 - 7)) st[0x17] = (st[0x07] + st[0x17]) st[0x07] = (st[0x07] << 7) | (st[0x07] >> (32 - 7)) st[0x18] = (st[0x08] + st[0x18]) st[0x08] = (st[0x08] << 7) | (st[0x08] >> (32 - 7)) st[0x19] = (st[0x09] + st[0x19]) st[0x09] = (st[0x09] << 7) | (st[0x09] >> (32 - 7)) st[0x1A] = (st[0x0A] + st[0x1A]) st[0x0A] = (st[0x0A] << 7) | (st[0x0A] >> (32 - 7)) st[0x1B] = (st[0x0B] + st[0x1B]) st[0x0B] = (st[0x0B] << 7) | (st[0x0B] >> (32 - 7)) st[0x1C] = (st[0x0C] + st[0x1C]) st[0x0C] = (st[0x0C] << 7) | (st[0x0C] >> (32 - 7)) st[0x1D] = (st[0x0D] + st[0x1D]) st[0x0D] = (st[0x0D] << 7) | (st[0x0D] >> (32 - 7)) st[0x1E] = (st[0x0E] + st[0x1E]) st[0x0E] = (st[0x0E] << 7) | (st[0x0E] >> (32 - 7)) st[0x1F] = (st[0x0F] + st[0x1F]) st[0x0F] = (st[0x0F] << 7) | (st[0x0F] >> (32 - 7)) st[0x08] ^= st[0x10] st[0x09] ^= st[0x11] st[0x0A] ^= st[0x12] st[0x0B] ^= st[0x13] st[0x0C] ^= st[0x14] st[0x0D] ^= st[0x15] st[0x0E] ^= st[0x16] st[0x0F] ^= st[0x17] st[0x00] ^= st[0x18] st[0x01] ^= st[0x19] st[0x02] ^= st[0x1A] st[0x03] ^= st[0x1B] st[0x04] ^= st[0x1C] st[0x05] ^= st[0x1D] st[0x06] ^= st[0x1E] st[0x07] ^= st[0x1F] st[0x12] = (st[0x08] + st[0x12]) st[0x08] = (st[0x08] << 11) | (st[0x08] >> (32 - 11)) st[0x13] = (st[0x09] + st[0x13]) st[0x09] = (st[0x09] << 11) | (st[0x09] >> (32 - 11)) st[0x10] = (st[0x0A] + st[0x10]) st[0x0A] = (st[0x0A] << 11) | (st[0x0A] >> (32 - 11)) st[0x11] = (st[0x0B] + st[0x11]) st[0x0B] = (st[0x0B] << 11) | (st[0x0B] >> (32 - 11)) st[0x16] = (st[0x0C] + st[0x16]) st[0x0C] = (st[0x0C] << 11) | (st[0x0C] >> (32 - 11)) st[0x17] = (st[0x0D] + st[0x17]) st[0x0D] = (st[0x0D] << 11) | (st[0x0D] >> (32 - 11)) st[0x14] = (st[0x0E] + st[0x14]) st[0x0E] = (st[0x0E] << 11) | (st[0x0E] >> (32 - 11)) st[0x15] = (st[0x0F] + st[0x15]) st[0x0F] = (st[0x0F] << 11) | (st[0x0F] >> (32 - 11)) st[0x1A] = (st[0x00] + st[0x1A]) st[0x00] = (st[0x00] << 11) | (st[0x00] >> (32 - 11)) st[0x1B] = (st[0x01] + st[0x1B]) st[0x01] = (st[0x01] << 11) | (st[0x01] >> (32 - 11)) st[0x18] = (st[0x02] + st[0x18]) st[0x02] = (st[0x02] << 11) | (st[0x02] >> (32 - 11)) st[0x19] = (st[0x03] + st[0x19]) st[0x03] = (st[0x03] << 11) | (st[0x03] >> (32 - 11)) st[0x1E] = (st[0x04] + st[0x1E]) st[0x04] = (st[0x04] << 11) | (st[0x04] >> (32 - 11)) st[0x1F] = (st[0x05] + st[0x1F]) st[0x05] = (st[0x05] << 11) | (st[0x05] >> (32 - 11)) st[0x1C] = (st[0x06] + st[0x1C]) st[0x06] = (st[0x06] << 11) | (st[0x06] >> (32 - 11)) st[0x1D] = (st[0x07] + st[0x1D]) st[0x07] = (st[0x07] << 11) | (st[0x07] >> (32 - 11)) st[0x0C] ^= st[0x12] st[0x0D] ^= st[0x13] st[0x0E] ^= st[0x10] st[0x0F] ^= st[0x11] st[0x08] ^= st[0x16] st[0x09] ^= st[0x17] st[0x0A] ^= st[0x14] st[0x0B] ^= st[0x15] st[0x04] ^= st[0x1A] st[0x05] ^= st[0x1B] st[0x06] ^= st[0x18] st[0x07] ^= st[0x19] st[0x00] ^= st[0x1E] st[0x01] ^= st[0x1F] st[0x02] ^= st[0x1C] st[0x03] ^= st[0x1D]
st[0x13] = (st[0x0C] + st[0x13]) st[0x0C] = (st[0x0C] << 7) | (st[0x0C] >> (32 - 7)) st[0x12] = (st[0x0D] + st[0x12]) st[0x0D] = (st[0x0D] << 7) | (st[0x0D] >> (32 - 7)) st[0x11] = (st[0x0E] + st[0x11]) st[0x0E] = (st[0x0E] << 7) | (st[0x0E] >> (32 - 7)) st[0x10] = (st[0x0F] + st[0x10]) st[0x0F] = (st[0x0F] << 7) | (st[0x0F] >> (32 - 7)) st[0x17] = (st[0x08] + st[0x17]) st[0x08] = (st[0x08] << 7) | (st[0x08] >> (32 - 7)) st[0x16] = (st[0x09] + st[0x16]) st[0x09] = (st[0x09] << 7) | (st[0x09] >> (32 - 7)) st[0x15] = (st[0x0A] + st[0x15]) st[0x0A] = (st[0x0A] << 7) | (st[0x0A] >> (32 - 7)) st[0x14] = (st[0x0B] + st[0x14]) st[0x0B] = (st[0x0B] << 7) | (st[0x0B] >> (32 - 7)) st[0x1B] = (st[0x04] + st[0x1B]) st[0x04] = (st[0x04] << 7) | (st[0x04] >> (32 - 7)) st[0x1A] = (st[0x05] + st[0x1A]) st[0x05] = (st[0x05] << 7) | (st[0x05] >> (32 - 7)) st[0x19] = (st[0x06] + st[0x19]) st[0x06] = (st[0x06] << 7) | (st[0x06] >> (32 - 7)) st[0x18] = (st[0x07] + st[0x18]) st[0x07] = (st[0x07] << 7) | (st[0x07] >> (32 - 7)) st[0x1F] = (st[0x00] + st[0x1F]) st[0x00] = (st[0x00] << 7) | (st[0x00] >> (32 - 7)) st[0x1E] = (st[0x01] + st[0x1E]) st[0x01] = (st[0x01] << 7) | (st[0x01] >> (32 - 7)) st[0x1D] = (st[0x02] + st[0x1D]) st[0x02] = (st[0x02] << 7) | (st[0x02] >> (32 - 7)) st[0x1C] = (st[0x03] + st[0x1C]) st[0x03] = (st[0x03] << 7) | (st[0x03] >> (32 - 7)) st[0x04] ^= st[0x13] st[0x05] ^= st[0x12] st[0x06] ^= st[0x11] st[0x07] ^= st[0x10] st[0x00] ^= st[0x17] st[0x01] ^= st[0x16] st[0x02] ^= st[0x15] st[0x03] ^= st[0x14] st[0x0C] ^= st[0x1B] st[0x0D] ^= st[0x1A] st[0x0E] ^= st[0x19] st[0x0F] ^= st[0x18] st[0x08] ^= st[0x1F] st[0x09] ^= st[0x1E] st[0x0A] ^= st[0x1D] st[0x0B] ^= st[0x1C] st[0x11] = (st[0x04] + st[0x11]) st[0x04] = (st[0x04] << 11) | (st[0x04] >> (32 - 11)) st[0x10] = (st[0x05] + st[0x10]) st[0x05] = (st[0x05] << 11) | (st[0x05] >> (32 - 11)) st[0x13] = (st[0x06] + st[0x13]) st[0x06] = (st[0x06] << 11) | (st[0x06] >> (32 - 11)) st[0x12] = (st[0x07] + st[0x12]) st[0x07] = (st[0x07] << 11) | (st[0x07] >> (32 - 11)) st[0x15] = (st[0x00] + st[0x15]) st[0x00] = (st[0x00] << 11) | (st[0x00] >> (32 - 11)) st[0x14] = (st[0x01] + st[0x14]) st[0x01] = (st[0x01] << 11) | (st[0x01] >> (32 - 11)) st[0x17] = (st[0x02] + st[0x17]) st[0x02] = (st[0x02] << 11) | (st[0x02] >> (32 - 11)) st[0x16] = (st[0x03] + st[0x16]) st[0x03] = (st[0x03] << 11) | (st[0x03] >> (32 - 11)) st[0x19] = (st[0x0C] + st[0x19]) st[0x0C] = (st[0x0C] << 11) | (st[0x0C] >> (32 - 11)) st[0x18] = (st[0x0D] + st[0x18]) st[0x0D] = (st[0x0D] << 11) | (st[0x0D] >> (32 - 11)) st[0x1B] = (st[0x0E] + st[0x1B]) st[0x0E] = (st[0x0E] << 11) | (st[0x0E] >> (32 - 11)) st[0x1A] = (st[0x0F] + st[0x1A]) st[0x0F] = (st[0x0F] << 11) | (st[0x0F] >> (32 - 11)) st[0x1D] = (st[0x08] + st[0x1D]) st[0x08] = (st[0x08] << 11) | (st[0x08] >> (32 - 11)) st[0x1C] = (st[0x09] + st[0x1C]) st[0x09] = (st[0x09] << 11) | (st[0x09] >> (32 - 11)) st[0x1F] = (st[0x0A] + st[0x1F]) st[0x0A] = (st[0x0A] << 11) | (st[0x0A] >> (32 - 11)) st[0x1E] = (st[0x0B] + st[0x1E]) st[0x0B] = (st[0x0B] << 11) | (st[0x0B] >> (32 - 11)) st[0x00] ^= st[0x11] st[0x01] ^= st[0x10] st[0x02] ^= st[0x13] st[0x03] ^= st[0x12] st[0x04] ^= st[0x15] st[0x05] ^= st[0x14] st[0x06] ^= st[0x17] st[0x07] ^= st[0x16] st[0x08] ^= st[0x19] st[0x09] ^= st[0x18] st[0x0A] ^= st[0x1B] st[0x0B] ^= st[0x1A] st[0x0C] ^= st[0x1D] st[0x0D] ^= st[0x1C] st[0x0E] ^= st[0x1F] st[0x0F] ^= st[0x1E] }
////////////////
var kInit = [32]uint32{ uint32(0x2AEA2A61), uint32(0x50F494D4), uint32(0x2D538B8B), uint32(0x4167D83E), uint32(0x3FEE2313), uint32(0xC701CF8C), uint32(0xCC39968E), uint32(0x50AC5695), uint32(0x4D42C787), uint32(0xA647A8B3), uint32(0x97CF0BEF), uint32(0x825B4537), uint32(0xEEF864D2), uint32(0xF22090C4), uint32(0xD0E5CD33), uint32(0xA23911AE), uint32(0xFCD398D9), uint32(0x148FE485), uint32(0x1B017BEF), uint32(0xB6444532), uint32(0x6A536159), uint32(0x2FF5781C), uint32(0x91FA7934), uint32(0x0DBADEA9), uint32(0xD65C8A2B), uint32(0xA5A70E75), uint32(0xB1C62456), uint32(0xBC796576), uint32(0x1921C8F7), uint32(0xE7989AF1), uint32(0x7795D246), uint32(0xD43E3B44), }
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