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// Copyright (c) 2020 MinIO Inc. All rights reserved.
// Use of this source code is governed by a license that can be
// found in the LICENSE file.
package md5simd
import (
"sort"
)
// Helper struct for sorting blocks based on length
type lane struct {
len uint
pos uint
}
// Helper struct for generating number of rounds in combination with mask for valid lanes
type maskRounds struct {
mask uint64
rounds uint64
}
func generateMaskAndRounds8(input [8][]byte, mr *[8]maskRounds) (rounds int) {
// Sort on blocks length small to large
var sorted [8]lane
for c, inpt := range input {
sorted[c] = lane{uint(len(inpt)), uint(c)}
}
sort.Slice(sorted[:], func(i, j int) bool { return sorted[i].len < sorted[j].len })
// Create mask array including 'rounds' (of processing blocks of 64 bytes) between masks
m, round := uint64(0xff), uint64(0)
for _, s := range sorted {
if s.len > 0 {
if uint64(s.len)>>6 > round {
mr[rounds] = maskRounds{m, (uint64(s.len) >> 6) - round}
rounds++
}
round = uint64(s.len) >> 6
}
m = m & ^(1 << uint(s.pos))
}
return
}
func generateMaskAndRounds16(input [16][]byte, mr *[16]maskRounds) (rounds int) {
// Sort on blocks length small to large
var sorted [16]lane
for c, inpt := range input {
sorted[c] = lane{uint(len(inpt)), uint(c)}
}
sort.Slice(sorted[:], func(i, j int) bool { return sorted[i].len < sorted[j].len })
// Create mask array including 'rounds' (of processing blocks of 64 bytes) between masks
m, round := uint64(0xffff), uint64(0)
for _, s := range sorted {
if s.len > 0 {
if uint64(s.len)>>6 > round {
mr[rounds] = maskRounds{m, (uint64(s.len) >> 6) - round}
rounds++
}
round = uint64(s.len) >> 6
}
m = m & ^(1 << uint(s.pos))
}
return
}
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