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v2fly/common/strmatcher/matchergroup_mph.go

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package strmatcher
import (
"math/bits"
"sort"
"strings"
"unsafe"
)
// PrimeRK is the prime base used in Rabin-Karp algorithm.
const PrimeRK = 16777619
// RollingHash calculates the rolling murmurHash of given string based on a provided suffix hash.
func RollingHash(hash uint32, input string) uint32 {
for i := len(input) - 1; i >= 0; i-- {
hash = hash*PrimeRK + uint32(input[i])
}
return hash
}
// MemHash is the hash function used by go map, it utilizes available hardware instructions(behaves
// as aeshash if aes instruction is available).
// With different seed, each MemHash<seed> performs as distinct hash functions.
func MemHash(seed uint32, input string) uint32 {
return uint32(strhash(unsafe.Pointer(&input), uintptr(seed))) // nosemgrep
}
const (
mphMatchTypeCount = 2 // Full and Domain
)
type mphRuleInfo struct {
rollingHash uint32
matchers [mphMatchTypeCount][]uint32
}
// MphMatcherGroup is an implementation of MatcherGroup.
// It implements Rabin-Karp algorithm and minimal perfect hash table for Full and Domain matcher.
type MphMatcherGroup struct {
rules []string // RuleIdx -> pattern string, index 0 reserved for failed lookup
values [][]uint32 // RuleIdx -> registered matcher values for the pattern (Full Matcher takes precedence)
level0 []uint32 // RollingHash & Mask -> seed for Memhash
level0Mask uint32 // Mask restricting RollingHash to 0 ~ len(level0)
level1 []uint32 // Memhash<seed> & Mask -> stored index for rules
level1Mask uint32 // Mask for restricting Memhash<seed> to 0 ~ len(level1)
ruleInfos *map[string]mphRuleInfo
}
func NewMphMatcherGroup() *MphMatcherGroup {
return &MphMatcherGroup{
rules: []string{""},
values: [][]uint32{nil},
level0: nil,
level0Mask: 0,
level1: nil,
level1Mask: 0,
ruleInfos: &map[string]mphRuleInfo{}, // Only used for building, destroyed after build complete
}
}
// AddFullMatcher implements MatcherGroupForFull.
func (g *MphMatcherGroup) AddFullMatcher(matcher FullMatcher, value uint32) {
pattern := strings.ToLower(matcher.Pattern())
g.addPattern(0, "", pattern, matcher.Type(), value)
}
// AddDomainMatcher implements MatcherGroupForDomain.
func (g *MphMatcherGroup) AddDomainMatcher(matcher DomainMatcher, value uint32) {
pattern := strings.ToLower(matcher.Pattern())
hash := g.addPattern(0, "", pattern, matcher.Type(), value) // For full domain match
g.addPattern(hash, pattern, ".", matcher.Type(), value) // For partial domain match
}
func (g *MphMatcherGroup) addPattern(suffixHash uint32, suffixPattern string, pattern string, matcherType Type, value uint32) uint32 {
fullPattern := pattern + suffixPattern
info, found := (*g.ruleInfos)[fullPattern]
if !found {
info = mphRuleInfo{rollingHash: RollingHash(suffixHash, pattern)}
g.rules = append(g.rules, fullPattern)
g.values = append(g.values, nil)
}
info.matchers[matcherType] = append(info.matchers[matcherType], value)
(*g.ruleInfos)[fullPattern] = info
return info.rollingHash
}
// Build builds a minimal perfect hash table for insert rules.
// Algorithm used: Hash, displace, and compress. See http://cmph.sourceforge.net/papers/esa09.pdf
func (g *MphMatcherGroup) Build() error {
ruleCount := len(*g.ruleInfos)
g.level0 = make([]uint32, nextPow2(ruleCount/4))
g.level0Mask = uint32(len(g.level0) - 1)
g.level1 = make([]uint32, nextPow2(ruleCount))
g.level1Mask = uint32(len(g.level1) - 1)
// Create buckets based on all rule's rolling hash
buckets := make([][]uint32, len(g.level0))
for ruleIdx := 1; ruleIdx < len(g.rules); ruleIdx++ { // Traverse rules starting from index 1 (0 reserved for failed lookup)
ruleInfo := (*g.ruleInfos)[g.rules[ruleIdx]]
bucketIdx := ruleInfo.rollingHash & g.level0Mask
buckets[bucketIdx] = append(buckets[bucketIdx], uint32(ruleIdx))
g.values[ruleIdx] = append(ruleInfo.matchers[Full], ruleInfo.matchers[Domain]...) // nolint:gocritic
}
g.ruleInfos = nil // Set ruleInfos nil to release memory
// Sort buckets in descending order with respect to each bucket's size
bucketIdxs := make([]int, len(buckets))
for bucketIdx := range buckets {
bucketIdxs[bucketIdx] = bucketIdx
}
sort.Slice(bucketIdxs, func(i, j int) bool { return len(buckets[bucketIdxs[i]]) > len(buckets[bucketIdxs[j]]) })
// Exercise Hash, Displace, and Compress algorithm to construct minimal perfect hash table
occupied := make([]bool, len(g.level1)) // Whether a second-level hash has been already used
hashedBucket := make([]uint32, 0, 4) // Second-level hashes for each rule in a specific bucket
for _, bucketIdx := range bucketIdxs {
bucket := buckets[bucketIdx]
hashedBucket = hashedBucket[:0]
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seed := uint32(0)
for len(hashedBucket) != len(bucket) {
for _, ruleIdx := range bucket {
memHash := MemHash(seed, g.rules[ruleIdx]) & g.level1Mask
if occupied[memHash] { // Collision occurred with this seed
for _, hash := range hashedBucket { // Revert all values in this hashed bucket
occupied[hash] = false
g.level1[hash] = 0
}
hashedBucket = hashedBucket[:0]
seed++ // Try next seed
break
}
occupied[memHash] = true
g.level1[memHash] = ruleIdx // The final value in the hash table
hashedBucket = append(hashedBucket, memHash)
}
}
g.level0[bucketIdx] = seed // Displacement value for this bucket
}
return nil
}
// Lookup searches for input in minimal perfect hash table and returns its index. 0 indicates not found.
func (g *MphMatcherGroup) Lookup(rollingHash uint32, input string) uint32 {
i0 := rollingHash & g.level0Mask
seed := g.level0[i0]
i1 := MemHash(seed, input) & g.level1Mask
if n := g.level1[i1]; g.rules[n] == input {
return n
}
return 0
}
// Match implements MatcherGroup.Match.
func (g *MphMatcherGroup) Match(input string) []uint32 {
matches := [][]uint32{}
hash := uint32(0)
for i := len(input) - 1; i >= 0; i-- {
hash = hash*PrimeRK + uint32(input[i])
if input[i] == '.' {
if mphIdx := g.Lookup(hash, input[i:]); mphIdx != 0 {
matches = append(matches, g.values[mphIdx])
}
}
}
if mphIdx := g.Lookup(hash, input); mphIdx != 0 {
matches = append(matches, g.values[mphIdx])
}
switch len(matches) {
case 0:
return nil
case 1:
return matches[0]
default:
result := []uint32{}
for i := len(matches) - 1; i >= 0; i-- {
result = append(result, matches[i]...)
}
return result
}
}
// MatchAny implements MatcherGroup.MatchAny.
func (g *MphMatcherGroup) MatchAny(input string) bool {
hash := uint32(0)
for i := len(input) - 1; i >= 0; i-- {
hash = hash*PrimeRK + uint32(input[i])
if input[i] == '.' {
if g.Lookup(hash, input[i:]) != 0 {
return true
}
}
}
return g.Lookup(hash, input) != 0
}
func nextPow2(v int) int {
if v <= 1 {
return 1
}
const MaxUInt = ^uint(0)
n := (MaxUInt >> bits.LeadingZeros(uint(v))) + 1
return int(n)
}
//go:noescape
//go:linkname strhash runtime.strhash
func strhash(p unsafe.Pointer, h uintptr) uintptr