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Xray-core/common/strmatcher/mph_matcher.go

305 lines
6.9 KiB

package strmatcher
import (
"math/bits"
"regexp"
"sort"
"strings"
"unsafe"
)
// PrimeRK is the prime base used in Rabin-Karp algorithm.
const PrimeRK = 16777619
// calculate the rolling murmurHash of given string
func RollingHash(s string) uint32 {
h := uint32(0)
for i := len(s) - 1; i >= 0; i-- {
h = h*PrimeRK + uint32(s[i])
}
return h
}
// A MphMatcherGroup is divided into three parts:
// 1. `full` and `domain` patterns are matched by Rabin-Karp algorithm and minimal perfect hash table;
// 2. `substr` patterns are matched by ac automaton;
// 3. `regex` patterns are matched with the regex library.
type MphMatcherGroup struct {
ac *ACAutomaton
otherMatchers []matcherEntry
rules []string
level0 []uint32
level0Mask int
level1 []uint32
level1Mask int
count uint32
ruleMap *map[string]uint32
}
func (g *MphMatcherGroup) AddFullOrDomainPattern(pattern string, t Type) {
h := RollingHash(pattern)
switch t {
case Domain:
(*g.ruleMap)["."+pattern] = h*PrimeRK + uint32('.')
fallthrough
case Full:
(*g.ruleMap)[pattern] = h
default:
}
}
func NewMphMatcherGroup() *MphMatcherGroup {
return &MphMatcherGroup{
ac: nil,
otherMatchers: nil,
rules: nil,
level0: nil,
level0Mask: 0,
level1: nil,
level1Mask: 0,
count: 1,
ruleMap: &map[string]uint32{},
}
}
// AddPattern adds a pattern to MphMatcherGroup
func (g *MphMatcherGroup) AddPattern(pattern string, t Type) (uint32, error) {
switch t {
case Substr:
if g.ac == nil {
g.ac = NewACAutomaton()
}
g.ac.Add(pattern, t)
case Full, Domain:
pattern = strings.ToLower(pattern)
g.AddFullOrDomainPattern(pattern, t)
case Regex:
r, err := regexp.Compile(pattern)
if err != nil {
return 0, err
}
g.otherMatchers = append(g.otherMatchers, matcherEntry{
m: &regexMatcher{pattern: r},
id: g.count,
})
default:
panic("Unknown type")
}
return g.count, nil
}
// Build builds a minimal perfect hash table and ac automaton from insert rules
func (g *MphMatcherGroup) Build() {
if g.ac != nil {
g.ac.Build()
}
keyLen := len(*g.ruleMap)
if keyLen == 0 {
keyLen = 1
(*g.ruleMap)["empty___"] = RollingHash("empty___")
}
g.level0 = make([]uint32, nextPow2(keyLen/4))
g.level0Mask = len(g.level0) - 1
g.level1 = make([]uint32, nextPow2(keyLen))
g.level1Mask = len(g.level1) - 1
sparseBuckets := make([][]int, len(g.level0))
var ruleIdx int
for rule, hash := range *g.ruleMap {
n := int(hash) & g.level0Mask
g.rules = append(g.rules, rule)
sparseBuckets[n] = append(sparseBuckets[n], ruleIdx)
ruleIdx++
}
g.ruleMap = nil
var buckets []indexBucket
for n, vals := range sparseBuckets {
if len(vals) > 0 {
buckets = append(buckets, indexBucket{n, vals})
}
}
sort.Sort(bySize(buckets))
occ := make([]bool, len(g.level1))
var tmpOcc []int
for _, bucket := range buckets {
seed := uint32(0)
for {
findSeed := true
tmpOcc = tmpOcc[:0]
for _, i := range bucket.vals {
n := int(strhashFallback(unsafe.Pointer(&g.rules[i]), uintptr(seed))) & g.level1Mask
if occ[n] {
for _, n := range tmpOcc {
occ[n] = false
}
seed++
findSeed = false
break
}
occ[n] = true
tmpOcc = append(tmpOcc, n)
g.level1[n] = uint32(i)
}
if findSeed {
g.level0[bucket.n] = seed
break
}
}
}
}
func nextPow2(v int) int {
if v <= 1 {
return 1
}
const MaxUInt = ^uint(0)
n := (MaxUInt >> bits.LeadingZeros(uint(v))) + 1
return int(n)
}
// Lookup searches for s in t and returns its index and whether it was found.
func (g *MphMatcherGroup) Lookup(h uint32, s string) bool {
i0 := int(h) & g.level0Mask
seed := g.level0[i0]
i1 := int(strhashFallback(unsafe.Pointer(&s), uintptr(seed))) & g.level1Mask
n := g.level1[i1]
return s == g.rules[int(n)]
}
// Match implements IndexMatcher.Match.
func (g *MphMatcherGroup) Match(pattern string) []uint32 {
result := []uint32{}
hash := uint32(0)
for i := len(pattern) - 1; i >= 0; i-- {
hash = hash*PrimeRK + uint32(pattern[i])
if pattern[i] == '.' {
if g.Lookup(hash, pattern[i:]) {
result = append(result, 1)
return result
}
}
}
if g.Lookup(hash, pattern) {
result = append(result, 1)
return result
}
if g.ac != nil && g.ac.Match(pattern) {
result = append(result, 1)
return result
}
for _, e := range g.otherMatchers {
if e.m.Match(pattern) {
result = append(result, e.id)
return result
}
}
return nil
}
type indexBucket struct {
n int
vals []int
}
type bySize []indexBucket
func (s bySize) Len() int { return len(s) }
func (s bySize) Less(i, j int) bool { return len(s[i].vals) > len(s[j].vals) }
func (s bySize) Swap(i, j int) { s[i], s[j] = s[j], s[i] }
type stringStruct struct {
str unsafe.Pointer
len int
}
func strhashFallback(a unsafe.Pointer, h uintptr) uintptr {
x := (*stringStruct)(a)
return memhashFallback(x.str, h, uintptr(x.len))
}
const (
// Constants for multiplication: four random odd 64-bit numbers.
m1 = 16877499708836156737
m2 = 2820277070424839065
m3 = 9497967016996688599
m4 = 15839092249703872147
)
var hashkey = [4]uintptr{1, 1, 1, 1}
func memhashFallback(p unsafe.Pointer, seed, s uintptr) uintptr {
h := uint64(seed + s*hashkey[0])
tail:
switch {
case s == 0:
case s < 4:
h ^= uint64(*(*byte)(p))
h ^= uint64(*(*byte)(add(p, s>>1))) << 8
h ^= uint64(*(*byte)(add(p, s-1))) << 16
h = rotl31(h*m1) * m2
case s <= 8:
h ^= uint64(readUnaligned32(p))
h ^= uint64(readUnaligned32(add(p, s-4))) << 32
h = rotl31(h*m1) * m2
case s <= 16:
h ^= readUnaligned64(p)
h = rotl31(h*m1) * m2
h ^= readUnaligned64(add(p, s-8))
h = rotl31(h*m1) * m2
case s <= 32:
h ^= readUnaligned64(p)
h = rotl31(h*m1) * m2
h ^= readUnaligned64(add(p, 8))
h = rotl31(h*m1) * m2
h ^= readUnaligned64(add(p, s-16))
h = rotl31(h*m1) * m2
h ^= readUnaligned64(add(p, s-8))
h = rotl31(h*m1) * m2
default:
v1 := h
v2 := uint64(seed * hashkey[1])
v3 := uint64(seed * hashkey[2])
v4 := uint64(seed * hashkey[3])
for s >= 32 {
v1 ^= readUnaligned64(p)
v1 = rotl31(v1*m1) * m2
p = add(p, 8)
v2 ^= readUnaligned64(p)
v2 = rotl31(v2*m2) * m3
p = add(p, 8)
v3 ^= readUnaligned64(p)
v3 = rotl31(v3*m3) * m4
p = add(p, 8)
v4 ^= readUnaligned64(p)
v4 = rotl31(v4*m4) * m1
p = add(p, 8)
s -= 32
}
h = v1 ^ v2 ^ v3 ^ v4
goto tail
}
h ^= h >> 29
h *= m3
h ^= h >> 32
return uintptr(h)
}
func add(p unsafe.Pointer, x uintptr) unsafe.Pointer {
return unsafe.Pointer(uintptr(p) + x)
}
func readUnaligned32(p unsafe.Pointer) uint32 {
q := (*[4]byte)(p)
return uint32(q[0]) | uint32(q[1])<<8 | uint32(q[2])<<16 | uint32(q[3])<<24
}
func rotl31(x uint64) uint64 {
return (x << 31) | (x >> (64 - 31))
}
func readUnaligned64(p unsafe.Pointer) uint64 {
q := (*[8]byte)(p)
return uint64(q[0]) | uint64(q[1])<<8 | uint64(q[2])<<16 | uint64(q[3])<<24 | uint64(q[4])<<32 | uint64(q[5])<<40 | uint64(q[6])<<48 | uint64(q[7])<<56
}