github.com/xraypb/Xray-core@v1.8.1/common/strmatcher/ac_automaton_matcher.go (about) 1 package strmatcher 2 3 import ( 4 "container/list" 5 ) 6 7 const validCharCount = 53 8 9 type MatchType struct { 10 matchType Type 11 exist bool 12 } 13 14 const ( 15 TrieEdge bool = true 16 FailEdge bool = false 17 ) 18 19 type Edge struct { 20 edgeType bool 21 nextNode int 22 } 23 24 type ACAutomaton struct { 25 trie [][validCharCount]Edge 26 fail []int 27 exists []MatchType 28 count int 29 } 30 31 func newNode() [validCharCount]Edge { 32 var s [validCharCount]Edge 33 for i := range s { 34 s[i] = Edge{ 35 edgeType: FailEdge, 36 nextNode: 0, 37 } 38 } 39 return s 40 } 41 42 var char2Index = []int{ 43 'A': 0, 44 'a': 0, 45 'B': 1, 46 'b': 1, 47 'C': 2, 48 'c': 2, 49 'D': 3, 50 'd': 3, 51 'E': 4, 52 'e': 4, 53 'F': 5, 54 'f': 5, 55 'G': 6, 56 'g': 6, 57 'H': 7, 58 'h': 7, 59 'I': 8, 60 'i': 8, 61 'J': 9, 62 'j': 9, 63 'K': 10, 64 'k': 10, 65 'L': 11, 66 'l': 11, 67 'M': 12, 68 'm': 12, 69 'N': 13, 70 'n': 13, 71 'O': 14, 72 'o': 14, 73 'P': 15, 74 'p': 15, 75 'Q': 16, 76 'q': 16, 77 'R': 17, 78 'r': 17, 79 'S': 18, 80 's': 18, 81 'T': 19, 82 't': 19, 83 'U': 20, 84 'u': 20, 85 'V': 21, 86 'v': 21, 87 'W': 22, 88 'w': 22, 89 'X': 23, 90 'x': 23, 91 'Y': 24, 92 'y': 24, 93 'Z': 25, 94 'z': 25, 95 '!': 26, 96 '$': 27, 97 '&': 28, 98 '\'': 29, 99 '(': 30, 100 ')': 31, 101 '*': 32, 102 '+': 33, 103 ',': 34, 104 ';': 35, 105 '=': 36, 106 ':': 37, 107 '%': 38, 108 '-': 39, 109 '.': 40, 110 '_': 41, 111 '~': 42, 112 '0': 43, 113 '1': 44, 114 '2': 45, 115 '3': 46, 116 '4': 47, 117 '5': 48, 118 '6': 49, 119 '7': 50, 120 '8': 51, 121 '9': 52, 122 } 123 124 func NewACAutomaton() *ACAutomaton { 125 ac := new(ACAutomaton) 126 ac.trie = append(ac.trie, newNode()) 127 ac.fail = append(ac.fail, 0) 128 ac.exists = append(ac.exists, MatchType{ 129 matchType: Full, 130 exist: false, 131 }) 132 return ac 133 } 134 135 func (ac *ACAutomaton) Add(domain string, t Type) { 136 node := 0 137 for i := len(domain) - 1; i >= 0; i-- { 138 idx := char2Index[domain[i]] 139 if ac.trie[node][idx].nextNode == 0 { 140 ac.count++ 141 if len(ac.trie) < ac.count+1 { 142 ac.trie = append(ac.trie, newNode()) 143 ac.fail = append(ac.fail, 0) 144 ac.exists = append(ac.exists, MatchType{ 145 matchType: Full, 146 exist: false, 147 }) 148 } 149 ac.trie[node][idx] = Edge{ 150 edgeType: TrieEdge, 151 nextNode: ac.count, 152 } 153 } 154 node = ac.trie[node][idx].nextNode 155 } 156 ac.exists[node] = MatchType{ 157 matchType: t, 158 exist: true, 159 } 160 switch t { 161 case Domain: 162 ac.exists[node] = MatchType{ 163 matchType: Full, 164 exist: true, 165 } 166 idx := char2Index['.'] 167 if ac.trie[node][idx].nextNode == 0 { 168 ac.count++ 169 if len(ac.trie) < ac.count+1 { 170 ac.trie = append(ac.trie, newNode()) 171 ac.fail = append(ac.fail, 0) 172 ac.exists = append(ac.exists, MatchType{ 173 matchType: Full, 174 exist: false, 175 }) 176 } 177 ac.trie[node][idx] = Edge{ 178 edgeType: TrieEdge, 179 nextNode: ac.count, 180 } 181 } 182 node = ac.trie[node][idx].nextNode 183 ac.exists[node] = MatchType{ 184 matchType: t, 185 exist: true, 186 } 187 default: 188 break 189 } 190 } 191 192 func (ac *ACAutomaton) Build() { 193 queue := list.New() 194 for i := 0; i < validCharCount; i++ { 195 if ac.trie[0][i].nextNode != 0 { 196 queue.PushBack(ac.trie[0][i]) 197 } 198 } 199 for { 200 front := queue.Front() 201 if front == nil { 202 break 203 } else { 204 node := front.Value.(Edge).nextNode 205 queue.Remove(front) 206 for i := 0; i < validCharCount; i++ { 207 if ac.trie[node][i].nextNode != 0 { 208 ac.fail[ac.trie[node][i].nextNode] = ac.trie[ac.fail[node]][i].nextNode 209 queue.PushBack(ac.trie[node][i]) 210 } else { 211 ac.trie[node][i] = Edge{ 212 edgeType: FailEdge, 213 nextNode: ac.trie[ac.fail[node]][i].nextNode, 214 } 215 } 216 } 217 } 218 } 219 } 220 221 func (ac *ACAutomaton) Match(s string) bool { 222 node := 0 223 fullMatch := true 224 // 1. the match string is all through trie edge. FULL MATCH or DOMAIN 225 // 2. the match string is through a fail edge. NOT FULL MATCH 226 // 2.1 Through a fail edge, but there exists a valid node. SUBSTR 227 for i := len(s) - 1; i >= 0; i-- { 228 idx := char2Index[s[i]] 229 fullMatch = fullMatch && ac.trie[node][idx].edgeType 230 node = ac.trie[node][idx].nextNode 231 switch ac.exists[node].matchType { 232 case Substr: 233 return true 234 case Domain: 235 if fullMatch { 236 return true 237 } 238 default: 239 break 240 } 241 } 242 return fullMatch && ac.exists[node].exist 243 }