mihomo/rules/logic/logic.go

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package logic
import (
"fmt"
list "github.com/bahlo/generic-list-go"
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"regexp"
"strings"
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C "github.com/metacubex/mihomo/constant"
"github.com/metacubex/mihomo/rules/common"
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)
type Logic struct {
*common.Base
payload string
adapter string
ruleType C.RuleType
rules []C.Rule
subRules map[string][]C.Rule
needIP bool
needProcess bool
}
type ParseRuleFunc func(tp, payload, target string, params []string, subRules map[string][]C.Rule) (C.Rule, error)
func NewSubRule(payload, adapter string, subRules map[string][]C.Rule, parseRule ParseRuleFunc) (*Logic, error) {
logic := &Logic{Base: &common.Base{}, payload: payload, adapter: adapter, ruleType: C.SubRules}
err := logic.parsePayload(fmt.Sprintf("(%s)", payload), parseRule)
if err != nil {
return nil, err
}
if len(logic.rules) != 1 {
return nil, fmt.Errorf("Sub-Rule rule must contain one rule")
}
for _, rule := range subRules[adapter] {
if rule.ShouldResolveIP() {
logic.needIP = true
}
if rule.ShouldFindProcess() {
logic.needProcess = true
}
}
logic.subRules = subRules
return logic, nil
}
func NewNOT(payload string, adapter string, parseRule ParseRuleFunc) (*Logic, error) {
logic := &Logic{Base: &common.Base{}, payload: payload, adapter: adapter, ruleType: C.NOT}
err := logic.parsePayload(payload, parseRule)
if err != nil {
return nil, err
}
if len(logic.rules) != 1 {
return nil, fmt.Errorf("not rule must contain one rule")
}
logic.needIP = logic.rules[0].ShouldResolveIP()
logic.needProcess = logic.rules[0].ShouldFindProcess()
logic.payload = fmt.Sprintf("(!(%s,%s))", logic.rules[0].RuleType(), logic.rules[0].Payload())
return logic, nil
}
func NewOR(payload string, adapter string, parseRule ParseRuleFunc) (*Logic, error) {
logic := &Logic{Base: &common.Base{}, payload: payload, adapter: adapter, ruleType: C.OR}
err := logic.parsePayload(payload, parseRule)
if err != nil {
return nil, err
}
payloads := make([]string, 0, len(logic.rules))
for _, rule := range logic.rules {
payloads = append(payloads, fmt.Sprintf("(%s,%s)", rule.RuleType().String(), rule.Payload()))
if rule.ShouldResolveIP() {
logic.needIP = true
}
if rule.ShouldFindProcess() {
logic.needProcess = true
}
}
logic.payload = fmt.Sprintf("(%s)", strings.Join(payloads, " || "))
return logic, nil
}
func NewAND(payload string, adapter string, parseRule ParseRuleFunc) (*Logic, error) {
logic := &Logic{Base: &common.Base{}, payload: payload, adapter: adapter, ruleType: C.AND}
err := logic.parsePayload(payload, parseRule)
if err != nil {
return nil, err
}
payloads := make([]string, 0, len(logic.rules))
for _, rule := range logic.rules {
payloads = append(payloads, fmt.Sprintf("(%s,%s)", rule.RuleType().String(), rule.Payload()))
if rule.ShouldResolveIP() {
logic.needIP = true
}
if rule.ShouldFindProcess() {
logic.needProcess = true
}
}
logic.payload = fmt.Sprintf("(%s)", strings.Join(payloads, " && "))
return logic, nil
}
type Range struct {
start int
end int
index int
}
func (r Range) containRange(preStart, preEnd int) bool {
return preStart < r.start && preEnd > r.end
}
func (logic *Logic) payloadToRule(subPayload string, parseRule ParseRuleFunc) (C.Rule, error) {
splitStr := strings.SplitN(subPayload, ",", 2)
if len(splitStr) < 2 {
return nil, fmt.Errorf("[%s] format is error", subPayload)
}
tp := splitStr[0]
payload := splitStr[1]
switch tp {
case "MATCH", "SUB-RULE":
return nil, fmt.Errorf("unsupported rule type [%s] on logic rule", tp)
case "NOT", "OR", "AND":
return parseRule(tp, payload, "", nil, nil)
}
param := strings.Split(payload, ",")
return parseRule(tp, param[0], "", param[1:], nil)
}
func (logic *Logic) format(payload string) ([]Range, error) {
stack := list.New[Range]()
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num := 0
subRanges := make([]Range, 0)
for i, c := range payload {
if c == '(' {
sr := Range{
start: i,
index: num,
}
num++
stack.PushBack(sr)
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} else if c == ')' {
if stack.Len() == 0 {
return nil, fmt.Errorf("missing '('")
}
sr := stack.Back()
stack.Remove(sr)
sr.Value.end = i
subRanges = append(subRanges, sr.Value)
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}
}
if stack.Len() != 0 {
return nil, fmt.Errorf("format error is missing )")
}
sortResult := make([]Range, len(subRanges))
for _, sr := range subRanges {
sortResult[sr.index] = sr
}
return sortResult, nil
}
func (logic *Logic) findSubRuleRange(payload string, ruleRanges []Range) []Range {
payloadLen := len(payload)
subRuleRange := make([]Range, 0)
for _, rr := range ruleRanges {
if rr.start == 0 && rr.end == payloadLen-1 {
// 最大范围跳过
continue
}
containInSub := false
for _, r := range subRuleRange {
if rr.containRange(r.start, r.end) {
// The subRuleRange contains a range of rr, which is the next level node of the tree
containInSub = true
break
}
}
if !containInSub {
subRuleRange = append(subRuleRange, rr)
}
}
return subRuleRange
}
func (logic *Logic) parsePayload(payload string, parseRule ParseRuleFunc) error {
regex, err := regexp.Compile("\\(.*\\)")
if err != nil {
return err
}
if regex.MatchString(payload) {
subAllRanges, err := logic.format(payload)
if err != nil {
return err
}
rules := make([]C.Rule, 0, len(subAllRanges))
subRanges := logic.findSubRuleRange(payload, subAllRanges)
for _, subRange := range subRanges {
subPayload := payload[subRange.start+1 : subRange.end]
rule, err := logic.payloadToRule(subPayload, parseRule)
if err != nil {
return err
}
rules = append(rules, rule)
}
logic.rules = rules
return nil
}
return fmt.Errorf("payload format error")
}
func (logic *Logic) RuleType() C.RuleType {
return logic.ruleType
}
func matchSubRules(metadata *C.Metadata, name string, subRules map[string][]C.Rule) (bool, string) {
for _, rule := range subRules[name] {
if m, a := rule.Match(metadata); m {
if rule.RuleType() == C.SubRules {
matchSubRules(metadata, rule.Adapter(), subRules)
} else {
return m, a
}
}
}
return false, ""
}
func (logic *Logic) Match(metadata *C.Metadata) (bool, string) {
switch logic.ruleType {
case C.SubRules:
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if m, _ := logic.rules[0].Match(metadata); m {
return matchSubRules(metadata, logic.adapter, logic.subRules)
}
return false, ""
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case C.NOT:
if m, _ := logic.rules[0].Match(metadata); !m {
return true, logic.adapter
}
return false, ""
case C.OR:
for _, rule := range logic.rules {
if m, _ := rule.Match(metadata); m {
return true, logic.adapter
}
}
return false, ""
case C.AND:
for _, rule := range logic.rules {
if m, _ := rule.Match(metadata); !m {
return false, logic.adapter
}
}
return true, logic.adapter
}
return false, ""
}
func (logic *Logic) Adapter() string {
return logic.adapter
}
func (logic *Logic) Payload() string {
return logic.payload
}
func (logic *Logic) ShouldResolveIP() bool {
return logic.needIP
}
func (logic *Logic) ShouldFindProcess() bool {
return logic.needProcess
}