package router import ( "regexp" "strings" "github.com/xtls/xray-core/common/net" "github.com/xtls/xray-core/common/strmatcher" "github.com/xtls/xray-core/features/routing" ) type Condition interface { Apply(ctx routing.Context) bool } type ConditionChan []Condition func NewConditionChan() *ConditionChan { var condChan ConditionChan = make([]Condition, 0, 8) return &condChan } func (v *ConditionChan) Add(cond Condition) *ConditionChan { *v = append(*v, cond) return v } // Apply applies all conditions registered in this chan. func (v *ConditionChan) Apply(ctx routing.Context) bool { for _, cond := range *v { if !cond.Apply(ctx) { return false } } return true } func (v *ConditionChan) Len() int { return len(*v) } var matcherTypeMap = map[Domain_Type]strmatcher.Type{ Domain_Plain: strmatcher.Substr, Domain_Regex: strmatcher.Regex, Domain_Domain: strmatcher.Domain, Domain_Full: strmatcher.Full, } func domainToMatcher(domain *Domain) (strmatcher.Matcher, error) { matcherType, f := matcherTypeMap[domain.Type] if !f { return nil, newError("unsupported domain type", domain.Type) } matcher, err := matcherType.New(domain.Value) if err != nil { return nil, newError("failed to create domain matcher").Base(err) } return matcher, nil } type DomainMatcher struct { matchers strmatcher.IndexMatcher } func NewMphMatcherGroup(domains []*Domain) (*DomainMatcher, error) { g := strmatcher.NewMphMatcherGroup() for _, d := range domains { matcherType, f := matcherTypeMap[d.Type] if !f { return nil, newError("unsupported domain type", d.Type) } _, err := g.AddPattern(d.Value, matcherType) if err != nil { return nil, err } } g.Build() return &DomainMatcher{ matchers: g, }, nil } func NewDomainMatcher(domains []*Domain) (*DomainMatcher, error) { g := new(strmatcher.MatcherGroup) for _, d := range domains { m, err := domainToMatcher(d) if err != nil { return nil, err } g.Add(m) } return &DomainMatcher{ matchers: g, }, nil } func (m *DomainMatcher) ApplyDomain(domain string) bool { return len(m.matchers.Match(strings.ToLower(domain))) > 0 } // Apply implements Condition. func (m *DomainMatcher) Apply(ctx routing.Context) bool { domain := ctx.GetTargetDomain() if len(domain) == 0 { return false } return m.ApplyDomain(domain) } type MultiGeoIPMatcher struct { matchers []*GeoIPMatcher onSource bool } func NewMultiGeoIPMatcher(geoips []*GeoIP, onSource bool) (*MultiGeoIPMatcher, error) { var matchers []*GeoIPMatcher for _, geoip := range geoips { matcher, err := globalGeoIPContainer.Add(geoip) if err != nil { return nil, err } matchers = append(matchers, matcher) } matcher := &MultiGeoIPMatcher{ matchers: matchers, onSource: onSource, } return matcher, nil } // Apply implements Condition. func (m *MultiGeoIPMatcher) Apply(ctx routing.Context) bool { var ips []net.IP if m.onSource { ips = ctx.GetSourceIPs() } else { ips = ctx.GetTargetIPs() } for _, ip := range ips { for _, matcher := range m.matchers { if matcher.Match(ip) { return true } } } return false } type PortMatcher struct { port net.MemoryPortList onSource bool } // NewPortMatcher create a new port matcher that can match source or destination port func NewPortMatcher(list *net.PortList, onSource bool) *PortMatcher { return &PortMatcher{ port: net.PortListFromProto(list), onSource: onSource, } } // Apply implements Condition. func (v *PortMatcher) Apply(ctx routing.Context) bool { if v.onSource { return v.port.Contains(ctx.GetSourcePort()) } else { return v.port.Contains(ctx.GetTargetPort()) } } type NetworkMatcher struct { list [8]bool } func NewNetworkMatcher(network []net.Network) NetworkMatcher { var matcher NetworkMatcher for _, n := range network { matcher.list[int(n)] = true } return matcher } // Apply implements Condition. func (v NetworkMatcher) Apply(ctx routing.Context) bool { return v.list[int(ctx.GetNetwork())] } type UserMatcher struct { user []string } func NewUserMatcher(users []string) *UserMatcher { usersCopy := make([]string, 0, len(users)) for _, user := range users { if len(user) > 0 { usersCopy = append(usersCopy, user) } } return &UserMatcher{ user: usersCopy, } } // Apply implements Condition. func (v *UserMatcher) Apply(ctx routing.Context) bool { user := ctx.GetUser() if len(user) == 0 { return false } for _, u := range v.user { if u == user { return true } } return false } type InboundTagMatcher struct { tags []string } func NewInboundTagMatcher(tags []string) *InboundTagMatcher { tagsCopy := make([]string, 0, len(tags)) for _, tag := range tags { if len(tag) > 0 { tagsCopy = append(tagsCopy, tag) } } return &InboundTagMatcher{ tags: tagsCopy, } } // Apply implements Condition. func (v *InboundTagMatcher) Apply(ctx routing.Context) bool { tag := ctx.GetInboundTag() if len(tag) == 0 { return false } for _, t := range v.tags { if t == tag { return true } } return false } type ProtocolMatcher struct { protocols []string } func NewProtocolMatcher(protocols []string) *ProtocolMatcher { pCopy := make([]string, 0, len(protocols)) for _, p := range protocols { if len(p) > 0 { pCopy = append(pCopy, p) } } return &ProtocolMatcher{ protocols: pCopy, } } // Apply implements Condition. func (m *ProtocolMatcher) Apply(ctx routing.Context) bool { protocol := ctx.GetProtocol() if len(protocol) == 0 { return false } for _, p := range m.protocols { if strings.HasPrefix(protocol, p) { return true } } return false } type AttributeMatcher struct { configuredKeys map[string]*regexp.Regexp } // Match implements attributes matching. func (m *AttributeMatcher) Match(attrs map[string]string) bool { // header keys are case insensitive most likely. So we do a convert httpHeaders := make(map[string]string) for key, value := range attrs { httpHeaders[strings.ToLower(key)] = value } for key, regex := range m.configuredKeys { if a, ok := httpHeaders[key]; !ok || !regex.MatchString(a) { return false } } return true } // Apply implements Condition. func (m *AttributeMatcher) Apply(ctx routing.Context) bool { attributes := ctx.GetAttributes() if attributes == nil { return false } return m.Match(attributes) }