package router //go:generate go run github.com/xtls/xray-core/common/errors/errorgen import ( "context" sync "sync" "github.com/xtls/xray-core/common" "github.com/xtls/xray-core/common/serial" "github.com/xtls/xray-core/core" "github.com/xtls/xray-core/features/dns" "github.com/xtls/xray-core/features/outbound" "github.com/xtls/xray-core/features/routing" routing_dns "github.com/xtls/xray-core/features/routing/dns" ) // Router is an implementation of routing.Router. type Router struct { domainStrategy Config_DomainStrategy rules []*Rule balancers map[string]*Balancer dns dns.Client ctx context.Context ohm outbound.Manager dispatcher routing.Dispatcher mu sync.Mutex } // Route is an implementation of routing.Route. type Route struct { routing.Context outboundGroupTags []string outboundTag string } // Init initializes the Router. func (r *Router) Init(ctx context.Context, config *Config, d dns.Client, ohm outbound.Manager, dispatcher routing.Dispatcher) error { r.domainStrategy = config.DomainStrategy r.dns = d r.ctx = ctx r.ohm = ohm r.dispatcher = dispatcher r.balancers = make(map[string]*Balancer, len(config.BalancingRule)) for _, rule := range config.BalancingRule { balancer, err := rule.Build(ohm, dispatcher) if err != nil { return err } balancer.InjectContext(ctx) r.balancers[rule.Tag] = balancer } r.rules = make([]*Rule, 0, len(config.Rule)) for _, rule := range config.Rule { cond, err := rule.BuildCondition() if err != nil { return err } rr := &Rule{ Condition: cond, Tag: rule.GetTag(), RuleTag: rule.GetRuleTag(), } btag := rule.GetBalancingTag() if len(btag) > 0 { brule, found := r.balancers[btag] if !found { return newError("balancer ", btag, " not found") } rr.Balancer = brule } r.rules = append(r.rules, rr) } return nil } // PickRoute implements routing.Router. func (r *Router) PickRoute(ctx routing.Context) (routing.Route, error) { rule, ctx, err := r.pickRouteInternal(ctx) if err != nil { return nil, err } tag, err := rule.GetTag() if err != nil { return nil, err } return &Route{Context: ctx, outboundTag: tag}, nil } // AddRule implements routing.Router. func (r *Router) AddRule(config *serial.TypedMessage, shouldAppend bool) error { inst, err := config.GetInstance() if err != nil { return err } if c, ok := inst.(*Config); ok { return r.ReloadRules(c, shouldAppend) } return newError("AddRule: config type error") } func (r *Router) ReloadRules(config *Config, shouldAppend bool) error { r.mu.Lock() defer r.mu.Unlock() if !shouldAppend { r.balancers = make(map[string]*Balancer, len(config.BalancingRule)) r.rules = make([]*Rule, 0, len(config.Rule)) } for _, rule := range config.BalancingRule { _, found := r.balancers[rule.Tag] if found { return newError("duplicate balancer tag") } balancer, err := rule.Build(r.ohm, r.dispatcher) if err != nil { return err } balancer.InjectContext(r.ctx) r.balancers[rule.Tag] = balancer } for _, rule := range config.Rule { if r.RuleExists(rule.GetRuleTag()) { return newError("duplicate ruleTag ", rule.GetRuleTag()) } cond, err := rule.BuildCondition() if err != nil { return err } rr := &Rule{ Condition: cond, Tag: rule.GetTag(), RuleTag: rule.GetRuleTag(), } btag := rule.GetBalancingTag() if len(btag) > 0 { brule, found := r.balancers[btag] if !found { return newError("balancer ", btag, " not found") } rr.Balancer = brule } r.rules = append(r.rules, rr) } return nil } func (r *Router) RuleExists(tag string) bool { if tag != "" { for _, rule := range r.rules { if rule.RuleTag == tag { return true } } } return false } // RemoveRule implements routing.Router. func (r *Router) RemoveRule(tag string) error { r.mu.Lock() defer r.mu.Unlock() newRules := []*Rule{} if tag != "" { for _, rule := range r.rules { if rule.RuleTag != tag { newRules = append(newRules, rule) } } r.rules = newRules return nil } return newError("empty tag name!") } func (r *Router) pickRouteInternal(ctx routing.Context) (*Rule, routing.Context, error) { // SkipDNSResolve is set from DNS module. // the DOH remote server maybe a domain name, // this prevents cycle resolving dead loop skipDNSResolve := ctx.GetSkipDNSResolve() if r.domainStrategy == Config_IpOnDemand && !skipDNSResolve { ctx = routing_dns.ContextWithDNSClient(ctx, r.dns) } for _, rule := range r.rules { if rule.Apply(ctx) { return rule, ctx, nil } } if r.domainStrategy != Config_IpIfNonMatch || len(ctx.GetTargetDomain()) == 0 || skipDNSResolve { return nil, ctx, common.ErrNoClue } ctx = routing_dns.ContextWithDNSClient(ctx, r.dns) // Try applying rules again if we have IPs. for _, rule := range r.rules { if rule.Apply(ctx) { return rule, ctx, nil } } return nil, ctx, common.ErrNoClue } // Start implements common.Runnable. func (r *Router) Start() error { return nil } // Close implements common.Closable. func (r *Router) Close() error { return nil } // Type implements common.HasType. func (*Router) Type() interface{} { return routing.RouterType() } // GetOutboundGroupTags implements routing.Route. func (r *Route) GetOutboundGroupTags() []string { return r.outboundGroupTags } // GetOutboundTag implements routing.Route. func (r *Route) GetOutboundTag() string { return r.outboundTag } func init() { common.Must(common.RegisterConfig((*Config)(nil), func(ctx context.Context, config interface{}) (interface{}, error) { r := new(Router) if err := core.RequireFeatures(ctx, func(d dns.Client, ohm outbound.Manager, dispatcher routing.Dispatcher) error { return r.Init(ctx, config.(*Config), d, ohm, dispatcher) }); err != nil { return nil, err } return r, nil })) }