package conf import ( "encoding/json" "strconv" "strings" "github.com/golang/protobuf/proto" "github.com/v2fly/v2ray-core/v4/app/router" "github.com/v2fly/v2ray-core/v4/common/net" "github.com/v2fly/v2ray-core/v4/common/platform/filesystem" ) type RouterRulesConfig struct { RuleList []json.RawMessage `json:"rules"` DomainStrategy string `json:"domainStrategy"` } type BalancingRule struct { Tag string `json:"tag"` Selectors StringList `json:"selector"` } func (r *BalancingRule) Build() (*router.BalancingRule, error) { if r.Tag == "" { return nil, newError("empty balancer tag") } if len(r.Selectors) == 0 { return nil, newError("empty selector list") } return &router.BalancingRule{ Tag: r.Tag, OutboundSelector: []string(r.Selectors), }, nil } type RouterConfig struct { Settings *RouterRulesConfig `json:"settings"` // Deprecated RuleList []json.RawMessage `json:"rules"` DomainStrategy *string `json:"domainStrategy"` Balancers []*BalancingRule `json:"balancers"` DomainMatcher string `json:"domainMatcher"` } func (c *RouterConfig) getDomainStrategy() router.Config_DomainStrategy { ds := "" if c.DomainStrategy != nil { ds = *c.DomainStrategy } else if c.Settings != nil { ds = c.Settings.DomainStrategy } switch strings.ToLower(ds) { case "alwaysip", "always_ip", "always-ip": return router.Config_UseIp case "ipifnonmatch", "ip_if_non_match", "ip-if-non-match": return router.Config_IpIfNonMatch case "ipondemand", "ip_on_demand", "ip-on-demand": return router.Config_IpOnDemand default: return router.Config_AsIs } } func (c *RouterConfig) Build() (*router.Config, error) { config := new(router.Config) config.DomainStrategy = c.getDomainStrategy() var rawRuleList []json.RawMessage if c != nil { rawRuleList = c.RuleList if c.Settings != nil { c.RuleList = append(c.RuleList, c.Settings.RuleList...) rawRuleList = c.RuleList } } for _, rawRule := range rawRuleList { rule, err := ParseRule(rawRule) if err != nil { return nil, err } if rule.DomainMatcher == "" { rule.DomainMatcher = c.DomainMatcher } config.Rule = append(config.Rule, rule) } for _, rawBalancer := range c.Balancers { balancer, err := rawBalancer.Build() if err != nil { return nil, err } config.BalancingRule = append(config.BalancingRule, balancer) } return config, nil } type RouterRule struct { Type string `json:"type"` OutboundTag string `json:"outboundTag"` BalancerTag string `json:"balancerTag"` DomainMatcher string `json:"domainMatcher"` } func ParseIP(s string) (*router.CIDR, error) { var addr, mask string i := strings.Index(s, "/") if i < 0 { addr = s } else { addr = s[:i] mask = s[i+1:] } ip := net.ParseAddress(addr) switch ip.Family() { case net.AddressFamilyIPv4: bits := uint32(32) if len(mask) > 0 { bits64, err := strconv.ParseUint(mask, 10, 32) if err != nil { return nil, newError("invalid network mask for router: ", mask).Base(err) } bits = uint32(bits64) } if bits > 32 { return nil, newError("invalid network mask for router: ", bits) } return &router.CIDR{ Ip: []byte(ip.IP()), Prefix: bits, }, nil case net.AddressFamilyIPv6: bits := uint32(128) if len(mask) > 0 { bits64, err := strconv.ParseUint(mask, 10, 32) if err != nil { return nil, newError("invalid network mask for router: ", mask).Base(err) } bits = uint32(bits64) } if bits > 128 { return nil, newError("invalid network mask for router: ", bits) } return &router.CIDR{ Ip: []byte(ip.IP()), Prefix: bits, }, nil default: return nil, newError("unsupported address for router: ", s) } } func loadGeoIP(country string) ([]*router.CIDR, error) { return loadIP("geoip.dat", country) } func loadIP(filename, country string) ([]*router.CIDR, error) { geoipBytes, err := filesystem.ReadAsset(filename) if err != nil { return nil, newError("failed to open file: ", filename).Base(err) } var geoipList router.GeoIPList if err := proto.Unmarshal(geoipBytes, &geoipList); err != nil { return nil, err } for _, geoip := range geoipList.Entry { if strings.EqualFold(geoip.CountryCode, country) { return geoip.Cidr, nil } } return nil, newError("country not found in ", filename, ": ", country) } func loadSite(filename, list string) ([]*router.Domain, error) { geositeBytes, err := filesystem.ReadAsset(filename) if err != nil { return nil, newError("failed to open file: ", filename).Base(err) } var geositeList router.GeoSiteList if err := proto.Unmarshal(geositeBytes, &geositeList); err != nil { return nil, err } for _, site := range geositeList.Entry { if strings.EqualFold(site.CountryCode, list) { return site.Domain, nil } } return nil, newError("list not found in ", filename, ": ", list) } type AttributeMatcher interface { Match(*router.Domain) bool } type BooleanMatcher string func (m BooleanMatcher) Match(domain *router.Domain) bool { for _, attr := range domain.Attribute { if strings.EqualFold(attr.GetKey(), string(m)) { return true } } return false } type AttributeList struct { matcher []AttributeMatcher } func (al *AttributeList) Match(domain *router.Domain) bool { for _, matcher := range al.matcher { if !matcher.Match(domain) { return false } } return true } func (al *AttributeList) IsEmpty() bool { return len(al.matcher) == 0 } func parseAttrs(attrs []string) *AttributeList { al := new(AttributeList) for _, attr := range attrs { trimmedAttr := strings.ToLower(strings.TrimSpace(attr)) if len(trimmedAttr) == 0 { continue } al.matcher = append(al.matcher, BooleanMatcher(trimmedAttr)) } return al } func loadGeositeWithAttr(file string, siteWithAttr string) ([]*router.Domain, error) { parts := strings.Split(siteWithAttr, "@") if len(parts) == 0 { return nil, newError("empty rule") } list := strings.TrimSpace(parts[0]) attrVal := parts[1:] if len(list) == 0 { return nil, newError("empty listname in rule: ", siteWithAttr) } domains, err := loadSite(file, list) if err != nil { return nil, err } attrs := parseAttrs(attrVal) if attrs.IsEmpty() { if strings.Contains(siteWithAttr, "@") { newError("empty attribute list: ", siteWithAttr) } return domains, nil } filteredDomains := make([]*router.Domain, 0, len(domains)) hasAttrMatched := false for _, domain := range domains { if attrs.Match(domain) { hasAttrMatched = true filteredDomains = append(filteredDomains, domain) } } if !hasAttrMatched { newError("attribute match no rule: geosite:", siteWithAttr) } return filteredDomains, nil } func parseDomainRule(domain string) ([]*router.Domain, error) { if strings.HasPrefix(domain, "geosite:") { list := domain[8:] if len(list) == 0 { return nil, newError("empty listname in rule: ", domain) } domains, err := loadGeositeWithAttr("geosite.dat", list) if err != nil { return nil, newError("failed to load geosite: ", list).Base(err) } return domains, nil } var isExtDatFile = 0 { const prefix = "ext:" if strings.HasPrefix(domain, prefix) { isExtDatFile = len(prefix) } const prefixQualified = "ext-domain:" if strings.HasPrefix(domain, prefixQualified) { isExtDatFile = len(prefixQualified) } } if isExtDatFile != 0 { kv := strings.Split(domain[isExtDatFile:], ":") if len(kv) != 2 { return nil, newError("invalid external resource: ", domain) } filename := kv[0] list := kv[1] domains, err := loadGeositeWithAttr(filename, list) if err != nil { return nil, newError("failed to load external geosite: ", list, " from ", filename).Base(err) } return domains, nil } domainRule := new(router.Domain) switch { case strings.HasPrefix(domain, "regexp:"): regexpVal := domain[7:] if len(regexpVal) == 0 { return nil, newError("empty regexp type of rule: ", domain) } domainRule.Type = router.Domain_Regex domainRule.Value = regexpVal case strings.HasPrefix(domain, "domain:"): domainName := domain[7:] if len(domainName) == 0 { return nil, newError("empty domain type of rule: ", domain) } domainRule.Type = router.Domain_Domain domainRule.Value = domainName case strings.HasPrefix(domain, "full:"): fullVal := domain[5:] if len(fullVal) == 0 { return nil, newError("empty full domain type of rule: ", domain) } domainRule.Type = router.Domain_Full domainRule.Value = fullVal case strings.HasPrefix(domain, "keyword:"): keywordVal := domain[8:] if len(keywordVal) == 0 { return nil, newError("empty keyword type of rule: ", domain) } domainRule.Type = router.Domain_Plain domainRule.Value = keywordVal case strings.HasPrefix(domain, "dotless:"): domainRule.Type = router.Domain_Regex switch substr := domain[8:]; { case substr == "": domainRule.Value = "^[^.]*$" case !strings.Contains(substr, "."): domainRule.Value = "^[^.]*" + substr + "[^.]*$" default: return nil, newError("substr in dotless rule should not contain a dot: ", substr) } default: domainRule.Type = router.Domain_Plain domainRule.Value = domain } return []*router.Domain{domainRule}, nil } func toCidrList(ips StringList) ([]*router.GeoIP, error) { var geoipList []*router.GeoIP var customCidrs []*router.CIDR for _, ip := range ips { if strings.HasPrefix(ip, "geoip:") { country := ip[6:] isReverseMatch := false if strings.HasPrefix(ip, "geoip:!") { country = ip[7:] isReverseMatch = true } if len(country) == 0 { return nil, newError("empty country name in rule") } geoip, err := loadGeoIP(country) if err != nil { return nil, newError("failed to load geoip: ", country).Base(err) } geoipList = append(geoipList, &router.GeoIP{ CountryCode: strings.ToUpper(country), Cidr: geoip, ReverseMatch: isReverseMatch, }) continue } var isExtDatFile = 0 { const prefix = "ext:" if strings.HasPrefix(ip, prefix) { isExtDatFile = len(prefix) } const prefixQualified = "ext-ip:" if strings.HasPrefix(ip, prefixQualified) { isExtDatFile = len(prefixQualified) } } if isExtDatFile != 0 { kv := strings.Split(ip[isExtDatFile:], ":") if len(kv) != 2 { return nil, newError("invalid external resource: ", ip) } filename := kv[0] country := kv[1] if len(filename) == 0 || len(country) == 0 { return nil, newError("empty filename or empty country in rule") } isReverseMatch := false if strings.HasPrefix(country, "!") { country = country[1:] isReverseMatch = true } geoip, err := loadIP(filename, country) if err != nil { return nil, newError("failed to load geoip: ", country, " from ", filename).Base(err) } geoipList = append(geoipList, &router.GeoIP{ CountryCode: strings.ToUpper(filename + "_" + country), Cidr: geoip, ReverseMatch: isReverseMatch, }) continue } ipRule, err := ParseIP(ip) if err != nil { return nil, newError("invalid IP: ", ip).Base(err) } customCidrs = append(customCidrs, ipRule) } if len(customCidrs) > 0 { geoipList = append(geoipList, &router.GeoIP{ Cidr: customCidrs, }) } return geoipList, nil } func parseFieldRule(msg json.RawMessage) (*router.RoutingRule, error) { type RawFieldRule struct { RouterRule Domain *StringList `json:"domain"` Domains *StringList `json:"domains"` IP *StringList `json:"ip"` Port *PortList `json:"port"` Network *NetworkList `json:"network"` SourceIP *StringList `json:"source"` SourcePort *PortList `json:"sourcePort"` User *StringList `json:"user"` InboundTag *StringList `json:"inboundTag"` Protocols *StringList `json:"protocol"` Attributes string `json:"attrs"` } rawFieldRule := new(RawFieldRule) err := json.Unmarshal(msg, rawFieldRule) if err != nil { return nil, err } rule := new(router.RoutingRule) switch { case len(rawFieldRule.OutboundTag) > 0: rule.TargetTag = &router.RoutingRule_Tag{ Tag: rawFieldRule.OutboundTag, } case len(rawFieldRule.BalancerTag) > 0: rule.TargetTag = &router.RoutingRule_BalancingTag{ BalancingTag: rawFieldRule.BalancerTag, } default: return nil, newError("neither outboundTag nor balancerTag is specified in routing rule") } if rawFieldRule.DomainMatcher != "" { rule.DomainMatcher = rawFieldRule.DomainMatcher } if rawFieldRule.Domain != nil { for _, domain := range *rawFieldRule.Domain { rules, err := parseDomainRule(domain) if err != nil { return nil, newError("failed to parse domain rule: ", domain).Base(err) } rule.Domain = append(rule.Domain, rules...) } } if rawFieldRule.Domains != nil { for _, domain := range *rawFieldRule.Domains { rules, err := parseDomainRule(domain) if err != nil { return nil, newError("failed to parse domain rule: ", domain).Base(err) } rule.Domain = append(rule.Domain, rules...) } } if rawFieldRule.IP != nil { geoipList, err := toCidrList(*rawFieldRule.IP) if err != nil { return nil, err } rule.Geoip = geoipList } if rawFieldRule.Port != nil { rule.PortList = rawFieldRule.Port.Build() } if rawFieldRule.Network != nil { rule.Networks = rawFieldRule.Network.Build() } if rawFieldRule.SourceIP != nil { geoipList, err := toCidrList(*rawFieldRule.SourceIP) if err != nil { return nil, err } rule.SourceGeoip = geoipList } if rawFieldRule.SourcePort != nil { rule.SourcePortList = rawFieldRule.SourcePort.Build() } if rawFieldRule.User != nil { for _, s := range *rawFieldRule.User { rule.UserEmail = append(rule.UserEmail, s) } } if rawFieldRule.InboundTag != nil { for _, s := range *rawFieldRule.InboundTag { rule.InboundTag = append(rule.InboundTag, s) } } if rawFieldRule.Protocols != nil { for _, s := range *rawFieldRule.Protocols { rule.Protocol = append(rule.Protocol, s) } } if len(rawFieldRule.Attributes) > 0 { rule.Attributes = rawFieldRule.Attributes } return rule, nil } func ParseRule(msg json.RawMessage) (*router.RoutingRule, error) { rawRule := new(RouterRule) err := json.Unmarshal(msg, rawRule) if err != nil { return nil, newError("invalid router rule").Base(err) } if strings.EqualFold(rawRule.Type, "field") { fieldrule, err := parseFieldRule(msg) if err != nil { return nil, newError("invalid field rule").Base(err) } return fieldrule, nil } return nil, newError("unknown router rule type: ", rawRule.Type) }