package option import ( "github.com/sagernet/sing-box/common/json" C "github.com/sagernet/sing-box/constant" "github.com/sagernet/sing/common" E "github.com/sagernet/sing/common/exceptions" ) type RouteOptions struct { GeoIP *GeoIPOptions `json:"geoip,omitempty"` Geosite *GeositeOptions `json:"geosite,omitempty"` Rules []Rule `json:"rules,omitempty"` Final string `json:"final,omitempty"` FindProcess bool `json:"find_process,omitempty"` AutoDetectInterface bool `json:"auto_detect_interface,omitempty"` DefaultInterface string `json:"default_interface,omitempty"` DefaultMark int `json:"default_mark,omitempty"` } func (o RouteOptions) Equals(other RouteOptions) bool { return common.ComparablePtrEquals(o.GeoIP, other.GeoIP) && common.ComparablePtrEquals(o.Geosite, other.Geosite) && common.SliceEquals(o.Rules, other.Rules) && o.Final == other.Final && o.FindProcess == other.FindProcess && o.AutoDetectInterface == other.AutoDetectInterface && o.DefaultInterface == other.DefaultInterface && o.DefaultMark == other.DefaultMark } type GeoIPOptions struct { Path string `json:"path,omitempty"` DownloadURL string `json:"download_url,omitempty"` DownloadDetour string `json:"download_detour,omitempty"` } type GeositeOptions struct { Path string `json:"path,omitempty"` DownloadURL string `json:"download_url,omitempty"` DownloadDetour string `json:"download_detour,omitempty"` } type _Rule struct { Type string `json:"type,omitempty"` DefaultOptions DefaultRule `json:"-"` LogicalOptions LogicalRule `json:"-"` } type Rule _Rule func (r Rule) Equals(other Rule) bool { return r.Type == other.Type && r.DefaultOptions.Equals(other.DefaultOptions) && r.LogicalOptions.Equals(other.LogicalOptions) } func (r Rule) MarshalJSON() ([]byte, error) { var v any switch r.Type { case C.RuleTypeDefault: r.Type = "" v = r.DefaultOptions case C.RuleTypeLogical: v = r.LogicalOptions default: return nil, E.New("unknown rule type: " + r.Type) } return MarshallObjects((_Rule)(r), v) } func (r *Rule) UnmarshalJSON(bytes []byte) error { err := json.Unmarshal(bytes, (*_Rule)(r)) if err != nil { return err } var v any switch r.Type { case "", C.RuleTypeDefault: r.Type = C.RuleTypeDefault v = &r.DefaultOptions case C.RuleTypeLogical: v = &r.LogicalOptions default: return E.New("unknown rule type: " + r.Type) } err = UnmarshallExcluded(bytes, (*_Rule)(r), v) if err != nil { return E.Cause(err, "route rule") } return nil } type DefaultRule struct { Inbound Listable[string] `json:"inbound,omitempty"` IPVersion int `json:"ip_version,omitempty"` Network string `json:"network,omitempty"` AuthUser Listable[string] `json:"auth_user,omitempty"` Protocol Listable[string] `json:"protocol,omitempty"` Domain Listable[string] `json:"domain,omitempty"` DomainSuffix Listable[string] `json:"domain_suffix,omitempty"` DomainKeyword Listable[string] `json:"domain_keyword,omitempty"` DomainRegex Listable[string] `json:"domain_regex,omitempty"` Geosite Listable[string] `json:"geosite,omitempty"` SourceGeoIP Listable[string] `json:"source_geoip,omitempty"` GeoIP Listable[string] `json:"geoip,omitempty"` SourceIPCIDR Listable[string] `json:"source_ip_cidr,omitempty"` IPCIDR Listable[string] `json:"ip_cidr,omitempty"` SourcePort Listable[uint16] `json:"source_port,omitempty"` SourcePortRange Listable[string] `json:"source_port_range,omitempty"` Port Listable[uint16] `json:"port,omitempty"` PortRange Listable[string] `json:"port_range,omitempty"` ProcessName Listable[string] `json:"process_name,omitempty"` PackageName Listable[string] `json:"package_name,omitempty"` User Listable[string] `json:"user,omitempty"` UserID Listable[int32] `json:"user_id,omitempty"` Invert bool `json:"invert,omitempty"` Outbound string `json:"outbound,omitempty"` } func (r DefaultRule) IsValid() bool { var defaultValue DefaultRule defaultValue.Outbound = r.Outbound return !r.Equals(defaultValue) } func (r DefaultRule) Equals(other DefaultRule) bool { return common.ComparableSliceEquals(r.Inbound, other.Inbound) && r.IPVersion == other.IPVersion && r.Network == other.Network && common.ComparableSliceEquals(r.User, other.User) && common.ComparableSliceEquals(r.Protocol, other.Protocol) && common.ComparableSliceEquals(r.Domain, other.Domain) && common.ComparableSliceEquals(r.DomainSuffix, other.DomainSuffix) && common.ComparableSliceEquals(r.DomainKeyword, other.DomainKeyword) && common.ComparableSliceEquals(r.DomainRegex, other.DomainRegex) && common.ComparableSliceEquals(r.Geosite, other.Geosite) && common.ComparableSliceEquals(r.SourceGeoIP, other.SourceGeoIP) && common.ComparableSliceEquals(r.GeoIP, other.GeoIP) && common.ComparableSliceEquals(r.SourceIPCIDR, other.SourceIPCIDR) && common.ComparableSliceEquals(r.IPCIDR, other.IPCIDR) && common.ComparableSliceEquals(r.SourcePort, other.SourcePort) && common.ComparableSliceEquals(r.SourcePortRange, other.SourcePortRange) && common.ComparableSliceEquals(r.Port, other.Port) && common.ComparableSliceEquals(r.PortRange, other.PortRange) && common.ComparableSliceEquals(r.ProcessName, other.ProcessName) && common.ComparableSliceEquals(r.PackageName, other.PackageName) && common.ComparableSliceEquals(r.User, other.User) && common.ComparableSliceEquals(r.UserID, other.UserID) && r.Invert == other.Invert && r.Outbound == other.Outbound } type LogicalRule struct { Mode string `json:"mode"` Rules []DefaultRule `json:"rules,omitempty"` Invert bool `json:"invert,omitempty"` Outbound string `json:"outbound,omitempty"` } func (r LogicalRule) IsValid() bool { return len(r.Rules) > 0 && common.All(r.Rules, DefaultRule.IsValid) } func (r LogicalRule) Equals(other LogicalRule) bool { return r.Mode == other.Mode && common.SliceEquals(r.Rules, other.Rules) && r.Invert == other.Invert && r.Outbound == other.Outbound }