package conf import ( "encoding/json" "strings" "github.com/golang/protobuf/proto" "v2ray.com/core/common/platform/filesystem" "v2ray.com/core/common/protocol" "v2ray.com/core/common/serial" "v2ray.com/core/transport/internet" "v2ray.com/core/transport/internet/domainsocket" "v2ray.com/core/transport/internet/http" "v2ray.com/core/transport/internet/kcp" "v2ray.com/core/transport/internet/quic" "v2ray.com/core/transport/internet/tcp" "v2ray.com/core/transport/internet/tls" "v2ray.com/core/transport/internet/websocket" "v2ray.com/core/transport/internet/xtls" ) var ( kcpHeaderLoader = NewJSONConfigLoader(ConfigCreatorCache{ "none": func() interface{} { return new(NoOpAuthenticator) }, "srtp": func() interface{} { return new(SRTPAuthenticator) }, "utp": func() interface{} { return new(UTPAuthenticator) }, "wechat-video": func() interface{} { return new(WechatVideoAuthenticator) }, "dtls": func() interface{} { return new(DTLSAuthenticator) }, "wireguard": func() interface{} { return new(WireguardAuthenticator) }, }, "type", "") tcpHeaderLoader = NewJSONConfigLoader(ConfigCreatorCache{ "none": func() interface{} { return new(NoOpConnectionAuthenticator) }, "http": func() interface{} { return new(HTTPAuthenticator) }, }, "type", "") ) type KCPConfig struct { Mtu *uint32 `json:"mtu"` Tti *uint32 `json:"tti"` UpCap *uint32 `json:"uplinkCapacity"` DownCap *uint32 `json:"downlinkCapacity"` Congestion *bool `json:"congestion"` ReadBufferSize *uint32 `json:"readBufferSize"` WriteBufferSize *uint32 `json:"writeBufferSize"` HeaderConfig json.RawMessage `json:"header"` Seed *string `json:"seed"` } // Build implements Buildable. func (c *KCPConfig) Build() (proto.Message, error) { config := new(kcp.Config) if c.Mtu != nil { mtu := *c.Mtu if mtu < 576 || mtu > 1460 { return nil, newError("invalid mKCP MTU size: ", mtu).AtError() } config.Mtu = &kcp.MTU{Value: mtu} } if c.Tti != nil { tti := *c.Tti if tti < 10 || tti > 100 { return nil, newError("invalid mKCP TTI: ", tti).AtError() } config.Tti = &kcp.TTI{Value: tti} } if c.UpCap != nil { config.UplinkCapacity = &kcp.UplinkCapacity{Value: *c.UpCap} } if c.DownCap != nil { config.DownlinkCapacity = &kcp.DownlinkCapacity{Value: *c.DownCap} } if c.Congestion != nil { config.Congestion = *c.Congestion } if c.ReadBufferSize != nil { size := *c.ReadBufferSize if size > 0 { config.ReadBuffer = &kcp.ReadBuffer{Size: size * 1024 * 1024} } else { config.ReadBuffer = &kcp.ReadBuffer{Size: 512 * 1024} } } if c.WriteBufferSize != nil { size := *c.WriteBufferSize if size > 0 { config.WriteBuffer = &kcp.WriteBuffer{Size: size * 1024 * 1024} } else { config.WriteBuffer = &kcp.WriteBuffer{Size: 512 * 1024} } } if len(c.HeaderConfig) > 0 { headerConfig, _, err := kcpHeaderLoader.Load(c.HeaderConfig) if err != nil { return nil, newError("invalid mKCP header config.").Base(err).AtError() } ts, err := headerConfig.(Buildable).Build() if err != nil { return nil, newError("invalid mKCP header config").Base(err).AtError() } config.HeaderConfig = serial.ToTypedMessage(ts) } if c.Seed != nil { config.Seed = &kcp.EncryptionSeed{Seed: *c.Seed} } return config, nil } type TCPConfig struct { HeaderConfig json.RawMessage `json:"header"` AcceptProxyProtocol bool `json:"acceptProxyProtocol"` } // Build implements Buildable. func (c *TCPConfig) Build() (proto.Message, error) { config := new(tcp.Config) if len(c.HeaderConfig) > 0 { headerConfig, _, err := tcpHeaderLoader.Load(c.HeaderConfig) if err != nil { return nil, newError("invalid TCP header config").Base(err).AtError() } ts, err := headerConfig.(Buildable).Build() if err != nil { return nil, newError("invalid TCP header config").Base(err).AtError() } config.HeaderSettings = serial.ToTypedMessage(ts) } if c.AcceptProxyProtocol { config.AcceptProxyProtocol = c.AcceptProxyProtocol } return config, nil } type WebSocketConfig struct { Path string `json:"path"` Path2 string `json:"Path"` // The key was misspelled. For backward compatibility, we have to keep track the old key. Headers map[string]string `json:"headers"` AcceptProxyProtocol bool `json:"acceptProxyProtocol"` } // Build implements Buildable. func (c *WebSocketConfig) Build() (proto.Message, error) { path := c.Path if path == "" && c.Path2 != "" { path = c.Path2 } header := make([]*websocket.Header, 0, 32) for key, value := range c.Headers { header = append(header, &websocket.Header{ Key: key, Value: value, }) } config := &websocket.Config{ Path: path, Header: header, } if c.AcceptProxyProtocol { config.AcceptProxyProtocol = c.AcceptProxyProtocol } return config, nil } type HTTPConfig struct { Host *StringList `json:"host"` Path string `json:"path"` } // Build implements Buildable. func (c *HTTPConfig) Build() (proto.Message, error) { config := &http.Config{ Path: c.Path, } if c.Host != nil { config.Host = []string(*c.Host) } return config, nil } type QUICConfig struct { Header json.RawMessage `json:"header"` Security string `json:"security"` Key string `json:"key"` } // Build implements Buildable. func (c *QUICConfig) Build() (proto.Message, error) { config := &quic.Config{ Key: c.Key, } if len(c.Header) > 0 { headerConfig, _, err := kcpHeaderLoader.Load(c.Header) if err != nil { return nil, newError("invalid QUIC header config.").Base(err).AtError() } ts, err := headerConfig.(Buildable).Build() if err != nil { return nil, newError("invalid QUIC header config").Base(err).AtError() } config.Header = serial.ToTypedMessage(ts) } var st protocol.SecurityType switch strings.ToLower(c.Security) { case "aes-128-gcm": st = protocol.SecurityType_AES128_GCM case "chacha20-poly1305": st = protocol.SecurityType_CHACHA20_POLY1305 default: st = protocol.SecurityType_NONE } config.Security = &protocol.SecurityConfig{ Type: st, } return config, nil } type DomainSocketConfig struct { Path string `json:"path"` Abstract bool `json:"abstract"` Padding bool `json:"padding"` AcceptProxyProtocol bool `json:"acceptProxyProtocol"` } // Build implements Buildable. func (c *DomainSocketConfig) Build() (proto.Message, error) { return &domainsocket.Config{ Path: c.Path, Abstract: c.Abstract, Padding: c.Padding, AcceptProxyProtocol: c.AcceptProxyProtocol, }, nil } func readFileOrString(f string, s []string) ([]byte, error) { if len(f) > 0 { return filesystem.ReadFile(f) } if len(s) > 0 { return []byte(strings.Join(s, "\n")), nil } return nil, newError("both file and bytes are empty.") } type TLSCertConfig struct { CertFile string `json:"certificateFile"` CertStr []string `json:"certificate"` KeyFile string `json:"keyFile"` KeyStr []string `json:"key"` Usage string `json:"usage"` } // Build implements Buildable. func (c *TLSCertConfig) Build() (*tls.Certificate, error) { certificate := new(tls.Certificate) cert, err := readFileOrString(c.CertFile, c.CertStr) if err != nil { return nil, newError("failed to parse certificate").Base(err) } certificate.Certificate = cert if len(c.KeyFile) > 0 || len(c.KeyStr) > 0 { key, err := readFileOrString(c.KeyFile, c.KeyStr) if err != nil { return nil, newError("failed to parse key").Base(err) } certificate.Key = key } switch strings.ToLower(c.Usage) { case "encipherment": certificate.Usage = tls.Certificate_ENCIPHERMENT case "verify": certificate.Usage = tls.Certificate_AUTHORITY_VERIFY case "issue": certificate.Usage = tls.Certificate_AUTHORITY_ISSUE default: certificate.Usage = tls.Certificate_ENCIPHERMENT } return certificate, nil } type TLSConfig struct { Insecure bool `json:"allowInsecure"` InsecureCiphers bool `json:"allowInsecureCiphers"` Certs []*TLSCertConfig `json:"certificates"` ServerName string `json:"serverName"` ALPN *StringList `json:"alpn"` DisableSessionResumption bool `json:"disableSessionResumption"` DisableSystemRoot bool `json:"disableSystemRoot"` } // Build implements Buildable. func (c *TLSConfig) Build() (proto.Message, error) { config := new(tls.Config) config.Certificate = make([]*tls.Certificate, len(c.Certs)) for idx, certConf := range c.Certs { cert, err := certConf.Build() if err != nil { return nil, err } config.Certificate[idx] = cert } serverName := c.ServerName config.AllowInsecure = c.Insecure config.AllowInsecureCiphers = c.InsecureCiphers if len(c.ServerName) > 0 { config.ServerName = serverName } if c.ALPN != nil && len(*c.ALPN) > 0 { config.NextProtocol = []string(*c.ALPN) } config.DisableSessionResumption = c.DisableSessionResumption config.DisableSystemRoot = c.DisableSystemRoot return config, nil } type XTLSCertConfig struct { CertFile string `json:"certificateFile"` CertStr []string `json:"certificate"` KeyFile string `json:"keyFile"` KeyStr []string `json:"key"` Usage string `json:"usage"` } // Build implements Buildable. func (c *XTLSCertConfig) Build() (*xtls.Certificate, error) { certificate := new(xtls.Certificate) cert, err := readFileOrString(c.CertFile, c.CertStr) if err != nil { return nil, newError("failed to parse certificate").Base(err) } certificate.Certificate = cert if len(c.KeyFile) > 0 || len(c.KeyStr) > 0 { key, err := readFileOrString(c.KeyFile, c.KeyStr) if err != nil { return nil, newError("failed to parse key").Base(err) } certificate.Key = key } switch strings.ToLower(c.Usage) { case "encipherment": certificate.Usage = xtls.Certificate_ENCIPHERMENT case "verify": certificate.Usage = xtls.Certificate_AUTHORITY_VERIFY case "issue": certificate.Usage = xtls.Certificate_AUTHORITY_ISSUE default: certificate.Usage = xtls.Certificate_ENCIPHERMENT } return certificate, nil } type XTLSConfig struct { Insecure bool `json:"allowInsecure"` InsecureCiphers bool `json:"allowInsecureCiphers"` Certs []*XTLSCertConfig `json:"certificates"` ServerName string `json:"serverName"` ALPN *StringList `json:"alpn"` DisableSessionResumption bool `json:"disableSessionResumption"` DisableSystemRoot bool `json:"disableSystemRoot"` } // Build implements Buildable. func (c *XTLSConfig) Build() (proto.Message, error) { config := new(xtls.Config) config.Certificate = make([]*xtls.Certificate, len(c.Certs)) for idx, certConf := range c.Certs { cert, err := certConf.Build() if err != nil { return nil, err } config.Certificate[idx] = cert } serverName := c.ServerName config.AllowInsecure = c.Insecure config.AllowInsecureCiphers = c.InsecureCiphers if len(c.ServerName) > 0 { config.ServerName = serverName } if c.ALPN != nil && len(*c.ALPN) > 0 { config.NextProtocol = []string(*c.ALPN) } config.DisableSessionResumption = c.DisableSessionResumption config.DisableSystemRoot = c.DisableSystemRoot return config, nil } type TransportProtocol string // Build implements Buildable. func (p TransportProtocol) Build() (string, error) { switch strings.ToLower(string(p)) { case "tcp": return "tcp", nil case "kcp", "mkcp": return "mkcp", nil case "ws", "websocket": return "websocket", nil case "h2", "http": return "http", nil case "ds", "domainsocket": return "domainsocket", nil case "quic": return "quic", nil default: return "", newError("Config: unknown transport protocol: ", p) } } type SocketConfig struct { Mark int32 `json:"mark"` TFO *bool `json:"tcpFastOpen"` TProxy string `json:"tproxy"` } // Build implements Buildable. func (c *SocketConfig) Build() (*internet.SocketConfig, error) { var tfoSettings internet.SocketConfig_TCPFastOpenState if c.TFO != nil { if *c.TFO { tfoSettings = internet.SocketConfig_Enable } else { tfoSettings = internet.SocketConfig_Disable } } var tproxy internet.SocketConfig_TProxyMode switch strings.ToLower(c.TProxy) { case "tproxy": tproxy = internet.SocketConfig_TProxy case "redirect": tproxy = internet.SocketConfig_Redirect default: tproxy = internet.SocketConfig_Off } return &internet.SocketConfig{ Mark: c.Mark, Tfo: tfoSettings, Tproxy: tproxy, }, nil } type StreamConfig struct { Network *TransportProtocol `json:"network"` Security string `json:"security"` TLSSettings *TLSConfig `json:"tlsSettings"` XTLSSettings *XTLSConfig `json:"xtlsSettings"` TCPSettings *TCPConfig `json:"tcpSettings"` KCPSettings *KCPConfig `json:"kcpSettings"` WSSettings *WebSocketConfig `json:"wsSettings"` HTTPSettings *HTTPConfig `json:"httpSettings"` DSSettings *DomainSocketConfig `json:"dsSettings"` QUICSettings *QUICConfig `json:"quicSettings"` SocketSettings *SocketConfig `json:"sockopt"` } // Build implements Buildable. func (c *StreamConfig) Build() (*internet.StreamConfig, error) { config := &internet.StreamConfig{ ProtocolName: "tcp", } if c.Network != nil { protocol, err := (*c.Network).Build() if err != nil { return nil, err } config.ProtocolName = protocol } if strings.EqualFold(c.Security, "tls") { tlsSettings := c.TLSSettings if tlsSettings == nil { if c.XTLSSettings != nil { return nil, newError(`TLS: Please use "tlsSettings" instead of "xtlsSettings".`) } tlsSettings = &TLSConfig{} } ts, err := tlsSettings.Build() if err != nil { return nil, newError("Failed to build TLS config.").Base(err) } tm := serial.ToTypedMessage(ts) config.SecuritySettings = append(config.SecuritySettings, tm) config.SecurityType = tm.Type } if strings.EqualFold(c.Security, "xtls") { if config.ProtocolName != "tcp" && config.ProtocolName != "domainsocket" { return nil, newError("XTLS only supports TCP and DomainSocket for now.") } xtlsSettings := c.XTLSSettings if xtlsSettings == nil { if c.TLSSettings != nil { return nil, newError(`XTLS: Please use "xtlsSettings" instead of "tlsSettings".`) } xtlsSettings = &XTLSConfig{} } ts, err := xtlsSettings.Build() if err != nil { return nil, newError("Failed to build XTLS config.").Base(err) } tm := serial.ToTypedMessage(ts) config.SecuritySettings = append(config.SecuritySettings, tm) config.SecurityType = tm.Type } if c.TCPSettings != nil { ts, err := c.TCPSettings.Build() if err != nil { return nil, newError("Failed to build TCP config.").Base(err) } config.TransportSettings = append(config.TransportSettings, &internet.TransportConfig{ ProtocolName: "tcp", Settings: serial.ToTypedMessage(ts), }) } if c.KCPSettings != nil { ts, err := c.KCPSettings.Build() if err != nil { return nil, newError("Failed to build mKCP config.").Base(err) } config.TransportSettings = append(config.TransportSettings, &internet.TransportConfig{ ProtocolName: "mkcp", Settings: serial.ToTypedMessage(ts), }) } if c.WSSettings != nil { ts, err := c.WSSettings.Build() if err != nil { return nil, newError("Failed to build WebSocket config.").Base(err) } config.TransportSettings = append(config.TransportSettings, &internet.TransportConfig{ ProtocolName: "websocket", Settings: serial.ToTypedMessage(ts), }) } if c.HTTPSettings != nil { ts, err := c.HTTPSettings.Build() if err != nil { return nil, newError("Failed to build HTTP config.").Base(err) } config.TransportSettings = append(config.TransportSettings, &internet.TransportConfig{ ProtocolName: "http", Settings: serial.ToTypedMessage(ts), }) } if c.DSSettings != nil { ds, err := c.DSSettings.Build() if err != nil { return nil, newError("Failed to build DomainSocket config.").Base(err) } config.TransportSettings = append(config.TransportSettings, &internet.TransportConfig{ ProtocolName: "domainsocket", Settings: serial.ToTypedMessage(ds), }) } if c.QUICSettings != nil { qs, err := c.QUICSettings.Build() if err != nil { return nil, newError("Failed to build QUIC config").Base(err) } config.TransportSettings = append(config.TransportSettings, &internet.TransportConfig{ ProtocolName: "quic", Settings: serial.ToTypedMessage(qs), }) } if c.SocketSettings != nil { ss, err := c.SocketSettings.Build() if err != nil { return nil, newError("Failed to build sockopt").Base(err) } config.SocketSettings = ss } return config, nil } type ProxyConfig struct { Tag string `json:"tag"` } // Build implements Buildable. func (v *ProxyConfig) Build() (*internet.ProxyConfig, error) { if v.Tag == "" { return nil, newError("Proxy tag is not set.") } return &internet.ProxyConfig{ Tag: v.Tag, }, nil }