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b413066012
Xray-core/infra/conf/xray.go
yuhan6665 b413066012
Fakedns fix xUDP destination override (#1011) 
* Fix UDP destination override

* Fix code style

* Fix fakedns object init

Do type convertion at runtime in case if user don't use fakedns in config.
Since dispatcher now depend on fakedns object, move the injection order of
fakedns to top (As a temporary solution)

* Amend logic for handing fakedns client

A map is used by server side when client turn on fakedns
Client will send domain address in the buffer.UDP.Address, server record all possible target IP addrs.
When target replies, server will restore the domain and send back to client.

Co-authored-by: hmol233 <82594500+hmol233@users.noreply.github.com>
2022-04-23 19:24:46 -04:00

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package conf
import (
"encoding/json"
"fmt"
"log"
"os"
"strings"
"github.com/xtls/xray-core/app/dispatcher"
"github.com/xtls/xray-core/app/proxyman"
"github.com/xtls/xray-core/app/stats"
"github.com/xtls/xray-core/common/serial"
core "github.com/xtls/xray-core/core"
"github.com/xtls/xray-core/transport/internet"
"github.com/xtls/xray-core/transport/internet/xtls"
)
var (
inboundConfigLoader = NewJSONConfigLoader(ConfigCreatorCache{
"dokodemo-door": func() interface{} { return new(DokodemoConfig) },
"http": func() interface{} { return new(HTTPServerConfig) },
"shadowsocks": func() interface{} { return new(ShadowsocksServerConfig) },
"socks": func() interface{} { return new(SocksServerConfig) },
"vless": func() interface{} { return new(VLessInboundConfig) },
"vmess": func() interface{} { return new(VMessInboundConfig) },
"trojan": func() interface{} { return new(TrojanServerConfig) },
"mtproto": func() interface{} { return new(MTProtoServerConfig) },
}, "protocol", "settings")
outboundConfigLoader = NewJSONConfigLoader(ConfigCreatorCache{
"blackhole": func() interface{} { return new(BlackholeConfig) },
"loopback": func() interface{} { return new(LoopbackConfig) },
"freedom": func() interface{} { return new(FreedomConfig) },
"http": func() interface{} { return new(HTTPClientConfig) },
"shadowsocks": func() interface{} { return new(ShadowsocksClientConfig) },
"socks": func() interface{} { return new(SocksClientConfig) },
"vless": func() interface{} { return new(VLessOutboundConfig) },
"vmess": func() interface{} { return new(VMessOutboundConfig) },
"trojan": func() interface{} { return new(TrojanClientConfig) },
"mtproto": func() interface{} { return new(MTProtoClientConfig) },
"dns": func() interface{} { return new(DNSOutboundConfig) },
}, "protocol", "settings")
ctllog = log.New(os.Stderr, "xctl> ", 0)
)
func toProtocolList(s []string) ([]proxyman.KnownProtocols, error) {
kp := make([]proxyman.KnownProtocols, 0, 8)
for _, p := range s {
switch strings.ToLower(p) {
case "http":
kp = append(kp, proxyman.KnownProtocols_HTTP)
case "https", "tls", "ssl":
kp = append(kp, proxyman.KnownProtocols_TLS)
default:
return nil, newError("Unknown protocol: ", p)
}
}
return kp, nil
}
type SniffingConfig struct {
Enabled bool `json:"enabled"`
DestOverride *StringList `json:"destOverride"`
DomainsExcluded *StringList `json:"domainsExcluded"`
MetadataOnly bool `json:"metadataOnly"`
RouteOnly bool `json:"routeOnly"`
}
// Build implements Buildable.
func (c *SniffingConfig) Build() (*proxyman.SniffingConfig, error) {
var p []string
if c.DestOverride != nil {
for _, protocol := range *c.DestOverride {
switch strings.ToLower(protocol) {
case "http":
p = append(p, "http")
case "tls", "https", "ssl":
p = append(p, "tls")
case "fakedns":
p = append(p, "fakedns")
case "fakedns+others":
p = append(p, "fakedns+others")
default:
return nil, newError("unknown protocol: ", protocol)
}
}
}
var d []string
if c.DomainsExcluded != nil {
for _, domain := range *c.DomainsExcluded {
d = append(d, strings.ToLower(domain))
}
}
return &proxyman.SniffingConfig{
Enabled: c.Enabled,
DestinationOverride: p,
DomainsExcluded: d,
MetadataOnly: c.MetadataOnly,
RouteOnly: c.RouteOnly,
}, nil
}
type MuxConfig struct {
Enabled bool `json:"enabled"`
Concurrency int16 `json:"concurrency"`
}
// Build creates MultiplexingConfig, Concurrency < 0 completely disables mux.
func (m *MuxConfig) Build() *proxyman.MultiplexingConfig {
if m.Concurrency < 0 {
return nil
}
var con uint32 = 8
if m.Concurrency > 0 {
con = uint32(m.Concurrency)
}
return &proxyman.MultiplexingConfig{
Enabled: m.Enabled,
Concurrency: con,
}
}
type InboundDetourAllocationConfig struct {
Strategy string `json:"strategy"`
Concurrency *uint32 `json:"concurrency"`
RefreshMin *uint32 `json:"refresh"`
}
// Build implements Buildable.
func (c *InboundDetourAllocationConfig) Build() (*proxyman.AllocationStrategy, error) {
config := new(proxyman.AllocationStrategy)
switch strings.ToLower(c.Strategy) {
case "always":
config.Type = proxyman.AllocationStrategy_Always
case "random":
config.Type = proxyman.AllocationStrategy_Random
case "external":
config.Type = proxyman.AllocationStrategy_External
default:
return nil, newError("unknown allocation strategy: ", c.Strategy)
}
if c.Concurrency != nil {
config.Concurrency = &proxyman.AllocationStrategy_AllocationStrategyConcurrency{
Value: *c.Concurrency,
}
}
if c.RefreshMin != nil {
config.Refresh = &proxyman.AllocationStrategy_AllocationStrategyRefresh{
Value: *c.RefreshMin,
}
}
return config, nil
}
type InboundDetourConfig struct {
Protocol string `json:"protocol"`
PortList *PortList `json:"port"`
ListenOn *Address `json:"listen"`
Settings *json.RawMessage `json:"settings"`
Tag string `json:"tag"`
Allocation *InboundDetourAllocationConfig `json:"allocate"`
StreamSetting *StreamConfig `json:"streamSettings"`
DomainOverride *StringList `json:"domainOverride"`
SniffingConfig *SniffingConfig `json:"sniffing"`
}
// Build implements Buildable.
func (c *InboundDetourConfig) Build() (*core.InboundHandlerConfig, error) {
receiverSettings := &proxyman.ReceiverConfig{}
if c.ListenOn == nil {
// Listen on anyip, must set PortList
if c.PortList == nil {
return nil, newError("Listen on AnyIP but no Port(s) set in InboundDetour.")
}
receiverSettings.PortList = c.PortList.Build()
} else {
// Listen on specific IP or Unix Domain Socket
receiverSettings.Listen = c.ListenOn.Build()
listenDS := c.ListenOn.Family().IsDomain() && (c.ListenOn.Domain()[0] == '/' || c.ListenOn.Domain()[0] == '@')
listenIP := c.ListenOn.Family().IsIP() || (c.ListenOn.Family().IsDomain() && c.ListenOn.Domain() == "localhost")
if listenIP {
// Listen on specific IP, must set PortList
if c.PortList == nil {
return nil, newError("Listen on specific ip without port in InboundDetour.")
}
// Listen on IP:Port
receiverSettings.PortList = c.PortList.Build()
} else if listenDS {
if c.PortList != nil {
// Listen on Unix Domain Socket, PortList should be nil
receiverSettings.PortList = nil
}
} else {
return nil, newError("unable to listen on domain address: ", c.ListenOn.Domain())
}
}
if c.Allocation != nil {
concurrency := -1
if c.Allocation.Concurrency != nil && c.Allocation.Strategy == "random" {
concurrency = int(*c.Allocation.Concurrency)
}
portRange := 0
for _, pr := range c.PortList.Range {
portRange += int(pr.To - pr.From + 1)
}
if concurrency >= 0 && concurrency >= portRange {
var ports strings.Builder
for _, pr := range c.PortList.Range {
fmt.Fprintf(&ports, "%d-%d ", pr.From, pr.To)
}
return nil, newError("not enough ports. concurrency = ", concurrency, " ports: ", ports.String())
}
as, err := c.Allocation.Build()
if err != nil {
return nil, err
}
receiverSettings.AllocationStrategy = as
}
if c.StreamSetting != nil {
ss, err := c.StreamSetting.Build()
if err != nil {
return nil, err
}
if ss.SecurityType == serial.GetMessageType(&xtls.Config{}) && !strings.EqualFold(c.Protocol, "vless") && !strings.EqualFold(c.Protocol, "trojan") {
return nil, newError("XTLS doesn't supports " + c.Protocol + " for now.")
}
receiverSettings.StreamSettings = ss
}
if c.SniffingConfig != nil {
s, err := c.SniffingConfig.Build()
if err != nil {
return nil, newError("failed to build sniffing config").Base(err)
}
receiverSettings.SniffingSettings = s
}
if c.DomainOverride != nil {
kp, err := toProtocolList(*c.DomainOverride)
if err != nil {
return nil, newError("failed to parse inbound detour config").Base(err)
}
receiverSettings.DomainOverride = kp
}
settings := []byte("{}")
if c.Settings != nil {
settings = ([]byte)(*c.Settings)
}
rawConfig, err := inboundConfigLoader.LoadWithID(settings, c.Protocol)
if err != nil {
return nil, newError("failed to load inbound detour config.").Base(err)
}
if dokodemoConfig, ok := rawConfig.(*DokodemoConfig); ok {
receiverSettings.ReceiveOriginalDestination = dokodemoConfig.Redirect
}
ts, err := rawConfig.(Buildable).Build()
if err != nil {
return nil, err
}
return &core.InboundHandlerConfig{
Tag: c.Tag,
ReceiverSettings: serial.ToTypedMessage(receiverSettings),
ProxySettings: serial.ToTypedMessage(ts),
}, nil
}
type OutboundDetourConfig struct {
Protocol string `json:"protocol"`
SendThrough *Address `json:"sendThrough"`
Tag string `json:"tag"`
Settings *json.RawMessage `json:"settings"`
StreamSetting *StreamConfig `json:"streamSettings"`
ProxySettings *ProxyConfig `json:"proxySettings"`
MuxSettings *MuxConfig `json:"mux"`
}
func (c *OutboundDetourConfig) checkChainProxyConfig() error {
if c.StreamSetting == nil || c.ProxySettings == nil || c.StreamSetting.SocketSettings == nil {
return nil
}
if len(c.ProxySettings.Tag) > 0 && len(c.StreamSetting.SocketSettings.DialerProxy) > 0 {
return newError("proxySettings.tag is conflicted with sockopt.dialerProxy").AtWarning()
}
return nil
}
// Build implements Buildable.
func (c *OutboundDetourConfig) Build() (*core.OutboundHandlerConfig, error) {
senderSettings := &proxyman.SenderConfig{}
if err := c.checkChainProxyConfig(); err != nil {
return nil, err
}
if c.SendThrough != nil {
address := c.SendThrough
if address.Family().IsDomain() {
return nil, newError("unable to send through: " + address.String())
}
senderSettings.Via = address.Build()
}
if c.StreamSetting != nil {
ss, err := c.StreamSetting.Build()
if err != nil {
return nil, err
}
if ss.SecurityType == serial.GetMessageType(&xtls.Config{}) && !strings.EqualFold(c.Protocol, "vless") && !strings.EqualFold(c.Protocol, "trojan") {
return nil, newError("XTLS doesn't supports " + c.Protocol + " for now.")
}
senderSettings.StreamSettings = ss
}
if c.ProxySettings != nil {
ps, err := c.ProxySettings.Build()
if err != nil {
return nil, newError("invalid outbound detour proxy settings.").Base(err)
}
if ps.TransportLayerProxy {
if senderSettings.StreamSettings != nil {
if senderSettings.StreamSettings.SocketSettings != nil {
senderSettings.StreamSettings.SocketSettings.DialerProxy = ps.Tag
} else {
senderSettings.StreamSettings.SocketSettings = &internet.SocketConfig{DialerProxy: ps.Tag}
}
} else {
senderSettings.StreamSettings = &internet.StreamConfig{SocketSettings: &internet.SocketConfig{DialerProxy: ps.Tag}}
}
ps = nil
}
senderSettings.ProxySettings = ps
}
if c.MuxSettings != nil {
ms := c.MuxSettings.Build()
if ms != nil && ms.Enabled {
if ss := senderSettings.StreamSettings; ss != nil {
if ss.SecurityType == serial.GetMessageType(&xtls.Config{}) {
return nil, newError("XTLS doesn't support Mux for now.")
}
}
}
senderSettings.MultiplexSettings = ms
}
settings := []byte("{}")
if c.Settings != nil {
settings = ([]byte)(*c.Settings)
}
rawConfig, err := outboundConfigLoader.LoadWithID(settings, c.Protocol)
if err != nil {
return nil, newError("failed to parse to outbound detour config.").Base(err)
}
ts, err := rawConfig.(Buildable).Build()
if err != nil {
return nil, err
}
return &core.OutboundHandlerConfig{
SenderSettings: serial.ToTypedMessage(senderSettings),
Tag: c.Tag,
ProxySettings: serial.ToTypedMessage(ts),
}, nil
}
type StatsConfig struct{}
// Build implements Buildable.
func (c *StatsConfig) Build() (*stats.Config, error) {
return &stats.Config{}, nil
}
type Config struct {
// Port of this Point server.
// Deprecated: Port exists for historical compatibility
// and should not be used.
Port uint16 `json:"port"`
// Deprecated: InboundConfig exists for historical compatibility
// and should not be used.
InboundConfig *InboundDetourConfig `json:"inbound"`
// Deprecated: OutboundConfig exists for historical compatibility
// and should not be used.
OutboundConfig *OutboundDetourConfig `json:"outbound"`
// Deprecated: InboundDetours exists for historical compatibility
// and should not be used.
InboundDetours []InboundDetourConfig `json:"inboundDetour"`
// Deprecated: OutboundDetours exists for historical compatibility
// and should not be used.
OutboundDetours []OutboundDetourConfig `json:"outboundDetour"`
LogConfig *LogConfig `json:"log"`
RouterConfig *RouterConfig `json:"routing"`
DNSConfig *DNSConfig `json:"dns"`
InboundConfigs []InboundDetourConfig `json:"inbounds"`
OutboundConfigs []OutboundDetourConfig `json:"outbounds"`
Transport *TransportConfig `json:"transport"`
Policy *PolicyConfig `json:"policy"`
API *APIConfig `json:"api"`
Metrics *MetricsConfig `json:"metrics"`
Stats *StatsConfig `json:"stats"`
Reverse *ReverseConfig `json:"reverse"`
FakeDNS *FakeDNSConfig `json:"fakeDns"`
Observatory *ObservatoryConfig `json:"observatory"`
}
func (c *Config) findInboundTag(tag string) int {
found := -1
for idx, ib := range c.InboundConfigs {
if ib.Tag == tag {
found = idx
break
}
}
return found
}
func (c *Config) findOutboundTag(tag string) int {
found := -1
for idx, ob := range c.OutboundConfigs {
if ob.Tag == tag {
found = idx
break
}
}
return found
}
// Override method accepts another Config overrides the current attribute
func (c *Config) Override(o *Config, fn string) {
// only process the non-deprecated members
if o.LogConfig != nil {
c.LogConfig = o.LogConfig
}
if o.RouterConfig != nil {
c.RouterConfig = o.RouterConfig
}
if o.DNSConfig != nil {
c.DNSConfig = o.DNSConfig
}
if o.Transport != nil {
c.Transport = o.Transport
}
if o.Policy != nil {
c.Policy = o.Policy
}
if o.API != nil {
c.API = o.API
}
if o.Metrics != nil {
c.Metrics = o.Metrics
}
if o.Stats != nil {
c.Stats = o.Stats
}
if o.Reverse != nil {
c.Reverse = o.Reverse
}
if o.FakeDNS != nil {
c.FakeDNS = o.FakeDNS
}
if o.Observatory != nil {
c.Observatory = o.Observatory
}
// deprecated attrs... keep them for now
if o.InboundConfig != nil {
c.InboundConfig = o.InboundConfig
}
if o.OutboundConfig != nil {
c.OutboundConfig = o.OutboundConfig
}
if o.InboundDetours != nil {
c.InboundDetours = o.InboundDetours
}
if o.OutboundDetours != nil {
c.OutboundDetours = o.OutboundDetours
}
// deprecated attrs
// update the Inbound in slice if the only one in overide config has same tag
if len(o.InboundConfigs) > 0 {
if len(c.InboundConfigs) > 0 && len(o.InboundConfigs) == 1 {
if idx := c.findInboundTag(o.InboundConfigs[0].Tag); idx > -1 {
c.InboundConfigs[idx] = o.InboundConfigs[0]
ctllog.Println("[", fn, "] updated inbound with tag: ", o.InboundConfigs[0].Tag)
} else {
c.InboundConfigs = append(c.InboundConfigs, o.InboundConfigs[0])
ctllog.Println("[", fn, "] appended inbound with tag: ", o.InboundConfigs[0].Tag)
}
} else {
c.InboundConfigs = o.InboundConfigs
}
}
// update the Outbound in slice if the only one in overide config has same tag
if len(o.OutboundConfigs) > 0 {
if len(c.OutboundConfigs) > 0 && len(o.OutboundConfigs) == 1 {
if idx := c.findOutboundTag(o.OutboundConfigs[0].Tag); idx > -1 {
c.OutboundConfigs[idx] = o.OutboundConfigs[0]
ctllog.Println("[", fn, "] updated outbound with tag: ", o.OutboundConfigs[0].Tag)
} else {
if strings.Contains(strings.ToLower(fn), "tail") {
c.OutboundConfigs = append(c.OutboundConfigs, o.OutboundConfigs[0])
ctllog.Println("[", fn, "] appended outbound with tag: ", o.OutboundConfigs[0].Tag)
} else {
c.OutboundConfigs = append(o.OutboundConfigs, c.OutboundConfigs...)
ctllog.Println("[", fn, "] prepended outbound with tag: ", o.OutboundConfigs[0].Tag)
}
}
} else {
c.OutboundConfigs = o.OutboundConfigs
}
}
}
func applyTransportConfig(s *StreamConfig, t *TransportConfig) {
if s.TCPSettings == nil {
s.TCPSettings = t.TCPConfig
}
if s.KCPSettings == nil {
s.KCPSettings = t.KCPConfig
}
if s.WSSettings == nil {
s.WSSettings = t.WSConfig
}
if s.HTTPSettings == nil {
s.HTTPSettings = t.HTTPConfig
}
if s.DSSettings == nil {
s.DSSettings = t.DSConfig
}
}
// Build implements Buildable.
func (c *Config) Build() (*core.Config, error) {
if err := PostProcessConfigureFile(c); err != nil {
return nil, err
}
config := &core.Config{
App: []*serial.TypedMessage{
serial.ToTypedMessage(&dispatcher.Config{}),
serial.ToTypedMessage(&proxyman.InboundConfig{}),
serial.ToTypedMessage(&proxyman.OutboundConfig{}),
},
}
if c.API != nil {
apiConf, err := c.API.Build()
if err != nil {
return nil, err
}
config.App = append(config.App, serial.ToTypedMessage(apiConf))
}
if c.Metrics != nil {
metricsConf, err := c.Metrics.Build()
if err != nil {
return nil, err
}
config.App = append(config.App, serial.ToTypedMessage(metricsConf))
}
if c.Stats != nil {
statsConf, err := c.Stats.Build()
if err != nil {
return nil, err
}
config.App = append(config.App, serial.ToTypedMessage(statsConf))
}
var logConfMsg *serial.TypedMessage
if c.LogConfig != nil {
logConfMsg = serial.ToTypedMessage(c.LogConfig.Build())
} else {
logConfMsg = serial.ToTypedMessage(DefaultLogConfig())
}
// let logger module be the first App to start,
// so that other modules could print log during initiating
config.App = append([]*serial.TypedMessage{logConfMsg}, config.App...)
if c.RouterConfig != nil {
routerConfig, err := c.RouterConfig.Build()
if err != nil {
return nil, err
}
config.App = append(config.App, serial.ToTypedMessage(routerConfig))
}
if c.DNSConfig != nil {
dnsApp, err := c.DNSConfig.Build()
if err != nil {
return nil, newError("failed to parse DNS config").Base(err)
}
config.App = append(config.App, serial.ToTypedMessage(dnsApp))
}
if c.Policy != nil {
pc, err := c.Policy.Build()
if err != nil {
return nil, err
}
config.App = append(config.App, serial.ToTypedMessage(pc))
}
if c.Reverse != nil {
r, err := c.Reverse.Build()
if err != nil {
return nil, err
}
config.App = append(config.App, serial.ToTypedMessage(r))
}
if c.FakeDNS != nil {
r, err := c.FakeDNS.Build()
if err != nil {
return nil, err
}
config.App = append([]*serial.TypedMessage{serial.ToTypedMessage(r)}, config.App...)
}
if c.Observatory != nil {
r, err := c.Observatory.Build()
if err != nil {
return nil, err
}
config.App = append(config.App, serial.ToTypedMessage(r))
}
var inbounds []InboundDetourConfig
if c.InboundConfig != nil {
inbounds = append(inbounds, *c.InboundConfig)
}
if len(c.InboundDetours) > 0 {
inbounds = append(inbounds, c.InboundDetours...)
}
if len(c.InboundConfigs) > 0 {
inbounds = append(inbounds, c.InboundConfigs...)
}
// Backward compatibility.
if len(inbounds) > 0 && inbounds[0].PortList == nil && c.Port > 0 {
inbounds[0].PortList = &PortList{[]PortRange{{
From: uint32(c.Port),
To: uint32(c.Port),
}}}
}
for _, rawInboundConfig := range inbounds {
if c.Transport != nil {
if rawInboundConfig.StreamSetting == nil {
rawInboundConfig.StreamSetting = &StreamConfig{}
}
applyTransportConfig(rawInboundConfig.StreamSetting, c.Transport)
}
ic, err := rawInboundConfig.Build()
if err != nil {
return nil, err
}
config.Inbound = append(config.Inbound, ic)
}
var outbounds []OutboundDetourConfig
if c.OutboundConfig != nil {
outbounds = append(outbounds, *c.OutboundConfig)
}
if len(c.OutboundDetours) > 0 {
outbounds = append(outbounds, c.OutboundDetours...)
}
if len(c.OutboundConfigs) > 0 {
outbounds = append(outbounds, c.OutboundConfigs...)
}
for _, rawOutboundConfig := range outbounds {
if c.Transport != nil {
if rawOutboundConfig.StreamSetting == nil {
rawOutboundConfig.StreamSetting = &StreamConfig{}
}
applyTransportConfig(rawOutboundConfig.StreamSetting, c.Transport)
}
oc, err := rawOutboundConfig.Build()
if err != nil {
return nil, err
}
config.Outbound = append(config.Outbound, oc)
}
return config, nil
}
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