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package core
import (
"context"
"reflect"
"sync"
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"time"
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"github.com/xtls/xray-core/common"
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"github.com/xtls/xray-core/common/errors"
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"github.com/xtls/xray-core/common/platform"
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"github.com/xtls/xray-core/common/serial"
"github.com/xtls/xray-core/features"
"github.com/xtls/xray-core/features/dns"
"github.com/xtls/xray-core/features/dns/localdns"
"github.com/xtls/xray-core/features/inbound"
"github.com/xtls/xray-core/features/outbound"
"github.com/xtls/xray-core/features/policy"
"github.com/xtls/xray-core/features/routing"
"github.com/xtls/xray-core/features/stats"
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"github.com/xtls/xray-core/transport/internet"
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)
// Server is an instance of Xray. At any time, there must be at most one Server instance running.
type Server interface {
common . Runnable
}
// ServerType returns the type of the server.
func ServerType ( ) interface { } {
return ( * Instance ) ( nil )
}
type resolution struct {
deps [ ] reflect . Type
callback interface { }
}
func getFeature ( allFeatures [ ] features . Feature , t reflect . Type ) features . Feature {
for _ , f := range allFeatures {
if reflect . TypeOf ( f . Type ( ) ) == t {
return f
}
}
return nil
}
func ( r * resolution ) resolve ( allFeatures [ ] features . Feature ) ( bool , error ) {
var fs [ ] features . Feature
for _ , d := range r . deps {
f := getFeature ( allFeatures , d )
if f == nil {
return false , nil
}
fs = append ( fs , f )
}
callback := reflect . ValueOf ( r . callback )
var input [ ] reflect . Value
callbackType := callback . Type ( )
for i := 0 ; i < callbackType . NumIn ( ) ; i ++ {
pt := callbackType . In ( i )
for _ , f := range fs {
if reflect . TypeOf ( f ) . AssignableTo ( pt ) {
input = append ( input , reflect . ValueOf ( f ) )
break
}
}
}
if len ( input ) != callbackType . NumIn ( ) {
panic ( "Can't get all input parameters" )
}
var err error
ret := callback . Call ( input )
errInterface := reflect . TypeOf ( ( * error ) ( nil ) ) . Elem ( )
for i := len ( ret ) - 1 ; i >= 0 ; i -- {
if ret [ i ] . Type ( ) == errInterface {
v := ret [ i ] . Interface ( )
if v != nil {
err = v . ( error )
}
break
}
}
return true , err
}
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// Instance combines all Xray features.
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type Instance struct {
access sync . Mutex
features [ ] features . Feature
featureResolutions [ ] resolution
running bool
ctx context . Context
}
func AddInboundHandler ( server * Instance , config * InboundHandlerConfig ) error {
inboundManager := server . GetFeature ( inbound . ManagerType ( ) ) . ( inbound . Manager )
rawHandler , err := CreateObject ( server , config )
if err != nil {
return err
}
handler , ok := rawHandler . ( inbound . Handler )
if ! ok {
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return errors . New ( "not an InboundHandler" )
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}
if err := inboundManager . AddHandler ( server . ctx , handler ) ; err != nil {
return err
}
return nil
}
func addInboundHandlers ( server * Instance , configs [ ] * InboundHandlerConfig ) error {
for _ , inboundConfig := range configs {
if err := AddInboundHandler ( server , inboundConfig ) ; err != nil {
return err
}
}
return nil
}
func AddOutboundHandler ( server * Instance , config * OutboundHandlerConfig ) error {
outboundManager := server . GetFeature ( outbound . ManagerType ( ) ) . ( outbound . Manager )
rawHandler , err := CreateObject ( server , config )
if err != nil {
return err
}
handler , ok := rawHandler . ( outbound . Handler )
if ! ok {
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return errors . New ( "not an OutboundHandler" )
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}
if err := outboundManager . AddHandler ( server . ctx , handler ) ; err != nil {
return err
}
return nil
}
func addOutboundHandlers ( server * Instance , configs [ ] * OutboundHandlerConfig ) error {
for _ , outboundConfig := range configs {
if err := AddOutboundHandler ( server , outboundConfig ) ; err != nil {
return err
}
}
return nil
}
// RequireFeatures is a helper function to require features from Instance in context.
// See Instance.RequireFeatures for more information.
func RequireFeatures ( ctx context . Context , callback interface { } ) error {
v := MustFromContext ( ctx )
return v . RequireFeatures ( callback )
}
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// RequireFeaturesAsync registers a callback, which will be called when all dependent features are registered. The order of app init doesn't matter
func RequireFeaturesAsync ( ctx context . Context , callback interface { } ) {
v := MustFromContext ( ctx )
v . RequireFeaturesAsync ( callback )
}
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// New returns a new Xray instance based on given configuration.
// The instance is not started at this point.
// To ensure Xray instance works properly, the config must contain one Dispatcher, one InboundHandlerManager and one OutboundHandlerManager. Other features are optional.
func New ( config * Config ) ( * Instance , error ) {
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server := & Instance { ctx : context . Background ( ) }
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done , err := initInstanceWithConfig ( config , server )
if done {
return nil , err
}
return server , nil
}
func NewWithContext ( ctx context . Context , config * Config ) ( * Instance , error ) {
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server := & Instance { ctx : ctx }
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done , err := initInstanceWithConfig ( config , server )
if done {
return nil , err
}
return server , nil
}
func initInstanceWithConfig ( config * Config , server * Instance ) ( bool , error ) {
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server . ctx = context . WithValue ( server . ctx , "cone" ,
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platform . NewEnvFlag ( platform . UseCone ) . GetValue ( func ( ) string { return "" } ) != "true" )
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for _ , appSettings := range config . App {
settings , err := appSettings . GetInstance ( )
if err != nil {
return true , err
}
obj , err := CreateObject ( server , settings )
if err != nil {
return true , err
}
if feature , ok := obj . ( features . Feature ) ; ok {
if err := server . AddFeature ( feature ) ; err != nil {
return true , err
}
}
}
essentialFeatures := [ ] struct {
Type interface { }
Instance features . Feature
} {
{ dns . ClientType ( ) , localdns . New ( ) } ,
{ policy . ManagerType ( ) , policy . DefaultManager { } } ,
{ routing . RouterType ( ) , routing . DefaultRouter { } } ,
{ stats . ManagerType ( ) , stats . NoopManager { } } ,
}
for _ , f := range essentialFeatures {
if server . GetFeature ( f . Type ) == nil {
if err := server . AddFeature ( f . Instance ) ; err != nil {
return true , err
}
}
}
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internet . InitSystemDialer (
server . GetFeature ( dns . ClientType ( ) ) . ( dns . Client ) ,
func ( ) outbound . Manager {
obm , _ := server . GetFeature ( outbound . ManagerType ( ) ) . ( outbound . Manager )
return obm
} ( ) ,
)
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if server . featureResolutions != nil {
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return true , errors . New ( "not all dependencies are resolved." )
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}
if err := addInboundHandlers ( server , config . Inbound ) ; err != nil {
return true , err
}
if err := addOutboundHandlers ( server , config . Outbound ) ; err != nil {
return true , err
}
return false , nil
}
// Type implements common.HasType.
func ( s * Instance ) Type ( ) interface { } {
return ServerType ( )
}
// Close shutdown the Xray instance.
func ( s * Instance ) Close ( ) error {
s . access . Lock ( )
defer s . access . Unlock ( )
s . running = false
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var errs [ ] interface { }
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for _ , f := range s . features {
if err := f . Close ( ) ; err != nil {
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errs = append ( errs , err )
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}
}
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if len ( errs ) > 0 {
return errors . New ( "failed to close all features" ) . Base ( errors . New ( serial . Concat ( errs ... ) ) )
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}
return nil
}
// RequireFeatures registers a callback, which will be called when all dependent features are registered.
// The callback must be a func(). All its parameters must be features.Feature.
func ( s * Instance ) RequireFeatures ( callback interface { } ) error {
callbackType := reflect . TypeOf ( callback )
if callbackType . Kind ( ) != reflect . Func {
panic ( "not a function" )
}
var featureTypes [ ] reflect . Type
for i := 0 ; i < callbackType . NumIn ( ) ; i ++ {
featureTypes = append ( featureTypes , reflect . PtrTo ( callbackType . In ( i ) ) )
}
r := resolution {
deps : featureTypes ,
callback : callback ,
}
if finished , err := r . resolve ( s . features ) ; finished {
return err
}
s . featureResolutions = append ( s . featureResolutions , r )
return nil
}
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// RequireFeaturesAsync registers a callback, which will be called when all dependent features are registered. The order of app init doesn't matter
func ( s * Instance ) RequireFeaturesAsync ( callback interface { } ) {
callbackType := reflect . TypeOf ( callback )
if callbackType . Kind ( ) != reflect . Func {
panic ( "not a function" )
}
var featureTypes [ ] reflect . Type
for i := 0 ; i < callbackType . NumIn ( ) ; i ++ {
featureTypes = append ( featureTypes , reflect . PtrTo ( callbackType . In ( i ) ) )
}
r := resolution {
deps : featureTypes ,
callback : callback ,
}
go func ( ) {
var finished = false
for i := 0 ; ! finished ; i ++ {
if i > 100000 {
errors . LogError ( s . ctx , "RequireFeaturesAsync failed after count " , i )
break ;
}
finished , _ = r . resolve ( s . features )
time . Sleep ( time . Millisecond )
}
s . featureResolutions = append ( s . featureResolutions , r )
} ( )
}
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// AddFeature registers a feature into current Instance.
func ( s * Instance ) AddFeature ( feature features . Feature ) error {
s . features = append ( s . features , feature )
if s . running {
if err := feature . Start ( ) ; err != nil {
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errors . LogInfoInner ( s . ctx , err , "failed to start feature" )
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}
return nil
}
if s . featureResolutions == nil {
return nil
}
var pendingResolutions [ ] resolution
for _ , r := range s . featureResolutions {
finished , err := r . resolve ( s . features )
if finished && err != nil {
return err
}
if ! finished {
pendingResolutions = append ( pendingResolutions , r )
}
}
if len ( pendingResolutions ) == 0 {
s . featureResolutions = nil
} else if len ( pendingResolutions ) < len ( s . featureResolutions ) {
s . featureResolutions = pendingResolutions
}
return nil
}
// GetFeature returns a feature of the given type, or nil if such feature is not registered.
func ( s * Instance ) GetFeature ( featureType interface { } ) features . Feature {
return getFeature ( s . features , reflect . TypeOf ( featureType ) )
}
// Start starts the Xray instance, including all registered features. When Start returns error, the state of the instance is unknown.
// A Xray instance can be started only once. Upon closing, the instance is not guaranteed to start again.
//
// xray:api:stable
func ( s * Instance ) Start ( ) error {
s . access . Lock ( )
defer s . access . Unlock ( )
s . running = true
for _ , f := range s . features {
if err := f . Start ( ) ; err != nil {
return err
}
}
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errors . LogWarning ( s . ctx , "Xray " , Version ( ) , " started" )
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return nil
}