mirror of https://github.com/XTLS/Xray-core
202 lines
5.6 KiB
Go
202 lines
5.6 KiB
Go
package router
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import (
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"context"
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"math"
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"sort"
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"time"
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"github.com/xtls/xray-core/app/observatory"
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"github.com/xtls/xray-core/common/dice"
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"github.com/xtls/xray-core/common/errors"
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"github.com/xtls/xray-core/core"
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"github.com/xtls/xray-core/features/extension"
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)
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// LeastLoadStrategy represents a least load balancing strategy
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type LeastLoadStrategy struct {
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settings *StrategyLeastLoadConfig
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costs *WeightManager
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observer extension.Observatory
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ctx context.Context
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}
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func (l *LeastLoadStrategy) GetPrincipleTarget(strings []string) []string {
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var ret []string
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nodes := l.pickOutbounds(strings)
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for _, v := range nodes {
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ret = append(ret, v.Tag)
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}
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return ret
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}
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// NewLeastLoadStrategy creates a new LeastLoadStrategy with settings
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func NewLeastLoadStrategy(settings *StrategyLeastLoadConfig) *LeastLoadStrategy {
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return &LeastLoadStrategy{
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settings: settings,
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costs: NewWeightManager(
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settings.Costs, 1,
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func(value, cost float64) float64 {
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return value * math.Pow(cost, 0.5)
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},
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),
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}
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}
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// node is a minimal copy of HealthCheckResult
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// we don't use HealthCheckResult directly because
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// it may change by health checker during routing
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type node struct {
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Tag string
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CountAll int
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CountFail int
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RTTAverage time.Duration
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RTTDeviation time.Duration
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RTTDeviationCost time.Duration
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}
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func (s *LeastLoadStrategy) InjectContext(ctx context.Context) {
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s.ctx = ctx
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core.RequireFeaturesAsync(s.ctx, func(observatory extension.Observatory) {
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s.observer = observatory
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})
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}
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func (s *LeastLoadStrategy) PickOutbound(candidates []string) string {
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selects := s.pickOutbounds(candidates)
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count := len(selects)
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if count == 0 {
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// goes to fallbackTag
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return ""
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}
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return selects[dice.Roll(count)].Tag
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}
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func (s *LeastLoadStrategy) pickOutbounds(candidates []string) []*node {
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qualified := s.getNodes(candidates, time.Duration(s.settings.MaxRTT))
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selects := s.selectLeastLoad(qualified)
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return selects
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}
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// selectLeastLoad selects nodes according to Baselines and Expected Count.
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//
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// The strategy always improves network response speed, not matter which mode below is configured.
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// But they can still have different priorities.
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//
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// 1. Bandwidth priority: no Baseline + Expected Count > 0.: selects `Expected Count` of nodes.
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// (one if Expected Count <= 0)
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//
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// 2. Bandwidth priority advanced: Baselines + Expected Count > 0.
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// Select `Expected Count` amount of nodes, and also those near them according to baselines.
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// In other words, it selects according to different Baselines, until one of them matches
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// the Expected Count, if no Baseline matches, Expected Count applied.
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//
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// 3. Speed priority: Baselines + `Expected Count <= 0`.
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// go through all baselines until find selects, if not, select none. Used in combination
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// with 'balancer.fallbackTag', it means: selects qualified nodes or use the fallback.
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func (s *LeastLoadStrategy) selectLeastLoad(nodes []*node) []*node {
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if len(nodes) == 0 {
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errors.LogInfo(s.ctx, "least load: no qualified outbound")
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return nil
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}
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expected := int(s.settings.Expected)
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availableCount := len(nodes)
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if expected > availableCount {
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return nodes
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}
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if expected <= 0 {
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expected = 1
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}
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if len(s.settings.Baselines) == 0 {
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return nodes[:expected]
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}
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count := 0
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// go through all base line until find expected selects
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for _, b := range s.settings.Baselines {
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baseline := time.Duration(b)
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for i := count; i < availableCount; i++ {
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if nodes[i].RTTDeviationCost >= baseline {
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break
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}
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count = i + 1
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}
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// don't continue if find expected selects
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if count >= expected {
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errors.LogDebug(s.ctx, "applied baseline: ", baseline)
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break
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}
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}
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if s.settings.Expected > 0 && count < expected {
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count = expected
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}
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return nodes[:count]
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}
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func (s *LeastLoadStrategy) getNodes(candidates []string, maxRTT time.Duration) []*node {
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if s.observer == nil {
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errors.LogError(s.ctx, "observer is nil")
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return make([]*node, 0)
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}
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observeResult, err := s.observer.GetObservation(s.ctx)
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if err != nil {
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errors.LogInfoInner(s.ctx, err, "cannot get observation")
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return make([]*node, 0)
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}
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results := observeResult.(*observatory.ObservationResult)
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outboundlist := outboundList(candidates)
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var ret []*node
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for _, v := range results.Status {
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if v.Alive && (v.Delay < maxRTT.Milliseconds() || maxRTT == 0) && outboundlist.contains(v.OutboundTag) {
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record := &node{
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Tag: v.OutboundTag,
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CountAll: 1,
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CountFail: 1,
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RTTAverage: time.Duration(v.Delay) * time.Millisecond,
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RTTDeviation: time.Duration(v.Delay) * time.Millisecond,
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RTTDeviationCost: time.Duration(s.costs.Apply(v.OutboundTag, float64(time.Duration(v.Delay)*time.Millisecond))),
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}
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if v.HealthPing != nil {
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record.RTTAverage = time.Duration(v.HealthPing.Average)
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record.RTTDeviation = time.Duration(v.HealthPing.Deviation)
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record.RTTDeviationCost = time.Duration(s.costs.Apply(v.OutboundTag, float64(v.HealthPing.Deviation)))
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record.CountAll = int(v.HealthPing.All)
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record.CountFail = int(v.HealthPing.Fail)
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}
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ret = append(ret, record)
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}
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}
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leastloadSort(ret)
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return ret
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}
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func leastloadSort(nodes []*node) {
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sort.Slice(nodes, func(i, j int) bool {
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left := nodes[i]
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right := nodes[j]
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if left.RTTDeviationCost != right.RTTDeviationCost {
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return left.RTTDeviationCost < right.RTTDeviationCost
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}
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if left.RTTAverage != right.RTTAverage {
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return left.RTTAverage < right.RTTAverage
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}
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if left.CountFail != right.CountFail {
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return left.CountFail < right.CountFail
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}
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if left.CountAll != right.CountAll {
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return left.CountAll > right.CountAll
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}
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return left.Tag < right.Tag
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})
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}
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