mirror of
https://gitclone.com/github.com/MetaCubeX/Clash.Meta
synced 2024-11-12 20:31:17 +08:00
164 lines
4.1 KiB
Go
164 lines
4.1 KiB
Go
package config
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import (
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"fmt"
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"net"
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"net/netip"
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"strings"
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"github.com/metacubex/mihomo/adapter/outboundgroup"
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"github.com/metacubex/mihomo/common/structure"
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)
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func trimArr(arr []string) (r []string) {
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for _, e := range arr {
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r = append(r, strings.Trim(e, " "))
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}
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return
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}
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// Check if ProxyGroups form DAG(Directed Acyclic Graph), and sort all ProxyGroups by dependency order.
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// Meanwhile, record the original index in the config file.
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// If loop is detected, return an error with location of loop.
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func proxyGroupsDagSort(groupsConfig []map[string]any) error {
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type graphNode struct {
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indegree int
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// topological order
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topo int
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// the original data in `groupsConfig`
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data map[string]any
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// `outdegree` and `from` are used in loop locating
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outdegree int
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option *outboundgroup.GroupCommonOption
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from []string
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}
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decoder := structure.NewDecoder(structure.Option{TagName: "group", WeaklyTypedInput: true})
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graph := make(map[string]*graphNode)
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// Step 1.1 build dependency graph
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for _, mapping := range groupsConfig {
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option := &outboundgroup.GroupCommonOption{}
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if err := decoder.Decode(mapping, option); err != nil {
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return fmt.Errorf("ProxyGroup %s: %s", option.Name, err.Error())
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}
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groupName := option.Name
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if node, ok := graph[groupName]; ok {
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if node.data != nil {
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return fmt.Errorf("ProxyGroup %s: duplicate group name", groupName)
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}
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node.data = mapping
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node.option = option
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} else {
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graph[groupName] = &graphNode{0, -1, mapping, 0, option, nil}
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}
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for _, proxy := range option.Proxies {
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if node, ex := graph[proxy]; ex {
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node.indegree++
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} else {
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graph[proxy] = &graphNode{1, -1, nil, 0, nil, nil}
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}
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}
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}
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// Step 1.2 Topological Sort
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// topological index of **ProxyGroup**
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index := 0
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queue := make([]string, 0)
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for name, node := range graph {
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// in the beginning, put nodes that have `node.indegree == 0` into queue.
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if node.indegree == 0 {
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queue = append(queue, name)
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}
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}
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// every element in queue have indegree == 0
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for ; len(queue) > 0; queue = queue[1:] {
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name := queue[0]
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node := graph[name]
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if node.option != nil {
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index++
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groupsConfig[len(groupsConfig)-index] = node.data
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if len(node.option.Proxies) == 0 {
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delete(graph, name)
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continue
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}
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for _, proxy := range node.option.Proxies {
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child := graph[proxy]
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child.indegree--
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if child.indegree == 0 {
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queue = append(queue, proxy)
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}
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}
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}
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delete(graph, name)
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}
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// no loop is detected, return sorted ProxyGroup
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if len(graph) == 0 {
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return nil
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}
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// if loop is detected, locate the loop and throw an error
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// Step 2.1 rebuild the graph, fill `outdegree` and `from` filed
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for name, node := range graph {
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if node.option == nil {
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continue
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}
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if len(node.option.Proxies) == 0 {
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continue
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}
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for _, proxy := range node.option.Proxies {
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node.outdegree++
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child := graph[proxy]
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if child.from == nil {
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child.from = make([]string, 0, child.indegree)
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}
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child.from = append(child.from, name)
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}
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}
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// Step 2.2 remove nodes outside the loop. so that we have only the loops remain in `graph`
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queue = make([]string, 0)
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// initialize queue with node have outdegree == 0
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for name, node := range graph {
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if node.outdegree == 0 {
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queue = append(queue, name)
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}
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}
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// every element in queue have outdegree == 0
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for ; len(queue) > 0; queue = queue[1:] {
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name := queue[0]
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node := graph[name]
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for _, f := range node.from {
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graph[f].outdegree--
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if graph[f].outdegree == 0 {
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queue = append(queue, f)
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}
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}
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delete(graph, name)
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}
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// Step 2.3 report the elements in loop
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loopElements := make([]string, 0, len(graph))
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for name := range graph {
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loopElements = append(loopElements, name)
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delete(graph, name)
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}
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return fmt.Errorf("loop is detected in ProxyGroup, please check following ProxyGroups: %v", loopElements)
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}
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func verifyIP6() bool {
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if iAddrs, err := net.InterfaceAddrs(); err == nil {
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for _, addr := range iAddrs {
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if prefix, err := netip.ParsePrefix(addr.String()); err == nil {
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if addr := prefix.Addr().Unmap(); addr.Is6() && addr.IsGlobalUnicast() {
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return true
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}
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}
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}
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}
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return false
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}
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