Files
3x-ui/internal/sub/clash_service.go
T
MHSanaei d8221a8153 fix(sub): bake Host VLESS Route into subscription UUIDs
The Host VLESS Route field was stored and shown in the panel but never applied to any generated subscription (raw, JSON, Clash), so the UUID was emitted unmodified (#5655).

Xray reads the route from the UUID's 3rd group (bytes 6-7, net.PortFromBytes) and masks those bytes to zero before authenticating, so a value can be baked into the share/JSON/Clash UUIDs without breaking the user match. A shared applyVlessRoute helper encodes a single 0-65535 value as the 3rd group; empty/invalid/non-UUID input is left unchanged, so legacy data never yields a broken link and no DB migration is needed.

The field was wrongly validated as a multi-segment port spec (that form belongs to the separate server-side routing rule). It is now a single value 0-65535, with frontend validation, link-preview parity (genVlessLink/hostToExternalProxyEntry), hint + error translations across all 13 locales, and tests on every path.

Closes #5655
2026-06-29 14:32:23 +02:00

811 lines
23 KiB
Go

package sub
import (
"fmt"
"maps"
"strings"
"github.com/goccy/go-json"
yaml "github.com/goccy/go-yaml"
"github.com/mhsanaei/3x-ui/v3/internal/database/model"
)
type SubClashService struct {
enableRouting bool
clashRules string
SubService *SubService
}
func NewSubClashService(enableRouting bool, clashRules string, subService *SubService) *SubClashService {
return &SubClashService{enableRouting: enableRouting, clashRules: clashRules, SubService: subService}
}
func (s *SubClashService) GetClash(subId string, host string) (string, string, error) {
subReq := s.SubService.ForRequest(host)
subReq.subscriptionBody = true
inbounds, err := subReq.getInboundsBySubId(subId)
if err != nil {
return "", "", err
}
externalLinks, err := subReq.getClientExternalLinksBySubId(subId)
if err != nil {
return "", "", err
}
if len(inbounds) == 0 && len(externalLinks) == 0 {
return "", "", nil
}
var proxies []map[string]any
seenEmails := make(map[string]struct{})
for _, inbound := range inbounds {
clients := subReq.matchingClients(inbound, subId)
if len(clients) == 0 {
continue
}
subReq.projectThroughFallbackMaster(inbound)
if hostEps := subReq.hostEndpoints(inbound, "clash"); len(hostEps) > 0 {
injectExternalProxy(inbound, hostEps)
}
for _, client := range clients {
seenEmails[client.Email] = struct{}{}
proxies = append(proxies, s.getProxies(subReq, inbound, client, host)...)
}
}
for _, ext := range externalLinks {
for _, el := range expandEntry(ext) {
name := el.Name
if name == "" {
name = ext.Email
}
if proxy := s.clashProxyFromExternal(el.Link, name); proxy != nil {
seenEmails[ext.Email] = struct{}{}
proxies = append(proxies, proxy)
}
}
}
if len(proxies) == 0 {
return "", "", nil
}
ensureUniqueProxyNames(proxies)
emails := make([]string, 0, len(seenEmails))
for e := range seenEmails {
emails = append(emails, e)
}
traffic, _ := subReq.AggregateTrafficByEmails(emails)
proxyNames := make([]string, 0, len(proxies)+1)
for _, proxy := range proxies {
if name, ok := proxy["name"].(string); ok && name != "" {
proxyNames = append(proxyNames, name)
}
}
proxyNames = append(proxyNames, "DIRECT")
config := map[string]any{
"proxies": proxies,
"proxy-groups": []map[string]any{{
"name": "PROXY",
"type": "select",
"proxies": proxyNames,
}},
"rules": []string{"MATCH,PROXY"},
}
if s.enableRouting {
if err := mergeClashRulesYAML(config, s.clashRules); err != nil {
return "", "", err
}
}
finalYAML, err := yaml.Marshal(config)
if err != nil {
return "", "", err
}
header := fmt.Sprintf("upload=%d; download=%d; total=%d; expire=%d", traffic.Up, traffic.Down, traffic.Total, traffic.ExpiryTime/1000)
return string(finalYAML), header, nil
}
// ensureUniqueProxyNames keeps every proxy "name" non-empty and unique:
// mihomo rejects the whole config on a duplicate name (the empty string
// genRemark returns for a remark-less inbound counts), vanishing the Clash
// profile on refresh. See issue #4641.
func ensureUniqueProxyNames(proxies []map[string]any) {
seen := make(map[string]struct{}, len(proxies))
for i, proxy := range proxies {
base, _ := proxy["name"].(string)
if base == "" {
base = fallbackProxyName(proxy, i)
}
name := base
for n := 2; ; n++ {
if _, dup := seen[name]; !dup {
break
}
name = fmt.Sprintf("%s-%d", base, n)
}
seen[name] = struct{}{}
proxy["name"] = name
}
}
func fallbackProxyName(proxy map[string]any, idx int) string {
typ, _ := proxy["type"].(string)
server, _ := proxy["server"].(string)
if typ != "" && server != "" {
return fmt.Sprintf("%s-%s-%v", typ, server, proxy["port"])
}
return fmt.Sprintf("proxy-%d", idx+1)
}
func (s *SubClashService) getProxies(subReq *SubService, inbound *model.Inbound, client model.Client, host string) []map[string]any {
stream := s.streamData(inbound.StreamSettings)
// For node-managed inbounds the Clash proxy "server" must be the
// node's address, not the request host. resolveInboundAddress handles
// the node→subscriber-host fallback chain.
defaultDest := subReq.resolveInboundAddress(inbound)
if defaultDest == "" {
defaultDest = host
}
externalProxies, ok := stream["externalProxy"].([]any)
hasExternalProxy := ok && len(externalProxies) > 0
if !hasExternalProxy {
externalProxies = []any{map[string]any{
"forceTls": "same",
"dest": defaultDest,
"port": float64(inbound.Port),
"remark": "",
}}
}
delete(stream, "externalProxy")
network, _ := stream["network"].(string)
proxies := make([]map[string]any, 0, len(externalProxies))
for _, ep := range externalProxies {
extPrxy := ep.(map[string]any)
// Expand the host's {{VAR}} remark template for this client (no-op for
// the synthetic/legacy entry) before it becomes the proxy name.
subReq.renderHostRemark(inbound, client, extPrxy, network)
workingInbound := *inbound
workingInbound.Listen = extPrxy["dest"].(string)
workingInbound.Port = int(extPrxy["port"].(float64))
workingStream := cloneStreamForExternalProxy(stream)
switch extPrxy["forceTls"].(string) {
case "tls":
if workingStream["security"] != "tls" {
workingStream["security"] = "tls"
workingStream["tlsSettings"] = map[string]any{}
}
case "none":
if workingStream["security"] != "none" {
workingStream["security"] = "none"
delete(workingStream, "tlsSettings")
delete(workingStream, "realitySettings")
}
}
security, _ := workingStream["security"].(string)
if hasExternalProxy {
applyExternalProxyTLSToStream(extPrxy, workingStream, security)
}
applyHostStreamOverrides(extPrxy, workingStream)
proxy := s.buildProxy(subReq, &workingInbound, client, workingStream, extPrxy)
if len(proxy) > 0 {
// Host-only mihomo knob: ip-version is a top-level proxy field, set
// last so it cannot be clobbered. Absent for legacy externalProxy.
if v, _ := extPrxy["mihomoIpVersion"].(string); v != "" {
proxy["ip-version"] = v
}
proxies = append(proxies, proxy)
}
}
return proxies
}
func (s *SubClashService) buildProxy(subReq *SubService, inbound *model.Inbound, client model.Client, stream map[string]any, ep map[string]any) map[string]any {
// Hysteria has its own transport + TLS model, applyTransport /
// applySecurity don't fit.
if inbound.Protocol == model.Hysteria {
return s.buildHysteriaProxy(subReq, inbound, client, ep)
}
network, _ := stream["network"].(string)
proxy := map[string]any{
"name": subReq.endpointRemark(inbound, client.Email, ep, network),
"server": inbound.Listen,
"port": inbound.Port,
"udp": true,
}
if !s.applyTransport(proxy, network, stream) {
return nil
}
switch inbound.Protocol {
case model.VMESS:
proxy["type"] = "vmess"
proxy["uuid"] = client.ID
proxy["alterId"] = 0
cipher := client.Security
if cipher == "" {
cipher = "auto"
}
proxy["cipher"] = cipher
case model.VLESS:
proxy["type"] = "vless"
proxy["uuid"] = applyVlessRoute(client.ID, hostVlessRoute(ep))
var inboundSettings map[string]any
_ = json.Unmarshal([]byte(inbound.Settings), &inboundSettings)
streamSecurity, _ := stream["security"].(string)
if client.Flow != "" && vlessFlowAllowed(network, streamSecurity, inboundSettings) {
proxy["flow"] = client.Flow
}
if encryption, ok := inboundSettings["encryption"].(string); ok {
encryption = strings.TrimSpace(encryption)
if encryption != "" && encryption != "none" {
proxy["encryption"] = encryption
}
}
case model.Trojan:
proxy["type"] = "trojan"
proxy["password"] = client.Password
case model.Shadowsocks:
proxy["type"] = "ss"
proxy["password"] = client.Password
var inboundSettings map[string]any
_ = json.Unmarshal([]byte(inbound.Settings), &inboundSettings)
method, _ := inboundSettings["method"].(string)
if method == "" {
return nil
}
proxy["cipher"] = method
if strings.HasPrefix(method, "2022") {
if serverPassword, ok := inboundSettings["password"].(string); ok && serverPassword != "" {
proxy["password"] = fmt.Sprintf("%s:%s", serverPassword, client.Password)
}
}
default:
return nil
}
security, _ := stream["security"].(string)
if !s.applySecurity(proxy, security, stream) {
return nil
}
return proxy
}
// buildHysteriaProxy produces a mihomo-compatible Clash entry for a
// Hysteria (v1) or Hysteria2 inbound. It reads `inbound.StreamSettings`
// directly instead of going through streamData/tlsData, because those
// helpers prune fields (like `allowInsecure` / the salamander obfs
// block) that the hysteria proxy wants preserved.
func (s *SubClashService) buildHysteriaProxy(subReq *SubService, inbound *model.Inbound, client model.Client, ep map[string]any) map[string]any {
var inboundSettings map[string]any
_ = json.Unmarshal([]byte(inbound.Settings), &inboundSettings)
proxyType := "hysteria2"
authKey := "password"
if v, ok := inboundSettings["version"].(float64); ok && int(v) == 1 {
proxyType = "hysteria"
authKey = "auth-str"
}
proxy := map[string]any{
"name": subReq.endpointRemark(inbound, client.Email, ep, "quic"),
"type": proxyType,
"server": inbound.Listen,
"port": inbound.Port,
"udp": true,
authKey: client.Auth,
}
var rawStream map[string]any
_ = json.Unmarshal([]byte(inbound.StreamSettings), &rawStream)
// TLS details — hysteria always uses TLS.
if tlsSettings, ok := rawStream["tlsSettings"].(map[string]any); ok {
if serverName, ok := tlsSettings["serverName"].(string); ok && serverName != "" {
proxy["sni"] = serverName
}
if alpnList, ok := tlsSettings["alpn"].([]any); ok && len(alpnList) > 0 {
out := make([]string, 0, len(alpnList))
for _, a := range alpnList {
if s, ok := a.(string); ok && s != "" {
out = append(out, s)
}
}
if len(out) > 0 {
proxy["alpn"] = out
}
}
if inner, ok := tlsSettings["settings"].(map[string]any); ok {
if insecure, ok := inner["allowInsecure"].(bool); ok && insecure {
proxy["skip-cert-verify"] = true
}
if fp, ok := inner["fingerprint"].(string); ok && fp != "" {
proxy["client-fingerprint"] = fp
}
}
}
// Salamander obfs (Hysteria2). Read the same finalmask.udp[salamander]
// block the subscription link generator uses.
if finalmask, ok := rawStream["finalmask"].(map[string]any); ok {
if udpMasks, ok := finalmask["udp"].([]any); ok {
for _, m := range udpMasks {
mask, _ := m.(map[string]any)
if mask == nil || mask["type"] != "salamander" {
continue
}
settings, _ := mask["settings"].(map[string]any)
if pw, ok := settings["password"].(string); ok && pw != "" {
proxy["obfs"] = "salamander"
proxy["obfs-password"] = pw
break
}
}
}
}
// UDP port hopping. mihomo reads the range from a dedicated `ports`
// field (the base `port` stays as the redirect target).
if hopPorts := hysteriaHopPorts(rawStream); hopPorts != "" {
proxy["ports"] = hopPorts
}
return proxy
}
// buildXhttpClashOpts converts xhttpSettings from 3x-ui's camelCase JSON
// storage into the kebab-case map that Mihomo expects under xhttp-opts.
//
// Only client-relevant fields are included (allowlist approach).
// Server-only fields (noSSEHeader, scMaxBufferedPosts, scStreamUpServerSecs,
// serverMaxHeaderBytes) are automatically excluded because they are not in
// the mapping. This is intentional — when Mihomo adds new fields, the mapping
// must be updated explicitly rather than leaking unverified fields to clients.
//
// Returns nil if no non-trivial fields are present.
func buildXhttpClashOpts(xhttp map[string]any) map[string]any {
if xhttp == nil {
return nil
}
opts := map[string]any{}
// Direct fields: path, mode
if v, ok := xhttp["path"].(string); ok && v != "" {
opts["path"] = v
}
if v, ok := xhttp["mode"].(string); ok && v != "" {
opts["mode"] = v
}
// Host: explicit host field wins, then fall back to headers.Host
host := ""
if v, ok := xhttp["host"].(string); ok && v != "" {
host = v
} else if headers, ok := xhttp["headers"].(map[string]any); ok {
host = searchHost(headers)
}
if host != "" {
opts["host"] = host
}
type xhttpStringField struct{ src, dst, skipValue string }
stringFields := []xhttpStringField{
{"xPaddingBytes", "x-padding-bytes", ""},
{"uplinkHTTPMethod", "uplink-http-method", ""},
{"sessionIDPlacement", "session-id-placement", ""},
{"sessionIDKey", "session-id-key", ""},
{"sessionIDTable", "session-id-table", ""},
{"sessionIDLength", "session-id-length", ""},
{"seqPlacement", "seq-placement", ""},
{"seqKey", "seq-key", ""},
{"uplinkDataPlacement", "uplink-data-placement", ""},
{"uplinkDataKey", "uplink-data-key", ""},
{"scMaxEachPostBytes", "sc-max-each-post-bytes", "1000000"},
{"scMinPostsIntervalMs", "sc-min-posts-interval-ms", "30"},
}
for _, f := range stringFields {
if v, ok := xhttp[f.src].(string); ok && v != "" && (f.skipValue == "" || v != f.skipValue) {
opts[f.dst] = v
}
}
// Legacy inbounds (pre xray-core #6258) stored sessionPlacement/sessionKey.
// Fall back to them so not-yet-resaved configs still map. Mirrors the
// frontend migration.
for _, f := range []xhttpStringField{
{"sessionPlacement", "session-id-placement", ""},
{"sessionKey", "session-id-key", ""},
} {
if _, exists := opts[f.dst]; exists {
continue
}
if v, ok := xhttp[f.src].(string); ok && v != "" {
opts[f.dst] = v
}
}
// Bool fields (truthy only)
if v, ok := xhttp["noGRPCHeader"].(bool); ok && v {
opts["no-grpc-header"] = true
}
if v, ok := xhttp["xPaddingObfsMode"].(bool); ok && v {
opts["x-padding-obfs-mode"] = true
// Padding obfs gated fields
for _, field := range []struct{ src, dst string }{
{"xPaddingKey", "x-padding-key"},
{"xPaddingHeader", "x-padding-header"},
{"xPaddingPlacement", "x-padding-placement"},
{"xPaddingMethod", "x-padding-method"},
} {
if v, ok := xhttp[field.src].(string); ok && v != "" {
opts[field.dst] = v
}
}
}
// Non-zero value fields
if v, ok := nonZeroShareValue(xhttp["uplinkChunkSize"]); ok {
opts["uplink-chunk-size"] = v
}
// Nested object: xmux → reuse-settings
if xmux, ok := xhttp["xmux"].(map[string]any); ok && len(xmux) > 0 {
reuse := map[string]any{}
for _, f := range []struct{ src, dst string }{
{"maxConcurrency", "max-concurrency"},
{"maxConnections", "max-connections"},
{"cMaxReuseTimes", "c-max-reuse-times"},
{"hMaxRequestTimes", "h-max-request-times"},
{"hMaxReusableSecs", "h-max-reusable-secs"},
} {
if v, ok := xmux[f.src].(string); ok && v != "" {
reuse[f.dst] = v
}
}
if v, ok := nonZeroShareValue(xmux["hKeepAlivePeriod"]); ok {
reuse["h-keep-alive-period"] = v
}
if len(reuse) > 0 {
opts["reuse-settings"] = reuse
}
}
// Headers (drop Host key)
if rawHeaders, ok := xhttp["headers"].(map[string]any); ok && len(rawHeaders) > 0 {
out := map[string]any{}
for k, v := range rawHeaders {
if strings.EqualFold(k, "host") {
continue
}
out[k] = v
}
if len(out) > 0 {
opts["headers"] = out
}
}
if len(opts) == 0 {
return nil
}
return opts
}
func (s *SubClashService) applyTransport(proxy map[string]any, network string, stream map[string]any) bool {
switch network {
case "", "tcp":
proxy["network"] = "tcp"
tcp, _ := stream["tcpSettings"].(map[string]any)
if tcp != nil {
header, _ := tcp["header"].(map[string]any)
if header != nil {
typeStr, _ := header["type"].(string)
if typeStr != "" && typeStr != "none" {
return false
}
}
}
return true
case "ws":
proxy["network"] = "ws"
ws, _ := stream["wsSettings"].(map[string]any)
wsOpts := map[string]any{}
if ws != nil {
if path, ok := ws["path"].(string); ok && path != "" {
wsOpts["path"] = path
}
host := ""
if v, ok := ws["host"].(string); ok && v != "" {
host = v
} else if headers, ok := ws["headers"].(map[string]any); ok {
host = searchHost(headers)
}
if host != "" {
wsOpts["headers"] = map[string]any{"Host": host}
}
}
if len(wsOpts) > 0 {
proxy["ws-opts"] = wsOpts
}
return true
case "grpc":
proxy["network"] = "grpc"
grpc, _ := stream["grpcSettings"].(map[string]any)
grpcOpts := map[string]any{}
if grpc != nil {
if serviceName, ok := grpc["serviceName"].(string); ok && serviceName != "" {
grpcOpts["grpc-service-name"] = serviceName
}
}
if len(grpcOpts) > 0 {
proxy["grpc-opts"] = grpcOpts
}
return true
case "httpupgrade":
proxy["network"] = "httpupgrade"
hu, _ := stream["httpupgradeSettings"].(map[string]any)
opts := map[string]any{}
if hu != nil {
if path, ok := hu["path"].(string); ok && path != "" {
opts["path"] = path
}
host := ""
if v, ok := hu["host"].(string); ok && v != "" {
host = v
} else if headers, ok := hu["headers"].(map[string]any); ok {
host = searchHost(headers)
}
if host != "" {
opts["headers"] = map[string]any{"Host": host}
}
}
if len(opts) > 0 {
proxy["http-upgrade-opts"] = opts
}
return true
case "xhttp":
proxy["network"] = "xhttp"
xhttp, _ := stream["xhttpSettings"].(map[string]any)
opts := buildXhttpClashOpts(xhttp)
if opts != nil {
proxy["xhttp-opts"] = opts
}
return true
default:
return false
}
}
func (s *SubClashService) applySecurity(proxy map[string]any, security string, stream map[string]any) bool {
switch security {
case "", "none":
proxy["tls"] = false
return true
case "tls":
proxy["tls"] = true
tlsSettings, _ := stream["tlsSettings"].(map[string]any)
if tlsSettings != nil {
if serverName, ok := tlsSettings["serverName"].(string); ok && serverName != "" {
proxy["servername"] = serverName
switch proxy["type"] {
case "trojan":
proxy["sni"] = serverName
}
}
if fingerprint, ok := tlsSettings["fingerprint"].(string); ok && fingerprint != "" {
proxy["client-fingerprint"] = fingerprint
}
if alpn, ok := externalProxyALPNList(tlsSettings["alpn"]); ok {
out := make([]string, 0, len(alpn))
for _, item := range alpn {
if s, ok := item.(string); ok && s != "" {
out = append(out, s)
}
}
if len(out) > 0 {
proxy["alpn"] = out
}
}
if inner, ok := tlsSettings["settings"].(map[string]any); ok {
if insecure, ok := inner["allowInsecure"].(bool); ok && insecure {
proxy["skip-cert-verify"] = true
}
}
}
return true
case "reality":
proxy["tls"] = true
realitySettings, _ := stream["realitySettings"].(map[string]any)
if realitySettings == nil {
return false
}
if serverName, ok := realitySettings["serverName"].(string); ok && serverName != "" {
proxy["servername"] = serverName
}
realityOpts := map[string]any{}
if publicKey, ok := realitySettings["publicKey"].(string); ok && publicKey != "" {
realityOpts["public-key"] = publicKey
}
if shortID, ok := realitySettings["shortId"].(string); ok && shortID != "" {
realityOpts["short-id"] = shortID
}
if len(realityOpts) > 0 {
proxy["reality-opts"] = realityOpts
}
if fingerprint, ok := realitySettings["fingerprint"].(string); ok && fingerprint != "" {
proxy["client-fingerprint"] = fingerprint
}
return true
default:
return false
}
}
func (s *SubClashService) streamData(stream string) map[string]any {
var streamSettings map[string]any
_ = json.Unmarshal([]byte(stream), &streamSettings)
security, _ := streamSettings["security"].(string)
switch security {
case "tls":
if tlsSettings, ok := streamSettings["tlsSettings"].(map[string]any); ok {
streamSettings["tlsSettings"] = s.tlsData(tlsSettings)
}
case "reality":
if realitySettings, ok := streamSettings["realitySettings"].(map[string]any); ok {
streamSettings["realitySettings"] = s.realityData(realitySettings)
}
}
delete(streamSettings, "sockopt")
return streamSettings
}
func (s *SubClashService) tlsData(tData map[string]any) map[string]any {
tlsData := make(map[string]any, 1)
tlsClientSettings, _ := tData["settings"].(map[string]any)
tlsData["serverName"] = tData["serverName"]
tlsData["alpn"] = tData["alpn"]
if fingerprint, ok := tlsClientSettings["fingerprint"].(string); ok {
tlsData["fingerprint"] = fingerprint
}
if pins, ok := tlsClientSettings["pinnedPeerCertSha256"].([]any); ok && len(pins) > 0 {
tlsData["pin-sha256"] = pins
}
return tlsData
}
func (s *SubClashService) realityData(rData map[string]any) map[string]any {
rDataOut := make(map[string]any, 1)
realityClientSettings, _ := rData["settings"].(map[string]any)
if publicKey, ok := realityClientSettings["publicKey"].(string); ok {
rDataOut["publicKey"] = publicKey
}
if fingerprint, ok := realityClientSettings["fingerprint"].(string); ok {
rDataOut["fingerprint"] = fingerprint
}
if serverNames, ok := rData["serverNames"].([]any); ok && len(serverNames) > 0 {
rDataOut["serverName"] = fmt.Sprint(serverNames[0])
}
if shortIDs, ok := rData["shortIds"].([]any); ok && len(shortIDs) > 0 {
rDataOut["shortId"] = fmt.Sprint(shortIDs[0])
}
return rDataOut
}
func cloneMap(src map[string]any) map[string]any {
if src == nil {
return nil
}
dst := make(map[string]any, len(src))
maps.Copy(dst, src)
return dst
}
func mergeClashRulesYAML(base map[string]any, raw string) error {
raw = strings.TrimSpace(raw)
if raw == "" {
return nil
}
var custom any
if err := yaml.Unmarshal([]byte(raw), &custom); err != nil {
mergeClashRules(base, linesToClashRules(raw))
return nil
}
switch typed := custom.(type) {
case []any:
mergeClashRules(base, typed)
case map[string]any:
for key, value := range typed {
if key == "rules" {
if ruleList, ok := asAnySlice(value); ok {
mergeClashRules(base, ruleList)
}
continue
}
base[key] = value
}
default:
mergeClashRules(base, linesToClashRules(raw))
}
return nil
}
func mergeClashRules(base map[string]any, customRules []any) {
if len(customRules) == 0 {
return
}
baseRules, _ := asAnySlice(base["rules"])
if hasClashMatchRule(customRules) {
base["rules"] = customRules
return
}
merged := make([]any, 0, len(customRules)+len(baseRules))
merged = append(merged, customRules...)
merged = append(merged, baseRules...)
base["rules"] = merged
}
func asAnySlice(value any) ([]any, bool) {
switch typed := value.(type) {
case []any:
return typed, true
case []string:
out := make([]any, 0, len(typed))
for _, item := range typed {
out = append(out, item)
}
return out, true
case []map[string]any:
out := make([]any, 0, len(typed))
for _, item := range typed {
out = append(out, item)
}
return out, true
default:
return nil, false
}
}
func hasClashMatchRule(rules []any) bool {
for _, rule := range rules {
ruleText, ok := rule.(string)
if !ok {
continue
}
parts := strings.SplitN(ruleText, ",", 2)
if strings.EqualFold(strings.TrimSpace(parts[0]), "MATCH") {
return true
}
}
return false
}
func linesToClashRules(raw string) []any {
lines := strings.Split(raw, "\n")
rules := make([]any, 0, len(lines))
for _, line := range lines {
line = strings.TrimSpace(line)
if line == "" || strings.HasPrefix(line, "#") {
continue
}
rules = append(rules, line)
}
return rules
}