mihomo/config/config.go
2022-11-04 17:38:24 +08:00

1252 lines
37 KiB
Go

package config
import (
"container/list"
"encoding/json"
"errors"
"fmt"
"net"
"net/netip"
"net/url"
"os"
"runtime"
"strconv"
"strings"
"time"
"github.com/Dreamacro/clash/common/utils"
R "github.com/Dreamacro/clash/rules"
RP "github.com/Dreamacro/clash/rules/provider"
"github.com/Dreamacro/clash/adapter"
"github.com/Dreamacro/clash/adapter/outbound"
"github.com/Dreamacro/clash/adapter/outboundgroup"
"github.com/Dreamacro/clash/adapter/provider"
"github.com/Dreamacro/clash/component/auth"
"github.com/Dreamacro/clash/component/dialer"
"github.com/Dreamacro/clash/component/fakeip"
"github.com/Dreamacro/clash/component/geodata"
"github.com/Dreamacro/clash/component/geodata/router"
"github.com/Dreamacro/clash/component/trie"
C "github.com/Dreamacro/clash/constant"
providerTypes "github.com/Dreamacro/clash/constant/provider"
"github.com/Dreamacro/clash/constant/sniffer"
snifferTypes "github.com/Dreamacro/clash/constant/sniffer"
"github.com/Dreamacro/clash/dns"
"github.com/Dreamacro/clash/log"
T "github.com/Dreamacro/clash/tunnel"
"gopkg.in/yaml.v3"
)
// General config
type General struct {
Inbound
Controller
Mode T.TunnelMode `json:"mode"`
UnifiedDelay bool
LogLevel log.LogLevel `json:"log-level"`
IPv6 bool `json:"ipv6"`
Interface string `json:"interface-name"`
RoutingMark int `json:"-"`
GeodataMode bool `json:"geodata-mode"`
GeodataLoader string `json:"geodata-loader"`
TCPConcurrent bool `json:"tcp-concurrent"`
EnableProcess bool `json:"enable-process"`
Tun Tun `json:"tun"`
Sniffing bool `json:"sniffing"`
EBpf EBpf `json:"-"`
}
// Inbound config
type Inbound struct {
Port int `json:"port"`
SocksPort int `json:"socks-port"`
RedirPort int `json:"redir-port"`
TProxyPort int `json:"tproxy-port"`
MixedPort int `json:"mixed-port"`
Authentication []string `json:"authentication"`
AllowLan bool `json:"allow-lan"`
BindAddress string `json:"bind-address"`
InboundTfo bool `json:"inbound-tfo"`
}
// Controller config
type Controller struct {
ExternalController string `json:"-"`
ExternalUI string `json:"-"`
Secret string `json:"-"`
}
// DNS config
type DNS struct {
Enable bool `yaml:"enable"`
PreferH3 bool `yaml:"prefer-h3"`
IPv6 bool `yaml:"ipv6"`
NameServer []dns.NameServer `yaml:"nameserver"`
Fallback []dns.NameServer `yaml:"fallback"`
FallbackFilter FallbackFilter `yaml:"fallback-filter"`
Listen string `yaml:"listen"`
EnhancedMode C.DNSMode `yaml:"enhanced-mode"`
DefaultNameserver []dns.NameServer `yaml:"default-nameserver"`
FakeIPRange *fakeip.Pool
Hosts *trie.DomainTrie[netip.Addr]
NameServerPolicy map[string]dns.NameServer
ProxyServerNameserver []dns.NameServer
}
// FallbackFilter config
type FallbackFilter struct {
GeoIP bool `yaml:"geoip"`
GeoIPCode string `yaml:"geoip-code"`
IPCIDR []*netip.Prefix `yaml:"ipcidr"`
Domain []string `yaml:"domain"`
GeoSite []*router.DomainMatcher `yaml:"geosite"`
}
// Profile config
type Profile struct {
StoreSelected bool `yaml:"store-selected"`
StoreFakeIP bool `yaml:"store-fake-ip"`
}
// Tun config
type Tun struct {
Enable bool `yaml:"enable" json:"enable"`
Device string `yaml:"device" json:"device"`
Stack C.TUNStack `yaml:"stack" json:"stack"`
DNSHijack []netip.AddrPort `yaml:"dns-hijack" json:"dns-hijack"`
AutoRoute bool `yaml:"auto-route" json:"auto-route"`
AutoDetectInterface bool `yaml:"auto-detect-interface" json:"auto-detect-interface"`
RedirectToTun []string `yaml:"-" json:"-"`
MTU uint32 `yaml:"mtu" json:"mtu,omitempty"`
Inet4Address []ListenPrefix `yaml:"inet4-address" json:"inet4-address,omitempty"`
Inet6Address []ListenPrefix `yaml:"inet6-address" json:"inet6-address,omitempty"`
StrictRoute bool `yaml:"strict-route" json:"strict-route,omitempty"`
Inet4RouteAddress []ListenPrefix `yaml:"inet4-route-address" json:"inet4-route-address,omitempty"`
Inet6RouteAddress []ListenPrefix `yaml:"inet6-route-address" json:"inet6-route-address,omitempty"`
IncludeUID []uint32 `yaml:"include-uid" json:"include-uid,omitempty"`
IncludeUIDRange []string `yaml:"include-uid-range" json:"include-uid-range,omitempty"`
ExcludeUID []uint32 `yaml:"exclude-uid" json:"exclude-uid,omitempty"`
ExcludeUIDRange []string `yaml:"exclude-uid-range" json:"exclude-uid-range,omitempty"`
IncludeAndroidUser []int `yaml:"include-android-user" json:"include-android-user,omitempty"`
IncludePackage []string `yaml:"include-package" json:"include-package,omitempty"`
ExcludePackage []string `yaml:"exclude-package" json:"exclude-package,omitempty"`
EndpointIndependentNat bool `yaml:"endpoint-independent-nat" json:"endpoint-independent-nat,omitempty"`
UDPTimeout int64 `yaml:"udp-timeout" json:"udp-timeout,omitempty"`
}
type ListenPrefix netip.Prefix
func (p ListenPrefix) MarshalJSON() ([]byte, error) {
prefix := netip.Prefix(p)
if !prefix.IsValid() {
return json.Marshal(nil)
}
return json.Marshal(prefix.String())
}
func (p ListenPrefix) MarshalYAML() (interface{}, error) {
prefix := netip.Prefix(p)
if !prefix.IsValid() {
return nil, nil
}
return prefix.String(), nil
}
func (p *ListenPrefix) UnmarshalJSON(bytes []byte) error {
var value string
err := json.Unmarshal(bytes, &value)
if err != nil {
return err
}
prefix, err := netip.ParsePrefix(value)
if err != nil {
return err
}
*p = ListenPrefix(prefix)
return nil
}
func (p *ListenPrefix) UnmarshalYAML(node *yaml.Node) error {
var value string
err := node.Decode(&value)
if err != nil {
return err
}
prefix, err := netip.ParsePrefix(value)
if err != nil {
return err
}
*p = ListenPrefix(prefix)
return nil
}
func (p ListenPrefix) Build() netip.Prefix {
return netip.Prefix(p)
}
// IPTables config
type IPTables struct {
Enable bool `yaml:"enable" json:"enable"`
InboundInterface string `yaml:"inbound-interface" json:"inbound-interface"`
Bypass []string `yaml:"bypass" json:"bypass"`
}
type Sniffer struct {
Enable bool
Sniffers []sniffer.Type
Reverses *trie.DomainTrie[struct{}]
ForceDomain *trie.DomainTrie[struct{}]
SkipDomain *trie.DomainTrie[struct{}]
Ports *[]utils.Range[uint16]
ForceDnsMapping bool
ParsePureIp bool
}
// Experimental config
type Experimental struct {
Fingerprints []string `yaml:"fingerprints"`
}
// Config is clash config manager
type Config struct {
General *General
IPTables *IPTables
DNS *DNS
Experimental *Experimental
Hosts *trie.DomainTrie[netip.Addr]
Profile *Profile
Rules []C.Rule
SubRules *map[string][]C.Rule
Users []auth.AuthUser
Proxies map[string]C.Proxy
Providers map[string]providerTypes.ProxyProvider
RuleProviders map[string]providerTypes.RuleProvider
Sniffer *Sniffer
}
type RawDNS struct {
Enable bool `yaml:"enable"`
PreferH3 bool `yaml:"prefer-h3"`
IPv6 bool `yaml:"ipv6"`
UseHosts bool `yaml:"use-hosts"`
NameServer []string `yaml:"nameserver"`
Fallback []string `yaml:"fallback"`
FallbackFilter RawFallbackFilter `yaml:"fallback-filter"`
Listen string `yaml:"listen"`
EnhancedMode C.DNSMode `yaml:"enhanced-mode"`
FakeIPRange string `yaml:"fake-ip-range"`
FakeIPFilter []string `yaml:"fake-ip-filter"`
DefaultNameserver []string `yaml:"default-nameserver"`
NameServerPolicy map[string]string `yaml:"nameserver-policy"`
ProxyServerNameserver []string `yaml:"proxy-server-nameserver"`
}
type RawFallbackFilter struct {
GeoIP bool `yaml:"geoip"`
GeoIPCode string `yaml:"geoip-code"`
IPCIDR []string `yaml:"ipcidr"`
Domain []string `yaml:"domain"`
GeoSite []string `yaml:"geosite"`
}
type RawTun struct {
Enable bool `yaml:"enable" json:"enable"`
Device string `yaml:"device" json:"device"`
Stack C.TUNStack `yaml:"stack" json:"stack"`
DNSHijack []string `yaml:"dns-hijack" json:"dns-hijack"`
AutoRoute bool `yaml:"auto-route" json:"auto-route"`
AutoDetectInterface bool `yaml:"auto-detect-interface"`
RedirectToTun []string `yaml:"-" json:"-"`
MTU uint32 `yaml:"mtu" json:"mtu,omitempty"`
//Inet4Address []ListenPrefix `yaml:"inet4-address" json:"inet4_address,omitempty"`
Inet6Address []ListenPrefix `yaml:"inet6-address" json:"inet6_address,omitempty"`
StrictRoute bool `yaml:"strict-route" json:"strict_route,omitempty"`
Inet4RouteAddress []ListenPrefix `yaml:"inet4_route_address" json:"inet4_route_address,omitempty"`
Inet6RouteAddress []ListenPrefix `yaml:"inet6_route_address" json:"inet6_route_address,omitempty"`
IncludeUID []uint32 `yaml:"include-uid" json:"include_uid,omitempty"`
IncludeUIDRange []string `yaml:"include-uid-range" json:"include_uid_range,omitempty"`
ExcludeUID []uint32 `yaml:"exclude-uid" json:"exclude_uid,omitempty"`
ExcludeUIDRange []string `yaml:"exclude-uid-range" json:"exclude_uid_range,omitempty"`
IncludeAndroidUser []int `yaml:"include-android-user" json:"include_android_user,omitempty"`
IncludePackage []string `yaml:"include-package" json:"include_package,omitempty"`
ExcludePackage []string `yaml:"exclude-package" json:"exclude_package,omitempty"`
EndpointIndependentNat bool `yaml:"endpoint-independent-nat" json:"endpoint_independent_nat,omitempty"`
UDPTimeout int64 `yaml:"udp-timeout" json:"udp_timeout,omitempty"`
}
type RawConfig struct {
Port int `yaml:"port"`
SocksPort int `yaml:"socks-port"`
RedirPort int `yaml:"redir-port"`
TProxyPort int `yaml:"tproxy-port"`
MixedPort int `yaml:"mixed-port"`
InboundTfo bool `yaml:"inbound-tfo"`
Authentication []string `yaml:"authentication"`
AllowLan bool `yaml:"allow-lan"`
BindAddress string `yaml:"bind-address"`
Mode T.TunnelMode `yaml:"mode"`
UnifiedDelay bool `yaml:"unified-delay"`
LogLevel log.LogLevel `yaml:"log-level"`
IPv6 bool `yaml:"ipv6"`
ExternalController string `yaml:"external-controller"`
ExternalUI string `yaml:"external-ui"`
Secret string `yaml:"secret"`
Interface string `yaml:"interface-name"`
RoutingMark int `yaml:"routing-mark"`
GeodataMode bool `yaml:"geodata-mode"`
GeodataLoader string `yaml:"geodata-loader"`
TCPConcurrent bool `yaml:"tcp-concurrent" json:"tcp-concurrent"`
EnableProcess bool `yaml:"enable-process" json:"enable-process"`
Sniffer RawSniffer `yaml:"sniffer"`
ProxyProvider map[string]map[string]any `yaml:"proxy-providers"`
RuleProvider map[string]map[string]any `yaml:"rule-providers"`
Hosts map[string]string `yaml:"hosts"`
DNS RawDNS `yaml:"dns"`
Tun RawTun `yaml:"tun"`
EBpf EBpf `yaml:"ebpf"`
IPTables IPTables `yaml:"iptables"`
Experimental Experimental `yaml:"experimental"`
Profile Profile `yaml:"profile"`
GeoXUrl RawGeoXUrl `yaml:"geox-url"`
Proxy []map[string]any `yaml:"proxies"`
ProxyGroup []map[string]any `yaml:"proxy-groups"`
Rule []string `yaml:"rules"`
SubRules map[string][]string `yaml:"sub-rules"`
}
type RawGeoXUrl struct {
GeoIp string `yaml:"geoip" json:"geoip"`
Mmdb string `yaml:"mmdb" json:"mmdb"`
GeoSite string `yaml:"geosite" json:"geosite"`
}
type RawSniffer struct {
Enable bool `yaml:"enable" json:"enable"`
Sniffing []string `yaml:"sniffing" json:"sniffing"`
ForceDomain []string `yaml:"force-domain" json:"force-domain"`
SkipDomain []string `yaml:"skip-domain" json:"skip-domain"`
Ports []string `yaml:"port-whitelist" json:"port-whitelist"`
ForceDnsMapping bool `yaml:"force-dns-mapping" json:"force-dns-mapping"`
ParsePureIp bool `yaml:"parse-pure-ip" json:"parse-pure-ip"`
}
// EBpf config
type EBpf struct {
RedirectToTun []string `yaml:"redirect-to-tun" json:"redirect-to-tun"`
AutoRedir []string `yaml:"auto-redir" json:"auto-redir"`
}
var (
GroupsList = list.New()
ProxiesList = list.New()
ParsingProxiesCallback func(groupsList *list.List, proxiesList *list.List)
)
// Parse config
func Parse(buf []byte) (*Config, error) {
rawCfg, err := UnmarshalRawConfig(buf)
if err != nil {
return nil, err
}
return ParseRawConfig(rawCfg)
}
func UnmarshalRawConfig(buf []byte) (*RawConfig, error) {
// config with default value
rawCfg := &RawConfig{
AllowLan: false,
BindAddress: "*",
IPv6: true,
Mode: T.Rule,
GeodataMode: C.GeodataMode,
GeodataLoader: "memconservative",
UnifiedDelay: false,
Authentication: []string{},
LogLevel: log.INFO,
Hosts: map[string]string{},
Rule: []string{},
Proxy: []map[string]any{},
ProxyGroup: []map[string]any{},
TCPConcurrent: false,
EnableProcess: false,
Tun: RawTun{
Enable: false,
Device: "",
Stack: C.TunGvisor,
DNSHijack: []string{"0.0.0.0:53"}, // default hijack all dns query
AutoRoute: true,
AutoDetectInterface: true,
Inet6Address: []ListenPrefix{ListenPrefix(netip.MustParsePrefix("fdfe:dcba:9876::1/126"))},
},
EBpf: EBpf{
RedirectToTun: []string{},
AutoRedir: []string{},
},
IPTables: IPTables{
Enable: false,
InboundInterface: "lo",
Bypass: []string{},
},
DNS: RawDNS{
Enable: false,
IPv6: false,
UseHosts: true,
EnhancedMode: C.DNSMapping,
FakeIPRange: "198.18.0.1/16",
FallbackFilter: RawFallbackFilter{
GeoIP: true,
GeoIPCode: "CN",
IPCIDR: []string{},
GeoSite: []string{},
},
DefaultNameserver: []string{
"114.114.114.114",
"223.5.5.5",
"8.8.8.8",
"1.0.0.1",
},
NameServer: []string{
"https://doh.pub/dns-query",
"tls://223.5.5.5:853",
},
FakeIPFilter: []string{
"dns.msftnsci.com",
"www.msftnsci.com",
"www.msftconnecttest.com",
},
},
Sniffer: RawSniffer{
Enable: false,
Sniffing: []string{},
ForceDomain: []string{},
SkipDomain: []string{},
Ports: []string{},
ForceDnsMapping: true,
ParsePureIp: true,
},
Profile: Profile{
StoreSelected: true,
},
GeoXUrl: RawGeoXUrl{
GeoIp: "https://ghproxy.com/https://raw.githubusercontent.com/Loyalsoldier/v2ray-rules-dat/release/geoip.dat",
Mmdb: "https://ghproxy.com/https://raw.githubusercontent.com/Loyalsoldier/geoip/release/Country.mmdb",
GeoSite: "https://ghproxy.com/https://raw.githubusercontent.com/Loyalsoldier/v2ray-rules-dat/release/geosite.dat",
},
}
if err := yaml.Unmarshal(buf, rawCfg); err != nil {
return nil, err
}
return rawCfg, nil
}
func ParseRawConfig(rawCfg *RawConfig) (*Config, error) {
config := &Config{}
log.Infoln("Start initial configuration in progress") //Segment finished in xxm
startTime := time.Now()
config.Experimental = &rawCfg.Experimental
config.Profile = &rawCfg.Profile
config.IPTables = &rawCfg.IPTables
general, err := parseGeneral(rawCfg)
if err != nil {
return nil, err
}
config.General = general
dialer.DefaultInterface.Store(config.General.Interface)
proxies, providers, err := parseProxies(rawCfg)
if err != nil {
return nil, err
}
config.Proxies = proxies
config.Providers = providers
subRules, ruleProviders, err := parseSubRules(rawCfg, proxies)
if err != nil {
return nil, err
}
config.SubRules = subRules
config.RuleProviders = ruleProviders
rules, err := parseRules(rawCfg, proxies, subRules)
if err != nil {
return nil, err
}
config.Rules = rules
hosts, err := parseHosts(rawCfg)
if err != nil {
return nil, err
}
config.Hosts = hosts
dnsCfg, err := parseDNS(rawCfg, hosts, rules)
if err != nil {
return nil, err
}
config.DNS = dnsCfg
err = parseTun(rawCfg.Tun, config.General, dnsCfg)
if err != nil {
return nil, err
}
config.Users = parseAuthentication(rawCfg.Authentication)
config.Sniffer, err = parseSniffer(rawCfg.Sniffer)
if err != nil {
return nil, err
}
elapsedTime := time.Since(startTime) / time.Millisecond // duration in ms
log.Infoln("Initial configuration complete, total time: %dms", elapsedTime) //Segment finished in xxm
return config, nil
}
func parseGeneral(cfg *RawConfig) (*General, error) {
externalUI := cfg.ExternalUI
geodata.SetLoader(cfg.GeodataLoader)
// checkout externalUI exist
if externalUI != "" {
externalUI = C.Path.Resolve(externalUI)
if _, err := os.Stat(externalUI); os.IsNotExist(err) {
return nil, fmt.Errorf("external-ui: %s not exist", externalUI)
}
}
cfg.Tun.RedirectToTun = cfg.EBpf.RedirectToTun
return &General{
Inbound: Inbound{
Port: cfg.Port,
SocksPort: cfg.SocksPort,
RedirPort: cfg.RedirPort,
TProxyPort: cfg.TProxyPort,
MixedPort: cfg.MixedPort,
AllowLan: cfg.AllowLan,
BindAddress: cfg.BindAddress,
InboundTfo: cfg.InboundTfo,
},
Controller: Controller{
ExternalController: cfg.ExternalController,
ExternalUI: cfg.ExternalUI,
Secret: cfg.Secret,
},
UnifiedDelay: cfg.UnifiedDelay,
Mode: cfg.Mode,
LogLevel: cfg.LogLevel,
IPv6: cfg.IPv6,
Interface: cfg.Interface,
RoutingMark: cfg.RoutingMark,
GeodataMode: cfg.GeodataMode,
GeodataLoader: cfg.GeodataLoader,
TCPConcurrent: cfg.TCPConcurrent,
EnableProcess: cfg.EnableProcess,
EBpf: cfg.EBpf,
}, nil
}
func parseProxies(cfg *RawConfig) (proxies map[string]C.Proxy, providersMap map[string]providerTypes.ProxyProvider, err error) {
proxies = make(map[string]C.Proxy)
providersMap = make(map[string]providerTypes.ProxyProvider)
proxiesConfig := cfg.Proxy
groupsConfig := cfg.ProxyGroup
providersConfig := cfg.ProxyProvider
var proxyList []string
proxiesList := list.New()
groupsList := list.New()
proxies["DIRECT"] = adapter.NewProxy(outbound.NewDirect())
proxies["REJECT"] = adapter.NewProxy(outbound.NewReject())
proxies["COMPATIBLE"] = adapter.NewProxy(outbound.NewCompatible())
proxies["PASS"] = adapter.NewProxy(outbound.NewPass())
proxyList = append(proxyList, "DIRECT", "REJECT")
// parse proxy
for idx, mapping := range proxiesConfig {
proxy, err := adapter.ParseProxy(mapping)
if err != nil {
return nil, nil, fmt.Errorf("proxy %d: %w", idx, err)
}
if _, exist := proxies[proxy.Name()]; exist {
return nil, nil, fmt.Errorf("proxy %s is the duplicate name", proxy.Name())
}
proxies[proxy.Name()] = proxy
proxyList = append(proxyList, proxy.Name())
proxiesList.PushBack(mapping)
}
// keep the original order of ProxyGroups in config file
for idx, mapping := range groupsConfig {
groupName, existName := mapping["name"].(string)
if !existName {
return nil, nil, fmt.Errorf("proxy group %d: missing name", idx)
}
proxyList = append(proxyList, groupName)
groupsList.PushBack(mapping)
}
// check if any loop exists and sort the ProxyGroups
if err := proxyGroupsDagSort(groupsConfig); err != nil {
return nil, nil, err
}
// parse and initial providers
for name, mapping := range providersConfig {
if name == provider.ReservedName {
return nil, nil, fmt.Errorf("can not defined a provider called `%s`", provider.ReservedName)
}
pd, err := provider.ParseProxyProvider(name, mapping)
if err != nil {
return nil, nil, fmt.Errorf("parse proxy provider %s error: %w", name, err)
}
providersMap[name] = pd
}
// parse proxy group
for idx, mapping := range groupsConfig {
group, err := outboundgroup.ParseProxyGroup(mapping, proxies, providersMap)
if err != nil {
return nil, nil, fmt.Errorf("proxy group[%d]: %w", idx, err)
}
groupName := group.Name()
if _, exist := proxies[groupName]; exist {
return nil, nil, fmt.Errorf("proxy group %s: the duplicate name", groupName)
}
proxies[groupName] = adapter.NewProxy(group)
}
var ps []C.Proxy
for _, v := range proxyList {
if proxies[v].Type() == C.Pass {
continue
}
ps = append(ps, proxies[v])
}
hc := provider.NewHealthCheck(ps, "", 0, true)
pd, _ := provider.NewCompatibleProvider(provider.ReservedName, ps, hc)
providersMap[provider.ReservedName] = pd
global := outboundgroup.NewSelector(
&outboundgroup.GroupCommonOption{
Name: "GLOBAL",
},
[]providerTypes.ProxyProvider{pd},
)
proxies["GLOBAL"] = adapter.NewProxy(global)
ProxiesList = proxiesList
GroupsList = groupsList
if ParsingProxiesCallback != nil {
// refresh tray menu
go ParsingProxiesCallback(GroupsList, ProxiesList)
}
return proxies, providersMap, nil
}
func parseSubRules(cfg *RawConfig, proxies map[string]C.Proxy) (subRules *map[string][]C.Rule, ruleProviders map[string]providerTypes.RuleProvider, err error) {
ruleProviders = map[string]providerTypes.RuleProvider{}
subRules = &map[string][]C.Rule{}
log.Infoln("Geodata Loader mode: %s", geodata.LoaderName())
// parse rule provider
for name, mapping := range cfg.RuleProvider {
rp, err := RP.ParseRuleProvider(name, mapping, R.ParseRule)
if err != nil {
return nil, nil, err
}
ruleProviders[name] = rp
RP.SetRuleProvider(rp)
}
for name, rawRules := range cfg.SubRules {
var rules []C.Rule
for idx, line := range rawRules {
rawRule := trimArr(strings.Split(line, ","))
var (
payload string
target string
params []string
ruleName = strings.ToUpper(rawRule[0])
)
l := len(rawRule)
if ruleName == "NOT" || ruleName == "OR" || ruleName == "AND" || ruleName == "SUB-RULE" {
target = rawRule[l-1]
payload = strings.Join(rawRule[1:l-1], ",")
} else {
if l < 2 {
return nil, nil, fmt.Errorf("sub-rules[%d] [%s] error: format invalid", idx, line)
}
if l < 4 {
rawRule = append(rawRule, make([]string, 4-l)...)
}
if ruleName == "MATCH" {
l = 2
}
if l >= 3 {
l = 3
payload = rawRule[1]
}
target = rawRule[l-1]
params = rawRule[l:]
}
if _, ok := proxies[target]; !ok && ruleName != "SUB-RULE" {
return nil, nil, fmt.Errorf("sub-rules[%d:%s] [%s] error: proxy [%s] not found", idx, name, line, target)
}
params = trimArr(params)
parsed, parseErr := R.ParseRule(ruleName, payload, target, params, subRules)
if parseErr != nil {
return nil, nil, fmt.Errorf("sub-rules[%d] [%s] error: %s", idx, line, parseErr.Error())
}
rules = append(rules, parsed)
}
(*subRules)[name] = rules
}
if err = verifySubRule(subRules); err != nil {
return nil, nil, err
}
return
}
func verifySubRule(subRules *map[string][]C.Rule) error {
for name := range *subRules {
err := verifySubRuleCircularReferences(name, subRules, []string{})
if err != nil {
return err
}
}
return nil
}
func verifySubRuleCircularReferences(n string, subRules *map[string][]C.Rule, arr []string) error {
isInArray := func(v string, array []string) bool {
for _, c := range array {
if v == c {
return true
}
}
return false
}
arr = append(arr, n)
for i, rule := range (*subRules)[n] {
if rule.RuleType() == C.SubRules {
if _, ok := (*subRules)[rule.Adapter()]; !ok {
return fmt.Errorf("sub-rule[%d:%s] error: [%s] not found", i, n, rule.Adapter())
}
if isInArray(rule.Adapter(), arr) {
arr = append(arr, rule.Adapter())
return fmt.Errorf("sub-rule error: circular references [%s]", strings.Join(arr, "->"))
}
if err := verifySubRuleCircularReferences(rule.Adapter(), subRules, arr); err != nil {
return err
}
}
}
return nil
}
func parseRules(cfg *RawConfig, proxies map[string]C.Proxy, subRules *map[string][]C.Rule) ([]C.Rule, error) {
var rules []C.Rule
rulesConfig := cfg.Rule
// parse rules
for idx, line := range rulesConfig {
rule := trimArr(strings.Split(line, ","))
var (
payload string
target string
params []string
ruleName = strings.ToUpper(rule[0])
)
l := len(rule)
if ruleName == "NOT" || ruleName == "OR" || ruleName == "AND" || ruleName == "SUB-RULE" {
target = rule[l-1]
payload = strings.Join(rule[1:l-1], ",")
} else {
if l < 2 {
return nil, fmt.Errorf("rules[%d] [%s] error: format invalid", idx, line)
}
if l < 4 {
rule = append(rule, make([]string, 4-l)...)
}
if ruleName == "MATCH" {
l = 2
}
if l >= 3 {
l = 3
payload = rule[1]
}
target = rule[l-1]
params = rule[l:]
}
if _, ok := proxies[target]; !ok {
if ruleName != "SUB-RULE" {
return nil, fmt.Errorf("rules[%d] [%s] error: proxy [%s] not found", idx, line, target)
} else if _, ok = (*subRules)[target]; !ok {
return nil, fmt.Errorf("rules[%d] [%s] error: sub-rule [%s] not found", idx, line, target)
}
}
params = trimArr(params)
parsed, parseErr := R.ParseRule(ruleName, payload, target, params, subRules)
if parseErr != nil {
return nil, fmt.Errorf("rules[%d] [%s] error: %s", idx, line, parseErr.Error())
}
rules = append(rules, parsed)
}
runtime.GC()
return rules, nil
}
func parseHosts(cfg *RawConfig) (*trie.DomainTrie[netip.Addr], error) {
tree := trie.New[netip.Addr]()
// add default hosts
if err := tree.Insert("localhost", netip.AddrFrom4([4]byte{127, 0, 0, 1})); err != nil {
log.Errorln("insert localhost to host error: %s", err.Error())
}
if len(cfg.Hosts) != 0 {
for domain, ipStr := range cfg.Hosts {
ip, err := netip.ParseAddr(ipStr)
if err != nil {
return nil, fmt.Errorf("%s is not a valid IP", ipStr)
}
_ = tree.Insert(domain, ip)
}
}
return tree, nil
}
func hostWithDefaultPort(host string, defPort string) (string, error) {
if !strings.Contains(host, ":") {
host += ":"
}
hostname, port, err := net.SplitHostPort(host)
if err != nil {
return "", err
}
if port == "" {
port = defPort
}
return net.JoinHostPort(hostname, port), nil
}
func parseNameServer(servers []string) ([]dns.NameServer, error) {
var nameservers []dns.NameServer
for idx, server := range servers {
// parse without scheme .e.g 8.8.8.8:53
if !strings.Contains(server, "://") {
server = "udp://" + server
}
u, err := url.Parse(server)
if err != nil {
return nil, fmt.Errorf("DNS NameServer[%d] format error: %s", idx, err.Error())
}
var addr, dnsNetType, proxyAdapter string
params := map[string]string{}
switch u.Scheme {
case "udp":
addr, err = hostWithDefaultPort(u.Host, "53")
dnsNetType = "" // UDP
case "tcp":
addr, err = hostWithDefaultPort(u.Host, "53")
dnsNetType = "tcp" // TCP
case "tls":
addr, err = hostWithDefaultPort(u.Host, "853")
dnsNetType = "tcp-tls" // DNS over TLS
case "https":
clearURL := url.URL{Scheme: "https", Host: u.Host, Path: u.Path}
addr = clearURL.String()
dnsNetType = "https" // DNS over HTTPS
if len(u.Fragment) != 0 {
for _, s := range strings.Split(u.Fragment, "&") {
arr := strings.Split(s, "=")
if len(arr) == 0 {
continue
} else if len(arr) == 1 {
proxyAdapter = arr[0]
} else if len(arr) == 2 {
params[arr[0]] = arr[1]
} else {
params[arr[0]] = strings.Join(arr[1:], "=")
}
}
}
case "dhcp":
addr = u.Host
dnsNetType = "dhcp" // UDP from DHCP
case "quic":
addr, err = hostWithDefaultPort(u.Host, "853")
dnsNetType = "quic" // DNS over QUIC
default:
return nil, fmt.Errorf("DNS NameServer[%d] unsupport scheme: %s", idx, u.Scheme)
}
if err != nil {
return nil, fmt.Errorf("DNS NameServer[%d] format error: %s", idx, err.Error())
}
nameservers = append(
nameservers,
dns.NameServer{
Net: dnsNetType,
Addr: addr,
ProxyAdapter: proxyAdapter,
Interface: dialer.DefaultInterface,
Params: params,
},
)
}
return nameservers, nil
}
func parseNameServerPolicy(nsPolicy map[string]string) (map[string]dns.NameServer, error) {
policy := map[string]dns.NameServer{}
for domain, server := range nsPolicy {
nameservers, err := parseNameServer([]string{server})
if err != nil {
return nil, err
}
if _, valid := trie.ValidAndSplitDomain(domain); !valid {
return nil, fmt.Errorf("DNS ResoverRule invalid domain: %s", domain)
}
policy[domain] = nameservers[0]
}
return policy, nil
}
func parseFallbackIPCIDR(ips []string) ([]*netip.Prefix, error) {
var ipNets []*netip.Prefix
for idx, ip := range ips {
ipnet, err := netip.ParsePrefix(ip)
if err != nil {
return nil, fmt.Errorf("DNS FallbackIP[%d] format error: %s", idx, err.Error())
}
ipNets = append(ipNets, &ipnet)
}
return ipNets, nil
}
func parseFallbackGeoSite(countries []string, rules []C.Rule) ([]*router.DomainMatcher, error) {
var sites []*router.DomainMatcher
if len(countries) > 0 {
if err := geodata.InitGeoSite(); err != nil {
return nil, fmt.Errorf("can't initial GeoSite: %s", err)
}
}
for _, country := range countries {
found := false
for _, rule := range rules {
if rule.RuleType() == C.GEOSITE {
if strings.EqualFold(country, rule.Payload()) {
found = true
sites = append(sites, rule.(C.RuleGeoSite).GetDomainMatcher())
log.Infoln("Start initial GeoSite dns fallback filter from rule `%s`", country)
}
}
}
if !found {
matcher, recordsCount, err := geodata.LoadGeoSiteMatcher(country)
if err != nil {
return nil, err
}
sites = append(sites, matcher)
log.Infoln("Start initial GeoSite dns fallback filter `%s`, records: %d", country, recordsCount)
}
}
runtime.GC()
return sites, nil
}
func parseDNS(rawCfg *RawConfig, hosts *trie.DomainTrie[netip.Addr], rules []C.Rule) (*DNS, error) {
cfg := rawCfg.DNS
if cfg.Enable && len(cfg.NameServer) == 0 {
return nil, fmt.Errorf("if DNS configuration is turned on, NameServer cannot be empty")
}
dnsCfg := &DNS{
Enable: cfg.Enable,
Listen: cfg.Listen,
PreferH3: cfg.PreferH3,
IPv6: cfg.IPv6,
EnhancedMode: cfg.EnhancedMode,
FallbackFilter: FallbackFilter{
IPCIDR: []*netip.Prefix{},
GeoSite: []*router.DomainMatcher{},
},
}
var err error
if dnsCfg.NameServer, err = parseNameServer(cfg.NameServer); err != nil {
return nil, err
}
if dnsCfg.Fallback, err = parseNameServer(cfg.Fallback); err != nil {
return nil, err
}
if dnsCfg.NameServerPolicy, err = parseNameServerPolicy(cfg.NameServerPolicy); err != nil {
return nil, err
}
if dnsCfg.ProxyServerNameserver, err = parseNameServer(cfg.ProxyServerNameserver); err != nil {
return nil, err
}
if len(cfg.DefaultNameserver) == 0 {
return nil, errors.New("default nameserver should have at least one nameserver")
}
if dnsCfg.DefaultNameserver, err = parseNameServer(cfg.DefaultNameserver); err != nil {
return nil, err
}
// check default nameserver is pure ip addr
for _, ns := range dnsCfg.DefaultNameserver {
host, _, err := net.SplitHostPort(ns.Addr)
if err != nil || net.ParseIP(host) == nil {
u, err := url.Parse(ns.Addr)
if err == nil && net.ParseIP(u.Host) == nil {
if ip, _, err := net.SplitHostPort(u.Host); err != nil || net.ParseIP(ip) == nil {
return nil, errors.New("default nameserver should be pure IP")
}
}
}
}
if cfg.EnhancedMode == C.DNSFakeIP {
ipnet, err := netip.ParsePrefix(cfg.FakeIPRange)
if err != nil {
return nil, err
}
var host *trie.DomainTrie[struct{}]
// fake ip skip host filter
if len(cfg.FakeIPFilter) != 0 {
host = trie.New[struct{}]()
for _, domain := range cfg.FakeIPFilter {
_ = host.Insert(domain, struct{}{})
}
}
if len(dnsCfg.Fallback) != 0 {
if host == nil {
host = trie.New[struct{}]()
}
for _, fb := range dnsCfg.Fallback {
if net.ParseIP(fb.Addr) != nil {
continue
}
_ = host.Insert(fb.Addr, struct{}{})
}
}
pool, err := fakeip.New(fakeip.Options{
IPNet: &ipnet,
Size: 1000,
Host: host,
Persistence: rawCfg.Profile.StoreFakeIP,
})
if err != nil {
return nil, err
}
dnsCfg.FakeIPRange = pool
}
if len(cfg.Fallback) != 0 {
dnsCfg.FallbackFilter.GeoIP = cfg.FallbackFilter.GeoIP
dnsCfg.FallbackFilter.GeoIPCode = cfg.FallbackFilter.GeoIPCode
if fallbackip, err := parseFallbackIPCIDR(cfg.FallbackFilter.IPCIDR); err == nil {
dnsCfg.FallbackFilter.IPCIDR = fallbackip
}
dnsCfg.FallbackFilter.Domain = cfg.FallbackFilter.Domain
fallbackGeoSite, err := parseFallbackGeoSite(cfg.FallbackFilter.GeoSite, rules)
if err != nil {
return nil, fmt.Errorf("load GeoSite dns fallback filter error, %w", err)
}
dnsCfg.FallbackFilter.GeoSite = fallbackGeoSite
}
if cfg.UseHosts {
dnsCfg.Hosts = hosts
}
return dnsCfg, nil
}
func parseAuthentication(rawRecords []string) []auth.AuthUser {
var users []auth.AuthUser
for _, line := range rawRecords {
if user, pass, found := strings.Cut(line, ":"); found {
users = append(users, auth.AuthUser{User: user, Pass: pass})
}
}
return users
}
func parseTun(rawTun RawTun, general *General, dnsCfg *DNS) error {
var dnsHijack []netip.AddrPort
for _, d := range rawTun.DNSHijack {
if _, after, ok := strings.Cut(d, "://"); ok {
d = after
}
d = strings.Replace(d, "any", "0.0.0.0", 1)
addrPort, err := netip.ParseAddrPort(d)
if err != nil {
return fmt.Errorf("parse dns-hijack url error: %w", err)
}
dnsHijack = append(dnsHijack, addrPort)
}
var tunAddressPrefix netip.Prefix
if dnsCfg.FakeIPRange != nil {
tunAddressPrefix = *dnsCfg.FakeIPRange.IPNet()
} else {
tunAddressPrefix = netip.MustParsePrefix("198.18.0.1/16")
}
tunAddressPrefix = netip.PrefixFrom(tunAddressPrefix.Addr(), 30)
general.Tun = Tun{
Enable: rawTun.Enable,
Device: rawTun.Device,
Stack: rawTun.Stack,
DNSHijack: dnsHijack,
AutoRoute: rawTun.AutoRoute,
AutoDetectInterface: rawTun.AutoDetectInterface,
RedirectToTun: rawTun.RedirectToTun,
MTU: rawTun.MTU,
Inet4Address: []ListenPrefix{ListenPrefix(tunAddressPrefix)},
Inet6Address: rawTun.Inet6Address,
StrictRoute: rawTun.StrictRoute,
Inet4RouteAddress: rawTun.Inet4RouteAddress,
Inet6RouteAddress: rawTun.Inet6RouteAddress,
IncludeUID: rawTun.IncludeUID,
IncludeUIDRange: rawTun.IncludeUIDRange,
ExcludeUID: rawTun.ExcludeUID,
ExcludeUIDRange: rawTun.ExcludeUIDRange,
IncludeAndroidUser: rawTun.IncludeAndroidUser,
IncludePackage: rawTun.IncludePackage,
ExcludePackage: rawTun.ExcludePackage,
EndpointIndependentNat: rawTun.EndpointIndependentNat,
UDPTimeout: rawTun.UDPTimeout,
}
return nil
}
func parseSniffer(snifferRaw RawSniffer) (*Sniffer, error) {
sniffer := &Sniffer{
Enable: snifferRaw.Enable,
ForceDnsMapping: snifferRaw.ForceDnsMapping,
ParsePureIp: snifferRaw.ParsePureIp,
}
var ports []utils.Range[uint16]
if len(snifferRaw.Ports) == 0 {
ports = append(ports, *utils.NewRange[uint16](80, 80))
ports = append(ports, *utils.NewRange[uint16](443, 443))
} else {
for _, portRange := range snifferRaw.Ports {
portRaws := strings.Split(portRange, "-")
p, err := strconv.ParseUint(portRaws[0], 10, 16)
if err != nil {
return nil, fmt.Errorf("%s format error", portRange)
}
start := uint16(p)
if len(portRaws) > 1 {
p, err = strconv.ParseUint(portRaws[1], 10, 16)
if err != nil {
return nil, fmt.Errorf("%s format error", portRange)
}
end := uint16(p)
ports = append(ports, *utils.NewRange(start, end))
} else {
ports = append(ports, *utils.NewRange(start, start))
}
}
}
sniffer.Ports = &ports
loadSniffer := make(map[snifferTypes.Type]struct{})
for _, snifferName := range snifferRaw.Sniffing {
find := false
for _, snifferType := range snifferTypes.List {
if snifferType.String() == strings.ToUpper(snifferName) {
find = true
loadSniffer[snifferType] = struct{}{}
}
}
if !find {
return nil, fmt.Errorf("not find the sniffer[%s]", snifferName)
}
}
for st := range loadSniffer {
sniffer.Sniffers = append(sniffer.Sniffers, st)
}
sniffer.ForceDomain = trie.New[struct{}]()
for _, domain := range snifferRaw.ForceDomain {
err := sniffer.ForceDomain.Insert(domain, struct{}{})
if err != nil {
return nil, fmt.Errorf("error domian[%s] in force-domain, error:%v", domain, err)
}
}
sniffer.SkipDomain = trie.New[struct{}]()
for _, domain := range snifferRaw.SkipDomain {
err := sniffer.SkipDomain.Insert(domain, struct{}{})
if err != nil {
return nil, fmt.Errorf("error domian[%s] in force-domain, error:%v", domain, err)
}
}
return sniffer, nil
}