Files
3x-ui/web/service/port_conflict.go
T
Sanaei 1ca5924a44 feat(mtproto): add MTProto (FakeTLS) protocol via managed mtg sidecar (#5076)
* feat(mtproto): add MTProto (FakeTLS) protocol via managed mtg sidecar

Xray-core has no mtproto proxy, so mtproto inbounds run as standalone
mtg (9seconds/mtg) sidecar processes managed by the panel — one per
inbound — and are excluded from the generated Xray config entirely.

- model: MTProto protocol constant, validator, and FakeTLS secret
  helpers (GenerateFakeTLSSecret/HealMtprotoSecret)
- mtproto package: per-inbound mtg process manager with reconcile,
  graceful stop, and best-effort Prometheus traffic scraping
- runtime: delegate mtproto inbounds to the mtg manager instead of the
  Xray gRPC API; skip mtproto when building the Xray config
- web: boot reconcile + StopAll wiring, periodic reconcile/traffic job,
  port-conflict transport, secret healing on inbound add/update
- sub: tg:// proxy share-link generation
- frontend: protocol option, Zod schema, Protocol tab (FakeTLS domain +
  regenerable secret), info-modal link, and i18n
- provisioning: fetch mtg v2.2.8 in install.sh, DockerInit.sh, and the
  Linux + Windows release workflows

* fix

* fix

* fix: address Copilot review comments on mtproto PR

- web/web.go: create NewMtprotoJob once and reuse for cron + initial run
- mtproto/manager.go: StopAll cleans up per-inbound config files on shutdown
- mtproto/manager.go: CollectTraffic releases mutex before HTTP scrapes to
  avoid blocking Ensure/Reconcile/Remove during network I/O
- database/model/model.go: panic on crypto/rand failure in mtprotoRandomMiddle
  instead of silently producing a weak all-zero secret
- install.sh: fix chmod to handle renamed bin/mtg-linux-arm on armv5/v6/v7
2026-06-08 14:28:19 +02:00

272 lines
6.3 KiB
Go

package service
import (
"encoding/json"
"fmt"
"strings"
"github.com/mhsanaei/3x-ui/v3/database"
"github.com/mhsanaei/3x-ui/v3/database/model"
"github.com/mhsanaei/3x-ui/v3/util/common"
)
type transportBits uint8
const (
transportTCP transportBits = 1 << iota
transportUDP
)
func inboundTransports(protocol model.Protocol, streamSettings, settings string) transportBits {
// protocols that ignore streamSettings entirely.
switch protocol {
case model.Hysteria, model.WireGuard:
return transportUDP
case model.MTProto:
return transportTCP
}
var bits transportBits
// peek at streamSettings.network to spot udp-based transports.
// parse errors are non-fatal: missing or weird streamSettings just
// keeps the default tcp bit below.
network := ""
if streamSettings != "" {
var ss map[string]any
if json.Unmarshal([]byte(streamSettings), &ss) == nil {
if n, _ := ss["network"].(string); n != "" {
network = n
}
}
}
switch network {
case "kcp", "quic":
bits |= transportUDP
default:
bits |= transportTCP
}
// a few protocols carry their L4 choice in settings instead of (or in
// addition to) streamSettings: SS / Tunnel via a CSV field that wins
// outright, Mixed via an additive udp boolean.
if settings != "" {
var st map[string]any
if json.Unmarshal([]byte(settings), &st) == nil {
switch protocol {
case model.Shadowsocks, model.Tunnel:
key := "network"
if protocol == model.Tunnel {
key = "allowedNetwork"
}
if n, ok := st[key].(string); ok && n != "" {
bits = 0
for part := range strings.SplitSeq(n, ",") {
switch strings.TrimSpace(part) {
case "tcp":
bits |= transportTCP
case "udp":
bits |= transportUDP
}
}
}
case model.Mixed:
// socks/http "mixed" inbound: settings.udp=true means it
// also relays udp on the same port (socks5 udp associate).
if udpOn, _ := st["udp"].(bool); udpOn {
bits |= transportUDP
}
}
}
}
// safety net: never return zero, even if every parse failed.
if bits == 0 {
bits = transportTCP
}
return bits
}
func listenOverlaps(a, b string) bool {
if isAnyListen(a) || isAnyListen(b) {
return true
}
return a == b
}
func isAnyListen(s string) bool {
return s == "" || s == "0.0.0.0" || s == "::" || s == "::0"
}
type portConflictDetail struct {
InboundID int
Remark string
Tag string
Listen string
Port int
Transports transportBits
}
// String renders the detail as a single-line, user-facing summary.
func (d *portConflictDetail) String() string {
name := d.Remark
if name == "" {
name = d.Tag
}
if name == "" {
name = fmt.Sprintf("#%d", d.InboundID)
} else {
name = fmt.Sprintf("'%s' (#%d)", name, d.InboundID)
}
listen := d.Listen
if isAnyListen(listen) {
listen = "*"
}
return fmt.Sprintf("port %d (%s) already used by inbound %s on %s",
d.Port, transportTagSuffix(d.Transports), name, listen)
}
func (s *InboundService) checkPortConflict(inbound *model.Inbound, ignoreId int) (*portConflictDetail, error) {
db := database.GetDB()
var candidates []*model.Inbound
q := db.Model(model.Inbound{}).Where("port = ?", inbound.Port)
if ignoreId > 0 {
q = q.Where("id != ?", ignoreId)
}
if err := q.Find(&candidates).Error; err != nil {
return nil, err
}
newBits := inboundTransports(inbound.Protocol, inbound.StreamSettings, inbound.Settings)
for _, c := range candidates {
if !sameNode(c.NodeID, inbound.NodeID) {
continue
}
if !listenOverlaps(c.Listen, inbound.Listen) {
continue
}
existingBits := inboundTransports(c.Protocol, c.StreamSettings, c.Settings)
shared := existingBits & newBits
if shared == 0 {
continue
}
return &portConflictDetail{
InboundID: c.Id,
Remark: c.Remark,
Tag: c.Tag,
Listen: c.Listen,
Port: c.Port,
Transports: shared,
}, nil
}
return nil, nil
}
func sameNode(a, b *int) bool {
if a == nil && b == nil {
return true
}
if a == nil || b == nil {
return false
}
return *a == *b
}
func baseInboundTag(port int) string {
return fmt.Sprintf("in-%v", port)
}
func transportTagSuffix(b transportBits) string {
switch b {
case transportTCP:
return "tcp"
case transportUDP:
return "udp"
case transportTCP | transportUDP:
return "tcpudp"
}
return "any"
}
// nodeTagPrefix scopes a tag to one remote node so the same listen+port
// can live on the central panel and on a node without bumping the global
// UNIQUE(inbounds.tag) constraint. nil → "" (local panel).
func nodeTagPrefix(nodeID *int) string {
if nodeID == nil {
return ""
}
return fmt.Sprintf("n%d-", *nodeID)
}
func composeInboundTag(port int, nodeID *int, bits transportBits) string {
return nodeTagPrefix(nodeID) + baseInboundTag(port) + "-" + transportTagSuffix(bits)
}
func isAutoGeneratedTag(tag string, port int, nodeID *int, bits transportBits) bool {
base := composeInboundTag(port, nodeID, bits)
if tag == base {
return true
}
suffix, ok := strings.CutPrefix(tag, base+"-")
if !ok || suffix == "" {
return false
}
for _, r := range suffix {
if r < '0' || r > '9' {
return false
}
}
return true
}
func (s *InboundService) generateInboundTag(inbound *model.Inbound, ignoreId int) (string, error) {
bits := inboundTransports(inbound.Protocol, inbound.StreamSettings, inbound.Settings)
candidate := composeInboundTag(inbound.Port, inbound.NodeID, bits)
exists, err := s.tagExists(candidate, ignoreId)
if err != nil {
return "", err
}
if !exists {
return candidate, nil
}
for i := 2; i < 100; i++ {
c := fmt.Sprintf("%s-%d", candidate, i)
exists, err = s.tagExists(c, ignoreId)
if err != nil {
return "", err
}
if !exists {
return c, nil
}
}
return "", common.NewError("could not pick a unique inbound tag for port:", inbound.Port)
}
func (s *InboundService) resolveInboundTag(inbound *model.Inbound, ignoreId int) (string, error) {
if inbound.Tag != "" {
taken, err := s.tagExists(inbound.Tag, ignoreId)
if err != nil {
return "", err
}
if !taken {
return inbound.Tag, nil
}
}
return s.generateInboundTag(inbound, ignoreId)
}
func (s *InboundService) tagExists(tag string, ignoreId int) (bool, error) {
db := database.GetDB()
q := db.Model(model.Inbound{}).Where("tag = ?", tag)
if ignoreId > 0 {
q = q.Where("id != ?", ignoreId)
}
var count int64
if err := q.Count(&count).Error; err != nil {
return false, err
}
return count > 0, nil
}