sing-box/experimental/clashapi/trafficontrol/tracker.go
2024-10-07 04:58:49 +08:00

268 lines
6.1 KiB
Go

package trafficontrol
import (
"net"
"time"
"github.com/sagernet/sing-box/adapter"
"github.com/sagernet/sing/common"
"github.com/sagernet/sing/common/atomic"
"github.com/sagernet/sing/common/bufio"
F "github.com/sagernet/sing/common/format"
"github.com/sagernet/sing/common/json"
N "github.com/sagernet/sing/common/network"
"github.com/gofrs/uuid/v5"
)
type TrackerMetadata struct {
ID uuid.UUID
Metadata adapter.InboundContext
CreatedAt time.Time
ClosedAt time.Time
Upload *atomic.Int64
Download *atomic.Int64
Chain []string
Rule adapter.Rule
Outbound string
OutboundType string
}
func (t TrackerMetadata) MarshalJSON() ([]byte, error) {
var inbound string
if t.Metadata.Inbound != "" {
inbound = t.Metadata.InboundType + "/" + t.Metadata.Inbound
} else {
inbound = t.Metadata.InboundType
}
var domain string
if t.Metadata.Domain != "" {
domain = t.Metadata.Domain
} else {
domain = t.Metadata.Destination.Fqdn
}
var processPath string
if t.Metadata.ProcessInfo != nil {
if t.Metadata.ProcessInfo.ProcessPath != "" {
processPath = t.Metadata.ProcessInfo.ProcessPath
} else if t.Metadata.ProcessInfo.PackageName != "" {
processPath = t.Metadata.ProcessInfo.PackageName
}
if processPath == "" {
if t.Metadata.ProcessInfo.UserId != -1 {
processPath = F.ToString(t.Metadata.ProcessInfo.UserId)
}
} else if t.Metadata.ProcessInfo.User != "" {
processPath = F.ToString(processPath, " (", t.Metadata.ProcessInfo.User, ")")
} else if t.Metadata.ProcessInfo.UserId != -1 {
processPath = F.ToString(processPath, " (", t.Metadata.ProcessInfo.UserId, ")")
}
}
var rule string
if t.Rule != nil {
rule = F.ToString(t.Rule, " => ", t.Rule.Outbound())
} else {
rule = "final"
}
return json.Marshal(map[string]any{
"id": t.ID,
"metadata": map[string]any{
"network": t.Metadata.Network,
"type": inbound,
"sourceIP": t.Metadata.Source.Addr,
"destinationIP": t.Metadata.Destination.Addr,
"sourcePort": F.ToString(t.Metadata.Source.Port),
"destinationPort": F.ToString(t.Metadata.Destination.Port),
"host": domain,
"dnsMode": "normal",
"processPath": processPath,
},
"upload": t.Upload.Load(),
"download": t.Download.Load(),
"start": t.CreatedAt,
"chains": t.Chain,
"rule": rule,
"rulePayload": "",
})
}
type Tracker interface {
adapter.Tracker
Metadata() TrackerMetadata
Close() error
}
type TCPConn struct {
N.ExtendedConn
metadata TrackerMetadata
manager *Manager
}
func (tt *TCPConn) Metadata() TrackerMetadata {
return tt.metadata
}
func (tt *TCPConn) Close() error {
tt.manager.Leave(tt)
return tt.ExtendedConn.Close()
}
func (tt *TCPConn) Leave() {
tt.manager.Leave(tt)
}
func (tt *TCPConn) Upstream() any {
return tt.ExtendedConn
}
func (tt *TCPConn) ReaderReplaceable() bool {
return true
}
func (tt *TCPConn) WriterReplaceable() bool {
return true
}
func NewTCPTracker(conn net.Conn, manager *Manager, metadata adapter.InboundContext, router adapter.Router, rule adapter.Rule) *TCPConn {
id, _ := uuid.NewV4()
var (
chain []string
next string
outbound string
outboundType string
)
if rule == nil {
if defaultOutbound, err := router.DefaultOutbound(N.NetworkTCP); err == nil {
next = defaultOutbound.Tag()
}
} else {
next = rule.Outbound()
}
for {
chain = append(chain, next)
detour, loaded := router.Outbound(next)
if !loaded {
break
}
outbound = detour.Tag()
outboundType = detour.Type()
group, isGroup := detour.(adapter.OutboundGroup)
if !isGroup {
break
}
next = group.Now()
}
upload := new(atomic.Int64)
download := new(atomic.Int64)
tracker := &TCPConn{
ExtendedConn: bufio.NewCounterConn(conn, []N.CountFunc{func(n int64) {
upload.Add(n)
manager.PushUploaded(n)
}}, []N.CountFunc{func(n int64) {
download.Add(n)
manager.PushDownloaded(n)
}}),
metadata: TrackerMetadata{
ID: id,
Metadata: metadata,
CreatedAt: time.Now(),
Upload: upload,
Download: download,
Chain: common.Reverse(chain),
Rule: rule,
Outbound: outbound,
OutboundType: outboundType,
},
manager: manager,
}
manager.Join(tracker)
return tracker
}
type UDPConn struct {
N.PacketConn `json:"-"`
metadata TrackerMetadata
manager *Manager
}
func (ut *UDPConn) Metadata() TrackerMetadata {
return ut.metadata
}
func (ut *UDPConn) Close() error {
ut.manager.Leave(ut)
return ut.PacketConn.Close()
}
func (ut *UDPConn) Leave() {
ut.manager.Leave(ut)
}
func (ut *UDPConn) Upstream() any {
return ut.PacketConn
}
func (ut *UDPConn) ReaderReplaceable() bool {
return true
}
func (ut *UDPConn) WriterReplaceable() bool {
return true
}
func NewUDPTracker(conn N.PacketConn, manager *Manager, metadata adapter.InboundContext, router adapter.Router, rule adapter.Rule) *UDPConn {
id, _ := uuid.NewV4()
var (
chain []string
next string
outbound string
outboundType string
)
if rule == nil {
if defaultOutbound, err := router.DefaultOutbound(N.NetworkUDP); err == nil {
next = defaultOutbound.Tag()
}
} else {
next = rule.Outbound()
}
for {
chain = append(chain, next)
detour, loaded := router.Outbound(next)
if !loaded {
break
}
outbound = detour.Tag()
outboundType = detour.Type()
group, isGroup := detour.(adapter.OutboundGroup)
if !isGroup {
break
}
next = group.Now()
}
upload := new(atomic.Int64)
download := new(atomic.Int64)
trackerConn := &UDPConn{
PacketConn: bufio.NewCounterPacketConn(conn, []N.CountFunc{func(n int64) {
upload.Add(n)
manager.PushUploaded(n)
}}, []N.CountFunc{func(n int64) {
download.Add(n)
manager.PushDownloaded(n)
}}),
metadata: TrackerMetadata{
ID: id,
Metadata: metadata,
CreatedAt: time.Now(),
Upload: upload,
Download: download,
Chain: common.Reverse(chain),
Rule: rule,
Outbound: outbound,
OutboundType: outboundType,
},
manager: manager,
}
manager.Join(trackerConn)
return trackerConn
}