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parent_proxy.go
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parent_proxy.go
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package main
import (
"encoding/base64"
"encoding/binary"
"errors"
"fmt"
ss "github.com/shadowsocks/shadowsocks-go/shadowsocks"
"hash/crc32"
"io"
"math/rand"
"net"
"sort"
"strconv"
"sync"
"time"
)
// Interface that all types of parent proxies should support.
type ParentProxy interface {
connect(*URL) (net.Conn, error)
getServer() string // for use in updating server latency
genConfig() string // for upgrading config
}
// Interface for different proxy selection strategy.
type ParentPool interface {
add(ParentProxy)
empty() bool
// Select a proxy from the pool and connect. May try several proxies until
// one that succees, return nil and error if all parent proxies fail.
connect(*URL) (net.Conn, error)
}
// Init parentProxy to be backup pool. So config parsing have a pool to add
// parent proxies.
var parentProxy ParentPool = &backupParentPool{}
func initParentPool() {
backPool, ok := parentProxy.(*backupParentPool)
if !ok {
panic("initial parent pool should be backup pool")
}
if debug {
printParentProxy(backPool.parent)
}
if len(backPool.parent) == 0 {
info.Println("no parent proxy server")
return
}
if len(backPool.parent) == 1 && config.LoadBalance != loadBalanceBackup {
debug.Println("only 1 parent, no need for load balance")
config.LoadBalance = loadBalanceBackup
}
switch config.LoadBalance {
case loadBalanceHash:
debug.Println("hash parent pool", len(backPool.parent))
parentProxy = &hashParentPool{*backPool}
case loadBalanceLatency:
debug.Println("latency parent pool", len(backPool.parent))
go updateParentProxyLatency()
parentProxy = newLatencyParentPool(backPool.parent)
}
}
func printParentProxy(parent []ParentWithFail) {
debug.Println("avaiable parent proxies:")
for _, pp := range parent {
switch pc := pp.ParentProxy.(type) {
case *shadowsocksParent:
debug.Println("\tshadowsocks: ", pc.server)
case *httpParent:
debug.Println("\thttp parent: ", pc.server)
case *socksParent:
debug.Println("\tsocks parent: ", pc.server)
case *cowParent:
debug.Println("\tcow parent: ", pc.server)
}
}
}
type ParentWithFail struct {
ParentProxy
fail int
}
// Backup load balance strategy:
// Select proxy in the order they appear in config.
type backupParentPool struct {
parent []ParentWithFail
}
func (pp *backupParentPool) empty() bool {
return len(pp.parent) == 0
}
func (pp *backupParentPool) add(parent ParentProxy) {
pp.parent = append(pp.parent, ParentWithFail{parent, 0})
}
func (pp *backupParentPool) connect(url *URL) (srvconn net.Conn, err error) {
return connectInOrder(url, pp.parent, 0)
}
// Hash load balance strategy:
// Each host will use a proxy based on a hash value.
type hashParentPool struct {
backupParentPool
}
func (pp *hashParentPool) connect(url *URL) (srvconn net.Conn, err error) {
start := int(crc32.ChecksumIEEE([]byte(url.Host)) % uint32(len(pp.parent)))
debug.Printf("hash host %s try %d parent first", url.Host, start)
return connectInOrder(url, pp.parent, start)
}
func (parent *ParentWithFail) connect(url *URL) (srvconn net.Conn, err error) {
const maxFailCnt = 30
srvconn, err = parent.ParentProxy.connect(url)
if err != nil {
if parent.fail < maxFailCnt && !networkBad() {
parent.fail++
}
return
}
parent.fail = 0
return
}
func connectInOrder(url *URL, pp []ParentWithFail, start int) (srvconn net.Conn, err error) {
const baseFailCnt = 9
var skipped []int
nproxy := len(pp)
if nproxy == 0 {
return nil, errors.New("no parent proxy")
}
for i := 0; i < nproxy; i++ {
proxyId := (start + i) % nproxy
parent := &pp[proxyId]
// skip failed server, but try it with some probability
if parent.fail > 0 && rand.Intn(parent.fail+baseFailCnt) != 0 {
skipped = append(skipped, proxyId)
continue
}
if srvconn, err = parent.connect(url); err == nil {
return
}
}
// last resort, try skipped one, not likely to succeed
for _, skippedId := range skipped {
if srvconn, err = pp[skippedId].connect(url); err == nil {
return
}
}
return nil, err
}
type ParentWithLatency struct {
ParentProxy
latency time.Duration
}
type latencyParentPool struct {
parent []ParentWithLatency
}
func newLatencyParentPool(parent []ParentWithFail) *latencyParentPool {
lp := &latencyParentPool{}
for _, p := range parent {
lp.add(p.ParentProxy)
}
return lp
}
func (pp *latencyParentPool) empty() bool {
return len(pp.parent) == 0
}
func (pp *latencyParentPool) add(parent ParentProxy) {
pp.parent = append(pp.parent, ParentWithLatency{parent, 0})
}
// Sort interface.
func (pp *latencyParentPool) Len() int {
return len(pp.parent)
}
func (pp *latencyParentPool) Swap(i, j int) {
p := pp.parent
p[i], p[j] = p[j], p[i]
}
func (pp *latencyParentPool) Less(i, j int) bool {
p := pp.parent
return p[i].latency < p[j].latency
}
const latencyMax = time.Hour
var latencyMutex sync.RWMutex
func (pp *latencyParentPool) connect(url *URL) (srvconn net.Conn, err error) {
var lp []ParentWithLatency
// Read slice first.
latencyMutex.RLock()
lp = pp.parent
latencyMutex.RUnlock()
var skipped []int
nproxy := len(lp)
if nproxy == 0 {
return nil, errors.New("no parent proxy")
}
for i := 0; i < nproxy; i++ {
parent := lp[i]
if parent.latency >= latencyMax {
skipped = append(skipped, i)
continue
}
if srvconn, err = parent.connect(url); err == nil {
debug.Println("lowest latency proxy", parent.getServer())
return
}
parent.latency = latencyMax
}
// last resort, try skipped one, not likely to succeed
for _, skippedId := range skipped {
if srvconn, err = lp[skippedId].connect(url); err == nil {
return
}
}
return nil, err
}
func (parent *ParentWithLatency) updateLatency(wg *sync.WaitGroup) {
defer wg.Done()
proxy := parent.ParentProxy
server := proxy.getServer()
host, port, err := net.SplitHostPort(server)
if err != nil {
panic("split host port parent server error" + err.Error())
}
// Resolve host name first, so latency does not include resolve time.
ip, err := net.LookupHost(host)
if err != nil {
parent.latency = latencyMax
return
}
ipPort := net.JoinHostPort(ip[0], port)
const N = 3
var total time.Duration
for i := 0; i < N; i++ {
now := time.Now()
cn, err := net.DialTimeout("tcp", ipPort, dialTimeout)
if err != nil {
debug.Println("latency update dial:", err)
total += time.Minute // 1 minute as penalty
continue
}
total += time.Now().Sub(now)
cn.Close()
time.Sleep(5 * time.Millisecond)
}
parent.latency = total / N
debug.Println("latency", server, parent.latency)
}
func (pp *latencyParentPool) updateLatency() {
// Create a copy, update latency for the copy.
var cp latencyParentPool
cp.parent = append(cp.parent, pp.parent...)
// cp.parent is value instead of pointer, if we use `_, p := range cp.parent`,
// the value in cp.parent will not be updated.
var wg sync.WaitGroup
wg.Add(len(cp.parent))
for i, _ := range cp.parent {
cp.parent[i].updateLatency(&wg)
}
wg.Wait()
// Sort according to latency.
sort.Stable(&cp)
debug.Println("latency lowest proxy", cp.parent[0].getServer())
// Update parent slice.
latencyMutex.Lock()
pp.parent = cp.parent
latencyMutex.Unlock()
}
func updateParentProxyLatency() {
lp, ok := parentProxy.(*latencyParentPool)
if !ok {
return
}
for {
lp.updateLatency()
time.Sleep(60 * time.Second)
}
}
// http parent proxy
type httpParent struct {
server string
userPasswd string // for upgrade config
authHeader []byte
}
type httpConn struct {
net.Conn
parent *httpParent
}
func (s httpConn) String() string {
return "http parent proxy " + s.parent.server
}
func newHttpParent(server string) *httpParent {
return &httpParent{server: server}
}
func (hp *httpParent) getServer() string {
return hp.server
}
func (hp *httpParent) genConfig() string {
if hp.userPasswd != "" {
return fmt.Sprintf("proxy = http://%s@%s", hp.userPasswd, hp.server)
} else {
return fmt.Sprintf("proxy = http://%s", hp.server)
}
}
func (hp *httpParent) initAuth(userPasswd string) {
if userPasswd == "" {
return
}
hp.userPasswd = userPasswd
b64 := base64.StdEncoding.EncodeToString([]byte(userPasswd))
hp.authHeader = []byte(headerProxyAuthorization + ": Basic " + b64 + CRLF)
}
func (hp *httpParent) connect(url *URL) (net.Conn, error) {
c, err := net.Dial("tcp", hp.server)
if err != nil {
errl.Printf("can't connect to http parent %s for %s: %v\n",
hp.server, url.HostPort, err)
return nil, err
}
debug.Printf("connected to: %s via http parent: %s\n",
url.HostPort, hp.server)
return httpConn{c, hp}, nil
}
// shadowsocks parent proxy
type shadowsocksParent struct {
server string
method string // method and passwd are for upgrade config
passwd string
cipher *ss.Cipher
}
type shadowsocksConn struct {
net.Conn
parent *shadowsocksParent
}
func (s shadowsocksConn) String() string {
return "shadowsocks proxy " + s.parent.server
}
// In order to use parent proxy in the order specified in the config file, we
// insert an uninitialized proxy into parent proxy list, and initialize it
// when all its config have been parsed.
func newShadowsocksParent(server string) *shadowsocksParent {
return &shadowsocksParent{server: server}
}
func (sp *shadowsocksParent) getServer() string {
return sp.server
}
func (sp *shadowsocksParent) genConfig() string {
method := sp.method
if method == "" {
method = "table"
}
return fmt.Sprintf("proxy = ss://%s:%s@%s", method, sp.passwd, sp.server)
}
func (sp *shadowsocksParent) initCipher(method, passwd string) {
sp.method = method
sp.passwd = passwd
cipher, err := ss.NewCipher(method, passwd)
if err != nil {
Fatal("create shadowsocks cipher:", err)
}
sp.cipher = cipher
}
func (sp *shadowsocksParent) connect(url *URL) (net.Conn, error) {
c, err := ss.Dial(url.HostPort, sp.server, sp.cipher.Copy())
if err != nil {
errl.Printf("can't connect to shadowsocks parent %s for %s: %v\n",
sp.server, url.HostPort, err)
return nil, err
}
debug.Println("connected to:", url.HostPort, "via shadowsocks:", sp.server)
return shadowsocksConn{c, sp}, nil
}
// cow parent proxy
type cowParent struct {
server string
method string
passwd string
cipher *ss.Cipher
}
type cowConn struct {
net.Conn
parent *cowParent
}
func (s cowConn) String() string {
return "cow proxy " + s.parent.server
}
func newCowParent(srv, method, passwd string) *cowParent {
cipher, err := ss.NewCipher(method, passwd)
if err != nil {
Fatal("create cow cipher:", err)
}
return &cowParent{srv, method, passwd, cipher}
}
func (cp *cowParent) getServer() string {
return cp.server
}
func (cp *cowParent) genConfig() string {
method := cp.method
if method == "" {
method = "table"
}
return fmt.Sprintf("proxy = cow://%s:%s@%s", method, cp.passwd, cp.server)
}
func (cp *cowParent) connect(url *URL) (net.Conn, error) {
c, err := net.Dial("tcp", cp.server)
if err != nil {
errl.Printf("can't connect to cow parent %s for %s: %v\n",
cp.server, url.HostPort, err)
return nil, err
}
debug.Printf("connected to: %s via cow parent: %s\n",
url.HostPort, cp.server)
ssconn := ss.NewConn(c, cp.cipher.Copy())
return cowConn{ssconn, cp}, nil
}
// For socks documentation, refer to rfc 1928 http://www.ietf.org/rfc/rfc1928.txt
var socksError = [...]string{
1: "General SOCKS server failure",
2: "Connection not allowed by ruleset",
3: "Network unreachable",
4: "Host unreachable",
5: "Connection refused",
6: "TTL expired",
7: "Command not supported",
8: "Address type not supported",
9: "to X'FF' unassigned",
}
var socksProtocolErr = errors.New("socks protocol error")
var socksMsgVerMethodSelection = []byte{
0x5, // version 5
1, // n method
0, // no authorization required
}
// socks5 parent proxy
type socksParent struct {
server string
}
type socksConn struct {
net.Conn
parent *socksParent
}
func (s socksConn) String() string {
return "socks proxy " + s.parent.server
}
func newSocksParent(server string) *socksParent {
return &socksParent{server}
}
func (sp *socksParent) getServer() string {
return sp.server
}
func (sp *socksParent) genConfig() string {
return fmt.Sprintf("proxy = socks5://%s", sp.server)
}
func (sp *socksParent) connect(url *URL) (net.Conn, error) {
c, err := net.Dial("tcp", sp.server)
if err != nil {
errl.Printf("can't connect to socks parent %s for %s: %v\n",
sp.server, url.HostPort, err)
return nil, err
}
hasErr := false
defer func() {
if hasErr {
c.Close()
}
}()
var n int
if n, err = c.Write(socksMsgVerMethodSelection); n != 3 || err != nil {
errl.Printf("sending ver/method selection msg %v n = %v\n", err, n)
hasErr = true
return nil, err
}
// version/method selection
repBuf := make([]byte, 2)
_, err = io.ReadFull(c, repBuf)
if err != nil {
errl.Printf("read ver/method selection error %v\n", err)
hasErr = true
return nil, err
}
if repBuf[0] != 5 || repBuf[1] != 0 {
errl.Printf("socks ver/method selection reply error ver %d method %d",
repBuf[0], repBuf[1])
hasErr = true
return nil, err
}
// debug.Println("Socks version selection done")
// send connect request
host := url.Host
port, err := strconv.Atoi(url.Port)
if err != nil {
errl.Printf("should not happen, port error %v\n", port)
hasErr = true
return nil, err
}
hostLen := len(host)
bufLen := 5 + hostLen + 2 // last 2 is port
reqBuf := make([]byte, bufLen)
reqBuf[0] = 5 // version 5
reqBuf[1] = 1 // cmd: connect
// reqBuf[2] = 0 // rsv: set to 0 when initializing
reqBuf[3] = 3 // atyp: domain name
reqBuf[4] = byte(hostLen)
copy(reqBuf[5:], host)
binary.BigEndian.PutUint16(reqBuf[5+hostLen:5+hostLen+2], uint16(port))
if n, err = c.Write(reqBuf); err != nil || n != bufLen {
errl.Printf("send socks request err %v n %d\n", err, n)
hasErr = true
return nil, err
}
// I'm not clear why the buffer is fixed at 10. The rfc document does not say this.
// Polipo set this to 10 and I also observed the reply is always 10.
replyBuf := make([]byte, 10)
if n, err = c.Read(replyBuf); err != nil {
// Seems that socks server will close connection if it can't find host
if err != io.EOF {
errl.Printf("read socks reply err %v n %d\n", err, n)
}
hasErr = true
return nil, errors.New("connection failed (by socks server " + sp.server + "). No such host?")
}
// debug.Printf("Socks reply length %d\n", n)
if replyBuf[0] != 5 {
errl.Printf("socks reply connect %s VER %d not supported\n", url.HostPort, replyBuf[0])
hasErr = true
return nil, socksProtocolErr
}
if replyBuf[1] != 0 {
errl.Printf("socks reply connect %s error %s\n", url.HostPort, socksError[replyBuf[1]])
hasErr = true
return nil, socksProtocolErr
}
if replyBuf[3] != 1 {
errl.Printf("socks reply connect %s ATYP %d\n", url.HostPort, replyBuf[3])
hasErr = true
return nil, socksProtocolErr
}
debug.Println("connected to:", url.HostPort, "via socks server:", sp.server)
// Now the socket can be used to pass data.
return socksConn{c, sp}, nil
}