7.7 KiB
7.7 KiB
title |
---|
出站流量重定向 |
基于 fwmark 或 sendThrough 的流量重定向
通过 Xray 将特定的流量指向特定出口,实现全局路由“分流”
前言
之前在网络上看到许多代理或者 VPN 会接管全局路由,如果与 Xray 同时安装,会导致 Xray 失效。参考了网络上许多教程,及时分流,也是通过维护一张或者多张 CIDR 路由表来实现的。这种情况下并不优雅,如果我想可以任意替换,实现按需分流,那有没有更好的办法呢?有!
通过 fwmark 或 Xray 的 sendThrough,再简单配合路由表功能即可实现:
- Xray 可设置指定的 Tag、域名等走指定接口。如果您的接口是双栈的,可以指定 IPV4 或者 IPV6
- 其余用户则走原 IPV4 或者 IPV6
具体设置如下(以 Debian10 为例):
1、安装代理或者 VPN 软件(例如 Wireguard、IPsec 等)
根据不同系统和不同软件,请参考官方安装方法
2、编辑 VPN 配置文件(以 WireGuard 为例)
原始文件:
[Interface]
PrivateKey = xxxxxxxxxxxxxxxxxxxx
Address = "your wg0 v4 address"
Address = "your wg0 v6 address"
DNS = 8.8.8.8
MTU = 1280
[Peer]
PublicKey = xxxxxxxxxxxxxxxxxxxxx
AllowedIPs = ::/0
AllowedIPs = 0.0.0.0/0
Endpoint = "ip:port"
在 [Interface]
下添加如下命令:
Table = off
PostUP = ip -4 rule add fwmark <mark> lookup <table>
PostUP = ip -4 route add default dev <接口名称> table <table>
PostUP = ip -4 rule add table main suppress_prefixlength 0
PostUP = ip -6 rule add fwmark <mark> lookup <table>
PostUP = ip -6 rule add not fwmark <table> table <table>
PostUP = ip -6 route add ::/0 dev <接口名称> table <table>
PostUP = ip -6 rule add table main suppress_prefixlength 0
PostDown = ip -4 rule delete fwmark <mark> lookup <table>
PostDown = ip -4 rule delete table main suppress_prefixlength 0
PostDown = ip -6 rule delete fwmark <mark> lookup <table>
PostDown = ip -6 rule delete not fwmark <table> table <table>
PostDown = ip -6 rule delete table main suppress_prefixlength 0
::: tip
- 此命令表示 IPv4 中 fwmark 为
<mark>
,IPv6 中 fwmark 为<mark>
,::/0 全局 v6 走 WireGuard - 可根据自己需求增删命令,mark 值要与 Xray-core 中设置为相同,table 值自定
- 如果不支持配置文件,可以在系统中修改路由表 :::
[Interface]
PrivateKey = xxxxxxxxxxxxxxxxxxxx
Address = "your wg0 v4 address"
Address = "your wg0 v6 address"
DNS = 8.8.8.8
MTU = 1280
[Peer]
PublicKey = xxxxxxxxxxxxxxxxxxxxx
AllowedIPs = ::/0
AllowedIPs = 0.0.0.0/0
Endpoint = "ip:port"
在 [Interface]
下添加如下命令:
Table = off
PostUP = ip -4 rule add from "your wg0 v4 address" lookup <table>
PostUP = ip -4 route add default dev wg0 table <table>
PostUP = ip -4 rule add table main suppress_prefixlength 0
PostUP = ip -6 rule add not fwmark <table> table <table>
PostUP = ip -6 route add ::/0 dev wg0 table <table>
PostUP = ip -6 rule add table main suppress_prefixlength 0
PostDown = ip -4 rule delete from "your wg0 v4 address" lookup <table>
PostDown = ip -4 rule delete table main suppress_prefixlength 0
PostDown = ip -6 rule delete not fwmark <table> table <table>
PostDown = ip -6 rule delete table main suppress_prefixlength 0
::: tip
- 此命令表示 IPV4 中来自
your wg0 v4 address
地址的走 WireGuard,IPv6 中::/0 全局 v6 走 WireGuard) - 可根据自己需求增删命令,实现 v6 分流,也可以与 fwmark 融合
- 如果不支持配置文件,可以在系统中修改路由表 :::
保存
可顺手安装
apt install openresolv
3、启用 WireGuard 网络接口
加载内核模块
modprobe wireguard
检查 WG 模块加载是否正常
lsmod | grep wireguard
4、Xray-core 配置文件修改
{
"api": {
"services": [
"HandlerService",
"LoggerService",
"StatsService"
],
"tag": "api"
},
"inbounds": [
{
"listen": "127.0.0.1",
"port": <port>,
"protocol": "dokodemo-door",
"settings": {
"address": "127.0.0.1"
},
"tag": "api"
}
],
"outbounds": [
{
"protocol": "freedom",
"settings": {
"domainStrategy": "UseIPv6"
//设置默认用户走指定方式”UseIPv6”或者”UseIPv4”
}
},
{
"protocol": "freedom",
"tag": "wg0",
"streamSettings": {
"sockopt": {
"mark": <mark>
}
},
"settings": {
"domainStrategy": "UseIPv6"
}
//设置fwmark为<mark>的用户走指定方式”UseIPv6””UseIPv4”
},
{
"protocol": "blackhole",
"settings": {},
"tag": "blocked"
}
],
"policy": {
"system": {
"statsInboundDownlink": true,
"statsInboundUplink": true
}
},
"routing": {
"rules": [
{
"inboundTag": [
"api"
],
"outboundTag": "api",
"type": "field"
},
{
"type": "field",
"outboundTag": "wg0",
"inboundTag": [
"<inboundTag>"
//需要之前在inbound中指定好Tag,我这里是api生成的,还可以添加域名等等
]
},
{
"outboundTag": "blocked",
"protocol": [
"bittorrent"
],
"type": "field"
}
]
},
"stats": {}
}
{
"api": {
"services": [
"HandlerService",
"LoggerService",
"StatsService"
],
"tag": "api"
},
"inbounds": [
{
"listen": "127.0.0.1",
"port": <port>,
"protocol": "dokodemo-door",
"settings": {
"address": "127.0.0.1"
},
"tag": "api"
}
],
"outbounds": [
{
"protocol": "freedom",
"settings": {
"domainStrategy": "UseIPv4"
}
//修改此处,可v4或者v6
},
{
"tag": "wg0",
"protocol": "freedom",
"sendThrough": "your wg0 v4 address",
//修改此处,可v4或者v6
"settings": {
"domainStrategy": "UseIPv4"
}
//修改此处,可v4或者v6
},
{
"protocol": "blackhole",
"settings": {},
"tag": "blocked"
}
],
"policy": {
"system": {
"statsInboundDownlink": true,
"statsInboundUplink": true
}
},
"routing": {
"rules": [
{
"inboundTag": [
"api"
],
"outboundTag": "api",
"type": "field"
},
{
"type": "field",
"outboundTag": "wg0",
"inboundTag": [
"<inboundTag>"
//需要之前在 inbound 中指定好 Tag,我这里是 api 生成的,还可以添加域名等等
]
},
{
"outboundTag": "blocked",
"protocol": [
"bittorrent"
],
"type": "field"
}
]
},
"stats": {}
}
::: tip 可以通过修改 "domainStrategy": "UseIPv6"来控制对应用户的访问方式 实测优先级要高于系统本身的 gai.config :::
5、系统设置配置
::: tip 需要打开系统的 ip_forward :::
6、完成 WireGuard 相关设置
开启隧道
wg-quick up wg0
开机自启
systemctl enable wg-quick@wg0
systemctl start wg-quick@wg0
验证 IPv4/IPv6
自行验证 Google 搜索 myip
后记
本文本意是可以避免的多余的流量浪费,将路由和分流的功能交给 Xray 处理。避免了维护路由表的繁琐工作。顺便技术提升 UP。
感谢
@Xray-core @V2ray-core @WireGuard @p3terx @w @Hiram @Luminous @Ln @JackChou