sing-box 是什么
sing-box 是新一代超强通用代理工具,对标 *ray core 与 clash,而且它的性能以及支持的协议类型已经超过了 *ray core 与 clash。目前支持以下协议:
除了命令行客户端以外,还提供了图形界面客户端,图形界面支持 Android、iOS、macOS 以及 Apple tvOS,Windows 暂时不支持,还在施工中 🚧
这简直就是魔法上网界的瑞士军刀啊!而且所有的客户端都是免费的,iOS 端也不用再买 Shadowrocket 小火箭等付费 App 了。再看看隔壁 Surge 的价格:
相互一比较还是 sing-box 香。本文将会手把手教大家如何使用 sing-box 来实现任意机器的全局透明代理。
sing-box 客户端下载
第一步先解决客户端下载的问题。
Android
Android 客户端可以到 Play Store 中去下载,也可以直接到 GitHub Releases 页面下载。
如果你是 Android 的 Magisk/KernelSU 玩家,可以选择刷入 box_for_magisk 模块。
Apple 平台
iOS/macOS/Apple tvOS 用户可以到 App Store 中下载(前提是你得有个美区 ID),也可以使用 Homebrew 直接安装:
$ brew install sfm
除此之外你也可以直接到 GitHub Releases 页面下载客户端或者命令行版本。
Windows
Windows 没有图形界面客户端,官方还正在开发中,不过可以直接使用包管理器 Sccop 或者 Chocolatey 安装命令行版本:
# Sccop
$ scoop install sing-box
# Chocolatey
$ choco install sing-box
你也可以选择第三方开发者开发的图形界面客户端: GUI.for.SingBox
还有一个更加成熟的第三方客户端: Hiddify-Next
Linux
Linux 就很简单了,直接到 GitHub Releases 页面下载命令行版本即可。
sing-box 配置解析
sing-box 的核心就是它的配置,所有的配置都在一个 JSON 文件里,每个配置参数的含义可参考 sing-box 官方文档。
但是为了能够快速使用起来,我们需要一个示例模板。没问题,我这就给你一个比较完美的透明代理模板:
sing-box 透明代理示例模板
{
"dns": {
"servers": [
{
"tag": "dns_proxy",
"address": "https://1.1.1.1/dns-query",
"address_resolver": "dns_resolver",
"strategy": "ipv4_only",
"detour": "select"
},
{
"tag": "dns_direct",
"address": "h3://dns.alidns.com/dns-query",
"address_resolver": "dns_resolver",
"strategy": "ipv4_only",
"detour": "direct"
},
{
"tag": "dns_block",
"address": "rcode://refused"
},
{
"tag": "dns_resolver",
"address": "223.5.5.5",
"strategy": "ipv4_only",
"detour": "direct"
}
],
"rules": [
{
"outbound": "any",
"server": "dns_resolver"
},
{
"clash_mode": "direct",
"server": "dns_direct"
},
{
"clash_mode": "global",
"server": "dns_proxy"
},
{
"process_name": [
"TencentMeeting",
"NemoDesktop",
"ToDesk",
"ToDesk_Service",
"WeChat",
"Tailscale",
"wireguard-go",
"Tunnelblick",
"softwareupdated",
"kubectl"
],
"server": "dns_direct"
},
{
"domain_suffix": [
"wklan.com",
"cdn.jsdelivr.net"
],
"server": "dns_direct"
},
{
"process_name": [
"DropboxMacUpdate",
"Dropbox"
],
"server": "dns_proxy"
},
{
"package_name": [
"com.google.android.youtube",
"com.android.vending",
"org.telegram.messenger",
"org.telegram.plus"
],
"server": "dns_proxy"
},
{
"rule_set": "geosite-geolocation-!cn",
"server": "dns_proxy"
},
{
"rule_set": "Global",
"server": "dns_proxy"
},
{
"rule_set": [
"YouTube",
"Telegram",
"Netflix",
"geoip-google",
"geoip-telegram",
"geoip-twitter",
"geoip-netflix"
],
"server": "dns_proxy"
}
],
"final": "dns_direct"
},
"ntp": {
"enabled": true,
"server": "time.apple.com",
"server_port": 123,
"interval": "30m0s",
"detour": "direct"
},
"inbounds": [
{
"type": "tun",
"inet4_address": "198.18.0.1/16",
"auto_route": true,
"exclude_package": [
"cmb.pb",
"cn.gov.pbc.dcep",
"com.MobileTicket",
"com.adguard.android",
"com.ainemo.dragoon",
"com.alibaba.android.rimet",
"com.alicloud.databox",
"com.amazing.cloudisk.tv",
"com.autonavi.minimap",
"com.bilibili.app.in",
"com.bishua666.luxxx1",
"com.cainiao.wireless",
"com.chebada",
"com.chinamworld.main",
"com.cmbchina.ccd.pluto.cmbActivity",
"com.coolapk.market",
"com.ctrip.ct",
"com.dianping.v1",
"com.douban.frodo",
"com.eg.android.AlipayGphone",
"com.farplace.qingzhuo",
"com.hanweb.android.zhejiang.activity",
"com.leoao.fitness",
"com.lucinhu.bili_you",
"com.mikrotik.android.tikapp",
"com.moji.mjweather",
"com.motorola.cn.calendar",
"com.motorola.cn.lrhealth",
"com.netease.cloudmusic",
"com.sankuai.meituan",
"com.sina.weibo",
"com.smartisan.notes",
"com.sohu.inputmethod.sogou.moto",
"com.sonelli.juicessh",
"com.ss.android.article.news",
"com.ss.android.lark",
"com.ss.android.ugc.aweme",
"com.tailscale.ipn",
"com.taobao.idlefish",
"com.taobao.taobao",
"com.tencent.mm",
"com.tencent.mp",
"com.tencent.soter.soterserver",
"com.tencent.wemeet.app",
"com.tencent.weread",
"com.tencent.wework",
"com.ttxapps.wifiadb",
"com.unionpay",
"com.unnoo.quan",
"com.wireguard.android",
"com.xingin.xhs",
"com.xunmeng.pinduoduo",
"com.zui.zhealthy",
"ctrip.android.view",
"io.kubenav.kubenav",
"org.geekbang.geekTime",
"tv.danmaku.bili"
],
"stack": "mixed",
"sniff": true
},
{
"type": "socks",
"tag": "socks-in",
"listen": "::",
"listen_port": 5353
}
],
"outbounds": [
{
"type": "selector",
"tag": "select",
"outbounds": [
"trojan-out"
],
"default": "trojan-out"
},
{
"type": "selector",
"tag": "openai",
"outbounds": [
"trojan-out"
],
"default": "trojan-out"
},
{
"type": "selector",
"tag": "tiktok",
"outbounds": [
"trojan-out"
],
"default": "trojan-out"
},
{
"type": "trojan",
"tag": "trojan-out",
"server": "199.180.115.155",
"server_port": 9443,
"password": "5iFHKMrn9Ez//VKh6zChTA==",
"tls": {
"enabled": true,
"server_name": "www.example.com",
"insecure": true,
"utls": {
"fingerprint": "chrome"
}
},
"multiplex": {
"protocol": "h2mux",
"max_connections": 4,
"min_streams": 4
},
"transport": {
"type": "grpc",
"service_name": "TunService"
}
},
{
"type": "direct",
"tag": "direct"
},
{
"type": "block",
"tag": "block"
},
{
"type": "dns",
"tag": "dns-out"
}
],
"route": {
"rules": [
{
"protocol": "dns",
"outbound": "dns-out"
},
{
"clash_mode": "direct",
"outbound": "direct"
},
{
"clash_mode": "global",
"outbound": "select"
},
{
"domain_suffix": [
"wklan.com",
"cdn.jsdelivr.net"
],
"outbound": "direct"
},
{
"process_name": [
"TencentMeeting",
"NemoDesktop",
"ToDesk",
"ToDesk_Service",
"WeChat",
"OpenLens",
"Tailscale",
"wireguard-go",
"Tunnelblick",
"softwareupdated",
"kubectl"
],
"outbound": "direct"
},
{
"protocol": "quic",
"outbound": "block"
},
{
"inbound": "socks-in",
"outbound": "select"
},
{
"rule_set": [
"WeChat",
"Bilibili"
],
"outbound": "direct"
},
{
"rule_set": "OpenAI",
"outbound": "openai"
},
{
"domain_suffix": [
"openai.com",
"oaistatic.com",
"oaiusercontent.com"
],
"outbound": "openai"
},
{
"package_name": "com.openai.chatgpt",
"outbound": "openai"
},
{
"rule_set": "TikTok",
"outbound": "tiktok"
},
{
"package_name": "com.zhiliaoapp.musically",
"outbound": "tiktok"
},
{
"domain_suffix": [
"depay.one",
"orbstack.dev"
],
"outbound": "select"
},
{
"process_name": [
"DropboxMacUpdate",
"Dropbox"
],
"outbound": "select"
},
{
"package_name": [
"com.google.android.youtube",
"com.android.vending",
"org.telegram.messenger",
"org.telegram.plus",
"com.google.android.googlequicksearchbox",
"app.rvx.android.youtube",
"com.mudvod.video",
"com.fox2code.mmm",
"com.twitter.android"
],
"outbound": "select"
},
{
"domain": "accounts.google.com",
"domain_suffix": [
"sourceforge.net",
"fhjasokiwq.com"
],
"outbound": "select"
},
{
"domain_suffix": "cloud.sealos.io",
"outbound": "direct"
},
{
"type": "logical",
"mode": "and",
"rules": [
{
"rule_set": "geosite-geolocation-!cn"
},
{
"rule_set": "geoip-cn",
"invert": true
}
],
"outbound": "select"
},
{
"rule_set": "Global",
"outbound": "select"
},
{
"rule_set": "geoip-cn",
"outbound": "direct"
},
{
"ip_is_private": true,
"outbound": "direct"
},
{
"rule_set": [
"YouTube",
"Telegram",
"Netflix",
"geoip-google",
"geoip-telegram",
"geoip-twitter",
"geoip-netflix"
],
"outbound": "select"
}
],
"rule_set": [
{
"type": "remote",
"tag": "geosite-geolocation-!cn",
"format": "binary",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/SagerNet/sing-geosite/rule-set/geosite-geolocation-!cn.srs",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "geoip-cn",
"format": "binary",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/CHIZI-0618/v2ray-rules-dat/release/singbox_ip_rule_set/geoip-cn.srs",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "geoip-google",
"format": "binary",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/CHIZI-0618/v2ray-rules-dat/release/singbox_ip_rule_set/geoip-google.srs",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "geoip-telegram",
"format": "binary",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/CHIZI-0618/v2ray-rules-dat/release/singbox_ip_rule_set/geoip-telegram.srs",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "geoip-twitter",
"format": "binary",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/CHIZI-0618/v2ray-rules-dat/release/singbox_ip_rule_set/geoip-twitter.srs",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "geoip-netflix",
"format": "binary",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/CHIZI-0618/v2ray-rules-dat/release/singbox_ip_rule_set/geoip-netflix.srs",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "Global",
"format": "source",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/yangchuansheng/sing-box-geosite/main/rule/Global.json",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "YouTube",
"format": "source",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/yangchuansheng/sing-box-geosite/main/rule/YouTube.json",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "OpenAI",
"format": "source",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/yangchuansheng/sing-box-geosite/main/rule/OpenAI.json",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "TikTok",
"format": "source",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/yangchuansheng/sing-box-geosite/main/rule/TikTok.json",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "Telegram",
"format": "source",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/yangchuansheng/sing-box-geosite/main/rule/Telegram.json",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "Netflix",
"format": "source",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/yangchuansheng/sing-box-geosite/main/rule/Netflix.json",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "WeChat",
"format": "source",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/yangchuansheng/sing-box-geosite/main/rule/WeChat.json",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "Bilibili",
"format": "source",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/yangchuansheng/sing-box-geosite/main/rule/Bilibili.json",
"download_detour": "direct"
}
],
"final": "direct",
"find_process": true,
"auto_detect_interface": true
},
"experimental": {
"cache_file": {
"enabled": true
},
"clash_api": {
"external_controller": "0.0.0.0:9090",
"external_ui": "metacubexd",
"external_ui_download_url": "https://github.com/MetaCubeX/metacubexd/archive/refs/heads/gh-pages.zip",
"external_ui_download_detour": "select",
"default_mode": "rule"
}
}
}
下面我来给大家解析一下里面的配置,首先来看 DNS 部分。
DNS 配置
sing-box 对 DNS 的处理比 Clash 强太多了,支持各种分流规则,结构如下:
{
"dns": {
"servers": [],
"rules": [],
"final": "",
"strategy": "",
"disable_cache": false,
"disable_expire": false,
"independent_cache": false,
"reverse_mapping": false,
"fakeip": {}
}
}
其中 servers
定义了 DNS 服务器,具体参数含义我就不解释了,自己看官方文档。我给出的 DNS 服务器配置是:
{
"dns": {
"servers": [
{
"tag": "dns_proxy",
"address": "https://1.1.1.1/dns-query",
"address_resolver": "dns_resolver",
"strategy": "ipv4_only",
"detour": "select"
},
{
"tag": "dns_direct",
"address": "h3://dns.alidns.com/dns-query",
"address_resolver": "dns_resolver",
"strategy": "ipv4_only",
"detour": "direct"
},
{
"tag": "dns_block",
"address": "rcode://refused"
},
{
"tag": "dns_resolver",
"address": "223.5.5.5",
"strategy": "ipv4_only",
"detour": "direct"
}
]
}
}
这里定义了 3 个 DNS 服务器,当你发起一个域名解析请求时,这些服务器会被用来查找对应的 IP 地址。同时还定义了一个 RCode 协议用来屏蔽请求。
rules
定义了 DNS 规则,这些规则用于定义哪些域名应该使用哪个 DNS 服务器解析。它可以让你根据域名的特定模式选择不同的 DNS 服务器。DNS 规则如下:
{
"dns": {
"rules": [
{
"outbound": "any",
"server": "dns_resolver"
// 注释:对于任何出站连接(不管是直接连接还是通过代理),使用 "dns_resolver" 服务器进行 DNS 解析(这一句主要用来解析代理节点本身的 IP 地址)。
},
{
"clash_mode": "direct",
"server": "dns_direct"
// 注释:在直连模式(不经过代理)下,使用 "dns_direct" 服务器进行 DNS 解析。
},
{
"clash_mode": "global",
"server": "dns_proxy"
// 注释:在全局代理模式下,使用 "dns_proxy" 服务器进行 DNS 解析。
},
{
"process_name": [
"TencentMeeting", "NemoDesktop", "ToDesk", "ToDesk_Service",
"WeChat", "Tailscale", "wireguard-go", "Tunnelblick",
"softwareupdated", "kubectl"
],
"server": "dns_direct"
// 注释:当特定的进程(如 TencentMeeting、WeChat 等)发起 DNS 请求时,使用 "dns_direct" 服务器进行直连 DNS 解析。
},
{
"domain_suffix": [
"wklan.com", "cdn.jsdelivr.net"
],
"server": "dns_direct"
// 注释:对于特定后缀的域名(如 wklan.com 等),使用 "dns_direct" 服务器进行直连 DNS 解析。
},
{
"process_name": ["DropboxMacUpdate", "Dropbox"],
"server": "dns_proxy"
// 注释:当 Dropbox 相关进程发起 DNS 请求时,使用 "dns_proxy" 服务器通过代理进行 DNS 解析。
},
{
"package_name": [
"com.google.android.youtube", "com.android.vending",
"org.telegram.messenger", "org.telegram.plus"
],
"server": "dns_proxy"
// 注释:对于特定的 Android 应用包名(如 YouTube、Telegram 等),使用 "dns_proxy" 服务器通过代理进行 DNS 解析。
},
{
"rule_set": "geosite-geolocation-!cn",
"server": "dns_proxy"
// 注释:对于 geosite 数据库中定义的非中国地区的地理位置相关的域名,使用 "dns_proxy" 服务器通过代理进行 DNS 解析。
},
{
"rule_set": "Global",
"server": "dns_proxy"
// 注释:对于定义在 "Global" 规则集中的域名,使用 "dns_proxy" 服务器通过代理进行 DNS 解析。
},
{
"rule_set": [
"YouTube", "Telegram", "Netflix", "geoip-google",
"geoip-telegram", "geoip-twitter", "geoip-netflix"
],
"server": "dns_proxy"
// 注释:对于特定的服务和地理位置相关的域名(如 YouTube、Netflix、谷歌、Telegram 相关的域名),使用 "dns_proxy" 服务器通过代理进行 DNS 解析。
}
],
"final": "dns_direct"
// 注释:如果上述规则都不适用,则默认使用 "dns_direct" 服务器进行直连 DNS 解析。
}
}
入站配置
接下来比较重要的就是入站规则了,入站(Inbound)在网络领域,特别是在代理和网络路由配置中,通常指的是进入某个系统或网络的数据流。在 sing-box 中,入站配置定义了如何处理进入代理服务器的数据。入站配置示例如下:
{
"inbounds": [
{
"type": "tun",
"inet4_address": "198.18.0.1/16",
"auto_route": true,
"exclude_package": [
"cmb.pb",
"cn.gov.pbc.dcep",
"com.MobileTicket",
"com.adguard.android",
"com.ainemo.dragoon",
"com.alibaba.android.rimet",
"com.alicloud.databox",
"com.amazing.cloudisk.tv",
"com.autonavi.minimap",
"com.bilibili.app.in",
"com.bishua666.luxxx1",
"com.cainiao.wireless",
"com.chebada",
"com.chinamworld.main",
"com.cmbchina.ccd.pluto.cmbActivity",
"com.coolapk.market",
"com.ctrip.ct",
"com.dianping.v1",
"com.douban.frodo",
"com.eg.android.AlipayGphone",
"com.farplace.qingzhuo",
"com.hanweb.android.zhejiang.activity",
"com.leoao.fitness",
"com.lucinhu.bili_you",
"com.mikrotik.android.tikapp",
"com.moji.mjweather",
"com.motorola.cn.calendar",
"com.motorola.cn.lrhealth",
"com.netease.cloudmusic",
"com.sankuai.meituan",
"com.sina.weibo",
"com.smartisan.notes",
"com.sohu.inputmethod.sogou.moto",
"com.sonelli.juicessh",
"com.ss.android.article.news",
"com.ss.android.lark",
"com.ss.android.ugc.aweme",
"com.tailscale.ipn",
"com.taobao.idlefish",
"com.taobao.taobao",
"com.tencent.mm",
"com.tencent.mp",
"com.tencent.soter.soterserver",
"com.tencent.wemeet.app",
"com.tencent.weread",
"com.tencent.wework",
"com.ttxapps.wifiadb",
"com.unionpay",
"com.unnoo.quan",
"com.wireguard.android",
"com.xingin.xhs",
"com.xunmeng.pinduoduo",
"com.zui.zhealthy",
"ctrip.android.view",
"io.kubenav.kubenav",
"org.geekbang.geekTime",
"tv.danmaku.bili"
],
"stack": "mixed",
"sniff": true
},
{
"type": "socks",
"tag": "socks-in",
"listen": "::",
"listen_port": 5353
}
]
}
下面是对每个字段的详细注释:
第一个入站连接的配置:
type
:"tun"
表示这是一个 tun 虚拟网络接口的配置。inet4_address
:"198.18.0.1/16"
设定了虚拟网络接口的 IPv4 地址和子网掩码。auto_route
:true
表示将自动处理路由,确保数据包正确传输。exclude_package
: 这是一个数组,包含了不通过此虚拟网络接口处理的 Android 应用程序包名列表。列出的 Android 应用程序将使用常规网络接口而不是虚拟接口。stack
:"mixed"
表示混合system
TCP 栈与gvisor
UDP 栈。sniff
:true
表示启用流量嗅探功能,以便自动检测和处理传入的数据流类型。
第二个入站连接的配置:
type
:"socks"
表示这是一个 SOCKS 代理配置。tag
:"socks-in"
为这个入站连接定义了一个标签,方便在其它配置中引用。listen
:"::"
表示监听所有 IPv6 地址。如果需要监听所有 IPv4 地址,可以使用"0.0.0.0"
。listen_port
:5353
定义了 SOCKS 代理监听的端口号。
其中 tun 接口是核心部分,我们将利用 tun 接口来实现全局透明代理。
出站配置
出站(Outbound)是指从本地网络或设备发出,向外部网络、服务或互联网发送的数据流量。示例出站配置如下:
{
"outbounds": [
{
"type": "selector", // 类型为选择器,用于在多个出站中选择一个
"tag": "select", // 标签名为 "select"
"outbounds": [
"trojan-out" // 可选择的出站列表,这里只有 "trojan-out"
],
"default": "trojan-out" // 默认选择的出站为 "trojan-out"
},
{
"type": "selector", // 同样是选择器类型
"tag": "openai", // 标签名为 "openai"
"outbounds": [
"trojan-out" // 可选择的出站仍然是 "trojan-out"
],
"default": "trojan-out" // 默认选择的出站同样是 "trojan-out"
},
{
"type": "selector", // 选择器类型
"tag": "tiktok", // 标签名为 "tiktok"
"outbounds": [
"trojan-out" // 可选择的出站是 "trojan-out"
],
"default": "trojan-out" // 默认选择的出站为 "trojan-out"
},
{
"type": "trojan", // 类型为 Trojan
"tag": "trojan-out", // 标签名为 "trojan-out"
"server": "xxxxxxxx", // Trojan 服务器地址
"server_port": 9443, // Trojan 服务器端口
"password": "xxxxxxxx", // Trojan 连接密码
"tls": {
"enabled": true, // 启用 TLS 加密
"server_name": "xxxxxxxx", // TLS 服务器名称
"insecure": true, // 不验证 TLS 证书,用于自签名证书
"utls": {
"fingerprint": "chrome" // 使用 Chrome 的 TLS 指纹
}
},
"multiplex": {
"protocol": "h2mux", // 使用 h2mux 多路复用协议
"max_connections": 4, // 最大连接数为 4
"min_streams": 4 // 每个连接的最小流数为 4
},
"transport": {
"type": "grpc", // 传输协议为 gRPC
"service_name": "TunService" // gRPC 服务名称
}
},
{
"type": "direct", // 直连类型,不通过代理直接访问
"tag": "direct" // 标签名为 "direct"
},
{
"type": "block", // 阻止类型,用于拦截流量
"tag": "block" // 标签名为 "block"
},
{
"type": "dns", // DNS 类型,用于 DNS 查询
"tag": "dns-out" // 标签名为 "dns-out"
}
]
}
这个配置定义了不同类型的出站连接方式,包括选择器、Trojan、直连、阻止和 DNS 类型。每种类型都通过标签进行标识,便于在后续的路由规则中引用。
路由配置
路由部分才是 sing-box 的核心配置,这个部分定义了一系列规则和参数,用于决定如何处理不同的网络请求。通过这些规则和参数,sing-box 可以非常灵活地处理复杂的路由需求,包括基于地理位置、IP 地址、端口号、域名等多种条件的流量分流。配置结构如下:
{
"route": {
"rules": [],
"rule_set": [],
"final": "direct", // "final" 字段定义了默认的路由行为。这里设置为 "direct",意味着如果没有匹配任何规则,流量将直接(不经代理)发送。
"auto_detect_interface": true // 表示自动检测网络接口。这有助于自动适应网络变化,确保路由正确。
}
}
其中的核心配置:
- 路由规则 (
rules
): 这些规则定义了如何根据不同的条件将流量定向到不同的出站连接。每个规则可以包括多个条件,如域名、IP 地址、端口号、网络协议等。 - 规则集 (
rule_set
): 从 sing-box 1.8.0 版本开始,规则可以组合成规则集,这使得配置更加灵活和模块化。
路由规则
以下是我给出的路由规则示例:
{
"route": {
"rules": [
{
"protocol": "dns", // 使用DNS协议的流量
"outbound": "dns-out" // 将通过'dns-out'出口转发
},
{
"clash_mode": "direct", // Clash模式为直连
"outbound": "direct" // 将通过'direct'出口直接连接
},
{
"clash_mode": "global", // Clash模式为全局
"outbound": "select" // 将通过'select'出口选择转发
},
{
"domain_suffix": [ // 特定后缀的域名
"wklan.com",
"cdn.jsdelivr.net"
],
"outbound": "direct" // 将通过'direct'出口直接连接
},
{
"process_name": [ // 特定进程名称
"TencentMeeting",
"NemoDesktop",
...
],
"outbound": "direct" // 将通过'direct'出口直接连接
},
{
"rule_set": [ // 特定的规则集
"WeChat",
"Bilibili"
],
"outbound": "direct" // 将通过'direct'出口直接连接
},
{
"protocol": "quic", // 使用QUIC协议的流量
"outbound": "block" // 将被阻止
},
{
"inbound": "socks-in", // 来自'socks-in'入口的流量
"outbound": "select" // 将通过'select'出口选择转发
},
{
"rule_set": "OpenAI", // OpenAI规则集
"outbound": "openai" // 将通过'openai'出口转发
},
{
"domain_suffix": [ // OpenAI相关的域名后缀
"openai.com",
"oaistatic.com",
"oaiusercontent.com"
],
"outbound": "openai" // 将通过'openai'出口转发
},
{
"package_name": "com.openai.chatgpt", // OpenAI ChatGPT应用包名
"outbound": "openai" // 将通过'openai'出口转发
},
{
"rule_set": "TikTok", // TikTok规则集
"outbound": "tiktok" // 将通过'tiktok'出口转发
},
{
"package_name": "com.zhiliaoapp.musically", // TikTok应用包名
"outbound": "tiktok" // 将通过'tiktok'出口转发
},
{
"domain_suffix": [ // 特定的域名后缀
"depay.one",
"orbstack.dev"
],
"outbound": "select" // 将通过'select'出口选择转发
},
{
"process_name": [ // 特定的进程名称
"DropboxMacUpdate",
"Dropbox"
],
"outbound": "select" // 将通过'select'出口选择转发
},
{
"package_name": [ // 特定应用包名
"com.google.android.youtube",
...
],
"outbound": "select" // 将通过'select'出口选择转发
},
{
"domain": "accounts.google.com", // 特定的域名
"domain_suffix": [ // 特定的域名后缀
"sourceforge.net",
"fhjasokiwq.com"
],
"outbound": "select" // 将通过'select'出口选择转发
},
{
"domain_suffix": "cloud.sealos.io", // 特定的域名后缀
"outbound": "direct" // 将通过'direct'出口直接连接
},
{
"type": "logical", // 逻辑类型规则
"mode": "and", // 使用'and'模式
"rules": [ // 组合规则
{
"rule_set": "geosite-geolocation-!cn"
},
{
"rule_set": "geoip-cn",
"invert": true
}
],
"outbound": "select" // 将通过'select'出口选择转发
},
{
"rule_set": "Global", // Global规则集
"outbound": "select" // 将通过'select'出口选择转发
},
{
"rule_set": "geoip-cn", // 中国地理位置IP规则集
"outbound": "direct" // 将通过'direct'出口直接连接
},
{
"ip_is_private": true, // 私有IP地址
"outbound": "direct" // 将通过'direct'出口直接连接
},
{
"rule_set": [ // 特定的规则集
"YouTube",
"Telegram",
"Netflix",
"geoip-google",
"geoip-telegram",
"geoip-twitter",
"geoip-netflix"
],
"outbound": "select" // 将通过'select'出口选择转发
}
]
}
}
这个配置定义了不同类型的流量(如基于协议、域名后缀、应用包名、进程名称等)如何被路由。每条规则都指定了一种流量类型和相应的“出口”,即流量应该如何被处理或转发。这种灵活的路由配置可以非常精确地控制网络流量。
规则集
以下是我给出的规则集示例:
{
"route": {
"rule_set": [
{
"type": "remote",
"tag": "geosite-geolocation-!cn",
"format": "binary",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/SagerNet/sing-geosite/rule-set/geosite-geolocation-!cn.srs",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "geoip-cn",
"format": "binary",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/CHIZI-0618/v2ray-rules-dat/release/singbox_ip_rule_set/geoip-cn.srs",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "geoip-google",
"format": "binary",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/CHIZI-0618/v2ray-rules-dat/release/singbox_ip_rule_set/geoip-google.srs",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "geoip-telegram",
"format": "binary",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/CHIZI-0618/v2ray-rules-dat/release/singbox_ip_rule_set/geoip-telegram.srs",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "geoip-twitter",
"format": "binary",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/CHIZI-0618/v2ray-rules-dat/release/singbox_ip_rule_set/geoip-twitter.srs",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "geoip-netflix",
"format": "binary",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/CHIZI-0618/v2ray-rules-dat/release/singbox_ip_rule_set/geoip-netflix.srs",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "Global",
"format": "source",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/yangchuansheng/sing-box-geosite/main/rule/Global.json",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "YouTube",
"format": "source",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/yangchuansheng/sing-box-geosite/main/rule/YouTube.json",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "OpenAI",
"format": "source",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/yangchuansheng/sing-box-geosite/main/rule/OpenAI.json",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "TikTok",
"format": "source",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/yangchuansheng/sing-box-geosite/main/rule/TikTok.json",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "Telegram",
"format": "source",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/yangchuansheng/sing-box-geosite/main/rule/Telegram.json",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "Netflix",
"format": "source",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/yangchuansheng/sing-box-geosite/main/rule/Netflix.json",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "WeChat",
"format": "source",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/yangchuansheng/sing-box-geosite/main/rule/WeChat.json",
"download_detour": "direct"
},
{
"type": "remote",
"tag": "Bilibili",
"format": "source",
"url": "https://mirror.ghproxy.com/https://raw.githubusercontent.com/yangchuansheng/sing-box-geosite/main/rule/Bilibili.json",
"download_detour": "direct"
}
]
}
}
这里有两种不同类型的规则集,一种是 binary,另外一种是 source。binary 规则集一般都是利用 GEOSITE 或者 GEOIP 直接编译好的二进制规则,它们被直接嵌入到应用程序中。而 source 规则集就和 Clash 的 ruleset 比较类似,它是一个文本文件,而不是二进制。
目前已经有相关项目可以自动将网络上的 Clash Ruleset 规则自动转换为 sing-box 的 source 规则集,感兴趣的同学可以参考这个项目: sing-box-geosite
Clash API
最后的实验性配置用来开启 Clash API。没错,sing-box 是兼容 Clash API 滴!那么我们就可以使用 Clash 的 dashboard 来管理 sing-box 了,直接用这个项目好了: metacubexd
示例配置如下:
{
"experimental": {
"cache_file": {
"enabled": true // 启用缓存文件功能。当此项设置为true时,启用 DNS 查询的缓存,以便加快后续相同查询的响应速度。
},
"clash_api": {
"external_controller": "0.0.0.0:9090", // 定义 Clash API 的外部控制器地址。"0.0.0.0:9090" 表示在本机的9090端口上监听外部的连接请求。
"external_ui": "metacubexd", // 指定外部用户界面(UI)的名称。这里的 "metacubexd" 是一个自定义 UI 的名称。
"external_ui_download_url": "https://github.com/MetaCubeX/metacubexd/archive/refs/heads/gh-pages.zip", // 提供外部 UI 的下载 URL。这个 URL 是从 GitHub 上下载 "metacubexd" UI 的压缩包。
"external_ui_download_detour": "select", // 定义下载外部 UI 时使用的转发策略。"select" 表示将通过'select'出口选择转发
"default_mode": "rule" // 设置 Clash API 的默认模式。"rule" 模式意味着流量将根据用户定义的规则进行路由。
}
}
}
最终启动 sing-box 之后就可以通过 Clash dashboard 来查看和管理流量啦:
订阅转换
我想大部分小伙伴使用的还是订阅链接,不可能傻乎乎的自己写配置和规则。但是目前大部分ji场都不提供 sing-box 的配置格式,仅有少量ji场提供支持,其他ji场可使用下面这个项目将常见订阅转换为 sing-box 订阅格式: sing-box-subscribe
你可以将这个项目部署到自己的 Vercel 中,然后使用以下的链接格式来将常见订阅转换为 sing-box 订阅格式:
<URL>/url=<subscription_url>/&file=<sing-box_template_url>
<URL>
:这是你的 sing-box-subscribe 访问链接;<subscription_url>
:这是你的订阅链接;<sing-box_template_url>
:这是你的 sing-box 模板配置链接,你可以直接使用 我的模板。
例如:
https://sing-box-subscribe.vercel.app/config/url=https://xxxxxx?clash=1/&file=https://gist.githubusercontent.com/yangchuansheng/5182974442015feeeeb058de543a00fd/raw/45b11ff08188af021da98e7174923d719dc42dd9/gistfile1.txt
如果你有多个订阅链接,需要先将订阅链接合并为一个链接,然后再进行转换,具体看参考 sing-box-subscribe 的官方文档。
更多配置示例
更多的配置示例可以参考这个项目: sing-box-examples
这个项目针对每一个代理协议都提供了详细的配置示例,还有很多的骚操作,比如 将 Cloudflare 的 Warp 节点信息直接提取出来加到 sing-box 出站配置中去,妙啊!
透明网关
如果你想让局域网中的所有机器都能够根据规则智能分流,那就在局域网中找一台机器作为透明网关,在这台机器上运行一个 sing-box 就行了,不需要像 Clash 一样写什么乱七八糟的 iptables 规则,直接一个配置文件就行了,非常简单。通常我们使用软路由来完成这个任务,如果你不想使用软路由,那随便找一台机器就行了,当然最好还是使用 Linux 比较靠谱。
在网关上运行 sing-box 之后,其他机器只需要将网关指向这台机器,便可以无痛开启魔法智能分流了。
当然,如果你不想让 sing-box 劫持局域网中的所有 DNS 请求,可以使用如下的方案:
首先在入站配置中添加一个监听端口:
{
"inbounds": [
{
"type": "direct",
"tag": "dns-in",
"listen": "0.0.0.0",
"listen_port": 53
}
]
}
然后在路由规则中将 DNS 的规则改成如下的配置:
{
"route": {
"rules": [
{
"inbound": "dns-in",
"outbound": "dns-out"
}
]
}
}
这样就保证了只有从 53 端口进来的流量才会进入 DNS 解析。
重启生效后,将其他机器的网关和 DNS 均指向这台机器就可以了。
如果你使用的是 DHCP,只需要在 DHCP 服务器中将 DHCP 分配的网关和 DNS 改成 sing-box 所在的机器 IP 即可。
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