A simple Python Pydantic model for Honkai: Star Rail parsed data from the Mihomo API.
adapters | ||
common | ||
component | ||
config | ||
constant | ||
dns | ||
docs | ||
hub | ||
log | ||
proxy | ||
rules | ||
tunnel | ||
.gitignore | ||
.travis.yml | ||
Dockerfile | ||
go.mod | ||
go.sum | ||
LICENSE | ||
main.go | ||
Makefile | ||
README.md |
Clash
A rule-based tunnel in Go.
Features
- HTTP/HTTPS and SOCKS protocol
- Surge like configuration
- GeoIP rule support
- Support Vmess/Shadowsocks/Socks5
- Support for Netfilter TCP redirect
Install
You can build from source:
go get -u -v github.com/Dreamacro/clash
Pre-built binaries are available: release
Requires Go >= 1.11.
Daemon
Unfortunately, there is no native elegant way to implement golang's daemon.
So we can use third-party daemon tools like pm2, supervisor, and so on.
In the case of pm2, we can start the daemon this way:
pm2 start clash
If you have Docker installed, you can run clash directly using docker-compose
.
Config
The default configuration directory is $HOME/.config/clash
The name of the configuration file is config.yml
If you want to use another directory, you can use -d
to control the configuration directory
For example, you can use the current directory as the configuration directory
clash -d .
Below is a simple demo configuration file:
# port of HTTP
port: 7890
# port of SOCKS5
socks-port: 7891
# redir port for Linux and macOS
# redir-port: 7892
allow-lan: false
# Rule / Global/ Direct (default is Rule)
mode: Rule
# set log level to stdout (default is info)
# info / warning / error / debug / silent
log-level: info
# A RESTful API for clash
external-controller: 127.0.0.1:9090
# you can put the static web resource (such as clash-dashboard) to a directory, and clash would serve in `${API}/ui`
# input is a relative path to the configuration directory or an absolute path
# external-ui: folder
# Secret for RESTful API (Optional)
# secret: ""
# dns:
# enable: true # set true to enable dns (default is false)
# ipv6: false # default is false
# listen: 0.0.0.0:53
# enhanced-mode: redir-host
# nameserver:
# - 114.114.114.114
# - tls://dns.rubyfish.cn:853 # dns over tls
# fallback: # concurrent request with nameserver, fallback used when GEOIP country isn't CN
# - 8.8.8.8
Proxy:
# shadowsocks
# The types of cipher are consistent with go-shadowsocks2
# support AEAD_AES_128_GCM AEAD_AES_192_GCM AEAD_AES_256_GCM AEAD_CHACHA20_POLY1305 AES-128-CTR AES-192-CTR AES-256-CTR AES-128-CFB AES-192-CFB AES-256-CFB CHACHA20-IETF XCHACHA20
# In addition to what go-shadowsocks2 supports, it also supports chacha20 rc4-md5 xchacha20-ietf-poly1305
- { name: "ss1", type: ss, server: server, port: 443, cipher: AEAD_CHACHA20_POLY1305, password: "password" }
# old obfs configuration remove after prerelease
- name: "ss2"
type: ss
server: server
port: 443
cipher: AEAD_CHACHA20_POLY1305
password: "password"
plugin: obfs
plugin-opts:
mode: tls # or http
# host: bing.com
- name: "ss3"
type: ss
server: server
port: 443
cipher: AEAD_CHACHA20_POLY1305
password: "password"
plugin: v2ray-plugin
plugin-opts:
mode: websocket # no QUIC now
# tls: true # wss
# skip-cert-verify: true
# host: bing.com
# path: "/"
# vmess
# cipher support auto/aes-128-gcm/chacha20-poly1305/none
- { name: "vmess", type: vmess, server: server, port: 443, uuid: uuid, alterId: 32, cipher: auto }
# with tls
- { name: "vmess", type: vmess, server: server, port: 443, uuid: uuid, alterId: 32, cipher: auto, tls: true }
# with tls and skip-cert-verify
- { name: "vmess", type: vmess, server: server, port: 443, uuid: uuid, alterId: 32, cipher: auto, tls: true, skip-cert-verify: true }
# with ws-path and ws-headers
- { name: "vmess", type: vmess, server: server, port: 443, uuid: uuid, alterId: 32, cipher: auto, network: ws, ws-path: /path, ws-headers: { Host: v2ray.com } }
# with ws + tls
- { name: "vmess", type: vmess, server: server, port: 443, uuid: uuid, alterId: 32, cipher: auto, network: ws, ws-path: /path, tls: true }
# socks5
- { name: "socks", type: socks5, server: server, port: 443 }
# socks5 with authentication
- { name: "socks", type: socks5, server: server, port: 443, username: "username", password: "password" }
# with tls
- { name: "socks", type: socks5, server: server, port: 443, tls: true }
# with tls and skip-cert-verify
- { name: "socks", type: socks5, server: server, port: 443, tls: true, skip-cert-verify: true }
# http
- { name: "http", type: http, server: server, port: 443 }
# http with authentication
- { name: "http", type: http, server: server, port: 443, username: "username", password: "password" }
# with tls (https)
- { name: "http", type: http, server: server, port: 443, tls: true }
# with tls (https) and skip-cert-verify
- { name: "http", type: http, server: server, port: 443, tls: true, skip-cert-verify: true }
Proxy Group:
# url-test select which proxy will be used by benchmarking speed to a URL.
- { name: "auto", type: url-test, proxies: ["ss1", "ss2", "vmess1"], url: "http://www.gstatic.com/generate_204", interval: 300 }
# fallback select an available policy by priority. The availability is tested by accessing an URL, just like an auto url-test group.
- { name: "fallback-auto", type: fallback, proxies: ["ss1", "ss2", "vmess1"], url: "http://www.gstatic.com/generate_204", interval: 300 }
# load-balance: The request of the same eTLD will be dial on the same proxy.
- { name: "load-balance", type: load-balance, proxies: ["ss1", "ss2", "vmess1"] }
# select is used for selecting proxy or proxy group
# you can use RESTful API to switch proxy, is recommended for use in GUI.
- { name: "Proxy", type: select, proxies: ["ss1", "ss2", "vmess1", "auto"] }
Rule:
- DOMAIN-SUFFIX,google.com,auto
- DOMAIN-KEYWORD,google,auto
- DOMAIN,google.com,auto
- DOMAIN-SUFFIX,ad.com,REJECT
- IP-CIDR,127.0.0.0/8,DIRECT
- SOURCE-IP-CIDR,192.168.1.201/32,DIRECT
- GEOIP,CN,DIRECT
# FINAL would remove after prerelease
# you also can use `FINAL,Proxy` or `FINAL,,Proxy` now
- MATCH,auto
Thanks
License
TODO
- Complementing the necessary rule operators
- Redir proxy
- UDP support
- Connection manager