Forked from https://github.com/NOBLES5E/cproxy
- support config ~/.config/cproxy/config.kdl
- support ipv6
- update iptables and iproute2 mods
cproxy can redirect TCP and UDP traffic made by a program to a proxy, without requiring the program supporting a
proxy.
What you can achieve with cproxy: All the things listed on for
example V2Ray Guide, including advanced configurations like reverse proxy
for NAT traversal, and you can apply different proxy on different applications.
Compared to many existing complicated transparent proxy setup, cproxy usage is as easy as proxychains, but
unlike proxychains, it works on any program (including static linked Go programs) and redirects DNS requests.
Note: The proxy used by cproxy should be a transparent proxy port (such as V2Ray's dokodemo-door inbound and
shadowsocks ss-redir). A good news is that even if you only have a SOCKS5 or HTTP proxy, there are tools that can
convert it to a transparent proxy for you (for example, transocks
, ipt2socks and ip2socks-go).
You can install by downloading the binary from the release page or
install with cargo:
cargo install cproxy
chown root:root $(which cproxy) && chmod +s $(which cproxy)
You can launch a new program with cproxy with:
cproxy --port <destination-local-port> -- <your-program> --arg1 --arg2 ...
All TCP connections requests will be proxied. If your local transparent proxy support DNS address overriding, you can
also redirect DNS traffic with --redirect-dns:
cproxy --port <destination-local-port> --redirect-dns -- <your-program> --arg1 --arg2 ...
For an example setup, see wiki.
If your system support tproxy, you can use tproxy with --mode tproxy:
cproxy --port <destination-local-port> --mode tproxy -- <your-program> --arg1 --arg2 ...
# or for existing process
cproxy --port <destination-local-port> --mode tproxy --pid <existing-process-pid>With --mode tproxy, there are several differences:
- All UDP traffic are proxied instead of only DNS UDP traffic to port 53.
- Your V2Ray or shadowsocks service should have
tproxyenabled on the inbound port. For V2Ray, you need"tproxy": "tproxy"as in V2Ray Documentation. For shadowsocks, you need-uas shown in shadowsocks manpage.
An example setup can be found here.
Note that when you are using the tproxy mode, you can override the DNS server address
with cproxy --mode tproxy --override-dns <your-dns-server-addr> .... This is useful when you want to use a different
DNS server for a specific application.
With cproxy, you can even proxy an existing process. This is very handy when you want to proxy existing system
services such as docker. To do this, just run
cproxy --port <destination-local-port> --pid <existing-process-pid>
The target process will be proxied as long as this cproxy command is running. You can press Ctrl-C to stop proxying.
With cproxy, you can easily debug a program's traffic in netfilter. Just run the program with
cproxy --mode trace <your-program>You will be able to see log in dmesg. Note that this requires a recent enough kernel and iptables.
cproxy creates a unique cgroup for the proxied program, and redirect its traffic with packet rules.
cproxyrequires root access to modifycgroup.- Currently only tested on Linux.
There are some awesome existing work:
- graftcp: work on most programs, but cannot proxy UDP (such as DNS)
requests.
graftcpalso has performance hit on the underlying program, since it usesptrace. - proxychains: easy to use, but not working on static linked programs (such as Go programs).
- proxychains-ng: similar to proxychains.
- cgproxy:
cgproxyalso uses cgroup to do transparent proxy, and the idea is similar tocproxy's. There are some differences in UX and system requirements:cgproxyrequires systemcgroupv2 support, whilecproxyworks with both v1 and v2.cgproxyrequires a background daemon processcgproxydrunning, whilecproxydoes not.cgproxyrequirestproxy, which is optional incproxy.cgproxycan be used to do global proxy, whilecproxydoes not intended to support global proxy.
mod src/iptables forked from https://github.com/yaa110/rust-iptables