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Proxy server that can tunnel among remote servers by regex rules.

Project description

python-proxy
===========

HTTP/Socks/Shadowsocks asynchronous tunnel proxy implemented in Python3 asyncio.

Features
-----------

- Single-thread asynchronous IO with high availability and scalability.
- Lightweight (~500 lines) and powerful by leveraging python builtin *asyncio* library.
- No additional library is required. All codes are in Pure Python.
- Automatically detect incoming traffic: HTTP/Socks/Shadowsocks.
- Specify multiple remote servers for outcoming traffic: HTTP/Socks/Shadowsocks.
- Unix domain socket support for communicating locally.
- Basic authentication support for all three protocols.
- Regex pattern file support to route/block by hostname matching.
- SSL connection support to prevent Man-In-The-Middle attack.
- Encryption cipher support to keep communication secure. (chacha20, aes-256-cfb, etc)
- Shadowsocks OTA (One-Time-Auth_) experimental feature support.
- Basic statistics for bandwidth and total traffic by client/hostname.
- PAC support for automatically javascript configuration.
- PyPy3.3 v5.5 support to enable JIT speedup.

.. _One-Time-Auth: https://shadowsocks.org/en/spec/one-time-auth.html

Python3
-----------

*Python 3.5* added new syntax **async def** and **await** to make asyncio programming easier. *Python 3.6* added new syntax **formatted string literals**. This tool was to demonstrate these new syntax, so the minimal Python requirement was **3.6**.

>From **pproxy** 1.1.0, the minimal Python requirement is **3.3**, since old python versions are still widely used and PyPy3 only has 3.3 support currently. *Python 2* will not be supported in the future.

Installation
-----------

$ pip3 install pproxy

PyPy3
-----------

$ pypy3 -m ensurepip
$ pypy3 -m pip install asyncio pproxy

Requirement
-----------

pycryptodome_ is an optional library to enable faster (C version) cipher encryption. **pproxy** has many built-in pure python ciphers without need to install pycryptodome_. They are lightweight and stable, but a little slow. After speed up with PyPy_, the pure python ciphers can achieve similar performance as pycryptodome_ (C version). If you care about cipher performance and don't run in PyPy_, just install pycryptodome_ to enable faster ciphers.

These are some performance comparisons between Python ciphers and C ciphers (process 8MB data totally):

$ python3 speed.py chacha20
chacha20 0.6451280117034912
$ pypy3 speed.py chacha20-py
chacha20-py 1.3277630805969238
$ python3 speed.py chacha20-py
chacha20-py 48.85661292076111

.. _pycryptodome: https://pycryptodome.readthedocs.io/en/latest/src/introduction.html
.. _PyPy: http://pypy.org

Usage
-----------

$ pproxy -h
usage: pproxy [-h] [-i LISTEN] [-r RSERVER] [-b BLOCK] [-v] [--ssl SSLFILE] [--pac PAC] [--get GETS] [--version]

Proxy server that can tunnel among remote servers by regex rules. Supported
protocols: http,socks,shadowsocks

optional arguments:
-h, --help show this help message and exit
-i LISTEN proxy server setting uri (default: http+socks://:8080/)
-r RSERVER remote server setting uri (default: direct)
-b BLOCK block regex rules
-v print verbose output
--ssl SSLFILE certfile[,keyfile] if server listen in ssl mode
--pac PAC http PAC path
--get GETS http custom path/file
--version show program's version number and exit

Online help: <https://github.com/qwj/python-proxy>

URI Syntax
-----------

{scheme}://[{cipher}@]{netloc}[?{rules}][#{auth}]

- scheme
- Currently supported scheme: http, socks, ss, ssl, secure. You can use + to link multiple protocols together.

:http: http protocol
:socks: socks5 protocol
:ss: shadowsocks protocol
:ssl: communicate in (unsecured) ssl
:secure: comnunicate in (secured) ssl

- Valid schemes: http://, http+socks://, http+ssl://, ss+secure://, http+socks+ss://
- Invalid schemes: ssl://, secure://
- cipher
- Cipher is consisted by cipher name, colon ':' and cipher key.
- Full supported cipher list: (Pure python ciphers has ciphername suffix -py)

+-----------------+------------+-----------+-------------+
| Cipher | Key Length | IV Length | Score (0-5) |
+=================+============+===========+=============+
| table-py | any | 0 | 0 (lowest) |
+-----------------+------------+-----------+-------------+
| rc4, rc4-py | 16 | 0 | 0 (lowest) |
+-----------------+------------+-----------+-------------+
| rc4-md5 | 16 | 16 | 0.5 |
| | | | |
| rc4-md5-py | | | |
+-----------------+------------+-----------+-------------+
| chacha20 | 32 | 8 | 5 (highest) |
| | | | |
| chacha20-py | | | |
+-----------------+------------+-----------+-------------+
| chacha20-ietf-py| 32 | 12 | 5 |
+-----------------+------------+-----------+-------------+
| salsa20 | 32 | 8 | 4.5 |
| | | | |
| salsa20-py | | | |
+-----------------+------------+-----------+-------------+
| aes-128-cfb | 16 | 16 | 3 |
| | | | |
| aes-128-cfb-py | | | |
| | | | |
| aes-128-cfb8-py | | | |
| | | | |
| aes-128-cfb1-py | | | |
+-----------------+------------+-----------+-------------+
| aes-192-cfb | 24 | 16 | 3.5 |
| | | | |
| aes-192-cfb-py | | | |
| | | | |
| aes-192-cfb8-py | | | |
| | | | |
| aes-192-cfb1-py | | | |
+-----------------+------------+-----------+-------------+
| aes-256-cfb | 32 | 16 | 4.5 |
| | | | |
| aes-256-cfb-py | | | |
| | | | |
| aes-256-ctr-py | | | |
| | | | |
| aes-256-ofb-py | | | |
| | | | |
| aes-256-cfb8-py | | | |
| | | | |
| aes-256-cfb1-py | | | |
+-----------------+------------+-----------+-------------+
| camellia-256-cfb| 32 | 16 | 4 |
| | | | |
| camellia-192-cfb| 24 | 16 | 4 |
| | | | |
| camellia-128-cfb| 16 | 16 | 4 |
+-----------------+------------+-----------+-------------+
| bf-cfb | 16 | 8 | 1 |
| | | | |
| bf-cfb-py | | | |
+-----------------+------------+-----------+-------------+
| cast5-cfb | 16 | 8 | 2.5 |
+-----------------+------------+-----------+-------------+
| des-cfb | 8 | 8 | 1.5 |
+-----------------+------------+-----------+-------------+
| rc2-cfb-py | 16 | 8 | 2 |
+-----------------+------------+-----------+-------------+
| idea-cfb-py | 16 | 8 | 2.5 |
+-----------------+------------+-----------+-------------+
| seed-cfb-py | 16 | 16 | 2 |
+-----------------+------------+-----------+-------------+

- Some pure python ciphers (aes-256-cfb1-py) is quite slow, and is not recommended to use without PyPy speedup. Try install pycryptodome_ and use C version cipher instead.
- To enable OTA encryption with shadowsocks, add '!' immediately after cipher name.
- netloc
- It can be "hostname:port" or "/unix_domain_path". If the hostname is empty, server will listen on all interfaces.
- Valid netloc: localhost:8080, 0.0.0.0:8123, /tmp/domain_socket, :8123
- rules
- The filename that contains regex rules
- auth
- The username, colon ':', and the password

Examples
-----------

We can define file "rules" as follow:

| #google domains
| (?:.+\.)?google.*\.com
| (?:.+\.)?gstatic\.com
| (?:.+\.)?gmail\.com
| (?:.+\.)?ntp\.org
| (?:.+\.)?glpals\.com
| (?:.+\.)?akamai.*\.net
| (?:.+\.)?ggpht\.com
| (?:.+\.)?android\.com
| (?:.+\.)?gvt1\.com
| (?:.+\.)?youtube.*\.com
| (?:.+\.)?ytimg\.com
| (?:.+\.)?goo\.gl
| (?:.+\.)?youtu\.be
| (?:.+\.)?google\..+

Then start the pproxy

| $ pproxy -i http+socks://:8080 -r http://aa.bb.cc.dd:8080?rules -v
| http www.googleapis.com:443 -> http aa.bb.cc.dd:8080
| socks www.youtube.com:443 -> http aa.bb.cc.dd:8080
| http www.yahoo.com:80
| DIRECT: 1 (0.5K/s,1.2M/s) PROXY: 2 (24.3K/s,1.9M/s)

With these parameters, this utility will serve incoming traffic by either http/socks5 protocol, redirect all google traffic to http proxy aa.bb.cc.dd:8080, and visit all other traffic locally.

To bridge two servers, add cipher encryption to ensure data can't be intercepted. First, run pproxy locally

$ pproxy -i ss://:8888 -r ss://chacha20:cipher_key@aa.bb.cc.dd:12345 -v

Next, run pproxy.py remotely on server "aa.bb.cc.dd"

$ pproxy -i ss://chacha20:cipher_key@:12345

By doing this, the traffic between local and aa.bb.cc.dd is encrypted by stream cipher Chacha20 with key "cipher_key". If target hostname is not matched by regex file "rules", traffic will go through locally. Otherwise, traffic will go through the remote server by encryption.

A more complex example:

$ pproxy -i ss://salsa20!:complex_cipher_key@/tmp/pproxy_socket -r http+ssl://domain1.com:443#username:password

It listen on the unix domain socket /tmp/pproxy_socket, and use cipher name salsa20, cipher key "complex_cipher_key", and enable explicit OTA encryption for shadowsocks protocol. The traffic is tunneled to remote https proxy with simple authentication. If OTA mode is not specified, server will allow both non-OTA and OTA traffic. If specified OTA mode, server only allow OTA client to connect.

If you want to listen in SSL, you must specify ssl certificate and private key files by parameter "--ssl", there is an example:

$ pproxy -i http+ssl://0.0.0.0:443 -i http://0.0.0.0:80 --ssl server.crt,server.key --pac /autopac

It listen on both 80 HTTP and 443 HTTPS ports, use the specified certificate and private key files. The "--pac" enable PAC support, so you can put https://yourdomain.com/autopac in your device's auto-configure url.




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