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Do you know what: It’s that simple to setup an HTTP forwarding proxy (proxy) with ruby. The only thing you need is webrick’s HTTPProxyServer-class.

If you don’t know what a proxy is, please have a look at this article on Wikipedia. In brief: An HTTP proxy is an intermediary server. It is located between the HTTP client and the HTTP server. Using this kind of architecture makes it easier to do virus scanning etc. of web traffic.

The HTTP client sends requests to the HTTP proxy which forwards those requests to the HTTP server – see Fig. 1. The responses are sent back to the proxy which sends them to a virus scanner server or even directly to the client.

Well known HTTP clients are “Firefox”, a web browser, or “cURL” (curl), a very good HTTP client for the commandline. A good and well known HTTP proxy is “Squid”. On the server side you can use for instance “Apache HTTP server”, “nginx HTTP server” or “MS IIS”.

Proxy Environment

Fig. 1: Communication in a Proxy Environment.

My use case

I’m working on two rubygems – proxy_pac_rb and proxy_rb – which provide helpers for rspec-tests. The target group of those gems are proxy-administrators who want to use rspec to test their proxy infrastructure. In order to develop proxy_rb and run tests without an external network connection, a local proxy is required. I’m not that keen to use “Squid” for this use case because I would then need to install it on travis-ci and maintain its configuration. Instead I would like to have something much simpler and easier to extend.

Why using “webrick”

I was quite happy when I found out, that webrick supports an HTTP proxy server. For the following reasons I decided to give it a try.

  • It’s written in ruby and it’s part of ruby-core
  • It supports HTTP’s “GET”- and “CONNECT”-methods – the latter is required to forward encrypted HTTP traffic (HTTPS)
  • It supports forwarding requests to another proxy plus proxy authentication against that proxy

Architectures

I will cover a few architectures in this article. Each architecture makes use of the same test infrastructure – e.g. web servers – which I will describe in the next section. There’s also a chapter at the end of this article about issues I had with webrick.

Common Test Infrastructure

Fig 2. illustrates the infrastructure which I used for all my tests. It’s made up of an HTTP client, an HTTP and an HTTPS server. In all other figures both servers are represented by a single icon labeled with “HTTP(S) servers”. I am going to use curl as HTTP client. webrick is used as HTTP server and HTTPS server.

Common Test Infrastructure

Fig. 2: Test Infrastructure used for all tests.

Creating the test directory

To start with the tests, please create a temporary directory and make it your current working directory.

# Create the test directory
mkdir -p ~/tmp/proxy_test

# Make the directory your current working directory
cd ~/tmp/proxy_test

Install “webrick”-gem

gem install webrick

Creating the HTTP server

Create a file named http_server.rb within the test-directory with the following content. The script will start a webrick-HTTP server which listens on port “8000”.

#!/usr/bin/env ruby

require 'webrick'

server = WEBrick::HTTPServer.new(
    :Port => 8000,
)

server.mount_proc '/' do |req, res|
  res.body = 'Example Domain Cleartext'
end

server.start

After that, make the script an executable.

chmod +x http_server.rb

Creating the HTTPS server

Next create a file named https_server.rb – please mind the “s” at the end of “https” – with the following content. The script will start an HTTPS server listening on port “8443” using a self-signed certificate – see the webrick documentation for more information.

#!/usr/bin/env ruby

require 'webrick'
require 'webrick/https'

cert_name = [
  %w[CN localhost],
]

server = WEBrick::HTTPServer.new(
    :Port => 8443,
    :SSLEnable => true,
    :SSLCertName => cert_name
)

server.mount_proc '/' do |req, res|
  res.body = 'Example Domain Encrypted'
end

server.start

If you pass the HTTPServer-class a SSLCertName-parameter, this will be used as “Distinguished Name” of the generated certificate.

cert_name = [
  %w[CN localhost],
]

server = WEBrick::HTTPServer.new(
    :Port => 8443,
    :SSLEnable => true,
    :SSLCertName => cert_name
)

After that, make the script also an executable.

chmod +x https_server.rb

Starting the servers

Start both the HTTP server and the HTTPS server each in a separate terminal.

# Start HTTP server
./http_server.rb
# => [2015-04-16 07:19:17] INFO  WEBrick 1.3.1
# => [2015-04-16 07:19:17] INFO  ruby 2.2.1 (2015-04-16) [x86_64-linux]
# => [2015-04-16 07:19:17] INFO  WEBrick::HTTPServer#start: pid=15600 port=8000

You will get a slightly different output when you start the HTTPS server. webrick will generate a self-signed SSL server certificate on the fly when you start it.

# Start HTTPS server
./https_server.rb
# => [2015-04-16 07:19:19] INFO  WEBrick 1.3.1
# => [2015-04-16 07:19:19] INFO  ruby 2.2.1 (2015-04-16) [x86_64-linux]
# => ................++++++
# => ...................++++++
# => [2015-04-16 07:19:19] INFO
# => Certificate:
# =>     Data:
# =>         Version: 3 (0x2)
# => [...]
# => [2015-04-16 07:19:19] INFO  WEBrick::HTTPServer#start: pid=15616 port=8443

Proxy Architectures

Make sure you’ve got both the HTTP and HTTPS servers running before you read any further. Please follow the instructions found in the previous section, if you started reading here.

SIMPLE FORWARD PROXY

Fig. 3 illustrates a simple forward proxy infrastructure. It’s made up of an HTTP client, a single HTTP proxy and the HTTP(S) servers.

Simple Proxy Architecture

Fig. 3: Simple Forward Proxy Architecture.

Creating the proxy

Create a file named proxy.rb with the following content.

#!/usr/bin/env ruby

require 'webrick'
require 'webrick/httpproxy'

proxy = WEBrick::HTTPProxyServer.new Port: 8080

trap 'INT'  do proxy.shutdown end
trap 'TERM' do proxy.shutdown end

proxy.start

After that make it an executable.

chmod +x proxy.rb

Starting the proxy

After you have successfully created the file, run the proxy.

./proxy.rb
# => [2015-04-16 07:21:12] INFO  WEBrick 1.3.1
# => [2015-04-16 07:21:12] INFO  ruby 2.2.1 (2015-04-16) [x86_64-linux]
# => [2015-04-16 07:21:12] INFO  WEBrick::HTTPProxyServer#start: pid=15771 port=8080

Sending requests

Make sure you pass curl the fully qualified URL “http://localhost:8000” and “https://localhost:8443”. Please also add -k to the curl-command to prevent errors because of the self-signed SSL certificate. You should send the request to the proxy which listens on port “8080” via curl’s -x-parameter.

curl -x localhost:8080 http://localhost:8000
# => Example Domain Cleartext

curl -k -x localhost:8080 https://localhost:8443
# => Example Domain Encrypted

You successfully created a forward proxy using webrick. Congratulations!

FORWARD PROXY REQUIRING AUTHENTICATION

Fig 4. shows a simple forward proxy infrastructure where the client needs to authenticate itself against the proxy. It’s made up of an HTTP client, an HTTP proxy and the HTTP(S) servers.

Proxy Infrastructure with Authentication

Fig. 4: Architecture with a forwarding proxy requiring authentication.

Creating the proxy

Create a file named proxy.rb with the following content.

#!/usr/bin/env ruby

require 'webrick'
require 'webrick/httpproxy'

# Apache compatible Password manager
htpasswd = WEBrick::HTTPAuth::Htpasswd.new File.expand_path('../htpasswd', __FILE__)
# Create entry with username and password, the password is "crypt" encrypted
htpasswd.set_passwd 'Proxy Realm', 'user', 'password'
# Write file to disk
htpasswd.flush

# Authenticator
authenticator = WEBrick::HTTPAuth::ProxyBasicAuth.new(
  Realm: 'Proxy Realm',
  UserDB: htpasswd
)

proxy = WEBrick::HTTPProxyServer.new Port: 8080, ProxyAuthProc: authenticator.method(:authenticate).to_proc

trap 'INT'  do proxy.shutdown end
trap 'TERM' do proxy.shutdown end

proxy.start

The Htpasswd-class provides access to a htpasswd-file. In the current implementation of webrick only the crypt-algorithm is supported. All other algorithms supported by apache are not supported yet by webrick.

# Apache compatible Password manager
htpasswd = WEBrick::HTTPAuth::Htpasswd.new File.expand_path('../htpasswd', __FILE__)

We also create a user “user” with passsword “password” within that script for our tests (#set_passwd) and store the information on the hard drive (#flush).

# Create entry with username and password, the password is "crypt" encrypted
htpasswd.set_passwd 'Proxy Realm', 'user', 'password'

# Write file to disk
htpasswd.flush

To make use of the htpasswd-file you need to pass it to a webrick-authenticator – e.g. ProxyBasicAuth.

# Authenticator
authenticator = WEBrick::HTTPAuth::ProxyBasicAuth.new(
  Realm: 'Proxy Realm',
  UserDB: htpasswd
)

To activate the authentication you need to pass HTTPProxyServer a proc-object via the ProxyAuthProc-parameter. That’s why we need to convert the authenticate-method of our ProxyBasicAuth-object into a proc-object.

proxy = WEBrick::HTTPProxyServer.new Port: 8080, ProxyAuthProc: authenticator.method(:authenticate).to_proc

After that make the proxy.rb-file an executable.

chmod +x proxy.rb

Starting the proxy

After you have successfully created the file, run the proxy.

./proxy.rb
# => [2015-04-16 07:34:09] INFO  WEBrick 1.3.1
# => [2015-04-16 07:34:09] INFO  ruby 2.2.1 (2015-04-16) [x86_64-linux]
# => [2015-04-16 07:34:09] INFO  WEBrick::HTTPProxyServer#start: pid=3650 port=8080

Sending requests

At first we will send a request without any credentials. The request will fail with HTTP status code “407” – Proxy Authentication Required.

curl -x localhost:8080 http://localhost:8000
# => <!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0//EN">
# => <HTML>
# =>   <HEAD><TITLE>Proxy Authentication Required</TITLE></HEAD>
# =>   <BODY>
# =>     <H1>Proxy Authentication Required</H1>
# =>     WEBrick::HTTPStatus::ProxyAuthenticationRequired
# =>     <HR>
# =>     <ADDRESS>
# =>      WEBrick/1.3.1 (Ruby/2.2.1/2015-04-16) at
# =>      localhost:8000
# =>     </ADDRESS>
# =>   </BODY>
# => </HTML>

After that, we will invoke curl with the correct credentials and the request will succeed.

curl -x localhost:8080 -U user:password http://localhost:8000
# => Example Domain Cleartext

If you enter passwords which start with the correct one, the authentication will also succeed. That’s why “passwordlonger” is also accepted as password by webrick. I consider this a flaw of the used crypt-algorithm.

curl -x localhost:8080 -U user:passwordlonger http://localhost:8000
# => Example Domain Cleartext

PROXY CHAIN WITH UPSTREAM AND DOWNSTREAM HTTP PROXY

Fig 5. shows a forward proxy chain. It’s made up of an HTTP client, a downstream HTTP proxy, an upstream HTTP proxy and the HTTP(S) servers.

Proxy Chain with Upstream and Downstream Proxy

Fig. 5: Architecture with HTTP upstream and downstream HTTP proxy.

Creating the downstream HTTP proxy

Create a file named proxy-downstream.rb with the following content.

#!/usr/bin/env ruby

require 'webrick'
require 'webrick/httpproxy'
require 'uri'

proxy = WEBrick::HTTPProxyServer.new Port: 8080, ProxyURI: URI('http://localhost:9090')

trap 'INT'  do proxy.shutdown end
trap 'TERM' do proxy.shutdown end

proxy.start

The most interesting part of the script is the following line. Using the ProxyURI-parameter, you can inform webrick to use an upstream proxy. Since webrick depends on the URI-API for the mentioned parameter, it’s important to use URI, Addressable::URI or something which has a compatible API.

proxy = WEBrick::HTTPProxyServer.new Port: 8080, ProxyURI: URI('http://localhost:9090')

After that make it an executable.

chmod +x proxy-downstream.rb

Creating the upstream HTTP proxy

Create a file named proxy-upstream.rb with the following content.

#!/usr/bin/env ruby

require 'webrick'
require 'webrick/httpproxy'

proxy = WEBrick::HTTPProxyServer.new Port: 9090

trap 'INT'  do proxy.shutdown end
trap 'TERM' do proxy.shutdown end

proxy.start

After that make it an executable.

chmod +x proxy-upstream.rb

Starting the proxies

Next start both proxies each in a separate terminal.

# Start downstream HTTP proxy
./proxy-downstream.rb
# => [2015-04-16 07:22:02] INFO  WEBrick 1.3.1
# => [2015-04-16 07:22:02] INFO  ruby 2.2.1 (2015-04-16) [x86_64-linux]
# => [2015-04-16 07:22:02] INFO  WEBrick::HTTPProxyServer#start: pid=15919 port=8080

# Start upstream HTTP proxy
./proxy-upstream.rb
# => [2015-04-16 07:21:59] INFO  WEBrick 1.3.1
# => [2015-04-16 07:21:59] INFO  ruby 2.2.1 (2015-04-16) [x86_64-linux]
# => [2015-04-16 07:21:59] INFO  WEBrick::HTTPProxyServer#start: pid=15913 port=9090

Sending Request

After that, we will try to access “http://localhost:8000” via the downstream proxy.

curl -x localhost:8080 http://localhost:8000
# => Example Domain Cleartext

And to make sure it works with SSL/TLS as well, we will try to access “https://localhost:8443” via the downstream HTTP proxy.

curl -k -x localhost:8080 https://localhost:8443
# => Example Domain Encrypted

It work’s! Good job, mate.

DOWNSTREAM PROXY WITH AUTHENTICATION AGAINST UPSTREAM PROXY

Fig 6. illustrates an infrastructure where the downstream proxy provides username + password to the upstream proxy for each request. The infrastructure is made up of an HTTP client, a downstream HTTP proxy, an HTTP upstream proxy and the HTTP(S) servers.

Downstream proxy with authentication against upstream proxy

Fig. 6: Architecture illustrating a downstream HTTP proxy with authentication against upstream HTTP proxy.

Creating the downstream HTTP proxy

Create a file named proxy-downstream.rb with the following content.

#!/usr/bin/env ruby

require 'webrick'
require 'webrick/httpproxy'
require 'ostruct'

uri = OpenStruct.new
uri.userinfo = 'user:password'
uri.host     = 'localhost'
uri.port     = 9090

proxy = WEBrick::HTTPProxyServer.new Port: 8080, ProxyURI: uri

trap 'INT'  do proxy.shutdown end
trap 'TERM' do proxy.shutdown end

proxy.start

By adding a username and a password to the ProxyURI-parameter, webrick will add this information to each request which is forwarded to the upstream proxy.

If you need to be compliant to some password policies which require special characters in your password, you might want to consider using OpenStruct instead of good old URI. Just make sure the object created is API-compatible with URI.

Neither URI nor Addressable/URI accept non-conform URIs. Using OpenStruct enables you to use passwords which are not valid regarding RFC 2396 – Uniform Resource Identifiers (URI): Generic Syntax.

uri = OpenStruct.new
uri.userinfo = 'user:password'
uri.host     = 'localhost'
uri.port     = 9090

proxy = WEBrick::HTTPProxyServer.new Port: 8080, ProxyURI: uri

After creating the file make it an executable.

chmod +x proxy-downstream.rb

Creating the upstream HTTP proxy

Create a file named proxy-upstream.rb with the following content.

#!/usr/bin/env ruby

require 'webrick'
require 'webrick/httpproxy'

# Apache compatible Password manager
htpasswd = WEBrick::HTTPAuth::Htpasswd.new File.expand_path('../htpasswd', __FILE__)
# Create entry with username and password, the password is "crypt" encrypted
htpasswd.set_passwd 'Proxy Realm', 'user', 'password'
# Write file to disk
htpasswd.flush

# Authenticator
authenticator = WEBrick::HTTPAuth::ProxyBasicAuth.new(
  Realm: 'Proxy Realm',
  UserDB: htpasswd
)

proxy = WEBrick::HTTPProxyServer.new Port: 9090, ProxyAuthProc: authenticator.method(:authenticate).to_proc

trap 'INT'  do proxy.shutdown end
trap 'TERM' do proxy.shutdown end

proxy.start

After that make it an executable.

chmod +x proxy-upstream.rb

Starting the proxies

Next start both proxies in separate terminals.

# Start downstream HTTP proxy
./proxy-downstream.rb
# => [2015-04-16 07:22:59] INFO  WEBrick 1.3.1
# => [2015-04-16 07:22:59] INFO  ruby 2.2.1 (2015-04-16) [x86_64-linux]
# => [2015-04-16 07:22:59] INFO  WEBrick::HTTPProxyServer#start: pid=16028 port=8080


# Start upstream HTTP proxy
./proxy-upstream.rb
# => [2015-04-16 07:22:53] INFO  WEBrick 1.3.1
# => [2015-04-16 07:22:53] INFO  ruby 2.2.1 (2015-04-16) [x86_64-linux]
# => [2015-04-16 07:22:53] INFO  WEBrick::HTTPProxyServer#start: pid=16002 port=9090

Sending Request

After that, we will try to access “http://localhost:8000” via the downstream proxy.

curl -x localhost:8080 http://localhost:8000
# => Example Domain Cleartext

And to make sure it works with SSL/TLS as well, we will try to access “https://localhost:8443” via the downstream HTTP proxy.

curl -k -x localhost:8080 https://localhost:8443
# => Example Domain Encrypted

It works! ☺

BONUS: Creating a user.service-unit for systemd-user

If you follow the steps given below, you will get a proxy-daemon which runs with your userid. This approach is based on systemd-user – see the Arch Linux Wiki for more information on this topic. If you want to run this solution on your local machine to authenticate against some company proxy, please change the host and username/password information as needed. And PLEASE make sure, that you do NOT violate your company rules by using this solution. I will be NOT liable if you get in conflict with those rules.

First, create the bin-directory in your HOME-directory.

mkdir -p ~/bin

Then copy the file proxy-downstream.rb to ~/bin/proxy and make sure it is an executable.

# Copy file
cp proxy-downstream.rb ~/bin/proxy

# Make it executable
chmod +x ~/bin/proxy

After that, create a service-unit at ~/.config/systemd/user/proxy.service. Please change the <userid>-string in the service-unit to match your user id.


[Unit]
Description=Web Proxy Cache Server

[Service]
ExecStart=/home/<userid>/bin/proxy

[Install]
WantedBy=default.target

Next you need to enable and start that service.

# Enable
systemctl --user enable proxy

# Start
systemctl --user start proxy

After that we can send a request to the local proxy.

curl -x localhost:8080 https://example.org

Running the status-command of systemctl, you will see the proxy is running and forwarded your request.

systemctl --user status proxy

# => ● proxy.service - Web Proxy Cache Server
# =>    Loaded: loaded (/home/<userid>/.config/systemd/user/proxy.service; enabled; vendor preset: enabled)
# =>    Active: active (running) since Thu 2015-04-16 07:30:14 CEST; 0 day 0h ago
# =>  Main PID: 4090 (ruby)
# =>    CGroup: /user.slice/user-1000.slice/user@1000.service/proxy.service
# =>            └─4090 ruby /home/<userid>/bin/proxy
# =>
# => Apr 16 07:31:00 localhost proxy[4090]: localhost.localdomain - - [16/Apr/2015:07:31:00 CEST] "CONNECT www.example.org:443 HTTP/1.1" 200 0
# => Apr 16 07:31:00 localhost proxy[4090]: - -> www.example.org:8443

Troubleshooting

Fully qualified url

At first I was a little bit disappointed, because the first request I made to the webrick proxy failed.

curl -x localhost:8080 localhost:8000

The output was not what I expected: Not Found. What the hell?

<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0//EN">
<HTML>
  <HEAD><TITLE>Not Found</TITLE></HEAD>
  <BODY>
    <H1>Not Found</H1>
    `/' not found.
    <HR>
    <ADDRESS>
     WEBrick/1.3.1 (Ruby/2.2.1/2015-04-16) at
     localhost:8000
    </ADDRESS>
  </BODY>
</HTML>

The output of the DEBUG-Logger I added to the HTTPProxyServer-instance did not help that much.

#!/usr/bin/env ruby
require 'webrick'
require 'webrick/httpproxy'
require 'logger'


logger = Logger.new($stderr)
logger.level = Logger::DEBUG

proxy = WEBrick::HTTPProxyServer.new Port: 8080, Logger: logger

trap 'INT'  do proxy.shutdown end
trap 'TERM' do proxy.shutdown end

proxy.start

Sending the request again, I couldn’t figure out what was wrong.

curl -x localhost:8080 localhost:8000

I got this output.

% ./proxy.rb
I, [2015-04-17T07:24:34.163790 #16247]  INFO -- : WEBrick 1.3.1
I, [2015-04-17T07:24:34.163912 #16247]  INFO -- : ruby 2.2.1 (2015-04-16) [x86_64-linux]
I, [2015-04-17T07:24:34.164231 #16247]  INFO -- : WEBrick::HTTPProxyServer#start: pid=16247 port=8080
D, [2015-04-17T07:24:59.846018 #16247] DEBUG -- : accept: ::1:38334
E, [2015-04-17T07:24:59.847385 #16247] ERROR -- : `/' not found.
localhost.localdomain - - [17/Apr/2015:07:24:59 CEST] "GET HTTP://localhost:8000/ HTTP/1.1" 404 270
- -> HTTP://localhost:8000/
D, [2015-04-17T07:24:59.847876 #16247] DEBUG -- : close: ::1:38334
<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0//EN">
<HTML>
  <HEAD><TITLE>Not Found</TITLE></HEAD>
  <BODY>
    <H1>Not Found</H1>
    `/' not found.
    <HR>
    <ADDRESS>
     WEBrick/1.3.1 (Ruby/2.2.1/2015-04-16) at
     localhost:8000
    </ADDRESS>
  </BODY>
</HTML>

Adding the -v-option to the curl-command provided me the information I needed to understand what the problem was.

curl -v -x localhost:8080 localhost:8000

The request line “HTTP://localhost:8000/ HTTP/1.1” looked strange.

% curl -v -x localhost:8080 localhost:8000
* Rebuilt URL to: localhost:8000/
*   Trying ::1...
* Connected to localhost (::1) port 8080 (#0)
> GET HTTP://localhost:8000/ HTTP/1.1
> User-Agent: curl/7.41.0
> Host: localhost:8000
> Accept: */*
> Proxy-Connection: Keep-Alive
>
< HTTP/1.1 404 Not Found
< Content-Type: text/html; charset=ISO-8859-1
< Server: WEBrick/1.3.1 (Ruby/2.2.1/2015-04-16)
< Date: Fri, 16 Apr 2015 05:26:01 GMT
< Content-Length: 270
< Connection: close
<
<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0//EN">
<HTML>
  <HEAD><TITLE>Not Found</TITLE></HEAD>
  <BODY>
    <H1>Not Found</H1>
    `/' not found.
    <HR>
    <ADDRESS>
     WEBrick/1.3.1 (Ruby/2.2.1/2015-04-16) at
     localhost:8000
    </ADDRESS>
  </BODY>
</HTML>
* Closing connection 0

I added http:// to the url and everything worked.

% curl -v -x localhost:8080 http://localhost:8000
* Rebuilt URL to: http://localhost:8000/
*   Trying ::1...
* Connected to localhost (::1) port 8080 (#0)
> GET http://localhost:8000/ HTTP/1.1
> User-Agent: curl/7.41.0
> Host: localhost:8000
> Accept: */*
> Proxy-Connection: Keep-Alive
>
< HTTP/1.1 200 OK
* HTTP/1.1 proxy connection set close!
< Proxy-Connection: close
< Connection: close
< Server: WEBrick/1.3.1 (Ruby/2.2.1/2015-04-16)
< Date: Fri, 16 Apr 2015 05:27:11 GMT
< Content-Length: 24
< Via: 1.1 vrml0067_01.in.vrnetze.de:8080
<
* Closing connection 0
Example Domain Cleartext

Startup of servers and proxies

You may wonder, that sometimes it took some minutes for webrick to start up. You need to have your DNS resolution working if your computer is connected to a network. Otherwise it takes longer to start up the HTTP(S) servers and the proxies: webrick tries to determine its hostname. If the configured DNS servers are not reachable, webrick will wait until the connection to the DNS server(s) times out before starting up.

Conclusion

webrick is not a perfect solution to setup an HTTP proxy, but is easy to use and has all needed features for my use case.

The End

Thanks for reading!

Further Reading

  1. https://code.google.com/p/doppelganger/
  2. https://mitmproxy.org/
  3. https://github.com/elazarl/goproxy

Discussion

If you found a mistake in this article or would like to contribute some content to it, please file an issue in this Git Repository

Disclaimer

The contents of this article are put together to the best of the authors' knowledge, but it cannot be guaranteed that it's always accurate in any environment. It is up to the reader to make sure that all information found in this article, does not do any damage to the reader's working environment or wherever this information is applied to. In no event shall the authors or copyright holders be liable for any claim, damages or other liability, arising from, out of or in connection with this article. Please also note the information given on the Imprint' page.