__mitmproxy__ has a powerful scripting API that allows you to modify flows
on-the-fly or rewrite previously saved flows locally. 

The mitmproxy scripting API is event driven - a script is simply a Python
module that exposes a set of event methods. Here's a complete mitmproxy script
that adds a new header to every HTTP response before it is returned to the
client:

$!example("examples/add_header.py")!$

The first argument to each event method is an instance of ScriptContext that
lets the script interact with the global mitmproxy state. The __response__
event also gets an instance of Flow, which we can use to manipulate the
response itself.


## Events

### start(ScriptContext)

Called once on startup, before any other events.


### clientconnect(ScriptContext, ClientConnect)

Called when a client initiates a connection to the proxy. Note that
a connection can correspond to multiple HTTP requests.


### request(ScriptContext, Flow)

Called when a client request has been received. The __Flow__ object is
guaranteed to have a non-None __request__ attribute.


### response(ScriptContext, Flow)

Called when a server response has been received. The __Flow__ object is
guaranteed to have non-None __request__ and __response__ attributes.


### error(ScriptContext, Flow)

Called when a flow error has occurred, e.g. invalid server responses, or
interrupted connections. This is distinct from a valid server HTTP error
response, which is simply a response with an HTTP error code. The __Flow__
object is guaranteed to have non-None __request__ and __error__ attributes.


### clientdisconnect(ScriptContext, ClientDisconnect)

Called when a client disconnects from the proxy.

### done(ScriptContext)

Called once on script shutdown, after any other events.


## API

The main classes you will deal with in writing mitmproxy scripts are:

<table class="kvtable">
    <tr>
        <th>libmproxy.flow.ClientConnection</th>
        <td>Describes a client connection.</td>
    </tr>
    <tr>
        <th>libmproxy.flow.ClientDisconnection</th>
        <td>Describes a client disconnection.</td>
    </tr>
    <tr>
        <th>libmproxy.flow.Error</th>
        <td>A communications error.</td>
    </tr>
    <tr>
        <th>libmproxy.flow.Flow</th>
        <td>A collection of objects representing a single HTTP transaction.</td>
    </tr>
    <tr>
        <th>libmproxy.flow.Headers</th>
        <td>HTTP headers for a request or response.</td>
    </tr>
    <tr>
        <th>libmproxy.flow.ODict</th>

        <td>A dictionary-like object for managing sets of key/value data. There
        is also a variant called CaselessODict that ignores key case for some
        calls (used mainly for headers).</td>
    </tr>
    <tr>
        <th>libmproxy.flow.Response</th>
        <td>An HTTP response.</td>
    </tr>
    <tr>
        <th>libmproxy.flow.Request</th>
        <td>An HTTP request.</td>
    </tr>
    <tr>
        <th>libmproxy.flow.ScriptContext</th>
        <td> A handle for interacting with mitmproxy's from within scripts.  </td>
    </tr>
    <tr>
        <th>libmproxy.certutils.SSLCert</th>
        <td>Exposes information SSL certificates.</td>
    </tr>
</table>

The canonical API documentation is the code. You can view the API documentation
using pydoc (which is installed with Python by default), like this:

<pre class="terminal">
> pydoc libmproxy.flow.Request
</pre>


## Running scripts on saved flows

Sometimes, we want to run a script on __Flow__ objects that are already
complete.  This happens when you start a script, and then load a saved set of
flows from a file (see the "scripted data transformation" example on the
[mitmdump](@!urlTo("mitmdump.html")!@) page). It also happens when you run a
one-shot script on a single flow through the _|_ (pipe) shortcut in mitmproxy.

In this case, there are no client connections, and the events are run in the
following order: __start__, __request__, __response__, __error__, __done__.  If
the flow doesn't have a __response__ or __error__ associated with it, the
matching event will be skipped.