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+:mod:`mozrunner` --- Manage remote and local gecko processes
+============================================================
+
+Mozrunner provides an API to manage a gecko-based application with an
+arbitrary configuration profile. It currently supports local desktop
+binaries such as Firefox and Thunderbird, as well as Firefox OS on
+mobile devices and emulators.
+
+
+Basic usage
+-----------
+
+The simplest way to use mozrunner, is to instantiate a runner, start it
+and then wait for it to finish:
+
+.. code-block:: python
+
+    from mozrunner import FirefoxRunner
+    binary = 'path/to/firefox/binary'
+    runner = FirefoxRunner(binary=binary)
+    runner.start()
+    runner.wait()
+
+This automatically creates and uses a default mozprofile object. If you
+wish to use a specialized or pre-existing profile, you can create a
+:doc:`mozprofile <mozprofile>` object and pass it in:
+
+.. code-block:: python
+
+    from mozprofile import FirefoxProfile
+    from mozrunner import FirefoxRunner
+    import os
+
+    binary = 'path/to/firefox/binary'
+    profile_path = 'path/to/profile'
+    if os.path.exists(profile_path):
+        profile = FirefoxProfile.clone(path_from=profile_path)
+    else:
+        profile = FirefoxProfile(profile=profile_path)
+    runner = FirefoxRunner(binary=binary, profile=profile)
+    runner.start()
+    runner.wait()
+
+
+Handling output
+---------------
+
+By default, mozrunner dumps the output of the gecko process to standard output.
+It is possible to add arbitrary output handlers by passing them in via the
+`process_args` argument. Be careful, passing in a handler overrides the default
+behaviour. So if you want to use a handler in addition to dumping to stdout, you
+need to specify that explicitly. For example:
+
+.. code-block:: python
+
+    from mozrunner import FirefoxRunner
+
+    def handle_output_line(line):
+        do_something(line)
+
+    binary = 'path/to/firefox/binary'
+    process_args = { 'stream': sys.stdout,
+                     'processOutputLine': [handle_output_line] }
+    runner = FirefoxRunner(binary=binary, process_args=process_args)
+
+Mozrunner uses :doc:`mozprocess <mozprocess>` to manage the underlying gecko
+process and handle output. See the :doc:`mozprocess documentation <mozprocess>`
+for all available arguments accepted by `process_args`.
+
+
+Handling timeouts
+-----------------
+
+Sometimes gecko can hang, or maybe it is just taking too long. To handle this case you
+may want to set a timeout. Mozrunner has two kinds of timeouts, the
+traditional `timeout`, and the `outputTimeout`. These get passed into the
+`runner.start()` method. Setting `timeout` will cause gecko to be killed after
+the specified number of seconds, no matter what. Setting `outputTimeout` will cause
+gecko to be killed after the specified number of seconds with no output. In both
+cases the process handler's `onTimeout` callbacks will be triggered.
+
+.. code-block:: python
+
+    from mozrunner import FirefoxRunner
+
+    def on_timeout():
+        print('timed out after 10 seconds with no output!')
+
+    binary = 'path/to/firefox/binary'
+    process_args = { 'onTimeout': on_timeout }
+    runner = FirefoxRunner(binary=binary, process_args=process_args)
+    runner.start(outputTimeout=10)
+    runner.wait()
+
+The `runner.wait()` method also accepts a timeout argument. But unlike the arguments
+to `runner.start()`, this one simply returns from the wait call and does not kill the
+gecko process.
+
+.. code-block:: python
+
+    runner.start(timeout=100)
+
+    waiting = 0
+    while runner.wait(timeout=1) is None:
+        waiting += 1
+        print("Been waiting for %d seconds so far.." % waiting)
+    assert waiting <= 100
+
+
+Using a device runner
+---------------------
+
+The previous examples used a GeckoRuntimeRunner. If you want to control a
+gecko process on a remote device, you need to use a DeviceRunner. The api is
+nearly identical except you don't pass in a binary, instead you create a device
+object. For example to run Firefox for Android on the emulator, you might do:
+
+.. code-block:: python
+
+    from mozrunner import FennecEmulatorRunner
+
+    avd_home = 'path/to/avd'
+    runner = FennecEmulatorRunner(app='org.mozilla.fennec', avd_home=avd_home)
+    runner.start()
+    runner.wait()
+
+Device runners have a `device` object. Remember that the gecko process runs on
+the device. In the case of the emulator, it is possible to start the
+device independently of the gecko process.
+
+.. code-block:: python
+
+    runner.device.start() # launches the emulator
+    runner.start()        # stops the gecko process (if started), installs the profile, (re)starts the gecko process
+
+
+Runner API Documentation
+------------------------
+
+Application Runners
+~~~~~~~~~~~~~~~~~~~
+.. automodule:: mozrunner.runners
+   :members:
+
+BaseRunner
+~~~~~~~~~~
+.. autoclass:: mozrunner.base.BaseRunner
+   :members:
+
+GeckoRuntimeRunner
+~~~~~~~~~~~~~~~~~~
+.. autoclass:: mozrunner.base.GeckoRuntimeRunner
+   :show-inheritance:
+   :members:
+
+BlinkRuntimeRunner
+~~~~~~~~~~~~~~~~~~
+.. autoclass:: mozrunner.base.BlinkRuntimeRunner
+   :show-inheritance:
+   :members:
+
+DeviceRunner
+~~~~~~~~~~~~
+.. autoclass:: mozrunner.base.DeviceRunner
+   :show-inheritance:
+   :members:
+
+Device API Documentation
+------------------------
+
+Generally using the device classes directly shouldn't be required, but in some
+cases it may be desirable.
+
+Device
+~~~~~~
+.. autoclass:: mozrunner.devices.Device
+   :members:
+
+EmulatorAVD
+~~~~~~~~~~~
+.. autoclass:: mozrunner.devices.EmulatorAVD
+   :show-inheritance:
+   :members: