Rock

the Robot Construction Kit

Devices

In robot software, devices are very specific things. All the devices form the interface of the software with the external world. Moreover, in a component-oriented system like the one we are manipulating in Syskit, devices are unique: while it is possible to instanciate multiple image processing components, a robot cannot arbitrarily spawn a new camera.

For these reasons, devices have a specialized place in Syskit as well. This is because:

  • devices are unique, for the reason above
  • devices are the source of all data. Therefore, they have a special place when looking at the dataflow (more on that in a later section.

In Syskit, devices are defined as a special kind of data service. You need to know about data services first.

We will start about how these things are modelled. Note that some of the sections on this page are marked as advanced. It is fine to skip them on a first reading, only to come back later when they are needed.

Declaring devices

Device models are specialized forms of data services. They are declared in the same way than data services, but instead using the device_type stanza instead of the data_service_type one.

Generation A template file for a new device, which follows syskit naming and filesystem convention, can be generated with

syskit gen dev name/of_device

For instance, running the following command in the rock bundle

syskit gen dev cameras/prosilica

will generate the Rock::Devices::Cameras::Prosilica device type in models/devices/cameras/prosilica.rb and update models/devices.rb as well as models/devices/cameras.rb to require the new file(s).

Naming Devices are defined under the Devices module in the models/devices/ folder. The goal, when declaring devices, is to refer to the device as precisely as possible. I.e. one would never declare a Camera device. Instead, it would declare a FirewireCamera or a ProsilicaCamera. For instance:

device_type "Camera" do
provides Services::ImageProvider
end

In Rock, all devices are categorized within the Devices namespace. See models/devices/categories.rb in the rock bundle for a common categorization

Communication Busses

A special type of device is a communication bus. The busses are meant to provide multiplexing/demultiplexing for other devices. They are handled directly by Syskit, which has major advantages:

  • it avoids the need to create a composition per device that is attached to the bus (the solution one would have so far).
  • once support for a given type of communication bus is written, any device conforming to the Syskit combus conventions can use it.
  • the combus-to-driver relationship is setup in a meaningful way (i.e. com bus is started before the driver and stopped afterwards).

A communication bus type is declared with

com_bus_type('Canbus', message_type: '/canbus/Message')

where the message type is the type of the input/output ports that are used to communicate with that type of communication bus. It is customary to define the busses under the Dev::Bus namespace (see models/devices/categories.rb in the rock bundle for a common hierarchy).

Generation A template file for a new com bus, which follows syskit naming and filesystem convention, can be generated with

syskit gen bus name/of_bus

For instance, running the following command in the rock bundle

syskit gen dev schilling_dts

will generate the Rock::Devices::Bus::SchillingDts bus type in models/devices/bus/schilling_dts.rb and update both models/devices/bus.rb as well as models/devices.rb to require the new file(s).

Declaring Device Drivers

In order to use a device at runtime, one has to have a device driver, that is a task context that is declared as being able to interface with that device.

This relationship is declared with the driver_for stanza. For instance, in models/orogen/camera_prosilica.rb, one writes:

class OroGen::CameraProsilica::Task
driver_for Rock::Devices::CameraProsilica
end

To import the device definitions from other bundles, one has to do:

require 'rock/models/devices/camera_prosilica'

i.e. prefix the device file path with the bundle’s name.

Robot Definitions

Device and combus models are used to describe the interface to the robot hardware. This is done in profiles using a robot block:

profile 'MyRobot' do
robot do
 device(Devices::CameraProsilica, as: 'left_camera')
 device(Devices::CameraProsilica, as: 'right_camera')
end
end

Once defined, the devices can be referred to in the rest of the profile with the devicename_dev form (e.g. left_camera_dev above). For instance:

syskit_profile 'MyRobot' do
robot do
 device(Devices::CameraProsilica, as: 'left_camera')
 device(Devices::CameraProsilica, as: 'right_camera')
end
define 'left_image', Compositions::ImageProcessingPipeline.use(left_camera_dev)
end

If only one device driver is available for a given device, is is automatically selected. Otherwise, one has to select it explicitly in the device declaration:

device Devices::CameraProsilica, using: OroGen::AlternativeDriver::Task

We will see later on that the device model can hold important information about the device, such as the expected update rate. This information can be accessed from the task context’s configure method with:

class OroGen::CameraProsilica::Task
def configure
 super
 robot_device # => the Syskit::Robot::MasterDeviceInstance
              #    object that describes the device this
              #    component is interfaced with.
end
end

Combus Support (Advanced)

Communication bus support in Syskit relies on the following conventions:

  • the device driver must have at least one input or output of the combus message type (it can obviously have both, but having none is an error)
  • if the device driver expects an output, the communication bus driver may either have a single input port of the combus message type, or declares a dynamic input port of the message type
  • if the device driver expects an input, the communication bus driver must declare a dynamic output port of the combus message type

The convention that the combus driver must follow for dynamic ports is that the ports should be created at configuration time, and should be named wdevice_name and device_name, where ‘device_name’ is the name of the attached device. This configuration is usually done in the combus configure method

For instance, let’s consider the combus declaration from above

com_bus(Devices::Bus::Canbus, :as => 'can0')
through 'can0' do
device(Devices::Actuators::Hbridge, :as => 'actuators').
end

The actuator device driver need both input and output through the communication bus. The driver therefore declares an input port and an output port of the /canbus/Message type. These names are arbitrary.

The canbus component declares a static input port of the /canbus/Message type. This is going to be used for all data that should be sent to the bus. For the bus-to-driver part, it declares a dynamic output port with

dynamic_output_port /.*/, "canbus/Message"

The usage of the hbridge driver attached to the can combus is therefore valid from Syskit’s point of view, and the network generation will succeed.

At runtime, Syskit will require the combus component to create, during configuration, an output port of the same name than the device (i.e. “actuators”). This creation is done in the combus configure method. For instance (forget about the can_id thing for now, this is a quite advanced topic that will be explained later).

class OroGen::Combus::Task
def configure
 super
 each_attached_device do |dev|
   can_id, can_mask = dev.can_id
   name = dev.name
   Robot.info "#{bus_name}: watching #{name} on 0x#{can_id.to_s(16)}/#{can_mask.to_s(16)}"
   orogen_task.watch(name, can_id, can_mask)
 end
end
end