[][src]Trait usb_device::class::UsbClass

pub trait UsbClass<B: UsbBus> {
    fn get_configuration_descriptors(
        &self,
        writer: &mut DescriptorWriter
    ) -> Result<()> { ... }
fn get_string(&self, index: StringIndex, lang_id: u16) -> Option<&str> { ... }
fn reset(&mut self) { ... }
fn poll(&mut self) { ... }
fn control_out(&mut self, xfer: ControlOut<B>) { ... }
fn control_in(&mut self, xfer: ControlIn<B>) { ... }
fn endpoint_setup(&mut self, addr: EndpointAddress) { ... }
fn endpoint_out(&mut self, addr: EndpointAddress) { ... }
fn endpoint_in_complete(&mut self, addr: EndpointAddress) { ... } }

A trait for implementing USB classes.

All methods are optional callbacks that will be called by UsbBus::poll

Provided methods

fn get_configuration_descriptors(
    &self,
    writer: &mut DescriptorWriter
) -> Result<()>

Called when a GET_DESCRIPTOR request is received for a configuration descriptor. When called, the implementation should write its interface, endpoint and any extra class descriptors into writer. The configuration descriptor itself will be written by UsbDevice and shouldn't be written by classes.

Errors

Generally errors returned by DescriptorWriter. Implementors should propagate any errors using ?.

fn get_string(&self, index: StringIndex, lang_id: u16) -> Option<&str>

Gets a class-specific string descriptor.

Note: All string descriptor requests are passed to all classes in turn, so implementations should return None if an unknown index is requested.

Arguments

  • index - A string index allocated earlier with UsbAllocator.
  • lang_id - The language ID for the string to retrieve.

fn reset(&mut self)

Called after a USB reset after the bus reset sequence is complete.

fn poll(&mut self)

Called whenever the UsbDevice is polled.

fn control_out(&mut self, xfer: ControlOut<B>)

Called when a control request is received with direction HostToDevice.

All requests are passed to classes in turn, which can choose to accept, ignore or report an error. Classes can even choose to override standard requests, but doing that is rarely necessary.

See ControlOut for how to respond to the transfer.

When implementing your own class, you should ignore any requests that are not meant for your class so that any other classes in the composite device can process them.

Arguments

  • req - The request from the SETUP packet.
  • xfer - A handle to the transfer.

fn control_in(&mut self, xfer: ControlIn<B>)

Called when a control request is received with direction DeviceToHost.

All requests are passed to classes in turn, which can choose to accept, ignore or report an error. Classes can even choose to override standard requests, but doing that is rarely necessary.

See ControlIn for how to respond to the transfer.

When implementing your own class, you should ignore any requests that are not meant for your class so that any other classes in the composite device can process them.

Arguments

  • req - The request from the SETUP packet.
  • data - Data to send in the DATA stage of the control transfer.

fn endpoint_setup(&mut self, addr: EndpointAddress)

Called when endpoint with address addr has received a SETUP packet. Implementing this shouldn't be necessary in most cases, but is provided for completeness' sake.

Note: This method may be called for an endpoint address you didn't allocate, and in that case you should ignore the event.

fn endpoint_out(&mut self, addr: EndpointAddress)

Called when endpoint with address addr has received data (OUT packet).

Note: This method may be called for an endpoint address you didn't allocate, and in that case you should ignore the event.

fn endpoint_in_complete(&mut self, addr: EndpointAddress)

Called when endpoint with address addr has completed transmitting data (IN packet).

Note: This method may be called for an endpoint address you didn't allocate, and in that case you should ignore the event.

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Implementors

impl<'_, B: UsbBus> UsbClass<B> for TestClass<'_, B>[src]

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