ktims/usbd_uac2
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

more work on descriptor building, almost there

Browse Source 
also added the very early beginnings of an example to document how to
get speed
This commit is contained in:
Keenan Tims
2026-04-21 00:45:03 -07:00
parent c27db15fe9
commit ac6618a162
6 changed files with 855 additions and 131 deletions
Download Patch File Download Diff File Expand all files Collapse all files
src/lib.rs
+242 -122
View File
@@ -10,10 +10,8 @@ use core::marker::PhantomData;
use constants::*;
use descriptors::*;
use usb_device::control::{Recipient, Request, RequestType};
use usb_device::device::DEFAULT_ALTERNATE_SETTING;
use usb_device::class_prelude::*;
use usb_device::endpoint::{self, Endpoint, EndpointDirection, In, Out};
use usb_device::{UsbDirection, class_prelude::*};
mod sealed {
pub trait Sealed {}
@@ -165,42 +163,58 @@ pub trait UsbAudioClockSource {
}
}
// This trait is needed since we specialize on D
trait TerminalConfigurationDescriptors {
fn get_configuration_descriptors(&self) -> (InputTerminal, OutputTerminal);
}
pub struct TerminalConfig<D: EndpointDirection> {
/// USB terminal in the D direction will have this id, audio terminal will have this id + 1
base_id: u8,
clock_source_id: u8,
num_channels: u8,
format: FormatType1,
terminal_type: TerminalType,
channel_config: ChannelConfig,
sync_type: IsochronousSynchronizationType,
lock_delay: LockDelay,
string: Option<StringIndex>,
_direction: PhantomData<D>,
}
impl<'a, D: EndpointDirection> TerminalConfig<D> {
// TODO: builder pattern
impl<D: EndpointDirection> TerminalConfig<D> {
pub fn new(
base_id: u8,
clock_source_id: u8,
num_channels: u8,
format: FormatType1,
terminal_type: TerminalType,
channel_config: ChannelConfig,
sync_type: IsochronousSynchronizationType,
lock_delay: LockDelay,
string: Option<StringIndex>,
) -> Self {
TerminalConfig {
base_id,
clock_source_id,
num_channels,
format,
terminal_type,
channel_config,
sync_type,
lock_delay,
string,
_direction: PhantomData,
}
}
}
impl<'a> TerminalConfig<In> {
fn get_configuration_descriptors(&self, start_id: u8) -> (InputTerminal, OutputTerminal) {
impl<'a> TerminalConfigurationDescriptors for TerminalConfig<In> {
fn get_configuration_descriptors(&self) -> (InputTerminal, OutputTerminal) {
let input_terminal = InputTerminal {
id: start_id,
id: self.base_id,
terminal_type: TerminalType::UsbStreaming,
assoc_terminal: start_id + 1,
assoc_terminal: self.base_id + 1,
clock_source: self.clock_source_id,
num_channels: self.num_channels,
channel_config: self.channel_config,
@@ -215,10 +229,10 @@ impl<'a> TerminalConfig<In> {
string: None,
};
let output_terminal = OutputTerminal {
id: start_id + 1,
id: self.base_id + 1,
terminal_type: self.terminal_type,
assoc_terminal: start_id,
source_id: start_id,
assoc_terminal: self.base_id,
source_id: self.base_id,
clock_source: self.clock_source_id,
copy_protect_control: AccessControl::NotPresent,
connector_control: AccessControl::NotPresent,
@@ -232,13 +246,13 @@ impl<'a> TerminalConfig<In> {
// fn get_interface_descriptor(&self, id: InterfaceIndex) )
}
impl<'a> TerminalConfig<Out> {
fn get_configuration_descriptors(&self, start_id: u8) -> (OutputTerminal, InputTerminal) {
impl<'a> TerminalConfigurationDescriptors for TerminalConfig<Out> {
fn get_configuration_descriptors(&self) -> (InputTerminal, OutputTerminal) {
let output_terminal = OutputTerminal {
id: start_id,
id: self.base_id,
terminal_type: TerminalType::UsbStreaming,
assoc_terminal: start_id + 1,
source_id: start_id + 1,
assoc_terminal: self.base_id + 1,
source_id: self.base_id + 1,
clock_source: self.clock_source_id,
copy_protect_control: AccessControl::NotPresent,
connector_control: AccessControl::NotPresent,
@@ -248,9 +262,9 @@ impl<'a> TerminalConfig<Out> {
string: self.string,
};
let input_terminal = InputTerminal {
id: start_id + 1,
id: self.base_id + 1,
terminal_type: self.terminal_type,
assoc_terminal: start_id,
assoc_terminal: self.base_id,
clock_source: self.clock_source_id,
num_channels: self.num_channels,
channel_config: self.channel_config,
@@ -264,34 +278,42 @@ impl<'a> TerminalConfig<Out> {
phantom_power_control: AccessControl::NotPresent,
string: self.string,
};
(output_terminal, input_terminal)
(input_terminal, output_terminal)
}
fn write_interface_descriptors(
&self,
writer: &mut DescriptorWriter,
if_id: InterfaceNumber,
) -> usb_device::Result<()> {
writer.interface(
if_id,
AUDIO,
InterfaceSubclass::AudioStreaming as u8,
InterfaceProtocol::Version2 as u8,
)?;
writer.interface_alt(
if_id,
1,
AUDIO,
InterfaceSubclass::AudioStreaming as u8,
InterfaceProtocol::Version2 as u8,
None,
)?;
}
impl<D: EndpointDirection> TerminalConfig<D> {}
// TODO:
// 1. Interface specific AS_GENERAL descriptor (4.9.2)
// 2. Format Type I descriptor
// 3. Endpoint descriptor
#[derive(Copy, Clone, Debug)]
pub enum UsbSpeed {
Low, // Not supported for audio
Full,
High,
Super, // Not supported by crate
}
Ok(())
/// Since usb-device doesn't expose the underlying speed of the bus, the user needs to provide an implementation.
///
///
///
/// This will be called whenever descriptors are sent to the host..
pub trait UsbSpeedProvider {
fn speed(&self) -> UsbSpeed;
}
/// Convenience implementation of UsbSpeedProvider for devices which only support one speed.
pub struct ConstSpeedProvider {
speed: UsbSpeed,
}
impl ConstSpeedProvider {
pub const fn new(speed: UsbSpeed) -> Self {
ConstSpeedProvider { speed }
}
}
impl UsbSpeedProvider for ConstSpeedProvider {
fn speed(&self) -> UsbSpeed {
self.speed
}
}
@@ -313,7 +335,8 @@ impl<'a> TerminalConfig<Out> {
/// A single Clock Source is always required, but a fully custom descriptor set can be built by only providing
/// the Clock Source and additional descriptors, if the Terminal descriptors are inappropriate.
///
pub struct AudioClassConfig<'a, CS: UsbAudioClockSource> {
pub struct AudioClassConfig<'a, CS: UsbAudioClockSource, SP: UsbSpeedProvider> {
pub speed_provider: SP,
pub device_category: FunctionCode,
pub clock: CS,
pub input_config: Option<TerminalConfig<Out>>,
@@ -321,9 +344,10 @@ pub struct AudioClassConfig<'a, CS: UsbAudioClockSource> {
pub additional_descriptors: Option<&'a [AudioClassDescriptor]>,
}
impl<'a, CS: UsbAudioClockSource> AudioClassConfig<'a, CS> {
pub fn new(device_category: FunctionCode, clock: CS) -> Self {
impl<'a, SP: UsbSpeedProvider, CS: UsbAudioClockSource> AudioClassConfig<'a, CS, SP> {
pub fn new(speed_provider: SP, device_category: FunctionCode, clock: CS) -> Self {
Self {
speed_provider,
device_category,
clock,
input_config: None,
@@ -346,67 +370,10 @@ impl<'a, CS: UsbAudioClockSource> AudioClassConfig<'a, CS> {
self.additional_descriptors = Some(additional_descriptors);
self
}
/// Writes the class-specific configuration descriptor set (after bDescriptortype INTERFACE)
fn get_configuration_descriptors(
&self,
writer: &mut DescriptorWriter<'_>,
) -> usb_device::Result<()> {
// CONFIGURATION DESCRIPTORS //
let mut total_length: u16 = 9; // HEADER
let clock_desc = self.clock.get_configuration_descriptor(1, None)?;
total_length += clock_desc.size() as u16;
let output_descs = match &self.output_config {
Some(config) => {
let descs = config.get_configuration_descriptors(2);
total_length += descs.0.size() as u16 + descs.1.size() as u16;
Some(descs)
}
None => None,
};
let input_descs = match &self.input_config {
Some(config) => {
let descs = config.get_configuration_descriptors(4);
total_length += descs.0.size() as u16 + descs.1.size() as u16;
Some(descs)
}
None => None,
};
let additional_descs = match &self.additional_descriptors {
Some(descs) => {
total_length += descs.iter().map(|desc| desc.size() as u16).sum::<u16>();
Some(descs)
}
None => None,
};
let ac_header: [u8; 7] = [
ClassSpecificACInterfaceDescriptorSubtype::Header as u8,
0, // bcdADC[0]
2, // bcdADC[1]
self.device_category as u8, // bCategory
(total_length & 0xff) as u8, // wTotalLength LSB
((total_length >> 8) & 0xff) as u8, // wTotalLength MSB
0, // bmControls
];
writer.write(ClassSpecificDescriptorType::Interface as u8, &ac_header)?;
clock_desc.write_descriptor(writer)?;
if let Some((a, b)) = output_descs {
a.write_descriptor(writer)?;
b.write_descriptor(writer)?;
}
if let Some((a, b)) = input_descs {
a.write_descriptor(writer)?;
b.write_descriptor(writer)?;
}
if let Some(descs) = additional_descs {
for desc in descs.into_iter() {
desc.write_descriptor(writer)?;
}
}
// INTERFACE DESCRIPTORS //
Ok(())
}
// pub fn build<'a, B: UsbBus>(self, alloc: &'a UsbBusAllocator) -> Result<AudioClass<'a, B>> {
// Err(Error::InvalidValue)
// }
}
/// USB audio errors, including possible USB Stack errors
@@ -426,44 +393,197 @@ impl From<UsbError> for Error {
type Result<T> = core::result::Result<T, Error>;
struct AudioStream<'a, B: UsbBus, D: EndpointDirection> {
// UsbStreaming terminal ID
config: TerminalConfig<D>,
interface: InterfaceNumber,
endpoint: Endpoint<'a, B, D>,
alt_setting: u8,
}
pub struct AudioClass<'a, CS: UsbAudioClockSource> {
control_iface: InterfaceNumber,
config: AudioClassConfig<'a, CS>,
impl<'a, B: UsbBus, D: EndpointDirection> AudioStream<'a, B, D> {
fn write_interface_descriptors(&self, writer: &mut DescriptorWriter) -> usb_device::Result<()> {
// UAC2 4.9.1 Standard AS Interface Descriptor
// zero bandwidth configuration per 3.16.2
//
// Whenever an AudioStreaming interface requires an isochronous data
// endpoint, it must at least provide the default Alternate Setting
// (Alternate Setting 0) with zero bandwidth requirements (no
// isochronous data endpoint defined) and an additional Alternate
// Setting that contains the actual isochronous data endpoint.
writer.interface(
self.interface,
AUDIO,
InterfaceSubclass::AudioStreaming as u8,
InterfaceProtocol::Version2 as u8,
)?;
// UAC2 4.9.1 Standard AS Interface Descriptor
// live data configuration
writer.interface_alt(
self.interface,
1,
AUDIO,
InterfaceSubclass::AudioStreaming as u8,
InterfaceProtocol::Version2 as u8,
None,
)?;
// UAC2 4.9.2 Class-Specific AS Interface Descriptor
let as_general = AudioStreamingInterface {
terminal_id: self.config.base_id, // Always the USB streaming terminal id
active_alt_setting: AccessControl::NotPresent,
valid_alt_settings: AccessControl::NotPresent,
format_type: FormatType::Type1,
format_bitmap: Type1FormatBitmap::Pcm, // only PCM is supported
num_channels: self.config.num_channels,
channel_config: self.config.channel_config,
string: self.config.string,
};
as_general.write_descriptor(writer)?;
// UAC2 4.9.3 Class-Specific AS Format Type Descriptor
self.config.format.write_descriptor(writer)?;
Ok(())
}
fn write_endpoint_descriptors(&self, writer: &mut DescriptorWriter) -> usb_device::Result<()> {
// UAC2 4.10.1.1 Standard AS Isochronous Audio Data Endpoint Descriptor
writer.endpoint(&self.endpoint)?;
// UAC2 4.10.1.2 Class-Specific AS Isochronous Audio Data Endpoint Descriptor
let cs_ep = AudioStreamingEndpoint {
max_packets_only: false,
pitch_control: AccessControl::NotPresent,
overrun_control: AccessControl::NotPresent,
underrun_control: AccessControl::NotPresent,
lock_delay: self.config.lock_delay,
};
cs_ep.write_descriptor(writer)?;
Ok(())
}
}
impl<CS: UsbAudioClockSource> AudioClass<'_, CS> {}
pub struct AudioClass<'a, B: UsbBus, CS: UsbAudioClockSource, SP: UsbSpeedProvider> {
config: AudioClassConfig<'a, CS, SP>,
control_iface: InterfaceNumber,
output: Option<AudioStream<'a, B, Out>>,
input: Option<AudioStream<'a, B, In>>,
feedback: Option<Endpoint<'a, B, In>>,
}
impl<B: UsbBus, CS: UsbAudioClockSource> UsbClass<B> for AudioClass<'_, CS> {
fn get_configuration_descriptors(
&self,
writer: &mut DescriptorWriter,
) -> usb_device::Result<()> {
// IN, OUT, CONTROL
let n_interfaces = self.config.input_config.is_some() as u8
+ self.config.output_config.is_some() as u8
+ 1;
impl<'a, B: UsbBus, CS: UsbAudioClockSource, SP: UsbSpeedProvider> AudioClass<'a, B, CS, SP> {
fn get_interface_descriptors(&self, writer: &mut DescriptorWriter) -> usb_device::Result<()> {
// Control + 1 or 2 streaming
let n_interfaces = 1
+ (self.config.input_config.is_some() as u8)
+ (self.config.output_config.is_some() as u8);
// UAC2 4.6 Interface Association Descriptor
writer.iad(
self.control_iface,
n_interfaces,
AUDIO,
FunctionSubclass::Undefined as u8,
InterfaceSubclass::AudioControl as u8,
FunctionProtocol::Version2 as u8,
None,
)?;
// UAC2 4.7 Standard AC Interface Descriptor
writer.interface(
self.control_iface,
0,
AUDIO,
InterfaceSubclass::AudioControl as u8,
InterfaceProtocol::Version2 as u8,
)?;
self.config.get_configuration_descriptors(writer)?;
// BUILD CONFIGURATION DESCRIPTORS //
let mut total_length: u16 = 9; // HEADER
let clock_desc = self.config.clock.get_configuration_descriptor(1, None)?;
total_length += clock_desc.size() as u16;
let output_descs = match &self.config.output_config {
Some(config) => {
let descs = config.get_configuration_descriptors();
total_length += descs.0.size() as u16 + descs.1.size() as u16;
Some(descs)
}
None => None,
};
let input_descs = match &self.config.input_config {
Some(config) => {
let descs = config.get_configuration_descriptors();
total_length += descs.0.size() as u16 + descs.1.size() as u16;
Some(descs)
}
None => None,
};
let additional_descs = match &self.config.additional_descriptors {
Some(descs) => {
total_length += descs.iter().map(|desc| desc.size() as u16).sum::<u16>();
Some(descs)
}
None => None,
};
// UAC2 4.7.2 Class-specific AC Interface Descriptor
let ac_header: [u8; 7] = [
ClassSpecificACInterfaceDescriptorSubtype::Header as u8,
0, // bcdADC[0]
2, // bcdADC[1]
self.config.device_category as u8, // bCategory
(total_length & 0xff) as u8, // wTotalLength LSB
((total_length >> 8) & 0xff) as u8, // wTotalLength MSB
0, // bmControls
];
writer.write(ClassSpecificDescriptorType::Interface as u8, &ac_header)?;
// UAC2 4.7.2.1 Clock Source Descriptor
clock_desc.write_descriptor(writer)?;
// UAC2 4.7.2.4 & 4.7.2.5 Input & Output Terminal Descriptors
if let Some((a, b)) = output_descs {
a.write_descriptor(writer)?;
b.write_descriptor(writer)?;
}
if let Some((a, b)) = input_descs {
a.write_descriptor(writer)?;
b.write_descriptor(writer)?;
}
// UAC2 4.7
if let Some(descs) = additional_descs {
for desc in descs.into_iter() {
desc.write_descriptor(writer)?;
}
}
// UAC2 4.9 & 2.4.10
if let Some(stream) = &self.output {
stream.write_interface_descriptors(writer)?;
stream.write_endpoint_descriptors(writer)?;
}
// UAC2 4.9.2.1 Feedback Endpoint Descriptor
// Should always be present if an OUT endpoint is present
if let Some(feedback) = &self.feedback {
writer.endpoint(feedback)?;
}
if let Some(stream) = &self.input {
stream.write_interface_descriptors(writer)?;
stream.write_endpoint_descriptors(writer)?;
}
Ok(())
}
}
impl<B: UsbBus, CS: UsbAudioClockSource, SP: UsbSpeedProvider> UsbClass<B>
for AudioClass<'_, B, CS, SP>
{
/// Writes the class-specific configuration descriptor set (after bDescriptortype INTERFACE)
fn get_configuration_descriptors(
&self,
writer: &mut DescriptorWriter<'_>,
) -> usb_device::Result<()> {
self.get_interface_descriptors(writer)?;
Ok(())
}