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feat(usb): make use of ISO endpoint support

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This commit is contained in:
elagil 2024-09-05 21:29:24 +02:00
parent d37c482e21
commit a8ca6713e6
2 changed files with 206 additions and 25 deletions
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140
embassy-usb/src/builder.rs
View File

@ -1,8 +1,8 @@
use heapless::Vec; use heapless::Vec;
use crate::config::MAX_HANDLER_COUNT; use crate::config::MAX_HANDLER_COUNT;
use crate::descriptor::{BosWriter, DescriptorWriter}; use crate::descriptor::{BosWriter, DescriptorWriter, SynchronizationType, UsageType};
use crate::driver::{Driver, Endpoint, EndpointType}; use crate::driver::{Driver, Endpoint, EndpointInfo, EndpointType};
use crate::msos::{DeviceLevelDescriptor, FunctionLevelDescriptor, MsOsDescriptorWriter}; use crate::msos::{DeviceLevelDescriptor, FunctionLevelDescriptor, MsOsDescriptorWriter};
use crate::types::{InterfaceNumber, StringIndex}; use crate::types::{InterfaceNumber, StringIndex};
use crate::{Handler, Interface, UsbDevice, MAX_INTERFACE_COUNT, STRING_INDEX_CUSTOM_START}; use crate::{Handler, Interface, UsbDevice, MAX_INTERFACE_COUNT, STRING_INDEX_CUSTOM_START};
@ -414,7 +414,7 @@ impl<'a, 'd, D: Driver<'d>> InterfaceAltBuilder<'a, 'd, D> {
/// Descriptors are written in the order builder functions are called. Note that some /// Descriptors are written in the order builder functions are called. Note that some
/// classes care about the order. /// classes care about the order.
pub fn descriptor(&mut self, descriptor_type: u8, descriptor: &[u8]) { pub fn descriptor(&mut self, descriptor_type: u8, descriptor: &[u8]) {
self.builder.config_descriptor.write(descriptor_type, descriptor); self.builder.config_descriptor.write(descriptor_type, descriptor, &[]);
} }
/// Add a custom Binary Object Store (BOS) descriptor to this alternate setting. /// Add a custom Binary Object Store (BOS) descriptor to this alternate setting.
@ -422,26 +422,80 @@ impl<'a, 'd, D: Driver<'d>> InterfaceAltBuilder<'a, 'd, D> {
self.builder.bos_descriptor.capability(capability_type, capability); self.builder.bos_descriptor.capability(capability_type, capability);
} }
fn endpoint_in(&mut self, ep_type: EndpointType, max_packet_size: u16, interval_ms: u8) -> D::EndpointIn { /// Write a custom endpoint descriptor for a certain endpoint.
///
/// This can be necessary, if the endpoint descriptors can only be written
/// after the endpoint was created. As an example, an endpoint descriptor
/// may contain the address of an endpoint that was allocated earlier.
pub fn endpoint_descriptor(
&mut self,
endpoint: &EndpointInfo,
synchronization_type: SynchronizationType,
usage_type: UsageType,
extra_fields: &[u8],
) {
self.builder
.config_descriptor
.endpoint(endpoint, synchronization_type, usage_type, extra_fields);
}
/// Allocate an IN endpoint, without writing its descriptor.
///
/// Used for granular control over the order of endpoint and descriptor creation.
pub fn alloc_endpoint_in(&mut self, ep_type: EndpointType, max_packet_size: u16, interval_ms: u8) -> D::EndpointIn {
let ep = self let ep = self
.builder .builder
.driver .driver
.alloc_endpoint_in(ep_type, max_packet_size, interval_ms) .alloc_endpoint_in(ep_type, max_packet_size, interval_ms)
.expect("alloc_endpoint_in failed"); .expect("alloc_endpoint_in failed");
self.builder.config_descriptor.endpoint(ep.info()); ep
}
fn endpoint_in(
&mut self,
ep_type: EndpointType,
max_packet_size: u16,
interval_ms: u8,
synchronization_type: SynchronizationType,
usage_type: UsageType,
extra_fields: &[u8],
) -> D::EndpointIn {
let ep = self.alloc_endpoint_in(ep_type, max_packet_size, interval_ms);
self.endpoint_descriptor(ep.info(), synchronization_type, usage_type, extra_fields);
ep ep
} }
fn endpoint_out(&mut self, ep_type: EndpointType, max_packet_size: u16, interval_ms: u8) -> D::EndpointOut { /// Allocate an OUT endpoint, without writing its descriptor.
///
/// Use for granular control over the order of endpoint and descriptor creation.
pub fn alloc_endpoint_out(
&mut self,
ep_type: EndpointType,
max_packet_size: u16,
interval_ms: u8,
) -> D::EndpointOut {
let ep = self let ep = self
.builder .builder
.driver .driver
.alloc_endpoint_out(ep_type, max_packet_size, interval_ms) .alloc_endpoint_out(ep_type, max_packet_size, interval_ms)
.expect("alloc_endpoint_out failed"); .expect("alloc_endpoint_out failed");
self.builder.config_descriptor.endpoint(ep.info()); ep
}
fn endpoint_out(
&mut self,
ep_type: EndpointType,
max_packet_size: u16,
interval_ms: u8,
synchronization_type: SynchronizationType,
usage_type: UsageType,
extra_fields: &[u8],
) -> D::EndpointOut {
let ep = self.alloc_endpoint_out(ep_type, max_packet_size, interval_ms);
self.endpoint_descriptor(ep.info(), synchronization_type, usage_type, extra_fields);
ep ep
} }
@ -451,7 +505,14 @@ impl<'a, 'd, D: Driver<'d>> InterfaceAltBuilder<'a, 'd, D> {
/// Descriptors are written in the order builder functions are called. Note that some /// Descriptors are written in the order builder functions are called. Note that some
/// classes care about the order. /// classes care about the order.
pub fn endpoint_bulk_in(&mut self, max_packet_size: u16) -> D::EndpointIn { pub fn endpoint_bulk_in(&mut self, max_packet_size: u16) -> D::EndpointIn {
self.endpoint_in(EndpointType::Bulk, max_packet_size, 0) self.endpoint_in(
EndpointType::Bulk,
max_packet_size,
0,
SynchronizationType::NoSynchronization,
UsageType::DataEndpoint,
&[],
)
} }
/// Allocate a BULK OUT endpoint and write its descriptor. /// Allocate a BULK OUT endpoint and write its descriptor.
@ -459,7 +520,14 @@ impl<'a, 'd, D: Driver<'d>> InterfaceAltBuilder<'a, 'd, D> {
/// Descriptors are written in the order builder functions are called. Note that some /// Descriptors are written in the order builder functions are called. Note that some
/// classes care about the order. /// classes care about the order.
pub fn endpoint_bulk_out(&mut self, max_packet_size: u16) -> D::EndpointOut { pub fn endpoint_bulk_out(&mut self, max_packet_size: u16) -> D::EndpointOut {
self.endpoint_out(EndpointType::Bulk, max_packet_size, 0) self.endpoint_out(
EndpointType::Bulk,
max_packet_size,
0,
SynchronizationType::NoSynchronization,
UsageType::DataEndpoint,
&[],
)
} }
/// Allocate a INTERRUPT IN endpoint and write its descriptor. /// Allocate a INTERRUPT IN endpoint and write its descriptor.
@ -467,24 +535,66 @@ impl<'a, 'd, D: Driver<'d>> InterfaceAltBuilder<'a, 'd, D> {
/// Descriptors are written in the order builder functions are called. Note that some /// Descriptors are written in the order builder functions are called. Note that some
/// classes care about the order. /// classes care about the order.
pub fn endpoint_interrupt_in(&mut self, max_packet_size: u16, interval_ms: u8) -> D::EndpointIn { pub fn endpoint_interrupt_in(&mut self, max_packet_size: u16, interval_ms: u8) -> D::EndpointIn {
self.endpoint_in(EndpointType::Interrupt, max_packet_size, interval_ms) self.endpoint_in(
EndpointType::Interrupt,
max_packet_size,
interval_ms,
SynchronizationType::NoSynchronization,
UsageType::DataEndpoint,
&[],
)
} }
/// Allocate a INTERRUPT OUT endpoint and write its descriptor. /// Allocate a INTERRUPT OUT endpoint and write its descriptor.
pub fn endpoint_interrupt_out(&mut self, max_packet_size: u16, interval_ms: u8) -> D::EndpointOut { pub fn endpoint_interrupt_out(&mut self, max_packet_size: u16, interval_ms: u8) -> D::EndpointOut {
self.endpoint_out(EndpointType::Interrupt, max_packet_size, interval_ms) self.endpoint_out(
EndpointType::Interrupt,
max_packet_size,
interval_ms,
SynchronizationType::NoSynchronization,
UsageType::DataEndpoint,
&[],
)
} }
/// Allocate a ISOCHRONOUS IN endpoint and write its descriptor. /// Allocate a ISOCHRONOUS IN endpoint and write its descriptor.
/// ///
/// Descriptors are written in the order builder functions are called. Note that some /// Descriptors are written in the order builder functions are called. Note that some
/// classes care about the order. /// classes care about the order.
pub fn endpoint_isochronous_in(&mut self, max_packet_size: u16, interval_ms: u8) -> D::EndpointIn { pub fn endpoint_isochronous_in(
self.endpoint_in(EndpointType::Isochronous, max_packet_size, interval_ms) &mut self,
max_packet_size: u16,
interval_ms: u8,
synchronization_type: SynchronizationType,
usage_type: UsageType,
extra_fields: &[u8],
) -> D::EndpointIn {
self.endpoint_in(
EndpointType::Isochronous,
max_packet_size,
interval_ms,
synchronization_type,
usage_type,
extra_fields,
)
} }
/// Allocate a ISOCHRONOUS OUT endpoint and write its descriptor. /// Allocate a ISOCHRONOUS OUT endpoint and write its descriptor.
pub fn endpoint_isochronous_out(&mut self, max_packet_size: u16, interval_ms: u8) -> D::EndpointOut { pub fn endpoint_isochronous_out(
self.endpoint_out(EndpointType::Isochronous, max_packet_size, interval_ms) &mut self,
max_packet_size: u16,
interval_ms: u8,
synchronization_type: SynchronizationType,
usage_type: UsageType,
extra_fields: &[u8],
) -> D::EndpointOut {
self.endpoint_out(
EndpointType::Isochronous,
max_packet_size,
interval_ms,
synchronization_type,
usage_type,
extra_fields,
)
} }
} }

89
embassy-usb/src/descriptor.rs
View File

@ -1,4 +1,5 @@
//! Utilities for writing USB descriptors. //! Utilities for writing USB descriptors.
use embassy_usb_driver::EndpointType;
use crate::builder::Config; use crate::builder::Config;
use crate::driver::EndpointInfo; use crate::driver::EndpointInfo;
@ -38,6 +39,40 @@ pub mod capability_type {
pub const PLATFORM: u8 = 5; pub const PLATFORM: u8 = 5;
} }
/// USB endpoint synchronization type. The values of this enum can be directly
/// cast into `u8` to get the bmAttributes synchronization type bits.
/// Values other than `NoSynchronization` are only allowed on isochronous endpoints.
#[repr(u8)]
#[derive(Copy, Clone, Eq, PartialEq, Debug)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum SynchronizationType {
/// No synchronization is used.
NoSynchronization = 0b00,
/// Unsynchronized, although sinks provide data rate feedback.
Asynchronous = 0b01,
/// Synchronized using feedback or feedforward data rate information.
Adaptive = 0b10,
/// Synchronized to the USBs SOF.
Synchronous = 0b11,
}
/// USB endpoint usage type. The values of this enum can be directly cast into
/// `u8` to get the bmAttributes usage type bits.
/// Values other than `DataEndpoint` are only allowed on isochronous endpoints.
#[repr(u8)]
#[derive(Copy, Clone, Eq, PartialEq, Debug)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum UsageType {
/// Use the endpoint for regular data transfer.
DataEndpoint = 0b00,
/// Endpoint conveys explicit feedback information for one or more data endpoints.
FeedbackEndpoint = 0b01,
/// A data endpoint that also serves as an implicit feedback endpoint for one or more data endpoints.
ImplicitFeedbackDataEndpoint = 0b10,
/// Reserved usage type.
Reserved = 0b11,
}
/// A writer for USB descriptors. /// A writer for USB descriptors.
pub(crate) struct DescriptorWriter<'a> { pub(crate) struct DescriptorWriter<'a> {
pub buf: &'a mut [u8], pub buf: &'a mut [u8],
@ -65,23 +100,26 @@ impl<'a> DescriptorWriter<'a> {
self.position self.position
} }
/// Writes an arbitrary (usually class-specific) descriptor. /// Writes an arbitrary (usually class-specific) descriptor with optional extra fields.
pub fn write(&mut self, descriptor_type: u8, descriptor: &[u8]) { pub fn write(&mut self, descriptor_type: u8, descriptor: &[u8], extra_fields: &[u8]) {
let length = descriptor.len(); let descriptor_length = descriptor.len();
let extra_fields_length = extra_fields.len();
let total_length = descriptor_length + extra_fields_length;
assert!( assert!(
(self.position + 2 + length) <= self.buf.len() && (length + 2) <= 255, (self.position + 2 + total_length) <= self.buf.len() && (total_length + 2) <= 255,
"Descriptor buffer full" "Descriptor buffer full"
); );
self.buf[self.position] = (length + 2) as u8; self.buf[self.position] = (total_length + 2) as u8;
self.buf[self.position + 1] = descriptor_type; self.buf[self.position + 1] = descriptor_type;
let start = self.position + 2; let start = self.position + 2;
self.buf[start..start + length].copy_from_slice(descriptor); self.buf[start..start + descriptor_length].copy_from_slice(descriptor);
self.buf[start + descriptor_length..start + total_length].copy_from_slice(extra_fields);
self.position = start + length; self.position = start + total_length;
} }
pub(crate) fn configuration(&mut self, config: &Config) { pub(crate) fn configuration(&mut self, config: &Config) {
@ -99,6 +137,7 @@ impl<'a> DescriptorWriter<'a> {
| if config.supports_remote_wakeup { 0x20 } else { 0x00 }, // bmAttributes | if config.supports_remote_wakeup { 0x20 } else { 0x00 }, // bmAttributes
(config.max_power / 2) as u8, // bMaxPower (config.max_power / 2) as u8, // bMaxPower
], ],
&[],
); );
} }
@ -145,6 +184,7 @@ impl<'a> DescriptorWriter<'a> {
function_protocol, function_protocol,
0, 0,
], ],
&[],
); );
} }
@ -195,6 +235,7 @@ impl<'a> DescriptorWriter<'a> {
interface_protocol, // bInterfaceProtocol interface_protocol, // bInterfaceProtocol
str_index, // iInterface str_index, // iInterface
], ],
&[],
); );
} }
@ -204,21 +245,50 @@ impl<'a> DescriptorWriter<'a> {
/// ///
/// * `endpoint` - Endpoint previously allocated with /// * `endpoint` - Endpoint previously allocated with
/// [`UsbDeviceBuilder`](crate::bus::UsbDeviceBuilder). /// [`UsbDeviceBuilder`](crate::bus::UsbDeviceBuilder).
pub fn endpoint(&mut self, endpoint: &EndpointInfo) { /// * `synchronization_type` - The synchronization type of the endpoint.
/// * `usage_type` - The usage type of the endpoint.
/// * `extra_fields` - Additional, class-specific entries at the end of the endpoint descriptor.
pub fn endpoint(
&mut self,
endpoint: &EndpointInfo,
synchronization_type: SynchronizationType,
usage_type: UsageType,
extra_fields: &[u8],
) {
match self.num_endpoints_mark { match self.num_endpoints_mark {
Some(mark) => self.buf[mark] += 1, Some(mark) => self.buf[mark] += 1,
None => panic!("you can only call `endpoint` after `interface/interface_alt`."), None => panic!("you can only call `endpoint` after `interface/interface_alt`."),
}; };
let mut bm_attributes = endpoint.ep_type as u8;
// Synchronization types other than `NoSynchronization`,
// and usage types other than `DataEndpoint`
// are only allowed for isochronous endpoints.
if endpoint.ep_type != EndpointType::Isochronous {
assert_eq!(synchronization_type, SynchronizationType::NoSynchronization);
assert_eq!(usage_type, UsageType::DataEndpoint);
} else {
if usage_type == UsageType::FeedbackEndpoint {
assert_eq!(synchronization_type, SynchronizationType::NoSynchronization)
}
let synchronization_bm_attibutes: u8 = (synchronization_type as u8) << 2;
let usage_bm_attibutes: u8 = (usage_type as u8) << 4;
bm_attributes |= usage_bm_attibutes | synchronization_bm_attibutes;
}
self.write( self.write(
descriptor_type::ENDPOINT, descriptor_type::ENDPOINT,
&[ &[
endpoint.addr.into(), // bEndpointAddress endpoint.addr.into(), // bEndpointAddress
endpoint.ep_type as u8, // bmAttributes bm_attributes, // bmAttributes
endpoint.max_packet_size as u8, endpoint.max_packet_size as u8,
(endpoint.max_packet_size >> 8) as u8, // wMaxPacketSize (endpoint.max_packet_size >> 8) as u8, // wMaxPacketSize
endpoint.interval_ms, // bInterval endpoint.interval_ms, // bInterval
], ],
extra_fields,
); );
} }
@ -315,6 +385,7 @@ impl<'a> BosWriter<'a> {
0x00, 0x00, // wTotalLength 0x00, 0x00, // wTotalLength
0x00, // bNumDeviceCaps 0x00, // bNumDeviceCaps
], ],
&[],
); );
self.capability(capability_type::USB_2_0_EXTENSION, &[0; 4]); self.capability(capability_type::USB_2_0_EXTENSION, &[0; 4]);