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

Compare commits

base: ktims/usbd_uac2:e2edb1d468335b3e927cb972e27b1ea765c8c15f
Branches Tags
ktims/usbd_uac2:main
...
compare: ktims/usbd_uac2:a82120169f0994e683c4aee481ba1c007299c5a8
Branches Tags
ktims/usbd_uac2:main

2 Commits
e2edb1d468 ... a82120169f

Author SHA1 Message Date
ktims a82120169f move feedback to endpoint_in_complete, where it should be 2026-05-15 13:36:56 -07:00
ktims 066c5dbf96 fix nominal_fb and max packet size for non-integral rates 2026-05-15 13:36:25 -07:00
1 changed files with 45 additions and 28 deletions
Expand all files Collapse all files
src/lib.rs
+45 -28
View File
@@ -15,7 +15,7 @@ use constants::*;
use descriptors::*; use descriptors::*;
use log::*; use log::*;
use num_traits::ConstZero; use num_traits::{ConstZero, ToPrimitive};
use usb_device::control::{Recipient, Request, RequestType}; use usb_device::control::{Recipient, Request, RequestType};
use usb_device::device::DEFAULT_ALTERNATE_SETTING; use usb_device::device::DEFAULT_ALTERNATE_SETTING;
use usb_device::endpoint::{self, Endpoint, EndpointDirection, In, Out}; use usb_device::endpoint::{self, Endpoint, EndpointDirection, In, Out};
@@ -115,6 +115,10 @@ impl UsbIsochronousFeedback {
pub fn new_frac(int: u16, frac: u16) -> Self { pub fn new_frac(int: u16, frac: u16) -> Self {
Self { int, frac } Self { int, frac }
} }
pub fn new_float(rate: f32) -> Self {
let fb = (rate * 65536.0 + 0.5) as u32;
Self::new(fb)
}
/// Assumed 16.16, not either of the USB formats /// Assumed 16.16, not either of the USB formats
pub fn new(value: u32) -> Self { pub fn new(value: u32) -> Self {
Self { Self {
@@ -487,6 +491,10 @@ impl<'a, B: UsbBus, CS: UsbAudioClockImpl, AU: UsbAudioClass<'a, B>>
.max; .max;
let control_iface = alloc.interface(); let control_iface = alloc.interface();
let nominal_fb = UsbIsochronousFeedback::new_float(
self.clock_impl.get_sample_rate().to_f32().unwrap() / audio_rate.to_f32().unwrap(),
);
let mut ac = AudioClass { let mut ac = AudioClass {
control_iface, control_iface,
clock_impl: self.clock_impl, clock_impl: self.clock_impl,
@@ -502,6 +510,7 @@ impl<'a, B: UsbBus, CS: UsbAudioClockImpl, AU: UsbAudioClass<'a, B>>
out_ep: 0, out_ep: 0,
fb_ep: 0, fb_ep: 0,
speed, speed,
nominal_fb,
audio_rate, audio_rate,
}; };
@@ -510,7 +519,7 @@ impl<'a, B: UsbBus, CS: UsbAudioClockImpl, AU: UsbAudioClass<'a, B>>
let endpoint = alloc.isochronous( let endpoint = alloc.isochronous(
config.sync_type, config.sync_type,
IsochronousUsageType::Data, IsochronousUsageType::Data,
(max_rate.div_ceil(audio_rate) * config.bytes_per_frame()) as u16, ((max_rate.div_ceil(audio_rate) + 1) * config.bytes_per_frame()) as u16, // headroom of 1 sample for rate control
interval, interval,
); );
let feedback_ep = alloc.isochronous( let feedback_ep = alloc.isochronous(
@@ -537,7 +546,7 @@ impl<'a, B: UsbBus, CS: UsbAudioClockImpl, AU: UsbAudioClass<'a, B>>
let endpoint = alloc.isochronous( let endpoint = alloc.isochronous(
config.sync_type, config.sync_type,
IsochronousUsageType::Data, IsochronousUsageType::Data,
(max_rate.div_ceil(audio_rate) * config.bytes_per_frame()) as u16, ((max_rate.div_ceil(audio_rate) + 1) * config.bytes_per_frame()) as u16, // headroom of 1 sample for rate control
interval, interval,
); );
let alt_setting = DEFAULT_ALTERNATE_SETTING; let alt_setting = DEFAULT_ALTERNATE_SETTING;
@@ -669,6 +678,7 @@ pub struct AudioClass<'a, B: UsbBus, CS: UsbAudioClockImpl, AU: UsbAudioClass<'a
out_ep: usize, out_ep: usize,
fb_ep: usize, fb_ep: usize,
speed: UsbSpeed, speed: UsbSpeed,
nominal_fb: UsbIsochronousFeedback,
audio_rate: u32, // audio packet rate in hz audio_rate: u32, // audio packet rate in hz
} }
@@ -811,39 +821,25 @@ impl<'a, B: UsbBus, CS: UsbAudioClockImpl, AU: UsbAudioClass<'a, B>> UsbClass<B>
} }
fn endpoint_out(&mut self, addr: EndpointAddress) { fn endpoint_out(&mut self, addr: EndpointAddress) {
debug!("EP {} out data", addr); debug!("EP {} out data", addr);
static COUNTER: AtomicUsize = AtomicUsize::new(0);
if addr.index() == self.out_ep { if addr.index() == self.out_ep {
self.audio_impl self.audio_impl
.audio_data_rx(&self.output.as_ref().unwrap().endpoint); .audio_data_rx(&self.output.as_ref().unwrap().endpoint);
let new_count = COUNTER.fetch_add(1, core::sync::atomic::Ordering::Relaxed);
if let Some(fb_ep) = self.feedback.as_ref() {
if new_count.is_multiple_of(1 << (fb_ep.interval() - 1) as usize) {
let cur_rate = self.clock_impl.get_sample_rate();
let numerator = (cur_rate as u64) << 16;
let raw = (numerator + self.audio_rate as u64 / 2) / (self.audio_rate as u64);
let nominal_rate = UsbIsochronousFeedback {
int: (raw >> 16) as u16,
frac: (raw & 0xffff) as u16,
};
if let Some(fb) = self.audio_impl.feedback(nominal_rate) {
debug!(" emitting feedback IN {:08x}", fb.to_u32_12_13());
let r = match self.speed {
UsbSpeed::Low | UsbSpeed::Full => fb_ep.write(&fb.to_bytes_10_14()),
UsbSpeed::High | UsbSpeed::Super => fb_ep.write(&fb.to_bytes_12_13()),
};
if let Err(e) = r {
warn!(" feedback IN failed {:?}", e);
}
}
}
}
} else { } else {
debug!(" unexpected OUT on {}", addr); debug!(" unexpected OUT on {}", addr);
} }
} }
fn endpoint_in_complete(&mut self, addr: EndpointAddress) {
debug!("EP {} IN complete", addr);
if let Some(fb_ep) = self.feedback.as_ref()
&& addr.index() == self.fb_ep
{
self.emit_feedback();
} else {
debug!(" unexpected IN on {}", addr);
}
}
fn poll(&mut self) { fn poll(&mut self) {
debug!("poll"); debug!("poll");
// no streaming in alt 0 // no streaming in alt 0
@@ -874,6 +870,22 @@ impl<'a, B: UsbBus, CS: UsbAudioClockImpl, AU: UsbAudioClass<'a, B>> UsbClass<B>
} }
impl<'a, B: UsbBus, CS: UsbAudioClockImpl, AU: UsbAudioClass<'a, B>> AudioClass<'a, B, CS, AU> { impl<'a, B: UsbBus, CS: UsbAudioClockImpl, AU: UsbAudioClass<'a, B>> AudioClass<'a, B, CS, AU> {
fn emit_feedback(&mut self) {
if let Some(fb_ep) = self.feedback.as_ref() {
if let Some(fb) = self.audio_impl.feedback(self.nominal_fb) {
debug!(" emitting feedback IN {:08x}", fb.to_u32_12_13());
let r = match self.speed {
UsbSpeed::Low | UsbSpeed::Full => fb_ep.write(&fb.to_bytes_10_14()),
UsbSpeed::High | UsbSpeed::Super => fb_ep.write(&fb.to_bytes_12_13()),
};
if let Err(e) = r {
warn!(" feedback IN failed {:?}", e);
}
} else {
debug!(" feedback callback returned None")
}
}
}
fn standard_request_out(&mut self, xfer: ControlOut<B>) { fn standard_request_out(&mut self, xfer: ControlOut<B>) {
let req = xfer.request(); let req = xfer.request();
match (req.recipient, req.request) { match (req.recipient, req.request) {
@@ -945,6 +957,8 @@ impl<'a, B: UsbBus, CS: UsbAudioClockImpl, AU: UsbAudioClass<'a, B>> AudioClass<
self.clock_impl.alt_setting(alt_setting).ok(); self.clock_impl.alt_setting(alt_setting).ok();
self.audio_impl self.audio_impl
.alternate_setting_changed(UsbDirection::Out, alt_setting); .alternate_setting_changed(UsbDirection::Out, alt_setting);
// Start the IN cycle running
self.emit_feedback();
self.output.as_mut().unwrap().alt_setting = alt_setting; self.output.as_mut().unwrap().alt_setting = alt_setting;
xfer.accept().ok(); xfer.accept().ok();
} }
@@ -1179,6 +1193,9 @@ impl<'a, B: UsbBus, CS: UsbAudioClockImpl, AU: UsbAudioClass<'a, B>> AudioClass<
Ok(rate) => { Ok(rate) => {
debug!(" SET SamplingFreqControl CUR {}", rate); debug!(" SET SamplingFreqControl CUR {}", rate);
self.clock_impl.set_sample_rate(rate).ok(); self.clock_impl.set_sample_rate(rate).ok();
self.nominal_fb = UsbIsochronousFeedback::new_float(
rate.to_f32().unwrap() / self.audio_rate.to_f32().unwrap(),
);
xfer.accept().ok(); xfer.accept().ok();
} }
Err(e) => { Err(e) => {