Adding stream format, updating header format
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6c87db3778
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8a143a3f58
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@ -10,13 +10,15 @@ import struct
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import time
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import logging
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# Representation of a single UDP packet transmitted by Stabilizer.
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Packet = collections.namedtuple('Packet', ['index', 'adc', 'dac'])
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# Representation of a single data batch transmitted by Stabilizer.
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Packet = collections.namedtuple('Packet', ['index', 'data'])
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Format = collections.namedtuple('Format', ['batch_size', 'length'])
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Format = collections.namedtuple('Format', ['sample_size_bytes', 'batch_format'])
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# All supported formats by this reception script.
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FORMAT = {
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0: Format(8, 964)
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0: Format(sample_size_bytes=8,
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batch_format='<{batch_size}H{batch_size}H{batch_size}H{batch_size}H')
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}
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class Timer:
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@ -94,32 +96,25 @@ class PacketParser:
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if len(self.buf) < 4:
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return None
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start_id, format_id = struct.unpack_from('<HH', self.buf)
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start_id, format_id, batch_count, batch_size = struct.unpack_from('<HHHB', self.buf)
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if format_id not in FORMAT:
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raise Exception(f'Unknown format specifier: {format_id}')
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frame_format = FORMAT[format_id]
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required_length = 7 + batch_count * frame_format.sample_size_bytes * batch_size
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if len(self.buf) < frame_format.length:
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if len(self.buf) < required_length:
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return None
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self.buf = self.buf[4:]
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batches_per_frame = int((frame_format.length - 4) / (frame_format.batch_size * 8))
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self.buf = self.buf[7:]
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packets = []
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for offset in range(batches_per_frame):
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adcs_dacs = struct.unpack_from(f'<{4 * frame_format.batch_size}H', self.buf)
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adc = [
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adcs_dacs[0:frame_format.batch_size],
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adcs_dacs[frame_format.batch_size:2*frame_format.batch_size],
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]
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dac = [
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adcs_dacs[2*frame_format.batch_size: 3*frame_format.batch_size],
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adcs_dacs[3*frame_format.batch_size:],
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]
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self.buf = self.buf[8*frame_format.batch_size:]
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packets.append(Packet(start_id + offset, adc, dac))
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for offset in range(batch_count):
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format_string = frame_format.batch_format.format(batch_size=batch_size)
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data = struct.unpack_from(format_string, self.buf)
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self.buf = self.buf[struct.calcsize(format_string):]
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packets.append(Packet(start_id + offset, data))
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return packets
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@ -51,7 +51,7 @@ use stabilizer::{
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DigitalInput0, DigitalInput1, AFE0, AFE1,
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},
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net::{
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data_stream::{FrameGenerator, StreamTarget},
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data_stream::{FrameGenerator, StreamFormat, StreamTarget},
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miniconf::Miniconf,
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serde::Deserialize,
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telemetry::{Telemetry, TelemetryBuffer},
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@ -308,24 +308,43 @@ const APP: () = {
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}
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// Stream the data.
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generator.add::<_, { SAMPLE_BUFFER_SIZE * 8 }>(0, |buf| unsafe {
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let dst = buf.as_ptr() as usize as *mut u16;
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generator.add::<_, { SAMPLE_BUFFER_SIZE * 8 }>(
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StreamFormat::AdcDacData,
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|buf| unsafe {
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let dst = buf.as_ptr() as usize as *mut u16;
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let adc0 = &adc_samples[0][0] as *const u16;
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core::ptr::copy_nonoverlapping(adc0, dst, SAMPLE_BUFFER_SIZE);
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let adc0 = &adc_samples[0][0] as *const u16;
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core::ptr::copy_nonoverlapping(
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adc0,
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dst,
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SAMPLE_BUFFER_SIZE,
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);
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let dst = dst.add(SAMPLE_BUFFER_SIZE);
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let adc1 = &adc_samples[1][0] as *const u16;
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core::ptr::copy_nonoverlapping(adc1, dst, SAMPLE_BUFFER_SIZE);
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let dst = dst.add(SAMPLE_BUFFER_SIZE);
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let adc1 = &adc_samples[1][0] as *const u16;
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core::ptr::copy_nonoverlapping(
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adc1,
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dst,
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SAMPLE_BUFFER_SIZE,
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);
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let dst = dst.add(SAMPLE_BUFFER_SIZE);
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let dac0 = &dac_samples[0][0] as *const u16;
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core::ptr::copy_nonoverlapping(dac0, dst, SAMPLE_BUFFER_SIZE);
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let dst = dst.add(SAMPLE_BUFFER_SIZE);
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let dac0 = &dac_samples[0][0] as *const u16;
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core::ptr::copy_nonoverlapping(
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dac0,
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dst,
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SAMPLE_BUFFER_SIZE,
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);
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let dst = dst.add(SAMPLE_BUFFER_SIZE);
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let dac1 = &dac_samples[1][0] as *const u16;
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core::ptr::copy_nonoverlapping(dac1, dst, SAMPLE_BUFFER_SIZE);
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});
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let dst = dst.add(SAMPLE_BUFFER_SIZE);
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let dac1 = &dac_samples[1][0] as *const u16;
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core::ptr::copy_nonoverlapping(
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dac1,
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dst,
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SAMPLE_BUFFER_SIZE,
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);
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},
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);
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// Update telemetry measurements.
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telemetry.adcs =
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@ -52,7 +52,7 @@ use stabilizer::{
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DigitalInput0, DigitalInput1, AFE0, AFE1,
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},
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net::{
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data_stream::{FrameGenerator, StreamTarget},
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data_stream::{FrameGenerator, StreamFormat, StreamTarget},
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miniconf::Miniconf,
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serde::Deserialize,
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telemetry::{Telemetry, TelemetryBuffer},
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@ -396,18 +396,43 @@ const APP: () = {
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}
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// Stream the data.
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generator.add::<_, { SAMPLE_BUFFER_SIZE * 8 }>(0, |buf| {
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let mut offset = 0;
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for device in [adc_samples.iter(), dac_samples.iter()] {
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for channel in device {
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for sample in channel.iter() {
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buf[offset..offset + 2]
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.copy_from_slice(&sample.to_ne_bytes());
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offset += 2;
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}
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}
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}
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});
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generator.add::<_, { SAMPLE_BUFFER_SIZE * 8 }>(
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StreamFormat::AdcDacData,
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|buf| unsafe {
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let dst = buf.as_ptr() as usize as *mut u16;
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let adc0 = &adc_samples[0][0] as *const u16;
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core::ptr::copy_nonoverlapping(
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adc0,
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dst,
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SAMPLE_BUFFER_SIZE,
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);
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let dst = dst.add(SAMPLE_BUFFER_SIZE);
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let adc1 = &adc_samples[1][0] as *const u16;
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core::ptr::copy_nonoverlapping(
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adc1,
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dst,
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SAMPLE_BUFFER_SIZE,
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);
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let dst = dst.add(SAMPLE_BUFFER_SIZE);
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let dac0 = &dac_samples[0][0] as *const u16;
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core::ptr::copy_nonoverlapping(
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dac0,
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dst,
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SAMPLE_BUFFER_SIZE,
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);
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let dst = dst.add(SAMPLE_BUFFER_SIZE);
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let dac1 = &dac_samples[1][0] as *const u16;
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core::ptr::copy_nonoverlapping(
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dac1,
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dst,
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SAMPLE_BUFFER_SIZE,
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);
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},
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);
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// Update telemetry measurements.
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telemetry.adcs =
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@ -3,7 +3,7 @@
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/// MQTT broker IPv4 address
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///
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/// In the default configuration, the IP address is defined as 10.34.16.10.
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pub const MQTT_BROKER: [u8; 4] = [10, 34, 16, 10];
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pub const MQTT_BROKER: [u8; 4] = [10, 35, 16, 10];
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/// Sampling Frequency
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///
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@ -15,6 +15,8 @@ use miniconf::MiniconfAtomic;
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use serde::Deserialize;
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use smoltcp_nal::embedded_nal::{IpAddr, Ipv4Addr, SocketAddr, UdpClientStack};
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use crate::hardware::design_parameters::SAMPLE_BUFFER_SIZE;
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use heapless::pool::{Box, Init, Pool, Uninit};
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use super::NetworkReference;
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@ -41,6 +43,15 @@ pub struct StreamTarget {
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pub port: u16,
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}
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/// Specifies the format of streamed data
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#[repr(u16)]
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#[derive(Debug, Copy, Clone, PartialEq)]
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pub enum StreamFormat {
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/// Streamed data contains ADC0, ADC1, DAC0, and DAC1 sequentially in little-endian format. Each
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/// batch is loaded into the stream frame sequentially until the frame is full.
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AdcDacData = 0,
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}
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impl From<StreamTarget> for SocketAddr {
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fn from(target: StreamTarget) -> SocketAddr {
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SocketAddr::new(
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@ -86,23 +97,27 @@ pub fn setup_streaming(
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}
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struct StreamFrame {
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format: u16,
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format: StreamFormat,
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sequence_number: u16,
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buffer: Box<[u8; FRAME_SIZE], Init>,
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offset: usize,
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batch_count: u16,
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batch_size: u8,
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}
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impl StreamFrame {
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pub fn new(
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buffer: Box<[u8; FRAME_SIZE], Uninit>,
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format: u16,
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format: StreamFormat,
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sequence_number: u16,
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) -> Self {
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Self {
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format,
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offset: 4,
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offset: 7,
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sequence_number,
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buffer: unsafe { buffer.assume_init() },
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batch_size: SAMPLE_BUFFER_SIZE as u8,
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batch_count: 0,
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}
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}
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@ -115,6 +130,7 @@ impl StreamFrame {
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let result = f(&mut self.buffer[self.offset..self.offset + T]);
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self.offset += T;
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self.batch_count = self.batch_count.checked_add(1).unwrap();
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result
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}
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@ -126,7 +142,9 @@ impl StreamFrame {
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pub fn finish(&mut self) -> &[u8] {
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let offset = self.offset;
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self.buffer[0..2].copy_from_slice(&self.sequence_number.to_ne_bytes());
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self.buffer[2..4].copy_from_slice(&self.format.to_ne_bytes());
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self.buffer[2..4].copy_from_slice(&(self.format as u16).to_ne_bytes());
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self.buffer[4..6].copy_from_slice(&self.batch_count.to_ne_bytes());
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self.buffer[6] = self.batch_size;
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&self.buffer[..offset]
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}
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}
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@ -152,7 +170,7 @@ impl FrameGenerator {
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}
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}
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pub fn add<F, const T: usize>(&mut self, format: u16, f: F)
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pub fn add<F, const T: usize>(&mut self, format: StreamFormat, f: F)
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where
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F: FnMut(&mut [u8]),
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{
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@ -171,6 +189,11 @@ impl FrameGenerator {
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}
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}
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assert!(
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format == self.current_frame.as_ref().unwrap().format,
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"Unexpected stream format encountered"
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);
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self.current_frame.as_mut().unwrap().add_batch::<_, T>(f);
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if self.current_frame.as_ref().unwrap().is_full::<T>() {
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