Merge branch 'feature/pounder-support'

This commit is contained in:
Ryan Summers 2020-06-11 19:10:32 +02:00
commit 2ddcdec537
24 changed files with 3228 additions and 2039 deletions

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View File

@ -1,54 +1,18 @@
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description = "Firmware for the Sinara Stabilizer board (stm32h743, eth, poe, 2 adc, 2 dac)" "stm32h7xx-hal",
categories = ["embedded", "no-std", "hardware-support", "science"] "ad9959",
license = "GPL-3.0-or-later"
keywords = ["ethernet", "stm32h7", "adc", "dac", "physics"]
repository = "https://github.com/quartiq/stabilizer"
readme = "README.md"
documentation = "https://docs.rs/stabilizer/"
edition = "2018"
exclude = [
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".gitignore",
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"doc/*"
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[badges]
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maintenance = { status = "experimental" }
[package.metadata.docs.rs]
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2
ad9959/.gitignore vendored Normal file
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@ -0,0 +1,2 @@
/target
Cargo.lock

11
ad9959/Cargo.toml Normal file
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@ -0,0 +1,11 @@
[package]
name = "ad9959"
version = "0.1.0"
authors = ["Ryan Summers <ryan.summers@vertigo-designs.com>"]
edition = "2018"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
embedded-hal = {version = "0.2.3", features = ["unproven"]}
bit_field = "0.10.0"

480
ad9959/src/lib.rs Normal file
View File

@ -0,0 +1,480 @@
#![no_std]
use bit_field::BitField;
use embedded_hal::{
digital::v2::OutputPin,
blocking::delay::DelayMs,
};
/// A device driver for the AD9959 direct digital synthesis (DDS) chip.
///
/// This chip provides four independently controllable digital-to-analog output sinusoids with
/// configurable phase, amplitude, and frequency. All channels are inherently synchronized as they
/// are derived off a common system clock.
///
/// The chip contains a configurable PLL and supports system clock frequencies up to 500 MHz.
///
/// The chip supports a number of serial interfaces to improve data throughput, including normal,
/// dual, and quad SPI configurations.
pub struct Ad9959<INTERFACE, DELAY, UPDATE> {
interface: INTERFACE,
delay: DELAY,
reference_clock_frequency: f32,
system_clock_multiplier: u8,
io_update: UPDATE,
}
/// A trait that allows a HAL to provide a means of communicating with the AD9959.
pub trait Interface {
type Error;
fn configure_mode(&mut self, mode: Mode) -> Result<(), Self::Error>;
fn write(&mut self, addr: u8, data: &[u8]) -> Result<(), Self::Error>;
fn read(&mut self, addr: u8, dest: &mut [u8]) -> Result<(), Self::Error>;
}
/// Indicates various communication modes of the DDS. The value of this enumeration is equivalent to
/// the configuration bits of the DDS CSR register.
#[derive(Copy, Clone, PartialEq)]
pub enum Mode {
SingleBitTwoWire = 0b00,
SingleBitThreeWire = 0b01,
TwoBitSerial = 0b10,
FourBitSerial = 0b11,
}
/// The configuration registers within the AD9959 DDS device. The values of each register are
/// equivalent to the address.
pub enum Register {
CSR = 0x00,
FR1 = 0x01,
FR2 = 0x02,
CFR = 0x03,
CFTW0 = 0x04,
CPOW0 = 0x05,
ACR = 0x06,
LSRR = 0x07,
RDW = 0x08,
FDW = 0x09,
CW1 = 0x0a,
CW2 = 0x0b,
CW3 = 0x0c,
CW4 = 0x0d,
CW5 = 0x0e,
CW6 = 0x0f,
CW7 = 0x10,
CW8 = 0x11,
CW9 = 0x12,
CW10 = 0x13,
CW11 = 0x14,
CW12 = 0x15,
CW13 = 0x16,
CW14 = 0x17,
CW15 = 0x18,
}
/// Specifies an output channel of the AD9959 DDS chip.
pub enum Channel {
One = 0,
Two = 1,
Three = 2,
Four = 3,
}
/// Possible errors generated by the AD9959 driver.
#[derive(Debug)]
pub enum Error {
Interface,
Check,
Bounds,
Pin,
Frequency,
}
impl <PinE, INTERFACE, DELAY, UPDATE> Ad9959<INTERFACE, DELAY, UPDATE>
where
INTERFACE: Interface,
DELAY: DelayMs<u8>,
UPDATE: OutputPin<Error = PinE>,
{
/// Construct and initialize the DDS.
///
/// Args:
/// * `interface` - An interface to the DDS.
/// * `reset_pin` - A pin connected to the DDS reset input.
/// * `io_update` - A pin connected to the DDS io_update input.
/// * `delay` - A delay implementation for blocking operation for specific amounts of time.
/// * `desired_mode` - The desired communication mode of the interface to the DDS.
/// * `clock_frequency` - The clock frequency of the reference clock input.
/// * `multiplier` - The desired clock multiplier for the system clock. This multiplies
/// `clock_frequency` to generate the system clock.
pub fn new<RST>(interface: INTERFACE,
reset_pin: &mut RST,
io_update: UPDATE,
delay: DELAY,
desired_mode: Mode,
clock_frequency: f32,
multiplier: u8) -> Result<Self, Error>
where
RST: OutputPin,
{
let mut ad9959 = Ad9959 {
interface: interface,
io_update: io_update,
delay: delay,
reference_clock_frequency: clock_frequency,
system_clock_multiplier: 1,
};
ad9959.io_update.set_low().or_else(|_| Err(Error::Pin))?;
// Reset the AD9959
reset_pin.set_high().or_else(|_| Err(Error::Pin))?;
// Delay for a clock cycle to allow the device to reset.
ad9959.delay.delay_ms((1000.0 / clock_frequency as f32) as u8);
reset_pin.set_low().or_else(|_| Err(Error::Pin))?;
ad9959.interface.configure_mode(Mode::SingleBitTwoWire).map_err(|_| Error::Interface)?;
// Program the interface configuration in the AD9959. Default to all channels enabled.
let mut csr: [u8; 1] = [0xF0];
csr[0].set_bits(1..3, desired_mode as u8);
ad9959.interface.write(Register::CSR as u8, &csr).map_err(|_| Error::Interface)?;
// Latch the configuration registers to make them active.
ad9959.latch_configuration()?;
ad9959.interface.configure_mode(desired_mode).map_err(|_| Error::Interface)?;
// Read back the CSR to ensure it specifies the mode correctly.
let mut updated_csr: [u8; 1] = [0];
ad9959.interface.read(Register::CSR as u8, &mut updated_csr).map_err(|_| Error::Interface)?;
if updated_csr[0] != csr[0] {
return Err(Error::Check);
}
// Set the clock frequency to configure the device as necessary.
ad9959.configure_system_clock(clock_frequency, multiplier)?;
Ok(ad9959)
}
/// Latch the DDS configuration to ensure it is active on the output channels.
fn latch_configuration(&mut self) -> Result<(), Error> {
self.io_update.set_high().or_else(|_| Err(Error::Pin))?;
// The SYNC_CLK is 1/4 the system clock frequency. The IO_UPDATE pin must be latched for one
// full SYNC_CLK pulse to register. For safety, we latch for 5 here.
self.delay.delay_ms((5000.0 / self.system_clock_frequency()) as u8);
self.io_update.set_low().or_else(|_| Err(Error::Pin))?;
Ok(())
}
/// Configure the internal system clock of the chip.
///
/// Arguments:
/// * `reference_clock_frequency` - The reference clock frequency provided to the AD9959 core.
/// * `multiplier` - The frequency multiplier of the system clock. Must be 1 or 4-20.
///
/// Returns:
/// The actual frequency configured for the internal system clock.
pub fn configure_system_clock(&mut self,
reference_clock_frequency: f32,
multiplier: u8) -> Result<f64, Error>
{
self.reference_clock_frequency = reference_clock_frequency;
if multiplier != 1 && (multiplier > 20 || multiplier < 4) {
return Err(Error::Bounds);
}
let frequency = multiplier as f64 * self.reference_clock_frequency as f64;
if frequency > 500_000_000.0f64 {
return Err(Error::Frequency);
}
// TODO: Update / disable any enabled channels?
let mut fr1: [u8; 3] = [0, 0, 0];
self.interface.read(Register::FR1 as u8, &mut fr1).map_err(|_| Error::Interface)?;
fr1[0].set_bits(2..=6, multiplier);
let vco_range = frequency > 255e6;
fr1[0].set_bit(7, vco_range);
self.interface.write(Register::FR1 as u8, &fr1).map_err(|_| Error::Interface)?;
self.system_clock_multiplier = multiplier;
Ok(self.system_clock_frequency())
}
/// Get the current reference clock frequency in Hz.
pub fn get_reference_clock_frequency(&self) -> f32 {
self.reference_clock_frequency
}
/// Get the current reference clock multiplier.
pub fn get_reference_clock_multiplier(&mut self) -> Result<u8, Error> {
let mut fr1: [u8; 3] = [0, 0, 0];
self.interface.read(Register::FR1 as u8, &mut fr1).map_err(|_| Error::Interface)?;
Ok(fr1[0].get_bits(2..=6) as u8)
}
/// Perform a self-test of the communication interface.
///
/// Note:
/// This modifies the existing channel enables. They are restored upon exit.
///
/// Returns:
/// True if the self test succeeded. False otherwise.
pub fn self_test(&mut self) -> Result<bool, Error> {
let mut csr: [u8; 1] = [0];
self.interface.read(Register::CSR as u8, &mut csr).map_err(|_| Error::Interface)?;
let old_csr = csr[0];
// Enable all channels.
csr[0].set_bits(4..8, 0xF);
self.interface.write(Register::CSR as u8, &csr).map_err(|_| Error::Interface)?;
// Read back the enable.
csr[0] = 0;
self.interface.read(Register::CSR as u8, &mut csr).map_err(|_| Error::Interface)?;
if csr[0].get_bits(4..8) != 0xF {
return Ok(false);
}
// Clear all channel enables.
csr[0].set_bits(4..8, 0x0);
self.interface.write(Register::CSR as u8, &csr).map_err(|_| Error::Interface)?;
// Read back the enable.
csr[0] = 0xFF;
self.interface.read(Register::CSR as u8, &mut csr).map_err(|_| Error::Interface)?;
if csr[0].get_bits(4..8) != 0 {
return Ok(false);
}
// Restore the CSR.
csr[0] = old_csr;
self.interface.write(Register::CSR as u8, &csr).map_err(|_| Error::Interface)?;
Ok(true)
}
/// Get the current system clock frequency in Hz.
fn system_clock_frequency(&self) -> f64 {
self.system_clock_multiplier as f64 * self.reference_clock_frequency as f64
}
/// Enable an output channel.
pub fn enable_channel(&mut self, channel: Channel) -> Result<(), Error> {
let mut csr: [u8; 1] = [0];
self.interface.read(Register::CSR as u8, &mut csr).map_err(|_| Error::Interface)?;
csr[0].set_bit(channel as usize + 4, true);
self.interface.write(Register::CSR as u8, &csr).map_err(|_| Error::Interface)?;
Ok(())
}
/// Disable an output channel.
pub fn disable_channel(&mut self, channel: Channel) -> Result<(), Error> {
let mut csr: [u8; 1] = [0];
self.interface.read(Register::CSR as u8, &mut csr).map_err(|_| Error::Interface)?;
csr[0].set_bit(channel as usize + 4, false);
self.interface.write(Register::CSR as u8, &csr).map_err(|_| Error::Interface)?;
Ok(())
}
/// Determine if an output channel is enabled.
pub fn is_enabled(&mut self, channel: Channel) -> Result<bool, Error> {
let mut csr: [u8; 1] = [0; 1];
self.interface.read(Register::CSR as u8, &mut csr).map_err(|_| Error::Interface)?;
Ok(csr[0].get_bit(channel as usize + 4))
}
/// Update an output channel configuration register.
///
/// Args:
/// * `channel` - The channel to configure.
/// * `register` - The register to update.
/// * `data` - The contents to write to the provided register.
fn modify_channel(&mut self, channel: Channel, register: Register, data: &[u8]) -> Result<(), Error> {
// Disable all other outputs so that we can update the configuration register of only the
// specified channel.
let mut csr: [u8; 1] = [0];
self.interface.read(Register::CSR as u8, &mut csr).map_err(|_| Error::Interface)?;
let mut new_csr = csr;
new_csr[0].set_bits(4..8, 0);
new_csr[0].set_bit(4 + channel as usize, true);
self.interface.write(Register::CSR as u8, &new_csr).map_err(|_| Error::Interface)?;
self.interface.write(register as u8, &data).map_err(|_| Error::Interface)?;
// Latch the configuration and restore the previous CSR. Note that the re-enable of the
// channel happens immediately, so the CSR update does not need to be latched.
self.latch_configuration()?;
self.interface.write(Register::CSR as u8, &csr).map_err(|_| Error::Interface)?;
Ok(())
}
/// Read a configuration register of a specific channel.
///
/// Args:
/// * `channel` - The channel to read.
/// * `register` - The register to read.
/// * `data` - A location to store the read register contents.
fn read_channel(&mut self, channel: Channel, register: Register, mut data: &mut [u8]) -> Result<(), Error> {
// Disable all other channels in the CSR so that we can read the configuration register of
// only the desired channel.
let mut csr: [u8; 1] = [0];
self.interface.read(Register::CSR as u8, &mut csr).map_err(|_| Error::Interface)?;
let mut new_csr = csr;
new_csr[0].set_bits(4..8, 0);
new_csr[0].set_bit(4 + channel as usize, true);
self.interface.write(Register::CSR as u8, &new_csr).map_err(|_| Error::Interface)?;
self.interface.read(register as u8, &mut data).map_err(|_| Error::Interface)?;
// Restore the previous CSR. Note that the re-enable of the channel happens immediately, so
// the CSR update does not need to be latched.
self.interface.write(Register::CSR as u8, &csr).map_err(|_| Error::Interface)?;
Ok(())
}
/// Configure the phase of a specified channel.
///
/// Arguments:
/// * `channel` - The channel to configure the frequency of.
/// * `phase_turns` - The desired phase offset in turns.
///
/// Returns:
/// The actual programmed phase offset of the channel in turns.
pub fn set_phase(&mut self, channel: Channel, phase_turns: f32) -> Result<f32, Error> {
let phase_offset: u16 = (phase_turns * (1 << 14) as f32) as u16 & 0x3FFFu16;
self.modify_channel(channel, Register::CPOW0, &phase_offset.to_be_bytes())?;
Ok((phase_offset as f32) / ((1 << 14) as f32))
}
/// Get the current phase of a specified channel.
///
/// Args:
/// * `channel` - The channel to get the phase of.
///
/// Returns:
/// The phase of the channel in turns.
pub fn get_phase(&mut self, channel: Channel) -> Result<f32, Error> {
let mut phase_offset: [u8; 2] = [0; 2];
self.read_channel(channel, Register::CPOW0, &mut phase_offset)?;
let phase_offset = u16::from_be_bytes(phase_offset) & 0x3FFFu16;
Ok((phase_offset as f32) / ((1 << 14) as f32))
}
/// Configure the amplitude of a specified channel.
///
/// Arguments:
/// * `channel` - The channel to configure the frequency of.
/// * `amplitude` - A normalized amplitude setting [0, 1].
///
/// Returns:
/// The actual normalized amplitude of the channel relative to full-scale range.
pub fn set_amplitude(&mut self, channel: Channel, amplitude: f32) -> Result<f32, Error> {
if amplitude < 0.0 || amplitude > 1.0 {
return Err(Error::Bounds);
}
let amplitude_control: u16 = (amplitude * (1 << 10) as f32) as u16;
let mut acr: [u8; 3] = [0; 3];
// Enable the amplitude multiplier for the channel if required. The amplitude control has
// full-scale at 0x3FF (amplitude of 1), so the multiplier should be disabled whenever
// full-scale is used.
if amplitude_control < (1 << 10) {
let masked_control = amplitude_control & 0x3FF;
acr[1] = masked_control.to_be_bytes()[0];
acr[2] = masked_control.to_be_bytes()[1];
// Enable the amplitude multiplier
acr[1].set_bit(4, true);
}
self.modify_channel(channel, Register::ACR, &acr)?;
Ok(amplitude_control as f32 / (1 << 10) as f32)
}
/// Get the configured amplitude of a channel.
///
/// Args:
/// * `channel` - The channel to get the amplitude of.
///
/// Returns:
/// The normalized amplitude of the channel.
pub fn get_amplitude(&mut self, channel: Channel) -> Result<f32, Error> {
let mut acr: [u8; 3] = [0; 3];
self.read_channel(channel, Register::ACR, &mut acr)?;
if acr[1].get_bit(4) {
let amplitude_control: u16 = (((acr[1] as u16) << 8) | (acr[2] as u16)) & 0x3FF;
Ok(amplitude_control as f32 / (1 << 10) as f32)
} else {
Ok(1.0)
}
}
/// Configure the frequency of a specified channel.
///
/// Arguments:
/// * `channel` - The channel to configure the frequency of.
/// * `frequency` - The desired output frequency in Hz.
///
/// Returns:
/// The actual programmed frequency of the channel.
pub fn set_frequency(&mut self, channel: Channel, frequency: f64) -> Result<f64, Error> {
if frequency < 0.0 || frequency > self.system_clock_frequency() {
return Err(Error::Bounds);
}
// The function for channel frequency is `f_out = FTW * f_s / 2^32`, where FTW is the
// frequency tuning word and f_s is the system clock rate.
let tuning_word: u32 = ((frequency as f64 / self.system_clock_frequency())
* 1u64.wrapping_shl(32) as f64) as u32;
self.modify_channel(channel, Register::CFTW0, &tuning_word.to_be_bytes())?;
Ok((tuning_word as f64 / 1u64.wrapping_shl(32) as f64) * self.system_clock_frequency())
}
/// Get the frequency of a channel.
///
/// Arguments:
/// * `channel` - The channel to get the frequency of.
///
/// Returns:
/// The frequency of the channel in Hz.
pub fn get_frequency(&mut self, channel: Channel) -> Result<f64, Error> {
// Read the frequency tuning word for the channel.
let mut tuning_word: [u8; 4] = [0; 4];
self.read_channel(channel, Register::CFTW0, &mut tuning_word)?;
let tuning_word = u32::from_be_bytes(tuning_word);
// Convert the tuning word into a frequency.
Ok(tuning_word as f64 * self.system_clock_frequency() / ((1u64 << 32)) as f64)
}
}

View File

@ -16,7 +16,7 @@ break rust_begin_unwind
load load
# tbreak cortex_m_rt::reset_handler # tbreak cortex_m_rt::reset_handler
# monitor reset halt monitor reset halt
# cycle counter delta tool, place two bkpts around the section # cycle counter delta tool, place two bkpts around the section
set var $cc=0xe0001004 set var $cc=0xe0001004
@ -26,4 +26,3 @@ set var $t0=*$cc
continue continue
end end
#set var $t0=*$cc #set var $t0=*$cc
continue

111
pounder_test.py Normal file
View File

@ -0,0 +1,111 @@
#!/usr/bin/python3
"""
Description: Test Stabilizer communication and DDS configuration.
Author: Ryan Summers
"""
import socket
import json
HOST = '10.0.16.99'
PORT = 1235
def do_request(s, request):
""" Perform a request with the Stabilizer.
Args:
s: The socket to the stabilizer.
request: The request to transmit.
Returns:
The received response object.
"""
# Transform the value field.
request['value'] = json.dumps(request['value'], separators=[',', ':']).replace('"', "'")
data = (json.dumps(request, separators=[',', ':']) + '\n').encode('ascii')
s.send(data)
response = b''
while not response.endswith(b'\n'):
response += s.recv(1024)
# Decode the value array
response = json.loads(response.decode('ascii'))
response['value'] = response['value'].replace("'", '"')
response['value'] = json.loads(response['value'])
return response
def read_attribute(s, attribute_name):
""" Read an attribute on the Stabilizer device.
Args:
s: The socket to the stabilizer.
attribute_name: The name of the endpoint to write to (the attribute name).
Returns:
The value of the attribute. May be a string or a dictionary.
"""
request = {
"req": "Read",
"attribute": attribute_name,
"value": "",
}
response = do_request(s, request)
if 'code' not in response or response['code'] != 200:
raise Exception(f'Failed to read {attribute_name}: {response}')
return response['value']
def write_attribute(s, attribute_name, attribute_value):
""" Write an attribute on the Stabilizer device.
Args:
s: The socket to the stabilizer.
attribute_name: The name of the endpoint to write to (the attribute name).
attribute_value: The value to write to the attribute. May be a string or a dictionary.
"""
request = {
"req": "Write",
"attribute": attribute_name,
"value": attribute_value,
}
response = do_request(s, request)
if 'code' not in response or response['code'] != 200:
raise Exception(f'Failed to write {attribute_name}: {response}')
def main():
""" Main program entry point. """
with socket.socket() as s:
# Connect to the stabilizer.
s.connect((HOST, PORT))
# A sample configuration for an output channel.
channel_config = {
'attenuation': 31.5,
'parameters': {
'phase_offset': 0.5,
'frequency': 100.0e6,
'amplitude': 0.2,
'enabled': True,
}
}
# Configure OUT0 and read it back.
write_attribute(s, "pounder/out0", channel_config)
print('Pounder OUT0: ', read_attribute(s, "pounder/out0"))
print('Pounder IN1: ', read_attribute(s, "pounder/in1"))
print('Pounder OUT1: ', read_attribute(s, "pounder/out1"))
if __name__ == '__main__':
main()

View File

@ -1,641 +0,0 @@
use super::eth;
use super::i2c;
use super::pac;
fn pwr_setup(pwr: &pac::PWR) {
// go to VOS1 voltage scale for high perf
pwr.cr3
.write(|w| w.scuen().set_bit().ldoen().set_bit().bypass().clear_bit());
while pwr.csr1.read().actvosrdy().bit_is_clear() {}
pwr.d3cr.write(|w| unsafe { w.vos().bits(0b11) }); // vos1
while pwr.d3cr.read().vosrdy().bit_is_clear() {}
}
fn rcc_reset(rcc: &pac::RCC) {
// Reset all peripherals
rcc.ahb1rstr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
rcc.ahb1rstr.write(|w| unsafe { w.bits(0) });
rcc.apb1lrstr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
rcc.apb1lrstr.write(|w| unsafe { w.bits(0) });
rcc.apb1hrstr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
rcc.apb1hrstr.write(|w| unsafe { w.bits(0) });
rcc.ahb2rstr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
rcc.ahb2rstr.write(|w| unsafe { w.bits(0) });
rcc.apb2rstr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
rcc.apb2rstr.write(|w| unsafe { w.bits(0) });
// do not reset the cpu
rcc.ahb3rstr.write(|w| unsafe { w.bits(0x7FFF_FFFF) });
rcc.ahb3rstr.write(|w| unsafe { w.bits(0) });
rcc.apb3rstr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
rcc.apb3rstr.write(|w| unsafe { w.bits(0) });
rcc.ahb4rstr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
rcc.ahb4rstr.write(|w| unsafe { w.bits(0) });
rcc.apb4rstr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
rcc.apb4rstr.write(|w| unsafe { w.bits(0) });
}
fn rcc_pll_setup(rcc: &pac::RCC, flash: &pac::FLASH) {
// Switch to HSI to mess with HSE
rcc.cr.modify(|_, w| w.hsion().on());
while rcc.cr.read().hsirdy().is_not_ready() {}
rcc.cfgr.modify(|_, w| w.sw().hsi());
while !rcc.cfgr.read().sws().is_hsi() {}
rcc.cr.write(|w| w.hsion().on());
rcc.cfgr.reset();
// Ensure HSE is on and stable
rcc.cr.modify(|_, w| w.hseon().on().hsebyp().not_bypassed());
while !rcc.cr.read().hserdy().is_ready() {}
rcc.pllckselr.modify(
|_, w| {
w.pllsrc()
.hse()
.divm1()
.bits(1) // ref prescaler
.divm2()
.bits(1)
}, // ref prescaler
);
// Configure PLL1: 8MHz /1 *100 /2 = 400 MHz
rcc.pllcfgr.modify(|_, w| {
w.pll1vcosel()
.wide_vco() // 192-836 MHz VCO
.pll1rge()
.range8() // 8-16 MHz PFD
.pll1fracen()
.reset()
.divp1en()
.enabled()
.pll2vcosel()
.medium_vco() // 150-420 MHz VCO
.pll2rge()
.range8() // 8-16 MHz PFD
.pll2fracen()
.reset()
.divp2en()
.enabled()
.divq2en()
.enabled()
});
rcc.pll1divr.write(|w| unsafe {
w.divn1()
.bits(100 - 1) // feebdack divider
.divp1()
.div2() // p output divider
});
rcc.cr.modify(|_, w| w.pll1on().on());
while !rcc.cr.read().pll1rdy().is_ready() {}
// Configure PLL2: 8MHz /1 *25 / 2 = 100 MHz
rcc.pll2divr.write(|w| unsafe {
w.divn2()
.bits(25 - 1) // feebdack divider
.divp2()
.bits(2 - 1) // p output divider
.divq2()
.bits(2 - 1) // q output divider
});
rcc.cr.modify(|_, w| w.pll2on().on());
while !rcc.cr.read().pll2rdy().is_ready() {}
// hclk 200 MHz, pclk 100 MHz
rcc.d1cfgr.write(
|w| {
w.d1cpre()
.div1() // sys_ck not divided
.hpre()
.div2() // rcc_hclk3 = sys_d1cpre_ck / 2
.d1ppre()
.div2()
}, // rcc_pclk3 = rcc_hclk3 / 2
);
rcc.d2cfgr.write(
|w| {
w.d2ppre1()
.div2() // rcc_pclk1 = rcc_hclk3 / 2
.d2ppre2()
.div2()
}, // rcc_pclk2 = rcc_hclk3 / 2
);
rcc.d3cfgr.write(
|w| w.d3ppre().div2(), // rcc_pclk4 = rcc_hclk3 / 2
);
// 2 wait states, 0b10 programming delay
// 185-210 MHz
flash
.acr
.write(|w| unsafe { w.wrhighfreq().bits(2).latency().bits(2) });
while flash.acr.read().latency().bits() != 2 {}
// CSI for I/O compensationc ell
rcc.cr.modify(|_, w| w.csion().on());
while !rcc.cr.read().csirdy().is_ready() {}
// Set system clock to pll1_p
rcc.cfgr.modify(|_, w| w.sw().pll1());
while !rcc.cfgr.read().sws().is_pll1() {}
rcc.d1ccipr.write(|w| w.ckpersel().hse());
rcc.d2ccip1r
.modify(|_, w| w.spi123sel().pll2_p().spi45sel().pll2_q());
rcc.d3ccipr.modify(|_, w| w.spi6sel().pll2_q());
}
fn io_compensation_setup(syscfg: &pac::SYSCFG) {
syscfg
.cccsr
.modify(|_, w| w.en().set_bit().cs().clear_bit().hslv().clear_bit());
while syscfg.cccsr.read().ready().bit_is_clear() {}
}
fn gpio_setup(
gpioa: &pac::GPIOA,
gpiob: &pac::GPIOB,
gpiod: &pac::GPIOD,
gpioe: &pac::GPIOE,
gpiof: &pac::GPIOF,
gpiog: &pac::GPIOG,
) {
// FP_LED0
gpiod.otyper.modify(|_, w| w.ot5().push_pull());
gpiod.moder.modify(|_, w| w.moder5().output());
gpiod.odr.modify(|_, w| w.odr5().low());
// FP_LED1
gpiod.otyper.modify(|_, w| w.ot6().push_pull());
gpiod.moder.modify(|_, w| w.moder6().output());
gpiod.odr.modify(|_, w| w.odr6().low());
// LED_FP2
gpiog.otyper.modify(|_, w| w.ot4().push_pull());
gpiog.moder.modify(|_, w| w.moder4().output());
gpiog.odr.modify(|_, w| w.odr4().low());
// LED_FP3
gpiod.otyper.modify(|_, w| w.ot12().push_pull());
gpiod.moder.modify(|_, w| w.moder12().output());
gpiod.odr.modify(|_, w| w.odr12().low());
// AFE0_A0,1: PG2,PG3
gpiog
.otyper
.modify(|_, w| w.ot2().push_pull().ot3().push_pull());
gpiog
.moder
.modify(|_, w| w.moder2().output().moder3().output());
gpiog.odr.modify(|_, w| w.odr2().low().odr3().low());
// ADC0
// SCK: PG11
gpiog.moder.modify(|_, w| w.moder11().alternate());
gpiog.otyper.modify(|_, w| w.ot11().push_pull());
gpiog.ospeedr.modify(|_, w| w.ospeedr11().very_high_speed());
gpiog.afrh.modify(|_, w| w.afr11().af5());
// MOSI: PD7
// MISO: PA6
gpioa.moder.modify(|_, w| w.moder6().alternate());
gpioa.afrl.modify(|_, w| w.afr6().af5());
// NSS: PG10
gpiog.moder.modify(|_, w| w.moder10().alternate());
gpiog.otyper.modify(|_, w| w.ot10().push_pull());
gpiog.ospeedr.modify(|_, w| w.ospeedr10().very_high_speed());
gpiog.afrh.modify(|_, w| w.afr10().af5());
// DAC0
// SCK: PB10
gpiob.moder.modify(|_, w| w.moder10().alternate());
gpiob.otyper.modify(|_, w| w.ot10().push_pull());
gpiob.ospeedr.modify(|_, w| w.ospeedr10().very_high_speed());
gpiob.afrh.modify(|_, w| w.afr10().af5());
// MOSI: PB15
gpiob.moder.modify(|_, w| w.moder15().alternate());
gpiob.otyper.modify(|_, w| w.ot15().push_pull());
gpiob.ospeedr.modify(|_, w| w.ospeedr15().very_high_speed());
gpiob.afrh.modify(|_, w| w.afr15().af5());
// MISO: PB14
// NSS: PB9
gpiob.moder.modify(|_, w| w.moder9().alternate());
gpiob.otyper.modify(|_, w| w.ot9().push_pull());
gpiob.ospeedr.modify(|_, w| w.ospeedr9().very_high_speed());
gpiob.afrh.modify(|_, w| w.afr9().af5());
// DAC0_LDAC: PE11
gpioe.moder.modify(|_, w| w.moder11().output());
gpioe.otyper.modify(|_, w| w.ot11().push_pull());
gpioe.odr.modify(|_, w| w.odr11().low());
// DAC_CLR: PE12
gpioe.moder.modify(|_, w| w.moder12().output());
gpioe.otyper.modify(|_, w| w.ot12().push_pull());
gpioe.odr.modify(|_, w| w.odr12().high());
// AFE1_A0,1: PD14,PD15
gpiod
.otyper
.modify(|_, w| w.ot14().push_pull().ot15().push_pull());
gpiod
.moder
.modify(|_, w| w.moder14().output().moder15().output());
gpiod.odr.modify(|_, w| w.odr14().low().odr15().low());
// I2C2: SDA,SCL: PF0,PF1
gpiof
.moder
.modify(|_, w| w.moder0().alternate().moder1().alternate());
gpiof.afrl.modify(|_, w| w.afr0().af4().afr1().af4());
gpiof
.otyper
.modify(|_, w| w.ot0().open_drain().ot1().open_drain());
// ADC1
// SCK: PF6
gpiof.moder.modify(|_, w| w.moder7().alternate());
gpiof.otyper.modify(|_, w| w.ot7().push_pull());
gpiof.ospeedr.modify(|_, w| w.ospeedr7().very_high_speed());
gpiof.afrl.modify(|_, w| w.afr7().af5());
// MOSI: PF9
// MISO: PF7
gpiof.moder.modify(|_, w| w.moder8().alternate());
gpiof.afrh.modify(|_, w| w.afr8().af5());
// NSS: PF8
gpiof.moder.modify(|_, w| w.moder6().alternate());
gpiof.otyper.modify(|_, w| w.ot6().push_pull());
gpiof.ospeedr.modify(|_, w| w.ospeedr6().very_high_speed());
gpiof.afrl.modify(|_, w| w.afr6().af5());
// DAC1
// SCK: PE2
gpioe.moder.modify(|_, w| w.moder2().alternate());
gpioe.otyper.modify(|_, w| w.ot2().push_pull());
gpioe.ospeedr.modify(|_, w| w.ospeedr2().very_high_speed());
gpioe.afrl.modify(|_, w| w.afr2().af5());
// MOSI: PE6
gpioe.moder.modify(|_, w| w.moder6().alternate());
gpioe.otyper.modify(|_, w| w.ot6().push_pull());
gpioe.ospeedr.modify(|_, w| w.ospeedr6().very_high_speed());
gpioe.afrl.modify(|_, w| w.afr6().af5());
// MISO: PE5
// NSS: PE4
gpioe.moder.modify(|_, w| w.moder4().alternate());
gpioe.otyper.modify(|_, w| w.ot4().push_pull());
gpioe.ospeedr.modify(|_, w| w.ospeedr4().very_high_speed());
gpioe.afrl.modify(|_, w| w.afr4().af5());
// DAC1_LDAC: PE15
gpioe.moder.modify(|_, w| w.moder15().output());
gpioe.otyper.modify(|_, w| w.ot15().push_pull());
gpioe.odr.modify(|_, w| w.odr15().low());
}
// ADC0
fn spi1_setup(spi1: &pac::SPI1) {
spi1.cfg1
.modify(|_, w| w.mbr().div4().dsize().bits(16 - 1).fthlv().one_frame());
spi1.cfg2.modify(|_, w| {
w.afcntr()
.controlled()
.ssom()
.not_asserted()
.ssoe()
.enabled()
.ssiop()
.active_low()
.ssm()
.disabled()
.cpol()
.idle_high()
.cpha()
.second_edge()
.lsbfrst()
.msbfirst()
.master()
.master()
.sp()
.motorola()
.comm()
.receiver()
.ioswp()
.disabled()
.midi()
.bits(0)
.mssi()
.bits(6)
});
spi1.cr2.modify(|_, w| w.tsize().bits(1));
spi1.cr1.write(|w| w.spe().enabled());
}
// ADC1
fn spi5_setup(spi5: &pac::SPI5) {
spi5.cfg1
.modify(|_, w| w.mbr().div4().dsize().bits(16 - 1).fthlv().one_frame());
spi5.cfg2.modify(|_, w| {
w.afcntr()
.controlled()
.ssom()
.not_asserted()
.ssoe()
.enabled()
.ssiop()
.active_low()
.ssm()
.disabled()
.cpol()
.idle_high()
.cpha()
.second_edge()
.lsbfrst()
.msbfirst()
.master()
.master()
.sp()
.motorola()
.comm()
.receiver()
.ioswp()
.disabled()
.midi()
.bits(0)
.mssi()
.bits(6)
});
spi5.cr2.modify(|_, w| w.tsize().bits(1));
spi5.cr1.write(|w| w.spe().enabled());
}
// DAC0
fn spi2_setup(spi2: &pac::SPI2) {
spi2.cfg1
.modify(|_, w| w.mbr().div2().dsize().bits(16 - 1).fthlv().one_frame());
spi2.cfg2.modify(|_, w| {
w.afcntr()
.controlled()
.ssom()
.not_asserted()
.ssoe()
.enabled()
.ssiop()
.active_low()
.ssm()
.disabled()
.cpol()
.idle_low()
.cpha()
.first_edge()
.lsbfrst()
.msbfirst()
.master()
.master()
.sp()
.motorola()
.comm()
.transmitter()
.ioswp()
.disabled()
.midi()
.bits(0)
.mssi()
.bits(0)
});
spi2.cr2.modify(|_, w| w.tsize().bits(0));
spi2.cr1.write(|w| w.spe().enabled());
spi2.cr1.modify(|_, w| w.cstart().started());
}
// DAC1
fn spi4_setup(spi4: &pac::SPI4) {
spi4.cfg1
.modify(|_, w| w.mbr().div2().dsize().bits(16 - 1).fthlv().one_frame());
spi4.cfg2.modify(|_, w| {
w.afcntr()
.controlled()
.ssom()
.not_asserted()
.ssoe()
.enabled()
.ssiop()
.active_low()
.ssm()
.disabled()
.cpol()
.idle_low()
.cpha()
.first_edge()
.lsbfrst()
.msbfirst()
.master()
.master()
.sp()
.motorola()
.comm()
.transmitter()
.ioswp()
.disabled()
.midi()
.bits(0)
.mssi()
.bits(0)
});
spi4.cr2.modify(|_, w| w.tsize().bits(0));
spi4.cr1.write(|w| w.spe().enabled());
spi4.cr1.modify(|_, w| w.cstart().started());
}
fn tim2_setup(tim2: &pac::TIM2) {
tim2.psc.write(|w| w.psc().bits(200 - 1)); // from 200 MHz
tim2.arr.write(|w| unsafe { w.bits(2 - 1) }); // 2 µs
tim2.dier.write(|w| w.ude().set_bit());
tim2.egr.write(|w| w.ug().set_bit());
tim2.cr1.modify(|_, w| w.dir().clear_bit()); // up
}
fn dma1_setup(
dma1: &pac::DMA1,
dmamux1: &pac::DMAMUX1,
ma: usize,
pa0: usize,
pa1: usize,
) {
dma1.st[0].cr.modify(|_, w| w.en().clear_bit());
while dma1.st[0].cr.read().en().bit_is_set() {}
dma1.st[0].par.write(|w| unsafe { w.bits(pa0 as u32) });
dma1.st[0].m0ar.write(|w| unsafe { w.bits(ma as u32) });
dma1.st[0].ndtr.write(|w| w.ndt().bits(1));
dmamux1.ccr[0].modify(|_, w| w.dmareq_id().tim2_up());
dma1.st[0].cr.modify(|_, w| {
w.pl()
.medium()
.circ()
.enabled()
.msize()
.bits32()
.minc()
.fixed()
.mburst()
.single()
.psize()
.bits32()
.pinc()
.fixed()
.pburst()
.single()
.dbm()
.disabled()
.dir()
.memory_to_peripheral()
.pfctrl()
.dma()
});
dma1.st[0].fcr.modify(|_, w| w.dmdis().clear_bit());
dma1.st[0].cr.modify(|_, w| w.en().set_bit());
dma1.st[1].cr.modify(|_, w| w.en().clear_bit());
while dma1.st[1].cr.read().en().bit_is_set() {}
dma1.st[1].par.write(|w| unsafe { w.bits(pa1 as u32) });
dma1.st[1].m0ar.write(|w| unsafe { w.bits(ma as u32) });
dma1.st[1].ndtr.write(|w| w.ndt().bits(1));
dmamux1.ccr[1].modify(|_, w| w.dmareq_id().tim2_up());
dma1.st[1].cr.modify(|_, w| {
w.pl()
.medium()
.circ()
.enabled()
.msize()
.bits32()
.minc()
.fixed()
.mburst()
.single()
.psize()
.bits32()
.pinc()
.fixed()
.pburst()
.single()
.dbm()
.disabled()
.dir()
.memory_to_peripheral()
.pfctrl()
.dma()
});
dma1.st[1].fcr.modify(|_, w| w.dmdis().clear_bit());
dma1.st[1].cr.modify(|_, w| w.en().set_bit());
}
#[link_section = ".sram1.datspi"]
static mut DAT: u32 = 0x201; // EN | CSTART
pub fn init() {
let mut cp = unsafe { cortex_m::Peripherals::steal() };
let dp = unsafe { pac::Peripherals::steal() };
let rcc = dp.RCC;
rcc_reset(&rcc);
pwr_setup(&dp.PWR);
rcc_pll_setup(&rcc, &dp.FLASH);
rcc.apb4enr.modify(|_, w| w.syscfgen().set_bit());
io_compensation_setup(&dp.SYSCFG);
cp.SCB.enable_icache();
// TODO: ETH DMA coherence issues
// cp.SCB.enable_dcache(&mut cp.CPUID);
cp.DWT.enable_cycle_counter(); // japaric/cortex-m-rtfm#184
rcc.ahb4enr.modify(|_, w| {
w.gpioaen()
.set_bit()
.gpioben()
.set_bit()
.gpiocen()
.set_bit()
.gpioden()
.set_bit()
.gpioeen()
.set_bit()
.gpiofen()
.set_bit()
.gpiogen()
.set_bit()
});
gpio_setup(
&dp.GPIOA, &dp.GPIOB, &dp.GPIOD, &dp.GPIOE, &dp.GPIOF, &dp.GPIOG,
);
rcc.apb1lenr.modify(|_, w| w.spi2en().set_bit());
let spi2 = dp.SPI2;
spi2_setup(&spi2);
rcc.apb2enr.modify(|_, w| w.spi4en().set_bit());
let spi4 = dp.SPI4;
spi4_setup(&spi4);
rcc.apb2enr.modify(|_, w| w.spi1en().set_bit());
let spi1 = dp.SPI1;
spi1_setup(&spi1);
spi1.ier.write(|w| w.eotie().set_bit());
rcc.apb2enr.modify(|_, w| w.spi5en().set_bit());
let spi5 = dp.SPI5;
spi5_setup(&spi5);
// spi5.ier.write(|w| w.eotie().set_bit());
rcc.ahb2enr.modify(|_, w| {
w.sram1en()
.set_bit()
.sram2en()
.set_bit()
.sram3en()
.set_bit()
});
rcc.ahb1enr.modify(|_, w| w.dma1en().set_bit());
// init SRAM1 rodata can't load with sram1 disabled
unsafe { DAT = 0x201 }; // EN | CSTART
cortex_m::asm::dsb();
let dat_addr = unsafe { &DAT as *const _ } as usize;
cp.SCB.clean_dcache_by_address(dat_addr, 4);
dma1_setup(
&dp.DMA1,
&dp.DMAMUX1,
dat_addr,
&spi1.cr1 as *const _ as usize,
&spi5.cr1 as *const _ as usize,
);
rcc.apb1lenr.modify(|_, w| w.tim2en().set_bit());
// work around the SPI stall erratum
let dbgmcu = dp.DBGMCU;
dbgmcu.apb1lfz1.modify(|_, w| w.tim2().set_bit());
tim2_setup(&dp.TIM2);
rcc.apb1lenr.modify(|_, w| w.i2c2en().set_bit());
i2c::setup(&dp.I2C2);
rcc.apb4enr.modify(|_, w| w.syscfgen().set_bit());
rcc.ahb1enr.modify(|_, w| {
w.eth1macen()
.set_bit()
.eth1txen()
.set_bit()
.eth1rxen()
.set_bit()
});
dp.SYSCFG
.pmcr
.modify(|_, w| unsafe { w.epis().bits(0b100) }); // RMII
eth::setup_pins(&dp.GPIOA, &dp.GPIOB, &dp.GPIOC, &dp.GPIOG);
// enable TIM2 this must be late to be able to handle the first ADC SPI
// interrupt in time
dp.TIM2.cr1.modify(|_, w| w.cen().set_bit());
}

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@ -1,10 +0,0 @@
use super::i2c;
use stm32h7::stm32h743 as pac;
const I2C_ADDR: u8 = 0xa0;
pub fn read_eui48(i2c: &pac::I2C2) -> Result<[u8; 6], i2c::Error> {
let mut buffer = [0u8; 6];
i2c::write_read(i2c, I2C_ADDR, &[0xFAu8], &mut buffer)?;
Ok(buffer)
}

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@ -1,649 +0,0 @@
use core::{cmp, slice};
use smoltcp::phy;
use smoltcp::time::Instant;
use smoltcp::wire::EthernetAddress;
use smoltcp::Result;
use stm32h7::stm32h743 as pac;
#[allow(dead_code)]
mod phy_consts {
pub const PHY_REG_BCR: u8 = 0x00;
pub const PHY_REG_BSR: u8 = 0x01;
pub const PHY_REG_ID1: u8 = 0x02;
pub const PHY_REG_ID2: u8 = 0x03;
pub const PHY_REG_ANTX: u8 = 0x04;
pub const PHY_REG_ANRX: u8 = 0x05;
pub const PHY_REG_ANEXP: u8 = 0x06;
pub const PHY_REG_ANNPTX: u8 = 0x07;
pub const PHY_REG_ANNPRX: u8 = 0x08;
pub const PHY_REG_SSR: u8 = 0x1F; // Special Status Register
pub const PHY_REG_CTL: u8 = 0x0D; // Ethernet PHY Register Control
pub const PHY_REG_ADDAR: u8 = 0x0E; // Ethernet PHY Address or Data
pub const PHY_REG_WUCSR: u16 = 0x8010;
pub const PHY_REG_BCR_COLTEST: u16 = 1 << 7;
pub const PHY_REG_BCR_FD: u16 = 1 << 8;
pub const PHY_REG_BCR_ANRST: u16 = 1 << 9;
pub const PHY_REG_BCR_ISOLATE: u16 = 1 << 10;
pub const PHY_REG_BCR_POWERDN: u16 = 1 << 11;
pub const PHY_REG_BCR_AN: u16 = 1 << 12;
pub const PHY_REG_BCR_100M: u16 = 1 << 13;
pub const PHY_REG_BCR_LOOPBACK: u16 = 1 << 14;
pub const PHY_REG_BCR_RESET: u16 = 1 << 15;
pub const PHY_REG_BSR_JABBER: u16 = 1 << 1;
pub const PHY_REG_BSR_UP: u16 = 1 << 2;
pub const PHY_REG_BSR_FAULT: u16 = 1 << 4;
pub const PHY_REG_BSR_ANDONE: u16 = 1 << 5;
pub const PHY_REG_SSR_ANDONE: u16 = 1 << 12;
pub const PHY_REG_SSR_SPEED: u16 = 0b111 << 2;
pub const PHY_REG_SSR_10BASE_HD: u16 = 0b001 << 2;
pub const PHY_REG_SSR_10BASE_FD: u16 = 0b101 << 2;
pub const PHY_REG_SSR_100BASE_HD: u16 = 0b010 << 2;
pub const PHY_REG_SSR_100BASE_FD: u16 = 0b110 << 2;
}
use self::phy_consts::*;
const EMAC_DES3_OWN: u32 = 0x8000_0000;
const EMAC_DES3_CTXT: u32 = 0x4000_0000;
const EMAC_DES3_FD: u32 = 0x2000_0000;
const EMAC_DES3_LD: u32 = 0x1000_0000;
const EMAC_DES3_ES: u32 = 0x0000_8000;
const EMAC_TDES2_IOC: u32 = 0x8000_0000;
const EMAC_RDES3_IOC: u32 = 0x4000_0000;
const EMAC_RDES3_PL: u32 = 0x0000_7FFF;
const EMAC_RDES3_BUF1V: u32 = 0x0100_0000;
const EMAC_TDES2_B1L: u32 = 0x0000_3FFF;
const EMAC_DES0_BUF1AP: u32 = 0xFFFF_FFFF;
// 6 DMAC, 6 SMAC, 4 q tag, 2 ethernet type II, 1500 ip MTU, 4 CRC, 2 padding
const ETH_BUFFER_SIZE: usize = 1524;
const ETH_DESC_U32_SIZE: usize = 4;
const ETH_TX_BUFFER_COUNT: usize = 4;
const ETH_RX_BUFFER_COUNT: usize = 4;
#[allow(dead_code)]
mod cr_consts {
/* For HCLK 60-100 MHz */
pub const ETH_MACMIIAR_CR_HCLK_DIV_42: u8 = 0;
/* For HCLK 100-150 MHz */
pub const ETH_MACMIIAR_CR_HCLK_DIV_62: u8 = 1;
/* For HCLK 20-35 MHz */
pub const ETH_MACMIIAR_CR_HCLK_DIV_16: u8 = 2;
/* For HCLK 35-60 MHz */
pub const ETH_MACMIIAR_CR_HCLK_DIV_26: u8 = 3;
/* For HCLK 150-250 MHz */
pub const ETH_MACMIIAR_CR_HCLK_DIV_102: u8 = 4;
/* For HCLK 250-300 MHz */
pub const ETH_MACMIIAR_CR_HCLK_DIV_124: u8 = 5;
}
use self::cr_consts::*;
// set clock range in MAC MII address register
// 200 MHz AHB clock = eth_hclk
const CLOCK_RANGE: u8 = ETH_MACMIIAR_CR_HCLK_DIV_102;
pub fn setup_pins(
gpioa: &pac::GPIOA,
gpiob: &pac::GPIOB,
gpioc: &pac::GPIOC,
gpiog: &pac::GPIOG,
) {
// PA1 RMII_REF_CLK
gpioa.moder.modify(|_, w| w.moder1().alternate());
gpioa.afrl.modify(|_, w| w.afr1().af11());
gpioa.ospeedr.modify(|_, w| w.ospeedr1().very_high_speed());
// PA2 RMII_MDIO
gpioa.moder.modify(|_, w| w.moder2().alternate());
gpioa.afrl.modify(|_, w| w.afr2().af11());
gpioa.ospeedr.modify(|_, w| w.ospeedr2().very_high_speed());
// PC1 RMII_MDC
gpioc.moder.modify(|_, w| w.moder1().alternate());
gpioc.afrl.modify(|_, w| w.afr1().af11());
gpioc.ospeedr.modify(|_, w| w.ospeedr1().very_high_speed());
// PA7 RMII_CRS_DV
gpioa.moder.modify(|_, w| w.moder7().alternate());
gpioa.afrl.modify(|_, w| w.afr7().af11());
gpioa.ospeedr.modify(|_, w| w.ospeedr7().very_high_speed());
// PC4 RMII_RXD0
gpioc.moder.modify(|_, w| w.moder4().alternate());
gpioc.afrl.modify(|_, w| w.afr4().af11());
gpioc.ospeedr.modify(|_, w| w.ospeedr4().very_high_speed());
// PC5 RMII_RXD1
gpioc.moder.modify(|_, w| w.moder5().alternate());
gpioc.afrl.modify(|_, w| w.afr5().af11());
gpioc.ospeedr.modify(|_, w| w.ospeedr5().very_high_speed());
// PB11 RMII_TX_EN
gpiob.moder.modify(|_, w| w.moder11().alternate());
gpiob.afrh.modify(|_, w| w.afr11().af11());
gpiob.ospeedr.modify(|_, w| w.ospeedr11().very_high_speed());
// PB12 RXII_TXD0
gpiob.moder.modify(|_, w| w.moder12().alternate());
gpiob.afrh.modify(|_, w| w.afr12().af11());
gpiob.ospeedr.modify(|_, w| w.ospeedr12().very_high_speed());
// PG14 RMII TXD1
gpiog.moder.modify(|_, w| w.moder14().alternate());
gpiog.afrh.modify(|_, w| w.afr14().af11());
gpiog.ospeedr.modify(|_, w| w.ospeedr14().very_high_speed());
}
const PHY_ADDR: u8 = 0;
fn phy_read(reg_addr: u8, mac: &pac::ETHERNET_MAC) -> u16 {
while mac.macmdioar.read().mb().bit_is_set() {}
mac.macmdioar.modify(|_, w| unsafe {
w.pa()
.bits(PHY_ADDR)
.rda()
.bits(reg_addr)
.goc()
.bits(0b11) // read
.cr()
.bits(CLOCK_RANGE)
.mb()
.set_bit()
});
while mac.macmdioar.read().mb().bit_is_set() {}
mac.macmdiodr.read().md().bits()
}
fn phy_write(reg_addr: u8, reg_data: u16, mac: &pac::ETHERNET_MAC) {
while mac.macmdioar.read().mb().bit_is_set() {}
mac.macmdiodr.write(|w| unsafe { w.md().bits(reg_data) });
mac.macmdioar.modify(|_, w| unsafe {
w.pa()
.bits(PHY_ADDR)
.rda()
.bits(reg_addr)
.goc()
.bits(0b01) // write
.cr()
.bits(CLOCK_RANGE)
.mb()
.set_bit()
});
while mac.macmdioar.read().mb().bit_is_set() {}
}
// Writes a value to an extended PHY register in MMD address space
fn phy_write_ext(reg_addr: u16, reg_data: u16, mac: &pac::ETHERNET_MAC) {
phy_write(PHY_REG_CTL, 0x0003, mac); // set address
phy_write(PHY_REG_ADDAR, reg_addr, mac);
phy_write(PHY_REG_CTL, 0x4003, mac); // set data
phy_write(PHY_REG_ADDAR, reg_data, mac);
}
#[repr(align(4))]
struct RxRing {
desc_buf: [[u32; ETH_DESC_U32_SIZE]; ETH_RX_BUFFER_COUNT],
pkt_buf: [[u8; ETH_BUFFER_SIZE]; ETH_RX_BUFFER_COUNT],
cur_desc: usize,
}
impl RxRing {
const fn new() -> Self {
Self {
desc_buf: [[0; ETH_DESC_U32_SIZE]; ETH_RX_BUFFER_COUNT],
pkt_buf: [[0; ETH_BUFFER_SIZE]; ETH_RX_BUFFER_COUNT],
cur_desc: 0,
}
}
unsafe fn init(&mut self, dma: &pac::ETHERNET_DMA) {
assert_eq!(self.desc_buf[0].len() % 4, 0);
assert_eq!(self.pkt_buf[0].len() % 4, 0);
for i in 0..self.desc_buf.len() {
for j in 0..self.desc_buf[0].len() {
self.desc_buf[i][j] = 0;
}
for j in 0..self.pkt_buf[0].len() {
self.pkt_buf[i][j] = 0;
}
}
let addr = &self.desc_buf as *const _ as u32;
assert_eq!(addr & 0x3, 0);
dma.dmacrx_dlar.write(|w| w.bits(addr));
dma.dmacrx_rlr
.write(|w| w.rdrl().bits(self.desc_buf.len() as u16 - 1));
self.cur_desc = 0;
for _ in 0..self.desc_buf.len() {
self.buf_release()
}
}
fn next_desc(&self) -> usize {
(self.cur_desc + 1) % self.desc_buf.len()
}
// not owned by DMA
fn buf_owned(&self) -> bool {
self.desc_buf[self.cur_desc][3] & EMAC_DES3_OWN == 0
}
fn buf_valid(&self) -> bool {
self.desc_buf[self.cur_desc][3]
& (EMAC_DES3_FD | EMAC_DES3_LD | EMAC_DES3_ES | EMAC_DES3_CTXT)
== (EMAC_DES3_FD | EMAC_DES3_LD)
}
unsafe fn buf_as_slice_mut<'a>(&self) -> &'a mut [u8] {
let len = (self.desc_buf[self.cur_desc][3] & EMAC_RDES3_PL) as usize;
let len = cmp::min(len, ETH_BUFFER_SIZE);
let addr = &self.pkt_buf[self.cur_desc] as *const _ as *mut u8;
slice::from_raw_parts_mut(addr, len)
}
fn buf_release(&mut self) {
let addr = &self.pkt_buf[self.cur_desc] as *const _;
self.desc_buf[self.cur_desc][0] = addr as u32 & EMAC_DES0_BUF1AP;
self.desc_buf[self.cur_desc][3] =
EMAC_RDES3_BUF1V | EMAC_RDES3_IOC | EMAC_DES3_OWN;
let addr = &self.desc_buf[self.cur_desc] as *const _ as u32;
assert_eq!(addr & 0x3, 0);
let dma = unsafe { pac::Peripherals::steal().ETHERNET_DMA };
// Ensure changes to the descriptor (in particular, the OWN flag) are
// committed before DMA engine sees tail pointer store.
cortex_m::asm::dsb();
dma.dmacrx_dtpr.write(|w| unsafe { w.bits(addr) });
self.cur_desc = self.next_desc();
}
}
#[repr(align(4))]
struct TxRing {
desc_buf: [[u32; ETH_DESC_U32_SIZE]; ETH_TX_BUFFER_COUNT],
pkt_buf: [[u8; ETH_BUFFER_SIZE]; ETH_TX_BUFFER_COUNT],
cur_desc: usize,
}
impl TxRing {
const fn new() -> Self {
Self {
desc_buf: [[0; ETH_DESC_U32_SIZE]; ETH_TX_BUFFER_COUNT],
pkt_buf: [[0; ETH_BUFFER_SIZE]; ETH_TX_BUFFER_COUNT],
cur_desc: 0,
}
}
unsafe fn init(&mut self, dma: &pac::ETHERNET_DMA) {
assert_eq!(self.desc_buf[0].len() % 4, 0);
assert_eq!(self.pkt_buf[0].len() % 4, 0);
for i in 0..self.desc_buf.len() {
for j in 0..self.desc_buf[0].len() {
self.desc_buf[i][j] = 0;
}
for j in 0..self.pkt_buf[0].len() {
self.pkt_buf[i][j] = 0;
}
}
self.cur_desc = 0;
let addr = &self.desc_buf as *const _ as u32;
assert_eq!(addr & 0x3, 0);
dma.dmactx_dlar.write(|w| w.bits(addr));
dma.dmactx_rlr
.write(|w| w.tdrl().bits(self.desc_buf.len() as u16 - 1));
let addr = &self.desc_buf[0] as *const _ as u32;
assert_eq!(addr & 0x3, 0);
dma.dmactx_dtpr.write(|w| w.bits(addr));
}
fn next_desc(&self) -> usize {
(self.cur_desc + 1) % self.desc_buf.len()
}
// not owned by DMA
fn buf_owned(&self) -> bool {
self.desc_buf[self.cur_desc][3] & EMAC_DES3_OWN == 0
}
unsafe fn buf_as_slice_mut<'a>(&mut self, len: usize) -> &'a mut [u8] {
let len = cmp::min(len, ETH_BUFFER_SIZE);
self.desc_buf[self.cur_desc][2] =
EMAC_TDES2_IOC | (len as u32 & EMAC_TDES2_B1L);
let addr = &self.pkt_buf[self.cur_desc] as *const _ as *mut u8;
self.desc_buf[self.cur_desc][0] = addr as u32 & EMAC_DES0_BUF1AP;
slice::from_raw_parts_mut(addr, len)
}
fn buf_release(&mut self) {
self.desc_buf[self.cur_desc][3] =
EMAC_DES3_OWN | EMAC_DES3_FD | EMAC_DES3_LD;
self.cur_desc = self.next_desc();
let addr = &self.desc_buf[self.cur_desc] as *const _ as u32;
assert_eq!(addr & 0x3, 0);
let dma = unsafe { pac::Peripherals::steal().ETHERNET_DMA };
// Ensure packet contents as well as changes to the descriptor have been
// committed before DMA engine sees the tail pointer store.
cortex_m::asm::dsb();
dma.dmactx_dtpr.write(|w| unsafe { w.bits(addr) });
}
}
pub struct Device {
rx: RxRing,
tx: TxRing,
}
impl Device {
pub const fn new() -> Self {
Self {
rx: RxRing::new(),
tx: TxRing::new(),
}
}
// Initialize the ethernet peripherals
//
// # Safety
//
// This iis transitively unsafe since it sets potentially
// unsafe register values. Might ultimately be safe if the values
// are correct.
//
// After `init` is called, `Device` shall not be moved.
pub unsafe fn init(
&mut self,
mac: EthernetAddress,
eth_mac: &pac::ETHERNET_MAC,
eth_dma: &pac::ETHERNET_DMA,
eth_mtl: &pac::ETHERNET_MTL,
) {
eth_dma.dmamr.modify(|_, w| w.swr().set_bit());
while eth_dma.dmamr.read().swr().bit_is_set() {}
// 200 MHz
eth_mac
.mac1ustcr
.modify(|_, w| w.tic_1us_cntr().bits(200 - 1));
// Configuration Register
eth_mac.maccr.modify(|_, w| {
w.arpen()
.clear_bit()
.ipc()
.set_bit()
.ipg()
.bits(0b000) // 96 bit
.ecrsfd()
.clear_bit()
.dcrs()
.clear_bit()
.bl()
.bits(0b00) // 19
.prelen()
.bits(0b00) // 7
// CRC stripping for Type frames
.cst()
.set_bit()
// Fast Ethernet speed
.fes()
.set_bit()
// Duplex mode
.dm()
.set_bit()
// Automatic pad/CRC stripping
.acs()
.set_bit()
// Retry disable in half-duplex mode
.dr()
.set_bit()
});
eth_mac.macecr.modify(|_, w| {
w.eipgen()
.clear_bit()
.usp()
.clear_bit()
.spen()
.clear_bit()
.dcrcc()
.clear_bit()
});
// Set the MAC address
eth_mac.maca0lr.write(|w| {
w.addrlo().bits(
u32::from(mac.0[0])
| (u32::from(mac.0[1]) << 8)
| (u32::from(mac.0[2]) << 16)
| (u32::from(mac.0[3]) << 24),
)
});
eth_mac.maca0hr.write(|w| {
w.addrhi()
.bits(u16::from(mac.0[4]) | (u16::from(mac.0[5]) << 8))
});
// frame filter register
eth_mac.macpfr.modify(|_, w| {
w.dntu()
.clear_bit()
.ipfe()
.clear_bit()
.vtfe()
.clear_bit()
.hpf()
.clear_bit()
.saf()
.clear_bit()
.saif()
.clear_bit()
.pcf()
.bits(0b00)
.dbf()
.clear_bit()
.pm()
.clear_bit()
.daif()
.clear_bit()
.hmc()
.clear_bit()
.huc()
.clear_bit()
// Receive All
.ra()
.clear_bit()
// Promiscuous mode
.pr()
.clear_bit()
});
eth_mac.macwtr.write(|w| w.pwe().clear_bit());
// Flow Control Register
eth_mac.macqtx_fcr.modify(|_, w| {
// Pause time
w.pt().bits(0x100)
});
eth_mac.macrx_fcr.modify(|_, w| w);
eth_mtl.mtlrx_qomr.modify(|_, w| {
w
// Receive store and forward
.rsf()
.set_bit()
// Dropping of TCP/IP checksum error frames disable
.dis_tcp_ef()
.clear_bit()
// Forward error frames
.fep()
.clear_bit()
// Forward undersized good packets
.fup()
.clear_bit()
});
eth_mtl.mtltx_qomr.modify(|_, w| {
w
// Transmit store and forward
.tsf()
.set_bit()
});
if (phy_read(PHY_REG_ID1, eth_mac) != 0x0007)
| (phy_read(PHY_REG_ID2, eth_mac) != 0xC131)
{
error!("PHY ID error!");
}
phy_write(PHY_REG_BCR, PHY_REG_BCR_RESET, eth_mac);
while phy_read(PHY_REG_BCR, eth_mac) & PHY_REG_BCR_RESET
== PHY_REG_BCR_RESET
{}
phy_write_ext(PHY_REG_WUCSR, 0, eth_mac);
phy_write(
PHY_REG_BCR,
PHY_REG_BCR_AN | PHY_REG_BCR_ANRST | PHY_REG_BCR_100M,
eth_mac,
);
/*
while phy_read(PHY_REG_BSR) & PHY_REG_BSR_UP == 0 {};
while phy_read(PHY_REG_BSR) & PHY_REG_BSR_ANDONE == 0 {};
while phy_read(PHY_REG_SSR) & (PHY_REG_SSR_ANDONE | PHY_REG_SSR_SPEED)
!= PHY_REG_SSR_ANDONE | PHY_REG_SSR_100BASE_FD {};
*/
// operation mode register
eth_dma.dmamr.modify(|_, w| {
w.intm()
.bits(0b00)
// Rx Tx priority ratio 1:1
.pr()
.bits(0b000)
.txpr()
.clear_bit()
.da()
.clear_bit()
});
// bus mode register
eth_dma.dmasbmr.modify(|_, w| {
// Address-aligned beats
w.aal()
.set_bit()
// Fixed burst
.fb()
.set_bit()
});
eth_dma
.dmaccr
.modify(|_, w| w.dsl().bits(0).pblx8().clear_bit().mss().bits(536));
eth_dma.dmactx_cr.modify(|_, w| {
w
// Tx DMA PBL
.txpbl()
.bits(32)
.tse()
.clear_bit()
// Operate on second frame
.osf()
.clear_bit()
});
eth_dma.dmacrx_cr.modify(|_, w| {
w
// receive buffer size
.rbsz()
.bits(ETH_BUFFER_SIZE as u16)
// Rx DMA PBL
.rxpbl()
.bits(32)
// Disable flushing of received frames
.rpf()
.clear_bit()
});
self.rx.init(eth_dma);
self.tx.init(eth_dma);
// Manage MAC transmission and reception
eth_mac.maccr.modify(|_, w| {
w.re()
.bit(true) // Receiver Enable
.te()
.bit(true) // Transmiter Enable
});
eth_mtl.mtltx_qomr.modify(|_, w| w.ftq().set_bit());
// Ensure ring buffer descriptors have been set up in memory before
// enabling DMA engine.
cortex_m::asm::dsb();
// Manage DMA transmission and reception
eth_dma.dmactx_cr.modify(|_, w| w.st().set_bit());
eth_dma.dmacrx_cr.modify(|_, w| w.sr().set_bit());
eth_dma
.dmacsr
.modify(|_, w| w.tps().set_bit().rps().set_bit());
}
}
impl<'a, 'b> phy::Device<'a> for &'b mut Device {
type RxToken = RxToken<'a>;
type TxToken = TxToken<'a>;
fn capabilities(&self) -> phy::DeviceCapabilities {
let mut capabilities = phy::DeviceCapabilities::default();
// ethernet frame type II (6 smac, 6 dmac, 2 ethertype),
// sans CRC (4), 1500 IP MTU
capabilities.max_transmission_unit = 1514;
capabilities.max_burst_size = Some(self.tx.desc_buf.len());
capabilities
}
fn receive(&mut self) -> Option<(RxToken, TxToken)> {
// Skip all queued packets with errors.
while self.rx.buf_owned() && !self.rx.buf_valid() {
self.rx.buf_release()
}
if !(self.rx.buf_owned() && self.tx.buf_owned()) {
return None;
}
Some((RxToken(&mut self.rx), TxToken(&mut self.tx)))
}
fn transmit(&mut self) -> Option<TxToken> {
if !self.tx.buf_owned() {
return None;
}
Some(TxToken(&mut self.tx))
}
}
pub struct RxToken<'a>(&'a mut RxRing);
impl<'a> phy::RxToken for RxToken<'a> {
fn consume<R, F>(self, _timestamp: Instant, f: F) -> Result<R>
where
F: FnOnce(&mut [u8]) -> Result<R>,
{
let result = f(unsafe { self.0.buf_as_slice_mut() });
self.0.buf_release();
result
}
}
pub struct TxToken<'a>(&'a mut TxRing);
impl<'a> phy::TxToken for TxToken<'a> {
fn consume<R, F>(self, _timestamp: Instant, len: usize, f: F) -> Result<R>
where
F: FnOnce(&mut [u8]) -> Result<R>,
{
let result = f(unsafe { self.0.buf_as_slice_mut(len) });
self.0.buf_release();
result
}
}

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@ -1,145 +0,0 @@
use stm32h7::stm32h743 as pac;
// Adapted from stm32h7xx embedded-hal
// I2C error
#[derive(Debug)]
pub enum Error {
// Bus error
Bus,
// Arbitration loss
Arbitration,
// Address not ACKd within a reasonable time (no device present?)
Timeout,
// Unexpected NACK during transfer
NAck,
}
// Maximum number of times to retry NACKed address phase before timing out
// Note that many devices indicate a busy condition by NACKing (e.g. 24xx
// EEPROMs during write)
const N_RETRY: usize = 100; // ~ 10ms @ 100 kHz bus clock
pub fn setup(i2c: &pac::I2C2) {
// Disable the peripheral before setting timings
i2c.cr1.modify(|_, w| w.pe().clear_bit());
// Values from STM32MXCube for 100 kHz I2C clock with 100 MHz peripheral clock
i2c.timingr.modify(|_, w| {
w.presc()
.bits(1)
.scldel()
.bits(0x12)
.sdadel()
.bits(0)
.sclh()
.bits(0xec)
.scll()
.bits(0xff)
});
// Enable the peripheral
i2c.cr1.write(|w| w.pe().set_bit());
}
// Busy-wait for a flag to be asserted, erroring out on unrecoverable problems
macro_rules! busy_wait_errors {
($i2c:expr, $flag:ident) => {
loop {
let isr = $i2c.isr.read();
if isr.berr().bit_is_set() {
return Err(Error::Bus);
} else if isr.arlo().bit_is_set() {
return Err(Error::Arbitration);
} else if isr.nackf().bit_is_set() {
return Err(Error::NAck);
} else if isr.$flag().bit_is_set() {
break;
}
}
};
}
fn poll_for_start_ack(
i2c: &pac::I2C2,
addr: u8,
r_wn: bool,
data_len: usize,
autoend: bool,
start: bool,
) -> Result<(), Error> {
for _i in 0..N_RETRY {
// START and prepare to send `data_len`
i2c.cr2.write(|w| {
w.start()
.bit(start)
.sadd()
.bits(addr as u16)
.add10()
.clear_bit()
.rd_wrn()
.bit(r_wn)
.nbytes()
.bits(data_len as u8)
.autoend()
.bit(autoend)
});
loop {
let isr = i2c.isr.read();
if isr.berr().bit_is_set() {
return Err(Error::Bus);
} else if isr.arlo().bit_is_set() {
return Err(Error::Arbitration);
} else if isr.nackf().bit_is_set() {
i2c.icr.write(|w| w.nackcf().set_bit());
// Wait to finish handling NACK-STOP
loop {
if i2c.isr.read().busy().bit_is_clear() {
break;
}
}
break;
} else if isr.txis().bit_is_set() || isr.rxne().bit_is_set() {
return Ok(());
}
}
}
Err(Error::Timeout)
}
pub fn write_read(
i2c: &pac::I2C2,
addr: u8,
bytes: &[u8],
buffer: &mut [u8],
) -> Result<(), Error> {
assert!(bytes.len() < 256 && !bytes.is_empty());
assert!(buffer.len() < 256 && !buffer.is_empty());
poll_for_start_ack(i2c, addr, false, bytes.len(), false, true)?;
for byte in bytes {
// Wait until we are allowed to send data (START has been ACKed or last
// byte when through)
busy_wait_errors!(i2c, txis);
i2c.txdr.write(|w| w.txdata().bits(*byte));
}
// Wait until the last transmission is finished
busy_wait_errors!(i2c, tc);
poll_for_start_ack(i2c, addr | 1, true, buffer.len(), true, true)?;
for byte in buffer {
// Wait until we have received something
busy_wait_errors!(i2c, rxne);
*byte = i2c.rxdr.read().rxdata().bits();
}
// automatic STOP
Ok(())
}

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@ -1,422 +0,0 @@
#![deny(warnings)]
#![allow(clippy::missing_safety_doc)]
#![no_std]
#![no_main]
#![cfg_attr(feature = "nightly", feature(asm))]
// Enable returning `!`
#![cfg_attr(feature = "nightly", feature(never_type))]
#![cfg_attr(feature = "nightly", feature(core_intrinsics))]
#[inline(never)]
#[panic_handler]
#[cfg(all(feature = "nightly", not(feature = "semihosting")))]
fn panic(_info: &core::panic::PanicInfo) -> ! {
let gpiod = unsafe { &*pac::GPIOD::ptr() };
gpiod.odr.modify(|_, w| w.odr6().high().odr12().high()); // FP_LED_1, FP_LED_3
unsafe {
core::intrinsics::abort();
}
}
#[cfg(feature = "semihosting")]
extern crate panic_semihosting;
#[cfg(not(any(feature = "nightly", feature = "semihosting")))]
extern crate panic_halt;
#[macro_use]
extern crate log;
use core::ptr;
// use core::sync::atomic::{AtomicU32, AtomicBool, Ordering};
use core::fmt::Write;
use cortex_m_rt::exception;
use heapless::{consts::*, String, Vec};
use rtfm::cyccnt::{Instant, U32Ext as _};
use stm32h7::stm32h743 as pac;
use smoltcp as net;
use serde::{de::DeserializeOwned, Deserialize, Serialize};
use serde_json_core::{de::from_slice, ser::to_string};
mod eth;
mod iir;
use iir::*;
mod board;
mod eeprom;
mod i2c;
#[cfg(not(feature = "semihosting"))]
fn init_log() {}
#[cfg(feature = "semihosting")]
fn init_log() {
use cortex_m_log::log::{init as init_log, Logger};
use cortex_m_log::printer::semihosting::{hio::HStdout, InterruptOk};
use log::LevelFilter;
static mut LOGGER: Option<Logger<InterruptOk<HStdout>>> = None;
let logger = Logger {
inner: InterruptOk::<_>::stdout().unwrap(),
level: LevelFilter::Info,
};
let logger = unsafe { LOGGER.get_or_insert(logger) };
init_log(logger).unwrap();
}
// Pull in build information (from `built` crate)
mod build_info {
#![allow(dead_code)]
// include!(concat!(env!("OUT_DIR"), "/built.rs"));
}
const SCALE: f32 = ((1 << 15) - 1) as f32;
// static ETHERNET_PENDING: AtomicBool = AtomicBool::new(true);
const TCP_RX_BUFFER_SIZE: usize = 8192;
const TCP_TX_BUFFER_SIZE: usize = 8192;
macro_rules! create_socket {
($set:ident, $rx_storage:ident, $tx_storage:ident, $target:ident) => {
let mut $rx_storage = [0; TCP_RX_BUFFER_SIZE];
let mut $tx_storage = [0; TCP_TX_BUFFER_SIZE];
let tcp_rx_buffer =
net::socket::TcpSocketBuffer::new(&mut $rx_storage[..]);
let tcp_tx_buffer =
net::socket::TcpSocketBuffer::new(&mut $tx_storage[..]);
let tcp_socket =
net::socket::TcpSocket::new(tcp_rx_buffer, tcp_tx_buffer);
let $target = $set.add(tcp_socket);
};
}
#[rtfm::app(device = stm32h7::stm32h743, peripherals = true, monotonic = rtfm::cyccnt::CYCCNT)]
const APP: () = {
struct Resources {
spi: (pac::SPI1, pac::SPI2, pac::SPI4, pac::SPI5),
i2c: pac::I2C2,
ethernet_periph:
(pac::ETHERNET_MAC, pac::ETHERNET_DMA, pac::ETHERNET_MTL),
#[init([[0.; 5]; 2])]
iir_state: [IIRState; 2],
#[init([IIR { ba: [1., 0., 0., 0., 0.], y_offset: 0., y_min: -SCALE - 1., y_max: SCALE }; 2])]
iir_ch: [IIR; 2],
#[link_section = ".sram3.eth"]
#[init(eth::Device::new())]
ethernet: eth::Device,
}
#[init(schedule = [tick])]
fn init(c: init::Context) -> init::LateResources {
board::init();
init_log();
// info!("Version {} {}", build_info::PKG_VERSION, build_info::GIT_VERSION.unwrap());
// info!("Built on {}", build_info::BUILT_TIME_UTC);
// info!("{} {}", build_info::RUSTC_VERSION, build_info::TARGET);
// c.schedule.tick(Instant::now()).unwrap();
let dp = c.device;
init::LateResources {
spi: (dp.SPI1, dp.SPI2, dp.SPI4, dp.SPI5),
i2c: dp.I2C2,
ethernet_periph: (
dp.ETHERNET_MAC,
dp.ETHERNET_DMA,
dp.ETHERNET_MTL,
),
}
}
#[idle(resources = [ethernet, ethernet_periph, iir_state, iir_ch, i2c])]
fn idle(c: idle::Context) -> ! {
let (MAC, DMA, MTL) = c.resources.ethernet_periph;
let hardware_addr = match eeprom::read_eui48(c.resources.i2c) {
Err(_) => {
info!("Could not read EEPROM, using default MAC address");
net::wire::EthernetAddress([0x10, 0xE2, 0xD5, 0x00, 0x03, 0x00])
}
Ok(raw_mac) => net::wire::EthernetAddress(raw_mac),
};
info!("MAC: {}", hardware_addr);
unsafe { c.resources.ethernet.init(hardware_addr, MAC, DMA, MTL) };
let mut neighbor_cache_storage = [None; 8];
let neighbor_cache =
net::iface::NeighborCache::new(&mut neighbor_cache_storage[..]);
let local_addr = net::wire::IpAddress::v4(10, 0, 16, 99);
let mut ip_addrs = [net::wire::IpCidr::new(local_addr, 24)];
let mut iface =
net::iface::EthernetInterfaceBuilder::new(c.resources.ethernet)
.ethernet_addr(hardware_addr)
.neighbor_cache(neighbor_cache)
.ip_addrs(&mut ip_addrs[..])
.finalize();
let mut socket_set_entries: [_; 8] = Default::default();
let mut sockets =
net::socket::SocketSet::new(&mut socket_set_entries[..]);
create_socket!(sockets, tcp_rx_storage0, tcp_tx_storage0, tcp_handle0);
create_socket!(sockets, tcp_rx_storage0, tcp_tx_storage0, tcp_handle1);
// unsafe { eth::enable_interrupt(DMA); }
let mut time = 0u32;
let mut next_ms = Instant::now();
next_ms += 400_000.cycles();
let mut server = Server::new();
let mut iir_state: resources::iir_state = c.resources.iir_state;
let mut iir_ch: resources::iir_ch = c.resources.iir_ch;
loop {
// if ETHERNET_PENDING.swap(false, Ordering::Relaxed) { }
let tick = Instant::now() > next_ms;
if tick {
next_ms += 400_000.cycles();
time += 1;
}
{
let socket =
&mut *sockets.get::<net::socket::TcpSocket>(tcp_handle0);
if socket.state() == net::socket::TcpState::CloseWait {
socket.close();
} else if !(socket.is_open() || socket.is_listening()) {
socket
.listen(1234)
.unwrap_or_else(|e| warn!("TCP listen error: {:?}", e));
} else if tick && socket.can_send() {
let s = iir_state.lock(|iir_state| Status {
t: time,
x0: iir_state[0][0],
y0: iir_state[0][2],
x1: iir_state[1][0],
y1: iir_state[1][2],
});
json_reply(socket, &s);
}
}
{
let socket =
&mut *sockets.get::<net::socket::TcpSocket>(tcp_handle1);
if socket.state() == net::socket::TcpState::CloseWait {
socket.close();
} else if !(socket.is_open() || socket.is_listening()) {
socket
.listen(1235)
.unwrap_or_else(|e| warn!("TCP listen error: {:?}", e));
} else {
server.poll(socket, |req: &Request| {
if req.channel < 2 {
iir_ch.lock(|iir_ch| {
iir_ch[req.channel as usize] = req.iir
});
}
});
}
}
if !match iface.poll(
&mut sockets,
net::time::Instant::from_millis(time as i64),
) {
Ok(changed) => changed,
Err(net::Error::Unrecognized) => true,
Err(e) => {
info!("iface poll error: {:?}", e);
true
}
} {
// cortex_m::asm::wfi();
}
}
}
#[task(priority = 1, schedule = [tick])]
fn tick(c: tick::Context) {
static mut TIME: u32 = 0;
*TIME += 1;
const PERIOD: u32 = 200_000_000;
c.schedule.tick(c.scheduled + PERIOD.cycles()).unwrap();
}
// seems to slow it down
// #[link_section = ".data.spi1"]
#[task(binds = SPI1, resources = [spi, iir_state, iir_ch], priority = 2)]
fn spi1(c: spi1::Context) {
#[cfg(feature = "bkpt")]
cortex_m::asm::bkpt();
let (spi1, spi2, spi4, spi5) = c.resources.spi;
let iir_ch = c.resources.iir_ch;
let iir_state = c.resources.iir_state;
let sr = spi1.sr.read();
if sr.eot().bit_is_set() {
spi1.ifcr.write(|w| w.eotc().set_bit());
}
if sr.rxp().bit_is_set() {
let rxdr = &spi1.rxdr as *const _ as *const u16;
let a = unsafe { ptr::read_volatile(rxdr) };
let x0 = f32::from(a as i16);
let y0 = iir_ch[0].update(&mut iir_state[0], x0);
let d = y0 as i16 as u16 ^ 0x8000;
let txdr = &spi2.txdr as *const _ as *mut u16;
unsafe { ptr::write_volatile(txdr, d) };
}
let sr = spi5.sr.read();
if sr.eot().bit_is_set() {
spi5.ifcr.write(|w| w.eotc().set_bit());
}
if sr.rxp().bit_is_set() {
let rxdr = &spi5.rxdr as *const _ as *const u16;
let a = unsafe { ptr::read_volatile(rxdr) };
let x0 = f32::from(a as i16);
let y0 = iir_ch[1].update(&mut iir_state[1], x0);
let d = y0 as i16 as u16 ^ 0x8000;
let txdr = &spi4.txdr as *const _ as *mut u16;
unsafe { ptr::write_volatile(txdr, d) };
}
#[cfg(feature = "bkpt")]
cortex_m::asm::bkpt();
}
/*
#[task(binds = ETH, resources = [ethernet_periph], priority = 1)]
fn eth(c: eth::Context) {
let dma = &c.resources.ethernet_periph.1;
ETHERNET_PENDING.store(true, Ordering::Relaxed);
unsafe { eth::interrupt_handler(dma) }
}
*/
extern "C" {
// hw interrupt handlers for RTFM to use for scheduling tasks
// one per priority
fn DCMI();
fn JPEG();
fn SDMMC();
}
};
#[derive(Deserialize, Serialize)]
struct Request {
channel: u8,
iir: IIR,
}
#[derive(Serialize)]
struct Response<'a> {
code: i32,
message: &'a str,
}
#[derive(Serialize)]
struct Status {
t: u32,
x0: f32,
y0: f32,
x1: f32,
y1: f32,
}
fn json_reply<T: Serialize>(socket: &mut net::socket::TcpSocket, msg: &T) {
let mut u: String<U128> = to_string(msg).unwrap();
u.push('\n').unwrap();
socket.write_str(&u).unwrap();
}
struct Server {
data: Vec<u8, U256>,
discard: bool,
}
impl Server {
fn new() -> Self {
Self {
data: Vec::new(),
discard: false,
}
}
fn poll<T, F, R>(
&mut self,
socket: &mut net::socket::TcpSocket,
f: F,
) -> Option<R>
where
T: DeserializeOwned,
F: FnOnce(&T) -> R,
{
while socket.can_recv() {
let found = socket
.recv(|buf| {
let (len, found) =
match buf.iter().position(|&c| c as char == '\n') {
Some(end) => (end + 1, true),
None => (buf.len(), false),
};
if self.data.len() + len >= self.data.capacity() {
self.discard = true;
self.data.clear();
} else if !self.discard && len > 0 {
self.data.extend_from_slice(&buf[..len]).unwrap();
}
(len, found)
})
.unwrap();
if found {
if self.discard {
self.discard = false;
json_reply(
socket,
&Response {
code: 520,
message: "command buffer overflow",
},
);
self.data.clear();
} else {
let r = from_slice::<T>(&self.data[..self.data.len() - 1]);
self.data.clear();
match r {
Ok(res) => {
let r = f(&res);
json_reply(
socket,
&Response {
code: 200,
message: "ok",
},
);
return Some(r);
}
Err(err) => {
warn!("parse error {:?}", err);
json_reply(
socket,
&Response {
code: 550,
message: "parse error",
},
);
}
}
}
}
}
None
}
}
#[exception]
fn HardFault(ef: &cortex_m_rt::ExceptionFrame) -> ! {
panic!("HardFault at {:#?}", ef);
}
#[exception]
fn DefaultHandler(irqn: i16) {
panic!("Unhandled exception (IRQn = {})", irqn);
}

583
stabilizer/Cargo.lock generated Normal file
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@ -0,0 +1,583 @@
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67
stabilizer/Cargo.toml Normal file
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@ -0,0 +1,67 @@
[package]
name = "stabilizer"
version = "0.3.0"
authors = ["Robert Jördens <rj@quartiq.de>"]
description = "Firmware for the Sinara Stabilizer board (stm32h743, eth, poe, 2 adc, 2 dac)"
categories = ["embedded", "no-std", "hardware-support", "science"]
license = "GPL-3.0-or-later"
keywords = ["ethernet", "stm32h7", "adc", "dac", "physics"]
repository = "https://github.com/quartiq/stabilizer"
readme = "README.md"
documentation = "https://docs.rs/stabilizer/"
edition = "2018"
exclude = [
".travis.yml",
".gitignore",
"doc/",
"doc/*"
]
[badges]
travis-ci = { repository = "quartiq/stabilizer", branch = "master" }
maintenance = { status = "experimental" }
[package.metadata.docs.rs]
features = []
default-target = "thumbv7em-none-eabihf"
[dependencies]
cortex-m = { version = "0.6", features = ["const-fn"] }
cortex-m-rt = { version = "0.6", features = ["device"] }
cortex-m-log = { version = "0.6", features = ["log-integration"] }
log = "0.4"
panic-semihosting = { version = "0.5", optional = true }
panic-halt = "0.2"
serde = { version = "1.0", features = ["derive"], default-features = false }
heapless = { version = "0.5", features = ["serde"] }
serde-json-core = "0.1"
cortex-m-rtfm = "0.5"
embedded-hal = "0.2.3"
nb = "0.1.2"
asm-delay = "0.7.0"
enum-iterator = "0.6.0"
[dependencies.mcp23017]
git = "https://github.com/mrd0ll4r/mcp23017.git"
[dependencies.smoltcp]
version = "0.6"
features = ["ethernet", "proto-ipv4", "socket-tcp", "proto-ipv6"]
default-features = false
[dependencies.ad9959]
path = "../ad9959"
[dependencies.stm32h7-ethernet]
git = "https://github.com/quartiq/stm32h7-ethernet.git"
features = ["stm32h743v"]
[dependencies.stm32h7xx-hal]
path = "../stm32h7xx-hal/"
features = ["stm32h743v", "rt", "unproven"]
[features]
semihosting = ["panic-semihosting", "cortex-m-log/semihosting"]
bkpt = [ ]
nightly = ["cortex-m/inline-asm"]

83
stabilizer/src/afe.rs Normal file
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@ -0,0 +1,83 @@
use embedded_hal;
use serde::{Serialize, Deserialize};
use core::convert::TryFrom;
use enum_iterator::IntoEnumIterator;
#[derive(Copy, Clone, Debug, Serialize, Deserialize, IntoEnumIterator)]
pub enum Gain {
G1 = 0b00,
G2 = 0b01,
G5 = 0b10,
G10 = 0b11
}
/// A programmable gain amplifier that allows for setting the gain via GPIO.
pub struct ProgrammableGainAmplifier<A0, A1> {
a0: A0,
a1: A1
}
impl TryFrom<u8> for Gain {
type Error = ();
fn try_from(value: u8) -> Result<Self, Self::Error> {
for gain in Gain::into_enum_iter() {
if value == gain as u8 {
return Ok(gain)
}
}
Err(())
}
}
impl<A0, A1> ProgrammableGainAmplifier<A0, A1>
where
A0: embedded_hal::digital::v2::StatefulOutputPin,
A0::Error: core::fmt::Debug,
A1: embedded_hal::digital::v2::StatefulOutputPin,
A1::Error: core::fmt::Debug,
{
/// Construct a new programmable gain driver.
///
/// Args:
/// * `a0` - An output connected to the A0 input of the amplifier.
/// * `a1` - An output connected to the A1 input of the amplifier.
pub fn new(a0: A0, a1: A1) -> Self
{
let mut afe = Self { a0: a0, a1: a1};
afe.set_gain(Gain::G1);
afe
}
/// Set the gain of the front-end.
pub fn set_gain(&mut self, gain: Gain) {
if (gain as u8 & 0b01) != 0 {
self.a0.set_high().unwrap();
} else {
self.a0.set_low().unwrap();
}
if (gain as u8 & 0b10) != 0 {
self.a1.set_high().unwrap()
} else {
self.a1.set_low().unwrap();
}
}
/// Get the programmed gain of the analog front-end.
pub fn get_gain(&self) -> Result<Gain, ()> {
let mut code: u8 = 0;
if self.a0.is_set_high().unwrap() {
code |= 0b1;
}
if self.a1.is_set_high().unwrap() {
code |= 0b10;
}
Gain::try_from(code)
}
}

12
stabilizer/src/eeprom.rs Normal file
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@ -0,0 +1,12 @@
use embedded_hal::blocking::i2c::WriteRead;
const I2C_ADDR: u8 = 0x50;
#[allow(dead_code)]
pub fn read_eui48<T>(i2c: &mut T) -> Result<[u8; 6], T::Error>
where T: WriteRead
{
let mut buffer = [0u8; 6];
i2c.write_read(I2C_ADDR, &[0xFA_u8], &mut buffer)?;
Ok(buffer)
}

738
stabilizer/src/main.rs Normal file
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@ -0,0 +1,738 @@
#![deny(warnings)]
#![allow(clippy::missing_safety_doc)]
#![no_std]
#![no_main]
#![cfg_attr(feature = "nightly", feature(asm))]
// Enable returning `!`
#![cfg_attr(feature = "nightly", feature(never_type))]
#![cfg_attr(feature = "nightly", feature(core_intrinsics))]
#[inline(never)]
#[panic_handler]
#[cfg(all(feature = "nightly", not(feature = "semihosting")))]
fn panic(_info: &core::panic::PanicInfo) -> ! {
let gpiod = unsafe { &*hal::stm32::GPIOD::ptr() };
gpiod.odr.modify(|_, w| w.odr6().high().odr12().high()); // FP_LED_1, FP_LED_3
unsafe {
core::intrinsics::abort();
}
}
#[cfg(feature = "semihosting")]
extern crate panic_semihosting;
#[cfg(not(any(feature = "nightly", feature = "semihosting")))]
extern crate panic_halt;
#[macro_use]
extern crate log;
// use core::sync::atomic::{AtomicU32, AtomicBool, Ordering};
use asm_delay;
use rtfm::cyccnt::{Instant, U32Ext};
use cortex_m_rt::exception;
use cortex_m;
use stm32h7xx_hal as hal;
use stm32h7xx_hal::{
prelude::*,
};
use embedded_hal::{
digital::v2::OutputPin,
};
use stm32h7_ethernet as ethernet;
use smoltcp as net;
use heapless::{
String,
consts::*,
};
#[link_section = ".sram3.eth"]
static mut DES_RING: ethernet::DesRing = ethernet::DesRing::new();
mod afe;
mod eeprom;
mod iir;
mod pounder;
mod server;
#[cfg(not(feature = "semihosting"))]
fn init_log() {}
#[cfg(feature = "semihosting")]
fn init_log() {
use cortex_m_log::log::{init as init_log, Logger};
use cortex_m_log::printer::semihosting::{hio::HStdout, InterruptOk};
use log::LevelFilter;
static mut LOGGER: Option<Logger<InterruptOk<HStdout>>> = None;
let logger = Logger {
inner: InterruptOk::<_>::stdout().unwrap(),
level: LevelFilter::Info,
};
let logger = unsafe { LOGGER.get_or_insert(logger) };
init_log(logger).unwrap();
}
// Pull in build information (from `built` crate)
mod build_info {
#![allow(dead_code)]
// include!(concat!(env!("OUT_DIR"), "/built.rs"));
}
pub struct NetStorage {
ip_addrs: [net::wire::IpCidr; 1],
neighbor_cache: [Option<(net::wire::IpAddress, net::iface::Neighbor)>; 8],
}
static mut NET_STORE: NetStorage = NetStorage {
// Placeholder for the real IP address, which is initialized at runtime.
ip_addrs: [net::wire::IpCidr::Ipv6(net::wire::Ipv6Cidr::SOLICITED_NODE_PREFIX)],
neighbor_cache: [None; 8],
};
const SCALE: f32 = ((1 << 15) - 1) as f32;
const SPI_START_CODE: u32 = 0x201;
// static ETHERNET_PENDING: AtomicBool = AtomicBool::new(true);
const TCP_RX_BUFFER_SIZE: usize = 8192;
const TCP_TX_BUFFER_SIZE: usize = 8192;
type AFE1 = afe::ProgrammableGainAmplifier<
hal::gpio::gpiof::PF2<hal::gpio::Output<hal::gpio::PushPull>>,
hal::gpio::gpiof::PF5<hal::gpio::Output<hal::gpio::PushPull>>>;
type AFE2 = afe::ProgrammableGainAmplifier<
hal::gpio::gpiod::PD14<hal::gpio::Output<hal::gpio::PushPull>>,
hal::gpio::gpiod::PD15<hal::gpio::Output<hal::gpio::PushPull>>>;
macro_rules! route_request {
($request:ident,
readable_attributes: [$($read_attribute:tt: $getter:tt),*],
modifiable_attributes: [$($write_attribute:tt: $TYPE:ty, $setter:tt),*]) => {
match $request.req {
server::AccessRequest::Read => {
match $request.attribute {
$(
$read_attribute => {
let value = match $getter() {
Ok(data) => data,
Err(_) => return server::Response::error($request.attribute,
"Failed to read attribute"),
};
let encoded_data: String<U256> = match serde_json_core::to_string(&value) {
Ok(data) => data,
Err(_) => return server::Response::error($request.attribute,
"Failed to encode attribute value"),
};
server::Response::success($request.attribute, &encoded_data)
},
)*
_ => server::Response::error($request.attribute, "Unknown attribute")
}
},
server::AccessRequest::Write => {
match $request.attribute {
$(
$write_attribute => {
let new_value = match serde_json_core::from_str::<$TYPE>(&$request.value) {
Ok(data) => data,
Err(_) => return server::Response::error($request.attribute,
"Failed to decode value"),
};
match $setter(new_value) {
Ok(_) => server::Response::success($request.attribute, &$request.value),
Err(_) => server::Response::error($request.attribute,
"Failed to set attribute"),
}
}
)*
_ => server::Response::error($request.attribute, "Unknown attribute")
}
}
}
}
}
#[rtfm::app(device = stm32h7xx_hal::stm32, peripherals = true, monotonic = rtfm::cyccnt::CYCCNT)]
const APP: () = {
struct Resources {
adc1: hal::spi::Spi<hal::stm32::SPI2>,
dac1: hal::spi::Spi<hal::stm32::SPI4>,
afe1: AFE1,
adc2: hal::spi::Spi<hal::stm32::SPI3>,
dac2: hal::spi::Spi<hal::stm32::SPI5>,
afe2: AFE2,
eeprom_i2c: hal::i2c::I2c<hal::stm32::I2C2>,
timer: hal::timer::Timer<hal::stm32::TIM2>,
net_interface: net::iface::EthernetInterface<'static, 'static, 'static,
ethernet::EthernetDMA<'static>>,
eth_mac: ethernet::EthernetMAC,
mac_addr: net::wire::EthernetAddress,
pounder: pounder::PounderDevices<asm_delay::AsmDelay>,
#[init([[0.; 5]; 2])]
iir_state: [iir::IIRState; 2],
#[init([iir::IIR { ba: [1., 0., 0., 0., 0.], y_offset: 0., y_min: -SCALE - 1., y_max: SCALE }; 2])]
iir_ch: [iir::IIR; 2],
}
#[init]
fn init(c: init::Context) -> init::LateResources {
let dp = c.device;
let mut cp = cortex_m::Peripherals::take().unwrap();
let pwr = dp.PWR.constrain();
let vos = pwr.freeze();
let rcc = dp.RCC.constrain();
let mut clocks = rcc
//TODO: Re-enable HSE for Stabilizer platform.
// .use_hse(8.mhz())
.sysclk(400.mhz())
.hclk(200.mhz())
.per_ck(100.mhz())
.pll2_p_ck(100.mhz())
.pll2_q_ck(100.mhz())
.freeze(vos, &dp.SYSCFG);
init_log();
// Enable SRAM3 for the ethernet descriptor ring.
clocks.rb.ahb2enr.modify(|_, w| w.sram3en().set_bit());
clocks.rb.rsr.write(|w| w.rmvf().set_bit());
clocks.rb.d2ccip1r.modify(|_, w| w.spi123sel().pll2_p().spi45sel().pll2_q());
let mut delay = hal::delay::Delay::new(cp.SYST, clocks.clocks);
let gpioa = dp.GPIOA.split(&mut clocks);
let gpiob = dp.GPIOB.split(&mut clocks);
let gpioc = dp.GPIOC.split(&mut clocks);
let gpiod = dp.GPIOD.split(&mut clocks);
let gpioe = dp.GPIOE.split(&mut clocks);
let gpiof = dp.GPIOF.split(&mut clocks);
let gpiog = dp.GPIOG.split(&mut clocks);
let afe1 = {
let a0_pin = gpiof.pf2.into_push_pull_output();
let a1_pin = gpiof.pf5.into_push_pull_output();
afe::ProgrammableGainAmplifier::new(a0_pin, a1_pin)
};
let afe2 = {
let a0_pin = gpiod.pd14.into_push_pull_output();
let a1_pin = gpiod.pd15.into_push_pull_output();
afe::ProgrammableGainAmplifier::new(a0_pin, a1_pin)
};
// Configure the SPI interfaces to the ADCs and DACs.
let adc1_spi = {
let spi_miso = gpiob.pb14.into_alternate_af5().set_speed(hal::gpio::Speed::VeryHigh);
let spi_sck = gpiob.pb10.into_alternate_af5().set_speed(hal::gpio::Speed::VeryHigh);
let _spi_nss = gpiob.pb9.into_alternate_af5();
let config = hal::spi::Config::new(hal::spi::Mode{
polarity: hal::spi::Polarity::IdleHigh,
phase: hal::spi::Phase::CaptureOnSecondTransition,
})
.communication_mode(hal::spi::CommunicationMode::Receiver)
.manage_cs()
.transfer_size(1)
.frame_size(16)
.cs_delay(220e-9);
let mut spi = dp.SPI2.spi(
(spi_sck, spi_miso, hal::spi::NoMosi),
config,
50.mhz(),
&clocks);
spi.listen(hal::spi::Event::Eot);
spi
};
let adc2_spi = {
let spi_miso = gpiob.pb4.into_alternate_af6().set_speed(hal::gpio::Speed::VeryHigh);
let spi_sck = gpioc.pc10.into_alternate_af6().set_speed(hal::gpio::Speed::VeryHigh);
let _spi_nss = gpioa.pa15.into_alternate_af6();
let config = hal::spi::Config::new(hal::spi::Mode{
polarity: hal::spi::Polarity::IdleHigh,
phase: hal::spi::Phase::CaptureOnSecondTransition,
})
.communication_mode(hal::spi::CommunicationMode::Receiver)
.manage_cs()
.transfer_size(1)
.frame_size(16)
.cs_delay(220e-9);
let mut spi = dp.SPI3.spi(
(spi_sck, spi_miso, hal::spi::NoMosi),
config,
50.mhz(),
&clocks);
spi.listen(hal::spi::Event::Eot);
spi
};
let dac1_spi = {
let spi_miso = gpioe.pe5.into_alternate_af5().set_speed(hal::gpio::Speed::VeryHigh);
let spi_sck = gpioe.pe2.into_alternate_af5().set_speed(hal::gpio::Speed::VeryHigh);
let _spi_nss = gpioe.pe4.into_alternate_af5();
let config = hal::spi::Config::new(hal::spi::Mode{
polarity: hal::spi::Polarity::IdleHigh,
phase: hal::spi::Phase::CaptureOnSecondTransition,
})
.communication_mode(hal::spi::CommunicationMode::Transmitter)
.manage_cs()
.transfer_size(1)
.frame_size(16)
.swap_mosi_miso();
let spi = dp.SPI4.spi((spi_sck, spi_miso, hal::spi::NoMosi), config, 50.mhz(), &clocks);
spi
};
let dac2_spi = {
let spi_miso = gpiof.pf8.into_alternate_af5().set_speed(hal::gpio::Speed::VeryHigh);
let spi_sck = gpiof.pf7.into_alternate_af5().set_speed(hal::gpio::Speed::VeryHigh);
let _spi_nss = gpiof.pf6.into_alternate_af5();
let config = hal::spi::Config::new(hal::spi::Mode{
polarity: hal::spi::Polarity::IdleHigh,
phase: hal::spi::Phase::CaptureOnSecondTransition,
})
.communication_mode(hal::spi::CommunicationMode::Transmitter)
.manage_cs()
.transfer_size(1)
.frame_size(16)
.swap_mosi_miso();
let spi = dp.SPI5.spi((spi_sck, spi_miso, hal::spi::NoMosi), config, 50.mhz(), &clocks);
spi
};
let mut fp_led_0 = gpiod.pd5.into_push_pull_output();
let mut fp_led_1 = gpiod.pd6.into_push_pull_output();
let mut fp_led_2 = gpiog.pg4.into_push_pull_output();
let mut fp_led_3 = gpiod.pd12.into_push_pull_output();
fp_led_0.set_low().unwrap();
fp_led_1.set_low().unwrap();
fp_led_2.set_low().unwrap();
fp_led_3.set_low().unwrap();
let pounder_devices = {
let ad9959 = {
let qspi_interface = {
// Instantiate the QUADSPI pins and peripheral interface.
// TODO: Place these into a pins structure that is provided to the QSPI
// constructor.
let _qspi_clk = gpiob.pb2.into_alternate_af9().set_speed(hal::gpio::Speed::VeryHigh);
let _qspi_ncs = gpioc.pc11.into_alternate_af9().set_speed(hal::gpio::Speed::VeryHigh);
let _qspi_io0 = gpioe.pe7.into_alternate_af10().set_speed(hal::gpio::Speed::VeryHigh);
let _qspi_io1 = gpioe.pe8.into_alternate_af10().set_speed(hal::gpio::Speed::VeryHigh);
let _qspi_io2 = gpioe.pe9.into_alternate_af10().set_speed(hal::gpio::Speed::VeryHigh);
let _qspi_io3 = gpioe.pe10.into_alternate_af10().set_speed(hal::gpio::Speed::VeryHigh);
let qspi = hal::qspi::Qspi::new(dp.QUADSPI, &mut clocks, 10.mhz()).unwrap();
pounder::QspiInterface::new(qspi).unwrap()
};
let mut reset_pin = gpioa.pa0.into_push_pull_output();
let io_update = gpiog.pg7.into_push_pull_output();
let asm_delay = {
let frequency_hz = clocks.clocks.c_ck().0;
asm_delay::AsmDelay::new(asm_delay::bitrate::Hertz (frequency_hz))
};
ad9959::Ad9959::new(qspi_interface,
&mut reset_pin,
io_update,
asm_delay,
ad9959::Mode::FourBitSerial,
100_000_000f32,
5).unwrap()
};
let io_expander = {
let sda = gpiob.pb7.into_alternate_af4().set_open_drain();
let scl = gpiob.pb8.into_alternate_af4().set_open_drain();
let i2c1 = dp.I2C1.i2c((scl, sda), 100.khz(), &clocks);
mcp23017::MCP23017::default(i2c1).unwrap()
};
let spi = {
let spi_mosi = gpiod.pd7.into_alternate_af5().set_speed(hal::gpio::Speed::VeryHigh);
let spi_miso = gpioa.pa6.into_alternate_af5().set_speed(hal::gpio::Speed::VeryHigh);
let spi_sck = gpiog.pg11.into_alternate_af5().set_speed(hal::gpio::Speed::VeryHigh);
let config = hal::spi::Config::new(hal::spi::Mode{
polarity: hal::spi::Polarity::IdleHigh,
phase: hal::spi::Phase::CaptureOnSecondTransition,
})
.frame_size(8);
// The maximum frequency of this SPI must be limited due to capacitance on the MISO
// line causing a long RC decay.
dp.SPI1.spi((spi_sck, spi_miso, spi_mosi), config, 5.mhz(), &clocks)
};
let adc1 = {
let mut adc = dp.ADC1.adc(&mut delay, &mut clocks);
adc.calibrate();
adc.enable()
};
let adc2 = {
let mut adc = dp.ADC2.adc(&mut delay, &mut clocks);
adc.calibrate();
adc.enable()
};
let adc1_in_p = gpiof.pf11.into_analog();
let adc2_in_p = gpiof.pf14.into_analog();
pounder::PounderDevices::new(io_expander,
ad9959,
spi,
adc1,
adc2,
adc1_in_p,
adc2_in_p).unwrap()
};
let mut eeprom_i2c = {
let sda = gpiof.pf0.into_alternate_af4().set_open_drain();
let scl = gpiof.pf1.into_alternate_af4().set_open_drain();
dp.I2C2.i2c((scl, sda), 100.khz(), &clocks)
};
// Configure ethernet pins.
{
// Reset the PHY before configuring pins.
let mut eth_phy_nrst = gpioe.pe3.into_push_pull_output();
eth_phy_nrst.set_low().unwrap();
delay.delay_us(200u8);
eth_phy_nrst.set_high().unwrap();
let _rmii_ref_clk = gpioa.pa1.into_alternate_af11().set_speed(hal::gpio::Speed::VeryHigh);
let _rmii_mdio = gpioa.pa2.into_alternate_af11().set_speed(hal::gpio::Speed::VeryHigh);
let _rmii_mdc = gpioc.pc1.into_alternate_af11().set_speed(hal::gpio::Speed::VeryHigh);
let _rmii_crs_dv = gpioa.pa7.into_alternate_af11().set_speed(hal::gpio::Speed::VeryHigh);
let _rmii_rxd0 = gpioc.pc4.into_alternate_af11().set_speed(hal::gpio::Speed::VeryHigh);
let _rmii_rxd1 = gpioc.pc5.into_alternate_af11().set_speed(hal::gpio::Speed::VeryHigh);
let _rmii_tx_en = gpiob.pb11.into_alternate_af11().set_speed(hal::gpio::Speed::VeryHigh);
let _rmii_txd0 = gpiob.pb12.into_alternate_af11().set_speed(hal::gpio::Speed::VeryHigh);
let _rmii_txd1 = gpiog.pg14.into_alternate_af11().set_speed(hal::gpio::Speed::VeryHigh);
}
let mac_addr = match eeprom::read_eui48(&mut eeprom_i2c) {
Err(_) => {
info!("Could not read EEPROM, using default MAC address");
net::wire::EthernetAddress([0x10, 0xE2, 0xD5, 0x00, 0x03, 0x00])
}
Ok(raw_mac) => net::wire::EthernetAddress(raw_mac),
};
let (network_interface, eth_mac) = {
// Configure the ethernet controller
let (eth_dma, eth_mac) = unsafe {
ethernet::ethernet_init(
dp.ETHERNET_MAC,
dp.ETHERNET_MTL,
dp.ETHERNET_DMA,
&mut DES_RING,
mac_addr.clone())
};
unsafe { ethernet::enable_interrupt() };
let store = unsafe { &mut NET_STORE };
store.ip_addrs[0] = net::wire::IpCidr::new(net::wire::IpAddress::v4(10, 0, 16, 99), 24);
let neighbor_cache = net::iface::NeighborCache::new(&mut store.neighbor_cache[..]);
let interface = net::iface::EthernetInterfaceBuilder::new(eth_dma)
.ethernet_addr(mac_addr)
.neighbor_cache(neighbor_cache)
.ip_addrs(&mut store.ip_addrs[..])
.finalize();
(interface, eth_mac)
};
cp.SCB.enable_icache();
// info!("Version {} {}", build_info::PKG_VERSION, build_info::GIT_VERSION.unwrap());
// info!("Built on {}", build_info::BUILT_TIME_UTC);
// info!("{} {}", build_info::RUSTC_VERSION, build_info::TARGET);
// Utilize the cycle counter for RTFM scheduling.
cp.DWT.enable_cycle_counter();
let mut dma = hal::dma::Dma::dma(dp.DMA1, dp.DMAMUX1, &clocks);
dma.configure_m2p_stream(hal::dma::Stream::One,
&SPI_START_CODE as *const _ as u32,
&adc1_spi.spi.cr1 as *const _ as u32,
hal::dma::DMAREQ_ID::TIM2_CH1);
dma.configure_m2p_stream(hal::dma::Stream::Two,
&SPI_START_CODE as *const _ as u32,
&adc2_spi.spi.cr1 as *const _ as u32,
hal::dma::DMAREQ_ID::TIM2_CH2);
// Configure timer 2 to trigger conversions for the ADC
let mut timer2 = dp.TIM2.timer(500.khz(), &mut clocks);
timer2.configure_channel(hal::timer::Channel::One, 0.25);
timer2.configure_channel(hal::timer::Channel::Two, 0.75);
timer2.listen(hal::timer::Event::ChannelOneDma);
timer2.listen(hal::timer::Event::ChannelTwoDma);
init::LateResources {
adc1: adc1_spi,
dac1: dac1_spi,
adc2: adc2_spi,
dac2: dac2_spi,
afe1: afe1,
afe2: afe2,
timer: timer2,
pounder: pounder_devices,
eeprom_i2c: eeprom_i2c,
net_interface: network_interface,
eth_mac: eth_mac,
mac_addr: mac_addr,
}
}
#[task(binds = SPI3, resources = [adc2, dac2, iir_state, iir_ch], priority = 2)]
fn spi3(c: spi3::Context) {
c.resources.adc2.spi.ifcr.write(|w| w.eotc().set_bit());
let output: u16 = {
let a: u16 = c.resources.adc2.read().unwrap();
let x0 = f32::from(a as i16);
let y0 = c.resources.iir_ch[1].update(&mut c.resources.iir_state[1], x0);
y0 as i16 as u16 ^ 0x8000
};
c.resources.dac2.spi.ifcr.write(|w| w.eotc().set_bit().txtfc().set_bit());
c.resources.dac2.send(output).unwrap();
}
#[task(binds = SPI2, resources = [adc1, dac1, iir_state, iir_ch], priority = 2)]
fn spi2(c: spi2::Context) {
c.resources.adc1.spi.ifcr.write(|w| w.eotc().set_bit());
let output: u16 = {
let a: u16 = c.resources.adc1.read().unwrap();
let x0 = f32::from(a as i16);
let y0 = c.resources.iir_ch[0].update(&mut c.resources.iir_state[0], x0);
y0 as i16 as u16 ^ 0x8000
};
c.resources.dac1.spi.ifcr.write(|w| w.eotc().set_bit().txtfc().set_bit());
c.resources.dac1.send(output).unwrap();
}
#[idle(resources=[net_interface, pounder, mac_addr, eth_mac, iir_state, iir_ch, afe1, afe2])]
fn idle(mut c: idle::Context) -> ! {
let mut socket_set_entries: [_; 8] = Default::default();
let mut sockets = net::socket::SocketSet::new(&mut socket_set_entries[..]);
let mut rx_storage = [0; TCP_RX_BUFFER_SIZE];
let mut tx_storage = [0; TCP_TX_BUFFER_SIZE];
let tcp_handle = {
let tcp_rx_buffer = net::socket::TcpSocketBuffer::new(&mut rx_storage[..]);
let tcp_tx_buffer = net::socket::TcpSocketBuffer::new(&mut tx_storage[..]);
let tcp_socket = net::socket::TcpSocket::new(tcp_rx_buffer, tcp_tx_buffer);
sockets.add(tcp_socket)
};
let mut server = server::Server::new();
let mut time = 0u32;
let mut next_ms = Instant::now();
// TODO: Replace with reference to CPU clock from CCDR.
next_ms += 400_000.cycles();
loop {
let tick = Instant::now() > next_ms;
if tick {
next_ms += 400_000.cycles();
time += 1;
}
{
let socket =
&mut *sockets.get::<net::socket::TcpSocket>(tcp_handle);
if socket.state() == net::socket::TcpState::CloseWait {
socket.close();
} else if !(socket.is_open() || socket.is_listening()) {
socket
.listen(1235)
.unwrap_or_else(|e| warn!("TCP listen error: {:?}", e));
} else {
server.poll(socket, |req| {
info!("Got request: {:?}", req);
route_request!(req,
readable_attributes: [
"stabilizer/iir/state": (|| {
let state = c.resources.iir_state.lock(|iir_state|
server::Status {
t: time,
x0: iir_state[0][0],
y0: iir_state[0][2],
x1: iir_state[1][0],
y1: iir_state[1][2],
});
Ok::<server::Status, ()>(state)
}),
"stabilizer/afe1/gain": (|| c.resources.afe1.get_gain()),
"stabilizer/afe2/gain": (|| c.resources.afe2.get_gain()),
"pounder/in0": (|| {
c.resources.pounder.get_input_channel_state(
pounder::Channel::In0)
}),
"pounder/in1": (|| {
c.resources.pounder.get_input_channel_state(
pounder::Channel::In1)
}),
"pounder/out0": (|| {
c.resources.pounder.get_output_channel_state(
pounder::Channel::Out0)
}),
"pounder/out1": (|| {
c.resources.pounder.get_output_channel_state(
pounder::Channel::Out1)
}),
"pounder/dds/clock": (|| {
c.resources.pounder.get_dds_clock_config()
})
],
modifiable_attributes: [
"stabilizer/iir1/state": server::IirRequest, (|req: server::IirRequest| {
c.resources.iir_ch.lock(|iir_ch| {
if req.channel > 1 {
return Err(());
}
iir_ch[req.channel as usize] = req.iir;
Ok::<server::IirRequest, ()>(req)
})
}),
"stabilizer/iir2/state": server::IirRequest, (|req: server::IirRequest| {
c.resources.iir_ch.lock(|iir_ch| {
if req.channel > 1 {
return Err(());
}
iir_ch[req.channel as usize] = req.iir;
Ok::<server::IirRequest, ()>(req)
})
}),
"pounder/in0": pounder::ChannelState, (|state| {
c.resources.pounder.set_channel_state(pounder::Channel::In0,
state)
}),
"pounder/in1": pounder::ChannelState, (|state| {
c.resources.pounder.set_channel_state(pounder::Channel::In1,
state)
}),
"pounder/out0": pounder::ChannelState, (|state| {
c.resources.pounder.set_channel_state(pounder::Channel::Out0,
state)
}),
"pounder/out1": pounder::ChannelState, (|state| {
c.resources.pounder.set_channel_state(pounder::Channel::Out1,
state)
}),
"pounder/dds/clock": pounder::DdsClockConfig, (|config| {
c.resources.pounder.configure_dds_clock(config)
}),
"stabilizer/afe1/gain": afe::Gain, (|gain| {
Ok::<(), ()>(c.resources.afe1.set_gain(gain))
}),
"stabilizer/afe2/gain": afe::Gain, (|gain| {
Ok::<(), ()>(c.resources.afe2.set_gain(gain))
})
]
)
});
}
}
let sleep = match c.resources.net_interface.poll(&mut sockets,
net::time::Instant::from_millis(time as i64)) {
Ok(changed) => changed == false,
Err(net::Error::Unrecognized) => true,
Err(e) => {
info!("iface poll error: {:?}", e);
true
}
};
if sleep {
cortex_m::asm::wfi();
}
}
}
#[task(binds = ETH, priority = 1)]
fn eth(_: eth::Context) {
unsafe { ethernet::interrupt_handler() }
}
extern "C" {
// hw interrupt handlers for RTFM to use for scheduling tasks
// one per priority
fn DCMI();
fn JPEG();
fn SDMMC();
}
};
#[exception]
fn HardFault(ef: &cortex_m_rt::ExceptionFrame) -> ! {
panic!("HardFault at {:#?}", ef);
}
#[exception]
fn DefaultHandler(irqn: i16) {
panic!("Unhandled exception (IRQn = {})", irqn);
}

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@ -0,0 +1,77 @@
use super::{Channel, Error};
/// Provide an interface for managing digital attenuators on Pounder hardware.
///
/// Note: The digital attenuators do not allow read-back of attenuation. To circumvent this, this
/// driver maintains the attenuation code in both the shift register as well as the latched output
/// register of the attenuators. This allows the "active" attenuation code to be read back by
/// reading the shfit register. The downside of this approach is that any read is destructive, so a
/// read-writeback approach is employed.
pub trait AttenuatorInterface {
/// Set the attenuation of a single channel.
///
/// Args:
/// * `channel` - The pounder channel to configure the attenuation of.
/// * `attenuation` - The desired attenuation of the channel in dB. This has a resolution of
/// 0.5dB.
fn set_attenuation(&mut self, channel: Channel, attenuation: f32) -> Result<f32, Error> {
if attenuation > 31.5 || attenuation < 0.0 {
return Err(Error::Bounds);
}
// Calculate the attenuation code to program into the attenuator. The attenuator uses a
// code where the LSB is 0.5 dB.
let attenuation_code = (attenuation * 2.0) as u8;
// Read all the channels, modify the channel of interest, and write all the channels back.
// This ensures the staging register and the output register are always in sync.
let mut channels = [0_u8; 4];
self.read_all_attenuators(&mut channels)?;
// The lowest 2 bits of the 8-bit shift register on the attenuator are ignored. Shift the
// attenuator code into the upper 6 bits of the register value. Note that the attenuator
// treats inputs as active-low, so the code is inverted before writing.
channels[channel as usize] = (!attenuation_code) << 2;
self.write_all_attenuators(&channels)?;
// Finally, latch the output of the updated channel to force it into an active state.
self.latch_attenuators(channel)?;
Ok(attenuation_code as f32 / 2.0)
}
/// Get the attenuation of a channel.
///
/// Args:
/// * `channel` - The channel to get the attenuation of.
///
/// Returns:
/// The programmed attenuation of the channel in dB.
fn get_attenuation(&mut self, channel: Channel) -> Result<f32, Error> {
let mut channels = [0_u8; 4];
// Reading the data always shifts data out of the staging registers, so we perform a
// duplicate write-back to ensure the staging register is always equal to the output
// register.
self.read_all_attenuators(&mut channels)?;
self.write_all_attenuators(&channels)?;
// The attenuation code is stored in the upper 6 bits of the register, where each LSB
// represents 0.5 dB. The attenuator stores the code as active-low, so inverting the result
// (before the shift) has the affect of transforming the bits of interest (and the
// dont-care bits) into an active-high state and then masking off the don't care bits. If
// the shift occurs before the inversion, the upper 2 bits (which would then be don't
// care) would contain erroneous data.
let attenuation_code = (!channels[channel as usize]) >> 2;
// Convert the desired channel code into dB of attenuation.
Ok(attenuation_code as f32 / 2.0)
}
fn reset_attenuators(&mut self) -> Result<(), Error>;
fn latch_attenuators(&mut self, channel: Channel) -> Result<(), Error>;
fn read_all_attenuators(&mut self, channels: &mut [u8; 4]) -> Result<(), Error>;
fn write_all_attenuators(&mut self, channels: &[u8; 4]) -> Result<(), Error>;
}

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@ -0,0 +1,499 @@
use mcp23017;
use ad9959;
use serde::{Serialize, Deserialize};
mod attenuators;
mod rf_power;
use super::hal;
use attenuators::AttenuatorInterface;
use rf_power::PowerMeasurementInterface;
use embedded_hal::{
blocking::spi::Transfer,
adc::OneShot,
};
const EXT_CLK_SEL_PIN: u8 = 8 + 7;
#[allow(dead_code)]
const OSC_EN_N_PIN: u8 = 8 + 6;
const ATT_RST_N_PIN: u8 = 8 + 5;
const ATT_LE3_PIN: u8 = 8 + 3;
const ATT_LE2_PIN: u8 = 8 + 2;
const ATT_LE1_PIN: u8 = 8 + 1;
const ATT_LE0_PIN: u8 = 8 + 0;
#[derive(Debug, Copy, Clone)]
pub enum Error {
Spi,
I2c,
Dds,
Qspi,
Bounds,
InvalidAddress,
InvalidChannel,
Adc,
}
#[derive(Debug, Copy, Clone)]
pub enum Channel {
In0,
In1,
Out0,
Out1,
}
#[derive(Serialize, Deserialize, Copy, Clone, Debug)]
pub struct DdsChannelState {
pub phase_offset: f32,
pub frequency: f64,
pub amplitude: f32,
pub enabled: bool,
}
#[derive(Serialize, Deserialize, Copy, Clone, Debug)]
pub struct ChannelState {
pub parameters: DdsChannelState,
pub attenuation: f32,
}
#[derive(Serialize, Deserialize, Copy, Clone, Debug)]
pub struct InputChannelState {
pub attenuation: f32,
pub power: f32,
pub mixer: DdsChannelState,
}
#[derive(Serialize, Deserialize, Copy, Clone, Debug)]
pub struct OutputChannelState {
pub attenuation: f32,
pub channel: DdsChannelState,
}
#[derive(Serialize, Deserialize, Copy, Clone, Debug)]
pub struct DdsClockConfig {
pub multiplier: u8,
pub reference_clock: f32,
pub external_clock: bool,
}
impl Into<ad9959::Channel> for Channel {
/// Translate pounder channels to DDS output channels.
fn into(self) -> ad9959::Channel {
match self {
Channel::In0 => ad9959::Channel::Two,
Channel::In1 => ad9959::Channel::Four,
Channel::Out0 => ad9959::Channel::One,
Channel::Out1 => ad9959::Channel::Three,
}
}
}
/// A structure for the QSPI interface for the DDS.
pub struct QspiInterface {
pub qspi: hal::qspi::Qspi,
mode: ad9959::Mode,
}
impl QspiInterface {
/// Initialize the QSPI interface.
///
/// Args:
/// * `qspi` - The QSPI peripheral driver.
pub fn new(mut qspi: hal::qspi::Qspi) -> Result<Self, Error> {
// This driver only supports operation in 4-bit mode due to bus inconsistencies between the
// QSPI peripheral and the DDS. Instead, we will bit-bang communications in
// single-bit-two-wire to the DDS to configure it to 4-bit operation.
qspi.configure_mode(hal::qspi::QspiMode::FourBit).map_err(|_| Error::Qspi)?;
Ok(Self { qspi: qspi, mode: ad9959::Mode::SingleBitTwoWire })
}
}
impl ad9959::Interface for QspiInterface {
type Error = Error;
/// Configure the operations mode of the interface.
///
/// Args:
/// * `mode` - The newly desired operational mode.
fn configure_mode(&mut self, mode: ad9959::Mode) -> Result<(), Error> {
self.mode = mode;
Ok(())
}
/// Write data over QSPI to the DDS.
///
/// Args:
/// * `addr` - The address to write over QSPI to the DDS.
/// * `data` - The data to write.
fn write(&mut self, addr: u8, data: &[u8]) -> Result<(), Error> {
if (addr & 0x80) != 0 {
return Err(Error::InvalidAddress);
}
// The QSPI interface implementation always operates in 4-bit mode because the AD9959 uses
// IO3 as SYNC_IO in some output modes. In order for writes to be successful, SYNC_IO must
// be driven low. However, the QSPI peripheral forces IO3 high when operating in 1 or 2 bit
// modes. As a result, any writes while in single- or dual-bit modes has to instead write
// the data encoded into 4-bit QSPI data so that IO3 can be driven low.
match self.mode {
ad9959::Mode::SingleBitTwoWire => {
// Encode the data into a 4-bit QSPI pattern.
// In 4-bit mode, we can send 2 bits of address and data per byte transfer. As
// such, we need at least 4x more bytes than the length of data. To avoid dynamic
// allocation, we assume the maximum transaction length for single-bit-two-wire is
// 2 bytes.
let mut encoded_data: [u8; 12] = [0; 12];
if (data.len() * 4) > (encoded_data.len() - 4) {
return Err(Error::Bounds);
}
// Encode the address into the first 4 bytes.
for address_bit in 0..8 {
let offset: u8 = {
if address_bit % 2 != 0 {
4
} else {
0
}
};
// Encode MSB first. Least significant bits are placed at the most significant
// byte.
let byte_position = 3 - (address_bit >> 1) as usize;
if addr & (1 << address_bit) != 0 {
encoded_data[byte_position] |= 1 << offset;
}
}
// Encode the data into the remaining bytes.
for byte_index in 0..data.len() {
let byte = data[byte_index];
for bit in 0..8 {
let offset: u8 = {
if bit % 2 != 0 {
4
} else {
0
}
};
// Encode MSB first. Least significant bits are placed at the most
// significant byte.
let byte_position = 3 - (bit >> 1) as usize;
if byte & (1 << bit) != 0 {
encoded_data[(byte_index + 1) * 4 + byte_position] |= 1 << offset;
}
}
}
let (encoded_address, encoded_payload) = {
let end_index = (1 + data.len()) * 4;
(encoded_data[0], &encoded_data[1..end_index])
};
self.qspi.write(encoded_address, &encoded_payload).map_err(|_| Error::Qspi)
},
ad9959::Mode::FourBitSerial => {
self.qspi.write(addr, &data).map_err(|_| Error::Qspi)
},
_ => {
Err(Error::Qspi)
}
}
}
fn read(&mut self, addr: u8, mut dest: &mut [u8]) -> Result<(), Error> {
if (addr & 0x80) != 0 {
return Err(Error::InvalidAddress);
}
// This implementation only supports operation (read) in four-bit-serial mode.
if self.mode != ad9959::Mode::FourBitSerial {
return Err(Error::Qspi);
}
self.qspi.read(0x80_u8 | addr, &mut dest).map_err(|_| Error::Qspi)
}
}
/// A structure containing implementation for Pounder hardware.
pub struct PounderDevices<DELAY> {
pub ad9959: ad9959::Ad9959<QspiInterface,
DELAY,
hal::gpio::gpiog::PG7<hal::gpio::Output<hal::gpio::PushPull>>>,
mcp23017: mcp23017::MCP23017<hal::i2c::I2c<hal::stm32::I2C1>>,
attenuator_spi: hal::spi::Spi<hal::stm32::SPI1>,
adc1: hal::adc::Adc<hal::stm32::ADC1, hal::adc::Enabled>,
adc2: hal::adc::Adc<hal::stm32::ADC2, hal::adc::Enabled>,
adc1_in_p: hal::gpio::gpiof::PF11<hal::gpio::Analog>,
adc2_in_p: hal::gpio::gpiof::PF14<hal::gpio::Analog>,
}
impl<DELAY> PounderDevices<DELAY>
where
DELAY: embedded_hal::blocking::delay::DelayMs<u8>,
{
/// Construct and initialize pounder-specific hardware.
///
/// Args:
/// * `ad9959` - The DDS driver for the pounder hardware.
/// * `attenuator_spi` - A SPI interface to control digital attenuators.
/// * `adc1` - The ADC1 peripheral for measuring power.
/// * `adc2` - The ADC2 peripheral for measuring power.
/// * `adc1_in_p` - The input channel for the RF power measurement on IN0.
/// * `adc2_in_p` - The input channel for the RF power measurement on IN1.
pub fn new(mcp23017: mcp23017::MCP23017<hal::i2c::I2c<hal::stm32::I2C1>>,
ad9959: ad9959::Ad9959<QspiInterface,
DELAY,
hal::gpio::gpiog::PG7<
hal::gpio::Output<hal::gpio::PushPull>>>,
attenuator_spi: hal::spi::Spi<hal::stm32::SPI1>,
adc1: hal::adc::Adc<hal::stm32::ADC1, hal::adc::Enabled>,
adc2: hal::adc::Adc<hal::stm32::ADC2, hal::adc::Enabled>,
adc1_in_p: hal::gpio::gpiof::PF11<hal::gpio::Analog>,
adc2_in_p: hal::gpio::gpiof::PF14<hal::gpio::Analog>,
) -> Result<Self, Error> {
let mut devices = Self {
mcp23017,
ad9959,
attenuator_spi,
adc1,
adc2,
adc1_in_p,
adc2_in_p,
};
// Configure power-on-default state for pounder. All LEDs are on, on-board oscillator
// selected, attenuators out of reset. Note that testing indicates the output state needs to
// be set first to properly update the output registers.
devices.mcp23017.all_pin_mode(mcp23017::PinMode::OUTPUT).map_err(|_| Error::I2c)?;
devices.mcp23017.write_gpio(mcp23017::Port::GPIOA, 0x3F).map_err(|_| Error::I2c)?;
devices.mcp23017.write_gpio(mcp23017::Port::GPIOB, 1 << 5).map_err(|_| Error::I2c)?;
// Select the on-board clock with a 4x prescaler (400MHz).
devices.select_onboard_clock(4u8)?;
Ok(devices)
}
/// Select the an external for the DDS reference clock source.
///
/// Args:
/// * `frequency` - The frequency of the external clock source.
/// * `multiplier` - The multiplier of the reference clock to use in the DDS.
fn select_external_clock(&mut self, frequency: f32, prescaler: u8) -> Result<(), Error>{
self.mcp23017.digital_write(EXT_CLK_SEL_PIN, true).map_err(|_| Error::I2c)?;
self.ad9959.configure_system_clock(frequency, prescaler).map_err(|_| Error::Dds)?;
Ok(())
}
/// Select the onboard oscillator for the DDS reference clock source.
///
/// Args:
/// * `multiplier` - The multiplier of the reference clock to use in the DDS.
fn select_onboard_clock(&mut self, multiplier: u8) -> Result<(), Error> {
self.mcp23017.digital_write(EXT_CLK_SEL_PIN, false).map_err(|_| Error::I2c)?;
self.ad9959.configure_system_clock(100_000_000f32, multiplier).map_err(|_| Error::Dds)?;
Ok(())
}
/// Configure the Pounder DDS clock.
///
/// Args:
/// * `config` - The configuration of the DDS clock desired.
pub fn configure_dds_clock(&mut self, config: DdsClockConfig) -> Result<(), Error> {
if config.external_clock {
self.select_external_clock(config.reference_clock, config.multiplier)
} else {
self.select_onboard_clock(config.multiplier)
}
}
/// Get the pounder DDS clock configuration
///
/// Returns:
/// The current pounder DDS clock configuration.
pub fn get_dds_clock_config(&mut self) -> Result<DdsClockConfig, Error> {
let external_clock = self.mcp23017.digital_read(EXT_CLK_SEL_PIN).map_err(|_| Error::I2c)?;
let multiplier = self.ad9959.get_reference_clock_multiplier().map_err(|_| Error::Dds)?;
let reference_clock = self.ad9959.get_reference_clock_frequency();
Ok(DdsClockConfig{multiplier, reference_clock, external_clock})
}
/// Get the state of a Pounder input channel.
///
/// Args:
/// * `channel` - The pounder channel to get the state of. Must be an input channel
///
/// Returns:
/// The read-back channel input state.
pub fn get_input_channel_state(&mut self, channel: Channel) -> Result<InputChannelState, Error> {
match channel {
Channel::In0 | Channel::In1 => {
let channel_state = self.get_dds_channel_state(channel)?;
let attenuation = self.get_attenuation(channel)?;
let power = self.measure_power(channel)?;
Ok(InputChannelState {
attenuation: attenuation,
power: power,
mixer: channel_state
})
}
_ => Err(Error::InvalidChannel),
}
}
/// Get the state of a DDS channel.
///
/// Args:
/// * `channel` - The pounder channel to get the state of.
///
/// Returns:
/// The read-back channel state.
fn get_dds_channel_state(&mut self, channel: Channel) -> Result<DdsChannelState, Error> {
let frequency = self.ad9959.get_frequency(channel.into()).map_err(|_| Error::Dds)?;
let phase_offset = self.ad9959.get_phase(channel.into()).map_err(|_| Error::Dds)?;
let amplitude = self.ad9959.get_amplitude(channel.into()).map_err(|_| Error::Dds)?;
let enabled = self.ad9959.is_enabled(channel.into()).map_err(|_| Error::Dds)?;
Ok(DdsChannelState {phase_offset, frequency, amplitude, enabled})
}
/// Get the state of a DDS output channel.
///
/// Args:
/// * `channel` - The pounder channel to get the output state of. Must be an output channel.
///
/// Returns:
/// The read-back output channel state.
pub fn get_output_channel_state(&mut self, channel: Channel) -> Result<OutputChannelState, Error> {
match channel {
Channel::Out0 | Channel::Out1 => {
let channel_state = self.get_dds_channel_state(channel)?;
let attenuation = self.get_attenuation(channel)?;
Ok(OutputChannelState {
attenuation: attenuation,
channel: channel_state,
})
}
_ => Err(Error::InvalidChannel),
}
}
/// Configure a DDS channel.
///
/// Args:
/// * `channel` - The pounder channel to configure.
/// * `state` - The state to configure the channel for.
pub fn set_channel_state(&mut self, channel: Channel, state: ChannelState) -> Result<(), Error> {
self.ad9959.set_frequency(channel.into(), state.parameters.frequency).map_err(|_| Error::Dds)?;
self.ad9959.set_phase(channel.into(), state.parameters.phase_offset).map_err(|_| Error::Dds)?;
self.ad9959.set_amplitude(channel.into(), state.parameters.amplitude).map_err(|_| Error::Dds)?;
if state.parameters.enabled {
self.ad9959.enable_channel(channel.into()).map_err(|_| Error::Dds)?;
} else {
self.ad9959.disable_channel(channel.into()).map_err(|_| Error::Dds)?;
}
self.set_attenuation(channel, state.attenuation)?;
Ok(())
}
}
impl<DELAY> AttenuatorInterface for PounderDevices<DELAY>
{
/// Reset all of the attenuators to a power-on default state.
fn reset_attenuators(&mut self) -> Result<(), Error> {
self.mcp23017.digital_write(ATT_RST_N_PIN, false).map_err(|_| Error::I2c)?;
// TODO: Measure the I2C transaction speed to the RST pin to ensure that the delay is
// sufficient. Document the delay here.
self.mcp23017.digital_write(ATT_RST_N_PIN, true).map_err(|_| Error::I2c)?;
Ok(())
}
/// Latch a configuration into a digital attenuator.
///
/// Args:
/// * `channel` - The attenuator channel to latch.
fn latch_attenuators(&mut self, channel: Channel) -> Result<(), Error> {
let pin = match channel {
Channel::In0 => ATT_LE0_PIN,
Channel::In1 => ATT_LE2_PIN,
Channel::Out0 => ATT_LE1_PIN,
Channel::Out1 => ATT_LE3_PIN,
};
self.mcp23017.digital_write(pin, true).map_err(|_| Error::I2c)?;
// TODO: Measure the I2C transaction speed to the RST pin to ensure that the delay is
// sufficient. Document the delay here.
self.mcp23017.digital_write(pin, false).map_err(|_| Error::I2c)?;
Ok(())
}
/// Read the raw attenuation codes stored in the attenuator shift registers.
///
/// Args:
/// * `channels` - A slice to store the channel readings into.
fn read_all_attenuators(&mut self, channels: &mut [u8; 4]) -> Result<(), Error> {
self.attenuator_spi.transfer(channels).map_err(|_| Error::Spi)?;
Ok(())
}
/// Write the attenuator shift registers.
///
/// Args:
/// * `channels` - The data to write into the attenuators.
fn write_all_attenuators(&mut self, channels: &[u8; 4]) -> Result<(), Error> {
let mut result = [0_u8; 4];
result.clone_from_slice(channels);
self.attenuator_spi.transfer(&mut result).map_err(|_| Error::Spi)?;
Ok(())
}
}
impl<DELAY> PowerMeasurementInterface for PounderDevices<DELAY> {
/// Sample an ADC channel.
///
/// Args:
/// * `channel` - The channel to sample.
///
/// Returns:
/// The sampled voltage of the specified channel.
fn sample_converter(&mut self, channel: Channel) -> Result<f32, Error> {
let adc_scale = match channel {
Channel::In0 => {
let adc_reading: u32 = self.adc1.read(&mut self.adc1_in_p).map_err(|_| Error::Adc)?;
adc_reading as f32 / self.adc1.max_sample() as f32
},
Channel::In1 => {
let adc_reading: u32 = self.adc2.read(&mut self.adc2_in_p).map_err(|_| Error::Adc)?;
adc_reading as f32 / self.adc2.max_sample() as f32
},
_ => return Err(Error::InvalidChannel),
};
// Convert analog percentage to voltage. Note that the ADC uses an external 2.048V analog
// reference.
Ok(adc_scale * 2.048)
}
}

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@ -0,0 +1,20 @@
use super::{Error, Channel};
/// Provide an interface to measure RF input power in dB.
pub trait PowerMeasurementInterface {
fn sample_converter(&mut self, channel: Channel) -> Result<f32, Error>;
/// Measure the power of an input channel in dBm.
///
/// Note: This function assumes the input channel is connected to an AD8363 output.
///
/// Args:
/// * `channel` - The pounder channel to measure the power of in dBm.
fn measure_power(&mut self, channel: Channel) -> Result<f32, Error> {
let analog_measurement = self.sample_converter(channel)?;
// The AD8363 with VSET connected to VOUT provides an output voltage of 51.7mV / dB at
// 100MHz. It also indicates a y-intercept of -58dBm.
Ok(analog_measurement / 0.0517 - 58.0)
}
}

225
stabilizer/src/server.rs Normal file
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@ -0,0 +1,225 @@
use heapless::{
consts::*,
String,
Vec
};
use core::fmt::Write;
use serde::{
Deserialize,
Serialize
};
use serde_json_core::{
de::from_slice,
ser::to_string
};
use super::net;
use super::iir;
#[derive(Deserialize, Serialize, Debug)]
pub enum AccessRequest {
Read,
Write,
}
#[derive(Deserialize, Serialize, Debug)]
pub struct Request<'a> {
pub req: AccessRequest,
pub attribute: &'a str,
pub value: String<U256>,
}
#[derive(Serialize, Deserialize)]
pub struct IirRequest {
pub channel: u8,
pub iir: iir::IIR,
}
#[derive(Serialize)]
pub struct Response {
code: i32,
attribute: String<U256>,
value: String<U256>,
}
impl<'a> Request<'a> {
pub fn restore_value(&mut self) {
let mut new_value: String<U256> = String::new();
for byte in self.value.as_str().chars() {
if byte == '\'' {
new_value.push('"').unwrap();
} else {
new_value.push(byte).unwrap();
}
}
self.value = new_value;
}
}
impl Response {
/// Remove all double quotation marks from the `value` field of a response.
fn sanitize_value(&mut self) {
let mut new_value: String<U256> = String::new();
for byte in self.value.as_str().chars() {
if byte == '"' {
new_value.push('\'').unwrap();
} else {
new_value.push(byte).unwrap();
}
}
self.value = new_value;
}
/// Remove all double quotation marks from the `value` field of a response and wrap it in single
/// quotes.
fn wrap_and_sanitize_value(&mut self) {
let mut new_value: String<U256> = String::new();
new_value.push('\'').unwrap();
for byte in self.value.as_str().chars() {
if byte == '"' {
new_value.push('\'').unwrap();
} else {
new_value.push(byte).unwrap();
}
}
new_value.push('\'').unwrap();
self.value = new_value;
}
/// Construct a successful reply.
///
/// Note: `value` will be sanitized to convert all single quotes to double quotes.
///
/// Args:
/// * `attrbute` - The attribute of the success.
/// * `value` - The value of the attribute.
pub fn success<'a, 'b>(attribute: &'a str, value: &'b str) -> Self
{
let mut res = Self { code: 200, attribute: String::from(attribute), value: String::from(value)};
res.sanitize_value();
res
}
/// Construct an error reply.
///
/// Note: `message` will be sanitized to convert all single quotes to double quotes.
///
/// Args:
/// * `attrbute` - The attribute of the success.
/// * `message` - The message denoting the error.
pub fn error<'a, 'b>(attribute: &'a str, message: &'b str) -> Self
{
let mut res = Self { code: 400, attribute: String::from(attribute), value: String::from(message)};
res.wrap_and_sanitize_value();
res
}
/// Construct a custom reply.
///
/// Note: `message` will be sanitized to convert all single quotes to double quotes.
///
/// Args:
/// * `attrbute` - The attribute of the success.
/// * `message` - The message denoting the status.
pub fn custom<'a>(code: i32, message : &'a str) -> Self
{
let mut res = Self { code: code, attribute: String::from(""), value: String::from(message)};
res.wrap_and_sanitize_value();
res
}
}
#[derive(Serialize)]
pub struct Status {
pub t: u32,
pub x0: f32,
pub y0: f32,
pub x1: f32,
pub y1: f32,
}
pub fn json_reply<T: Serialize>(socket: &mut net::socket::TcpSocket, msg: &T) {
let mut u: String<U512> = to_string(msg).unwrap();
u.push('\n').unwrap();
socket.write_str(&u).unwrap();
}
pub struct Server {
data: Vec<u8, U256>,
discard: bool,
}
impl Server {
/// Construct a new server object for managing requests.
pub fn new() -> Self {
Self {
data: Vec::new(),
discard: false,
}
}
/// Poll the server for potential data updates.
///
/// Args:
/// * `socket` - The socket to check contents from.
/// * `f` - A closure that can be called if a request has been received on the server.
pub fn poll<F>(
&mut self,
socket: &mut net::socket::TcpSocket,
mut f: F,
)
where
F: FnMut(&Request) -> Response
{
while socket.can_recv() {
let found = socket.recv(|buf| {
let (len, found) =
match buf.iter().position(|&c| c as char == '\n') {
Some(end) => (end + 1, true),
None => (buf.len(), false),
};
if self.data.len() + len >= self.data.capacity() {
self.discard = true;
self.data.clear();
} else if !self.discard && len > 0 {
self.data.extend_from_slice(&buf[..len]).unwrap();
}
(len, found)
}).unwrap();
if found {
if self.discard {
self.discard = false;
json_reply(socket, &Response::custom(520, "command buffer overflow"));
} else {
let r = from_slice::<Request>(&self.data[..self.data.len() - 1]);
match r {
Ok(mut res) => {
// Note that serde_json_core doesn't escape quotations within a string.
// To account for this, we manually translate all single quotes to
// double quotes. This occurs because we doubly-serialize this field in
// some cases.
res.restore_value();
let response = f(&res);
json_reply(socket, &response);
},
Err(err) => {
warn!("parse error {:?}", err);
json_reply(socket, &Response::custom(550, "parse error"));
}
}
}
self.data.clear();
}
}
}
}

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stm32h7xx-hal Submodule

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Subproject commit ff00e938f2b226211c178f26c092f36462c44404