forked from renet/ENC424J600
Add tcp_stm32f407 example
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README.md
51
README.md
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@ -2,6 +2,12 @@
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## Examples
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## Examples
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<!---
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TODO: Remove the installation/env setup steps in the following how-to;
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only keep example-specific steps.
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-->
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### Endless Pinging - `tx_stm32f407`
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### Endless Pinging - `tx_stm32f407`
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This program demonstrates the Ethernet TX capability on an STM32F407 board connected to an ENC424J600 module via SPI. Once loaded and initialised, a specific ping packet is sent (broadcasted) every 100ms. Such a packet has the following properties:
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This program demonstrates the Ethernet TX capability on an STM32F407 board connected to an ENC424J600 module via SPI. Once loaded and initialised, a specific ping packet is sent (broadcasted) every 100ms. Such a packet has the following properties:
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@ -38,3 +44,48 @@ Note that this program uses ITM for logging output.
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```
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```
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itmdump -f itm.log -F
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itmdump -f itm.log -F
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```
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```
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### TCP Echoing & Greeting - `tcp_stm32f407`
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This program demonstrates the TCP connectivity using **smoltcp** on an STM32F407 board connected to an ENC424J600 module via SPI. Once loaded and initialised, two TCP sockets will be opened on the IP address 192.168.1.75/24. These sockets are:
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1. **Echoing port - 1234**
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* This socket receives raw data on all incoming TCP packets on the said port and prints them back on the output.
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* Note that this socket has a time-out of 10s.
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2. **Greeting port - 4321**
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* This socket waits for a single incoming TCP packet on the said port, and sends a TCP packet holding a text of greeting on the port.
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* Note that once a greeting is sent, the port is closed immediately. Further packets received by the controller are dropped until the initiator closes the port.
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Note that this program uses ITM for logging output.
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#### How-to
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1. Prepare the Rust and Cargo environment for building and running the program on STM32F4xx Cortex-M platforms.
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2. Install [`itm`](https://docs.rs/itm/) on Cargo:
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```
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cargo install itm
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```
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If necessary, add your installation location (`~/.cargo/bin` by default) to `$PATH`.
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3. Connect your STM32F407 device to the computer. Without changing any code, you may use an STLink V2 debugger.
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4. Run OpenOCD with the appropriate configuration files (e.g. `interface/stlink-v2.cfg`, `target/stm32f4x.cfg`).
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5. With OpenOCD running, build and run this program:
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```
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cargo run --release --example=tcp_stm32f407 --features=stm32f407,smoltcp-phy-all
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```
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Use appropriate GDB commands such as `c` for continuing.
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6. On a separate console window, monitor and observe the ITM output, which is located at the same directory as you started OpenOCD:
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```
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itmdump -f itm.log -F
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```
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7. To test the TCP ports, you may use the Netcat utility (`nc`):
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```
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nc 192.168.1.75 <port-number>
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```
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Multiple instances of Netcat can run to use all the ports simultaneously. Use Ctrl+C to close the port manually.
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@ -0,0 +1,226 @@
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#![no_std]
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#![no_main]
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extern crate panic_itm;
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use cortex_m::iprintln;
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use cortex_m_rt::entry;
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use embedded_hal::digital::v2::OutputPin;
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use stm32f4xx_hal::{
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rcc::RccExt,
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gpio::GpioExt,
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time::U32Ext,
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stm32::{CorePeripherals, Peripherals},
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spi::Spi
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};
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use enc424j600;
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use enc424j600::EthController;
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use enc424j600::smoltcp_phy;
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use smoltcp::wire::{
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EthernetAddress, IpAddress, IpCidr
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};
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use smoltcp::iface::{NeighborCache, EthernetInterfaceBuilder};
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use smoltcp::socket::{SocketSet, TcpSocket, TcpSocketBuffer};
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use smoltcp::time::{Instant, Duration};
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use core::str;
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use core::fmt::Write;
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use core::cell::RefCell;
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use cortex_m::interrupt::Mutex;
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use cortex_m_rt::exception;
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use stm32f4xx_hal::{
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rcc::Clocks,
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time::MilliSeconds,
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timer::{Timer, Event as TimerEvent},
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stm32::SYST,
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};
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/// Rate in Hz
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const TIMER_RATE: u32 = 20;
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/// Interval duration in milliseconds
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const TIMER_DELTA: u32 = 1000 / TIMER_RATE;
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/// Elapsed time in milliseconds
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static TIMER_MS: Mutex<RefCell<u32>> = Mutex::new(RefCell::new(0));
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/// Setup SysTick exception
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fn timer_setup(syst: SYST, clocks: Clocks) {
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let mut timer = Timer::syst(syst, TIMER_RATE.hz(), clocks);
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timer.listen(TimerEvent::TimeOut);
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}
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/// SysTick exception (Timer)
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#[exception]
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fn SysTick() {
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cortex_m::interrupt::free(|cs| {
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*TIMER_MS.borrow(cs)
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.borrow_mut() += TIMER_DELTA;
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});
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}
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/// Obtain current time in milliseconds
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pub fn timer_now() -> MilliSeconds {
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let ms = cortex_m::interrupt::free(|cs| {
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*TIMER_MS.borrow(cs)
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.borrow()
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});
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ms.ms()
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}
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#[entry]
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fn main() -> ! {
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let mut cp = CorePeripherals::take().unwrap();
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cp.SCB.enable_icache();
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cp.SCB.enable_dcache(&mut cp.CPUID);
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let dp = Peripherals::take().unwrap();
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let clocks = dp.RCC.constrain()
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.cfgr
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.sysclk(168.mhz())
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.hclk(168.mhz())
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.pclk1(32.mhz())
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.pclk2(64.mhz())
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.freeze();
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// Init ITM & use Stimulus Port 0
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let mut itm = cp.ITM;
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let stim0 = &mut itm.stim[0];
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iprintln!(stim0,
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"Eth TCP Server on STM32-H407 via NIC100/ENC424J600");
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// NIC100 / ENC424J600 Set-up
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let spi1 = dp.SPI1;
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let gpioa = dp.GPIOA.split();
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// Mapping: see Table 9, STM32F407ZG Manual
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let spi1_sck = gpioa.pa5.into_alternate_af5();
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let spi1_miso = gpioa.pa6.into_alternate_af5();
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let spi1_mosi = gpioa.pa7.into_alternate_af5();
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let spi1_nss = gpioa.pa4.into_push_pull_output();
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// Map SPISEL: see Table 1, NIC100 Manual
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let mut spisel = gpioa.pa1.into_push_pull_output();
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spisel.set_high().unwrap();
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spisel.set_low().unwrap();
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// Create SPI1 for HAL
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let spi_eth_port = Spi::spi1(
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spi1, (spi1_sck, spi1_miso, spi1_mosi),
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enc424j600::spi::SPI_MODE, enc424j600::spi::SPI_CLOCK.into(),
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clocks);
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let mut spi_eth = enc424j600::SpiEth::new(spi_eth_port, spi1_nss);
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// Init
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match spi_eth.init_dev() {
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Ok(_) => {
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iprintln!(stim0, "Ethernet initialised.")
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}
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Err(_) => {
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panic!("Ethernet initialisation Failed!")
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}
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}
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// Setup SysTick
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// Reference to stm32-eth:examples/ip.rs
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timer_setup(cp.SYST, clocks);
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iprintln!(stim0, "Timer initialised.");
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// Read MAC
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let mut eth_mac_addr: [u8; 6] = [0; 6];
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spi_eth.read_from_mac(&mut eth_mac_addr);
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iprintln!(stim0,
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"MAC Address = {:02x}-{:02x}-{:02x}-{:02x}-{:02x}-{:02x}",
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eth_mac_addr[0], eth_mac_addr[1],
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eth_mac_addr[2], eth_mac_addr[3],
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eth_mac_addr[4], eth_mac_addr[5]);
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// Init Rx/Tx buffers
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spi_eth.init_rxbuf();
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spi_eth.init_txbuf();
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// Copied / modified from smoltcp:
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// examples/loopback.rs, examples/multicast.rs
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let device = smoltcp_phy::SmoltcpDevice::new(&mut spi_eth);
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let mut neighbor_cache_entries = [None; 16];
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let mut neighbor_cache = NeighborCache::new(&mut neighbor_cache_entries[..]);
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let ip_addr = IpCidr::new(IpAddress::v4(192, 168, 1, 75), 24);
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let mut ip_addrs = [ip_addr];
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let mut iface = EthernetInterfaceBuilder::new(device)
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.ethernet_addr(EthernetAddress(eth_mac_addr))
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.neighbor_cache(neighbor_cache)
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.ip_addrs(&mut ip_addrs[..])
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.finalize();
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// Copied / modified from smoltcp:
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// examples/loopback.rs
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let echo_socket = {
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static mut TCP_SERVER_RX_DATA: [u8; 1024] = [0; 1024];
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static mut TCP_SERVER_TX_DATA: [u8; 1024] = [0; 1024];
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let tcp_rx_buffer = TcpSocketBuffer::new(unsafe { &mut TCP_SERVER_RX_DATA[..] });
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let tcp_tx_buffer = TcpSocketBuffer::new(unsafe { &mut TCP_SERVER_TX_DATA[..] });
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TcpSocket::new(tcp_rx_buffer, tcp_tx_buffer)
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};
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let greet_socket = {
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static mut TCP_SERVER_RX_DATA: [u8; 256] = [0; 256];
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static mut TCP_SERVER_TX_DATA: [u8; 256] = [0; 256];
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let tcp_rx_buffer = TcpSocketBuffer::new(unsafe { &mut TCP_SERVER_RX_DATA[..] });
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let tcp_tx_buffer = TcpSocketBuffer::new(unsafe { &mut TCP_SERVER_TX_DATA[..] });
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TcpSocket::new(tcp_rx_buffer, tcp_tx_buffer)
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};
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let mut socket_set_entries = [None, None];
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let mut socket_set = SocketSet::new(&mut socket_set_entries[..]);
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let echo_handle = socket_set.add(echo_socket);
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let greet_handle = socket_set.add(greet_socket);
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iprintln!(stim0,
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"TCP sockets will listen at {}", ip_addr);
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// Copied / modified from:
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// smoltcp:examples/loopback.rs, examples/server.rs;
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// stm32-eth:examples/ip.rs,
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// git.m-labs.hk/M-Labs/tnetplug
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loop {
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let now = timer_now().0;
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let instant = Instant::from_millis(now as i64);
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match iface.poll(&mut socket_set, instant) {
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Ok(_) => {
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},
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Err(e) => {
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iprintln!(stim0, "[{}] Poll error: {:?}", instant, e)
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}
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}
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// Control the "echoing" socket (:1234)
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{
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let mut socket = socket_set.get::<TcpSocket>(echo_handle);
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if !socket.is_open() {
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iprintln!(stim0,
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"[{}] Listening to port 1234 for echoing, auto-closing in 10s", instant);
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socket.listen(1234).unwrap();
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//socket.set_keep_alive(Some(Duration::from_millis(1000)));
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socket.set_timeout(Some(Duration::from_millis(10000)));
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}
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if socket.can_recv() {
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iprintln!(stim0,
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"[{}] Received packet: {:?}", instant, socket.recv(|buffer| {
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(buffer.len(), str::from_utf8(buffer).unwrap())
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}));
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}
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}
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// Control the "greeting" socket (:4321)
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{
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let mut socket = socket_set.get::<TcpSocket>(greet_handle);
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if !socket.is_open() {
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iprintln!(stim0,
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"[{}] Listening to port 4321 for greeting, \
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please open the port", instant);
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socket.listen(4321).unwrap();
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}
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if socket.can_send() {
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let greeting = "Welcome to the server demo for STM32-F407!";
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write!(socket, "{}\n", greeting).unwrap();
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iprintln!(stim0,
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"[{}] Greeting sent, socket closed", instant);
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socket.close();
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}
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}
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}
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unreachable!()
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}
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