forked from M-Labs/kirdy
dfu: Add eth cmd, fns to put stm32 into dfu mode
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14
README.md
14
README.md
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@ -41,17 +41,19 @@ gdb target/thumbv7em-none-eabihf/release/kirdy
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```
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```
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## Flashing
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## Flashing
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There are several options for flashing kirdy. DFU requires only a USB-C connector, whereas OpenOCD needs a JTAG/SWD adapter.
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There are several options for flashing kirdy. DFU requires only a USB-C cable or RJ45 cable, whereas OpenOCD needs a JTAG/SWD adapter.
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### dfu-util on Linux
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### dfu-util on Linux
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* Install the DFU USB tool (dfu-util).
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* Install the DFU USB tool (dfu-util).
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* Convert firmware from ELF to BIN: `arm-none-eabi-objcopy -O binary kirdy kirdy.bin` (you can skip this step if using the BIN from Hydra)
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* Convert firmware from ELF to BIN: `arm-none-eabi-objcopy -O binary kirdy kirdy.bin` (you can skip this step if using the BIN from Hydra)
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* Connect to the USB Type C connector to kirdy above the RJ45.
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* Put STM32 into DFU Mode. You can either
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* Add jumper to kirdy v2.0 across 2-pin jumper adjacent to JTAG connector.
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* Connect to the USB Type C cable to kirdy next to the RJ45 Jack. After that, add BOOT0 jumper to kirdy near programming headers and then cycle board power to put it in DFU mode. OR
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* Cycle board power to put it in DFU update mode
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* Plug in RJ45 cable, which connect to a network that is accessible by your computer and send the corresponding dfu json command via TCP Socket to kirdy. Please see the python test script for the command.
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* Push firmware to flash: `dfu-util -a 0 -s 0x08000000:leave -D kirdy.bin`
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* Push firmware to flash: `dfu-util -a 0 -s 0x08000000:leave -D kirdy.bin`
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* Remove jumper
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* If you plugged in the BOOT0 jumper, you will need to
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* Cycle power to leave DFU update mode
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1. Remove BOOT0 jumper
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2. Cycle power to leave DFU update mode
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* If you plugged in the RJ45 cable, the MCU would start its application code automatically. No power cycle is needed.
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### st.com DfuSe tool on Windows
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### st.com DfuSe tool on Windows
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On a Windows machine install [st.com](https://st.com) DfuSe USB device firmware upgrade (DFU) software. [link](https://www.st.com/en/development-tools/stsw-stm32080.html).
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On a Windows machine install [st.com](https://st.com) DfuSe USB device firmware upgrade (DFU) software. [link](https://www.st.com/en/development-tools/stsw-stm32080.html).
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@ -14,6 +14,10 @@ import signal
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HOST = "192.168.1.132"
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HOST = "192.168.1.132"
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PORT = 1337
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PORT = 1337
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dfu_cmd = {
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"device_cmd": "Dfu",
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}
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ld_cmd = {
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ld_cmd = {
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"laser_diode_cmd": "SetI",
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"laser_diode_cmd": "SetI",
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"data_f64": 0.0,
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"data_f64": 0.0,
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@ -0,0 +1,46 @@
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use cortex_m_rt::pre_init;
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use stm32f4xx_hal::pac::{RCC, SYSCFG};
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use core::arch::asm;
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const DFU_TRIG_MSG: u32 = 0xDECAFBAD;
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extern "C" {
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// This symbol comes from memory.x
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static mut _dfu_msg: u32;
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}
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pub unsafe fn set_dfu_trigger() {
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_dfu_msg = DFU_TRIG_MSG;
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}
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/// Called by reset handler in lib.rs immediately after reset.
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/// This function should not be called outside of reset handler as
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/// bootloader expects MCU to be in reset state when called.
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#[cfg(target_arch = "arm")]
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#[pre_init]
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unsafe fn __pre_init() {
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if _dfu_msg == DFU_TRIG_MSG {
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_dfu_msg = 0x00000000;
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// Enable system config controller clock
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let rcc = &*RCC::ptr();
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rcc.apb2enr.modify(|_, w| w.syscfgen().set_bit());
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// Bypass BOOT pins and remap bootloader to 0x00000000
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let syscfg = &*SYSCFG::ptr() ;
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syscfg.memrm.write(|w| w.mem_mode().bits(0b01));
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// Impose instruction and memory barriers
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cortex_m::asm::isb();
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cortex_m::asm::dsb();
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asm!(
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// Set stack pointer to bootloader location
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"LDR R0, =0x1FFF0000",
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"LDR SP,[R0, #0]",
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// Jump to bootloader
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"LDR R0,[R0, #4]",
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"BX R0",
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);
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}
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}
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@ -6,3 +6,4 @@ pub mod sys_timer;
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pub mod usb;
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pub mod usb;
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pub mod flash_store;
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pub mod flash_store;
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pub mod hw_rev;
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pub mod hw_rev;
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pub mod dfu;
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22
src/main.rs
22
src/main.rs
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@ -18,6 +18,7 @@ use uom::si::power::milliwatt;
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use uom::si::f64::{ElectricPotential, ElectricCurrent, Power, ThermodynamicTemperature};
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use uom::si::f64::{ElectricPotential, ElectricCurrent, Power, ThermodynamicTemperature};
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use serde::{Serialize, Deserialize};
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use serde::{Serialize, Deserialize};
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use stm32f4xx_hal::pac::SCB;
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// If RTT is used, print panic info through RTT
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// If RTT is used, print panic info through RTT
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#[cfg(all(feature = "RTT", not(test)))]
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#[cfg(all(feature = "RTT", not(test)))]
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use {core::panic::PanicInfo, rtt_target::rprintln};
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use {core::panic::PanicInfo, rtt_target::rprintln};
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@ -77,9 +78,12 @@ fn main() -> ! {
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let milli_amp_fmt = ElectricCurrent::format_args(milliampere, Abbreviation);
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let milli_amp_fmt = ElectricCurrent::format_args(milliampere, Abbreviation);
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let milli_watt_fmt = Power::format_args(milliwatt, Abbreviation);
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let milli_watt_fmt = Power::format_args(milliwatt, Abbreviation);
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let mut should_reset = false;
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loop {
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loop {
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wd.feed();
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wd.feed();
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if !should_reset {
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let mut eth_is_pending = false;
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let mut eth_is_pending = false;
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if thermostat.poll_adc_and_update_pid() {
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if thermostat.poll_adc_and_update_pid() {
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@ -110,8 +114,22 @@ fn main() -> ! {
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});
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});
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let bytes = net::net::eth_recv(&mut ETH_DATA_BUFFER);
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let bytes = net::net::eth_recv(&mut ETH_DATA_BUFFER);
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debug!("Number of bytes recv: {:?}", bytes);
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debug!("Number of bytes recv: {:?}", bytes);
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(laser, thermostat) = net::cmd_handler::execute_cmd(&mut ETH_DATA_BUFFER, bytes, laser, thermostat);
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(laser, thermostat, should_reset) = net::cmd_handler::execute_cmd(&mut ETH_DATA_BUFFER, bytes, laser, thermostat);
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}
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}
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}
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}
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} else {
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// Should reset, close all TCP sockets.
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let mut any_socket_alive = false;
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if net::net::eth_is_socket_active() {
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net::net::eth_close_socket();
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any_socket_alive = true;
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}
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// Must let loop run for one more cycle to poll server for RST to be sent,
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// this makes sure system does not reset right after socket.abort() is called.
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if !any_socket_alive {
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SCB::sys_reset();
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}
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}
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}
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}
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}
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}
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@ -1,4 +1,4 @@
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use core::fmt::Debug;
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use core::{default, fmt::Debug};
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use miniconf::{JsonCoreSlash, Tree};
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use miniconf::{JsonCoreSlash, Tree};
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use serde::{Deserialize, Serialize};
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use serde::{Deserialize, Serialize};
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use uom::si::{
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use uom::si::{
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@ -10,8 +10,16 @@ use uom::si::{
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use crate::{laser_diode::laser_diode::LdDrive, net::net, thermostat::thermostat::StatusReport};
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use crate::{laser_diode::laser_diode::LdDrive, net::net, thermostat::thermostat::StatusReport};
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use crate::thermostat::thermostat::Thermostat;
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use crate::thermostat::thermostat::Thermostat;
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use crate::thermostat::pid_state::PidSettings::*;
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use crate::thermostat::pid_state::PidSettings::*;
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use crate::device::dfu;
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use log::info;
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use log::info;
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#[derive(Deserialize, Serialize, Copy, Clone, Default, Debug)]
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enum DeviceCmd {
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#[default]
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Reserved,
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Dfu
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}
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#[derive(Deserialize, Serialize, Copy, Clone, Default, Debug)]
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#[derive(Deserialize, Serialize, Copy, Clone, Default, Debug)]
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enum LdCmdEnum {
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enum LdCmdEnum {
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#[default]
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#[default]
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@ -70,6 +78,7 @@ enum ThermostatCmdEnum {
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pub struct CmdJsonObj{
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pub struct CmdJsonObj{
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laser_diode_cmd: Option<LdCmdEnum>,
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laser_diode_cmd: Option<LdCmdEnum>,
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thermostat_cmd: Option<ThermostatCmdEnum>,
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thermostat_cmd: Option<ThermostatCmdEnum>,
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device_cmd: Option<DeviceCmd>,
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data_f32: Option<f32>,
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data_f32: Option<f32>,
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data_f64: Option<f64>,
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data_f64: Option<f64>,
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}
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}
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@ -83,7 +92,9 @@ pub struct StatusReportStruct {
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json: StatusReport
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json: StatusReport
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}
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}
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pub fn execute_cmd(buffer: &mut [u8], buffer_size: usize, mut laser: LdDrive, mut tec: Thermostat)->(LdDrive, Thermostat){
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pub fn execute_cmd(buffer: &mut [u8], buffer_size: usize, mut laser: LdDrive, mut tec: Thermostat)->(LdDrive, Thermostat, bool){
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let mut should_reset = false;
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let mut cmd = Cmd {
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let mut cmd = Cmd {
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json: CmdJsonObj::default()
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json: CmdJsonObj::default()
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};
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};
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Ok(_) => {
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Ok(_) => {
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info!("############ Laser Diode Command Received {:?}", cmd.json.laser_diode_cmd);
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info!("############ Laser Diode Command Received {:?}", cmd.json.laser_diode_cmd);
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info!("############ Thermostat Command Received {:?}", cmd.json.thermostat_cmd);
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info!("############ Thermostat Command Received {:?}", cmd.json.thermostat_cmd);
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info!("############ Device Command Received {:?}", cmd.json.device_cmd);
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match cmd.json.device_cmd {
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Some(DeviceCmd::Dfu) => {
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unsafe {
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dfu::set_dfu_trigger();
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}
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should_reset = true;
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}
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None => { /* Do Nothing */}
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_ => {
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info!("Unimplemented Command")
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}
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}
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match cmd.json.laser_diode_cmd {
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match cmd.json.laser_diode_cmd {
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Some(LdCmdEnum::PowerUp) => {
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Some(LdCmdEnum::PowerUp) => {
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@ -331,5 +356,5 @@ pub fn execute_cmd(buffer: &mut [u8], buffer_size: usize, mut laser: LdDrive, mu
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info!("Invalid Command: {:?}", err);
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info!("Invalid Command: {:?}", err);
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}
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}
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}
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}
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(laser, tec)
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(laser, tec, should_reset)
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}
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}
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@ -207,6 +207,11 @@ impl ServerHandle {
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}
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}
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return true;
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return true;
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}
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}
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pub fn close_socket(&mut self) {
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let socket = self.socket_set.get_mut::<Socket>(self.socket_handle);
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socket.abort();
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}
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}
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}
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use ieee802_3_miim::{
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use ieee802_3_miim::{
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}
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}
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}
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}
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pub fn eth_close_socket() {
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unsafe {
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if let Some(ref mut server_handle ) = SERVER_HANDLE {
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server_handle.close_socket()
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}
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else {
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panic!("eth_close_socket is called before init");
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}
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}
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}
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/// Potentially wake up from `wfi()`, set the interrupt pending flag,
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/// Potentially wake up from `wfi()`, set the interrupt pending flag,
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/// clear interrupt flags.
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/// clear interrupt flags.
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#[interrupt]
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#[interrupt]
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