forked from BluePill_Rust/blue_pill_base
Add cargo embed support, including rtt printing & panic logs
parent
52da592ec1
commit
0291bf41d2
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@ -19,6 +19,7 @@ panic-halt = "0.2.0"
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#panic-persist = "0.2.1"
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#panic-persist = "0.2.1"
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embedded-hal = "0.2.3"
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embedded-hal = "0.2.3"
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nb = "0.1.2"
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nb = "0.1.2"
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rtt-target = { version = "0.2.0", features = ["cortex-m"] }
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[dependencies.stm32f1]
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[dependencies.stm32f1]
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version = "0.10.0"
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version = "0.10.0"
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@ -0,0 +1,50 @@
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[default.probe]
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# USB vendor ID
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# usb_vid = "1337"
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# USB product ID
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# usb_pid = "1337"
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# Serial number
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# serial = "12345678"
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# The protocol to be used for communicating with the target.
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protocol = "Swd"
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# The speed in kHz of the data link to the target.
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# speed = 1337
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[default.flashing]
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# Whether or not the target should be flashed.
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enabled = true
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# Whether or not the target should be halted after flashing.
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halt_afterwards = false
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# Whether or not bytes erased but not rewritten with data from the ELF
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# should be restored with their contents before erasing.
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restore_unwritten_bytes = false
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# The path where an SVG of the assembled flash layout should be written to.
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# flash_layout_output_path = "out.svg"
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[default.general]
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# The chip name of the chip to be debugged.
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chip = "stm32f103C8"
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# A list of chip descriptions to be loaded during runtime.
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chip_descriptions = []
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# The default log level to be used.
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log_level = "Warn"
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[default.rtt]
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# Whether or not an RTTUI should be opened after flashing.
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# This is exclusive and cannot be used with GDB at the moment.
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enabled = true
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# A list of channel associations to be displayed. If left empty, all channels are displayed.
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channels = [
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# { up = 0, down = 0, name = "name" }
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]
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# The duration in ms for which the logger should retry to attach to RTT.
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timeout = 3000
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# Whether timestamps in the RTTUI are enabled
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show_timestamps = true
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[default.gdb]
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# Whether or not a GDB server should be opened after flashing.
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# This is exclusive and cannot be used with RTT at the moment.
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enabled = false
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# The connection string in host:port format wher the GDB server will open a socket.
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# gdb_connection_string
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20
src/main.rs
20
src/main.rs
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@ -9,7 +9,9 @@
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#![no_std]
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#![no_std]
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#![no_main]
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#![no_main]
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use panic_halt as _;
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//use panic_halt as _;
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use core::panic::PanicInfo;
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use rtt_target::{rprintln, rtt_init_print};
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use nb::block;
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use nb::block;
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@ -23,6 +25,8 @@ use embedded_hal::digital::v2::OutputPin;
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#[entry]
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#[entry]
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fn main() -> ! {
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fn main() -> ! {
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// Init buffers for debug printing
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rtt_init_print!();
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// Get access to the core peripherals from the cortex-m crate
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// Get access to the core peripherals from the cortex-m crate
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let cp = cortex_m::Peripherals::take().unwrap();
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let cp = cortex_m::Peripherals::take().unwrap();
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// Get access to the device specific peripherals from the peripheral access crate
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// Get access to the device specific peripherals from the peripheral access crate
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@ -46,11 +50,25 @@ fn main() -> ! {
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// Configure the syst timer to trigger an update every second
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// Configure the syst timer to trigger an update every second
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let mut timer = Timer::syst(cp.SYST, &clocks).start_count_down(1.hz());
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let mut timer = Timer::syst(cp.SYST, &clocks).start_count_down(1.hz());
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rprintln!("Hello, Rust!");
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// Wait for the timer to trigger an update and change the state of the LED
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// Wait for the timer to trigger an update and change the state of the LED
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let mut i = 0;
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loop {
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loop {
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block!(timer.wait()).unwrap();
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block!(timer.wait()).unwrap();
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led.set_high().unwrap();
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led.set_high().unwrap();
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block!(timer.wait()).unwrap();
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block!(timer.wait()).unwrap();
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led.set_low().unwrap();
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led.set_low().unwrap();
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i += 1;
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rprintln!("Hello again; I have blinked {} times.", i);
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if i == 10 {
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panic!("Yow, 10 times is enough!");
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}
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}
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}
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}
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}
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#[inline(never)]
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#[panic_handler]
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fn panic(info: &PanicInfo) -> ! {
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rprintln!("{}", info);
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loop {} // You might need a compiler fence in here.
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}
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