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add example for bdma
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45a2abc392
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@ -279,6 +279,14 @@ If you see errors that look like this:
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DMA: error on BDMA@1234ABCD channel 4
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----
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You likely need to set up your linker script to define a special region for this area, and copy data to that region before using with BDMA.
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You need to set up your linker script to define a special region for this area, and copy data to that region before using with BDMA.
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TODO: show how to do that
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General steps:
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1. Find out which memory region BDMA has access to. You can get this information from the bus matrix and the memory mapping table in the STM32 datasheet.
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2. Add the memory region to `memory.x`, you can modify the generated one from https://github.com/embassy-rs/stm32-data-generated/tree/main/data/chips.
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3. You might need to modify `build.rs` to make cargo pick up the modified `memory.x`.
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4. In your code, access the defined memory region using `#[link_section = ".xxx"]`
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5. Copy data to that region before using BDMA.
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See link:/examples/stm32h7/src/bin/spi_bdma.rs[this example] for more details.
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@ -1,4 +1,34 @@
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//! This build script copies the `memory.x` file from the crate root into
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//! a directory where the linker can always find it at build time.
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//! For many projects this is optional, as the linker always searches the
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//! project root directory -- wherever `Cargo.toml` is. However, if you
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//! are using a workspace or have a more complicated build setup, this
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//! build script becomes required. Additionally, by requesting that
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//! Cargo re-run the build script whenever `memory.x` is changed,
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//! updating `memory.x` ensures a rebuild of the application with the
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//! new memory settings.
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use std::env;
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use std::fs::File;
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use std::io::Write;
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use std::path::PathBuf;
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fn main() {
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// Put `memory.x` in our output directory and ensure it's
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// on the linker search path.
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let out = &PathBuf::from(env::var_os("OUT_DIR").unwrap());
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File::create(out.join("memory.x"))
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.unwrap()
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.write_all(include_bytes!("memory.x"))
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.unwrap();
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println!("cargo:rustc-link-search={}", out.display());
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// By default, Cargo will re-run a build script whenever
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// any file in the project changes. By specifying `memory.x`
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// here, we ensure the build script is only re-run when
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// `memory.x` is changed.
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println!("cargo:rerun-if-changed=memory.x");
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println!("cargo:rustc-link-arg-bins=--nmagic");
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println!("cargo:rustc-link-arg-bins=-Tlink.x");
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println!("cargo:rustc-link-arg-bins=-Tdefmt.x");
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14
examples/stm32h7/memory.x
Normal file
14
examples/stm32h7/memory.x
Normal file
@ -0,0 +1,14 @@
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MEMORY
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{
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FLASH : ORIGIN = 0x08000000, LENGTH = 2048K /* BANK_1 + BANK_2 */
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RAM : ORIGIN = 0x24000000, LENGTH = 512K /* SRAM */
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RAM_D3 : ORIGIN = 0x38000000, LENGTH = 64K /* SRAM4 */
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}
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SECTIONS
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{
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.ram_d3 :
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{
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*(.ram_d3)
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} > RAM_D3
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}
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78
examples/stm32h7/src/bin/spi_bdma.rs
Normal file
78
examples/stm32h7/src/bin/spi_bdma.rs
Normal file
@ -0,0 +1,78 @@
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#![no_std]
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#![no_main]
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use core::fmt::Write;
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use core::str::from_utf8;
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use cortex_m_rt::entry;
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use defmt::*;
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use embassy_executor::Executor;
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use embassy_stm32::mode::Async;
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use embassy_stm32::time::mhz;
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use embassy_stm32::{peripherals, spi, Config};
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use heapless::String;
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use static_cell::StaticCell;
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use {defmt_rtt as _, panic_probe as _};
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// Defined in memory.x
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#[link_section = ".ram_d3"]
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static mut RAM_D3: [u8; 64 * 1024] = [0u8; 64 * 1024];
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#[embassy_executor::task]
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async fn main_task(mut spi: spi::Spi<'static, peripherals::SPI6, Async>) {
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let read_buffer = unsafe { &mut RAM_D3[0..128] };
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let write_buffer = unsafe { &mut RAM_D3[128..256] };
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for n in 0u32.. {
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let mut write: String<128> = String::new();
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core::write!(&mut write, "Hello DMA World {}!\r\n", n).unwrap();
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let read_buffer = &mut read_buffer[..write.len()];
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let write_buffer = &mut write_buffer[..write.len()];
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// copy data to write_buffer which is located in D3 domain, accessable by BDMA
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write_buffer.clone_from_slice(write.as_bytes());
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spi.transfer(read_buffer, write_buffer).await.ok();
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info!("read via spi+dma: {}", from_utf8(read_buffer).unwrap());
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}
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}
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static EXECUTOR: StaticCell<Executor> = StaticCell::new();
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#[entry]
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fn main() -> ! {
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info!("Hello World!");
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let mut config = Config::default();
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{
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use embassy_stm32::rcc::*;
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config.rcc.hsi = Some(HSIPrescaler::DIV1);
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config.rcc.csi = true;
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config.rcc.pll1 = Some(Pll {
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source: PllSource::HSI,
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prediv: PllPreDiv::DIV4,
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mul: PllMul::MUL50,
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divp: Some(PllDiv::DIV2),
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divq: Some(PllDiv::DIV8), // used by SPI3. 100Mhz.
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divr: None,
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});
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config.rcc.sys = Sysclk::PLL1_P; // 400 Mhz
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config.rcc.ahb_pre = AHBPrescaler::DIV2; // 200 Mhz
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config.rcc.apb1_pre = APBPrescaler::DIV2; // 100 Mhz
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config.rcc.apb2_pre = APBPrescaler::DIV2; // 100 Mhz
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config.rcc.apb3_pre = APBPrescaler::DIV2; // 100 Mhz
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config.rcc.apb4_pre = APBPrescaler::DIV2; // 100 Mhz
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config.rcc.voltage_scale = VoltageScale::Scale1;
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}
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let p = embassy_stm32::init(config);
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let mut spi_config = spi::Config::default();
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spi_config.frequency = mhz(1);
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let spi = spi::Spi::new(p.SPI6, p.PA5, p.PA7, p.PA6, p.BDMA_CH1, p.BDMA_CH0, spi_config);
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let executor = EXECUTOR.init(Executor::new());
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executor.run(|spawner| {
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unwrap!(spawner.spawn(main_task(spi)));
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})
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}
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