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feat: Add SPDIFRX example
This commit is contained in:
parent
62dbdcd45a
commit
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8
examples/stm32h723/.cargo/config.toml
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8
examples/stm32h723/.cargo/config.toml
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[target.thumbv7em-none-eabihf]
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runner = 'probe-rs run --chip STM32H723ZGTx'
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[build]
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target = "thumbv7em-none-eabihf" # Cortex-M4F and Cortex-M7F (with FPU)
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[env]
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DEFMT_LOG = "trace"
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69
examples/stm32h723/Cargo.toml
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69
examples/stm32h723/Cargo.toml
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[package]
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edition = "2021"
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name = "embassy-stm32h7-examples"
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version = "0.1.0"
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license = "MIT OR Apache-2.0"
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[dependencies]
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# Change stm32h723zg to your chip name, if necessary.
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embassy-stm32 = { version = "0.1.0", path = "../../embassy-stm32", features = ["defmt", "stm32h723zg", "time-driver-tim2", "exti", "memory-x", "unstable-pac", "chrono"] }
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embassy-sync = { version = "0.6.0", path = "../../embassy-sync", features = ["defmt"] }
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embassy-executor = { version = "0.6.2", path = "../../embassy-executor", features = ["task-arena-size-32768", "arch-cortex-m", "executor-thread", "executor-interrupt", "defmt", "integrated-timers"] }
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embassy-time = { version = "0.3.2", path = "../../embassy-time", features = ["defmt", "defmt-timestamp-uptime", "tick-hz-32_768"] }
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embassy-futures = { version = "0.1.0", path = "../../embassy-futures" }
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defmt = "0.3"
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defmt-rtt = "0.4"
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cortex-m = { version = "0.7.6", features = ["inline-asm", "critical-section-single-core"] }
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cortex-m-rt = "0.7.0"
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embedded-hal = "0.2.6"
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embedded-hal-1 = { package = "embedded-hal", version = "1.0" }
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embedded-hal-async = { version = "1.0" }
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embedded-nal-async = "0.8.0"
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embedded-io-async = { version = "0.6.1" }
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panic-probe = { version = "0.3", features = ["print-defmt"] }
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heapless = { version = "0.8", default-features = false }
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rand_core = "0.6.3"
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critical-section = "1.1"
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static_cell = "2"
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chrono = { version = "^0.4", default-features = false }
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grounded = "0.2.0"
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# cargo build/run
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[profile.dev]
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codegen-units = 1
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debug = 2
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debug-assertions = true # <-
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incremental = false
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opt-level = 3 # <-
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overflow-checks = true # <-
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# cargo test
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[profile.test]
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codegen-units = 1
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debug = 2
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debug-assertions = true # <-
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incremental = false
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opt-level = 3 # <-
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overflow-checks = true # <-
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# cargo build/run --release
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[profile.release]
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codegen-units = 1
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debug = 2
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debug-assertions = false # <-
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incremental = false
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lto = 'fat'
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opt-level = 3 # <-
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overflow-checks = false # <-
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# cargo test --release
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[profile.bench]
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codegen-units = 1
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debug = 2
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debug-assertions = false # <-
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incremental = false
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lto = 'fat'
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opt-level = 3 # <-
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overflow-checks = false # <-
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35
examples/stm32h723/build.rs
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35
examples/stm32h723/build.rs
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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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}
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106
examples/stm32h723/memory.x
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106
examples/stm32h723/memory.x
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MEMORY
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{
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/* This file is intended for parts in the STM32H723 family. (RM0468) */
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/* - FLASH and RAM are mandatory memory sections. */
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/* - The sum of all non-FLASH sections must add to 564k total device RAM. */
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/* - The FLASH section size must match your device, see table below. */
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/* FLASH */
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/* Select the appropriate FLASH size for your device. */
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/* - STM32H730xB 128K */
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/* - STM32H723xE/725xE 512K */
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/* - STM32H723xG/725xG/733xG/735xG 1M */
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FLASH1 : ORIGIN = 0x08000000, LENGTH = 1M
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/* Data TCM */
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/* - Two contiguous 64KB RAMs. */
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/* - Used for interrupt handlers, stacks and general RAM. */
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/* - Zero wait-states. */
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/* - The DTCM is taken as the origin of the base ram. (See below.) */
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/* This is also where the interrupt table and such will live, */
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/* which is required for deterministic performance. */
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DTCM : ORIGIN = 0x20000000, LENGTH = 128K
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/* Instruction TCM */
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/* - More memory can be assigned to ITCM. See AXI SRAM notes, below. */
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/* - Used for latency-critical interrupt handlers etc. */
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/* - Zero wait-states. */
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ITCM : ORIGIN = 0x00000000, LENGTH = 64K + 0K
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/* AXI SRAM */
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/* - AXISRAM is in D1 and accessible by all system masters except BDMA. */
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/* - Suitable for application data not stored in DTCM. */
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/* - Zero wait-states. */
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/* - The 192k of extra shared RAM is fully allotted to the AXI SRAM by default. */
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/* As a result: 64k (64k + 0k) for ITCM and 320k (128k + 192k) for AXI SRAM. */
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/* This can be re-configured via the TCM_AXI_SHARED[1,0] register when more */
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/* ITCM is required. */
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AXISRAM : ORIGIN = 0x24000000, LENGTH = 128K + 192K
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/* AHB SRAM */
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/* - SRAM1-2 are in D2 and accessible by all system masters except BDMA, LTDC */
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/* and SDMMC1. Suitable for use as DMA buffers. */
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/* - SRAM4 is in D3 and additionally accessible by the BDMA. Used for BDMA */
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/* buffers, for storing application data in lower-power modes. */
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/* - Zero wait-states. */
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SRAM1 : ORIGIN = 0x30000000, LENGTH = 16K
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SRAM2 : ORIGIN = 0x30040000, LENGTH = 16K
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SRAM4 : ORIGIN = 0x38000000, LENGTH = 16K
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/* Backup SRAM */
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/* Used to store data during low-power sleeps. */
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BSRAM : ORIGIN = 0x38800000, LENGTH = 4K
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}
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/*
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/* Assign the memory regions defined above for use. */
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/*
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/* Provide the mandatory FLASH and RAM definitions for cortex-m-rt's linker script. */
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REGION_ALIAS(FLASH, FLASH1);
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REGION_ALIAS(RAM, DTCM);
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/* The location of the stack can be overridden using the `_stack_start` symbol. */
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/* - Set the stack location at the end of RAM, using all remaining space. */
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_stack_start = ORIGIN(RAM) + LENGTH(RAM);
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/* The location of the .text section can be overridden using the */
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/* `_stext` symbol. By default it will place after .vector_table. */
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/* _stext = ORIGIN(FLASH) + 0x40c; */
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/* Define sections for placing symbols into the extra memory regions above. */
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/* This makes them accessible from code. */
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/* - ITCM, DTCM and AXISRAM connect to a 64-bit wide bus -> align to 8 bytes. */
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/* - All other memories connect to a 32-bit wide bus -> align to 4 bytes. */
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SECTIONS {
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.itcm (NOLOAD) : ALIGN(8) {
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*(.itcm .itcm.*);
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. = ALIGN(8);
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} > ITCM
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.axisram (NOLOAD) : ALIGN(8) {
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*(.axisram .axisram.*);
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. = ALIGN(8);
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} > AXISRAM
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.sram1 (NOLOAD) : ALIGN(4) {
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*(.sram1 .sram1.*);
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. = ALIGN(4);
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} > SRAM1
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.sram2 (NOLOAD) : ALIGN(4) {
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*(.sram2 .sram2.*);
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. = ALIGN(4);
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} > SRAM2
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.sram4 (NOLOAD) : ALIGN(4) {
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*(.sram4 .sram4.*);
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. = ALIGN(4);
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} > SRAM4
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.bsram (NOLOAD) : ALIGN(4) {
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*(.bsram .bsram.*);
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. = ALIGN(4);
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} > BSRAM
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};
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161
examples/stm32h723/src/bin/spdifrx.rs
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161
examples/stm32h723/src/bin/spdifrx.rs
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//! This example receives inputs on SPDIFRX and outputs on SAI4.
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//!
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//! Only very few controllers connect the SPDIFRX symbol clock to a SAI peripheral's clock input.
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//! However, this is necessary for synchronizing the symbol rates and avoiding glitches.
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#![no_std]
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#![no_main]
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use defmt::{info, trace};
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use embassy_executor::Spawner;
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use embassy_stm32::spdifrx::{self, Spdifrx};
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use embassy_stm32::{bind_interrupts, peripherals, sai};
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use grounded::uninit::GroundedArrayCell;
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use hal::sai::*;
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use {defmt_rtt as _, embassy_stm32 as hal, panic_probe as _};
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bind_interrupts!(struct Irqs {
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SPDIF_RX => spdifrx::GlobalInterruptHandler<peripherals::SPDIFRX1>;
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});
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const CHANNEL_COUNT: usize = 2;
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const BLOCK_LENGTH: usize = 64;
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const HALF_DMA_BUFFER_LENGTH: usize = BLOCK_LENGTH * CHANNEL_COUNT;
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const DMA_BUFFER_LENGTH: usize = HALF_DMA_BUFFER_LENGTH * 2; // 2 half-blocks
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// DMA buffers must be in special regions. Refer https://embassy.dev/book/#_stm32_bdma_only_working_out_of_some_ram_regions
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#[link_section = ".sram1"]
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static mut SPDIFRX_BUFFER: GroundedArrayCell<u32, DMA_BUFFER_LENGTH> = GroundedArrayCell::uninit();
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#[link_section = ".sram4"]
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static mut SAI_BUFFER: GroundedArrayCell<u32, DMA_BUFFER_LENGTH> = GroundedArrayCell::uninit();
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#[embassy_executor::main]
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async fn main(_spawner: Spawner) {
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let mut peripheral_config = embassy_stm32::Config::default();
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{
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use embassy_stm32::rcc::*;
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peripheral_config.rcc.hsi = Some(HSIPrescaler::DIV1);
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peripheral_config.rcc.pll1 = Some(Pll {
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source: PllSource::HSI,
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prediv: PllPreDiv::DIV16,
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mul: PllMul::MUL200,
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divp: Some(PllDiv::DIV2), // 400 MHz
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divq: Some(PllDiv::DIV2),
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divr: Some(PllDiv::DIV2),
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});
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peripheral_config.rcc.sys = Sysclk::PLL1_P;
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peripheral_config.rcc.ahb_pre = AHBPrescaler::DIV2;
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peripheral_config.rcc.apb1_pre = APBPrescaler::DIV2;
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peripheral_config.rcc.apb2_pre = APBPrescaler::DIV2;
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peripheral_config.rcc.apb3_pre = APBPrescaler::DIV2;
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peripheral_config.rcc.apb4_pre = APBPrescaler::DIV2;
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peripheral_config.rcc.mux.spdifrxsel = mux::Spdifrxsel::PLL1_Q;
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}
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let mut p = embassy_stm32::init(peripheral_config);
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info!("SPDIFRX to SAI4 bridge");
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// Use SPDIFRX clock for SAI.
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// This ensures equal rates of sample production and consumption.
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let clk_source = embassy_stm32::pac::rcc::vals::Saiasel::_RESERVED_5;
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embassy_stm32::pac::RCC.d3ccipr().modify(|w| {
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w.set_sai4asel(clk_source);
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});
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let sai_buffer: &mut [u32] = unsafe {
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SAI_BUFFER.initialize_all_copied(0);
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let (ptr, len) = SAI_BUFFER.get_ptr_len();
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core::slice::from_raw_parts_mut(ptr, len)
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};
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let spdifrx_buffer: &mut [u32] = unsafe {
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SPDIFRX_BUFFER.initialize_all_copied(0);
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let (ptr, len) = SPDIFRX_BUFFER.get_ptr_len();
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core::slice::from_raw_parts_mut(ptr, len)
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};
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let mut spdif_receiver = new_spdif_receiver(&mut p.SPDIFRX1, &mut p.PD7, &mut p.DMA2_CH7, spdifrx_buffer);
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let mut sai_transmitter = new_sai_transmitter(
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&mut p.SAI4,
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&mut p.PD13,
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&mut p.PC1,
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&mut p.PD12,
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&mut p.BDMA_CH0,
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sai_buffer,
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);
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spdif_receiver.start();
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sai_transmitter.start();
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loop {
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let mut buf = [0u32; HALF_DMA_BUFFER_LENGTH];
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match spdif_receiver.read_data(&mut buf).await {
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Ok(_) => (),
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Err(spdifrx::Error::RingbufferError(_)) => {
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trace!("SPDIFRX ringbuffer error. Renew.");
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drop(spdif_receiver);
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spdif_receiver = new_spdif_receiver(&mut p.SPDIFRX1, &mut p.PD7, &mut p.DMA2_CH7, spdifrx_buffer);
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spdif_receiver.start();
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continue;
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}
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Err(spdifrx::Error::ChannelSyncError) => {
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trace!("SPDIFRX channel sync (left/right assignment) error.");
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continue;
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}
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Err(spdifrx::Error::SourceSyncError) => {
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trace!("SPDIFRX source sync error, e.g. disconnect.");
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continue;
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}
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};
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if sai_transmitter.write(&buf).await.is_err() {
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trace!("Renew SAI.");
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drop(sai_transmitter);
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sai_transmitter = new_sai_transmitter(
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&mut p.SAI4,
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&mut p.PD13,
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&mut p.PC1,
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&mut p.PD12,
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&mut p.BDMA_CH0,
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sai_buffer,
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);
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sai_transmitter.start();
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}
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}
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}
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/// Creates a new SPDIFRX instance for receiving sample data.
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///
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/// Used (again) after dropping the SPDIFRX instance, in case of errors (e.g. source disconnect).
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fn new_spdif_receiver<'d>(
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spdifrx: &'d mut peripherals::SPDIFRX1,
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input_pin: &'d mut peripherals::PD7,
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dma: &'d mut peripherals::DMA2_CH7,
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buf: &'d mut [u32],
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) -> Spdifrx<'d, peripherals::SPDIFRX1> {
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Spdifrx::new_data_only(spdifrx, Irqs, spdifrx::Config::default(), input_pin, dma, buf)
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}
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/// Creates a new SAI4 instance for transmitting sample data.
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///
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/// Used (again) after dropping the SAI4 instance, in case of errors (e.g. buffer overrun).
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fn new_sai_transmitter<'d>(
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sai: &'d mut peripherals::SAI4,
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sck: &'d mut peripherals::PD13,
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sd: &'d mut peripherals::PC1,
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fs: &'d mut peripherals::PD12,
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dma: &'d mut peripherals::BDMA_CH0,
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buf: &'d mut [u32],
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) -> Sai<'d, peripherals::SAI4, u32> {
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let mut sai_config = hal::sai::Config::default();
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sai_config.slot_count = hal::sai::word::U4(CHANNEL_COUNT as u8);
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sai_config.slot_enable = 0xFFFF; // All slots
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sai_config.data_size = sai::DataSize::Data32;
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sai_config.frame_length = (CHANNEL_COUNT * 32) as u8;
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sai_config.master_clock_divider = hal::sai::MasterClockDivider::MasterClockDisabled;
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let (sub_block_tx, _) = hal::sai::split_subblocks(sai);
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Sai::new_asynchronous(sub_block_tx, sck, sd, fs, dma, buf, sai_config)
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}
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