#![no_std] #![no_main] #![feature(type_alias_impl_trait)] use defmt::*; use embassy_executor::Spawner; use embassy_stm32::bind_interrupts; use embassy_stm32::ipcc::{Config, ReceiveInterruptHandler, TransmitInterruptHandler}; use embassy_stm32_wpan::mac::commands::{AssociateResponse, ResetRequest, SetRequest, StartRequest}; use embassy_stm32_wpan::mac::event::MacEvent; use embassy_stm32_wpan::mac::typedefs::{MacChannel, MacStatus, PanId, PibId, SecurityLevel}; use embassy_stm32_wpan::sub::mm; use embassy_stm32_wpan::TlMbox; use {defmt_rtt as _, panic_probe as _}; bind_interrupts!(struct Irqs{ IPCC_C1_RX => ReceiveInterruptHandler; IPCC_C1_TX => TransmitInterruptHandler; }); #[embassy_executor::task] async fn run_mm_queue(memory_manager: mm::MemoryManager) { memory_manager.run_queue().await; } #[embassy_executor::main] async fn main(spawner: Spawner) { /* How to make this work: - Obtain a NUCLEO-STM32WB55 from your preferred supplier. - Download and Install STM32CubeProgrammer. - Download stm32wb5x_FUS_fw.bin, stm32wb5x_BLE_Stack_full_fw.bin, and Release_Notes.html from gh:STMicroelectronics/STM32CubeWB@2234d97/Projects/STM32WB_Copro_Wireless_Binaries/STM32WB5x - Open STM32CubeProgrammer - On the right-hand pane, click "firmware upgrade" to upgrade the st-link firmware. - Once complete, click connect to connect to the device. - On the left hand pane, click the RSS signal icon to open "Firmware Upgrade Services". - In the Release_Notes.html, find the memory address that corresponds to your device for the stm32wb5x_FUS_fw.bin file - Select that file, the memory address, "verify download", and then "Firmware Upgrade". - Once complete, in the Release_Notes.html, find the memory address that corresponds to your device for the stm32wb5x_BLE_Stack_full_fw.bin file. It should not be the same memory address. - Select that file, the memory address, "verify download", and then "Firmware Upgrade". - Select "Start Wireless Stack". - Disconnect from the device. - In the examples folder for stm32wb, modify the memory.x file to match your target device. - Run this example. Note: extended stack versions are not supported at this time. Do not attempt to install a stack with "extended" in the name. */ let p = embassy_stm32::init(Default::default()); info!("Hello World!"); let config = Config::default(); let mbox = TlMbox::init(p.IPCC, Irqs, config); spawner.spawn(run_mm_queue(mbox.mm_subsystem)).unwrap(); let sys_event = mbox.sys_subsystem.read().await; info!("sys event: {}", sys_event.payload()); core::mem::drop(sys_event); let result = mbox.sys_subsystem.shci_c2_mac_802_15_4_init().await; info!("initialized mac: {}", result); info!("resetting"); mbox.mac_subsystem .send_command(&ResetRequest { set_default_pib: true, ..Default::default() }) .await .unwrap(); defmt::info!("{:#x}", mbox.mac_subsystem.read().await.unwrap()); info!("setting extended address"); let extended_address: u64 = 0xACDE480000000001; mbox.mac_subsystem .send_command(&SetRequest { pib_attribute_ptr: &extended_address as *const _ as *const u8, pib_attribute: PibId::ExtendedAddress, }) .await .unwrap(); defmt::info!("{:#x}", mbox.mac_subsystem.read().await.unwrap()); info!("setting short address"); let short_address: u16 = 0x1122; mbox.mac_subsystem .send_command(&SetRequest { pib_attribute_ptr: &short_address as *const _ as *const u8, pib_attribute: PibId::ShortAddress, }) .await .unwrap(); defmt::info!("{:#x}", mbox.mac_subsystem.read().await.unwrap()); info!("setting association permit"); let association_permit: bool = true; mbox.mac_subsystem .send_command(&SetRequest { pib_attribute_ptr: &association_permit as *const _ as *const u8, pib_attribute: PibId::AssociationPermit, }) .await .unwrap(); defmt::info!("{:#x}", mbox.mac_subsystem.read().await.unwrap()); info!("setting TX power"); let transmit_power: i8 = 2; mbox.mac_subsystem .send_command(&SetRequest { pib_attribute_ptr: &transmit_power as *const _ as *const u8, pib_attribute: PibId::TransmitPower, }) .await .unwrap(); defmt::info!("{:#x}", mbox.mac_subsystem.read().await.unwrap()); info!("starting FFD device"); mbox.mac_subsystem .send_command(&StartRequest { pan_id: PanId([0x1A, 0xAA]), channel_number: MacChannel::Channel16, beacon_order: 0x0F, superframe_order: 0x0F, pan_coordinator: true, battery_life_extension: false, ..Default::default() }) .await .unwrap(); defmt::info!("{:#x}", mbox.mac_subsystem.read().await.unwrap()); info!("setting RX on when idle"); let rx_on_while_idle: bool = true; mbox.mac_subsystem .send_command(&SetRequest { pib_attribute_ptr: &rx_on_while_idle as *const _ as *const u8, pib_attribute: PibId::RxOnWhenIdle, }) .await .unwrap(); defmt::info!("{:#x}", mbox.mac_subsystem.read().await.unwrap()); loop { let evt = mbox.mac_subsystem.read().await; if let Ok(evt) = evt { defmt::info!("parsed mac event"); defmt::info!("{:#x}", evt); match evt { MacEvent::MlmeAssociateInd(association) => mbox .mac_subsystem .send_command(&AssociateResponse { device_address: association.device_address, assoc_short_address: [0x33, 0x44], status: MacStatus::Success, security_level: SecurityLevel::Unsecure, ..Default::default() }) .await .unwrap(), MacEvent::McpsDataInd(data_ind) => { let payload = data_ind.payload(); let ref_payload = b"Hello from embassy!"; info!("{}", payload); if payload == ref_payload { info!("success"); } else { info!("ref payload: {}", ref_payload); } } _ => { defmt::info!("other mac event"); } } } else { defmt::info!("failed to parse mac event"); } } }