//! Showcases advanced CAN filter capabilities. //! Does not require additional transceiver hardware. #![no_main] #![no_std] use bxcan::{ filter::{ListEntry16, ListEntry32, Mask16}, ExtendedId, Frame, StandardId, }; use panic_halt as _; use cortex_m_rt::entry; use embedded_hal::digital::OutputPin; use nb::block; use stm32f1xx_hal::{can::Can, pac, prelude::*}; #[entry] fn main() -> ! { let dp = pac::Peripherals::take().unwrap(); let mut flash = dp.FLASH.constrain(); let mut rcc = dp.RCC.constrain(); // To meet CAN clock accuracy requirements, an external crystal or ceramic // resonator must be used. rcc.cfgr.use_hse(8.mhz()).freeze(&mut flash.acr); #[cfg(not(feature = "connectivity"))] let can = Can::new(dp.CAN1, &mut rcc.apb1, dp.USB); #[cfg(feature = "connectivity")] let can = Can::new(dp.CAN1, &mut rcc.apb1); let mut can = bxcan::Can::new(can); // Use loopback mode: No pins need to be assigned to peripheral. // APB1 (PCLK1): 8MHz, Bit rate: 500Bit/s, Sample Point 87.5% // Value was calculated with http://www.bittiming.can-wiki.info/ can.modify_config() .set_bit_timing(0x001c_0000) .set_loopback(true) .set_silent(true); let mut filters = can.modify_filters(); assert!(filters.num_banks() > 3); // The order of the added filters is important: it must match configuration // of the `split_filters_advanced()` method. // 2x 11bit id + mask filter bank: Matches 0, 1, 2 // TODO: Make this accept also ID 2 filters.enable_bank( 0, [ // accepts 0 and 1 Mask16::frames_with_std_id(StandardId::new(0).unwrap(), StandardId::new(1).unwrap()), // accepts 0 and 2 Mask16::frames_with_std_id(StandardId::new(0).unwrap(), StandardId::new(2).unwrap()), ], ); // 2x 29bit id filter bank: Matches 4, 5 filters.enable_bank( 1, [ ListEntry32::data_frames_with_id(ExtendedId::new(4).unwrap()), ListEntry32::data_frames_with_id(ExtendedId::new(5).unwrap()), ], ); // 4x 11bit id filter bank: Matches 8, 9, 10, 11 filters.enable_bank( 2, [ ListEntry16::data_frames_with_id(StandardId::new(8).unwrap()), ListEntry16::data_frames_with_id(StandardId::new(9).unwrap()), ListEntry16::data_frames_with_id(StandardId::new(10).unwrap()), ListEntry16::data_frames_with_id(StandardId::new(11).unwrap()), ], ); // Enable filters. drop(filters); // Sync to the bus and start normal operation. block!(can.enable()).ok(); // Some messages shall pass the filters. for &id in &[0, 1, 2, 8, 9, 10, 11] { let frame_tx = Frame::new_data(StandardId::new(id).unwrap(), [id as u8]); block!(can.transmit(&frame_tx)).unwrap(); let frame_rx = block!(can.receive()).unwrap(); assert_eq!(frame_tx, frame_rx); } for &id in &[4, 5] { let frame_tx = Frame::new_data(ExtendedId::new(id).unwrap(), [id as u8]); block!(can.transmit(&frame_tx)).unwrap(); let frame_rx = block!(can.receive()).unwrap(); assert_eq!(frame_tx, frame_rx); } // Some messages shall not be received. for &id in &[3, 6, 7, 12] { let frame_tx = Frame::new_data(ExtendedId::new(id).unwrap(), [id as u8]); block!(can.transmit(&frame_tx)).unwrap(); while !can.is_transmitter_idle() {} assert!(can.receive().is_err()); } let mut gpiob = dp.GPIOB.split(&mut rcc.apb2); let mut led = gpiob.pb9.into_push_pull_output(&mut gpiob.crh); led.set_high().unwrap(); loop {} }