use embedded_hal_mock::i2c::{Mock as I2cMock, Transaction as I2cTrans}; use xca9548a::{SlaveAddr, Xca9543a, Xca9545a, Xca9548a}; const DEV_ADDR: u8 = 0b111_0000; const SLAVE_ADDR: u8 = 0b010_0000; const SLAVE_WRITE_DATA: [u8; 2] = [0b0101_0101, 0b1010_1010]; const SLAVE_READ_DATA: [u8; 2] = [0b1001_1001, 0b0110_0110]; macro_rules! test_interrupt { ( $name:ident, $channels:expr ) => { #[test] fn can_get_interrupt_status() { let transactions = [I2cTrans::read( DEV_ADDR, vec![0b1010_0000 & ($channels << 4)], )]; let mut switch = new(&transactions); let read_status = switch.get_interrupt_status().unwrap(); assert_eq!(0b0000_1010 & $channels, read_status); switch.destroy().done(); } }; } macro_rules! test_ch_out_of_range { ( $name:ident, $channel:expr ) => { #[test] fn ignore_ch_out_of_range() { let transactions = [I2cTrans::write(DEV_ADDR, vec![0x01])]; let mut switch = new(&transactions); switch.select_channels(0b1000_0001).unwrap(); switch.destroy().done(); } }; } macro_rules! test_device { ( $name:ident, $channels:expr ) => { fn new(transactions: &[I2cTrans]) -> $name { $name::new(I2cMock::new(transactions), SlaveAddr::default()) } #[test] fn can_select_channels() { let transactions = [I2cTrans::write(DEV_ADDR, vec![0x01])]; let mut switch = new(&transactions); switch.select_channels(0x01).unwrap(); switch.destroy().done(); } #[test] fn can_get_channel_status() { let transactions = [I2cTrans::read(DEV_ADDR, vec![0b0101_0101 & $channels])]; let mut switch = new(&transactions); let read_status = switch.get_channel_status().unwrap(); assert_eq!(0b0101_0101 & $channels, read_status); switch.destroy().done(); } #[test] fn can_write_to_slave() { let transactions = [ I2cTrans::write(DEV_ADDR, vec![0x01]), I2cTrans::write(SLAVE_ADDR, SLAVE_WRITE_DATA.to_vec()), ]; let mut switch = new(&transactions); switch.select_channels(0b0000_0001).unwrap(); switch.write(SLAVE_ADDR, &SLAVE_WRITE_DATA).unwrap(); switch.destroy().done(); } #[test] fn can_read_from_slave() { let transactions = [ I2cTrans::write(DEV_ADDR, vec![0x01]), I2cTrans::read(SLAVE_ADDR, SLAVE_READ_DATA.to_vec()), ]; let mut switch = new(&transactions); switch.select_channels(0b0000_0001).unwrap(); let mut read_data = [0; 2]; switch.read(SLAVE_ADDR, &mut read_data).unwrap(); assert_eq!(read_data, SLAVE_READ_DATA); switch.destroy().done(); } #[test] fn can_write_read_from_slave() { let transactions = [ I2cTrans::write(DEV_ADDR, vec![0x01]), I2cTrans::write_read( SLAVE_ADDR, SLAVE_WRITE_DATA.to_vec(), SLAVE_READ_DATA.to_vec(), ), ]; let mut switch = new(&transactions); switch.select_channels(0b0000_0001).unwrap(); let mut read_data = [0; 2]; switch .write_read(SLAVE_ADDR, &SLAVE_WRITE_DATA, &mut read_data) .unwrap(); assert_eq!(read_data, SLAVE_READ_DATA); switch.destroy().done(); } #[test] fn can_split_and_communicate_with_slave() { let slave_read_data_2 = [0xAB, 0xCD]; let transactions = [ I2cTrans::write(DEV_ADDR, vec![0x01]), I2cTrans::write(SLAVE_ADDR, SLAVE_WRITE_DATA.to_vec()), I2cTrans::write(DEV_ADDR, vec![0x02]), I2cTrans::read(SLAVE_ADDR, SLAVE_READ_DATA.to_vec()), I2cTrans::write(DEV_ADDR, vec![0x01]), I2cTrans::write_read( SLAVE_ADDR, SLAVE_WRITE_DATA.to_vec(), slave_read_data_2.to_vec(), ), ]; let switch = new(&transactions); { let mut read_data_1 = [0; 2]; let mut read_data_2 = [0; 2]; let mut parts = switch.split(); parts.i2c0.write(SLAVE_ADDR, &SLAVE_WRITE_DATA).unwrap(); parts.i2c1.read(SLAVE_ADDR, &mut read_data_1).unwrap(); parts .i2c0 .write_read(SLAVE_ADDR, &SLAVE_WRITE_DATA, &mut read_data_2) .unwrap(); assert_eq!(read_data_1, SLAVE_READ_DATA); assert_eq!(read_data_2, slave_read_data_2); } switch.destroy().done(); } #[test] fn when_split_only_change_channel_if_necessary() { let transactions = [ I2cTrans::write(DEV_ADDR, vec![0x01]), I2cTrans::write(SLAVE_ADDR, SLAVE_WRITE_DATA.to_vec()), I2cTrans::read(SLAVE_ADDR, SLAVE_READ_DATA.to_vec()), ]; let switch = new(&transactions); { let mut read_data = [0; 2]; let mut parts = switch.split(); parts.i2c0.write(SLAVE_ADDR, &SLAVE_WRITE_DATA).unwrap(); parts.i2c0.read(SLAVE_ADDR, &mut read_data).unwrap(); assert_eq!(read_data, SLAVE_READ_DATA); } switch.destroy().done(); } }; } mod test_xca9548a { use super::*; use embedded_hal::blocking::i2c::{Read, Write, WriteRead}; test_device!(Xca9548a, 0xff); } mod test_xca9545a { use super::*; use embedded_hal::blocking::i2c::{Read, Write, WriteRead}; test_device!(Xca9545a, 0x0f); test_interrupt!(Xca9545a, 0x0f); test_ch_out_of_range!(Xca9545a, 0x0f); } mod test_xca9543a { use super::*; use embedded_hal::blocking::i2c::{Read, Write, WriteRead}; test_device!(Xca9543a, 0x03); test_interrupt!(Xca9543a, 0x03); test_ch_out_of_range!(Xca9543a, 0x03); }