use io::{Io, Pio, ReadOnly, WriteOnly}; bitflags! { flags StatusFlags: u8 { const OUTPUT_FULL = 1, const INPUT_FULL = 1 << 1, const SYSTEM = 1 << 2, const COMMAND = 1 << 3, // Chipset specific const KEYBOARD_LOCK = 1 << 4, // Chipset specific const SECOND_OUTPUT_FULL = 1 << 5, const TIME_OUT = 1 << 6, const PARITY = 1 << 7 } } bitflags! { flags ConfigFlags: u8 { const FIRST_INTERRUPT = 1, const SECOND_INTERRUPT = 1 << 1, const POST_PASSED = 1 << 2, // 1 << 3 should be zero const CONFIG_RESERVED_3 = 1 << 3, const FIRST_DISABLED = 1 << 4, const SECOND_DISABLED = 1 << 5, const FIRST_TRANSLATE = 1 << 6, // 1 << 7 should be zero const CONFIG_RESERVED_7 = 1 << 7, } } #[repr(u8)] #[allow(dead_code)] enum Command { ReadConfig = 0x20, WriteConfig = 0x60, DisableSecond = 0xA7, EnableSecond = 0xA8, TestSecond = 0xA9, TestController = 0xAA, TestFirst = 0xAB, Diagnostic = 0xAC, DisableFirst = 0xAD, EnableFirst = 0xAE, WriteSecond = 0xD4 } #[repr(u8)] #[allow(dead_code)] enum KeyboardCommand { EnableReporting = 0xF4, SetDefaults = 0xF6, Reset = 0xFF } #[repr(u8)] enum KeyboardCommandData { ScancodeSet = 0xF0 } #[repr(u8)] #[allow(dead_code)] enum MouseCommand { GetDeviceId = 0xF2, EnableReporting = 0xF4, SetDefaults = 0xF6, Reset = 0xFF } #[repr(u8)] enum MouseCommandData { SetSampleRate = 0xF3, } pub struct Ps2 { data: Pio, status: ReadOnly>, command: WriteOnly> } impl Ps2 { pub fn new() -> Self { Ps2 { data: Pio::new(0x60), status: ReadOnly::new(Pio::new(0x64)), command: WriteOnly::new(Pio::new(0x64)), } } fn status(&mut self) -> StatusFlags { StatusFlags::from_bits_truncate(self.status.read()) } fn wait_write(&mut self) { while self.status().contains(INPUT_FULL) {} } fn wait_read(&mut self) { while ! self.status().contains(OUTPUT_FULL) {} } fn flush_read(&mut self) { while self.status().contains(OUTPUT_FULL) { print!("FLUSH: {:X}\n", self.data.read()); } } fn command(&mut self, command: Command) { self.wait_write(); self.command.write(command as u8); } fn read(&mut self) -> u8 { self.wait_read(); self.data.read() } fn write(&mut self, data: u8) { self.wait_write(); self.data.write(data); } fn config(&mut self) -> ConfigFlags { self.command(Command::ReadConfig); ConfigFlags::from_bits_truncate(self.read()) } fn set_config(&mut self, config: ConfigFlags) { self.command(Command::WriteConfig); self.write(config.bits()); } fn keyboard_command(&mut self, command: KeyboardCommand) -> u8 { self.write(command as u8); self.read() } fn keyboard_command_data(&mut self, command: KeyboardCommandData, data: u8) -> u8 { self.write(command as u8); assert_eq!(self.read(), 0xFA); self.write(data as u8); self.read() } fn mouse_command(&mut self, command: MouseCommand) -> u8 { self.command(Command::WriteSecond); self.write(command as u8); self.read() } fn mouse_command_data(&mut self, command: MouseCommandData, data: u8) -> u8 { self.command(Command::WriteSecond); self.write(command as u8); assert_eq!(self.read(), 0xFA); self.command(Command::WriteSecond); self.write(data as u8); self.read() } pub fn init(&mut self) -> bool { // Disable devices self.command(Command::DisableFirst); self.command(Command::DisableSecond); // Clear remaining data self.flush_read(); // Disable clocks, disable interrupts, and disable translate { let mut config = self.config(); config.insert(FIRST_DISABLED); config.insert(SECOND_DISABLED); config.remove(FIRST_TRANSLATE); config.remove(FIRST_INTERRUPT); config.remove(SECOND_INTERRUPT); self.set_config(config); } // Perform the self test self.command(Command::TestController); assert_eq!(self.read(), 0x55); // Enable devices self.command(Command::EnableFirst); self.command(Command::EnableSecond); // Reset keyboard assert_eq!(self.keyboard_command(KeyboardCommand::Reset), 0xFA); assert_eq!(self.read(), 0xAA); self.flush_read(); // Set scancode set to 2 assert_eq!(self.keyboard_command_data(KeyboardCommandData::ScancodeSet, 2), 0xFA); // Reset mouse and set up scroll // TODO: Check for ack assert_eq!(self.mouse_command(MouseCommand::Reset), 0xFA); assert_eq!(self.read(), 0xAA); assert_eq!(self.read(), 0x00); self.flush_read(); // Enable extra packet on mouse assert_eq!(self.mouse_command_data(MouseCommandData::SetSampleRate, 200), 0xFA); assert_eq!(self.mouse_command_data(MouseCommandData::SetSampleRate, 100), 0xFA); assert_eq!(self.mouse_command_data(MouseCommandData::SetSampleRate, 80), 0xFA); assert_eq!(self.mouse_command(MouseCommand::GetDeviceId), 0xFA); let mouse_id = self.read(); let mouse_extra = mouse_id == 3; // Set sample rate to maximum assert_eq!(self.mouse_command_data(MouseCommandData::SetSampleRate, 200), 0xFA); // Enable data reporting assert_eq!(self.keyboard_command(KeyboardCommand::EnableReporting), 0xFA); assert_eq!(self.mouse_command(MouseCommand::EnableReporting), 0xFA); // Enable clocks and interrupts { let mut config = self.config(); config.remove(FIRST_DISABLED); config.remove(SECOND_DISABLED); config.insert(FIRST_TRANSLATE); config.insert(FIRST_INTERRUPT); config.insert(SECOND_INTERRUPT); self.set_config(config); } self.flush_read(); mouse_extra } }