//! PIO的串口驱动 use core::{ hint::spin_loop, sync::atomic::{AtomicBool, Ordering}, }; use alloc::sync::{Arc, Weak}; use crate::{ arch::{io::PortIOArch, CurrentPortIOArch}, driver::serial::{AtomicBaudRate, BaudRate, DivisorFraction, UartPort}, libs::rwlock::RwLock, }; use system_error::SystemError; use super::{Serial8250ISADevices, Serial8250ISADriver, Serial8250Manager, Serial8250Port}; static mut PIO_PORTS: [Option; 8] = [None, None, None, None, None, None, None, None]; impl Serial8250Manager { pub(super) fn bind_pio_ports( &self, uart_driver: &Arc, devs: &Arc, ) { for i in 0..8 { if let Some(port) = unsafe { PIO_PORTS[i].as_ref() } { port.set_device(Some(devs)); self.uart_add_one_port(uart_driver, port).ok(); } } } } macro_rules! init_port { ($port_num:expr, $baudrate:expr) => { unsafe { let port = Serial8250PIOPort::new( match $port_num { 1 => Serial8250PortBase::COM1, 2 => Serial8250PortBase::COM2, 3 => Serial8250PortBase::COM3, 4 => Serial8250PortBase::COM4, 5 => Serial8250PortBase::COM5, 6 => Serial8250PortBase::COM6, 7 => Serial8250PortBase::COM7, 8 => Serial8250PortBase::COM8, _ => panic!("invalid port number"), }, BaudRate::new($baudrate), ); if let Ok(port) = port { if port.init().is_ok() { PIO_PORTS[$port_num - 1] = Some(port); } } } }; } /// 在内存管理初始化之前,初始化串口设备 pub(super) fn serial8250_pio_port_early_init() -> Result<(), SystemError> { for i in 1..=8 { init_port!(i, 115200); } return Ok(()); } #[derive(Debug)] pub struct Serial8250PIOPort { iobase: Serial8250PortBase, baudrate: AtomicBaudRate, initialized: AtomicBool, inner: RwLock, } impl Serial8250PIOPort { const SERIAL8250PIO_MAX_BAUD_RATE: BaudRate = BaudRate::new(115200); pub fn new(iobase: Serial8250PortBase, baudrate: BaudRate) -> Result { let r = Self { iobase, baudrate: AtomicBaudRate::new(baudrate), initialized: AtomicBool::new(false), inner: RwLock::new(Serial8250PIOPortInner::new()), }; if let Err(e) = r.check_baudrate(&baudrate) { return Err(e); } return Ok(r); } pub fn init(&self) -> Result<(), SystemError> { let r = self .initialized .compare_exchange(false, true, Ordering::SeqCst, Ordering::SeqCst); if r.is_err() { // 已经初始化 return Ok(()); } let port = self.iobase as u16; unsafe { CurrentPortIOArch::out8(port + 1, 0x00); // Disable all interrupts self.set_divisor(self.baudrate.load(Ordering::SeqCst)) .unwrap(); // Set baud rate CurrentPortIOArch::out8(port + 2, 0xC7); // Enable FIFO, clear them, with 14-byte threshold CurrentPortIOArch::out8(port + 4, 0x08); // IRQs enabled, RTS/DSR clear (现代计算机上一般都不需要hardware flow control,因此不需要置位RTS/DSR) CurrentPortIOArch::out8(port + 4, 0x1E); // Set in loopback mode, test the serial chip CurrentPortIOArch::out8(port + 0, 0xAE); // Test serial chip (send byte 0xAE and check if serial returns same byte) // Check if serial is faulty (i.e: not same byte as sent) if CurrentPortIOArch::in8(port + 0) != 0xAE { self.initialized.store(false, Ordering::SeqCst); return Err(SystemError::ENODEV); } // If serial is not faulty set it in normal operation mode // (not-loopback with IRQs enabled and OUT#1 and OUT#2 bits enabled) CurrentPortIOArch::out8(port + 4, 0x08); } return Ok(()); /* Notice that the initialization code above writes to [PORT + 1] twice with different values. This is once to write to the Divisor register along with [PORT + 0] and once to write to the Interrupt register as detailed in the previous section. The second write to the Line Control register [PORT + 3] clears the DLAB again as well as setting various other bits. */ } const fn check_baudrate(&self, baudrate: &BaudRate) -> Result<(), SystemError> { // 错误的比特率 if baudrate.data() > Self::SERIAL8250PIO_MAX_BAUD_RATE.data() || Self::SERIAL8250PIO_MAX_BAUD_RATE.data() % baudrate.data() != 0 { return Err(SystemError::EINVAL); } return Ok(()); } #[allow(dead_code)] fn serial_received(&self) -> bool { if self.serial_in(5) & 1 != 0 { true } else { false } } fn is_transmit_empty(&self) -> bool { if self.serial_in(5) & 0x20 != 0 { true } else { false } } /// 发送字节 /// /// ## 参数 /// /// - `s`:待发送的字节 fn send_bytes(&self, s: &[u8]) { while self.is_transmit_empty() == false { spin_loop(); } for c in s { self.serial_out(0, (*c).into()); } } /// 读取一个字节 #[allow(dead_code)] fn read_one_byte(&self) -> u8 { while self.serial_received() == false { spin_loop(); } return self.serial_in(0) as u8; } } impl Serial8250Port for Serial8250PIOPort { fn device(&self) -> Option> { self.inner.read().device() } fn set_device(&self, device: Option<&Arc>) { self.inner.write().set_device(device); } } impl UartPort for Serial8250PIOPort { fn serial_in(&self, offset: u32) -> u32 { unsafe { CurrentPortIOArch::in8(self.iobase as u16 + offset as u16).into() } } fn serial_out(&self, offset: u32, value: u32) { // warning: pio的串口只能写入8位,因此这里丢弃高24位 unsafe { CurrentPortIOArch::out8(self.iobase as u16 + offset as u16, value as u8) } } fn divisor(&self, baud: BaudRate) -> (u32, DivisorFraction) { let divisor = Self::SERIAL8250PIO_MAX_BAUD_RATE.data() / baud.data(); return (divisor, DivisorFraction::new(0)); } fn set_divisor(&self, baud: BaudRate) -> Result<(), SystemError> { self.check_baudrate(&baud)?; let port = self.iobase as u16; unsafe { CurrentPortIOArch::out8(port + 3, 0x80); // Enable DLAB (set baud rate divisor) let divisor = self.divisor(baud).0; CurrentPortIOArch::out8(port + 0, (divisor & 0xff) as u8); // Set divisor (lo byte) CurrentPortIOArch::out8(port + 1, ((divisor >> 8) & 0xff) as u8); // (hi byte) CurrentPortIOArch::out8(port + 3, 0x03); // 8 bits, no parity, one stop bit } self.baudrate.store(baud, Ordering::SeqCst); return Ok(()); } fn startup(&self) -> Result<(), SystemError> { todo!("serial8250_pio::startup") } fn shutdown(&self) { todo!("serial8250_pio::shutdown") } fn baud_rate(&self) -> Option { Some(self.baudrate.load(Ordering::SeqCst)) } fn handle_irq(&self) -> Result<(), SystemError> { todo!("serial8250_pio::handle_irq") } } #[derive(Debug)] struct Serial8250PIOPortInner { /// 当前端口绑定的设备 /// /// ps: 存储weak以避免循环引用 device: Option>, } impl Serial8250PIOPortInner { pub const fn new() -> Self { Self { device: None } } pub fn device(&self) -> Option> { if let Some(device) = self.device.as_ref() { return device.upgrade(); } return None; } fn set_device(&mut self, device: Option<&Arc>) { self.device = device.map(|d| Arc::downgrade(d)); } } #[allow(dead_code)] #[repr(u16)] #[derive(Clone, Debug, Copy)] pub enum Serial8250PortBase { COM1 = 0x3f8, COM2 = 0x2f8, COM3 = 0x3e8, COM4 = 0x2e8, COM5 = 0x5f8, COM6 = 0x4f8, COM7 = 0x5e8, COM8 = 0x4e8, } /// 临时函数,用于向COM1发送数据 pub fn send_to_serial8250_pio_com1(s: &[u8]) { if let Some(port) = unsafe { PIO_PORTS[0].as_ref() } { port.send_bytes(s); } }