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@ -1,52 +1,46 @@
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use core::fmt::{Write, Result, Arguments};
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use core::ptr::{read_volatile, write_volatile};
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struct SerialPort {};
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struct SerialPort {
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base: usize
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}
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impl SerialPort {
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fn new() -> SerialPort {
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SerialPort { }
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}
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}
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impl Write for SerialPort {
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fn write_str(&mut self, s: &str) -> Result {
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for c in s.bytes() {
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if c == 127 {
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putchar(8);
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putchar(b' ');
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putchar(8);
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} else {
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putchar(c);
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}
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}
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Ok(())
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}
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}
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pub fn init(&mut self, base: usize) {
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self.base = base;
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// Turn off the FIFO
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write(self.base + COM_FCR, 0 as u8);
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// Set speed; requires DLAB latch
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write(self.base + COM_LCR, COM_LCR_DLAB);
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write(self.base + COM_DLL, (115200 / 9600) as u8);
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write(self.base + COM_DLM, 0 as u8);
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fn write<T>(addr: usize, content: T) {
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let cell = (addr) as *mut T;
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write_volatile(cell, content);
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}
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// 8 data bits, 1 stop bit, parity off; turn off DLAB latch
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write(self.base + COM_LCR, COM_LCR_WLEN8 & !COM_LCR_DLAB);
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fn read<T>(addr: usize) -> T {
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let cell = (addr) as *const T;
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read_volatile(cell);
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// No modem controls
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write(self.base + COM_MCR, 0 as u8);
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// Enable rcv interrupts
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write(self.base + COM_IER, COM_IER_RDI);
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}
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/// non-blocking version of putchar()
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fn putchar(c: u8) {
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write(COM1 + COM_TX, c);
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fn putchar(&mut self, c: u8) {
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write(self.base + COM_TX, c);
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}
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/// blocking version of getchar()
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pub fn getchar() -> char {
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pub fn getchar(&mut self) -> char {
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loop {
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if (read::<u8>(COM1 + COM_LSR) & COM_LSR_DATA) == 0 {
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if (read::<u8>(self.base + COM_LSR) & COM_LSR_DATA) == 0 {
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break;
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}
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}
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let c = read::<u8>(COM1 + COM_RX);
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let c = read::<u8>(self.base + COM_RX);
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match c {
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255 => '\0', // null
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c => c as char,
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@ -54,35 +48,44 @@ pub fn getchar() -> char {
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}
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/// non-blocking version of getchar()
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pub fn getchar_option() -> Option<char> {
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match read::<u8>(COM1 + COM_LSR) & COM_LSR_DATA {
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pub fn getchar_option(&mut self) -> Option<char> {
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match read::<u8>(self.base + COM_LSR) & COM_LSR_DATA {
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0 => None,
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else => Some(read::<u8>(COM1 + COM_RX) as u8 as char),
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_ => Some(read::<u8>(self.base + COM_RX) as u8 as char),
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}
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}
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pub fn putfmt(fmt: Arguments) {
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SerialPort.write_fmt(fmt).unwrap();
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pub fn putfmt(&mut self, fmt: Arguments) {
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self.write_fmt(fmt).unwrap();
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}
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pub fn init() {
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// Turn off the FIFO
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write(COM1 + COM_FCR, 0 as u8);
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// Set speed; requires DLAB latch
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write(COM1 + COM_LCR, COM_LCR_DLAB);
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write(COM1 + COM_DLL, (115200 / 9600) as u8);
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write(COM1 + COM_DLM, 0 as u8);
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}
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// 8 data bits, 1 stop bit, parity off; turn off DLAB latch
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write(COM1 + COM_LCR, COM_LCR_WLEN8 & !COM_LCR_DLAB);
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impl Write for SerialPort {
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fn write_str(&mut self, s: &str) -> Result {
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for c in s.bytes() {
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if c == 127 {
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self.putchar(8);
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self.putchar(b' ');
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self.putchar(8);
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} else {
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self.putchar(c);
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}
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}
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Ok(())
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}
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}
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// No modem controls
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write(COM1 + COM_MCR, 0 as u8);
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// Enable rcv interrupts
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write(COM1 + COM_IER, COM_IER_RDI);
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fn write<T>(addr: usize, content: T) {
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let cell = (addr) as *mut T;
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write_volatile(cell, content);
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}
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fn read<T>(addr: usize) -> T {
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let cell = (addr) as *const T;
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read_volatile(cell);
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}
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const COM1 :usize = 0xbf000900; // 16550 Base Address
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const COM_RX :usize = 0; // In: Receive buffer (DLAB=0)
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const COM_TX :usize = 0; // Out: Transmit buffer (DLAB=0)
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@ -109,6 +112,6 @@ lazy_static! {
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pub static ref SERIAL_PORT: Mutex<SerialPort> = Mutex::new(SerialPort::new());
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}
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pub fn init() {
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SERIAL_PORT.lock().init();
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pub fn init(base: usize) {
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SERIAL_PORT.lock().init(base);
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}
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