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paulbergmann_mpstubs/machine/serial.h

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/*! \file
* \brief Communication via the \ref Serial interface (RS-232)
*/
#pragma once
#include "types.h"
/*! \brief Serial interface.
* \ingroup io
*
* This class provides a serial interface (COM1 - COM4) for communication with the outside world.
*
* The first IBM PC used the external chip [8250 UART](https://de.wikipedia.org/wiki/NSC_8250), whereas, in today's
* systems, this functionality is commonly integrated into the southbridge, but remained compatible.
*
* \see [PC8250A Data Sheet](uart-8250a.pdf#page=11) (Registers on page 11)
* \see [PC16550D Data Sheet](uart-16550d.pdf#page=16) (Successor, for optional FIFO buffer, page 16)
*/
class Serial {
public:
/*! \brief COM-Port
*
* The serial interface and its hardware addresses. Modern desktop PCs have, at most,
* a single, physical COM-port (`COM1`)
*/
enum ComPort{
COM1 = 0x3f8,
COM2 = 0x2f8,
COM3 = 0x3e8,
COM4 = 0x2e8,
};
/*! \brief Transmission speed
*
* The unit Baud describes the transmission speed in number of symbols per seconds.
* 1 Baud therefore equals the transmission of 1 symbol per second.
* The possible Baud rates are whole-number dividers of the clock frequency of 115200 Hz..
*/
enum BaudRate {
BAUD_300 = 384,
BAUD_600 = 192,
BAUD_1200 = 96,
BAUD_2400 = 48,
BAUD_4800 = 24,
BAUD_9600 = 12,
BAUD_19200 = 6,
BAUD_38400 = 3,
BAUD_57600 = 2,
BAUD_115200 = 1,
};
/*! \brief Number of data bits per character */
enum DataBits {
DATA_5BIT = 0,
DATA_6BIT = 1,
DATA_7BIT = 2,
DATA_8BIT = 3,
};
/*! \brief Number of stop bits per character */
enum StopBits {
STOP_1BIT = 0,
STOP_1_5BIT = 4,
STOP_2BIT = 4,
};
/*! \brief parity bit */
enum Parity {
PARITY_NONE = 0,
PARITY_ODD = 8,
PARITY_EVEN = 24,
PARITY_MARK = 40,
PARITY_SPACE = 56,
};
private:
/*! \brief register index */
enum RegisterIndex {
// if Divisor Latch Access Bit [DLAB] = 0
RECEIVE_BUFFER_REGISTER = 0, ///< read only
TRANSMIT_BUFFER_REGISTER = 0, ///< write only
INTERRUPT_ENABLE_REGISTER = 1,
// if Divisor Latch Access Bit [DLAB] = 1
DIVISOR_LOW_REGISTER = 0,
DIVISOR_HIGH_REGISTER = 1,
// (irrespective from DLAB)
INTERRUPT_IDENT_REGISTER = 2, ///< read only
FIFO_CONTROL_REGISTER = 2, ///< write only -- 16550 and newer (esp. not 8250a)
LINE_CONTROL_REGISTER = 3, ///< highest-order bit is DLAB (see above)
MODEM_CONTROL_REGISTER = 4,
LINE_STATUS_REGISTER = 5,
MODEM_STATUS_REGISTER = 6
};
/*! \brief Mask for the respective register */
enum RegisterMask : uint8_t {
// Interrupt Enable Register
RECEIVED_DATA_AVAILABLE = 1 << 0,
TRANSMITTER_HOLDING_REGISTER_EMPTY = 1 << 1,
RECEIVER_LINE_STATUS = 1 << 2,
MODEM_STATUS = 1 << 3,
// Interrupt Ident Register
INTERRUPT_PENDING = 1 << 0, ///< 0 means interrupt pending
INTERRUPT_ID_0 = 1 << 1,
INTERRUPT_ID_1 = 1 << 2,
// FIFO Control Register
ENABLE_FIFO = 1 << 0, ///< 0 means disabled ^= conforming to 8250a
CLEAR_RECEIVE_FIFO = 1 << 1,
CLEAR_TRANSMIT_FIFO = 1 << 2,
DMA_MODE_SELECT = 1 << 3,
TRIGGER_RECEIVE = 1 << 6,
// Line Control Register
// bits per character: 5 6 7 8
WORD_LENGTH_SELECT_0 = 1 << 0, // Setting Select0: 0 1 0 1
WORD_LENGTH_SELECT_1 = 1 << 1, // Setting Select1: 0 0 1 1
NUMBER_OF_STOP_BITS = 1 << 2, // 0 ≙ one stop bit, 1 ≙ 1.5/2 stop bits
PARITY_ENABLE = 1 << 3,
EVEN_PARITY_SELECT = 1 << 4,
STICK_PARITY = 1 << 5,
SET_BREAK = 1 << 6,
DIVISOR_LATCH_ACCESS_BIT = 1 << 7, // DLAB
// Modem Control Register
DATA_TERMINAL_READY = 1 << 0,
REQUEST_TO_SEND = 1 << 1,
OUT_1 = 1 << 2,
OUT_2 = 1 << 3, // must be set for interrupts!
LOOP = 1 << 4,
// Line Status Register
DATA_READY = 1 << 0, // Set when there is a value in the receive buffer
OVERRUN_ERROR = 1 << 1,
PARITY_ERROR = 1 << 2,
FRAMING_ERROR = 1 << 3,
BREAK_INTERRUPT = 1 << 4,
TRANSMITTER_HOLDING_REGISTER = 1 << 5,
TRANSMITTER_EMPTY = 1 << 6, // Send buffer empty (ready to send)
// Modem Status Register
DELTA_CLEAR_TO_SEND = 1 << 0,
DELTA_DATA_SET_READY = 1 << 1,
TRAILING_EDGE_RING_INDICATOR = 1 << 2,
DELTA_DATA_CARRIER_DETECT = 1 << 3,
CLEAR_TO_SEND = 1 << 4,
DATA_SET_READY = 1 << 5,
RING_INDICATOR = 1 << 6,
DATA_CARRIER_DETECT = 1 << 7
};
/*! \brief Read value from register
*
* \todo Implement Method
*
* \param reg Register index
* \return The value read from register
*/
char readReg(RegisterIndex reg);
/*! \brief Write value to register
*
* \todo Implement Method
*
* \param reg Register index
* \param out value to be written
*/
void writeReg(RegisterIndex reg, char out);
protected:
/*! \brief Selected COM port */
const ComPort port;
public:
/*! \brief Constructor
*
* Creates a Serial object that encapsulates the used COM port, as well as the parameters used for the
* serial connection. Default values are `8N1` (8 bit, no parity bit, one stop bit) with 115200 Baud using COM1.
*
* \todo Implement Constructor
*/
explicit Serial(ComPort port = COM1, BaudRate baud_rate = BAUD_115200, DataBits data_bits = DATA_8BIT,
StopBits stop_bits = STOP_1BIT, Parity parity = PARITY_NONE);
/*! \brief Read one byte from the serial interface
*
* \todo Implement Method
*
* \param blocking If set, \ref read() blocks until one byte was read
* \return Value read from serial interface (or `-1 ` if non-blocking and no data ready)
*/
int read(bool blocking = true);
/*! \brief Write one byte to the serial interface
*
* \todo Implement Method
*
* \param out Byte to be written
* \param blocking If set, \ref write() blocks until the byte was written
* \return Byte written (or `-1` if writing byte failed)
*/
int write(char out, bool blocking = true);
};
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