#pragma once #include "uart.h" int uart_thre(unsigned short port); void uart_putc(const FILE *self, char a); int uart_puts(const FILE *self, const char *string, int length); void uart_flush(__attribute__((unused)) const FILE *self); enum uart_16550_offset { Data = 0, /* read from receive buffer / write to transmit buffer | BaudDiv_l */ InterruptControl = 1, /* interrupt enable | BaudDiv_h */ FifoControl = 2, /* interrupt ID and FIFO control */ LineControl = 3, /* most significant bit is the DLAB */ ModemControl = 4, LineStatus = 5, ModemStatus = 6, Scratch = 7 }; /* Line Control * | 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 | * |dla| | parity | s | data | */ enum LineControl { d5bit = 0x00, /* 0000 0000 data bits */ d6bit = 0x01, /* 0000 0001 */ d7bit = 0x02, /* 0000 0010 */ d8bit = 0x03, /* 0000 0011 */ /* none = 0b00000000, // parity bits */ odd = 0x08, /* 0000 1000 */ even = 0x18, /* 0001 1000 */ mark = 0x28, /* 0010 1000 */ space = 0x38, /* 0011 1000 */ /* s1bit = 0b00000000, // stop bits */ s2bit = 0x04, /* 0000 0100 1.5 for 5bit data; 2 otherwise */ dlab = 0x80 /* 1000 0000 divisor latch access bit */ }; /* Line Status Register */ enum LineStatus { DR = (1 << 0), /* data ready: see if there is data to read */ OE = (1 << 1), /* overrun error: see if there has been data lost */ PE = (1 << 2), /* parity error: see if there was error in transmission */ FE = (1 << 3), /* framing error: see if a stop bit was missing */ BI = (1 << 4), /* break indicator: see if there is a break in data input */ THRE = (1 << 5), /* transmitter holding register empty: see if transmission buffer is empty */ TEMT = (1 << 6), /* transmitter empty: see if transmitter is not doing anything */ ERRO = (1 << 7) /* impending error: see if there is an error with a word in the input buffer */ };