acrn-hypervisor/hypervisor/debug/uart16550.c

317 lines
7.6 KiB
C

/*
* Copyright (C) 2018 Intel Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <hypervisor.h>
#include "uart16550.h"
#include "serial_internal.h"
/* Mapping of 16c550 write-only registers to appropriate structure members */
#define THR_IDX RBR_IDX
#define IIR_IDX FCR_IDX
#define DLL_IDX RBR_IDX
#define DLM_IDX IER_IDX
#if defined(CONFIG_SERIAL_PIO_BASE)
static int serial_port_mapped = 1;
static int uart_enabled = 1;
#define UART_BASE_ADDRESS CONFIG_SERIAL_PIO_BASE
#elif defined(CONFIG_SERIAL_MMIO_BASE)
static int serial_port_mapped;
static int uart_enabled = 1;
#define UART_BASE_ADDRESS CONFIG_SERIAL_MMIO_BASE
#else
#warning "no uart base configure, please check!"
static int serial_port_mapped;
static int uart_enabled;
#define UART_BASE_ADDRESS 0
#endif
typedef uint32_t uart_reg_t;
enum UART_REG_IDX{
RBR_IDX, /* 0 */
IER_IDX, /* 1 */
FCR_IDX, /* 2 */
LCR_IDX, /* 3 */
MCR_IDX, /* 4 */
ISR_IDX, /* 5 */
MSR_IDX, /* 6 */
SPR_IDX, /* 7 */
MDR1_IDX, /* 8 */
REG9_IDX, /* 9 */
REGA_IDX, /* A */
REGB_IDX, /* B */
REGC_IDX, /* C */
REGD_IDX, /* D */
REGE_IDX, /* E */
UASR_IDX, /* F */
SCR_IDX, /* 10*/
SSR_IDX, /* 11*/
REG12_IDX, /* 12*/
OSC_12M_SEL_IDX, /* 13*/
};
/* CPU oscillator clock */
#define CPU_OSC_CLOCK 1843200 /* 1.8432 MHz */
/* UART hardware definitions */
#define UART_CLOCK_RATE CPU_OSC_CLOCK
#define UART_BUFFER_SIZE 2048
static inline uint32_t uart16550_read_reg(uint64_t base, uint32_t reg_idx)
{
if (serial_port_mapped != 0) {
return io_read_byte((uint16_t)base + reg_idx);
} else {
return mmio_read_long((void*)((uint32_t*)HPA2HVA(base) + reg_idx));
}
}
static inline void uart16550_write_reg(uint64_t base,
uint32_t val, uint32_t reg_idx)
{
if (serial_port_mapped != 0) {
io_write_byte(val, (uint16_t)base + reg_idx);
} else {
mmio_write_long(val, (void*)((uint32_t*)HPA2HVA(base) + reg_idx));
}
}
static void uart16550_enable(__unused struct tgt_uart *tgt_uart)
{
}
static int uart16550_calc_baud_div(__unused struct tgt_uart *tgt_uart,
uint32_t ref_freq, uint32_t *baud_div_ptr, uint32_t baud_rate)
{
uint32_t baud_multiplier = baud_rate < BAUD_460800 ? 16 : 13;
*baud_div_ptr = ref_freq / (baud_multiplier * baud_rate);
return 0;
}
static int uart16550_set_baud_rate(struct tgt_uart *tgt_uart,
uint32_t baud_rate)
{
int status;
uint32_t baud_div, duart_clock = CPU_OSC_CLOCK;
uart_reg_t temp_reg;
/* Calculate baud divisor */
status = uart16550_calc_baud_div(
tgt_uart, duart_clock, &baud_div, baud_rate);
if (status == 0) {
/* Enable DLL and DLM registers for setting the Divisor */
temp_reg = uart16550_read_reg(tgt_uart->base_address, LCR_IDX);
temp_reg |= LCR_DLAB;
uart16550_write_reg(tgt_uart->base_address, temp_reg, LCR_IDX);
/* Write the appropriate divisor value */
uart16550_write_reg(tgt_uart->base_address,
((baud_div >> 8) & 0xFFU), DLM_IDX);
uart16550_write_reg(tgt_uart->base_address,
(baud_div & 0xFFU), DLL_IDX);
/* Disable DLL and DLM registers */
temp_reg &= ~LCR_DLAB;
uart16550_write_reg(tgt_uart->base_address, temp_reg, LCR_IDX);
}
return status;
}
static int uart16550_init(struct tgt_uart *tgt_uart)
{
int status = 0;
if (uart_enabled == 0) {
/*uart will not be used */
status = -ENODEV;
} else {
if (strcmp(tgt_uart->uart_id, "STDIO") == 0) {
atomic_store(&tgt_uart->open_count, 0);
} else {
/* set open count to 1 to prevent open */
atomic_store(&tgt_uart->open_count, 1);
status = -EINVAL;
}
}
return status;
}
static int uart16550_open(struct tgt_uart *tgt_uart,
struct uart_config *config)
{
uint32_t temp32;
int status = 0;
if (strcmp(tgt_uart->uart_id, "STDIO") == 0) {
if (atomic_cmpxchg(&tgt_uart->open_count, 0, 1) != 0)
return -EBUSY;
/* Call UART setup function */
/* Enable TX and RX FIFOs */
uart16550_write_reg(tgt_uart->base_address,
FCR_FIFOE | FCR_RFR | FCR_TFR, FCR_IDX);
/* Set parity value */
if (config->parity_bits == PARITY_ODD) {
/* Odd parity */
temp32 = LCR_PARITY_ODD;
} else if (config->parity_bits == PARITY_EVEN) {
/* Even parity */
temp32 = LCR_PARITY_EVEN;
} else {
/* No parity */
temp32 = LCR_PARITY_NONE;
}
/* Set Data length */
if (config->data_bits == DATA_7) {
/* Set bits for 7 data bits */
temp32 |= LCR_WL7;
} else {
/* Set bits for 8 data bits */
temp32 |= LCR_WL8;
}
/* Check for 1 stop bit */
if (config->stop_bits == STOP_1) {
/* Set bits for 1 stop bit */
temp32 |= LCR_NB_STOP_BITS_1;
} else {
/* Set bits for 2 stop bits */
temp32 |= LCR_NB_STOP_BITS_2;
}
/* Set-up data bits / parity / stop bits. */
uart16550_write_reg(tgt_uart->base_address,
temp32, LCR_IDX);
/* Disable interrupts (we use polling) */
uart16550_write_reg(tgt_uart->base_address,
UART_IER_DISABLE_ALL, IER_IDX);
/* Set baud rate */
uart16550_set_baud_rate(tgt_uart, config->baud_rate);
/* Data terminal ready + Request to send */
uart16550_write_reg(tgt_uart->base_address,
MCR_RTS | MCR_DTR, MCR_IDX);
/* Enable the UART hardware */
uart16550_enable(tgt_uart);
} else {
status = -ENODEV;
}
return status;
}
static uint32_t uart16550_get_rx_err(uint32_t rx_data)
{
uint32_t rx_status = SD_RX_NO_ERROR;
/* Check for RX overrun error */
if ((rx_data & LSR_OE) != 0U)
rx_status |= SD_RX_OVERRUN_ERROR;
/* Check for RX parity error */
if ((rx_data & LSR_PE) != 0U)
rx_status |= SD_RX_PARITY_ERROR;
/* Check for RX frame error */
if ((rx_data & LSR_FE) != 0U)
rx_status |= SD_RX_FRAME_ERROR;
/* Return the rx status */
return rx_status;
}
static void uart16550_close(struct tgt_uart *tgt_uart)
{
if (tgt_uart != NULL) {
if (atomic_cmpxchg(&tgt_uart->open_count, 1, 0) == 1) {
/* TODO: Add logic to disable the UART */
}
}
}
static void uart16550_read(struct tgt_uart *tgt_uart, void *buffer,
uint32_t *bytes_read)
{
/* If a character has been received, read it */
if ((uart16550_read_reg(tgt_uart->base_address, ISR_IDX) & LSR_DR)
== LSR_DR) {
/* Read a character */
*(uint8_t *)buffer =
uart16550_read_reg(tgt_uart->base_address, RBR_IDX);
/* Read 1 byte */
*bytes_read = 1;
} else {
*bytes_read = 0;
}
}
static void uart16550_write(struct tgt_uart *tgt_uart,
const void *buffer, uint32_t *bytes_written)
{
/* Ensure there are no further Transmit buffer write requests */
do {
} while ((uart16550_read_reg(tgt_uart->base_address,
ISR_IDX) & LSR_THRE) == 0U);
/* Transmit the character. */
uart16550_write_reg(tgt_uart->base_address,
*(uint8_t *)buffer, THR_IDX);
if (bytes_written != NULL)
*bytes_written = 1;
}
static bool uart16550_tx_is_busy(struct tgt_uart *tgt_uart)
{
return ((uart16550_read_reg(tgt_uart->base_address, ISR_IDX) &
(LSR_TEMT)) == 0) ? true : false;
}
static bool uart16550_rx_data_is_avail(struct tgt_uart *tgt_uart,
uint32_t *lsr_reg)
{
*(uart_reg_t *)lsr_reg =
uart16550_read_reg(tgt_uart->base_address, ISR_IDX);
return ((*(uart_reg_t *)lsr_reg & LSR_DR) == LSR_DR) ? true : false;
}
struct tgt_uart Tgt_Uarts[SERIAL_MAX_DEVS] = {
{
.uart_id = "STDIO",
.base_address = UART_BASE_ADDRESS,
.clock_frequency = UART_CLOCK_RATE,
.buffer_size = UART_BUFFER_SIZE,
.init = uart16550_init,
.open = uart16550_open,
.close = uart16550_close,
.read = uart16550_read,
.write = uart16550_write,
.tx_is_busy = uart16550_tx_is_busy,
.rx_data_is_avail = uart16550_rx_data_is_avail,
.get_rx_err = uart16550_get_rx_err,
}
};
void uart16550_set_property(int enabled, int port_mapped, uint64_t base_addr)
{
uart_enabled = enabled;
serial_port_mapped = port_mapped;
Tgt_Uarts[0].base_address = base_addr;
}