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/*
* Copyright (c) 2014 Chromium OS authors
*/
#include <libpayload.h>
enum IPQ_UART_DM_PARITY_MODE {
IPQ_UART_DM_NO_PARITY,
IPQ_UART_DM_ODD_PARITY,
IPQ_UART_DM_EVEN_PARITY,
IPQ_UART_DM_SPACE_PARITY
};
/* UART Stop Bit Length */
enum IPQ_UART_DM_STOP_BIT_LEN {
IPQ_UART_DM_SBL_9_16,
IPQ_UART_DM_SBL_1,
IPQ_UART_DM_SBL_1_9_16,
IPQ_UART_DM_SBL_2
};
/* UART Bits per Char */
enum IPQ_UART_DM_BITS_PER_CHAR {
IPQ_UART_DM_5_BPS,
IPQ_UART_DM_6_BPS,
IPQ_UART_DM_7_BPS,
IPQ_UART_DM_8_BPS
};
#define IPQ_UART_DM_CR(base) (((u8 *)(base)) + 0x10)
#define IPQ_UART_DM_DMEN(base) (((u8 *)(base)) + 0x3C)
#define IPQ_UART_DM_DMRX(base) (((u8 *)(base)) + 0x34)
#define IPQ_UART_DM_HCR(base) (((u8 *)(base)) + 0x24)
#define IPQ_UART_DM_IMR(base) (((u8 *)(base)) + 0x14)
#define IPQ_UART_DM_IPR(base) (((u8 *)(base)) + 0x18)
#define IPQ_UART_DM_IRDA(base) (((u8 *)(base)) + 0x38)
#define IPQ_UART_DM_MISR(base) (((u8 *)(base)) + 0x10)
#define IPQ_UART_DM_MR1(base) (((u8 *)(base)) + 0x00)
#define IPQ_UART_DM_MR2(base) (((u8 *)(base)) + 0x04)
#define IPQ_UART_DM_NO_CHARS_FOR_TX(base) (((u8 *)(base)) + 0x040)
#define IPQ_UART_DM_RF(base, x) (((u8 *)(base)) + 0x70 + 4*(x))
#define IPQ_UART_DM_RFWR(base) (((u8 *)(base)) + 0x20)
#define IPQ_UART_DM_RX_TOTAL_SNAP(base) (((u8 *)(base)) + 0x38)
#define IPQ_UART_DM_SR(base) (((u8 *)(base)) + 0x008)
#define IPQ_UART_DM_TF(base, x) (((u8 *)(base)) + 0x70 + 4*(x))
#define IPQ_UART_DM_TFWR(base) (((u8 *)(base)) + 0x1C)
#define IPQ_UART_DM_TXLEV (1 << 0)
#define IPQ_UART_DM_TX_READY (1 << 7)
#define IPQ_UART_DM_CR_CH_CMD_LSB(x) ((x & 0x0f) << 4)
#define IPQ_UART_DM_CR_CH_CMD_MSB(x) ((x >> 4 ) << 11 )
#define IPQ_UART_DM_CR_CH_CMD(x) (IPQ_UART_DM_CR_CH_CMD_LSB(x)\
| IPQ_UART_DM_CR_CH_CMD_MSB(x))
#define IPQ_UART_DM_CR_GENERAL_CMD(x) ((x) << 8)
#define IPQ_UART_DM_8_N_1_MODE (IPQ_UART_DM_NO_PARITY | \
(IPQ_UART_DM_SBL_1 << 2) | \
(IPQ_UART_DM_8_BPS << 4))
#define IPQ_UART_DM_CR_RX_ENABLE (1 << 0)
#define IPQ_UART_DM_CR_TX_ENABLE (1 << 2)
#define IPQ_UART_DM_CMD_RESET_RX IPQ_UART_DM_CR_CH_CMD(1)
#define IPQ_UART_DM_CMD_RESET_TX IPQ_UART_DM_CR_CH_CMD(2)
#define IPQ_UART_DM_CMD_RESET_ERR_STAT IPQ_UART_DM_CR_CH_CMD(3)
#define IPQ_UART_DM_CMD_RES_STALE_INT IPQ_UART_DM_CR_CH_CMD(8)
#define IPQ_UART_DM_CMD_RES_TX_ERR IPQ_UART_DM_CR_CH_CMD(10)
#define IPQ_UART_DM_GCMD_ENA_STALE_EVT IPQ_UART_DM_CR_GENERAL_CMD(5)
#define IPQ_UART_DM_RXSTALE (1 << 3)
#define IPQ_UART_DM_IMR_ENABLED (IPQ_UART_DM_TX_READY | \
IPQ_UART_DM_TXLEV | \
IPQ_UART_DM_RXSTALE)
#define IPQ_UART_DM_TFW_VALUE 0
#define IPQ_UART_DM_RFW_VALUE 1
#define IPQ_UART_DM_DMRX_DEF_VALUE 0x220
#define IPQ_UART_DM_SR_TXEMT (1 << 3)
#define IPQ_UART_DM_SR_UART_OVERRUN (1 << 4)
#define IPQ_UART_DM_E_SUCCESS 0
#define IPQ_UART_DM_E_INVAL 3
#define IPQ_UART_DM_E_RX_NOT_READY 5
#define IPQ_UART_DM_STALE_TIMEOUT_LSB 0x0f
static struct console_input_driver consin = {};
static struct console_output_driver consout = {};
#define FIFO_DATA_SIZE 4
static void *base_uart_addr;
/*
* All constants lifted from u-boot's
* board/qcom/ipq806x_cdp/ipq806x_board_param.h
*/
static unsigned int msm_boot_uart_dm_init(void *uart_dm_base);
/* Number of pending received characters */
static int uart_ready_data_count;
/* Received data as it came from 32 bit wide FIFO */
static unsigned int uart_rx_fifo_word;
/**
* msm_boot_uart_dm_init_rx_transfer - Init Rx transfer
* @uart_dm_base: UART controller base address
*/
static unsigned int msm_boot_uart_dm_init_rx_transfer(void *uart_dm_base)
{
/* Reset receiver */
writel(IPQ_UART_DM_CMD_RESET_RX,
IPQ_UART_DM_CR(uart_dm_base));
/* Enable receiver */
writel(IPQ_UART_DM_CR_RX_ENABLE,
IPQ_UART_DM_CR(uart_dm_base));
writel(IPQ_UART_DM_DMRX_DEF_VALUE,
IPQ_UART_DM_DMRX(uart_dm_base));
/* Clear stale event */
writel(IPQ_UART_DM_CMD_RES_STALE_INT,
IPQ_UART_DM_CR(uart_dm_base));
/* Enable stale event */
writel(IPQ_UART_DM_GCMD_ENA_STALE_EVT,
IPQ_UART_DM_CR(uart_dm_base));
return IPQ_UART_DM_E_SUCCESS;
}
/**
* Reads a word from the RX FIFO or returns not ready.
*/
static unsigned msm_boot_uart_dm_read(void)
{
static int total_rx_data = 0;
static int rx_data_read = 0;
void *base = base_uart_addr;
uint32_t status_reg;
/* RXSTALE means RX FIFO is not empty. */
status_reg = readl(IPQ_UART_DM_MISR(base));
if (!(status_reg & IPQ_UART_DM_RXSTALE))
return IPQ_UART_DM_E_RX_NOT_READY;
/* Check for Overrun error. We'll just reset Error Status */
if (readl(IPQ_UART_DM_SR(base)) &
IPQ_UART_DM_SR_UART_OVERRUN) {
writel(IPQ_UART_DM_CMD_RESET_ERR_STAT,
IPQ_UART_DM_CR(base));
total_rx_data = rx_data_read = 0;
msm_boot_uart_dm_init(base);
return IPQ_UART_DM_E_RX_NOT_READY;
}
/* Clear stale event. */
writel(IPQ_UART_DM_CMD_RES_STALE_INT, IPQ_UART_DM_CR(base));
/* Read UART_DM_RX_TOTAL_SNAP for actual number of bytes received */
if (total_rx_data == 0)
total_rx_data = readl(IPQ_UART_DM_RX_TOTAL_SNAP(base));
/* Data available in FIFO; read a word. */
uart_rx_fifo_word = readl(IPQ_UART_DM_RF(base, 0));
/*
* TODO(vbendeb): this is wrong and will be addressed shortly: there
* should be no zeros returned from the FIFO in case there are
* received characters (we don't expect to be receiving zeros).
* See http://crosbug.com/p/29313
*/
if (uart_rx_fifo_word == 0) {
return IPQ_UART_DM_E_RX_NOT_READY;
}
/* increment the total count of chars we've read so far */
rx_data_read += FIFO_DATA_SIZE;
/* Actual count of valid data in word */
uart_ready_data_count =
((total_rx_data < rx_data_read) ?
(FIFO_DATA_SIZE - (rx_data_read - total_rx_data)) :
FIFO_DATA_SIZE);
/* If there are still data left in FIFO we'll read them before
* initializing RX Transfer again
*/
if (rx_data_read < total_rx_data)
return IPQ_UART_DM_E_SUCCESS;
msm_boot_uart_dm_init_rx_transfer(base);
total_rx_data = rx_data_read = 0;
return IPQ_UART_DM_E_SUCCESS;
}
void serial_putchar(unsigned data)
{
int num_of_chars = 0;
unsigned tx_data = 0;
void *base = base_uart_addr;
if (data == '\n') {
num_of_chars++;
tx_data = '\r';
}
tx_data |= data << (8 * num_of_chars++);
/* Wait until transmit FIFO is empty. */
while (!(readl(IPQ_UART_DM_SR(base)) &
IPQ_UART_DM_SR_TXEMT))
udelay(1);
/*
* TX FIFO is ready to accept new character(s). First write number of
* characters to be transmitted.
*/
writel(num_of_chars, IPQ_UART_DM_NO_CHARS_FOR_TX(base));
/* And now write the character(s) */
writel(tx_data, IPQ_UART_DM_TF(base, 0));
}
/*
* msm_boot_uart_dm_reset - resets UART controller
* @base: UART controller base address
*/
static unsigned int msm_boot_uart_dm_reset(void *base)
{
writel(IPQ_UART_DM_CMD_RESET_RX, IPQ_UART_DM_CR(base));
writel(IPQ_UART_DM_CMD_RESET_TX, IPQ_UART_DM_CR(base));
writel(IPQ_UART_DM_CMD_RESET_ERR_STAT,
IPQ_UART_DM_CR(base));
writel(IPQ_UART_DM_CMD_RES_TX_ERR, IPQ_UART_DM_CR(base));
writel(IPQ_UART_DM_CMD_RES_STALE_INT, IPQ_UART_DM_CR(base));
return IPQ_UART_DM_E_SUCCESS;
}
/*
* msm_boot_uart_dm_init - initilaizes UART controller
* @uart_dm_base: UART controller base address
*/
static unsigned int msm_boot_uart_dm_init(void *uart_dm_base)
{
/* Configure UART mode registers MR1 and MR2 */
/* Hardware flow control isn't supported */
writel(0x0, IPQ_UART_DM_MR1(uart_dm_base));
/* 8-N-1 configuration: 8 data bits - No parity - 1 stop bit */
writel(IPQ_UART_DM_8_N_1_MODE,
IPQ_UART_DM_MR2(uart_dm_base));
/* Configure Interrupt Mask register IMR */
writel(IPQ_UART_DM_IMR_ENABLED,
IPQ_UART_DM_IMR(uart_dm_base));
/*
* Configure Tx and Rx watermarks configuration registers
* TX watermark value is set to 0 - interrupt is generated when
* FIFO level is less than or equal to 0
*/
writel(IPQ_UART_DM_TFW_VALUE,
IPQ_UART_DM_TFWR(uart_dm_base));
/* RX watermark value */
writel(IPQ_UART_DM_RFW_VALUE,
IPQ_UART_DM_RFWR(uart_dm_base));
/* Configure Interrupt Programming Register */
/* Set initial Stale timeout value */
writel(IPQ_UART_DM_STALE_TIMEOUT_LSB,
IPQ_UART_DM_IPR(uart_dm_base));
/* Configure IRDA if required */
/* Disabling IRDA mode */
writel(0x0, IPQ_UART_DM_IRDA(uart_dm_base));
/* Configure hunt character value in HCR register */
/* Keep it in reset state */
writel(0x0, IPQ_UART_DM_HCR(uart_dm_base));
/*
* Configure Rx FIFO base address
* Both TX/RX shares same SRAM and default is half-n-half.
* Sticking with default value now.
* As such RAM size is (2^RAM_ADDR_WIDTH, 32-bit entries).
* We have found RAM_ADDR_WIDTH = 0x7f
*/
/* Issue soft reset command */
msm_boot_uart_dm_reset(uart_dm_base);
/* Enable/Disable Rx/Tx DM interfaces */
/* Data Mover not currently utilized. */
writel(0, IPQ_UART_DM_DMEN(uart_dm_base));
/* Enable transmitter */
writel(IPQ_UART_DM_CR_TX_ENABLE,
IPQ_UART_DM_CR(uart_dm_base));
/* Initialize Receive Path */
msm_boot_uart_dm_init_rx_transfer(uart_dm_base);
return 0;
}
/**
* serial_havechar - checks if data available for reading
*
* Returns 1 if data available, 0 otherwise
*/
int serial_havechar(void)
{
/* Return if data is already read */
if (uart_ready_data_count)
return 1;
/* Read data from the FIFO */
if (msm_boot_uart_dm_read() != IPQ_UART_DM_E_SUCCESS)
return 0;
return 1;
}
/**
* ipq806x_serial_getc - reads a character
*
* Returns the character read from serial port.
*/
int serial_getchar(void)
{
uint8_t byte;
while (!serial_havechar()) {
/* wait for incoming data */
}
byte = (uint8_t)(uart_rx_fifo_word & 0xff);
uart_rx_fifo_word = uart_rx_fifo_word >> 8;
uart_ready_data_count--;
return byte;
}
/* For simplicity sake let's rely on coreboot initalizing the UART. */
void serial_console_init(void)
{
struct cb_serial *sc_ptr = lib_sysinfo.serial;
if (!sc_ptr)
return;
base_uart_addr = (void *) sc_ptr->baseaddr;
consin.havekey = serial_havechar;
consin.getchar = serial_getchar;
consout.putchar = serial_putchar;
console_add_output_driver(&consout);
console_add_input_driver(&consin);
}
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