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/* Source : APQ8064 LK boot */
/*
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Google, Inc. nor the names of its contributors
* may be used to endorse or promote products derived from this
* software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
* OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
* AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include <device/mmio.h>
#include <boot/coreboot_tables.h>
#include <console/uart.h>
#include <delay.h>
#include <gpio.h>
#include <soc/clock.h>
#include <soc/gsbi.h>
#include <soc/ipq_uart.h>
#include <stdint.h>
#define FIFO_DATA_SIZE 4
typedef struct {
void *uart_dm_base;
void *uart_gsbi_base;
unsigned int uart_gsbi;
uart_clk_mnd_t mnd_value;
gpio_func_data_t dbg_uart_gpio[NO_OF_DBG_UART_GPIOS];
} uart_params_t;
/*
* All constants lifted from u-boot's
* board/qcom/ipq806x_cdp/ipq806x_board_param.h
*/
static const uart_params_t uart_board_param = {
.uart_dm_base = (void *)UART4_DM_BASE,
.uart_gsbi_base = (void *)UART_GSBI4_BASE,
.uart_gsbi = GSBI_4,
.mnd_value = { 12, 625, 313 },
.dbg_uart_gpio = {
{
.gpio = 10,
.func = 1,
.dir = GPIO_OUTPUT,
.pull = GPIO_NO_PULL,
.drvstr = GPIO_12MA,
.enable = GPIO_DISABLE
},
{
.gpio = 11,
.func = 1,
.dir = GPIO_INPUT,
.pull = GPIO_NO_PULL,
.drvstr = GPIO_12MA,
.enable = GPIO_DISABLE
},
}
};
/**
* msm_boot_uart_dm_init_rx_transfer - Init Rx transfer
* @param uart_dm_base: UART controller base address
*/
static unsigned int msm_boot_uart_dm_init_rx_transfer(void *uart_dm_base)
{
/* Reset receiver */
write32(MSM_BOOT_UART_DM_CR(uart_dm_base),
MSM_BOOT_UART_DM_CMD_RESET_RX);
/* Enable receiver */
write32(MSM_BOOT_UART_DM_CR(uart_dm_base),
MSM_BOOT_UART_DM_CR_RX_ENABLE);
write32(MSM_BOOT_UART_DM_DMRX(uart_dm_base),
MSM_BOOT_UART_DM_DMRX_DEF_VALUE);
/* Clear stale event */
write32(MSM_BOOT_UART_DM_CR(uart_dm_base),
MSM_BOOT_UART_DM_CMD_RES_STALE_INT);
/* Enable stale event */
write32(MSM_BOOT_UART_DM_CR(uart_dm_base),
MSM_BOOT_UART_DM_GCMD_ENA_STALE_EVT);
return MSM_BOOT_UART_DM_E_SUCCESS;
}
static unsigned int msm_boot_uart_dm_init(void *uart_dm_base);
/* Received data is valid or not */
static int valid_data = 0;
/* Received data */
static unsigned int word = 0;
/**
* msm_boot_uart_dm_read - reads a word from the RX FIFO.
* @data: location where the read data is stored
* @count: no of valid data in the FIFO
* @wait: indicates blocking call or not blocking call
*
* Reads a word from the RX FIFO. If no data is available blocks if
* @wait is true, else returns %MSM_BOOT_UART_DM_E_RX_NOT_READY.
*/
#if 0 /* Not used yet */
static unsigned int
msm_boot_uart_dm_read(unsigned int *data, int *count, int wait)
{
static int total_rx_data = 0;
static int rx_data_read = 0;
void *base;
uint32_t status_reg;
base = uart_board_param.uart_dm_base;
if (data == NULL)
return MSM_BOOT_UART_DM_E_INVAL;
status_reg = readl(MSM_BOOT_UART_DM_MISR(base));
/* Check for DM_RXSTALE for RX transfer to finish */
while (!(status_reg & MSM_BOOT_UART_DM_RXSTALE)) {
status_reg = readl(MSM_BOOT_UART_DM_MISR(base));
if (!wait)
return MSM_BOOT_UART_DM_E_RX_NOT_READY;
}
/* Check for Overrun error. We'll just reset Error Status */
if (readl(MSM_BOOT_UART_DM_SR(base)) &
MSM_BOOT_UART_DM_SR_UART_OVERRUN) {
writel(MSM_BOOT_UART_DM_CMD_RESET_ERR_STAT,
MSM_BOOT_UART_DM_CR(base));
total_rx_data = rx_data_read = 0;
msm_boot_uart_dm_init(base);
return MSM_BOOT_UART_DM_E_RX_NOT_READY;
}
/* Read UART_DM_RX_TOTAL_SNAP for actual number of bytes received */
if (total_rx_data == 0)
total_rx_data = readl(MSM_BOOT_UART_DM_RX_TOTAL_SNAP(base));
/* Data available in FIFO; read a word. */
*data = readl(MSM_BOOT_UART_DM_RF(base, 0));
/* WAR for http://prism/CR/548280 */
if (*data == 0) {
return MSM_BOOT_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 */
*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 MSM_BOOT_UART_DM_E_SUCCESS;
msm_boot_uart_dm_init_rx_transfer(base);
total_rx_data = rx_data_read = 0;
return MSM_BOOT_UART_DM_E_SUCCESS;
}
#endif
void uart_tx_byte(int idx, unsigned char data)
{
int num_of_chars = 1;
unsigned int tx_data = 0;
void *base = uart_board_param.uart_dm_base;
/* Wait until transmit FIFO is empty. */
while (!(read32(MSM_BOOT_UART_DM_SR(base)) &
MSM_BOOT_UART_DM_SR_TXEMT))
udelay(1);
/*
* TX FIFO is ready to accept new character(s). First write number of
* characters to be transmitted.
*/
write32(MSM_BOOT_UART_DM_NO_CHARS_FOR_TX(base), num_of_chars);
/* And now write the character(s) */
write32(MSM_BOOT_UART_DM_TF(base, 0), tx_data);
}
/*
* msm_boot_uart_dm_reset - resets UART controller
* @base: UART controller base address
*/
static unsigned int msm_boot_uart_dm_reset(void *base)
{
write32(MSM_BOOT_UART_DM_CR(base), MSM_BOOT_UART_DM_CMD_RESET_RX);
write32(MSM_BOOT_UART_DM_CR(base), MSM_BOOT_UART_DM_CMD_RESET_TX);
write32(MSM_BOOT_UART_DM_CR(base),
MSM_BOOT_UART_DM_CMD_RESET_ERR_STAT);
write32(MSM_BOOT_UART_DM_CR(base), MSM_BOOT_UART_DM_CMD_RES_TX_ERR);
write32(MSM_BOOT_UART_DM_CR(base), MSM_BOOT_UART_DM_CMD_RES_STALE_INT);
return MSM_BOOT_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 */
write32(MSM_BOOT_UART_DM_MR1(uart_dm_base), 0x0);
/* 8-N-1 configuration: 8 data bits - No parity - 1 stop bit */
write32(MSM_BOOT_UART_DM_MR2(uart_dm_base),
MSM_BOOT_UART_DM_8_N_1_MODE);
/* Configure Interrupt Mask register IMR */
write32(MSM_BOOT_UART_DM_IMR(uart_dm_base),
MSM_BOOT_UART_DM_IMR_ENABLED);
/*
* 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
*/
write32(MSM_BOOT_UART_DM_TFWR(uart_dm_base),
MSM_BOOT_UART_DM_TFW_VALUE);
/* RX watermark value */
write32(MSM_BOOT_UART_DM_RFWR(uart_dm_base),
MSM_BOOT_UART_DM_RFW_VALUE);
/* Configure Interrupt Programming Register */
/* Set initial Stale timeout value */
write32(MSM_BOOT_UART_DM_IPR(uart_dm_base),
MSM_BOOT_UART_DM_STALE_TIMEOUT_LSB);
/* Configure IRDA if required */
/* Disabling IRDA mode */
write32(MSM_BOOT_UART_DM_IRDA(uart_dm_base), 0x0);
/* Configure hunt character value in HCR register */
/* Keep it in reset state */
write32(MSM_BOOT_UART_DM_HCR(uart_dm_base), 0x0);
/*
* 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. */
write32(MSM_BOOT_UART_DM_DMEN(uart_dm_base), 0x0);
/* Enable transmitter */
write32(MSM_BOOT_UART_DM_CR(uart_dm_base),
MSM_BOOT_UART_DM_CR_TX_ENABLE);
/* Initialize Receive Path */
msm_boot_uart_dm_init_rx_transfer(uart_dm_base);
return 0;
}
/**
* ipq806x_uart_init - initializes UART
*
* Initializes clocks, GPIO and UART controller.
*/
void uart_init(int idx)
{
/* Note int idx isn't used in this driver. */
void *dm_base;
void *gsbi_base;
dm_base = uart_board_param.uart_dm_base;
if (read32(MSM_BOOT_UART_DM_CSR(dm_base)) == UART_DM_CLK_RX_TX_BIT_RATE)
return; /* UART must have been already initialized. */
gsbi_base = uart_board_param.uart_gsbi_base;
ipq_configure_gpio(uart_board_param.dbg_uart_gpio,
NO_OF_DBG_UART_GPIOS);
/* Configure the uart clock */
uart_clock_config(uart_board_param.uart_gsbi,
uart_board_param.mnd_value.m_value,
uart_board_param.mnd_value.n_value,
uart_board_param.mnd_value.d_value,
0);
write32(GSBI_CTRL_REG(gsbi_base),
GSBI_PROTOCOL_CODE_I2C_UART << GSBI_CTRL_REG_PROTOCOL_CODE_S);
write32(MSM_BOOT_UART_DM_CSR(dm_base), UART_DM_CLK_RX_TX_BIT_RATE);
/* Initialize UART_DM */
msm_boot_uart_dm_init(dm_base);
}
/* for the benefit of non-console uart init */
void ipq806x_uart_init(void)
{
uart_init(0);
}
#if 0 /* Not used yet */
uint32_t uartmem_getbaseaddr(void)
{
return (uint32_t)uart_board_param.uart_dm_base;
}
#endif
/**
* uart_tx_flush - transmits a string of data
* @s: string to transmit
*/
void uart_tx_flush(int idx)
{
void *base = uart_board_param.uart_dm_base;
while (!(read32(MSM_BOOT_UART_DM_SR(base)) &
MSM_BOOT_UART_DM_SR_TXEMT))
;
}
/**
* uart_can_rx_byte - checks if data available for reading
*
* Returns 1 if data available, 0 otherwise
*/
#if 0 /* Not used yet */
int uart_can_rx_byte(void)
{
/* Return if data is already read */
if (valid_data)
return 1;
/* Read data from the FIFO */
if (msm_boot_uart_dm_read(&word, &valid_data, 0) !=
MSM_BOOT_UART_DM_E_SUCCESS)
return 0;
return 1;
}
#endif
/**
* ipq806x_serial_getc - reads a character
*
* Returns the character read from serial port.
*/
uint8_t uart_rx_byte(int idx)
{
uint8_t byte;
#if 0 /* Not used yet */
while (!uart_can_rx_byte()) {
/* wait for incoming data */
}
#endif
byte = (uint8_t)(word & 0xff);
word = word >> 8;
valid_data--;
return byte;
}
/* TODO: Implement fuction */
void uart_fill_lb(void *data)
{
}
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