592 lines
13 KiB
C
592 lines
13 KiB
C
/*
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* Copyright (c) 2013-2015 Wind River Systems, Inc.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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/**
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* @brief UART driver for the Freescale K20 Family of microprocessors.
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*
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* Before individual UART port can be used, uart_k20_port_init() has to be
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* called to setup the port.
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*/
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#include <nanokernel.h>
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#include <arch/cpu.h>
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#include <stdint.h>
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#include <board.h>
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#include <init.h>
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#include <uart.h>
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#include <toolchain.h>
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#include <sections.h>
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#include "uart_k20.h"
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#include "uart_k20_priv.h"
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/* convenience defines */
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#define DEV_CFG(dev) \
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((struct uart_device_config * const)(dev)->config->config_info)
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#define DEV_DATA(dev) \
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((struct uart_k20_dev_data_t * const)(dev)->driver_data)
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#define UART_STRUCT(dev) \
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((volatile struct K20_UART *)(DEV_CFG(dev))->base)
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/* Device data structure */
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struct uart_k20_dev_data_t {
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uint32_t baud_rate; /* Baud rate */
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#ifdef CONFIG_UART_INTERRUPT_DRIVEN
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uart_irq_callback_t cb; /**< Callback function pointer */
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#endif
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};
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static struct uart_driver_api uart_k20_driver_api;
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/**
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* @brief Initialize UART channel
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*
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* This routine is called to reset the chip in a quiescent state.
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* It is assumed that this function is called only once per UART.
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*
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* @param dev UART device struct
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*
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* @return 0
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*/
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static int uart_k20_init(struct device *dev)
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{
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int old_level; /* old interrupt lock level */
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union C1 c1; /* UART C1 register value */
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union C2 c2; /* UART C2 register value */
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volatile struct K20_UART *uart = UART_STRUCT(dev);
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struct uart_device_config * const dev_cfg = DEV_CFG(dev);
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struct uart_k20_dev_data_t * const dev_data = DEV_DATA(dev);
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/* disable interrupts */
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old_level = irq_lock();
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_uart_k20_baud_rate_set(uart, dev_cfg->sys_clk_freq,
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dev_data->baud_rate);
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/* 1 start bit, 8 data bits, no parity, 1 stop bit */
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c1.value = 0;
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uart->c1 = c1;
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/* enable Rx and Tx with interrupts disabled */
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c2.value = 0;
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c2.field.rx_enable = 1;
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c2.field.tx_enable = 1;
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uart->c2 = c2;
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/* restore interrupt state */
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irq_unlock(old_level);
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#ifdef CONFIG_UART_INTERRUPT_DRIVEN
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dev_cfg->irq_config_func(dev);
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#endif
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dev->driver_api = &uart_k20_driver_api;
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return 0;
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}
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/**
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* @brief Poll the device for input.
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*
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* @param dev UART device struct
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* @param c Pointer to character
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*
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* @return 0 if a character arrived, -1 if the input buffer if empty.
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*/
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static int uart_k20_poll_in(struct device *dev, unsigned char *c)
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{
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volatile struct K20_UART *uart = UART_STRUCT(dev);
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if (uart->s1.field.rx_data_full == 0)
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return (-1);
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/* got a character */
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*c = uart->d;
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return 0;
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}
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/**
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* @brief Output a character in polled mode.
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*
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* Checks if the transmitter is empty. If empty, a character is written to
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* the data register.
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*
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* If the hardware flow control is enabled then the handshake signal CTS has to
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* be asserted in order to send a character.
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*
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* @param dev UART device struct
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* @param c Character to send
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*
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* @return sent character
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*/
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static unsigned char uart_k20_poll_out(struct device *dev,
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unsigned char c)
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{
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volatile struct K20_UART *uart = UART_STRUCT(dev);
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/* wait for transmitter to ready to accept a character */
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while (uart->s1.field.tx_data_empty == 0)
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;
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uart->d = c;
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return c;
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}
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#if CONFIG_UART_INTERRUPT_DRIVEN
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/**
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* @brief Fill FIFO with data
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*
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* @param dev UART device struct
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* @param tx_data Data to transmit
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* @param len Number of bytes to send
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*
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* @return number of bytes sent
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*/
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static int uart_k20_fifo_fill(struct device *dev, const uint8_t *tx_data,
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int len)
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{
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volatile struct K20_UART *uart = UART_STRUCT(dev);
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uint8_t num_tx = 0;
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while ((len - num_tx > 0) && (uart->s1.field.tx_data_empty == 1)) {
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uart->d = tx_data[num_tx++];
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}
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return num_tx;
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}
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/**
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* @brief Read data from FIFO
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*
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* @param dev UART device struct
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* @param rx_data Pointer to data container
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* @param size Container size in bytes
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*
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* @return number of bytes read
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*/
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static int uart_k20_fifo_read(struct device *dev, uint8_t *rx_data,
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const int size)
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{
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volatile struct K20_UART *uart = UART_STRUCT(dev);
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uint8_t num_rx = 0;
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while ((size - num_rx > 0) && (uart->s1.field.rx_data_full != 0)) {
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rx_data[num_rx++] = uart->d;
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}
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return num_rx;
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}
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/**
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* @brief Enable TX interrupt
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*
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* @param dev UART device struct
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*
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* @return N/A
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*/
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static void uart_k20_irq_tx_enable(struct device *dev)
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{
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volatile struct K20_UART *uart = UART_STRUCT(dev);
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uart->c2.field.tx_int_dma_tx_en = 1;
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}
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/**
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* @brief Disable TX interrupt in IER
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*
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* @param dev UART device struct
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*
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* @return N/A
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*/
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static void uart_k20_irq_tx_disable(struct device *dev)
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{
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volatile struct K20_UART *uart = UART_STRUCT(dev);
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uart->c2.field.tx_int_dma_tx_en = 0;
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}
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/**
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* @brief Check if Tx IRQ has been raised
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*
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* @param dev UART device struct
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*
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* @return 1 if an IRQ is ready, 0 otherwise
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*/
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static int uart_k20_irq_tx_ready(struct device *dev)
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{
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volatile struct K20_UART *uart = UART_STRUCT(dev);
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return (uart->c2.field.tx_int_dma_tx_en == 0) ?
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0 : uart->s1.field.tx_data_empty;
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}
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/**
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* @brief Enable RX interrupt in IER
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*
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* @param dev UART device struct
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*
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* @return N/A
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*/
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static void uart_k20_irq_rx_enable(struct device *dev)
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{
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volatile struct K20_UART *uart = UART_STRUCT(dev);
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uart->c2.field.rx_full_int_dma_tx_en = 1;
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}
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/**
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* @brief Disable RX interrupt in IER
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*
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* @param dev UART device struct
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*
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* @return N/A
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*/
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static void uart_k20_irq_rx_disable(struct device *dev)
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{
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volatile struct K20_UART *uart = UART_STRUCT(dev);
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uart->c2.field.rx_full_int_dma_tx_en = 0;
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}
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/**
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* @brief Check if Rx IRQ has been raised
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*
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* @param dev UART device struct
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*
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* @return 1 if an IRQ is ready, 0 otherwise
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*/
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static int uart_k20_irq_rx_ready(struct device *dev)
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{
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volatile struct K20_UART *uart = UART_STRUCT(dev);
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return (uart->c2.field.rx_full_int_dma_tx_en == 0) ?
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0 : uart->s1.field.rx_data_full;
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}
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/**
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* @brief Enable error interrupt
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*
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* @param dev UART device struct
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*
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* @return N/A
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*/
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static void uart_k20_irq_err_enable(struct device *dev)
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{
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volatile struct K20_UART *uart = UART_STRUCT(dev);
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union C3 c3 = uart->c3;
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c3.field.parity_err_int_en = 1;
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c3.field.frame_err_int_en = 1;
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c3.field.noise_err_int_en = 1;
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c3.field.overrun_err_int_en = 1;
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uart->c3 = c3;
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}
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/**
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* @brief Disable error interrupt
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*
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* @param dev UART device struct
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*
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* @return N/A
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*/
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static void uart_k20_irq_err_disable(struct device *dev)
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{
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volatile struct K20_UART *uart = UART_STRUCT(dev);
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union C3 c3 = uart->c3;
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c3.field.parity_err_int_en = 0;
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c3.field.frame_err_int_en = 0;
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c3.field.noise_err_int_en = 0;
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c3.field.overrun_err_int_en = 0;
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uart->c3 = c3;
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}
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/**
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* @brief Check if Tx or Rx IRQ is pending
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*
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* @param dev UART device struct
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*
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* @return 1 if a Tx or Rx IRQ is pending, 0 otherwise
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*/
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static int uart_k20_irq_is_pending(struct device *dev)
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{
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return uart_k20_irq_tx_ready(dev) || uart_k20_irq_rx_ready(dev);
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}
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/**
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* @brief Update IRQ status
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*
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* @param dev UART device struct
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*
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* @return always 1
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*/
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static int uart_k20_irq_update(struct device *dev)
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{
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return 1;
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}
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/**
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* @brief Set the callback function pointer for IRQ.
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*
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* @param dev UART device struct
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* @param cb Callback function pointer.
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*
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* @return N/A
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*/
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static void uart_k20_irq_callback_set(struct device *dev,
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uart_irq_callback_t cb)
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{
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struct uart_k20_dev_data_t * const dev_data = DEV_DATA(dev);
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dev_data->cb = cb;
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}
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/**
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* @brief Interrupt service routine.
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*
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* This simply calls the callback function, if one exists.
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*
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* @param arg Argument to ISR.
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*
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* @return N/A
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*/
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void uart_k20_isr(void *arg)
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{
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struct device *dev = arg;
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struct uart_k20_dev_data_t * const dev_data = DEV_DATA(dev);
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if (dev_data->cb) {
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dev_data->cb(dev);
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}
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}
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#endif /* CONFIG_UART_INTERRUPT_DRIVEN */
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static struct uart_driver_api uart_k20_driver_api = {
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.poll_in = uart_k20_poll_in,
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.poll_out = uart_k20_poll_out,
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#ifdef CONFIG_UART_INTERRUPT_DRIVEN
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.fifo_fill = uart_k20_fifo_fill,
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.fifo_read = uart_k20_fifo_read,
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.irq_tx_enable = uart_k20_irq_tx_enable,
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.irq_tx_disable = uart_k20_irq_tx_disable,
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.irq_tx_ready = uart_k20_irq_tx_ready,
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.irq_rx_enable = uart_k20_irq_rx_enable,
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.irq_rx_disable = uart_k20_irq_rx_disable,
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.irq_rx_ready = uart_k20_irq_rx_ready,
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.irq_err_enable = uart_k20_irq_err_enable,
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.irq_err_disable = uart_k20_irq_err_disable,
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.irq_is_pending = uart_k20_irq_is_pending,
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.irq_update = uart_k20_irq_update,
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.irq_callback_set = uart_k20_irq_callback_set,
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#endif
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};
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#ifdef CONFIG_UART_K20_PORT_0
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#ifdef CONFIG_UART_INTERRUPT_DRIVEN
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static void irq_config_func_0(struct device *port);
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#endif
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static struct uart_device_config uart_k20_dev_cfg_0 = {
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.base = (uint8_t *)UART_K20_PORT_0_BASE_ADDR,
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.sys_clk_freq = UART_K20_CLK_FREQ,
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#ifdef CONFIG_UART_INTERRUPT_DRIVEN
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.irq_config_func = irq_config_func_0,
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#endif
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};
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static struct uart_k20_dev_data_t uart_k20_dev_data_0 = {
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.baud_rate = CONFIG_UART_K20_PORT_0_BAUD_RATE,
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};
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DEVICE_INIT(uart_k20_0, CONFIG_UART_K20_PORT_0_NAME, &uart_k20_init,
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&uart_k20_dev_data_0, &uart_k20_dev_cfg_0,
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PRIMARY, CONFIG_KERNEL_INIT_PRIORITY_DEVICE);
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#ifdef CONFIG_UART_INTERRUPT_DRIVEN
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static void irq_config_func_0(struct device *dev)
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{
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IRQ_CONNECT(UART_K20_PORT_0_IRQ,
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CONFIG_UART_K20_PORT_0_IRQ_PRI,
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uart_k20_isr, DEVICE_GET(uart_k20_0),
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UART_IRQ_FLAGS);
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irq_enable(UART_K20_PORT_0_IRQ);
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}
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#endif
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#endif /* CONFIG_UART_K20_PORT_0 */
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#ifdef CONFIG_UART_K20_PORT_1
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#ifdef CONFIG_UART_INTERRUPT_DRIVEN
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static void irq_config_func_1(struct device *port);
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#endif
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static struct uart_device_config uart_k20_dev_cfg_1 = {
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.base = (uint8_t *)UART_K20_PORT_1_BASE_ADDR,
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.sys_clk_freq = UART_K20_CLK_FREQ,
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#ifdef CONFIG_UART_INTERRUPT_DRIVEN
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.irq_config_func = irq_config_func_1,
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#endif
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};
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static struct uart_k20_dev_data_t uart_k20_dev_data_1 = {
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.baud_rate = CONFIG_UART_K20_PORT_1_BAUD_RATE,
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};
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DEVICE_INIT(uart_k20_1, CONFIG_UART_K20_PORT_1_NAME, &uart_k20_init,
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&uart_k20_dev_data_1, &uart_k20_dev_cfg_1,
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PRIMARY, CONFIG_KERNEL_INIT_PRIORITY_DEVICE);
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#ifdef CONFIG_UART_INTERRUPT_DRIVEN
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static void irq_config_func_1(struct device *dev)
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{
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IRQ_CONNECT(UART_K20_PORT_1_IRQ,
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CONFIG_UART_K20_PORT_1_IRQ_PRI,
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uart_k20_isr, DEVICE_GET(uart_k20_1),
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UART_IRQ_FLAGS);
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irq_enable(UART_K20_PORT_1_IRQ);
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}
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#endif
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#endif /* CONFIG_UART_K20_PORT_1 */
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#ifdef CONFIG_UART_K20_PORT_2
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#ifdef CONFIG_UART_INTERRUPT_DRIVEN
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static void irq_config_func_2(struct device *port);
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#endif
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static struct uart_device_config uart_k20_dev_cfg_2 = {
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.base = (uint8_t *)UART_K20_PORT_2_BASE_ADDR,
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.sys_clk_freq = UART_K20_CLK_FREQ,
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#ifdef CONFIG_UART_INTERRUPT_DRIVEN
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.irq_config_func = irq_config_func_2,
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#endif
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};
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static struct uart_k20_dev_data_t uart_k20_dev_data_2 = {
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.baud_rate = CONFIG_UART_K20_PORT_2_BAUD_RATE,
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};
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DEVICE_INIT(uart_k20_2, CONFIG_UART_K20_PORT_2_NAME, &uart_k20_init,
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&uart_k20_dev_data_2, &uart_k20_dev_cfg_2,
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PRIMARY, CONFIG_KERNEL_INIT_PRIORITY_DEVICE);
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#ifdef CONFIG_UART_INTERRUPT_DRIVEN
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static void irq_config_func_2(struct device *dev)
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{
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IRQ_CONNECT(UART_K20_PORT_2_IRQ,
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CONFIG_UART_K20_PORT_2_IRQ_PRI,
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uart_k20_isr, DEVICE_GET(uart_k20_2),
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UART_IRQ_FLAGS);
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irq_enable(UART_K20_PORT_2_IRQ);
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}
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#endif
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#endif /* CONFIG_UART_K20_PORT_2 */
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#ifdef CONFIG_UART_K20_PORT_3
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#ifdef CONFIG_UART_INTERRUPT_DRIVEN
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static void irq_config_func_3(struct device *port);
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#endif
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static struct uart_device_config uart_k20_dev_cfg_3 = {
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.base = (uint8_t *)UART_K20_PORT_3_BASE_ADDR,
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.sys_clk_freq = UART_K20_CLK_FREQ,
|
|
|
|
#ifdef CONFIG_UART_INTERRUPT_DRIVEN
|
|
.irq_config_func = irq_config_func_3,
|
|
#endif
|
|
};
|
|
|
|
static struct uart_k20_dev_data_t uart_k20_dev_data_3 = {
|
|
.baud_rate = CONFIG_UART_K20_PORT_3_BAUD_RATE,
|
|
};
|
|
|
|
DEVICE_INIT(uart_k20_3, CONFIG_UART_K20_PORT_3_NAME, &uart_k20_init,
|
|
&uart_k20_dev_data_3, &uart_k20_dev_cfg_3,
|
|
PRIMARY, CONFIG_KERNEL_INIT_PRIORITY_DEVICE);
|
|
|
|
#ifdef CONFIG_UART_INTERRUPT_DRIVEN
|
|
static void irq_config_func_3(struct device *dev)
|
|
{
|
|
IRQ_CONNECT(UART_K20_PORT_3_IRQ,
|
|
CONFIG_UART_K20_PORT_3_IRQ_PRI,
|
|
uart_k20_isr, DEVICE_GET(uart_k20_3),
|
|
UART_IRQ_FLAGS);
|
|
irq_enable(UART_K20_PORT_3_IRQ);
|
|
}
|
|
#endif
|
|
|
|
#endif /* CONFIG_UART_K20_PORT_3 */
|
|
|
|
#ifdef CONFIG_UART_K20_PORT_4
|
|
|
|
#ifdef CONFIG_UART_INTERRUPT_DRIVEN
|
|
static void irq_config_func_4(struct device *port);
|
|
#endif
|
|
|
|
static struct uart_device_config uart_k20_dev_cfg_4 = {
|
|
.base = (uint8_t *)UART_K20_PORT_4_BASE_ADDR,
|
|
.sys_clk_freq = UART_K20_CLK_FREQ,
|
|
|
|
#ifdef CONFIG_UART_INTERRUPT_DRIVEN
|
|
.irq_config_func = irq_config_func_4,
|
|
#endif
|
|
};
|
|
|
|
static struct uart_k20_dev_data_t uart_k20_dev_data_4 = {
|
|
.baud_rate = CONFIG_UART_K20_PORT_4_BAUD_RATE,
|
|
};
|
|
|
|
DEVICE_INIT(uart_k20_4, CONFIG_UART_K20_PORT_4_NAME, &uart_k20_init,
|
|
&uart_k20_dev_data_4, &uart_k20_dev_cfg_4,
|
|
PRIMARY, CONFIG_KERNEL_INIT_PRIORITY_DEVICE);
|
|
|
|
#ifdef CONFIG_UART_INTERRUPT_DRIVEN
|
|
static void irq_config_func_4(struct device *dev)
|
|
{
|
|
IRQ_CONNECT(UART_K20_PORT_4_IRQ,
|
|
CONFIG_UART_K20_PORT_4_IRQ_PRI,
|
|
uart_k20_isr, DEVICE_GET(uart_k20_4),
|
|
UART_IRQ_FLAGS);
|
|
irq_enable(UART_K20_PORT_4_IRQ);
|
|
}
|
|
#endif
|
|
|
|
#endif /* CONFIG_UART_K20_PORT_4 */
|