mirror of
https://github.com/pvvx/rtl00TstMinAmebaV35a.git
synced 2024-11-25 02:34:15 +00:00
511 lines
14 KiB
C
511 lines
14 KiB
C
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/* mbed Microcontroller Library
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*******************************************************************************
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* Copyright (c) 2014, Realtek Semiconductor Corp.
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* All rights reserved.
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*
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* This module is a confidential and proprietary property of RealTek and
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* possession or use of this module requires written permission of RealTek.
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*******************************************************************************
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*/
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#include "objects.h"
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#include "log_uart_api.h"
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#include <string.h>
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const u32 log_uart_support_rate[] = {
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UART_BAUD_RATE_2400, UART_BAUD_RATE_4800, UART_BAUD_RATE_9600,
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UART_BAUD_RATE_19200, UART_BAUD_RATE_38400, UART_BAUD_RATE_57600,
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UART_BAUD_RATE_115200, UART_BAUD_RATE_921600, UART_BAUD_RATE_1152000,
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0xFFFFFFFF
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};
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extern HAL_TIMER_OP HalTimerOp;
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extern u32 ConfigDebugErr;
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extern u32 ConfigDebugWarn;
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extern u32 ConfigDebugInfo;
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extern u32 CfgSysDebugErr;
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extern u32 CfgSysDebugInfo;
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extern u32 CfgSysDebugWarn;
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extern HAL_Status RuartIsTimeout (u32 StartCount, u32 TimeoutCnt);
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extern u32 HalLogUartInitSetting(HAL_LOG_UART_ADAPTER *pUartAdapter);
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extern VOID HalLogUartSetBaudRate(HAL_LOG_UART_ADAPTER *pUartAdapter);
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extern VOID HalLogUartSetLineCtrl(HAL_LOG_UART_ADAPTER *pUartAdapter);
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extern VOID HalLogUartIrqHandle(VOID * Data);
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int32_t log_uart_init (log_uart_t *obj, int baudrate, int data_bits, SerialParity parity, int stop_bits)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter;
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int i;
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_memset((void*)obj, 0, sizeof(log_uart_t));
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pUartAdapter = &obj->log_hal_uart;
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// Check Baud rate
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for (i=0; log_uart_support_rate[i]!=0xFFFFFF; i++) {
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if (log_uart_support_rate[i] == baudrate) {
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break;
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}
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}
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if (log_uart_support_rate[i]== 0xFFFFFF) {
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DBG_UART_ERR("log_uart_init: Not support Baud Rate %d\n", baudrate);
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return -1;
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}
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// check word width
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if ((data_bits < 5) || (data_bits > 8)) {
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DBG_UART_ERR("log_uart_init: Not support Word Width %d\n", data_bits);
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return -1;
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}
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//4 Inital Log uart
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pUartAdapter->BaudRate = baudrate;
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pUartAdapter->DataLength = data_bits-5;
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pUartAdapter->FIFOControl = FCR_FIFO_EN | FCR_TX_TRIG_HF | FCR_RX_TRIG_HF;
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// only enable Rx linstatus at initial,
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// Tx & Rx interrupt will be enabled @ transfer start time
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pUartAdapter->IntEnReg = IER_ELSI;
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switch (parity) {
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case ParityNone:
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pUartAdapter->Parity = LCR_PARITY_NONE;
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break;
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case ParityOdd:
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pUartAdapter->Parity = LCR_PARITY_ODD;
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break;
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case ParityEven:
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pUartAdapter->Parity = LCR_PARITY_EVEN;
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break;
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default:
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DBG_UART_ERR("log_uart_init: Not support parity type %d\n", parity);
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return -1;
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}
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if (stop_bits > 1) {
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// if width is 5 bits, stop bit will be 1.5 bit
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pUartAdapter->Stop = LCR_STOP_2B;
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} else {
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pUartAdapter->Stop = LCR_STOP_1B;
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}
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//4 Initial Log Uart
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HalLogUartInitSetting(pUartAdapter);
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// disable all debug message
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ConfigDebugErr = 0;
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ConfigDebugWarn = 0;
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ConfigDebugInfo = 0;
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CfgSysDebugErr = 0;
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CfgSysDebugInfo = 0;
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CfgSysDebugWarn = 0;
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return 0;
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}
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void log_uart_free(log_uart_t *obj)
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{
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LOG_UART_ADAPTER UartAdapter;
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// Recover the Log UART for debug message printing
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//4 Release log uart reset and clock
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LOC_UART_FCTRL(OFF);
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LOC_UART_FCTRL(ON);
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ACTCK_LOG_UART_CCTRL(ON);
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//4 Inital Log uart
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UartAdapter.BaudRate = UART_BAUD_RATE_38400;
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UartAdapter.DataLength = UART_DATA_LEN_8BIT;
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UartAdapter.FIFOControl = 0xC1;
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UartAdapter.IntEnReg = 0x00;
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UartAdapter.Parity = UART_PARITY_DISABLE;
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UartAdapter.Stop = UART_STOP_1BIT;
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// un_register current IRQ first
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InterruptUnRegister(&(obj->log_hal_uart.IrqHandle));
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//4 Initial Log Uart
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HalLogUartInit(UartAdapter);
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}
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void log_uart_baud(log_uart_t *obj, int baudrate)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter;
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int i;
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pUartAdapter = &obj->log_hal_uart;
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// Check Baud rate
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for (i=0; log_uart_support_rate[i]!=0xFFFFFFFF; i++) {
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if (log_uart_support_rate[i] == baudrate) {
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break;
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}
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}
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if (log_uart_support_rate[i]== 0xFFFFFF) {
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DBG_UART_ERR("log_uart_baud: Not support Baud Rate %d\n", baudrate);
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return;
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}
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pUartAdapter->BaudRate = baudrate;
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HalLogUartSetBaudRate(pUartAdapter);
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}
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void log_uart_format(log_uart_t *obj, int data_bits, SerialParity parity, int stop_bits)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter;
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pUartAdapter = &obj->log_hal_uart;
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// check word width
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if ((data_bits < 5) || (data_bits > 8)) {
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DBG_UART_ERR("log_uart_format: Not support Word Width %d\n", data_bits);
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return;
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}
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//4 Inital Log uart
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pUartAdapter->DataLength = data_bits - 5;
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switch (parity) {
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case ParityNone:
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pUartAdapter->Parity = LCR_PARITY_NONE;
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break;
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case ParityOdd:
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pUartAdapter->Parity = LCR_PARITY_ODD;
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break;
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case ParityEven:
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pUartAdapter->Parity = LCR_PARITY_EVEN;
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break;
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default:
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DBG_UART_ERR("log_uart_format: Not support parity type %d\n", parity);
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return;
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}
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if (stop_bits > 1) {
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// if width is 5 bits, stop bit will be 1.5 bit
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pUartAdapter->Stop = LCR_STOP_2B;
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} else {
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pUartAdapter->Stop = LCR_STOP_1B;
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}
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HalLogUartSetLineCtrl(pUartAdapter);
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}
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/******************************************************************************
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* INTERRUPTS HANDLING
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******************************************************************************/
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void log_uart_irq_handler(log_uart_t *obj, loguart_irq_handler handler, uint32_t id)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter;
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pUartAdapter = &(obj->log_hal_uart);
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pUartAdapter->api_irq_handler = handler;
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pUartAdapter->api_irq_id = id;
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}
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void log_uart_irq_set(log_uart_t *obj, LOG_UART_INT_ID irq, uint32_t enable)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter;
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u8 int_en=0;
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pUartAdapter = &(obj->log_hal_uart);
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switch (irq) {
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case IIR_RX_RDY:
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int_en = IER_ERBFI;
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break;
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case IIR_THR_EMPTY:
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int_en = IER_ETBEI;
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break;
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case IIR_RX_LINE_STATUS:
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int_en = IER_ELSI;
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break;
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case IIR_MODEM_STATUS:
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int_en = IER_EDSSI;
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break;
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default:
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DBG_UART_WARN("log_uart_irq_set: Unknown Irq Id\n");
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return;
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}
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if (enable) {
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pUartAdapter->IntEnReg |= int_en;
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} else {
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// disable
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pUartAdapter->IntEnReg &= (~int_en);
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}
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HalLogUartSetIntEn(pUartAdapter);
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}
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/******************************************************************************
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* READ/WRITE
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******************************************************************************/
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char log_uart_getc(log_uart_t *obj)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=(PHAL_LOG_UART_ADAPTER)&(obj->log_hal_uart);
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while (!log_uart_readable(obj));
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return (char)(HAL_UART_READ32(UART_REV_BUF_OFF) & 0xFF);
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}
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void log_uart_putc(log_uart_t *obj, char c)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=(PHAL_LOG_UART_ADAPTER)&(obj->log_hal_uart);
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while (!log_uart_writable(obj));
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HAL_UART_WRITE8(UART_TRAN_HOLD_OFF, c);
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}
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int log_uart_readable(log_uart_t *obj)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=(PHAL_LOG_UART_ADAPTER)&(obj->log_hal_uart);
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volatile u8 line_status;
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line_status = HAL_UART_READ8(UART_LINE_STATUS_REG_OFF);
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if (line_status & LSR_DR) {
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return 1;
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} else {
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return 0;
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}
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}
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int log_uart_writable(log_uart_t *obj)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=(PHAL_LOG_UART_ADAPTER)&(obj->log_hal_uart);
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volatile u8 line_status;
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line_status = HAL_UART_READ8(UART_LINE_STATUS_REG_OFF);
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if (line_status & LSR_THRE) {
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return 1;
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} else {
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return 0;
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}
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}
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void log_uart_clear(log_uart_t *obj)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=(PHAL_LOG_UART_ADAPTER)&(obj->log_hal_uart);
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HalLogUartRstFIFO(pUartAdapter, (LOG_UART_RST_TX_FIFO|LOG_UART_RST_TX_FIFO));
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pUartAdapter->TxCount = 0;
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pUartAdapter->RxCount = 0;
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}
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void log_uart_clear_tx(log_uart_t *obj)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=(PHAL_LOG_UART_ADAPTER)&(obj->log_hal_uart);
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HalLogUartRstFIFO(pUartAdapter, LOG_UART_RST_TX_FIFO);
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pUartAdapter->TxCount = 0;
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}
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void log_uart_clear_rx(log_uart_t *obj)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=(PHAL_LOG_UART_ADAPTER)&(obj->log_hal_uart);
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HalLogUartRstFIFO(pUartAdapter, LOG_UART_RST_RX_FIFO);
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pUartAdapter->RxCount = 0;
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}
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void log_uart_break_set(log_uart_t *obj)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=(PHAL_LOG_UART_ADAPTER)&(obj->log_hal_uart);
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u32 RegValue;
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RegValue = HAL_UART_READ32(UART_LINE_CTL_REG_OFF);
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RegValue |= LCR_BC;
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HAL_UART_WRITE32(UART_LINE_CTL_REG_OFF, RegValue);
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}
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void log_uart_break_clear(log_uart_t *obj)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=(PHAL_LOG_UART_ADAPTER)&(obj->log_hal_uart);
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u32 RegValue;
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RegValue = HAL_UART_READ32(UART_LINE_CTL_REG_OFF);
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RegValue &= ~LCR_BC;
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HAL_UART_WRITE32(UART_LINE_CTL_REG_OFF, RegValue);
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}
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void log_uart_tx_comp_handler(log_uart_t *obj, void *handler, uint32_t id)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=(PHAL_LOG_UART_ADAPTER)&(obj->log_hal_uart);
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pUartAdapter->TxCompCallback = (void(*)(void*))handler;
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pUartAdapter->TxCompCbPara = (void*)id;
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}
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void log_uart_rx_comp_handler(log_uart_t *obj, void *handler, uint32_t id)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=&(obj->log_hal_uart);
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pUartAdapter->RxCompCallback = (void(*)(void*))handler;
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pUartAdapter->RxCompCbPara = (void*)id;
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}
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void log_uart_line_status_handler(log_uart_t *obj, void *handler, uint32_t id)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=&(obj->log_hal_uart);
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pUartAdapter->LineStatusCallback = (void(*)(void*, u8))handler;
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pUartAdapter->LineStatusCbPara = (void*)id;
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}
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// Blocked(busy wait) receive, return received bytes count
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int32_t log_uart_recv (log_uart_t *obj, char *prxbuf, uint32_t len, uint32_t timeout_ms)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=&(obj->log_hal_uart);
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int ret;
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ret = (int)HalLogUartRecv(pUartAdapter, prxbuf, len, timeout_ms);
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return (ret);
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}
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// Blocked(busy wait) send, return transmitted bytes count
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int32_t log_uart_send (log_uart_t *obj, char *ptxbuf, uint32_t len, uint32_t timeout_ms)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=&(obj->log_hal_uart);
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int ret;
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ret = (int)HalLogUartSend(pUartAdapter, ptxbuf, len, timeout_ms);
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return (ret);
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}
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// Interrupt mode(no wait) receive, return HAL function result
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int32_t log_uart_recv_stream (log_uart_t *obj, char *prxbuf, uint32_t len)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=&(obj->log_hal_uart);
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int ret;
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ret = (int)HalLogUartIntRecv(pUartAdapter, (u8*)prxbuf, len);
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return (ret);
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}
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// Interrupt Mode(no wait) send, return HAL function result
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int32_t log_uart_send_stream (log_uart_t *obj, char *ptxbuf, uint32_t len)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=&(obj->log_hal_uart);
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int ret;
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ret = (int)HalLogUartIntSend(pUartAdapter, (u8*)ptxbuf, len);
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return (ret);
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}
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// Interrupt mode(no wait) receive with timeout
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// return the byte count received before timeout, or error(<0)
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int32_t log_uart_recv_stream_timeout (log_uart_t *obj, char *prxbuf, uint32_t len,
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uint32_t timeout_ms, void *force_cs)
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{
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HAL_LOG_UART_ADAPTER *pUartAdapter=&(obj->log_hal_uart);
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uint32_t TimeoutCount=0, StartCount;
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int ret;
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void (*task_yield)(void);
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task_yield = NULL;
|
||
|
ret = (int)HalLogUartIntRecv(pUartAdapter, (u8*)prxbuf, len);
|
||
|
|
||
|
if ((ret == HAL_OK) && (timeout_ms > 0)) {
|
||
|
TimeoutCount = (timeout_ms*1000/TIMER_TICK_US);
|
||
|
StartCount = HalTimerOp.HalTimerReadCount(1);
|
||
|
task_yield = (void (*)(void))force_cs;
|
||
|
while (pUartAdapter->RxCount > 0) {
|
||
|
if (HAL_TIMEOUT == RuartIsTimeout(StartCount, TimeoutCount)) {
|
||
|
HalLogUartAbortIntRecv(pUartAdapter);
|
||
|
break;
|
||
|
}
|
||
|
if (NULL != task_yield) {
|
||
|
task_yield();
|
||
|
}
|
||
|
}
|
||
|
return (len - pUartAdapter->RxCount);
|
||
|
} else {
|
||
|
return (-ret);
|
||
|
}
|
||
|
}
|
||
|
|
||
|
// Abort Interrupt Mode TX and return how many bytes data has been sent
|
||
|
int32_t log_uart_send_stream_abort (log_uart_t *obj)
|
||
|
{
|
||
|
HAL_LOG_UART_ADAPTER *pUartAdapter=&(obj->log_hal_uart);
|
||
|
int ret;
|
||
|
|
||
|
HalLogUartAbortIntSend(pUartAdapter);
|
||
|
|
||
|
ret = (u32)pUartAdapter->pTxBuf - (u32)pUartAdapter->pTxStartAddr;
|
||
|
return (ret);
|
||
|
}
|
||
|
|
||
|
// Abort Interrupt Mode RX and return how many bytes data has been received
|
||
|
int32_t log_uart_recv_stream_abort (log_uart_t *obj)
|
||
|
{
|
||
|
HAL_LOG_UART_ADAPTER *pUartAdapter=&(obj->log_hal_uart);
|
||
|
int ret;
|
||
|
|
||
|
HalLogUartAbortIntRecv(pUartAdapter);
|
||
|
|
||
|
ret = (u32)pUartAdapter->pRxBuf - (u32)pUartAdapter->pRxStartAddr;
|
||
|
return (ret);
|
||
|
}
|
||
|
|
||
|
void log_uart_disable (log_uart_t *obj)
|
||
|
{
|
||
|
HAL_LOG_UART_ADAPTER *pUartAdapter=&(obj->log_hal_uart);
|
||
|
|
||
|
HalLogUartDisable(pUartAdapter);
|
||
|
}
|
||
|
|
||
|
void log_uart_enable (log_uart_t *obj)
|
||
|
{
|
||
|
HAL_LOG_UART_ADAPTER *pUartAdapter=&(obj->log_hal_uart);
|
||
|
|
||
|
HalLogUartEnable(pUartAdapter);
|
||
|
}
|
||
|
|
||
|
// to read Line-Status register
|
||
|
// Bit 0: RX Data Ready
|
||
|
// Bit 1: Overrun Error
|
||
|
// Bit 2: Parity Error
|
||
|
// Bit 3: Framing Error
|
||
|
// Bit 4: Break Interrupt (received data input is held in 0 state for a longer than a full word tx time)
|
||
|
// Bit 5: TX FIFO empty (THR empty)
|
||
|
// Bit 6: TX FIFO empty (THR & TSR both empty)
|
||
|
// Bit 7: Receiver FIFO Error (parity error, framing error or break indication)
|
||
|
uint8_t log_uart_raed_lsr(log_uart_t *obj)
|
||
|
{
|
||
|
uint8_t LineStatus;
|
||
|
|
||
|
LineStatus = HAL_UART_READ8(UART_LINE_STATUS_REG_OFF);
|
||
|
|
||
|
return LineStatus;
|
||
|
}
|
||
|
|
||
|
// to read Modem-Status register
|
||
|
// Bit 0: DCTS, The CTS line has changed its state
|
||
|
// Bit 1: DDSR, The DSR line has changed its state
|
||
|
// Bit 2: TERI, RI line has changed its state from low to high state
|
||
|
// Bit 3: DDCD, DCD line has changed its state
|
||
|
// Bit 4: Complement of the CTS input
|
||
|
// Bit 5: Complement of the DSR input
|
||
|
// Bit 6: Complement of the RI input
|
||
|
// Bit 7: Complement of the DCD input
|
||
|
uint8_t log_uart_raed_msr(log_uart_t *obj)
|
||
|
{
|
||
|
uint8_t RegValue;
|
||
|
|
||
|
RegValue = HAL_UART_READ8(UART_MODEM_STATUS_REG_OFF);
|
||
|
return RegValue;
|
||
|
}
|
||
|
|