在HI3861模块中,UART2使用GPIO11和GPIO12管脚,串口通信一般是一个单片机最基本通信,我们一般调试的时候一个是点灯,另外一个就是打通串口
虽然目前的开发板已经有串口输出了(UART0),但是这个串口是官方自带的,我们还是要熟悉一下串口的使用过程。
GPIO11->UART2_TX
GPIO12->UART2_RX
下面我们实现UART2的初始化,并将UART2接收到的数据从UART2发送出去。
硬件连接图
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串口相关的函数如下:
codebaseiot_hardwareframeworkswifiiot_litesrcwifiiot_uart.c
//初始化函数unsigned int Uartinit(WifiIotUartIdx id, const WifiIotUartAttribute *param, const WifiIotUartExtraAttr *extraAttr)//读数据函数int UartRead(WifiIotUartIdx id, unsigned char *data, unsigned int dataLen)//写数据函数int UartWrite(WifiIotUartIdx id, const unsigned char *data, unsigned int dataLen)开发过程:
1. 使能UART2
在 vendorhisihi3861hi3861buildconfigusr_config.mk 修改 CONFIG_UART2_SUPPORT=y
2. 初始化GPIO为UART2(注意,如果已经执行步骤1,则不需要本过程)
如果已经配置 CONFIG_UART2_SUPPORT=y,则以下文件中的GPIO11,12会被自动初始化为UART2
vendorhisihi3861hi3861appwifiiot_appinitapp_io_init.c
#ifdef CONFIG_UART2_SUPPORT /* uart2 sigma认证使用串口 */ hi_io_set_func(HI_IO_NAME_GPIO_11, HI_IO_FUNC_GPIO_11_UART2_TXD); /* uart2 tx */ hi_io_set_func(HI_IO_NAME_GPIO_12, HI_IO_FUNC_GPIO_12_UART2_RXD); /* uart2 rx */#endif3. 初始化UART2配置
int usr_uart2_config(void){ int ret; //初始化UART2配置,115200,数据bit为8,停止位1,奇偶校验为NONE,流控为NONE WifiIotUartAttribute g_uart2_cfg = {115200, 8, 1, WIFI_IOT_UART_PARITY_NONE, 0}; ret = UartInit(WIFI_IOT_UART_IDX_2, &g_uart2_cfg,NULL); if (ret != 0) { printf("uart2 init failrn"); } return ret;}4. 调用UART读写函数
unsigned char buff[50] = {0}; unsigned int len = 0; unsigned int ui = 0; len = UartRead(WIFI_IOT_UART_IDX_2, buff, 50);//接收串口2数据 if(len > 0) { printf("UART2 recv len=%drn", len); for(ui = 0 ; ui < len; ui++) { printf("0x%xrn", buff[ui]); } UartWrite(WIFI_IOT_UART_IDX_2, buff, len);//数据发送给串口2 }
5.完整的代码 uart2_demo.c
路径:codeapplicationssamplewifi-iotapphello_worlduart2_demo.c
#include #include #include "ohos_init.h"#include "cmsis_os2.h"#include "wifiiot_gpio.h"#include "wifiiot_gpio_ex.h"#include "wifiiot_uart.h"#include "wifiiot_uart_ex.h"/*2020年11月19日 作者:hcl0317链接:实现功能:GPIO11->UART2_TX GPIO12->UART2_RX 1. 在 vendorhisihi3861hi3861buildconfigusr_config.mk 修改 CONFIG_UART2_SUPPORT=y2. 打开上面的宏定义后,在 vendorhisihi3861hi3861appwifiiot_appinitapp_io_init.c中会自动对 GPIO11和GPIO12进行初始化//#ifdef CONFIG_UART2_SUPPORT// //uart2 sigma认证使用串口// hi_io_set_func(HI_IO_NAME_GPIO_11, HI_IO_FUNC_GPIO_11_UART2_TXD); // uart2 tx // hi_io_set_func(HI_IO_NAME_GPIO_12, HI_IO_FUNC_GPIO_12_UART2_RXD); // uart2 rx //#endif//3.初始化UART2配置,115200,数据bit为8,停止位1,奇偶校验为NONE,流控为NONE//4.在任务中调用串口读写函数,收到什么数据,发送什么数据*/int usr_uart2_config(void){ int ret; //初始化UART2配置,115200,数据bit为8,停止位1,奇偶校验为NONE,流控为NONE WifiIotUartAttribute g_uart2_cfg = {115200, 8, 1, WIFI_IOT_UART_PARITY_NONE, 0}; ret = UartInit(WIFI_IOT_UART_IDX_2, &g_uart2_cfg,NULL); if (ret != 0) { printf("uart2 init failrn"); } return ret;}//1.任务处理函数static void* Uart2Demo_Task(const char* arg){ unsigned char buff[50] = {0}; unsigned int len = 0; (void)arg; printf("[Uart2Demo] Uart2Demo_Task()n"); GpioInit();//使用GPIO,都需要调用该接口 printf("UART2 init...rn"); usr_uart2_config(); while(1) { //logic code for task unsigned int ui = 0; len = UartRead(WIFI_IOT_UART_IDX_2, buff, 50);//接收串口2数据 if(len > 0) { printf("UART2 recv len=%drn", len); for(ui = 0 ; ui < len; ui++) { printf("0x%xrn", buff[ui]); } UartWrite(WIFI_IOT_UART_IDX_2, buff, len);//数据发送给串口2 } //usleep(500000); usleep(100000); } return NULL;}//2.任务入口函数static void Uart2Demo_Entry(void){ osThreadAttr_t attr = {0}; printf("[Uart2Demo] Uart2Demo_Entry()n"); attr.name = "Uart2Demo_Task"; attr.attr_bits = 0U; attr.cb_mem = NULL; attr.cb_size = 0U; attr.stack_mem = NULL; attr.stack_size = 1024;//堆栈大小 attr.priority = osPriorityNormal;//优先级 if (osThreadNew((osThreadFunc_t)Uart2Demo_Task, NULL, &attr) == NULL) { printf("[Uart2Demo] Falied to create LedTask!n"); }}//3.注册模块SYS_RUN(Uart2Demo_Entry);6.业务代码的编译脚本 BUILD.gn
路径:codeapplicationssamplewifi-iotappuart2_demoBUILD.gn
static_library("uart2_demo_app") { sources = [ "uart2_demo.c" ] include_dirs = [ "//utils/native/lite/include", "//kernel/liteos_m/components/cmsis/2.0", "//base/iot_hardware/interfaces/kits/wifiiot_lite", ]}
7.模块的编译脚本BUILD.gn
路径:codeapplicationssamplewifi-iotappBUILD.gn
import("//build/lite/config/component/lite_component.gni")lite_component("app") { features = [ "startup", #"hello_world:hello_world_app", "uart2_demo:uart2_demo_app" ]}
执行结果,左侧是开发板原来的串口0,右侧是新增的串口2
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