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本例程以操作开发板上的I2C设备为例,详细展示I2C接口的完整使用流程。
本例拟对Hi3516DV300某开发板上TouchPad设备进行简单的寄存器读写访问,基本硬件信息如下:
SOC:hi3516dv300
Touch IC:I2C地址为0x38, IC内部寄存器位宽为1字节。
原理图信息:TouchPad设备挂接在3号I2C控制器下;IC的复位管脚为3号GPIO
本例程首先对Touch IC进行复位操作(开发板上电默认会给TouchIC供电,本例程不考虑供电),然后对其某某个内部寄存器进行随机读写,测试I2C通路是否正常。
说明: 本例程重点在于展示I2C设备访问流程,并验证I2C通路,所以对于设备寄存器读写值不做关注,读写寄存器导致的行为由设备自身决定。
示例如下:
#include "i2c_if.h" /* I2C标准接口头文件 */#include "gpio_if.h" /* GPIO标准接口头文件 */#include "hdf_log.h" /* 标准日志打印头文件 */#include "osal_io.h" /* 标准IO读写接口头文件 */#include "osal_time.h" /* 标准延迟&睡眠接口头文件 *//* 定义一个表示TP设备的结构体,存储i2c及gpio相关硬件信息 */struct TpI2cDevice {uint16_t rstGpio; /* 复位管脚 */uint16_t busId; /* I2C总线号 */uint16_t addr; /* I2C设备地址 */uint16_t regLen; /* 寄存器字节宽度 */struct DevHandle *i2cHandle; /* I2C控制器句柄 */};/* I2C管脚io配置,需要查阅SOC寄存器手册 */#define I2C3_DATA_REG_ADDR 0x112f008c /* 3号I2C控制器SDA管脚配置寄存器地址 */#define I2C3_CLK_REG_ADDR 0x112f0090 /* 3号I2C控制器SCL管脚配置寄存器地址 */#define I2C_REG_CFG 0x5f1 /* 3号I2C控制器SDA及SCL管脚配置值 */static void TpSocIoCfg(void){/* 将3号I2C控制器对应两个管脚的IO功能设置为I2C */OSAL_WRITEL(I2C_REG_CFG, IO_DEVICE_ADDR(I2C3_DATA_REG_ADDR));OSAL_WRITEL(I2C_REG_CFG, IO_DEVICE_ADDR(I2C3_CLK_REG_ADDR));}/* 对TP的复位管脚进行初始化, 拉高维持20ms, 再拉底维持50ms,最后再拉高维持20s, 完成复位动作 */static int32_t TestCaseGpioInit(struct TpI2cDevice *tpDevice){int32_t ret;/* 设置复位管脚方向为输出 */ret = GpioSetDir(tpDevice->rstGpio, GPIO_DIR_OUT);if (ret != HDF_SUCCESS) {HDF_LOGE("%s: set rst dir fail!:%d", __func__, ret);return ret;}ret = GpioWrite(tpDevice->rstGpio, GPIO_VAL_HIGH);if (ret != HDF_SUCCESS) {HDF_LOGE("%s: set rst hight fail!:%d", __func__, ret);return ret;}OsalMSleep(20);ret = GpioWrite(tpDevice->rstGpio, GPIO_VAL_LOW);if (ret != HDF_SUCCESS) {HDF_LOGE("%s: set rst low fail!:%d", __func__, ret);return ret;}OsalMSleep(50);ret = GpioWrite(tpDevice->rstGpio, GPIO_VAL_HIGH);if (ret != HDF_SUCCESS) {HDF_LOGE("%s: set rst high fail!:%d", __func__, ret);return ret;}OsalMSleep(20);return HDF_SUCCESS;}/* 基于I2cTransfer方法封装一个寄存器读写的辅助函数, 通过flag表示读或写 */static int TpI2cReadWrite(struct TpI2cDevice *tpDevice, unsigned int regAddr,unsigned char *regData, unsigned int dataLen, uint8_t flag){int index = 0;unsigned char regBuf[4] = {0};struct I2cMsg msgs[2] = {0};/* 单双字节寄存器长度适配 */if (tpDevice->regLen == 1) {regBuf[index++] = regAddr & 0xFF;} else {regBuf[index++] = (regAddr >> 8) & 0xFF;regBuf[index++] = regAddr & 0xFF;}/* 填充I2cMsg消息结构 */msgs[0].addr = tpDevice->addr;msgs[0].flags = 0; /* 标记为0,表示写入 */msgs[0].len = tpDevice->regLen;msgs[0].buf = regBuf;msgs[1].addr = tpDevice->addr;msgs[1].flags = (flag == 1) ? I2C_FLAG_READ : 0; /* 添加读标记位,表示读取 */msgs[1].len = dataLen;msgs[1].buf = regData;if (I2cTransfer(tpDevice->i2cHandle, msgs, 2) != 2) {HDF_LOGE("%s: i2c read err", __func__);return HDF_FAILURE;}return HDF_SUCCESS;}/* TP寄存器读函数 */static inline int TpI2cReadReg(struct TpI2cDevice *tpDevice, unsigned int regAddr,unsigned char *regData, unsigned int dataLen){return TpI2cReadWrite(tpDevice, regAddr, regData, dataLen, 1);}/* TP寄存器写函数 */static inline int TpI2cWriteReg(struct TpI2cDevice *tpDevice, unsigned int regAddr,unsigned char *regData, unsigned int dataLen){return TpI2cReadWrite(tpDevice, regAddr, regData, dataLen, 0);}/* I2C例程总入口 */static int32_t TestCaseI2c(void){int32_t i;int32_t ret;unsigned char bufWrite[7] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xA, 0xB, 0xC };unsigned char bufRead[7] = {0};static struct TpI2cDevice tpDevice;/* IO管脚功能配置 */TpSocIoCfg();/* TP设备信息初始化 */tpDevice.rstGpio = 3;tpDevice.busId = 3;tpDevice.addr = 0x38;tpDevice.regLen = 1;tpDevice.i2cHandle = NULL;/* GPIO管脚初始化 */ret = TestCaseGpioInit(&tpDevice);if (ret != HDF_SUCCESS) {HDF_LOGE("%s: gpio init fail!:%d", __func__, ret);return ret;}/* 打开I2C控制器 */tpDevice.i2cHandle = I2cOpen(tpDevice.busId);if (tpDevice.i2cHandle == NULL) {HDF_LOGE("%s: Open I2c:%u fail!", __func__, tpDevice.busId);return -1;}/* 向TP-IC的0xD5寄存器连续写7字节数据 */ret = TpI2cWriteReg(&tpDevice, 0xD5, bufWrite, 7);if (ret != HDF_SUCCESS) {HDF_LOGE("%s: tp i2c write reg fail!:%d", __func__, ret);I2cClose(tpDevice.i2cHandle);return -1;}OsalMSleep(10);/* 从TP-IC的0xDO寄存器连续读7字节数据 */ret = TpI2cReadReg(&tpDevice, 0xD5, bufRead, 7);if (ret != HDF_SUCCESS) {HDF_LOGE("%s: tp i2c read reg fail!:%d", __func__, ret);I2cClose(tpDevice.i2cHandle);return -1;}HDF_LOGE("%s: tp i2c write&read reg success!", __func__);for (i = 0; i < 7; i++) {HDF_LOGE("%s: bufRead[%d] = 0x%x", __func__, i, bufRead[i]);}/* 访问完毕关闭I2C控制器 */I2cClose(tpDevice.i2cHandle);return ret;}
