本文介绍了一段用于 RT5350 芯片上通过寄存器操作来控制 LED 的 C 语言代码。文章详细展示了如何定义寄存器地址并读取初始状态,以及如何设置特定位来关闭 LED,并打印调试信息。
#if defined (RT5350_ASIC_BOARD)
u32 regvalue;
#define REG_3052_ADDRESS_BASE 0xb0000000
#define REG_3052_GIO_ADDRESS_SHIFT 0x180000
#define REG_3052_GIO_ADDRESS_LED (REG_3052_ADDRESS_BASE+REG_3052_GIO_ADDRESS_SHIFT+0x102c)
regvalue = *(volatile u_long *)(REG_3052_GIO_ADDRESS_LED);
#ifdef DEBUG
printf("******************************\n");
printf("\n Default 102c = %08X \n",regvalue);
printf("******************************\n");
#endif
regvalue |= (1UL << 30);
#ifdef DEBUG
printf("******************************\n");
printf("\n Set 102c = %08X to Set LED OFF\n",regvalue);
printf("******************************\n");
#endif
*(volatile u_long *)(REG_3052_GIO_ADDRESS_LED) = regvalue;
#endif
u32 regvalue;
#define REG_3052_ADDRESS_BASE 0xb0000000
#define REG_3052_GIO_ADDRESS_SHIFT 0x180000
#define REG_3052_GIO_ADDRESS_LED (REG_3052_ADDRESS_BASE+REG_3052_GIO_ADDRESS_SHIFT+0x102c)
regvalue = *(volatile u_long *)(REG_3052_GIO_ADDRESS_LED);
#ifdef DEBUG
printf("******************************\n");
printf("\n Default 102c = %08X \n",regvalue);
printf("******************************\n");
#endif
regvalue |= (1UL << 30);
#ifdef DEBUG
printf("******************************\n");
printf("\n Set 102c = %08X to Set LED OFF\n",regvalue);
printf("******************************\n");
#endif
*(volatile u_long *)(REG_3052_GIO_ADDRESS_LED) = regvalue;
#endif
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