/**************************************************************************** Copyright(c) 2019 by Aerospace C.Power (Chongqing) Microelectronics. ALL RIGHTS RESERVED. This Information is proprietary to Aerospace C.Power (Chongqing) Microelectronics and MAY NOT be copied by any method or incorporated into another program without the express written consent of Aerospace C.Power. This Information or any portion thereof remains the property of Aerospace C.Power. The Information contained herein is believed to be accurate and Aerospace C.Power assumes no responsibility or liability for its use in any way and conveys no license or title under any patent or copyright and makes no representation or warranty that this Information is free from patent or copyright infringement. ****************************************************************************/ #include "os_utils.h" #include "chip_reg_base.h" #include "hw_reg_api.h" #include "ahb.h" #include "gpio_mtx.h" #include "iot_led.h" #include "ledc.h" #include "sec_glb.h" #include "iot_io.h" #include "dbg_io.h" #define REG32(a) (*((volatile uint32_t *)(a))) void gpio_sel() { gpio_mtx_enable(); gpio_sig_info_t sfc = { 2, { {IO_TYPE_OUT, 0, 0, 0xff, 49}, {IO_TYPE_OUT, 0, 1, 0xff, 50}, } }; gpio_module_pin_select(&sfc); gpio_module_sig_select(&sfc, GPIO_MTX_MODE_MATRIX); // gpio output inv gpio_pin_oinv(1, 1); gpio_pin_oinv(0, 1); } void led_ctrl_test() { ledc_ena_rst(); //set l2h value ledc_set_l2h_val(0, 0x00); // config target ledc_target_cfg(0, 1, 0, 1, 1, 0); ledc_target_value(0, 0x100); // set timer ledc_timer_cfg(0, 0, 0, 0, 0x20000, 11); // conf ledc ledc_cfg(0, 0, 1, 0); } void led_ctrl_test2() { iot_led_init(); volatile int i = 0; iot_led_blink(0, 1); int count = 0; iot_led_blink(0, 1); while(1) { for(i = 0; i< 1000000; i++); count++; if (count > 10) { iot_led_off(1); } else if (count > 5) { iot_printf("turn off\n"); iot_led_off(0); } else if (count > 3) { iot_printf("count %d\n", count); iot_led_blink(1, 1); REG32(0x44007048) = 0x80; } } } void led_ctrl_test3() { volatile int i = 0; int count = 0; iot_led_off(1); while(1) { for(i = 0; i< 10000000; i++); count++; if (count > 20) { count = 0; } else if (count > 10) { iot_led_on(0); } else if (count > 5) { iot_printf("turn off\n"); iot_led_off(0); } else if (count > 3) { REG32(0x44007048) = 0x80; } iot_led_blink(1, 1); iot_printf("count %d\n", count); } } void led_ctrl_test4() { iot_led_blink(0, 1); } void led_ctrl_test5() { //iot_led_light(0, 1000); } void led_ctrl_test_kl2() { ledc_ena_rst(); // config timer, timer0 for led0, timer1 for led1, timer2 for reference led ledc_timer_cfg(0, 0, 0, 0, 0x10000, 5); ledc_timer_cfg(1, 0, 0, 0, 0x10000, 5); ledc_timer_cfg(2, 0, 0, 0, 0x10001, 5); #if 1 // enable reference led clock ledc_set_l2h_val(8, 0); ledc_target_value(8, 0xa0); ledc_target_cfg(8, LED_TARGET_SHADOW_ENA, LED_TARGET_DEC, 8, 1, 2); // led config ledc_cfg(8, 1, 1, 2); #endif #if 1 // enable test led0 ledc_set_l2h_val(0, 0); ledc_target_value(0, 0xa0); ledc_target_cfg(0, LED_TARGET_SHADOW_ENA, LED_TARGET_DEC, 0, 1, 1); ledc_cfg(0, 0, 1, 0); // use reference led ledc_out_ref(0, 1); #endif #if 1 // enable test led1 ledc_set_l2h_val(1, 0); ledc_target_value(1, 0xa0); ledc_target_cfg(1, LED_TARGET_SHADOW_ENA, LED_TARGET_DEC, 0, 1, 1); ledc_cfg(1, 0, 1, 1); // use reference led ledc_out_ref(1, 1); #endif return; } int main(void) { dbg_uart_init(); gpio_sel(); iot_printf("test led\n"); #if 0 // kunlun1 iot_led_init(); //led_ctrl_test(); //led_ctrl_test2(); //led_ctrl_test3(); //led_ctrl_test4(); //led_ctrl_test5(); #else // kunlun2 led_ctrl_test_kl2(); #endif iot_printf("end.......\n"); return 0; }