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kunlun/dtest/dtest3/unit_test_ledc/unit_test_ledc.c
andy c756587541 初始提交
2024-09-28 14:24:04 +08:00

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#include "iot_bitops.h"
#include "dtest_printf.h"
#include "cpu.h"
#include "ahb.h"
#if HW_PLATFORM > HW_PLATFORM_SIMU
#include "dbg_io.h"
#endif
#include "chip_reg_base.h"
#include "ahb_rf_s.h"
#include "uart.h"
#include "strformat.h"
#include "uart_e.h"
#include "iot_irq.h"
#include "dev_spinlock.h"
#include "apb.h"
#include "gpio_mtx.h"
#include "ledc_hw.h"
#include "watchdog.h"
#include "gp_timer.h"
#include "iot_clock.h"
#include "iot_led.h"
void register_print_by_addr(uint32_t addr, int num);
void delay_sometime(void);
void wdt_cpu_reset_test(LEDC_PORT ch);
void wdt_full_reset_test(LEDC_PORT ch);
void software_rst_test(LEDC_PORT ch);
void led_hal_test(void);
void ledc_interrrupt_cb(uint8_t port)
{
iot_printf("port%d done\r\n", port);
}
typedef struct ledc_para_t {
uint16_t div;//uint32_t clk_period;
uint16_t l2h_point;
uint16_t h2l_point;
uint16_t phase1_blink_times;
uint16_t phase2_blink_times;
uint16_t thrs;
uint8_t phase_num;
uint8_t phase1_mode;
uint8_t phase2_mode;
uint8_t phase1_scale;
uint8_t phase2_scale;
uint8_t cycle_times;
uint8_t loop_times;
uint16_t nop_num;
}ledc_para_s;
void start_ledc(uint8_t ch)
{
ledc_cnt_ena(ch, LEDC_ENA_ENABLE);
}
void stop_ledc(uint8_t ch)
{
ledc_cnt_ena(ch, LEDC_ENA_DISABLE);
}
void config_ledc(uint8_t ch, ledc_para_s * para)
{
//中断初始化
ledc_interrupt_init(ch, ledc_interrrupt_cb);
//2
ledc_timer_rst(ch);
ledc_timer_init(ch, para->div); // 24 --> 1M
ledc_timer_ctrl(ch, TIMER_CTRL_START);
//3
ledc_polarity_sel(ch, OUT_POL_ORIGINAL);//OUT_POL_INVERT);
ledc_idle_level_sel(ch, IDLE_LEVEL_LOW);//IDLE_LEVEL_HIGH);
//4
ledc_h2l_point_set(ch, para->h2l_point);
ledc_l2h_point_set(ch, para->l2h_point);
//5
ledc_phase1_blink_times_set(ch, para->phase1_blink_times); // thrs/scale
ledc_phase2_blink_times_set(ch, para->phase2_blink_times);
//6
ledc_duty_cnt_sel(ch, DUTY_CNT_OWN);
ledc_thrs_set(ch, para->thrs); // 1000 -> 1k
//7
ledc_phase_opt_sel(ch, DUTY_OPT_MODE_NEW);
ledc_phase_num_sel(ch, para->phase_num);
ledc_phase1_mode_sel(ch, para->phase1_mode);
ledc_phase2_mode_sel(ch, para->phase2_mode);
ledc_phase1_scale_set(ch, para->phase1_scale);
ledc_phase2_scale_set(ch, para->phase2_scale);
ledc_cycle_times_set(ch, para->cycle_times);
ledc_loop_times_set(ch, para->loop_times);
ledc_nop_num_set(ch, para->nop_num);
}
void delay(int times)
{
for(int i = 0; i < times; i++)
{
delay_sometime();
}
}
ledc_para_s para_table[] = {
{//0
.div = 24,
.h2l_point = 999,
.l2h_point = 500,
.phase1_blink_times = 50,
.phase2_blink_times = 50,
.thrs = 999,
.phase_num = PHASE_NUM_ONE,
.phase1_mode = PHASE_MODE_INCREASE,
.phase2_mode = PHASE_MODE_INCREASE,
.phase1_scale = 15,
.phase2_scale = 20,
.cycle_times = 3,
.loop_times = 7,
.nop_num = 200,
},
{//1
.div = 24,
.h2l_point = 1000,
.l2h_point = 500,
.phase1_blink_times = 10,
.phase2_blink_times = 10,
.thrs = 1000,
.phase_num = PHASE_NUM_TWO,
.phase1_mode = PHASE_MODE_INCREASE,
.phase2_mode = PHASE_MODE_DECREASE,
.phase1_scale = 50,
.phase2_scale = 50,
.cycle_times = 3,
.loop_times = 7,
.nop_num = 200,
},
{//2
.div = 24,
.h2l_point = 1000,
.l2h_point = 500,
.phase1_blink_times = 10,
.phase2_blink_times = 10,
.thrs = 1000,
.phase_num = PHASE_NUM_TWO,
.phase1_mode = PHASE_MODE_INCREASE,
.phase2_mode = PHASE_MODE_DECREASE,
.phase1_scale = 50,
.phase2_scale = 100,
.cycle_times = 3,
.loop_times = 7,
.nop_num = 200,
},
{//3
.div = 24,
.h2l_point = 1000,
.l2h_point = 500,
.phase1_blink_times = 10,
.phase2_blink_times = 10,
.thrs = 1000,
.phase_num = PHASE_NUM_TWO,
.phase1_mode = PHASE_MODE_INCREASE,
.phase2_mode = PHASE_MODE_DECREASE,
.phase1_scale = 50,
.phase2_scale = 25,
.cycle_times = 3,
.loop_times = 7,
.nop_num = 200,
},
{//4
.div = 24,
.h2l_point = 1000,
.l2h_point = 500,
.phase1_blink_times = 10,
.phase2_blink_times = 10,
.thrs = 1000,
.phase_num = PHASE_NUM_TWO,
.phase1_mode = PHASE_MODE_INCREASE,
.phase2_mode = PHASE_MODE_INCREASE,
.phase1_scale = 50,
.phase2_scale = 25,
.cycle_times = 3,
.loop_times = 7,
.nop_num = 200,
},
{//5
.div = 24,
.h2l_point = 1000,
.l2h_point = 250,
.phase1_blink_times = 10,
.phase2_blink_times = 10,
.thrs = 1000,
.phase_num = PHASE_NUM_TWO,
.phase1_mode = PHASE_MODE_FIXED_DUTY,
.phase2_mode = PHASE_MODE_INCREASE,
.phase1_scale = 50,
.phase2_scale = 25,
.cycle_times = 3,
.loop_times = 7,
.nop_num = 200,
},
{//6
.div = 24,
.h2l_point = 1000,
.l2h_point = 250,
.phase1_blink_times = 10,
.phase2_blink_times = 10,
.thrs = 1000,
.phase_num = PHASE_NUM_TWO,
.phase1_mode = PHASE_MODE_FIXED_DUTY,
.phase2_mode = PHASE_MODE_INCREASE,
.phase1_scale = 50,
.phase2_scale = 150,
.cycle_times = 5,
.loop_times = 7,
.nop_num = 200,
},
{//7
.div = 24,
.h2l_point = 1000,
.l2h_point = 250,
.phase1_blink_times = 10,
.phase2_blink_times = 10,
.thrs = 1000,
.phase_num = PHASE_NUM_TWO,
.phase1_mode = PHASE_MODE_FIXED_DUTY,
.phase2_mode = PHASE_MODE_DECREASE,
.phase1_scale = 50,
.phase2_scale = 150,
.cycle_times = 5,
.loop_times = 7,
.nop_num = 200,
},
{//8
.div = 24,
.h2l_point = 1000,
.l2h_point = 250,
.phase1_blink_times = 20,
.phase2_blink_times = 15,
.thrs = 1000,
.phase_num = PHASE_NUM_TWO,
.phase1_mode = PHASE_MODE_INCREASE,
.phase2_mode = PHASE_MODE_DECREASE,
.phase1_scale = 100,
.phase2_scale = 100,
.cycle_times = 5,
.loop_times = 7,
.nop_num = 200,
},
{//9
.div = 24,
.h2l_point = 1000,
.l2h_point = 250,
.phase1_blink_times = 20,
.phase2_blink_times = 15,
.thrs = 1000,
.phase_num = PHASE_NUM_TWO,
.phase1_mode = PHASE_MODE_INCREASE,
.phase2_mode = PHASE_MODE_FIXED_DUTY,
.phase1_scale = 100,
.phase2_scale = 100,
.cycle_times = 5,
.loop_times = 7,
.nop_num = 200,
},
};
extern struct uart_ctrl uart_e_ctrl;
void mode_switch_test(int ch)
{
ledc_para_s para_flash;
ledc_para_s para_dark2light_breath;
ledc_para_s para_light2dark_breath;
ledc_para_s light2dark_flash;
ledc_para_s dark2light_flash;
//-----------------------------
para_flash.div = 249; // 100k
para_flash.l2h_point = 20000;
para_flash.h2l_point = 40000;
para_flash.phase1_blink_times = 10;
para_flash.phase2_blink_times = 10;
para_flash.thrs = 40000; // 5hz
para_flash.phase_num = PHASE_NUM_TWO;
para_flash.phase1_mode = PHASE_MODE_FIXED_DUTY;
para_flash.phase2_mode = PHASE_MODE_FIXED_DUTY;
para_flash.phase1_scale = 200;
para_flash.phase2_scale = 200;
para_flash.cycle_times = 70;
para_flash.loop_times = 10;
para_flash.nop_num = 10;
//----------------------------------------------
para_light2dark_breath.div = 24; // 100k
para_light2dark_breath.l2h_point = 10000;
para_light2dark_breath.h2l_point = 20000;
para_light2dark_breath.phase1_blink_times = 100;
para_light2dark_breath.phase2_blink_times = 100;
para_light2dark_breath.thrs = 20000; // 5hz
para_light2dark_breath.phase_num = PHASE_NUM_TWO;
para_light2dark_breath.phase1_mode = PHASE_MODE_INCREASE;
para_light2dark_breath.phase2_mode = PHASE_MODE_DECREASE;
para_light2dark_breath.phase1_scale = 200;
para_light2dark_breath.phase2_scale = 200;
para_light2dark_breath.cycle_times = 70;
para_light2dark_breath.loop_times = 10;
para_light2dark_breath.nop_num = 10;
//----------------------------------------------
para_dark2light_breath.div = 24; // 100k
para_dark2light_breath.l2h_point = 10000;
para_dark2light_breath.h2l_point = 20000;
para_dark2light_breath.phase1_blink_times = 100;
para_dark2light_breath.phase2_blink_times = 100;
para_dark2light_breath.thrs = 20000; // 5hz
para_dark2light_breath.phase_num = PHASE_NUM_TWO;
para_dark2light_breath.phase1_mode = PHASE_MODE_DECREASE;
para_dark2light_breath.phase2_mode = PHASE_MODE_INCREASE;
para_dark2light_breath.phase1_scale = 200;
para_dark2light_breath.phase2_scale = 200;
para_dark2light_breath.cycle_times = 70;
para_dark2light_breath.loop_times = 10;
para_dark2light_breath.nop_num = 10;
//----------------------------------------------
light2dark_flash.div = 24; // 100k
light2dark_flash.l2h_point = 10000;
light2dark_flash.h2l_point = 20000;
light2dark_flash.phase1_blink_times = 100;
light2dark_flash.phase2_blink_times = 100;
light2dark_flash.thrs = 20000; // 5hz
light2dark_flash.phase_num = PHASE_NUM_ONE;
light2dark_flash.phase1_mode = PHASE_MODE_INCREASE;
light2dark_flash.phase2_mode = PHASE_MODE_FIXED_DUTY;
light2dark_flash.phase1_scale = 200;
light2dark_flash.phase2_scale = 200;
light2dark_flash.cycle_times = 70;
light2dark_flash.loop_times = 10;
light2dark_flash.nop_num = 10;
//----------------------------------------------
dark2light_flash.div = 24; // 100k
dark2light_flash.l2h_point = 10000;
dark2light_flash.h2l_point = 20000;
dark2light_flash.phase1_blink_times = 100;
dark2light_flash.phase2_blink_times = 100;
dark2light_flash.thrs = 20000; // 5hz
dark2light_flash.phase_num = PHASE_NUM_ONE;
dark2light_flash.phase1_mode = PHASE_MODE_DECREASE;
dark2light_flash.phase2_mode = PHASE_MODE_FIXED_DUTY;
dark2light_flash.phase1_scale = 200;
dark2light_flash.phase2_scale = 200;
dark2light_flash.cycle_times = 70;
dark2light_flash.loop_times = 10;
dark2light_flash.nop_num = 10;
for(;;) {
stop_ledc(ch);
config_ledc(ch, &para_flash);
start_ledc(ch);
delay(100);
stop_ledc(ch);
config_ledc(ch, &para_dark2light_breath);
start_ledc(ch);
delay(100);
stop_ledc(ch);
config_ledc(ch, &para_light2dark_breath);
start_ledc(ch);
delay(100);
stop_ledc(ch);
config_ledc(ch, &light2dark_flash);
start_ledc(ch);
delay(100);
stop_ledc(ch);
config_ledc(ch, &dark2light_flash);
start_ledc(ch);
delay(100);
}
}
#define foreach(times, statement) \
for(int __i__ = 0; __i__ < times; __i__ ++) { \
statement \
}
void wdt_reset_test()
{
}
uint8_t g_pin_table[] = {
26, // j208 8
27, // j208 7
28, // j208 10
9, // j204 19
12, // 38
11, // 36
39, // 10
8, // j213 T1 只能作为输出
7 // R1 只能作为输入
};
/*
cmd ch gpio
00 00 08 以para_table[0]为参数进行测试对LEDC0进行测试波形从GPIO8输出
00 01 08 以para_table[1]为参数进行测试对LEDC1进行测试波形从GPIO8输出
02 02 08 以para_table[2]为参数进行测试对LEDC2进行测试波形从GPIO8输出
55 00 08 LEDC0 动态模式切换测试波形从GPIO8输出
56 01 08 LEDC1 看门狗cputrst测试波形从GPIO8输出
57 full rst 其他同上
58 software rst
*/
extern void _start(void);
int main(void)
{
iot_interrupt_init(0);
dbg_uart_init();
iot_printf("total paras = %d\r\n", sizeof(para_table)/sizeof(para_table[0]) );
ahb_core0_set_start((uint32_t) _start);
volatile int i = 0;
while(1) {
if (uart_e_ctrl.rx_fifo_cnt(UART_PT0) > 2) {
int c = uart_e_ctrl.getc(UART_PT0);
int ch = uart_e_ctrl.getc(UART_PT0);
int gpio = 8;
gpio = uart_e_ctrl.getc(UART_PT0);
iot_printf("cmd=%d,ch=%d;gpio=%d\r\n", c, ch, gpio);
if (c == 0x59) {
iot_printf("entry mode led hal test \r\n");
led_hal_test();
}
ledc_ena_rst();
ledc_gpio_config(ch, gpio);
//中断初始化
ledc_interrupt_init(ch, ledc_interrrupt_cb);
if (c >=0 && c <= sizeof(para_table)/sizeof(para_table[0])) {
iot_printf("use para %d testig\r\n", c);
stop_ledc(ch);
config_ledc(ch, &para_table[c]);
start_ledc(ch);
} else if(c == 0x55) {
iot_printf("entry mode switch test dead loop\r\n");
mode_switch_test(ch);
} else if( c == 0x56) {
iot_printf("entry mode wdt cpu rst test \r\n");
wdt_cpu_reset_test(ch);
} else if (c == 0x57) {
iot_printf("entry mode wdt full rst test \r\n");
wdt_full_reset_test(ch);
} else if (c == 0x58) {
iot_printf("entry mode software rst test \r\n");
software_rst_test(ch);
}
}else {
i ++;
if (i >= 100000) {
//iot_printf("wait cmd\r\n");
i = 0;
}
}
}
}
//中断测试
//25M
int main3(void)
{
uint8_t ch = 0;
uint8_t div = 24; // 1M
uint16_t h2l = 20000; // h2l must large than l2h
uint16_t l2h = 5000;
uint16_t phase1_blink_times = 100;
uint16_t phase2_blink_times = 100;
uint16_t thrs = 20000;
uint8_t phase_num = PHASE_NUM_TWO;
uint8_t phase1_mode = PHASE_MODE_INCREASE;//PHASE_MODE_FIXED_DUTY;//PHASE_MODE_DECREASE
uint8_t phase2_mode = PHASE_MODE_DECREASE;
uint8_t phase1_scale = 200;
uint8_t phase2_scale = 200;
uint8_t cycle_times = 70;
uint8_t loop_times = 1;
uint16_t nop_num = 200;
dbg_uart_init();
iot_interrupt_init();
ledc_ena_rst();
ledc_gpio_config(ch, 26);
//1
ledc_cnt_ena(ch, LEDC_ENA_DISABLE);
//中断初始化
ledc_interrupt_init(ch, ledc_interrrupt_cb);
//2
ledc_timer_rst(ch);
ledc_timer_init(ch, div); // 24 --> 1M
ledc_timer_ctrl(ch, TIMER_CTRL_START);
//3
ledc_polarity_sel(ch, OUT_POL_INVERT);
ledc_idle_level_sel(ch, IDLE_LEVEL_HIGH);
//4
ledc_h2l_point_set(ch, h2l);
ledc_l2h_point_set(ch, l2h);
//5
ledc_phase1_blink_times_set(ch, phase1_blink_times); // thrs/scale
ledc_phase2_blink_times_set(ch, phase2_blink_times);
//6
ledc_duty_cnt_sel(ch, DUTY_CNT_OWN);
ledc_thrs_set(ch, thrs); // 1000 -> 1k
//7
ledc_phase_opt_sel(ch, DUTY_OPT_MODE_NEW);
ledc_phase_num_sel(ch, phase_num);
ledc_phase1_mode_sel(ch, phase1_mode);
ledc_phase2_mode_sel(ch, phase2_mode);
ledc_phase1_scale_set(ch, phase1_scale);
ledc_phase2_scale_set(ch, phase2_scale);
ledc_cycle_times_set(ch, cycle_times);
ledc_loop_times_set(ch, loop_times);
ledc_nop_num_set(ch, nop_num);
//
ledc_cnt_ena(ch, LEDC_ENA_ENABLE);
//1.5.3
////////////////////////////////////////////////////////////////////////
ch = 2;
ledc_gpio_config(ch, 27);
//1
ledc_cnt_ena(ch, LEDC_ENA_DISABLE);
//中断初始化
ledc_interrupt_init(ch, ledc_interrrupt_cb);
//2
ledc_timer_rst(ch);
ledc_timer_init(ch, 4); // 24 --> 1M
ledc_timer_ctrl(ch, TIMER_CTRL_START);
//3
ledc_polarity_sel(ch, OUT_POL_ORIGINAL);
ledc_idle_level_sel(ch, IDLE_LEVEL_LOW);
//4
ledc_h2l_point_set(ch, 500);
ledc_l2h_point_set(ch, 250);
//5
ledc_phase1_blink_times_set(ch, 50); // thrs/scale
ledc_phase2_blink_times_set(ch, 50);
//6
ledc_duty_cnt_sel(ch, DUTY_CNT_OWN);
ledc_thrs_set(ch, 1000); // 1000 -> 500hz
//7
ledc_phase_opt_sel(ch, DUTY_OPT_MODE_NEW);
ledc_phase_num_sel(ch, PHASE_NUM_TWO);
ledc_phase1_mode_sel(ch, PHASE_MODE_INCREASE);
ledc_phase2_mode_sel(ch, PHASE_MODE_FIXED_DUTY);
ledc_phase1_scale_set(ch, 10);
ledc_phase2_scale_set(ch, 20);
ledc_cycle_times_set(ch, 10);
ledc_loop_times_set(ch, 10);
ledc_nop_num_set(ch, 200);
//
ledc_cnt_ena(ch, LEDC_ENA_ENABLE);
while(1)
{
delay_sometime();
delay_sometime();
//LEDC0->ledc0_conf._b.ledc0_idle_lv = 1;
delay_sometime();
delay_sometime();
//LEDC0->ledc0_conf._b.ledc0_idle_lv = 0;
register_print_by_addr(LEDC_REG_BASEADDR | (0x200 << 0), 8);
register_print_by_addr(LEDC_REG_BASEADDR | (0x600 << 0), 4);
}
return 0;
}
int main2(void)
{
uint8_t ch = 0;
uint8_t div = 24;
uint16_t h2l[4] = {997, 998, 999, 1000};
uint16_t l2h[4] = {497, 498, 499, 500};
uint16_t phase1_blink_times[4] = {10, 10, 10, 10};
uint16_t phase2_blink_times[4] = {5, 5, 5, 5};
uint16_t thrs = 1000;
uint8_t phase_num[4] = {PHASE_NUM_ONE,
PHASE_NUM_ONE,
PHASE_NUM_ONE,
PHASE_NUM_ONE};
uint8_t phase1_mode[4] = {PHASE_MODE_FIXED_DUTY,
PHASE_MODE_FIXED_DUTY,
PHASE_MODE_FIXED_DUTY,
PHASE_MODE_FIXED_DUTY};
uint8_t phase2_mode[4] = {PHASE_MODE_DECREASE,
PHASE_MODE_DECREASE,
PHASE_MODE_DECREASE,
PHASE_MODE_DECREASE};
uint8_t phase1_scale[4] = {100, 100, 100, 100};
uint8_t phase2_scale[4] = {100, 100, 100, 100};
uint8_t cycle_times[4] = {1, 1, 1, 1};
uint8_t loop_times[4] = {7, 7, 7, 7};
uint16_t nop_num[4]= {200, 200, 200, 200};
dbg_uart_init();
ledc_ena_rst();
//2
int common_timer = 0;
ledc_timer_rst(common_timer);
ledc_timer_init(common_timer, div); // 24 --> 1M
ledc_timer_ctrl(common_timer, TIMER_CTRL_START);
common_timer = 1;
ledc_timer_rst(common_timer);
ledc_timer_init(common_timer, div * 2); // 24 --> 1M
ledc_timer_ctrl(common_timer, TIMER_CTRL_START);
ledc_common_cnt_ena(LEDC_ENA_DISABLE);
for (ch = 0; ch <=3; ch++) {
ledc_gpio_config(ch, 26 + ch);
//1
ledc_cnt_ena(ch, LEDC_ENA_DISABLE);
//3
ledc_polarity_sel(ch, OUT_POL_ORIGINAL);
ledc_idle_level_sel(ch, IDLE_LEVEL_LOW);
//4
ledc_h2l_point_set(ch, h2l[ch]);
ledc_l2h_point_set(ch, l2h[ch]);
//5
ledc_phase1_blink_times_set(ch, phase1_blink_times[ch]); // thrs/scale
ledc_phase2_blink_times_set(ch, phase2_blink_times[ch]);
//6
ledc_duty_cnt_sel(ch, DUTY_CNT_COMMON);
ledc_thrs_set(ch, thrs); // 1000 -> 1k
//7
ledc_phase_opt_sel(ch, DUTY_OPT_MODE_NEW);
ledc_phase_num_sel(ch, phase_num[ch]);
ledc_phase1_mode_sel(ch, phase1_mode[ch]);
ledc_phase2_mode_sel(ch, phase2_mode[ch]);
ledc_phase1_scale_set(ch, phase1_scale[ch]);
ledc_phase2_scale_set(ch, phase2_scale[ch]);
ledc_cycle_times_set(ch, cycle_times[ch]);
ledc_loop_times_set(ch, loop_times[ch]);
ledc_nop_num_set(ch, nop_num[ch]);
//
ledc_cnt_ena(ch, LEDC_ENA_ENABLE);
delay_sometime();
}
ledc_common_thrs_set(thrs);
ledc_common_timer_sel(COMMON_TIMER_SEL_0);
ledc_common_cnt_ena(LEDC_ENA_ENABLE);
while(1) {
delay_sometime();
delay_sometime();
delay_sometime();
delay_sometime();
register_print_by_addr(LEDC_REG_BASEADDR , 3);
register_print_by_addr(LEDC_REG_BASEADDR | (0x200 << 0), 8);
register_print_by_addr(LEDC_REG_BASEADDR | (0x600 << 0), 4);
}
}
uint32_t *p_data = (uint32_t *)0x10038004;
void wdt_cpu_reset_test(LEDC_PORT ch)
{
/*这配置一个比较长的波形输出,然后复位,看是否有影响*/
ledc_para_s para = {
.div = 240, // 240 对应时钟频率 100k
.h2l_point = 1000,
.l2h_point = 500,
.phase1_blink_times = 50,
.phase2_blink_times = 50,
.thrs = 1000, // 结合上面分频是240则输出的波形的频率为100hz
.phase_num = PHASE_NUM_ONE,
.phase1_mode = PHASE_MODE_INCREASE,
.phase2_mode = PHASE_MODE_INCREASE,
.phase1_scale = 15,
.phase2_scale = 20,
.cycle_times = 3,
.loop_times = 7,
.nop_num = 200,
};
uint32_t cur_cpu = cpu_get_mhartid();
wdg_deinit(cur_cpu);
wdg_init(cur_cpu);
wdg_set_cmp(cur_cpu, 32768);//SET_WDG_INTC_CMP);
wdg_set_timeout_cmp(cur_cpu, 255);//SET_WDG_TIMEOUT_CMP);
wdg_set_cpurst_cmp(cur_cpu, 3);//SET_WDG_CPURST_CMP );
wdg_set_fullrst_cmp(cur_cpu, 250);//SET_WDG_FULLRST_CMP);
if (0xabcdaabb == (*p_data)) {
iot_printf("wdg cpu rst\r\n");
} else {
iot_printf("pow on rst\r\n");
(*p_data) = 0xabcdaabb;
stop_ledc(ch);
config_ledc(ch, &para);
start_ledc(ch);
}
}
void wdt_full_reset_test(LEDC_PORT ch)
{
/*这配置一个比较长的波形输出,然后复位,看是否有影响*/
ledc_para_s para = {
.div = 240, // 240 对应时钟频率 100k
.h2l_point = 1000,
.l2h_point = 500,
.phase1_blink_times = 50,
.phase2_blink_times = 50,
.thrs = 1000, // 结合上面分频是240则输出的波形的频率为100hz
.phase_num = PHASE_NUM_ONE,
.phase1_mode = PHASE_MODE_INCREASE,
.phase2_mode = PHASE_MODE_INCREASE,
.phase1_scale = 15,
.phase2_scale = 20,
.cycle_times = 3,
.loop_times = 7,
.nop_num = 200,
};
uint32_t cur_cpu = cpu_get_mhartid();
wdg_deinit(cur_cpu);
wdg_init(cur_cpu);
wdg_set_cmp(cur_cpu, 32768);//SET_WDG_INTC_CMP);
wdg_set_timeout_cmp(cur_cpu, 255);//SET_WDG_TIMEOUT_CMP);
wdg_set_cpurst_cmp(cur_cpu, 250);//SET_WDG_CPURST_CMP );
wdg_set_fullrst_cmp(cur_cpu, 3);//SET_WDG_FULLRST_CMP);
if (0xabcdaabb == (*p_data)) {
iot_printf("wdg full rst\r\n");
} else {
iot_printf("pow on rst\r\n");
(*p_data) = 0xabcdaabb;
stop_ledc(ch);
config_ledc(ch, &para);
start_ledc(ch);
}
}
void software_rst_test(LEDC_PORT ch)
{
/*这配置一个比较长的波形输出,然后复位,看是否有影响*/
ledc_para_s para = {
.div = 240, // 240 对应时钟频率 100k
.h2l_point = 1000,
.l2h_point = 500,
.phase1_blink_times = 50,
.phase2_blink_times = 50,
.thrs = 1000, // 结合上面分频是240则输出的波形的频率为100hz
.phase_num = PHASE_NUM_ONE,
.phase1_mode = PHASE_MODE_INCREASE,
.phase2_mode = PHASE_MODE_INCREASE,
.phase1_scale = 15,
.phase2_scale = 20,
.cycle_times = 3,
.loop_times = 7,
.nop_num = 200,
};
gp_timer_init();
gp_timer_set(0, 0xffffffff, 0);
gp_timer_start(0);
stop_ledc(ch);
config_ledc(ch, &para);
start_ledc(ch);
iot_delay_us(500000);
apb_glb_chip_rst();
}
#include "iot_led.h"
void led_hal_test(void)
{
iot_led_init();
iot_led_blink(0, 15);
iot_led_set_blink_interval(1000);
iot_led_enable_blink(1);
while(1) {
}
}
void register_print_by_addr(uint32_t addr, int num)
{
volatile uint32_t *p_addr = (volatile uint32_t *)addr;
iot_printf("base=%08x:", addr);
for(int i = 0; i < num; i++)
{
iot_printf("%02x=%08x,", (uint32_t)p_addr & 0xff, *p_addr);
p_addr ++;
}
iot_printf("\r\n");
}
void delay_sometime(void) {
uint32_t loop;
loop = 0;
while(loop++ < 1000000) __asm volatile ("nop\n");
}
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