#include //定义布尔 #include #include "key.h" #include "port.h" #include "systicket.h" #include "this_device.h" static key_t s_keys[] = { s_key_init("powerkey", port_gpio_get_power_key_state), s_key_init("levelkey", port_gpio_get_level_key_state), s_key_init("timerkey", port_gpio_get_timer_key_state), s_key_init("intervalkey", port_gpio_get_interval_key_state), }; static ThisDevice_t this_device; static void mf_led_rgb_set(bool red, bool green, bool blue) { port_led_r_set(red); port_led_g_set(green); port_led_b_set(blue); } static void mf_init_all_subdevice_state() { port_debug_set(false); port_fan_set(false); port_led0_set(false); port_led1_set(false); port_led2_set(false); port_led3_set(false); port_led_r_set(false); port_led_g_set(false); port_led_b_set(false); } static void time_set_led_state(uint8_t led_num, bool state) { switch (led_num) { case 0: port_led0_set(false); port_led1_set(false); port_led2_set(false); port_led3_set(false); break; case 1: port_led0_set(state); port_led1_set(false); port_led2_set(false); port_led3_set(false); break; case 2: port_led0_set(state); port_led1_set(state); port_led2_set(false); port_led3_set(false); break; case 3: port_led0_set(state); port_led1_set(state); port_led2_set(state); port_led3_set(false); break; case 4: port_led0_set(state); port_led1_set(state); port_led2_set(state); port_led3_set(state); break; default: printf("no more led\n"); break; } } //开始工作 static void startwork() { port_fan_set(true); } //停止工作 static void stopwork() { port_fan_set(false); } static void poweron() { this_device.power = true; this_device.ozone_level = level_low; this_device.ozone_module = normal; startwork(); return; } static void powerdown() { this_device.power = false; stopwork(); return; } // 各个按键处理逻辑 static void mf_process_poweron_key(key_t *key) { printf("key name:%s\n", key->name); if (!this_device.power) { mf_init_all_subdevice_state(); poweron(); } else { powerdown(); } return; } static void mf_process_level_key(key_t *key) { if (!this_device.power) { mf_init_all_subdevice_state(); return; } printf("key name:%s\n", key->name); if (this_device.ozone_level == level_high) { this_device.ozone_level = level_low; } else if (this_device.ozone_level == level_low) { this_device.ozone_level = level_high; } return; } static void mf_process_timer_key(key_t *key) { if (!this_device.power) { mf_init_all_subdevice_state(); return; } printf("key name:%s\n", key->name); this_device.ozone_module = timingMode; if (this_device.configuration_mode == false) { this_device.configuration_start_time = systicket_get_now_ms(); this_device.configuration_mode = true; } else { this_device.time_led_num = this_device.time_led_num + 1; if (this_device.time_led_num > 4) { this_device.time_led_num = this_device.time_led_num - 4; } this_device.time_led_start_time = systicket_get_now_ms(); } return; } static void mf_process_interval_key(key_t *key) { if (!this_device.power) { mf_init_all_subdevice_state(); return; } printf("key name:%s\n", key->name); this_device.ozone_module = intermittentMode; return; } static void onkey(key_t *key, key_state_t key_state) { if /* */ (strcmp(key->name, "powerkey") == 0 && zks_rising_edge == key_state) { mf_process_poweron_key(key); } else if (strcmp(key->name, "levelkey") == 0 && zks_rising_edge == key_state) { mf_process_level_key(key); } else if (strcmp(key->name, "timerkey") == 0 && zks_rising_edge == key_state) { mf_process_timer_key(key); } else if (strcmp(key->name, "intervalkey") == 0 && zks_rising_edge == key_state) { mf_process_interval_key(key); } } key_module_t key_module = key_module_init(s_keys, onkey); //等级处理 void device_level_process() { if (this_device.ozone_level == level_low) { mf_led_rgb_set(true, false, false); } else if (this_device.ozone_level == level_high) { mf_led_rgb_set(false, false, true); } } //定时处理 void device_time_process() { if (this_device.time_led_num > 0 && this_device.ozone_module == timingMode) { if (systicket_haspassedms(this_device.time_led_start_time) > 5000) { this_device.time_led_start_time = systicket_get_now_ms(); this_device.time_led_num = this_device.time_led_num - 1; if (this_device.time_led_num == 0) { powerdown(); } } } } void hcis_shcedule_process() { if (!this_device.power) { mf_init_all_subdevice_state(); return; } device_level_process(); device_time_process(); } void hcis_shcedule() { static uint32_t ticket = 0; if (systicket_haspassedms(ticket) > 30) { ticket = systicket_get_now_ms(); hcis_shcedule_process(); } } void configuration_shcedule() { static bool led_state; static uint32_t led_ticket = 0; if (this_device.configuration_mode == true) { if (systicket_haspassedms(this_device.configuration_start_time) > 2000) { this_device.configuration_mode = false; time_set_led_state(this_device.time_led_num, true); } if (systicket_haspassedms(led_ticket) > 100) { led_ticket = systicket_get_now_ms(); time_set_led_state(this_device.time_led_num, led_state); led_state = !led_state; } } else { time_set_led_state(this_device.time_led_num, true); } } void hardware_init() { SystemInit(); //配置系统时钟 DeviceClockAllEnable(); //打开所有外设时钟 systicket_init(); port_init(); } void hardware_default_settings() { mf_init_all_subdevice_state(); } void flip_debuf_light_level() { static uint8_t debug_led_state = 1; debug_led_state = !debug_led_state; port_debug_set(debug_led_state); } int main() { hardware_init(); hardware_default_settings(); key_init(&key_module); while (true) { // scan key DO_IT_EACH_MS(20) { key_do_loop_in_each_period(); }; END(); // debug light DO_IT_EACH_MS(200) { flip_debuf_light_level(); // printf("fan freq:%lf\n", port_adc_get_fan_power()); } END(); hcis_shcedule(); configuration_shcedule(); } return 0; }