// // Created by jedi on 25.06.21. // #include "lux.h" #include "log.h" #include "bus.h" #include "esp/spi.h" #include "espressif/esp_system.h" #include #include #include #include #include #include #include #include extern "C" { #include } const auto htons = [](uint16_t x) -> uint16_t { return ((x) << 8 & 0xFF00) | ((x) >> 8 & 0x00FF); }; const auto &ntohs = htons; const auto htonl = [](uint32_t x) -> uint32_t { return ((x) << 24 & 0xFF000000UL) | ((x) << 8 & 0x00FF0000UL) | ((x) >> 8 & 0x0000FF00UL) | ((x) >> 24 & 0x000000FFUL); }; const auto &ntohl = htonl; struct apa10xx_pixel_t { struct { unsigned int mod: 5, marker: 3; } __attribute__((packed)) global = {0x1F, 0x7}; uint8_t b = 0; uint8_t g = 0; uint8_t r = 0; }; volatile rgba_t top_color; volatile rgba_t bottom_color; volatile uint16_t light_value; volatile int32_t led_amount = 240; volatile uint16_t peripheral_version; namespace fiatlux { struct hal_error_t { constexpr hal_error_t() = default; hal_error_t(const char *) {} hal_error_t(const char *, hal_error_t *cause) {} }; constexpr hal_error_t empty_error; enum class hal_module_t { NONE, SIGNAL, RELAIS, SPI_DIMMER, WS28X, APA10X }; namespace ports { hal_module_t spi = hal_module_t::NONE; hal_module_t uart = hal_module_t::NONE; hal_module_t gpio2 = hal_module_t::NONE; hal_module_t gpio4 = hal_module_t::NONE; hal_module_t gpio5 = hal_module_t::NONE; hal_module_t gpio15 = hal_module_t::NONE; } namespace signal { void write_data(bool data) { gpio_write(2, !data); } void setup() { gpio_enable(2, GPIO_OUTPUT); } } namespace relais { void write_data(bool a, bool b) { gpio_write(4, a); gpio_write(5, b); } void write_data(uint8_t data[2]) { write_data((bool) data[0], (bool) data[1]); } void setup() { gpio_enable(4, GPIO_OUTPUT); gpio_enable(5, GPIO_OUTPUT); } } namespace spi_dimmer { constexpr int cs0 = 15; void write_data(uint16_t data[6]) { for (int i = 0; i < 6; ++i) { int dac_val = (data[i] << 2) & 0x3FFC; spi_transfer_8(1, ~(0x00)); gpio_write(cs0, true); gpio_write(cs0, false); spi_transfer_8(1, ~(0x01 << i)); gpio_write(cs0, true); gpio_write(cs0, false); spi_transfer_16(1, dac_val); spi_transfer_8(1, ~(0x00)); gpio_write(cs0, true); gpio_write(cs0, false); spi_transfer_8(1, ~(0x01 << i)); gpio_write(cs0, true); gpio_write(cs0, false); } } void setup() { gpio_enable(cs0, GPIO_OUTPUT); spi_init(1, SPI_MODE0, SPI_FREQ_DIV_1M, 1, SPI_BIG_ENDIAN, 1); } } namespace ws28x { void write_data(ws2812_pixel_t *data) { ws2812_i2s_update(data, PIXEL_RGBW); } void setup(size_t len) { ws2812_i2s_init(len, PIXEL_RGBW); } } namespace apa10x { void write_data(apa10xx_pixel_t *data, size_t len) { spi_transfer_32(1, 0x00000000); for (size_t i = 0; i < len; i++) spi_transfer_32(1, *(uint32_t *) &data[i]); //spi_transfer_32(1, *(uint32_t *) &data[len - 1]); // dunno maybe this helps //spi_transfer_32(1, *(uint32_t *) &data[len - 1]); // dunno maybe this helps spi_transfer_32(1, 0xFFFFFFFF); spi_transfer_32(1, 0xFFFFFFFF); } void setup() { spi_init(1, SPI_MODE0, SPI_FREQ_DIV_1M, 1, SPI_LITTLE_ENDIAN, false); } } hal_error_t write_channel(uint8_t *data, size_t count, size_t stride, hal_module_t mod) { if(mod == hal_module_t::SIGNAL) { if(count != 1) return "unsupported value for count"; if(stride != 1) return "unsupported value for stride"; signal::write_data(data[0]); } else if(mod == hal_module_t::RELAIS) { if(count != 2) return "unsupported value for count"; if(stride != 1) return "unsupported value for stride"; relais::write_data(data); } else if(mod == hal_module_t::SPI_DIMMER) { if(count != 6) return "unsupported value for count"; if(stride != 2) return "unsupported value for stride"; spi_dimmer::write_data((uint16_t *) data); } else if(mod == hal_module_t::WS28X) { if(stride != 4) return "unsupported value for stride"; ws28x::write_data((ws2812_pixel_t *) data); } else if(mod == hal_module_t::APA10X) { if(stride != 4) return "unsupported value for stride"; apa10x::write_data((apa10xx_pixel_t *) data, count); } else { return "unsupported module"; } return empty_error; } hal_error_t setup_channel(size_t count, size_t stride, hal_module_t mod) { /*if(mod == hal_module_t::SIGNAL) { if(count != 1) return "unsupported value for count"; if(stride != 1) return "unsupported value for stride"; signal::write_data(data[0]); } else if(mod == hal_module_t::RELAIS) { if(count != 2) return "unsupported value for count"; if(stride != 1) return "unsupported value for stride"; relais::write_data(data); } else if(mod == hal_module_t::SPI_DIMMER) { if(count != 6) return "unsupported value for count"; if(stride != 2) return "unsupported value for stride"; spi_dimmer::write_data((uint16_t *) data); } else if(mod == hal_module_t::WS28X) { if(stride != 4) return "unsupported value for stride"; ws28x::write_data((ws2812_pixel_t *) data, count); } else if(mod == hal_module_t::APA10X) { if(stride != 4) return "unsupported value for stride"; apa10x::write_data((apa10xx_pixel_t *) data, count); } else { return "unsupported module"; }*/ return empty_error; } } //ws2812_pixel_t **pixels_ptr; extern "C" void signal_led(bool state) { fiatlux::signal::write_data(state); } extern "C" bool set_cc48x6(uint16_t a[6]) { return bus_transfer_msg_arr(1, a, 6); } extern "C" bool set_cc48(uint16_t a) { uint16_t d[6] = {a, a, a, a, a, a}; return set_cc48x6(d); } /* This task uses the high level GPIO API (esp_gpio.h) to blink an LED. * */ extern "C" [[noreturn]] void lux_task(void *pvParameters) { fiatlux::signal::setup(); fiatlux::relais::setup(); //bus_init(); led_amount = 240; auto ret = sysparam_get_int32("led_amount", (int32_t*)&led_amount); if(ret != SYSPARAM_OK) led_amount = 240; //int32_t lux_apa10xx_number = 40; //ret = sysparam_get_int32("lux_apa10xx_number", &lux_apa10xx_number); //if(ret != SYSPARAM_OK) // lux_apa10xx_number = 40; int32_t current_led_amount = led_amount; ws2812_pixel_t pixels[current_led_amount]; ws2812_i2s_init(current_led_amount, PIXEL_RGBW); memset(pixels, 0, sizeof(ws2812_pixel_t) * current_led_amount); //apa10xx_pixel_t leds[lux_apa10xx_number]; // TODO //lux_apa102c_number //gpio_enable(9, GPIO_INPUT); //gpio_enable(10, GPIO_INPUT); //fiatlux::spi_dimmer::setup(); //fiatlux::apa10x::setup(); /* CC48 API: - 12 x 16bit registers - [2*n] = 12bit constant current value - [2*n+1] = 8bit PWM value */ //{ // peripheral_version = bus_get_version(); // syslog("peripheral_version: "); // syslog_i32(peripheral_version); // syslog("\n"); //} // //light_value = 0xFFF; //uint16_t last_light_value = 0xFFFF; while (true) { //fiatlux::signal::write_data(false); //if(last_light_value != light_value) { // // syslog("# "); // syslog_i32(light_value); // syslog("\n"); // // bool ok = set_cc48(light_value); // // if(ok) { // last_light_value = light_value; // vTaskDelay(1000 / portTICK_PERIOD_MS); // } else { // syslog("reset_bus\n"); // reset_bus(); // vTaskDelay(1000 / portTICK_PERIOD_MS); // } // //} else { // bool ping = bus_ping(); // if(!ping) { // syslog("ping: reset_bus\n"); // reset_bus(); // vTaskDelay(1000 / portTICK_PERIOD_MS); // } //} for (int i = 0; i < current_led_amount; i++) pixels[i] = {{top_color.r, top_color.g, top_color.b, top_color.a}}; //for (int i = 120; i < 240; i++) // pixels[i] = {{bottom_color.r, bottom_color.g, bottom_color.b, bottom_color.a}}; ws2812_i2s_update(pixels, PIXEL_RGBW); //uint32_t lt = sdk_system_get_time(); vTaskDelay(200 / portTICK_PERIOD_MS); //uint32_t dt = sdk_system_get_time() - lt; //printf("delay: %d, expect: %d\n", dt, configTICK_RATE_HZ * 200); /*//fiatlux::write_channel((uint8_t *) &leds[0], lux_apa10xx_number, 4, fiatlux::hal_module_t::APA10X); vTaskDelay(200 / portTICK_PERIOD_MS); fiatlux::relais::write_data(true, false); vTaskDelay(200 / portTICK_PERIOD_MS); fiatlux::relais::write_data(false, true); vTaskDelay(200 / portTICK_PERIOD_MS); fiatlux::relais::write_data(false, false); fiatlux::signal::write_data(true); vTaskDelay(200 / portTICK_PERIOD_MS);*/ } }