#include #include "RmtSigReader.h" #ifdef HAL_ESP32_RCIN using namespace ESP32; void RmtSigReader::init() { rmt_config_t config; config.rmt_mode = RMT_MODE_RX; config.channel = RMT_CHANNEL_0; config.clk_div = 80; //80MHZ APB clock to the 1MHZ target frequency config.gpio_num = HAL_ESP32_RCIN; config.mem_block_num = 2; //each block could store 64 pulses config.rx_config.filter_en = true; config.rx_config.filter_ticks_thresh = 8; config.rx_config.idle_threshold = idle_threshold; rmt_config(&config); rmt_driver_install(config.channel, max_pulses * 8, 0); rmt_get_ringbuf_handle(config.channel, &handle); rmt_rx_start(config.channel, true); } bool RmtSigReader::add_item(uint32_t duration, bool level) { bool has_more = true; if (duration == 0) { has_more = false; duration = idle_threshold; } if (level) { if (last_high == 0) { last_high = duration; } } else { if (last_high != 0) { ready_high = last_high; ready_low = duration; pulse_ready = true; last_high = 0; } } return has_more; } bool RmtSigReader::read(uint32_t &width_high, uint32_t &width_low) { if (item == nullptr) { item = (rmt_item32_t*) xRingbufferReceive(handle, &item_size, 0); item_size /= 4; current_item = 0; } if (item == nullptr) { return false; } bool buffer_empty = (current_item == item_size); buffer_empty = buffer_empty || !add_item(item[current_item].duration0, item[current_item].level0); buffer_empty = buffer_empty || !add_item(item[current_item].duration1, item[current_item].level1); current_item++; if (buffer_empty) { vRingbufferReturnItem(handle, (void*) item); item = nullptr; } if (pulse_ready) { width_high = ready_high; width_low = ready_low; pulse_ready = false; return true; } return false; } #endif