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469 lines
15 KiB
469 lines
15 KiB
/*
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Created by Chris Morgan based on the nodemcu project driver.
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Copyright 2017 Chris Morgan <chmorgan@gmail.com>
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Ported to ESP32 RMT peripheral for low-level signal generation by Arnim Laeuger.
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Permission is hereby granted, free of charge, to any person obtaining
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a copy of this software and associated documentation files (the
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"Software"), to deal in the Software without restriction, including
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without limitation the rights to use, copy, modify, merge, publish,
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distribute, sublicense, and/or sell copies of the Software, and to
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permit persons to whom the Software is furnished to do so, subject to
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the following conditions:
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The above copyright notice and this permission notice shall be
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included in all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
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LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
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OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
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WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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Much of the code was inspired by Derek Yerger's code, though I don't
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think much of that remains. In any event that was..
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(copyleft) 2006 by Derek Yerger - Free to distribute freely.
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The CRC code was excerpted and inspired by the Dallas Semiconductor
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sample code bearing this copyright.
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//---------------------------------------------------------------------------
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// Copyright (C) 2000 Dallas Semiconductor Corporation, All Rights Reserved.
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//
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// Permission is hereby granted, free of charge, to any person obtaining a
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// copy of this software and associated documentation files (the "Software"),
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// to deal in the Software without restriction, including without limitation
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// the rights to use, copy, modify, merge, publish, distribute, sublicense,
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// and/or sell copies of the Software, and to permit persons to whom the
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// Software is furnished to do so, subject to the following conditions:
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//
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// The above copyright notice and this permission notice shall be included
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// in all copies or substantial portions of the Software.
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
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// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
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// IN NO EVENT SHALL DALLAS SEMICONDUCTOR BE LIABLE FOR ANY CLAIM, DAMAGES
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// OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
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// ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
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// OTHER DEALINGS IN THE SOFTWARE.
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//
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// Except as contained in this notice, the name of Dallas Semiconductor
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// shall not be used except as stated in the Dallas Semiconductor
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// Branding Policy.
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//--------------------------------------------------------------------------
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*/
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#include "owb.h"
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#include "driver/rmt.h"
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#include "driver/gpio.h"
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#include "esp_log.h"
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#undef OW_DEBUG
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// bus reset: duration of low phase [us]
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#define OW_DURATION_RESET 480
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// overall slot duration
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#define OW_DURATION_SLOT 75
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// write 1 slot and read slot durations [us]
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#define OW_DURATION_1_LOW 2
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#define OW_DURATION_1_HIGH (OW_DURATION_SLOT - OW_DURATION_1_LOW)
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// write 0 slot durations [us]
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#define OW_DURATION_0_LOW 65
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#define OW_DURATION_0_HIGH (OW_DURATION_SLOT - OW_DURATION_0_LOW)
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// sample time for read slot
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#define OW_DURATION_SAMPLE (15-2)
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// RX idle threshold
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// needs to be larger than any duration occurring during write slots
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#define OW_DURATION_RX_IDLE (OW_DURATION_SLOT + 2)
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// maximum number of bits that can be read or written per slot
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#define MAX_BITS_PER_SLOT (8)
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static const char * TAG = "owb_rmt";
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#define info_of_driver(owb) container_of(owb, owb_rmt_driver_info, bus)
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// flush any pending/spurious traces from the RX channel
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static void onewire_flush_rmt_rx_buf(const OneWireBus * bus)
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{
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void * p = NULL;
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size_t s = 0;
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owb_rmt_driver_info * i = info_of_driver(bus);
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while ((p = xRingbufferReceive(i->rb, &s, 0)))
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{
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ESP_LOGD(TAG, "flushing entry");
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vRingbufferReturnItem(i->rb, p);
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}
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}
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static owb_status _reset(const OneWireBus * bus, bool * is_present)
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{
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rmt_item32_t tx_items[1] = {0};
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bool _is_present = false;
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int res = OWB_STATUS_OK;
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owb_rmt_driver_info * i = info_of_driver(bus);
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tx_items[0].duration0 = OW_DURATION_RESET;
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tx_items[0].level0 = 0;
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tx_items[0].duration1 = 0;
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tx_items[0].level1 = 1;
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uint16_t old_rx_thresh = 0;
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rmt_get_rx_idle_thresh(i->rx_channel, &old_rx_thresh);
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rmt_set_rx_idle_thresh(i->rx_channel, OW_DURATION_RESET + 60);
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onewire_flush_rmt_rx_buf(bus);
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rmt_rx_start(i->rx_channel, true);
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if (rmt_write_items(i->tx_channel, tx_items, 1, true) == ESP_OK)
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{
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size_t rx_size = 0;
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rmt_item32_t * rx_items = (rmt_item32_t *)xRingbufferReceive(i->rb, &rx_size, 100 / portTICK_PERIOD_MS);
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if (rx_items)
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{
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if (rx_size >= (1 * sizeof(rmt_item32_t)))
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{
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#ifdef OW_DEBUG
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ESP_LOGI(TAG, "rx_size: %d", rx_size);
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for (int i = 0; i < (rx_size / sizeof(rmt_item32_t)); i++)
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{
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ESP_LOGI(TAG, "i: %d, level0: %d, duration %d", i, rx_items[i].level0, rx_items[i].duration0);
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ESP_LOGI(TAG, "i: %d, level1: %d, duration %d", i, rx_items[i].level1, rx_items[i].duration1);
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}
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#endif
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// parse signal and search for presence pulse
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if ((rx_items[0].level0 == 0) && (rx_items[0].duration0 >= OW_DURATION_RESET - 2))
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{
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if ((rx_items[0].level1 == 1) && (rx_items[0].duration1 > 0))
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{
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if (rx_items[1].level0 == 0)
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{
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_is_present = true;
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}
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}
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}
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}
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vRingbufferReturnItem(i->rb, (void *)rx_items);
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}
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else
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{
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// time out occurred, this indicates an unconnected / misconfigured bus
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ESP_LOGE(TAG, "rx_items == 0");
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res = OWB_STATUS_HW_ERROR;
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}
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}
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else
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{
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// error in tx channel
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ESP_LOGE(TAG, "Error tx");
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res = OWB_STATUS_HW_ERROR;
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}
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rmt_rx_stop(i->rx_channel);
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rmt_set_rx_idle_thresh(i->rx_channel, old_rx_thresh);
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*is_present = _is_present;
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ESP_LOGD(TAG, "_is_present %d", _is_present);
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return res;
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}
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static rmt_item32_t _encode_write_slot(uint8_t val)
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{
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rmt_item32_t item = {0};
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item.level0 = 0;
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item.level1 = 1;
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if (val)
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{
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// write "1" slot
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item.duration0 = OW_DURATION_1_LOW;
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item.duration1 = OW_DURATION_1_HIGH;
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}
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else
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{
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// write "0" slot
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item.duration0 = OW_DURATION_0_LOW;
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item.duration1 = OW_DURATION_0_HIGH;
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}
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return item;
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}
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/** NOTE: The data is shifted out of the low bits, eg. it is written in the order of lsb to msb */
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static owb_status _write_bits(const OneWireBus * bus, uint8_t out, int number_of_bits_to_write)
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{
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rmt_item32_t tx_items[MAX_BITS_PER_SLOT + 1] = {0};
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owb_rmt_driver_info * info = info_of_driver(bus);
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if (number_of_bits_to_write > MAX_BITS_PER_SLOT)
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{
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return OWB_STATUS_TOO_MANY_BITS;
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}
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// write requested bits as pattern to TX buffer
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for (int i = 0; i < number_of_bits_to_write; i++)
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{
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tx_items[i] = _encode_write_slot(out & 0x01);
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out >>= 1;
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}
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// end marker
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tx_items[number_of_bits_to_write].level0 = 1;
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tx_items[number_of_bits_to_write].duration0 = 0;
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owb_status status = OWB_STATUS_NOT_SET;
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if (rmt_write_items(info->tx_channel, tx_items, number_of_bits_to_write+1, true) == ESP_OK)
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{
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status = OWB_STATUS_OK;
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}
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else
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{
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status = OWB_STATUS_HW_ERROR;
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ESP_LOGE(TAG, "rmt_write_items() failed");
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}
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return status;
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}
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static rmt_item32_t _encode_read_slot(void)
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{
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rmt_item32_t item = {0};
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// construct pattern for a single read time slot
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item.level0 = 0;
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item.duration0 = OW_DURATION_1_LOW; // shortly force 0
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item.level1 = 1;
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item.duration1 = OW_DURATION_1_HIGH; // release high and finish slot
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return item;
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}
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/** NOTE: Data is read into the high bits, eg. each bit read is shifted down before the next bit is read */
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static owb_status _read_bits(const OneWireBus * bus, uint8_t *in, int number_of_bits_to_read)
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{
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rmt_item32_t tx_items[MAX_BITS_PER_SLOT + 1] = {0};
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uint8_t read_data = 0;
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int res = OWB_STATUS_OK;
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owb_rmt_driver_info *info = info_of_driver(bus);
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if (number_of_bits_to_read > MAX_BITS_PER_SLOT)
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{
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ESP_LOGE(TAG, "_read_bits() OWB_STATUS_TOO_MANY_BITS");
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return OWB_STATUS_TOO_MANY_BITS;
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}
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// generate requested read slots
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for (int i = 0; i < number_of_bits_to_read; i++)
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{
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tx_items[i] = _encode_read_slot();
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}
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// end marker
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tx_items[number_of_bits_to_read].level0 = 1;
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tx_items[number_of_bits_to_read].duration0 = 0;
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onewire_flush_rmt_rx_buf(bus);
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rmt_rx_start(info->rx_channel, true);
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if (rmt_write_items(info->tx_channel, tx_items, number_of_bits_to_read+1, true) == ESP_OK)
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{
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size_t rx_size = 0;
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rmt_item32_t *rx_items = (rmt_item32_t *)xRingbufferReceive(info->rb, &rx_size, 100 / portTICK_PERIOD_MS);
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if (rx_items)
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{
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#ifdef OW_DEBUG
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for (int i = 0; i < rx_size / 4; i++)
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{
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ESP_LOGI(TAG, "level: %d, duration %d", rx_items[i].level0, rx_items[i].duration0);
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ESP_LOGI(TAG, "level: %d, duration %d", rx_items[i].level1, rx_items[i].duration1);
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}
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#endif
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if (rx_size >= number_of_bits_to_read * sizeof(rmt_item32_t))
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{
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for (int i = 0; i < number_of_bits_to_read; i++)
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{
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read_data >>= 1;
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// parse signal and identify logical bit
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if (rx_items[i].level1 == 1)
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{
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if ((rx_items[i].level0 == 0) && (rx_items[i].duration0 < OW_DURATION_SAMPLE))
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{
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// rising edge occured before 15us -> bit 1
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read_data |= 0x80;
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}
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}
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}
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read_data >>= 8 - number_of_bits_to_read;
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}
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vRingbufferReturnItem(info->rb, (void *)rx_items);
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}
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else
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{
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// time out occurred, this indicates an unconnected / misconfigured bus
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ESP_LOGE(TAG, "rx_items == 0");
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res = OWB_STATUS_HW_ERROR;
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}
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}
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else
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{
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// error in tx channel
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ESP_LOGE(TAG, "Error tx");
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res = OWB_STATUS_HW_ERROR;
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}
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rmt_rx_stop(info->rx_channel);
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*in = read_data;
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return res;
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}
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static owb_status _uninitialize(const OneWireBus *bus)
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{
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owb_rmt_driver_info * info = info_of_driver(bus);
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rmt_driver_uninstall(info->tx_channel);
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rmt_driver_uninstall(info->rx_channel);
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return OWB_STATUS_OK;
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}
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static struct owb_driver rmt_function_table =
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{
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.name = "owb_rmt",
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.uninitialize = _uninitialize,
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.reset = _reset,
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.write_bits = _write_bits,
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.read_bits = _read_bits
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};
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static owb_status _init(owb_rmt_driver_info *info, gpio_num_t gpio_num,
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rmt_channel_t tx_channel, rmt_channel_t rx_channel)
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{
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owb_status status = OWB_STATUS_HW_ERROR;
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// Ensure the RMT peripheral is not already running
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// Note: if using RMT elsewhere, don't call this here, call it at the start of your program instead.
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//periph_module_disable(PERIPH_RMT_MODULE);
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//periph_module_enable(PERIPH_RMT_MODULE);
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info->bus.driver = &rmt_function_table;
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info->tx_channel = tx_channel;
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info->rx_channel = rx_channel;
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info->gpio = gpio_num;
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#ifdef OW_DEBUG
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ESP_LOGI(TAG, "RMT TX channel: %d", info->tx_channel);
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ESP_LOGI(TAG, "RMT RX channel: %d", info->rx_channel);
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#endif
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rmt_config_t rmt_tx = {0};
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rmt_tx.channel = info->tx_channel;
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rmt_tx.gpio_num = gpio_num;
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rmt_tx.mem_block_num = 1;
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rmt_tx.clk_div = 80;
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rmt_tx.tx_config.loop_en = false;
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rmt_tx.tx_config.carrier_en = false;
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rmt_tx.tx_config.idle_level = 1;
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rmt_tx.tx_config.idle_output_en = true;
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rmt_tx.rmt_mode = RMT_MODE_TX;
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if (rmt_config(&rmt_tx) == ESP_OK)
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{
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rmt_set_source_clk(info->tx_channel, RMT_BASECLK_APB); // only APB is supported by IDF 4.2
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if (rmt_driver_install(rmt_tx.channel, 0, ESP_INTR_FLAG_LOWMED | ESP_INTR_FLAG_IRAM | ESP_INTR_FLAG_SHARED) == ESP_OK)
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{
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rmt_config_t rmt_rx = {0};
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rmt_rx.channel = info->rx_channel;
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rmt_rx.gpio_num = gpio_num;
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rmt_rx.clk_div = 80;
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rmt_rx.mem_block_num = 1;
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rmt_rx.rmt_mode = RMT_MODE_RX;
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rmt_rx.rx_config.filter_en = true;
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rmt_rx.rx_config.filter_ticks_thresh = 30;
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rmt_rx.rx_config.idle_threshold = OW_DURATION_RX_IDLE;
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if (rmt_config(&rmt_rx) == ESP_OK)
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{
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rmt_set_source_clk(info->rx_channel, RMT_BASECLK_APB); // only APB is supported by IDF 4.2
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if (rmt_driver_install(rmt_rx.channel, 512, ESP_INTR_FLAG_LOWMED | ESP_INTR_FLAG_IRAM | ESP_INTR_FLAG_SHARED) == ESP_OK)
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{
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rmt_get_ringbuf_handle(info->rx_channel, &info->rb);
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status = OWB_STATUS_OK;
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}
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else
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{
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ESP_LOGE(TAG, "failed to install rx driver");
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}
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}
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else
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{
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status = OWB_STATUS_HW_ERROR;
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ESP_LOGE(TAG, "failed to configure rx, uninstalling rmt driver on tx channel");
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rmt_driver_uninstall(rmt_tx.channel);
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}
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}
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else
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{
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ESP_LOGE(TAG, "failed to install tx driver");
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}
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}
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else
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{
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ESP_LOGE(TAG, "failed to configure tx");
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}
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// attach GPIO to previous pin
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if (gpio_num < 32)
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{
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GPIO.enable_w1ts = (0x1 << gpio_num);
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}
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else
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{
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GPIO.enable1_w1ts.data = (0x1 << (gpio_num - 32));
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}
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// attach RMT channels to new gpio pin
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// ATTENTION: set pin for rx first since gpio_output_disable() will
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// remove rmt output signal in matrix!
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rmt_set_gpio(info->rx_channel, RMT_MODE_RX, gpio_num, false);
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rmt_set_gpio(info->tx_channel, RMT_MODE_TX, gpio_num, false);
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// force pin direction to input to enable path to RX channel
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PIN_INPUT_ENABLE(GPIO_PIN_MUX_REG[gpio_num]);
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// enable open drain
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GPIO.pin[gpio_num].pad_driver = 1;
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return status;
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}
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OneWireBus * owb_rmt_initialize(owb_rmt_driver_info * info, gpio_num_t gpio_num,
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rmt_channel_t tx_channel, rmt_channel_t rx_channel)
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{
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ESP_LOGD(TAG, "%s: gpio_num: %d, tx_channel: %d, rx_channel: %d",
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__func__, gpio_num, tx_channel, rx_channel);
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owb_status status = _init(info, gpio_num, tx_channel, rx_channel);
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if (status != OWB_STATUS_OK)
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{
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ESP_LOGE(TAG, "_init() failed with status %d", status);
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}
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info->bus.strong_pullup_gpio = GPIO_NUM_NC;
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return &(info->bus);
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}
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