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Improvements to RF receiver for Drayton Digistat heating controller (#5504)
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@ -13,7 +13,8 @@ static const uint8_t NBITS_SYNC = 4;
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static const uint8_t NBITS_ADDRESS = 16;
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static const uint8_t NBITS_CHANNEL = 5;
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static const uint8_t NBITS_COMMAND = 7;
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static const uint8_t NBITS = NBITS_ADDRESS + NBITS_CHANNEL + NBITS_COMMAND;
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static const uint8_t NDATABITS = NBITS_ADDRESS + NBITS_CHANNEL + NBITS_COMMAND;
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static const uint8_t MIN_RX_SRC = (NDATABITS * 2 + NBITS_SYNC / 2);
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static const uint8_t CMD_ON = 0x41;
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static const uint8_t CMD_OFF = 0x02;
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@ -116,7 +117,7 @@ void DraytonProtocol::encode(RemoteTransmitData *dst, const DraytonData &data) {
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ESP_LOGV(TAG, "Send Drayton: out_data %08" PRIx32, out_data);
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for (uint32_t mask = 1UL << (NBITS - 1); mask != 0; mask >>= 1) {
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for (uint32_t mask = 1UL << (NDATABITS - 1); mask != 0; mask >>= 1) {
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if (out_data & mask) {
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dst->mark(BIT_TIME_US);
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dst->space(BIT_TIME_US);
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@ -134,79 +135,96 @@ optional<DraytonData> DraytonProtocol::decode(RemoteReceiveData src) {
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.command = 0,
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};
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if (src.size() < 45) {
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return {};
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}
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while (src.size() - src.get_index() > MIN_RX_SRC) {
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ESP_LOGVV(TAG,
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"Decode Drayton: %" PRId32 ", %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32
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" %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32
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" %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 "",
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src.size() - src.get_index(), src.peek(0), src.peek(1), src.peek(2), src.peek(3), src.peek(4),
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src.peek(5), src.peek(6), src.peek(7), src.peek(8), src.peek(9), src.peek(10), src.peek(11), src.peek(12),
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src.peek(13), src.peek(14), src.peek(15), src.peek(16), src.peek(17), src.peek(18), src.peek(19));
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ESP_LOGVV(TAG,
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"Decode Drayton: %" PRId32 ", %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32
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" %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32
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" %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 "",
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src.size(), src.peek(0), src.peek(1), src.peek(2), src.peek(3), src.peek(4), src.peek(5), src.peek(6),
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src.peek(7), src.peek(8), src.peek(9), src.peek(10), src.peek(11), src.peek(12), src.peek(13), src.peek(14),
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src.peek(15), src.peek(16), src.peek(17), src.peek(18), src.peek(19));
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// If first preamble item is a space, skip it
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if (src.peek_space_at_least(1)) {
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src.advance(1);
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}
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// If first preamble item is a space, skip it
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if (src.peek_space_at_least(1)) {
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src.advance(1);
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}
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// Look for sync pulse, after. If sucessful index points to space of sync symbol
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while (src.size() - src.get_index() >= NDATABITS) {
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ESP_LOGVV(TAG, "Decode Drayton: sync search %d, %" PRId32 " %" PRId32, src.size() - src.get_index(), src.peek(),
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src.peek(1));
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if (src.peek_mark(2 * BIT_TIME_US) &&
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(src.peek_space(2 * BIT_TIME_US, 1) || src.peek_space(3 * BIT_TIME_US, 1))) {
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src.advance(1);
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ESP_LOGVV(TAG, "Decode Drayton: Found SYNC, - %d", src.get_index());
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break;
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} else {
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src.advance(2);
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}
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}
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// Look for sync pulse, after. If sucessful index points to space of sync symbol
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for (uint16_t preamble = 0; preamble <= NBITS_PREAMBLE * 2; preamble += 2) {
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ESP_LOGVV(TAG, "Decode Drayton: preamble %d %" PRId32 " %" PRId32, preamble, src.peek(preamble),
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src.peek(preamble + 1));
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if (src.peek_mark(2 * BIT_TIME_US, preamble) &&
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(src.peek_space(2 * BIT_TIME_US, preamble + 1) || src.peek_space(3 * BIT_TIME_US, preamble + 1))) {
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src.advance(preamble + 1);
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// No point continuing if not enough samples remaining to complete a packet
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if (src.size() - src.get_index() < NDATABITS) {
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ESP_LOGV(TAG, "Decode Drayton: Fail 1, - %" PRIu32, src.get_index());
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break;
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}
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}
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// Read data. Index points to space of sync symbol
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// Extract first bit
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// Checks next bit to leave index pointing correctly
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uint32_t out_data = 0;
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uint8_t bit = NBITS_ADDRESS + NBITS_COMMAND + NBITS_CHANNEL - 1;
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if (src.expect_space(3 * BIT_TIME_US) && (src.expect_mark(BIT_TIME_US) || src.peek_mark(2 * BIT_TIME_US))) {
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out_data |= 0 << bit;
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} else if (src.expect_space(2 * BIT_TIME_US) && src.expect_mark(BIT_TIME_US) &&
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(src.expect_space(BIT_TIME_US) || src.peek_space(2 * BIT_TIME_US))) {
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out_data |= 1 << bit;
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} else {
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ESP_LOGV(TAG, "Decode Drayton: Fail 1, - %" PRIu32, src.get_index());
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return {};
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}
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// Before/after each bit is read the index points to the transition at the start of the bit period or,
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// if there is no transition at the start of the bit period, then the transition in the middle of
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// the previous bit period.
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while (--bit >= 1) {
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ESP_LOGVV(TAG, "Decode Drayton: Data, %2d %08" PRIx32, bit, out_data);
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if ((src.expect_space(BIT_TIME_US) || src.expect_space(2 * BIT_TIME_US)) &&
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(src.expect_mark(BIT_TIME_US) || src.peek_mark(2 * BIT_TIME_US))) {
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// Read data. Index points to space of sync symbol
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// Extract first bit
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// Checks next bit to leave index pointing correctly
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uint32_t out_data = 0;
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uint8_t bit = NDATABITS - 1;
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ESP_LOGVV(TAG, "Decode Drayton: first bit %d %" PRId32 ", %" PRId32, src.peek(0), src.peek(1), src.peek(2));
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if (src.expect_space(3 * BIT_TIME_US) && (src.expect_mark(BIT_TIME_US) || src.peek_mark(2 * BIT_TIME_US))) {
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out_data |= 0 << bit;
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} else if ((src.expect_mark(BIT_TIME_US) || src.expect_mark(2 * BIT_TIME_US)) &&
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} else if (src.expect_space(2 * BIT_TIME_US) && src.expect_mark(BIT_TIME_US) &&
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(src.expect_space(BIT_TIME_US) || src.peek_space(2 * BIT_TIME_US))) {
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out_data |= 1 << bit;
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} else {
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ESP_LOGVV(TAG, "Decode Drayton: Fail 2, %2d %08" PRIx32, bit, out_data);
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return {};
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ESP_LOGV(TAG, "Decode Drayton: Fail 2, - %d %d %d", src.peek(-1), src.peek(0), src.peek(1));
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continue;
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}
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}
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if (src.expect_space(BIT_TIME_US) || src.expect_space(2 * BIT_TIME_US)) {
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out_data |= 0;
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} else if (src.expect_mark(BIT_TIME_US) || src.expect_mark(2 * BIT_TIME_US)) {
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out_data |= 1;
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}
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ESP_LOGV(TAG, "Decode Drayton: Data, %2d %08" PRIx32, bit, out_data);
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out.channel = (uint8_t) (out_data & 0x1F);
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out_data >>= NBITS_CHANNEL;
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out.command = (uint8_t) (out_data & 0x7F);
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out_data >>= NBITS_COMMAND;
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out.address = (uint16_t) (out_data & 0xFFFF);
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// Before/after each bit is read the index points to the transition at the start of the bit period or,
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// if there is no transition at the start of the bit period, then the transition in the middle of
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// the previous bit period.
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while (--bit >= 1) {
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ESP_LOGVV(TAG, "Decode Drayton: Data, %2d %08" PRIx32, bit, out_data);
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if ((src.expect_space(BIT_TIME_US) || src.expect_space(2 * BIT_TIME_US)) &&
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(src.expect_mark(BIT_TIME_US) || src.peek_mark(2 * BIT_TIME_US))) {
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out_data |= 0 << bit;
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} else if ((src.expect_mark(BIT_TIME_US) || src.expect_mark(2 * BIT_TIME_US)) &&
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(src.expect_space(BIT_TIME_US) || src.peek_space(2 * BIT_TIME_US))) {
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out_data |= 1 << bit;
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} else {
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break;
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}
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}
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return out;
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if (bit > 0) {
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ESP_LOGVV(TAG, "Decode Drayton: Fail 3, %d %" PRId32 " %" PRId32, src.peek(-1), src.peek(0), src.peek(1));
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continue;
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}
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if (src.expect_space(BIT_TIME_US) || src.expect_space(2 * BIT_TIME_US)) {
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out_data |= 0;
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} else if (src.expect_mark(BIT_TIME_US) || src.expect_mark(2 * BIT_TIME_US)) {
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out_data |= 1;
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} else {
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continue;
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}
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ESP_LOGV(TAG, "Decode Drayton: Data, %2d %08x", bit, out_data);
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out.channel = (uint8_t) (out_data & 0x1F);
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out_data >>= NBITS_CHANNEL;
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out.command = (uint8_t) (out_data & 0x7F);
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out_data >>= NBITS_COMMAND;
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out.address = (uint16_t) (out_data & 0xFFFF);
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return out;
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}
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return {};
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}
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void DraytonProtocol::dump(const DraytonData &data) {
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ESP_LOGI(TAG, "Received Drayton: address=0x%04X (0x%04x), channel=0x%03x command=0x%03X", data.address,
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