mirror of https://github.com/arendst/Tasmota.git
Revert "Merge pull request #6373 from s-hadinger/serial_115200"
This reverts commita59dea5a74
, reversing changes made toe0b07391c9
.
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a59dea5a74
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da35643f63
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@ -27,9 +27,6 @@ extern "C" {
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#include <TasmotaSerial.h>
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// for STAGE and pre-2.6, we can have a single wrapper using attachInterruptArg()
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void ICACHE_RAM_ATTR callRxRead(void *self) { ((TasmotaSerial*)self)->rxRead(); };
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// As the Arduino attachInterrupt has no parameter, lists of objects
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// and callbacks corresponding to each possible GPIO pins have to be defined
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TasmotaSerial *tms_obj_list[16];
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@ -106,14 +103,9 @@ TasmotaSerial::TasmotaSerial(int receive_pin, int transmit_pin, int hardware_fal
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if (m_buffer == NULL) return;
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// Use getCycleCount() loop to get as exact timing as possible
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m_bit_time = ESP.getCpuFreqMHz() * 1000000 / TM_SERIAL_BAUDRATE;
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m_bit_start_time = m_bit_time + m_bit_time/3 - 500; // pre-compute first wait
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pinMode(m_rx_pin, INPUT);
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tms_obj_list[m_rx_pin] = this;
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#if defined(ARDUINO_ESP8266_RELEASE_2_3_0) || defined(ARDUINO_ESP8266_RELEASE_2_4_2) || defined(ARDUINO_ESP8266_RELEASE_2_5_2)
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attachInterrupt(m_rx_pin, ISRList[m_rx_pin], (m_nwmode) ? CHANGE : FALLING);
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#else
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attachInterruptArg(m_rx_pin, callRxRead, this, (m_nwmode) ? CHANGE : FALLING);
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#endif
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}
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if (m_tx_pin > -1) {
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pinMode(m_tx_pin, OUTPUT);
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@ -156,9 +148,7 @@ bool TasmotaSerial::begin(long speed, int stop_bits) {
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} else {
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// Use getCycleCount() loop to get as exact timing as possible
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m_bit_time = ESP.getCpuFreqMHz() * 1000000 / speed;
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m_bit_start_time = m_bit_time + m_bit_time/3 - (ESP.getCpuFreqMHz() > 120 ? 700 : 500); // pre-compute first wait
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m_high_speed = (speed >= 9600);
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m_very_high_speed = (speed >= 100000);
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}
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return m_valid;
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}
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@ -212,12 +202,9 @@ int TasmotaSerial::available()
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}
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#ifdef TM_SERIAL_USE_IRAM
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#define TM_SERIAL_WAIT_SND { while (ESP.getCycleCount() < wait + start) if (!m_high_speed) optimistic_yield(1); wait += m_bit_time; } // Watchdog timeouts
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#define TM_SERIAL_WAIT_RCV { while (ESP.getCycleCount() < wait + start); wait += m_bit_time; }
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#define TM_SERIAL_WAIT_RCV_LOOP { while (ESP.getCycleCount() < wait + start); }
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#define TM_SERIAL_WAIT { while (ESP.getCycleCount()-start < wait) if (!m_high_speed) optimistic_yield(1); wait += m_bit_time; } // Watchdog timeouts
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#else
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#define TM_SERIAL_WAIT_SND { while (ESP.getCycleCount() < wait + start); wait += m_bit_time; }
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#define TM_SERIAL_WAIT_RCV { while (ESP.getCycleCount() < wait + start); wait += m_bit_time; }
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#define TM_SERIAL_WAIT { while (ESP.getCycleCount()-start < wait); wait += m_bit_time; }
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#endif
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size_t TasmotaSerial::write(uint8_t b)
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@ -228,23 +215,22 @@ size_t TasmotaSerial::write(uint8_t b)
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if (-1 == m_tx_pin) return 0;
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if (m_high_speed) cli(); // Disable interrupts in order to get a clean transmit
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uint32_t wait = m_bit_time;
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//digitalWrite(m_tx_pin, HIGH); // already in HIGH mode
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digitalWrite(m_tx_pin, HIGH);
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uint32_t start = ESP.getCycleCount();
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// Start bit;
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digitalWrite(m_tx_pin, LOW);
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TM_SERIAL_WAIT_SND;
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TM_SERIAL_WAIT;
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for (uint32_t i = 0; i < 8; i++) {
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digitalWrite(m_tx_pin, (b & 1) ? HIGH : LOW);
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TM_SERIAL_WAIT_SND;
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TM_SERIAL_WAIT;
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b >>= 1;
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}
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// Stop bit(s)
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digitalWrite(m_tx_pin, HIGH);
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// re-enable interrupts during stop bits, it's not an issue if they are longer than expected
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if (m_high_speed) sei();
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for (uint32_t i = 0; i < m_stop_bits; i++) {
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TM_SERIAL_WAIT_SND;
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digitalWrite(m_tx_pin, HIGH);
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TM_SERIAL_WAIT;
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}
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if (m_high_speed) sei();
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return 1;
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}
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}
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@ -257,49 +243,27 @@ void TasmotaSerial::rxRead()
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{
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#endif
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if (!m_nwmode) {
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int32_t loop_read = serial_buffer_size;
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// Advance the starting point for the samples but compensate for the
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// initial delay which occurs before the interrupt is delivered
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uint32_t wait = m_bit_start_time;
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uint32_t wait = m_bit_time + m_bit_time/3 - 500;
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uint32_t start = ESP.getCycleCount();
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while (loop_read-- > 0) { // try to receveive all consecutive bytes in a raw
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uint32_t rec = 0;
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for (uint32_t i = 0; i < 8; i++) {
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TM_SERIAL_WAIT_RCV;
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rec >>= 1;
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if (digitalRead(m_rx_pin)) rec |= 0x80;
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}
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// Store the received value in the buffer unless we have an overflow
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uint32_t next = (m_in_pos+1) % serial_buffer_size;
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if (next != (int)m_out_pos) {
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m_buffer[m_in_pos] = rec;
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m_in_pos = next;
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}
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// Stop bit(s) -- actually we don't need to wait for stop bits
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// so we free some time for other interrupt handlers to do their work
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bool start_of_next_byte = false;
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for (uint32_t i = 0; i < 14; i++) {
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TM_SERIAL_WAIT_RCV_LOOP; // wait for 1/4 bits
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wait += m_bit_time / 4;
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if (!digitalRead(m_rx_pin)) {
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// this is the start bit of the next byte
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wait += m_bit_time; // we have advanced in the first 1/4 of bit, and already added 1/4 of bit so we're roughly centered. Just skip start bit.
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start_of_next_byte = true;
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m_bit_follow_metric++;
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break; // exit loop
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}
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}
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if (!start_of_next_byte) {
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loop_read = 0; // exit loop
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}
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// TM_SERIAL_WAIT_RCV;
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// if (2 == m_stop_bits) {
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// digitalRead(m_rx_pin);
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// TM_SERIAL_WAIT_RCV;
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// }
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uint8_t rec = 0;
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for (uint32_t i = 0; i < 8; i++) {
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TM_SERIAL_WAIT;
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rec >>= 1;
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if (digitalRead(m_rx_pin)) rec |= 0x80;
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}
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// Stop bit(s)
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TM_SERIAL_WAIT;
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if (2 == m_stop_bits) {
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digitalRead(m_rx_pin);
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TM_SERIAL_WAIT;
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}
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// Store the received value in the buffer unless we have an overflow
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uint32_t next = (m_in_pos+1) % serial_buffer_size;
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if (next != (int)m_out_pos) {
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m_buffer[m_in_pos] = rec;
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m_in_pos = next;
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}
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// Must clear this bit in the interrupt register,
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// it gets set even when interrupts are disabled
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@ -53,8 +53,6 @@ class TasmotaSerial : public Stream {
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void rxRead();
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uint32_t getLoopReadMetric(void) const { return m_bit_follow_metric; }
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using Print::write;
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private:
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@ -69,8 +67,6 @@ class TasmotaSerial : public Stream {
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uint32_t ss_bstart;
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uint32_t ss_index;
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uint32_t m_bit_time;
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uint32_t m_bit_start_time;
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uint32_t m_bit_follow_metric = 0;
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uint32_t m_in_pos;
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uint32_t m_out_pos;
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uint32_t serial_buffer_size;
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@ -78,8 +74,7 @@ class TasmotaSerial : public Stream {
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bool m_nwmode;
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bool m_hardserial;
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bool m_hardswap;
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bool m_high_speed = false;
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bool m_very_high_speed = false; // above 100000 bauds
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bool m_high_speed;
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uint8_t *m_buffer;
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};
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@ -2,7 +2,6 @@
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* 6.6.0.11 20190907
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* Change Settings crc calculation allowing short term backward compatibility
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* Add support for up to 4 INA226 Voltage and Current sensors by Steve Rogers (#6342)
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* Change Improve reliability of TasmotaSerial at 115200 bauds and reduce IRAM usage for Stage/pre-2.6
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*
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* 6.6.0.10 20190905
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* Redesign Tuya support by Shantur Rathore (#6353)
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