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251 lines
6.9 KiB
251 lines
6.9 KiB
4 years ago
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/*
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SoftwareSerial.cpp - Implementation of the Arduino software serial for ESP8266.
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Copyright (c) 2015-2016 Peter Lerup. All rights reserved.
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This library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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This library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with this library; if not, write to the Free Software
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Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#include <Arduino.h>
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// The Arduino standard GPIO routines are not enough,
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// must use some from the Espressif SDK as well
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extern "C" {
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#include "gpio.h"
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}
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#include <SoftwareSerial.h>
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#define MAX_PIN 15
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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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SoftwareSerial *ObjList[MAX_PIN+1];
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void ICACHE_RAM_ATTR sws_isr_0() { ObjList[0]->rxRead(); };
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void ICACHE_RAM_ATTR sws_isr_1() { ObjList[1]->rxRead(); };
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void ICACHE_RAM_ATTR sws_isr_2() { ObjList[2]->rxRead(); };
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void ICACHE_RAM_ATTR sws_isr_3() { ObjList[3]->rxRead(); };
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void ICACHE_RAM_ATTR sws_isr_4() { ObjList[4]->rxRead(); };
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void ICACHE_RAM_ATTR sws_isr_5() { ObjList[5]->rxRead(); };
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// Pin 6 to 11 can not be used
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void ICACHE_RAM_ATTR sws_isr_12() { ObjList[12]->rxRead(); };
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void ICACHE_RAM_ATTR sws_isr_13() { ObjList[13]->rxRead(); };
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void ICACHE_RAM_ATTR sws_isr_14() { ObjList[14]->rxRead(); };
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void ICACHE_RAM_ATTR sws_isr_15() { ObjList[15]->rxRead(); };
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static void (*ISRList[MAX_PIN+1])() = {
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sws_isr_0,
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sws_isr_1,
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sws_isr_2,
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sws_isr_3,
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sws_isr_4,
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sws_isr_5,
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NULL,
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NULL,
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NULL,
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NULL,
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NULL,
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NULL,
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sws_isr_12,
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sws_isr_13,
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sws_isr_14,
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sws_isr_15
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};
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SoftwareSerial::SoftwareSerial(int receivePin, int transmitPin, bool inverse_logic, unsigned int buffSize) {
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m_oneWire = (receivePin == transmitPin);
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m_rxValid = m_txValid = m_txEnableValid = false;
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m_buffer = NULL;
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m_invert = inverse_logic;
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m_overflow = false;
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m_rxEnabled = false;
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if (isValidGPIOpin(receivePin)) {
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m_rxPin = receivePin;
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m_buffSize = buffSize;
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m_buffer = (uint8_t*)malloc(m_buffSize);
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if (m_buffer != NULL) {
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m_rxValid = true;
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m_inPos = m_outPos = 0;
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pinMode(m_rxPin, INPUT);
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ObjList[m_rxPin] = this;
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}
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}
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if (isValidGPIOpin(transmitPin) || (!m_oneWire && (transmitPin == 16))) {
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m_txValid = true;
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m_txPin = transmitPin;
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if (!m_oneWire) {
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pinMode(m_txPin, OUTPUT);
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digitalWrite(m_txPin, !m_invert);
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}
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}
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// Default speed
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begin(9600);
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}
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SoftwareSerial::~SoftwareSerial() {
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enableRx(false);
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if (m_rxValid)
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ObjList[m_rxPin] = NULL;
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if (m_buffer)
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free(m_buffer);
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}
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bool SoftwareSerial::isValidGPIOpin(int pin) {
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return (pin >= 0 && pin <= 5) || (pin >= 12 && pin <= MAX_PIN);
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}
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void SoftwareSerial::begin(long speed) {
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// Use getCycleCount() loop to get as exact timing as possible
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m_bitTime = F_CPU/speed;
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// By default enable interrupt during tx only for low speed
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m_intTxEnabled = speed < 9600;
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if (!m_rxEnabled)
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enableRx(true);
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}
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long SoftwareSerial::baudRate() {
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return F_CPU/m_bitTime;
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}
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void SoftwareSerial::setTransmitEnablePin(int transmitEnablePin) {
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if (isValidGPIOpin(transmitEnablePin)) {
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m_txEnableValid = true;
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m_txEnablePin = transmitEnablePin;
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pinMode(m_txEnablePin, OUTPUT);
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digitalWrite(m_txEnablePin, LOW);
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} else {
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m_txEnableValid = false;
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}
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}
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void SoftwareSerial::enableIntTx(bool on) {
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m_intTxEnabled = on;
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}
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void SoftwareSerial::enableTx(bool on) {
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if (m_oneWire && m_txValid) {
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if (on) {
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enableRx(false);
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digitalWrite(m_txPin, !m_invert);
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pinMode(m_rxPin, OUTPUT);
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} else {
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digitalWrite(m_txPin, !m_invert);
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pinMode(m_rxPin, INPUT);
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enableRx(true);
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}
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delay(1); // it's important to have a delay after switching
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}
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}
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void SoftwareSerial::enableRx(bool on) {
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if (m_rxValid) {
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if (on)
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attachInterrupt(m_rxPin, ISRList[m_rxPin], m_invert ? RISING : FALLING);
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else
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detachInterrupt(m_rxPin);
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m_rxEnabled = on;
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}
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}
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int SoftwareSerial::read() {
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if (!m_rxValid || (m_inPos == m_outPos)) return -1;
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uint8_t ch = m_buffer[m_outPos];
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m_outPos = (m_outPos+1) % m_buffSize;
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return ch;
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}
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int SoftwareSerial::available() {
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if (!m_rxValid) return 0;
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int avail = m_inPos - m_outPos;
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if (avail < 0) avail += m_buffSize;
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return avail;
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}
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#define WAIT { while (ESP.getCycleCount()-start < wait) if (m_intTxEnabled) optimistic_yield(1); wait += m_bitTime; }
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size_t SoftwareSerial::write(uint8_t b) {
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if (!m_txValid) return 0;
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if (m_invert) b = ~b;
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if (!m_intTxEnabled)
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// Disable interrupts in order to get a clean transmit
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cli();
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if (m_txEnableValid) digitalWrite(m_txEnablePin, HIGH);
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unsigned long wait = m_bitTime;
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digitalWrite(m_txPin, HIGH);
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unsigned long start = ESP.getCycleCount();
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// Start bit;
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digitalWrite(m_txPin, LOW);
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WAIT;
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for (int i = 0; i < 8; i++) {
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digitalWrite(m_txPin, (b & 1) ? HIGH : LOW);
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WAIT;
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b >>= 1;
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}
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// Stop bit
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digitalWrite(m_txPin, HIGH);
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WAIT;
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if (m_txEnableValid) digitalWrite(m_txEnablePin, LOW);
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if (!m_intTxEnabled)
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sei();
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return 1;
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}
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void SoftwareSerial::flush() {
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m_inPos = m_outPos = 0;
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}
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bool SoftwareSerial::overflow() {
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bool res = m_overflow;
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m_overflow = false;
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return res;
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}
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int SoftwareSerial::peek() {
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if (!m_rxValid || (m_inPos == m_outPos)) return -1;
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return m_buffer[m_outPos];
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}
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void ICACHE_RAM_ATTR SoftwareSerial::rxRead() {
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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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unsigned long wait = m_bitTime + m_bitTime/3 - 500;
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unsigned long start = ESP.getCycleCount();
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uint8_t rec = 0;
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for (int i = 0; i < 8; i++) {
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WAIT;
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rec >>= 1;
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if (digitalRead(m_rxPin))
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rec |= 0x80;
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}
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if (m_invert) rec = ~rec;
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// Stop bit
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WAIT;
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// Store the received value in the buffer unless we have an overflow
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unsigned int next = (m_inPos+1) % m_buffSize;
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if (next != m_outPos) {
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m_buffer[m_inPos] = rec;
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m_inPos = next;
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} else {
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m_overflow = true;
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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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GPIO_REG_WRITE(GPIO_STATUS_W1TC_ADDRESS, 1 << m_rxPin);
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}
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