Tasmota/tasmota/support_tasmota.ino

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/*
support_tasmota.ino - Core support for Tasmota
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Copyright (C) 2021 Theo Arends
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This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
const char kSleepMode[] PROGMEM = "Dynamic|Normal";
const char kPrefixes[] PROGMEM = D_CMND "|" D_STAT "|" D_TELE;
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char* Format(char* output, const char* input_p, int size)
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{
char *token;
uint32_t digits = 0;
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char input[strlen_P(input_p)+1]; // copy from PMEM to RAM
strcpy_P(input, input_p);
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if (strchr(input, '%') != nullptr) {
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strlcpy(output, input, size);
token = strtok(output, "%");
if (strchr(input, '%') == input) {
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output[0] = '\0';
} else {
token = strtok(nullptr, "");
}
if (token != nullptr) {
digits = atoi(token);
if (digits) {
char tmp[size];
if (strchr(token, 'd')) {
snprintf_P(tmp, size, PSTR("%s%c0%dd"), output, '%', digits);
snprintf_P(output, size, tmp, ESP_getChipId() & 0x1fff); // %04d - short chip ID in dec, like in hostname
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} else {
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String mac_address = NetworkUniqueId();
if (digits > 12) { digits = 12; }
String mac_part = mac_address.substring(12 - digits);
snprintf_P(output, size, PSTR("%s%s"), output, mac_part.c_str()); // %01X .. %12X - mac address in hex
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}
} else {
if (strchr(token, 'd')) {
snprintf_P(output, size, PSTR("%s%d"), output, ESP_getChipId()); // %d - full chip ID in dec
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digits = 8;
}
}
}
}
if (!digits) {
strlcpy(output, input, size);
}
return output;
}
char* GetOtaUrl(char *otaurl, size_t otaurl_size)
{
if (strstr(SettingsText(SET_OTAURL), "%04d") != nullptr) { // OTA url contains placeholder for chip ID
snprintf(otaurl, otaurl_size, SettingsText(SET_OTAURL), ESP_getChipId() & 0x1fff);
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}
else if (strstr(SettingsText(SET_OTAURL), "%d") != nullptr) { // OTA url contains placeholder for chip ID
snprintf_P(otaurl, otaurl_size, SettingsText(SET_OTAURL), ESP_getChipId());
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}
else {
strlcpy(otaurl, SettingsText(SET_OTAURL), otaurl_size);
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}
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return otaurl;
}
String ResolveToken(const char* input) {
String resolved = input;
resolved.replace(F("%hostname%"), TasmotaGlobal.hostname);
resolved.replace(F("%id%"), NetworkUniqueId());
return resolved;
}
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char* GetTopic_P(char *stopic, uint32_t prefix, char *topic, const char* subtopic)
{
/* prefix 0 = Cmnd
prefix 1 = Stat
prefix 2 = Tele
prefix 4 = Cmnd fallback
prefix 5 = Stat fallback
prefix 6 = Tele fallback
prefix 8 = Cmnd topic
prefix 9 = Stat topic
prefix 10 = Tele topic
*/
char romram[CMDSZ];
String fulltopic;
snprintf_P(romram, sizeof(romram), subtopic);
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if (TasmotaGlobal.fallback_topic_flag || (prefix > 3)) {
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bool fallback = (prefix < 8);
prefix &= 3;
char stemp[11];
fulltopic = GetTextIndexed(stemp, sizeof(stemp), prefix, kPrefixes);
fulltopic += F("/");
if (fallback) {
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fulltopic += TasmotaGlobal.mqtt_client;
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fulltopic += F("_fb"); // cmnd/<mqttclient>_fb
} else {
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fulltopic += (const __FlashStringHelper *)topic; // cmnd/<grouptopic>
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}
} else {
fulltopic = SettingsText(SET_MQTT_FULLTOPIC);
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if ((0 == prefix) && (-1 == fulltopic.indexOf(FPSTR(MQTT_TOKEN_PREFIX)))) {
fulltopic += F("/");
fulltopic += FPSTR(MQTT_TOKEN_PREFIX); // Need prefix for commands to handle mqtt topic loops
}
for (uint32_t i = 0; i < MAX_MQTT_PREFIXES; i++) {
if (!strlen(SettingsText(SET_MQTTPREFIX1 + i))) {
char temp[TOPSZ];
SettingsUpdateText(SET_MQTTPREFIX1 + i, GetTextIndexed(temp, sizeof(temp), i, kPrefixes));
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}
}
fulltopic.replace(FPSTR(MQTT_TOKEN_PREFIX), SettingsText(SET_MQTTPREFIX1 + prefix));
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fulltopic.replace(FPSTR(MQTT_TOKEN_TOPIC), (const __FlashStringHelper *)topic);
fulltopic = ResolveToken(fulltopic.c_str());
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}
fulltopic.replace(F("#"), "");
fulltopic.replace(F("//"), "/");
if (!fulltopic.endsWith("/")) {
fulltopic += "/";
}
snprintf_P(stopic, TOPSZ, PSTR("%s%s"), fulltopic.c_str(), romram);
return stopic;
}
char* GetGroupTopic_P(char *stopic, const char* subtopic, uint32_t itopic)
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{
// SetOption75 0: %prefix%/nothing/%topic% = cmnd/nothing/<grouptopic>/#
// SetOption75 1: cmnd/<grouptopic>
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return GetTopic_P(stopic, (Settings->flag3.grouptopic_mode) ? CMND +8 : CMND, SettingsText(itopic), subtopic); // SetOption75 - GroupTopic replaces %topic% (0) or fixed topic cmnd/grouptopic (1)
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}
char* GetFallbackTopic_P(char *stopic, const char* subtopic)
{
return GetTopic_P(stopic, CMND +4, nullptr, subtopic);
}
char* GetStateText(uint32_t state)
{
if (state >= MAX_STATE_TEXT) {
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state = 1;
}
return SettingsText(SET_STATE_TXT1 + state);
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}
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/*********************************************************************************************\
* Zero-cross support
\*********************************************************************************************/
//#define DEBUG_ZEROCROSS
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void ZeroCrossMomentStart(void) {
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if (!TasmotaGlobal.zc_interval) { return; }
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#ifdef DEBUG_ZEROCROSS
uint32_t dbg_interval = TasmotaGlobal.zc_interval;
uint32_t dbg_zctime = TasmotaGlobal.zc_time;
uint32_t dbg_starttime = micros();
#endif
uint32_t trigger_moment = TasmotaGlobal.zc_time + TasmotaGlobal.zc_interval - TasmotaGlobal.zc_offset - TasmotaGlobal.zc_code_offset;
while (TimeReachedUsec(trigger_moment)) { // Trigger moment already passed so try next
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trigger_moment += TasmotaGlobal.zc_interval;
}
while (!TimeReachedUsec(trigger_moment)) {} // Wait for trigger moment
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#ifdef DEBUG_ZEROCROSS
uint32_t dbg_endtime = micros();
AddLog(LOG_LEVEL_DEBUG, PSTR("ZCD: CodeExecTime %d, StartTime %u, EndTime %u, ZcTime %u, Interval %d"),
dbg_endtime - dbg_starttime, dbg_starttime, dbg_endtime, dbg_zctime, dbg_interval);
#endif
TasmotaGlobal.zc_code_offset = micros();
}
void ZeroCrossMomentEnd(void) {
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if (!TasmotaGlobal.zc_interval) { return; }
TasmotaGlobal.zc_code_offset = (micros() - TasmotaGlobal.zc_code_offset) / 2;
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#ifdef DEBUG_ZEROCROSS
AddLog(LOG_LEVEL_DEBUG, PSTR("ZCD: CodeExecTime %d"), TasmotaGlobal.zc_code_offset * 2);
#endif
}
void IRAM_ATTR ZeroCrossIsr(void) {
uint32_t time = micros();
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TasmotaGlobal.zc_interval = ((int32_t) (time - TasmotaGlobal.zc_time));
TasmotaGlobal.zc_time = time;
}
void ZeroCrossInit(uint32_t offset) {
if (PinUsed(GPIO_ZEROCROSS)) {
TasmotaGlobal.zc_offset = offset;
uint32_t gpio = Pin(GPIO_ZEROCROSS);
pinMode(gpio, INPUT_PULLUP);
attachInterrupt(gpio, ZeroCrossIsr, CHANGE);
AddLog(LOG_LEVEL_INFO, PSTR("ZCD: Activated")); // Zero-cross detection activated
}
}
/********************************************************************************************/
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void SetLatchingRelay(power_t lpower, uint32_t state)
{
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// TasmotaGlobal.power xx00 - toggle REL1 (Off) and REL3 (Off) - device 1 Off, device 2 Off
// TasmotaGlobal.power xx01 - toggle REL2 (On) and REL3 (Off) - device 1 On, device 2 Off
// TasmotaGlobal.power xx10 - toggle REL1 (Off) and REL4 (On) - device 1 Off, device 2 On
// TasmotaGlobal.power xx11 - toggle REL2 (On) and REL4 (On) - device 1 On, device 2 On
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static power_t latching_power = 0; // Power state at latching start
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if (state && !TasmotaGlobal.latching_relay_pulse) { // Set latching relay to power if previous pulse has finished
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latching_power = lpower;
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TasmotaGlobal.latching_relay_pulse = 2; // max 200mS (initiated by stateloop())
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}
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for (uint32_t i = 0; i < TasmotaGlobal.devices_present; i++) {
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uint32_t port = (i << 1) + ((latching_power >> i) &1);
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DigitalWrite(GPIO_REL1, port, bitRead(TasmotaGlobal.rel_inverted, port) ? !state : state);
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}
}
void SetDevicePower(power_t rpower, uint32_t source)
{
ShowSource(source);
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TasmotaGlobal.last_source = source;
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if (POWER_ALL_ALWAYS_ON == Settings->poweronstate) { // All on and stay on
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TasmotaGlobal.power = (1 << TasmotaGlobal.devices_present) -1;
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rpower = TasmotaGlobal.power;
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}
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if (Settings->flag.interlock) { // Allow only one or no relay set - CMND_INTERLOCK - Enable/disable interlock
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for (uint32_t i = 0; i < MAX_INTERLOCKS; i++) {
power_t mask = 1;
uint32_t count = 0;
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for (uint32_t j = 0; j < TasmotaGlobal.devices_present; j++) {
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if ((Settings->interlock[i] & mask) && (rpower & mask)) {
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count++;
}
mask <<= 1;
}
if (count > 1) {
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mask = ~Settings->interlock[i]; // Turn interlocked group off as there would be multiple relays on
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TasmotaGlobal.power &= mask;
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rpower &= mask;
}
}
}
if (rpower) { // Any power set
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TasmotaGlobal.last_power = rpower;
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}
XdrvMailbox.index = rpower;
XdrvCall(FUNC_SET_POWER); // Signal power state
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XsnsCall(FUNC_SET_POWER); // Signal power state
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XdrvMailbox.index = rpower;
XdrvMailbox.payload = source;
if (XdrvCall(FUNC_SET_DEVICE_POWER)) { // Set power state and stop if serviced
// Serviced
}
#ifdef ESP8266
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else if ((SONOFF_DUAL == TasmotaGlobal.module_type) || (CH4 == TasmotaGlobal.module_type)) {
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Serial.write(0xA0);
Serial.write(0x04);
Serial.write(rpower &0xFF);
Serial.write(0xA1);
Serial.write('\n');
Serial.flush();
}
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else if (EXS_RELAY == TasmotaGlobal.module_type) {
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SetLatchingRelay(rpower, 1);
}
#endif // ESP8266
else
{
ZeroCrossMomentStart();
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for (uint32_t i = 0; i < TasmotaGlobal.devices_present; i++) {
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power_t state = rpower &1;
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if (i < MAX_RELAYS) {
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DigitalWrite(GPIO_REL1, i, bitRead(TasmotaGlobal.rel_inverted, i) ? !state : state);
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}
rpower >>= 1;
}
ZeroCrossMomentEnd();
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}
}
void RestorePower(bool publish_power, uint32_t source)
{
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if (TasmotaGlobal.power != TasmotaGlobal.last_power) {
TasmotaGlobal.power = TasmotaGlobal.last_power;
SetDevicePower(TasmotaGlobal.power, source);
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if (publish_power) {
MqttPublishAllPowerState();
}
}
}
void SetAllPower(uint32_t state, uint32_t source)
{
// state 0 = POWER_OFF = Relay Off
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// state 1 = POWER_ON = Relay On (turn off after Settings->pulse_timer * 100 mSec if enabled)
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// state 2 = POWER_TOGGLE = Toggle relay
// state 8 = POWER_OFF_NO_STATE = Relay Off and no publishPowerState
// state 9 = POWER_ON_NO_STATE = Relay On and no publishPowerState
// state 10 = POWER_TOGGLE_NO_STATE = Toggle relay and no publishPowerState
// state 16 = POWER_SHOW_STATE = Show power state
bool publish_power = true;
if ((state >= POWER_OFF_NO_STATE) && (state <= POWER_TOGGLE_NO_STATE)) {
state &= 3; // POWER_OFF, POWER_ON or POWER_TOGGLE
publish_power = false;
}
if ((state >= POWER_OFF) && (state <= POWER_TOGGLE)) {
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power_t all_on = (1 << TasmotaGlobal.devices_present) -1;
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switch (state) {
case POWER_OFF:
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TasmotaGlobal.power = 0;
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break;
case POWER_ON:
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TasmotaGlobal.power = all_on;
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break;
case POWER_TOGGLE:
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TasmotaGlobal.power ^= all_on; // Complement current state
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}
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SetDevicePower(TasmotaGlobal.power, source);
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}
if (publish_power) {
MqttPublishAllPowerState();
}
}
void SetPowerOnState(void)
{
#ifdef ESP8266
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if (MOTOR == TasmotaGlobal.module_type) {
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Settings->poweronstate = POWER_ALL_ON; // Needs always on else in limbo!
}
#endif // ESP8266
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if (POWER_ALL_ALWAYS_ON == Settings->poweronstate) {
SetDevicePower(1, SRC_RESTART);
} else {
if ((ResetReason() == REASON_DEFAULT_RST) || (ResetReason() == REASON_EXT_SYS_RST)) {
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switch (Settings->poweronstate) {
case POWER_ALL_OFF:
case POWER_ALL_OFF_PULSETIME_ON:
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TasmotaGlobal.power = 0;
SetDevicePower(TasmotaGlobal.power, SRC_RESTART);
break;
case POWER_ALL_ON: // All on
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TasmotaGlobal.power = (1 << TasmotaGlobal.devices_present) -1;
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SetDevicePower(TasmotaGlobal.power, SRC_RESTART);
break;
case POWER_ALL_SAVED_TOGGLE:
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TasmotaGlobal.power = (Settings->power & ((1 << TasmotaGlobal.devices_present) -1)) ^ POWER_MASK;
if (Settings->flag.save_state) { // SetOption0 - Save power state and use after restart
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SetDevicePower(TasmotaGlobal.power, SRC_RESTART);
}
break;
case POWER_ALL_SAVED:
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TasmotaGlobal.power = Settings->power & ((1 << TasmotaGlobal.devices_present) -1);
if (Settings->flag.save_state) { // SetOption0 - Save power state and use after restart
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SetDevicePower(TasmotaGlobal.power, SRC_RESTART);
}
break;
}
} else {
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TasmotaGlobal.power = Settings->power & ((1 << TasmotaGlobal.devices_present) -1);
if (Settings->flag.save_state) { // SetOption0 - Save power state and use after restart
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SetDevicePower(TasmotaGlobal.power, SRC_RESTART);
}
}
}
// Issue #526 and #909
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for (uint32_t i = 0; i < TasmotaGlobal.devices_present; i++) {
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if (!Settings->flag3.no_power_feedback) { // SetOption63 - Don't scan relay power state at restart - #5594 and #5663
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if ((i < MAX_RELAYS) && PinUsed(GPIO_REL1, i)) {
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bitWrite(TasmotaGlobal.power, i, digitalRead(Pin(GPIO_REL1, i)) ^ bitRead(TasmotaGlobal.rel_inverted, i));
}
}
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if (bitRead(TasmotaGlobal.power, i) || (POWER_ALL_OFF_PULSETIME_ON == Settings->poweronstate)) {
SetPulseTimer(i % MAX_PULSETIMERS, Settings->pulse_timer[i % MAX_PULSETIMERS]);
}
}
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TasmotaGlobal.blink_powersave = TasmotaGlobal.power;
}
void UpdateLedPowerAll()
{
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for (uint32_t i = 0; i < TasmotaGlobal.leds_present; i++) {
SetLedPowerIdx(i, bitRead(TasmotaGlobal.led_power, i));
}
}
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void SetLedPowerIdx(uint32_t led, uint32_t state)
{
/*
// Fix legacy led support 20211016 (Notice: legacy led supports TWO leds max)
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if (!PinUsed(GPIO_LEDLNK) && (0 == led)) { // Legacy - LED1 is link led only if LED2 is present
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if (PinUsed(GPIO_LED1, 1)) {
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led = 1;
}
}
*/
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if (PinUsed(GPIO_LED1, led)) {
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uint32_t mask = 1 << led;
if (state) {
state = 1;
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TasmotaGlobal.led_power |= mask;
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} else {
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TasmotaGlobal.led_power &= (0xFF ^ mask);
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}
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uint16_t pwm = 0;
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if (bitRead(Settings->ledpwm_mask, led)) {
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#ifdef USE_LIGHT
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pwm = changeUIntScale(ledGamma10(state ? Settings->ledpwm_on : Settings->ledpwm_off), 0, 1023, 0, Settings->pwm_range); // gamma corrected
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#else //USE_LIGHT
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pwm = changeUIntScale((uint16_t)(state ? Settings->ledpwm_on : Settings->ledpwm_off), 0, 255, 0, Settings->pwm_range); // linear
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#endif //USE_LIGHT
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analogWrite(Pin(GPIO_LED1, led), bitRead(TasmotaGlobal.led_inverted, led) ? Settings->pwm_range - pwm : pwm);
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} else {
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DigitalWrite(GPIO_LED1, led, bitRead(TasmotaGlobal.led_inverted, led) ? !state : state);
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}
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}
#ifdef USE_BUZZER
if (led == 0) {
BuzzerSetStateToLed(state);
}
#endif // USE_BUZZER
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}
void SetLedPower(bool state)
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{
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if (!PinUsed(GPIO_LEDLNK)) { // Legacy - Only use LED1 and/or LED2
/*
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SetLedPowerIdx(0, state);
*/
// Fix legacy led support 20211016 (Notice: legacy led supports TWO leds max)
uint32_t led = (PinUsed(GPIO_LED1, 1)) ? 1 : 0;
SetLedPowerIdx(led, state);
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} else {
power_t mask = 1;
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for (uint32_t i = 0; i < TasmotaGlobal.leds_present; i++) { // Map leds to power
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bool tstate = (TasmotaGlobal.power & mask);
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SetLedPowerIdx(i, tstate);
mask <<= 1;
}
}
}
void SetLedPowerAll(uint32_t state)
{
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for (uint32_t i = 0; i < TasmotaGlobal.leds_present; i++) {
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SetLedPowerIdx(i, state);
}
}
void SetLedLink(uint32_t state)
{
int led_pin = Pin(GPIO_LEDLNK);
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uint32_t led_inv = TasmotaGlobal.ledlnk_inverted;
if (-1 == led_pin) { // Legacy - LED1 is status
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SetLedPowerIdx(0, state);
}
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else if (led_pin >= 0) {
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if (state) { state = 1; }
digitalWrite(led_pin, (led_inv) ? !state : state);
}
#ifdef USE_BUZZER
BuzzerSetStateToLed(state);
#endif // USE_BUZZER
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}
void SetPulseTimer(uint32_t index, uint32_t time)
{
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TasmotaGlobal.pulse_timer[index] = (time > 111) ? millis() + (1000 * (time - 100)) : (time > 0) ? millis() + (100 * time) : 0L;
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}
uint32_t GetPulseTimer(uint32_t index)
{
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long time = TimePassedSince(TasmotaGlobal.pulse_timer[index]);
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if (time < 0) {
time *= -1;
return (time > 11100) ? (time / 1000) + 100 : (time > 0) ? time / 100 : 0;
}
return 0;
}
/********************************************************************************************/
bool SendKey(uint32_t key, uint32_t device, uint32_t state)
{
// key 0 = KEY_BUTTON = button_topic
// key 1 = KEY_SWITCH = switch_topic
// state 0 = POWER_OFF = off
// state 1 = POWER_ON = on
// state 2 = POWER_TOGGLE = toggle
// state 3 = POWER_HOLD = hold
// state 4 = POWER_INCREMENT = button still pressed
// state 5 = POWER_INV = button released
// state 6 = POWER_CLEAR = button released
// state 7 = POWER_RELEASE = button released
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// state 9 = CLEAR_RETAIN = clear retain flag
// state 10 = POWER_DELAYED = button released delayed
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char stopic[TOPSZ];
char scommand[CMDSZ];
char key_topic[TOPSZ];
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bool result = false;
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uint32_t device_save = device;
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char *tmp = (key) ? SettingsText(SET_MQTT_SWITCH_TOPIC) : SettingsText(SET_MQTT_BUTTON_TOPIC);
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Format(key_topic, tmp, sizeof(key_topic));
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if (Settings->flag.mqtt_enabled && MqttIsConnected() && (strlen(key_topic) != 0) && strcmp(key_topic, "0")) { // SetOption3 - Enable MQTT
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if (!key && (device > TasmotaGlobal.devices_present)) {
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device = 1; // Only allow number of buttons up to number of devices
}
GetTopic_P(stopic, CMND, key_topic,
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GetPowerDevice(scommand, device, sizeof(scommand), (key + Settings->flag.device_index_enable))); // cmnd/switchtopic/POWERx - SetOption26 - Switch between POWER or POWER1
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if (CLEAR_RETAIN == state) {
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ResponseClear();
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} else {
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if ((Settings->flag3.button_switch_force_local || // SetOption61 - Force local operation when button/switch topic is set
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!strcmp(TasmotaGlobal.mqtt_topic, key_topic) ||
!strcmp(SettingsText(SET_MQTT_GRP_TOPIC), key_topic)) &&
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(POWER_TOGGLE == state)) {
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state = ~(TasmotaGlobal.power >> (device -1)) &1; // POWER_OFF or POWER_ON
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}
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Response_P(GetStateText(state));
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}
#ifdef USE_DOMOTICZ
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if (!(DomoticzSendKey(key, device, state, ResponseLength()))) {
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#endif // USE_DOMOTICZ
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MqttPublish(stopic, ((key) ? Settings->flag.mqtt_switch_retain // CMND_SWITCHRETAIN
: Settings->flag.mqtt_button_retain) && // CMND_BUTTONRETAIN
(state != POWER_HOLD || !Settings->flag3.no_hold_retain)); // SetOption62 - Don't use retain flag on HOLD messages
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#ifdef USE_DOMOTICZ
}
#endif // USE_DOMOTICZ
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result = !Settings->flag3.button_switch_force_local; // SetOption61 - Force local operation when button/switch topic is set
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} else {
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Response_P(PSTR("{\"%s%d\":{\"State\":%d}}"), (key) ? PSTR("Switch") : PSTR("Button"), device, state);
result = XdrvRulesProcess(0);
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}
#ifdef USE_PWM_DIMMER
if (PWM_DIMMER != TasmotaGlobal.module_type || !result) {
#endif // USE_PWM_DIMMER
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int32_t payload_save = XdrvMailbox.payload;
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XdrvMailbox.payload = device_save << 24 | key << 16 | state << 8 | device;
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XdrvCall(FUNC_ANY_KEY);
XdrvMailbox.payload = payload_save;
#ifdef USE_PWM_DIMMER
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if (PWM_DIMMER == TasmotaGlobal.module_type) result = true;
}
#endif // USE_PWM_DIMMER
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return result;
}
void ExecuteCommandPower(uint32_t device, uint32_t state, uint32_t source)
{
// device = Relay number 1 and up
// state 0 = POWER_OFF = Relay Off
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// state 1 = POWER_ON = Relay On (turn off after Settings->pulse_timer * 100 mSec if enabled)
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// state 2 = POWER_TOGGLE = Toggle relay
// state 3 = POWER_BLINK = Blink relay
// state 4 = POWER_BLINK_STOP = Stop blinking relay
// state 8 = POWER_OFF_NO_STATE = Relay Off and no publishPowerState
// state 9 = POWER_ON_NO_STATE = Relay On and no publishPowerState
// state 10 = POWER_TOGGLE_NO_STATE = Toggle relay and no publishPowerState
// state 16 = POWER_SHOW_STATE = Show power state
// ShowSource(source);
#ifdef USE_SONOFF_IFAN
if (IsModuleIfan()) {
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TasmotaGlobal.blink_mask &= 1; // No blinking on the fan relays
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Settings->flag.interlock = 0; // No interlock mode as it is already done by the microcontroller - CMND_INTERLOCK - Enable/disable interlock
Settings->pulse_timer[1] = 0; // No pulsetimers on the fan relays
Settings->pulse_timer[2] = 0;
Settings->pulse_timer[3] = 0;
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}
#endif // USE_SONOFF_IFAN
bool publish_power = true;
if ((state >= POWER_OFF_NO_STATE) && (state <= POWER_TOGGLE_NO_STATE)) {
state &= 3; // POWER_OFF, POWER_ON or POWER_TOGGLE
publish_power = false;
}
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if ((device < 1) || (device > TasmotaGlobal.devices_present)) {
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device = 1;
}
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TasmotaGlobal.active_device = device;
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if (state != POWER_SHOW_STATE) {
SetPulseTimer((device -1) % MAX_PULSETIMERS, 0);
}
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static bool interlock_mutex = false; // Interlock power command pending
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power_t mask = 1 << (device -1); // Device to control
if (state <= POWER_TOGGLE) {
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if ((TasmotaGlobal.blink_mask & mask)) {
TasmotaGlobal.blink_mask &= (POWER_MASK ^ mask); // Clear device mask
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MqttPublishPowerBlinkState(device);
}
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if (Settings->flag.interlock && // CMND_INTERLOCK - Enable/disable interlock
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!interlock_mutex &&
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((POWER_ON == state) || ((POWER_TOGGLE == state) && !(TasmotaGlobal.power & mask)))
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) {
interlock_mutex = true; // Clear all but masked relay in interlock group if new set requested
bool perform_interlock_delay = false;
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for (uint32_t i = 0; i < MAX_INTERLOCKS; i++) {
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if (Settings->interlock[i] & mask) { // Find interlock group
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for (uint32_t j = 0; j < TasmotaGlobal.devices_present; j++) {
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power_t imask = 1 << j;
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if ((Settings->interlock[i] & imask) && (TasmotaGlobal.power & imask) && (mask != imask)) {
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ExecuteCommandPower(j +1, POWER_OFF, SRC_IGNORE);
perform_interlock_delay = true;
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}
}
break; // An interlocked relay is only present in one group so quit
}
}
if (perform_interlock_delay) {
delay(50); // Add some delay to make sure never have more than one relay on
}
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interlock_mutex = false;
}
#ifdef USE_DEVICE_GROUPS
power_t old_power = TasmotaGlobal.power;
#endif // USE_DEVICE_GROUPS
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switch (state) {
case POWER_OFF: {
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TasmotaGlobal.power &= (POWER_MASK ^ mask);
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break; }
case POWER_ON:
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TasmotaGlobal.power |= mask;
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break;
case POWER_TOGGLE:
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TasmotaGlobal.power ^= mask;
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}
#ifdef USE_DEVICE_GROUPS
if (TasmotaGlobal.power != old_power && SRC_REMOTE != source && SRC_RETRY != source) {
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power_t dgr_power = TasmotaGlobal.power;
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if (Settings->flag4.multiple_device_groups) { // SetOption88 - Enable relays in separate device groups
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dgr_power = (dgr_power >> (device - 1)) & 1;
}
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SendDeviceGroupMessage(device, DGR_MSGTYP_UPDATE, DGR_ITEM_POWER, dgr_power);
}
#endif // USE_DEVICE_GROUPS
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SetDevicePower(TasmotaGlobal.power, source);
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#ifdef USE_DOMOTICZ
DomoticzUpdatePowerState(device);
#endif // USE_DOMOTICZ
#ifdef USE_KNX
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KnxUpdatePowerState(device, TasmotaGlobal.power);
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#endif // USE_KNX
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if (publish_power && Settings->flag3.hass_tele_on_power) { // SetOption59 - Send tele/%topic%/STATE in addition to stat/%topic%/RESULT
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MqttPublishTeleState();
}
// Restart PulseTime if powered On
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SetPulseTimer((device -1) % MAX_PULSETIMERS, (((POWER_ALL_OFF_PULSETIME_ON == Settings->poweronstate) ? ~TasmotaGlobal.power : TasmotaGlobal.power) & mask) ? Settings->pulse_timer[(device -1) % MAX_PULSETIMERS] : 0);
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}
else if (POWER_BLINK == state) {
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if (!(TasmotaGlobal.blink_mask & mask)) {
TasmotaGlobal.blink_powersave = (TasmotaGlobal.blink_powersave & (POWER_MASK ^ mask)) | (TasmotaGlobal.power & mask); // Save state
TasmotaGlobal.blink_power = (TasmotaGlobal.power >> (device -1))&1; // Prep to Toggle
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}
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TasmotaGlobal.blink_timer = millis() + 100;
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TasmotaGlobal.blink_counter = ((!Settings->blinkcount) ? 64000 : (Settings->blinkcount *2)) +1;
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TasmotaGlobal.blink_mask |= mask; // Set device mask
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MqttPublishPowerBlinkState(device);
return;
}
else if (POWER_BLINK_STOP == state) {
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bool flag = (TasmotaGlobal.blink_mask & mask);
TasmotaGlobal.blink_mask &= (POWER_MASK ^ mask); // Clear device mask
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MqttPublishPowerBlinkState(device);
if (flag) {
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ExecuteCommandPower(device, (TasmotaGlobal.blink_powersave >> (device -1))&1, SRC_IGNORE); // Restore state
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}
return;
}
if (publish_power) {
MqttPublishPowerState(device);
}
}
void StopAllPowerBlink(void)
{
power_t mask;
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for (uint32_t i = 1; i <= TasmotaGlobal.devices_present; i++) {
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mask = 1 << (i -1);
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if (TasmotaGlobal.blink_mask & mask) {
TasmotaGlobal.blink_mask &= (POWER_MASK ^ mask); // Clear device mask
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MqttPublishPowerBlinkState(i);
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ExecuteCommandPower(i, (TasmotaGlobal.blink_powersave >> (i -1))&1, SRC_IGNORE); // Restore state
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}
}
}
void MqttShowPWMState(void)
{
ResponseAppend_P(PSTR("\"" D_CMND_PWM "\":{"));
bool first = true;
for (uint32_t i = 0; i < MAX_PWMS; i++) {
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if (PinUsed(GPIO_PWM1, i)) {
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ResponseAppend_P(PSTR("%s\"" D_CMND_PWM "%d\":%d"), first ? "" : ",", i+1, Settings->pwm_value[i]);
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first = false;
}
}
ResponseJsonEnd();
}
void MqttShowState(void)
{
char stemp1[TOPSZ];
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ResponseAppendTime();
ResponseAppend_P(PSTR(",\"" D_JSON_UPTIME "\":\"%s\",\"UptimeSec\":%u"), GetUptime().c_str(), UpTime());
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#ifdef ESP8266
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#ifdef USE_ADC_VCC
dtostrfd((double)ESP.getVcc()/1000, 3, stemp1);
ResponseAppend_P(PSTR(",\"" D_JSON_VCC "\":%s"), stemp1);
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#endif // USE_ADC_VCC
#endif // ESP8266
2019-12-02 09:44:27 +00:00
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ResponseAppend_P(PSTR(",\"" D_JSON_HEAPSIZE "\":%d,\"SleepMode\":\"%s\",\"Sleep\":%u,\"LoadAvg\":%u,\"MqttCount\":%u"),
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ESP_getFreeHeap1024(), GetTextIndexed(stemp1, sizeof(stemp1), Settings->flag3.sleep_normal, kSleepMode), // SetOption60 - Enable normal sleep instead of dynamic sleep
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TasmotaGlobal.sleep, TasmotaGlobal.loop_load_avg, MqttConnectCount());
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for (uint32_t i = 1; i <= TasmotaGlobal.devices_present; i++) {
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#ifdef USE_LIGHT
if ((LightDevice()) && (i >= LightDevice())) {
if (i == LightDevice()) { ResponseLightState(1); } // call it only once
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} else {
#endif
ResponseAppend_P(PSTR(",\"%s\":\"%s\""), GetPowerDevice(stemp1, i, sizeof(stemp1), Settings->flag.device_index_enable), // SetOption26 - Switch between POWER or POWER1
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GetStateText(bitRead(TasmotaGlobal.power, i-1)));
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#ifdef USE_SONOFF_IFAN
if (IsModuleIfan()) {
ResponseAppend_P(PSTR(",\"" D_CMND_FANSPEED "\":%d"), GetFanspeed());
break;
}
#endif // USE_SONOFF_IFAN
#ifdef USE_LIGHT
}
#endif
}
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if (TasmotaGlobal.pwm_present) {
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ResponseAppend_P(PSTR(","));
MqttShowPWMState();
}
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if (!TasmotaGlobal.global_state.wifi_down) {
int32_t rssi = WiFi.RSSI();
ResponseAppend_P(PSTR(",\"" D_JSON_WIFI "\":{\"" D_JSON_AP "\":%d,\"" D_JSON_SSID "\":\"%s\",\"" D_JSON_BSSID "\":\"%s\",\"" D_JSON_CHANNEL "\":%d,\"" D_JSON_WIFI_MODE "\":\"11%c\",\"" D_JSON_RSSI "\":%d,\"" D_JSON_SIGNAL "\":%d,\"" D_JSON_LINK_COUNT "\":%d,\"" D_JSON_DOWNTIME "\":\"%s\"}"),
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Settings->sta_active +1, EscapeJSONString(SettingsText(SET_STASSID1 + Settings->sta_active)).c_str(), WiFi.BSSIDstr().c_str(), WiFi.channel(),
pgm_read_byte(&kWifiPhyMode[WiFi.getPhyMode() & 0x3]), WifiGetRssiAsQuality(rssi), rssi,
WifiLinkCount(), WifiDowntime().c_str());
}
ResponseJsonEnd();
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}
void MqttPublishTeleState(void)
{
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ResponseClear();
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MqttShowState();
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MqttPublishPrefixTopic_P(TELE, PSTR(D_RSLT_STATE), Settings->flag5.mqtt_state_retain);
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XdrvRulesProcess(1);
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}
void TempHumDewShow(bool json, bool pass_on, const char *types, float f_temperature, float f_humidity)
{
if (json) {
ResponseAppend_P(PSTR(",\"%s\":{"), types);
ResponseAppendTHD(f_temperature, f_humidity);
ResponseJsonEnd();
#ifdef USE_DOMOTICZ
if (pass_on) {
DomoticzTempHumPressureSensor(f_temperature, f_humidity);
}
#endif // USE_DOMOTICZ
#ifdef USE_KNX
if (pass_on) {
KnxSensor(KNX_TEMPERATURE, f_temperature);
KnxSensor(KNX_HUMIDITY, f_humidity);
}
#endif // USE_KNX
#ifdef USE_WEBSERVER
} else {
WSContentSend_THD(types, f_temperature, f_humidity);
#endif // USE_WEBSERVER
}
}
String GetSwitchText(uint32_t i) {
String switch_text = "";
if (i < MAX_SWITCHES_TXT) {
switch_text = SettingsText(SET_SWITCH_TXT1 + i);
}
if ('\0' == switch_text[0]) {
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switch_text = F(D_JSON_SWITCH);
switch_text += String(i+1);
}
return switch_text;
}
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bool MqttShowSensor(void)
{
ResponseAppendTime();
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int json_data_start = ResponseLength();
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for (uint32_t i = 0; i < MAX_SWITCHES; i++) {
#ifdef USE_TM1638
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if (PinUsed(GPIO_SWT1, i) || (PinUsed(GPIO_TM1638CLK) && PinUsed(GPIO_TM1638DIO) && PinUsed(GPIO_TM1638STB))) {
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#else
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if (PinUsed(GPIO_SWT1, i)) {
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#endif // USE_TM1638
ResponseAppend_P(PSTR(",\"%s\":\"%s\""), GetSwitchText(i).c_str(), GetStateText(SwitchState(i)));
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}
}
XsnsCall(FUNC_JSON_APPEND);
XdrvCall(FUNC_JSON_APPEND);
if (TasmotaGlobal.global_update && Settings->flag.mqtt_add_global_info) {
if ((TasmotaGlobal.humidity > 0) || !isnan(TasmotaGlobal.temperature_celsius) || (TasmotaGlobal.pressure_hpa != 0)) {
uint32_t add_comma = 0;
ResponseAppend_P(PSTR(",\"Global\":{"));
if (!isnan(TasmotaGlobal.temperature_celsius)) {
float t = ConvertTempToFahrenheit(TasmotaGlobal.temperature_celsius);
ResponseAppend_P(PSTR("\"" D_JSON_TEMPERATURE "\":%*_f"),
Settings->flag2.temperature_resolution, &t);
add_comma++;
}
if (TasmotaGlobal.humidity > 0) {
ResponseAppend_P(PSTR("%s\"" D_JSON_HUMIDITY "\":%*_f"),
(add_comma)?",":"", Settings->flag2.humidity_resolution, &TasmotaGlobal.humidity);
add_comma++;
}
if (2 == add_comma) {
float dewpoint = CalcTempHumToDew(TasmotaGlobal.temperature_celsius, TasmotaGlobal.humidity);
ResponseAppend_P(PSTR("%s\"" D_JSON_DEWPOINT "\":%*_f"),
(add_comma)?",":"", Settings->flag2.temperature_resolution, &dewpoint);
}
if (TasmotaGlobal.pressure_hpa != 0) {
float p = ConvertPressure(TasmotaGlobal.pressure_hpa);
float s = ConvertPressureForSeaLevel(TasmotaGlobal.pressure_hpa);
ResponseAppend_P(PSTR("%s\"" D_JSON_PRESSURE "\":%*_f,\"" D_JSON_PRESSUREATSEALEVEL "\":%*_f"),
(add_comma)?",":"", Settings->flag2.pressure_resolution, &p, Settings->flag2.pressure_resolution, &s);
}
ResponseJsonEnd();
}
}
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bool json_data_available = (ResponseLength() - json_data_start);
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if (ResponseContains_P(PSTR(D_JSON_PRESSURE))) {
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ResponseAppend_P(PSTR(",\"" D_JSON_PRESSURE_UNIT "\":\"%s\""), PressureUnit().c_str());
}
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if (ResponseContains_P(PSTR(D_JSON_TEMPERATURE))) {
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ResponseAppend_P(PSTR(",\"" D_JSON_TEMPERATURE_UNIT "\":\"%c\""), TempUnit());
}
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if (ResponseContains_P(PSTR(D_JSON_SPEED)) && Settings->flag2.speed_conversion) {
ResponseAppend_P(PSTR(",\"" D_JSON_SPEED_UNIT "\":\"%s\""), SpeedUnit().c_str());
}
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ResponseJsonEnd();
if (json_data_available) { XdrvCall(FUNC_SHOW_SENSOR); }
return json_data_available;
}
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void MqttPublishSensor(void) {
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ResponseClear();
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if (MqttShowSensor()) {
MqttPublishTeleSensor();
}
}
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void MqttPublishTeleperiodSensor(void) {
ResponseClear();
if (MqttShowSensor()) {
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MqttPublishPrefixTopic_P(TELE, PSTR(D_RSLT_SENSOR), Settings->flag.mqtt_sensor_retain); // CMND_SENSORRETAIN
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XdrvRulesProcess(1);
}
}
/*********************************************************************************************\
* State loops
\*********************************************************************************************/
/*-------------------------------------------------------------------------------------------*\
* Every second
\*-------------------------------------------------------------------------------------------*/
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void PerformEverySecond(void)
{
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TasmotaGlobal.uptime++;
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if (POWER_CYCLE_TIME == TasmotaGlobal.uptime) {
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UpdateQuickPowerCycle(false);
}
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if (BOOT_LOOP_TIME == TasmotaGlobal.uptime) {
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RtcRebootReset();
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Settings->last_module = Settings->module;
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#ifdef USE_DEEPSLEEP
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if (!(DeepSleepEnabled() && !Settings->flag3.bootcount_update)) { // SetOption76 - (Deepsleep) Enable incrementing bootcount (1) when deepsleep is enabled
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#endif
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Settings->bootcount++; // Moved to here to stop flash writes during start-up
AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_APPLICATION D_BOOT_COUNT " %d"), Settings->bootcount);
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#ifdef USE_DEEPSLEEP
}
#endif
}
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if (TasmotaGlobal.mqtt_cmnd_blocked_reset) {
TasmotaGlobal.mqtt_cmnd_blocked_reset--;
if (!TasmotaGlobal.mqtt_cmnd_blocked_reset) {
TasmotaGlobal.mqtt_cmnd_blocked = 0; // Clean up MQTT cmnd loop block
}
}
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if (TasmotaGlobal.seriallog_timer) {
TasmotaGlobal.seriallog_timer--;
if (!TasmotaGlobal.seriallog_timer) {
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if (TasmotaGlobal.seriallog_level) {
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_APPLICATION D_SERIAL_LOGGING_DISABLED));
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}
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TasmotaGlobal.seriallog_level = 0;
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}
}
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if (TasmotaGlobal.syslog_timer) { // Restore syslog level
TasmotaGlobal.syslog_timer--;
if (!TasmotaGlobal.syslog_timer) {
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TasmotaGlobal.syslog_level = Settings->syslog_level;
if (Settings->syslog_level) {
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_APPLICATION D_SYSLOG_LOGGING_REENABLED)); // Might trigger disable again (on purpose)
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}
}
}
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MqttPublishLoggingAsync(false);
SyslogAsync(false);
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ResetGlobalValues();
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if (Settings->tele_period || (3601 == TasmotaGlobal.tele_period)) {
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if (TasmotaGlobal.tele_period >= 9999) {
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if (!TasmotaGlobal.global_state.network_down) {
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TasmotaGlobal.tele_period = 0; // Allow teleperiod once wifi is connected
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}
} else {
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TasmotaGlobal.tele_period++;
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if (TasmotaGlobal.tele_period >= Settings->tele_period) {
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TasmotaGlobal.tele_period = 0;
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MqttPublishTeleState();
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MqttPublishTeleperiodSensor();
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XsnsCall(FUNC_AFTER_TELEPERIOD);
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XdrvCall(FUNC_AFTER_TELEPERIOD);
}
}
}
// Wifi keep alive to send Gratuitous ARP
wifiKeepAlive();
WifiPollNtp();
#ifdef ESP32
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if (11 == TasmotaGlobal.uptime) { // Perform one-time ESP32 houskeeping
ESP_getSketchSize(); // Init sketchsize as it can take up to 2 seconds
}
#endif
#ifdef USE_UFILESYS
static bool settings_lkg = false; // Settings saved as Last Known Good
// Copy Settings as Last Known Good if no changes have been saved since 30 minutes
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if (!settings_lkg && (UtcTime() > START_VALID_TIME) && (Settings->cfg_timestamp < UtcTime() - (30 * 60))) {
TfsSaveFile(TASM_FILE_SETTINGS_LKG, (const uint8_t*)Settings, sizeof(TSettings));
settings_lkg = true;
}
#endif
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}
/*-------------------------------------------------------------------------------------------*\
* Every 0.1 second
\*-------------------------------------------------------------------------------------------*/
void Every100mSeconds(void)
{
// As the max amount of sleep = 250 mSec this loop will shift in time...
power_t power_now;
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if (TasmotaGlobal.latching_relay_pulse) {
TasmotaGlobal.latching_relay_pulse--;
if (!TasmotaGlobal.latching_relay_pulse) SetLatchingRelay(0, 0);
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}
for (uint32_t i = 0; i < MAX_PULSETIMERS; i++) {
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if (TasmotaGlobal.pulse_timer[i] != 0L) { // Timer active?
if (TimeReached(TasmotaGlobal.pulse_timer[i])) { // Timer finished?
TasmotaGlobal.pulse_timer[i] = 0L; // Turn off this timer
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for (uint32_t j = 0; j < TasmotaGlobal.devices_present; j = j +MAX_PULSETIMERS) {
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ExecuteCommandPower(i + j +1, (POWER_ALL_OFF_PULSETIME_ON == Settings->poweronstate) ? POWER_ON : POWER_OFF, SRC_PULSETIMER);
}
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}
}
}
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if (TasmotaGlobal.blink_mask) {
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if (TimeReached(TasmotaGlobal.blink_timer)) {
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SetNextTimeInterval(TasmotaGlobal.blink_timer, 100 * Settings->blinktime);
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TasmotaGlobal.blink_counter--;
if (!TasmotaGlobal.blink_counter) {
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StopAllPowerBlink();
} else {
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TasmotaGlobal.blink_power ^= 1;
power_now = (TasmotaGlobal.power & (POWER_MASK ^ TasmotaGlobal.blink_mask)) | ((TasmotaGlobal.blink_power) ? TasmotaGlobal.blink_mask : 0);
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SetDevicePower(power_now, SRC_IGNORE);
}
}
}
}
/*-------------------------------------------------------------------------------------------*\
* Every 0.25 second
\*-------------------------------------------------------------------------------------------*/
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#ifdef USE_BLE_ESP32
// declare the fn
int ExtStopBLE();
#endif // USE_BLE_ESP32
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bool CommandsReady(void) {
bool ready = BACKLOG_EMPTY ;
#ifdef USE_UFILESYS
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ready |= UfsExecuteCommandFileReady();
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#endif // USE_UFILESYS
return ready;
}
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void Every250mSeconds(void)
{
// As the max amount of sleep = 250 mSec this loop should always be taken...
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static uint8_t blinkspeed = 1; // LED blink rate
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uint32_t blinkinterval = 1;
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TasmotaGlobal.state_250mS++;
TasmotaGlobal.state_250mS &= 0x3;
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TasmotaGlobal.global_state.network_down = (TasmotaGlobal.global_state.wifi_down && TasmotaGlobal.global_state.eth_down) ? 1 : 0;
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if (!Settings->flag.global_state) { // SetOption31 - Control link led blinking
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if (TasmotaGlobal.global_state.data &0x03) { // Network or MQTT problem
if (TasmotaGlobal.global_state.mqtt_down) { blinkinterval = 7; } // MQTT problem so blink every 2 seconds (slowest)
if (TasmotaGlobal.global_state.network_down) { blinkinterval = 3; } // Network problem so blink every second (slow)
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TasmotaGlobal.blinks = 201; // Allow only a single blink in case the problem is solved
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}
}
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if (TasmotaGlobal.blinks || TasmotaGlobal.restart_flag || TasmotaGlobal.ota_state_flag) {
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if (TasmotaGlobal.restart_flag || TasmotaGlobal.ota_state_flag) { // Overrule blinks and keep led lit
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TasmotaGlobal.blinkstate = true; // Stay lit
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} else {
blinkspeed--;
if (!blinkspeed) {
blinkspeed = blinkinterval; // Set interval to 0.2 (default), 1 or 2 seconds
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TasmotaGlobal.blinkstate ^= 1; // Blink
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}
}
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if ((!(Settings->ledstate &0x08)) && ((Settings->ledstate &0x06) || (TasmotaGlobal.blinks > 200) || (TasmotaGlobal.blinkstate))) {
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SetLedLink(TasmotaGlobal.blinkstate); // Set led on or off
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}
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if (!TasmotaGlobal.blinkstate) {
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TasmotaGlobal.blinks--;
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if (200 == TasmotaGlobal.blinks) { TasmotaGlobal.blinks = 0; } // Disable blink
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}
}
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if (Settings->ledstate &1 && (PinUsed(GPIO_LEDLNK) || !(TasmotaGlobal.blinks || TasmotaGlobal.restart_flag || TasmotaGlobal.ota_state_flag)) ) {
bool tstate = TasmotaGlobal.power & Settings->ledmask;
#ifdef ESP8266
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if ((SONOFF_TOUCH == TasmotaGlobal.module_type) || (SONOFF_T11 == TasmotaGlobal.module_type) || (SONOFF_T12 == TasmotaGlobal.module_type) || (SONOFF_T13 == TasmotaGlobal.module_type)) {
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tstate = (!TasmotaGlobal.power) ? 1 : 0; // As requested invert signal for Touch devices to find them in the dark
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}
#endif // ESP8266
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SetLedPower(tstate);
}
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// Check if log refresh needed in case of fast buffer fill
MqttPublishLoggingAsync(true);
SyslogAsync(true);
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/*-------------------------------------------------------------------------------------------*\
* Every second at 0.25 second interval
\*-------------------------------------------------------------------------------------------*/
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static int ota_result = 0;
static uint8_t ota_retry_counter = OTA_ATTEMPTS;
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switch (TasmotaGlobal.state_250mS) {
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case 0: // Every x.0 second
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if (TasmotaGlobal.ota_state_flag && CommandsReady()) {
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TasmotaGlobal.ota_state_flag--;
if (2 == TasmotaGlobal.ota_state_flag) {
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RtcSettings.ota_loader = 0; // Try requested image first
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ota_retry_counter = OTA_ATTEMPTS;
ESPhttpUpdate.rebootOnUpdate(false);
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SettingsSave(1); // Free flash for OTA update
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}
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if (TasmotaGlobal.ota_state_flag <= 0) {
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#ifdef USE_BLE_ESP32
ExtStopBLE();
#endif // USE_BLE_ESP32
#ifdef USE_COUNTER
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CounterInterruptDisable(true); // Prevent OTA failures on 100Hz counter interrupts
#endif // USE_COUNTER
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#ifdef USE_WEBSERVER
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if (Settings->webserver) StopWebserver();
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#endif // USE_WEBSERVER
#ifdef USE_ARILUX_RF
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AriluxRfDisable(); // Prevent restart exception on Arilux Interrupt routine
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#endif // USE_ARILUX_RF
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TasmotaGlobal.ota_state_flag = 92;
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ota_result = 0;
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char full_ota_url[200];
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ota_retry_counter--;
if (ota_retry_counter) {
char ota_url[TOPSZ];
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strlcpy(full_ota_url, GetOtaUrl(ota_url, sizeof(ota_url)), sizeof(full_ota_url));
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#ifdef ESP8266
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#ifndef FIRMWARE_MINIMAL
if (RtcSettings.ota_loader) {
// OTA File too large so try OTA minimal version
// Replace tasmota with tasmota-minimal
// Replace tasmota-DE with tasmota-minimal
// Replace tasmota.bin with tasmota-minimal.bin
// Replace tasmota.xyz with tasmota-minimal.xyz
// Replace tasmota.bin.gz with tasmota-minimal.bin.gz
// Replace tasmota.xyz.gz with tasmota-minimal.xyz.gz
2020-03-04 14:36:37 +00:00
// Replace tasmota.ino.bin with tasmota-minimal.ino.bin
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// Replace tasmota.ino.bin.gz with tasmota-minimal.ino.bin.gz
// Replace http://domus1:80/api/arduino/tasmota.bin with http://domus1:80/api/arduino/tasmota-minimal.bin
// Replace http://domus1:80/api/arduino/tasmota.bin.gz with http://domus1:80/api/arduino/tasmota-minimal.bin.gz
// Replace http://domus1:80/api/arduino/tasmota-DE.bin.gz with http://domus1:80/api/arduino/tasmota-minimal.bin.gz
// Replace http://domus1:80/api/ard-uino/tasmota-DE.bin.gz with http://domus1:80/api/ard-uino/tasmota-minimal.bin.gz
2020-03-04 14:36:37 +00:00
// Replace http://192.168.2.17:80/api/arduino/tasmota.bin with http://192.168.2.17:80/api/arduino/tasmota-minimal.bin
// Replace http://192.168.2.17/api/arduino/tasmota.bin.gz with http://192.168.2.17/api/arduino/tasmota-minimal.bin.gz
2021-05-23 15:50:17 +01:00
char *bch = strrchr(full_ota_url, '/'); // Only consider filename after last backslash prevent change of urls having "-" in it
if (bch == nullptr) { bch = full_ota_url; } // No path found so use filename only
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char *ech = strchr(bch, '.'); // Find file type in filename (none, .ino.bin, .ino.bin.gz, .bin, .bin.gz or .gz)
if (ech == nullptr) { ech = full_ota_url + strlen(full_ota_url); } // Point to '/0' at end of full_ota_url becoming an empty string
2020-03-04 14:36:37 +00:00
2021-01-23 15:26:23 +00:00
//AddLog(LOG_LEVEL_DEBUG, PSTR("OTA: File type [%s]"), ech);
2020-03-04 14:36:37 +00:00
char ota_url_type[strlen(ech) +1];
2020-03-04 14:36:37 +00:00
strncpy(ota_url_type, ech, sizeof(ota_url_type)); // Either empty, .ino.bin, .ino.bin.gz, .bin, .bin.gz or .gz
char *pch = strrchr(bch, '-'); // Find last dash (-) and ignore remainder - handles tasmota-DE
if (pch == nullptr) { pch = ech; } // No dash so ignore filetype
*pch = '\0'; // full_ota_url = http://domus1:80/api/arduino/tasmota
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snprintf_P(full_ota_url, sizeof(full_ota_url), PSTR("%s-" D_JSON_MINIMAL "%s"), full_ota_url, ota_url_type); // Minimal filename must be filename-minimal
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}
#endif // FIRMWARE_MINIMAL
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if (ota_retry_counter < OTA_ATTEMPTS / 2) {
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if (StrCaseStr_P(full_ota_url, PSTR(".gz"))) {
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ota_retry_counter = 1;
} else {
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strcat_P(full_ota_url, PSTR(".gz"));
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}
}
#endif // ESP8266
char version[50];
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snprintf_P(version, sizeof(version), PSTR("%s%s"), TasmotaGlobal.version, TasmotaGlobal.image_name);
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AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_UPLOAD "%s %s"), full_ota_url, version);
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WiFiClient OTAclient;
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ota_result = (HTTP_UPDATE_FAILED != ESPhttpUpdate.update(OTAclient, full_ota_url, version));
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if (!ota_result) {
#ifndef FIRMWARE_MINIMAL
int ota_error = ESPhttpUpdate.getLastError();
DEBUG_CORE_LOG(PSTR("OTA: Error %d"), ota_error);
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#ifdef ESP8266
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if ((HTTP_UE_TOO_LESS_SPACE == ota_error) || (HTTP_UE_BIN_FOR_WRONG_FLASH == ota_error)) {
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RtcSettings.ota_loader = 1; // Try minimal image next
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}
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#endif // ESP8266
2019-12-02 09:44:27 +00:00
#endif // FIRMWARE_MINIMAL
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TasmotaGlobal.ota_state_flag = 2; // Upgrade failed - retry
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}
}
}
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if (90 == TasmotaGlobal.ota_state_flag) { // Allow MQTT to reconnect
2020-10-29 11:21:24 +00:00
TasmotaGlobal.ota_state_flag = 0;
Response_P(PSTR("{\"" D_CMND_UPGRADE "\":\""));
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if (ota_result) {
ResponseAppend_P(PSTR(D_JSON_SUCCESSFUL ". " D_JSON_RESTARTING));
TasmotaGlobal.restart_flag = 2;
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} else {
ResponseAppend_P(PSTR(D_JSON_FAILED " %s"), ESPhttpUpdate.getLastErrorString().c_str());
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}
ResponseAppend_P(PSTR("\"}"));
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// TasmotaGlobal.restart_flag = 2; // Restart anyway to keep memory clean webserver
2021-04-07 14:07:05 +01:00
MqttPublishPrefixTopicRulesProcess_P(STAT, PSTR(D_CMND_UPGRADE));
#ifdef USE_COUNTER
CounterInterruptDisable(false);
#endif // USE_COUNTER
2019-12-02 09:44:27 +00:00
}
}
break;
case 1: // Every x.25 second
if (MidnightNow()) {
XsnsCall(FUNC_SAVE_AT_MIDNIGHT);
}
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if (TasmotaGlobal.save_data_counter && CommandsReady()) {
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TasmotaGlobal.save_data_counter--;
if (TasmotaGlobal.save_data_counter <= 0) {
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if (Settings->flag.save_state) { // SetOption0 - Save power state and use after restart
2019-12-02 09:44:27 +00:00
power_t mask = POWER_MASK;
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for (uint32_t i = 0; i < TasmotaGlobal.devices_present; i++) {
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if ((Settings->pulse_timer[i % MAX_PULSETIMERS] > 0) && (Settings->pulse_timer[i % MAX_PULSETIMERS] < 30)) { // 3 seconds
2019-12-02 09:44:27 +00:00
mask &= ~(1 << i);
}
}
2021-06-11 17:14:12 +01:00
if (!((Settings->power &mask) == (TasmotaGlobal.power &mask))) {
Settings->power = TasmotaGlobal.power;
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}
} else {
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Settings->power = 0;
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}
2020-10-29 11:21:24 +00:00
if (!TasmotaGlobal.restart_flag) { SettingsSave(0); }
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TasmotaGlobal.save_data_counter = Settings->save_data;
2019-12-02 09:44:27 +00:00
}
}
2021-02-16 12:00:10 +00:00
if (TasmotaGlobal.restart_flag && CommandsReady()) {
if ((214 == TasmotaGlobal.restart_flag) || // Reset 4
(215 == TasmotaGlobal.restart_flag) || // Reset 5
(216 == TasmotaGlobal.restart_flag)) { // Reset 6
// Backup current SSIDs and Passwords
char storage_ssid1[strlen(SettingsText(SET_STASSID1)) +1];
strncpy(storage_ssid1, SettingsText(SET_STASSID1), sizeof(storage_ssid1));
char storage_ssid2[strlen(SettingsText(SET_STASSID2)) +1];
strncpy(storage_ssid2, SettingsText(SET_STASSID2), sizeof(storage_ssid2));
char storage_pass1[strlen(SettingsText(SET_STAPWD1)) +1];
strncpy(storage_pass1, SettingsText(SET_STAPWD1), sizeof(storage_pass1));
char storage_pass2[strlen(SettingsText(SET_STAPWD2)) +1];
strncpy(storage_pass2, SettingsText(SET_STAPWD2), sizeof(storage_pass2));
char storage_mqtthost[strlen(SettingsText(SET_MQTT_HOST)) +1];
strncpy(storage_mqtthost, SettingsText(SET_MQTT_HOST), sizeof(storage_mqtthost));
char storage_mqttuser[strlen(SettingsText(SET_MQTT_USER)) +1];
strncpy(storage_mqttuser, SettingsText(SET_MQTT_USER), sizeof(storage_mqttuser));
char storage_mqttpwd[strlen(SettingsText(SET_MQTT_PWD)) +1];
strncpy(storage_mqttpwd, SettingsText(SET_MQTT_PWD), sizeof(storage_mqttpwd));
char storage_mqtttopic[strlen(SettingsText(SET_MQTT_TOPIC)) +1];
strncpy(storage_mqtttopic, SettingsText(SET_MQTT_TOPIC), sizeof(storage_mqtttopic));
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uint16_t mqtt_port = Settings->mqtt_port;
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// if (216 == TasmotaGlobal.restart_flag) {
// Backup mqtt host, port, client, username and password
// }
if ((215 == TasmotaGlobal.restart_flag) || // Reset 5
(216 == TasmotaGlobal.restart_flag)) { // Reset 6
SettingsErase(2); // Erase all flash from program end to end of physical excluding optional filesystem
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}
SettingsDefault();
// Restore current SSIDs and Passwords
SettingsUpdateText(SET_STASSID1, storage_ssid1);
SettingsUpdateText(SET_STASSID2, storage_ssid2);
SettingsUpdateText(SET_STAPWD1, storage_pass1);
SettingsUpdateText(SET_STAPWD2, storage_pass2);
if (216 == TasmotaGlobal.restart_flag) { // Reset 6
// Restore the mqtt host, port, client, username and password
SettingsUpdateText(SET_MQTT_HOST, storage_mqtthost);
SettingsUpdateText(SET_MQTT_USER, storage_mqttuser);
SettingsUpdateText(SET_MQTT_PWD, storage_mqttpwd);
SettingsUpdateText(SET_MQTT_TOPIC, storage_mqtttopic);
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Settings->mqtt_port = mqtt_port;
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}
TasmotaGlobal.restart_flag = 3; // Finish backlog then Restart 1
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}
else if (213 == TasmotaGlobal.restart_flag) { // Reset 3
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SettingsSdkErase(); // Erase flash SDK parameters
TasmotaGlobal.restart_flag = 2; // Restart 1
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}
else if (212 == TasmotaGlobal.restart_flag) { // Reset 2
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SettingsErase(0); // Erase all flash from program end to end of physical flash
TasmotaGlobal.restart_flag = 211; // Reset 1
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}
if (211 == TasmotaGlobal.restart_flag) { // Reset 1
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SettingsDefault();
TasmotaGlobal.restart_flag = 3; // Finish backlog then Restart 1
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}
if (2 == TasmotaGlobal.restart_flag) { // Restart 1
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SettingsSaveAll();
}
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TasmotaGlobal.restart_flag--;
if (TasmotaGlobal.restart_flag <= 0) {
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_APPLICATION "%s"), (TasmotaGlobal.restart_halt) ? PSTR("Halted") : PSTR(D_RESTARTING));
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EspRestart();
}
}
break;
case 2: // Every x.5 second
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if (Settings->flag4.network_wifi) {
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WifiCheck(TasmotaGlobal.wifi_state_flag);
TasmotaGlobal.wifi_state_flag = WIFI_RESTART;
} else {
WifiDisable();
}
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break;
case 3: // Every x.75 second
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if (!TasmotaGlobal.global_state.network_down) {
#ifdef FIRMWARE_MINIMAL
if (1 == RtcSettings.ota_loader) {
RtcSettings.ota_loader = 0;
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TasmotaGlobal.ota_state_flag = 3;
}
#endif // FIRMWARE_MINIMAL
#ifdef USE_DISCOVERY
StartMdns();
#endif // USE_DISCOVERY
#ifdef USE_WEBSERVER
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if (Settings->webserver) {
#ifdef ESP8266
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if (!WifiIsInManagerMode()) { StartWebserver(Settings->webserver, WiFi.localIP()); }
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#endif // ESP8266
#ifdef ESP32
#ifdef USE_ETHERNET
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StartWebserver(Settings->webserver, (EthernetLocalIP()) ? EthernetLocalIP() : WiFi.localIP());
#else
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StartWebserver(Settings->webserver, WiFi.localIP());
#endif
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#endif // ESP32
#ifdef USE_DISCOVERY
#ifdef WEBSERVER_ADVERTISE
MdnsAddServiceHttp();
#endif // WEBSERVER_ADVERTISE
#endif // USE_DISCOVERY
} else {
StopWebserver();
}
#ifdef USE_EMULATION
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if (Settings->flag2.emulation) { UdpConnect(); }
#endif // USE_EMULATION
#endif // USE_WEBSERVER
#ifdef USE_DEVICE_GROUPS
DeviceGroupsStart();
#endif // USE_DEVICE_GROUPS
#ifdef USE_KNX
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if (!knx_started && Settings->flag.knx_enabled) { // CMND_KNX_ENABLED
KNXStart();
knx_started = true;
}
#endif // USE_KNX
MqttCheck();
} else {
#ifdef USE_EMULATION
UdpDisconnect();
#endif // USE_EMULATION
#ifdef USE_DEVICE_GROUPS
DeviceGroupsStop();
#endif // USE_DEVICE_GROUPS
#ifdef USE_KNX
knx_started = false;
#endif // USE_KNX
}
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break;
}
}
#ifdef USE_ARDUINO_OTA
/*********************************************************************************************\
* Allow updating via the Arduino OTA-protocol.
*
* - Once started disables current wifi clients and udp
* - Perform restart when done to re-init wifi clients
\*********************************************************************************************/
bool arduino_ota_triggered = false;
uint16_t arduino_ota_progress_dot_count = 0;
void ArduinoOTAInit(void)
{
ArduinoOTA.setPort(8266);
ArduinoOTA.setHostname(NetworkHostname());
if (strlen(SettingsText(SET_WEBPWD))) {
ArduinoOTA.setPassword(SettingsText(SET_WEBPWD));
}
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ArduinoOTA.onStart([]()
{
SettingsSave(1); // Free flash for OTA update
#ifdef USE_WEBSERVER
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if (Settings->webserver) { StopWebserver(); }
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#endif // USE_WEBSERVER
#ifdef USE_ARILUX_RF
AriluxRfDisable(); // Prevent restart exception on Arilux Interrupt routine
#endif // USE_ARILUX_RF
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if (Settings->flag.mqtt_enabled) {
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MqttDisconnect(); // SetOption3 - Enable MQTT
}
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_UPLOAD "Arduino OTA " D_UPLOAD_STARTED));
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arduino_ota_triggered = true;
arduino_ota_progress_dot_count = 0;
delay(100); // Allow time for message xfer
});
ArduinoOTA.onProgress([](unsigned int progress, unsigned int total)
{
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if ((LOG_LEVEL_DEBUG <= TasmotaGlobal.seriallog_level)) {
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arduino_ota_progress_dot_count++;
Serial.printf(".");
if (!(arduino_ota_progress_dot_count % 80)) { Serial.println(); }
}
});
ArduinoOTA.onError([](ota_error_t error)
{
/*
From ArduinoOTA.h:
typedef enum { OTA_AUTH_ERROR, OTA_BEGIN_ERROR, OTA_CONNECT_ERROR, OTA_RECEIVE_ERROR, OTA_END_ERROR } ota_error_t;
*/
char error_str[100];
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if ((LOG_LEVEL_DEBUG <= TasmotaGlobal.seriallog_level) && arduino_ota_progress_dot_count) { Serial.println(); }
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switch (error) {
case OTA_BEGIN_ERROR: strncpy_P(error_str, PSTR(D_UPLOAD_ERR_2), sizeof(error_str)); break;
case OTA_RECEIVE_ERROR: strncpy_P(error_str, PSTR(D_UPLOAD_ERR_5), sizeof(error_str)); break;
case OTA_END_ERROR: strncpy_P(error_str, PSTR(D_UPLOAD_ERR_7), sizeof(error_str)); break;
default:
snprintf_P(error_str, sizeof(error_str), PSTR(D_UPLOAD_ERROR_CODE " %d"), error);
}
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_UPLOAD "Arduino OTA %s. " D_RESTARTING), error_str);
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EspRestart();
});
ArduinoOTA.onEnd([]()
{
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if ((LOG_LEVEL_DEBUG <= TasmotaGlobal.seriallog_level)) { Serial.println(); }
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_UPLOAD "Arduino OTA " D_SUCCESSFUL ". " D_RESTARTING));
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EspRestart();
});
ArduinoOTA.begin();
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_UPLOAD "Arduino OTA " D_ENABLED " " D_PORT " 8266"));
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}
void ArduinoOtaLoop(void)
{
MDNS.update();
ArduinoOTA.handle();
// Once OTA is triggered, only handle that and dont do other stuff. (otherwise it fails)
while (arduino_ota_triggered) { ArduinoOTA.handle(); }
}
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#endif // USE_ARDUINO_OTA
/********************************************************************************************/
void SerialInput(void)
{
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static uint32_t serial_polling_window = 0;
static bool serial_buffer_overrun = false;
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while (Serial.available()) {
// yield();
delay(0);
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TasmotaGlobal.serial_in_byte = Serial.read();
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if (0 == TasmotaGlobal.serial_in_byte_counter) {
serial_buffer_overrun = false;
}
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else if ((TasmotaGlobal.serial_in_byte_counter == INPUT_BUFFER_SIZE)
#ifdef ESP8266
|| Serial.hasOverrun()
#endif
) {
serial_buffer_overrun = true;
}
#ifdef ESP8266
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/*-------------------------------------------------------------------------------------------*\
* Sonoff dual and ch4 19200 baud serial interface
\*-------------------------------------------------------------------------------------------*/
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if ((SONOFF_DUAL == TasmotaGlobal.module_type) || (CH4 == TasmotaGlobal.module_type)) {
TasmotaGlobal.serial_in_byte = ButtonSerial(TasmotaGlobal.serial_in_byte);
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}
#endif // ESP8266
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/*-------------------------------------------------------------------------------------------*/
if (XdrvCall(FUNC_SERIAL)) {
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TasmotaGlobal.serial_in_byte_counter = 0;
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Serial.flush();
return;
}
/*-------------------------------------------------------------------------------------------*/
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if (TasmotaGlobal.serial_in_byte > 127 && !Settings->flag.mqtt_serial_raw) { // Discard binary data above 127 if no raw reception allowed - CMND_SERIALSEND3
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TasmotaGlobal.serial_in_byte_counter = 0;
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Serial.flush();
return;
}
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if (!Settings->flag.mqtt_serial) { // SerialSend active - CMND_SERIALSEND and CMND_SERIALLOG
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if (isprint(TasmotaGlobal.serial_in_byte)) { // Any char between 32 and 127
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if (TasmotaGlobal.serial_in_byte_counter < INPUT_BUFFER_SIZE -1) { // Add char to string if it still fits
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TasmotaGlobal.serial_in_buffer[TasmotaGlobal.serial_in_byte_counter++] = TasmotaGlobal.serial_in_byte;
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} else {
serial_buffer_overrun = true; // Signal overrun but continue reading input to flush until '\n' (EOL)
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}
}
} else {
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if (TasmotaGlobal.serial_in_byte || Settings->flag.mqtt_serial_raw) { // Any char between 1 and 127 or any char (0 - 255) - CMND_SERIALSEND3
bool in_byte_is_delimiter = // Char is delimiter when...
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(((Settings->serial_delimiter < 128) && (TasmotaGlobal.serial_in_byte == Settings->serial_delimiter)) || // Any char between 1 and 127 and being delimiter
((Settings->serial_delimiter == 128) && !isprint(TasmotaGlobal.serial_in_byte))) && // Any char not between 32 and 127
!Settings->flag.mqtt_serial_raw; // In raw mode (CMND_SERIALSEND3) there is never a delimiter
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if ((TasmotaGlobal.serial_in_byte_counter < INPUT_BUFFER_SIZE -1) && // Add char to string if it still fits and ...
!in_byte_is_delimiter) { // Char is not a delimiter
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TasmotaGlobal.serial_in_buffer[TasmotaGlobal.serial_in_byte_counter++] = TasmotaGlobal.serial_in_byte;
}
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if ((TasmotaGlobal.serial_in_byte_counter >= INPUT_BUFFER_SIZE -1) || // Send message when buffer is full or ...
in_byte_is_delimiter) { // Char is delimiter
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serial_polling_window = 0; // Reception done - send mqtt
break;
}
serial_polling_window = millis(); // Wait for next char
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}
}
#ifdef USE_SONOFF_SC
/*-------------------------------------------------------------------------------------------*\
* Sonoff SC 19200 baud serial interface
\*-------------------------------------------------------------------------------------------*/
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if (SONOFF_SC == TasmotaGlobal.module_type) {
if (TasmotaGlobal.serial_in_byte == '\x1B') { // Sonoff SC status from ATMEGA328P
TasmotaGlobal.serial_in_buffer[TasmotaGlobal.serial_in_byte_counter] = 0; // Serial data completed
SonoffScSerialInput(TasmotaGlobal.serial_in_buffer);
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TasmotaGlobal.serial_in_byte_counter = 0;
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Serial.flush();
return;
}
} else
#endif // USE_SONOFF_SC
/*-------------------------------------------------------------------------------------------*/
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if (!Settings->flag.mqtt_serial && (TasmotaGlobal.serial_in_byte == '\n')) { // CMND_SERIALSEND and CMND_SERIALLOG
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TasmotaGlobal.serial_in_buffer[TasmotaGlobal.serial_in_byte_counter] = 0; // Serial data completed
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TasmotaGlobal.seriallog_level = (Settings->seriallog_level < LOG_LEVEL_INFO) ? (uint8_t)LOG_LEVEL_INFO : Settings->seriallog_level;
if (serial_buffer_overrun) {
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_COMMAND "Serial buffer overrun"));
} else {
AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_COMMAND "%s"), TasmotaGlobal.serial_in_buffer);
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ExecuteCommand(TasmotaGlobal.serial_in_buffer, SRC_SERIAL);
}
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TasmotaGlobal.serial_in_byte_counter = 0;
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serial_polling_window = 0;
Serial.flush();
return;
}
}
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if (Settings->flag.mqtt_serial && TasmotaGlobal.serial_in_byte_counter && (millis() > (serial_polling_window + SERIAL_POLLING))) { // CMND_SERIALSEND and CMND_SERIALLOG
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TasmotaGlobal.serial_in_buffer[TasmotaGlobal.serial_in_byte_counter] = 0; // Serial data completed
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bool assume_json = (!Settings->flag.mqtt_serial_raw && (TasmotaGlobal.serial_in_buffer[0] == '{'));
if (serial_buffer_overrun) {
AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_COMMAND "Serial buffer overrun"));
}
Response_P(PSTR("{\"" D_JSON_SERIALRECEIVED "\":"));
if (assume_json) {
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ResponseAppend_P(TasmotaGlobal.serial_in_buffer);
} else {
ResponseAppend_P(PSTR("\""));
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if (Settings->flag.mqtt_serial_raw) {
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char hex_char[(TasmotaGlobal.serial_in_byte_counter * 2) + 2];
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ResponseAppend_P(ToHex_P((unsigned char*)TasmotaGlobal.serial_in_buffer, TasmotaGlobal.serial_in_byte_counter, hex_char, sizeof(hex_char)));
} else {
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ResponseAppend_P(EscapeJSONString(TasmotaGlobal.serial_in_buffer).c_str());
}
ResponseAppend_P(PSTR("\""));
}
ResponseJsonEnd();
2020-07-20 16:24:51 +01:00
MqttPublishPrefixTopicRulesProcess_P(RESULT_OR_TELE, PSTR(D_JSON_SERIALRECEIVED));
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TasmotaGlobal.serial_in_byte_counter = 0;
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}
}
/********************************************************************************************/
void ResetPwm(void)
{
for (uint32_t i = 0; i < MAX_PWMS; i++) { // Basic PWM control only
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if (PinUsed(GPIO_PWM1, i)) {
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analogWrite(Pin(GPIO_PWM1, i), bitRead(TasmotaGlobal.pwm_inverted, i) ? Settings->pwm_range : 0);
// analogWrite(Pin(GPIO_PWM1, i), bitRead(TasmotaGlobal.pwm_inverted, i) ? Settings->pwm_range - Settings->pwm_value[i] : Settings->pwm_value[i]);
}
}
}
/********************************************************************************************/
2019-12-02 09:44:27 +00:00
void GpioInit(void)
{
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if (!ValidModule(Settings->module)) {
2019-12-02 09:44:27 +00:00
uint32_t module = MODULE;
if (!ValidModule(MODULE)) {
#ifdef ESP8266
module = SONOFF_BASIC;
#endif // ESP8266
#ifdef ESP32
module = WEMOS;
#endif // ESP32
}
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Settings->module = module;
Settings->last_module = module;
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}
SetModuleType();
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// AddLog(LOG_LEVEL_DEBUG, PSTR("DBG: Used GPIOs %d"), GPIO_SENSOR_END);
2020-09-25 17:34:14 +01:00
#ifdef ESP8266
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ConvertGpios();
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#endif // ESP8266
2020-09-25 17:15:31 +01:00
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for (uint32_t i = 0; i < nitems(Settings->user_template.gp.io); i++) {
if ((Settings->user_template.gp.io[i] >= AGPIO(GPIO_SENSOR_END)) && (Settings->user_template.gp.io[i] < AGPIO(GPIO_USER))) {
Settings->user_template.gp.io[i] = AGPIO(GPIO_USER); // Fix not supported sensor ids in template
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}
}
myio template_gp;
TemplateGpios(&template_gp);
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for (uint32_t i = 0; i < nitems(Settings->my_gp.io); i++) {
if ((Settings->my_gp.io[i] >= AGPIO(GPIO_SENSOR_END)) && (Settings->my_gp.io[i] < AGPIO(GPIO_USER))) {
Settings->my_gp.io[i] = GPIO_NONE; // Fix not supported sensor ids in module
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}
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else if (Settings->my_gp.io[i] > GPIO_NONE) {
TasmotaGlobal.my_module.io[i] = Settings->my_gp.io[i]; // Set User selected Module sensors
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}
if ((template_gp.io[i] > GPIO_NONE) && (template_gp.io[i] < AGPIO(GPIO_USER))) {
TasmotaGlobal.my_module.io[i] = template_gp.io[i]; // Force Template override
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}
}
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for (uint32_t i = 0; i < nitems(TasmotaGlobal.my_module.io); i++) {
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uint32_t mpin = ValidPin(i, TasmotaGlobal.my_module.io[i]);
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DEBUG_CORE_LOG(PSTR("INI: gpio pin %d, mpin %d"), i, mpin);
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if (mpin) { // Above GPIO_NONE
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XdrvMailbox.index = mpin;
XdrvMailbox.payload = i;
if ((mpin >= AGPIO(GPIO_OPTION_A)) && (mpin < (AGPIO(GPIO_OPTION_A) + MAX_OPTIONS_A))) {
bitSet(TasmotaGlobal.gpio_optiona.data, mpin - AGPIO(GPIO_OPTION_A));
mpin = GPIO_NONE;
}
#ifdef ROTARY_V1
else if ((mpin >= AGPIO(GPIO_ROT1A_NP)) && (mpin < (AGPIO(GPIO_ROT1A_NP) + MAX_ROTARIES))) {
RotaryAPullupFlag(mpin - AGPIO(GPIO_ROT1A_NP));
mpin -= (AGPIO(GPIO_ROT1A_NP) - AGPIO(GPIO_ROT1A));
}
else if ((mpin >= AGPIO(GPIO_ROT1B_NP)) && (mpin < (AGPIO(GPIO_ROT1B_NP) + MAX_ROTARIES))) {
RotaryBPullupFlag(mpin - AGPIO(GPIO_ROT1B_NP));
mpin -= (AGPIO(GPIO_ROT1B_NP) - AGPIO(GPIO_ROT1B));
}
#endif // ROTARY_V1
else if ((mpin >= AGPIO(GPIO_SWT1_NP)) && (mpin < (AGPIO(GPIO_SWT1_NP) + MAX_SWITCHES))) {
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SwitchPullupFlag(mpin - AGPIO(GPIO_SWT1_NP));
mpin -= (AGPIO(GPIO_SWT1_NP) - AGPIO(GPIO_SWT1));
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}
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else if ((mpin >= AGPIO(GPIO_KEY1_NP)) && (mpin < (AGPIO(GPIO_KEY1_NP) + MAX_KEYS))) {
ButtonPullupFlag(mpin - AGPIO(GPIO_KEY1_NP)); // 0 .. 3
mpin -= (AGPIO(GPIO_KEY1_NP) - AGPIO(GPIO_KEY1));
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}
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else if ((mpin >= AGPIO(GPIO_KEY1_INV)) && (mpin < (AGPIO(GPIO_KEY1_INV) + MAX_KEYS))) {
ButtonInvertFlag(mpin - AGPIO(GPIO_KEY1_INV)); // 0 .. 3
mpin -= (AGPIO(GPIO_KEY1_INV) - AGPIO(GPIO_KEY1));
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}
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else if ((mpin >= AGPIO(GPIO_KEY1_INV_NP)) && (mpin < (AGPIO(GPIO_KEY1_INV_NP) + MAX_KEYS))) {
ButtonPullupFlag(mpin - AGPIO(GPIO_KEY1_INV_NP)); // 0 .. 3
ButtonInvertFlag(mpin - AGPIO(GPIO_KEY1_INV_NP)); // 0 .. 3
mpin -= (AGPIO(GPIO_KEY1_INV_NP) - AGPIO(GPIO_KEY1));
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}
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#ifdef ESP32
else if ((mpin >= AGPIO(GPIO_SWT1_PD)) && (mpin < (AGPIO(GPIO_SWT1_PD) + MAX_SWITCHES))) {
SwitchPulldownFlag(mpin - AGPIO(GPIO_SWT1_PD));
mpin -= (AGPIO(GPIO_SWT1_PD) - AGPIO(GPIO_SWT1));
}
else if ((mpin >= AGPIO(GPIO_KEY1_PD)) && (mpin < (AGPIO(GPIO_KEY1_PD) + MAX_KEYS))) {
ButtonPulldownFlag(mpin - AGPIO(GPIO_KEY1_PD)); // 0 .. 3
mpin -= (AGPIO(GPIO_KEY1_PD) - AGPIO(GPIO_KEY1));
}
else if ((mpin >= AGPIO(GPIO_KEY1_INV_PD)) && (mpin < (AGPIO(GPIO_KEY1_INV_PD) + MAX_KEYS))) {
ButtonPulldownFlag(mpin - AGPIO(GPIO_KEY1_INV_PD)); // 0 .. 3
ButtonInvertFlag(mpin - AGPIO(GPIO_KEY1_INV_PD)); // 0 .. 3
mpin -= (AGPIO(GPIO_KEY1_INV_PD) - AGPIO(GPIO_KEY1));
}
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else if ((mpin >= AGPIO(GPIO_KEY1_TC)) && (mpin < (AGPIO(GPIO_KEY1_TC) + MAX_KEYS))) {
ButtonTouchFlag(mpin - AGPIO(GPIO_KEY1_TC)); // 0 .. 3
mpin -= (AGPIO(GPIO_KEY1_TC) - AGPIO(GPIO_KEY1));
}
#endif //ESP32
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else if ((mpin >= AGPIO(GPIO_REL1_INV)) && (mpin < (AGPIO(GPIO_REL1_INV) + MAX_RELAYS))) {
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bitSet(TasmotaGlobal.rel_inverted, mpin - AGPIO(GPIO_REL1_INV));
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mpin -= (AGPIO(GPIO_REL1_INV) - AGPIO(GPIO_REL1));
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}
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else if ((mpin >= AGPIO(GPIO_LED1_INV)) && (mpin < (AGPIO(GPIO_LED1_INV) + MAX_LEDS))) {
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bitSet(TasmotaGlobal.led_inverted, mpin - AGPIO(GPIO_LED1_INV));
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mpin -= (AGPIO(GPIO_LED1_INV) - AGPIO(GPIO_LED1));
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}
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else if (mpin == AGPIO(GPIO_LEDLNK_INV)) {
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TasmotaGlobal.ledlnk_inverted = 1;
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mpin -= (AGPIO(GPIO_LEDLNK_INV) - AGPIO(GPIO_LEDLNK));
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}
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else if ((mpin >= AGPIO(GPIO_PWM1_INV)) && (mpin < (AGPIO(GPIO_PWM1_INV) + MAX_PWMS))) {
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bitSet(TasmotaGlobal.pwm_inverted, mpin - AGPIO(GPIO_PWM1_INV));
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mpin -= (AGPIO(GPIO_PWM1_INV) - AGPIO(GPIO_PWM1));
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}
else if (XdrvCall(FUNC_PIN_STATE)) {
mpin = XdrvMailbox.index;
}
else if (XsnsCall(FUNC_PIN_STATE)) {
mpin = XdrvMailbox.index;
};
}
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if (mpin) { SetPin(i, mpin); } // Anything above GPIO_NONE and below GPIO_SENSOR_END
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}
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// AddLogBufferSize(LOG_LEVEL_DEBUG, (uint8_t*)TasmotaGlobal.gpio_pin, nitems(TasmotaGlobal.gpio_pin), sizeof(TasmotaGlobal.gpio_pin[0]));
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analogWriteRange(Settings->pwm_range); // Default is 1023 (Arduino.h)
analogWriteFreq(Settings->pwm_frequency); // Default is 1000 (core_esp8266_wiring_pwm.c)
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#ifdef ESP8266
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if ((2 == Pin(GPIO_TXD)) || (H801 == TasmotaGlobal.module_type)) { Serial.set_tx(2); }
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SetSerialSwap();
#endif
uint32_t sspi_mosi = (PinUsed(GPIO_SSPI_SCLK) && PinUsed(GPIO_SSPI_MOSI)) ? SPI_MOSI : SPI_NONE;
uint32_t sspi_miso = (PinUsed(GPIO_SSPI_SCLK) && PinUsed(GPIO_SSPI_MISO)) ? SPI_MISO : SPI_NONE;
TasmotaGlobal.soft_spi_enabled = sspi_mosi + sspi_miso;
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AddLogSpi(0, Pin(GPIO_SSPI_SCLK), Pin(GPIO_SSPI_MOSI), Pin(GPIO_SSPI_MISO));
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#ifdef USE_SPI
#ifdef ESP8266
if (!TasmotaGlobal.soft_spi_enabled) {
bool valid_cs = (ValidSpiPinUsed(GPIO_SPI_CS) ||
ValidSpiPinUsed(GPIO_RC522_CS) ||
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(ValidSpiPinUsed(GPIO_NRF24_CS) && ValidSpiPinUsed(GPIO_NRF24_DC)) ||
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ValidSpiPinUsed(GPIO_ILI9341_CS) ||
ValidSpiPinUsed(GPIO_ILI9341_DC) || // there are also boards without cs
ValidSpiPinUsed(GPIO_EPAPER29_CS) ||
ValidSpiPinUsed(GPIO_EPAPER42_CS) ||
ValidSpiPinUsed(GPIO_ILI9488_CS) ||
ValidSpiPinUsed(GPIO_SSD1351_CS) ||
ValidSpiPinUsed(GPIO_RA8876_CS) ||
ValidSpiPinUsed(GPIO_ST7789_DC) || // ST7789 CS may be omitted so chk DC too
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ValidSpiPinUsed(GPIO_ST7789_CS) ||
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(ValidSpiPinUsed(GPIO_SSD1331_CS) && ValidSpiPinUsed(GPIO_SSD1331_DC)) ||
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ValidSpiPinUsed(GPIO_SDCARD_CS) ||
ValidSpiPinUsed(GPIO_MCP2515_CS)
);
// If SPI_CS and/or SPI_DC is used they must be valid
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TasmotaGlobal.spi_enabled = (valid_cs) ? SPI_MOSI_MISO : SPI_NONE;
if (TasmotaGlobal.spi_enabled) {
TasmotaGlobal.my_module.io[12] = AGPIO(GPIO_SPI_MISO);
SetPin(12, AGPIO(GPIO_SPI_MISO));
TasmotaGlobal.my_module.io[13] = AGPIO(GPIO_SPI_MOSI);
SetPin(13, AGPIO(GPIO_SPI_MOSI));
TasmotaGlobal.my_module.io[14] = AGPIO(GPIO_SPI_CLK);
SetPin(14, AGPIO(GPIO_SPI_CLK));
}
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}
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#endif // ESP8266
#ifdef ESP32
if (PinUsed(GPIO_SPI_CS) ||
PinUsed(GPIO_RC522_CS) ||
PinUsed(GPIO_NRF24_CS) ||
PinUsed(GPIO_ILI9341_CS) ||
PinUsed(GPIO_EPAPER29_CS) ||
PinUsed(GPIO_EPAPER42_CS) ||
PinUsed(GPIO_ILI9488_CS) ||
PinUsed(GPIO_SSD1351_CS) ||
PinUsed(GPIO_RA8876_CS) ||
PinUsed(GPIO_ST7789_DC) || // ST7789 CS may be omitted so chk DC too
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PinUsed(GPIO_ST7789_CS) ||
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PinUsed(GPIO_SSD1331_CS) ||
PinUsed(GPIO_SDCARD_CS)
) {
uint32_t spi_mosi = (PinUsed(GPIO_SPI_CLK) && PinUsed(GPIO_SPI_MOSI)) ? SPI_MOSI : SPI_NONE;
uint32_t spi_miso = (PinUsed(GPIO_SPI_CLK) && PinUsed(GPIO_SPI_MISO)) ? SPI_MISO : SPI_NONE;
TasmotaGlobal.spi_enabled = spi_mosi + spi_miso;
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}
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#endif // ESP32
AddLogSpi(1, Pin(GPIO_SPI_CLK), Pin(GPIO_SPI_MOSI), Pin(GPIO_SPI_MISO));
#endif // USE_SPI
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for (uint32_t i = 0; i < nitems(TasmotaGlobal.my_module.io); i++) {
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uint32_t mpin = ValidPin(i, TasmotaGlobal.my_module.io[i]);
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// AddLog(LOG_LEVEL_DEBUG, PSTR("INI: gpio pin %d, mpin %d"), i, mpin);
if (AGPIO(GPIO_OUTPUT_HI) == mpin) {
pinMode(i, OUTPUT);
digitalWrite(i, 1);
}
else if (AGPIO(GPIO_OUTPUT_LO) == mpin) {
pinMode(i, OUTPUT);
digitalWrite(i, 0);
}
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/*
// Until 20210726
// Set any non-used GPIO to INPUT - Related to resetPins() in support_legacy_cores.ino
// Doing it here solves relay toggles at restart.
#if CONFIG_IDF_TARGET_ESP32C3
else if (((i < 11) || (i > 17)) && (GPIO_NONE == mpin)) { // Skip SPI flash interface
if (!((20 == i) || (21 == i))) { // Skip serial
pinMode(i, INPUT);
}
}
#else // CONFIG_IDF_TARGET_ESP32C3
else if (((i < 6) || (i > 11)) && (GPIO_NONE == mpin)) { // Skip SPI flash interface
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if (!((1 == i) || (3 == i))) { // Skip serial
pinMode(i, INPUT);
}
}
#endif // CONFIG_IDF_TARGET_ESP32C3
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*/
#ifdef ESP8266
// Set any non-used GPIO to INPUT - Related to resetPins() in support_legacy_cores.ino
// Doing it here solves relay toggles at restart.
else if (((i < 6) || (i > 11)) && (GPIO_NONE == mpin)) { // Skip SPI flash interface
if (!((1 == i) || (3 == i))) { // Skip serial
pinMode(i, INPUT);
}
}
#endif // ESP8266
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}
// Digital input
for (uint32_t i = 0; i < MAX_SWITCHES; i++) {
if (PinUsed(GPIO_INPUT, i)) {
pinMode(Pin(GPIO_INPUT, i), INPUT);
}
}
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#ifdef USE_I2C
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TasmotaGlobal.i2c_enabled = (PinUsed(GPIO_I2C_SCL) && PinUsed(GPIO_I2C_SDA));
if (TasmotaGlobal.i2c_enabled) {
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Wire.begin(Pin(GPIO_I2C_SDA), Pin(GPIO_I2C_SCL));
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}
#ifdef ESP32
TasmotaGlobal.i2c_enabled_2 = (PinUsed(GPIO_I2C_SCL, 1) && PinUsed(GPIO_I2C_SDA, 1));
if (TasmotaGlobal.i2c_enabled_2) {
Wire1.begin(Pin(GPIO_I2C_SDA, 1), Pin(GPIO_I2C_SCL, 1));
}
#endif
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#endif // USE_I2C
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TasmotaGlobal.devices_present = 0;
TasmotaGlobal.light_type = LT_BASIC; // Use basic PWM control if SetOption15 = 0
XsnsCall(FUNC_MODULE_INIT);
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if (XdrvCall(FUNC_MODULE_INIT)) {
// Serviced
}
#ifdef ESP8266
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else if (YTF_IR_BRIDGE == TasmotaGlobal.module_type) {
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ClaimSerial(); // Stop serial loopback mode
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// TasmotaGlobal.devices_present = 1;
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}
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else if (SONOFF_DUAL == TasmotaGlobal.module_type) {
TasmotaGlobal.devices_present = 2;
SetSerial(19200, TS_SERIAL_8N1);
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}
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else if (CH4 == TasmotaGlobal.module_type) {
TasmotaGlobal.devices_present = 4;
SetSerial(19200, TS_SERIAL_8N1);
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}
#ifdef USE_SONOFF_SC
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else if (SONOFF_SC == TasmotaGlobal.module_type) {
SetSerial(19200, TS_SERIAL_8N1);
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}
#endif // USE_SONOFF_SC
#endif // ESP8266
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for (uint32_t i = 0; i < MAX_PWMS; i++) { // Basic PWM control only
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if (PinUsed(GPIO_PWM1, i)) {
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#ifdef ESP8266
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pinMode(Pin(GPIO_PWM1, i), OUTPUT);
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#endif // ESP8266
#ifdef ESP32
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analogAttach(Pin(GPIO_PWM1, i), i);
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#endif // ESP32
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if (TasmotaGlobal.light_type) {
// force PWM GPIOs to low or high mode, see #7165
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analogWrite(Pin(GPIO_PWM1, i), bitRead(TasmotaGlobal.pwm_inverted, i) ? Settings->pwm_range : 0);
} else {
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TasmotaGlobal.pwm_present = true;
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analogWrite(Pin(GPIO_PWM1, i), bitRead(TasmotaGlobal.pwm_inverted, i) ? Settings->pwm_range - Settings->pwm_value[i] : Settings->pwm_value[i]);
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}
}
}
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for (uint32_t i = 0; i < MAX_RELAYS; i++) {
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if (PinUsed(GPIO_REL1, i)) {
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TasmotaGlobal.devices_present++;
pinMode(Pin(GPIO_REL1, i), OUTPUT);
#ifdef ESP8266
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if (EXS_RELAY == TasmotaGlobal.module_type) {
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digitalWrite(Pin(GPIO_REL1, i), bitRead(TasmotaGlobal.rel_inverted, i) ? 1 : 0);
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if (i &1) { TasmotaGlobal.devices_present--; }
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}
#endif // ESP8266
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}
}
for (uint32_t i = 0; i < MAX_LEDS; i++) {
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if (PinUsed(GPIO_LED1, i)) {
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#ifdef USE_ARILUX_RF
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if ((3 == i) && (TasmotaGlobal.leds_present < 2) && !PinUsed(GPIO_ARIRFSEL)) {
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SetPin(Pin(GPIO_LED1, i), AGPIO(GPIO_ARIRFSEL)); // Legacy support where LED4 was Arilux RF enable
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} else {
#endif
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TasmotaGlobal.leds_present++;
pinMode(Pin(GPIO_LED1, i), OUTPUT);
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digitalWrite(Pin(GPIO_LED1, i), bitRead(TasmotaGlobal.led_inverted, i));
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#ifdef USE_ARILUX_RF
}
#endif
}
}
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if (PinUsed(GPIO_LEDLNK)) {
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pinMode(Pin(GPIO_LEDLNK), OUTPUT);
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digitalWrite(Pin(GPIO_LEDLNK), TasmotaGlobal.ledlnk_inverted);
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}
#ifdef USE_PWM_DIMMER
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if (PWM_DIMMER == TasmotaGlobal.module_type && PinUsed(GPIO_REL1)) { TasmotaGlobal.devices_present--; }
#endif // USE_PWM_DIMMER
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SetLedPower(Settings->ledstate &8);
SetLedLink(Settings->ledstate &8);
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}