mirror of https://github.com/arendst/Tasmota.git
v5.5.1
5.5.1 20170805 * Fix Sonoff Rf Bridge issues * Add Sonoff RF Bridge MQTT messages on received and learned RF signal * Add command VoltRes 0|1 to select voltage resolution to 0.1 V (#654) * Add averaging to Analog input (#686) * Add Energy tele data on Sonoff Pow Threshold change (#688) * Fix inconsistent property names in Messages (#690)
This commit is contained in:
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README.md
12
README.md
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@ -1,9 +1,15 @@
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## Sonoff-Tasmota
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Provide ESP8266 based Sonoff by [iTead Studio](https://www.itead.cc/) and ElectroDragon IoT Relay with Serial, Web and MQTT control allowing 'Over the Air' or OTA firmware updates using Arduino IDE.
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Current version is **5.5.0** - See [sonoff/_releasenotes.ino](https://github.com/arendst/Sonoff-Tasmota/blob/master/sonoff/_releasenotes.ino) for change information.
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Current version is **5.5.1** - See [sonoff/_releasenotes.ino](https://github.com/arendst/Sonoff-Tasmota/blob/master/sonoff/_releasenotes.ino) for change information.
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### **** ATTENTION Version 5.x.x specific information ****
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### ATTENTION All versions
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Only Flash Mode DOUT is supported. Do not use Flash Mode DIO / QIO / QOUT as it might seem to brick your device.
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See [Wiki](https://github.com/arendst/Sonoff-Tasmota/wiki/Theo's-Tasmota-Tips) for background information.
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### ATTENTION Version 5.x.x specific information
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This version uses a new linker script to free flash memory for future code additions. It moves the settings from Spiffs to Eeprom. If you compile your own firmware download the new linker to your IDE or Platformio base folder. See [Wiki > Prerequisite](https://github.com/arendst/Sonoff-Tasmota/wiki/Prerequisite).
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@ -15,7 +21,7 @@ Best practice to implement is:
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You should now have a device with 32k more code memory to play with.
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### *********************************************************
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### Version Information
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- This version provides all (Sonoff) modules in one file and starts up with Sonoff Basic.
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- Once uploaded select module using the configuration webpage or the commands ```Modules``` and ```Module```.
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@ -1,4 +1,12 @@
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/* 5.5.0 20170730
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/* 5.5.1 20170805
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* Fix Sonoff Rf Bridge issues
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* Add Sonoff RF Bridge MQTT messages on received and learned RF signal
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* Add command VoltRes 0|1 to select voltage resolution to 0.1 V (#654)
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* Add averaging to Analog input (#686)
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* Add Energy tele data on Sonoff Pow Threshold change (#688)
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* Fix inconsistent property names in Messages (#690)
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*
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* 5.5.0 20170730
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* Reduce code space by removing the following commands as they are replaced by SetOption alternatives:
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* SaveState = SetOption0
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* ButtonRestrict = SetOption1
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@ -42,7 +42,7 @@ typedef union { // Restricted by MISRA-C Rule 18.4 bu
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uint32_t spare17 : 1;
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uint32_t spare18 : 1;
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uint32_t spare19 : 1;
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uint32_t spare20 : 1;
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uint32_t voltage_resolution : 1;
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uint32_t emulation : 2;
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uint32_t energy_resolution : 3;
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uint32_t pressure_resolution : 2;
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@ -366,6 +366,7 @@ void CFG_Dump(char* parms)
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}
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snprintf_P(log, sizeof(log), PSTR("%s|"), log);
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addLog(LOG_LEVEL_INFO, log);
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delay(1);
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}
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}
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@ -25,7 +25,7 @@
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- Select IDE Tools - Flash Size: "1M (no SPIFFS)"
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====================================================*/
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#define VERSION 0x05050000 // 5.5.0
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#define VERSION 0x05050100 // 5.5.1
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enum log_t {LOG_LEVEL_NONE, LOG_LEVEL_ERROR, LOG_LEVEL_INFO, LOG_LEVEL_DEBUG, LOG_LEVEL_DEBUG_MORE, LOG_LEVEL_ALL};
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enum week_t {Last, First, Second, Third, Fourth};
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@ -1129,6 +1129,12 @@ void mqttDataCb(char* topic, byte* data, unsigned int data_len)
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}
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snprintf_P(svalue, sizeof(svalue), PSTR("{\"PressRes\":%d}"), sysCfg.flag.pressure_resolution);
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}
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else if (!strcmp_P(type,PSTR("VOLTRES"))) {
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if ((payload >= 0) && (payload <= 1)) {
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sysCfg.flag.voltage_resolution = payload;
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}
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snprintf_P(svalue, sizeof(svalue), PSTR("{\"VoltRes\":%d}"), sysCfg.flag.voltage_resolution);
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}
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else if (!strcmp_P(type,PSTR("ENERGYRES"))) {
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if ((payload >= 0) && (payload <= 5)) {
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sysCfg.flag.energy_resolution = payload;
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@ -1762,7 +1768,7 @@ void publish_status(uint8_t payload)
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}
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if ((0 == payload) || (3 == payload)) {
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snprintf_P(svalue, sizeof(svalue), PSTR("{\"StatusLOG\":{\"Seriallog\":%d, \"Weblog\":%d, \"Syslog\":%d, \"LogHost\":\"%s\", \"SSId1\":\"%s\", \"SSId2\":\"%s\", \"TelePeriod\":%d, \"Option\":\"%X\"}}"),
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snprintf_P(svalue, sizeof(svalue), PSTR("{\"StatusLOG\":{\"Seriallog\":%d, \"Weblog\":%d, \"Syslog\":%d, \"LogHost\":\"%s\", \"SSId1\":\"%s\", \"SSId2\":\"%s\", \"TelePeriod\":%d, \"Option\":\"%08X\"}}"),
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sysCfg.seriallog_level, sysCfg.weblog_level, sysCfg.syslog_level, sysCfg.syslog_host, sysCfg.sta_ssid[0], sysCfg.sta_ssid[1], sysCfg.tele_period, sysCfg.flag.data);
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mqtt_publish_topic_P(option, PSTR("STATUS3"), svalue);
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}
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@ -1774,7 +1780,7 @@ void publish_status(uint8_t payload)
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}
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if ((0 == payload) || (5 == payload)) {
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snprintf_P(svalue, sizeof(svalue), PSTR("{\"StatusNET\":{\"Host\":\"%s\", \"IP\":\"%s\", \"Gateway\":\"%s\", \"Subnetmask\":\"%s\", \"DNSServer\":\"%s\", \"Mac\":\"%s\", \"Webserver\":%d, \"WifiConfig\":%d}}"),
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snprintf_P(svalue, sizeof(svalue), PSTR("{\"StatusNET\":{\"Hostname\":\"%s\", \"IPaddress\":\"%s\", \"Gateway\":\"%s\", \"Subnetmask\":\"%s\", \"DNSServer\":\"%s\", \"Mac\":\"%s\", \"Webserver\":%d, \"WifiConfig\":%d}}"),
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Hostname, WiFi.localIP().toString().c_str(), IPAddress(sysCfg.ip_address[1]).toString().c_str(), IPAddress(sysCfg.ip_address[2]).toString().c_str(), IPAddress(sysCfg.ip_address[3]).toString().c_str(),
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WiFi.macAddress().c_str(), sysCfg.webserver, sysCfg.sta_config);
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mqtt_publish_topic_P(option, PSTR("STATUS5"), svalue);
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@ -1856,7 +1862,12 @@ void sensors_mqttPresent(char* svalue, uint16_t ssvalue, uint8_t* djson)
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counter_mqttPresent(svalue, ssvalue, djson);
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#ifndef USE_ADC_VCC
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if (pin[GPIO_ADC0] < 99) {
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snprintf_P(svalue, ssvalue, PSTR("%s, \"AnalogInput0\":%d"), svalue, analogRead(A0));
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uint16_t alr = 0;
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for (byte i = 0; i < 32; i++) {
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alr += analogRead(A0);
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delay(1);
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}
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snprintf_P(svalue, ssvalue, PSTR("%s, \"AnalogInput0\":%d"), svalue, alr >> 5);
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*djson = 1;
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}
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#endif
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@ -21,46 +21,77 @@
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Sonoff RF Bridge 433
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\*********************************************************************************************/
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uint8_t sfb_rcvflg = 0; // Sonoff RF Bridge communication
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uint8_t sfb_rcvflg = 0;
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uint8_t sfb_learnKey = 1;
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uint8_t sfb_learnFlg = 0;
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void sb_received()
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{
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char svalue[60];
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uint8_t i = 0;
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uint32_t sid = 0;
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uint32_t rid = 0;
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uint16_t rsy = 0;
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uint16_t rlo = 0;
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uint16_t rhi = 0;
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char svalue[90];
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char rfkey[8];
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char log[LOGSZ];
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svalue[0] = '\0';
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for (byte i = 0; i < SerialInByteCounter; i++) {
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for (i = 0; i < SerialInByteCounter; i++) {
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snprintf_P(svalue, sizeof(svalue), PSTR("%s%02X "), svalue, serialInBuf[i]);
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}
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snprintf_P(log, sizeof(log), PSTR("BRDG: Received %s"), svalue);
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addLog(LOG_LEVEL_DEBUG, log);
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if (0xA2 == serialInBuf[0]) { // Learn failed
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if (0xA2 == serialInBuf[0]) { // Learn timeout
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sfb_learnFlg = 0;
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snprintf_P(svalue, sizeof(svalue), PSTR("{\"RfKey%d\":\"Learn failed\"}"), sfb_learnKey);
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mqtt_publish_topic_P(5, PSTR("RFKEY"), svalue);
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}
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if (0xA3 == serialInBuf[0]) { // Learn
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else if (0xA3 == serialInBuf[0]) { // Learned A3 20 F8 01 18 03 3E 2E 1A 22 55
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sfb_learnFlg = 0;
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for (uint8_t i = 0; i < 9; i++) {
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sysCfg.sfb_code[sfb_learnKey][i] = serialInBuf[i +1];
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rlo = serialInBuf[3] << 8 | serialInBuf[4]; // Low time in uSec
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rhi = serialInBuf[5] << 8 | serialInBuf[6]; // High time in uSec
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if (rlo && rhi) {
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for (i = 0; i < 9; i++) {
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sysCfg.sfb_code[sfb_learnKey][i] = serialInBuf[i +1];
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}
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snprintf_P(svalue, sizeof(svalue), PSTR("{\"RfKey%d\":\"Learned\"}"), sfb_learnKey);
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} else {
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snprintf_P(svalue, sizeof(svalue), PSTR("{\"RfKey%d\":\"Learn failed\"}"), sfb_learnKey);
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}
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snprintf_P(svalue, sizeof(svalue), PSTR("{\"RfKey%d\":\"Learned\"}"), sfb_learnKey);
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mqtt_publish_topic_P(5, PSTR("RFKEY"), svalue);
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}
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else if (0xA4 == serialInBuf[0]) { // Received RF data A4 20 EE 01 18 03 3E 2E 1A 22 55
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rsy = serialInBuf[1] << 8 | serialInBuf[2]; // Sync time in uSec
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rlo = serialInBuf[3] << 8 | serialInBuf[4]; // Low time in uSec
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rhi = serialInBuf[5] << 8 | serialInBuf[6]; // High time in uSec
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rid = serialInBuf[7] << 16 | serialInBuf[8] << 8 | serialInBuf[9];
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strcpy_P(rfkey, PSTR("\"None\""));
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for (i = 1; i <= 16; i++) {
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if (sysCfg.sfb_code[i][0]) {
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sid = sysCfg.sfb_code[i][6] << 16 | sysCfg.sfb_code[i][7] << 8 | sysCfg.sfb_code[i][8];
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if (sid == rid) {
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snprintf_P(rfkey, sizeof(rfkey), PSTR("%d"), i);
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break;
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}
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}
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}
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snprintf_P(svalue, sizeof(svalue), PSTR("{\"RfReceived\":{\"Sync\":%d, \"Low\":%d, \"High\":%d, \"Data\":\"%06X\", \"RfKey\":%s}}"),
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rsy, rlo, rhi, rid, rfkey);
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mqtt_publish_topic_P(6, PSTR("RFRECEIVED"), svalue);
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}
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}
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boolean sb_serial()
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{
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if (sfb_rcvflg) {
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if (SerialInByte > 0) {
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if (!((SerialInByteCounter == 0) && (SerialInByte == 0))) { // Skip leading 0
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serialInBuf[SerialInByteCounter++] = SerialInByte;
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if (0x55 == SerialInByte) {
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// serialInBuf[SerialInByteCounter] = 0x55;
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if (0x55 == SerialInByte) { // 0x55 - End of text
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sb_received();
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sfb_rcvflg = 0; // 0x55 - End of text
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sfb_rcvflg = 0;
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return 1;
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}
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}
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sysCfg.hlw_kWhtotal = rtcMem.hlw_kWhtotal;
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}
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boolean hlw_readEnergy(byte option, float &et, float &ed, uint16_t &e, uint16_t &w, uint16_t &u, float &i, float &c)
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boolean hlw_readEnergy(byte option, float &et, float &ed, uint16_t &e, uint16_t &w, float &u, float &i, float &c)
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{
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unsigned long cur_kWhtoday = hlw_kWhtoday;
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unsigned long hlw_len;
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}
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if (hlw_cf1u_plen && (w || (power &1))) {
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hlw_u = (HLW_UREF * sysCfg.hlw_ucal) / hlw_cf1u_plen;
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u = hlw_u / 10;
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u = (float)hlw_u / 10;
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} else {
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u = 0;
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}
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@ -313,13 +313,14 @@ void hlw_margin_chk()
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char svalue[200]; // was MESSZ
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float pet;
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float ped;
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float pu;
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float pi;
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float pc;
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uint16_t uped;
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uint16_t puv;
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uint16_t piv;
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uint16_t pe;
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uint16_t pw;
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uint16_t pu;
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boolean flag;
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boolean jsonflg;
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hlw_readEnergy(0, pet, ped, pe, pw, pu, pi, pc);
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if (power && (sysCfg.hlw_pmin || sysCfg.hlw_pmax || sysCfg.hlw_umin || sysCfg.hlw_umax || sysCfg.hlw_imin || sysCfg.hlw_imax)) {
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puv = (uint16_t)(pu);
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piv = (uint16_t)(pi * 1000);
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// snprintf_P(log, sizeof(log), PSTR("HLW: W %d, U %d, I %d"), pw, pu, piv);
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snprintf_P(svalue, sizeof(svalue), PSTR("%s%s\"PowerHigh\":\"%s\""), svalue, (jsonflg)?", ":"", getStateText(flag));
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jsonflg = 1;
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}
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if (hlw_margin(0, sysCfg.hlw_umin, pu, flag, hlw_uminflg)) {
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if (hlw_margin(0, sysCfg.hlw_umin, puv, flag, hlw_uminflg)) {
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snprintf_P(svalue, sizeof(svalue), PSTR("%s%s\"VoltageLow\":\"%s\""), svalue, (jsonflg)?", ":"", getStateText(flag));
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jsonflg = 1;
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}
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if (hlw_margin(1, sysCfg.hlw_umax, pw, flag, hlw_umaxflg)) {
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if (hlw_margin(1, sysCfg.hlw_umax, puv, flag, hlw_umaxflg)) {
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snprintf_P(svalue, sizeof(svalue), PSTR("%s%s\"VoltageHigh\":\"%s\""), svalue, (jsonflg)?", ":"", getStateText(flag));
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jsonflg = 1;
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}
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if (jsonflg) {
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snprintf_P(svalue, sizeof(svalue), PSTR("%s}"), svalue);
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mqtt_publish_topic_P(2, PSTR("MARGINS"), svalue);
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hlw_mqttPresent();
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}
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}
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@ -378,6 +381,7 @@ void hlw_margin_chk()
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if (!hlw_mplh_counter) {
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snprintf_P(svalue, sizeof(svalue), PSTR("{\"MaxPowerReached\":\"%d%s\"}"), pw, (sysCfg.flag.value_units) ? " W" : "");
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mqtt_publish_topic_P(1, PSTR("WARNING"), svalue);
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hlw_mqttPresent();
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do_cmnd_power(1, 0);
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if (!hlw_mplr_counter) {
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hlw_mplr_counter = sysCfg.param[P_MAX_POWER_RETRY] +1;
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} else {
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snprintf_P(svalue, sizeof(svalue), PSTR("{\"MaxPowerReachedRetry\":\"%s\"}"), getStateText(0));
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mqtt_publish_topic_P(1, PSTR("WARNING"), svalue);
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hlw_mqttPresent();
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}
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}
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}
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@ -424,6 +429,7 @@ void hlw_margin_chk()
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dtostrf(ped, 1, 3, svalue);
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snprintf_P(svalue, sizeof(svalue), PSTR("{\"MaxEnergyReached\":\"%s%s\"}"), svalue, (sysCfg.flag.value_units) ? " kWh" : "");
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mqtt_publish_topic_P(1, PSTR("WARNING"), svalue);
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hlw_mqttPresent();
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do_cmnd_power(1, 0);
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}
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}
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@ -615,14 +621,15 @@ void hlw_mqttStat(byte option, char* svalue, uint16_t ssvalue)
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char stemp2[10];
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char stemp3[10];
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char stemp4[10];
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char stemp5[10];
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char speriod[20];
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float pet;
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float ped;
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float pu;
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float pi;
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float pc;
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uint16_t pe;
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uint16_t pw;
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uint16_t pu;
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hlw_readEnergy(option, pet, ped, pe, pw, pu, pi, pc);
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dtostrf((float)sysCfg.hlw_kWhyesterday / 100000000, 1, sysCfg.flag.energy_resolution, stemp0);
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@ -630,9 +637,10 @@ void hlw_mqttStat(byte option, char* svalue, uint16_t ssvalue)
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dtostrf(pc, 1, 2, stemp2);
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dtostrf(pi, 1, 3, stemp3);
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dtostrf(pet, 1, sysCfg.flag.energy_resolution, stemp4);
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dtostrf(pu, 1, sysCfg.flag.voltage_resolution, stemp5);
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snprintf_P(speriod, sizeof(speriod), PSTR(", \"Period\":%d"), pe);
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snprintf_P(svalue, ssvalue, PSTR("%s\"Total\":%s, \"Yesterday\":%s, \"Today\":%s%s, \"Power\":%d, \"Factor\":%s, \"Voltage\":%d, \"Current\":%s}"),
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svalue, stemp4, stemp0, stemp1, (option) ? speriod : "", pw, stemp2, pu, stemp3);
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snprintf_P(svalue, ssvalue, PSTR("%s\"Total\":%s, \"Yesterday\":%s, \"Today\":%s%s, \"Power\":%d, \"Factor\":%s, \"Voltage\":%s, \"Current\":%s}"),
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svalue, stemp4, stemp0, stemp1, (option) ? speriod : "", pw, stemp2, stemp5, stemp3);
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#ifdef USE_DOMOTICZ
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dtostrf(pet * 1000, 1, 1, stemp1);
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domoticz_sensor4(pw, stemp1);
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@ -658,7 +666,7 @@ void hlw_mqttStatus(char* svalue, uint16_t ssvalue)
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#ifdef USE_WEBSERVER
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const char HTTP_ENERGY_SNS[] PROGMEM =
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"<tr><th>Voltage</th><td>%d V</td></tr>"
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"<tr><th>Voltage</th><td>%s V</td></tr>"
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"<tr><th>Current</th><td>%s A</td></tr>"
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"<tr><th>Power</th><td>%d W</td></tr>"
|
||||
"<tr><th>Power Factor</th><td>%s</td></tr>"
|
||||
|
@ -674,23 +682,25 @@ String hlw_webPresent()
|
|||
char stemp3[10];
|
||||
char stemp4[10];
|
||||
char stemp5[10];
|
||||
char stemp6[10];
|
||||
char sensor[320];
|
||||
float pet;
|
||||
float ped;
|
||||
float pu;
|
||||
float pi;
|
||||
float pc;
|
||||
uint16_t pe;
|
||||
uint16_t pw;
|
||||
uint16_t pu;
|
||||
|
||||
hlw_readEnergy(0, pet, ped, pe, pw, pu, pi, pc);
|
||||
|
||||
dtostrf(pu, 1, sysCfg.flag.voltage_resolution, stemp6);
|
||||
dtostrf(pi, 1, 3, stemp);
|
||||
dtostrf(pc, 1, 2, stemp2);
|
||||
dtostrf(ped, 1, sysCfg.flag.energy_resolution, stemp3);
|
||||
dtostrf((float)sysCfg.hlw_kWhyesterday / 100000000, 1, sysCfg.flag.energy_resolution, stemp4);
|
||||
dtostrf(pet, 1, sysCfg.flag.energy_resolution, stemp5);
|
||||
snprintf_P(sensor, sizeof(sensor), HTTP_ENERGY_SNS, pu, stemp, pw, stemp2, stemp3, stemp4, stemp5);
|
||||
snprintf_P(sensor, sizeof(sensor), HTTP_ENERGY_SNS, stemp6, stemp, pw, stemp2, stemp3, stemp4, stemp5);
|
||||
page += sensor;
|
||||
return page;
|
||||
}
|
||||
|
|
Loading…
Reference in New Issue