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CHANGELOG.md
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@@ -5,11 +5,13 @@ All notable changes to this project will be documented in this file.
The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/),
and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0.html).
## [1.6.1 dev] 2019-03-
## [1.7.0 dev] 2019-03-
### Added
- Buderus Logamax plus
- EMS+ support (thanks @GlennArens, @gl3nni3)
- MQTT 'restart' topic to reboot ESP (thanks @balk77)
## [1.6.0] 2019-03-24

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LICENSE
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@@ -1,680 +1,3 @@
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under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, your program's commands
might be different; for a GUI interface, you would use an "about box".
You should also get your employer (if you work as a programmer) or school,
if any, to sign a "copyright disclaimer" for the program, if necessary.
For more information on this, and how to apply and follow the GNU GPL, see
<http://www.gnu.org/licenses/>.
The GNU General Public License does not permit incorporating your program
into proprietary programs. If your program is a subroutine library, you
may consider it more useful to permit linking proprietary applications with
the library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License. But first, please read
<http://www.gnu.org/philosophy/why-not-lgpl.html>.
=======
GNU LESSER GENERAL PUBLIC LICENSE
Version 3, 29 June 2007
@@ -840,4 +163,3 @@ whether future versions of the GNU Lesser General Public License shall
apply, that proxy's public statement of acceptance of any version is
permanent authorization for you to choose that version for the
Library.
>>>>>>> d3a07d22b59af38c2308d6a14bfd043dec282dc3

8
platformio.ini-example
View File

@@ -12,7 +12,7 @@ build_flags = -g -w
wifi_settings =
; hard code if you prefer. Recommendation is to set from within the app when in Serial or AP mode
;wifi_settings = '-DWIFI_SSID="XXXX"' '-DWIFI_PASSWORD="XXXX"'
; wifi_settings = '-DWIFI_SSID="XXXX"' '-DWIFI_PASSWORD="XXXX"'
lib_deps =
CRC32
@@ -34,11 +34,5 @@ upload_speed = 921600
monitor_speed = 115200
; for OTA comment out these sections
;upload_protocol = espota
<<<<<<< HEAD
;upload_port = <the IP address...>
=======
;upload_port = ems-esp.local
;upload_port = <add here your ip of the device>
>>>>>>> upstream/dev

97
src/ems-esp.cpp
View File

@@ -114,7 +114,9 @@ command_t PROGMEM project_cmds[] = {
{false, "boiler read <type ID>", "send read request to boiler"},
{false, "boiler wwtemp <degrees>", "set boiler warm water temperature"},
{false, "boiler tapwater <on | off>", "set boiler warm tap water on/off"},
{false, "boiler comfort <hot | eco | intelligent>", "set boiler warm water comfort setting"}};
{false, "boiler comfort <hot | eco | intelligent>", "set boiler warm water comfort setting"}
};
// store for overall system status
_EMSESP_Status EMSESP_Status;
@@ -313,7 +315,7 @@ void showInfo() {
myDebug(" LED is %s, Silent mode is %s", EMSESP_Status.led ? "on" : "off", EMSESP_Status.silent_mode ? "on" : "off");
if (EMSESP_Status.dallas_sensors > 0) {
myDebug(" %d external temperature sensor%s connected", EMSESP_Status.dallas_sensors, (EMSESP_Status.dallas_sensors == 1) ? "" : "s");
myDebug(" %d external temperature sensor%s found", EMSESP_Status.dallas_sensors, (EMSESP_Status.dallas_sensors == 1) ? "" : "s");
}
myDebug(" Thermostat is %s, Boiler is %s, Shower Timer is %s, Shower Alert is %s",
@@ -481,8 +483,6 @@ void showInfo() {
myDebug(" Mode is set to ?");
}
}
myDebug(""); // newline
}
// Dallas
@@ -502,6 +502,8 @@ void showInfo() {
myDebug("%sShower stats:%s", COLOR_BOLD_ON, COLOR_BOLD_OFF);
myDebug(" Shower is %s", (EMSESP_Shower.showerOn ? "running" : "off"));
}
myDebug(""); // newline
}
// send all dallas sensor values as a JSON package to MQTT
@@ -776,7 +778,7 @@ void do_scanThermostat() {
// do a system health check every now and then to see if we all connections
void do_systemCheck() {
if ((!ems_getBusConnected()) && (!myESP.getUseSerial())) {
myDebug("Error! Unable to read from EMS bus. Retrying in %d seconds...", SYSTEMCHECK_TIME);
myDebug("Error! Unable to read the EMS bus. Retrying in %d seconds...", SYSTEMCHECK_TIME);
}
}
@@ -784,7 +786,7 @@ void do_systemCheck() {
// only if we have a EMS connection
void do_regularUpdates() {
if ((ems_getBusConnected()) && (!myESP.getUseSerial())) {
myDebugLog("Calling scheduled data refresh from EMS devices...");
myDebugLog("Requesting scheduled EMS device data");
ems_getThermostatValues();
ems_getBoilerValues();
ems_getOtherValues();
@@ -1210,10 +1212,6 @@ void MQTTCallback(unsigned int type, const char * topic, const char * message) {
myESP.mqttSubscribe(TOPIC_SHOWER_ALERT);
myESP.mqttSubscribe(TOPIC_SHOWER_COLDSHOT);
// subscribe to a start message and send the first publish
myESP.mqttSubscribe(MQTT_TOPIC_START);
myESP.mqttPublish(MQTT_TOPIC_START, MQTT_TOPIC_START_PAYLOAD);
// publish the status of the Shower parameters
myESP.mqttPublish(TOPIC_SHOWER_TIMER, EMSESP_Status.shower_timer ? "1" : "0");
myESP.mqttPublish(TOPIC_SHOWER_ALERT, EMSESP_Status.shower_alert ? "1" : "0");
@@ -1221,13 +1219,6 @@ void MQTTCallback(unsigned int type, const char * topic, const char * message) {
// handle incoming MQTT publish events
if (type == MQTT_MESSAGE_EVENT) {
// handle response from a start message
// for example with HA it sends the system time from the server
if (strcmp(topic, MQTT_TOPIC_START) == 0) {
myDebug("Received boottime: %s", message);
myESP.setBoottime(message);
}
// thermostat temp changes
if (strcmp(topic, TOPIC_THERMOSTAT_CMD_TEMP) == 0) {
float f = strtof((char *)message, 0);
@@ -1276,7 +1267,6 @@ void MQTTCallback(unsigned int type, const char * topic, const char * message) {
} else if (strcmp((char *)message, "intelligent") == 0) {
ems_setWarmWaterModeComfort(3);
}
// publishValues(true); // publish back immediately
}
// shower timer
@@ -1346,77 +1336,6 @@ void initEMSESP() {
EMSESP_Shower.doingColdShot = false;
}
<<<<<<< HEAD:src/ems-esp.ino
// call PublishValues without forcing, so using CRC to see if we really need to publish
void do_publishValues() {
// don't publish if we're not connected to the EMS bus
if ((ems_getBusConnected()) && (!myESP.getUseSerial()) && myESP.isMQTTConnected()) {
publishValues(false);
}
}
// callback to light up the LED, called via Ticker every second
// fast way is to use WRITE_PERI_REG(PERIPHS_GPIO_BASEADDR + (state ? 4 : 8), (1 << EMSESP_Status.led_gpio)); // 4 is on, 8 is off
void do_ledcheck() {
if (EMSESP_Status.led_enabled) {
if (ems_getBusConnected()) {
digitalWrite(EMSESP_Status.led_gpio, (EMSESP_Status.led_gpio == LED_BUILTIN) ? LOW : HIGH); // light on. For onboard LED high=off
} else {
int state = digitalRead(EMSESP_Status.led_gpio);
digitalWrite(EMSESP_Status.led_gpio, !state);
}
}
}
// Thermostat scan
void do_scanThermostat() {
if ((ems_getBusConnected()) && (!myESP.getUseSerial())) {
myDebug("> Scanning thermostat message type #0x%02X..", scanThermostat_count);
ems_doReadCommand(scanThermostat_count, EMS_Thermostat.type_id);
scanThermostat_count++;
}
}
// do a system health check every now and then to see if we all connections
void do_systemCheck() {
if ((!ems_getBusConnected()) && (!myESP.getUseSerial())) {
myDebug("Error! Unable to read from EMS bus. Retrying in %d seconds...", SYSTEMCHECK_TIME);
}
}
// force calls to get data from EMS for the types that aren't sent as broadcasts
// only if we have a EMS connection
void do_regularUpdates() {
if ((ems_getBusConnected()) && (!myESP.getUseSerial())) {
myDebugLog("Calling scheduled data refresh from EMS devices..");
ems_getThermostatValues();
ems_getBoilerValues();
}
}
// turn off hot water to send a shot of cold
void _showerColdShotStart() {
if (EMSESP_Status.shower_alert) {
myDebugLog("[Shower] doing a shot of cold water");
ems_setWarmTapWaterActivated(false);
EMSESP_Shower.doingColdShot = true;
// start the timer for n seconds which will reset the water back to hot
showerColdShotStopTimer.attach(SHOWER_COLDSHOT_DURATION, _showerColdShotStop);
}
}
// turn back on the hot water for the shower
void _showerColdShotStop() {
if (EMSESP_Shower.doingColdShot) {
myDebugLog("[Shower] finished shot of cold. hot water back on");
ems_setWarmTapWaterActivated(true);
EMSESP_Shower.doingColdShot = false;
showerColdShotStopTimer.detach(); // disable the timer
}
}
=======
>>>>>>> upstream/dev:src/ems-esp.cpp
/*
* Shower Logic
*/

232
src/ems.cpp
View File

@@ -21,23 +21,20 @@ _EMS_Sys_Status EMS_Sys_Status; // EMS Status
CircularBuffer<_EMS_TxTelegram, EMS_TX_TELEGRAM_QUEUE_MAX> EMS_TxQueue; // FIFO queue for Tx send buffer
//
// process callbacks per type
//
// macros used in the _process* functions
#define _toByte(i) (data[i])
#define _toShort(i) ((data[i] << 8) + data[i + 1])
#define _toLong(i) ((data[i] << 16) + (data[i + 1] << 8) + (data[i + 2]))
#define _bitRead(i, bit) (((data[i]) >> (bit)) & 0x01)
void _printMessage(_EMS_RxTelegram * EMS_RxTelegram);
//
// process callbacks per type
//
// generic
<<<<<<< HEAD
void _process_Version(uint8_t type, uint8_t * data, uint8_t length);
void _printMessage(uint8_t * telegram, uint8_t length);
=======
void _process_Version(uint8_t src, uint8_t * data, uint8_t length);
>>>>>>> upstream/dev
// Boiler and Buderus devices
void _process_UBAMonitorFast(uint8_t src, uint8_t * data, uint8_t length);
@@ -70,18 +67,15 @@ void _process_RC35Set(uint8_t src, uint8_t * data, uint8_t length);
void _process_RC35StatusMessage(uint8_t src, uint8_t * data, uint8_t length);
// Easy
<<<<<<< HEAD
void _process_EasyStatusMessage(uint8_t type, uint8_t * data, uint8_t length);
//RC1010
void _process_RC1010StatusMessage(uint8_t type, uint8_t * data, uint8_t length);
void _process_RC1010SetMessage(uint8_t type, uint8_t * data, uint8_t length);
=======
void _process_EasyStatusMessage(uint8_t src, uint8_t * data, uint8_t length);
>>>>>>> upstream/dev
/*
* Recognized EMS types and the functions they call to process the telegrams
* Format: MODEL ID, TYPE ID, Description, function
* Format: MODEL ID, TYPE ID, Description, function, emsplus
*/
const _EMS_Type EMS_Types[] = {
@@ -136,19 +130,15 @@ const _EMS_Type EMS_Types[] = {
{EMS_MODEL_ES73, EMS_TYPE_RC35StatusMessage, "RC35StatusMessage", _process_RC35StatusMessage, false},
// Easy
<<<<<<< HEAD
{EMS_MODEL_EASY, EMS_TYPE_EasyStatusMessage, "EasyStatusMessage", _process_EasyStatusMessage, false},
{EMS_MODEL_BOSCHEASY, EMS_TYPE_EasyStatusMessage, "EasyStatusMessage", _process_EasyStatusMessage, false},
//Ems plus
//Nefit 1010
{EMS_MODEL_RC1010, EMS_TYPE_RC1010StatusMessage, "RC1010StatusMessage", _process_RC1010StatusMessage, true},
{EMS_MODEL_RC1010, EMS_TYPE_RC1010Set, "RC1010SetMessage", _process_RC1010SetMessage, true}};
=======
{EMS_MODEL_EASY, EMS_TYPE_EasyStatusMessage, "EasyStatusMessage", _process_EasyStatusMessage},
{EMS_MODEL_BOSCHEASY, EMS_TYPE_EasyStatusMessage, "EasyStatusMessage", _process_EasyStatusMessage},
{EMS_MODEL_RC1010, EMS_TYPE_RC1010Set, "RC1010SetMessage", _process_RC1010SetMessage, true}
};
>>>>>>> upstream/dev
// calculate sizes of arrays at compile
uint8_t _EMS_Types_max = ArraySize(EMS_Types); // number of defined types
@@ -274,12 +264,12 @@ void ems_init() {
EMS_Boiler.heatingActive = EMS_VALUE_INT_NOTSET; // Central heating is on/off
// set boiler type
EMS_Boiler.product_id = 0;
EMS_Boiler.product_id = EMS_ID_NONE;
strlcpy(EMS_Boiler.version, "?", sizeof(EMS_Boiler.version));
// set thermostat model
EMS_Thermostat.model_id = EMS_MODEL_NONE;
EMS_Thermostat.product_id = 0;
EMS_Thermostat.product_id = EMS_ID_NONE;
strlcpy(EMS_Thermostat.version, "?", sizeof(EMS_Thermostat.version));
// set other types
@@ -717,16 +707,19 @@ void _ems_readTelegram(uint8_t * telegram, uint8_t length) {
*/
void _ems_processTelegram(_EMS_RxTelegram * EMS_RxTelegram) {
// header
<<<<<<< HEAD
uint8_t src = telegram[0] & 0x7F;
uint8_t dest = telegram[1] & 0x7F; // remove 8th bit to handle both reads and writes
uint8_t type = telegram[2];
uint8_t offset = telegram[3];
uint8_t * data = &telegram[4]; // data block starts at position 4
uint8_t * telegram = EMS_RxTelegram->telegram;
uint8_t length = EMS_RxTelegram->length;
uint8_t src = telegram[0] & 0x7F;
uint8_t type = telegram[2];
uint8_t offset = telegram[3];
uint8_t * data = &telegram[4]; // data block starts at position 4
// EMS Plus support
uint8_t ptype = telegram[3];
uint8_t poffset = telegram[4];
uint8_t * pdata = &telegram[5 + poffset]; // data block starts at position 5 plus the offset
_printMessage(telegram, length);
_printMessage(EMS_RxTelegram);
// see if we recognize the type first by scanning our known EMS types list
// trying to match the type ID
@@ -766,28 +759,27 @@ void _ems_processTelegram(_EMS_RxTelegram * EMS_RxTelegram) {
}
}
}
void _printMessage(uint8_t * telegram, uint8_t length) {
/*
* print the telegram
*/
void _printMessage(_EMS_RxTelegram * EMS_RxTelegram) {
uint8_t * telegram = EMS_RxTelegram->telegram;
bool emsp = false;
uint8_t src = telegram[0] & 0x7F;
uint8_t dest = telegram[1] & 0x7F; // remove 8th bit to handle both reads and writes
uint8_t type = telegram[2];
uint8_t offset = telegram[3];
uint8_t * data = &telegram[4]; // data block starts at position 5
if (type >= 240) {
if (type >= 0xF0) {
type = telegram[3];
offset = telegram[4];
data = &telegram[5 + offset];
emsp = true;
}
=======
uint8_t * telegram = EMS_RxTelegram->telegram;
uint8_t src = telegram[0] & 0x7F;
uint8_t dest = telegram[1] & 0x7F; // remove 8th bit to handle both reads and writes
uint8_t type = telegram[2];
uint8_t offset = telegram[3];
uint8_t * data = telegram + 4; // data block starts at position 5
>>>>>>> upstream/dev
// print detailed telegram data
if (EMS_Sys_Status.emsLogging >= EMS_SYS_LOGGING_THERMOSTAT) {
char output_str[200] = {0};
@@ -798,16 +790,10 @@ void _printMessage(uint8_t * telegram, uint8_t length) {
if (src == EMS_Boiler.type_id) {
strlcpy(output_str, "Boiler", sizeof(output_str));
} else if (src == EMS_Thermostat.type_id) {
<<<<<<< HEAD
if (emsp)
strlcpy(output_str, "Thermostat+", sizeof(output_str));
else
strlcpy(output_str, "Thermostat", sizeof(output_str));
=======
strlcpy(output_str, "Thermostat", sizeof(output_str));
} else if (src == EMS_ID_SM10) {
strlcpy(output_str, "SM10", sizeof(output_str));
>>>>>>> upstream/dev
} else {
strlcpy(output_str, "0x", sizeof(output_str));
strlcat(output_str, _hextoa(src, buffer), sizeof(output_str));
@@ -833,24 +819,19 @@ void _printMessage(uint8_t * telegram, uint8_t length) {
strlcpy(color_s, COLOR_GREEN, sizeof(color_s));
}
} else if (dest == EMS_Boiler.type_id) {
<<<<<<< HEAD
if (emsp) {
strlcat(output_str, "Boiler", sizeof(output_str));
strlcat(output_str, "Boiler+", sizeof(output_str));
strlcpy(color_s, COLOR_BRIGHT_MAGENTA, sizeof(color_s));
} else {
strlcat(output_str, "Boiler", sizeof(output_str));
strlcpy(color_s, COLOR_MAGENTA, sizeof(color_s));
}
=======
strlcat(output_str, "Boiler", sizeof(output_str));
strlcpy(color_s, COLOR_MAGENTA, sizeof(color_s));
} else if (dest == EMS_ID_SM10) {
strlcat(output_str, "SM10", sizeof(output_str));
strlcpy(color_s, COLOR_MAGENTA, sizeof(color_s));
>>>>>>> upstream/dev
} else if (dest == EMS_Thermostat.type_id) {
if (emsp) {
strlcat(output_str, "Thermostat", sizeof(output_str));
strlcat(output_str, "Thermostat+", sizeof(output_str));
strlcpy(color_s, COLOR_BRIGHT_MAGENTA, sizeof(color_s));
} else {
strlcat(output_str, "Thermostat", sizeof(output_str));
@@ -1166,8 +1147,8 @@ void _process_UBAMonitorSlow(uint8_t src, uint8_t * data, uint8_t length) {
* e.g. 17 0B 91 00 80 1E 00 CB 27 00 00 00 00 05 01 00 CB 00 (CRC=47), #data=14
*/
void _process_RC10StatusMessage(uint8_t src, uint8_t * data, uint8_t length) {
EMS_Thermostat.setpoint_roomTemp = _toByte(EMS_TYPE_RC10StatusMessage_setpoint); // is * 2
EMS_Thermostat.curr_roomTemp = _toByte(EMS_TYPE_RC10StatusMessage_curr); // is * 10
EMS_Thermostat.setpoint_roomTemp = _toByte(EMS_OFFSET_RC10StatusMessage_setpoint); // is * 2
EMS_Thermostat.curr_roomTemp = _toByte(EMS_OFFSET_RC10StatusMessage_curr); // is * 10
EMS_Sys_Status.emsRefreshed = true; // triggers a send the values back via MQTT
}
@@ -1178,28 +1159,19 @@ void _process_RC10StatusMessage(uint8_t src, uint8_t * data, uint8_t length) {
* received every 60 seconds
*/
void _process_RC20StatusMessage(uint8_t src, uint8_t * data, uint8_t length) {
EMS_Thermostat.setpoint_roomTemp = _toByte(EMS_TYPE_RC20StatusMessage_setpoint); // is * 2
EMS_Thermostat.curr_roomTemp = _toShort(EMS_TYPE_RC20StatusMessage_curr); // is * 10
EMS_Thermostat.setpoint_roomTemp = _toByte(EMS_OFFSET_RC20StatusMessage_setpoint); // is * 2
EMS_Thermostat.curr_roomTemp = _toShort(EMS_OFFSET_RC20StatusMessage_curr); // is * 10
EMS_Sys_Status.emsRefreshed = true; // triggers a send the values back via MQTT
}
/**
<<<<<<< HEAD
*type 0x41 - data from the RC30 thermostat(0x10) - 14 bytes long * For reading the temp values only * received every 60 seconds
* type 0x41 - data from the RC30 thermostat(0x10) - 14 bytes long
* For reading the temp values only * received every 60 seconds
*/
void _process_RC30StatusMessage(uint8_t type, uint8_t * data, uint8_t length) {
EMS_Thermostat.setpoint_roomTemp = ((float)data[EMS_TYPE_RC30StatusMessage_setpoint]) / (float)2;
EMS_Thermostat.curr_roomTemp = _toFloat(EMS_TYPE_RC30StatusMessage_curr, data);
=======
* type 0x41 - data from the RC30 thermostat (0x10) - 14 bytes long
* For reading the temp values only
* received every 60 seconds
*/
void _process_RC30StatusMessage(uint8_t src, uint8_t * data, uint8_t length) {
EMS_Thermostat.setpoint_roomTemp = _toByte(EMS_TYPE_RC30StatusMessage_setpoint); // is * 2
EMS_Thermostat.curr_roomTemp = _toShort(EMS_TYPE_RC30StatusMessage_curr); // note, its 2 bytes here
>>>>>>> upstream/dev
EMS_Thermostat.setpoint_roomTemp = _toByte(EMS_OFFSET_RC30StatusMessage_setpoint); // is * 2
EMS_Thermostat.curr_roomTemp = _toShort(EMS_OFFSET_RC30StatusMessage_curr); // note, its 2 bytes here
EMS_Sys_Status.emsRefreshed = true; // triggers a send the values back via MQTT
}
@@ -1210,15 +1182,15 @@ void _process_RC30StatusMessage(uint8_t src, uint8_t * data, uint8_t length) {
* received every 60 seconds
*/
void _process_RC35StatusMessage(uint8_t src, uint8_t * data, uint8_t length) {
EMS_Thermostat.setpoint_roomTemp = _toByte(EMS_TYPE_RC35StatusMessage_setpoint); // is * 2
EMS_Thermostat.setpoint_roomTemp = _toByte(EMS_OFFSET_RC35StatusMessage_setpoint); // is * 2
// check if temp sensor is unavailable
if ((data[0] == 0x7D) && (data[1] = 0x00)) {
EMS_Thermostat.curr_roomTemp = EMS_VALUE_SHORT_NOTSET;
} else {
EMS_Thermostat.curr_roomTemp = _toShort(EMS_TYPE_RC35StatusMessage_curr);
EMS_Thermostat.curr_roomTemp = _toShort(EMS_OFFSET_RC35StatusMessage_curr);
}
EMS_Thermostat.day_mode = bitRead(data[EMS_OFFSET_RC35Get_mode_day], 1); //get day mode flag
EMS_Thermostat.day_mode = bitRead(data[EMS_OFFSET_RC35Get_mode_day], 1); // get day mode flag
EMS_Sys_Status.emsRefreshed = true; // triggers a send the values back via MQTT
}
@@ -1226,32 +1198,27 @@ void _process_RC35StatusMessage(uint8_t src, uint8_t * data, uint8_t length) {
* type 0x0A - data from the Nefit Easy/TC100 thermostat (0x18) - 31 bytes long
* The Easy has a digital precision of its floats to 2 decimal places, so values must be divided by 100
*/
<<<<<<< HEAD
void _process_EasyStatusMessage(uint8_t type, uint8_t * data, uint8_t length) {
EMS_Thermostat.curr_roomTemp = ((float)(((data[EMS_TYPE_EasyStatusMessage_curr] << 8) + data[9]))) / 100;
EMS_Thermostat.setpoint_roomTemp = ((float)(((data[EMS_TYPE_EasyStatusMessage_setpoint] << 8) + data[11]))) / 100;
EMS_Sys_Status.emsRefreshed = true; // triggers a send the values back via MQTT
void _process_EasyStatusMessage(uint8_t src, uint8_t * data, uint8_t length) {
EMS_Thermostat.curr_roomTemp = _toShort(EMS_OFFSET_EasyStatusMessage_curr); // is *100
EMS_Thermostat.setpoint_roomTemp = _toShort(EMS_OFFSET_EasyStatusMessage_setpoint); // is *100
EMS_Sys_Status.emsRefreshed = true; // triggers a send the values back via MQTT
}
/**
* type 0x00 - data from the Nefit RC1010 thermostat (0x18) - 24 bytes long
* The 1010 has a digital precision of its floats to 1 decimal places for the current temperature, so values is divided by 10
* The 1010 has a digital precision of its floats to 1 decimal places for the set temperature, so values is divided by 2
*/
void _process_RC1010StatusMessage(uint8_t type, uint8_t * data, uint8_t length) {
EMS_Thermostat.curr_roomTemp = ((float)data[EMS_TYPE_RC1010StatusMessage_curr]) / (float)10;
EMS_Thermostat.setpoint_roomTemp = ((float)data[EMS_TYPE_RC1010StatusMessage_set]) / (float)2;
=======
void _process_EasyStatusMessage(uint8_t src, uint8_t * data, uint8_t length) {
EMS_Thermostat.curr_roomTemp = _toShort(EMS_TYPE_EasyStatusMessage_curr); // is *100
EMS_Thermostat.setpoint_roomTemp = _toShort(EMS_TYPE_EasyStatusMessage_setpoint); // is *100
>>>>>>> upstream/dev
EMS_Thermostat.curr_roomTemp = _toShort(EMS_OFFSET_RC1010StatusMessage_curr);
EMS_Thermostat.setpoint_roomTemp = _toByte(EMS_OFFSET_RC1010StatusMessage_setpoint); // is * 2
}
EMS_Sys_Status.emsRefreshed = true; // triggers a send the values back via MQTT
}
void _process_RC1010SetMessage(uint8_t type, uint8_t * data, uint8_t length) {
EMS_Thermostat.setpoint_roomTemp = ((float)data[EMS_TYPE_RC1010Set]) / (float)2;
EMS_Sys_Status.emsRefreshed = true; // triggers a send the values back via MQTT
// to complete
}
/**
* type 0xB0 - for reading the mode from the RC10 thermostat (0x17)
* received only after requested
@@ -1364,16 +1331,16 @@ void _process_Version(uint8_t src, uint8_t * data, uint8_t length) {
if (typeFound) {
// its a boiler
myDebug("Boiler found. Model %s with TypeID 0x%02X, ProductID %d, Version %s",
myDebug("Boiler found. Model %s (TypeID:0x%02X ProductID:%d Version:%s)",
Boiler_Types[i].model_string,
Boiler_Types[i].type_id,
product_id,
version);
// if its a boiler set it
// if its a boiler set it, unless it already has been set by checking for a productID
// it will take the first one found in the list
if ((EMS_Boiler.type_id == EMS_ID_NONE) || (EMS_Boiler.type_id == Boiler_Types[i].type_id)) {
myDebug("* Setting Boiler type to Model %s, TypeID 0x%02X, ProductID %d, Version %s",
if (((EMS_Boiler.type_id == EMS_ID_NONE) || (EMS_Boiler.type_id == Boiler_Types[i].type_id)) && EMS_Boiler.product_id == EMS_ID_NONE) {
myDebug("* Setting Boiler to model %s (TypeID:0x%02X ProductID:%d Version:%s)",
Boiler_Types[i].model_string,
Boiler_Types[i].type_id,
product_id,
@@ -1403,7 +1370,7 @@ void _process_Version(uint8_t src, uint8_t * data, uint8_t length) {
if (typeFound) {
// its a known thermostat
if (EMS_Sys_Status.emsLogging >= EMS_SYS_LOGGING_BASIC) {
myDebug("Thermostat found. Model %s with TypeID 0x%02X, ProductID %d, Version %s",
myDebug("Thermostat found. Model %s (TypeID:0x%02X ProductID:%d Version:%s)",
Thermostat_Types[i].model_string,
Thermostat_Types[i].type_id,
product_id,
@@ -1411,9 +1378,10 @@ void _process_Version(uint8_t src, uint8_t * data, uint8_t length) {
}
// if we don't have a thermostat set, use this one
if ((EMS_Thermostat.type_id == EMS_ID_NONE) || (EMS_Thermostat.model_id == EMS_MODEL_NONE)
|| (EMS_Thermostat.type_id == Thermostat_Types[i].type_id)) {
myDebug("* Setting Thermostat type to Model %s, TypeID 0x%02X, ProductID %d, Version %s",
if (((EMS_Thermostat.type_id == EMS_ID_NONE) || (EMS_Thermostat.model_id == EMS_MODEL_NONE)
|| (EMS_Thermostat.type_id == Thermostat_Types[i].type_id))
&& EMS_Thermostat.product_id == EMS_ID_NONE) {
myDebug("* Setting Thermostat model to %s (TypeID:0x%02X ProductID:%d Version:%s)",
Thermostat_Types[i].model_string,
Thermostat_Types[i].type_id,
product_id,
@@ -1470,6 +1438,8 @@ void _process_Version(uint8_t src, uint8_t * data, uint8_t length) {
* Figure out the boiler and thermostat types
*/
void ems_discoverModels() {
myDebug("Starting auto discover of EMS devices...");
// boiler
ems_doReadCommand(EMS_TYPE_Version, EMS_Boiler.type_id); // get version details of boiler
@@ -1526,43 +1496,6 @@ void _ems_setThermostatModel(uint8_t thermostat_modelid) {
}
/**
<<<<<<< HEAD
* UBASetPoint 0x1A
*/
void _process_SetPoints(uint8_t type, uint8_t * data, uint8_t length) {
/*
if (EMS_Sys_Status.emsLogging == EMS_SYS_LOGGING_VERBOSE) {
if (length != 0) {
uint8_t setpoint = data[0];
uint8_t hk_power = data[1];
uint8_t ww_power = data[2];
myDebug(" SetPoint=%d, hk_power=%d, ww_power=%d", setpoint, hk_power, ww_power);
}
}
*/
}
/**
* process_RCTime - type 0x06 - date and time from a thermostat - 14 bytes long
* common for all thermostats
*/
void _process_RCTime(uint8_t type, uint8_t * data, uint8_t length) {
if ((EMS_Thermostat.model_id == EMS_MODEL_EASY) || (EMS_Thermostat.model_id == EMS_MODEL_BOSCHEASY)) {
return; // not supported
}
if (length > 5) {
EMS_Thermostat.hour = data[2];
EMS_Thermostat.minute = data[4];
EMS_Thermostat.second = data[5];
EMS_Thermostat.day = data[3];
EMS_Thermostat.month = data[1];
EMS_Thermostat.year = data[0];
}
}
/**
=======
>>>>>>> upstream/dev
* Print the Tx queue - for debugging
*/
void ems_printTxQueue() {
@@ -1570,7 +1503,7 @@ void ems_printTxQueue() {
char sType[20] = {0};
if (EMS_TxQueue.size() == 0) {
myDebug("Tx queue is empty.");
myDebug("Tx queue is empty");
return;
}
@@ -1782,17 +1715,27 @@ void ems_scanDevices() {
void ems_printAllTypes() {
uint8_t i;
myDebug("\nThese %d boiler type devices are in the library:", _Boiler_Types_max);
myDebug("\nThese %d devices are defined as boiler units:", _Boiler_Types_max);
for (i = 0; i < _Boiler_Types_max; i++) {
myDebug(" %s, type ID:0x%02X ProductID:%d", Boiler_Types[i].model_string, Boiler_Types[i].type_id, Boiler_Types[i].product_id);
myDebug(" %s%s%s (TypeID:0x%02X ProductID:%d)",
COLOR_BOLD_ON,
Boiler_Types[i].model_string,
COLOR_BOLD_OFF,
Boiler_Types[i].type_id,
Boiler_Types[i].product_id);
}
myDebug("\nThese %d EMS devices are in the library:", _Other_Types_max);
myDebug("\nThese %d devices are defined as other EMS devices:", _Other_Types_max);
for (i = 0; i < _Other_Types_max; i++) {
myDebug(" %s, type ID:0x%02X ProductID:%d", Other_Types[i].model_string, Other_Types[i].type_id, Other_Types[i].product_id);
myDebug(" %s%s%s (TypeID:0x%02X ProductID:%d)",
COLOR_BOLD_ON,
Other_Types[i].model_string,
COLOR_BOLD_OFF,
Other_Types[i].type_id,
Other_Types[i].product_id);
}
myDebug("\nThese telegram type IDs are recognized for the selected boiler:");
myDebug("\nThe following telegram type IDs are recognized:");
for (i = 0; i < _EMS_Types_max; i++) {
if ((EMS_Types[i].model_id == EMS_MODEL_ALL) || (EMS_Types[i].model_id == EMS_MODEL_UBA)) {
myDebug(" type %02X (%s)", EMS_Types[i].type, EMS_Types[i].typeString);
@@ -1801,12 +1744,14 @@ void ems_printAllTypes() {
myDebug("\nThese %d thermostats models are supported:", _Thermostat_Types_max);
for (i = 0; i < _Thermostat_Types_max; i++) {
myDebug(" %s, type ID:0x%02X ProductID:%d Read/Write support:%c%c",
myDebug(" %s%s%s (TypeID:0x%02X ProductID:%d) Read:%c Write:%c",
COLOR_BOLD_ON,
Thermostat_Types[i].model_string,
COLOR_BOLD_OFF,
Thermostat_Types[i].type_id,
Thermostat_Types[i].product_id,
(Thermostat_Types[i].read_supported) ? 'r' : ' ',
(Thermostat_Types[i].write_supported) ? 'w' : ' ');
(Thermostat_Types[i].read_supported) ? 'y' : 'n',
(Thermostat_Types[i].write_supported) ? 'y' : 'n');
}
}
@@ -1817,15 +1762,12 @@ void ems_printAllTypes() {
void ems_doReadCommand(uint8_t type, uint8_t dest, bool forceRefresh) {
// if not a valid type of boiler is not accessible then quits
if ((type == EMS_ID_NONE) || (dest == EMS_ID_NONE)) {
<<<<<<< HEAD
=======
return;
}
// if we're preventing all outbound traffic, quit
if (EMS_Sys_Status.emsTxDisabled) {
myDebug("in Silent Mode. All Tx is disabled.");
>>>>>>> upstream/dev
return;
}

90
src/ems_devices.h
View File

@@ -51,48 +51,49 @@
#define EMS_TYPE_RCOutdoorTempMessage 0xA3 // is an automatic thermostat broadcast, outdoor external temp
// RC10 specific
#define EMS_TYPE_RC10StatusMessage 0xB1 // is an automatic thermostat broadcast giving us temps
#define EMS_TYPE_RC10Set 0xB0 // for setting values like temp and mode
#define EMS_OFFSET_RC10Set_temp 4 // position of thermostat setpoint temperature
#define EMS_TYPE_RC10StatusMessage_setpoint 1 // setpoint temp
#define EMS_TYPE_RC10StatusMessage_curr 3 // current temp
#define EMS_TYPE_RC10StatusMessage 0xB1 // is an automatic thermostat broadcast giving us temps
#define EMS_TYPE_RC10Set 0xB0 // for setting values like temp and mode
#define EMS_OFFSET_RC10Set_temp 4 // position of thermostat setpoint temperature
#define EMS_OFFSET_RC10StatusMessage_setpoint 1 // setpoint temp
#define EMS_OFFSET_RC10StatusMessage_curr 3 // current temp
// RC20 specific
#define EMS_TYPE_RC20StatusMessage 0x91 // is an automatic thermostat broadcast giving us temps
#define EMS_TYPE_RC20Set 0xA8 // for setting values like temp and mode
#define EMS_OFFSET_RC20Set_mode 23 // position of thermostat mode
#define EMS_OFFSET_RC20Set_temp 28 // position of thermostat setpoint temperature
#define EMS_TYPE_RC20StatusMessage_setpoint 1 // setpoint temp
#define EMS_TYPE_RC20StatusMessage_curr 2 // current temp
#define EMS_TYPE_RC20StatusMessage 0x91 // is an automatic thermostat broadcast giving us temps
#define EMS_TYPE_RC20Set 0xA8 // for setting values like temp and mode
#define EMS_OFFSET_RC20Set_mode 23 // position of thermostat mode
#define EMS_OFFSET_RC20Set_temp 28 // position of thermostat setpoint temperature
#define EMS_OFFSET_RC20StatusMessage_setpoint 1 // setpoint temp
#define EMS_OFFSET_RC20StatusMessage_curr 2 // current temp
// RC30 specific
#define EMS_TYPE_RC30StatusMessage 0x41 // is an automatic thermostat broadcast giving us temps
#define EMS_TYPE_RC30Set 0xA7 // for setting values like temp and mode
#define EMS_OFFSET_RC30Set_mode 23 // position of thermostat mode
#define EMS_OFFSET_RC30Set_temp 28 // position of thermostat setpoint temperature
#define EMS_TYPE_RC30StatusMessage_setpoint 1 // setpoint temp
#define EMS_TYPE_RC30StatusMessage_curr 2 // current temp
#define EMS_TYPE_RC30StatusMessage 0x41 // is an automatic thermostat broadcast giving us temps
#define EMS_TYPE_RC30Set 0xA7 // for setting values like temp and mode
#define EMS_OFFSET_RC30Set_mode 23 // position of thermostat mode
#define EMS_OFFSET_RC30Set_temp 28 // position of thermostat setpoint temperature
#define EMS_OFFSET_RC30StatusMessage_setpoint 1 // setpoint temp
#define EMS_OFFSET_RC30StatusMessage_curr 2 // current temp
// RC35 specific
#define EMS_TYPE_RC35StatusMessage 0x3E // is an automatic thermostat broadcast giving us temps
#define EMS_TYPE_RC35StatusMessage_setpoint 2 // desired temp
#define EMS_TYPE_RC35StatusMessage_curr 3 // current temp
#define EMS_TYPE_RC35Set 0x3D // for setting values like temp and mode (Working mode HC1)
#define EMS_OFFSET_RC35Set_mode 7 // position of thermostat mode
#define EMS_OFFSET_RC35Set_temp_day 2 // position of thermostat setpoint temperature for day time
#define EMS_OFFSET_RC35Set_temp_night 1 // position of thermostat setpoint temperature for night time
#define EMS_OFFSET_RC35Get_mode_day 1 // position of thermostat day mode
#define EMS_TYPE_RC35StatusMessage 0x3E // is an automatic thermostat broadcast giving us temps
#define EMS_TYPE_RC35Set 0x3D // for setting values like temp and mode (Working mode HC1)
#define EMS_OFFSET_RC35StatusMessage_setpoint 2 // desired temp
#define EMS_OFFSET_RC35StatusMessage_curr 3 // current temp
#define EMS_OFFSET_RC35Set_mode 7 // position of thermostat mode
#define EMS_OFFSET_RC35Set_temp_day 2 // position of thermostat setpoint temperature for day time
#define EMS_OFFSET_RC35Set_temp_night 1 // position of thermostat setpoint temperature for night time
#define EMS_OFFSET_RC35Get_mode_day 1 // position of thermostat day mode
// Easy specific
#define EMS_TYPE_EasyStatusMessage 0x0A // reading values on an Easy Thermostat
#define EMS_TYPE_EasyStatusMessage_setpoint 10 // setpoint temp
#define EMS_TYPE_EasyStatusMessage_curr 8 // current temp
#define EMS_TYPE_EasyStatusMessage 0x0A // reading values on an Easy Thermostat
#define EMS_OFFSET_EasyStatusMessage_setpoint 10 // setpoint temp
#define EMS_OFFSET_EasyStatusMessage_curr 8 // current temp
// RC1010 specific
#define EMS_TYPE_RC1010StatusMessage 0x00 // is an automatic thermostat broadcast giving us temps
#define EMS_TYPE_RC1010StatusMessage_curr 1 // current temp
#define EMS_TYPE_RC1010StatusMessage_set 3 // setpoint temp
#define EMS_TYPE_RC1010Set 0x03 // setpoint temp message
#define EMS_TYPE_RC1010Set_set 0 // setpoint temp
#define EMS_TYPE_RC1010StatusMessage 0x00 // is an automatic thermostat broadcast giving us temps
#define EMS_TYPE_RC1010Set 0x03 // setpoint temp message
#define EMS_OFFSET_RC1010StatusMessage_setpoint 3 // setpoint temp
#define EMS_OFFSET_RC1010StatusMessage_curr 1 // current temp
// Known EMS types
typedef enum {
EMS_MODEL_NONE,
@@ -130,16 +131,6 @@ const _Boiler_Type Boiler_Types[] = {
{EMS_MODEL_UBA, 203, 0x08, "Buderus Logamax U122"},
{EMS_MODEL_UBA, 208, 0x08, "Buderus Logamax plus"},
{EMS_MODEL_UBA, 64, 0x08, "Sieger BK15 Boiler/Nefit Smartline"},
<<<<<<< HEAD
{EMS_MODEL_UBA, 190, 0x09, "BC10 Base Controller"},
{EMS_MODEL_UBA, 114, 0x09, "BC10 Base Controller"},
{EMS_MODEL_UBA, 125, 0x09, "BC25 Base Controller"},
{EMS_MODEL_UBA, 68, 0x09, "RFM20 Receiver"},
{EMS_MODEL_UBA, 95, 0x08, "Bosch Condens 2500"},
{EMS_MODEL_UBA, 205, 0x08, "Nefit Moduline Easy Connect"},
{EMS_MODEL_UBA, 251, 0x21, "MM10 Mixer Module"}, // warning, fake product id!
{EMS_MODEL_UBA, 250, 0x11, "WM10 Switch Module"}, // warning, fake product id!
=======
{EMS_MODEL_UBA, 95, 0x08, "Bosch Condens 2500"}
};
@@ -154,9 +145,9 @@ const _Other_Type Other_Types[] = {
{EMS_MODEL_OTHER, 114, 0x09, "BC10 Base Controller"},
{EMS_MODEL_OTHER, 125, 0x09, "BC25 Base Controller"},
{EMS_MODEL_OTHER, 205, 0x02, "Nefit Moduline Easy Connect"},
{EMS_MODEL_OTHER, 73, EMS_ID_SM10, "SM10 Solar Module"}
{EMS_MODEL_OTHER, 73, EMS_ID_SM10, "SM10 Solar Module"},
{EMS_MODEL_OTHER, 171, 0x02, "EMS-OT OpenTherm converter"}
>>>>>>> upstream/dev
};
/*
@@ -174,12 +165,7 @@ const _Thermostat_Type Thermostat_Types[] = {
{EMS_MODEL_BOSCHEASY, 206, 0x02, "Bosch Easy", EMS_THERMOSTAT_READ_YES, EMS_THERMOSTAT_WRITE_NO},
{EMS_MODEL_RC310, 158, 0x10, "RC310", EMS_THERMOSTAT_READ_NO, EMS_THERMOSTAT_WRITE_NO},
{EMS_MODEL_CW100, 255, 0x18, "Bosch CW100", EMS_THERMOSTAT_READ_NO, EMS_THERMOSTAT_WRITE_NO},
<<<<<<< HEAD
{EMS_MODEL_RC1010, 165, 0x18, "RC1010/Nefit Moduline 1010)", EMS_THERMOSTAT_READ_NO, EMS_THERMOSTAT_WRITE_NO},
{EMS_MODEL_OT, 171, 0x02, "EMS-OT OpenTherm converter", EMS_THERMOSTAT_READ_YES, EMS_THERMOSTAT_WRITE_YES},
=======
{EMS_MODEL_OT, 171, 0x02, "EMS-OT OpenTherm converter", EMS_THERMOSTAT_READ_YES, EMS_THERMOSTAT_WRITE_YES},
{EMS_MODEL_RC10, 165, 0x02, "RC10/Nefit Moduline 1010", EMS_THERMOSTAT_READ_YES, EMS_THERMOSTAT_WRITE_YES}
{EMS_MODEL_RC1010, 165, 0x18, "RC1010/Nefit Moduline 1010", EMS_THERMOSTAT_READ_NO, EMS_THERMOSTAT_WRITE_NO}
>>>>>>> upstream/dev
};

9
src/my_config.h
View File

@@ -14,8 +14,6 @@
#define MQTT_BASE "home" // all MQTT topics are prefix with this string, in the format <MQTT_BASE>/<app name>/<topic>
// MQTT general settings
#define MQTT_TOPIC_START "start"
#define MQTT_TOPIC_START_PAYLOAD "start"
#define MQTT_WILL_TOPIC "status" // for last will & testament topic name
#define MQTT_WILL_ONLINE_PAYLOAD "online" // for last will & testament payload
#define MQTT_WILL_OFFLINE_PAYLOAD "offline" // for last will & testament payload
@@ -53,17 +51,10 @@
#define TOPIC_SHOWER_ALERT "shower_alert" // toggle switch for enabling the shower alarm logic
#define TOPIC_SHOWER_COLDSHOT "shower_coldshot" // used to trigger a coldshot from an MQTT command
<<<<<<< HEAD
// default values for shower logic on/off
#define BOILER_SHOWER_TIMER 0 // enable (1) to monitor shower time
#define BOILER_SHOWER_ALERT 0 // enable (1) to send alert of cold water when shower time limit has exceeded
#define SHOWER_MAX_DURATION 420000 // in ms. 7 minutes, before trigger a shot of cold water
=======
// MQTT for EXTERNAL SENSORS
#define TOPIC_EXTERNAL_SENSORS "sensors" // for sending sensor values to MQTT
#define PAYLOAD_EXTERNAL_SENSORS "temp_%d" // for formatting the payload for each external dallas sensor
>>>>>>> upstream/dev
////////////////////////////////////////////////////////////////////////////////////////////////////
// THESE DEFAULT VALUES CAN ALSO BE SET AND STORED WITHTIN THE APPLICATION (see 'set' command) //

8
src/version.h
View File

@@ -5,12 +5,6 @@
#pragma once
<<<<<<< HEAD
#define APP_NAME "EMS-HEERENVEEN-1"
#define APP_VERSION "1.5.7b"
#define APP_HOSTNAME "ems-heerenveen-1"
=======
#define APP_NAME "EMS-ESP"
#define APP_VERSION "1.6.1b1"
#define APP_VERSION "1.7.0b2"
#define APP_HOSTNAME "ems-esp"
>>>>>>> upstream/dev