Is zmTrigger.pl running?
Can you test the string by a telnet connection to port 6802 and sending your command string manually like
Code: Select all
telnet localhost 6802
2|show|255|||22.8 °C 73.0 °F
Code: Select all
telnet localhost 6802
2|show|255|||22.8 °C 73.0 °F
Code: Select all
DATE/TIME
COMPONENT SERVER PID LEVEL MESSAGE FILE LINE
2017-01-18 00:10:12.421181 zmc_m1 9437 ERR Unable to open input rtsp://192.168.1.160:554/tcp_live/ch0_0 due to: Operation now in progress zm_ffmpeg_camera.cpp 280
2017-01-18 00:10:10.903468 zmc_m1 9437 WAR Unable to parse ffmpeg option 0 '', expecting key=value zm_ffmpeg_camera.cpp 267
2017-01-18 00:10:01.901455 zmc_m1 9437 ERR Unable to open input rtsp://192.168.1.160:554/tcp_live/ch0_0 due to: Operation now in progress zm_ffmpeg_camera.cpp 280
2017-01-18 00:10:00.386476 zmc_m1 9437 WAR Unable to parse ffmpeg option 0 '', expecting key=value zm_ffmpeg_camera.cpp 267
2017-01-18 00:09:52.381501 zmc_m1 9437 ERR Unable to open input rtsp://192.168.1.160:554/tcp_live/ch0_0 due to: Operation now in progress zm_ffmpeg_camera.cpp 280
2017-01-18 00:09:50.873214 zmc_m1 9437 WAR Unable to parse ffmpeg option 0 '', expecting key=value zm_ffmpeg_camera.cpp 267
2017-01-18 00:09:41.871247 zmc_m1 9437 ERR Unable to open input rtsp://192.168.1.160:554/tcp_live/ch0_0 due to: Operation now in progress zm_ffmpeg_camera.cpp 280
2017-01-18 00:09:40.363190 zmc_m1 9437 WAR Unable to parse ffmpeg option 0 '', expecting key=value zm_ffmpeg_camera.cpp 267
2017-01-18 00:09:36.478240 zmtrigger 9230 WAR Can't find monitor '1' for message '1|show|255|||22.8 °C 73.1 °F' zmtrigger.pl
2017-01-18 00:09:32.361308 zmc_m1 9437 ERR Unable to open input rtsp://192.168.1.160:554/tcp_live/ch0_0 due to: Operation now in progress zm_ffmpeg_camera.cpp 280
2017-01-18 00:09:30.844929 zmc_m1 9437 WAR Unable to parse ffmpeg option 0 '', expecting key=value zm_ffmpeg_camera.cpp 267
2017-01-18 00:09:21.840646 zmc_m1 9424 ERR Unable to open input rtsp://192.168.1.160:554/tcp_live/ch0_0 due to: Operation now in progress zm_ffmpeg_camera.cpp 280
2017-01-18 00:09:20.340980 zmdc 9190 WAR Can't find process with command of 'zma -m 1' zmdc.pl
2017-01-18 00:09:20.330125 zmc_m1 9424 WAR Unable to parse ffmpeg option 0 '', expecting key=value zm_ffmpeg_camera.cpp 267
2017-01-18 00:09:20.328520 zmc_m1 9424 INF Priming capture from rtsp://192.168.1.160:554/tcp_live/ch0_0 zm_ffmpeg_camera.cpp 104
2017-01-18 00:09:20.325538 zmc_m1 9424 INF Starting Capture version 1.30.0 zmc.cpp 250
2017-01-18 00:09:20.253120 zmdc 9424 INF 'zmc -m 1' started at 17/01/18 00:09:20 zmdc.pl
2017-01-18 00:09:20.253110 zmdc 9190 INF 'zmc -m 1' starting at 17/01/18 00:09:20, pid = 9424 zmdc.pl
Code: Select all
2017-01-18 21:33:39.324610 zmtrigger 4956 INF Updated show text to '22.9 C' zmtrigger.pl
2017-01-18 21:33:31.311293 zma_m1 6541 INF 1: 4000 - Analysing at 9.52 fps zm_monitor.cpp 1287
2017-01-18 21:33:11.988174 zmc_dvideo0 5973 INF 1: 34000 - Capturing at 10.00 fps zm_monitor.cpp 3116
2017-01-18 21:31:46.127781 zma_m1 6541 INF 1: 3000 - Analysing at 8.85 fps zm_monitor.cpp 1287
2017-01-18 21:31:31.532933 zmc_dvideo0 5973 INF 1: 33000 - Capturing at 9.26 fps zm_monitor.cpp 3116
2017-01-18 21:30:43.139750 zmtrigger 4956 WAR Can't find monitor '1' for message '1|show|0|||22.9 C' zmtrigger.pl
https://zoneminder.readthedocs.io/en/st ... nents.htmlFunction
This essentially defines what the monitor is doing. This can be one of the following;
None – The monitor is currently disabled. No streams can be viewed or events generated. Nothing is recorded.
Monitor – The monitor is only available for live streaming. No image analysis is done so no alarms or events will be generated, and nothing will be recorded.
Modect – or MOtion DEteCTtion. All captured images will be analysed and events generated with recorded video where motion is detected.
Record – The monitor will be continuously recorded. Events of a fixed-length will be generated regardless of motion, analogous to a conventional time-lapse video recorder. No motion detection takes place in this mode.
Mocord – The monitor will be continuously recorded, with any motion being highlighted within those events.
Nodect – or No DEteCTtion. This is a special mode designed to be used with external triggers. In Nodect no motion detection takes place but events are recorded if external triggers require it.
“<id>|<action>|<score>|<cause>|<text>|<showtext>”
where
‘id’ is the id number or name of the ZM monitor.
‘action’ is ‘on’, ‘off’, ‘cancel’ or ‘show’ where ‘on’ forces an alarm condition on, ‘off’ forces an alarm condition off and ‘cancel’ negates the previous ‘on’ or ‘off’. The ‘show’ action merely updates some auxiliary text which can optionally be displayed in the images captured by the monitor. Ordinarily you would use ‘on’ and ‘cancel’, ‘off’ would tend to be used to suppress motion based events. Additionally ‘on’ and ‘off’ can take an additional time offset, e.g. on+20 which automatically ‘cancel’s the previous action after that number of seconds.
‘score’ is the score given to the alarm, usually to indicate it’s importance. For ‘on’ triggers it should be non-zero, otherwise it should be zero.
‘cause’ is a 32 char max string indicating the reason for, or source of the alarm e.g. ‘Relay 1 open’. This is saved in the ‘Cause’ field of the event. Ignored for ‘off’ or ‘cancel’ messages.
‘text’ is a 256 char max additional info field, which is saved in the ‘Description’ field of an event. Ignored for ‘off’ or ‘cancel’ messages.
‘showtext’ is up to 32 characters of text that can be displayed in the timestamp that is added to images. The ‘show’ action is designed to update this text without affecting alarms but the text is updated, if present, for any of the actions. This is designed to allow external input to appear on the images captured, for instance temperature or personnel identity etc.
Code: Select all
<?php
// the url example : http://localhost/sendtosock.php?mon=1
// to send and show the temp string in 2 monitors or more, call the script for each monitor individually.
$monitor = $_REQUEST['mon'];
$temperature_string = system('temper-poll');
$temperature_string_array = explode(" ",$temperature_string);
unset($temperature_string_array[0]);
unset($temperature_string_array[1]);
$temperature_string_dirty = implode(" ",$temperature_string_array);
$temperature_string = str_replace(chr(194)," ",$temperature_string_dirty);
$extTriggerx = "$monitor|show|255|||$temperature_string";
// $cfgServer = "192.168.0.9";
$cfgServer = "localhost";
$cfgPort = 6802;
$conn_handle = fsockopen($cfgServer, $cfgPort);
if(!$conn_handle) {
echo "Connection failed ";
exit();
}else{
// echo "Connected <br>";
fputs($conn_handle, $extTriggerx);
}
fclose($conn_handle);
?>
knnniggett wrote:You write a script, which reads the temp from your device, then it should write that data to one of the sockets zmtrigger creates after you enable it. When zmtrigger is started, it creates a network and a unix socket. You send it a simple ascii string, defined in the docs mentioned earlier.
Just google how to write to a socket for the programming/scripting language of your choice if you don't know how to do that. Fairly straight forward.
I was going to just point you to my blog:
http://zmtrigger.blogspot.com/p/display-real.html
But when I went to that page, it was mostly empty. Apparently, I forgot to document the project I did using this feature. It is still in my head.
What I did was wire a DHT22 temp sensor to an esp8266. This chip is basically a mini adruino with builtin wifi.
It sends the temp to my zoneminder server every 15 seconds. Since I never uploaded the sketch to my blog, I pasted it below. You can see what I sent to the zm server socket. If your sensor is on the same machine running zmtrigger, then naturally the server ip becomes localhost. You could just write to the zmtrigger.sock file instead if you want.
Code: Select all
/* * ESP8266_zmtrigger * * Date of Last Revision: Jan 14, 2015 * * Upon activation of GPIO2, this sketch sends a user defined command to a ZoneMinder * server running zmtrigger on port 6802. * */ #include <Arduino.h> #include <DHT.h> #include <ESP8266WiFi.h> #include <ESP8266WiFiMulti.h> #include <ESP8266WebServer.h> #define GPIO0 0 #define GPIO2 2 //DHT22 Sensor #define DHTTYPE DHT22 #define DHTPIN 2 // ThingSpeak Settings const char tsserver[]="184.106.153.149"; const String writeapi="thingspeak_api_key_here"; const int updateThingSpeakInterval = 60 * 1000; // 60 second interval at which to update ThingSpeak const int updateZmTriggerInterval = 15 * 1000; // 15 second interval at which to update zoneminder // DHT22 Settings float humidity, temp_f; // Values read from sensor const int interval = 2000; // interval at which to read sensor ESP8266WiFiMulti WiFiMulti; WiFiClient client; ESP8266WebServer server(80); // Define global variables const char zmserver[] = "192.168.1.10"; const int port = 6802; unsigned long previousMillis = 0; unsigned long lastZMTriggerTime = 0; unsigned long lastThngSpkTime = 0; int throttle = 1000; // Don't send more than 1 message per this value in milliseconds byte netFails = 0; String TSerrorMsg = "No Thingspeak Error Reported"; String ZMerrorMsg = "No ZoneMinder Error Reported"; String TSsuccessMsg = "No Thingspeak Success Reported"; String ZMsuccessMsg = "No ZoneMinder Success Reported"; const String htmlHead = "<html>\r\n<head>\r\n<meta http-equiv='refresh' content='61'>\r\n</head>\r\n<body>\r\n"; const String htmlTail = "\r\n</body>\r\n</html>\r\n"; byte percentQ = 0; // Initialize DHT sensor // NOTE: For working with a faster than ATmega328p 16 MHz Arduino chip, like an ESP8266, // you need to increase the threshold for cycle counts considered a 1 or 0. // You can do this by passing a 3rd parameter for this threshold. It's a bit // of fiddling to find the right value, but in general the faster the CPU the // higher the value. The default for a 16mhz AVR is a value of 6. For an // Arduino Due that runs at 84mhz a value of 30 works. // This is for the ESP8266 processor on ESP-01 DHT dht(DHTPIN, DHTTYPE, 11); // 11 works fine for ESP8266 /* * zmTrigger expects commands to be in the following format: * *<id>|<action>|<score>|<cause>|<text>|<showtext> * *<id> * is the id number or name of the ZM monitor. * *<action> * Valid actions are 'on', 'off', 'cancel' or 'show' where * 'on' forces an alarm condition on; * 'off' forces an alarm condition off; * 'cancel' negates the previous 'on' or 'off'. * The 'show' action merely updates some auxiliary text which can optionally * be displayed in the images captured by the monitor. Ordinarily you would * use 'on' and 'cancel', 'off' would tend to be used to suppress motion * based events. Additionally 'on' and 'off' can take an additional time * offset, e.g. on+20 which automatically 'cancel's the previous action * after that number of seconds. * *<score> * is the score given to the alarm, usually to indicate it's * importance. For 'on' triggers it should be non-zero, otherwise it should * be zero. * *<cause> * is a 32 char max string indicating the reason for, or source of * the alarm e.g. 'Relay 1 open'. This is saved in the 'Cause' field of the * event. Ignored for 'off' or 'cancel' messages. * *<text> * is a 256 char max additional info field, which is saved in the * 'Description' field of an event. Ignored for 'off' or 'cancel' messages. * *<showtext> * is up to 32 characters of text that can be displayed in the * timestamp that is added to images. The 'show' action is designed to * update this text without affecting alarms but the text is updated, if * present, for any of the actions. This is designed to allow external input * to appear on the images captured, for instance temperature or personnel * identity etc. */ String zmtriggerShowText = "15|show||||"; void handle_root() { String Msg = "Hello from the ESP8266!<br><br>This server responds to the following urls:<br>"; Msg += "<a href=\"/gpio0\">/gpio0</a><br>"; Msg += "<a href=\"/gpio2\">/gpio2</a><br>"; Msg += "<a href=\"/temp\">/temp</a><br>"; Msg += "<a href=\"/temp_val\">/temp_val</a><br>"; Msg += "<a href=\"/humidity\">/humidity</a><br>"; Msg += "<a href=\"/humidity_val\">/humidity_val</a><br>"; Msg += "<a href=\"/error\">/error</a><br>"; Msg += "<a href=\"/success\">/success</a><br>"; Msg += "<a href=\"/status\">/status</a><br>"; server.send(200, "text/html", htmlHead+Msg+htmlTail); delay(100); } bool gettemperature() { // Wait at least 2 seconds seconds between measurements. // if the difference between the current time and last time you read // the sensor is bigger than the interval you set, read the sensor // Works better than delay for things happening elsewhere also unsigned long currentMillis = millis(); if(currentMillis - previousMillis >= interval) { // save the last time you read the sensor previousMillis = currentMillis; // Reading temperature for humidity takes about 250 milliseconds! // Sensor readings may also be up to 2 seconds 'old' (it's a very slow sensor) humidity = dht.readHumidity(); // Read humidity (percent) temp_f = dht.readTemperature(true); // Read temperature as Fahrenheit } return( isnan(humidity) || isnan(temp_f) ); } void updateThingSpeak(String tsData) { // Create the client object here so it is destroyed after each update attempt WiFiClient client; if (client.connect(tsserver, 80)) { client.print("POST /update HTTP/1.1\n"); client.print("Host: api.thingspeak.com\n"); client.print("Connection: close\n"); client.print("X-THINGSPEAKAPIKEY: " + writeapi + "\n"); client.print("Content-Type: application/x-www-form-urlencoded\n"); client.print("Content-Length: "); client.print(tsData.length()); client.print("\n\n"); client.print(tsData); if (client.connected()) { // We got a response from the server but we don't yet know what kind of response String Msg = client.readString(); if ( Msg.substring(0,Msg.indexOf("\r\n")).indexOf(" 200 ") > -1 ) { // Check the message for an http resposne code of 200 Serial.println(); Serial.println("HTTP 200 Response received. Data Sent to ThingSpeak!"); TSsuccessMsg = Msg; } else { Serial.println(); Serial.println("ThingSpeak server returned an HTTP error code. Check HTTP://"+String(WiFi.localIP())+"/error for the response message."); TSerrorMsg = Msg; } netFails = 0; } else { TSerrorMsg = "Timed out waiting for a response from Thingspeak server!"; Serial.println(); Serial.println(TSerrorMsg); } } else { TSerrorMsg = "Connection refused when connecting to Thingspeak!"; Serial.println(); Serial.println(TSerrorMsg); netFails++; } //Serial.println(client.readString()); client.stop(); } void WiFiStatus() { if (WiFi.RSSI() <= -100) { percentQ = 0; } else if (WiFi.RSSI() >= -50) { percentQ = 100; } else { percentQ = 2 * (WiFi.RSSI() + 100); } Serial.println(""); Serial.println("WiFi Status"); Serial.print("IP address: "); Serial.println(WiFi.localIP()); Serial.print("MAC address: "); Serial.println(WiFi.macAddress()); Serial.print("SSID: "); Serial.println(WiFi.SSID()); Serial.print("Signal Strength (%): "); Serial.println(percentQ); } void ChipInfo() { Serial.println(); Serial.print("Flash Chip ID: "); Serial.println(ESP.getFlashChipId()); Serial.print("Size of ESP8266 flash chip: "); Serial.println(ESP.getFlashChipRealSize()); Serial.print("Flash Chip Speed: "); Serial.println(ESP.getFlashChipSpeed()); Serial.print("Flash Chip Mode: "); Serial.println(ESP.getFlashChipMode()); Serial.println(); } void updateZMTrigger(String Cmd) { if (client.connect(zmserver, port)) { client.println(Cmd); if (client.connected()) { ZMsuccessMsg = "Zmtrigger ShowText Sent to ZoneMinder"; Serial.println(); Serial.println(ZMsuccessMsg); Serial.println(Cmd); netFails = 0; } else { ZMerrorMsg = "Timed out connecting to ZoneMinder server"; Serial.println(); Serial.println(ZMerrorMsg); } } else { ZMerrorMsg="Connection refused connecting to ZoneMinder server"; Serial.println(); Serial.println(ZMerrorMsg); netFails++; } } void setup() { // Configure our GPIO's as inputs pinMode(GPIO0, INPUT_PULLUP); pinMode(GPIO2, INPUT); Serial.begin(115200); // Serial.setDebugOutput(true); Serial.println(""); for(uint8_t t = 4; t > 0; t--) { Serial.printf("[SETUP] WAIT %d...\n", t); Serial.flush(); delay(1000); } WiFiMulti.addAP("ssid1", "password1"); WiFiMulti.addAP("ssid2", "password2"); ChipInfo(); // Wait for connection Serial.print("Waiting for WiFi to Connect..."); while (WiFiMulti.run() != WL_CONNECTED) { delay(500); Serial.print("."); } Serial.println("Connected!"); server.on("/", handle_root); server.on("/gpio0", [](){ // url to display the current value of GPIO0 server.send(200, "text/html", htmlHead+"Current value of GPIO0: "+String(digitalRead(GPIO0))+htmlTail); }); server.on("/gpio2", [](){ // url to display the current value of GPIO2 server.send(200, "text/html", htmlHead+"Current value of GPIO2: "+String(digitalRead(GPIO2))+htmlTail); }); server.on("/temp", [](){ // url to display the temperature with html formatting server.send(200, "text/html", htmlHead+"Temperature (deg. F): "+String(temp_f,2)+htmlTail); }); server.on("/temp_val", [](){ // url to display the raw temperature value only server.send(200, "text/plain", String(temp_f,2)); }); server.on("/humidity", [](){ // url to display the humidity with html formatting server.send(200, "text/html", htmlHead+"Humidity (%): "+String(humidity,1)+htmlTail); }); server.on("/humidity_val", [](){ // url to display the raw humidity calue only server.send(200, "text/plain", String(humidity,1)); }); server.on("/error", [](){ // url to display the last reported error message with html formatting TSerrorMsg.replace("\r\n","<br>"); // replace new lines with html <br> for readability server.send(200, "text/html", htmlHead+"Last reported ZoneMinder error message:<br><br>"+ZMerrorMsg+"<br><br>Last reported ThingSpeak error message:<br><br>"+TSerrorMsg+htmlTail); }); server.on("/success", [](){ // url to display the last reported success message with html formatting TSsuccessMsg.replace("\r\n","<br>"); // replace new lines with html <br> for readability server.send(200, "text/html", htmlHead+"Last reported ZoneMinder success message:<br><br>"+ZMsuccessMsg+"<br><br>Last reported ThingSpeak success message:<br><br>"+TSsuccessMsg+htmlTail); }); server.on("/status", [](){ // url to display esp8266 status server.send(200, "text/html", htmlHead+"IP Address: "+WiFi.localIP()+"<br>"+ "MAC address: "+WiFi.macAddress()+"<br>"+ "SSID: "+WiFi.SSID()+"<br>"+ "Signal Strength (%): "+percentQ+"<br>"+ "Number of Consecutive Network Errors: "+netFails+"<br>"+ htmlTail); }); gettemperature(); server.begin(); Serial.println(""); Serial.println("HTTP server started"); } void loop() { server.handleClient(); // Reset previousMillis when millis overflows back to zero if ( millis() - previousMillis < 0 ) { previousMillis = 0; } // Reset lastZMTriggerTime when millis overflows back to zero if ( millis() - lastZMTriggerTime < 0 ) { lastZMTriggerTime = 0; } // Reset lastThngSpkTime when millis overflows back to zero if (millis() - lastThngSpkTime < 0 ) { lastThngSpkTime = 0; } // Update ThingSpeak if (millis() - lastThngSpkTime > updateThingSpeakInterval) { if (!gettemperature()) { updateThingSpeak("field1="+String(temp_f,2)+"&field2="+String(humidity,1)+"&field3="+String(WiFi.RSSI())); Serial.println("Temperature (deg. F): "+String(temp_f,2)); Serial.println("Humidity (%): "+String(humidity,1)); } else { TSerrorMsg="Temperature or Humidity read failed. Skipping Thingspeak update."; Serial.println(); Serial.println(TSerrorMsg); } lastThngSpkTime = millis(); } // Update zmtrigger if (millis() - lastZMTriggerTime > updateZmTriggerInterval) { WiFiStatus(); updateZMTrigger(zmtriggerShowText+" - "+String(temp_f,2)+" Deg. F"); lastZMTriggerTime = millis(); } if ( netFails >= 15 ) { Serial.println("Too many network failures. Restarting WiFi...."); //delay(3000); WiFi.reconnect(); netFails = 0; // ESP.reset(); delay(3000); } }
For the sake of the archives, the Wansview K1 is one such camera (also includes humidity) however mine always reads around 1C too high. I got in touch with Wansview and, if my interpretation of what they said is correct, they are aware that there is an issue with accuracy and are seeking a fix.Baylink wrote:If I'm not mistaken, I have recently seen mention of a camera that has a built in temp sensor, and can OSD the reading for you. I can't tell you which one, alas.