Line 2: Line 2:
  
 
Application is required to establish a WebSocket server where ChronoFly can send real time timing data.
 
Application is required to establish a WebSocket server where ChronoFly can send real time timing data.
 
==WebSocket server example==
 
 
===NodeJs===
 
 
var ws = require("nodejs-websocket");
 
var server = ws.createServer(function(conn) {
 
  var station = "";
 
  conn.on("text", function(msg) {
 
    try {
 
      var dataObject = JSON.parse(msg);
 
      station = dataObject.station;
 
 
      // Do something with dataObject here, maybe persist to database etc.
 
 
      if(dataObject.data.event != undefined) {
 
        if(dataObject.data.event == "passing") {
 
          conn.sendText("bumb-" + dataObject.data.id);
 
        } else if(dataObject.data.event == "keepalive") {
 
          conn.sendText("pong");
 
        }
 
      } else {
 
        console.log("Received invalid json WS PDU");
 
      }
 
    } catch (e) {
 
      console.log("Received non-json WS PDU of length " + msg.length);
 
    }
 
  });
 
  conn.on("connect", function() {
 
    console.log("New station started publishing");
 
  });
 
  conn.on("close", function(code, reason) {
 
    console.log("Station " + station + " not publishing anymore");
 
  });
 
}).listen(8275);
 
 
  
 
==Protocol==
 
==Protocol==
Line 199: Line 163:
 
* message2: additional malfunction desctiption
 
* message2: additional malfunction desctiption
 
* type: malfunction type
 
* type: malfunction type
 +
 +
==WebSocket server example==
 +
 +
===NodeJs===
 +
 +
var ws = require("nodejs-websocket");
 +
var server = ws.createServer(function(conn) {
 +
  var station = "";
 +
  conn.on("text", function(msg) {
 +
    try {
 +
      var dataObject = JSON.parse(msg);
 +
      station = dataObject.station;
 +
 +
      // Do something with dataObject here, maybe persist to database etc.
 +
 +
      if(dataObject.data.event != undefined) {
 +
        if(dataObject.data.event == "passing") {
 +
          conn.sendText("bumb-" + dataObject.data.id);
 +
        } else if(dataObject.data.event == "keepalive") {
 +
          conn.sendText("pong");
 +
        }
 +
      } else {
 +
        console.log("Received invalid json WS PDU");
 +
      }
 +
    } catch (e) {
 +
      console.log("Received non-json WS PDU of length " + msg.length);
 +
    }
 +
  });
 +
  conn.on("connect", function() {
 +
    console.log("New station started publishing");
 +
  });
 +
  conn.on("close", function(code, reason) {
 +
    console.log("Station " + station + " not publishing anymore");
 +
  });
 +
}).listen(8275);
  
 
==PDU signature verification example==
 
==PDU signature verification example==

Revision as of 12:55, 31 December 2017

ChronoCloud 2 protocol enables other applications to aquire real time timing data from ChronoFly.

Application is required to establish a WebSocket server where ChronoFly can send real time timing data.

Protocol

Uses WebSocket Draft_6455 and TCP port 8275.

Passing PDU

Sent whenever passing (transponder or manual) is registered on ChronoFly.

{
    "station": "ChronoFly-12345",
    "competition": "166656",
    "signature": "aW52YWxpZA==",
    "sent": "2007-11-20T22:19:17.531+02:00",
    "data": {
        "event": "passing",
        "id": "70",
        "type": "Route-TC-Finish",
        "round": "ET 4 TC 9 Huhdanoja A",
        "time": "2007-11-20T22:19:17.532+02:00",
        "tctime": "2007-11-20T22:19:00.000+02:00",
        "transponder": "7",
        "hits": "0",
        "lap": "5"
    }
}

Where

  • station: ChronoFly station identifier
  • competition: ChronoFly competition identifier
  • signature: Data signature based on keys negotiated during ChronoFly registration (base64 encoded SHA1withRSA)
  • sent: time this message was sent from ChronoFly (ISO 8601)
  • event: event type
  • id: event id (incremented by 1 and zeroed when round changed or tables cleared)
  • type: station type selected currently at ChronoFly
  • round: round name selected currently at ChronoFly
  • time: passing time (ISO 8601)
  • tctime: time check time (ISO 8601)
  • transponder: passing transponder number
  • hits: times same transponder has been seen during current passing event
  • lap: times same transponder has been seen during selected round (incremented by 1)

Confirmation rules

Whenever server receives a PDU it is required to confirm it back to the sender (ChronoFly).

Response format is: bumb-<data.id>

Example confirmation response

bumb-4291

If PDU is not confirmed back to sender (ChronoFly) it will be re-sent to server during next event cycle.

Supported station types

  • Route-Finish
  • Route-Start
  • Route-Pause
  • TC-Time
  • TC-Separate
  • TC-Pause
  • Route-TC-Finish
  • Route-TC-Start
  • Track-Finish
  • Track-Sector

Connection PDU

Sent whenever ChronoFly connects to the WebSocket server.

{
    "station": "ChronoFly-12345",
    "competition": "166656",
    "signature": "aW52YWxpZA==",
    "sent": "2007-11-20T22:19:17.531+02:00",
    "data": {
        "event": "connected",
        "id": "0",
        "version": "1.2.30"
    }
}

Where

  • station: ChronoFly station identifier
  • competition: ChronoFly competition identifier
  • signature: Data signature based on keys negotiated during ChronoFly registration (base64 encoded SHA1withRSA)
  • sent: time this message was sent from ChronoFly (ISO 8601)
  • event: event type
  • id: event id (incremented by 1 and zeroed when round changed or tables cleared)
  • version: ChronoFly version

Keepalive PDU

Sent every 30 seconds to the WebSocket server.

{
    "station": "ChronoFly-12345",
    "competition": "166656",
    "signature": "aW52YWxpZA==",
    "sent": "2007-11-20T22:19:17.531+02:00",
    "data": {
        "event": "keepalive",
        "id": "0"
    }
}

Where

  • station: ChronoFly station identifier
  • competition: ChronoFly competition identifier
  • signature: Data signature based on keys negotiated during ChronoFly registration (base64 encoded SHA1withRSA)
  • sent: time this message was sent from ChronoFly (ISO 8601)
  • event: event type
  • id: event id (incremented by 1 and zeroed when websocket tcp stream opened)

Confirmation rules

Whenever server receives a PDU it is required to confirm it back to the sender (ChronoFly).

Response format is: pong

Example confirmation response

pong

If PDU is not confirmed back to sender (ChronoFly) it will be re-sent to server during next event cycle.

Malfunction PDU

Sent every 30 seconds to the WebSocket server.

{
    "station": "ChronoFly-12345",
    "competition": "166656",
    "signature": "aW52YWxpZA==",
    "sent": "2007-11-20T22:19:17.531+02:00",
    "data": {
        "event": "malfunction",
        "message": "java.net.SocketException: Connection timeout at com.enymind.drivers.MercuryComm.connect()",
        "message2": "Unknown error",
        "type": "1"
    }
}

Where

  • station: ChronoFly station identifier
  • competition: ChronoFly competition identifier
  • signature: Data signature based on keys negotiated during ChronoFly registration (base64 encoded SHA1withRSA)
  • sent: time this message was sent from ChronoFly (ISO 8601)
  • event: event type
  • message: malfunction desctiption
  • message2: additional malfunction desctiption
  • type: malfunction type

WebSocket server example

NodeJs

var ws = require("nodejs-websocket");
var server = ws.createServer(function(conn) {
  var station = "";
  conn.on("text", function(msg) {
    try {
      var dataObject = JSON.parse(msg);
      station = dataObject.station;

      // Do something with dataObject here, maybe persist to database etc.

      if(dataObject.data.event != undefined) {
        if(dataObject.data.event == "passing") {
          conn.sendText("bumb-" + dataObject.data.id);
        } else if(dataObject.data.event == "keepalive") {
          conn.sendText("pong");
        }
      } else {
        console.log("Received invalid json WS PDU");
      }
    } catch (e) {
      console.log("Received non-json WS PDU of length " + msg.length);
    }
  });
  conn.on("connect", function() {
    console.log("New station started publishing");
  });
  conn.on("close", function(code, reason) {
    console.log("Station " + station + " not publishing anymore");
  });
}).listen(8275);

PDU signature verification example

PHP

<?php

  // ######### INSERT VALUES HERE ############

  // Base64 encoded public key
  $LOCAL_PUBLIC = 'VDKNzVNUmnL3qTDs';

  // Base64 encoded signature from PDU
  $SIGNATURE = 'BsChw6wRCFTGziTu3p3a';

  // JSON PDU as-is sent by ChronoFly
  // BUT replace signature value with value "aW52YWxpZA=="
  $PDU = '{"station": "chronofly-2248717", "sent": "2017-12-30T21:16:36.295+02:00", "signature": "aW52YWxpZA=="}';

  // ######### DO NOT EDIT BELLOW ############

  // http://phpseclib.sourceforge.net
  set_include_path( get_include_path() . PATH_SEPARATOR . 'phpseclib' );

  include_once( 'Crypt/RSA.php' );

  $rsa = new Crypt_RSA();
  $rsa->loadKey( $LOCAL_PUBLIC );
  $rsa->setSignatureMode( CRYPT_RSA_SIGNATURE_PKCS1 );

  if( $rsa->verify( $PDU, base64_decode( $SIGNATURE ) ) )
    die("OK verify\n");
  else
    die("ERR verify\n");

?>


OpenSSL/Bash

Note! Do NOT use openssl rsa or openssl rsautl for playing with signatures as these friends does not obey PKCS#1-v1.5 standard (not encoding the hash in an ASN.1 sequence). Use openssl sha1 instead. For playing with public keys you CAN still use these friends.

#!/bin/bash

############ INSERT VALUES HERE ############

# Base64 encoded public key
LOCAL_PUBLIC='VDKNzVNUmnL3qTDs'

# Base64 encoded signature from PDU
SIGNATURE='BsChw6wRCFTGziTu3p3a'

# JSON PDU as-is sent by ChronoFly
# BUT replace signature value with value "aW52YWxpZA=="
PDU='{"station": "chronofly-2248717", "sent": "2017-12-30T21:16:36.295+02:00", "signature": "aW52YWxpZA=="}'

############ DO NOT EDIT BELLOW ############

printf "$LOCAL_PUBLIC" | base64 -d > chrono.der
openssl rsa -inform der -outform pem -pubin -in chrono.der -out chrono.pem
printf "$SIGNATURE" | base64 -d > chrono.sig
printf "$PDU" > chrono.json

printf "////// HEXDUMP chrono.der ->\n"; xxd chrono.der
printf "////// HEXDUMP chrono.pem ->\n"; xxd chrono.pem
printf "////// HEXDUMP chrono.json ->\n"; xxd chrono.json
printf "////// HEXDUMP chrono.sig ->\n"; xxd chrono.sig

printf "////// LOCAL_PUBLIC ASN1 ->\n"; openssl asn1parse -in chrono.pem
printf "////// LOCAL_PUBLIC ASN1 IDX 18 ->\n"; openssl asn1parse -in chrono.pem -strparse 18
printf "////// LOCAL_PUBLIC KEY ->\n"; openssl rsa -pubin -inform PEM -text -noout -in chrono.pem

printf "////// VERIFICATION RESULT ->\n"; openssl sha1 -verify chrono.pem -signature chrono.sig chrono.json

rm chrono.der
rm chrono.pem
rm chrono.json
rm chrono.sig