Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm looking for a way to synchronize time between clients with a good precision (let's say 0.5 seconds at least).

I exclude using jsontime or exploiting timestamp in server response headers due to a poor precision (a second or maybe less).

UPDATE: It should work even with mobile connections. It's not unfrequent (e.g. here in Italy) that 3G connections itself have a round trip time around 0.5s, so algorithm has to be robust.

share|improve this question

1 Answer 1

up vote 8 down vote accepted

Resort to the good old ICMP Timestamp message scheme. It's fairly trivial to implement in JavaScript and PHP.

Here's an implementation of this scheme using JavaScript and PHP:

// browser.js

var request = new XMLHttpRequest();
request.onreadystatechange = readystatechangehandler;
request.open("POST", "http://www.example.com/sync.php", true);
request.setRequestHeader("Content-Type", "application/x-www-form-urlencoded");
request.send("original=" + (new Date).getTime());

function readystatechangehandler() {
    var returned = (new Date).getTime();
    if (request.readyState === 4 && request.status === 200) {
        var timestamp = request.responseText.split('|');
        var original = + timestamp[0];
        var receive = + timestamp[1];
        var transmit = + timestamp[2];
        var sending = receive - original;
        var receiving = returned - transmit;
        var roundtrip = sending + receiving;
        var oneway = roundtrip / 2;
        var difference = sending - oneway; // this is what you want
        // so the server time will be client time + difference

Now for the sync.php code:

    $receive = round(microtime(true) * 1000);
    echo $_POST["original"] . '|';
    echo $receive . '|';
    echo round(microtime(true) * 1000);

I haven't tested the above code, but it should work.

Note: The following method will accurately calculate the time difference between the client and the server provided that actual time to send and receive messages is the same or approximately the same. Consider the following scenario:

  Time    Client   Server
-------- -------- --------
Original        0        2
Receive         3        5
Transmit        4        6
Returned        7        9
  1. As you can see, the client and server clocks are 2 units off sync. Hence when the client sends the timestamp request, it records the original time as 0.
  2. The server receives the request 3 units later, but records the receive time as 5 units because it's 2 units ahead.
  3. Then it transmits the timestamp reply one unit later and records the transmit time as 6 units.
  4. The client receives the reply after 3 units (i.e. at 9 units according to the server). However, since it's 2 units behind the server it records the returned time as 7 units.

Using this data, we can calculate:

Sending = Receive - Original = 5 - 0 = 5
Receiving = Returned - Transmit = 7 - 6 = 1
Roundtrip = Sending + Receiving = 5 + 1 = 6

As you can see from above, the sending and receiving times are calculated incorrectly depending upon how much the client and server are off sync. However, the roundtrip time will always be correct because we are first adding two units (receive + original), and then subtracting two units (returned - transmit).

If we assume that the oneway time is always half of the roundtrip time (i.e. the time to transmit is the time to receive, then we can easily calculate the time difference as follows):

Oneway = Roundtrip / 2 = 6 / 2 = 3
Difference = Sending - Oneway = 5 - 3 = 2

As you can see, we accurately calculated the time difference as 2 units. The equation for time difference is always sending - oneway time. However, the accuracy of this equation depends upon how accurately you calculate the oneway time. If the actual time to send and receive the messages is not equal or approximately equal, you'll need to find some other way to calculate the one way time. However, for your purposes this should suffice.

share|improve this answer
Your formatting in PHP looks incorrect: microtime() with no parameters returns a string of the form "0.uuuuuu ssssssssss". I'd rather echo round(microtime(true)*1000). –  Edgar Bonet Dec 12 '11 at 21:35
Another couple of corrections: if the PHP code expects POST, JavaScript should request.open("POST", ...). It should also request.setRequestHeader("Content-Type", "application/x-www-form-urlencoded");, or PHP may get confused. Oh, and BTW, no need for the PHP code to provide two timestamps (receive and transmit), as it's unlikely that these will differ by more than one millisecond. No need for the original timestamp to do the round trip either: JavaScript can just remember it. Thus, the PHP code can just echo round(microtime(true) * 1000);, nothing more is needed. –  Edgar Bonet Dec 13 '11 at 10:41
I think there will be 2 problems, correct me if I am wrong: 1) ICMP Timestamp use ICMP as transport protocol. This algorithm use TCP so I think that 3 way handshake of TCP can introduce significant and unpredictable delays (and oneway is not roundtrip / 2). Even a worse scenario if that POST involve a "CORS preflight" to obtain authorization for cross-domain ajax. Maybe exploiting HTTP persistent connection can be a viable solution to improve accuracy? (e.g. opening a dummy request to initially setup the connection and than using the proposed algorithm?) –  micred Dec 14 '11 at 8:49
2) $receive in server side sync.php doesn't represent the time when the packet is received. It works only if the server has no load. In common situation the web-server puts the request in a queue and a pool of php processes take care of the request in a FIFO logic. In this implementation is impossible to discriminate the time when the packet was received from the time when the packet was processed by a php process. And how to recognize if a response is valid or invalid? (e.g. due to a burst of requests that has introduced latency?) –  micred Dec 14 '11 at 8:52
@micred: If doing cross-domain AJAX (or even in-domain, actually), I would use GET rather than POST. As I commented previously, there is no need for the original timestamp to do a round trip, so POST has no benefit. Also, if the request goes to the same server that delivered the JavaScript, chances are this connection will be reused. –  Edgar Bonet Dec 14 '11 at 21:36

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.