speedtest/speedtest_worker.js

725 lines
28 KiB
JavaScript
Executable File

/*
LibreSpeed - Worker
by Federico Dossena
https://github.com/librespeed/speedtest/
GNU LGPLv3 License
*/
// data reported to main thread
let testState = -1; // -1=not started, 0=starting, 1=download test, 2=ping+jitter test, 3=upload test, 4=finished, 5=abort
let dlStatus = ""; // download speed in megabit/s with 2 decimal digits
let ulStatus = ""; // upload speed in megabit/s with 2 decimal digits
let pingStatus = ""; // ping in milliseconds with 2 decimal digits
let jitterStatus = ""; // jitter in milliseconds with 2 decimal digits
let clientIp = ""; // client's IP address as reported by getIP.php
let dlProgress = 0; //progress of download test 0-1
let ulProgress = 0; //progress of upload test 0-1
let pingProgress = 0; //progress of ping+jitter test 0-1
let testId = null; //test ID (sent back by telemetry if used, null otherwise)
let log = ""; //telemetry log
function tlog(s) {
if (settings.telemetry_level >= 2) {
log += Date.now() + ": " + s + "\n";
}
}
function tverb(s) {
if (settings.telemetry_level >= 3) {
log += Date.now() + ": " + s + "\n";
}
}
function twarn(s) {
if (settings.telemetry_level >= 2) {
log += Date.now() + " WARN: " + s + "\n";
}
console.warn(s);
}
// test settings. can be overridden by sending specific values with the start command
let settings = {
mpot: false, //set to true when in MPOT mode
test_order: "IP_D_U", //order in which tests will be performed as a string. D=Download, U=Upload, P=Ping+Jitter, I=IP, _=1 second delay
time_ul_max: 15, // max duration of upload test in seconds
time_dl_max: 15, // max duration of download test in seconds
time_auto: true, // if set to true, tests will take less time on faster connections
time_ulGraceTime: 3, //time to wait in seconds before actually measuring ul speed (wait for buffers to fill)
time_dlGraceTime: 1.5, //time to wait in seconds before actually measuring dl speed (wait for TCP window to increase)
count_ping: 10, // number of pings to perform in ping test
url_dl: "backend/garbage.php", // path to a large file or garbage.php, used for download test. must be relative to this js file
url_ul: "backend/empty.php", // path to an empty file, used for upload test. must be relative to this js file
url_ping: "backend/empty.php", // path to an empty file, used for ping test. must be relative to this js file
url_getIp: "backend/getIP.php", // path to getIP.php relative to this js file, or a similar thing that outputs the client's ip
getIp_ispInfo: true, //if set to true, the server will include ISP info with the IP address
getIp_ispInfo_distance: "km", //km or mi=estimate distance from server in km/mi; set to false to disable distance estimation. getIp_ispInfo must be enabled in order for this to work
xhr_dlMultistream: 6, // number of download streams to use (can be different if enable_quirks is active)
xhr_ulMultistream: 3, // number of upload streams to use (can be different if enable_quirks is active)
xhr_multistreamDelay: 300, //how much concurrent requests should be delayed
xhr_ignoreErrors: 1, // 0=fail on errors, 1=attempt to restart a stream if it fails, 2=ignore all errors
xhr_dlUseBlob: false, // if set to true, it reduces ram usage but uses the hard drive (useful with large garbagePhp_chunkSize and/or high xhr_dlMultistream)
xhr_ul_blob_megabytes: 20, //size in megabytes of the upload blobs sent in the upload test (forced to 4 on chrome mobile)
garbagePhp_chunkSize: 100, // size of chunks sent by garbage.php (can be different if enable_quirks is active)
enable_quirks: true, // enable quirks for specific browsers. currently it overrides settings to optimize for specific browsers, unless they are already being overridden with the start command
ping_allowPerformanceApi: true, // if enabled, the ping test will attempt to calculate the ping more precisely using the Performance API. Currently works perfectly in Chrome, badly in Edge, and not at all in Firefox. If Performance API is not supported or the result is obviously wrong, a fallback is provided.
overheadCompensationFactor: 1.06, //can be changed to compensate for transport overhead. (see doc.md for some other values)
useMebibits: false, //if set to true, speed will be reported in mebibits/s instead of megabits/s
telemetry_level: 0, // 0=disabled, 1=basic (results only), 2=full (results and timing) 3=debug (results+log)
url_telemetry: "results/telemetry.php", // path to the script that adds telemetry data to the database
telemetry_extra: "", //extra data that can be passed to the telemetry through the settings
forceIE11Workaround: false //when set to true, it will force the IE11 upload test on all browsers. Debug only
};
let xhr = null; // array of currently active xhr requests
let interval = null; // timer used in tests
let test_pointer = 0; //pointer to the next test to run inside settings.test_order
/*
this function is used on URLs passed in the settings to determine whether we need a ? or an & as a separator
*/
function url_sep(url) {
return url.match(/\?/) ? "&" : "?";
}
/*
listener for commands from main thread to this worker.
commands:
-status: returns the current status as a JSON string containing testState, dlStatus, ulStatus, pingStatus, clientIp, jitterStatus, dlProgress, ulProgress, pingProgress
-abort: aborts the current test
-start: starts the test. optionally, settings can be passed as JSON.
example: start {"time_ul_max":"10", "time_dl_max":"10", "count_ping":"50"}
*/
this.addEventListener("message", function(e) {
const params = e.data.split(" ");
if (params[0] === "status") {
// return status
postMessage(
JSON.stringify({
testState: testState,
dlStatus: dlStatus,
ulStatus: ulStatus,
pingStatus: pingStatus,
clientIp: clientIp,
jitterStatus: jitterStatus,
dlProgress: dlProgress,
ulProgress: ulProgress,
pingProgress: pingProgress,
testId: testId
})
);
}
if (params[0] === "start" && testState === -1) {
// start new test
testState = 0;
try {
// parse settings, if present
let s = {};
try {
const ss = e.data.substring(5);
if (ss) s = JSON.parse(ss);
} catch (e) {
twarn("Error parsing custom settings JSON. Please check your syntax");
}
//copy custom settings
for (let key in s) {
if (typeof settings[key] !== "undefined") settings[key] = s[key];
else twarn("Unknown setting ignored: " + key);
}
const ua = navigator.userAgent;
// quirks for specific browsers. apply only if not overridden. more may be added in future releases
if (settings.enable_quirks || (typeof s.enable_quirks !== "undefined" && s.enable_quirks)) {
if (/Firefox.(\d+\.\d+)/i.test(ua)) {
if (typeof s.ping_allowPerformanceApi === "undefined") {
// ff performance API sucks
settings.ping_allowPerformanceApi = false;
}
}
if (/Edge.(\d+\.\d+)/i.test(ua)) {
if (typeof s.xhr_dlMultistream === "undefined") {
// edge more precise with 3 download streams
settings.xhr_dlMultistream = 3;
}
}
if (/Chrome.(\d+)/i.test(ua) && !!self.fetch) {
if (typeof s.xhr_dlMultistream === "undefined") {
// chrome more precise with 5 streams
settings.xhr_dlMultistream = 5;
}
}
}
if (/Edge.(\d+\.\d+)/i.test(ua)) {
//Edge 15 introduced a bug that causes onprogress events to not get fired, we have to use the "small chunks" workaround that reduces accuracy
settings.forceIE11Workaround = true;
}
if (/PlayStation 4.(\d+\.\d+)/i.test(ua)) {
//PS4 browser has the same bug as IE11/Edge
settings.forceIE11Workaround = true;
}
if (/Chrome.(\d+)/i.test(ua) && /Android|iPhone|iPad|iPod|Windows Phone/i.test(ua)) {
//cheap af
//Chrome mobile introduced a limitation somewhere around version 65, we have to limit XHR upload size to 4 megabytes
settings.xhr_ul_blob_megabytes = 4;
}
if (/^((?!chrome|android|crios|fxios).)*safari/i.test(ua)) {
//Safari also needs the IE11 workaround but only for the MPOT version
settings.forceIE11Workaround = true;
}
//telemetry_level has to be parsed and not just copied
if (typeof s.telemetry_level !== "undefined") settings.telemetry_level = s.telemetry_level === "basic" ? 1 : s.telemetry_level === "full" ? 2 : s.telemetry_level === "debug" ? 3 : 0; // telemetry level
//transform test_order to uppercase, just in case
settings.test_order = settings.test_order.toUpperCase();
} catch (e) {
twarn("Possible error in custom test settings. Some settings might not have been applied. Exception: " + e);
}
// run the tests
tverb(JSON.stringify(settings));
test_pointer = 0;
let iRun = false,
dRun = false,
uRun = false,
pRun = false;
const runNextTest = function() {
if (testState == 5) return;
if (test_pointer >= settings.test_order.length) {
//test is finished
if (settings.telemetry_level > 0)
sendTelemetry(function(id) {
testState = 4;
if (id != null) testId = id;
});
else testState = 4;
return;
}
switch (settings.test_order.charAt(test_pointer)) {
case "I":
{
test_pointer++;
if (iRun) {
runNextTest();
return;
} else iRun = true;
getIp(runNextTest);
}
break;
case "D":
{
test_pointer++;
if (dRun) {
runNextTest();
return;
} else dRun = true;
testState = 1;
dlTest(runNextTest);
}
break;
case "U":
{
test_pointer++;
if (uRun) {
runNextTest();
return;
} else uRun = true;
testState = 3;
ulTest(runNextTest);
}
break;
case "P":
{
test_pointer++;
if (pRun) {
runNextTest();
return;
} else pRun = true;
testState = 2;
pingTest(runNextTest);
}
break;
case "_":
{
test_pointer++;
setTimeout(runNextTest, 1000);
}
break;
default:
test_pointer++;
}
};
runNextTest();
}
if (params[0] === "abort") {
// abort command
if (testState >= 4) return;
tlog("manually aborted");
clearRequests(); // stop all xhr activity
runNextTest = null;
if (interval) clearInterval(interval); // clear timer if present
if (settings.telemetry_level > 1) sendTelemetry(function() {});
testState = 5; //set test as aborted
dlStatus = "";
ulStatus = "";
pingStatus = "";
jitterStatus = "";
clientIp = "";
dlProgress = 0;
ulProgress = 0;
pingProgress = 0;
}
});
// stops all XHR activity, aggressively
function clearRequests() {
tverb("stopping pending XHRs");
if (xhr) {
for (let i = 0; i < xhr.length; i++) {
try {
xhr[i].onprogress = null;
xhr[i].onload = null;
xhr[i].onerror = null;
} catch (e) {}
try {
xhr[i].upload.onprogress = null;
xhr[i].upload.onload = null;
xhr[i].upload.onerror = null;
} catch (e) {}
try {
xhr[i].abort();
} catch (e) {}
try {
delete xhr[i];
} catch (e) {}
}
xhr = null;
}
}
// gets client's IP using url_getIp, then calls the done function
let ipCalled = false; // used to prevent multiple accidental calls to getIp
let ispInfo = ""; //used for telemetry
function getIp(done) {
tverb("getIp");
if (ipCalled) return;
else ipCalled = true; // getIp already called?
let startT = new Date().getTime();
xhr = new XMLHttpRequest();
xhr.onload = function() {
tlog("IP: " + xhr.responseText + ", took " + (new Date().getTime() - startT) + "ms");
try {
const data = JSON.parse(xhr.responseText);
clientIp = data.processedString;
ispInfo = data.rawIspInfo;
} catch (e) {
clientIp = xhr.responseText;
ispInfo = "";
}
done();
};
xhr.onerror = function() {
tlog("getIp failed, took " + (new Date().getTime() - startT) + "ms");
done();
};
xhr.open("GET", settings.url_getIp + url_sep(settings.url_getIp) + (settings.mpot ? "cors=true&" : "") + (settings.getIp_ispInfo ? "isp=true" + (settings.getIp_ispInfo_distance ? "&distance=" + settings.getIp_ispInfo_distance + "&" : "&") : "&") + "r=" + Math.random(), true);
xhr.send();
}
// download test, calls done function when it's over
let dlCalled = false; // used to prevent multiple accidental calls to dlTest
function dlTest(done) {
tverb("dlTest");
if (dlCalled) return;
else dlCalled = true; // dlTest already called?
let totLoaded = 0.0, // total number of loaded bytes
startT = new Date().getTime(), // timestamp when test was started
bonusT = 0, //how many milliseconds the test has been shortened by (higher on faster connections)
graceTimeDone = false, //set to true after the grace time is past
failed = false; // set to true if a stream fails
xhr = [];
// function to create a download stream. streams are slightly delayed so that they will not end at the same time
const testStream = function(i, delay) {
setTimeout(
function() {
if (testState !== 1) return; // delayed stream ended up starting after the end of the download test
tverb("dl test stream started " + i + " " + delay);
let prevLoaded = 0; // number of bytes loaded last time onprogress was called
let x = new XMLHttpRequest();
xhr[i] = x;
xhr[i].onprogress = function(event) {
tverb("dl stream progress event " + i + " " + event.loaded);
if (testState !== 1) {
try {
x.abort();
} catch (e) {}
} // just in case this XHR is still running after the download test
// progress event, add number of new loaded bytes to totLoaded
const loadDiff = event.loaded <= 0 ? 0 : event.loaded - prevLoaded;
if (isNaN(loadDiff) || !isFinite(loadDiff) || loadDiff < 0) return; // just in case
totLoaded += loadDiff;
prevLoaded = event.loaded;
}.bind(this);
xhr[i].onload = function() {
// the large file has been loaded entirely, start again
tverb("dl stream finished " + i);
try {
xhr[i].abort();
} catch (e) {} // reset the stream data to empty ram
testStream(i, 0);
}.bind(this);
xhr[i].onerror = function() {
// error
tverb("dl stream failed " + i);
if (settings.xhr_ignoreErrors === 0) failed = true; //abort
try {
xhr[i].abort();
} catch (e) {}
delete xhr[i];
if (settings.xhr_ignoreErrors === 1) testStream(i, 0); //restart stream
}.bind(this);
// send xhr
try {
if (settings.xhr_dlUseBlob) xhr[i].responseType = "blob";
else xhr[i].responseType = "arraybuffer";
} catch (e) {}
xhr[i].open("GET", settings.url_dl + url_sep(settings.url_dl) + (settings.mpot ? "cors=true&" : "") + "r=" + Math.random() + "&ckSize=" + settings.garbagePhp_chunkSize, true); // random string to prevent caching
xhr[i].send();
}.bind(this),
1 + delay
);
}.bind(this);
// open streams
for (let i = 0; i < settings.xhr_dlMultistream; i++) {
testStream(i, settings.xhr_multistreamDelay * i);
}
// every 200ms, update dlStatus
interval = setInterval(
function() {
tverb("DL: " + dlStatus + (graceTimeDone ? "" : " (in grace time)"));
const t = new Date().getTime() - startT;
if (graceTimeDone) dlProgress = (t + bonusT) / (settings.time_dl_max * 1000);
if (t < 200) return;
if (!graceTimeDone) {
if (t > 1000 * settings.time_dlGraceTime) {
if (totLoaded > 0) {
// if the connection is so slow that we didn't get a single chunk yet, do not reset
startT = new Date().getTime();
bonusT = 0;
totLoaded = 0.0;
}
graceTimeDone = true;
}
} else {
const speed = totLoaded / (t / 1000.0);
if (settings.time_auto) {
//decide how much to shorten the test. Every 200ms, the test is shortened by the bonusT calculated here
const bonus = (5.0 * speed) / 100000;
bonusT += bonus > 400 ? 400 : bonus;
}
//update status
dlStatus = ((speed * 8 * settings.overheadCompensationFactor) / (settings.useMebibits ? 1048576 : 1000000)).toFixed(2); // speed is multiplied by 8 to go from bytes to bits, overhead compensation is applied, then everything is divided by 1048576 or 1000000 to go to megabits/mebibits
if ((t + bonusT) / 1000.0 > settings.time_dl_max || failed) {
// test is over, stop streams and timer
if (failed || isNaN(dlStatus)) dlStatus = "Fail";
clearRequests();
clearInterval(interval);
dlProgress = 1;
tlog("dlTest: " + dlStatus + ", took " + (new Date().getTime() - startT) + "ms");
done();
}
}
}.bind(this),
200
);
}
// upload test, calls done function when it's over
let ulCalled = false; // used to prevent multiple accidental calls to ulTest
function ulTest(done) {
tverb("ulTest");
if (ulCalled) return;
else ulCalled = true; // ulTest already called?
// garbage data for upload test
let r = new ArrayBuffer(1048576);
const maxInt = Math.pow(2, 32) - 1;
try {
r = new Uint32Array(r);
for (let i = 0; i < r.length; i++) r[i] = Math.random() * maxInt;
} catch (e) {}
let req = [];
let reqsmall = [];
for (let i = 0; i < settings.xhr_ul_blob_megabytes; i++) req.push(r);
req = new Blob(req);
r = new ArrayBuffer(262144);
try {
r = new Uint32Array(r);
for (let i = 0; i < r.length; i++) r[i] = Math.random() * maxInt;
} catch (e) {}
reqsmall.push(r);
reqsmall = new Blob(reqsmall);
const testFunction = function() {
let totLoaded = 0.0, // total number of transmitted bytes
startT = new Date().getTime(), // timestamp when test was started
bonusT = 0, //how many milliseconds the test has been shortened by (higher on faster connections)
graceTimeDone = false, //set to true after the grace time is past
failed = false; // set to true if a stream fails
xhr = [];
// function to create an upload stream. streams are slightly delayed so that they will not end at the same time
const testStream = function(i, delay) {
setTimeout(
function() {
if (testState !== 3) return; // delayed stream ended up starting after the end of the upload test
tverb("ul test stream started " + i + " " + delay);
let prevLoaded = 0; // number of bytes transmitted last time onprogress was called
let x = new XMLHttpRequest();
xhr[i] = x;
let ie11workaround;
if (settings.forceIE11Workaround) ie11workaround = true;
else {
try {
xhr[i].upload.onprogress;
ie11workaround = false;
} catch (e) {
ie11workaround = true;
}
}
if (ie11workaround) {
// IE11 workaround: xhr.upload does not work properly, therefore we send a bunch of small 256k requests and use the onload event as progress. This is not precise, especially on fast connections
xhr[i].onload = xhr[i].onerror = function() {
tverb("ul stream progress event (ie11wa)");
totLoaded += reqsmall.size;
testStream(i, 0);
};
xhr[i].open("POST", settings.url_ul + url_sep(settings.url_ul) + (settings.mpot ? "cors=true&" : "") + "r=" + Math.random(), true); // random string to prevent caching
try {
xhr[i].setRequestHeader("Content-Encoding", "identity"); // disable compression (some browsers may refuse it, but data is incompressible anyway)
} catch (e) {}
//No Content-Type header in MPOT branch because it triggers bugs in some browsers
xhr[i].send(reqsmall);
} else {
// REGULAR version, no workaround
xhr[i].upload.onprogress = function(event) {
tverb("ul stream progress event " + i + " " + event.loaded);
if (testState !== 3) {
try {
x.abort();
} catch (e) {}
} // just in case this XHR is still running after the upload test
// progress event, add number of new loaded bytes to totLoaded
const loadDiff = event.loaded <= 0 ? 0 : event.loaded - prevLoaded;
if (isNaN(loadDiff) || !isFinite(loadDiff) || loadDiff < 0) return; // just in case
totLoaded += loadDiff;
prevLoaded = event.loaded;
}.bind(this);
xhr[i].upload.onload = function() {
// this stream sent all the garbage data, start again
tverb("ul stream finished " + i);
testStream(i, 0);
}.bind(this);
xhr[i].upload.onerror = function() {
tverb("ul stream failed " + i);
if (settings.xhr_ignoreErrors === 0) failed = true; //abort
try {
xhr[i].abort();
} catch (e) {}
delete xhr[i];
if (settings.xhr_ignoreErrors === 1) testStream(i, 0); //restart stream
}.bind(this);
// send xhr
xhr[i].open("POST", settings.url_ul + url_sep(settings.url_ul) + (settings.mpot ? "cors=true&" : "") + "r=" + Math.random(), true); // random string to prevent caching
try {
xhr[i].setRequestHeader("Content-Encoding", "identity"); // disable compression (some browsers may refuse it, but data is incompressible anyway)
} catch (e) {}
//No Content-Type header in MPOT branch because it triggers bugs in some browsers
xhr[i].send(req);
}
}.bind(this),
delay
);
}.bind(this);
// open streams
for (let i = 0; i < settings.xhr_ulMultistream; i++) {
testStream(i, settings.xhr_multistreamDelay * i);
}
// every 200ms, update ulStatus
interval = setInterval(
function() {
tverb("UL: " + ulStatus + (graceTimeDone ? "" : " (in grace time)"));
const t = new Date().getTime() - startT;
if (graceTimeDone) ulProgress = (t + bonusT) / (settings.time_ul_max * 1000);
if (t < 200) return;
if (!graceTimeDone) {
if (t > 1000 * settings.time_ulGraceTime) {
if (totLoaded > 0) {
// if the connection is so slow that we didn't get a single chunk yet, do not reset
startT = new Date().getTime();
bonusT = 0;
totLoaded = 0.0;
}
graceTimeDone = true;
}
} else {
const speed = totLoaded / (t / 1000.0);
if (settings.time_auto) {
//decide how much to shorten the test. Every 200ms, the test is shortened by the bonusT calculated here
const bonus = (5.0 * speed) / 100000;
bonusT += bonus > 400 ? 400 : bonus;
}
//update status
ulStatus = ((speed * 8 * settings.overheadCompensationFactor) / (settings.useMebibits ? 1048576 : 1000000)).toFixed(2); // speed is multiplied by 8 to go from bytes to bits, overhead compensation is applied, then everything is divided by 1048576 or 1000000 to go to megabits/mebibits
if ((t + bonusT) / 1000.0 > settings.time_ul_max || failed) {
// test is over, stop streams and timer
if (failed || isNaN(ulStatus)) ulStatus = "Fail";
clearRequests();
clearInterval(interval);
ulProgress = 1;
tlog("ulTest: " + ulStatus + ", took " + (new Date().getTime() - startT) + "ms");
done();
}
}
}.bind(this),
200
);
}.bind(this);
if (settings.mpot) {
tverb("Sending POST request before performing upload test");
xhr = [];
xhr[0] = new XMLHttpRequest();
xhr[0].onload = xhr[0].onerror = function() {
tverb("POST request sent, starting upload test");
testFunction();
}.bind(this);
xhr[0].open("POST", settings.url_ul);
xhr[0].send();
} else testFunction();
}
// ping+jitter test, function done is called when it's over
let ptCalled = false; // used to prevent multiple accidental calls to pingTest
function pingTest(done) {
tverb("pingTest");
if (ptCalled) return;
else ptCalled = true; // pingTest already called?
const startT = new Date().getTime(); //when the test was started
let prevT = null; // last time a pong was received
let ping = 0.0; // current ping value
let jitter = 0.0; // current jitter value
let i = 0; // counter of pongs received
let prevInstspd = 0; // last ping time, used for jitter calculation
xhr = [];
// ping function
const doPing = function() {
tverb("ping");
pingProgress = i / settings.count_ping;
prevT = new Date().getTime();
xhr[0] = new XMLHttpRequest();
xhr[0].onload = function() {
// pong
tverb("pong");
if (i === 0) {
prevT = new Date().getTime(); // first pong
} else {
let instspd = new Date().getTime() - prevT;
if (settings.ping_allowPerformanceApi) {
try {
//try to get accurate performance timing using performance api
let p = performance.getEntries();
p = p[p.length - 1];
let d = p.responseStart - p.requestStart;
if (d <= 0) d = p.duration;
if (d > 0 && d < instspd) instspd = d;
} catch (e) {
//if not possible, keep the estimate
tverb("Performance API not supported, using estimate");
}
}
//noticed that some browsers randomly have 0ms ping
if (instspd < 1) instspd = prevInstspd;
if (instspd < 1) instspd = 1;
const instjitter = Math.abs(instspd - prevInstspd);
if (i === 1) ping = instspd;
/* first ping, can't tell jitter yet*/ else {
if (instspd < ping) ping = instspd; // update ping, if the instant ping is lower
if (i === 2) jitter = instjitter;
//discard the first jitter measurement because it might be much higher than it should be
else jitter = instjitter > jitter ? jitter * 0.3 + instjitter * 0.7 : jitter * 0.8 + instjitter * 0.2; // update jitter, weighted average. spikes in ping values are given more weight.
}
prevInstspd = instspd;
}
pingStatus = ping.toFixed(2);
jitterStatus = jitter.toFixed(2);
i++;
tverb("ping: " + pingStatus + " jitter: " + jitterStatus);
if (i < settings.count_ping) doPing();
else {
// more pings to do?
pingProgress = 1;
tlog("ping: " + pingStatus + " jitter: " + jitterStatus + ", took " + (new Date().getTime() - startT) + "ms");
done();
}
}.bind(this);
xhr[0].onerror = function() {
// a ping failed, cancel test
tverb("ping failed");
if (settings.xhr_ignoreErrors === 0) {
//abort
pingStatus = "Fail";
jitterStatus = "Fail";
clearRequests();
tlog("ping test failed, took " + (new Date().getTime() - startT) + "ms");
pingProgress = 1;
done();
}
if (settings.xhr_ignoreErrors === 1) doPing(); //retry ping
if (settings.xhr_ignoreErrors === 2) {
//ignore failed ping
i++;
if (i < settings.count_ping) doPing();
else {
// more pings to do?
pingProgress = 1;
tlog("ping: " + pingStatus + " jitter: " + jitterStatus + ", took " + (new Date().getTime() - startT) + "ms");
done();
}
}
}.bind(this);
// send xhr
xhr[0].open("GET", settings.url_ping + url_sep(settings.url_ping) + (settings.mpot ? "cors=true&" : "") + "r=" + Math.random(), true); // random string to prevent caching
xhr[0].send();
}.bind(this);
doPing(); // start first ping
}
// telemetry
function sendTelemetry(done) {
if (settings.telemetry_level < 1) return;
xhr = new XMLHttpRequest();
xhr.onload = function() {
try {
const parts = xhr.responseText.split(" ");
if (parts[0] == "id") {
try {
let id = parts[1];
done(id);
} catch (e) {
done(null);
}
} else done(null);
} catch (e) {
done(null);
}
};
xhr.onerror = function() {
console.log("TELEMETRY ERROR " + xhr.status);
done(null);
};
xhr.open("POST", settings.url_telemetry + url_sep(settings.url_telemetry) + (settings.mpot ? "cors=true&" : "") + "r=" + Math.random(), true);
const telemetryIspInfo = {
processedString: clientIp,
rawIspInfo: typeof ispInfo === "object" ? ispInfo : ""
};
try {
const fd = new FormData();
fd.append("ispinfo", JSON.stringify(telemetryIspInfo));
fd.append("dl", dlStatus);
fd.append("ul", ulStatus);
fd.append("ping", pingStatus);
fd.append("jitter", jitterStatus);
fd.append("log", settings.telemetry_level > 1 ? log : "");
fd.append("extra", settings.telemetry_extra);
xhr.send(fd);
} catch (ex) {
const postData = "extra=" + encodeURIComponent(settings.telemetry_extra) + "&ispinfo=" + encodeURIComponent(JSON.stringify(telemetryIspInfo)) + "&dl=" + encodeURIComponent(dlStatus) + "&ul=" + encodeURIComponent(ulStatus) + "&ping=" + encodeURIComponent(pingStatus) + "&jitter=" + encodeURIComponent(jitterStatus) + "&log=" + encodeURIComponent(settings.telemetry_level > 1 ? log : "");
xhr.setRequestHeader("Content-Type", "application/x-www-form-urlencoded");
xhr.send(postData);
}
}