gecko/netwerk/test/unit/test_http2.js

455 lines
14 KiB
JavaScript

// test HTTP/2
var Ci = Components.interfaces;
var Cc = Components.classes;
// Generate a small and a large post with known pre-calculated md5 sums
function generateContent(size) {
var content = "";
for (var i = 0; i < size; i++) {
content += "0";
}
return content;
}
var posts = [];
posts.push(generateContent(10));
posts.push(generateContent(250000));
// pre-calculated md5sums (in hex) of the above posts
var md5s = ['f1b708bba17f1ce948dc979f4d7092bc',
'2ef8d3b6c8f329318eb1a119b12622b6'];
var bigListenerData = generateContent(128 * 1024);
var bigListenerMD5 = '8f607cfdd2c87d6a7eedb657dafbd836';
function checkIsHttp2(request) {
try {
if (request.getResponseHeader("X-Firefox-Spdy") == "h2-12") {
if (request.getResponseHeader("X-Connection-Http2") == "yes") {
return true;
}
return false; // Weird case, but the server disagrees with us
}
} catch (e) {
// Nothing to do here
}
return false;
}
var Http2CheckListener = function() {};
Http2CheckListener.prototype = {
onStartRequestFired: false,
onDataAvailableFired: false,
isHttp2Connection: false,
onStartRequest: function testOnStartRequest(request, ctx) {
this.onStartRequestFired = true;
if (!Components.isSuccessCode(request.status))
do_throw("Channel should have a success code! (" + request.status + ")");
if (!(request instanceof Components.interfaces.nsIHttpChannel))
do_throw("Expecting an HTTP channel");
do_check_eq(request.responseStatus, 200);
do_check_eq(request.requestSucceeded, true);
},
onDataAvailable: function testOnDataAvailable(request, ctx, stream, off, cnt) {
this.onDataAvailableFired = true;
this.isHttp2Connection = checkIsHttp2(request);
read_stream(stream, cnt);
},
onStopRequest: function testOnStopRequest(request, ctx, status) {
do_check_true(this.onStartRequestFired);
do_check_true(this.onDataAvailableFired);
do_check_true(this.isHttp2Connection);
run_next_test();
do_test_finished();
}
};
/*
* Support for testing valid multiplexing of streams
*/
var multiplexContent = generateContent(30*1024);
var completed_channels = [];
function register_completed_channel(listener) {
completed_channels.push(listener);
if (completed_channels.length == 2) {
do_check_neq(completed_channels[0].streamID, completed_channels[1].streamID);
run_next_test();
do_test_finished();
}
}
/* Listener class to control the testing of multiplexing */
var Http2MultiplexListener = function() {};
Http2MultiplexListener.prototype = new Http2CheckListener();
Http2MultiplexListener.prototype.streamID = 0;
Http2MultiplexListener.prototype.buffer = "";
Http2MultiplexListener.prototype.onDataAvailable = function(request, ctx, stream, off, cnt) {
this.onDataAvailableFired = true;
this.isHttp2Connection = checkIsHttp2(request);
this.streamID = parseInt(request.getResponseHeader("X-Http2-StreamID"));
var data = read_stream(stream, cnt);
this.buffer = this.buffer.concat(data);
};
Http2MultiplexListener.prototype.onStopRequest = function(request, ctx, status) {
do_check_true(this.onStartRequestFired);
do_check_true(this.onDataAvailableFired);
do_check_true(this.isHttp2Connection);
do_check_true(this.buffer == multiplexContent);
// This is what does most of the hard work for us
register_completed_channel(this);
};
// Does the appropriate checks for header gatewaying
var Http2HeaderListener = function(name, callback) {
this.name = name;
this.callback = callback;
};
Http2HeaderListener.prototype = new Http2CheckListener();
Http2HeaderListener.prototype.value = "";
Http2HeaderListener.prototype.onDataAvailable = function(request, ctx, stream, off, cnt) {
this.onDataAvailableFired = true;
this.isHttp2Connection = checkIsHttp2(request);
var hvalue = request.getResponseHeader(this.name);
do_check_neq(hvalue, "");
this.callback(hvalue);
read_stream(stream, cnt);
};
var Http2PushListener = function() {};
Http2PushListener.prototype = new Http2CheckListener();
Http2PushListener.prototype.onDataAvailable = function(request, ctx, stream, off, cnt) {
this.onDataAvailableFired = true;
this.isHttp2Connection = checkIsHttp2(request);
if (ctx.originalURI.spec == "https://localhost:6944/push.js" ||
ctx.originalURI.spec == "https://localhost:6944/push2.js") {
do_check_eq(request.getResponseHeader("pushed"), "yes");
}
read_stream(stream, cnt);
};
// Does the appropriate checks for a large GET response
var Http2BigListener = function() {};
Http2BigListener.prototype = new Http2CheckListener();
Http2BigListener.prototype.buffer = "";
Http2BigListener.prototype.onDataAvailable = function(request, ctx, stream, off, cnt) {
this.onDataAvailableFired = true;
this.isHttp2Connection = checkIsHttp2(request);
this.buffer = this.buffer.concat(read_stream(stream, cnt));
// We know the server should send us the same data as our big post will be,
// so the md5 should be the same
do_check_eq(bigListenerMD5, request.getResponseHeader("X-Expected-MD5"));
};
Http2BigListener.prototype.onStopRequest = function(request, ctx, status) {
do_check_true(this.onStartRequestFired);
do_check_true(this.onDataAvailableFired);
do_check_true(this.isHttp2Connection);
// Don't want to flood output, so don't use do_check_eq
do_check_true(this.buffer == bigListenerData);
run_next_test();
do_test_finished();
};
// Does the appropriate checks for POSTs
var Http2PostListener = function(expected_md5) {
this.expected_md5 = expected_md5;
};
Http2PostListener.prototype = new Http2CheckListener();
Http2PostListener.prototype.expected_md5 = "";
Http2PostListener.prototype.onDataAvailable = function(request, ctx, stream, off, cnt) {
this.onDataAvailableFired = true;
this.isHttp2Connection = checkIsHttp2(request);
read_stream(stream, cnt);
do_check_eq(this.expected_md5, request.getResponseHeader("X-Calculated-MD5"));
};
function makeChan(url) {
var ios = Cc["@mozilla.org/network/io-service;1"].getService(Ci.nsIIOService);
var chan = ios.newChannel(url, null, null).QueryInterface(Ci.nsIHttpChannel);
return chan;
}
// Make sure we make a HTTP2 connection and both us and the server mark it as such
function test_http2_basic() {
var chan = makeChan("https://localhost:6944/");
var listener = new Http2CheckListener();
chan.asyncOpen(listener, null);
}
// Support for making sure XHR works over SPDY
function checkXhr(xhr) {
if (xhr.readyState != 4) {
return;
}
do_check_eq(xhr.status, 200);
do_check_eq(checkIsHttp2(xhr), true);
run_next_test();
do_test_finished();
}
// Fires off an XHR request over SPDY
function test_http2_xhr() {
var req = Cc["@mozilla.org/xmlextras/xmlhttprequest;1"]
.createInstance(Ci.nsIXMLHttpRequest);
req.open("GET", "https://localhost:6944/", true);
req.addEventListener("readystatechange", function (evt) { checkXhr(req); },
false);
req.send(null);
}
// Test to make sure we get multiplexing right
function test_http2_multiplex() {
var chan1 = makeChan("https://localhost:6944/multiplex1");
var chan2 = makeChan("https://localhost:6944/multiplex2");
var listener1 = new Http2MultiplexListener();
var listener2 = new Http2MultiplexListener();
chan1.asyncOpen(listener1, null);
chan2.asyncOpen(listener2, null);
}
// Test to make sure we gateway non-standard headers properly
function test_http2_header() {
var chan = makeChan("https://localhost:6944/header");
var hvalue = "Headers are fun";
chan.setRequestHeader("X-Test-Header", hvalue, false);
var listener = new Http2HeaderListener("X-Received-Test-Header", function(received_hvalue) {
do_check_eq(received_hvalue, hvalue);
});
chan.asyncOpen(listener, null);
}
// Test to make sure cookies are split into separate fields before compression
function test_http2_cookie_crumbling() {
var chan = makeChan("https://localhost:6944/cookie_crumbling");
var cookiesSent = ['a=b', 'c=d', 'e=f'].sort();
chan.setRequestHeader("Cookie", cookiesSent.join('; '), false);
var listener = new Http2HeaderListener("X-Received-Header-Pairs", function(pairsReceived) {
var cookiesReceived = JSON.parse(pairsReceived).filter(function(pair) {
return pair[0] == 'cookie';
}).map(function(pair) {
return pair[1];
}).sort();
do_check_eq(cookiesReceived.length, cookiesSent.length);
cookiesReceived.forEach(function(cookieReceived, index) {
do_check_eq(cookiesSent[index], cookieReceived)
});
});
chan.asyncOpen(listener, null);
}
function test_http2_push1() {
var chan = makeChan("https://localhost:6944/push");
chan.loadGroup = loadGroup;
var listener = new Http2PushListener();
chan.asyncOpen(listener, chan);
}
function test_http2_push2() {
var chan = makeChan("https://localhost:6944/push.js");
chan.loadGroup = loadGroup;
var listener = new Http2PushListener();
chan.asyncOpen(listener, chan);
}
function test_http2_push3() {
var chan = makeChan("https://localhost:6944/push2");
chan.loadGroup = loadGroup;
var listener = new Http2PushListener();
chan.asyncOpen(listener, chan);
}
function test_http2_push4() {
var chan = makeChan("https://localhost:6944/push2.js");
chan.loadGroup = loadGroup;
var listener = new Http2PushListener();
chan.asyncOpen(listener, chan);
}
// Make sure we handle GETs that cover more than 2 frames properly
function test_http2_big() {
var chan = makeChan("https://localhost:6944/big");
var listener = new Http2BigListener();
chan.asyncOpen(listener, null);
}
// Support for doing a POST
function do_post(content, chan, listener) {
var stream = Cc["@mozilla.org/io/string-input-stream;1"]
.createInstance(Ci.nsIStringInputStream);
stream.data = content;
var uchan = chan.QueryInterface(Ci.nsIUploadChannel);
uchan.setUploadStream(stream, "text/plain", stream.available());
chan.requestMethod = "POST";
chan.asyncOpen(listener, null);
}
// Make sure we can do a simple POST
function test_http2_post() {
var chan = makeChan("https://localhost:6944/post");
var listener = new Http2PostListener(md5s[0]);
do_post(posts[0], chan, listener);
}
// Make sure we can do a POST that covers more than 2 frames
function test_http2_post_big() {
var chan = makeChan("https://localhost:6944/post");
var listener = new Http2PostListener(md5s[1]);
do_post(posts[1], chan, listener);
}
// hack - the header test resets the multiplex object on the server,
// so make sure header is always run before the multiplex test.
//
// make sure post_big runs first to test race condition in restarting
// a stalled stream when a SETTINGS frame arrives
var tests = [ test_http2_post_big
, test_http2_basic
, test_http2_push1
, test_http2_push2
, test_http2_push3
, test_http2_push4
, test_http2_xhr
, test_http2_header
, test_http2_cookie_crumbling
, test_http2_multiplex
, test_http2_big
, test_http2_post
];
var current_test = 0;
function run_next_test() {
if (current_test < tests.length) {
tests[current_test]();
current_test++;
do_test_pending();
}
}
// Support for making sure we can talk to the invalid cert the server presents
var CertOverrideListener = function(host, port, bits) {
this.host = host;
if (port) {
this.port = port;
}
this.bits = bits;
};
CertOverrideListener.prototype = {
host: null,
port: -1,
bits: null,
getInterface: function(aIID) {
return this.QueryInterface(aIID);
},
QueryInterface: function(aIID) {
if (aIID.equals(Ci.nsIBadCertListener2) ||
aIID.equals(Ci.nsIInterfaceRequestor) ||
aIID.equals(Ci.nsISupports))
return this;
throw Components.results.NS_ERROR_NO_INTERFACE;
},
notifyCertProblem: function(socketInfo, sslStatus, targetHost) {
var cert = sslStatus.QueryInterface(Ci.nsISSLStatus).serverCert;
var cos = Cc["@mozilla.org/security/certoverride;1"].
getService(Ci.nsICertOverrideService);
cos.rememberValidityOverride(this.host, this.port, cert, this.bits, false);
return true;
},
};
function addCertOverride(host, port, bits) {
var req = Cc["@mozilla.org/xmlextras/xmlhttprequest;1"]
.createInstance(Ci.nsIXMLHttpRequest);
try {
var url;
if (port) {
url = "https://" + host + ":" + port + "/";
} else {
url = "https://" + host + "/";
}
req.open("GET", url, false);
req.channel.notificationCallbacks = new CertOverrideListener(host, port, bits);
req.send(null);
} catch (e) {
// This will fail since the server is not trusted yet
}
}
var prefs;
var spdypref;
var spdy3pref;
var spdypush;
var http2pref;
var loadGroup;
function resetPrefs() {
prefs.setBoolPref("network.http.spdy.enabled", spdypref);
prefs.setBoolPref("network.http.spdy.enabled.v3", spdy3pref);
prefs.setBoolPref("network.http.spdy.allow-push", spdypush);
prefs.setBoolPref("network.http.spdy.enabled.http2draft", http2pref);
}
function run_test() {
// Set to allow the cert presented by our SPDY server
do_get_profile();
var prefs = Cc["@mozilla.org/preferences-service;1"].getService(Ci.nsIPrefBranch);
var oldPref = prefs.getIntPref("network.http.speculative-parallel-limit");
prefs.setIntPref("network.http.speculative-parallel-limit", 0);
addCertOverride("localhost", 6944,
Ci.nsICertOverrideService.ERROR_UNTRUSTED |
Ci.nsICertOverrideService.ERROR_MISMATCH |
Ci.nsICertOverrideService.ERROR_TIME);
prefs.setIntPref("network.http.speculative-parallel-limit", oldPref);
// Enable all versions of spdy to see that we auto negotiate http/2
spdypref = prefs.getBoolPref("network.http.spdy.enabled");
spdy3pref = prefs.getBoolPref("network.http.spdy.enabled.v3");
spdypush = prefs.getBoolPref("network.http.spdy.allow-push");
http2pref = prefs.getBoolPref("network.http.spdy.enabled.http2draft");
prefs.setBoolPref("network.http.spdy.enabled", true);
prefs.setBoolPref("network.http.spdy.enabled.v3", true);
prefs.setBoolPref("network.http.spdy.allow-push", true);
prefs.setBoolPref("network.http.spdy.enabled.http2draft", true);
loadGroup = Cc["@mozilla.org/network/load-group;1"].createInstance(Ci.nsILoadGroup);
// And make go!
run_next_test();
}