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// -*- indent-tabs-mode: nil; js-indent-level: 2 -*-
// Any copyright is dedicated to the Public Domain.
// http://creativecommons.org/publicdomain/zero/1.0/
"use strict";
// Tests that nsIHttpChannelInternal.beConservative correctly limits the use of
// advanced TLS features that may cause compatibility issues. Does so by
// starting a TLS server that requires the advanced features and then ensuring
// that a client that is set to be conservative will fail when connecting.
// Get a profile directory and ensure PSM initializes NSS.
do_get_profile();
Cc["@mozilla.org/psm;1"].getService(Ci.nsISupports);
class InputStreamCallback {
constructor(output) {
this.output = output;
this.stopped = false;
}
onInputStreamReady(stream) {
info("input stream ready");
if (this.stopped) {
info("input stream callback stopped - bailing");
return;
}
let available = 0;
try {
available = stream.available();
} catch (e) {
// onInputStreamReady may fire when the stream has been closed.
equal(
e.result,
Cr.NS_BASE_STREAM_CLOSED,
"error should be NS_BASE_STREAM_CLOSED"
);
}
if (available > 0) {
let request = NetUtil.readInputStreamToString(stream, available, {
charset: "utf8",
});
ok(
request.startsWith("GET / HTTP/1.1\r\n"),
"Should get a simple GET / HTTP/1.1 request"
);
let response =
"HTTP/1.1 200 OK\r\n" +
"Content-Length: 2\r\n" +
"Content-Type: text/plain\r\n" +
"\r\nOK";
let written = this.output.write(response, response.length);
equal(
written,
response.length,
"should have been able to write entire response"
);
}
this.output.close();
info("done with input stream ready");
}
stop() {
this.stopped = true;
this.output.close();
}
}
class TLSServerSecurityObserver {
constructor(input, output) {
this.input = input;
this.output = output;
this.callbacks = [];
this.stopped = false;
}
onHandshakeDone(socket, status) {
info("TLS handshake done");
info(`TLS version used: ${status.tlsVersionUsed}`);
if (this.stopped) {
info("handshake done callback stopped - bailing");
return;
}
let callback = new InputStreamCallback(this.output);
this.callbacks.push(callback);
this.input.asyncWait(callback, 0, 0, Services.tm.currentThread);
}
stop() {
this.stopped = true;
this.input.close();
this.output.close();
this.callbacks.forEach(callback => {
callback.stop();
});
}
}
class ServerSocketListener {
constructor() {
this.securityObservers = [];
}
onSocketAccepted(socket, transport) {
info("accepted TLS client connection");
let connectionInfo = transport.securityCallbacks.getInterface(
Ci.nsITLSServerConnectionInfo
);
let input = transport.openInputStream(0, 0, 0);
let output = transport.openOutputStream(0, 0, 0);
let securityObserver = new TLSServerSecurityObserver(input, output);
this.securityObservers.push(securityObserver);
connectionInfo.setSecurityObserver(securityObserver);
}
// For some reason we get input stream callback events after we've stopped
// listening, so this ensures we just drop those events.
onStopListening() {
info("onStopListening");
this.securityObservers.forEach(observer => {
observer.stop();
});
}
}
function startServer(cert, minServerVersion, maxServerVersion) {
let tlsServer = Cc["@mozilla.org/network/tls-server-socket;1"].createInstance(
Ci.nsITLSServerSocket
);
tlsServer.init(-1, true, -1);
tlsServer.serverCert = cert;
tlsServer.setVersionRange(minServerVersion, maxServerVersion);
tlsServer.setSessionTickets(false);
tlsServer.asyncListen(new ServerSocketListener());
return tlsServer;
}
const hostname = "example.com";
function storeCertOverride(port, cert) {
let certOverrideService = Cc[
"@mozilla.org/security/certoverride;1"
].getService(Ci.nsICertOverrideService);
certOverrideService.rememberValidityOverride(hostname, port, {}, cert, true);
}
function startClient(port, beConservative, expectSuccess) {
let req = new XMLHttpRequest();
req.open("GET", `https://${hostname}:${port}`);
let internalChannel = req.channel.QueryInterface(Ci.nsIHttpChannelInternal);
internalChannel.beConservative = beConservative;
return new Promise((resolve, reject) => {
req.onload = () => {
ok(
expectSuccess,
`should ${expectSuccess ? "" : "not "}have gotten load event`
);
equal(req.responseText, "OK", "response text should be 'OK'");
resolve();
};
req.onerror = () => {
ok(
!expectSuccess,
`should ${!expectSuccess ? "" : "not "}have gotten an error`
);
resolve();
};
req.send();
});
}
add_task(async function () {
// Restrict to only TLS 1.3.
Services.prefs.setIntPref("security.tls.version.min", 4);
Services.prefs.setIntPref("security.tls.version.max", 4);
Services.prefs.setCharPref("network.dns.localDomains", hostname);
let cert = getTestServerCertificate();
// Run a server that accepts TLS 1.2 and 1.3. The connection should succeed.
let server = startServer(
cert,
Ci.nsITLSClientStatus.TLS_VERSION_1_2,
Ci.nsITLSClientStatus.TLS_VERSION_1_3
);
storeCertOverride(server.port, cert);
await startClient(
server.port,
true /*be conservative*/,
true /*should succeed*/
);
server.close();
// Now run a server that only accepts TLS 1.3. A conservative client will not
// succeed in this case.
server = startServer(
cert,
Ci.nsITLSClientStatus.TLS_VERSION_1_3,
Ci.nsITLSClientStatus.TLS_VERSION_1_3
);
storeCertOverride(server.port, cert);
await startClient(
server.port,
true /*be conservative*/,
false /*should fail*/
);
server.close();
});
registerCleanupFunction(function () {
Services.prefs.clearUserPref("security.tls.version.min");
Services.prefs.clearUserPref("security.tls.version.max");
Services.prefs.clearUserPref("network.dns.localDomains");
});
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