// -*- indent-tabs-mode: nil; js-indent-level: 2 -*- // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this // file, You can obtain one at http://mozilla.org/MPL/2.0/. "use strict"; // Tests that end-entity certificates that should successfully verify as EV // (Extended Validation) do so and that end-entity certificates that should not // successfully verify as EV do not. Also tests related situations (e.g. that // failure to fetch an OCSP response results in no EV treatment). // // A quick note about the certificates in these tests: generally, an EV // certificate chain will have an end-entity with a specific policy OID followed // by an intermediate with the anyPolicy OID chaining to a root with no policy // OID (since it's a trust anchor, it can be omitted). In these tests, the // specific policy OID is 1.3.6.1.4.1.13769.666.666.666.1.500.9.1 and is // referred to as the test OID. In order to reflect what will commonly be // encountered, the end-entity of any given test path will have the test OID // unless otherwise specified in the name of the test path. Similarly, the // intermediate will have the anyPolicy OID, again unless otherwise specified. // For example, for the path where the end-entity does not have an OCSP URI // (referred to as "no-ocsp-ee-path-{ee,int}", the end-entity has the test OID // whereas the intermediate has the anyPolicy OID. // For another example, for the test OID path ("test-oid-path-{ee,int}"), both // the end-entity and the intermediate have the test OID. do_get_profile(); // must be called before getting nsIX509CertDB const certdb = Cc["@mozilla.org/security/x509certdb;1"].getService( Ci.nsIX509CertDB ); registerCleanupFunction(() => { Services.prefs.clearUserPref("network.dns.localDomains"); Services.prefs.clearUserPref("security.OCSP.enabled"); }); Services.prefs.setCharPref("network.dns.localDomains", "www.example.com"); Services.prefs.setIntPref("security.OCSP.enabled", 1); const evroot = addCertFromFile(certdb, "test_ev_certs/evroot.pem", "CTu,,"); addCertFromFile(certdb, "test_ev_certs/non-evroot-ca.pem", "CTu,,"); const SERVER_PORT = 8888; function failingOCSPResponder() { return getFailingHttpServer(SERVER_PORT, ["www.example.com"]); } class EVCertVerificationResult { constructor( testcase, expectedPRErrorCode, expectedEV, resolve, ocspResponder ) { this.testcase = testcase; this.expectedPRErrorCode = expectedPRErrorCode; this.expectedEV = expectedEV; this.resolve = resolve; this.ocspResponder = ocspResponder; } verifyCertFinished(prErrorCode, verifiedChain, hasEVPolicy) { equal( prErrorCode, this.expectedPRErrorCode, `${this.testcase} should have expected error code` ); equal( hasEVPolicy, this.expectedEV, `${this.testcase} should result in expected EV status` ); this.ocspResponder.stop(this.resolve); } } function asyncTestEV( cert, expectedPRErrorCode, expectedEV, expectedOCSPRequestPaths, ocspResponseTypes = undefined ) { let now = Date.now() / 1000; return new Promise((resolve, reject) => { let ocspResponder = expectedOCSPRequestPaths.length ? startOCSPResponder( SERVER_PORT, "www.example.com", "test_ev_certs", expectedOCSPRequestPaths, expectedOCSPRequestPaths.slice(), null, ocspResponseTypes ) : failingOCSPResponder(); let result = new EVCertVerificationResult( cert.subjectName, expectedPRErrorCode, expectedEV, resolve, ocspResponder ); certdb.asyncVerifyCertAtTime( cert, certificateUsageSSLServer, 0, "ev-test.example.com", now, result ); }); } function ensureVerifiesAsEV(testcase) { let cert = constructCertFromFile(`test_ev_certs/${testcase}-ee.pem`); addCertFromFile(certdb, `test_ev_certs/${testcase}-int.pem`, ",,"); let expectedOCSPRequestPaths = [`${testcase}-ee`]; return asyncTestEV( cert, PRErrorCodeSuccess, gEVExpected, expectedOCSPRequestPaths ); } function ensureVerifiesAsEVWithNoOCSPRequests(testcase) { let cert = constructCertFromFile(`test_ev_certs/${testcase}-ee.pem`); addCertFromFile(certdb, `test_ev_certs/${testcase}-int.pem`, ",,"); return asyncTestEV(cert, PRErrorCodeSuccess, gEVExpected, []); } function ensureVerifiesAsDV(testcase, expectedOCSPRequestPaths = undefined) { let cert = constructCertFromFile(`test_ev_certs/${testcase}-ee.pem`); addCertFromFile(certdb, `test_ev_certs/${testcase}-int.pem`, ",,"); return asyncTestEV( cert, PRErrorCodeSuccess, false, expectedOCSPRequestPaths ? expectedOCSPRequestPaths : [`${testcase}-ee`] ); } function ensureVerificationFails(testcase, expectedPRErrorCode) { let cert = constructCertFromFile(`test_ev_certs/${testcase}-ee.pem`); addCertFromFile(certdb, `test_ev_certs/${testcase}-int.pem`, ",,"); return asyncTestEV(cert, expectedPRErrorCode, false, []); } function verifyWithFlags_LOCAL_ONLY_and_MUST_BE_EV(testcase, expectSuccess) { let cert = constructCertFromFile(`test_ev_certs/${testcase}-ee.pem`); addCertFromFile(certdb, `test_ev_certs/${testcase}-int.pem`, ",,"); let now = Date.now() / 1000; let expectedErrorCode = SEC_ERROR_POLICY_VALIDATION_FAILED; if (expectSuccess && gEVExpected) { expectedErrorCode = PRErrorCodeSuccess; } return new Promise((resolve, reject) => { let ocspResponder = failingOCSPResponder(); let result = new EVCertVerificationResult( cert.subjectName, expectedErrorCode, expectSuccess && gEVExpected, resolve, ocspResponder ); let flags = Ci.nsIX509CertDB.FLAG_LOCAL_ONLY | Ci.nsIX509CertDB.FLAG_MUST_BE_EV; certdb.asyncVerifyCertAtTime( cert, certificateUsageSSLServer, flags, "ev-test.example.com", now, result ); }); } function ensureNoOCSPMeansNoEV(testcase) { return verifyWithFlags_LOCAL_ONLY_and_MUST_BE_EV(testcase, false); } function ensureVerifiesAsEVWithFLAG_LOCAL_ONLY(testcase) { return verifyWithFlags_LOCAL_ONLY_and_MUST_BE_EV(testcase, true); } function verifyWithOCSPResponseType(testcase, response, expectEV) { let cert = constructCertFromFile(`test_ev_certs/${testcase}-ee.pem`); addCertFromFile(certdb, `test_ev_certs/${testcase}-int.pem`, ",,"); let expectedOCSPRequestPaths = [`${testcase}-ee`]; let ocspResponseTypes = [response]; return asyncTestEV( cert, PRErrorCodeSuccess, gEVExpected && expectEV, expectedOCSPRequestPaths, ocspResponseTypes ); } function ensureVerifiesAsDVWithOldEndEntityOCSPResponse(testcase) { return verifyWithOCSPResponseType(testcase, "longvalidityalmostold", false); } function ensureVerifiesAsDVWithVeryOldEndEntityOCSPResponse(testcase) { return verifyWithOCSPResponseType(testcase, "ancientstillvalid", false); } // These should all verify as EV. add_task(async function plainExpectSuccessEVTests() { await ensureVerifiesAsEV("anyPolicy-int-path"); await ensureVerifiesAsEV("test-oid-path"); await ensureVerifiesAsEV("cabforum-oid-path"); await ensureVerifiesAsEV("cabforum-and-test-oid-ee-path"); await ensureVerifiesAsEV("test-and-cabforum-oid-ee-path"); await ensureVerifiesAsEV("reverse-order-oids-path"); // In this case, the end-entity has both the CA/B Forum OID and the test OID // (in that order). The intermediate has the CA/B Forum OID. Since the // implementation tries all EV policies it encounters, this successfully // verifies as EV. await ensureVerifiesAsEV("cabforum-and-test-oid-ee-cabforum-oid-int-path"); // In this case, the end-entity has both the test OID and the CA/B Forum OID // (in that order). The intermediate has only the CA/B Forum OID. Since the // implementation tries all EV policies it encounters, this successfully // verifies as EV. await ensureVerifiesAsEV("test-and-cabforum-oid-ee-cabforum-oid-int-path"); }); // These fail for various reasons to verify as EV, but fallback to DV should // succeed. add_task(async function expectDVFallbackTests() { await ensureVerifiesAsDV("anyPolicy-ee-path"); await ensureVerifiesAsDV("non-ev-root-path"); await ensureVerifiesAsDV("no-ocsp-ee-path", []); await ensureVerifiesAsEV("no-ocsp-int-path"); // In this case, the end-entity has the test OID and the intermediate has the // CA/B Forum OID. Since the CA/B Forum OID is not treated the same as the // anyPolicy OID, this will not verify as EV. await ensureVerifiesAsDV("test-oid-ee-cabforum-oid-int-path"); }); // Test that removing the trust bits from an EV root causes verifications // relying on that root to fail (and then test that adding back the trust bits // causes the verifications to succeed again). add_task(async function evRootTrustTests() { clearOCSPCache(); info("untrusting evroot"); certdb.setCertTrust( evroot, Ci.nsIX509Cert.CA_CERT, Ci.nsIX509CertDB.UNTRUSTED ); await ensureVerificationFails("test-oid-path", SEC_ERROR_UNKNOWN_ISSUER); info("re-trusting evroot"); certdb.setCertTrust( evroot, Ci.nsIX509Cert.CA_CERT, Ci.nsIX509CertDB.TRUSTED_SSL ); await ensureVerifiesAsEV("test-oid-path"); }); // Test that if FLAG_LOCAL_ONLY and FLAG_MUST_BE_EV are specified, that no OCSP // requests are made (this also means that nothing will verify as EV). add_task(async function localOnlyMustBeEVTests() { clearOCSPCache(); await ensureNoOCSPMeansNoEV("anyPolicy-ee-path"); await ensureNoOCSPMeansNoEV("anyPolicy-int-path"); await ensureNoOCSPMeansNoEV("non-ev-root-path"); await ensureNoOCSPMeansNoEV("no-ocsp-ee-path"); await ensureNoOCSPMeansNoEV("no-ocsp-int-path"); await ensureNoOCSPMeansNoEV("test-oid-path"); }); // Prime the OCSP cache and then ensure that we can validate certificates as EV // without hitting the network. There's two cases here: one where we simply // validate like normal and then check that the network was never accessed and // another where we use flags to mandate that the network not be used. add_task(async function ocspCachingTests() { clearOCSPCache(); await ensureVerifiesAsEV("anyPolicy-int-path"); await ensureVerifiesAsEV("test-oid-path"); await ensureVerifiesAsEVWithNoOCSPRequests("anyPolicy-int-path"); await ensureVerifiesAsEVWithNoOCSPRequests("test-oid-path"); await ensureVerifiesAsEVWithFLAG_LOCAL_ONLY("anyPolicy-int-path"); await ensureVerifiesAsEVWithFLAG_LOCAL_ONLY("test-oid-path"); }); // Old-but-still-valid OCSP responses are accepted for intermediates but not // end-entity certificates (because of OCSP soft-fail this results in DV // fallback). add_task(async function oldOCSPResponseTests() { clearOCSPCache(); clearOCSPCache(); await ensureVerifiesAsDVWithOldEndEntityOCSPResponse("anyPolicy-int-path"); await ensureVerifiesAsDVWithOldEndEntityOCSPResponse("test-oid-path"); clearOCSPCache(); await ensureVerifiesAsDVWithVeryOldEndEntityOCSPResponse( "anyPolicy-int-path" ); await ensureVerifiesAsDVWithVeryOldEndEntityOCSPResponse("test-oid-path"); });