/* -*- 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"; // These tests ensure content signatures are working correctly. // First, we need to set up some data const PREF_SIGNATURE_ROOT = "security.content.signature.root_hash"; const TEST_DATA_DIR = "test_content_signing/"; const ONECRL_NAME = "oneCRL-signer.mozilla.org"; const ABOUT_NEWTAB_NAME = "remotenewtab.content-signature.mozilla.org"; function getSignatureVerifier() { return Cc["@mozilla.org/security/contentsignatureverifier;1"] .createInstance(Ci.nsIContentSignatureVerifier); } function setRoot(filename) { let cert = constructCertFromFile(filename); Services.prefs.setCharPref(PREF_SIGNATURE_ROOT, cert.sha256Fingerprint); } function loadChain(prefix, names) { let chain = []; for (let name of names) { let filename = `${prefix}_${name}.pem`; chain.push(readFile(do_get_file(filename))); } return chain; } function run_test() { // set up some data const DATA = readFile(do_get_file(TEST_DATA_DIR + 'test.txt')); const GOOD_SIGNATURE = "p384ecdsa=" + readFile(do_get_file(TEST_DATA_DIR + 'test.txt.signature')) .trim(); const BAD_SIGNATURE = "p384ecdsa=WqRXFQ7tnlVufpg7A-ZavXvWd2Zln0o4woHBy26C2r" + "UWM4GJke4pE8ecHiXoi-7KnZXty6Pe3s4o3yAIyKDP9jUC52Ek1G" + "q25j_X703nP5rk5gM1qz5Fe-qCWakPPl6L"; let remoteNewTabChain = loadChain(TEST_DATA_DIR + "content_signing", ["remote_newtab_ee", "int", "root"]); let oneCRLChain = loadChain(TEST_DATA_DIR + "content_signing", ["onecrl_ee", "int", "root"]); let oneCRLBadKeyChain = loadChain(TEST_DATA_DIR + "content_signing", ["onecrl_wrong_key_ee", "int", "root"]); let oneCRLRSAKeyChain = loadChain(TEST_DATA_DIR + "content_signing", ["onecrl_RSA_ee", "int", "root"]); let noSANChain = loadChain(TEST_DATA_DIR + "content_signing", ["onecrl_no_SAN_ee", "int", "root"]); // Check signature verification works without error before the root is set let chain1 = oneCRLChain.join("\n"); let verifier = getSignatureVerifier(); ok(!verifier.verifyContentSignature(DATA, GOOD_SIGNATURE, chain1, ONECRL_NAME), "Before the root is set, signatures should fail to verify but not throw."); setRoot(TEST_DATA_DIR + "content_signing_root.pem"); // Check good signatures from good certificates with the correct SAN verifier = getSignatureVerifier(); ok(verifier.verifyContentSignature(DATA, GOOD_SIGNATURE, chain1, ONECRL_NAME), "A OneCRL signature should verify with the OneCRL chain"); let chain2 = remoteNewTabChain.join("\n"); verifier = getSignatureVerifier(); ok(verifier.verifyContentSignature(DATA, GOOD_SIGNATURE, chain2, ABOUT_NEWTAB_NAME), "A newtab signature should verify with the newtab chain"); // Check a bad signature when a good chain is provided chain1 = oneCRLChain.join("\n"); verifier = getSignatureVerifier(); ok(!verifier.verifyContentSignature(DATA, BAD_SIGNATURE, chain1, ONECRL_NAME), "A bad signature should not verify"); // Check a good signature from cert with good SAN but a different key than the // one used to create the signature let badKeyChain = oneCRLBadKeyChain.join("\n"); verifier = getSignatureVerifier(); ok(!verifier.verifyContentSignature(DATA, GOOD_SIGNATURE, badKeyChain, ONECRL_NAME), "A signature should not verify if the signing key is wrong"); // Check a good signature from cert with good SAN but a different key than the // one used to create the signature (this time, an RSA key) let rsaKeyChain = oneCRLBadKeyChain.join("\n"); verifier = getSignatureVerifier(); ok(!verifier.verifyContentSignature(DATA, GOOD_SIGNATURE, rsaKeyChain, ONECRL_NAME), "A signature should not verify if the signing key is wrong (RSA)"); // Check a good signature from cert with good SAN but with chain missing root let missingRoot = [oneCRLChain[0], oneCRLChain[1]].join("\n"); verifier = getSignatureVerifier(); ok(!verifier.verifyContentSignature(DATA, GOOD_SIGNATURE, missingRoot, ONECRL_NAME), "A signature should not verify if the chain is incomplete (missing root)"); // Check a good signature from cert with good SAN but with no path to root let missingInt = [oneCRLChain[0], oneCRLChain[2]].join("\n"); verifier = getSignatureVerifier(); ok(!verifier.verifyContentSignature(DATA, GOOD_SIGNATURE, missingInt, ONECRL_NAME), "A signature should not verify if the chain is incomplete (missing int)"); // Check good signatures from good certificates with the wrong SANs chain1 = oneCRLChain.join("\n"); verifier = getSignatureVerifier(); ok(!verifier.verifyContentSignature(DATA, GOOD_SIGNATURE, chain1, ABOUT_NEWTAB_NAME), "A OneCRL signature should not verify if we require the newtab SAN"); chain2 = remoteNewTabChain.join("\n"); verifier = getSignatureVerifier(); ok(!verifier.verifyContentSignature(DATA, GOOD_SIGNATURE, chain2, ONECRL_NAME), "A newtab signature should not verify if we require the OneCRL SAN"); // Check good signatures with good chains with some other invalid names verifier = getSignatureVerifier(); ok(!verifier.verifyContentSignature(DATA, GOOD_SIGNATURE, chain1, ""), "A signature should not verify if the SANs do not match an empty name"); let relatedName = "subdomain." + ONECRL_NAME; verifier = getSignatureVerifier(); ok(!verifier.verifyContentSignature(DATA, GOOD_SIGNATURE, chain1, relatedName), "A signature should not verify if the SANs do not match a related name"); let randomName = "\xb1\x9bU\x1c\xae\xaa3\x19H\xdb\xed\xa1\xa1\xe0\x81\xfb" + "\xb2\x8f\x1cP\xe5\x8b\x9c\xc2s\xd3\x1f\x8e\xbbN"; verifier = getSignatureVerifier(); ok(!verifier.verifyContentSignature(DATA, GOOD_SIGNATURE, chain1, randomName), "A signature should not verify if the SANs do not match a random name"); // check good signatures with chains that have strange or missing SANs chain1 = noSANChain.join("\n"); verifier = getSignatureVerifier(); ok(!verifier.verifyContentSignature(DATA, GOOD_SIGNATURE, chain1, ONECRL_NAME), "A signature should not verify if the SANs do not match a supplied name"); // Check malformed signature data chain1 = oneCRLChain.join("\n"); let bad_signatures = [ // wrong length "p384ecdsa=WqRXFQ7tnlVufpg7A-ZavXvWd2Zln0o4woHBy26C2rUWM4GJke4pE8ecHiXoi-" + "7KnZXty6Pe3s4o3yAIyKDP9jUC52Ek1Gq25j_X703nP5rk5gM1qz5Fe-qCWakPPl6L==", // incorrectly encoded "p384ecdsa='WqRXFQ7tnlVufpg7A-ZavXvWd2Zln0o4woHBy26C2rUWM4GJke4pE8ecHiXoi" + "-7KnZXty6Pe3s4o3yAIyKDP9jUC52Ek1Gq25j_X703nP5rk5gM1qz5Fe-qCWakPPl6L=", // missing directive "other_directive=WqRXFQ7tnlVufpg7A-ZavXvWd2Zln0o4woHBy26C2rUWM4GJke4pE8ec" + "HiXoi-7KnZXty6Pe3s4o3yAIyKDP9jUC52Ek1Gq25j_X703nP5rk5gM1qz5Fe-qCWakPPl6L", // actually sha256 with RSA "p384ecdsa=XS_jiQsS5qlzQyUKaA1nAnQn_OvxhvDfKybflB8Xe5gNH1wNmPGK1qN-jpeTfK" + "6ob3l3gCTXrsMnOXMeht0kPP3wLfVgXbuuO135pQnsv0c-ltRMWLe56Cm4S4Z6E7WWKLPWaj" + "jhAcG5dZxjffP9g7tuPP4lTUJztyc4d1z_zQZakEG7R0vN7P5_CaX9MiMzP4R7nC3H4Ba6yi" + "yjlGvsZwJ_C5zDQzWWs95czUbMzbDScEZ_7AWnidw91jZn-fUK3xLb6m-Zb_b4GAqZ-vnXIf" + "LpLB1Nzal42BQZn7i4rhAldYdcVvy7rOMlsTUb5Zz6vpVW9LCT9lMJ7Sq1xbU-0g==" ]; for (let badSig of bad_signatures) { throws(() => { verifier = getSignatureVerifier(); verifier.verifyContentSignature(DATA, badSig, chain1, ONECRL_NAME); }, /NS_ERROR/, `Bad or malformed signature "${badSig}" should be rejected`); } // Check malformed and missing certificate chain data let chainSuffix = [oneCRLChain[1], oneCRLChain[2]].join("\n"); let badChains = [ // no data "", // completely wrong data "blah blah \n blah", ]; let badSections = [ // data that looks like PEM but isn't "-----BEGIN CERTIFICATE-----\nBSsPRlYp5+gaFMRIczwUzaioRfteCjr94xyz0g==\n", "-----BEGIN CERTIFICATE-----\nBSsPRlYp5+gaFMRIczwUzaioRfteCjr94xyz0g==\n-----END CERTIFICATE-----", // data that will start to parse but won't base64decode "-----BEGIN CERTIFICATE-----\nnon-base64-stuff\n-----END CERTIFICATE-----", // data with garbage outside of PEM sections "this data is garbage\n-----BEGIN CERTIFICATE-----\nnon-base64-stuff\n" + "-----END CERTIFICATE-----", ]; for (let badSection of badSections) { // ensure we test each bad section on its own... badChains.push(badSection); // ... and as part of a chain with good certificates badChains.push(badSection + '\n' + chainSuffix); } for (let badChain of badChains) { throws(() => { verifier = getSignatureVerifier(); verifier.verifyContentSignature(DATA, GOOD_SIGNATURE, badChain, ONECRL_NAME); }, /NS_ERROR/, `Bad chain data starting "${badChain.substring(0, 80)}" ` + "should be rejected"); } // Check the streaming interface works OK when a good chain / data // combination is provided chain1 = oneCRLChain.join("\n"); verifier = getSignatureVerifier(); verifier.createContext("", GOOD_SIGNATURE, chain1, ONECRL_NAME); verifier.update(DATA); ok(verifier.end(), "A good signature should verify using the stream interface"); // Check that the streaming interface works with multiple update calls verifier = getSignatureVerifier(); verifier.createContext("", GOOD_SIGNATURE, chain1, ONECRL_NAME); for (let c of DATA) { verifier.update(c); } ok(verifier.end(), "A good signature should verify using multiple updates"); // Check that the streaming interface works with multiple update calls and // some data provided in CreateContext verifier = getSignatureVerifier(); let start = DATA.substring(0, 5); let rest = DATA.substring(start.length); verifier.createContext(start, GOOD_SIGNATURE, chain1, ONECRL_NAME); for (let c of rest) { verifier.update(c); } ok(verifier.end(), "A good signature should verify using data in CreateContext and updates"); // Check that a bad chain / data combination fails verifier = getSignatureVerifier(); verifier.createContext("", GOOD_SIGNATURE, chain1, ONECRL_NAME); ok(!verifier.end(), "A bad signature should fail using the stream interface"); // Check that re-creating a context throws ... verifier = getSignatureVerifier(); verifier.createContext("", GOOD_SIGNATURE, chain1, ONECRL_NAME); // ... firstly, creating a context explicitly throws(() => { verifier.createContext(DATA, GOOD_SIGNATURE, chain1, ONECRL_NAME); }, /NS_ERROR/, "Ensure a verifier cannot be re-used with createContext"); // ... secondly, by calling verifyContentSignature throws(() => { verifier.verifyContentSignature(DATA, GOOD_SIGNATURE, chain1, ONECRL_NAME); }, /NS_ERROR/, "Ensure a verifier cannot be re-used with verifyContentSignature"); run_next_test(); }