function run_test() { setup({explicit_done: true}); var subtle = self.crypto.subtle; // Change to test prefixed implementations // When are all these tests really done? When all the promises they use have resolved. var all_promises = []; // Source file [algorithm_name]_vectors.js provides the getTestVectors method // for the algorithm that drives these tests. var testVectors = getTestVectors(); // Test verification first, because signing tests rely on that working testVectors.forEach(function(vector) { var promise = importVectorKeys(vector, ["verify"], ["sign"]) .then(function(vectors) { promise_test(function(test) { var operation = subtle.verify(vector.algorithm, vector.publicKey, vector.signature, vector.plaintext) .then(function(is_verified) { assert_true(is_verified, "Signature verified"); }, function(err) { assert_unreached("Verification should not throw error " + vector.name + ": " + err.message + "'"); }); return operation; }, vector.name + " verification"); }, function(err) { // We need a failed test if the importVectorKey operation fails, so // we know we never tested verification. promise_test(function(test) { assert_unreached("importVectorKeys failed for " + vector.name + ". Message: ''" + err.message + "''"); }, "importVectorKeys step: " + vector.name + " verification"); }); all_promises.push(promise); }); // Test verification with an altered buffer after call testVectors.forEach(function(vector) { var promise = importVectorKeys(vector, ["verify"], ["sign"]) .then(function(vectors) { promise_test(function(test) { var signature = copyBuffer(vector.signature); var operation = subtle.verify(vector.algorithm, vector.publicKey, signature, vector.plaintext) .then(function(is_verified) { assert_true(is_verified, "Signature verified"); }, function(err) { assert_unreached("Verification should not throw error " + vector.name + ": " + err.message + "'"); }); signature[0] = 255 - signature[0]; return operation; }, vector.name + " verification with altered signature after call"); }, function(err) { promise_test(function(test) { assert_unreached("importVectorKeys failed for " + vector.name + ". Message: ''" + err.message + "''"); }, "importVectorKeys step: " + vector.name + " verification with altered signature after call"); }); all_promises.push(promise); }); // Check for successful verification even if plaintext is altered after call. testVectors.forEach(function(vector) { var promise = importVectorKeys(vector, ["verify"], ["sign"]) .then(function(vectors) { promise_test(function(test) { var plaintext = copyBuffer(vector.plaintext); var operation = subtle.verify(vector.algorithm, vector.publicKey, vector.signature, plaintext) .then(function(is_verified) { assert_true(is_verified, "Signature verified"); }, function(err) { assert_unreached("Verification should not throw error " + vector.name + ": " + err.message + "'"); }); plaintext[0] = 255 - plaintext[0]; return operation; }, vector.name + " with altered plaintext after call"); }, function(err) { promise_test(function(test) { assert_unreached("importVectorKeys failed for " + vector.name + ". Message: ''" + err.message + "''"); }, "importVectorKeys step: " + vector.name + " with altered plaintext after call"); }); all_promises.push(promise); }); // Check for failures due to using privateKey to verify. testVectors.forEach(function(vector) { var promise = importVectorKeys(vector, ["verify"], ["sign"]) .then(function(vectors) { promise_test(function(test) { return subtle.verify(vector.algorithm, vector.privateKey, vector.signature, vector.plaintext) .then(function(plaintext) { assert_unreached("Should have thrown error for using privateKey to verify in " + vector.name + ": " + err.message + "'"); }, function(err) { assert_equals(err.name, "InvalidAccessError", "Should throw InvalidAccessError instead of '" + err.message + "'"); }); }, vector.name + " using privateKey to verify"); }, function(err) { promise_test(function(test) { assert_unreached("importVectorKeys failed for " + vector.name + ". Message: ''" + err.message + "''"); }, "importVectorKeys step: " + vector.name + " using privateKey to verify"); }); all_promises.push(promise); }); // Check for failures due to using publicKey to sign. testVectors.forEach(function(vector) { var promise = importVectorKeys(vector, ["verify"], ["sign"]) .then(function(vectors) { promise_test(function(test) { return subtle.sign(vector.algorithm, vector.publicKey, vector.plaintext) .then(function(signature) { assert_unreached("Should have thrown error for using publicKey to sign in " + vector.name + ": " + err.message + "'"); }, function(err) { assert_equals(err.name, "InvalidAccessError", "Should throw InvalidAccessError instead of '" + err.message + "'"); }); }, vector.name + " using publicKey to sign"); }, function(err) { promise_test(function(test) { assert_unreached("importVectorKeys failed for " + vector.name + ". Message: ''" + err.message + "''"); }, "importVectorKeys step: " + vector.name + " using publicKey to sign"); }); all_promises.push(promise); }); // Check for failures due to no "verify" usage. testVectors.forEach(function(originalVector) { var vector = Object.assign({}, originalVector); var promise = importVectorKeys(vector, [], ["sign"]) .then(function(vectors) { promise_test(function(test) { return subtle.verify(vector.algorithm, vector.publicKey, vector.signature, vector.plaintext) .then(function(plaintext) { assert_unreached("Should have thrown error for no verify usage in " + vector.name + ": " + err.message + "'"); }, function(err) { assert_equals(err.name, "InvalidAccessError", "Should throw InvalidAccessError instead of '" + err.message + "'"); }); }, vector.name + " no verify usage"); }, function(err) { promise_test(function(test) { assert_unreached("importVectorKeys failed for " + vector.name + ". Message: ''" + err.message + "''"); }, "importVectorKeys step: " + vector.name + " no verify usage"); }); all_promises.push(promise); }); // Check for successful signing and verification. testVectors.forEach(function(vector) { // RSA signing is deterministic with PKCS#1 v1.5, or PSS with zero-length salts. const isDeterministic = !("saltLength" in vector.algorithm) || vector.algorithm.saltLength == 0; var promise = importVectorKeys(vector, ["verify"], ["sign"]) .then(function(vectors) { promise_test(function(test) { return subtle.sign(vector.algorithm, vector.privateKey, vector.plaintext) .then(function(signature) { if (isDeterministic) { // If deterministic, we can check the output matches. Otherwise, we can only check it verifies. assert_true(equalBuffers(signature, vector.signature), "Signing did not give the expected output"); } // Can we verify the new signature? return subtle.verify(vector.algorithm, vector.publicKey, signature, vector.plaintext) .then(function(is_verified) { assert_true(is_verified, "Round trip verifies"); return signature; }, function(err) { assert_unreached("verify error for test " + vector.name + ": " + err.message + "'"); }); }) .then(function(priorSignature) { // Will a second signing give us different signature? It should for PSS with non-empty salt return subtle.sign(vector.algorithm, vector.privateKey, vector.plaintext) .then(function(signature) { if (isDeterministic) { assert_true(equalBuffers(priorSignature, signature), "Two signings with empty salt give same signature") } else { assert_false(equalBuffers(priorSignature, signature), "Two signings with a salt give different signatures") } }, function(err) { assert_unreached("second time verify error for test " + vector.name + ": '" + err.message + "'"); }); }, function(err) { assert_unreached("sign error for test " + vector.name + ": '" + err.message + "'"); }); }, vector.name + " round trip"); }, function(err) { // We need a failed test if the importVectorKey operation fails, so // we know we never tested signing or verifying promise_test(function(test) { assert_unreached("importVectorKeys failed for " + vector.name + ". Message: ''" + err.message + "''"); }, "importVectorKeys step: " + vector.name + " round trip"); }); all_promises.push(promise); }); // Test signing with the wrong algorithm testVectors.forEach(function(vector) { // Want to get the key for the wrong algorithm var alteredVector = Object.assign({}, vector); alteredVector.algorithm = Object.assign({}, vector.algorithm); if (vector.algorithm.name === "RSA-PSS") { alteredVector.algorithm.name = "RSASSA-PKCS1-v1_5"; } else { alteredVector.algorithm.name = "RSA-PSS"; } var promise = importVectorKeys(alteredVector, ["verify"], ["sign"]) .then(function(vectors) { promise_test(function(test) { var operation = subtle.sign(vector.algorithm, alteredVector.privateKey, vector.plaintext) .then(function(signature) { assert_unreached("Signing should not have succeeded for " + vector.name); }, function(err) { assert_equals(err.name, "InvalidAccessError", "Should have thrown InvalidAccessError instead of '" + err.message + "'"); }); return operation; }, vector.name + " signing with wrong algorithm name"); }, function(err) { // We need a failed test if the importVectorKey operation fails, so // we know we never tested verification. promise_test(function(test) { assert_unreached("importVectorKeys failed for " + vector.name + ". Message: ''" + err.message + "''"); }, "importVectorKeys step: " + vector.name + " signing with wrong algorithm name"); }); all_promises.push(promise); }); // Test verification with the wrong algorithm testVectors.forEach(function(vector) { // Want to get the key for the wrong algorithm var alteredVector = Object.assign({}, vector); alteredVector.algorithm = Object.assign({}, vector.algorithm); if (vector.algorithm.name === "RSA-PSS") { alteredVector.algorithm.name = "RSASSA-PKCS1-v1_5"; } else { alteredVector.algorithm.name = "RSA-PSS"; } var promise = importVectorKeys(alteredVector, ["verify"], ["sign"]) .then(function(vectors) { // Some tests are sign only if (!("signature" in vector)) { return; } promise_test(function(test) { var operation = subtle.verify(vector.algorithm, alteredVector.publicKey, vector.signature, vector.plaintext) .then(function(is_verified) { assert_unreached("Verification should not have succeeded for " + vector.name); }, function(err) { assert_equals(err.name, "InvalidAccessError", "Should have thrown InvalidAccessError instead of '" + err.message + "'"); }); return operation; }, vector.name + " verification with wrong algorithm name"); }, function(err) { // We need a failed test if the importVectorKey operation fails, so // we know we never tested verification. promise_test(function(test) { assert_unreached("importVectorKeys failed for " + vector.name + ". Message: ''" + err.message + "''"); }, "importVectorKeys step: " + vector.name + " verification with wrong algorithm name"); }); all_promises.push(promise); }); // Verification should fail with wrong signature testVectors.forEach(function(vector) { var promise = importVectorKeys(vector, ["verify"], ["sign"]) .then(function(vectors) { promise_test(function(test) { var signature = copyBuffer(vector.signature); signature[0] = 255 - signature[0]; var operation = subtle.verify(vector.algorithm, vector.publicKey, signature, vector.plaintext) .then(function(is_verified) { assert_false(is_verified, "Signature NOT verified"); }, function(err) { assert_unreached("Verification should not throw error " + vector.name + ": " + err.message + "'"); }); return operation; }, vector.name + " verification failure with altered signature"); }, function(err) { // We need a failed test if the importVectorKey operation fails, so // we know we never tested verification. promise_test(function(test) { assert_unreached("importVectorKeys failed for " + vector.name + ". Message: ''" + err.message + "''"); }, "importVectorKeys step: " + vector.name + " verification failure with altered signature"); }); all_promises.push(promise); }); // Verification should fail with wrong plaintext testVectors.forEach(function(vector) { var promise = importVectorKeys(vector, ["verify"], ["sign"]) .then(function(vectors) { promise_test(function(test) { var plaintext = copyBuffer(vector.plaintext); plaintext[0] = 255 - plaintext[0]; var operation = subtle.verify(vector.algorithm, vector.publicKey, vector.signature, plaintext) .then(function(is_verified) { assert_false(is_verified, "Signature NOT verified"); }, function(err) { assert_unreached("Verification should not throw error " + vector.name + ": " + err.message + "'"); }); return operation; }, vector.name + " verification failure with altered plaintext"); }, function(err) { // We need a failed test if the importVectorKey operation fails, so // we know we never tested verification. promise_test(function(test) { assert_unreached("importVectorKeys failed for " + vector.name + ". Message: ''" + err.message + "''"); }, "importVectorKeys step: " + vector.name + " verification failure with altered plaintext"); }); all_promises.push(promise); }); promise_test(function() { return Promise.all(all_promises) .then(function() {done();}) .catch(function() {done();}) }, "setup"); // A test vector has all needed fields for signing and verifying, EXCEPT that the // key field may be null. This function replaces that null with the Correct // CryptoKey object. // // Returns a Promise that yields an updated vector on success. function importVectorKeys(vector, publicKeyUsages, privateKeyUsages) { var publicPromise, privatePromise; if (vector.publicKey !== null) { publicPromise = new Promise(function(resolve, reject) { resolve(vector); }); } else { publicPromise = subtle.importKey(vector.publicKeyFormat, vector.publicKeyBuffer, {name: vector.algorithm.name, hash: vector.hash}, false, publicKeyUsages) .then(function(key) { vector.publicKey = key; return vector; }); // Returns a copy of the sourceBuffer it is sent. } if (vector.privateKey !== null) { privatePromise = new Promise(function(resolve, reject) { resolve(vector); }); } else { privatePromise = subtle.importKey(vector.privateKeyFormat, vector.privateKeyBuffer, {name: vector.algorithm.name, hash: vector.hash}, false, privateKeyUsages) .then(function(key) { vector.privateKey = key; return vector; }); } return Promise.all([publicPromise, privatePromise]); } // Returns a copy of the sourceBuffer it is sent. function copyBuffer(sourceBuffer) { var source = new Uint8Array(sourceBuffer); var copy = new Uint8Array(sourceBuffer.byteLength) for (var i=0; i