/* * * Copyright 2015, Google Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following disclaimer * in the documentation and/or other materials provided with the * distribution. * * Neither the name of Google Inc. nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ 'use strict'; var fs = require('fs'); var path = require('path'); var grpc = require('..'); var testProto = grpc.load({ root: __dirname + '/../../..', file: 'src/proto/grpc/testing/test.proto'}).grpc.testing; var GoogleAuth = require('google-auth-library'); var assert = require('assert'); var SERVICE_ACCOUNT_EMAIL; try { SERVICE_ACCOUNT_EMAIL = require( process.env.GOOGLE_APPLICATION_CREDENTIALS).client_email; } catch (e) { // This will cause the tests to fail if they need that string SERVICE_ACCOUNT_EMAIL = null; } var ECHO_INITIAL_KEY = 'x-grpc-test-echo-initial'; var ECHO_TRAILING_KEY = 'x-grpc-test-echo-trailing-bin'; /** * Create a buffer filled with size zeroes * @param {number} size The length of the buffer * @return {Buffer} The new buffer */ function zeroBuffer(size) { var zeros = new Buffer(size); zeros.fill(0); return zeros; } /** * This is used for testing functions with multiple asynchronous calls that * can happen in different orders. This should be passed the number of async * function invocations that can occur last, and each of those should call this * function's return value * @param {function()} done The function that should be called when a test is * complete. * @param {number} count The number of calls to the resulting function if the * test passes. * @return {function()} The function that should be called at the end of each * sequence of asynchronous functions. */ function multiDone(done, count) { return function() { count -= 1; if (count <= 0) { done(); } }; } /** * Run the empty_unary test * @param {Client} client The client to test against * @param {function} done Callback to call when the test is completed. Included * primarily for use with mocha */ function emptyUnary(client, done) { client.emptyCall({}, function(err, resp) { assert.ifError(err); if (done) { done(); } }); } /** * Run the large_unary test * @param {Client} client The client to test against * @param {function} done Callback to call when the test is completed. Included * primarily for use with mocha */ function largeUnary(client, done) { var arg = { response_type: 'COMPRESSABLE', response_size: 314159, payload: { body: zeroBuffer(271828) } }; client.unaryCall(arg, function(err, resp) { assert.ifError(err); assert.strictEqual(resp.payload.type, 'COMPRESSABLE'); assert.strictEqual(resp.payload.body.length, 314159); if (done) { done(); } }); } /** * Run the client_streaming test * @param {Client} client The client to test against * @param {function} done Callback to call when the test is completed. Included * primarily for use with mocha */ function clientStreaming(client, done) { var call = client.streamingInputCall(function(err, resp) { assert.ifError(err); assert.strictEqual(resp.aggregated_payload_size, 74922); if (done) { done(); } }); var payload_sizes = [27182, 8, 1828, 45904]; for (var i = 0; i < payload_sizes.length; i++) { call.write({payload: {body: zeroBuffer(payload_sizes[i])}}); } call.end(); } /** * Run the server_streaming test * @param {Client} client The client to test against * @param {function} done Callback to call when the test is completed. Included * primarily for use with mocha */ function serverStreaming(client, done) { var arg = { response_type: 'COMPRESSABLE', response_parameters: [ {size: 31415}, {size: 9}, {size: 2653}, {size: 58979} ] }; var call = client.streamingOutputCall(arg); var resp_index = 0; call.on('data', function(value) { assert(resp_index < 4); assert.strictEqual(value.payload.type, 'COMPRESSABLE'); assert.strictEqual(value.payload.body.length, arg.response_parameters[resp_index].size); resp_index += 1; }); call.on('end', function() { assert.strictEqual(resp_index, 4); if (done) { done(); } }); call.on('status', function(status) { assert.strictEqual(status.code, grpc.status.OK); }); } /** * Run the ping_pong test * @param {Client} client The client to test against * @param {function} done Callback to call when the test is completed. Included * primarily for use with mocha */ function pingPong(client, done) { var payload_sizes = [27182, 8, 1828, 45904]; var response_sizes = [31415, 9, 2653, 58979]; var call = client.fullDuplexCall(); call.on('status', function(status) { assert.strictEqual(status.code, grpc.status.OK); if (done) { done(); } }); var index = 0; call.write({ response_type: 'COMPRESSABLE', response_parameters: [ {size: response_sizes[index]} ], payload: {body: zeroBuffer(payload_sizes[index])} }); call.on('data', function(response) { assert.strictEqual(response.payload.type, 'COMPRESSABLE'); assert.equal(response.payload.body.length, response_sizes[index]); index += 1; if (index === 4) { call.end(); } else { call.write({ response_type: 'COMPRESSABLE', response_parameters: [ {size: response_sizes[index]} ], payload: {body: zeroBuffer(payload_sizes[index])} }); } }); } /** * Run the empty_stream test. * @param {Client} client The client to test against * @param {function} done Callback to call when the test is completed. Included * primarily for use with mocha */ function emptyStream(client, done) { var call = client.fullDuplexCall(); call.on('status', function(status) { assert.strictEqual(status.code, grpc.status.OK); if (done) { done(); } }); call.on('data', function(value) { assert.fail(value, null, 'No data should have been received', '!=='); }); call.end(); } /** * Run the cancel_after_begin test. * @param {Client} client The client to test against * @param {function} done Callback to call when the test is completed. Included * primarily for use with mocha */ function cancelAfterBegin(client, done) { var call = client.streamingInputCall(function(err, resp) { assert.strictEqual(err.code, grpc.status.CANCELLED); done(); }); call.cancel(); } /** * Run the cancel_after_first_response test. * @param {Client} client The client to test against * @param {function} done Callback to call when the test is completed. Included * primarily for use with mocha */ function cancelAfterFirstResponse(client, done) { var call = client.fullDuplexCall(); call.write({ response_type: 'COMPRESSABLE', response_parameters: [ {size: 31415} ], payload: {body: zeroBuffer(27182)} }); call.on('data', function(data) { call.cancel(); }); call.on('error', function(error) { assert.strictEqual(error.code, grpc.status.CANCELLED); done(); }); } function timeoutOnSleepingServer(client, done) { var deadline = new Date(); deadline.setMilliseconds(deadline.getMilliseconds() + 1); var call = client.fullDuplexCall({deadline: deadline}); call.write({ payload: {body: zeroBuffer(27182)} }); call.on('data', function() {}); call.on('error', function(error) { assert(error.code === grpc.status.DEADLINE_EXCEEDED || error.code === grpc.status.INTERNAL); done(); }); } function customMetadata(client, done) { done = multiDone(done, 5); var metadata = new grpc.Metadata(); metadata.set(ECHO_INITIAL_KEY, 'test_initial_metadata_value'); metadata.set(ECHO_TRAILING_KEY, new Buffer('ababab', 'hex')); var arg = { response_type: 'COMPRESSABLE', response_size: 314159, payload: { body: zeroBuffer(271828) } }; var streaming_arg = { response_parameters: [ {size: 314159} ], payload: { body: zeroBuffer(271828) } }; var unary = client.unaryCall(arg, metadata, function(err, resp) { assert.ifError(err); done(); }); unary.on('metadata', function(metadata) { assert.deepEqual(metadata.get(ECHO_INITIAL_KEY), ['test_initial_metadata_value']); done(); }); unary.on('status', function(status) { var echo_trailer = status.metadata.get(ECHO_TRAILING_KEY); assert(echo_trailer.length > 0); assert.strictEqual(echo_trailer[0].toString('hex'), 'ababab'); done(); }); var stream = client.fullDuplexCall(metadata); stream.on('metadata', function(metadata) { assert.deepEqual(metadata.get(ECHO_INITIAL_KEY), ['test_initial_metadata_value']); done(); }); stream.on('data', function() {}); stream.on('status', function(status) { var echo_trailer = status.metadata.get(ECHO_TRAILING_KEY); assert(echo_trailer.length > 0); assert.strictEqual(echo_trailer[0].toString('hex'), 'ababab'); done(); }); stream.write(streaming_arg); stream.end(); } function statusCodeAndMessage(client, done) { done = multiDone(done, 2); var arg = { response_status: { code: 2, message: 'test status message' } }; client.unaryCall(arg, function(err, resp) { assert(err); assert.strictEqual(err.code, 2); assert.strictEqual(err.message, 'test status message'); done(); }); var duplex = client.fullDuplexCall(); duplex.on('data', function() {}); duplex.on('status', function(status) { assert(status); assert.strictEqual(status.code, 2); assert.strictEqual(status.details, 'test status message'); done(); }); duplex.on('error', function(){}); duplex.write(arg); duplex.end(); } // NOTE: the client param to this function is from UnimplementedService function unimplementedService(client, done) { client.unimplementedCall({}, function(err, resp) { assert(err); assert.strictEqual(err.code, grpc.status.UNIMPLEMENTED); done(); }); } // NOTE: the client param to this function is from TestService function unimplementedMethod(client, done) { client.unimplementedCall({}, function(err, resp) { assert(err); assert.strictEqual(err.code, grpc.status.UNIMPLEMENTED); done(); }); } /** * Run one of the authentication tests. * @param {string} expected_user The expected username in the response * @param {Client} client The client to test against * @param {?string} scope The scope to apply to the credentials * @param {function} done Callback to call when the test is completed. Included * primarily for use with mocha */ function authTest(expected_user, scope, client, done) { var arg = { response_type: 'COMPRESSABLE', response_size: 314159, payload: { body: zeroBuffer(271828) }, fill_username: true, fill_oauth_scope: true }; client.unaryCall(arg, function(err, resp) { assert.ifError(err); assert.strictEqual(resp.payload.type, 'COMPRESSABLE'); assert.strictEqual(resp.payload.body.length, 314159); assert.strictEqual(resp.username, expected_user); if (scope) { assert(scope.indexOf(resp.oauth_scope) > -1); } if (done) { done(); } }); } function computeEngineCreds(client, done, extra) { authTest(extra.service_account, null, client, done); } function serviceAccountCreds(client, done, extra) { authTest(SERVICE_ACCOUNT_EMAIL, extra.oauth_scope, client, done); } function jwtTokenCreds(client, done, extra) { authTest(SERVICE_ACCOUNT_EMAIL, null, client, done); } function oauth2Test(client, done, extra) { var arg = { fill_username: true, fill_oauth_scope: true }; client.unaryCall(arg, function(err, resp) { assert.ifError(err); assert.strictEqual(resp.username, SERVICE_ACCOUNT_EMAIL); assert(extra.oauth_scope.indexOf(resp.oauth_scope) > -1); if (done) { done(); } }); } function perRpcAuthTest(client, done, extra) { (new GoogleAuth()).getApplicationDefault(function(err, credential) { assert.ifError(err); var arg = { fill_username: true, fill_oauth_scope: true }; var scope = extra.oauth_scope; if (credential.createScopedRequired() && scope) { credential = credential.createScoped(scope); } var creds = grpc.credentials.createFromGoogleCredential(credential); client.unaryCall(arg, {credentials: creds}, function(err, resp) { assert.ifError(err); assert.strictEqual(resp.username, SERVICE_ACCOUNT_EMAIL); assert(extra.oauth_scope.indexOf(resp.oauth_scope) > -1); if (done) { done(); } }); }); } function getApplicationCreds(scope, callback) { (new GoogleAuth()).getApplicationDefault(function(err, credential) { if (err) { callback(err); return; } if (credential.createScopedRequired() && scope) { credential = credential.createScoped(scope); } callback(null, grpc.credentials.createFromGoogleCredential(credential)); }); } function getOauth2Creds(scope, callback) { (new GoogleAuth()).getApplicationDefault(function(err, credential) { if (err) { callback(err); return; } credential = credential.createScoped(scope); credential.getAccessToken(function(err, token) { if (err) { callback(err); return; } var updateMd = function(service_url, callback) { var metadata = new grpc.Metadata(); metadata.add('authorization', 'Bearer ' + token); callback(null, metadata); }; callback(null, grpc.credentials.createFromMetadataGenerator(updateMd)); }); }); } /** * Map from test case names to test functions */ var test_cases = { empty_unary: {run: emptyUnary, Client: testProto.TestService}, large_unary: {run: largeUnary, Client: testProto.TestService}, client_streaming: {run: clientStreaming, Client: testProto.TestService}, server_streaming: {run: serverStreaming, Client: testProto.TestService}, ping_pong: {run: pingPong, Client: testProto.TestService}, empty_stream: {run: emptyStream, Client: testProto.TestService}, cancel_after_begin: {run: cancelAfterBegin, Client: testProto.TestService}, cancel_after_first_response: {run: cancelAfterFirstResponse, Client: testProto.TestService}, timeout_on_sleeping_server: {run: timeoutOnSleepingServer, Client: testProto.TestService}, custom_metadata: {run: customMetadata, Client: testProto.TestService}, status_code_and_message: {run: statusCodeAndMessage, Client: testProto.TestService}, unimplemented_service: {run: unimplementedService, Client: testProto.UnimplementedService}, unimplemented_method: {run: unimplementedMethod, Client: testProto.TestService}, compute_engine_creds: {run: computeEngineCreds, Client: testProto.TestService, getCreds: getApplicationCreds}, service_account_creds: {run: serviceAccountCreds, Client: testProto.TestService, getCreds: getApplicationCreds}, jwt_token_creds: {run: jwtTokenCreds, Client: testProto.TestService, getCreds: getApplicationCreds}, oauth2_auth_token: {run: oauth2Test, Client: testProto.TestService, getCreds: getOauth2Creds}, per_rpc_creds: {run: perRpcAuthTest, Client: testProto.TestService} }; exports.test_cases = test_cases; /** * Execute a single test case. * @param {string} address The address of the server to connect to, in the * format 'hostname:port' * @param {string} host_overrirde The hostname of the server to use as an SSL * override * @param {string} test_case The name of the test case to run * @param {bool} tls Indicates that a secure channel should be used * @param {function} done Callback to call when the test is completed. Included * primarily for use with mocha * @param {object=} extra Extra options for some tests */ function runTest(address, host_override, test_case, tls, test_ca, done, extra) { // TODO(mlumish): enable TLS functionality var options = {}; var creds; if (tls) { var ca_path; if (test_ca) { ca_path = path.join(__dirname, '../test/data/ca.pem'); var ca_data = fs.readFileSync(ca_path); creds = grpc.credentials.createSsl(ca_data); } else { creds = grpc.credentials.createSsl(); } if (host_override) { options['grpc.ssl_target_name_override'] = host_override; options['grpc.default_authority'] = host_override; } } else { creds = grpc.credentials.createInsecure(); } var test = test_cases[test_case]; var execute = function(err, creds) { assert.ifError(err); var client = new test.Client(address, creds, options); test.run(client, done, extra); }; if (test.getCreds) { test.getCreds(extra.oauth_scope, function(err, new_creds) { assert.ifError(err); execute(err, grpc.credentials.combineChannelCredentials( creds, new_creds)); }); } else { execute(null, creds); } } if (require.main === module) { var parseArgs = require('minimist'); var argv = parseArgs(process.argv, { string: ['server_host', 'server_host_override', 'server_port', 'test_case', 'use_tls', 'use_test_ca', 'default_service_account', 'oauth_scope', 'service_account_key_file'] }); var extra_args = { service_account: argv.default_service_account, oauth_scope: argv.oauth_scope }; runTest(argv.server_host + ':' + argv.server_port, argv.server_host_override, argv.test_case, argv.use_tls === 'true', argv.use_test_ca === 'true', function () { console.log('OK:', argv.test_case); }, extra_args); } /** * See docs for runTest */ exports.runTest = runTest;