/*
*
* Copyright 2015 gRPC authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*/
'use strict';
var fs = require('fs');
var path = require('path');
var grpc = require('../any_grpc').client;
var protoLoader = require('../../packages/grpc-protobufjs');
var GoogleAuth = require('google-auth-library');
var protoPackage = protoLoader.loadSync(
'src/proto/grpc/testing/test.proto',
{keepCase: true,
defaults: true,
enums: String,
includeDirs: [__dirname + '/../../packages/grpc-native-core/deps/grpc']});
var testProto = grpc.loadPackageDefinition(protoPackage).grpc.testing;
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.details, '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();
}
function specialStatusMessage(client, done) {
let expectedMessage = '\t\ntest with whitespace\r\nand Unicode BMP ☺ and non-BMP 😈\t\n';
let arg = {
response_status: {
code: 2,
message: expectedMessage
}
};
client.unaryCall(arg, function(err, resp) {
assert(err);
assert.strictEqual(err.code, 2);
assert.strictEqual(err.details, expectedMessage);
done();
});
}
// 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},
special_status_message: {run: specialStatusMessage,
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, '../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 (err) {
if (err) {
throw err;
} else {
console.log('OK:', argv.test_case);
}
}, extra_args);
}
/**
* See docs for runTest
*/
exports.runTest = runTest;