#!/usr/bin/env python # Copyright 2020 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. """Run xDS integration tests on GCP using Traffic Director.""" import argparse import googleapiclient.discovery import grpc import logging import os import random import shlex import socket import subprocess import sys import tempfile import time from oauth2client.client import GoogleCredentials import python_utils.jobset as jobset import python_utils.report_utils as report_utils from src.proto.grpc.testing import messages_pb2 from src.proto.grpc.testing import test_pb2_grpc logger = logging.getLogger() console_handler = logging.StreamHandler() formatter = logging.Formatter(fmt='%(asctime)s: %(levelname)-8s %(message)s') console_handler.setFormatter(formatter) logger.handlers = [] logger.addHandler(console_handler) logger.setLevel(logging.WARNING) _TEST_CASES = [ 'backends_restart', 'change_backend_service', 'new_instance_group_receives_traffic', 'ping_pong', 'remove_instance_group', 'round_robin', 'secondary_locality_gets_no_requests_on_partial_primary_failure', 'secondary_locality_gets_requests_on_primary_failure', ] def parse_test_cases(arg): if arg == 'all': return _TEST_CASES test_cases = arg.split(',') if all([test_case in _TEST_CASES for test_case in test_cases]): return test_cases raise Exception('Failed to parse test cases %s' % arg) def parse_port_range(port_arg): try: port = int(port_arg) return range(port, port + 1) except: port_min, port_max = port_arg.split(':') return range(int(port_min), int(port_max) + 1) argp = argparse.ArgumentParser(description='Run xDS interop tests on GCP') argp.add_argument('--project_id', help='GCP project id') argp.add_argument( '--gcp_suffix', default='', help='Optional suffix for all generated GCP resource names. Useful to ' 'ensure distinct names across test runs.') argp.add_argument( '--test_case', default='ping_pong', type=parse_test_cases, help='Comma-separated list of test cases to run, or \'all\' to run every ' 'test. Available tests: %s' % ' '.join(_TEST_CASES)) argp.add_argument( '--client_cmd', default=None, help='Command to launch xDS test client. This script will fill in ' '{server_uri}, {stats_port} and {qps} parameters using str.format(), and ' 'generate the GRPC_XDS_BOOTSTRAP file.') argp.add_argument('--zone', default='us-central1-a') argp.add_argument('--secondary_zone', default='us-west1-b', help='Zone to use for secondary TD locality tests') argp.add_argument('--qps', default=10, type=int, help='Client QPS') argp.add_argument( '--wait_for_backend_sec', default=1200, type=int, help='Time limit for waiting for created backend services to report ' 'healthy when launching or updated GCP resources') argp.add_argument( '--keep_gcp_resources', default=False, action='store_true', help= 'Leave GCP VMs and configuration running after test. Default behavior is ' 'to delete when tests complete.') argp.add_argument( '--compute_discovery_document', default=None, type=str, help= 'If provided, uses this file instead of retrieving via the GCP discovery ' 'API') argp.add_argument('--network', default='global/networks/default', help='GCP network to use') argp.add_argument('--service_port_range', default='80', type=parse_port_range, help='Listening port for created gRPC backends. Specified as ' 'either a single int or as a range in the format min:max, in ' 'which case an available port p will be chosen s.t. min <= p ' '<= max') argp.add_argument('--forwarding_rule_ip_prefix', default='172.16.0.', help='If set, an available IP with this prefix followed by ' '0-255 will be used for the generated forwarding rule.') argp.add_argument( '--stats_port', default=8079, type=int, help='Local port for the client process to expose the LB stats service') argp.add_argument('--xds_server', default='trafficdirector.googleapis.com:443', help='xDS server') argp.add_argument('--source_image', default='projects/debian-cloud/global/images/family/debian-9', help='Source image for VMs created during the test') argp.add_argument('--path_to_server_binary', default=None, type=str, help='If set, the server binary must already be pre-built on ' 'the specified source image') argp.add_argument('--machine_type', default='e2-standard-2', help='Machine type for VMs created during the test') argp.add_argument( '--instance_group_size', default=2, type=int, help='Number of VMs to create per instance group. Certain test cases (e.g., ' 'round_robin) may not give meaningful results if this is set to a value ' 'less than 2.') argp.add_argument( '--tolerate_gcp_errors', default=False, action='store_true', help= 'Continue with test even when an error occurs during setup. Intended for ' 'manual testing, where attempts to recreate any GCP resources already ' 'existing will result in an error') argp.add_argument('--verbose', help='verbose log output', default=False, action='store_true') args = argp.parse_args() if args.verbose: logger.setLevel(logging.DEBUG) _DEFAULT_SERVICE_PORT = 80 _WAIT_FOR_BACKEND_SEC = args.wait_for_backend_sec _WAIT_FOR_OPERATION_SEC = 300 _INSTANCE_GROUP_SIZE = args.instance_group_size _NUM_TEST_RPCS = 10 * args.qps _WAIT_FOR_STATS_SEC = 180 _WAIT_FOR_URL_MAP_PATCH_SEC = 300 _BOOTSTRAP_TEMPLATE = """ {{ "node": {{ "id": "{node_id}", "metadata": {{ "TRAFFICDIRECTOR_NETWORK_NAME": "%s" }}, "locality": {{ "zone": "%s" }} }}, "xds_servers": [{{ "server_uri": "%s", "channel_creds": [ {{ "type": "google_default", "config": {{}} }} ] }}] }}""" % (args.network.split('/')[-1], args.zone, args.xds_server) _TESTS_USING_SECONDARY_IG = [ 'secondary_locality_gets_no_requests_on_partial_primary_failure', 'secondary_locality_gets_requests_on_primary_failure' ] _USE_SECONDARY_IG = any( [t in args.test_case for t in _TESTS_USING_SECONDARY_IG]) _PATH_MATCHER_NAME = 'path-matcher' _BASE_TEMPLATE_NAME = 'test-template' _BASE_INSTANCE_GROUP_NAME = 'test-ig' _BASE_HEALTH_CHECK_NAME = 'test-hc' _BASE_FIREWALL_RULE_NAME = 'test-fw-rule' _BASE_BACKEND_SERVICE_NAME = 'test-backend-service' _BASE_URL_MAP_NAME = 'test-map' _BASE_SERVICE_HOST = 'grpc-test' _BASE_TARGET_PROXY_NAME = 'test-target-proxy' _BASE_FORWARDING_RULE_NAME = 'test-forwarding-rule' _TEST_LOG_BASE_DIR = os.path.join(os.path.dirname(os.path.abspath(__file__)), '../../reports') _SPONGE_LOG_NAME = 'sponge_log.log' _SPONGE_XML_NAME = 'sponge_log.xml' def get_client_stats(num_rpcs, timeout_sec): with grpc.insecure_channel('localhost:%d' % args.stats_port) as channel: stub = test_pb2_grpc.LoadBalancerStatsServiceStub(channel) request = messages_pb2.LoadBalancerStatsRequest() request.num_rpcs = num_rpcs request.timeout_sec = timeout_sec rpc_timeout = timeout_sec * 2 # Allow time for connection establishment try: response = stub.GetClientStats(request, wait_for_ready=True, timeout=rpc_timeout) logger.debug('Invoked GetClientStats RPC: %s', response) return response except grpc.RpcError as rpc_error: raise Exception('GetClientStats RPC failed') def _verify_rpcs_to_given_backends(backends, timeout_sec, num_rpcs, allow_failures): start_time = time.time() error_msg = None logger.debug('Waiting for %d sec until backends %s receive load' % (timeout_sec, backends)) while time.time() - start_time <= timeout_sec: error_msg = None stats = get_client_stats(num_rpcs, timeout_sec) rpcs_by_peer = stats.rpcs_by_peer for backend in backends: if backend not in rpcs_by_peer: error_msg = 'Backend %s did not receive load' % backend break if not error_msg and len(rpcs_by_peer) > len(backends): error_msg = 'Unexpected backend received load: %s' % rpcs_by_peer if not allow_failures and stats.num_failures > 0: error_msg = '%d RPCs failed' % stats.num_failures if not error_msg: return raise Exception(error_msg) def wait_until_all_rpcs_go_to_given_backends_or_fail(backends, timeout_sec, num_rpcs=100): _verify_rpcs_to_given_backends(backends, timeout_sec, num_rpcs, allow_failures=True) def wait_until_all_rpcs_go_to_given_backends(backends, timeout_sec, num_rpcs=100): _verify_rpcs_to_given_backends(backends, timeout_sec, num_rpcs, allow_failures=False) def test_backends_restart(gcp, backend_service, instance_group): logger.info('Running test_backends_restart') instance_names = get_instance_names(gcp, instance_group) num_instances = len(instance_names) start_time = time.time() wait_until_all_rpcs_go_to_given_backends(instance_names, _WAIT_FOR_STATS_SEC) stats = get_client_stats(_NUM_TEST_RPCS, _WAIT_FOR_STATS_SEC) try: resize_instance_group(gcp, instance_group, 0) wait_until_all_rpcs_go_to_given_backends_or_fail([], _WAIT_FOR_BACKEND_SEC) finally: resize_instance_group(gcp, instance_group, num_instances) wait_for_healthy_backends(gcp, backend_service, instance_group) new_instance_names = get_instance_names(gcp, instance_group) wait_until_all_rpcs_go_to_given_backends(new_instance_names, _WAIT_FOR_BACKEND_SEC) new_stats = get_client_stats(_NUM_TEST_RPCS, _WAIT_FOR_STATS_SEC) original_distribution = list(stats.rpcs_by_peer.values()) original_distribution.sort() new_distribution = list(new_stats.rpcs_by_peer.values()) new_distribution.sort() threshold = 3 for i in range(len(original_distribution)): if abs(original_distribution[i] - new_distribution[i]) > threshold: raise Exception('Distributions do not match: ', stats, new_stats) def test_change_backend_service(gcp, original_backend_service, instance_group, alternate_backend_service, same_zone_instance_group): logger.info('Running test_change_backend_service') original_backend_instances = get_instance_names(gcp, instance_group) alternate_backend_instances = get_instance_names(gcp, same_zone_instance_group) patch_backend_instances(gcp, alternate_backend_service, [same_zone_instance_group]) wait_for_healthy_backends(gcp, original_backend_service, instance_group) wait_for_healthy_backends(gcp, alternate_backend_service, same_zone_instance_group) wait_until_all_rpcs_go_to_given_backends(original_backend_instances, _WAIT_FOR_STATS_SEC) try: patch_url_map_backend_service(gcp, alternate_backend_service) stats = get_client_stats(_NUM_TEST_RPCS, _WAIT_FOR_STATS_SEC) if stats.num_failures > 0: raise Exception('Unexpected failure: %s', stats) wait_until_all_rpcs_go_to_given_backends(alternate_backend_instances, _WAIT_FOR_URL_MAP_PATCH_SEC) finally: patch_url_map_backend_service(gcp, original_backend_service) patch_backend_instances(gcp, alternate_backend_service, []) def test_new_instance_group_receives_traffic(gcp, backend_service, instance_group, same_zone_instance_group): logger.info('Running test_new_instance_group_receives_traffic') instance_names = get_instance_names(gcp, instance_group) # TODO(ericgribkoff) Reduce this timeout. When running sequentially, this # occurs after patching the url map in test_change_backend_service, so we # need the extended timeout here as well. wait_until_all_rpcs_go_to_given_backends(instance_names, _WAIT_FOR_URL_MAP_PATCH_SEC) try: patch_backend_instances(gcp, backend_service, [instance_group, same_zone_instance_group], balancing_mode='RATE') wait_for_healthy_backends(gcp, backend_service, instance_group) wait_for_healthy_backends(gcp, backend_service, same_zone_instance_group) combined_instance_names = instance_names + get_instance_names( gcp, same_zone_instance_group) wait_until_all_rpcs_go_to_given_backends(combined_instance_names, _WAIT_FOR_BACKEND_SEC) finally: patch_backend_instances(gcp, backend_service, [instance_group]) def test_ping_pong(gcp, backend_service, instance_group): logger.info('Running test_ping_pong') wait_for_healthy_backends(gcp, backend_service, instance_group) instance_names = get_instance_names(gcp, instance_group) wait_until_all_rpcs_go_to_given_backends(instance_names, _WAIT_FOR_STATS_SEC) def test_remove_instance_group(gcp, backend_service, instance_group, same_zone_instance_group): logger.info('Running test_remove_instance_group') try: patch_backend_instances(gcp, backend_service, [instance_group, same_zone_instance_group], balancing_mode='RATE') wait_for_healthy_backends(gcp, backend_service, instance_group) wait_for_healthy_backends(gcp, backend_service, same_zone_instance_group) instance_names = get_instance_names(gcp, instance_group) same_zone_instance_names = get_instance_names(gcp, same_zone_instance_group) wait_until_all_rpcs_go_to_given_backends( instance_names + same_zone_instance_names, _WAIT_FOR_BACKEND_SEC) patch_backend_instances(gcp, backend_service, [same_zone_instance_group], balancing_mode='RATE') wait_until_all_rpcs_go_to_given_backends(same_zone_instance_names, _WAIT_FOR_BACKEND_SEC) finally: patch_backend_instances(gcp, backend_service, [instance_group]) wait_until_all_rpcs_go_to_given_backends(instance_names, _WAIT_FOR_BACKEND_SEC) def test_round_robin(gcp, backend_service, instance_group): logger.info('Running test_round_robin') wait_for_healthy_backends(gcp, backend_service, instance_group) instance_names = get_instance_names(gcp, instance_group) threshold = 1 wait_until_all_rpcs_go_to_given_backends(instance_names, _WAIT_FOR_STATS_SEC) stats = get_client_stats(_NUM_TEST_RPCS, _WAIT_FOR_STATS_SEC) requests_received = [stats.rpcs_by_peer[x] for x in stats.rpcs_by_peer] total_requests_received = sum(requests_received) if total_requests_received != _NUM_TEST_RPCS: raise Exception('Unexpected RPC failures', stats) expected_requests = total_requests_received / len(instance_names) for instance in instance_names: if abs(stats.rpcs_by_peer[instance] - expected_requests) > threshold: raise Exception( 'RPC peer distribution differs from expected by more than %d ' 'for instance %s (%s)', threshold, instance, stats) def test_secondary_locality_gets_no_requests_on_partial_primary_failure( gcp, backend_service, primary_instance_group, secondary_zone_instance_group): logger.info( 'Running test_secondary_locality_gets_no_requests_on_partial_primary_failure' ) try: patch_backend_instances( gcp, backend_service, [primary_instance_group, secondary_zone_instance_group]) wait_for_healthy_backends(gcp, backend_service, primary_instance_group) wait_for_healthy_backends(gcp, backend_service, secondary_zone_instance_group) primary_instance_names = get_instance_names(gcp, instance_group) secondary_instance_names = get_instance_names( gcp, secondary_zone_instance_group) wait_until_all_rpcs_go_to_given_backends(primary_instance_names, _WAIT_FOR_STATS_SEC) original_size = len(primary_instance_names) resize_instance_group(gcp, primary_instance_group, original_size - 1) remaining_instance_names = get_instance_names(gcp, primary_instance_group) wait_until_all_rpcs_go_to_given_backends(remaining_instance_names, _WAIT_FOR_BACKEND_SEC) finally: patch_backend_instances(gcp, backend_service, [primary_instance_group]) resize_instance_group(gcp, primary_instance_group, original_size) def test_secondary_locality_gets_requests_on_primary_failure( gcp, backend_service, primary_instance_group, secondary_zone_instance_group): logger.info( 'Running test_secondary_locality_gets_requests_on_primary_failure') try: patch_backend_instances( gcp, backend_service, [primary_instance_group, secondary_zone_instance_group]) wait_for_healthy_backends(gcp, backend_service, primary_instance_group) wait_for_healthy_backends(gcp, backend_service, secondary_zone_instance_group) primary_instance_names = get_instance_names(gcp, instance_group) secondary_instance_names = get_instance_names( gcp, secondary_zone_instance_group) wait_until_all_rpcs_go_to_given_backends(primary_instance_names, _WAIT_FOR_BACKEND_SEC) original_size = len(primary_instance_names) resize_instance_group(gcp, primary_instance_group, 0) wait_until_all_rpcs_go_to_given_backends(secondary_instance_names, _WAIT_FOR_BACKEND_SEC) resize_instance_group(gcp, primary_instance_group, original_size) new_instance_names = get_instance_names(gcp, primary_instance_group) wait_for_healthy_backends(gcp, backend_service, primary_instance_group) wait_until_all_rpcs_go_to_given_backends(new_instance_names, _WAIT_FOR_BACKEND_SEC) finally: patch_backend_instances(gcp, backend_service, [primary_instance_group]) def get_startup_script(path_to_server_binary, service_port): if path_to_server_binary: return "nohup %s --port=%d 1>/dev/null &" % (path_to_server_binary, service_port) else: return """#!/bin/bash sudo apt update sudo apt install -y git default-jdk mkdir java_server pushd java_server git clone https://github.com/grpc/grpc-java.git pushd grpc-java pushd interop-testing ../gradlew installDist -x test -PskipCodegen=true -PskipAndroid=true nohup build/install/grpc-interop-testing/bin/xds-test-server \ --port=%d 1>/dev/null &""" % service_port def create_instance_template(gcp, name, network, source_image, machine_type, startup_script): config = { 'name': name, 'properties': { 'tags': { 'items': ['allow-health-checks'] }, 'machineType': machine_type, 'serviceAccounts': [{ 'email': 'default', 'scopes': ['https://www.googleapis.com/auth/cloud-platform',] }], 'networkInterfaces': [{ 'accessConfigs': [{ 'type': 'ONE_TO_ONE_NAT' }], 'network': network }], 'disks': [{ 'boot': True, 'initializeParams': { 'sourceImage': source_image } }], 'metadata': { 'items': [{ 'key': 'startup-script', 'value': startup_script }] } } } logger.debug('Sending GCP request with body=%s', config) result = gcp.compute.instanceTemplates().insert(project=gcp.project, body=config).execute() wait_for_global_operation(gcp, result['name']) gcp.instance_template = GcpResource(config['name'], result['targetLink']) def add_instance_group(gcp, zone, name, size): config = { 'name': name, 'instanceTemplate': gcp.instance_template.url, 'targetSize': size, 'namedPorts': [{ 'name': 'grpc', 'port': gcp.service_port }] } logger.debug('Sending GCP request with body=%s', config) result = gcp.compute.instanceGroupManagers().insert(project=gcp.project, zone=zone, body=config).execute() wait_for_zone_operation(gcp, zone, result['name']) result = gcp.compute.instanceGroupManagers().get( project=gcp.project, zone=zone, instanceGroupManager=config['name']).execute() instance_group = InstanceGroup(config['name'], result['instanceGroup'], zone) gcp.instance_groups.append(instance_group) return instance_group def create_health_check(gcp, name): config = { 'name': name, 'type': 'TCP', 'tcpHealthCheck': { 'portName': 'grpc' } } logger.debug('Sending GCP request with body=%s', config) result = gcp.compute.healthChecks().insert(project=gcp.project, body=config).execute() wait_for_global_operation(gcp, result['name']) gcp.health_check = GcpResource(config['name'], result['targetLink']) def create_health_check_firewall_rule(gcp, name): config = { 'name': name, 'direction': 'INGRESS', 'allowed': [{ 'IPProtocol': 'tcp' }], 'sourceRanges': ['35.191.0.0/16', '130.211.0.0/22'], 'targetTags': ['allow-health-checks'], } logger.debug('Sending GCP request with body=%s', config) result = gcp.compute.firewalls().insert(project=gcp.project, body=config).execute() wait_for_global_operation(gcp, result['name']) gcp.health_check_firewall_rule = GcpResource(config['name'], result['targetLink']) def add_backend_service(gcp, name): config = { 'name': name, 'loadBalancingScheme': 'INTERNAL_SELF_MANAGED', 'healthChecks': [gcp.health_check.url], 'portName': 'grpc', 'protocol': 'HTTP2' } logger.debug('Sending GCP request with body=%s', config) result = gcp.compute.backendServices().insert(project=gcp.project, body=config).execute() wait_for_global_operation(gcp, result['name']) backend_service = GcpResource(config['name'], result['targetLink']) gcp.backend_services.append(backend_service) return backend_service def create_url_map(gcp, name, backend_service, host_name): config = { 'name': name, 'defaultService': backend_service.url, 'pathMatchers': [{ 'name': _PATH_MATCHER_NAME, 'defaultService': backend_service.url, }], 'hostRules': [{ 'hosts': [host_name], 'pathMatcher': _PATH_MATCHER_NAME }] } logger.debug('Sending GCP request with body=%s', config) result = gcp.compute.urlMaps().insert(project=gcp.project, body=config).execute() wait_for_global_operation(gcp, result['name']) gcp.url_map = GcpResource(config['name'], result['targetLink']) def create_target_http_proxy(gcp, name): config = { 'name': name, 'url_map': gcp.url_map.url, } logger.debug('Sending GCP request with body=%s', config) result = gcp.compute.targetHttpProxies().insert(project=gcp.project, body=config).execute() wait_for_global_operation(gcp, result['name']) gcp.target_http_proxy = GcpResource(config['name'], result['targetLink']) def create_global_forwarding_rule(gcp, name, ip, port): config = { 'name': name, 'loadBalancingScheme': 'INTERNAL_SELF_MANAGED', 'portRange': str(port), 'IPAddress': ip, 'network': args.network, 'target': gcp.target_http_proxy.url, } logger.debug('Sending GCP request with body=%s', config) result = gcp.compute.globalForwardingRules().insert(project=gcp.project, body=config).execute() wait_for_global_operation(gcp, result['name']) gcp.global_forwarding_rule = GcpResource(config['name'], result['targetLink']) def delete_global_forwarding_rule(gcp): try: result = gcp.compute.globalForwardingRules().delete( project=gcp.project, forwardingRule=gcp.global_forwarding_rule.name).execute() wait_for_global_operation(gcp, result['name']) except googleapiclient.errors.HttpError as http_error: logger.info('Delete failed: %s', http_error) def delete_target_http_proxy(gcp): try: result = gcp.compute.targetHttpProxies().delete( project=gcp.project, targetHttpProxy=gcp.target_http_proxy.name).execute() wait_for_global_operation(gcp, result['name']) except googleapiclient.errors.HttpError as http_error: logger.info('Delete failed: %s', http_error) def delete_url_map(gcp): try: result = gcp.compute.urlMaps().delete( project=gcp.project, urlMap=gcp.url_map.name).execute() wait_for_global_operation(gcp, result['name']) except googleapiclient.errors.HttpError as http_error: logger.info('Delete failed: %s', http_error) def delete_backend_services(gcp): for backend_service in gcp.backend_services: try: result = gcp.compute.backendServices().delete( project=gcp.project, backendService=backend_service.name).execute() wait_for_global_operation(gcp, result['name']) except googleapiclient.errors.HttpError as http_error: logger.info('Delete failed: %s', http_error) def delete_firewall(gcp): try: result = gcp.compute.firewalls().delete( project=gcp.project, firewall=gcp.health_check_firewall_rule.name).execute() wait_for_global_operation(gcp, result['name']) except googleapiclient.errors.HttpError as http_error: logger.info('Delete failed: %s', http_error) def delete_health_check(gcp): try: result = gcp.compute.healthChecks().delete( project=gcp.project, healthCheck=gcp.health_check.name).execute() wait_for_global_operation(gcp, result['name']) except googleapiclient.errors.HttpError as http_error: logger.info('Delete failed: %s', http_error) def delete_instance_groups(gcp): for instance_group in gcp.instance_groups: try: result = gcp.compute.instanceGroupManagers().delete( project=gcp.project, zone=instance_group.zone, instanceGroupManager=instance_group.name).execute() wait_for_zone_operation(gcp, instance_group.zone, result['name'], timeout_sec=_WAIT_FOR_BACKEND_SEC) except googleapiclient.errors.HttpError as http_error: logger.info('Delete failed: %s', http_error) def delete_instance_template(gcp): try: result = gcp.compute.instanceTemplates().delete( project=gcp.project, instanceTemplate=gcp.instance_template.name).execute() wait_for_global_operation(gcp, result['name']) except googleapiclient.errors.HttpError as http_error: logger.info('Delete failed: %s', http_error) def patch_backend_instances(gcp, backend_service, instance_groups, balancing_mode='UTILIZATION'): config = { 'backends': [{ 'group': instance_group.url, 'balancingMode': balancing_mode, 'maxRate': 1 if balancing_mode == 'RATE' else None } for instance_group in instance_groups], } logger.debug('Sending GCP request with body=%s', config) result = gcp.compute.backendServices().patch( project=gcp.project, backendService=backend_service.name, body=config).execute() wait_for_global_operation(gcp, result['name']) def resize_instance_group(gcp, instance_group, new_size, timeout_sec=_WAIT_FOR_OPERATION_SEC): result = gcp.compute.instanceGroupManagers().resize( project=gcp.project, zone=instance_group.zone, instanceGroupManager=instance_group.name, size=new_size).execute() wait_for_zone_operation(gcp, instance_group.zone, result['name'], timeout_sec=360) start_time = time.time() while True: current_size = len(get_instance_names(gcp, instance_group)) if current_size == new_size: break if time.time() - start_time > timeout_sec: raise Exception('Failed to resize primary instance group') time.sleep(1) def patch_url_map_backend_service(gcp, backend_service): config = { 'defaultService': backend_service.url, 'pathMatchers': [{ 'name': _PATH_MATCHER_NAME, 'defaultService': backend_service.url, }] } logger.debug('Sending GCP request with body=%s', config) result = gcp.compute.urlMaps().patch(project=gcp.project, urlMap=gcp.url_map.name, body=config).execute() wait_for_global_operation(gcp, result['name']) def wait_for_global_operation(gcp, operation, timeout_sec=_WAIT_FOR_OPERATION_SEC): start_time = time.time() while time.time() - start_time <= timeout_sec: result = gcp.compute.globalOperations().get( project=gcp.project, operation=operation).execute() if result['status'] == 'DONE': if 'error' in result: raise Exception(result['error']) return time.sleep(1) raise Exception('Operation %s did not complete within %d', operation, timeout_sec) def wait_for_zone_operation(gcp, zone, operation, timeout_sec=_WAIT_FOR_OPERATION_SEC): start_time = time.time() while time.time() - start_time <= timeout_sec: result = gcp.compute.zoneOperations().get( project=gcp.project, zone=zone, operation=operation).execute() if result['status'] == 'DONE': if 'error' in result: raise Exception(result['error']) return time.sleep(1) raise Exception('Operation %s did not complete within %d', operation, timeout_sec) def wait_for_healthy_backends(gcp, backend_service, instance_group, timeout_sec=_WAIT_FOR_BACKEND_SEC): start_time = time.time() config = {'group': instance_group.url} while time.time() - start_time <= timeout_sec: result = gcp.compute.backendServices().getHealth( project=gcp.project, backendService=backend_service.name, body=config).execute() if 'healthStatus' in result: healthy = True for instance in result['healthStatus']: if instance['healthState'] != 'HEALTHY': healthy = False break if healthy: return time.sleep(1) raise Exception('Not all backends became healthy within %d seconds: %s' % (timeout_sec, result)) def get_instance_names(gcp, instance_group): instance_names = [] result = gcp.compute.instanceGroups().listInstances( project=gcp.project, zone=instance_group.zone, instanceGroup=instance_group.name, body={ 'instanceState': 'ALL' }).execute() if 'items' not in result: return [] for item in result['items']: # listInstances() returns the full URL of the instance, which ends with # the instance name. compute.instances().get() requires using the # instance name (not the full URL) to look up instance details, so we # just extract the name manually. instance_name = item['instance'].split('/')[-1] instance_names.append(instance_name) return instance_names def start_xds_client(cmd): bootstrap_path = None with tempfile.NamedTemporaryFile(delete=False) as bootstrap_file: bootstrap_file.write( _BOOTSTRAP_TEMPLATE.format( node_id=socket.gethostname()).encode('utf-8')) bootstrap_path = bootstrap_file.name client_process = subprocess.Popen(shlex.split(cmd), env=dict( os.environ, GRPC_XDS_BOOTSTRAP=bootstrap_path)) return client_process def clean_up(gcp): if gcp.global_forwarding_rule: delete_global_forwarding_rule(gcp) if gcp.target_http_proxy: delete_target_http_proxy(gcp) if gcp.url_map: delete_url_map(gcp) delete_backend_services(gcp) if gcp.health_check_firewall_rule: delete_firewall(gcp) if gcp.health_check: delete_health_check(gcp) delete_instance_groups(gcp) if gcp.instance_template: delete_instance_template(gcp) class InstanceGroup(object): def __init__(self, name, url, zone): self.name = name self.url = url self.zone = zone class GcpResource(object): def __init__(self, name, url): self.name = name self.url = url class GcpState(object): def __init__(self, compute, project): self.compute = compute self.project = project self.health_check = None self.health_check_firewall_rule = None self.backend_services = [] self.url_map = None self.target_http_proxy = None self.global_forwarding_rule = None self.service_port = None self.instance_template = None self.instance_groups = [] if args.compute_discovery_document: with open(args.compute_discovery_document, 'r') as discovery_doc: compute = googleapiclient.discovery.build_from_document( discovery_doc.read()) else: compute = googleapiclient.discovery.build('compute', 'v1') try: gcp = GcpState(compute, args.project_id) health_check_name = _BASE_HEALTH_CHECK_NAME + args.gcp_suffix firewall_name = _BASE_FIREWALL_RULE_NAME + args.gcp_suffix backend_service_name = _BASE_BACKEND_SERVICE_NAME + args.gcp_suffix alternate_backend_service_name = _BASE_BACKEND_SERVICE_NAME + '-alternate' + args.gcp_suffix url_map_name = _BASE_URL_MAP_NAME + args.gcp_suffix service_host_name = _BASE_SERVICE_HOST + args.gcp_suffix target_http_proxy_name = _BASE_TARGET_PROXY_NAME + args.gcp_suffix forwarding_rule_name = _BASE_FORWARDING_RULE_NAME + args.gcp_suffix template_name = _BASE_TEMPLATE_NAME + args.gcp_suffix instance_group_name = _BASE_INSTANCE_GROUP_NAME + args.gcp_suffix same_zone_instance_group_name = _BASE_INSTANCE_GROUP_NAME + '-same-zone' + args.gcp_suffix if _USE_SECONDARY_IG: secondary_zone_instance_group_name = _BASE_INSTANCE_GROUP_NAME + '-secondary-zone' + args.gcp_suffix try: create_health_check(gcp, health_check_name) create_health_check_firewall_rule(gcp, firewall_name) backend_service = add_backend_service(gcp, backend_service_name) alternate_backend_service = add_backend_service( gcp, alternate_backend_service_name) create_url_map(gcp, url_map_name, backend_service, service_host_name) create_target_http_proxy(gcp, target_http_proxy_name) potential_service_ports = list(args.service_port_range) random.shuffle(potential_service_ports) if args.forwarding_rule_ip_prefix == '': potential_ips = ['0.0.0.0'] else: potential_ips = [ args.forwarding_rule_ip_prefix + str(x) for x in range(256) ] random.shuffle(potential_ips) for port in potential_service_ports: for ip in potential_ips: try: create_global_forwarding_rule(gcp, forwarding_rule_name, ip, port) gcp.service_port = port break except googleapiclient.errors.HttpError as http_error: logger.warning( 'Got error %s when attempting to create forwarding rule to ' '%s:%d. Retrying with another ip:port.' % (http_error, ip, port)) if not gcp.service_port: raise Exception( 'Failed to find a valid ip:port for the forwarding rule') startup_script = get_startup_script(args.path_to_server_binary, gcp.service_port) create_instance_template(gcp, template_name, args.network, args.source_image, args.machine_type, startup_script) instance_group = add_instance_group(gcp, args.zone, instance_group_name, _INSTANCE_GROUP_SIZE) patch_backend_instances(gcp, backend_service, [instance_group]) same_zone_instance_group = add_instance_group( gcp, args.zone, same_zone_instance_group_name, _INSTANCE_GROUP_SIZE) if _USE_SECONDARY_IG: secondary_zone_instance_group = add_instance_group( gcp, args.secondary_zone, secondary_zone_instance_group_name, _INSTANCE_GROUP_SIZE) except googleapiclient.errors.HttpError as http_error: if args.tolerate_gcp_errors: logger.warning( 'Failed to set up backends: %s. Attempting to continue since ' '--tolerate_gcp_errors=true', http_error) if not gcp.instance_template: result = compute.instanceTemplates().get( project=args.project_id, instanceTemplate=template_name).execute() gcp.instance_template = GcpResource(template_name, result['selfLink']) if not gcp.backend_services: result = compute.backendServices().get( project=args.project_id, backendService=backend_service_name).execute() backend_service = GcpResource(backend_service_name, result['selfLink']) gcp.backend_services.append(backend_service) result = compute.backendServices().get( project=args.project_id, backendService=alternate_backend_service_name).execute() alternate_backend_service = GcpResource( alternate_backend_service_name, result['selfLink']) gcp.backend_services.append(alternate_backend_service) if not gcp.instance_groups: result = compute.instanceGroups().get( project=args.project_id, zone=args.zone, instanceGroup=instance_group_name).execute() instance_group = InstanceGroup(instance_group_name, result['selfLink'], args.zone) gcp.instance_groups.append(instance_group) result = compute.instanceGroups().get( project=args.project_id, zone=args.zone, instanceGroup=same_zone_instance_group_name).execute() same_zone_instance_group = InstanceGroup( same_zone_instance_group_name, result['selfLink'], args.zone) gcp.instance_groups.append(same_zone_instance_group) if _USE_SECONDARY_IG: result = compute.instanceGroups().get( project=args.project_id, zone=args.secondary_zone, instanceGroup=secondary_zone_instance_group_name ).execute() secondary_zone_instance_group = InstanceGroup( secondary_zone_instance_group_name, result['selfLink'], args.secondary_zone) gcp.instance_groups.append(secondary_zone_instance_group) if not gcp.health_check: result = compute.healthChecks().get( project=args.project_id, healthCheck=health_check_name).execute() gcp.health_check = GcpResource(health_check_name, result['selfLink']) if not gcp.url_map: result = compute.urlMaps().get(project=args.project_id, urlMap=url_map_name).execute() gcp.url_map = GcpResource(url_map_name, result['selfLink']) if not gcp.service_port: gcp.service_port = args.service_port_range[0] logger.warning('Using arbitrary service port in range: %d' % gcp.service_port) else: raise http_error wait_for_healthy_backends(gcp, backend_service, instance_group) if gcp.service_port == _DEFAULT_SERVICE_PORT: server_uri = service_host_name else: server_uri = service_host_name + ':' + str(gcp.service_port) with tempfile.NamedTemporaryFile(delete=False) as bootstrap_file: bootstrap_file.write( _BOOTSTRAP_TEMPLATE.format( node_id=socket.gethostname()).encode('utf-8')) bootstrap_path = bootstrap_file.name client_env = dict(os.environ, GRPC_XDS_BOOTSTRAP=bootstrap_path) client_cmd = shlex.split( args.client_cmd.format(server_uri=server_uri, stats_port=args.stats_port, qps=args.qps)) test_results = {} failed_tests = [] for test_case in args.test_case: result = jobset.JobResult() log_dir = os.path.join(_TEST_LOG_BASE_DIR, test_case) if not os.path.exists(log_dir): os.makedirs(log_dir) test_log_file = open(os.path.join(log_dir, _SPONGE_LOG_NAME), 'w+') client_process = None try: client_process = subprocess.Popen(client_cmd, env=client_env, stderr=subprocess.STDOUT, stdout=test_log_file) if test_case == 'backends_restart': test_backends_restart(gcp, backend_service, instance_group) elif test_case == 'change_backend_service': test_change_backend_service(gcp, backend_service, instance_group, alternate_backend_service, same_zone_instance_group) elif test_case == 'new_instance_group_receives_traffic': test_new_instance_group_receives_traffic( gcp, backend_service, instance_group, same_zone_instance_group) elif test_case == 'ping_pong': test_ping_pong(gcp, backend_service, instance_group) elif test_case == 'remove_instance_group': test_remove_instance_group(gcp, backend_service, instance_group, same_zone_instance_group) elif test_case == 'round_robin': test_round_robin(gcp, backend_service, instance_group) elif test_case == 'secondary_locality_gets_no_requests_on_partial_primary_failure': test_secondary_locality_gets_no_requests_on_partial_primary_failure( gcp, backend_service, instance_group, secondary_zone_instance_group) elif test_case == 'secondary_locality_gets_requests_on_primary_failure': test_secondary_locality_gets_requests_on_primary_failure( gcp, backend_service, instance_group, secondary_zone_instance_group) else: logger.error('Unknown test case: %s', test_case) sys.exit(1) result.state = 'PASSED' result.returncode = 0 except Exception as e: logger.error('Test case %s failed: %s', test_case, e) failed_tests.append(test_case) result.state = 'FAILED' result.message = str(e) finally: if client_process: client_process.terminate() # Workaround for Python 3, as report_utils will invoke decode() on # result.message, which has a default value of ''. result.message = result.message.encode('UTF-8') test_results[test_case] = [result] if not os.path.exists(_TEST_LOG_BASE_DIR): os.makedirs(_TEST_LOG_BASE_DIR) report_utils.render_junit_xml_report(test_results, os.path.join(_TEST_LOG_BASE_DIR, _SPONGE_XML_NAME), suite_name='xds_tests', multi_target=True) if failed_tests: logger.error('Test case(s) %s failed', failed_tests) sys.exit(1) finally: if not args.keep_gcp_resources: logger.info('Cleaning up GCP resources. This may take some time.') clean_up(gcp)