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grpc/test/cpp/end2end/xds_end2end_test.cc

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/*
*
* Copyright 2017 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.
*
*/
#include <deque>
#include <memory>
#include <mutex>
#include <numeric>
#include <set>
#include <sstream>
#include <string>
#include <thread>
#include <vector>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include "absl/functional/bind_front.h"
#include "absl/memory/memory.h"
#include "absl/strings/str_cat.h"
#include "absl/strings/str_join.h"
#include "absl/types/optional.h"
#include <grpc/grpc.h>
#include <grpc/grpc_security.h>
#include <grpc/support/alloc.h>
#include <grpc/support/log.h>
#include <grpc/support/time.h>
#include <grpcpp/channel.h>
#include <grpcpp/client_context.h>
#include <grpcpp/create_channel.h>
#include <grpcpp/security/tls_certificate_provider.h>
#include <grpcpp/server.h>
#include <grpcpp/server_builder.h>
#include <grpcpp/xds_server_builder.h>
#include "src/core/ext/filters/client_channel/backup_poller.h"
#include "src/core/ext/filters/client_channel/lb_policy/xds/xds_channel_args.h"
#include "src/core/ext/filters/client_channel/resolver/fake/fake_resolver.h"
#include "src/core/ext/filters/client_channel/server_address.h"
#include "src/core/ext/xds/certificate_provider_registry.h"
#include "src/core/ext/xds/xds_api.h"
#include "src/core/ext/xds/xds_channel_args.h"
#include "src/core/ext/xds/xds_client.h"
#include "src/core/lib/channel/channel_args.h"
#include "src/core/lib/gpr/env.h"
#include "src/core/lib/gpr/string.h"
#include "src/core/lib/gpr/time_precise.h"
#include "src/core/lib/gpr/tmpfile.h"
#include "src/core/lib/gprpp/ref_counted_ptr.h"
#include "src/core/lib/gprpp/sync.h"
#include "src/core/lib/gprpp/time_util.h"
#include "src/core/lib/iomgr/load_file.h"
#include "src/core/lib/iomgr/parse_address.h"
#include "src/core/lib/iomgr/sockaddr.h"
#include "src/core/lib/security/credentials/fake/fake_credentials.h"
#include "src/cpp/client/secure_credentials.h"
#include "src/cpp/server/secure_server_credentials.h"
#include "src/proto/grpc/testing/echo.grpc.pb.h"
#include "src/proto/grpc/testing/xds/ads_for_test.grpc.pb.h"
#include "src/proto/grpc/testing/xds/cds_for_test.grpc.pb.h"
#include "src/proto/grpc/testing/xds/eds_for_test.grpc.pb.h"
#include "src/proto/grpc/testing/xds/lds_rds_for_test.grpc.pb.h"
#include "src/proto/grpc/testing/xds/lrs_for_test.grpc.pb.h"
#include "src/proto/grpc/testing/xds/v3/ads.grpc.pb.h"
#include "src/proto/grpc/testing/xds/v3/aggregate_cluster.grpc.pb.h"
#include "src/proto/grpc/testing/xds/v3/cluster.grpc.pb.h"
#include "src/proto/grpc/testing/xds/v3/discovery.grpc.pb.h"
#include "src/proto/grpc/testing/xds/v3/endpoint.grpc.pb.h"
#include "src/proto/grpc/testing/xds/v3/fault.grpc.pb.h"
#include "src/proto/grpc/testing/xds/v3/http_connection_manager.grpc.pb.h"
#include "src/proto/grpc/testing/xds/v3/listener.grpc.pb.h"
#include "src/proto/grpc/testing/xds/v3/lrs.grpc.pb.h"
#include "src/proto/grpc/testing/xds/v3/route.grpc.pb.h"
#include "src/proto/grpc/testing/xds/v3/router.grpc.pb.h"
#include "src/proto/grpc/testing/xds/v3/tls.grpc.pb.h"
#include "test/core/util/port.h"
#include "test/core/util/resolve_localhost_ip46.h"
#include "test/core/util/test_config.h"
#include "test/cpp/end2end/test_service_impl.h"
#ifndef DISABLED_XDS_PROTO_IN_CC
#include "src/cpp/server/csds/csds.h"
#include "src/proto/grpc/testing/xds/v3/csds.grpc.pb.h"
#endif // DISABLED_XDS_PROTO_IN_CC
namespace grpc {
namespace testing {
namespace {
using std::chrono::system_clock;
#ifndef DISABLED_XDS_PROTO_IN_CC
using ::envoy::admin::v3::ClientResourceStatus;
#endif // DISABLED_XDS_PROTO_IN_CC
using ::envoy::config::cluster::v3::CircuitBreakers;
using ::envoy::config::cluster::v3::Cluster;
using ::envoy::config::cluster::v3::CustomClusterType;
using ::envoy::config::cluster::v3::RoutingPriority;
using ::envoy::config::endpoint::v3::ClusterLoadAssignment;
using ::envoy::config::endpoint::v3::HealthStatus;
using ::envoy::config::listener::v3::FilterChainMatch;
using ::envoy::config::listener::v3::Listener;
using ::envoy::config::route::v3::RouteConfiguration;
using ::envoy::extensions::clusters::aggregate::v3::ClusterConfig;
using ::envoy::extensions::filters::http::fault::v3::HTTPFault;
using ::envoy::extensions::filters::network::http_connection_manager::v3::
HttpConnectionManager;
using ::envoy::extensions::filters::network::http_connection_manager::v3::
HttpFilter;
using ::envoy::extensions::transport_sockets::tls::v3::DownstreamTlsContext;
using ::envoy::extensions::transport_sockets::tls::v3::UpstreamTlsContext;
using ::envoy::type::matcher::v3::StringMatcher;
using ::envoy::type::v3::FractionalPercent;
constexpr char kLdsTypeUrl[] =
"type.googleapis.com/envoy.config.listener.v3.Listener";
constexpr char kRdsTypeUrl[] =
"type.googleapis.com/envoy.config.route.v3.RouteConfiguration";
constexpr char kCdsTypeUrl[] =
"type.googleapis.com/envoy.config.cluster.v3.Cluster";
constexpr char kEdsTypeUrl[] =
"type.googleapis.com/envoy.config.endpoint.v3.ClusterLoadAssignment";
constexpr char kLdsV2TypeUrl[] = "type.googleapis.com/envoy.api.v2.Listener";
constexpr char kRdsV2TypeUrl[] =
"type.googleapis.com/envoy.api.v2.RouteConfiguration";
constexpr char kCdsV2TypeUrl[] = "type.googleapis.com/envoy.api.v2.Cluster";
constexpr char kEdsV2TypeUrl[] =
"type.googleapis.com/envoy.api.v2.ClusterLoadAssignment";
constexpr char kDefaultLocalityRegion[] = "xds_default_locality_region";
constexpr char kDefaultLocalityZone[] = "xds_default_locality_zone";
constexpr char kLbDropType[] = "lb";
constexpr char kThrottleDropType[] = "throttle";
constexpr char kServerName[] = "server.example.com";
constexpr char kDefaultRouteConfigurationName[] = "route_config_name";
constexpr char kDefaultClusterName[] = "cluster_name";
constexpr char kDefaultEdsServiceName[] = "eds_service_name";
constexpr int kDefaultLocalityWeight = 3;
constexpr int kDefaultLocalityPriority = 0;
constexpr char kRequestMessage[] = "Live long and prosper.";
constexpr char kDefaultServiceConfig[] =
"{\n"
" \"loadBalancingConfig\":[\n"
" { \"does_not_exist\":{} },\n"
" { \"xds_cluster_resolver_experimental\":{\n"
" \"discoveryMechanisms\": [\n"
" { \"clusterName\": \"server.example.com\",\n"
" \"type\": \"EDS\",\n"
" \"lrsLoadReportingServerName\": \"\"\n"
" } ]\n"
" } }\n"
" ]\n"
"}";
constexpr char kDefaultServiceConfigWithoutLoadReporting[] =
"{\n"
" \"loadBalancingConfig\":[\n"
" { \"does_not_exist\":{} },\n"
" { \"xds_cluster_resolver_experimental\":{\n"
" \"discoveryMechanisms\": [\n"
" { \"clusterName\": \"server.example.com\",\n"
" \"type\": \"EDS\"\n"
" } ]\n"
" } }\n"
" ]\n"
"}";
constexpr char kBootstrapFileV3[] =
"{\n"
" \"xds_servers\": [\n"
" {\n"
" \"server_uri\": \"fake:///xds_server\",\n"
" \"channel_creds\": [\n"
" {\n"
" \"type\": \"fake\"\n"
" }\n"
" ],\n"
" \"server_features\": [\"xds_v3\"]\n"
" }\n"
" ],\n"
" \"node\": {\n"
" \"id\": \"xds_end2end_test\",\n"
" \"cluster\": \"test\",\n"
" \"metadata\": {\n"
" \"foo\": \"bar\"\n"
" },\n"
" \"locality\": {\n"
" \"region\": \"corp\",\n"
" \"zone\": \"svl\",\n"
" \"sub_zone\": \"mp3\"\n"
" }\n"
" },\n"
" \"server_listener_resource_name_template\": "
"\"grpc/server?xds.resource.listening_address=%s\",\n"
" \"certificate_providers\": {\n"
" \"fake_plugin1\": {\n"
" \"plugin_name\": \"fake1\"\n"
" },\n"
" \"fake_plugin2\": {\n"
" \"plugin_name\": \"fake2\"\n"
" },\n"
" \"file_plugin\": {\n"
" \"plugin_name\": \"file_watcher\",\n"
" \"config\": {\n"
" \"certificate_file\": \"src/core/tsi/test_creds/client.pem\",\n"
" \"private_key_file\": \"src/core/tsi/test_creds/client.key\",\n"
" \"ca_certificate_file\": \"src/core/tsi/test_creds/ca.pem\"\n"
" }"
" }\n"
" }\n"
"}\n";
constexpr char kBootstrapFileV2[] =
"{\n"
" \"xds_servers\": [\n"
" {\n"
" \"server_uri\": \"fake:///xds_server\",\n"
" \"channel_creds\": [\n"
" {\n"
" \"type\": \"fake\"\n"
" }\n"
" ]\n"
" }\n"
" ],\n"
" \"node\": {\n"
" \"id\": \"xds_end2end_test\",\n"
" \"cluster\": \"test\",\n"
" \"metadata\": {\n"
" \"foo\": \"bar\"\n"
" },\n"
" \"locality\": {\n"
" \"region\": \"corp\",\n"
" \"zone\": \"svl\",\n"
" \"sub_zone\": \"mp3\"\n"
" }\n"
" }\n"
"}\n";
constexpr char kCaCertPath[] = "src/core/tsi/test_creds/ca.pem";
constexpr char kServerCertPath[] = "src/core/tsi/test_creds/server1.pem";
constexpr char kServerKeyPath[] = "src/core/tsi/test_creds/server1.key";
constexpr char kClientCertPath[] = "src/core/tsi/test_creds/client.pem";
constexpr char kClientKeyPath[] = "src/core/tsi/test_creds/client.key";
constexpr char kBadClientCertPath[] = "src/core/tsi/test_creds/badclient.pem";
constexpr char kBadClientKeyPath[] = "src/core/tsi/test_creds/badclient.key";
char* g_bootstrap_file_v3;
char* g_bootstrap_file_v2;
void WriteBootstrapFiles() {
char* bootstrap_file;
FILE* out = gpr_tmpfile("xds_bootstrap_v3", &bootstrap_file);
fputs(kBootstrapFileV3, out);
fclose(out);
g_bootstrap_file_v3 = bootstrap_file;
out = gpr_tmpfile("xds_bootstrap_v2", &bootstrap_file);
fputs(kBootstrapFileV2, out);
fclose(out);
g_bootstrap_file_v2 = bootstrap_file;
}
template <typename ServiceType>
class CountedService : public ServiceType {
public:
size_t request_count() {
grpc_core::MutexLock lock(&mu_);
return request_count_;
}
size_t response_count() {
grpc_core::MutexLock lock(&mu_);
return response_count_;
}
void IncreaseResponseCount() {
grpc_core::MutexLock lock(&mu_);
++response_count_;
}
void IncreaseRequestCount() {
grpc_core::MutexLock lock(&mu_);
++request_count_;
}
void ResetCounters() {
grpc_core::MutexLock lock(&mu_);
request_count_ = 0;
response_count_ = 0;
}
private:
grpc_core::Mutex mu_;
size_t request_count_ = 0;
size_t response_count_ = 0;
};
template <typename RpcService>
class BackendServiceImpl
: public CountedService<TestMultipleServiceImpl<RpcService>> {
public:
BackendServiceImpl() {}
Status Echo(ServerContext* context, const EchoRequest* request,
EchoResponse* response) override {
auto peer_identity = context->auth_context()->GetPeerIdentity();
CountedService<TestMultipleServiceImpl<RpcService>>::IncreaseRequestCount();
const auto status =
TestMultipleServiceImpl<RpcService>::Echo(context, request, response);
CountedService<
TestMultipleServiceImpl<RpcService>>::IncreaseResponseCount();
{
grpc_core::MutexLock lock(&mu_);
clients_.insert(context->peer());
last_peer_identity_.clear();
for (const auto& entry : peer_identity) {
last_peer_identity_.emplace_back(entry.data(), entry.size());
}
}
return status;
}
Status Echo1(ServerContext* context, const EchoRequest* request,
EchoResponse* response) override {
return Echo(context, request, response);
}
Status Echo2(ServerContext* context, const EchoRequest* request,
EchoResponse* response) override {
return Echo(context, request, response);
}
void Start() {}
void Shutdown() {}
std::set<std::string> clients() {
grpc_core::MutexLock lock(&mu_);
return clients_;
}
const std::vector<std::string>& last_peer_identity() {
grpc_core::MutexLock lock(&mu_);
return last_peer_identity_;
}
private:
grpc_core::Mutex mu_;
std::set<std::string> clients_;
std::vector<std::string> last_peer_identity_;
};
class ClientStats {
public:
struct LocalityStats {
LocalityStats() {}
// Converts from proto message class.
template <class UpstreamLocalityStats>
explicit LocalityStats(const UpstreamLocalityStats& upstream_locality_stats)
: total_successful_requests(
upstream_locality_stats.total_successful_requests()),
total_requests_in_progress(
upstream_locality_stats.total_requests_in_progress()),
total_error_requests(upstream_locality_stats.total_error_requests()),
total_issued_requests(
upstream_locality_stats.total_issued_requests()) {}
LocalityStats& operator+=(const LocalityStats& other) {
total_successful_requests += other.total_successful_requests;
total_requests_in_progress += other.total_requests_in_progress;
total_error_requests += other.total_error_requests;
total_issued_requests += other.total_issued_requests;
return *this;
}
uint64_t total_successful_requests = 0;
uint64_t total_requests_in_progress = 0;
uint64_t total_error_requests = 0;
uint64_t total_issued_requests = 0;
};
ClientStats() {}
// Converts from proto message class.
template <class ClusterStats>
explicit ClientStats(const ClusterStats& cluster_stats)
: cluster_name_(cluster_stats.cluster_name()),
total_dropped_requests_(cluster_stats.total_dropped_requests()) {
for (const auto& input_locality_stats :
cluster_stats.upstream_locality_stats()) {
locality_stats_.emplace(input_locality_stats.locality().sub_zone(),
LocalityStats(input_locality_stats));
}
for (const auto& input_dropped_requests :
cluster_stats.dropped_requests()) {
dropped_requests_.emplace(input_dropped_requests.category(),
input_dropped_requests.dropped_count());
}
}
const std::string& cluster_name() const { return cluster_name_; }
const std::map<std::string, LocalityStats>& locality_stats() const {
return locality_stats_;
}
uint64_t total_successful_requests() const {
uint64_t sum = 0;
for (auto& p : locality_stats_) {
sum += p.second.total_successful_requests;
}
return sum;
}
uint64_t total_requests_in_progress() const {
uint64_t sum = 0;
for (auto& p : locality_stats_) {
sum += p.second.total_requests_in_progress;
}
return sum;
}
uint64_t total_error_requests() const {
uint64_t sum = 0;
for (auto& p : locality_stats_) {
sum += p.second.total_error_requests;
}
return sum;
}
uint64_t total_issued_requests() const {
uint64_t sum = 0;
for (auto& p : locality_stats_) {
sum += p.second.total_issued_requests;
}
return sum;
}
uint64_t total_dropped_requests() const { return total_dropped_requests_; }
uint64_t dropped_requests(const std::string& category) const {
auto iter = dropped_requests_.find(category);
GPR_ASSERT(iter != dropped_requests_.end());
return iter->second;
}
ClientStats& operator+=(const ClientStats& other) {
for (const auto& p : other.locality_stats_) {
locality_stats_[p.first] += p.second;
}
total_dropped_requests_ += other.total_dropped_requests_;
for (const auto& p : other.dropped_requests_) {
dropped_requests_[p.first] += p.second;
}
return *this;
}
private:
std::string cluster_name_;
std::map<std::string, LocalityStats> locality_stats_;
uint64_t total_dropped_requests_ = 0;
std::map<std::string, uint64_t> dropped_requests_;
};
class AdsServiceImpl : public std::enable_shared_from_this<AdsServiceImpl> {
public:
struct ResponseState {
enum State { NOT_SENT, SENT, ACKED, NACKED };
State state = NOT_SENT;
std::string error_message;
};
struct EdsResourceArgs {
struct Locality {
Locality(std::string sub_zone, std::vector<int> ports,
int lb_weight = kDefaultLocalityWeight,
int priority = kDefaultLocalityPriority,
std::vector<HealthStatus> health_statuses = {})
: sub_zone(std::move(sub_zone)),
ports(std::move(ports)),
lb_weight(lb_weight),
priority(priority),
health_statuses(std::move(health_statuses)) {}
const std::string sub_zone;
std::vector<int> ports;
int lb_weight;
int priority;
std::vector<HealthStatus> health_statuses;
};
EdsResourceArgs() = default;
explicit EdsResourceArgs(std::vector<Locality> locality_list)
: locality_list(std::move(locality_list)) {}
std::vector<Locality> locality_list;
std::map<std::string, uint32_t> drop_categories;
FractionalPercent::DenominatorType drop_denominator =
FractionalPercent::MILLION;
};
AdsServiceImpl()
: v2_rpc_service_(this, /*is_v2=*/true),
v3_rpc_service_(this, /*is_v2=*/false) {}
bool seen_v2_client() const { return seen_v2_client_; }
bool seen_v3_client() const { return seen_v3_client_; }
::envoy::service::discovery::v2::AggregatedDiscoveryService::Service*
v2_rpc_service() {
return &v2_rpc_service_;
}
::envoy::service::discovery::v3::AggregatedDiscoveryService::Service*
v3_rpc_service() {
return &v3_rpc_service_;
}
ResponseState lds_response_state() {
grpc_core::MutexLock lock(&ads_mu_);
return resource_type_response_state_[kLdsTypeUrl];
}
ResponseState rds_response_state() {
grpc_core::MutexLock lock(&ads_mu_);
return resource_type_response_state_[kRdsTypeUrl];
}
ResponseState cds_response_state() {
grpc_core::MutexLock lock(&ads_mu_);
return resource_type_response_state_[kCdsTypeUrl];
}
ResponseState eds_response_state() {
grpc_core::MutexLock lock(&ads_mu_);
return resource_type_response_state_[kEdsTypeUrl];
}
void SetResourceIgnore(const std::string& type_url) {
grpc_core::MutexLock lock(&ads_mu_);
resource_types_to_ignore_.emplace(type_url);
}
void SetResourceMinVersion(const std::string& type_url, int version) {
grpc_core::MutexLock lock(&ads_mu_);
resource_type_min_versions_[type_url] = version;
}
void UnsetResource(const std::string& type_url, const std::string& name) {
grpc_core::MutexLock lock(&ads_mu_);
ResourceTypeState& resource_type_state = resource_map_[type_url];
++resource_type_state.resource_type_version;
ResourceState& resource_state = resource_type_state.resource_name_map[name];
resource_state.resource_type_version =
resource_type_state.resource_type_version;
resource_state.resource.reset();
gpr_log(GPR_INFO,
"ADS[%p]: Unsetting %s resource %s; resource_type_version now %u",
this, type_url.c_str(), name.c_str(),
resource_type_state.resource_type_version);
for (SubscriptionState* subscription : resource_state.subscriptions) {
subscription->update_queue->emplace_back(type_url, name);
}
}
void SetResource(google::protobuf::Any resource, const std::string& type_url,
const std::string& name) {
grpc_core::MutexLock lock(&ads_mu_);
ResourceTypeState& resource_type_state = resource_map_[type_url];
++resource_type_state.resource_type_version;
ResourceState& resource_state = resource_type_state.resource_name_map[name];
resource_state.resource_type_version =
resource_type_state.resource_type_version;
resource_state.resource = std::move(resource);
gpr_log(GPR_INFO,
"ADS[%p]: Updating %s resource %s; resource_type_version now %u",
this, type_url.c_str(), name.c_str(),
resource_type_state.resource_type_version);
for (SubscriptionState* subscription : resource_state.subscriptions) {
subscription->update_queue->emplace_back(type_url, name);
}
}
void SetLdsResource(const Listener& listener) {
google::protobuf::Any resource;
resource.PackFrom(listener);
SetResource(std::move(resource), kLdsTypeUrl, listener.name());
}
void SetRdsResource(const RouteConfiguration& route) {
google::protobuf::Any resource;
resource.PackFrom(route);
SetResource(std::move(resource), kRdsTypeUrl, route.name());
}
void SetCdsResource(const Cluster& cluster) {
google::protobuf::Any resource;
resource.PackFrom(cluster);
SetResource(std::move(resource), kCdsTypeUrl, cluster.name());
}
void SetEdsResource(const ClusterLoadAssignment& assignment) {
google::protobuf::Any resource;
resource.PackFrom(assignment);
SetResource(std::move(resource), kEdsTypeUrl, assignment.cluster_name());
}
void Start() {
grpc_core::MutexLock lock(&ads_mu_);
ads_done_ = false;
}
void Shutdown() {
{
grpc_core::MutexLock lock(&ads_mu_);
NotifyDoneWithAdsCallLocked();
resource_type_response_state_.clear();
}
gpr_log(GPR_INFO, "ADS[%p]: shut down", this);
}
void NotifyDoneWithAdsCall() {
grpc_core::MutexLock lock(&ads_mu_);
NotifyDoneWithAdsCallLocked();
}
void NotifyDoneWithAdsCallLocked() {
if (!ads_done_) {
ads_done_ = true;
ads_cond_.SignalAll();
}
}
std::set<std::string> clients() {
grpc_core::MutexLock lock(&clients_mu_);
return clients_;
}
private:
// A queue of resource type/name pairs that have changed since the client
// subscribed to them.
using UpdateQueue = std::deque<
std::pair<std::string /* type url */, std::string /* resource name */>>;
// A struct representing a client's subscription to a particular resource.
struct SubscriptionState {
// The queue upon which to place updates when the resource is updated.
UpdateQueue* update_queue;
};
// A struct representing the a client's subscription to all the resources.
using SubscriptionNameMap =
std::map<std::string /* resource_name */, SubscriptionState>;
using SubscriptionMap =
std::map<std::string /* type_url */, SubscriptionNameMap>;
// Sent state for a given resource type.
struct SentState {
int nonce = 0;
int resource_type_version = 0;
};
// A struct representing the current state for an individual resource.
struct ResourceState {
// The resource itself, if present.
absl::optional<google::protobuf::Any> resource;
// The resource type version that this resource was last updated in.
int resource_type_version = 0;
// A list of subscriptions to this resource.
std::set<SubscriptionState*> subscriptions;
};
// The current state for all individual resources of a given type.
using ResourceNameMap =
std::map<std::string /* resource_name */, ResourceState>;
struct ResourceTypeState {
int resource_type_version = 0;
ResourceNameMap resource_name_map;
};
using ResourceMap = std::map<std::string /* type_url */, ResourceTypeState>;
template <class RpcApi, class DiscoveryRequest, class DiscoveryResponse>
class RpcService : public RpcApi::Service {
public:
using Stream = ServerReaderWriter<DiscoveryResponse, DiscoveryRequest>;
RpcService(AdsServiceImpl* parent, bool is_v2)
: parent_(parent), is_v2_(is_v2) {}
Status StreamAggregatedResources(ServerContext* context,
Stream* stream) override {
gpr_log(GPR_INFO, "ADS[%p]: StreamAggregatedResources starts", this);
parent_->AddClient(context->peer());
if (is_v2_) {
parent_->seen_v2_client_ = true;
} else {
parent_->seen_v3_client_ = true;
}
// Take a reference of the AdsServiceImpl object, which will go
// out of scope when this request handler returns. This ensures
// that the parent won't be destroyed until this stream is complete.
std::shared_ptr<AdsServiceImpl> ads_service_impl =
parent_->shared_from_this();
// Resources (type/name pairs) that have changed since the client
// subscribed to them.
UpdateQueue update_queue;
// Resources that the client will be subscribed to keyed by resource type
// url.
SubscriptionMap subscription_map;
// Sent state for each resource type.
std::map<std::string /*type_url*/, SentState> sent_state_map;
// Spawn a thread to read requests from the stream.
// Requests will be delivered to this thread in a queue.
std::deque<DiscoveryRequest> requests;
bool stream_closed = false;
std::thread reader(std::bind(&RpcService::BlockingRead, this, stream,
&requests, &stream_closed));
// Main loop to process requests and updates.
while (true) {
// Boolean to keep track if the loop received any work to do: a
// request or an update; regardless whether a response was actually
// sent out.
bool did_work = false;
// Look for new requests and and decide what to handle.
absl::optional<DiscoveryResponse> response;
{
grpc_core::MutexLock lock(&parent_->ads_mu_);
// If the stream has been closed or our parent is being shut
// down, stop immediately.
if (stream_closed || parent_->ads_done_) break;
// Otherwise, see if there's a request to read from the queue.
if (!requests.empty()) {
DiscoveryRequest request = std::move(requests.front());
requests.pop_front();
did_work = true;
gpr_log(GPR_INFO,
"ADS[%p]: Received request for type %s with content %s",
this, request.type_url().c_str(),
request.DebugString().c_str());
const std::string v3_resource_type =
TypeUrlToV3(request.type_url());
SentState& sent_state = sent_state_map[v3_resource_type];
// Process request.
ProcessRequest(request, v3_resource_type, &update_queue,
&subscription_map, &sent_state, &response);
}
}
if (response.has_value()) {
gpr_log(GPR_INFO, "ADS[%p]: Sending response: %s", this,
response->DebugString().c_str());
stream->Write(response.value());
}
response.reset();
// Look for updates and decide what to handle.
{
grpc_core::MutexLock lock(&parent_->ads_mu_);
if (!update_queue.empty()) {
const std::string resource_type =
std::move(update_queue.front().first);
const std::string resource_name =
std::move(update_queue.front().second);
update_queue.pop_front();
did_work = true;
SentState& sent_state = sent_state_map[resource_type];
ProcessUpdate(resource_type, resource_name, &subscription_map,
&sent_state, &response);
}
}
if (response.has_value()) {
gpr_log(GPR_INFO, "ADS[%p]: Sending update response: %s", this,
response->DebugString().c_str());
stream->Write(response.value());
}
// If we didn't find anything to do, delay before the next loop
// iteration; otherwise, check whether we should exit and then
// immediately continue.
gpr_timespec deadline =
grpc_timeout_milliseconds_to_deadline(did_work ? 0 : 10);
{
grpc_core::MutexLock lock(&parent_->ads_mu_);
if (!grpc_core::WaitUntilWithDeadline(
&parent_->ads_cond_, &parent_->ads_mu_,
[this] { return parent_->ads_done_; },
grpc_core::ToAbslTime(deadline))) {
break;
}
}
}
// Done with main loop. Clean up before returning.
// Join reader thread.
reader.join();
// Clean up any subscriptions that were still active when the call
// finished.
{
grpc_core::MutexLock lock(&parent_->ads_mu_);
for (auto& p : subscription_map) {
const std::string& type_url = p.first;
SubscriptionNameMap& subscription_name_map = p.second;
for (auto& q : subscription_name_map) {
const std::string& resource_name = q.first;
SubscriptionState& subscription_state = q.second;
ResourceNameMap& resource_name_map =
parent_->resource_map_[type_url].resource_name_map;
ResourceState& resource_state = resource_name_map[resource_name];
resource_state.subscriptions.erase(&subscription_state);
}
}
}
gpr_log(GPR_INFO, "ADS[%p]: StreamAggregatedResources done", this);
parent_->RemoveClient(context->peer());
return Status::OK;
}
private:
// Processes a response read from the client.
// Populates response if needed.
void ProcessRequest(const DiscoveryRequest& request,
const std::string& v3_resource_type,
UpdateQueue* update_queue,
SubscriptionMap* subscription_map,
SentState* sent_state,
absl::optional<DiscoveryResponse>* response) {
// Check the nonce sent by the client, if any.
// (This will be absent on the first request on a stream.)
if (request.response_nonce().empty()) {
int client_resource_type_version = 0;
if (!request.version_info().empty()) {
GPR_ASSERT(absl::SimpleAtoi(request.version_info(),
&client_resource_type_version));
}
EXPECT_GE(client_resource_type_version,
parent_->resource_type_min_versions_[v3_resource_type])
<< "resource_type: " << v3_resource_type;
} else {
int client_nonce;
GPR_ASSERT(absl::SimpleAtoi(request.response_nonce(), &client_nonce));
// Ignore requests with stale nonces.
if (client_nonce < sent_state->nonce) return;
// Check for ACK or NACK.
auto it = parent_->resource_type_response_state_.find(v3_resource_type);
if (it != parent_->resource_type_response_state_.end()) {
if (!request.has_error_detail()) {
it->second.state = ResponseState::ACKED;
it->second.error_message.clear();
gpr_log(GPR_INFO,
"ADS[%p]: client ACKed resource_type=%s version=%s", this,
request.type_url().c_str(), request.version_info().c_str());
} else {
it->second.state = ResponseState::NACKED;
EXPECT_EQ(request.error_detail().code(),
GRPC_STATUS_INVALID_ARGUMENT);
it->second.error_message = request.error_detail().message();
gpr_log(GPR_INFO,
"ADS[%p]: client NACKed resource_type=%s version=%s: %s",
this, request.type_url().c_str(),
request.version_info().c_str(),
it->second.error_message.c_str());
}
}
}
// Ignore resource types as requested by tests.
if (parent_->resource_types_to_ignore_.find(v3_resource_type) !=
parent_->resource_types_to_ignore_.end()) {
return;
}
// Look at all the resource names in the request.
auto& subscription_name_map = (*subscription_map)[v3_resource_type];
auto& resource_type_state = parent_->resource_map_[v3_resource_type];
auto& resource_name_map = resource_type_state.resource_name_map;
std::set<std::string> resources_in_current_request;
std::set<std::string> resources_added_to_response;
for (const std::string& resource_name : request.resource_names()) {
resources_in_current_request.emplace(resource_name);
auto& subscription_state = subscription_name_map[resource_name];
auto& resource_state = resource_name_map[resource_name];
// Subscribe if needed.
// Send the resource in the response if either (a) this is
// a new subscription or (b) there is an updated version of
// this resource to send.
if (parent_->MaybeSubscribe(v3_resource_type, resource_name,
&subscription_state, &resource_state,
update_queue) ||
ClientNeedsResourceUpdate(resource_type_state, resource_state,
sent_state->resource_type_version)) {
gpr_log(GPR_INFO, "ADS[%p]: Sending update for type=%s name=%s", this,
request.type_url().c_str(), resource_name.c_str());
resources_added_to_response.emplace(resource_name);
if (!response->has_value()) response->emplace();
if (resource_state.resource.has_value()) {
auto* resource = (*response)->add_resources();
resource->CopyFrom(resource_state.resource.value());
if (is_v2_) {
resource->set_type_url(request.type_url());
}
}
} else {
gpr_log(GPR_INFO,
"ADS[%p]: client does not need update for type=%s name=%s",
this, request.type_url().c_str(), resource_name.c_str());
}
}
// Process unsubscriptions for any resource no longer
// present in the request's resource list.
parent_->ProcessUnsubscriptions(
v3_resource_type, resources_in_current_request,
&subscription_name_map, &resource_name_map);
// Construct response if needed.
if (!resources_added_to_response.empty()) {
CompleteBuildingDiscoveryResponse(
v3_resource_type, request.type_url(),
resource_type_state.resource_type_version, subscription_name_map,
resources_added_to_response, sent_state, &response->value());
}
}
// Processes a resource update from the test.
// Populates response if needed.
void ProcessUpdate(const std::string& resource_type,
const std::string& resource_name,
SubscriptionMap* subscription_map, SentState* sent_state,
absl::optional<DiscoveryResponse>* response) {
const std::string v2_resource_type = TypeUrlToV2(resource_type);
gpr_log(GPR_INFO, "ADS[%p]: Received update for type=%s name=%s", this,
resource_type.c_str(), resource_name.c_str());
auto& subscription_name_map = (*subscription_map)[resource_type];
auto& resource_type_state = parent_->resource_map_[resource_type];
auto& resource_name_map = resource_type_state.resource_name_map;
auto it = subscription_name_map.find(resource_name);
if (it != subscription_name_map.end()) {
ResourceState& resource_state = resource_name_map[resource_name];
if (ClientNeedsResourceUpdate(resource_type_state, resource_state,
sent_state->resource_type_version)) {
gpr_log(GPR_INFO, "ADS[%p]: Sending update for type=%s name=%s", this,
resource_type.c_str(), resource_name.c_str());
response->emplace();
if (resource_state.resource.has_value()) {
auto* resource = (*response)->add_resources();
resource->CopyFrom(resource_state.resource.value());
if (is_v2_) {
resource->set_type_url(v2_resource_type);
}
}
CompleteBuildingDiscoveryResponse(
resource_type, v2_resource_type,
resource_type_state.resource_type_version, subscription_name_map,
{resource_name}, sent_state, &response->value());
}
}
}
// Starting a thread to do blocking read on the stream until cancel.
void BlockingRead(Stream* stream, std::deque<DiscoveryRequest>* requests,
bool* stream_closed) {
DiscoveryRequest request;
bool seen_first_request = false;
while (stream->Read(&request)) {
if (!seen_first_request) {
EXPECT_TRUE(request.has_node());
ASSERT_FALSE(request.node().client_features().empty());
EXPECT_EQ(request.node().client_features(0),
"envoy.lb.does_not_support_overprovisioning");
CheckBuildVersion(request);
seen_first_request = true;
}
{
grpc_core::MutexLock lock(&parent_->ads_mu_);
requests->emplace_back(std::move(request));
}
}
gpr_log(GPR_INFO, "ADS[%p]: Null read, stream closed", this);
grpc_core::MutexLock lock(&parent_->ads_mu_);
*stream_closed = true;
}
// Completing the building a DiscoveryResponse by adding common information
// for all resources and by adding all subscribed resources for LDS and CDS.
void CompleteBuildingDiscoveryResponse(
const std::string& resource_type, const std::string& v2_resource_type,
const int version, const SubscriptionNameMap& subscription_name_map,
const std::set<std::string>& resources_added_to_response,
SentState* sent_state, DiscoveryResponse* response) {
auto& response_state =
parent_->resource_type_response_state_[resource_type];
if (response_state.state == ResponseState::NOT_SENT) {
response_state.state = ResponseState::SENT;
}
response->set_type_url(is_v2_ ? v2_resource_type : resource_type);
response->set_version_info(std::to_string(version));
response->set_nonce(std::to_string(++sent_state->nonce));
if (resource_type == kLdsTypeUrl || resource_type == kCdsTypeUrl) {
// For LDS and CDS we must send back all subscribed resources
// (even the unchanged ones)
for (const auto& p : subscription_name_map) {
const std::string& resource_name = p.first;
if (resources_added_to_response.find(resource_name) ==
resources_added_to_response.end()) {
ResourceNameMap& resource_name_map =
parent_->resource_map_[resource_type].resource_name_map;
const ResourceState& resource_state =
resource_name_map[resource_name];
if (resource_state.resource.has_value()) {
auto* resource = response->add_resources();
resource->CopyFrom(resource_state.resource.value());
if (is_v2_) {
resource->set_type_url(v2_resource_type);
}
}
}
}
}
sent_state->resource_type_version = version;
}
static std::string TypeUrlToV2(const std::string& resource_type) {
if (resource_type == kLdsTypeUrl) return kLdsV2TypeUrl;
if (resource_type == kRdsTypeUrl) return kRdsV2TypeUrl;
if (resource_type == kCdsTypeUrl) return kCdsV2TypeUrl;
if (resource_type == kEdsTypeUrl) return kEdsV2TypeUrl;
return resource_type;
}
static std::string TypeUrlToV3(const std::string& resource_type) {
if (resource_type == kLdsV2TypeUrl) return kLdsTypeUrl;
if (resource_type == kRdsV2TypeUrl) return kRdsTypeUrl;
if (resource_type == kCdsV2TypeUrl) return kCdsTypeUrl;
if (resource_type == kEdsV2TypeUrl) return kEdsTypeUrl;
return resource_type;
}
static void CheckBuildVersion(
const ::envoy::api::v2::DiscoveryRequest& request) {
EXPECT_FALSE(request.node().build_version().empty());
}
static void CheckBuildVersion(
const ::envoy::service::discovery::v3::DiscoveryRequest& /*request*/) {}
AdsServiceImpl* parent_;
const bool is_v2_;
};
// Checks whether the client needs to receive a newer version of
// the resource.
static bool ClientNeedsResourceUpdate(
const ResourceTypeState& resource_type_state,
const ResourceState& resource_state, int client_resource_type_version) {
return client_resource_type_version <
resource_type_state.resource_type_version &&
resource_state.resource_type_version <=
resource_type_state.resource_type_version;
}
// Subscribes to a resource if not already subscribed:
// 1. Sets the update_queue field in subscription_state.
// 2. Adds subscription_state to resource_state->subscriptions.
bool MaybeSubscribe(const std::string& resource_type,
const std::string& resource_name,
SubscriptionState* subscription_state,
ResourceState* resource_state,
UpdateQueue* update_queue) {
// The update_queue will be null if we were not previously subscribed.
if (subscription_state->update_queue != nullptr) return false;
subscription_state->update_queue = update_queue;
resource_state->subscriptions.emplace(subscription_state);
gpr_log(GPR_INFO, "ADS[%p]: subscribe to resource type %s name %s state %p",
this, resource_type.c_str(), resource_name.c_str(),
&subscription_state);
return true;
}
// Removes subscriptions for resources no longer present in the
// current request.
void ProcessUnsubscriptions(
const std::string& resource_type,
const std::set<std::string>& resources_in_current_request,
SubscriptionNameMap* subscription_name_map,
ResourceNameMap* resource_name_map) {
for (auto it = subscription_name_map->begin();
it != subscription_name_map->end();) {
const std::string& resource_name = it->first;
SubscriptionState& subscription_state = it->second;
if (resources_in_current_request.find(resource_name) !=
resources_in_current_request.end()) {
++it;
continue;
}
gpr_log(GPR_INFO, "ADS[%p]: Unsubscribe to type=%s name=%s state=%p",
this, resource_type.c_str(), resource_name.c_str(),
&subscription_state);
auto resource_it = resource_name_map->find(resource_name);
GPR_ASSERT(resource_it != resource_name_map->end());
auto& resource_state = resource_it->second;
resource_state.subscriptions.erase(&subscription_state);
if (resource_state.subscriptions.empty() &&
!resource_state.resource.has_value()) {
resource_name_map->erase(resource_it);
}
it = subscription_name_map->erase(it);
}
}
void AddClient(const std::string& client) {
grpc_core::MutexLock lock(&clients_mu_);
clients_.insert(client);
}
void RemoveClient(const std::string& client) {
grpc_core::MutexLock lock(&clients_mu_);
clients_.erase(client);
}
RpcService<::envoy::service::discovery::v2::AggregatedDiscoveryService,
::envoy::api::v2::DiscoveryRequest,
::envoy::api::v2::DiscoveryResponse>
v2_rpc_service_;
RpcService<::envoy::service::discovery::v3::AggregatedDiscoveryService,
::envoy::service::discovery::v3::DiscoveryRequest,
::envoy::service::discovery::v3::DiscoveryResponse>
v3_rpc_service_;
std::atomic_bool seen_v2_client_{false};
std::atomic_bool seen_v3_client_{false};
grpc_core::CondVar ads_cond_;
// Protect the members below.
grpc_core::Mutex ads_mu_;
bool ads_done_ = false;
std::map<std::string /* type_url */, ResponseState>
resource_type_response_state_;
std::set<std::string /*resource_type*/> resource_types_to_ignore_;
std::map<std::string /*resource_type*/, int> resource_type_min_versions_;
// An instance data member containing the current state of all resources.
// Note that an entry will exist whenever either of the following is true:
// - The resource exists (i.e., has been created by SetResource() and has not
// yet been destroyed by UnsetResource()).
// - There is at least one subscription for the resource.
ResourceMap resource_map_;
grpc_core::Mutex clients_mu_;
std::set<std::string> clients_;
};
class LrsServiceImpl : public std::enable_shared_from_this<LrsServiceImpl> {
public:
explicit LrsServiceImpl(int client_load_reporting_interval_seconds)
: v2_rpc_service_(this),
v3_rpc_service_(this),
client_load_reporting_interval_seconds_(
client_load_reporting_interval_seconds),
cluster_names_({kDefaultClusterName}) {}
::envoy::service::load_stats::v2::LoadReportingService::Service*
v2_rpc_service() {
return &v2_rpc_service_;
}
::envoy::service::load_stats::v3::LoadReportingService::Service*
v3_rpc_service() {
return &v3_rpc_service_;
}
size_t request_count() {
return v2_rpc_service_.request_count() + v3_rpc_service_.request_count();
}
size_t response_count() {
return v2_rpc_service_.response_count() + v3_rpc_service_.response_count();
}
// Must be called before the LRS call is started.
void set_send_all_clusters(bool send_all_clusters) {
send_all_clusters_ = send_all_clusters;
}
void set_cluster_names(const std::set<std::string>& cluster_names) {
cluster_names_ = cluster_names;
}
void Start() {
lrs_done_ = false;
result_queue_.clear();
}
void Shutdown() {
{
grpc_core::MutexLock lock(&lrs_mu_);
NotifyDoneWithLrsCallLocked();
}
gpr_log(GPR_INFO, "LRS[%p]: shut down", this);
}
std::vector<ClientStats> WaitForLoadReport() {
grpc_core::MutexLock lock(&load_report_mu_);
grpc_core::CondVar cv;
if (result_queue_.empty()) {
load_report_cond_ = &cv;
grpc_core::WaitUntil(load_report_cond_, &load_report_mu_,
[this] { return !result_queue_.empty(); });
load_report_cond_ = nullptr;
}
std::vector<ClientStats> result = std::move(result_queue_.front());
result_queue_.pop_front();
return result;
}
void NotifyDoneWithLrsCall() {
grpc_core::MutexLock lock(&lrs_mu_);
NotifyDoneWithLrsCallLocked();
}
private:
template <class RpcApi, class LoadStatsRequest, class LoadStatsResponse>
class RpcService : public CountedService<typename RpcApi::Service> {
public:
using Stream = ServerReaderWriter<LoadStatsResponse, LoadStatsRequest>;
explicit RpcService(LrsServiceImpl* parent) : parent_(parent) {}
Status StreamLoadStats(ServerContext* /*context*/,
Stream* stream) override {
gpr_log(GPR_INFO, "LRS[%p]: StreamLoadStats starts", this);
EXPECT_GT(parent_->client_load_reporting_interval_seconds_, 0);
// Take a reference of the LrsServiceImpl object, reference will go
// out of scope after this method exits.
std::shared_ptr<LrsServiceImpl> lrs_service_impl =
parent_->shared_from_this();
// Read initial request.
LoadStatsRequest request;
if (stream->Read(&request)) {
CountedService<typename RpcApi::Service>::IncreaseRequestCount();
// Verify client features.
EXPECT_THAT(
request.node().client_features(),
::testing::Contains("envoy.lrs.supports_send_all_clusters"));
// Send initial response.
LoadStatsResponse response;
if (parent_->send_all_clusters_) {
response.set_send_all_clusters(true);
} else {
for (const std::string& cluster_name : parent_->cluster_names_) {
response.add_clusters(cluster_name);
}
}
response.mutable_load_reporting_interval()->set_seconds(
parent_->client_load_reporting_interval_seconds_);
stream->Write(response);
CountedService<typename RpcApi::Service>::IncreaseResponseCount();
// Wait for report.
request.Clear();
while (stream->Read(&request)) {
gpr_log(GPR_INFO, "LRS[%p]: received client load report message: %s",
this, request.DebugString().c_str());
std::vector<ClientStats> stats;
for (const auto& cluster_stats : request.cluster_stats()) {
stats.emplace_back(cluster_stats);
}
grpc_core::MutexLock lock(&parent_->load_report_mu_);
parent_->result_queue_.emplace_back(std::move(stats));
if (parent_->load_report_cond_ != nullptr) {
parent_->load_report_cond_->Signal();
}
}
// Wait until notified done.
grpc_core::MutexLock lock(&parent_->lrs_mu_);
grpc_core::WaitUntil(&parent_->lrs_cv_, &parent_->lrs_mu_,
[this] { return parent_->lrs_done_; });
}
gpr_log(GPR_INFO, "LRS[%p]: StreamLoadStats done", this);
return Status::OK;
}
private:
LrsServiceImpl* parent_;
};
void NotifyDoneWithLrsCallLocked() {
if (!lrs_done_) {
lrs_done_ = true;
lrs_cv_.SignalAll();
}
}
RpcService<::envoy::service::load_stats::v2::LoadReportingService,
::envoy::service::load_stats::v2::LoadStatsRequest,
::envoy::service::load_stats::v2::LoadStatsResponse>
v2_rpc_service_;
RpcService<::envoy::service::load_stats::v3::LoadReportingService,
::envoy::service::load_stats::v3::LoadStatsRequest,
::envoy::service::load_stats::v3::LoadStatsResponse>
v3_rpc_service_;
const int client_load_reporting_interval_seconds_;
bool send_all_clusters_ = false;
std::set<std::string> cluster_names_;
grpc_core::CondVar lrs_cv_;
grpc_core::Mutex lrs_mu_; // Protects lrs_done_.
bool lrs_done_ = false;
grpc_core::Mutex load_report_mu_; // Protects the members below.
grpc_core::CondVar* load_report_cond_ = nullptr;
std::deque<std::vector<ClientStats>> result_queue_;
};
class TestType {
public:
enum FilterConfigSetup {
// Set the fault injection filter directly from LDS
kHTTPConnectionManagerOriginal,
// Enable the fault injection filter in LDS, but override the filter config
// in route.
kRouteOverride,
};
enum BootstrapSource {
kBootstrapFromChannelArg,
kBootstrapFromFile,
kBootstrapFromEnvVar,
};
TestType& set_use_fake_resolver() {
use_fake_resolver_ = true;
return *this;
}
TestType& set_enable_load_reporting() {
enable_load_reporting_ = true;
return *this;
}
TestType& set_enable_rds_testing() {
enable_rds_testing_ = true;
return *this;
}
TestType& set_use_v2() {
use_v2_ = true;
return *this;
}
TestType& set_use_xds_credentials() {
use_xds_credentials_ = true;
return *this;
}
TestType& set_use_csds_streaming() {
use_csds_streaming_ = true;
return *this;
}
TestType& set_filter_config_setup(FilterConfigSetup setup) {
filter_config_setup_ = setup;
return *this;
}
TestType& set_bootstrap_source(BootstrapSource bootstrap_source) {
bootstrap_source_ = bootstrap_source;
return *this;
}
bool use_fake_resolver() const { return use_fake_resolver_; }
bool enable_load_reporting() const { return enable_load_reporting_; }
bool enable_rds_testing() const { return enable_rds_testing_; }
bool use_v2() const { return use_v2_; }
bool use_xds_credentials() const { return use_xds_credentials_; }
bool use_csds_streaming() const { return use_csds_streaming_; }
FilterConfigSetup filter_config_setup() const { return filter_config_setup_; }
BootstrapSource bootstrap_source() const { return bootstrap_source_; }
std::string AsString() const {
std::string retval = (use_fake_resolver_ ? "FakeResolver" : "XdsResolver");
retval += (use_v2_ ? "V2" : "V3");
if (enable_load_reporting_) retval += "WithLoadReporting";
if (enable_rds_testing_) retval += "Rds";
if (use_xds_credentials_) retval += "XdsCreds";
if (use_csds_streaming_) retval += "CsdsStreaming";
if (filter_config_setup_ == kRouteOverride) {
retval += "FilterPerRouteOverride";
}
if (bootstrap_source_ == kBootstrapFromFile) {
retval += "BootstrapFromFile";
} else if (bootstrap_source_ == kBootstrapFromEnvVar) {
retval += "BootstrapFromEnvVar";
}
return retval;
}
private:
bool use_fake_resolver_ = false;
bool enable_load_reporting_ = false;
bool enable_rds_testing_ = false;
bool use_v2_ = false;
bool use_xds_credentials_ = false;
bool use_csds_streaming_ = false;
FilterConfigSetup filter_config_setup_ = kHTTPConnectionManagerOriginal;
BootstrapSource bootstrap_source_ = kBootstrapFromChannelArg;
};
std::string ReadFile(const char* file_path) {
grpc_slice slice;
GPR_ASSERT(
GRPC_LOG_IF_ERROR("load_file", grpc_load_file(file_path, 0, &slice)));
std::string file_contents(grpc_core::StringViewFromSlice(slice));
grpc_slice_unref(slice);
return file_contents;
}
grpc_core::PemKeyCertPairList ReadTlsIdentityPair(const char* key_path,
const char* cert_path) {
return grpc_core::PemKeyCertPairList{
grpc_core::PemKeyCertPair(ReadFile(key_path), ReadFile(cert_path))};
}
// Based on StaticDataCertificateProvider, but provides alternate certificates
// if the certificate name is not empty.
class FakeCertificateProvider final : public grpc_tls_certificate_provider {
public:
struct CertData {
std::string root_certificate;
grpc_core::PemKeyCertPairList identity_key_cert_pairs;
};
using CertDataMap = std::map<std::string /*cert_name */, CertData>;
explicit FakeCertificateProvider(CertDataMap cert_data_map)
: distributor_(
grpc_core::MakeRefCounted<grpc_tls_certificate_distributor>()),
cert_data_map_(std::move(cert_data_map)) {
distributor_->SetWatchStatusCallback([this](std::string cert_name,
bool root_being_watched,
bool identity_being_watched) {
if (!root_being_watched && !identity_being_watched) return;
auto it = cert_data_map_.find(cert_name);
if (it == cert_data_map_.end()) {
grpc_error_handle error = GRPC_ERROR_CREATE_FROM_COPIED_STRING(
absl::StrCat("No certificates available for cert_name \"",
cert_name, "\"")
.c_str());
distributor_->SetErrorForCert(cert_name, GRPC_ERROR_REF(error),
GRPC_ERROR_REF(error));
GRPC_ERROR_UNREF(error);
} else {
absl::optional<std::string> root_certificate;
absl::optional<grpc_core::PemKeyCertPairList> pem_key_cert_pairs;
if (root_being_watched) {
root_certificate = it->second.root_certificate;
}
if (identity_being_watched) {
pem_key_cert_pairs = it->second.identity_key_cert_pairs;
}
distributor_->SetKeyMaterials(cert_name, std::move(root_certificate),
std::move(pem_key_cert_pairs));
}
});
}
~FakeCertificateProvider() override {
distributor_->SetWatchStatusCallback(nullptr);
}
grpc_core::RefCountedPtr<grpc_tls_certificate_distributor> distributor()
const override {
return distributor_;
}
private:
grpc_core::RefCountedPtr<grpc_tls_certificate_distributor> distributor_;
CertDataMap cert_data_map_;
};
class FakeCertificateProviderFactory
: public grpc_core::CertificateProviderFactory {
public:
class Config : public grpc_core::CertificateProviderFactory::Config {
public:
explicit Config(const char* name) : name_(name) {}
const char* name() const override { return name_; }
std::string ToString() const override { return "{}"; }
private:
const char* name_;
};
FakeCertificateProviderFactory(
const char* name, FakeCertificateProvider::CertDataMap** cert_data_map)
: name_(name), cert_data_map_(cert_data_map) {
GPR_ASSERT(cert_data_map != nullptr);
}
const char* name() const override { return name_; }
grpc_core::RefCountedPtr<grpc_core::CertificateProviderFactory::Config>
CreateCertificateProviderConfig(const grpc_core::Json& /*config_json*/,
grpc_error_handle* /*error*/) override {
return grpc_core::MakeRefCounted<Config>(name_);
}
grpc_core::RefCountedPtr<grpc_tls_certificate_provider>
CreateCertificateProvider(
grpc_core::RefCountedPtr<grpc_core::CertificateProviderFactory::Config>
/*config*/) override {
if (*cert_data_map_ == nullptr) return nullptr;
return grpc_core::MakeRefCounted<FakeCertificateProvider>(**cert_data_map_);
}
private:
const char* name_;
FakeCertificateProvider::CertDataMap** cert_data_map_;
};
// Global variables for each provider.
FakeCertificateProvider::CertDataMap* g_fake1_cert_data_map = nullptr;
FakeCertificateProvider::CertDataMap* g_fake2_cert_data_map = nullptr;
int ServerAuthCheckSchedule(void* /* config_user_data */,
grpc_tls_server_authorization_check_arg* arg) {
arg->success = 1;
arg->status = GRPC_STATUS_OK;
return 0; /* synchronous check */
}
std::shared_ptr<ChannelCredentials> CreateTlsFallbackCredentials() {
// TODO(yashykt): Switch to using C++ API once b/173823806 is fixed.
grpc_tls_credentials_options* options = grpc_tls_credentials_options_create();
grpc_tls_credentials_options_set_server_verification_option(
options, GRPC_TLS_SKIP_HOSTNAME_VERIFICATION);
grpc_tls_credentials_options_set_certificate_provider(
options,
grpc_core::MakeRefCounted<grpc_core::StaticDataCertificateProvider>(
ReadFile(kCaCertPath),
ReadTlsIdentityPair(kServerKeyPath, kServerCertPath))
.get());
grpc_tls_credentials_options_watch_root_certs(options);
grpc_tls_credentials_options_watch_identity_key_cert_pairs(options);
grpc_tls_server_authorization_check_config* check_config =
grpc_tls_server_authorization_check_config_create(
nullptr, ServerAuthCheckSchedule, nullptr, nullptr);
grpc_tls_credentials_options_set_server_authorization_check_config(
options, check_config);
auto channel_creds = std::make_shared<SecureChannelCredentials>(
grpc_tls_credentials_create(options));
grpc_tls_server_authorization_check_config_release(check_config);
return channel_creds;
}
// A No-op HTTP filter used for verifying parsing logic.
class NoOpHttpFilter : public grpc_core::XdsHttpFilterImpl {
public:
NoOpHttpFilter(std::string name, bool supported_on_clients,
bool supported_on_servers)
: name_(std::move(name)),
supported_on_clients_(supported_on_clients),
supported_on_servers_(supported_on_servers) {}
void PopulateSymtab(upb_symtab* /* symtab */) const override {}
absl::StatusOr<grpc_core::XdsHttpFilterImpl::FilterConfig>
GenerateFilterConfig(upb_strview /* serialized_filter_config */,
upb_arena* /* arena */) const override {
return grpc_core::XdsHttpFilterImpl::FilterConfig{name_, grpc_core::Json()};
}
absl::StatusOr<grpc_core::XdsHttpFilterImpl::FilterConfig>
GenerateFilterConfigOverride(upb_strview /*serialized_filter_config*/,
upb_arena* /*arena*/) const override {
return grpc_core::XdsHttpFilterImpl::FilterConfig{name_, grpc_core::Json()};
}
const grpc_channel_filter* channel_filter() const override { return nullptr; }
absl::StatusOr<grpc_core::XdsHttpFilterImpl::ServiceConfigJsonEntry>
GenerateServiceConfig(
const FilterConfig& /*hcm_filter_config*/,
const FilterConfig* /*filter_config_override*/) const override {
return grpc_core::XdsHttpFilterImpl::ServiceConfigJsonEntry{name_, ""};
}
bool IsSupportedOnClients() const override { return supported_on_clients_; }
bool IsSupportedOnServers() const override { return supported_on_servers_; }
private:
const std::string name_;
const bool supported_on_clients_;
const bool supported_on_servers_;
};
// There is slight difference between time fetched by GPR and by C++ system
// clock API. It's unclear if they are using the same syscall, but we do know
// GPR round the number at millisecond-level. This creates a 1ms difference,
// which could cause flake.
grpc_millis NowFromCycleCounter() {
gpr_cycle_counter now = gpr_get_cycle_counter();
return grpc_cycle_counter_to_millis_round_up(now);
}
// Channel arg pointer vtable for storing xDS channel args in the parent
// channel's channel args.
void* ChannelArgsArgCopy(void* p) {
auto* args = static_cast<grpc_channel_args*>(p);
return grpc_channel_args_copy(args);
}
void ChannelArgsArgDestroy(void* p) {
auto* args = static_cast<grpc_channel_args*>(p);
grpc_channel_args_destroy(args);
}
int ChannelArgsArgCmp(void* a, void* b) {
auto* args_a = static_cast<grpc_channel_args*>(a);
auto* args_b = static_cast<grpc_channel_args*>(b);
return grpc_channel_args_compare(args_a, args_b);
}
const grpc_arg_pointer_vtable kChannelArgsArgVtable = {
ChannelArgsArgCopy, ChannelArgsArgDestroy, ChannelArgsArgCmp};
class XdsEnd2endTest : public ::testing::TestWithParam<TestType> {
protected:
// TODO(roth): We currently set the number of backends and number of
// balancers on a per-test-suite basis, not a per-test-case basis.
// However, not every individual test case in a given test suite uses
// the same number of backends or balancers, so we wind up having to
// set the numbers for the test suite to the max number needed by any
// one test case in that test suite. This results in starting more
// servers (and using more ports) than we actually need. When we have
// time, change each test to directly start the number of backends and
// balancers that it needs, so that we aren't wasting resources.
XdsEnd2endTest(size_t num_backends, size_t num_balancers,
int client_load_reporting_interval_seconds = 100,
bool use_xds_enabled_server = false)
: num_backends_(num_backends),
num_balancers_(num_balancers),
client_load_reporting_interval_seconds_(
client_load_reporting_interval_seconds),
use_xds_enabled_server_(use_xds_enabled_server) {}
void SetUp() override {
bool localhost_resolves_to_ipv4 = false;
bool localhost_resolves_to_ipv6 = false;
grpc_core::LocalhostResolves(&localhost_resolves_to_ipv4,
&localhost_resolves_to_ipv6);
ipv6_only_ = !localhost_resolves_to_ipv4 && localhost_resolves_to_ipv6;
// Initialize default xDS resources.
// Construct LDS resource.
default_listener_.set_name(kServerName);
HttpConnectionManager http_connection_manager;
if (!GetParam().use_v2()) {
auto* filter = http_connection_manager.add_http_filters();
filter->set_name("router");
filter->mutable_typed_config()->PackFrom(
envoy::extensions::filters::http::router::v3::Router());
}
default_listener_.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
// Construct RDS resource.
default_route_config_.set_name(kDefaultRouteConfigurationName);
auto* virtual_host = default_route_config_.add_virtual_hosts();
virtual_host->add_domains("*");
auto* route = virtual_host->add_routes();
route->mutable_match()->set_prefix("");
route->mutable_route()->set_cluster(kDefaultClusterName);
// Construct CDS resource.
default_cluster_.set_name(kDefaultClusterName);
default_cluster_.set_type(Cluster::EDS);
auto* eds_config = default_cluster_.mutable_eds_cluster_config();
eds_config->mutable_eds_config()->mutable_ads();
eds_config->set_service_name(kDefaultEdsServiceName);
default_cluster_.set_lb_policy(Cluster::ROUND_ROBIN);
if (GetParam().enable_load_reporting()) {
default_cluster_.mutable_lrs_server()->mutable_self();
}
// Start the load balancers.
for (size_t i = 0; i < num_balancers_; ++i) {
balancers_.emplace_back(new BalancerServerThread(
this, GetParam().enable_load_reporting()
? client_load_reporting_interval_seconds_
: 0));
balancers_.back()->Start();
// Initialize resources.
SetListenerAndRouteConfiguration(i, default_listener_,
default_route_config_);
balancers_.back()->ads_service()->SetCdsResource(default_cluster_);
}
// Create fake resolver response generators used by client.
if (GetParam().use_fake_resolver()) {
response_generator_ =
grpc_core::MakeRefCounted<grpc_core::FakeResolverResponseGenerator>();
}
logical_dns_cluster_resolver_response_generator_ =
grpc_core::MakeRefCounted<grpc_core::FakeResolverResponseGenerator>();
lb_channel_response_generator_ =
grpc_core::MakeRefCounted<grpc_core::FakeResolverResponseGenerator>();
// Construct channel args for XdsClient.
xds_channel_args_to_add_.emplace_back(
grpc_core::FakeResolverResponseGenerator::MakeChannelArg(
lb_channel_response_generator_.get()));
if (xds_resource_does_not_exist_timeout_ms_ > 0) {
xds_channel_args_to_add_.emplace_back(grpc_channel_arg_integer_create(
const_cast<char*>(GRPC_ARG_XDS_RESOURCE_DOES_NOT_EXIST_TIMEOUT_MS),
xds_resource_does_not_exist_timeout_ms_));
}
xds_channel_args_.num_args = xds_channel_args_to_add_.size();
xds_channel_args_.args = xds_channel_args_to_add_.data();
// Initialize XdsClient state.
// TODO(roth): Consider changing this to dynamically generate the
// bootstrap config in each individual test instead of hard-coding
// the contents here. That would allow us to use an ipv4: or ipv6:
// URI for the xDS server instead of using the fake resolver.
if (GetParam().bootstrap_source() == TestType::kBootstrapFromEnvVar) {
gpr_setenv("GRPC_XDS_BOOTSTRAP_CONFIG",
GetParam().use_v2() ? kBootstrapFileV2 : kBootstrapFileV3);
} else if (GetParam().bootstrap_source() == TestType::kBootstrapFromFile) {
gpr_setenv("GRPC_XDS_BOOTSTRAP", GetParam().use_v2()
? g_bootstrap_file_v2
: g_bootstrap_file_v3);
}
if (GetParam().bootstrap_source() != TestType::kBootstrapFromChannelArg) {
// If getting bootstrap from channel arg, we'll pass these args in
// via the parent channel args in CreateChannel() instead.
grpc_core::internal::SetXdsChannelArgsForTest(&xds_channel_args_);
// Make sure each test creates a new XdsClient instance rather than
// reusing the one from the previous test. This avoids spurious failures
// caused when a load reporting test runs after a non-load reporting test
// and the XdsClient is still talking to the old LRS server, which fails
// because it's not expecting the client to connect. It also
// ensures that each test can independently set the global channel
// args for the xDS channel.
grpc_core::internal::UnsetGlobalXdsClientForTest();
}
// Start the backends.
for (size_t i = 0; i < num_backends_; ++i) {
backends_.emplace_back(
new BackendServerThread(this, use_xds_enabled_server_));
backends_.back()->Start();
}
// Create channel and stub.
ResetStub();
}
const char* DefaultEdsServiceName() const {
return GetParam().use_fake_resolver() ? kServerName
: kDefaultEdsServiceName;
}
void TearDown() override {
ShutdownAllBackends();
for (auto& balancer : balancers_) balancer->Shutdown();
// Clear global xDS channel args, since they will go out of scope
// when this test object is destroyed.
grpc_core::internal::SetXdsChannelArgsForTest(nullptr);
gpr_unsetenv("GRPC_XDS_BOOTSTRAP");
gpr_unsetenv("GRPC_XDS_BOOTSTRAP_CONFIG");
}
void StartAllBackends() {
for (auto& backend : backends_) backend->Start();
}
void StartBackend(size_t index) { backends_[index]->Start(); }
void ShutdownAllBackends() {
for (auto& backend : backends_) backend->Shutdown();
}
void ShutdownBackend(size_t index) { backends_[index]->Shutdown(); }
void ResetStub(int failover_timeout = 0) {
channel_ = CreateChannel(failover_timeout);
stub_ = grpc::testing::EchoTestService::NewStub(channel_);
stub1_ = grpc::testing::EchoTest1Service::NewStub(channel_);
stub2_ = grpc::testing::EchoTest2Service::NewStub(channel_);
}
std::shared_ptr<Channel> CreateChannel(
int failover_timeout = 0, const char* server_name = kServerName,
grpc_core::FakeResolverResponseGenerator* response_generator = nullptr,
grpc_channel_args* xds_channel_args = nullptr) {
ChannelArguments args;
if (failover_timeout > 0) {
args.SetInt(GRPC_ARG_PRIORITY_FAILOVER_TIMEOUT_MS, failover_timeout);
}
// If the parent channel is using the fake resolver, we inject the
// response generator here.
if (GetParam().use_fake_resolver()) {
if (response_generator == nullptr) {
response_generator = response_generator_.get();
}
args.SetPointerWithVtable(
GRPC_ARG_FAKE_RESOLVER_RESPONSE_GENERATOR, response_generator,
&grpc_core::FakeResolverResponseGenerator::kChannelArgPointerVtable);
}
if (GetParam().bootstrap_source() == TestType::kBootstrapFromChannelArg) {
// We're getting the bootstrap from a channel arg, so we do the
// same thing for the response generator to use for the xDS
// channel and the xDS resource-does-not-exist timeout value.
args.SetString(GRPC_ARG_TEST_ONLY_DO_NOT_USE_IN_PROD_XDS_BOOTSTRAP_CONFIG,
GetParam().use_v2() ? kBootstrapFileV2 : kBootstrapFileV3);
if (xds_channel_args == nullptr) xds_channel_args = &xds_channel_args_;
args.SetPointerWithVtable(
GRPC_ARG_TEST_ONLY_DO_NOT_USE_IN_PROD_XDS_CLIENT_CHANNEL_ARGS,
xds_channel_args, &kChannelArgsArgVtable);
}
args.SetPointerWithVtable(
GRPC_ARG_XDS_LOGICAL_DNS_CLUSTER_FAKE_RESOLVER_RESPONSE_GENERATOR,
logical_dns_cluster_resolver_response_generator_.get(),
&grpc_core::FakeResolverResponseGenerator::kChannelArgPointerVtable);
std::string uri = absl::StrCat(
GetParam().use_fake_resolver() ? "fake" : "xds", ":///", server_name);
std::shared_ptr<ChannelCredentials> channel_creds =
GetParam().use_xds_credentials()
? experimental::XdsCredentials(CreateTlsFallbackCredentials())
: std::make_shared<SecureChannelCredentials>(
grpc_fake_transport_security_credentials_create());
return ::grpc::CreateCustomChannel(uri, channel_creds, args);
}
enum RpcService {
SERVICE_ECHO,
SERVICE_ECHO1,
SERVICE_ECHO2,
};
enum RpcMethod {
METHOD_ECHO,
METHOD_ECHO1,
METHOD_ECHO2,
};
struct RpcOptions {
RpcService service = SERVICE_ECHO;
RpcMethod method = METHOD_ECHO;
int timeout_ms = 1000;
bool wait_for_ready = false;
bool server_fail = false;
std::vector<std::pair<std::string, std::string>> metadata;
int client_cancel_after_us = 0;
bool skip_cancelled_check = false;
RpcOptions() {}
RpcOptions& set_rpc_service(RpcService rpc_service) {
service = rpc_service;
return *this;
}
RpcOptions& set_rpc_method(RpcMethod rpc_method) {
method = rpc_method;
return *this;
}
RpcOptions& set_timeout_ms(int rpc_timeout_ms) {
timeout_ms = rpc_timeout_ms;
return *this;
}
RpcOptions& set_wait_for_ready(bool rpc_wait_for_ready) {
wait_for_ready = rpc_wait_for_ready;
return *this;
}
RpcOptions& set_server_fail(bool rpc_server_fail) {
server_fail = rpc_server_fail;
return *this;
}
RpcOptions& set_skip_cancelled_check(bool rpc_skip_cancelled_check) {
skip_cancelled_check = rpc_skip_cancelled_check;
return *this;
}
RpcOptions& set_metadata(
std::vector<std::pair<std::string, std::string>> rpc_metadata) {
metadata = std::move(rpc_metadata);
return *this;
}
RpcOptions& set_client_cancel_after_us(int rpc_client_cancel_after_us) {
client_cancel_after_us = rpc_client_cancel_after_us;
return *this;
}
// Populates context and request.
void SetupRpc(ClientContext* context, EchoRequest* request) const {
for (const auto& item : metadata) {
context->AddMetadata(item.first, item.second);
}
if (timeout_ms != 0) {
context->set_deadline(
grpc_timeout_milliseconds_to_deadline(timeout_ms));
}
if (wait_for_ready) context->set_wait_for_ready(true);
request->set_message(kRequestMessage);
if (server_fail) {
request->mutable_param()->mutable_expected_error()->set_code(
GRPC_STATUS_FAILED_PRECONDITION);
}
if (client_cancel_after_us != 0) {
request->mutable_param()->set_client_cancel_after_us(
client_cancel_after_us);
}
if (skip_cancelled_check) {
request->mutable_param()->set_skip_cancelled_check(true);
}
}
};
template <typename Stub>
Status SendRpcMethod(Stub* stub, const RpcOptions& rpc_options,
ClientContext* context, EchoRequest& request,
EchoResponse* response) {
switch (rpc_options.method) {
case METHOD_ECHO:
return (*stub)->Echo(context, request, response);
case METHOD_ECHO1:
return (*stub)->Echo1(context, request, response);
case METHOD_ECHO2:
return (*stub)->Echo2(context, request, response);
}
GPR_UNREACHABLE_CODE();
}
void ResetBackendCounters(size_t start_index = 0, size_t stop_index = 0) {
if (stop_index == 0) stop_index = backends_.size();
for (size_t i = start_index; i < stop_index; ++i) {
backends_[i]->backend_service()->ResetCounters();
backends_[i]->backend_service1()->ResetCounters();
backends_[i]->backend_service2()->ResetCounters();
}
}
bool SeenAllBackends(size_t start_index = 0, size_t stop_index = 0,
const RpcOptions& rpc_options = RpcOptions()) {
if (stop_index == 0) stop_index = backends_.size();
for (size_t i = start_index; i < stop_index; ++i) {
switch (rpc_options.service) {
case SERVICE_ECHO:
if (backends_[i]->backend_service()->request_count() == 0) {
return false;
}
break;
case SERVICE_ECHO1:
if (backends_[i]->backend_service1()->request_count() == 0) {
return false;
}
break;
case SERVICE_ECHO2:
if (backends_[i]->backend_service2()->request_count() == 0) {
return false;
}
break;
}
}
return true;
}
void SendRpcAndCount(int* num_total, int* num_ok, int* num_failure,
int* num_drops,
const RpcOptions& rpc_options = RpcOptions(),
const char* drop_error_message =
"Call dropped by load balancing policy") {
const Status status = SendRpc(rpc_options);
if (status.ok()) {
++*num_ok;
} else {
if (status.error_message() == drop_error_message) {
++*num_drops;
} else {
++*num_failure;
}
}
++*num_total;
}
std::tuple<int, int, int> WaitForAllBackends(
size_t start_index = 0, size_t stop_index = 0, bool reset_counters = true,
const RpcOptions& rpc_options = RpcOptions(),
bool allow_failures = false) {
int num_ok = 0;
int num_failure = 0;
int num_drops = 0;
int num_total = 0;
while (!SeenAllBackends(start_index, stop_index, rpc_options)) {
SendRpcAndCount(&num_total, &num_ok, &num_failure, &num_drops,
rpc_options);
}
if (reset_counters) ResetBackendCounters();
gpr_log(GPR_INFO,
"Performed %d warm up requests against the backends. "
"%d succeeded, %d failed, %d dropped.",
num_total, num_ok, num_failure, num_drops);
if (!allow_failures) EXPECT_EQ(num_failure, 0);
return std::make_tuple(num_ok, num_failure, num_drops);
}
void WaitForBackend(size_t backend_idx, bool reset_counters = true,
bool require_success = false) {
gpr_log(GPR_INFO, "========= WAITING FOR BACKEND %lu ==========",
static_cast<unsigned long>(backend_idx));
do {
Status status = SendRpc();
if (require_success) {
EXPECT_TRUE(status.ok()) << "code=" << status.error_code()
<< " message=" << status.error_message();
}
} while (backends_[backend_idx]->backend_service()->request_count() == 0);
if (reset_counters) ResetBackendCounters();
gpr_log(GPR_INFO, "========= BACKEND %lu READY ==========",
static_cast<unsigned long>(backend_idx));
}
grpc_core::ServerAddressList CreateAddressListFromPortList(
const std::vector<int>& ports) {
grpc_core::ServerAddressList addresses;
for (int port : ports) {
absl::StatusOr<grpc_core::URI> lb_uri = grpc_core::URI::Parse(
absl::StrCat(ipv6_only_ ? "ipv6:[::1]:" : "ipv4:127.0.0.1:", port));
GPR_ASSERT(lb_uri.ok());
grpc_resolved_address address;
GPR_ASSERT(grpc_parse_uri(*lb_uri, &address));
addresses.emplace_back(address.addr, address.len, nullptr);
}
return addresses;
}
void SetNextResolution(
const std::vector<int>& ports,
grpc_core::FakeResolverResponseGenerator* response_generator = nullptr) {
if (!GetParam().use_fake_resolver()) return; // Not used with xds resolver.
grpc_core::ExecCtx exec_ctx;
grpc_core::Resolver::Result result;
result.addresses = CreateAddressListFromPortList(ports);
grpc_error_handle error = GRPC_ERROR_NONE;
const char* service_config_json =
GetParam().enable_load_reporting()
? kDefaultServiceConfig
: kDefaultServiceConfigWithoutLoadReporting;
result.service_config =
grpc_core::ServiceConfig::Create(nullptr, service_config_json, &error);
ASSERT_EQ(error, GRPC_ERROR_NONE) << grpc_error_std_string(error);
ASSERT_NE(result.service_config.get(), nullptr);
if (response_generator == nullptr) {
response_generator = response_generator_.get();
}
response_generator->SetResponse(std::move(result));
}
void SetNextResolutionForLbChannelAllBalancers(
const char* service_config_json = nullptr,
const char* expected_targets = nullptr,
grpc_core::FakeResolverResponseGenerator* response_generator = nullptr) {
std::vector<int> ports;
for (size_t i = 0; i < balancers_.size(); ++i) {
ports.emplace_back(balancers_[i]->port());
}
SetNextResolutionForLbChannel(ports, service_config_json, expected_targets,
response_generator);
}
void SetNextResolutionForLbChannel(
const std::vector<int>& ports, const char* service_config_json = nullptr,
const char* expected_targets = nullptr,
grpc_core::FakeResolverResponseGenerator* response_generator = nullptr) {
grpc_core::ExecCtx exec_ctx;
grpc_core::Resolver::Result result;
result.addresses = CreateAddressListFromPortList(ports);
if (service_config_json != nullptr) {
grpc_error_handle error = GRPC_ERROR_NONE;
result.service_config = grpc_core::ServiceConfig::Create(
nullptr, service_config_json, &error);
ASSERT_NE(result.service_config.get(), nullptr);
ASSERT_EQ(error, GRPC_ERROR_NONE) << grpc_error_std_string(error);
}
if (expected_targets != nullptr) {
grpc_arg expected_targets_arg = grpc_channel_arg_string_create(
const_cast<char*>(GRPC_ARG_FAKE_SECURITY_EXPECTED_TARGETS),
const_cast<char*>(expected_targets));
result.args =
grpc_channel_args_copy_and_add(nullptr, &expected_targets_arg, 1);
}
if (response_generator == nullptr) {
response_generator = lb_channel_response_generator_.get();
}
response_generator->SetResponse(std::move(result));
}
void SetNextReresolutionResponse(const std::vector<int>& ports) {
grpc_core::ExecCtx exec_ctx;
grpc_core::Resolver::Result result;
result.addresses = CreateAddressListFromPortList(ports);
response_generator_->SetReresolutionResponse(std::move(result));
}
std::vector<int> GetBackendPorts(size_t start_index = 0,
size_t stop_index = 0) const {
if (stop_index == 0) stop_index = backends_.size();
std::vector<int> backend_ports;
for (size_t i = start_index; i < stop_index; ++i) {
backend_ports.push_back(backends_[i]->port());
}
return backend_ports;
}
Status SendRpc(const RpcOptions& rpc_options = RpcOptions(),
EchoResponse* response = nullptr) {
const bool local_response = (response == nullptr);
if (local_response) response = new EchoResponse;
ClientContext context;
EchoRequest request;
rpc_options.SetupRpc(&context, &request);
Status status;
switch (rpc_options.service) {
case SERVICE_ECHO:
status =
SendRpcMethod(&stub_, rpc_options, &context, request, response);
break;
case SERVICE_ECHO1:
status =
SendRpcMethod(&stub1_, rpc_options, &context, request, response);
break;
case SERVICE_ECHO2:
status =
SendRpcMethod(&stub2_, rpc_options, &context, request, response);
break;
}
if (local_response) delete response;
return status;
}
void CheckRpcSendOk(const size_t times = 1,
const RpcOptions& rpc_options = RpcOptions()) {
for (size_t i = 0; i < times; ++i) {
EchoResponse response;
const Status status = SendRpc(rpc_options, &response);
EXPECT_TRUE(status.ok()) << "code=" << status.error_code()
<< " message=" << status.error_message();
EXPECT_EQ(response.message(), kRequestMessage);
}
}
void CheckRpcSendFailure(
const size_t times = 1, const RpcOptions& rpc_options = RpcOptions(),
const StatusCode expected_error_code = StatusCode::OK) {
for (size_t i = 0; i < times; ++i) {
const Status status = SendRpc(rpc_options);
EXPECT_FALSE(status.ok());
if (expected_error_code != StatusCode::OK) {
EXPECT_EQ(expected_error_code, status.error_code());
}
}
}
static Listener BuildListener(const RouteConfiguration& route_config) {
HttpConnectionManager http_connection_manager;
*(http_connection_manager.mutable_route_config()) = route_config;
auto* filter = http_connection_manager.add_http_filters();
filter->set_name("router");
filter->mutable_typed_config()->PackFrom(
envoy::extensions::filters::http::router::v3::Router());
Listener listener;
listener.set_name(kServerName);
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
return listener;
}
ClusterLoadAssignment BuildEdsResource(
const AdsServiceImpl::EdsResourceArgs& args,
const char* eds_service_name = kDefaultEdsServiceName) {
ClusterLoadAssignment assignment;
assignment.set_cluster_name(eds_service_name);
for (const auto& locality : args.locality_list) {
auto* endpoints = assignment.add_endpoints();
endpoints->mutable_load_balancing_weight()->set_value(locality.lb_weight);
endpoints->set_priority(locality.priority);
endpoints->mutable_locality()->set_region(kDefaultLocalityRegion);
endpoints->mutable_locality()->set_zone(kDefaultLocalityZone);
endpoints->mutable_locality()->set_sub_zone(locality.sub_zone);
for (size_t i = 0; i < locality.ports.size(); ++i) {
const int& port = locality.ports[i];
auto* lb_endpoints = endpoints->add_lb_endpoints();
if (locality.health_statuses.size() > i &&
locality.health_statuses[i] != HealthStatus::UNKNOWN) {
lb_endpoints->set_health_status(locality.health_statuses[i]);
}
auto* endpoint = lb_endpoints->mutable_endpoint();
auto* address = endpoint->mutable_address();
auto* socket_address = address->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(port);
}
}
if (!args.drop_categories.empty()) {
auto* policy = assignment.mutable_policy();
for (const auto& p : args.drop_categories) {
const std::string& name = p.first;
const uint32_t parts_per_million = p.second;
auto* drop_overload = policy->add_drop_overloads();
drop_overload->set_category(name);
auto* drop_percentage = drop_overload->mutable_drop_percentage();
drop_percentage->set_numerator(parts_per_million);
drop_percentage->set_denominator(args.drop_denominator);
}
}
return assignment;
}
void SetListenerAndRouteConfiguration(
int idx, Listener listener, const RouteConfiguration& route_config) {
auto* api_listener =
listener.mutable_api_listener()->mutable_api_listener();
HttpConnectionManager http_connection_manager;
api_listener->UnpackTo(&http_connection_manager);
if (GetParam().enable_rds_testing()) {
auto* rds = http_connection_manager.mutable_rds();
rds->set_route_config_name(kDefaultRouteConfigurationName);
rds->mutable_config_source()->mutable_ads();
balancers_[idx]->ads_service()->SetRdsResource(route_config);
} else {
*http_connection_manager.mutable_route_config() = route_config;
}
api_listener->PackFrom(http_connection_manager);
balancers_[idx]->ads_service()->SetLdsResource(listener);
}
void SetRouteConfiguration(int idx, const RouteConfiguration& route_config) {
if (GetParam().enable_rds_testing()) {
balancers_[idx]->ads_service()->SetRdsResource(route_config);
} else {
balancers_[idx]->ads_service()->SetLdsResource(
BuildListener(route_config));
}
}
AdsServiceImpl::ResponseState RouteConfigurationResponseState(int idx) const {
AdsServiceImpl* ads_service = balancers_[idx]->ads_service();
if (GetParam().enable_rds_testing()) {
return ads_service->rds_response_state();
}
return ads_service->lds_response_state();
}
public:
// This method could benefit test subclasses; to make it accessible
// via bind with a qualified name, it needs to be public.
void SetEdsResourceWithDelay(size_t i,
const ClusterLoadAssignment& assignment,
int delay_ms) {
GPR_ASSERT(delay_ms > 0);
gpr_sleep_until(grpc_timeout_milliseconds_to_deadline(delay_ms));
balancers_[i]->ads_service()->SetEdsResource(assignment);
}
protected:
class XdsServingStatusNotifier
: public grpc::experimental::XdsServerServingStatusNotifierInterface {
public:
void OnServingStatusUpdate(std::string uri, grpc::Status status) override {
grpc_core::MutexLock lock(&mu_);
status_map[uri] = status;
cond_.Signal();
}
void WaitOnServingStatusChange(std::string uri,
grpc::StatusCode expected_status) {
grpc_core::MutexLock lock(&mu_);
std::map<std::string, grpc::Status>::iterator it;
while ((it = status_map.find(uri)) == status_map.end() ||
it->second.error_code() != expected_status) {
cond_.Wait(&mu_);
}
}
private:
grpc_core::Mutex mu_;
grpc_core::CondVar cond_;
std::map<std::string, grpc::Status> status_map;
};
class ServerThread {
public:
explicit ServerThread(XdsEnd2endTest* test_obj,
bool use_xds_enabled_server = false)
: test_obj_(test_obj),
port_(grpc_pick_unused_port_or_die()),
use_xds_enabled_server_(use_xds_enabled_server) {}
virtual ~ServerThread(){};
void Start() {
gpr_log(GPR_INFO, "starting %s server on port %d", Type(), port_);
GPR_ASSERT(!running_);
running_ = true;
StartAllServices();
grpc_core::Mutex mu;
// We need to acquire the lock here in order to prevent the notify_one
// by ServerThread::Serve from firing before the wait below is hit.
grpc_core::MutexLock lock(&mu);
grpc_core::CondVar cond;
thread_ = absl::make_unique<std::thread>(
std::bind(&ServerThread::Serve, this, &mu, &cond));
cond.Wait(&mu);
gpr_log(GPR_INFO, "%s server startup complete", Type());
}
void Serve(grpc_core::Mutex* mu, grpc_core::CondVar* cond) {
// We need to acquire the lock here in order to prevent the notify_one
// below from firing before its corresponding wait is executed.
grpc_core::MutexLock lock(mu);
std::ostringstream server_address;
server_address << "localhost:" << port_;
if (use_xds_enabled_server_) {
experimental::XdsServerBuilder builder;
if (GetParam().bootstrap_source() ==
TestType::kBootstrapFromChannelArg) {
builder.SetOption(
absl::make_unique<XdsChannelArgsServerBuilderOption>(test_obj_));
}
builder.set_status_notifier(&notifier_);
builder.AddListeningPort(server_address.str(), Credentials());
RegisterAllServices(&builder);
server_ = builder.BuildAndStart();
} else {
ServerBuilder builder;
builder.AddListeningPort(server_address.str(), Credentials());
RegisterAllServices(&builder);
server_ = builder.BuildAndStart();
}
cond->Signal();
}
void Shutdown() {
if (!running_) return;
gpr_log(GPR_INFO, "%s about to shutdown", Type());
ShutdownAllServices();
server_->Shutdown(grpc_timeout_milliseconds_to_deadline(0));
thread_->join();
gpr_log(GPR_INFO, "%s shutdown completed", Type());
running_ = false;
}
virtual std::shared_ptr<ServerCredentials> Credentials() {
return std::make_shared<SecureServerCredentials>(
grpc_fake_transport_security_server_credentials_create());
}
int port() const { return port_; }
bool use_xds_enabled_server() const { return use_xds_enabled_server_; }
XdsServingStatusNotifier* notifier() { return &notifier_; }
private:
class XdsChannelArgsServerBuilderOption
: public ::grpc::ServerBuilderOption {
public:
explicit XdsChannelArgsServerBuilderOption(XdsEnd2endTest* test_obj)
: test_obj_(test_obj) {}
void UpdateArguments(grpc::ChannelArguments* args) override {
args->SetString(
GRPC_ARG_TEST_ONLY_DO_NOT_USE_IN_PROD_XDS_BOOTSTRAP_CONFIG,
GetParam().use_v2() ? kBootstrapFileV2 : kBootstrapFileV3);
args->SetPointerWithVtable(
GRPC_ARG_TEST_ONLY_DO_NOT_USE_IN_PROD_XDS_CLIENT_CHANNEL_ARGS,
&test_obj_->xds_channel_args_, &kChannelArgsArgVtable);
}
void UpdatePlugins(
std::vector<std::unique_ptr<grpc::ServerBuilderPlugin>>* /*plugins*/)
override {}
private:
XdsEnd2endTest* test_obj_;
};
virtual void RegisterAllServices(ServerBuilder* builder) = 0;
virtual void StartAllServices() = 0;
virtual void ShutdownAllServices() = 0;
virtual const char* Type() = 0;
XdsEnd2endTest* test_obj_;
const int port_;
std::unique_ptr<Server> server_;
XdsServingStatusNotifier notifier_;
std::unique_ptr<std::thread> thread_;
bool running_ = false;
const bool use_xds_enabled_server_;
};
class BackendServerThread : public ServerThread {
public:
explicit BackendServerThread(XdsEnd2endTest* test_obj,
bool use_xds_enabled_server)
: ServerThread(test_obj, use_xds_enabled_server) {}
BackendServiceImpl<::grpc::testing::EchoTestService::Service>*
backend_service() {
return &backend_service_;
}
BackendServiceImpl<::grpc::testing::EchoTest1Service::Service>*
backend_service1() {
return &backend_service1_;
}
BackendServiceImpl<::grpc::testing::EchoTest2Service::Service>*
backend_service2() {
return &backend_service2_;
}
std::shared_ptr<ServerCredentials> Credentials() override {
if (GetParam().use_xds_credentials()) {
if (use_xds_enabled_server()) {
// We are testing server's use of XdsServerCredentials
return experimental::XdsServerCredentials(
InsecureServerCredentials());
} else {
// We are testing client's use of XdsCredentials
std::string root_cert = ReadFile(kCaCertPath);
std::string identity_cert = ReadFile(kServerCertPath);
std::string private_key = ReadFile(kServerKeyPath);
std::vector<experimental::IdentityKeyCertPair>
identity_key_cert_pairs = {{private_key, identity_cert}};
auto certificate_provider = std::make_shared<
grpc::experimental::StaticDataCertificateProvider>(
root_cert, identity_key_cert_pairs);
grpc::experimental::TlsServerCredentialsOptions options(
certificate_provider);
options.watch_root_certs();
options.watch_identity_key_cert_pairs();
options.set_cert_request_type(
GRPC_SSL_REQUEST_CLIENT_CERTIFICATE_AND_VERIFY);
return grpc::experimental::TlsServerCredentials(options);
}
}
return ServerThread::Credentials();
}
private:
void RegisterAllServices(ServerBuilder* builder) override {
builder->RegisterService(&backend_service_);
builder->RegisterService(&backend_service1_);
builder->RegisterService(&backend_service2_);
}
void StartAllServices() override {
backend_service_.Start();
backend_service1_.Start();
backend_service2_.Start();
}
void ShutdownAllServices() override {
backend_service_.Shutdown();
backend_service1_.Shutdown();
backend_service2_.Shutdown();
}
const char* Type() override { return "Backend"; }
BackendServiceImpl<::grpc::testing::EchoTestService::Service>
backend_service_;
BackendServiceImpl<::grpc::testing::EchoTest1Service::Service>
backend_service1_;
BackendServiceImpl<::grpc::testing::EchoTest2Service::Service>
backend_service2_;
};
class BalancerServerThread : public ServerThread {
public:
explicit BalancerServerThread(XdsEnd2endTest* test_obj,
int client_load_reporting_interval = 0)
: ServerThread(test_obj),
ads_service_(new AdsServiceImpl()),
lrs_service_(new LrsServiceImpl(client_load_reporting_interval)) {}
AdsServiceImpl* ads_service() { return ads_service_.get(); }
LrsServiceImpl* lrs_service() { return lrs_service_.get(); }
private:
void RegisterAllServices(ServerBuilder* builder) override {
builder->RegisterService(ads_service_->v2_rpc_service());
builder->RegisterService(ads_service_->v3_rpc_service());
builder->RegisterService(lrs_service_->v2_rpc_service());
builder->RegisterService(lrs_service_->v3_rpc_service());
}
void StartAllServices() override {
ads_service_->Start();
lrs_service_->Start();
}
void ShutdownAllServices() override {
ads_service_->Shutdown();
lrs_service_->Shutdown();
}
const char* Type() override { return "Balancer"; }
std::shared_ptr<AdsServiceImpl> ads_service_;
std::shared_ptr<LrsServiceImpl> lrs_service_;
};
#ifndef DISABLED_XDS_PROTO_IN_CC
class AdminServerThread : public ServerThread {
public:
explicit AdminServerThread(XdsEnd2endTest* test_obj)
: ServerThread(test_obj) {}
private:
void RegisterAllServices(ServerBuilder* builder) override {
builder->RegisterService(&csds_service_);
}
void StartAllServices() override {}
void ShutdownAllServices() override {}
const char* Type() override { return "Admin"; }
grpc::xds::experimental::ClientStatusDiscoveryService csds_service_;
};
#endif // DISABLED_XDS_PROTO_IN_CC
class LongRunningRpc {
public:
void StartRpc(grpc::testing::EchoTestService::Stub* stub,
const RpcOptions& rpc_options =
RpcOptions().set_timeout_ms(0).set_client_cancel_after_us(
1 * 1000 * 1000)) {
sender_thread_ = std::thread([this, stub, rpc_options]() {
EchoRequest request;
EchoResponse response;
rpc_options.SetupRpc(&context_, &request);
status_ = stub->Echo(&context_, request, &response);
});
}
void CancelRpc() {
context_.TryCancel();
if (sender_thread_.joinable()) sender_thread_.join();
}
Status GetStatus() {
if (sender_thread_.joinable()) sender_thread_.join();
return status_;
}
private:
std::thread sender_thread_;
ClientContext context_;
Status status_;
};
const size_t num_backends_;
const size_t num_balancers_;
const int client_load_reporting_interval_seconds_;
bool ipv6_only_ = false;
std::shared_ptr<Channel> channel_;
std::unique_ptr<grpc::testing::EchoTestService::Stub> stub_;
std::unique_ptr<grpc::testing::EchoTest1Service::Stub> stub1_;
std::unique_ptr<grpc::testing::EchoTest2Service::Stub> stub2_;
std::vector<std::unique_ptr<BackendServerThread>> backends_;
std::vector<std::unique_ptr<BalancerServerThread>> balancers_;
grpc_core::RefCountedPtr<grpc_core::FakeResolverResponseGenerator>
response_generator_;
grpc_core::RefCountedPtr<grpc_core::FakeResolverResponseGenerator>
lb_channel_response_generator_;
grpc_core::RefCountedPtr<grpc_core::FakeResolverResponseGenerator>
logical_dns_cluster_resolver_response_generator_;
int xds_resource_does_not_exist_timeout_ms_ = 0;
absl::InlinedVector<grpc_arg, 2> xds_channel_args_to_add_;
grpc_channel_args xds_channel_args_;
Listener default_listener_;
RouteConfiguration default_route_config_;
Cluster default_cluster_;
bool use_xds_enabled_server_;
bool bootstrap_contents_from_env_var_;
};
class BasicTest : public XdsEnd2endTest {
public:
BasicTest() : XdsEnd2endTest(4, 1) {}
};
// Tests that the balancer sends the correct response to the client, and the
// client sends RPCs to the backends using the default child policy.
TEST_P(BasicTest, Vanilla) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const size_t kNumRpcsPerAddress = 100;
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Make sure that trying to connect works without a call.
channel_->GetState(true /* try_to_connect */);
// We need to wait for all backends to come online.
WaitForAllBackends();
// Send kNumRpcsPerAddress RPCs per server.
CheckRpcSendOk(kNumRpcsPerAddress * num_backends_);
// Each backend should have gotten 100 requests.
for (size_t i = 0; i < backends_.size(); ++i) {
EXPECT_EQ(kNumRpcsPerAddress,
backends_[i]->backend_service()->request_count());
}
// Check LB policy name for the channel.
EXPECT_EQ(
(GetParam().use_fake_resolver() ? "xds_cluster_resolver_experimental"
: "xds_cluster_manager_experimental"),
channel_->GetLoadBalancingPolicyName());
}
TEST_P(BasicTest, IgnoresUnhealthyEndpoints) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const size_t kNumRpcsPerAddress = 100;
AdsServiceImpl::EdsResourceArgs args({
{"locality0",
GetBackendPorts(),
kDefaultLocalityWeight,
kDefaultLocalityPriority,
{HealthStatus::DRAINING}},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Make sure that trying to connect works without a call.
channel_->GetState(true /* try_to_connect */);
// We need to wait for all backends to come online.
WaitForAllBackends(/*start_index=*/1);
// Send kNumRpcsPerAddress RPCs per server.
CheckRpcSendOk(kNumRpcsPerAddress * (num_backends_ - 1));
// Each backend should have gotten 100 requests.
for (size_t i = 1; i < backends_.size(); ++i) {
EXPECT_EQ(kNumRpcsPerAddress,
backends_[i]->backend_service()->request_count());
}
}
// Tests that subchannel sharing works when the same backend is listed multiple
// times.
TEST_P(BasicTest, SameBackendListedMultipleTimes) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Same backend listed twice.
std::vector<int> ports(2, backends_[0]->port());
AdsServiceImpl::EdsResourceArgs args({
{"locality0", ports},
});
const size_t kNumRpcsPerAddress = 10;
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// We need to wait for the backend to come online.
WaitForBackend(0);
// Send kNumRpcsPerAddress RPCs per server.
CheckRpcSendOk(kNumRpcsPerAddress * ports.size());
// Backend should have gotten 20 requests.
EXPECT_EQ(kNumRpcsPerAddress * ports.size(),
backends_[0]->backend_service()->request_count());
// And they should have come from a single client port, because of
// subchannel sharing.
EXPECT_EQ(1UL, backends_[0]->backend_service()->clients().size());
}
// Tests that RPCs will be blocked until a non-empty serverlist is received.
TEST_P(BasicTest, InitiallyEmptyServerlist) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const int kServerlistDelayMs = 500 * grpc_test_slowdown_factor();
const int kCallDeadlineMs = kServerlistDelayMs * 2;
// First response is an empty serverlist, sent right away.
AdsServiceImpl::EdsResourceArgs::Locality empty_locality("locality0", {});
AdsServiceImpl::EdsResourceArgs args({
empty_locality,
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Send non-empty serverlist only after kServerlistDelayMs.
args = AdsServiceImpl::EdsResourceArgs({
{"locality0", GetBackendPorts()},
});
std::thread delayed_resource_setter(std::bind(
&BasicTest::SetEdsResourceWithDelay, this, 0,
BuildEdsResource(args, DefaultEdsServiceName()), kServerlistDelayMs));
const auto t0 = system_clock::now();
// Client will block: LB will initially send empty serverlist.
CheckRpcSendOk(
1, RpcOptions().set_timeout_ms(kCallDeadlineMs).set_wait_for_ready(true));
const auto ellapsed_ms =
std::chrono::duration_cast<std::chrono::milliseconds>(
system_clock::now() - t0);
// but eventually, the LB sends a serverlist update that allows the call to
// proceed. The call delay must be larger than the delay in sending the
// populated serverlist but under the call's deadline (which is enforced by
// the call's deadline).
EXPECT_GT(ellapsed_ms.count(), kServerlistDelayMs);
delayed_resource_setter.join();
}
// Tests that RPCs will fail with UNAVAILABLE instead of DEADLINE_EXCEEDED if
// all the servers are unreachable.
TEST_P(BasicTest, AllServersUnreachableFailFast) {
// Set Rpc timeout to 5 seconds to ensure there is enough time
// for communication with the xDS server to take place upon test start up.
const uint32_t kRpcTimeoutMs = 5000;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const size_t kNumUnreachableServers = 5;
std::vector<int> ports;
for (size_t i = 0; i < kNumUnreachableServers; ++i) {
ports.push_back(grpc_pick_unused_port_or_die());
}
AdsServiceImpl::EdsResourceArgs args({
{"locality0", ports},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
const Status status = SendRpc(RpcOptions().set_timeout_ms(kRpcTimeoutMs));
// The error shouldn't be DEADLINE_EXCEEDED because timeout is set to 5
// seconds, and we should disocver in that time that the target backend is
// down.
EXPECT_EQ(StatusCode::UNAVAILABLE, status.error_code());
}
// Tests that RPCs fail when the backends are down, and will succeed again after
// the backends are restarted.
TEST_P(BasicTest, BackendsRestart) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
WaitForAllBackends();
// Stop backends. RPCs should fail.
ShutdownAllBackends();
// Sending multiple failed requests instead of just one to ensure that the
// client notices that all backends are down before we restart them. If we
// didn't do this, then a single RPC could fail here due to the race condition
// between the LB pick and the GOAWAY from the chosen backend being shut down,
// which would not actually prove that the client noticed that all of the
// backends are down. Then, when we send another request below (which we
// expect to succeed), if the callbacks happen in the wrong order, the same
// race condition could happen again due to the client not yet having noticed
// that the backends were all down.
CheckRpcSendFailure(num_backends_);
// Restart all backends. RPCs should start succeeding again.
StartAllBackends();
CheckRpcSendOk(1, RpcOptions().set_timeout_ms(2000).set_wait_for_ready(true));
}
TEST_P(BasicTest, IgnoresDuplicateUpdates) {
const size_t kNumRpcsPerAddress = 100;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Wait for all backends to come online.
WaitForAllBackends();
// Send kNumRpcsPerAddress RPCs per server, but send an EDS update in
// between. If the update is not ignored, this will cause the
// round_robin policy to see an update, which will randomly reset its
// position in the address list.
for (size_t i = 0; i < kNumRpcsPerAddress; ++i) {
CheckRpcSendOk(2);
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
CheckRpcSendOk(2);
}
// Each backend should have gotten the right number of requests.
for (size_t i = 1; i < backends_.size(); ++i) {
EXPECT_EQ(kNumRpcsPerAddress,
backends_[i]->backend_service()->request_count());
}
}
using XdsResolverOnlyTest = BasicTest;
TEST_P(XdsResolverOnlyTest, ResourceTypeVersionPersistsAcrossStreamRestarts) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
// Wait for backends to come online.
WaitForAllBackends(0, 1);
// Stop balancer.
balancers_[0]->Shutdown();
// Tell balancer to require minimum version 1 for all resource types.
balancers_[0]->ads_service()->SetResourceMinVersion(kLdsTypeUrl, 1);
balancers_[0]->ads_service()->SetResourceMinVersion(kRdsTypeUrl, 1);
balancers_[0]->ads_service()->SetResourceMinVersion(kCdsTypeUrl, 1);
balancers_[0]->ads_service()->SetResourceMinVersion(kEdsTypeUrl, 1);
// Update backend, just so we can be sure that the client has
// reconnected to the balancer.
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", GetBackendPorts(1, 2)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args2));
// Restart balancer.
balancers_[0]->Start();
// Make sure client has reconnected.
WaitForAllBackends(1, 2);
}
// Tests switching over from one cluster to another.
TEST_P(XdsResolverOnlyTest, ChangeClusters) {
const char* kNewClusterName = "new_cluster_name";
const char* kNewEdsServiceName = "new_eds_service_name";
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 2)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
// We need to wait for all backends to come online.
WaitForAllBackends(0, 2);
// Populate new EDS resource.
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", GetBackendPorts(2, 4)},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsServiceName));
// Populate new CDS resource.
Cluster new_cluster = default_cluster_;
new_cluster.set_name(kNewClusterName);
new_cluster.mutable_eds_cluster_config()->set_service_name(
kNewEdsServiceName);
balancers_[0]->ads_service()->SetCdsResource(new_cluster);
// Change RDS resource to point to new cluster.
RouteConfiguration new_route_config = default_route_config_;
new_route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_route()
->set_cluster(kNewClusterName);
SetListenerAndRouteConfiguration(0, default_listener_, new_route_config);
// Wait for all new backends to be used.
std::tuple<int, int, int> counts = WaitForAllBackends(2, 4);
// Make sure no RPCs failed in the transition.
EXPECT_EQ(0, std::get<1>(counts));
}
// Tests that we go into TRANSIENT_FAILURE if the Cluster disappears.
TEST_P(XdsResolverOnlyTest, ClusterRemoved) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
// We need to wait for all backends to come online.
WaitForAllBackends();
// Unset CDS resource.
balancers_[0]->ads_service()->UnsetResource(kCdsTypeUrl, kDefaultClusterName);
// Wait for RPCs to start failing.
do {
} while (SendRpc(RpcOptions(), nullptr).ok());
// Make sure RPCs are still failing.
CheckRpcSendFailure(1000);
// Make sure we ACK'ed the update.
EXPECT_EQ(balancers_[0]->ads_service()->cds_response_state().state,
AdsServiceImpl::ResponseState::ACKED);
}
// Tests that we restart all xDS requests when we reestablish the ADS call.
TEST_P(XdsResolverOnlyTest, RestartsRequestsUponReconnection) {
// Manually configure use of RDS.
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
auto* rds = http_connection_manager.mutable_rds();
rds->set_route_config_name(kDefaultRouteConfigurationName);
rds->mutable_config_source()->mutable_ads();
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
balancers_[0]->ads_service()->SetLdsResource(listener);
balancers_[0]->ads_service()->SetRdsResource(default_route_config_);
const char* kNewClusterName = "new_cluster_name";
const char* kNewEdsServiceName = "new_eds_service_name";
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 2)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
// We need to wait for all backends to come online.
WaitForAllBackends(0, 2);
// Now shut down and restart the balancer. When the client
// reconnects, it should automatically restart the requests for all
// resource types.
balancers_[0]->Shutdown();
balancers_[0]->Start();
// Make sure things are still working.
CheckRpcSendOk(100);
// Populate new EDS resource.
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", GetBackendPorts(2, 4)},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsServiceName));
// Populate new CDS resource.
Cluster new_cluster = default_cluster_;
new_cluster.set_name(kNewClusterName);
new_cluster.mutable_eds_cluster_config()->set_service_name(
kNewEdsServiceName);
balancers_[0]->ads_service()->SetCdsResource(new_cluster);
// Change RDS resource to point to new cluster.
RouteConfiguration new_route_config = default_route_config_;
new_route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_route()
->set_cluster(kNewClusterName);
balancers_[0]->ads_service()->SetRdsResource(new_route_config);
// Wait for all new backends to be used.
std::tuple<int, int, int> counts = WaitForAllBackends(2, 4);
// Make sure no RPCs failed in the transition.
EXPECT_EQ(0, std::get<1>(counts));
}
TEST_P(XdsResolverOnlyTest, DefaultRouteSpecifiesSlashPrefix) {
RouteConfiguration route_config = default_route_config_;
route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_match()
->set_prefix("/");
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
// We need to wait for all backends to come online.
WaitForAllBackends();
}
TEST_P(XdsResolverOnlyTest, CircuitBreaking) {
constexpr size_t kMaxConcurrentRequests = 10;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
// Update CDS resource to set max concurrent request.
CircuitBreakers circuit_breaks;
Cluster cluster = default_cluster_;
auto* threshold = cluster.mutable_circuit_breakers()->add_thresholds();
threshold->set_priority(RoutingPriority::DEFAULT);
threshold->mutable_max_requests()->set_value(kMaxConcurrentRequests);
balancers_[0]->ads_service()->SetCdsResource(cluster);
// Send exactly max_concurrent_requests long RPCs.
LongRunningRpc rpcs[kMaxConcurrentRequests];
for (size_t i = 0; i < kMaxConcurrentRequests; ++i) {
rpcs[i].StartRpc(stub_.get());
}
// Wait for all RPCs to be in flight.
while (backends_[0]->backend_service()->RpcsWaitingForClientCancel() <
kMaxConcurrentRequests) {
gpr_sleep_until(gpr_time_add(gpr_now(GPR_CLOCK_REALTIME),
gpr_time_from_micros(1 * 1000, GPR_TIMESPAN)));
}
// Sending a RPC now should fail, the error message should tell us
// we hit the max concurrent requests limit and got dropped.
Status status = SendRpc();
EXPECT_FALSE(status.ok());
EXPECT_EQ(status.error_message(), "Call dropped by load balancing policy");
// Cancel one RPC to allow another one through
rpcs[0].CancelRpc();
status = SendRpc();
EXPECT_TRUE(status.ok());
for (size_t i = 1; i < kMaxConcurrentRequests; ++i) {
rpcs[i].CancelRpc();
}
// Make sure RPCs go to the correct backend:
EXPECT_EQ(kMaxConcurrentRequests + 1,
backends_[0]->backend_service()->request_count());
}
TEST_P(XdsResolverOnlyTest, CircuitBreakingMultipleChannelsShareCallCounter) {
constexpr size_t kMaxConcurrentRequests = 10;
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
// Update CDS resource to set max concurrent request.
CircuitBreakers circuit_breaks;
Cluster cluster = default_cluster_;
auto* threshold = cluster.mutable_circuit_breakers()->add_thresholds();
threshold->set_priority(RoutingPriority::DEFAULT);
threshold->mutable_max_requests()->set_value(kMaxConcurrentRequests);
balancers_[0]->ads_service()->SetCdsResource(cluster);
// Create second channel.
auto response_generator2 =
grpc_core::MakeRefCounted<grpc_core::FakeResolverResponseGenerator>();
auto lb_response_generator2 =
grpc_core::MakeRefCounted<grpc_core::FakeResolverResponseGenerator>();
grpc_arg xds_arg = grpc_core::FakeResolverResponseGenerator::MakeChannelArg(
lb_response_generator2.get());
grpc_channel_args xds_channel_args2 = {1, &xds_arg};
auto channel2 = CreateChannel(
/*failover_timeout=*/0, /*server_name=*/kServerName,
response_generator2.get(), &xds_channel_args2);
auto stub2 = grpc::testing::EchoTestService::NewStub(channel2);
// Set resolution results for both channels and for the xDS channel.
SetNextResolution({});
SetNextResolution({}, response_generator2.get());
SetNextResolutionForLbChannelAllBalancers();
SetNextResolutionForLbChannelAllBalancers(nullptr, nullptr,
lb_response_generator2.get());
// Send exactly max_concurrent_requests long RPCs, alternating between
// the two channels.
LongRunningRpc rpcs[kMaxConcurrentRequests];
for (size_t i = 0; i < kMaxConcurrentRequests; ++i) {
rpcs[i].StartRpc(i % 2 == 0 ? stub_.get() : stub2.get());
}
// Wait for all RPCs to be in flight.
while (backends_[0]->backend_service()->RpcsWaitingForClientCancel() <
kMaxConcurrentRequests) {
gpr_sleep_until(gpr_time_add(gpr_now(GPR_CLOCK_REALTIME),
gpr_time_from_micros(1 * 1000, GPR_TIMESPAN)));
}
// Sending a RPC now should fail, the error message should tell us
// we hit the max concurrent requests limit and got dropped.
Status status = SendRpc();
EXPECT_FALSE(status.ok());
EXPECT_EQ(status.error_message(), "Call dropped by load balancing policy");
// Cancel one RPC to allow another one through
rpcs[0].CancelRpc();
status = SendRpc();
EXPECT_TRUE(status.ok());
for (size_t i = 1; i < kMaxConcurrentRequests; ++i) {
rpcs[i].CancelRpc();
}
// Make sure RPCs go to the correct backend:
EXPECT_EQ(kMaxConcurrentRequests + 1,
backends_[0]->backend_service()->request_count());
}
using GlobalXdsClientTest = BasicTest;
TEST_P(GlobalXdsClientTest, MultipleChannelsShareXdsClient) {
const char* kNewServerName = "new-server.example.com";
Listener listener = default_listener_;
listener.set_name(kNewServerName);
SetListenerAndRouteConfiguration(0, listener, default_route_config_);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
WaitForAllBackends();
// Create second channel and tell it to connect to kNewServerName.
auto channel2 = CreateChannel(/*failover_timeout=*/0, kNewServerName);
channel2->GetState(/*try_to_connect=*/true);
ASSERT_TRUE(
channel2->WaitForConnected(grpc_timeout_milliseconds_to_deadline(100)));
// Make sure there's only one client connected.
EXPECT_EQ(1UL, balancers_[0]->ads_service()->clients().size());
}
// Tests that the NACK for multiple bad LDS resources includes both errors.
TEST_P(GlobalXdsClientTest, MultipleBadResources) {
constexpr char kServerName2[] = "server.other.com";
auto listener = default_listener_;
listener.clear_api_listener();
balancers_[0]->ads_service()->SetLdsResource(listener);
listener.set_name(kServerName2);
balancers_[0]->ads_service()->SetLdsResource(listener);
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
// Need to create a second channel to subscribe to a second LDS resource.
auto channel2 = CreateChannel(0, kServerName2);
auto stub2 = grpc::testing::EchoTestService::NewStub(channel2);
ClientContext context;
EchoRequest request;
request.set_message(kRequestMessage);
EchoResponse response;
grpc::Status status = stub2->Echo(&context, request, &response);
EXPECT_FALSE(status.ok());
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::AllOf(
::testing::HasSubstr(absl::StrCat(
kServerName, ": Listener has neither address nor ApiListener")),
::testing::HasSubstr(
absl::StrCat(kServerName2,
": Listener has neither address nor ApiListener"))));
}
class XdsResolverLoadReportingOnlyTest : public XdsEnd2endTest {
public:
XdsResolverLoadReportingOnlyTest() : XdsEnd2endTest(4, 1, 3) {}
};
// Tests load reporting when switching over from one cluster to another.
TEST_P(XdsResolverLoadReportingOnlyTest, ChangeClusters) {
const char* kNewClusterName = "new_cluster_name";
const char* kNewEdsServiceName = "new_eds_service_name";
balancers_[0]->lrs_service()->set_cluster_names(
{kDefaultClusterName, kNewClusterName});
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// cluster kDefaultClusterName -> locality0 -> backends 0 and 1
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 2)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
// cluster kNewClusterName -> locality1 -> backends 2 and 3
AdsServiceImpl::EdsResourceArgs args2({
{"locality1", GetBackendPorts(2, 4)},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsServiceName));
// CDS resource for kNewClusterName.
Cluster new_cluster = default_cluster_;
new_cluster.set_name(kNewClusterName);
new_cluster.mutable_eds_cluster_config()->set_service_name(
kNewEdsServiceName);
balancers_[0]->ads_service()->SetCdsResource(new_cluster);
// Wait for all backends to come online.
int num_ok = 0;
int num_failure = 0;
int num_drops = 0;
std::tie(num_ok, num_failure, num_drops) = WaitForAllBackends(0, 2);
// The load report received at the balancer should be correct.
std::vector<ClientStats> load_report =
balancers_[0]->lrs_service()->WaitForLoadReport();
EXPECT_THAT(
load_report,
::testing::ElementsAre(::testing::AllOf(
::testing::Property(&ClientStats::cluster_name, kDefaultClusterName),
::testing::Property(
&ClientStats::locality_stats,
::testing::ElementsAre(::testing::Pair(
"locality0",
::testing::AllOf(
::testing::Field(&ClientStats::LocalityStats::
total_successful_requests,
num_ok),
::testing::Field(&ClientStats::LocalityStats::
total_requests_in_progress,
0UL),
::testing::Field(
&ClientStats::LocalityStats::total_error_requests,
num_failure),
::testing::Field(
&ClientStats::LocalityStats::total_issued_requests,
num_failure + num_ok))))),
::testing::Property(&ClientStats::total_dropped_requests,
num_drops))));
// Change RDS resource to point to new cluster.
RouteConfiguration new_route_config = default_route_config_;
new_route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_route()
->set_cluster(kNewClusterName);
SetListenerAndRouteConfiguration(0, default_listener_, new_route_config);
// Wait for all new backends to be used.
std::tie(num_ok, num_failure, num_drops) = WaitForAllBackends(2, 4);
// The load report received at the balancer should be correct.
load_report = balancers_[0]->lrs_service()->WaitForLoadReport();
EXPECT_THAT(
load_report,
::testing::ElementsAre(
::testing::AllOf(
::testing::Property(&ClientStats::cluster_name,
kDefaultClusterName),
::testing::Property(
&ClientStats::locality_stats,
::testing::ElementsAre(::testing::Pair(
"locality0",
::testing::AllOf(
::testing::Field(&ClientStats::LocalityStats::
total_successful_requests,
::testing::Lt(num_ok)),
::testing::Field(&ClientStats::LocalityStats::
total_requests_in_progress,
0UL),
::testing::Field(
&ClientStats::LocalityStats::total_error_requests,
::testing::Le(num_failure)),
::testing::Field(
&ClientStats::LocalityStats::
total_issued_requests,
::testing::Le(num_failure + num_ok)))))),
::testing::Property(&ClientStats::total_dropped_requests,
num_drops)),
::testing::AllOf(
::testing::Property(&ClientStats::cluster_name, kNewClusterName),
::testing::Property(
&ClientStats::locality_stats,
::testing::ElementsAre(::testing::Pair(
"locality1",
::testing::AllOf(
::testing::Field(&ClientStats::LocalityStats::
total_successful_requests,
::testing::Le(num_ok)),
::testing::Field(&ClientStats::LocalityStats::
total_requests_in_progress,
0UL),
::testing::Field(
&ClientStats::LocalityStats::total_error_requests,
::testing::Le(num_failure)),
::testing::Field(
&ClientStats::LocalityStats::
total_issued_requests,
::testing::Le(num_failure + num_ok)))))),
::testing::Property(&ClientStats::total_dropped_requests,
num_drops))));
int total_ok = 0;
int total_failure = 0;
for (const ClientStats& client_stats : load_report) {
total_ok += client_stats.total_successful_requests();
total_failure += client_stats.total_error_requests();
}
EXPECT_EQ(total_ok, num_ok);
EXPECT_EQ(total_failure, num_failure);
// The LRS service got a single request, and sent a single response.
EXPECT_EQ(1U, balancers_[0]->lrs_service()->request_count());
EXPECT_EQ(1U, balancers_[0]->lrs_service()->response_count());
}
using SecureNamingTest = BasicTest;
// Tests that secure naming check passes if target name is expected.
TEST_P(SecureNamingTest, TargetNameIsExpected) {
SetNextResolution({});
SetNextResolutionForLbChannel({balancers_[0]->port()}, nullptr, "xds_server");
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
CheckRpcSendOk();
}
// Tests that secure naming check fails if target name is unexpected.
TEST_P(SecureNamingTest, TargetNameIsUnexpected) {
::testing::FLAGS_gtest_death_test_style = "threadsafe";
SetNextResolution({});
SetNextResolutionForLbChannel({balancers_[0]->port()}, nullptr,
"incorrect_server_name");
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Make sure that we blow up (via abort() from the security connector) when
// the name from the balancer doesn't match expectations.
ASSERT_DEATH_IF_SUPPORTED({ CheckRpcSendOk(); }, "");
}
using LdsTest = BasicTest;
// Tests that LDS client should send a NACK if there is no API listener in the
// Listener in the LDS response.
TEST_P(LdsTest, NoApiListener) {
auto listener = default_listener_;
listener.clear_api_listener();
balancers_[0]->ads_service()->SetLdsResource(listener);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr("Listener has neither address nor ApiListener"));
}
// Tests that LDS client should send a NACK if the route_specifier in the
// http_connection_manager is neither inlined route_config nor RDS.
TEST_P(LdsTest, WrongRouteSpecifier) {
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
http_connection_manager.mutable_scoped_routes();
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
balancers_[0]->ads_service()->SetLdsResource(listener);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr(
"HttpConnectionManager neither has inlined route_config nor RDS."));
}
// Tests that LDS client should send a NACK if the rds message in the
// http_connection_manager is missing the config_source field.
TEST_P(LdsTest, RdsMissingConfigSource) {
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
http_connection_manager.mutable_rds()->set_route_config_name(
kDefaultRouteConfigurationName);
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
balancers_[0]->ads_service()->SetLdsResource(listener);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr(
"HttpConnectionManager missing config_source for RDS."));
}
// Tests that LDS client should send a NACK if the rds message in the
// http_connection_manager has a config_source field that does not specify ADS.
TEST_P(LdsTest, RdsConfigSourceDoesNotSpecifyAds) {
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
auto* rds = http_connection_manager.mutable_rds();
rds->set_route_config_name(kDefaultRouteConfigurationName);
rds->mutable_config_source()->mutable_self();
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
balancers_[0]->ads_service()->SetLdsResource(listener);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr(
"HttpConnectionManager ConfigSource for RDS does not specify ADS."));
}
// Tests that we ignore filters after the router filter.
TEST_P(LdsTest, IgnoresHttpFiltersAfterRouterFilter) {
SetNextResolutionForLbChannelAllBalancers();
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
auto* filter = http_connection_manager.add_http_filters();
filter->set_name("unknown");
filter->mutable_typed_config()->set_type_url(
"grpc.testing.client_only_http_filter");
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
SetListenerAndRouteConfiguration(0, listener, default_route_config_);
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
WaitForAllBackends();
}
// Test that we fail RPCs if there is no router filter.
TEST_P(LdsTest, FailRpcsIfNoHttpRouterFilter) {
SetNextResolutionForLbChannelAllBalancers();
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
http_connection_manager.clear_http_filters();
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
SetListenerAndRouteConfiguration(0, listener, default_route_config_);
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
Status status = SendRpc();
EXPECT_EQ(status.error_code(), StatusCode::UNAVAILABLE);
EXPECT_EQ(status.error_message(), "no xDS HTTP router filter configured");
// Wait until xDS server sees ACK.
while (balancers_[0]->ads_service()->lds_response_state().state ==
AdsServiceImpl::ResponseState::SENT) {
CheckRpcSendFailure();
}
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::ACKED);
}
// Test that we NACK empty filter names.
TEST_P(LdsTest, RejectsEmptyHttpFilterName) {
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
auto* filter = http_connection_manager.add_http_filters();
filter->mutable_typed_config()->PackFrom(Listener());
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
SetListenerAndRouteConfiguration(0, listener, default_route_config_);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("empty filter name at index 1"));
}
// Test that we NACK duplicate HTTP filter names.
TEST_P(LdsTest, RejectsDuplicateHttpFilterName) {
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
*http_connection_manager.add_http_filters() =
http_connection_manager.http_filters(0);
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
SetListenerAndRouteConfiguration(0, listener, default_route_config_);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("duplicate HTTP filter name: router"));
}
// Test that we NACK unknown filter types.
TEST_P(LdsTest, RejectsUnknownHttpFilterType) {
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
auto* filter = http_connection_manager.add_http_filters();
filter->set_name("unknown");
filter->mutable_typed_config()->PackFrom(Listener());
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
SetListenerAndRouteConfiguration(0, listener, default_route_config_);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("no filter registered for config type "
"envoy.config.listener.v3.Listener"));
}
// Test that we ignore optional unknown filter types.
TEST_P(LdsTest, IgnoresOptionalUnknownHttpFilterType) {
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
auto* filter = http_connection_manager.add_http_filters();
filter->set_name("unknown");
filter->mutable_typed_config()->PackFrom(Listener());
filter->set_is_optional(true);
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
SetListenerAndRouteConfiguration(0, listener, default_route_config_);
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
SetNextResolutionForLbChannelAllBalancers();
WaitForAllBackends();
EXPECT_EQ(balancers_[0]->ads_service()->lds_response_state().state,
AdsServiceImpl::ResponseState::ACKED);
}
// Test that we NACK filters without configs.
TEST_P(LdsTest, RejectsHttpFilterWithoutConfig) {
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
auto* filter = http_connection_manager.add_http_filters();
filter->set_name("unknown");
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
SetListenerAndRouteConfiguration(0, listener, default_route_config_);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr(
"no filter config specified for filter name unknown"));
}
// Test that we ignore optional filters without configs.
TEST_P(LdsTest, IgnoresOptionalHttpFilterWithoutConfig) {
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
auto* filter = http_connection_manager.add_http_filters();
filter->set_name("unknown");
filter->set_is_optional(true);
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
SetListenerAndRouteConfiguration(0, listener, default_route_config_);
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
SetNextResolutionForLbChannelAllBalancers();
WaitForAllBackends();
EXPECT_EQ(balancers_[0]->ads_service()->lds_response_state().state,
AdsServiceImpl::ResponseState::ACKED);
}
// Test that we NACK unparseable filter configs.
TEST_P(LdsTest, RejectsUnparseableHttpFilterType) {
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
auto* filter = http_connection_manager.add_http_filters();
filter->set_name("unknown");
filter->mutable_typed_config()->PackFrom(listener);
filter->mutable_typed_config()->set_type_url(
"type.googleapis.com/envoy.extensions.filters.http.router.v3.Router");
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
SetListenerAndRouteConfiguration(0, listener, default_route_config_);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr(
"filter config for type "
"envoy.extensions.filters.http.router.v3.Router failed to parse"));
}
// Test that we NACK HTTP filters unsupported on client-side.
TEST_P(LdsTest, RejectsHttpFiltersNotSupportedOnClients) {
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
auto* filter = http_connection_manager.add_http_filters();
filter->set_name("grpc.testing.server_only_http_filter");
filter->mutable_typed_config()->set_type_url(
"grpc.testing.server_only_http_filter");
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
SetListenerAndRouteConfiguration(0, listener, default_route_config_);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr("Filter grpc.testing.server_only_http_filter is not "
"supported on clients"));
}
// Test that we ignore optional HTTP filters unsupported on client-side.
TEST_P(LdsTest, IgnoresOptionalHttpFiltersNotSupportedOnClients) {
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
auto* filter = http_connection_manager.add_http_filters();
filter->set_name("grpc.testing.server_only_http_filter");
filter->mutable_typed_config()->set_type_url(
"grpc.testing.server_only_http_filter");
filter->set_is_optional(true);
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
SetListenerAndRouteConfiguration(0, listener, default_route_config_);
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
WaitForBackend(0);
EXPECT_EQ(balancers_[0]->ads_service()->lds_response_state().state,
AdsServiceImpl::ResponseState::ACKED);
}
using LdsV2Test = LdsTest;
// Tests that we ignore the HTTP filter list in v2.
// TODO(roth): The test framework is not set up to allow us to test
// the server sending v2 resources when the client requests v3, so this
// just tests a pure v2 setup. When we have time, fix this.
TEST_P(LdsV2Test, IgnoresHttpFilters) {
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
auto* filter = http_connection_manager.add_http_filters();
filter->set_name("unknown");
filter->mutable_typed_config()->PackFrom(Listener());
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
SetListenerAndRouteConfiguration(0, listener, default_route_config_);
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendOk();
}
using LdsRdsTest = BasicTest;
// Tests that LDS client should send an ACK upon correct LDS response (with
// inlined RDS result).
TEST_P(LdsRdsTest, Vanilla) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
(void)SendRpc();
EXPECT_EQ(RouteConfigurationResponseState(0).state,
AdsServiceImpl::ResponseState::ACKED);
// Make sure we actually used the RPC service for the right version of xDS.
EXPECT_EQ(balancers_[0]->ads_service()->seen_v2_client(),
GetParam().use_v2());
EXPECT_NE(balancers_[0]->ads_service()->seen_v3_client(),
GetParam().use_v2());
}
// Tests that we go into TRANSIENT_FAILURE if the Listener is removed.
TEST_P(LdsRdsTest, ListenerRemoved) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
// We need to wait for all backends to come online.
WaitForAllBackends();
// Unset LDS resource.
balancers_[0]->ads_service()->UnsetResource(kLdsTypeUrl, kServerName);
// Wait for RPCs to start failing.
do {
} while (SendRpc(RpcOptions(), nullptr).ok());
// Make sure RPCs are still failing.
CheckRpcSendFailure(1000);
// Make sure we ACK'ed the update.
EXPECT_EQ(balancers_[0]->ads_service()->lds_response_state().state,
AdsServiceImpl::ResponseState::ACKED);
}
// Tests that LDS client ACKs but fails if matching domain can't be found in
// the LDS response.
TEST_P(LdsRdsTest, NoMatchedDomain) {
RouteConfiguration route_config = default_route_config_;
route_config.mutable_virtual_hosts(0)->clear_domains();
route_config.mutable_virtual_hosts(0)->add_domains("unmatched_domain");
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
// Do a bit of polling, to allow the ACK to get to the ADS server.
channel_->WaitForConnected(grpc_timeout_milliseconds_to_deadline(100));
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::ACKED);
}
// Tests that LDS client should choose the virtual host with matching domain if
// multiple virtual hosts exist in the LDS response.
TEST_P(LdsRdsTest, ChooseMatchedDomain) {
RouteConfiguration route_config = default_route_config_;
*(route_config.add_virtual_hosts()) = route_config.virtual_hosts(0);
route_config.mutable_virtual_hosts(0)->clear_domains();
route_config.mutable_virtual_hosts(0)->add_domains("unmatched_domain");
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
(void)SendRpc();
EXPECT_EQ(RouteConfigurationResponseState(0).state,
AdsServiceImpl::ResponseState::ACKED);
}
// Tests that LDS client should choose the last route in the virtual host if
// multiple routes exist in the LDS response.
TEST_P(LdsRdsTest, ChooseLastRoute) {
RouteConfiguration route_config = default_route_config_;
*(route_config.mutable_virtual_hosts(0)->add_routes()) =
route_config.virtual_hosts(0).routes(0);
route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_route()
->mutable_cluster_header();
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
(void)SendRpc();
EXPECT_EQ(RouteConfigurationResponseState(0).state,
AdsServiceImpl::ResponseState::ACKED);
}
// Tests that LDS client should ignore route which has query_parameters.
TEST_P(LdsRdsTest, RouteMatchHasQueryParameters) {
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
route1->mutable_match()->add_query_parameters();
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("No valid routes specified."));
}
// Tests that LDS client should send a ACK if route match has a prefix
// that is either empty or a single slash
TEST_P(LdsRdsTest, RouteMatchHasValidPrefixEmptyOrSingleSlash) {
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("");
auto* default_route = route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("/");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
(void)SendRpc();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::ACKED);
}
// Tests that LDS client should ignore route which has a path
// prefix string does not start with "/".
TEST_P(LdsRdsTest, RouteMatchHasInvalidPrefixNoLeadingSlash) {
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("grpc.testing.EchoTest1Service/");
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("No valid routes specified."));
}
// Tests that LDS client should ignore route which has a prefix
// string with more than 2 slashes.
TEST_P(LdsRdsTest, RouteMatchHasInvalidPrefixExtraContent) {
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/Echo1/");
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("No valid routes specified."));
}
// Tests that LDS client should ignore route which has a prefix
// string "//".
TEST_P(LdsRdsTest, RouteMatchHasInvalidPrefixDoubleSlash) {
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("//");
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("No valid routes specified."));
}
// Tests that LDS client should ignore route which has path
// but it's empty.
TEST_P(LdsRdsTest, RouteMatchHasInvalidPathEmptyPath) {
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_path("");
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("No valid routes specified."));
}
// Tests that LDS client should ignore route which has path
// string does not start with "/".
TEST_P(LdsRdsTest, RouteMatchHasInvalidPathNoLeadingSlash) {
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_path("grpc.testing.EchoTest1Service/Echo1");
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("No valid routes specified."));
}
// Tests that LDS client should ignore route which has path
// string that has too many slashes; for example, ends with "/".
TEST_P(LdsRdsTest, RouteMatchHasInvalidPathTooManySlashes) {
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_path("/grpc.testing.EchoTest1Service/Echo1/");
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("No valid routes specified."));
}
// Tests that LDS client should ignore route which has path
// string that has only 1 slash: missing "/" between service and method.
TEST_P(LdsRdsTest, RouteMatchHasInvalidPathOnlyOneSlash) {
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_path("/grpc.testing.EchoTest1Service.Echo1");
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("No valid routes specified."));
}
// Tests that LDS client should ignore route which has path
// string that is missing service.
TEST_P(LdsRdsTest, RouteMatchHasInvalidPathMissingService) {
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_path("//Echo1");
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("No valid routes specified."));
}
// Tests that LDS client should ignore route which has path
// string that is missing method.
TEST_P(LdsRdsTest, RouteMatchHasInvalidPathMissingMethod) {
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_path("/grpc.testing.EchoTest1Service/");
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("No valid routes specified."));
}
// Test that LDS client should reject route which has invalid path regex.
TEST_P(LdsRdsTest, RouteMatchHasInvalidPathRegex) {
const char* kNewCluster1Name = "new_cluster_1";
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->mutable_safe_regex()->set_regex("a[z-a]");
route1->mutable_route()->set_cluster(kNewCluster1Name);
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr(
"path matcher: Invalid regex string specified in matcher."));
}
// Tests that LDS client should send a NACK if route has an action other than
// RouteAction in the LDS response.
TEST_P(LdsRdsTest, RouteHasNoRouteAction) {
RouteConfiguration route_config = default_route_config_;
route_config.mutable_virtual_hosts(0)->mutable_routes(0)->mutable_redirect();
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("No RouteAction found in route."));
}
TEST_P(LdsRdsTest, RouteActionClusterHasEmptyClusterName) {
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
route1->mutable_route()->set_cluster("");
auto* default_route = route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr("RouteAction cluster contains empty cluster name."));
}
TEST_P(LdsRdsTest, RouteActionWeightedTargetHasIncorrectTotalWeightSet) {
const size_t kWeight75 = 75;
const char* kNewCluster1Name = "new_cluster_1";
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
auto* weighted_cluster1 =
route1->mutable_route()->mutable_weighted_clusters()->add_clusters();
weighted_cluster1->set_name(kNewCluster1Name);
weighted_cluster1->mutable_weight()->set_value(kWeight75);
route1->mutable_route()
->mutable_weighted_clusters()
->mutable_total_weight()
->set_value(kWeight75 + 1);
auto* default_route = route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr(
"RouteAction weighted_cluster has incorrect total weight"));
}
TEST_P(LdsRdsTest, RouteActionWeightedClusterHasZeroTotalWeight) {
const char* kNewCluster1Name = "new_cluster_1";
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
auto* weighted_cluster1 =
route1->mutable_route()->mutable_weighted_clusters()->add_clusters();
weighted_cluster1->set_name(kNewCluster1Name);
weighted_cluster1->mutable_weight()->set_value(0);
route1->mutable_route()
->mutable_weighted_clusters()
->mutable_total_weight()
->set_value(0);
auto* default_route = route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr(
"RouteAction weighted_cluster has no valid clusters specified."));
}
TEST_P(LdsRdsTest, RouteActionWeightedTargetClusterHasEmptyClusterName) {
const size_t kWeight75 = 75;
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
auto* weighted_cluster1 =
route1->mutable_route()->mutable_weighted_clusters()->add_clusters();
weighted_cluster1->set_name("");
weighted_cluster1->mutable_weight()->set_value(kWeight75);
route1->mutable_route()
->mutable_weighted_clusters()
->mutable_total_weight()
->set_value(kWeight75);
auto* default_route = route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr(
"RouteAction weighted_cluster cluster contains empty cluster name."));
}
TEST_P(LdsRdsTest, RouteActionWeightedTargetClusterHasNoWeight) {
const size_t kWeight75 = 75;
const char* kNewCluster1Name = "new_cluster_1";
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
auto* weighted_cluster1 =
route1->mutable_route()->mutable_weighted_clusters()->add_clusters();
weighted_cluster1->set_name(kNewCluster1Name);
route1->mutable_route()
->mutable_weighted_clusters()
->mutable_total_weight()
->set_value(kWeight75);
auto* default_route = route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr(
"RouteAction weighted_cluster cluster missing weight"));
}
TEST_P(LdsRdsTest, RouteHeaderMatchInvalidRegex) {
const char* kNewCluster1Name = "new_cluster_1";
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
auto* header_matcher1 = route1->mutable_match()->add_headers();
header_matcher1->set_name("header1");
header_matcher1->mutable_safe_regex_match()->set_regex("a[z-a]");
route1->mutable_route()->set_cluster(kNewCluster1Name);
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr(
"header matcher: Invalid regex string specified in matcher."));
}
TEST_P(LdsRdsTest, RouteHeaderMatchInvalidRange) {
const char* kNewCluster1Name = "new_cluster_1";
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
auto* header_matcher1 = route1->mutable_match()->add_headers();
header_matcher1->set_name("header1");
header_matcher1->mutable_range_match()->set_start(1001);
header_matcher1->mutable_range_match()->set_end(1000);
route1->mutable_route()->set_cluster(kNewCluster1Name);
SetRouteConfiguration(0, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr(
"header matcher: Invalid range specifier specified: end cannot be "
"smaller than start."));
}
// Tests that LDS client should choose the default route (with no matching
// specified) after unable to find a match with previous routes.
TEST_P(LdsRdsTest, XdsRoutingPathMatching) {
const char* kNewCluster1Name = "new_cluster_1";
const char* kNewEdsService1Name = "new_eds_service_name_1";
const char* kNewCluster2Name = "new_cluster_2";
const char* kNewEdsService2Name = "new_eds_service_name_2";
const size_t kNumEcho1Rpcs = 10;
const size_t kNumEcho2Rpcs = 20;
const size_t kNumEchoRpcs = 30;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 2)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(2, 3)},
});
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", GetBackendPorts(3, 4)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsService1Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsService2Name));
// Populate new CDS resources.
Cluster new_cluster1 = default_cluster_;
new_cluster1.set_name(kNewCluster1Name);
new_cluster1.mutable_eds_cluster_config()->set_service_name(
kNewEdsService1Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster1);
Cluster new_cluster2 = default_cluster_;
new_cluster2.set_name(kNewCluster2Name);
new_cluster2.mutable_eds_cluster_config()->set_service_name(
kNewEdsService2Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster2);
// Populating Route Configurations for LDS.
RouteConfiguration new_route_config = default_route_config_;
auto* route1 = new_route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_path("/grpc.testing.EchoTest1Service/Echo1");
route1->mutable_route()->set_cluster(kNewCluster1Name);
auto* route2 = new_route_config.mutable_virtual_hosts(0)->add_routes();
route2->mutable_match()->set_path("/grpc.testing.EchoTest2Service/Echo2");
route2->mutable_route()->set_cluster(kNewCluster2Name);
auto* route3 = new_route_config.mutable_virtual_hosts(0)->add_routes();
route3->mutable_match()->set_path("/grpc.testing.EchoTest3Service/Echo3");
route3->mutable_route()->set_cluster(kDefaultClusterName);
auto* default_route = new_route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, new_route_config);
WaitForAllBackends(0, 2);
CheckRpcSendOk(kNumEchoRpcs, RpcOptions().set_wait_for_ready(true));
CheckRpcSendOk(kNumEcho1Rpcs, RpcOptions()
.set_rpc_service(SERVICE_ECHO1)
.set_rpc_method(METHOD_ECHO1)
.set_wait_for_ready(true));
CheckRpcSendOk(kNumEcho2Rpcs, RpcOptions()
.set_rpc_service(SERVICE_ECHO2)
.set_rpc_method(METHOD_ECHO2)
.set_wait_for_ready(true));
// Make sure RPCs all go to the correct backend.
for (size_t i = 0; i < 2; ++i) {
EXPECT_EQ(kNumEchoRpcs / 2,
backends_[i]->backend_service()->request_count());
EXPECT_EQ(0, backends_[i]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[i]->backend_service2()->request_count());
}
EXPECT_EQ(0, backends_[2]->backend_service()->request_count());
EXPECT_EQ(kNumEcho1Rpcs, backends_[2]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[2]->backend_service2()->request_count());
EXPECT_EQ(0, backends_[3]->backend_service()->request_count());
EXPECT_EQ(0, backends_[3]->backend_service1()->request_count());
EXPECT_EQ(kNumEcho2Rpcs, backends_[3]->backend_service2()->request_count());
}
TEST_P(LdsRdsTest, XdsRoutingPathMatchingCaseInsensitive) {
const char* kNewCluster1Name = "new_cluster_1";
const char* kNewEdsService1Name = "new_eds_service_name_1";
const char* kNewCluster2Name = "new_cluster_2";
const char* kNewEdsService2Name = "new_eds_service_name_2";
const size_t kNumEcho1Rpcs = 10;
const size_t kNumEchoRpcs = 30;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", GetBackendPorts(2, 3)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsService1Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsService2Name));
// Populate new CDS resources.
Cluster new_cluster1 = default_cluster_;
new_cluster1.set_name(kNewCluster1Name);
new_cluster1.mutable_eds_cluster_config()->set_service_name(
kNewEdsService1Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster1);
Cluster new_cluster2 = default_cluster_;
new_cluster2.set_name(kNewCluster2Name);
new_cluster2.mutable_eds_cluster_config()->set_service_name(
kNewEdsService2Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster2);
// Populating Route Configurations for LDS.
RouteConfiguration new_route_config = default_route_config_;
// First route will not match, since it's case-sensitive.
// Second route will match with same path.
auto* route1 = new_route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_path("/GrPc.TeStInG.EcHoTeSt1SErViCe/EcHo1");
route1->mutable_route()->set_cluster(kNewCluster1Name);
auto* route2 = new_route_config.mutable_virtual_hosts(0)->add_routes();
route2->mutable_match()->set_path("/GrPc.TeStInG.EcHoTeSt1SErViCe/EcHo1");
route2->mutable_match()->mutable_case_sensitive()->set_value(false);
route2->mutable_route()->set_cluster(kNewCluster2Name);
auto* default_route = new_route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, new_route_config);
CheckRpcSendOk(kNumEchoRpcs, RpcOptions().set_wait_for_ready(true));
CheckRpcSendOk(kNumEcho1Rpcs, RpcOptions()
.set_rpc_service(SERVICE_ECHO1)
.set_rpc_method(METHOD_ECHO1)
.set_wait_for_ready(true));
// Make sure RPCs all go to the correct backend.
EXPECT_EQ(kNumEchoRpcs, backends_[0]->backend_service()->request_count());
EXPECT_EQ(0, backends_[0]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[2]->backend_service()->request_count());
EXPECT_EQ(kNumEcho1Rpcs, backends_[2]->backend_service1()->request_count());
}
TEST_P(LdsRdsTest, XdsRoutingPrefixMatching) {
const char* kNewCluster1Name = "new_cluster_1";
const char* kNewEdsService1Name = "new_eds_service_name_1";
const char* kNewCluster2Name = "new_cluster_2";
const char* kNewEdsService2Name = "new_eds_service_name_2";
const size_t kNumEcho1Rpcs = 10;
const size_t kNumEcho2Rpcs = 20;
const size_t kNumEchoRpcs = 30;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 2)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(2, 3)},
});
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", GetBackendPorts(3, 4)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsService1Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsService2Name));
// Populate new CDS resources.
Cluster new_cluster1 = default_cluster_;
new_cluster1.set_name(kNewCluster1Name);
new_cluster1.mutable_eds_cluster_config()->set_service_name(
kNewEdsService1Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster1);
Cluster new_cluster2 = default_cluster_;
new_cluster2.set_name(kNewCluster2Name);
new_cluster2.mutable_eds_cluster_config()->set_service_name(
kNewEdsService2Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster2);
// Populating Route Configurations for LDS.
RouteConfiguration new_route_config = default_route_config_;
auto* route1 = new_route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
route1->mutable_route()->set_cluster(kNewCluster1Name);
auto* route2 = new_route_config.mutable_virtual_hosts(0)->add_routes();
route2->mutable_match()->set_prefix("/grpc.testing.EchoTest2Service/");
route2->mutable_route()->set_cluster(kNewCluster2Name);
auto* default_route = new_route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, new_route_config);
WaitForAllBackends(0, 2);
CheckRpcSendOk(kNumEchoRpcs, RpcOptions().set_wait_for_ready(true));
CheckRpcSendOk(
kNumEcho1Rpcs,
RpcOptions().set_rpc_service(SERVICE_ECHO1).set_wait_for_ready(true));
CheckRpcSendOk(
kNumEcho2Rpcs,
RpcOptions().set_rpc_service(SERVICE_ECHO2).set_wait_for_ready(true));
// Make sure RPCs all go to the correct backend.
for (size_t i = 0; i < 2; ++i) {
EXPECT_EQ(kNumEchoRpcs / 2,
backends_[i]->backend_service()->request_count());
EXPECT_EQ(0, backends_[i]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[i]->backend_service2()->request_count());
}
EXPECT_EQ(0, backends_[2]->backend_service()->request_count());
EXPECT_EQ(kNumEcho1Rpcs, backends_[2]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[2]->backend_service2()->request_count());
EXPECT_EQ(0, backends_[3]->backend_service()->request_count());
EXPECT_EQ(0, backends_[3]->backend_service1()->request_count());
EXPECT_EQ(kNumEcho2Rpcs, backends_[3]->backend_service2()->request_count());
}
TEST_P(LdsRdsTest, XdsRoutingPrefixMatchingCaseInsensitive) {
const char* kNewCluster1Name = "new_cluster_1";
const char* kNewEdsService1Name = "new_eds_service_name_1";
const char* kNewCluster2Name = "new_cluster_2";
const char* kNewEdsService2Name = "new_eds_service_name_2";
const size_t kNumEcho1Rpcs = 10;
const size_t kNumEchoRpcs = 30;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", GetBackendPorts(2, 3)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsService1Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsService2Name));
// Populate new CDS resources.
Cluster new_cluster1 = default_cluster_;
new_cluster1.set_name(kNewCluster1Name);
new_cluster1.mutable_eds_cluster_config()->set_service_name(
kNewEdsService1Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster1);
Cluster new_cluster2 = default_cluster_;
new_cluster2.set_name(kNewCluster2Name);
new_cluster2.mutable_eds_cluster_config()->set_service_name(
kNewEdsService2Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster2);
// Populating Route Configurations for LDS.
RouteConfiguration new_route_config = default_route_config_;
// First route will not match, since it's case-sensitive.
// Second route will match with same path.
auto* route1 = new_route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/GrPc.TeStInG.EcHoTeSt1SErViCe");
route1->mutable_route()->set_cluster(kNewCluster1Name);
auto* route2 = new_route_config.mutable_virtual_hosts(0)->add_routes();
route2->mutable_match()->set_prefix("/GrPc.TeStInG.EcHoTeSt1SErViCe");
route2->mutable_match()->mutable_case_sensitive()->set_value(false);
route2->mutable_route()->set_cluster(kNewCluster2Name);
auto* default_route = new_route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, new_route_config);
CheckRpcSendOk(kNumEchoRpcs, RpcOptions().set_wait_for_ready(true));
CheckRpcSendOk(kNumEcho1Rpcs, RpcOptions()
.set_rpc_service(SERVICE_ECHO1)
.set_rpc_method(METHOD_ECHO1)
.set_wait_for_ready(true));
// Make sure RPCs all go to the correct backend.
EXPECT_EQ(kNumEchoRpcs, backends_[0]->backend_service()->request_count());
EXPECT_EQ(0, backends_[0]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[2]->backend_service()->request_count());
EXPECT_EQ(kNumEcho1Rpcs, backends_[2]->backend_service1()->request_count());
}
TEST_P(LdsRdsTest, XdsRoutingPathRegexMatching) {
const char* kNewCluster1Name = "new_cluster_1";
const char* kNewEdsService1Name = "new_eds_service_name_1";
const char* kNewCluster2Name = "new_cluster_2";
const char* kNewEdsService2Name = "new_eds_service_name_2";
const size_t kNumEcho1Rpcs = 10;
const size_t kNumEcho2Rpcs = 20;
const size_t kNumEchoRpcs = 30;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 2)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(2, 3)},
});
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", GetBackendPorts(3, 4)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsService1Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsService2Name));
// Populate new CDS resources.
Cluster new_cluster1 = default_cluster_;
new_cluster1.set_name(kNewCluster1Name);
new_cluster1.mutable_eds_cluster_config()->set_service_name(
kNewEdsService1Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster1);
Cluster new_cluster2 = default_cluster_;
new_cluster2.set_name(kNewCluster2Name);
new_cluster2.mutable_eds_cluster_config()->set_service_name(
kNewEdsService2Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster2);
// Populating Route Configurations for LDS.
RouteConfiguration new_route_config = default_route_config_;
auto* route1 = new_route_config.mutable_virtual_hosts(0)->mutable_routes(0);
// Will match "/grpc.testing.EchoTest1Service/"
route1->mutable_match()->mutable_safe_regex()->set_regex(".*1.*");
route1->mutable_route()->set_cluster(kNewCluster1Name);
auto* route2 = new_route_config.mutable_virtual_hosts(0)->add_routes();
// Will match "/grpc.testing.EchoTest2Service/"
route2->mutable_match()->mutable_safe_regex()->set_regex(".*2.*");
route2->mutable_route()->set_cluster(kNewCluster2Name);
auto* default_route = new_route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, new_route_config);
WaitForAllBackends(0, 2);
CheckRpcSendOk(kNumEchoRpcs, RpcOptions().set_wait_for_ready(true));
CheckRpcSendOk(
kNumEcho1Rpcs,
RpcOptions().set_rpc_service(SERVICE_ECHO1).set_wait_for_ready(true));
CheckRpcSendOk(
kNumEcho2Rpcs,
RpcOptions().set_rpc_service(SERVICE_ECHO2).set_wait_for_ready(true));
// Make sure RPCs all go to the correct backend.
for (size_t i = 0; i < 2; ++i) {
EXPECT_EQ(kNumEchoRpcs / 2,
backends_[i]->backend_service()->request_count());
EXPECT_EQ(0, backends_[i]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[i]->backend_service2()->request_count());
}
EXPECT_EQ(0, backends_[2]->backend_service()->request_count());
EXPECT_EQ(kNumEcho1Rpcs, backends_[2]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[2]->backend_service2()->request_count());
EXPECT_EQ(0, backends_[3]->backend_service()->request_count());
EXPECT_EQ(0, backends_[3]->backend_service1()->request_count());
EXPECT_EQ(kNumEcho2Rpcs, backends_[3]->backend_service2()->request_count());
}
TEST_P(LdsRdsTest, XdsRoutingPathRegexMatchingCaseInsensitive) {
const char* kNewCluster1Name = "new_cluster_1";
const char* kNewEdsService1Name = "new_eds_service_name_1";
const char* kNewCluster2Name = "new_cluster_2";
const char* kNewEdsService2Name = "new_eds_service_name_2";
const size_t kNumEcho1Rpcs = 10;
const size_t kNumEchoRpcs = 30;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", GetBackendPorts(2, 3)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsService1Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsService2Name));
// Populate new CDS resources.
Cluster new_cluster1 = default_cluster_;
new_cluster1.set_name(kNewCluster1Name);
new_cluster1.mutable_eds_cluster_config()->set_service_name(
kNewEdsService1Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster1);
Cluster new_cluster2 = default_cluster_;
new_cluster2.set_name(kNewCluster2Name);
new_cluster2.mutable_eds_cluster_config()->set_service_name(
kNewEdsService2Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster2);
// Populating Route Configurations for LDS.
RouteConfiguration new_route_config = default_route_config_;
// First route will not match, since it's case-sensitive.
// Second route will match with same path.
auto* route1 = new_route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->mutable_safe_regex()->set_regex(
".*EcHoTeSt1SErViCe.*");
route1->mutable_route()->set_cluster(kNewCluster1Name);
auto* route2 = new_route_config.mutable_virtual_hosts(0)->add_routes();
route2->mutable_match()->mutable_safe_regex()->set_regex(
".*EcHoTeSt1SErViCe.*");
route2->mutable_match()->mutable_case_sensitive()->set_value(false);
route2->mutable_route()->set_cluster(kNewCluster2Name);
auto* default_route = new_route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, new_route_config);
CheckRpcSendOk(kNumEchoRpcs, RpcOptions().set_wait_for_ready(true));
CheckRpcSendOk(kNumEcho1Rpcs, RpcOptions()
.set_rpc_service(SERVICE_ECHO1)
.set_rpc_method(METHOD_ECHO1)
.set_wait_for_ready(true));
// Make sure RPCs all go to the correct backend.
EXPECT_EQ(kNumEchoRpcs, backends_[0]->backend_service()->request_count());
EXPECT_EQ(0, backends_[0]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[2]->backend_service()->request_count());
EXPECT_EQ(kNumEcho1Rpcs, backends_[2]->backend_service1()->request_count());
}
TEST_P(LdsRdsTest, XdsRoutingWeightedCluster) {
const char* kNewCluster1Name = "new_cluster_1";
const char* kNewEdsService1Name = "new_eds_service_name_1";
const char* kNewCluster2Name = "new_cluster_2";
const char* kNewEdsService2Name = "new_eds_service_name_2";
const char* kNotUsedClusterName = "not_used_cluster";
const size_t kNumEcho1Rpcs = 1000;
const size_t kNumEchoRpcs = 10;
const size_t kWeight75 = 75;
const size_t kWeight25 = 25;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", GetBackendPorts(2, 3)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsService1Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsService2Name));
// Populate new CDS resources.
Cluster new_cluster1 = default_cluster_;
new_cluster1.set_name(kNewCluster1Name);
new_cluster1.mutable_eds_cluster_config()->set_service_name(
kNewEdsService1Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster1);
Cluster new_cluster2 = default_cluster_;
new_cluster2.set_name(kNewCluster2Name);
new_cluster2.mutable_eds_cluster_config()->set_service_name(
kNewEdsService2Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster2);
// Populating Route Configurations for LDS.
RouteConfiguration new_route_config = default_route_config_;
auto* route1 = new_route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
auto* weighted_cluster1 =
route1->mutable_route()->mutable_weighted_clusters()->add_clusters();
weighted_cluster1->set_name(kNewCluster1Name);
weighted_cluster1->mutable_weight()->set_value(kWeight75);
auto* weighted_cluster2 =
route1->mutable_route()->mutable_weighted_clusters()->add_clusters();
weighted_cluster2->set_name(kNewCluster2Name);
weighted_cluster2->mutable_weight()->set_value(kWeight25);
// Cluster with weight 0 will not be used.
auto* weighted_cluster3 =
route1->mutable_route()->mutable_weighted_clusters()->add_clusters();
weighted_cluster3->set_name(kNotUsedClusterName);
weighted_cluster3->mutable_weight()->set_value(0);
route1->mutable_route()
->mutable_weighted_clusters()
->mutable_total_weight()
->set_value(kWeight75 + kWeight25);
auto* default_route = new_route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, new_route_config);
WaitForAllBackends(0, 1);
WaitForAllBackends(1, 3, true, RpcOptions().set_rpc_service(SERVICE_ECHO1));
CheckRpcSendOk(kNumEchoRpcs);
CheckRpcSendOk(kNumEcho1Rpcs, RpcOptions().set_rpc_service(SERVICE_ECHO1));
// Make sure RPCs all go to the correct backend.
EXPECT_EQ(kNumEchoRpcs, backends_[0]->backend_service()->request_count());
EXPECT_EQ(0, backends_[0]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service()->request_count());
const int weight_75_request_count =
backends_[1]->backend_service1()->request_count();
EXPECT_EQ(0, backends_[2]->backend_service()->request_count());
const int weight_25_request_count =
backends_[2]->backend_service1()->request_count();
const double kErrorTolerance = 0.2;
EXPECT_THAT(
weight_75_request_count,
::testing::AllOf(::testing::Ge(static_cast<double>(kNumEcho1Rpcs) *
kWeight75 / 100 * (1 - kErrorTolerance)),
::testing::Le(static_cast<double>(kNumEcho1Rpcs) *
kWeight75 / 100 * (1 + kErrorTolerance))));
// TODO(@donnadionne): Reduce tolerance: increased the tolerance to keep the
// test from flaking while debugging potential root cause.
const double kErrorToleranceSmallLoad = 0.3;
gpr_log(GPR_INFO, "target_75 received %d rpcs and target_25 received %d rpcs",
weight_75_request_count, weight_25_request_count);
EXPECT_THAT(weight_25_request_count,
::testing::AllOf(
::testing::Ge(static_cast<double>(kNumEcho1Rpcs) * kWeight25 /
100 * (1 - kErrorToleranceSmallLoad)),
::testing::Le(static_cast<double>(kNumEcho1Rpcs) * kWeight25 /
100 * (1 + kErrorToleranceSmallLoad))));
}
TEST_P(LdsRdsTest, RouteActionWeightedTargetDefaultRoute) {
const char* kNewCluster1Name = "new_cluster_1";
const char* kNewEdsService1Name = "new_eds_service_name_1";
const char* kNewCluster2Name = "new_cluster_2";
const char* kNewEdsService2Name = "new_eds_service_name_2";
const size_t kNumEchoRpcs = 1000;
const size_t kWeight75 = 75;
const size_t kWeight25 = 25;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", GetBackendPorts(2, 3)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsService1Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsService2Name));
// Populate new CDS resources.
Cluster new_cluster1 = default_cluster_;
new_cluster1.set_name(kNewCluster1Name);
new_cluster1.mutable_eds_cluster_config()->set_service_name(
kNewEdsService1Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster1);
Cluster new_cluster2 = default_cluster_;
new_cluster2.set_name(kNewCluster2Name);
new_cluster2.mutable_eds_cluster_config()->set_service_name(
kNewEdsService2Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster2);
// Populating Route Configurations for LDS.
RouteConfiguration new_route_config = default_route_config_;
auto* route1 = new_route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("");
auto* weighted_cluster1 =
route1->mutable_route()->mutable_weighted_clusters()->add_clusters();
weighted_cluster1->set_name(kNewCluster1Name);
weighted_cluster1->mutable_weight()->set_value(kWeight75);
auto* weighted_cluster2 =
route1->mutable_route()->mutable_weighted_clusters()->add_clusters();
weighted_cluster2->set_name(kNewCluster2Name);
weighted_cluster2->mutable_weight()->set_value(kWeight25);
route1->mutable_route()
->mutable_weighted_clusters()
->mutable_total_weight()
->set_value(kWeight75 + kWeight25);
SetRouteConfiguration(0, new_route_config);
WaitForAllBackends(1, 3);
CheckRpcSendOk(kNumEchoRpcs);
// Make sure RPCs all go to the correct backend.
EXPECT_EQ(0, backends_[0]->backend_service()->request_count());
const int weight_75_request_count =
backends_[1]->backend_service()->request_count();
const int weight_25_request_count =
backends_[2]->backend_service()->request_count();
const double kErrorTolerance = 0.2;
EXPECT_THAT(
weight_75_request_count,
::testing::AllOf(::testing::Ge(static_cast<double>(kNumEchoRpcs) *
kWeight75 / 100 * (1 - kErrorTolerance)),
::testing::Le(static_cast<double>(kNumEchoRpcs) *
kWeight75 / 100 * (1 + kErrorTolerance))));
// TODO(@donnadionne): Reduce tolerance: increased the tolerance to keep the
// test from flaking while debugging potential root cause.
const double kErrorToleranceSmallLoad = 0.3;
gpr_log(GPR_INFO, "target_75 received %d rpcs and target_25 received %d rpcs",
weight_75_request_count, weight_25_request_count);
EXPECT_THAT(weight_25_request_count,
::testing::AllOf(
::testing::Ge(static_cast<double>(kNumEchoRpcs) * kWeight25 /
100 * (1 - kErrorToleranceSmallLoad)),
::testing::Le(static_cast<double>(kNumEchoRpcs) * kWeight25 /
100 * (1 + kErrorToleranceSmallLoad))));
}
TEST_P(LdsRdsTest, XdsRoutingWeightedClusterUpdateWeights) {
const char* kNewCluster1Name = "new_cluster_1";
const char* kNewEdsService1Name = "new_eds_service_name_1";
const char* kNewCluster2Name = "new_cluster_2";
const char* kNewEdsService2Name = "new_eds_service_name_2";
const char* kNewCluster3Name = "new_cluster_3";
const char* kNewEdsService3Name = "new_eds_service_name_3";
const size_t kNumEcho1Rpcs = 1000;
const size_t kNumEchoRpcs = 10;
const size_t kWeight75 = 75;
const size_t kWeight25 = 25;
const size_t kWeight50 = 50;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", GetBackendPorts(2, 3)},
});
AdsServiceImpl::EdsResourceArgs args3({
{"locality0", GetBackendPorts(3, 4)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsService1Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsService2Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args3, kNewEdsService3Name));
// Populate new CDS resources.
Cluster new_cluster1 = default_cluster_;
new_cluster1.set_name(kNewCluster1Name);
new_cluster1.mutable_eds_cluster_config()->set_service_name(
kNewEdsService1Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster1);
Cluster new_cluster2 = default_cluster_;
new_cluster2.set_name(kNewCluster2Name);
new_cluster2.mutable_eds_cluster_config()->set_service_name(
kNewEdsService2Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster2);
Cluster new_cluster3 = default_cluster_;
new_cluster3.set_name(kNewCluster3Name);
new_cluster3.mutable_eds_cluster_config()->set_service_name(
kNewEdsService3Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster3);
// Populating Route Configurations.
RouteConfiguration new_route_config = default_route_config_;
auto* route1 = new_route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
auto* weighted_cluster1 =
route1->mutable_route()->mutable_weighted_clusters()->add_clusters();
weighted_cluster1->set_name(kNewCluster1Name);
weighted_cluster1->mutable_weight()->set_value(kWeight75);
auto* weighted_cluster2 =
route1->mutable_route()->mutable_weighted_clusters()->add_clusters();
weighted_cluster2->set_name(kNewCluster2Name);
weighted_cluster2->mutable_weight()->set_value(kWeight25);
route1->mutable_route()
->mutable_weighted_clusters()
->mutable_total_weight()
->set_value(kWeight75 + kWeight25);
auto* default_route = new_route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, new_route_config);
WaitForAllBackends(0, 1);
WaitForAllBackends(1, 3, true, RpcOptions().set_rpc_service(SERVICE_ECHO1));
CheckRpcSendOk(kNumEchoRpcs);
CheckRpcSendOk(kNumEcho1Rpcs, RpcOptions().set_rpc_service(SERVICE_ECHO1));
// Make sure RPCs all go to the correct backend.
EXPECT_EQ(kNumEchoRpcs, backends_[0]->backend_service()->request_count());
EXPECT_EQ(0, backends_[0]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service()->request_count());
const int weight_75_request_count =
backends_[1]->backend_service1()->request_count();
EXPECT_EQ(0, backends_[1]->backend_service2()->request_count());
EXPECT_EQ(0, backends_[2]->backend_service()->request_count());
const int weight_25_request_count =
backends_[2]->backend_service1()->request_count();
EXPECT_EQ(0, backends_[3]->backend_service()->request_count());
EXPECT_EQ(0, backends_[3]->backend_service1()->request_count());
const double kErrorTolerance = 0.2;
EXPECT_THAT(
weight_75_request_count,
::testing::AllOf(::testing::Ge(static_cast<double>(kNumEcho1Rpcs) *
kWeight75 / 100 * (1 - kErrorTolerance)),
::testing::Le(static_cast<double>(kNumEcho1Rpcs) *
kWeight75 / 100 * (1 + kErrorTolerance))));
// TODO(@donnadionne): Reduce tolerance: increased the tolerance to keep the
// test from flaking while debugging potential root cause.
const double kErrorToleranceSmallLoad = 0.3;
gpr_log(GPR_INFO, "target_75 received %d rpcs and target_25 received %d rpcs",
weight_75_request_count, weight_25_request_count);
EXPECT_THAT(weight_25_request_count,
::testing::AllOf(
::testing::Ge(static_cast<double>(kNumEcho1Rpcs) * kWeight25 /
100 * (1 - kErrorToleranceSmallLoad)),
::testing::Le(static_cast<double>(kNumEcho1Rpcs) * kWeight25 /
100 * (1 + kErrorToleranceSmallLoad))));
// Change Route Configurations: same clusters different weights.
weighted_cluster1->mutable_weight()->set_value(kWeight50);
weighted_cluster2->mutable_weight()->set_value(kWeight50);
// Change default route to a new cluster to help to identify when new polices
// are seen by the client.
default_route->mutable_route()->set_cluster(kNewCluster3Name);
SetRouteConfiguration(0, new_route_config);
ResetBackendCounters();
WaitForAllBackends(3, 4);
CheckRpcSendOk(kNumEchoRpcs);
CheckRpcSendOk(kNumEcho1Rpcs, RpcOptions().set_rpc_service(SERVICE_ECHO1));
// Make sure RPCs all go to the correct backend.
EXPECT_EQ(0, backends_[0]->backend_service()->request_count());
EXPECT_EQ(0, backends_[0]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service()->request_count());
const int weight_50_request_count_1 =
backends_[1]->backend_service1()->request_count();
EXPECT_EQ(0, backends_[2]->backend_service()->request_count());
const int weight_50_request_count_2 =
backends_[2]->backend_service1()->request_count();
EXPECT_EQ(kNumEchoRpcs, backends_[3]->backend_service()->request_count());
EXPECT_EQ(0, backends_[3]->backend_service1()->request_count());
EXPECT_THAT(
weight_50_request_count_1,
::testing::AllOf(::testing::Ge(static_cast<double>(kNumEcho1Rpcs) *
kWeight50 / 100 * (1 - kErrorTolerance)),
::testing::Le(static_cast<double>(kNumEcho1Rpcs) *
kWeight50 / 100 * (1 + kErrorTolerance))));
EXPECT_THAT(
weight_50_request_count_2,
::testing::AllOf(::testing::Ge(static_cast<double>(kNumEcho1Rpcs) *
kWeight50 / 100 * (1 - kErrorTolerance)),
::testing::Le(static_cast<double>(kNumEcho1Rpcs) *
kWeight50 / 100 * (1 + kErrorTolerance))));
}
TEST_P(LdsRdsTest, XdsRoutingWeightedClusterUpdateClusters) {
const char* kNewCluster1Name = "new_cluster_1";
const char* kNewEdsService1Name = "new_eds_service_name_1";
const char* kNewCluster2Name = "new_cluster_2";
const char* kNewEdsService2Name = "new_eds_service_name_2";
const char* kNewCluster3Name = "new_cluster_3";
const char* kNewEdsService3Name = "new_eds_service_name_3";
const size_t kNumEcho1Rpcs = 1000;
const size_t kNumEchoRpcs = 10;
const size_t kWeight75 = 75;
const size_t kWeight25 = 25;
const size_t kWeight50 = 50;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", GetBackendPorts(2, 3)},
});
AdsServiceImpl::EdsResourceArgs args3({
{"locality0", GetBackendPorts(3, 4)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsService1Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsService2Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args3, kNewEdsService3Name));
// Populate new CDS resources.
Cluster new_cluster1 = default_cluster_;
new_cluster1.set_name(kNewCluster1Name);
new_cluster1.mutable_eds_cluster_config()->set_service_name(
kNewEdsService1Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster1);
Cluster new_cluster2 = default_cluster_;
new_cluster2.set_name(kNewCluster2Name);
new_cluster2.mutable_eds_cluster_config()->set_service_name(
kNewEdsService2Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster2);
Cluster new_cluster3 = default_cluster_;
new_cluster3.set_name(kNewCluster3Name);
new_cluster3.mutable_eds_cluster_config()->set_service_name(
kNewEdsService3Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster3);
// Populating Route Configurations.
RouteConfiguration new_route_config = default_route_config_;
auto* route1 = new_route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
auto* weighted_cluster1 =
route1->mutable_route()->mutable_weighted_clusters()->add_clusters();
weighted_cluster1->set_name(kNewCluster1Name);
weighted_cluster1->mutable_weight()->set_value(kWeight75);
auto* weighted_cluster2 =
route1->mutable_route()->mutable_weighted_clusters()->add_clusters();
weighted_cluster2->set_name(kDefaultClusterName);
weighted_cluster2->mutable_weight()->set_value(kWeight25);
route1->mutable_route()
->mutable_weighted_clusters()
->mutable_total_weight()
->set_value(kWeight75 + kWeight25);
auto* default_route = new_route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, new_route_config);
WaitForAllBackends(0, 1);
WaitForAllBackends(1, 2, true, RpcOptions().set_rpc_service(SERVICE_ECHO1));
CheckRpcSendOk(kNumEchoRpcs);
CheckRpcSendOk(kNumEcho1Rpcs, RpcOptions().set_rpc_service(SERVICE_ECHO1));
// Make sure RPCs all go to the correct backend.
EXPECT_EQ(kNumEchoRpcs, backends_[0]->backend_service()->request_count());
int weight_25_request_count =
backends_[0]->backend_service1()->request_count();
EXPECT_EQ(0, backends_[1]->backend_service()->request_count());
int weight_75_request_count =
backends_[1]->backend_service1()->request_count();
EXPECT_EQ(0, backends_[2]->backend_service()->request_count());
EXPECT_EQ(0, backends_[2]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[3]->backend_service()->request_count());
EXPECT_EQ(0, backends_[3]->backend_service1()->request_count());
const double kErrorTolerance = 0.2;
EXPECT_THAT(
weight_75_request_count,
::testing::AllOf(::testing::Ge(static_cast<double>(kNumEcho1Rpcs) *
kWeight75 / 100 * (1 - kErrorTolerance)),
::testing::Le(static_cast<double>(kNumEcho1Rpcs) *
kWeight75 / 100 * (1 + kErrorTolerance))));
// TODO(@donnadionne): Reduce tolerance: increased the tolerance to keep the
// test from flaking while debugging potential root cause.
const double kErrorToleranceSmallLoad = 0.3;
gpr_log(GPR_INFO, "target_75 received %d rpcs and target_25 received %d rpcs",
weight_75_request_count, weight_25_request_count);
EXPECT_THAT(weight_25_request_count,
::testing::AllOf(
::testing::Ge(static_cast<double>(kNumEcho1Rpcs) * kWeight25 /
100 * (1 - kErrorToleranceSmallLoad)),
::testing::Le(static_cast<double>(kNumEcho1Rpcs) * kWeight25 /
100 * (1 + kErrorToleranceSmallLoad))));
// Change Route Configurations: new set of clusters with different weights.
weighted_cluster1->mutable_weight()->set_value(kWeight50);
weighted_cluster2->set_name(kNewCluster2Name);
weighted_cluster2->mutable_weight()->set_value(kWeight50);
SetRouteConfiguration(0, new_route_config);
ResetBackendCounters();
WaitForAllBackends(2, 3, true, RpcOptions().set_rpc_service(SERVICE_ECHO1));
CheckRpcSendOk(kNumEchoRpcs);
CheckRpcSendOk(kNumEcho1Rpcs, RpcOptions().set_rpc_service(SERVICE_ECHO1));
// Make sure RPCs all go to the correct backend.
EXPECT_EQ(kNumEchoRpcs, backends_[0]->backend_service()->request_count());
EXPECT_EQ(0, backends_[0]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service()->request_count());
const int weight_50_request_count_1 =
backends_[1]->backend_service1()->request_count();
EXPECT_EQ(0, backends_[2]->backend_service()->request_count());
const int weight_50_request_count_2 =
backends_[2]->backend_service1()->request_count();
EXPECT_EQ(0, backends_[3]->backend_service()->request_count());
EXPECT_EQ(0, backends_[3]->backend_service1()->request_count());
EXPECT_THAT(
weight_50_request_count_1,
::testing::AllOf(::testing::Ge(static_cast<double>(kNumEcho1Rpcs) *
kWeight50 / 100 * (1 - kErrorTolerance)),
::testing::Le(static_cast<double>(kNumEcho1Rpcs) *
kWeight50 / 100 * (1 + kErrorTolerance))));
EXPECT_THAT(
weight_50_request_count_2,
::testing::AllOf(::testing::Ge(static_cast<double>(kNumEcho1Rpcs) *
kWeight50 / 100 * (1 - kErrorTolerance)),
::testing::Le(static_cast<double>(kNumEcho1Rpcs) *
kWeight50 / 100 * (1 + kErrorTolerance))));
// Change Route Configurations.
weighted_cluster1->mutable_weight()->set_value(kWeight75);
weighted_cluster2->set_name(kNewCluster3Name);
weighted_cluster2->mutable_weight()->set_value(kWeight25);
SetRouteConfiguration(0, new_route_config);
ResetBackendCounters();
WaitForAllBackends(3, 4, true, RpcOptions().set_rpc_service(SERVICE_ECHO1));
CheckRpcSendOk(kNumEchoRpcs);
CheckRpcSendOk(kNumEcho1Rpcs, RpcOptions().set_rpc_service(SERVICE_ECHO1));
// Make sure RPCs all go to the correct backend.
EXPECT_EQ(kNumEchoRpcs, backends_[0]->backend_service()->request_count());
EXPECT_EQ(0, backends_[0]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service()->request_count());
weight_75_request_count = backends_[1]->backend_service1()->request_count();
EXPECT_EQ(0, backends_[2]->backend_service()->request_count());
EXPECT_EQ(0, backends_[2]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[3]->backend_service()->request_count());
weight_25_request_count = backends_[3]->backend_service1()->request_count();
EXPECT_THAT(
weight_75_request_count,
::testing::AllOf(::testing::Ge(static_cast<double>(kNumEcho1Rpcs) *
kWeight75 / 100 * (1 - kErrorTolerance)),
::testing::Le(static_cast<double>(kNumEcho1Rpcs) *
kWeight75 / 100 * (1 + kErrorTolerance))));
// TODO(@donnadionne): Reduce tolerance: increased the tolerance to keep the
// test from flaking while debugging potential root cause.
gpr_log(GPR_INFO, "target_75 received %d rpcs and target_25 received %d rpcs",
weight_75_request_count, weight_25_request_count);
EXPECT_THAT(weight_25_request_count,
::testing::AllOf(
::testing::Ge(static_cast<double>(kNumEcho1Rpcs) * kWeight25 /
100 * (1 - kErrorToleranceSmallLoad)),
::testing::Le(static_cast<double>(kNumEcho1Rpcs) * kWeight25 /
100 * (1 + kErrorToleranceSmallLoad))));
}
TEST_P(LdsRdsTest, XdsRoutingClusterUpdateClusters) {
const char* kNewClusterName = "new_cluster";
const char* kNewEdsServiceName = "new_eds_service_name";
const size_t kNumEchoRpcs = 5;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsServiceName));
// Populate new CDS resources.
Cluster new_cluster = default_cluster_;
new_cluster.set_name(kNewClusterName);
new_cluster.mutable_eds_cluster_config()->set_service_name(
kNewEdsServiceName);
balancers_[0]->ads_service()->SetCdsResource(new_cluster);
// Send Route Configuration.
RouteConfiguration new_route_config = default_route_config_;
SetRouteConfiguration(0, new_route_config);
WaitForAllBackends(0, 1);
CheckRpcSendOk(kNumEchoRpcs);
// Make sure RPCs all go to the correct backend.
EXPECT_EQ(kNumEchoRpcs, backends_[0]->backend_service()->request_count());
// Change Route Configurations: new default cluster.
auto* default_route =
new_route_config.mutable_virtual_hosts(0)->mutable_routes(0);
default_route->mutable_route()->set_cluster(kNewClusterName);
SetRouteConfiguration(0, new_route_config);
WaitForAllBackends(1, 2);
CheckRpcSendOk(kNumEchoRpcs);
// Make sure RPCs all go to the correct backend.
EXPECT_EQ(kNumEchoRpcs, backends_[1]->backend_service()->request_count());
}
TEST_P(LdsRdsTest, XdsRoutingClusterUpdateClustersWithPickingDelays) {
const char* kNewClusterName = "new_cluster";
const char* kNewEdsServiceName = "new_eds_service_name";
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsServiceName));
// Populate new CDS resources.
Cluster new_cluster = default_cluster_;
new_cluster.set_name(kNewClusterName);
new_cluster.mutable_eds_cluster_config()->set_service_name(
kNewEdsServiceName);
balancers_[0]->ads_service()->SetCdsResource(new_cluster);
// Bring down the current backend: 0, this will delay route picking time,
// resulting in un-committed RPCs.
ShutdownBackend(0);
// Send a RouteConfiguration with a default route that points to
// backend 0.
RouteConfiguration new_route_config = default_route_config_;
SetRouteConfiguration(0, new_route_config);
// Send exactly one RPC with no deadline and with wait_for_ready=true.
// This RPC will not complete until after backend 0 is started.
std::thread sending_rpc([this]() {
CheckRpcSendOk(1, RpcOptions().set_wait_for_ready(true).set_timeout_ms(0));
});
// Send a non-wait_for_ready RPC which should fail, this will tell us
// that the client has received the update and attempted to connect.
const Status status = SendRpc(RpcOptions().set_timeout_ms(0));
EXPECT_FALSE(status.ok());
// Send a update RouteConfiguration to use backend 1.
auto* default_route =
new_route_config.mutable_virtual_hosts(0)->mutable_routes(0);
default_route->mutable_route()->set_cluster(kNewClusterName);
SetRouteConfiguration(0, new_route_config);
// Wait for RPCs to go to the new backend: 1, this ensures that the client has
// processed the update.
WaitForAllBackends(1, 2, false, RpcOptions(), true);
// Bring up the previous backend: 0, this will allow the delayed RPC to
// finally call on_call_committed upon completion.
StartBackend(0);
sending_rpc.join();
// Make sure RPCs go to the correct backend:
EXPECT_EQ(1, backends_[0]->backend_service()->request_count());
EXPECT_EQ(1, backends_[1]->backend_service()->request_count());
}
TEST_P(LdsRdsTest, XdsRoutingApplyXdsTimeout) {
const int64_t kTimeoutMillis = 500;
const int64_t kTimeoutNano = kTimeoutMillis * 1000000;
const int64_t kTimeoutGrpcTimeoutHeaderMaxSecond = 1;
const int64_t kTimeoutMaxStreamDurationSecond = 2;
const int64_t kTimeoutHttpMaxStreamDurationSecond = 3;
const int64_t kTimeoutApplicationSecond = 4;
const char* kNewCluster1Name = "new_cluster_1";
const char* kNewEdsService1Name = "new_eds_service_name_1";
const char* kNewCluster2Name = "new_cluster_2";
const char* kNewEdsService2Name = "new_eds_service_name_2";
const char* kNewCluster3Name = "new_cluster_3";
const char* kNewEdsService3Name = "new_eds_service_name_3";
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", {grpc_pick_unused_port_or_die()}},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", {grpc_pick_unused_port_or_die()}},
});
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", {grpc_pick_unused_port_or_die()}},
});
AdsServiceImpl::EdsResourceArgs args3({
{"locality0", {grpc_pick_unused_port_or_die()}},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsService1Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsService2Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args3, kNewEdsService3Name));
// Populate new CDS resources.
Cluster new_cluster1 = default_cluster_;
new_cluster1.set_name(kNewCluster1Name);
new_cluster1.mutable_eds_cluster_config()->set_service_name(
kNewEdsService1Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster1);
Cluster new_cluster2 = default_cluster_;
new_cluster2.set_name(kNewCluster2Name);
new_cluster2.mutable_eds_cluster_config()->set_service_name(
kNewEdsService2Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster2);
Cluster new_cluster3 = default_cluster_;
new_cluster3.set_name(kNewCluster3Name);
new_cluster3.mutable_eds_cluster_config()->set_service_name(
kNewEdsService3Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster3);
// Construct listener.
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
// Set up HTTP max_stream_duration of 3.5 seconds
auto* duration =
http_connection_manager.mutable_common_http_protocol_options()
->mutable_max_stream_duration();
duration->set_seconds(kTimeoutHttpMaxStreamDurationSecond);
duration->set_nanos(kTimeoutNano);
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
// Construct route config.
RouteConfiguration new_route_config = default_route_config_;
// route 1: Set max_stream_duration of 2.5 seconds, Set
// grpc_timeout_header_max of 1.5
auto* route1 = new_route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_path("/grpc.testing.EchoTest1Service/Echo1");
route1->mutable_route()->set_cluster(kNewCluster1Name);
auto* max_stream_duration =
route1->mutable_route()->mutable_max_stream_duration();
duration = max_stream_duration->mutable_max_stream_duration();
duration->set_seconds(kTimeoutMaxStreamDurationSecond);
duration->set_nanos(kTimeoutNano);
duration = max_stream_duration->mutable_grpc_timeout_header_max();
duration->set_seconds(kTimeoutGrpcTimeoutHeaderMaxSecond);
duration->set_nanos(kTimeoutNano);
// route 2: Set max_stream_duration of 2.5 seconds
auto* route2 = new_route_config.mutable_virtual_hosts(0)->add_routes();
route2->mutable_match()->set_path("/grpc.testing.EchoTest2Service/Echo2");
route2->mutable_route()->set_cluster(kNewCluster2Name);
max_stream_duration = route2->mutable_route()->mutable_max_stream_duration();
duration = max_stream_duration->mutable_max_stream_duration();
duration->set_seconds(kTimeoutMaxStreamDurationSecond);
duration->set_nanos(kTimeoutNano);
// route 3: No timeout values in route configuration
auto* route3 = new_route_config.mutable_virtual_hosts(0)->add_routes();
route3->mutable_match()->set_path("/grpc.testing.EchoTestService/Echo");
route3->mutable_route()->set_cluster(kNewCluster3Name);
// Set listener and route config.
SetListenerAndRouteConfiguration(0, std::move(listener), new_route_config);
// Test grpc_timeout_header_max of 1.5 seconds applied
grpc_millis t0 = NowFromCycleCounter();
grpc_millis t1 =
t0 + kTimeoutGrpcTimeoutHeaderMaxSecond * 1000 + kTimeoutMillis;
grpc_millis t2 = t0 + kTimeoutMaxStreamDurationSecond * 1000 + kTimeoutMillis;
CheckRpcSendFailure(1,
RpcOptions()
.set_rpc_service(SERVICE_ECHO1)
.set_rpc_method(METHOD_ECHO1)
.set_wait_for_ready(true)
.set_timeout_ms(kTimeoutApplicationSecond * 1000),
StatusCode::DEADLINE_EXCEEDED);
t0 = NowFromCycleCounter();
EXPECT_GE(t0, t1);
EXPECT_LT(t0, t2);
// Test max_stream_duration of 2.5 seconds applied
t0 = NowFromCycleCounter();
t1 = t0 + kTimeoutMaxStreamDurationSecond * 1000 + kTimeoutMillis;
t2 = t0 + kTimeoutHttpMaxStreamDurationSecond * 1000 + kTimeoutMillis;
CheckRpcSendFailure(1,
RpcOptions()
.set_rpc_service(SERVICE_ECHO2)
.set_rpc_method(METHOD_ECHO2)
.set_wait_for_ready(true)
.set_timeout_ms(kTimeoutApplicationSecond * 1000),
StatusCode::DEADLINE_EXCEEDED);
t0 = NowFromCycleCounter();
EXPECT_GE(t0, t1);
EXPECT_LT(t0, t2);
// Test http_stream_duration of 3.5 seconds applied
t0 = NowFromCycleCounter();
t1 = t0 + kTimeoutHttpMaxStreamDurationSecond * 1000 + kTimeoutMillis;
t2 = t0 + kTimeoutApplicationSecond * 1000 + kTimeoutMillis;
CheckRpcSendFailure(1,
RpcOptions().set_wait_for_ready(true).set_timeout_ms(
kTimeoutApplicationSecond * 1000),
StatusCode::DEADLINE_EXCEEDED);
t0 = NowFromCycleCounter();
EXPECT_GE(t0, t1);
EXPECT_LT(t0, t2);
}
TEST_P(LdsRdsTest, XdsRoutingApplyApplicationTimeoutWhenXdsTimeoutExplicit0) {
const int64_t kTimeoutNano = 500000000;
const int64_t kTimeoutMaxStreamDurationSecond = 2;
const int64_t kTimeoutHttpMaxStreamDurationSecond = 3;
const int64_t kTimeoutApplicationSecond = 4;
const char* kNewCluster1Name = "new_cluster_1";
const char* kNewEdsService1Name = "new_eds_service_name_1";
const char* kNewCluster2Name = "new_cluster_2";
const char* kNewEdsService2Name = "new_eds_service_name_2";
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", {grpc_pick_unused_port_or_die()}},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", {grpc_pick_unused_port_or_die()}},
});
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", {grpc_pick_unused_port_or_die()}},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsService1Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsService2Name));
// Populate new CDS resources.
Cluster new_cluster1 = default_cluster_;
new_cluster1.set_name(kNewCluster1Name);
new_cluster1.mutable_eds_cluster_config()->set_service_name(
kNewEdsService1Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster1);
Cluster new_cluster2 = default_cluster_;
new_cluster2.set_name(kNewCluster2Name);
new_cluster2.mutable_eds_cluster_config()->set_service_name(
kNewEdsService2Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster2);
// Construct listener.
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
// Set up HTTP max_stream_duration of 3.5 seconds
auto* duration =
http_connection_manager.mutable_common_http_protocol_options()
->mutable_max_stream_duration();
duration->set_seconds(kTimeoutHttpMaxStreamDurationSecond);
duration->set_nanos(kTimeoutNano);
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
// Construct route config.
RouteConfiguration new_route_config = default_route_config_;
// route 1: Set max_stream_duration of 2.5 seconds, Set
// grpc_timeout_header_max of 0
auto* route1 = new_route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_path("/grpc.testing.EchoTest1Service/Echo1");
route1->mutable_route()->set_cluster(kNewCluster1Name);
auto* max_stream_duration =
route1->mutable_route()->mutable_max_stream_duration();
duration = max_stream_duration->mutable_max_stream_duration();
duration->set_seconds(kTimeoutMaxStreamDurationSecond);
duration->set_nanos(kTimeoutNano);
duration = max_stream_duration->mutable_grpc_timeout_header_max();
duration->set_seconds(0);
duration->set_nanos(0);
// route 2: Set max_stream_duration to 0
auto* route2 = new_route_config.mutable_virtual_hosts(0)->add_routes();
route2->mutable_match()->set_path("/grpc.testing.EchoTest2Service/Echo2");
route2->mutable_route()->set_cluster(kNewCluster2Name);
max_stream_duration = route2->mutable_route()->mutable_max_stream_duration();
duration = max_stream_duration->mutable_max_stream_duration();
duration->set_seconds(0);
duration->set_nanos(0);
// Set listener and route config.
SetListenerAndRouteConfiguration(0, std::move(listener), new_route_config);
// Test application timeout is applied for route 1
auto t0 = system_clock::now();
CheckRpcSendFailure(1,
RpcOptions()
.set_rpc_service(SERVICE_ECHO1)
.set_rpc_method(METHOD_ECHO1)
.set_wait_for_ready(true)
.set_timeout_ms(kTimeoutApplicationSecond * 1000),
StatusCode::DEADLINE_EXCEEDED);
auto ellapsed_nano_seconds =
std::chrono::duration_cast<std::chrono::nanoseconds>(system_clock::now() -
t0);
EXPECT_GT(ellapsed_nano_seconds.count(),
kTimeoutApplicationSecond * 1000000000);
// Test application timeout is applied for route 2
t0 = system_clock::now();
CheckRpcSendFailure(1,
RpcOptions()
.set_rpc_service(SERVICE_ECHO2)
.set_rpc_method(METHOD_ECHO2)
.set_wait_for_ready(true)
.set_timeout_ms(kTimeoutApplicationSecond * 1000),
StatusCode::DEADLINE_EXCEEDED);
ellapsed_nano_seconds = std::chrono::duration_cast<std::chrono::nanoseconds>(
system_clock::now() - t0);
EXPECT_GT(ellapsed_nano_seconds.count(),
kTimeoutApplicationSecond * 1000000000);
}
TEST_P(LdsRdsTest, XdsRoutingApplyApplicationTimeoutWhenHttpTimeoutExplicit0) {
const int64_t kTimeoutApplicationSecond = 4;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", {grpc_pick_unused_port_or_die()}},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
auto listener = default_listener_;
HttpConnectionManager http_connection_manager;
listener.mutable_api_listener()->mutable_api_listener()->UnpackTo(
&http_connection_manager);
// Set up HTTP max_stream_duration to be explicit 0
auto* duration =
http_connection_manager.mutable_common_http_protocol_options()
->mutable_max_stream_duration();
duration->set_seconds(0);
duration->set_nanos(0);
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
// Set listener and route config.
SetListenerAndRouteConfiguration(0, std::move(listener),
default_route_config_);
// Test application timeout is applied for route 1
auto t0 = system_clock::now();
CheckRpcSendFailure(1,
RpcOptions().set_wait_for_ready(true).set_timeout_ms(
kTimeoutApplicationSecond * 1000),
StatusCode::DEADLINE_EXCEEDED);
auto ellapsed_nano_seconds =
std::chrono::duration_cast<std::chrono::nanoseconds>(system_clock::now() -
t0);
EXPECT_GT(ellapsed_nano_seconds.count(),
kTimeoutApplicationSecond * 1000000000);
}
// Test to ensure application-specified deadline won't be affected when
// the xDS config does not specify a timeout.
TEST_P(LdsRdsTest, XdsRoutingWithOnlyApplicationTimeout) {
const int64_t kTimeoutApplicationSecond = 4;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", {grpc_pick_unused_port_or_die()}},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
auto t0 = system_clock::now();
CheckRpcSendFailure(1,
RpcOptions().set_wait_for_ready(true).set_timeout_ms(
kTimeoutApplicationSecond * 1000),
StatusCode::DEADLINE_EXCEEDED);
auto ellapsed_nano_seconds =
std::chrono::duration_cast<std::chrono::nanoseconds>(system_clock::now() -
t0);
EXPECT_GT(ellapsed_nano_seconds.count(),
kTimeoutApplicationSecond * 1000000000);
}
TEST_P(LdsRdsTest, XdsRoutingHeadersMatching) {
const char* kNewClusterName = "new_cluster";
const char* kNewEdsServiceName = "new_eds_service_name";
const size_t kNumEcho1Rpcs = 100;
const size_t kNumEchoRpcs = 5;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsServiceName));
// Populate new CDS resources.
Cluster new_cluster = default_cluster_;
new_cluster.set_name(kNewClusterName);
new_cluster.mutable_eds_cluster_config()->set_service_name(
kNewEdsServiceName);
balancers_[0]->ads_service()->SetCdsResource(new_cluster);
// Populating Route Configurations for LDS.
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
auto* header_matcher1 = route1->mutable_match()->add_headers();
header_matcher1->set_name("header1");
header_matcher1->set_exact_match("POST,PUT,GET");
auto* header_matcher2 = route1->mutable_match()->add_headers();
header_matcher2->set_name("header2");
header_matcher2->mutable_safe_regex_match()->set_regex("[a-z]*");
auto* header_matcher3 = route1->mutable_match()->add_headers();
header_matcher3->set_name("header3");
header_matcher3->mutable_range_match()->set_start(1);
header_matcher3->mutable_range_match()->set_end(1000);
auto* header_matcher4 = route1->mutable_match()->add_headers();
header_matcher4->set_name("header4");
header_matcher4->set_present_match(false);
auto* header_matcher5 = route1->mutable_match()->add_headers();
header_matcher5->set_name("header5");
header_matcher5->set_present_match(true);
auto* header_matcher6 = route1->mutable_match()->add_headers();
header_matcher6->set_name("header6");
header_matcher6->set_prefix_match("/grpc");
auto* header_matcher7 = route1->mutable_match()->add_headers();
header_matcher7->set_name("header7");
header_matcher7->set_suffix_match(".cc");
header_matcher7->set_invert_match(true);
route1->mutable_route()->set_cluster(kNewClusterName);
auto* default_route = route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, route_config);
std::vector<std::pair<std::string, std::string>> metadata = {
{"header1", "POST"},
{"header2", "blah"},
{"header3", "1"},
{"header5", "anything"},
{"header6", "/grpc.testing.EchoTest1Service/"},
{"header1", "PUT"},
{"header7", "grpc.java"},
{"header1", "GET"},
};
const auto header_match_rpc_options = RpcOptions()
.set_rpc_service(SERVICE_ECHO1)
.set_rpc_method(METHOD_ECHO1)
.set_metadata(std::move(metadata));
// Make sure all backends are up.
WaitForAllBackends(0, 1);
WaitForAllBackends(1, 2, true, header_match_rpc_options);
// Send RPCs.
CheckRpcSendOk(kNumEchoRpcs);
CheckRpcSendOk(kNumEcho1Rpcs, header_match_rpc_options);
EXPECT_EQ(kNumEchoRpcs, backends_[0]->backend_service()->request_count());
EXPECT_EQ(0, backends_[0]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[0]->backend_service2()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service()->request_count());
EXPECT_EQ(kNumEcho1Rpcs, backends_[1]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service2()->request_count());
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::ACKED);
}
TEST_P(LdsRdsTest, XdsRoutingHeadersMatchingSpecialHeaderContentType) {
const char* kNewClusterName = "new_cluster";
const char* kNewEdsServiceName = "new_eds_service_name";
const size_t kNumEchoRpcs = 100;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsServiceName));
// Populate new CDS resources.
Cluster new_cluster = default_cluster_;
new_cluster.set_name(kNewClusterName);
new_cluster.mutable_eds_cluster_config()->set_service_name(
kNewEdsServiceName);
balancers_[0]->ads_service()->SetCdsResource(new_cluster);
// Populating Route Configurations for LDS.
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("");
auto* header_matcher1 = route1->mutable_match()->add_headers();
header_matcher1->set_name("content-type");
header_matcher1->set_exact_match("notapplication/grpc");
route1->mutable_route()->set_cluster(kNewClusterName);
auto* default_route = route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
auto* header_matcher2 = default_route->mutable_match()->add_headers();
header_matcher2->set_name("content-type");
header_matcher2->set_exact_match("application/grpc");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, route_config);
// Make sure the backend is up.
WaitForAllBackends(0, 1);
// Send RPCs.
CheckRpcSendOk(kNumEchoRpcs);
EXPECT_EQ(kNumEchoRpcs, backends_[0]->backend_service()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service()->request_count());
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::ACKED);
}
TEST_P(LdsRdsTest, XdsRoutingHeadersMatchingSpecialCasesToIgnore) {
const char* kNewCluster1Name = "new_cluster_1";
const char* kNewEdsService1Name = "new_eds_service_name_1";
const size_t kNumEchoRpcs = 100;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsService1Name));
// Populate new CDS resources.
Cluster new_cluster1 = default_cluster_;
new_cluster1.set_name(kNewCluster1Name);
new_cluster1.mutable_eds_cluster_config()->set_service_name(
kNewEdsService1Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster1);
// Populating Route Configurations for LDS.
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("");
auto* header_matcher1 = route1->mutable_match()->add_headers();
header_matcher1->set_name("grpc-foo-bin");
header_matcher1->set_present_match(true);
route1->mutable_route()->set_cluster(kNewCluster1Name);
auto* default_route = route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, route_config);
// Send headers which will mismatch each route
std::vector<std::pair<std::string, std::string>> metadata = {
{"grpc-foo-bin", "grpc-foo-bin"},
};
WaitForAllBackends(0, 1);
CheckRpcSendOk(kNumEchoRpcs, RpcOptions().set_metadata(metadata));
// Verify that only the default backend got RPCs since all previous routes
// were mismatched.
EXPECT_EQ(kNumEchoRpcs, backends_[0]->backend_service()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service()->request_count());
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::ACKED);
}
TEST_P(LdsRdsTest, XdsRoutingRuntimeFractionMatching) {
const char* kNewClusterName = "new_cluster";
const char* kNewEdsServiceName = "new_eds_service_name";
const size_t kNumRpcs = 1000;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsServiceName));
// Populate new CDS resources.
Cluster new_cluster = default_cluster_;
new_cluster.set_name(kNewClusterName);
new_cluster.mutable_eds_cluster_config()->set_service_name(
kNewEdsServiceName);
balancers_[0]->ads_service()->SetCdsResource(new_cluster);
// Populating Route Configurations for LDS.
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()
->mutable_runtime_fraction()
->mutable_default_value()
->set_numerator(25);
route1->mutable_route()->set_cluster(kNewClusterName);
auto* default_route = route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, route_config);
WaitForAllBackends(0, 2);
CheckRpcSendOk(kNumRpcs);
const int default_backend_count =
backends_[0]->backend_service()->request_count();
const int matched_backend_count =
backends_[1]->backend_service()->request_count();
const double kErrorTolerance = 0.2;
EXPECT_THAT(
default_backend_count,
::testing::AllOf(::testing::Ge(static_cast<double>(kNumRpcs) * 75 / 100 *
(1 - kErrorTolerance)),
::testing::Le(static_cast<double>(kNumRpcs) * 75 / 100 *
(1 + kErrorTolerance))));
EXPECT_THAT(
matched_backend_count,
::testing::AllOf(::testing::Ge(static_cast<double>(kNumRpcs) * 25 / 100 *
(1 - kErrorTolerance)),
::testing::Le(static_cast<double>(kNumRpcs) * 25 / 100 *
(1 + kErrorTolerance))));
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::ACKED);
}
TEST_P(LdsRdsTest, XdsRoutingHeadersMatchingUnmatchCases) {
const char* kNewCluster1Name = "new_cluster_1";
const char* kNewEdsService1Name = "new_eds_service_name_1";
const char* kNewCluster2Name = "new_cluster_2";
const char* kNewEdsService2Name = "new_eds_service_name_2";
const char* kNewCluster3Name = "new_cluster_3";
const char* kNewEdsService3Name = "new_eds_service_name_3";
const size_t kNumEcho1Rpcs = 100;
const size_t kNumEchoRpcs = 5;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", GetBackendPorts(2, 3)},
});
AdsServiceImpl::EdsResourceArgs args3({
{"locality0", GetBackendPorts(3, 4)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsService1Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsService2Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args3, kNewEdsService3Name));
// Populate new CDS resources.
Cluster new_cluster1 = default_cluster_;
new_cluster1.set_name(kNewCluster1Name);
new_cluster1.mutable_eds_cluster_config()->set_service_name(
kNewEdsService1Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster1);
Cluster new_cluster2 = default_cluster_;
new_cluster2.set_name(kNewCluster2Name);
new_cluster2.mutable_eds_cluster_config()->set_service_name(
kNewEdsService2Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster2);
Cluster new_cluster3 = default_cluster_;
new_cluster3.set_name(kNewCluster3Name);
new_cluster3.mutable_eds_cluster_config()->set_service_name(
kNewEdsService3Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster3);
// Populating Route Configurations for LDS.
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
auto* header_matcher1 = route1->mutable_match()->add_headers();
header_matcher1->set_name("header1");
header_matcher1->set_exact_match("POST");
route1->mutable_route()->set_cluster(kNewCluster1Name);
auto route2 = route_config.mutable_virtual_hosts(0)->add_routes();
route2->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
auto* header_matcher2 = route2->mutable_match()->add_headers();
header_matcher2->set_name("header2");
header_matcher2->mutable_range_match()->set_start(1);
header_matcher2->mutable_range_match()->set_end(1000);
route2->mutable_route()->set_cluster(kNewCluster2Name);
auto route3 = route_config.mutable_virtual_hosts(0)->add_routes();
route3->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
auto* header_matcher3 = route3->mutable_match()->add_headers();
header_matcher3->set_name("header3");
header_matcher3->mutable_safe_regex_match()->set_regex("[a-z]*");
route3->mutable_route()->set_cluster(kNewCluster3Name);
auto* default_route = route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, route_config);
// Send headers which will mismatch each route
std::vector<std::pair<std::string, std::string>> metadata = {
{"header1", "POST"},
{"header2", "1000"},
{"header3", "123"},
{"header1", "GET"},
};
WaitForAllBackends(0, 1);
CheckRpcSendOk(kNumEchoRpcs, RpcOptions().set_metadata(metadata));
CheckRpcSendOk(kNumEcho1Rpcs, RpcOptions()
.set_rpc_service(SERVICE_ECHO1)
.set_rpc_method(METHOD_ECHO1)
.set_metadata(metadata));
// Verify that only the default backend got RPCs since all previous routes
// were mismatched.
for (size_t i = 1; i < 4; ++i) {
EXPECT_EQ(0, backends_[i]->backend_service()->request_count());
EXPECT_EQ(0, backends_[i]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[i]->backend_service2()->request_count());
}
EXPECT_EQ(kNumEchoRpcs, backends_[0]->backend_service()->request_count());
EXPECT_EQ(kNumEcho1Rpcs, backends_[0]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[0]->backend_service2()->request_count());
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::ACKED);
}
TEST_P(LdsRdsTest, XdsRoutingChangeRoutesWithoutChangingClusters) {
const char* kNewClusterName = "new_cluster";
const char* kNewEdsServiceName = "new_eds_service_name";
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsServiceName));
// Populate new CDS resources.
Cluster new_cluster = default_cluster_;
new_cluster.set_name(kNewClusterName);
new_cluster.mutable_eds_cluster_config()->set_service_name(
kNewEdsServiceName);
balancers_[0]->ads_service()->SetCdsResource(new_cluster);
// Populating Route Configurations for LDS.
RouteConfiguration route_config = default_route_config_;
auto* route1 = route_config.mutable_virtual_hosts(0)->mutable_routes(0);
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest1Service/");
route1->mutable_route()->set_cluster(kNewClusterName);
auto* default_route = route_config.mutable_virtual_hosts(0)->add_routes();
default_route->mutable_match()->set_prefix("");
default_route->mutable_route()->set_cluster(kDefaultClusterName);
SetRouteConfiguration(0, route_config);
// Make sure all backends are up and that requests for each RPC
// service go to the right backends.
WaitForAllBackends(0, 1, false);
WaitForAllBackends(1, 2, false, RpcOptions().set_rpc_service(SERVICE_ECHO1));
WaitForAllBackends(0, 1, false, RpcOptions().set_rpc_service(SERVICE_ECHO2));
// Requests for services Echo and Echo2 should have gone to backend 0.
EXPECT_EQ(1, backends_[0]->backend_service()->request_count());
EXPECT_EQ(0, backends_[0]->backend_service1()->request_count());
EXPECT_EQ(1, backends_[0]->backend_service2()->request_count());
// Requests for service Echo1 should have gone to backend 1.
EXPECT_EQ(0, backends_[1]->backend_service()->request_count());
EXPECT_EQ(1, backends_[1]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service2()->request_count());
// Now send an update that changes the first route to match a
// different RPC service, and wait for the client to make the change.
route1->mutable_match()->set_prefix("/grpc.testing.EchoTest2Service/");
SetRouteConfiguration(0, route_config);
WaitForAllBackends(1, 2, true, RpcOptions().set_rpc_service(SERVICE_ECHO2));
// Now repeat the earlier test, making sure all traffic goes to the
// right place.
WaitForAllBackends(0, 1, false);
WaitForAllBackends(0, 1, false, RpcOptions().set_rpc_service(SERVICE_ECHO1));
WaitForAllBackends(1, 2, false, RpcOptions().set_rpc_service(SERVICE_ECHO2));
// Requests for services Echo and Echo1 should have gone to backend 0.
EXPECT_EQ(1, backends_[0]->backend_service()->request_count());
EXPECT_EQ(1, backends_[0]->backend_service1()->request_count());
EXPECT_EQ(0, backends_[0]->backend_service2()->request_count());
// Requests for service Echo2 should have gone to backend 1.
EXPECT_EQ(0, backends_[1]->backend_service()->request_count());
EXPECT_EQ(0, backends_[1]->backend_service1()->request_count());
EXPECT_EQ(1, backends_[1]->backend_service2()->request_count());
}
// Test that we NACK unknown filter types in VirtualHost.
TEST_P(LdsRdsTest, RejectsUnknownHttpFilterTypeInVirtualHost) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* per_filter_config =
route_config.mutable_virtual_hosts(0)->mutable_typed_per_filter_config();
(*per_filter_config)["unknown"].PackFrom(Listener());
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (RouteConfigurationResponseState(0).state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("no filter registered for config type "
"envoy.config.listener.v3.Listener"));
}
// Test that we ignore optional unknown filter types in VirtualHost.
TEST_P(LdsRdsTest, IgnoresOptionalUnknownHttpFilterTypeInVirtualHost) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* per_filter_config =
route_config.mutable_virtual_hosts(0)->mutable_typed_per_filter_config();
::envoy::config::route::v3::FilterConfig filter_config;
filter_config.mutable_config()->PackFrom(Listener());
filter_config.set_is_optional(true);
(*per_filter_config)["unknown"].PackFrom(filter_config);
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
WaitForAllBackends();
EXPECT_EQ(RouteConfigurationResponseState(0).state,
AdsServiceImpl::ResponseState::ACKED);
}
// Test that we NACK filters without configs in VirtualHost.
TEST_P(LdsRdsTest, RejectsHttpFilterWithoutConfigInVirtualHost) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* per_filter_config =
route_config.mutable_virtual_hosts(0)->mutable_typed_per_filter_config();
(*per_filter_config)["unknown"];
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (RouteConfigurationResponseState(0).state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr(
"no filter config specified for filter name unknown"));
}
// Test that we NACK filters without configs in FilterConfig in VirtualHost.
TEST_P(LdsRdsTest, RejectsHttpFilterWithoutConfigInFilterConfigInVirtualHost) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* per_filter_config =
route_config.mutable_virtual_hosts(0)->mutable_typed_per_filter_config();
(*per_filter_config)["unknown"].PackFrom(
::envoy::config::route::v3::FilterConfig());
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (RouteConfigurationResponseState(0).state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr(
"no filter config specified for filter name unknown"));
}
// Test that we ignore optional filters without configs in VirtualHost.
TEST_P(LdsRdsTest, IgnoresOptionalHttpFilterWithoutConfigInVirtualHost) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* per_filter_config =
route_config.mutable_virtual_hosts(0)->mutable_typed_per_filter_config();
::envoy::config::route::v3::FilterConfig filter_config;
filter_config.set_is_optional(true);
(*per_filter_config)["unknown"].PackFrom(filter_config);
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
WaitForAllBackends();
EXPECT_EQ(RouteConfigurationResponseState(0).state,
AdsServiceImpl::ResponseState::ACKED);
}
// Test that we NACK unparseable filter types in VirtualHost.
TEST_P(LdsRdsTest, RejectsUnparseableHttpFilterTypeInVirtualHost) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* per_filter_config =
route_config.mutable_virtual_hosts(0)->mutable_typed_per_filter_config();
(*per_filter_config)["unknown"].PackFrom(
envoy::extensions::filters::http::router::v3::Router());
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (RouteConfigurationResponseState(0).state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr("router filter does not support config override"));
}
// Test that we NACK unknown filter types in Route.
TEST_P(LdsRdsTest, RejectsUnknownHttpFilterTypeInRoute) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* per_filter_config = route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_typed_per_filter_config();
(*per_filter_config)["unknown"].PackFrom(Listener());
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (RouteConfigurationResponseState(0).state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("no filter registered for config type "
"envoy.config.listener.v3.Listener"));
}
// Test that we ignore optional unknown filter types in Route.
TEST_P(LdsRdsTest, IgnoresOptionalUnknownHttpFilterTypeInRoute) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* per_filter_config = route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_typed_per_filter_config();
::envoy::config::route::v3::FilterConfig filter_config;
filter_config.mutable_config()->PackFrom(Listener());
filter_config.set_is_optional(true);
(*per_filter_config)["unknown"].PackFrom(filter_config);
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
WaitForAllBackends();
EXPECT_EQ(RouteConfigurationResponseState(0).state,
AdsServiceImpl::ResponseState::ACKED);
}
// Test that we NACK filters without configs in Route.
TEST_P(LdsRdsTest, RejectsHttpFilterWithoutConfigInRoute) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* per_filter_config = route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_typed_per_filter_config();
(*per_filter_config)["unknown"];
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (RouteConfigurationResponseState(0).state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr(
"no filter config specified for filter name unknown"));
}
// Test that we NACK filters without configs in FilterConfig in Route.
TEST_P(LdsRdsTest, RejectsHttpFilterWithoutConfigInFilterConfigInRoute) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* per_filter_config = route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_typed_per_filter_config();
(*per_filter_config)["unknown"].PackFrom(
::envoy::config::route::v3::FilterConfig());
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (RouteConfigurationResponseState(0).state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr(
"no filter config specified for filter name unknown"));
}
// Test that we ignore optional filters without configs in Route.
TEST_P(LdsRdsTest, IgnoresOptionalHttpFilterWithoutConfigInRoute) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* per_filter_config = route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_typed_per_filter_config();
::envoy::config::route::v3::FilterConfig filter_config;
filter_config.set_is_optional(true);
(*per_filter_config)["unknown"].PackFrom(filter_config);
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
WaitForAllBackends();
EXPECT_EQ(RouteConfigurationResponseState(0).state,
AdsServiceImpl::ResponseState::ACKED);
}
// Test that we NACK unparseable filter types in Route.
TEST_P(LdsRdsTest, RejectsUnparseableHttpFilterTypeInRoute) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* per_filter_config = route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_typed_per_filter_config();
(*per_filter_config)["unknown"].PackFrom(
envoy::extensions::filters::http::router::v3::Router());
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (RouteConfigurationResponseState(0).state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr("router filter does not support config override"));
}
// Test that we NACK unknown filter types in ClusterWeight.
TEST_P(LdsRdsTest, RejectsUnknownHttpFilterTypeInClusterWeight) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* cluster_weight = route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_route()
->mutable_weighted_clusters()
->add_clusters();
cluster_weight->set_name(kDefaultClusterName);
cluster_weight->mutable_weight()->set_value(100);
auto* per_filter_config = cluster_weight->mutable_typed_per_filter_config();
(*per_filter_config)["unknown"].PackFrom(Listener());
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (RouteConfigurationResponseState(0).state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("no filter registered for config type "
"envoy.config.listener.v3.Listener"));
}
// Test that we ignore optional unknown filter types in ClusterWeight.
TEST_P(LdsRdsTest, IgnoresOptionalUnknownHttpFilterTypeInClusterWeight) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* cluster_weight = route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_route()
->mutable_weighted_clusters()
->add_clusters();
cluster_weight->set_name(kDefaultClusterName);
cluster_weight->mutable_weight()->set_value(100);
auto* per_filter_config = cluster_weight->mutable_typed_per_filter_config();
::envoy::config::route::v3::FilterConfig filter_config;
filter_config.mutable_config()->PackFrom(Listener());
filter_config.set_is_optional(true);
(*per_filter_config)["unknown"].PackFrom(filter_config);
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
WaitForAllBackends();
EXPECT_EQ(RouteConfigurationResponseState(0).state,
AdsServiceImpl::ResponseState::ACKED);
}
// Test that we NACK filters without configs in ClusterWeight.
TEST_P(LdsRdsTest, RejectsHttpFilterWithoutConfigInClusterWeight) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* cluster_weight = route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_route()
->mutable_weighted_clusters()
->add_clusters();
cluster_weight->set_name(kDefaultClusterName);
cluster_weight->mutable_weight()->set_value(100);
auto* per_filter_config = cluster_weight->mutable_typed_per_filter_config();
(*per_filter_config)["unknown"];
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (RouteConfigurationResponseState(0).state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr(
"no filter config specified for filter name unknown"));
}
// Test that we NACK filters without configs in FilterConfig in ClusterWeight.
TEST_P(LdsRdsTest,
RejectsHttpFilterWithoutConfigInFilterConfigInClusterWeight) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* cluster_weight = route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_route()
->mutable_weighted_clusters()
->add_clusters();
cluster_weight->set_name(kDefaultClusterName);
cluster_weight->mutable_weight()->set_value(100);
auto* per_filter_config = cluster_weight->mutable_typed_per_filter_config();
(*per_filter_config)["unknown"].PackFrom(
::envoy::config::route::v3::FilterConfig());
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (RouteConfigurationResponseState(0).state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr(
"no filter config specified for filter name unknown"));
}
// Test that we ignore optional filters without configs in ClusterWeight.
TEST_P(LdsRdsTest, IgnoresOptionalHttpFilterWithoutConfigInClusterWeight) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* cluster_weight = route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_route()
->mutable_weighted_clusters()
->add_clusters();
cluster_weight->set_name(kDefaultClusterName);
cluster_weight->mutable_weight()->set_value(100);
auto* per_filter_config = cluster_weight->mutable_typed_per_filter_config();
::envoy::config::route::v3::FilterConfig filter_config;
filter_config.set_is_optional(true);
(*per_filter_config)["unknown"].PackFrom(filter_config);
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
WaitForAllBackends();
EXPECT_EQ(RouteConfigurationResponseState(0).state,
AdsServiceImpl::ResponseState::ACKED);
}
// Test that we NACK unparseable filter types in ClusterWeight.
TEST_P(LdsRdsTest, RejectsUnparseableHttpFilterTypeInClusterWeight) {
if (GetParam().use_v2()) return; // Filters supported in v3 only.
RouteConfiguration route_config = default_route_config_;
auto* cluster_weight = route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_route()
->mutable_weighted_clusters()
->add_clusters();
cluster_weight->set_name(kDefaultClusterName);
cluster_weight->mutable_weight()->set_value(100);
auto* per_filter_config = cluster_weight->mutable_typed_per_filter_config();
(*per_filter_config)["unknown"].PackFrom(
envoy::extensions::filters::http::router::v3::Router());
SetListenerAndRouteConfiguration(0, default_listener_, route_config);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Wait until xDS server sees NACK.
do {
CheckRpcSendFailure();
} while (RouteConfigurationResponseState(0).state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state = RouteConfigurationResponseState(0);
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr("router filter does not support config override"));
}
using CdsTest = BasicTest;
// Tests that CDS client should send an ACK upon correct CDS response.
TEST_P(CdsTest, Vanilla) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
(void)SendRpc();
EXPECT_EQ(balancers_[0]->ads_service()->cds_response_state().state,
AdsServiceImpl::ResponseState::ACKED);
}
TEST_P(CdsTest, LogicalDNSClusterType) {
gpr_setenv("GRPC_XDS_EXPERIMENTAL_ENABLE_AGGREGATE_AND_LOGICAL_DNS_CLUSTER",
"true");
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Create Logical DNS Cluster
auto cluster = default_cluster_;
cluster.set_type(Cluster::LOGICAL_DNS);
balancers_[0]->ads_service()->SetCdsResource(cluster);
// Set Logical DNS result
{
grpc_core::ExecCtx exec_ctx;
grpc_core::Resolver::Result result;
result.addresses = CreateAddressListFromPortList(GetBackendPorts(1, 2));
logical_dns_cluster_resolver_response_generator_->SetResponse(
std::move(result));
}
// Wait for traffic to go to backend 1.
WaitForBackend(1);
gpr_unsetenv(
"GRPC_XDS_EXPERIMENTAL_ENABLE_AGGREGATE_AND_LOGICAL_DNS_CLUSTER");
}
TEST_P(CdsTest, AggregateClusterType) {
gpr_setenv("GRPC_XDS_EXPERIMENTAL_ENABLE_AGGREGATE_AND_LOGICAL_DNS_CLUSTER",
"true");
const char* kNewCluster1Name = "new_cluster_1";
const char* kNewEdsService1Name = "new_eds_service_name_1";
const char* kNewCluster2Name = "new_cluster_2";
const char* kNewEdsService2Name = "new_eds_service_name_2";
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", GetBackendPorts(2, 3)},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsService1Name));
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsService2Name));
// Populate new CDS resources.
Cluster new_cluster1 = default_cluster_;
new_cluster1.set_name(kNewCluster1Name);
new_cluster1.mutable_eds_cluster_config()->set_service_name(
kNewEdsService1Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster1);
Cluster new_cluster2 = default_cluster_;
new_cluster2.set_name(kNewCluster2Name);
new_cluster2.mutable_eds_cluster_config()->set_service_name(
kNewEdsService2Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster2);
// Create Aggregate Cluster
auto cluster = default_cluster_;
CustomClusterType* custom_cluster = cluster.mutable_cluster_type();
custom_cluster->set_name("envoy.clusters.aggregate");
ClusterConfig cluster_config;
cluster_config.add_clusters(kNewCluster1Name);
cluster_config.add_clusters(kNewCluster2Name);
custom_cluster->mutable_typed_config()->PackFrom(cluster_config);
balancers_[0]->ads_service()->SetCdsResource(cluster);
// Wait for traffic to go to backend 1.
WaitForBackend(1);
// Shutdown backend 1 and wait for all traffic to go to backend 2.
ShutdownBackend(1);
WaitForBackend(2);
EXPECT_EQ(balancers_[0]->ads_service()->cds_response_state().state,
AdsServiceImpl::ResponseState::ACKED);
// Bring backend 1 back and ensure all traffic go back to it.
StartBackend(1);
WaitForBackend(1);
gpr_unsetenv(
"GRPC_XDS_EXPERIMENTAL_ENABLE_AGGREGATE_AND_LOGICAL_DNS_CLUSTER");
}
TEST_P(CdsTest, AggregateClusterEdsToLogicalDns) {
gpr_setenv("GRPC_XDS_EXPERIMENTAL_ENABLE_AGGREGATE_AND_LOGICAL_DNS_CLUSTER",
"true");
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const char* kNewCluster1Name = "new_cluster_1";
const char* kNewEdsService1Name = "new_eds_service_name_1";
const char* kLogicalDNSClusterName = "logical_dns_cluster";
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args1({
{"locality0", GetBackendPorts(1, 2)},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args1, kNewEdsService1Name));
// Populate new CDS resources.
Cluster new_cluster1 = default_cluster_;
new_cluster1.set_name(kNewCluster1Name);
new_cluster1.mutable_eds_cluster_config()->set_service_name(
kNewEdsService1Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster1);
// Create Logical DNS Cluster
auto logical_dns_cluster = default_cluster_;
logical_dns_cluster.set_name(kLogicalDNSClusterName);
logical_dns_cluster.set_type(Cluster::LOGICAL_DNS);
balancers_[0]->ads_service()->SetCdsResource(logical_dns_cluster);
// Create Aggregate Cluster
auto cluster = default_cluster_;
CustomClusterType* custom_cluster = cluster.mutable_cluster_type();
custom_cluster->set_name("envoy.clusters.aggregate");
ClusterConfig cluster_config;
cluster_config.add_clusters(kNewCluster1Name);
cluster_config.add_clusters(kLogicalDNSClusterName);
custom_cluster->mutable_typed_config()->PackFrom(cluster_config);
balancers_[0]->ads_service()->SetCdsResource(cluster);
// Set Logical DNS result
{
grpc_core::ExecCtx exec_ctx;
grpc_core::Resolver::Result result;
result.addresses = CreateAddressListFromPortList(GetBackendPorts(2, 3));
logical_dns_cluster_resolver_response_generator_->SetResponse(
std::move(result));
}
// Wait for traffic to go to backend 1.
WaitForBackend(1);
// Shutdown backend 1 and wait for all traffic to go to backend 2.
ShutdownBackend(1);
WaitForBackend(2);
EXPECT_EQ(balancers_[0]->ads_service()->cds_response_state().state,
AdsServiceImpl::ResponseState::ACKED);
// Bring backend 1 back and ensure all traffic go back to it.
StartBackend(1);
WaitForBackend(1);
gpr_unsetenv(
"GRPC_XDS_EXPERIMENTAL_ENABLE_AGGREGATE_AND_LOGICAL_DNS_CLUSTER");
}
TEST_P(CdsTest, AggregateClusterLogicalDnsToEds) {
gpr_setenv("GRPC_XDS_EXPERIMENTAL_ENABLE_AGGREGATE_AND_LOGICAL_DNS_CLUSTER",
"true");
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const char* kNewCluster2Name = "new_cluster_2";
const char* kNewEdsService2Name = "new_eds_service_name_2";
const char* kLogicalDNSClusterName = "logical_dns_cluster";
// Populate new EDS resources.
AdsServiceImpl::EdsResourceArgs args2({
{"locality0", GetBackendPorts(2, 3)},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args2, kNewEdsService2Name));
// Populate new CDS resources.
Cluster new_cluster2 = default_cluster_;
new_cluster2.set_name(kNewCluster2Name);
new_cluster2.mutable_eds_cluster_config()->set_service_name(
kNewEdsService2Name);
balancers_[0]->ads_service()->SetCdsResource(new_cluster2);
// Create Logical DNS Cluster
auto logical_dns_cluster = default_cluster_;
logical_dns_cluster.set_name(kLogicalDNSClusterName);
logical_dns_cluster.set_type(Cluster::LOGICAL_DNS);
balancers_[0]->ads_service()->SetCdsResource(logical_dns_cluster);
// Create Aggregate Cluster
auto cluster = default_cluster_;
CustomClusterType* custom_cluster = cluster.mutable_cluster_type();
custom_cluster->set_name("envoy.clusters.aggregate");
ClusterConfig cluster_config;
cluster_config.add_clusters(kLogicalDNSClusterName);
cluster_config.add_clusters(kNewCluster2Name);
custom_cluster->mutable_typed_config()->PackFrom(cluster_config);
balancers_[0]->ads_service()->SetCdsResource(cluster);
// Set Logical DNS result
{
grpc_core::ExecCtx exec_ctx;
grpc_core::Resolver::Result result;
result.addresses = CreateAddressListFromPortList(GetBackendPorts(1, 2));
logical_dns_cluster_resolver_response_generator_->SetResponse(
std::move(result));
}
// Wait for traffic to go to backend 1.
WaitForBackend(1);
// Shutdown backend 1 and wait for all traffic to go to backend 2.
ShutdownBackend(1);
WaitForBackend(2);
EXPECT_EQ(balancers_[0]->ads_service()->cds_response_state().state,
AdsServiceImpl::ResponseState::ACKED);
// Bring backend 1 back and ensure all traffic go back to it.
StartBackend(1);
WaitForBackend(1);
gpr_unsetenv(
"GRPC_XDS_EXPERIMENTAL_ENABLE_AGGREGATE_AND_LOGICAL_DNS_CLUSTER");
}
// Test that CDS client should send a NACK if cluster type is Logical DNS but
// the feature is not yet supported.
TEST_P(CdsTest, LogicalDNSClusterTypeDisabled) {
auto cluster = default_cluster_;
cluster.set_type(Cluster::LOGICAL_DNS);
balancers_[0]->ads_service()->SetCdsResource(cluster);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state =
balancers_[0]->ads_service()->cds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("DiscoveryType is not valid."));
}
// Test that CDS client should send a NACK if cluster type is AGGREGATE but
// the feature is not yet supported.
TEST_P(CdsTest, AggregateClusterTypeDisabled) {
auto cluster = default_cluster_;
CustomClusterType* custom_cluster = cluster.mutable_cluster_type();
custom_cluster->set_name("envoy.clusters.aggregate");
ClusterConfig cluster_config;
cluster_config.add_clusters("cluster1");
cluster_config.add_clusters("cluster2");
custom_cluster->mutable_typed_config()->PackFrom(cluster_config);
cluster.set_type(Cluster::LOGICAL_DNS);
balancers_[0]->ads_service()->SetCdsResource(cluster);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state =
balancers_[0]->ads_service()->cds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("DiscoveryType is not valid."));
}
// Tests that CDS client should send a NACK if the cluster type in CDS response
// is unsupported.
TEST_P(CdsTest, UnsupportedClusterType) {
auto cluster = default_cluster_;
cluster.set_type(Cluster::STATIC);
balancers_[0]->ads_service()->SetCdsResource(cluster);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state =
balancers_[0]->ads_service()->cds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("DiscoveryType is not valid."));
}
// Tests that the NACK for multiple bad resources includes both errors.
TEST_P(CdsTest, MultipleBadResources) {
constexpr char kClusterName2[] = "cluster_name_2";
// Use unsupported type for default cluster.
auto cluster = default_cluster_;
cluster.set_type(Cluster::STATIC);
balancers_[0]->ads_service()->SetCdsResource(cluster);
// Add second cluster with the same error.
cluster.set_name(kClusterName2);
balancers_[0]->ads_service()->SetCdsResource(cluster);
// Change RouteConfig to point to both clusters.
RouteConfiguration route_config = default_route_config_;
auto* route = route_config.mutable_virtual_hosts(0)->add_routes();
route->mutable_match()->set_prefix("");
route->mutable_route()->set_cluster(kClusterName2);
SetRouteConfiguration(0, route_config);
// Send RPC.
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state =
balancers_[0]->ads_service()->cds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::AllOf(
::testing::HasSubstr(absl::StrCat(
kDefaultClusterName, ": DiscoveryType is not valid.")),
::testing::HasSubstr(absl::StrCat(
kClusterName2, ": DiscoveryType is not valid."))));
}
// Tests that CDS client should send a NACK if the eds_config in CDS response is
// other than ADS.
TEST_P(CdsTest, WrongEdsConfig) {
auto cluster = default_cluster_;
cluster.mutable_eds_cluster_config()->mutable_eds_config()->mutable_self();
balancers_[0]->ads_service()->SetCdsResource(cluster);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state =
balancers_[0]->ads_service()->cds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("EDS ConfigSource is not ADS."));
}
// Tests that CDS client should send a NACK if the lb_policy in CDS response is
// other than ROUND_ROBIN.
TEST_P(CdsTest, WrongLbPolicy) {
auto cluster = default_cluster_;
cluster.set_lb_policy(Cluster::LEAST_REQUEST);
balancers_[0]->ads_service()->SetCdsResource(cluster);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state =
balancers_[0]->ads_service()->cds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("LB policy is not supported."));
}
// Tests that CDS client should send a NACK if the lrs_server in CDS response is
// other than SELF.
TEST_P(CdsTest, WrongLrsServer) {
auto cluster = default_cluster_;
cluster.mutable_lrs_server()->mutable_ads();
balancers_[0]->ads_service()->SetCdsResource(cluster);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
const auto response_state =
balancers_[0]->ads_service()->cds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("LRS ConfigSource is not self."));
}
class XdsSecurityTest : public BasicTest {
protected:
static void SetUpTestCase() {
gpr_setenv("GRPC_XDS_EXPERIMENTAL_SECURITY_SUPPORT", "true");
BasicTest::SetUpTestCase();
}
static void TearDownTestCase() {
BasicTest::TearDownTestCase();
gpr_unsetenv("GRPC_XDS_EXPERIMENTAL_SECURITY_SUPPORT");
}
void SetUp() override {
BasicTest::SetUp();
root_cert_ = ReadFile(kCaCertPath);
bad_root_cert_ = ReadFile(kBadClientCertPath);
identity_pair_ = ReadTlsIdentityPair(kClientKeyPath, kClientCertPath);
// TODO(yashykt): Use different client certs here instead of reusing server
// certs after https://github.com/grpc/grpc/pull/24876 is merged
fallback_identity_pair_ =
ReadTlsIdentityPair(kServerKeyPath, kServerCertPath);
bad_identity_pair_ =
ReadTlsIdentityPair(kBadClientKeyPath, kBadClientCertPath);
server_san_exact_.set_exact("*.test.google.fr");
server_san_prefix_.set_prefix("waterzooi.test.google");
server_san_suffix_.set_suffix("google.fr");
server_san_contains_.set_contains("google");
server_san_regex_.mutable_safe_regex()->mutable_google_re2();
server_san_regex_.mutable_safe_regex()->set_regex(
"(foo|waterzooi).test.google.(fr|be)");
bad_san_1_.set_exact("192.168.1.4");
bad_san_2_.set_exact("foo.test.google.in");
authenticated_identity_ = {"testclient"};
fallback_authenticated_identity_ = {"*.test.google.fr",
"waterzooi.test.google.be",
"*.test.youtube.com", "192.168.1.3"};
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
SetNextResolutionForLbChannelAllBalancers();
}
void TearDown() override {
g_fake1_cert_data_map = nullptr;
g_fake2_cert_data_map = nullptr;
BasicTest::TearDown();
}
// Sends CDS updates with the new security configuration and verifies that
// after propagation, this new configuration is used for connections. If \a
// identity_instance_name and \a root_instance_name are both empty,
// connections are expected to use fallback credentials.
void UpdateAndVerifyXdsSecurityConfiguration(
absl::string_view root_instance_name,
absl::string_view root_certificate_name,
absl::string_view identity_instance_name,
absl::string_view identity_certificate_name,
const std::vector<StringMatcher>& san_matchers,
const std::vector<std::string>& expected_authenticated_identity,
bool test_expects_failure = false) {
auto cluster = default_cluster_;
if (!identity_instance_name.empty() || !root_instance_name.empty()) {
auto* transport_socket = cluster.mutable_transport_socket();
transport_socket->set_name("envoy.transport_sockets.tls");
UpstreamTlsContext upstream_tls_context;
if (!identity_instance_name.empty()) {
upstream_tls_context.mutable_common_tls_context()
->mutable_tls_certificate_certificate_provider_instance()
->set_instance_name(std::string(identity_instance_name));
upstream_tls_context.mutable_common_tls_context()
->mutable_tls_certificate_certificate_provider_instance()
->set_certificate_name(std::string(identity_certificate_name));
}
if (!root_instance_name.empty()) {
upstream_tls_context.mutable_common_tls_context()
->mutable_combined_validation_context()
->mutable_validation_context_certificate_provider_instance()
->set_instance_name(std::string(root_instance_name));
upstream_tls_context.mutable_common_tls_context()
->mutable_combined_validation_context()
->mutable_validation_context_certificate_provider_instance()
->set_certificate_name(std::string(root_certificate_name));
}
if (!san_matchers.empty()) {
auto* validation_context =
upstream_tls_context.mutable_common_tls_context()
->mutable_combined_validation_context()
->mutable_default_validation_context();
for (const auto& san_matcher : san_matchers) {
*validation_context->add_match_subject_alt_names() = san_matcher;
}
}
transport_socket->mutable_typed_config()->PackFrom(upstream_tls_context);
}
balancers_[0]->ads_service()->SetCdsResource(cluster);
// The updates might take time to have an effect, so use a retry loop.
constexpr int kRetryCount = 100;
int num_tries = 0;
for (; num_tries < kRetryCount; num_tries++) {
// Give some time for the updates to propagate.
gpr_sleep_until(grpc_timeout_milliseconds_to_deadline(100));
if (test_expects_failure) {
// Restart the servers to force a reconnection so that previously
// connected subchannels are not used for the RPC.
ShutdownBackend(0);
StartBackend(0);
if (SendRpc().ok()) {
gpr_log(GPR_ERROR, "RPC succeeded. Failure expected. Trying again.");
continue;
}
} else {
WaitForBackend(0);
Status status = SendRpc();
if (!status.ok()) {
gpr_log(GPR_ERROR, "RPC failed. code=%d message=%s Trying again.",
status.error_code(), status.error_message().c_str());
continue;
}
if (backends_[0]->backend_service()->last_peer_identity() !=
expected_authenticated_identity) {
gpr_log(
GPR_ERROR,
"Expected client identity does not match. (actual) %s vs "
"(expected) %s Trying again.",
absl::StrJoin(
backends_[0]->backend_service()->last_peer_identity(), ",")
.c_str(),
absl::StrJoin(expected_authenticated_identity, ",").c_str());
continue;
}
}
break;
}
EXPECT_LT(num_tries, kRetryCount);
}
std::string root_cert_;
std::string bad_root_cert_;
grpc_core::PemKeyCertPairList identity_pair_;
grpc_core::PemKeyCertPairList fallback_identity_pair_;
grpc_core::PemKeyCertPairList bad_identity_pair_;
StringMatcher server_san_exact_;
StringMatcher server_san_prefix_;
StringMatcher server_san_suffix_;
StringMatcher server_san_contains_;
StringMatcher server_san_regex_;
StringMatcher bad_san_1_;
StringMatcher bad_san_2_;
std::vector<std::string> authenticated_identity_;
std::vector<std::string> fallback_authenticated_identity_;
};
TEST_P(XdsSecurityTest,
TLSConfigurationWithoutValidationContextCertificateProviderInstance) {
auto cluster = default_cluster_;
auto* transport_socket = cluster.mutable_transport_socket();
transport_socket->set_name("envoy.transport_sockets.tls");
balancers_[0]->ads_service()->SetCdsResource(cluster);
CheckRpcSendFailure();
const auto response_state =
balancers_[0]->ads_service()->cds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr(
"TLS configuration provided but no "
"validation_context_certificate_provider_instance found."));
}
TEST_P(
XdsSecurityTest,
MatchSubjectAltNamesProvidedWithoutValidationContextCertificateProviderInstance) {
auto cluster = default_cluster_;
auto* transport_socket = cluster.mutable_transport_socket();
transport_socket->set_name("envoy.transport_sockets.tls");
UpstreamTlsContext upstream_tls_context;
auto* validation_context = upstream_tls_context.mutable_common_tls_context()
->mutable_combined_validation_context()
->mutable_default_validation_context();
*validation_context->add_match_subject_alt_names() = server_san_exact_;
transport_socket->mutable_typed_config()->PackFrom(upstream_tls_context);
balancers_[0]->ads_service()->SetCdsResource(cluster);
CheckRpcSendFailure();
const auto response_state =
balancers_[0]->ads_service()->cds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr(
"TLS configuration provided but no "
"validation_context_certificate_provider_instance found."));
}
TEST_P(
XdsSecurityTest,
TlsCertificateCertificateProviderInstanceWithoutValidationContextCertificateProviderInstance) {
auto cluster = default_cluster_;
auto* transport_socket = cluster.mutable_transport_socket();
transport_socket->set_name("envoy.transport_sockets.tls");
UpstreamTlsContext upstream_tls_context;
upstream_tls_context.mutable_common_tls_context()
->mutable_tls_certificate_certificate_provider_instance()
->set_instance_name(std::string("instance_name"));
transport_socket->mutable_typed_config()->PackFrom(upstream_tls_context);
balancers_[0]->ads_service()->SetCdsResource(cluster);
CheckRpcSendFailure();
const auto response_state =
balancers_[0]->ads_service()->cds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr(
"TLS configuration provided but no "
"validation_context_certificate_provider_instance found."));
}
TEST_P(XdsSecurityTest, RegexSanMatcherDoesNotAllowIgnoreCase) {
auto cluster = default_cluster_;
auto* transport_socket = cluster.mutable_transport_socket();
transport_socket->set_name("envoy.transport_sockets.tls");
UpstreamTlsContext upstream_tls_context;
upstream_tls_context.mutable_common_tls_context()
->mutable_combined_validation_context()
->mutable_validation_context_certificate_provider_instance()
->set_instance_name(std::string("fake_plugin1"));
auto* validation_context = upstream_tls_context.mutable_common_tls_context()
->mutable_combined_validation_context()
->mutable_default_validation_context();
StringMatcher matcher;
matcher.mutable_safe_regex()->mutable_google_re2();
matcher.mutable_safe_regex()->set_regex(
"(foo|waterzooi).test.google.(fr|be)");
matcher.set_ignore_case(true);
*validation_context->add_match_subject_alt_names() = matcher;
transport_socket->mutable_typed_config()->PackFrom(upstream_tls_context);
balancers_[0]->ads_service()->SetCdsResource(cluster);
CheckRpcSendFailure();
const auto response_state =
balancers_[0]->ads_service()->cds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr(
"StringMatcher: ignore_case has no effect for SAFE_REGEX."));
}
TEST_P(XdsSecurityTest, UnknownRootCertificateProvider) {
auto cluster = default_cluster_;
auto* transport_socket = cluster.mutable_transport_socket();
transport_socket->set_name("envoy.transport_sockets.tls");
UpstreamTlsContext upstream_tls_context;
upstream_tls_context.mutable_common_tls_context()
->mutable_combined_validation_context()
->mutable_validation_context_certificate_provider_instance()
->set_instance_name("unknown");
transport_socket->mutable_typed_config()->PackFrom(upstream_tls_context);
balancers_[0]->ads_service()->SetCdsResource(cluster);
CheckRpcSendFailure(1, RpcOptions(), StatusCode::UNAVAILABLE);
}
TEST_P(XdsSecurityTest, UnknownIdentityCertificateProvider) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
auto cluster = default_cluster_;
auto* transport_socket = cluster.mutable_transport_socket();
transport_socket->set_name("envoy.transport_sockets.tls");
UpstreamTlsContext upstream_tls_context;
upstream_tls_context.mutable_common_tls_context()
->mutable_tls_certificate_certificate_provider_instance()
->set_instance_name("unknown");
upstream_tls_context.mutable_common_tls_context()
->mutable_combined_validation_context()
->mutable_validation_context_certificate_provider_instance()
->set_instance_name("fake_plugin1");
transport_socket->mutable_typed_config()->PackFrom(upstream_tls_context);
balancers_[0]->ads_service()->SetCdsResource(cluster);
CheckRpcSendFailure(1, RpcOptions(), StatusCode::UNAVAILABLE);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestMtlsConfigurationWithNoSanMatchers) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {}, authenticated_identity_);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestMtlsConfigurationWithExactSanMatcher) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_exact_},
authenticated_identity_);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestMtlsConfigurationWithPrefixSanMatcher) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_prefix_},
authenticated_identity_);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestMtlsConfigurationWithSuffixSanMatcher) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_suffix_},
authenticated_identity_);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestMtlsConfigurationWithContainsSanMatcher) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_contains_},
authenticated_identity_);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestMtlsConfigurationWithRegexSanMatcher) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_regex_},
authenticated_identity_);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestMtlsConfigurationWithSanMatchersUpdate) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration(
"fake_plugin1", "", "fake_plugin1", "",
{server_san_exact_, server_san_prefix_}, authenticated_identity_);
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {bad_san_1_, bad_san_2_}, {},
true /* failure */);
UpdateAndVerifyXdsSecurityConfiguration(
"fake_plugin1", "", "fake_plugin1", "",
{server_san_prefix_, server_san_regex_}, authenticated_identity_);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestMtlsConfigurationWithRootPluginUpdate) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
FakeCertificateProvider::CertDataMap fake2_cert_map = {
{"", {bad_root_cert_, bad_identity_pair_}}};
g_fake2_cert_data_map = &fake2_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_exact_},
authenticated_identity_);
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin2" /* bad root */, "",
"fake_plugin1", "", {}, {},
true /* failure */);
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_exact_},
authenticated_identity_);
g_fake1_cert_data_map = nullptr;
g_fake2_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestMtlsConfigurationWithIdentityPluginUpdate) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
FakeCertificateProvider::CertDataMap fake2_cert_map = {
{"", {root_cert_, fallback_identity_pair_}}};
g_fake2_cert_data_map = &fake2_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_exact_},
authenticated_identity_);
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin2",
"", {server_san_exact_},
fallback_authenticated_identity_);
g_fake1_cert_data_map = nullptr;
g_fake2_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestMtlsConfigurationWithBothPluginsUpdated) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
FakeCertificateProvider::CertDataMap fake2_cert_map = {
{"", {bad_root_cert_, bad_identity_pair_}},
{"good", {root_cert_, fallback_identity_pair_}}};
g_fake2_cert_data_map = &fake2_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin2", "", "fake_plugin2",
"", {}, {}, true /* failure */);
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_prefix_},
authenticated_identity_);
UpdateAndVerifyXdsSecurityConfiguration(
"fake_plugin2", "good", "fake_plugin2", "good", {server_san_prefix_},
fallback_authenticated_identity_);
g_fake1_cert_data_map = nullptr;
g_fake2_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestMtlsConfigurationWithRootCertificateNameUpdate) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}},
{"bad", {bad_root_cert_, bad_identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_regex_},
authenticated_identity_);
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "bad", "fake_plugin1",
"", {server_san_regex_}, {},
true /* failure */);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest,
TestMtlsConfigurationWithIdentityCertificateNameUpdate) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}},
{"bad", {bad_root_cert_, bad_identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_exact_},
authenticated_identity_);
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"bad", {server_san_exact_}, {},
true /* failure */);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest,
TestMtlsConfigurationWithIdentityCertificateNameUpdateGoodCerts) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}},
{"good", {root_cert_, fallback_identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_exact_},
authenticated_identity_);
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"good", {server_san_exact_},
fallback_authenticated_identity_);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestMtlsConfigurationWithBothCertificateNamesUpdated) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}},
{"bad", {bad_root_cert_, bad_identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "bad", "fake_plugin1",
"bad", {server_san_prefix_}, {},
true /* failure */);
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_prefix_},
authenticated_identity_);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestTlsConfigurationWithNoSanMatchers) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "", "", {},
{} /* unauthenticated */);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestTlsConfigurationWithSanMatchers) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration(
"fake_plugin1", "", "", "",
{server_san_exact_, server_san_prefix_, server_san_regex_},
{} /* unauthenticated */);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestTlsConfigurationWithSanMatchersUpdate) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration(
"fake_plugin1", "", "", "", {server_san_exact_, server_san_prefix_},
{} /* unauthenticated */);
UpdateAndVerifyXdsSecurityConfiguration(
"fake_plugin1", "", "", "", {bad_san_1_, bad_san_2_},
{} /* unauthenticated */, true /* failure */);
UpdateAndVerifyXdsSecurityConfiguration(
"fake_plugin1", "", "", "", {server_san_prefix_, server_san_regex_},
{} /* unauthenticated */);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestTlsConfigurationWithRootCertificateNameUpdate) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}},
{"bad", {bad_root_cert_, bad_identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "", "",
{server_san_exact_},
{} /* unauthenticated */);
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "bad", "", "",
{server_san_exact_}, {},
true /* failure */);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestTlsConfigurationWithRootPluginUpdate) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
FakeCertificateProvider::CertDataMap fake2_cert_map = {
{"", {bad_root_cert_, bad_identity_pair_}}};
g_fake2_cert_data_map = &fake2_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "", "",
{server_san_exact_},
{} /* unauthenticated */);
UpdateAndVerifyXdsSecurityConfiguration(
"fake_plugin2", "", "", "", {server_san_exact_}, {}, true /* failure */);
g_fake1_cert_data_map = nullptr;
g_fake2_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestFallbackConfiguration) {
UpdateAndVerifyXdsSecurityConfiguration("", "", "", "", {},
fallback_authenticated_identity_);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestMtlsToTls) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_exact_},
authenticated_identity_);
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "", "",
{server_san_exact_},
{} /* unauthenticated */);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestMtlsToFallback) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_exact_},
authenticated_identity_);
UpdateAndVerifyXdsSecurityConfiguration("", "", "", "", {},
fallback_authenticated_identity_);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestTlsToMtls) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "", "",
{server_san_exact_},
{} /* unauthenticated */);
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_exact_},
authenticated_identity_);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestTlsToFallback) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "", "",
{server_san_exact_},
{} /* unauthenticated */);
UpdateAndVerifyXdsSecurityConfiguration("", "", "", "", {},
fallback_authenticated_identity_);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestFallbackToMtls) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("", "", "", "", {},
fallback_authenticated_identity_);
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "fake_plugin1",
"", {server_san_exact_},
authenticated_identity_);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestFallbackToTls) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
UpdateAndVerifyXdsSecurityConfiguration("", "", "", "", {},
fallback_authenticated_identity_);
UpdateAndVerifyXdsSecurityConfiguration("fake_plugin1", "", "", "",
{server_san_exact_},
{} /* unauthenticated */);
g_fake1_cert_data_map = nullptr;
}
TEST_P(XdsSecurityTest, TestFileWatcherCertificateProvider) {
UpdateAndVerifyXdsSecurityConfiguration("file_plugin", "", "file_plugin", "",
{server_san_exact_},
authenticated_identity_);
}
class XdsEnabledServerTest : public XdsEnd2endTest {
protected:
XdsEnabledServerTest()
: XdsEnd2endTest(1, 1, 100, true /* use_xds_enabled_server */) {}
void SetUp() override {
XdsEnd2endTest::SetUp();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
}
};
TEST_P(XdsEnabledServerTest, Basic) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
listener.mutable_address()->mutable_socket_address()->set_address(
ipv6_only_ ? "::1" : "127.0.0.1");
listener.mutable_address()->mutable_socket_address()->set_port_value(
backends_[0]->port());
listener.add_filter_chains()->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
balancers_[0]->ads_service()->SetLdsResource(listener);
WaitForBackend(0);
}
TEST_P(XdsEnabledServerTest, BadLdsUpdateNoApiListenerNorAddress) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
listener.add_filter_chains()->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
balancers_[0]->ads_service()->SetLdsResource(listener);
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr("Listener has neither address nor ApiListener"));
}
TEST_P(XdsEnabledServerTest, BadLdsUpdateBothApiListenerAndAddress) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
balancers_[0]->ads_service()->SetLdsResource(listener);
listener.mutable_address()->mutable_socket_address()->set_address(
ipv6_only_ ? "::1" : "127.0.0.1");
listener.mutable_address()->mutable_socket_address()->set_port_value(
backends_[0]->port());
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
listener.mutable_api_listener();
balancers_[0]->ads_service()->SetLdsResource(listener);
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr("Listener has both address and ApiListener"));
}
TEST_P(XdsEnabledServerTest, UnsupportedL4Filter) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
balancers_[0]->ads_service()->SetLdsResource(listener);
listener.mutable_address()->mutable_socket_address()->set_address(
ipv6_only_ ? "::1" : "127.0.0.1");
listener.mutable_address()->mutable_socket_address()->set_port_value(
backends_[0]->port());
listener.add_filter_chains()->add_filters()->mutable_typed_config()->PackFrom(default_listener_ /* any proto object other than HttpConnectionManager */);
balancers_[0]->ads_service()->SetLdsResource(listener);
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("Unsupported filter type"));
}
TEST_P(XdsEnabledServerTest, UnsupportedHttpFilter) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
listener.mutable_address()->mutable_socket_address()->set_address(
ipv6_only_ ? "::1" : "127.0.0.1");
listener.mutable_address()->mutable_socket_address()->set_port_value(
backends_[0]->port());
HttpConnectionManager http_connection_manager;
auto* http_filter = http_connection_manager.add_http_filters();
http_filter->set_name("grpc.testing.unsupported_http_filter");
http_filter->mutable_typed_config()->set_type_url(
"grpc.testing.unsupported_http_filter");
listener.add_filter_chains()->add_filters()->mutable_typed_config()->PackFrom(
http_connection_manager);
balancers_[0]->ads_service()->SetLdsResource(listener);
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=[::1]:",
backends_[0]->port()));
balancers_[0]->ads_service()->SetLdsResource(listener);
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("no filter registered for config type "
"grpc.testing.unsupported_http_filter"));
}
TEST_P(XdsEnabledServerTest, HttpFilterNotSupportedOnServer) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
listener.mutable_address()->mutable_socket_address()->set_address(
ipv6_only_ ? "::1" : "127.0.0.1");
listener.mutable_address()->mutable_socket_address()->set_port_value(
backends_[0]->port());
HttpConnectionManager http_connection_manager;
auto* http_filter = http_connection_manager.add_http_filters();
http_filter->set_name("grpc.testing.client_only_http_filter");
http_filter->mutable_typed_config()->set_type_url(
"grpc.testing.client_only_http_filter");
listener.add_filter_chains()->add_filters()->mutable_typed_config()->PackFrom(
http_connection_manager);
balancers_[0]->ads_service()->SetLdsResource(listener);
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=[::1]:",
backends_[0]->port()));
balancers_[0]->ads_service()->SetLdsResource(listener);
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr("Filter grpc.testing.client_only_http_filter is not "
"supported on servers"));
}
TEST_P(XdsEnabledServerTest,
HttpFilterNotSupportedOnServerIgnoredWhenOptional) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
listener.mutable_address()->mutable_socket_address()->set_address(
ipv6_only_ ? "::1" : "127.0.0.1");
listener.mutable_address()->mutable_socket_address()->set_port_value(
backends_[0]->port());
HttpConnectionManager http_connection_manager;
auto* http_filter = http_connection_manager.add_http_filters();
http_filter->set_name("grpc.testing.client_only_http_filter");
http_filter->mutable_typed_config()->set_type_url(
"grpc.testing.client_only_http_filter");
http_filter->set_is_optional(true);
listener.add_filter_chains()->add_filters()->mutable_typed_config()->PackFrom(
http_connection_manager);
balancers_[0]->ads_service()->SetLdsResource(listener);
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=[::1]:",
backends_[0]->port()));
balancers_[0]->ads_service()->SetLdsResource(listener);
WaitForBackend(0);
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::ACKED);
}
// Verify that a mismatch of listening address results in "not serving" status.
TEST_P(XdsEnabledServerTest, ListenerAddressMismatch) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
listener.mutable_address()->mutable_socket_address()->set_address(
ipv6_only_ ? "::1" : "127.0.0.1");
listener.mutable_address()->mutable_socket_address()->set_port_value(
backends_[0]->port());
listener.add_filter_chains()->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
balancers_[0]->ads_service()->SetLdsResource(listener);
WaitForBackend(0);
// Set a different listening address in the LDS update
listener.mutable_address()->mutable_socket_address()->set_address(
"192.168.1.1");
balancers_[0]->ads_service()->SetLdsResource(listener);
backends_[0]->notifier()->WaitOnServingStatusChange(
absl::StrCat(ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()),
grpc::StatusCode::FAILED_PRECONDITION);
}
TEST_P(XdsEnabledServerTest, UseOriginalDstNotSupported) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
balancers_[0]->ads_service()->SetLdsResource(listener);
listener.mutable_address()->mutable_socket_address()->set_address(
ipv6_only_ ? "::1" : "127.0.0.1");
listener.mutable_address()->mutable_socket_address()->set_port_value(
backends_[0]->port());
listener.add_filter_chains()->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
listener.mutable_use_original_dst()->set_value(true);
balancers_[0]->ads_service()->SetLdsResource(listener);
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state ==
AdsServiceImpl::ResponseState::SENT);
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(
response_state.error_message,
::testing::HasSubstr("Field \'use_original_dst\' is not supported."));
}
class XdsServerSecurityTest : public XdsEnd2endTest {
protected:
XdsServerSecurityTest()
: XdsEnd2endTest(1, 1, 100, true /* use_xds_enabled_server */) {}
static void SetUpTestCase() {
gpr_setenv("GRPC_XDS_EXPERIMENTAL_SECURITY_SUPPORT", "true");
XdsEnd2endTest::SetUpTestCase();
}
static void TearDownTestCase() {
XdsEnd2endTest::TearDownTestCase();
gpr_unsetenv("GRPC_XDS_EXPERIMENTAL_SECURITY_SUPPORT");
}
void SetUp() override {
XdsEnd2endTest::SetUp();
root_cert_ = ReadFile(kCaCertPath);
bad_root_cert_ = ReadFile(kBadClientCertPath);
identity_pair_ = ReadTlsIdentityPair(kServerKeyPath, kServerCertPath);
bad_identity_pair_ =
ReadTlsIdentityPair(kBadClientKeyPath, kBadClientCertPath);
identity_pair_2_ = ReadTlsIdentityPair(kClientKeyPath, kClientCertPath);
server_authenticated_identity_ = {"*.test.google.fr",
"waterzooi.test.google.be",
"*.test.youtube.com", "192.168.1.3"};
server_authenticated_identity_2_ = {"testclient"};
client_authenticated_identity_ = {"*.test.google.fr",
"waterzooi.test.google.be",
"*.test.youtube.com", "192.168.1.3"};
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
}
void TearDown() override {
g_fake1_cert_data_map = nullptr;
g_fake2_cert_data_map = nullptr;
XdsEnd2endTest::TearDown();
}
void SetLdsUpdate(absl::string_view root_instance_name,
absl::string_view root_certificate_name,
absl::string_view identity_instance_name,
absl::string_view identity_certificate_name,
bool require_client_certificates) {
Listener listener;
listener.set_name(absl::StrCat(
ipv6_only_ ? "grpc/server?xds.resource.listening_address=[::1]:"
: "grpc/server?xds.resource.listening_address=127.0.0.1:",
backends_[0]->port()));
listener.mutable_address()->mutable_socket_address()->set_address(
ipv6_only_ ? "[::1]" : "127.0.0.1");
listener.mutable_address()->mutable_socket_address()->set_port_value(
backends_[0]->port());
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
if (!identity_instance_name.empty()) {
auto* transport_socket = filter_chain->mutable_transport_socket();
transport_socket->set_name("envoy.transport_sockets.tls");
DownstreamTlsContext downstream_tls_context;
downstream_tls_context.mutable_common_tls_context()
->mutable_tls_certificate_certificate_provider_instance()
->set_instance_name(std::string(identity_instance_name));
downstream_tls_context.mutable_common_tls_context()
->mutable_tls_certificate_certificate_provider_instance()
->set_certificate_name(std::string(identity_certificate_name));
if (!root_instance_name.empty()) {
downstream_tls_context.mutable_common_tls_context()
->mutable_combined_validation_context()
->mutable_validation_context_certificate_provider_instance()
->set_instance_name(std::string(root_instance_name));
downstream_tls_context.mutable_common_tls_context()
->mutable_combined_validation_context()
->mutable_validation_context_certificate_provider_instance()
->set_certificate_name(std::string(root_certificate_name));
downstream_tls_context.mutable_require_client_certificate()->set_value(
require_client_certificates);
}
transport_socket->mutable_typed_config()->PackFrom(
downstream_tls_context);
}
balancers_[0]->ads_service()->SetLdsResource(listener);
}
std::shared_ptr<grpc::Channel> CreateMtlsChannel() {
ChannelArguments args;
// Override target name for host name check
args.SetString(GRPC_SSL_TARGET_NAME_OVERRIDE_ARG,
ipv6_only_ ? "::1" : "127.0.0.1");
args.SetInt(GRPC_ARG_USE_LOCAL_SUBCHANNEL_POOL, 1);
std::string uri = absl::StrCat(
ipv6_only_ ? "ipv6:[::1]:" : "ipv4:127.0.0.1:", backends_[0]->port());
// TODO(yashykt): Switch to using C++ API once b/173823806 is fixed.
grpc_tls_credentials_options* options =
grpc_tls_credentials_options_create();
grpc_tls_credentials_options_set_server_verification_option(
options, GRPC_TLS_SKIP_HOSTNAME_VERIFICATION);
grpc_tls_credentials_options_set_certificate_provider(
options,
grpc_core::MakeRefCounted<grpc_core::StaticDataCertificateProvider>(
ReadFile(kCaCertPath),
ReadTlsIdentityPair(kServerKeyPath, kServerCertPath))
.get());
grpc_tls_credentials_options_watch_root_certs(options);
grpc_tls_credentials_options_watch_identity_key_cert_pairs(options);
grpc_tls_server_authorization_check_config* check_config =
grpc_tls_server_authorization_check_config_create(
nullptr, ServerAuthCheckSchedule, nullptr, nullptr);
grpc_tls_credentials_options_set_server_authorization_check_config(
options, check_config);
auto channel_creds = std::make_shared<SecureChannelCredentials>(
grpc_tls_credentials_create(options));
grpc_tls_server_authorization_check_config_release(check_config);
return CreateCustomChannel(uri, channel_creds, args);
}
std::shared_ptr<grpc::Channel> CreateTlsChannel() {
ChannelArguments args;
// Override target name for host name check
args.SetString(GRPC_SSL_TARGET_NAME_OVERRIDE_ARG,
ipv6_only_ ? "::1" : "127.0.0.1");
args.SetInt(GRPC_ARG_USE_LOCAL_SUBCHANNEL_POOL, 1);
std::string uri = absl::StrCat(
ipv6_only_ ? "ipv6:[::1]:" : "ipv4:127.0.0.1:", backends_[0]->port());
// TODO(yashykt): Switch to using C++ API once b/173823806 is fixed.
grpc_tls_credentials_options* options =
grpc_tls_credentials_options_create();
grpc_tls_credentials_options_set_server_verification_option(
options, GRPC_TLS_SKIP_HOSTNAME_VERIFICATION);
grpc_tls_credentials_options_set_certificate_provider(
options,
grpc_core::MakeRefCounted<grpc_core::StaticDataCertificateProvider>(
ReadFile(kCaCertPath),
ReadTlsIdentityPair(kServerKeyPath, kServerCertPath))
.get());
grpc_tls_credentials_options_watch_root_certs(options);
grpc_tls_server_authorization_check_config* check_config =
grpc_tls_server_authorization_check_config_create(
nullptr, ServerAuthCheckSchedule, nullptr, nullptr);
grpc_tls_credentials_options_set_server_authorization_check_config(
options, check_config);
auto channel_creds = std::make_shared<SecureChannelCredentials>(
grpc_tls_credentials_create(options));
grpc_tls_server_authorization_check_config_release(check_config);
return CreateCustomChannel(uri, channel_creds, args);
}
std::shared_ptr<grpc::Channel> CreateInsecureChannel() {
ChannelArguments args;
// Override target name for host name check
args.SetString(GRPC_SSL_TARGET_NAME_OVERRIDE_ARG,
ipv6_only_ ? "::1" : "127.0.0.1");
args.SetInt(GRPC_ARG_USE_LOCAL_SUBCHANNEL_POOL, 1);
std::string uri = absl::StrCat(
ipv6_only_ ? "ipv6:[::1]:" : "ipv4:127.0.0.1:", backends_[0]->port());
return CreateCustomChannel(uri, InsecureChannelCredentials(), args);
}
void SendRpc(std::function<std::shared_ptr<grpc::Channel>()> channel_creator,
std::vector<std::string> expected_server_identity,
std::vector<std::string> expected_client_identity,
bool test_expects_failure = false) {
gpr_log(GPR_INFO, "Sending RPC");
int num_tries = 0;
constexpr int kRetryCount = 100;
for (; num_tries < kRetryCount; num_tries++) {
auto channel = channel_creator();
auto stub = grpc::testing::EchoTestService::NewStub(channel);
ClientContext context;
context.set_wait_for_ready(true);
context.set_deadline(grpc_timeout_milliseconds_to_deadline(2000));
EchoRequest request;
request.set_message(kRequestMessage);
EchoResponse response;
Status status = stub->Echo(&context, request, &response);
if (test_expects_failure) {
if (status.ok()) {
gpr_log(GPR_ERROR, "RPC succeeded. Failure expected. Trying again.");
continue;
}
} else {
if (!status.ok()) {
gpr_log(GPR_ERROR, "RPC failed. code=%d message=%s Trying again.",
status.error_code(), status.error_message().c_str());
continue;
}
EXPECT_EQ(response.message(), kRequestMessage);
std::vector<std::string> peer_identity;
for (const auto& entry : context.auth_context()->GetPeerIdentity()) {
peer_identity.emplace_back(
std::string(entry.data(), entry.size()).c_str());
}
if (peer_identity != expected_server_identity) {
gpr_log(GPR_ERROR,
"Expected server identity does not match. (actual) %s vs "
"(expected) %s Trying again.",
absl::StrJoin(peer_identity, ",").c_str(),
absl::StrJoin(expected_server_identity, ",").c_str());
continue;
}
if (backends_[0]->backend_service()->last_peer_identity() !=
expected_client_identity) {
gpr_log(
GPR_ERROR,
"Expected client identity does not match. (actual) %s vs "
"(expected) %s Trying again.",
absl::StrJoin(
backends_[0]->backend_service()->last_peer_identity(), ",")
.c_str(),
absl::StrJoin(expected_client_identity, ",").c_str());
continue;
}
}
break;
}
EXPECT_LT(num_tries, kRetryCount);
}
std::string root_cert_;
std::string bad_root_cert_;
grpc_core::PemKeyCertPairList identity_pair_;
grpc_core::PemKeyCertPairList bad_identity_pair_;
grpc_core::PemKeyCertPairList identity_pair_2_;
std::vector<std::string> server_authenticated_identity_;
std::vector<std::string> server_authenticated_identity_2_;
std::vector<std::string> client_authenticated_identity_;
};
TEST_P(XdsServerSecurityTest, TlsConfigurationWithoutRootProviderInstance) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
balancers_[0]->ads_service()->SetLdsResource(listener);
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
auto* transport_socket = filter_chain->mutable_transport_socket();
transport_socket->set_name("envoy.transport_sockets.tls");
DownstreamTlsContext downstream_tls_context;
transport_socket->mutable_typed_config()->PackFrom(downstream_tls_context);
balancers_[0]->ads_service()->SetLdsResource(listener);
CheckRpcSendFailure(1, RpcOptions().set_wait_for_ready(true));
const auto response_state =
balancers_[0]->ads_service()->lds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr(
"TLS configuration provided but no "
"tls_certificate_certificate_provider_instance found."));
}
TEST_P(XdsServerSecurityTest, UnknownIdentityCertificateProvider) {
SetLdsUpdate("", "", "unknown", "", false);
SendRpc([this]() { return CreateTlsChannel(); }, {}, {},
true /* test_expects_failure */);
}
TEST_P(XdsServerSecurityTest, UnknownRootCertificateProvider) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
SetLdsUpdate("unknown", "", "fake_plugin1", "", false);
SendRpc([this]() { return CreateTlsChannel(); }, {}, {},
true /* test_expects_failure */);
}
TEST_P(XdsServerSecurityTest, TestMtls) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
SetLdsUpdate("fake_plugin1", "", "fake_plugin1", "", true);
SendRpc([this]() { return CreateMtlsChannel(); },
server_authenticated_identity_, client_authenticated_identity_);
}
TEST_P(XdsServerSecurityTest, TestMtlsWithRootPluginUpdate) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
FakeCertificateProvider::CertDataMap fake2_cert_map = {
{"", {bad_root_cert_, bad_identity_pair_}}};
g_fake2_cert_data_map = &fake2_cert_map;
SetLdsUpdate("fake_plugin1", "", "fake_plugin1", "", true);
SendRpc([this]() { return CreateMtlsChannel(); },
server_authenticated_identity_, client_authenticated_identity_);
SetLdsUpdate("fake_plugin2", "", "fake_plugin1", "", true);
SendRpc([this]() { return CreateMtlsChannel(); }, {}, {},
true /* test_expects_failure */);
}
TEST_P(XdsServerSecurityTest, TestMtlsWithIdentityPluginUpdate) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
FakeCertificateProvider::CertDataMap fake2_cert_map = {
{"", {root_cert_, identity_pair_2_}}};
g_fake2_cert_data_map = &fake2_cert_map;
SetLdsUpdate("fake_plugin1", "", "fake_plugin1", "", true);
SendRpc([this]() { return CreateMtlsChannel(); },
server_authenticated_identity_, client_authenticated_identity_);
SetLdsUpdate("fake_plugin1", "", "fake_plugin2", "", true);
SendRpc([this]() { return CreateMtlsChannel(); },
server_authenticated_identity_2_, client_authenticated_identity_);
}
TEST_P(XdsServerSecurityTest, TestMtlsWithBothPluginsUpdated) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
FakeCertificateProvider::CertDataMap fake2_cert_map = {
{"good", {root_cert_, identity_pair_2_}},
{"", {bad_root_cert_, bad_identity_pair_}}};
g_fake2_cert_data_map = &fake2_cert_map;
SetLdsUpdate("fake_plugin2", "", "fake_plugin2", "", true);
SendRpc([this]() { return CreateMtlsChannel(); }, {}, {},
true /* test_expects_failure */);
SetLdsUpdate("fake_plugin1", "", "fake_plugin1", "", true);
SendRpc([this]() { return CreateMtlsChannel(); },
server_authenticated_identity_, client_authenticated_identity_);
SetLdsUpdate("fake_plugin2", "good", "fake_plugin2", "good", true);
SendRpc([this]() { return CreateMtlsChannel(); },
server_authenticated_identity_2_, client_authenticated_identity_);
}
TEST_P(XdsServerSecurityTest, TestMtlsWithRootCertificateNameUpdate) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}},
{"bad", {bad_root_cert_, bad_identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
SetLdsUpdate("fake_plugin1", "", "fake_plugin1", "", true);
SendRpc([this]() { return CreateMtlsChannel(); },
server_authenticated_identity_, client_authenticated_identity_);
SetLdsUpdate("fake_plugin1", "bad", "fake_plugin1", "", true);
SendRpc([this]() { return CreateMtlsChannel(); }, {}, {},
true /* test_expects_failure */);
}
TEST_P(XdsServerSecurityTest, TestMtlsWithIdentityCertificateNameUpdate) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}},
{"good", {root_cert_, identity_pair_2_}}};
g_fake1_cert_data_map = &fake1_cert_map;
SetLdsUpdate("fake_plugin1", "", "fake_plugin1", "", true);
SendRpc([this]() { return CreateMtlsChannel(); },
server_authenticated_identity_, client_authenticated_identity_);
SetLdsUpdate("fake_plugin1", "", "fake_plugin1", "good", true);
SendRpc([this]() { return CreateMtlsChannel(); },
server_authenticated_identity_2_, client_authenticated_identity_);
}
TEST_P(XdsServerSecurityTest, TestMtlsWithBothCertificateNamesUpdated) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}},
{"good", {root_cert_, identity_pair_2_}}};
g_fake1_cert_data_map = &fake1_cert_map;
SetLdsUpdate("fake_plugin1", "", "fake_plugin1", "", true);
SendRpc([this]() { return CreateMtlsChannel(); },
server_authenticated_identity_, client_authenticated_identity_);
SetLdsUpdate("fake_plugin1", "good", "fake_plugin1", "good", true);
SendRpc([this]() { return CreateMtlsChannel(); },
server_authenticated_identity_2_, client_authenticated_identity_);
}
TEST_P(XdsServerSecurityTest, TestMtlsNotRequiringButProvidingClientCerts) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
SetLdsUpdate("fake_plugin1", "", "fake_plugin1", "", false);
SendRpc([this]() { return CreateMtlsChannel(); },
server_authenticated_identity_, client_authenticated_identity_);
}
TEST_P(XdsServerSecurityTest, TestMtlsNotRequiringAndNotProvidingClientCerts) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
SetLdsUpdate("fake_plugin1", "", "fake_plugin1", "", false);
SendRpc([this]() { return CreateTlsChannel(); },
server_authenticated_identity_, {});
}
TEST_P(XdsServerSecurityTest, TestTls) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
SetLdsUpdate("", "", "fake_plugin1", "", false);
SendRpc([this]() { return CreateTlsChannel(); },
server_authenticated_identity_, {});
}
TEST_P(XdsServerSecurityTest, TestTlsWithIdentityPluginUpdate) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
FakeCertificateProvider::CertDataMap fake2_cert_map = {
{"", {root_cert_, identity_pair_2_}}};
g_fake2_cert_data_map = &fake2_cert_map;
SetLdsUpdate("", "", "fake_plugin1", "", false);
SendRpc([this]() { return CreateTlsChannel(); },
server_authenticated_identity_, {});
SetLdsUpdate("", "", "fake_plugin2", "", false);
SendRpc([this]() { return CreateTlsChannel(); },
server_authenticated_identity_2_, {});
}
TEST_P(XdsServerSecurityTest, TestTlsWithIdentityCertificateNameUpdate) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}},
{"good", {root_cert_, identity_pair_2_}}};
g_fake1_cert_data_map = &fake1_cert_map;
SetLdsUpdate("", "", "fake_plugin1", "", false);
SendRpc([this]() { return CreateTlsChannel(); },
server_authenticated_identity_, {});
SetLdsUpdate("", "", "fake_plugin1", "good", false);
SendRpc([this]() { return CreateTlsChannel(); },
server_authenticated_identity_2_, {});
}
TEST_P(XdsServerSecurityTest, TestFallback) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
SetLdsUpdate("", "", "", "", false);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
}
TEST_P(XdsServerSecurityTest, TestMtlsToTls) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
SetLdsUpdate("fake_plugin1", "", "fake_plugin1", "", true);
SendRpc([this]() { return CreateTlsChannel(); }, {}, {},
true /* test_expects_failure */);
SetLdsUpdate("", "", "fake_plugin1", "", false);
SendRpc([this]() { return CreateTlsChannel(); },
server_authenticated_identity_, {});
}
TEST_P(XdsServerSecurityTest, TestTlsToMtls) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
SetLdsUpdate("", "", "fake_plugin1", "", false);
SendRpc([this]() { return CreateTlsChannel(); },
server_authenticated_identity_, {});
SetLdsUpdate("fake_plugin1", "", "fake_plugin1", "", true);
SendRpc([this]() { return CreateTlsChannel(); }, {}, {},
true /* test_expects_failure */);
}
TEST_P(XdsServerSecurityTest, TestMtlsToFallback) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
SetLdsUpdate("fake_plugin1", "", "fake_plugin1", "", false);
SendRpc([this]() { return CreateMtlsChannel(); },
server_authenticated_identity_, client_authenticated_identity_);
SetLdsUpdate("", "", "", "", false);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
}
TEST_P(XdsServerSecurityTest, TestFallbackToMtls) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
SetLdsUpdate("", "", "", "", false);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
SetLdsUpdate("fake_plugin1", "", "fake_plugin1", "", true);
SendRpc([this]() { return CreateMtlsChannel(); },
server_authenticated_identity_, client_authenticated_identity_);
}
TEST_P(XdsServerSecurityTest, TestTlsToFallback) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
SetLdsUpdate("", "", "fake_plugin1", "", false);
SendRpc([this]() { return CreateTlsChannel(); },
server_authenticated_identity_, {});
SetLdsUpdate("", "", "", "", false);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
}
TEST_P(XdsServerSecurityTest, TestFallbackToTls) {
FakeCertificateProvider::CertDataMap fake1_cert_map = {
{"", {root_cert_, identity_pair_}}};
g_fake1_cert_data_map = &fake1_cert_map;
SetLdsUpdate("", "", "", "", false);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
SetLdsUpdate("", "", "fake_plugin1", "", false);
SendRpc([this]() { return CreateTlsChannel(); },
server_authenticated_identity_, {});
}
class XdsEnabledServerStatusNotificationTest : public XdsServerSecurityTest {
protected:
void SetValidLdsUpdate() { SetLdsUpdate("", "", "", "", false); }
void SetInvalidLdsUpdate() {
Listener listener;
listener.set_name(absl::StrCat(
"grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
balancers_[0]->ads_service()->SetLdsResource(listener);
}
void UnsetLdsUpdate() {
balancers_[0]->ads_service()->UnsetResource(
kLdsTypeUrl, absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:",
backends_[0]->port()));
}
};
TEST_P(XdsEnabledServerStatusNotificationTest, ServingStatus) {
SetValidLdsUpdate();
backends_[0]->notifier()->WaitOnServingStatusChange(
absl::StrCat(ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()),
grpc::StatusCode::OK);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
}
TEST_P(XdsEnabledServerStatusNotificationTest, NotServingStatus) {
SetInvalidLdsUpdate();
backends_[0]->notifier()->WaitOnServingStatusChange(
absl::StrCat(ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()),
grpc::StatusCode::UNAVAILABLE);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {},
true /* test_expects_failure */);
}
TEST_P(XdsEnabledServerStatusNotificationTest, ErrorUpdateWhenAlreadyServing) {
SetValidLdsUpdate();
backends_[0]->notifier()->WaitOnServingStatusChange(
absl::StrCat(ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()),
grpc::StatusCode::OK);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
// Invalid update does not lead to a change in the serving status.
SetInvalidLdsUpdate();
do {
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
} while (balancers_[0]->ads_service()->lds_response_state().state ==
AdsServiceImpl::ResponseState::SENT);
backends_[0]->notifier()->WaitOnServingStatusChange(
absl::StrCat(ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()),
grpc::StatusCode::OK);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
}
TEST_P(XdsEnabledServerStatusNotificationTest,
NotServingStatusToServingStatusTransition) {
SetInvalidLdsUpdate();
backends_[0]->notifier()->WaitOnServingStatusChange(
absl::StrCat(ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()),
grpc::StatusCode::UNAVAILABLE);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {},
true /* test_expects_failure */);
// Send a valid LDS update to change to serving status
SetValidLdsUpdate();
backends_[0]->notifier()->WaitOnServingStatusChange(
absl::StrCat(ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()),
grpc::StatusCode::OK);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
}
// This test verifies that the resource getting deleted when already serving
// results in future connections being dropped.
TEST_P(XdsEnabledServerStatusNotificationTest,
ServingStatusToNonServingStatusTransition) {
SetValidLdsUpdate();
backends_[0]->notifier()->WaitOnServingStatusChange(
absl::StrCat(ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()),
grpc::StatusCode::OK);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
// Deleting the resource should result in a non-serving status.
UnsetLdsUpdate();
backends_[0]->notifier()->WaitOnServingStatusChange(
absl::StrCat(ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()),
grpc::StatusCode::NOT_FOUND);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {},
true /* test_expects_failure */);
}
TEST_P(XdsEnabledServerStatusNotificationTest, RepeatedServingStatusChanges) {
for (int i = 0; i < 5; i++) {
// Send a valid LDS update to get the server to start listening
SetValidLdsUpdate();
backends_[0]->notifier()->WaitOnServingStatusChange(
absl::StrCat(ipv6_only_ ? "[::1]:" : "127.0.0.1:",
backends_[0]->port()),
grpc::StatusCode::OK);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
// Deleting the resource will make the server start rejecting connections
UnsetLdsUpdate();
backends_[0]->notifier()->WaitOnServingStatusChange(
absl::StrCat(ipv6_only_ ? "[::1]:" : "127.0.0.1:",
backends_[0]->port()),
grpc::StatusCode::NOT_FOUND);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {},
true /* test_expects_failure */);
}
}
TEST_P(XdsEnabledServerStatusNotificationTest, ExistingRpcsOnResourceDeletion) {
// Send a valid LDS update to get the server to start listening
SetValidLdsUpdate();
backends_[0]->notifier()->WaitOnServingStatusChange(
absl::StrCat(ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()),
grpc::StatusCode::OK);
constexpr int kNumChannels = 10;
struct StreamingRpc {
std::shared_ptr<Channel> channel;
std::unique_ptr<grpc::testing::EchoTestService::Stub> stub;
ClientContext context;
std::unique_ptr<ClientWriter<EchoRequest>> writer;
} streaming_rpcs[kNumChannels];
EchoRequest request;
EchoResponse response;
request.set_message("Hello");
for (int i = 0; i < kNumChannels; i++) {
streaming_rpcs[i].channel = CreateInsecureChannel();
streaming_rpcs[i].stub =
grpc::testing::EchoTestService::NewStub(streaming_rpcs[i].channel);
streaming_rpcs[i].context.set_wait_for_ready(true);
streaming_rpcs[i].writer = streaming_rpcs[i].stub->RequestStream(
&streaming_rpcs[i].context, &response);
EXPECT_TRUE(streaming_rpcs[i].writer->Write(request));
}
// Deleting the resource will make the server start rejecting connections
UnsetLdsUpdate();
backends_[0]->notifier()->WaitOnServingStatusChange(
absl::StrCat(ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()),
grpc::StatusCode::NOT_FOUND);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {},
true /* test_expects_failure */);
for (int i = 0; i < kNumChannels; i++) {
EXPECT_TRUE(streaming_rpcs[i].writer->Write(request));
EXPECT_TRUE(streaming_rpcs[i].writer->WritesDone());
EXPECT_TRUE(streaming_rpcs[i].writer->Finish().ok());
// New RPCs on the existing channels should fail.
ClientContext new_context;
new_context.set_deadline(grpc_timeout_milliseconds_to_deadline(1000));
EXPECT_FALSE(
streaming_rpcs[i].stub->Echo(&new_context, request, &response).ok());
}
}
using XdsServerFilterChainMatchTest = XdsServerSecurityTest;
TEST_P(XdsServerFilterChainMatchTest,
DefaultFilterChainUsedWhenNoFilterChainMentioned) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
listener.mutable_default_filter_chain()
->add_filters()
->mutable_typed_config()
->PackFrom(HttpConnectionManager());
balancers_[0]->ads_service()->SetLdsResource(listener);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
}
TEST_P(XdsServerFilterChainMatchTest,
DefaultFilterChainUsedWhenOtherFilterChainsDontMatch) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
// Add a filter chain that will never get matched
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()
->mutable_destination_port()
->set_value(8080);
// Add default filter chain that should get used
listener.mutable_default_filter_chain()
->add_filters()
->mutable_typed_config()
->PackFrom(HttpConnectionManager());
balancers_[0]->ads_service()->SetLdsResource(listener);
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
}
TEST_P(XdsServerFilterChainMatchTest,
FilterChainsWithDestinationPortDontMatch) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
// Add filter chain with destination port that should never get matched
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()
->mutable_destination_port()
->set_value(8080);
balancers_[0]->ads_service()->SetLdsResource(listener);
// RPC should fail since no matching filter chain was found and no default
// filter chain is configured.
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {},
true /* test_expects_failure */);
}
TEST_P(XdsServerFilterChainMatchTest, FilterChainsWithServerNamesDontMatch) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
// Add filter chain with server name that should never get matched
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->add_server_names("server_name");
balancers_[0]->ads_service()->SetLdsResource(listener);
// RPC should fail since no matching filter chain was found and no default
// filter chain is configured.
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {},
true /* test_expects_failure */);
}
TEST_P(XdsServerFilterChainMatchTest,
FilterChainsWithTransportProtocolsOtherThanRawBufferDontMatch) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
// Add filter chain with transport protocol "tls" that should never match
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->set_transport_protocol("tls");
balancers_[0]->ads_service()->SetLdsResource(listener);
// RPC should fail since no matching filter chain was found and no default
// filter chain is configured.
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {},
true /* test_expects_failure */);
}
TEST_P(XdsServerFilterChainMatchTest,
FilterChainsWithApplicationProtocolsDontMatch) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
// Add filter chain with application protocol that should never get matched
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->add_application_protocols("h2");
balancers_[0]->ads_service()->SetLdsResource(listener);
// RPC should fail since no matching filter chain was found and no default
// filter chain is configured.
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {},
true /* test_expects_failure */);
}
TEST_P(XdsServerFilterChainMatchTest,
FilterChainsWithTransportProtocolRawBufferIsPreferred) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
// Add filter chain with "raw_buffer" transport protocol
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->set_transport_protocol(
"raw_buffer");
// Add another filter chain with no transport protocol set but application
// protocol set (fails match)
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->add_application_protocols("h2");
balancers_[0]->ads_service()->SetLdsResource(listener);
// A successful RPC proves that filter chains that mention "raw_buffer" as the
// transport protocol are chosen as the best match in the round.
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
}
TEST_P(XdsServerFilterChainMatchTest,
FilterChainsWithMoreSpecificDestinationPrefixRangesArePreferred) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
// Add filter chain with prefix range (length 4 and 16) but with server name
// mentioned. (Prefix range is matched first.)
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
auto* prefix_range =
filter_chain->mutable_filter_chain_match()->add_prefix_ranges();
prefix_range->set_address_prefix(ipv6_only_ ? "::1" : "127.0.0.1");
prefix_range->mutable_prefix_len()->set_value(4);
prefix_range =
filter_chain->mutable_filter_chain_match()->add_prefix_ranges();
prefix_range->set_address_prefix(ipv6_only_ ? "::1" : "127.0.0.1");
prefix_range->mutable_prefix_len()->set_value(16);
filter_chain->mutable_filter_chain_match()->add_server_names("server_name");
// Add filter chain with two prefix ranges (length 8 and 24). Since 24 is the
// highest match, it should be chosen.
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
prefix_range =
filter_chain->mutable_filter_chain_match()->add_prefix_ranges();
prefix_range->set_address_prefix(ipv6_only_ ? "::1" : "127.0.0.1");
prefix_range->mutable_prefix_len()->set_value(8);
prefix_range =
filter_chain->mutable_filter_chain_match()->add_prefix_ranges();
prefix_range->set_address_prefix(ipv6_only_ ? "::1" : "127.0.0.1");
prefix_range->mutable_prefix_len()->set_value(24);
// Add another filter chain with a non-matching prefix range (with length 30)
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
prefix_range =
filter_chain->mutable_filter_chain_match()->add_prefix_ranges();
prefix_range->set_address_prefix("192.168.1.1");
prefix_range->mutable_prefix_len()->set_value(30);
filter_chain->mutable_filter_chain_match()->add_server_names("server_name");
// Add another filter chain with no prefix range mentioned
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->add_server_names("server_name");
balancers_[0]->ads_service()->SetLdsResource(listener);
// A successful RPC proves that the filter chain with the longest matching
// prefix range was the best match.
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
}
TEST_P(XdsServerFilterChainMatchTest,
FilterChainsThatMentionSourceTypeArePreferred) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
// Add filter chain with the local source type (best match)
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->set_source_type(
FilterChainMatch::SAME_IP_OR_LOOPBACK);
// Add filter chain with the external source type but bad source port.
// Note that backends_[0]->port() will never be a match for the source port
// because it is already being used by a backend.
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->set_source_type(
FilterChainMatch::EXTERNAL);
filter_chain->mutable_filter_chain_match()->add_source_ports(
backends_[0]->port());
// Add filter chain with the default source type (ANY) but bad source port.
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->add_source_ports(
backends_[0]->port());
balancers_[0]->ads_service()->SetLdsResource(listener);
// A successful RPC proves that the filter chain with the longest matching
// prefix range was the best match.
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
}
TEST_P(XdsServerFilterChainMatchTest,
FilterChainsWithMoreSpecificSourcePrefixRangesArePreferred) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
// Add filter chain with source prefix range (length 16) but with a bad source
// port mentioned. (Prefix range is matched first.)
// Note that backends_[0]->port() will never be a match for the source port
// because it is already being used by a backend.
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
auto* source_prefix_range =
filter_chain->mutable_filter_chain_match()->add_source_prefix_ranges();
source_prefix_range->set_address_prefix(ipv6_only_ ? "::1" : "127.0.0.1");
source_prefix_range->mutable_prefix_len()->set_value(4);
source_prefix_range =
filter_chain->mutable_filter_chain_match()->add_source_prefix_ranges();
source_prefix_range->set_address_prefix(ipv6_only_ ? "::1" : "127.0.0.1");
source_prefix_range->mutable_prefix_len()->set_value(16);
filter_chain->mutable_filter_chain_match()->add_source_ports(
backends_[0]->port());
// Add filter chain with two source prefix ranges (length 8 and 24). Since 24
// is the highest match, it should be chosen.
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
source_prefix_range =
filter_chain->mutable_filter_chain_match()->add_source_prefix_ranges();
source_prefix_range->set_address_prefix(ipv6_only_ ? "::1" : "127.0.0.1");
source_prefix_range->mutable_prefix_len()->set_value(8);
source_prefix_range =
filter_chain->mutable_filter_chain_match()->add_source_prefix_ranges();
source_prefix_range->set_address_prefix(ipv6_only_ ? "::1" : "127.0.0.1");
source_prefix_range->mutable_prefix_len()->set_value(24);
// Add another filter chain with a non-matching source prefix range (with
// length 30) and bad source port
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
source_prefix_range =
filter_chain->mutable_filter_chain_match()->add_source_prefix_ranges();
source_prefix_range->set_address_prefix("192.168.1.1");
source_prefix_range->mutable_prefix_len()->set_value(30);
filter_chain->mutable_filter_chain_match()->add_source_ports(
backends_[0]->port());
// Add another filter chain with no source prefix range mentioned and bad
// source port
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->add_source_ports(
backends_[0]->port());
balancers_[0]->ads_service()->SetLdsResource(listener);
// A successful RPC proves that the filter chain with the longest matching
// source prefix range was the best match.
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
}
TEST_P(XdsServerFilterChainMatchTest,
FilterChainsWithMoreSpecificSourcePortArePreferred) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
// Since we don't know which port will be used by the channel, just add all
// ports except for 0.
for (int i = 1; i < 65536; i++) {
filter_chain->mutable_filter_chain_match()->add_source_ports(i);
}
// Add another filter chain with no source prefix range mentioned with a bad
// DownstreamTlsContext configuration.
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
auto* transport_socket = filter_chain->mutable_transport_socket();
transport_socket->set_name("envoy.transport_sockets.tls");
DownstreamTlsContext downstream_tls_context;
downstream_tls_context.mutable_common_tls_context()
->mutable_tls_certificate_certificate_provider_instance()
->set_instance_name("unknown");
transport_socket->mutable_typed_config()->PackFrom(downstream_tls_context);
balancers_[0]->ads_service()->SetLdsResource(listener);
// A successful RPC proves that the filter chain with matching source port
// was chosen.
SendRpc([this]() { return CreateInsecureChannel(); }, {}, {});
}
TEST_P(XdsServerFilterChainMatchTest, DuplicateMatchNacked) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
// Add filter chain
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
// Add a duplicate filter chain
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
balancers_[0]->ads_service()->SetLdsResource(listener);
auto initial_time = absl::Now();
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state !=
AdsServiceImpl::ResponseState::NACKED &&
initial_time + absl::Seconds(60) > absl::Now());
EXPECT_THAT(
balancers_[0]->ads_service()->lds_response_state().error_message,
::testing::HasSubstr(
"Duplicate matching rules detected when adding filter chain: {}"));
}
TEST_P(XdsServerFilterChainMatchTest, DuplicateMatchOnPrefixRangesNacked) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
// Add filter chain with prefix range
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
auto* prefix_range =
filter_chain->mutable_filter_chain_match()->add_prefix_ranges();
prefix_range->set_address_prefix(ipv6_only_ ? "::1" : "127.0.0.1");
prefix_range->mutable_prefix_len()->set_value(16);
prefix_range =
filter_chain->mutable_filter_chain_match()->add_prefix_ranges();
prefix_range->set_address_prefix(ipv6_only_ ? "::1" : "127.0.0.1");
prefix_range->mutable_prefix_len()->set_value(24);
// Add a filter chain with a duplicate prefix range entry
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
prefix_range =
filter_chain->mutable_filter_chain_match()->add_prefix_ranges();
prefix_range->set_address_prefix(ipv6_only_ ? "::1" : "127.0.0.1");
prefix_range->mutable_prefix_len()->set_value(16);
prefix_range =
filter_chain->mutable_filter_chain_match()->add_prefix_ranges();
prefix_range->set_address_prefix(ipv6_only_ ? "::1" : "127.0.0.1");
prefix_range->mutable_prefix_len()->set_value(32);
balancers_[0]->ads_service()->SetLdsResource(listener);
auto initial_time = absl::Now();
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state !=
AdsServiceImpl::ResponseState::NACKED &&
initial_time + absl::Seconds(60) > absl::Now());
if (ipv6_only_) {
EXPECT_THAT(
balancers_[0]->ads_service()->lds_response_state().error_message,
::testing::HasSubstr(
"Duplicate matching rules detected when adding filter chain: "
"{prefix_ranges={{address_prefix=[::]:0, prefix_len=16}, "
"{address_prefix=[::]:0, prefix_len=32}}}"));
} else {
EXPECT_THAT(
balancers_[0]->ads_service()->lds_response_state().error_message,
::testing::HasSubstr(
"Duplicate matching rules detected when adding filter chain: "
"{prefix_ranges={{address_prefix=127.0.0.0:0, prefix_len=16}, "
"{address_prefix=127.0.0.1:0, prefix_len=32}}}"));
}
}
TEST_P(XdsServerFilterChainMatchTest, DuplicateMatchOnTransportProtocolNacked) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
// Add filter chain with "raw_buffer" transport protocol
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->set_transport_protocol(
"raw_buffer");
// Add a duplicate filter chain with the same "raw_buffer" transport protocol
// entry
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->set_transport_protocol(
"raw_buffer");
balancers_[0]->ads_service()->SetLdsResource(listener);
auto initial_time = absl::Now();
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state !=
AdsServiceImpl::ResponseState::NACKED &&
initial_time + absl::Seconds(60) > absl::Now());
EXPECT_THAT(
balancers_[0]->ads_service()->lds_response_state().error_message,
::testing::HasSubstr("Duplicate matching rules detected when adding "
"filter chain: {transport_protocol=raw_buffer}"));
}
TEST_P(XdsServerFilterChainMatchTest, DuplicateMatchOnLocalSourceTypeNacked) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
// Add filter chain with the local source type
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->set_source_type(
FilterChainMatch::SAME_IP_OR_LOOPBACK);
// Add a duplicate filter chain with the same local source type entry
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->set_source_type(
FilterChainMatch::SAME_IP_OR_LOOPBACK);
balancers_[0]->ads_service()->SetLdsResource(listener);
auto initial_time = absl::Now();
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state !=
AdsServiceImpl::ResponseState::NACKED &&
initial_time + absl::Seconds(60) > absl::Now());
EXPECT_THAT(
balancers_[0]->ads_service()->lds_response_state().error_message,
::testing::HasSubstr("Duplicate matching rules detected when adding "
"filter chain: {source_type=SAME_IP_OR_LOOPBACK}"));
}
TEST_P(XdsServerFilterChainMatchTest,
DuplicateMatchOnExternalSourceTypeNacked) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
// Add filter chain with the external source type
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->set_source_type(
FilterChainMatch::EXTERNAL);
// Add a duplicate filter chain with the same external source type entry
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->set_source_type(
FilterChainMatch::EXTERNAL);
balancers_[0]->ads_service()->SetLdsResource(listener);
auto initial_time = absl::Now();
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state !=
AdsServiceImpl::ResponseState::NACKED &&
initial_time + absl::Seconds(60) > absl::Now());
EXPECT_THAT(
balancers_[0]->ads_service()->lds_response_state().error_message,
::testing::HasSubstr("Duplicate matching rules detected when adding "
"filter chain: {source_type=EXTERNAL}"));
}
TEST_P(XdsServerFilterChainMatchTest,
DuplicateMatchOnSourcePrefixRangesNacked) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
// Add filter chain with source prefix range
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
auto* prefix_range =
filter_chain->mutable_filter_chain_match()->add_source_prefix_ranges();
prefix_range->set_address_prefix(ipv6_only_ ? "::1" : "127.0.0.1");
prefix_range->mutable_prefix_len()->set_value(16);
prefix_range =
filter_chain->mutable_filter_chain_match()->add_source_prefix_ranges();
prefix_range->set_address_prefix(ipv6_only_ ? "::1" : "127.0.0.1");
prefix_range->mutable_prefix_len()->set_value(24);
// Add a filter chain with a duplicate source prefix range entry
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
prefix_range =
filter_chain->mutable_filter_chain_match()->add_source_prefix_ranges();
prefix_range->set_address_prefix(ipv6_only_ ? "::1" : "127.0.0.1");
prefix_range->mutable_prefix_len()->set_value(16);
prefix_range =
filter_chain->mutable_filter_chain_match()->add_source_prefix_ranges();
prefix_range->set_address_prefix(ipv6_only_ ? "::1" : "127.0.0.1");
prefix_range->mutable_prefix_len()->set_value(32);
balancers_[0]->ads_service()->SetLdsResource(listener);
auto initial_time = absl::Now();
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state !=
AdsServiceImpl::ResponseState::NACKED &&
initial_time + absl::Seconds(60) > absl::Now());
if (ipv6_only_) {
EXPECT_THAT(
balancers_[0]->ads_service()->lds_response_state().error_message,
::testing::HasSubstr(
"Duplicate matching rules detected when adding filter chain: "
"{source_prefix_ranges={{address_prefix=[::]:0, prefix_len=16}, "
"{address_prefix=[::]:0, prefix_len=32}}}"));
} else {
EXPECT_THAT(
balancers_[0]->ads_service()->lds_response_state().error_message,
::testing::HasSubstr(
"Duplicate matching rules detected when adding filter chain: "
"{source_prefix_ranges={{address_prefix=127.0.0.0:0, "
"prefix_len=16}, "
"{address_prefix=127.0.0.1:0, prefix_len=32}}}"));
}
}
TEST_P(XdsServerFilterChainMatchTest, DuplicateMatchOnSourcePortNacked) {
Listener listener;
listener.set_name(
absl::StrCat("grpc/server?xds.resource.listening_address=",
ipv6_only_ ? "[::1]:" : "127.0.0.1:", backends_[0]->port()));
auto* socket_address = listener.mutable_address()->mutable_socket_address();
socket_address->set_address(ipv6_only_ ? "::1" : "127.0.0.1");
socket_address->set_port_value(backends_[0]->port());
// Add filter chain with the external source type
auto* filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->add_source_ports(8080);
// Add a duplicate filter chain with the same source port entry
filter_chain = listener.add_filter_chains();
filter_chain->add_filters()->mutable_typed_config()->PackFrom(
HttpConnectionManager());
filter_chain->mutable_filter_chain_match()->add_source_ports(8080);
balancers_[0]->ads_service()->SetLdsResource(listener);
auto initial_time = absl::Now();
do {
CheckRpcSendFailure();
} while (balancers_[0]->ads_service()->lds_response_state().state !=
AdsServiceImpl::ResponseState::NACKED &&
initial_time + absl::Seconds(60) > absl::Now());
EXPECT_THAT(
balancers_[0]->ads_service()->lds_response_state().error_message,
::testing::HasSubstr("Duplicate matching rules detected when adding "
"filter chain: {source_ports={8080}}"));
}
using EdsTest = BasicTest;
// Tests that EDS client should send a NACK if the EDS update contains
// sparse priorities.
TEST_P(EdsTest, NacksSparsePriorityList) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(), kDefaultLocalityWeight, 1},
});
balancers_[0]->ads_service()->SetEdsResource(BuildEdsResource(args));
CheckRpcSendFailure();
const auto response_state =
balancers_[0]->ads_service()->eds_response_state();
EXPECT_EQ(response_state.state, AdsServiceImpl::ResponseState::NACKED);
EXPECT_THAT(response_state.error_message,
::testing::HasSubstr("sparse priority list"));
}
// In most of our tests, we use different names for different resource
// types, to make sure that there are no cut-and-paste errors in the code
// that cause us to look at data for the wrong resource type. So we add
// this test to make sure that the EDS resource name defaults to the
// cluster name if not specified in the CDS resource.
TEST_P(EdsTest, EdsServiceNameDefaultsToClusterName) {
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, kDefaultClusterName));
Cluster cluster = default_cluster_;
cluster.mutable_eds_cluster_config()->clear_service_name();
balancers_[0]->ads_service()->SetCdsResource(cluster);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendOk();
}
class TimeoutTest : public BasicTest {
protected:
void SetUp() override {
xds_resource_does_not_exist_timeout_ms_ = 500;
BasicTest::SetUp();
}
};
// Tests that LDS client times out when no response received.
TEST_P(TimeoutTest, Lds) {
balancers_[0]->ads_service()->SetResourceIgnore(kLdsTypeUrl);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
}
TEST_P(TimeoutTest, Rds) {
balancers_[0]->ads_service()->SetResourceIgnore(kRdsTypeUrl);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
}
// Tests that CDS client times out when no response received.
TEST_P(TimeoutTest, Cds) {
balancers_[0]->ads_service()->SetResourceIgnore(kCdsTypeUrl);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
}
TEST_P(TimeoutTest, Eds) {
balancers_[0]->ads_service()->SetResourceIgnore(kEdsTypeUrl);
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendFailure();
}
using LocalityMapTest = BasicTest;
// Tests that the localities in a locality map are picked according to their
// weights.
TEST_P(LocalityMapTest, WeightedRoundRobin) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const size_t kNumRpcs = 5000;
const int kLocalityWeight0 = 2;
const int kLocalityWeight1 = 8;
const int kTotalLocalityWeight = kLocalityWeight0 + kLocalityWeight1;
const double kLocalityWeightRate0 =
static_cast<double>(kLocalityWeight0) / kTotalLocalityWeight;
const double kLocalityWeightRate1 =
static_cast<double>(kLocalityWeight1) / kTotalLocalityWeight;
// ADS response contains 2 localities, each of which contains 1 backend.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1), kLocalityWeight0},
{"locality1", GetBackendPorts(1, 2), kLocalityWeight1},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Wait for both backends to be ready.
WaitForAllBackends(0, 2);
// Send kNumRpcs RPCs.
CheckRpcSendOk(kNumRpcs);
// The locality picking rates should be roughly equal to the expectation.
const double locality_picked_rate_0 =
static_cast<double>(backends_[0]->backend_service()->request_count()) /
kNumRpcs;
const double locality_picked_rate_1 =
static_cast<double>(backends_[1]->backend_service()->request_count()) /
kNumRpcs;
const double kErrorTolerance = 0.2;
EXPECT_THAT(locality_picked_rate_0,
::testing::AllOf(
::testing::Ge(kLocalityWeightRate0 * (1 - kErrorTolerance)),
::testing::Le(kLocalityWeightRate0 * (1 + kErrorTolerance))));
EXPECT_THAT(locality_picked_rate_1,
::testing::AllOf(
::testing::Ge(kLocalityWeightRate1 * (1 - kErrorTolerance)),
::testing::Le(kLocalityWeightRate1 * (1 + kErrorTolerance))));
}
// Tests that we correctly handle a locality containing no endpoints.
TEST_P(LocalityMapTest, LocalityContainingNoEndpoints) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const size_t kNumRpcs = 5000;
// EDS response contains 2 localities, one with no endpoints.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
{"locality1", {}},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Wait for both backends to be ready.
WaitForAllBackends();
// Send kNumRpcs RPCs.
CheckRpcSendOk(kNumRpcs);
// All traffic should go to the reachable locality.
EXPECT_EQ(backends_[0]->backend_service()->request_count(),
kNumRpcs / backends_.size());
EXPECT_EQ(backends_[1]->backend_service()->request_count(),
kNumRpcs / backends_.size());
EXPECT_EQ(backends_[2]->backend_service()->request_count(),
kNumRpcs / backends_.size());
EXPECT_EQ(backends_[3]->backend_service()->request_count(),
kNumRpcs / backends_.size());
}
// EDS update with no localities.
TEST_P(LocalityMapTest, NoLocalities) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource({}, DefaultEdsServiceName()));
Status status = SendRpc();
EXPECT_FALSE(status.ok());
EXPECT_EQ(status.error_code(), StatusCode::UNAVAILABLE);
}
// Tests that the locality map can work properly even when it contains a large
// number of localities.
TEST_P(LocalityMapTest, StressTest) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const size_t kNumLocalities = 100;
// The first ADS response contains kNumLocalities localities, each of which
// contains backend 0.
AdsServiceImpl::EdsResourceArgs args;
for (size_t i = 0; i < kNumLocalities; ++i) {
std::string name = absl::StrCat("locality", i);
AdsServiceImpl::EdsResourceArgs::Locality locality(name,
{backends_[0]->port()});
args.locality_list.emplace_back(std::move(locality));
}
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// The second ADS response contains 1 locality, which contains backend 1.
args = AdsServiceImpl::EdsResourceArgs({
{"locality0", GetBackendPorts(1, 2)},
});
std::thread delayed_resource_setter(
std::bind(&BasicTest::SetEdsResourceWithDelay, this, 0,
BuildEdsResource(args, DefaultEdsServiceName()), 60 * 1000));
// Wait until backend 0 is ready, before which kNumLocalities localities are
// received and handled by the xds policy.
WaitForBackend(0, /*reset_counters=*/false);
EXPECT_EQ(0U, backends_[1]->backend_service()->request_count());
// Wait until backend 1 is ready, before which kNumLocalities localities are
// removed by the xds policy.
WaitForBackend(1);
delayed_resource_setter.join();
}
// Tests that the localities in a locality map are picked correctly after update
// (addition, modification, deletion).
TEST_P(LocalityMapTest, UpdateMap) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const size_t kNumRpcs = 3000;
// The locality weight for the first 3 localities.
const std::vector<int> kLocalityWeights0 = {2, 3, 4};
const double kTotalLocalityWeight0 =
std::accumulate(kLocalityWeights0.begin(), kLocalityWeights0.end(), 0);
std::vector<double> locality_weight_rate_0;
locality_weight_rate_0.reserve(kLocalityWeights0.size());
for (int weight : kLocalityWeights0) {
locality_weight_rate_0.push_back(weight / kTotalLocalityWeight0);
}
// Delete the first locality, keep the second locality, change the third
// locality's weight from 4 to 2, and add a new locality with weight 6.
const std::vector<int> kLocalityWeights1 = {3, 2, 6};
const double kTotalLocalityWeight1 =
std::accumulate(kLocalityWeights1.begin(), kLocalityWeights1.end(), 0);
std::vector<double> locality_weight_rate_1 = {
0 /* placeholder for locality 0 */};
for (int weight : kLocalityWeights1) {
locality_weight_rate_1.push_back(weight / kTotalLocalityWeight1);
}
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1), 2},
{"locality1", GetBackendPorts(1, 2), 3},
{"locality2", GetBackendPorts(2, 3), 4},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Wait for the first 3 backends to be ready.
WaitForAllBackends(0, 3);
gpr_log(GPR_INFO, "========= BEFORE FIRST BATCH ==========");
// Send kNumRpcs RPCs.
CheckRpcSendOk(kNumRpcs);
gpr_log(GPR_INFO, "========= DONE WITH FIRST BATCH ==========");
// The picking rates of the first 3 backends should be roughly equal to the
// expectation.
std::vector<double> locality_picked_rates;
for (size_t i = 0; i < 3; ++i) {
locality_picked_rates.push_back(
static_cast<double>(backends_[i]->backend_service()->request_count()) /
kNumRpcs);
}
const double kErrorTolerance = 0.2;
for (size_t i = 0; i < 3; ++i) {
gpr_log(GPR_INFO, "Locality %" PRIuPTR " rate %f", i,
locality_picked_rates[i]);
EXPECT_THAT(
locality_picked_rates[i],
::testing::AllOf(
::testing::Ge(locality_weight_rate_0[i] * (1 - kErrorTolerance)),
::testing::Le(locality_weight_rate_0[i] * (1 + kErrorTolerance))));
}
args = AdsServiceImpl::EdsResourceArgs({
{"locality1", GetBackendPorts(1, 2), 3},
{"locality2", GetBackendPorts(2, 3), 2},
{"locality3", GetBackendPorts(3, 4), 6},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Backend 3 hasn't received any request.
EXPECT_EQ(0U, backends_[3]->backend_service()->request_count());
// Wait until the locality update has been processed, as signaled by backend 3
// receiving a request.
WaitForAllBackends(3, 4);
gpr_log(GPR_INFO, "========= BEFORE SECOND BATCH ==========");
// Send kNumRpcs RPCs.
CheckRpcSendOk(kNumRpcs);
gpr_log(GPR_INFO, "========= DONE WITH SECOND BATCH ==========");
// Backend 0 no longer receives any request.
EXPECT_EQ(0U, backends_[0]->backend_service()->request_count());
// The picking rates of the last 3 backends should be roughly equal to the
// expectation.
locality_picked_rates = {0 /* placeholder for backend 0 */};
for (size_t i = 1; i < 4; ++i) {
locality_picked_rates.push_back(
static_cast<double>(backends_[i]->backend_service()->request_count()) /
kNumRpcs);
}
for (size_t i = 1; i < 4; ++i) {
gpr_log(GPR_INFO, "Locality %" PRIuPTR " rate %f", i,
locality_picked_rates[i]);
EXPECT_THAT(
locality_picked_rates[i],
::testing::AllOf(
::testing::Ge(locality_weight_rate_1[i] * (1 - kErrorTolerance)),
::testing::Le(locality_weight_rate_1[i] * (1 + kErrorTolerance))));
}
}
// Tests that we don't fail RPCs when replacing all of the localities in
// a given priority.
TEST_P(LocalityMapTest, ReplaceAllLocalitiesInPriority) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1)},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
args = AdsServiceImpl::EdsResourceArgs({
{"locality1", GetBackendPorts(1, 2)},
});
std::thread delayed_resource_setter(
std::bind(&BasicTest::SetEdsResourceWithDelay, this, 0,
BuildEdsResource(args, DefaultEdsServiceName()), 5000));
// Wait for the first backend to be ready.
WaitForBackend(0);
// Keep sending RPCs until we switch over to backend 1, which tells us
// that we received the update. No RPCs should fail during this
// transition.
WaitForBackend(1, /*reset_counters=*/true, /*require_success=*/true);
delayed_resource_setter.join();
}
class FailoverTest : public BasicTest {
public:
void SetUp() override {
BasicTest::SetUp();
ResetStub(500);
}
};
// Localities with the highest priority are used when multiple priority exist.
TEST_P(FailoverTest, ChooseHighestPriority) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1), kDefaultLocalityWeight, 1},
{"locality1", GetBackendPorts(1, 2), kDefaultLocalityWeight, 2},
{"locality2", GetBackendPorts(2, 3), kDefaultLocalityWeight, 3},
{"locality3", GetBackendPorts(3, 4), kDefaultLocalityWeight, 0},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
WaitForBackend(3, false);
for (size_t i = 0; i < 3; ++i) {
EXPECT_EQ(0U, backends_[i]->backend_service()->request_count());
}
}
// Does not choose priority with no endpoints.
TEST_P(FailoverTest, DoesNotUsePriorityWithNoEndpoints) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1), kDefaultLocalityWeight, 1},
{"locality1", GetBackendPorts(1, 2), kDefaultLocalityWeight, 2},
{"locality2", GetBackendPorts(2, 3), kDefaultLocalityWeight, 3},
{"locality3", {}, kDefaultLocalityWeight, 0},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
WaitForBackend(0, false);
for (size_t i = 1; i < 3; ++i) {
EXPECT_EQ(0U, backends_[i]->backend_service()->request_count());
}
}
// Does not choose locality with no endpoints.
TEST_P(FailoverTest, DoesNotUseLocalityWithNoEndpoints) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", {}, kDefaultLocalityWeight, 0},
{"locality1", GetBackendPorts(), kDefaultLocalityWeight, 0},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Wait for all backends to be used.
std::tuple<int, int, int> counts = WaitForAllBackends();
// Make sure no RPCs failed in the transition.
EXPECT_EQ(0, std::get<1>(counts));
}
// If the higher priority localities are not reachable, failover to the highest
// priority among the rest.
TEST_P(FailoverTest, Failover) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1), kDefaultLocalityWeight, 1},
{"locality1", GetBackendPorts(1, 2), kDefaultLocalityWeight, 2},
{"locality2", GetBackendPorts(2, 3), kDefaultLocalityWeight, 3},
{"locality3", GetBackendPorts(3, 4), kDefaultLocalityWeight, 0},
});
ShutdownBackend(3);
ShutdownBackend(0);
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
WaitForBackend(1, false);
for (size_t i = 0; i < 4; ++i) {
if (i == 1) continue;
EXPECT_EQ(0U, backends_[i]->backend_service()->request_count());
}
}
// If a locality with higher priority than the current one becomes ready,
// switch to it.
TEST_P(FailoverTest, SwitchBackToHigherPriority) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const size_t kNumRpcs = 100;
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1), kDefaultLocalityWeight, 1},
{"locality1", GetBackendPorts(1, 2), kDefaultLocalityWeight, 2},
{"locality2", GetBackendPorts(2, 3), kDefaultLocalityWeight, 3},
{"locality3", GetBackendPorts(3, 4), kDefaultLocalityWeight, 0},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
WaitForBackend(3);
ShutdownBackend(3);
ShutdownBackend(0);
WaitForBackend(1, false);
for (size_t i = 0; i < 4; ++i) {
if (i == 1) continue;
EXPECT_EQ(0U, backends_[i]->backend_service()->request_count());
}
StartBackend(0);
WaitForBackend(0);
CheckRpcSendOk(kNumRpcs);
EXPECT_EQ(kNumRpcs, backends_[0]->backend_service()->request_count());
}
// The first update only contains unavailable priorities. The second update
// contains available priorities.
TEST_P(FailoverTest, UpdateInitialUnavailable) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1), kDefaultLocalityWeight, 0},
{"locality1", GetBackendPorts(1, 2), kDefaultLocalityWeight, 1},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
args = AdsServiceImpl::EdsResourceArgs({
{"locality0", GetBackendPorts(0, 1), kDefaultLocalityWeight, 0},
{"locality1", GetBackendPorts(1, 2), kDefaultLocalityWeight, 1},
{"locality2", GetBackendPorts(2, 3), kDefaultLocalityWeight, 2},
{"locality3", GetBackendPorts(3, 4), kDefaultLocalityWeight, 3},
});
ShutdownBackend(0);
ShutdownBackend(1);
std::thread delayed_resource_setter(
std::bind(&BasicTest::SetEdsResourceWithDelay, this, 0,
BuildEdsResource(args, DefaultEdsServiceName()), 1000));
gpr_timespec deadline = gpr_time_add(gpr_now(GPR_CLOCK_REALTIME),
gpr_time_from_millis(500, GPR_TIMESPAN));
// Send 0.5 second worth of RPCs.
do {
CheckRpcSendFailure();
} while (gpr_time_cmp(gpr_now(GPR_CLOCK_REALTIME), deadline) < 0);
WaitForBackend(2, false);
for (size_t i = 0; i < 4; ++i) {
if (i == 2) continue;
EXPECT_EQ(0U, backends_[i]->backend_service()->request_count());
}
delayed_resource_setter.join();
}
// Tests that after the localities' priorities are updated, we still choose the
// highest READY priority with the updated localities.
TEST_P(FailoverTest, UpdatePriority) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const size_t kNumRpcs = 100;
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1), kDefaultLocalityWeight, 1},
{"locality1", GetBackendPorts(1, 2), kDefaultLocalityWeight, 2},
{"locality2", GetBackendPorts(2, 3), kDefaultLocalityWeight, 3},
{"locality3", GetBackendPorts(3, 4), kDefaultLocalityWeight, 0},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
args = AdsServiceImpl::EdsResourceArgs({
{"locality0", GetBackendPorts(0, 1), kDefaultLocalityWeight, 2},
{"locality1", GetBackendPorts(1, 2), kDefaultLocalityWeight, 0},
{"locality2", GetBackendPorts(2, 3), kDefaultLocalityWeight, 1},
{"locality3", GetBackendPorts(3, 4), kDefaultLocalityWeight, 3},
});
std::thread delayed_resource_setter(
std::bind(&BasicTest::SetEdsResourceWithDelay, this, 0,
BuildEdsResource(args, DefaultEdsServiceName()), 1000));
WaitForBackend(3, false);
for (size_t i = 0; i < 3; ++i) {
EXPECT_EQ(0U, backends_[i]->backend_service()->request_count());
}
WaitForBackend(1);
CheckRpcSendOk(kNumRpcs);
EXPECT_EQ(kNumRpcs, backends_[1]->backend_service()->request_count());
delayed_resource_setter.join();
}
// Moves all localities in the current priority to a higher priority.
TEST_P(FailoverTest, MoveAllLocalitiesInCurrentPriorityToHigherPriority) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// First update:
// - Priority 0 is locality 0, containing backend 0, which is down.
// - Priority 1 is locality 1, containing backends 1 and 2, which are up.
ShutdownBackend(0);
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, 1), kDefaultLocalityWeight, 0},
{"locality1", GetBackendPorts(1, 3), kDefaultLocalityWeight, 1},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Second update:
// - Priority 0 contains both localities 0 and 1.
// - Priority 1 is not present.
// - We add backend 3 to locality 1, just so we have a way to know
// when the update has been seen by the client.
args = AdsServiceImpl::EdsResourceArgs({
{"locality0", GetBackendPorts(0, 1), kDefaultLocalityWeight, 0},
{"locality1", GetBackendPorts(1, 4), kDefaultLocalityWeight, 0},
});
std::thread delayed_resource_setter(
std::bind(&BasicTest::SetEdsResourceWithDelay, this, 0,
BuildEdsResource(args, DefaultEdsServiceName()), 1000));
// When we get the first update, all backends in priority 0 are down,
// so we will create priority 1. Backends 1 and 2 should have traffic,
// but backend 3 should not.
WaitForAllBackends(1, 3, false);
EXPECT_EQ(0UL, backends_[3]->backend_service()->request_count());
// When backend 3 gets traffic, we know the second update has been seen.
WaitForBackend(3);
// The ADS service of balancer 0 got at least 1 response.
EXPECT_GT(balancers_[0]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT);
delayed_resource_setter.join();
}
using DropTest = BasicTest;
// Tests that RPCs are dropped according to the drop config.
TEST_P(DropTest, Vanilla) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const size_t kNumRpcs = 5000;
const uint32_t kDropPerMillionForLb = 100000;
const uint32_t kDropPerMillionForThrottle = 200000;
const double kDropRateForLb = kDropPerMillionForLb / 1000000.0;
const double kDropRateForThrottle = kDropPerMillionForThrottle / 1000000.0;
const double KDropRateForLbAndThrottle =
kDropRateForLb + (1 - kDropRateForLb) * kDropRateForThrottle;
// The ADS response contains two drop categories.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
args.drop_categories = {{kLbDropType, kDropPerMillionForLb},
{kThrottleDropType, kDropPerMillionForThrottle}};
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
WaitForAllBackends();
// Send kNumRpcs RPCs and count the drops.
size_t num_drops = 0;
for (size_t i = 0; i < kNumRpcs; ++i) {
EchoResponse response;
const Status status = SendRpc(RpcOptions(), &response);
if (!status.ok() &&
status.error_message() == "Call dropped by load balancing policy") {
++num_drops;
} else {
EXPECT_TRUE(status.ok()) << "code=" << status.error_code()
<< " message=" << status.error_message();
EXPECT_EQ(response.message(), kRequestMessage);
}
}
// The drop rate should be roughly equal to the expectation.
const double seen_drop_rate = static_cast<double>(num_drops) / kNumRpcs;
const double kErrorTolerance = 0.2;
EXPECT_THAT(
seen_drop_rate,
::testing::AllOf(
::testing::Ge(KDropRateForLbAndThrottle * (1 - kErrorTolerance)),
::testing::Le(KDropRateForLbAndThrottle * (1 + kErrorTolerance))));
}
// Tests that drop config is converted correctly from per hundred.
TEST_P(DropTest, DropPerHundred) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const size_t kNumRpcs = 5000;
const uint32_t kDropPerHundredForLb = 10;
const double kDropRateForLb = kDropPerHundredForLb / 100.0;
// The ADS response contains one drop category.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
args.drop_categories = {{kLbDropType, kDropPerHundredForLb}};
args.drop_denominator = FractionalPercent::HUNDRED;
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
WaitForAllBackends();
// Send kNumRpcs RPCs and count the drops.
size_t num_drops = 0;
for (size_t i = 0; i < kNumRpcs; ++i) {
EchoResponse response;
const Status status = SendRpc(RpcOptions(), &response);
if (!status.ok() &&
status.error_message() == "Call dropped by load balancing policy") {
++num_drops;
} else {
EXPECT_TRUE(status.ok()) << "code=" << status.error_code()
<< " message=" << status.error_message();
EXPECT_EQ(response.message(), kRequestMessage);
}
}
// The drop rate should be roughly equal to the expectation.
const double seen_drop_rate = static_cast<double>(num_drops) / kNumRpcs;
const double kErrorTolerance = 0.2;
EXPECT_THAT(
seen_drop_rate,
::testing::AllOf(::testing::Ge(kDropRateForLb * (1 - kErrorTolerance)),
::testing::Le(kDropRateForLb * (1 + kErrorTolerance))));
}
// Tests that drop config is converted correctly from per ten thousand.
TEST_P(DropTest, DropPerTenThousand) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const size_t kNumRpcs = 5000;
const uint32_t kDropPerTenThousandForLb = 1000;
const double kDropRateForLb = kDropPerTenThousandForLb / 10000.0;
// The ADS response contains one drop category.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
args.drop_categories = {{kLbDropType, kDropPerTenThousandForLb}};
args.drop_denominator = FractionalPercent::TEN_THOUSAND;
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
WaitForAllBackends();
// Send kNumRpcs RPCs and count the drops.
size_t num_drops = 0;
for (size_t i = 0; i < kNumRpcs; ++i) {
EchoResponse response;
const Status status = SendRpc(RpcOptions(), &response);
if (!status.ok() &&
status.error_message() == "Call dropped by load balancing policy") {
++num_drops;
} else {
EXPECT_TRUE(status.ok()) << "code=" << status.error_code()
<< " message=" << status.error_message();
EXPECT_EQ(response.message(), kRequestMessage);
}
}
// The drop rate should be roughly equal to the expectation.
const double seen_drop_rate = static_cast<double>(num_drops) / kNumRpcs;
const double kErrorTolerance = 0.2;
EXPECT_THAT(
seen_drop_rate,
::testing::AllOf(::testing::Ge(kDropRateForLb * (1 - kErrorTolerance)),
::testing::Le(kDropRateForLb * (1 + kErrorTolerance))));
}
// Tests that drop is working correctly after update.
TEST_P(DropTest, Update) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const size_t kNumRpcs = 3000;
const uint32_t kDropPerMillionForLb = 100000;
const uint32_t kDropPerMillionForThrottle = 200000;
const double kDropRateForLb = kDropPerMillionForLb / 1000000.0;
const double kDropRateForThrottle = kDropPerMillionForThrottle / 1000000.0;
const double KDropRateForLbAndThrottle =
kDropRateForLb + (1 - kDropRateForLb) * kDropRateForThrottle;
// The first ADS response contains one drop category.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
args.drop_categories = {{kLbDropType, kDropPerMillionForLb}};
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
WaitForAllBackends();
// Send kNumRpcs RPCs and count the drops.
size_t num_drops = 0;
gpr_log(GPR_INFO, "========= BEFORE FIRST BATCH ==========");
for (size_t i = 0; i < kNumRpcs; ++i) {
EchoResponse response;
const Status status = SendRpc(RpcOptions(), &response);
if (!status.ok() &&
status.error_message() == "Call dropped by load balancing policy") {
++num_drops;
} else {
EXPECT_TRUE(status.ok()) << "code=" << status.error_code()
<< " message=" << status.error_message();
EXPECT_EQ(response.message(), kRequestMessage);
}
}
gpr_log(GPR_INFO, "========= DONE WITH FIRST BATCH ==========");
// The drop rate should be roughly equal to the expectation.
double seen_drop_rate = static_cast<double>(num_drops) / kNumRpcs;
gpr_log(GPR_INFO, "First batch drop rate %f", seen_drop_rate);
const double kErrorTolerance = 0.3;
EXPECT_THAT(
seen_drop_rate,
::testing::AllOf(::testing::Ge(kDropRateForLb * (1 - kErrorTolerance)),
::testing::Le(kDropRateForLb * (1 + kErrorTolerance))));
// The second ADS response contains two drop categories, send an update EDS
// response.
args.drop_categories = {{kLbDropType, kDropPerMillionForLb},
{kThrottleDropType, kDropPerMillionForThrottle}};
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Wait until the drop rate increases to the middle of the two configs, which
// implies that the update has been in effect.
const double kDropRateThreshold =
(kDropRateForLb + KDropRateForLbAndThrottle) / 2;
size_t num_rpcs = kNumRpcs;
while (seen_drop_rate < kDropRateThreshold) {
EchoResponse response;
const Status status = SendRpc(RpcOptions(), &response);
++num_rpcs;
if (!status.ok() &&
status.error_message() == "Call dropped by load balancing policy") {
++num_drops;
} else {
EXPECT_TRUE(status.ok()) << "code=" << status.error_code()
<< " message=" << status.error_message();
EXPECT_EQ(response.message(), kRequestMessage);
}
seen_drop_rate = static_cast<double>(num_drops) / num_rpcs;
}
// Send kNumRpcs RPCs and count the drops.
num_drops = 0;
gpr_log(GPR_INFO, "========= BEFORE SECOND BATCH ==========");
for (size_t i = 0; i < kNumRpcs; ++i) {
EchoResponse response;
const Status status = SendRpc(RpcOptions(), &response);
if (!status.ok() &&
status.error_message() == "Call dropped by load balancing policy") {
++num_drops;
} else {
EXPECT_TRUE(status.ok()) << "code=" << status.error_code()
<< " message=" << status.error_message();
EXPECT_EQ(response.message(), kRequestMessage);
}
}
gpr_log(GPR_INFO, "========= DONE WITH SECOND BATCH ==========");
// The new drop rate should be roughly equal to the expectation.
seen_drop_rate = static_cast<double>(num_drops) / kNumRpcs;
gpr_log(GPR_INFO, "Second batch drop rate %f", seen_drop_rate);
EXPECT_THAT(
seen_drop_rate,
::testing::AllOf(
::testing::Ge(KDropRateForLbAndThrottle * (1 - kErrorTolerance)),
::testing::Le(KDropRateForLbAndThrottle * (1 + kErrorTolerance))));
}
// Tests that all the RPCs are dropped if any drop category drops 100%.
TEST_P(DropTest, DropAll) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const size_t kNumRpcs = 1000;
const uint32_t kDropPerMillionForLb = 100000;
const uint32_t kDropPerMillionForThrottle = 1000000;
// The ADS response contains two drop categories.
AdsServiceImpl::EdsResourceArgs args;
args.drop_categories = {{kLbDropType, kDropPerMillionForLb},
{kThrottleDropType, kDropPerMillionForThrottle}};
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Send kNumRpcs RPCs and all of them are dropped.
for (size_t i = 0; i < kNumRpcs; ++i) {
EchoResponse response;
const Status status = SendRpc(RpcOptions(), &response);
EXPECT_EQ(status.error_code(), StatusCode::UNAVAILABLE);
EXPECT_EQ(status.error_message(), "Call dropped by load balancing policy");
}
}
class BalancerUpdateTest : public XdsEnd2endTest {
public:
BalancerUpdateTest() : XdsEnd2endTest(4, 3) {}
};
// Tests that the old LB call is still used after the balancer address update as
// long as that call is still alive.
TEST_P(BalancerUpdateTest, UpdateBalancersButKeepUsingOriginalBalancer) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", {backends_[0]->port()}},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
args = AdsServiceImpl::EdsResourceArgs({
{"locality0", {backends_[1]->port()}},
});
balancers_[1]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Wait until the first backend is ready.
WaitForBackend(0);
// Send 10 requests.
gpr_log(GPR_INFO, "========= BEFORE FIRST BATCH ==========");
CheckRpcSendOk(10);
gpr_log(GPR_INFO, "========= DONE WITH FIRST BATCH ==========");
// All 10 requests should have gone to the first backend.
EXPECT_EQ(10U, backends_[0]->backend_service()->request_count());
// The ADS service of balancer 0 sent at least 1 response.
EXPECT_GT(balancers_[0]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT);
EXPECT_EQ(balancers_[1]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT)
<< "Error Message:"
<< balancers_[1]->ads_service()->eds_response_state().error_message;
EXPECT_EQ(balancers_[2]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT)
<< "Error Message:"
<< balancers_[2]->ads_service()->eds_response_state().error_message;
gpr_log(GPR_INFO, "========= ABOUT TO UPDATE 1 ==========");
SetNextResolutionForLbChannel({balancers_[1]->port()});
gpr_log(GPR_INFO, "========= UPDATE 1 DONE ==========");
EXPECT_EQ(0U, backends_[1]->backend_service()->request_count());
gpr_timespec deadline = gpr_time_add(
gpr_now(GPR_CLOCK_REALTIME), gpr_time_from_millis(10000, GPR_TIMESPAN));
// Send 10 seconds worth of RPCs
do {
CheckRpcSendOk();
} while (gpr_time_cmp(gpr_now(GPR_CLOCK_REALTIME), deadline) < 0);
// The current LB call is still working, so xds continued using it to the
// first balancer, which doesn't assign the second backend.
EXPECT_EQ(0U, backends_[1]->backend_service()->request_count());
// The ADS service of balancer 0 sent at least 1 response.
EXPECT_GT(balancers_[0]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT);
EXPECT_EQ(balancers_[1]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT)
<< "Error Message:"
<< balancers_[1]->ads_service()->eds_response_state().error_message;
EXPECT_EQ(balancers_[2]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT)
<< "Error Message:"
<< balancers_[2]->ads_service()->eds_response_state().error_message;
}
// Tests that the old LB call is still used after multiple balancer address
// updates as long as that call is still alive. Send an update with the same set
// of LBs as the one in SetUp() in order to verify that the LB channel inside
// xds keeps the initial connection (which by definition is also present in the
// update).
TEST_P(BalancerUpdateTest, Repeated) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", {backends_[0]->port()}},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
args = AdsServiceImpl::EdsResourceArgs({
{"locality0", {backends_[1]->port()}},
});
balancers_[1]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Wait until the first backend is ready.
WaitForBackend(0);
// Send 10 requests.
gpr_log(GPR_INFO, "========= BEFORE FIRST BATCH ==========");
CheckRpcSendOk(10);
gpr_log(GPR_INFO, "========= DONE WITH FIRST BATCH ==========");
// All 10 requests should have gone to the first backend.
EXPECT_EQ(10U, backends_[0]->backend_service()->request_count());
// The ADS service of balancer 0 sent at least 1 response.
EXPECT_GT(balancers_[0]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT);
EXPECT_EQ(balancers_[1]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT)
<< "Error Message:"
<< balancers_[1]->ads_service()->eds_response_state().error_message;
EXPECT_EQ(balancers_[2]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT)
<< "Error Message:"
<< balancers_[2]->ads_service()->eds_response_state().error_message;
std::vector<int> ports;
ports.emplace_back(balancers_[0]->port());
ports.emplace_back(balancers_[1]->port());
ports.emplace_back(balancers_[2]->port());
gpr_log(GPR_INFO, "========= ABOUT TO UPDATE 1 ==========");
SetNextResolutionForLbChannel(ports);
gpr_log(GPR_INFO, "========= UPDATE 1 DONE ==========");
EXPECT_EQ(0U, backends_[1]->backend_service()->request_count());
gpr_timespec deadline = gpr_time_add(
gpr_now(GPR_CLOCK_REALTIME), gpr_time_from_millis(10000, GPR_TIMESPAN));
// Send 10 seconds worth of RPCs
do {
CheckRpcSendOk();
} while (gpr_time_cmp(gpr_now(GPR_CLOCK_REALTIME), deadline) < 0);
// xds continued using the original LB call to the first balancer, which
// doesn't assign the second backend.
EXPECT_EQ(0U, backends_[1]->backend_service()->request_count());
ports.clear();
ports.emplace_back(balancers_[0]->port());
ports.emplace_back(balancers_[1]->port());
gpr_log(GPR_INFO, "========= ABOUT TO UPDATE 2 ==========");
SetNextResolutionForLbChannel(ports);
gpr_log(GPR_INFO, "========= UPDATE 2 DONE ==========");
EXPECT_EQ(0U, backends_[1]->backend_service()->request_count());
deadline = gpr_time_add(gpr_now(GPR_CLOCK_REALTIME),
gpr_time_from_millis(10000, GPR_TIMESPAN));
// Send 10 seconds worth of RPCs
do {
CheckRpcSendOk();
} while (gpr_time_cmp(gpr_now(GPR_CLOCK_REALTIME), deadline) < 0);
// xds continued using the original LB call to the first balancer, which
// doesn't assign the second backend.
EXPECT_EQ(0U, backends_[1]->backend_service()->request_count());
}
// Tests that if the balancer is down, the RPCs will still be sent to the
// backends according to the last balancer response, until a new balancer is
// reachable.
TEST_P(BalancerUpdateTest, DeadUpdate) {
SetNextResolution({});
SetNextResolutionForLbChannel({balancers_[0]->port()});
AdsServiceImpl::EdsResourceArgs args({
{"locality0", {backends_[0]->port()}},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
args = AdsServiceImpl::EdsResourceArgs({
{"locality0", {backends_[1]->port()}},
});
balancers_[1]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Start servers and send 10 RPCs per server.
gpr_log(GPR_INFO, "========= BEFORE FIRST BATCH ==========");
CheckRpcSendOk(10);
gpr_log(GPR_INFO, "========= DONE WITH FIRST BATCH ==========");
// All 10 requests should have gone to the first backend.
EXPECT_EQ(10U, backends_[0]->backend_service()->request_count());
// The ADS service of balancer 0 sent at least 1 response.
EXPECT_GT(balancers_[0]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT);
EXPECT_EQ(balancers_[1]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT)
<< "Error Message:"
<< balancers_[1]->ads_service()->eds_response_state().error_message;
EXPECT_EQ(balancers_[2]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT)
<< "Error Message:"
<< balancers_[2]->ads_service()->eds_response_state().error_message;
// Kill balancer 0
gpr_log(GPR_INFO, "********** ABOUT TO KILL BALANCER 0 *************");
balancers_[0]->Shutdown();
gpr_log(GPR_INFO, "********** KILLED BALANCER 0 *************");
// This is serviced by the existing child policy.
gpr_log(GPR_INFO, "========= BEFORE SECOND BATCH ==========");
CheckRpcSendOk(10);
gpr_log(GPR_INFO, "========= DONE WITH SECOND BATCH ==========");
// All 10 requests should again have gone to the first backend.
EXPECT_EQ(20U, backends_[0]->backend_service()->request_count());
EXPECT_EQ(0U, backends_[1]->backend_service()->request_count());
// The ADS service of no balancers sent anything
EXPECT_EQ(balancers_[0]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT)
<< "Error Message:"
<< balancers_[0]->ads_service()->eds_response_state().error_message;
EXPECT_EQ(balancers_[1]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT)
<< "Error Message:"
<< balancers_[1]->ads_service()->eds_response_state().error_message;
EXPECT_EQ(balancers_[2]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT)
<< "Error Message:"
<< balancers_[2]->ads_service()->eds_response_state().error_message;
gpr_log(GPR_INFO, "========= ABOUT TO UPDATE 1 ==========");
SetNextResolutionForLbChannel({balancers_[1]->port()});
gpr_log(GPR_INFO, "========= UPDATE 1 DONE ==========");
// Wait until update has been processed, as signaled by the second backend
// receiving a request. In the meantime, the client continues to be serviced
// (by the first backend) without interruption.
EXPECT_EQ(0U, backends_[1]->backend_service()->request_count());
WaitForBackend(1);
// This is serviced by the updated RR policy
backends_[1]->backend_service()->ResetCounters();
gpr_log(GPR_INFO, "========= BEFORE THIRD BATCH ==========");
CheckRpcSendOk(10);
gpr_log(GPR_INFO, "========= DONE WITH THIRD BATCH ==========");
// All 10 requests should have gone to the second backend.
EXPECT_EQ(10U, backends_[1]->backend_service()->request_count());
// The ADS service of balancer 1 sent at least 1 response.
EXPECT_EQ(balancers_[0]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT)
<< "Error Message:"
<< balancers_[0]->ads_service()->eds_response_state().error_message;
EXPECT_GT(balancers_[1]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT);
EXPECT_EQ(balancers_[2]->ads_service()->eds_response_state().state,
AdsServiceImpl::ResponseState::NOT_SENT)
<< "Error Message:"
<< balancers_[2]->ads_service()->eds_response_state().error_message;
}
class ClientLoadReportingTest : public XdsEnd2endTest {
public:
ClientLoadReportingTest() : XdsEnd2endTest(4, 1, 3) {}
};
// Tests that the load report received at the balancer is correct.
TEST_P(ClientLoadReportingTest, Vanilla) {
if (GetParam().use_fake_resolver()) {
balancers_[0]->lrs_service()->set_cluster_names({kServerName});
}
SetNextResolution({});
SetNextResolutionForLbChannel({balancers_[0]->port()});
const size_t kNumRpcsPerAddress = 10;
const size_t kNumFailuresPerAddress = 3;
// TODO(juanlishen): Partition the backends after multiple localities is
// tested.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Wait until all backends are ready.
int num_ok = 0;
int num_failure = 0;
int num_drops = 0;
std::tie(num_ok, num_failure, num_drops) = WaitForAllBackends();
// Send kNumRpcsPerAddress RPCs per server.
CheckRpcSendOk(kNumRpcsPerAddress * num_backends_);
CheckRpcSendFailure(kNumFailuresPerAddress * num_backends_,
RpcOptions().set_server_fail(true));
// Check that each backend got the right number of requests.
for (size_t i = 0; i < backends_.size(); ++i) {
EXPECT_EQ(kNumRpcsPerAddress + kNumFailuresPerAddress,
backends_[i]->backend_service()->request_count());
}
// The load report received at the balancer should be correct.
std::vector<ClientStats> load_report =
balancers_[0]->lrs_service()->WaitForLoadReport();
ASSERT_EQ(load_report.size(), 1UL);
ClientStats& client_stats = load_report.front();
EXPECT_EQ(kNumRpcsPerAddress * num_backends_ + num_ok,
client_stats.total_successful_requests());
EXPECT_EQ(0U, client_stats.total_requests_in_progress());
EXPECT_EQ((kNumRpcsPerAddress + kNumFailuresPerAddress) * num_backends_ +
num_ok + num_failure,
client_stats.total_issued_requests());
EXPECT_EQ(kNumFailuresPerAddress * num_backends_ + num_failure,
client_stats.total_error_requests());
EXPECT_EQ(0U, client_stats.total_dropped_requests());
// The LRS service got a single request, and sent a single response.
EXPECT_EQ(1U, balancers_[0]->lrs_service()->request_count());
EXPECT_EQ(1U, balancers_[0]->lrs_service()->response_count());
}
// Tests send_all_clusters.
TEST_P(ClientLoadReportingTest, SendAllClusters) {
balancers_[0]->lrs_service()->set_send_all_clusters(true);
SetNextResolution({});
SetNextResolutionForLbChannel({balancers_[0]->port()});
const size_t kNumRpcsPerAddress = 10;
const size_t kNumFailuresPerAddress = 3;
// TODO(juanlishen): Partition the backends after multiple localities is
// tested.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Wait until all backends are ready.
int num_ok = 0;
int num_failure = 0;
int num_drops = 0;
std::tie(num_ok, num_failure, num_drops) = WaitForAllBackends();
// Send kNumRpcsPerAddress RPCs per server.
CheckRpcSendOk(kNumRpcsPerAddress * num_backends_);
CheckRpcSendFailure(kNumFailuresPerAddress * num_backends_,
RpcOptions().set_server_fail(true));
// Check that each backend got the right number of requests.
for (size_t i = 0; i < backends_.size(); ++i) {
EXPECT_EQ(kNumRpcsPerAddress + kNumFailuresPerAddress,
backends_[i]->backend_service()->request_count());
}
// The load report received at the balancer should be correct.
std::vector<ClientStats> load_report =
balancers_[0]->lrs_service()->WaitForLoadReport();
ASSERT_EQ(load_report.size(), 1UL);
ClientStats& client_stats = load_report.front();
EXPECT_EQ(kNumRpcsPerAddress * num_backends_ + num_ok,
client_stats.total_successful_requests());
EXPECT_EQ(0U, client_stats.total_requests_in_progress());
EXPECT_EQ((kNumRpcsPerAddress + kNumFailuresPerAddress) * num_backends_ +
num_ok + num_failure,
client_stats.total_issued_requests());
EXPECT_EQ(kNumFailuresPerAddress * num_backends_ + num_failure,
client_stats.total_error_requests());
EXPECT_EQ(0U, client_stats.total_dropped_requests());
// The LRS service got a single request, and sent a single response.
EXPECT_EQ(1U, balancers_[0]->lrs_service()->request_count());
EXPECT_EQ(1U, balancers_[0]->lrs_service()->response_count());
}
// Tests that we don't include stats for clusters that are not requested
// by the LRS server.
TEST_P(ClientLoadReportingTest, HonorsClustersRequestedByLrsServer) {
balancers_[0]->lrs_service()->set_cluster_names({"bogus"});
SetNextResolution({});
SetNextResolutionForLbChannel({balancers_[0]->port()});
const size_t kNumRpcsPerAddress = 100;
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Wait until all backends are ready.
int num_ok = 0;
int num_failure = 0;
int num_drops = 0;
std::tie(num_ok, num_failure, num_drops) = WaitForAllBackends();
// Send kNumRpcsPerAddress RPCs per server.
CheckRpcSendOk(kNumRpcsPerAddress * num_backends_);
// Each backend should have gotten 100 requests.
for (size_t i = 0; i < backends_.size(); ++i) {
EXPECT_EQ(kNumRpcsPerAddress,
backends_[i]->backend_service()->request_count());
}
// The LRS service got a single request, and sent a single response.
EXPECT_EQ(1U, balancers_[0]->lrs_service()->request_count());
EXPECT_EQ(1U, balancers_[0]->lrs_service()->response_count());
// The load report received at the balancer should be correct.
std::vector<ClientStats> load_report =
balancers_[0]->lrs_service()->WaitForLoadReport();
ASSERT_EQ(load_report.size(), 0UL);
}
// Tests that if the balancer restarts, the client load report contains the
// stats before and after the restart correctly.
TEST_P(ClientLoadReportingTest, BalancerRestart) {
if (GetParam().use_fake_resolver()) {
balancers_[0]->lrs_service()->set_cluster_names({kServerName});
}
SetNextResolution({});
SetNextResolutionForLbChannel({balancers_[0]->port()});
const size_t kNumBackendsFirstPass = backends_.size() / 2;
const size_t kNumBackendsSecondPass =
backends_.size() - kNumBackendsFirstPass;
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts(0, kNumBackendsFirstPass)},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Wait until all backends returned by the balancer are ready.
int num_ok = 0;
int num_failure = 0;
int num_drops = 0;
std::tie(num_ok, num_failure, num_drops) =
WaitForAllBackends(/* start_index */ 0,
/* stop_index */ kNumBackendsFirstPass);
std::vector<ClientStats> load_report =
balancers_[0]->lrs_service()->WaitForLoadReport();
ASSERT_EQ(load_report.size(), 1UL);
ClientStats client_stats = std::move(load_report.front());
EXPECT_EQ(static_cast<size_t>(num_ok),
client_stats.total_successful_requests());
EXPECT_EQ(0U, client_stats.total_requests_in_progress());
EXPECT_EQ(0U, client_stats.total_error_requests());
EXPECT_EQ(0U, client_stats.total_dropped_requests());
// Shut down the balancer.
balancers_[0]->Shutdown();
// We should continue using the last EDS response we received from the
// balancer before it was shut down.
// Note: We need to use WaitForAllBackends() here instead of just
// CheckRpcSendOk(kNumBackendsFirstPass), because when the balancer
// shuts down, the XdsClient will generate an error to the
// ServiceConfigWatcher, which will cause the xds resolver to send a
// no-op update to the LB policy. When this update gets down to the
// round_robin child policy for the locality, it will generate a new
// subchannel list, which resets the start index randomly. So we need
// to be a little more permissive here to avoid spurious failures.
ResetBackendCounters();
int num_started = std::get<0>(WaitForAllBackends(
/* start_index */ 0, /* stop_index */ kNumBackendsFirstPass));
// Now restart the balancer, this time pointing to the new backends.
balancers_[0]->Start();
args = AdsServiceImpl::EdsResourceArgs({
{"locality0", GetBackendPorts(kNumBackendsFirstPass)},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Wait for queries to start going to one of the new backends.
// This tells us that we're now using the new serverlist.
std::tie(num_ok, num_failure, num_drops) =
WaitForAllBackends(/* start_index */ kNumBackendsFirstPass);
num_started += num_ok + num_failure + num_drops;
// Send one RPC per backend.
CheckRpcSendOk(kNumBackendsSecondPass);
num_started += kNumBackendsSecondPass;
// Check client stats.
load_report = balancers_[0]->lrs_service()->WaitForLoadReport();
ASSERT_EQ(load_report.size(), 1UL);
client_stats = std::move(load_report.front());
EXPECT_EQ(num_started, client_stats.total_successful_requests());
EXPECT_EQ(0U, client_stats.total_requests_in_progress());
EXPECT_EQ(0U, client_stats.total_error_requests());
EXPECT_EQ(0U, client_stats.total_dropped_requests());
}
class ClientLoadReportingWithDropTest : public XdsEnd2endTest {
public:
ClientLoadReportingWithDropTest() : XdsEnd2endTest(4, 1, 20) {}
};
// Tests that the drop stats are correctly reported by client load reporting.
TEST_P(ClientLoadReportingWithDropTest, Vanilla) {
if (GetParam().use_fake_resolver()) {
balancers_[0]->lrs_service()->set_cluster_names({kServerName});
}
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
const size_t kNumRpcs = 3000;
const uint32_t kDropPerMillionForLb = 100000;
const uint32_t kDropPerMillionForThrottle = 200000;
const double kDropRateForLb = kDropPerMillionForLb / 1000000.0;
const double kDropRateForThrottle = kDropPerMillionForThrottle / 1000000.0;
const double KDropRateForLbAndThrottle =
kDropRateForLb + (1 - kDropRateForLb) * kDropRateForThrottle;
// The ADS response contains two drop categories.
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
args.drop_categories = {{kLbDropType, kDropPerMillionForLb},
{kThrottleDropType, kDropPerMillionForThrottle}};
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
int num_ok = 0;
int num_failure = 0;
int num_drops = 0;
std::tie(num_ok, num_failure, num_drops) = WaitForAllBackends();
const size_t num_warmup = num_ok + num_failure + num_drops;
// Send kNumRpcs RPCs and count the drops.
for (size_t i = 0; i < kNumRpcs; ++i) {
EchoResponse response;
const Status status = SendRpc(RpcOptions(), &response);
if (!status.ok() &&
status.error_message() == "Call dropped by load balancing policy") {
++num_drops;
} else {
EXPECT_TRUE(status.ok()) << "code=" << status.error_code()
<< " message=" << status.error_message();
EXPECT_EQ(response.message(), kRequestMessage);
}
}
// The drop rate should be roughly equal to the expectation.
const double seen_drop_rate = static_cast<double>(num_drops) / kNumRpcs;
const double kErrorTolerance = 0.2;
EXPECT_THAT(
seen_drop_rate,
::testing::AllOf(
::testing::Ge(KDropRateForLbAndThrottle * (1 - kErrorTolerance)),
::testing::Le(KDropRateForLbAndThrottle * (1 + kErrorTolerance))));
// Check client stats.
const size_t total_rpc = num_warmup + kNumRpcs;
ClientStats client_stats;
do {
std::vector<ClientStats> load_reports =
balancers_[0]->lrs_service()->WaitForLoadReport();
for (const auto& load_report : load_reports) {
client_stats += load_report;
}
} while (client_stats.total_issued_requests() +
client_stats.total_dropped_requests() <
total_rpc);
EXPECT_EQ(num_drops, client_stats.total_dropped_requests());
EXPECT_THAT(
client_stats.dropped_requests(kLbDropType),
::testing::AllOf(
::testing::Ge(total_rpc * kDropRateForLb * (1 - kErrorTolerance)),
::testing::Le(total_rpc * kDropRateForLb * (1 + kErrorTolerance))));
EXPECT_THAT(client_stats.dropped_requests(kThrottleDropType),
::testing::AllOf(
::testing::Ge(total_rpc * (1 - kDropRateForLb) *
kDropRateForThrottle * (1 - kErrorTolerance)),
::testing::Le(total_rpc * (1 - kDropRateForLb) *
kDropRateForThrottle * (1 + kErrorTolerance))));
}
class FaultInjectionTest : public XdsEnd2endTest {
public:
FaultInjectionTest() : XdsEnd2endTest(1, 1) {}
// Builds a Listener with Fault Injection filter config. If the http_fault is
// nullptr, then assign an empty filter config. This filter config is required
// to enable the fault injection features.
static Listener BuildListenerWithFaultInjection(
const HTTPFault& http_fault = HTTPFault()) {
HttpConnectionManager http_connection_manager;
Listener listener;
listener.set_name(kServerName);
HttpFilter* fault_filter = http_connection_manager.add_http_filters();
fault_filter->set_name("envoy.fault");
fault_filter->mutable_typed_config()->PackFrom(http_fault);
HttpFilter* router_filter = http_connection_manager.add_http_filters();
router_filter->set_name("router");
router_filter->mutable_typed_config()->PackFrom(
envoy::extensions::filters::http::router::v3::Router());
listener.mutable_api_listener()->mutable_api_listener()->PackFrom(
http_connection_manager);
return listener;
}
RouteConfiguration BuildRouteConfigurationWithFaultInjection(
const HTTPFault& http_fault) {
// Package as Any
google::protobuf::Any filter_config;
filter_config.PackFrom(http_fault);
// Plug into the RouteConfiguration
RouteConfiguration new_route_config = default_route_config_;
auto* config_map = new_route_config.mutable_virtual_hosts(0)
->mutable_routes(0)
->mutable_typed_per_filter_config();
(*config_map)["envoy.fault"] = std::move(filter_config);
return new_route_config;
}
void SetFilterConfig(HTTPFault& http_fault) {
switch (GetParam().filter_config_setup()) {
case TestType::FilterConfigSetup::kRouteOverride: {
Listener listener = BuildListenerWithFaultInjection();
RouteConfiguration route =
BuildRouteConfigurationWithFaultInjection(http_fault);
SetListenerAndRouteConfiguration(0, listener, route);
break;
}
case TestType::FilterConfigSetup::kHTTPConnectionManagerOriginal: {
Listener listener = BuildListenerWithFaultInjection(http_fault);
SetListenerAndRouteConfiguration(0, listener, default_route_config_);
}
};
}
};
// Test to ensure the most basic fault injection config works.
TEST_P(FaultInjectionTest, XdsFaultInjectionAlwaysAbort) {
const uint32_t kAbortPercentagePerHundred = 100;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Construct the fault injection filter config
HTTPFault http_fault;
auto* abort_percentage = http_fault.mutable_abort()->mutable_percentage();
abort_percentage->set_numerator(kAbortPercentagePerHundred);
abort_percentage->set_denominator(FractionalPercent::HUNDRED);
http_fault.mutable_abort()->set_grpc_status(
static_cast<uint32_t>(StatusCode::ABORTED));
// Config fault injection via different setup
SetFilterConfig(http_fault);
// Fire several RPCs, and expect all of them to be aborted.
CheckRpcSendFailure(5, RpcOptions().set_wait_for_ready(true),
StatusCode::ABORTED);
}
// Without the listener config, the fault injection won't be enabled.
TEST_P(FaultInjectionTest, XdsFaultInjectionWithoutListenerFilter) {
const uint32_t kAbortPercentagePerHundred = 100;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Create an EDS resource
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Construct the fault injection filter config
HTTPFault http_fault;
auto* abort_percentage = http_fault.mutable_abort()->mutable_percentage();
abort_percentage->set_numerator(kAbortPercentagePerHundred);
abort_percentage->set_denominator(FractionalPercent::HUNDRED);
http_fault.mutable_abort()->set_grpc_status(
static_cast<uint32_t>(StatusCode::ABORTED));
// Turn on fault injection
RouteConfiguration route =
BuildRouteConfigurationWithFaultInjection(http_fault);
SetListenerAndRouteConfiguration(0, default_listener_, route);
// Fire several RPCs, and expect all of them to be pass.
CheckRpcSendOk(5, RpcOptions().set_wait_for_ready(true));
}
TEST_P(FaultInjectionTest, XdsFaultInjectionPercentageAbort) {
const size_t kNumRpcs = 2000;
const uint32_t kAbortPercentagePerHundred = 50;
const double kAbortRate = kAbortPercentagePerHundred / 100.0;
const double kErrorTolerance = 0.2;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Create an EDS resource
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Construct the fault injection filter config
HTTPFault http_fault;
auto* abort_percentage = http_fault.mutable_abort()->mutable_percentage();
abort_percentage->set_numerator(kAbortPercentagePerHundred);
abort_percentage->set_denominator(FractionalPercent::HUNDRED);
http_fault.mutable_abort()->set_grpc_status(
static_cast<uint32_t>(StatusCode::ABORTED));
// Config fault injection via different setup
SetFilterConfig(http_fault);
// Send kNumRpcs RPCs and count the aborts.
int num_total = 0, num_ok = 0, num_failure = 0, num_aborted = 0;
for (size_t i = 0; i < kNumRpcs; ++i) {
SendRpcAndCount(&num_total, &num_ok, &num_failure, &num_aborted,
RpcOptions(), "Fault injected");
}
EXPECT_EQ(kNumRpcs, num_total);
EXPECT_EQ(0, num_failure);
// The abort rate should be roughly equal to the expectation.
const double seen_abort_rate = static_cast<double>(num_aborted) / kNumRpcs;
EXPECT_THAT(seen_abort_rate,
::testing::AllOf(::testing::Ge(kAbortRate - kErrorTolerance),
::testing::Le(kAbortRate + kErrorTolerance)));
}
TEST_P(FaultInjectionTest, XdsFaultInjectionPercentageAbortViaHeaders) {
const size_t kNumRpcs = 2000;
const uint32_t kAbortPercentageCap = 100;
const uint32_t kAbortPercentage = 50;
const double kAbortRate = kAbortPercentage / 100.0;
const double kErrorTolerance = 0.2;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Create an EDS resource
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Construct the fault injection filter config
HTTPFault http_fault;
http_fault.mutable_abort()->mutable_header_abort();
http_fault.mutable_abort()->mutable_percentage()->set_numerator(
kAbortPercentageCap);
// Config fault injection via different setup
SetFilterConfig(http_fault);
// Send kNumRpcs RPCs and count the aborts.
std::vector<std::pair<std::string, std::string>> metadata = {
{"x-envoy-fault-abort-grpc-request", "10"},
{"x-envoy-fault-abort-percentage", std::to_string(kAbortPercentage)},
};
int num_total = 0, num_ok = 0, num_failure = 0, num_aborted = 0;
RpcOptions options = RpcOptions().set_metadata(metadata);
for (size_t i = 0; i < kNumRpcs; ++i) {
SendRpcAndCount(&num_total, &num_ok, &num_failure, &num_aborted, options,
"Fault injected");
}
EXPECT_EQ(kNumRpcs, num_total);
EXPECT_EQ(0, num_failure);
// The abort rate should be roughly equal to the expectation.
const double seen_abort_rate = static_cast<double>(num_aborted) / kNumRpcs;
EXPECT_THAT(seen_abort_rate,
::testing::AllOf(::testing::Ge(kAbortRate - kErrorTolerance),
::testing::Le(kAbortRate + kErrorTolerance)));
}
// TODO(lidiz) reduce the error tolerance to a lower level without dramatically
// increase the duration of fault injection tests.
TEST_P(FaultInjectionTest, XdsFaultInjectionPercentageDelay) {
const size_t kNumRpcs = 100;
const uint32_t kFixedDelaySeconds = 100;
const uint32_t kRpcTimeoutMilliseconds = 10; // 10 ms
const uint32_t kDelayPercentagePerHundred = 95;
const double kDelayRate = kDelayPercentagePerHundred / 100.0;
const double kErrorTolerance = 0.2;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Create an EDS resource
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Construct the fault injection filter config
HTTPFault http_fault;
auto* delay_percentage = http_fault.mutable_delay()->mutable_percentage();
delay_percentage->set_numerator(kDelayPercentagePerHundred);
delay_percentage->set_denominator(FractionalPercent::HUNDRED);
auto* fixed_delay = http_fault.mutable_delay()->mutable_fixed_delay();
fixed_delay->set_seconds(kFixedDelaySeconds);
// Config fault injection via different setup
SetFilterConfig(http_fault);
// Send kNumRpcs RPCs and count the delays.
int num_total = 0, num_ok = 0, num_delayed = 0, num_dropped = 0;
RpcOptions options = RpcOptions()
.set_timeout_ms(kRpcTimeoutMilliseconds)
.set_skip_cancelled_check(true);
for (size_t i = 0; i < kNumRpcs; ++i) {
SendRpcAndCount(&num_total, &num_ok, &num_delayed, &num_dropped, options);
}
EXPECT_EQ(kNumRpcs, num_total);
EXPECT_EQ(0, num_dropped);
// The delay rate should be roughly equal to the expectation.
const double seen_delay_rate = static_cast<double>(num_delayed) / kNumRpcs;
EXPECT_THAT(seen_delay_rate,
::testing::AllOf(::testing::Ge(kDelayRate - kErrorTolerance),
::testing::Le(kDelayRate + kErrorTolerance)));
}
TEST_P(FaultInjectionTest, XdsFaultInjectionPercentageDelayViaHeaders) {
const size_t kNumRpcs = 100;
const uint32_t kFixedDelayMilliseconds = 100000; // 100 seconds
const uint32_t kRpcTimeoutMilliseconds = 10; // 10 ms
const uint32_t kDelayPercentageCap = 100;
const uint32_t kDelayPercentage = 50;
const double kDelayRate = kDelayPercentage / 100.0;
const double kErrorTolerance = 0.2;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Create an EDS resource
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Construct the fault injection filter config
HTTPFault http_fault;
http_fault.mutable_delay()->mutable_header_delay();
http_fault.mutable_delay()->mutable_percentage()->set_numerator(
kDelayPercentageCap);
// Config fault injection via different setup
SetFilterConfig(http_fault);
// Send kNumRpcs RPCs and count the delays.
std::vector<std::pair<std::string, std::string>> metadata = {
{"x-envoy-fault-delay-request", std::to_string(kFixedDelayMilliseconds)},
{"x-envoy-fault-delay-request-percentage",
std::to_string(kDelayPercentage)},
};
int num_total = 0, num_ok = 0, num_delayed = 0, num_dropped = 0;
RpcOptions options = RpcOptions()
.set_metadata(metadata)
.set_timeout_ms(kRpcTimeoutMilliseconds)
.set_skip_cancelled_check(true);
for (size_t i = 0; i < kNumRpcs; ++i) {
SendRpcAndCount(&num_total, &num_ok, &num_delayed, &num_dropped, options);
}
// The delay rate should be roughly equal to the expectation.
const double seen_delay_rate = static_cast<double>(num_delayed) / kNumRpcs;
EXPECT_THAT(seen_delay_rate,
::testing::AllOf(::testing::Ge(kDelayRate - kErrorTolerance),
::testing::Le(kDelayRate + kErrorTolerance)));
}
TEST_P(FaultInjectionTest, XdsFaultInjectionAlwaysDelayPercentageAbort) {
const size_t kNumRpcs = 500;
const uint32_t kAbortPercentagePerHundred = 50;
const double kAbortRate = kAbortPercentagePerHundred / 100.0;
const uint32_t kFixedDelayNanos = 10 * 1000 * 1000; // 10 ms
const double kErrorTolerance = 0.2;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Create an EDS resource
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Construct the fault injection filter config
HTTPFault http_fault;
auto* abort_percentage = http_fault.mutable_abort()->mutable_percentage();
abort_percentage->set_numerator(kAbortPercentagePerHundred);
abort_percentage->set_denominator(FractionalPercent::HUNDRED);
http_fault.mutable_abort()->set_grpc_status(
static_cast<uint32_t>(StatusCode::ABORTED));
auto* delay_percentage = http_fault.mutable_delay()->mutable_percentage();
delay_percentage->set_numerator(1000000); // Always inject DELAY!
delay_percentage->set_denominator(FractionalPercent::MILLION);
auto* fixed_delay = http_fault.mutable_delay()->mutable_fixed_delay();
fixed_delay->set_nanos(kFixedDelayNanos);
// Config fault injection via different setup
SetFilterConfig(http_fault);
// Send kNumRpcs RPCs and count the aborts.
int num_total = 0, num_ok = 0, num_failure = 0, num_aborted = 0;
for (size_t i = 0; i < kNumRpcs; ++i) {
grpc_millis t0 = NowFromCycleCounter();
SendRpcAndCount(&num_total, &num_ok, &num_failure, &num_aborted,
RpcOptions(), "Fault injected");
grpc_millis t1 = NowFromCycleCounter();
EXPECT_GE(t1, t0 + kFixedDelayNanos / 1000 / 1000);
}
EXPECT_EQ(kNumRpcs, num_total);
EXPECT_EQ(0, num_failure);
// The abort rate should be roughly equal to the expectation.
const double seen_abort_rate = static_cast<double>(num_aborted) / kNumRpcs;
EXPECT_THAT(seen_abort_rate,
::testing::AllOf(::testing::Ge(kAbortRate - kErrorTolerance),
::testing::Le(kAbortRate + kErrorTolerance)));
}
// This test and the above test apply different denominators to delay and abort.
// This ensures that we are using the right denominator for each injected fault
// in our code.
TEST_P(FaultInjectionTest,
XdsFaultInjectionAlwaysDelayPercentageAbortSwitchDenominator) {
const size_t kNumRpcs = 100;
const uint32_t kAbortPercentagePerMillion = 500000;
const double kAbortRate = kAbortPercentagePerMillion / 1000000.0;
const uint32_t kFixedDelayNanos = 10 * 1000 * 1000; // 10 ms
const double kErrorTolerance = 0.2;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Create an EDS resource
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Construct the fault injection filter config
HTTPFault http_fault;
auto* abort_percentage = http_fault.mutable_abort()->mutable_percentage();
abort_percentage->set_numerator(kAbortPercentagePerMillion);
abort_percentage->set_denominator(FractionalPercent::MILLION);
http_fault.mutable_abort()->set_grpc_status(
static_cast<uint32_t>(StatusCode::ABORTED));
auto* delay_percentage = http_fault.mutable_delay()->mutable_percentage();
delay_percentage->set_numerator(100); // Always inject DELAY!
delay_percentage->set_denominator(FractionalPercent::HUNDRED);
auto* fixed_delay = http_fault.mutable_delay()->mutable_fixed_delay();
fixed_delay->set_nanos(kFixedDelayNanos);
// Config fault injection via different setup
SetFilterConfig(http_fault);
// Send kNumRpcs RPCs and count the aborts.
int num_total = 0, num_ok = 0, num_failure = 0, num_aborted = 0;
for (size_t i = 0; i < kNumRpcs; ++i) {
grpc_millis t0 = NowFromCycleCounter();
SendRpcAndCount(&num_total, &num_ok, &num_failure, &num_aborted,
RpcOptions(), "Fault injected");
grpc_millis t1 = NowFromCycleCounter();
EXPECT_GE(t1, t0 + kFixedDelayNanos / 1000 / 1000);
}
EXPECT_EQ(kNumRpcs, num_total);
EXPECT_EQ(0, num_failure);
// The abort rate should be roughly equal to the expectation.
const double seen_abort_rate = static_cast<double>(num_aborted) / kNumRpcs;
EXPECT_THAT(seen_abort_rate,
::testing::AllOf(::testing::Ge(kAbortRate - kErrorTolerance),
::testing::Le(kAbortRate + kErrorTolerance)));
}
TEST_P(FaultInjectionTest, XdsFaultInjectionMaxFault) {
const uint32_t kMaxFault = 10;
const uint32_t kNumRpcs = 30; // kNumRpcs should be bigger than kMaxFault
const uint32_t kRpcTimeoutMs = 2000; // 2 seconds
const uint32_t kLongDelaySeconds = 100; // 100 seconds
const uint32_t kAlwaysDelayPercentage = 100;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Create an EDS resource
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Construct the fault injection filter config
HTTPFault http_fault;
auto* delay_percentage = http_fault.mutable_delay()->mutable_percentage();
delay_percentage->set_numerator(
kAlwaysDelayPercentage); // Always inject DELAY!
delay_percentage->set_denominator(FractionalPercent::HUNDRED);
auto* fixed_delay = http_fault.mutable_delay()->mutable_fixed_delay();
fixed_delay->set_seconds(kLongDelaySeconds);
http_fault.mutable_max_active_faults()->set_value(kMaxFault);
// Config fault injection via different setup
SetFilterConfig(http_fault);
// Sends a batch of long running RPCs with long timeout to consume all
// active faults quota.
int num_ok = 0, num_delayed = 0;
LongRunningRpc rpcs[kNumRpcs];
RpcOptions rpc_options = RpcOptions().set_timeout_ms(kRpcTimeoutMs);
for (size_t i = 0; i < kNumRpcs; ++i) {
rpcs[i].StartRpc(stub_.get(), rpc_options);
}
for (size_t i = 0; i < kNumRpcs; ++i) {
Status status = rpcs[i].GetStatus();
if (status.ok()) {
++num_ok;
} else {
EXPECT_EQ(StatusCode::DEADLINE_EXCEEDED, status.error_code());
++num_delayed;
}
}
// Only kMaxFault number of RPC should be fault injected..
EXPECT_EQ(kMaxFault, num_delayed);
// Other RPCs should be ok.
EXPECT_EQ(kNumRpcs - kMaxFault, num_ok);
}
class BootstrapSourceTest : public XdsEnd2endTest {
public:
BootstrapSourceTest() : XdsEnd2endTest(4, 1) {}
};
TEST_P(BootstrapSourceTest, Vanilla) {
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", GetBackendPorts()},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
WaitForAllBackends();
}
#ifndef DISABLED_XDS_PROTO_IN_CC
class ClientStatusDiscoveryServiceTest : public XdsEnd2endTest {
public:
ClientStatusDiscoveryServiceTest() : XdsEnd2endTest(1, 1) {}
void SetUp() override {
XdsEnd2endTest::SetUp();
admin_server_thread_ = absl::make_unique<AdminServerThread>(this);
admin_server_thread_->Start();
std::string admin_server_address = absl::StrCat(
ipv6_only_ ? "[::1]:" : "127.0.0.1:", admin_server_thread_->port());
admin_channel_ = grpc::CreateChannel(
admin_server_address,
std::make_shared<SecureChannelCredentials>(
grpc_fake_transport_security_credentials_create()));
csds_stub_ =
envoy::service::status::v3::ClientStatusDiscoveryService::NewStub(
admin_channel_);
if (GetParam().use_csds_streaming()) {
stream_ = csds_stub_->StreamClientStatus(&stream_context_);
}
}
void TearDown() override {
if (stream_ != nullptr) {
EXPECT_TRUE(stream_->WritesDone());
Status status = stream_->Finish();
EXPECT_TRUE(status.ok()) << "code=" << status.error_code()
<< " message=" << status.error_message();
}
admin_server_thread_->Shutdown();
XdsEnd2endTest::TearDown();
}
envoy::service::status::v3::ClientStatusResponse FetchCsdsResponse() {
envoy::service::status::v3::ClientStatusResponse response;
if (!GetParam().use_csds_streaming()) {
// Fetch through unary pulls
ClientContext context;
Status status = csds_stub_->FetchClientStatus(
&context, envoy::service::status::v3::ClientStatusRequest(),
&response);
EXPECT_TRUE(status.ok()) << "code=" << status.error_code()
<< " message=" << status.error_message();
} else {
// Fetch through streaming pulls
EXPECT_TRUE(
stream_->Write(envoy::service::status::v3::ClientStatusRequest()));
EXPECT_TRUE(stream_->Read(&response));
}
return response;
}
private:
std::unique_ptr<AdminServerThread> admin_server_thread_;
std::shared_ptr<Channel> admin_channel_;
std::unique_ptr<
envoy::service::status::v3::ClientStatusDiscoveryService::Stub>
csds_stub_;
ClientContext stream_context_;
std::unique_ptr<
ClientReaderWriter<envoy::service::status::v3::ClientStatusRequest,
envoy::service::status::v3::ClientStatusResponse>>
stream_;
};
MATCHER_P4(EqNode, id, user_agent_name, user_agent_version, client_features,
"equals Node") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(id, arg.id(), result_listener);
ok &= ::testing::ExplainMatchResult(user_agent_name, arg.user_agent_name(),
result_listener);
ok &= ::testing::ExplainMatchResult(
user_agent_version, arg.user_agent_version(), result_listener);
ok &= ::testing::ExplainMatchResult(client_features, arg.client_features(),
result_listener);
return ok;
}
MATCHER_P2(EqListenersConfigDump, version_info, dynamic_listeners,
"equals ListenerConfigDump") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(::testing::ElementsAre(),
arg.static_listeners(), result_listener);
ok &= ::testing::ExplainMatchResult(version_info, arg.version_info(),
result_listener);
ok &= ::testing::ExplainMatchResult(dynamic_listeners,
arg.dynamic_listeners(), result_listener);
return ok;
}
MATCHER_P2(EqDynamicListenerState, version_info, listener,
"equals DynamicListenerState") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(version_info, arg.version_info(),
result_listener);
ok &=
::testing::ExplainMatchResult(listener, arg.listener(), result_listener);
return ok;
}
MATCHER_P2(EqListener, name, api_listener, "equals Listener") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(name, arg.name(), result_listener);
ok &= ::testing::ExplainMatchResult(
api_listener, arg.api_listener().api_listener(), result_listener);
return ok;
}
MATCHER_P(EqHttpConnectionManagerNotRds, route_config,
"equals HttpConnectionManager") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(route_config, arg.route_config(),
result_listener);
return ok;
}
MATCHER_P(EqRouteConfigurationName, name, "equals RouteConfiguration") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(name, arg.name(), result_listener);
return ok;
}
MATCHER_P2(EqRouteConfiguration, name, cluster_name,
"equals RouteConfiguration") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(name, arg.name(), result_listener);
ok &= ::testing::ExplainMatchResult(
::testing::ElementsAre(::testing::Property(
&envoy::config::route::v3::VirtualHost::routes,
::testing::ElementsAre(::testing::Property(
&envoy::config::route::v3::Route::route,
::testing::Property(
&envoy::config::route::v3::RouteAction::cluster,
cluster_name))))),
arg.virtual_hosts(), result_listener);
return ok;
}
MATCHER_P(EqRoutesConfigDump, dynamic_route_configs,
"equals RoutesConfigDump") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(
::testing::ElementsAre(), arg.static_route_configs(), result_listener);
ok &= ::testing::ExplainMatchResult(
dynamic_route_configs, arg.dynamic_route_configs(), result_listener);
return ok;
}
MATCHER_P2(EqClustersConfigDump, version_info, dynamic_active_clusters,
"equals ClustersConfigDump") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(::testing::ElementsAre(),
arg.static_clusters(), result_listener);
ok &= ::testing::ExplainMatchResult(::testing::ElementsAre(),
arg.dynamic_warming_clusters(),
result_listener);
ok &= ::testing::ExplainMatchResult(version_info, arg.version_info(),
result_listener);
ok &= ::testing::ExplainMatchResult(
dynamic_active_clusters, arg.dynamic_active_clusters(), result_listener);
return ok;
}
MATCHER_P(EqCluster, name, "equals Cluster") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(name, arg.name(), result_listener);
return ok;
}
MATCHER_P(EqEndpointsConfigDump, dynamic_endpoint_configs,
"equals EndpointsConfigDump") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(dynamic_endpoint_configs,
arg.dynamic_endpoint_configs(),
result_listener);
return ok;
}
MATCHER_P(EqEndpoint, port, "equals Endpoint") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(
port, arg.address().socket_address().port_value(), result_listener);
return ok;
}
MATCHER_P2(EqLocalityLbEndpoints, port, weight, "equals LocalityLbEndpoints") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(
::testing::ElementsAre(::testing::Property(
&envoy::config::endpoint::v3::LbEndpoint::endpoint,
EqEndpoint(port))),
arg.lb_endpoints(), result_listener);
ok &= ::testing::ExplainMatchResult(
weight, arg.load_balancing_weight().value(), result_listener);
return ok;
}
MATCHER_P(EqClusterLoadAssignmentName, cluster_name,
"equals ClusterLoadAssignment") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(cluster_name, arg.cluster_name(),
result_listener);
return ok;
}
MATCHER_P3(EqClusterLoadAssignment, cluster_name, port, weight,
"equals ClusterLoadAssignment") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(cluster_name, arg.cluster_name(),
result_listener);
ok &= ::testing::ExplainMatchResult(
::testing::ElementsAre(EqLocalityLbEndpoints(port, weight)),
arg.endpoints(), result_listener);
return ok;
}
MATCHER_P2(EqUpdateFailureState, details, version_info,
"equals UpdateFailureState") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(details, arg.details(), result_listener);
ok &= ::testing::ExplainMatchResult(version_info, arg.version_info(),
result_listener);
return ok;
}
MATCHER_P(UnpackListener, matcher, "is a Listener") {
Listener config;
if (!::testing::ExplainMatchResult(true, arg.UnpackTo(&config),
result_listener)) {
return false;
}
return ::testing::ExplainMatchResult(matcher, config, result_listener);
}
MATCHER_P(UnpackRouteConfiguration, matcher, "is a RouteConfiguration") {
RouteConfiguration config;
if (!::testing::ExplainMatchResult(true, arg.UnpackTo(&config),
result_listener)) {
return false;
}
return ::testing::ExplainMatchResult(matcher, config, result_listener);
}
MATCHER_P(UnpackHttpConnectionManager, matcher, "is a HttpConnectionManager") {
HttpConnectionManager config;
if (!::testing::ExplainMatchResult(true, arg.UnpackTo(&config),
result_listener)) {
return false;
}
return ::testing::ExplainMatchResult(matcher, config, result_listener);
}
MATCHER_P(UnpackCluster, matcher, "is a Cluster") {
Cluster config;
if (!::testing::ExplainMatchResult(true, arg.UnpackTo(&config),
result_listener)) {
return false;
}
return ::testing::ExplainMatchResult(matcher, config, result_listener);
}
MATCHER_P(UnpackClusterLoadAssignment, matcher, "is a ClusterLoadAssignment") {
ClusterLoadAssignment config;
if (!::testing::ExplainMatchResult(true, arg.UnpackTo(&config),
result_listener)) {
return false;
}
return ::testing::ExplainMatchResult(matcher, config, result_listener);
}
MATCHER_P5(EqDynamicListener, name, version_info, client_status,
api_listener_matcher, error_state, "equals DynamicListener") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(false, arg.has_warming_state(),
result_listener);
ok &= ::testing::ExplainMatchResult(false, arg.has_draining_state(),
result_listener);
ok &= ::testing::ExplainMatchResult(name, arg.name(), result_listener);
ok &= ::testing::ExplainMatchResult(client_status, arg.client_status(),
result_listener);
if (client_status == ClientResourceStatus::ACKED ||
client_status == ClientResourceStatus::NACKED) {
ok &= ::testing::ExplainMatchResult(
EqDynamicListenerState(version_info, UnpackListener(EqListener(
name, api_listener_matcher))),
arg.active_state(), result_listener);
}
ok &= ::testing::ExplainMatchResult(error_state, arg.error_state(),
result_listener);
return ok;
}
MATCHER_P5(EqDynamicRouteConfig, name, version_info, client_status,
cluster_name, error_state, "equals DynamicRouteConfig") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(version_info, arg.version_info(),
result_listener);
if (client_status == ClientResourceStatus::REQUESTED ||
client_status == ClientResourceStatus::DOES_NOT_EXIST) {
ok &= ::testing::ExplainMatchResult(
UnpackRouteConfiguration(EqRouteConfigurationName(name)),
arg.route_config(), result_listener);
} else {
ok &= ::testing::ExplainMatchResult(
UnpackRouteConfiguration(EqRouteConfiguration(name, cluster_name)),
arg.route_config(), result_listener);
}
ok &= ::testing::ExplainMatchResult(error_state, arg.error_state(),
result_listener);
ok &= ::testing::ExplainMatchResult(client_status, arg.client_status(),
result_listener);
return ok;
}
MATCHER_P4(EqDynamicCluster, name, version_info, client_status, error_state,
"equals DynamicCluster") {
bool ok = true;
ok &= ::testing::ExplainMatchResult(UnpackCluster(EqCluster(name)),
arg.cluster(), result_listener);
ok &= ::testing::ExplainMatchResult(version_info, arg.version_info(),
result_listener);
ok &= ::testing::ExplainMatchResult(client_status, arg.client_status(),
result_listener);
ok &= ::testing::ExplainMatchResult(error_state, arg.error_state(),
result_listener);
return ok;
}
MATCHER_P6(EqDynamicEndpointConfig, name, version_info, client_status, port,
weight, error_state, "equals DynamicEndpointConfig") {
bool ok = true;
if (client_status == ClientResourceStatus::REQUESTED ||
client_status == ClientResourceStatus::DOES_NOT_EXIST) {
ok &= ::testing::ExplainMatchResult(
UnpackClusterLoadAssignment(EqClusterLoadAssignmentName(name)),
arg.endpoint_config(), result_listener);
} else {
ok &= ::testing::ExplainMatchResult(
UnpackClusterLoadAssignment(
EqClusterLoadAssignment(name, port, weight)),
arg.endpoint_config(), result_listener);
}
ok &= ::testing::ExplainMatchResult(version_info, arg.version_info(),
result_listener);
ok &= ::testing::ExplainMatchResult(client_status, arg.client_status(),
result_listener);
ok &= ::testing::ExplainMatchResult(error_state, arg.error_state(),
result_listener);
return ok;
}
MATCHER(IsRdsEnabledHCM, "is a RDS enabled HttpConnectionManager") {
return ::testing::ExplainMatchResult(
UnpackHttpConnectionManager(
::testing::Property(&HttpConnectionManager::has_rds, true)),
arg, result_listener);
}
MATCHER_P2(EqNoRdsHCM, route_configuration_name, cluster_name,
"equals RDS disabled HttpConnectionManager") {
return ::testing::ExplainMatchResult(
UnpackHttpConnectionManager(EqHttpConnectionManagerNotRds(
EqRouteConfiguration(route_configuration_name, cluster_name))),
arg, result_listener);
}
TEST_P(ClientStatusDiscoveryServiceTest, XdsConfigDumpVanilla) {
const size_t kNumRpcs = 5;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", {backends_[0]->port()}},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Send several RPCs to ensure the xDS setup works
CheckRpcSendOk(kNumRpcs);
// Fetches the client config
auto csds_response = FetchCsdsResponse();
gpr_log(GPR_INFO, "xDS config dump: %s", csds_response.DebugString().c_str());
EXPECT_EQ(1, csds_response.config_size());
const auto& client_config = csds_response.config(0);
// Validate the Node information
EXPECT_THAT(client_config.node(),
EqNode("xds_end2end_test", ::testing::HasSubstr("C-core"),
::testing::HasSubstr(grpc_version_string()),
::testing::ElementsAre(
"envoy.lb.does_not_support_overprovisioning")));
// Prepare matches for RDS on or off
::testing::Matcher<google::protobuf::Any> api_listener_matcher;
::testing::Matcher<envoy::admin::v3::RoutesConfigDump>
route_config_dump_matcher;
if (GetParam().enable_rds_testing()) {
api_listener_matcher = IsRdsEnabledHCM();
route_config_dump_matcher =
EqRoutesConfigDump(::testing::ElementsAre(EqDynamicRouteConfig(
kDefaultRouteConfigurationName, "1", ClientResourceStatus::ACKED,
kDefaultClusterName, ::testing::_)));
} else {
api_listener_matcher =
EqNoRdsHCM(kDefaultRouteConfigurationName, kDefaultClusterName);
route_config_dump_matcher = EqRoutesConfigDump(::testing::ElementsAre());
}
// Validate the dumped xDS configs
EXPECT_THAT(
client_config.xds_config(),
::testing::UnorderedElementsAre(
::testing::Property(
&envoy::service::status::v3::PerXdsConfig::listener_config,
EqListenersConfigDump(
"1", ::testing::ElementsAre(EqDynamicListener(
kServerName, "1", ClientResourceStatus::ACKED,
api_listener_matcher, ::testing::_)))),
::testing::Property(
&envoy::service::status::v3::PerXdsConfig::route_config,
route_config_dump_matcher),
::testing::Property(
&envoy::service::status::v3::PerXdsConfig::cluster_config,
EqClustersConfigDump(
"1", ::testing::ElementsAre(EqDynamicCluster(
kDefaultClusterName, "1",
ClientResourceStatus::ACKED, ::testing::_)))),
::testing::Property(
&envoy::service::status::v3::PerXdsConfig::endpoint_config,
EqEndpointsConfigDump(
::testing::ElementsAre(EqDynamicEndpointConfig(
kDefaultEdsServiceName, "1", ClientResourceStatus::ACKED,
backends_[0]->port(), kDefaultLocalityWeight,
::testing::_))))));
}
TEST_P(ClientStatusDiscoveryServiceTest, XdsConfigDumpEmpty) {
// The CSDS service should not fail if XdsClient is not initialized or there
// is no working xDS configs.
FetchCsdsResponse();
}
TEST_P(ClientStatusDiscoveryServiceTest, XdsConfigDumpListenerError) {
int kFetchConfigRetries = 3;
int kFetchIntervalMilliseconds = 200;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", {backends_[0]->port()}},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Ensure the xDS resolver has working configs.
CheckRpcSendOk();
// Bad Listener should be rejected.
Listener listener;
listener.set_name(kServerName);
balancers_[0]->ads_service()->SetLdsResource(listener);
// The old xDS configs should still be effective.
CheckRpcSendOk();
::testing::Matcher<google::protobuf::Any> api_listener_matcher;
if (GetParam().enable_rds_testing()) {
api_listener_matcher = IsRdsEnabledHCM();
} else {
api_listener_matcher =
EqNoRdsHCM(kDefaultRouteConfigurationName, kDefaultClusterName);
}
for (int o = 0; o < kFetchConfigRetries; o++) {
auto csds_response = FetchCsdsResponse();
// Check if error state is propagated
bool ok = ::testing::Value(
csds_response.config(0).xds_config(),
::testing::Contains(::testing::Property(
&envoy::service::status::v3::PerXdsConfig::listener_config,
EqListenersConfigDump(
"1",
::testing::ElementsAre(EqDynamicListener(
kServerName, "1", ClientResourceStatus::NACKED,
api_listener_matcher,
EqUpdateFailureState(
::testing::HasSubstr(
"Listener has neither address nor ApiListener"),
"2")))))));
if (ok) return; // TEST PASSED!
gpr_sleep_until(
grpc_timeout_milliseconds_to_deadline(kFetchIntervalMilliseconds));
}
FAIL() << "error_state not seen in CSDS responses";
}
TEST_P(ClientStatusDiscoveryServiceTest, XdsConfigDumpRouteError) {
int kFetchConfigRetries = 3;
int kFetchIntervalMilliseconds = 200;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", {backends_[0]->port()}},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Ensure the xDS resolver has working configs.
CheckRpcSendOk();
// Bad route config will be rejected.
RouteConfiguration route_config;
route_config.set_name(kDefaultRouteConfigurationName);
route_config.add_virtual_hosts();
SetRouteConfiguration(0, route_config);
// The old xDS configs should still be effective.
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendOk();
for (int o = 0; o < kFetchConfigRetries; o++) {
auto csds_response = FetchCsdsResponse();
bool ok = false;
if (GetParam().enable_rds_testing()) {
ok = ::testing::Value(
csds_response.config(0).xds_config(),
::testing::Contains(::testing::Property(
&envoy::service::status::v3::PerXdsConfig::route_config,
EqRoutesConfigDump(::testing::ElementsAre(EqDynamicRouteConfig(
kDefaultRouteConfigurationName, "1",
ClientResourceStatus::NACKED, kDefaultClusterName,
EqUpdateFailureState(
::testing::HasSubstr("VirtualHost has no domains"),
"2")))))));
} else {
ok = ::testing::Value(
csds_response.config(0).xds_config(),
::testing::Contains(::testing::Property(
&envoy::service::status::v3::PerXdsConfig::listener_config,
EqListenersConfigDump(
"1",
::testing::ElementsAre(EqDynamicListener(
kServerName, "1", ClientResourceStatus::NACKED,
EqNoRdsHCM(kDefaultRouteConfigurationName,
kDefaultClusterName),
EqUpdateFailureState(
::testing::HasSubstr("VirtualHost has no domains"),
"2")))))));
}
if (ok) return; // TEST PASSED!
gpr_sleep_until(
grpc_timeout_milliseconds_to_deadline(kFetchIntervalMilliseconds));
}
FAIL() << "error_state not seen in CSDS responses";
}
TEST_P(ClientStatusDiscoveryServiceTest, XdsConfigDumpClusterError) {
int kFetchConfigRetries = 3;
int kFetchIntervalMilliseconds = 200;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", {backends_[0]->port()}},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Ensure the xDS resolver has working configs.
CheckRpcSendOk();
// Listener without any route, will be rejected.
Cluster cluster;
cluster.set_name(kDefaultClusterName);
balancers_[0]->ads_service()->SetCdsResource(cluster);
// The old xDS configs should still be effective.
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendOk();
for (int o = 0; o < kFetchConfigRetries; o++) {
auto csds_response = FetchCsdsResponse();
// Check if error state is propagated
bool ok = ::testing::Value(
csds_response.config(0).xds_config(),
::testing::Contains(::testing::Property(
&envoy::service::status::v3::PerXdsConfig::cluster_config,
EqClustersConfigDump(
"1", ::testing::ElementsAre(EqDynamicCluster(
kDefaultClusterName, "1", ClientResourceStatus::NACKED,
EqUpdateFailureState(
::testing::HasSubstr("DiscoveryType not found"),
"2")))))));
if (ok) return; // TEST PASSED!
gpr_sleep_until(
grpc_timeout_milliseconds_to_deadline(kFetchIntervalMilliseconds));
}
FAIL() << "error_state not seen in CSDS responses";
}
TEST_P(ClientStatusDiscoveryServiceTest, XdsConfigDumpEndpointError) {
int kFetchConfigRetries = 3;
int kFetchIntervalMilliseconds = 200;
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
AdsServiceImpl::EdsResourceArgs args({
{"locality0", {backends_[0]->port()}},
});
balancers_[0]->ads_service()->SetEdsResource(
BuildEdsResource(args, DefaultEdsServiceName()));
// Ensure the xDS resolver has working configs.
CheckRpcSendOk();
// Bad endpoint config will be rejected.
ClusterLoadAssignment cluster_load_assignment;
cluster_load_assignment.set_cluster_name(kDefaultEdsServiceName);
auto* endpoints = cluster_load_assignment.add_endpoints();
endpoints->mutable_load_balancing_weight()->set_value(1);
auto* endpoint = endpoints->add_lb_endpoints()->mutable_endpoint();
endpoint->mutable_address()->mutable_socket_address()->set_port_value(1 << 1);
balancers_[0]->ads_service()->SetEdsResource(cluster_load_assignment);
// The old xDS configs should still be effective.
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
CheckRpcSendOk();
for (int o = 0; o < kFetchConfigRetries; o++) {
auto csds_response = FetchCsdsResponse();
// Check if error state is propagated
bool ok = ::testing::Value(
csds_response.config(0).xds_config(),
::testing::Contains(::testing::Property(
&envoy::service::status::v3::PerXdsConfig::endpoint_config,
EqEndpointsConfigDump(
::testing::ElementsAre(EqDynamicEndpointConfig(
kDefaultEdsServiceName, "1", ClientResourceStatus::NACKED,
backends_[0]->port(), kDefaultLocalityWeight,
EqUpdateFailureState(::testing::HasSubstr("Empty locality"),
"2")))))));
if (ok) return; // TEST PASSED!
gpr_sleep_until(
grpc_timeout_milliseconds_to_deadline(kFetchIntervalMilliseconds));
}
FAIL() << "error_state not seen in CSDS responses";
}
TEST_P(ClientStatusDiscoveryServiceTest, XdsConfigDumpListenerRequested) {
int kTimeoutMillisecond = 1000;
balancers_[0]->ads_service()->UnsetResource(kLdsTypeUrl, kServerName);
CheckRpcSendFailure(1, RpcOptions().set_timeout_ms(kTimeoutMillisecond),
grpc::DEADLINE_EXCEEDED);
auto csds_response = FetchCsdsResponse();
EXPECT_THAT(csds_response.config(0).xds_config(),
::testing::Contains(::testing::Property(
&envoy::service::status::v3::PerXdsConfig::listener_config,
EqListenersConfigDump(
::testing::_, ::testing::ElementsAre(EqDynamicListener(
kServerName, ::testing::_,
ClientResourceStatus::REQUESTED,
::testing::_, ::testing::_))))));
}
TEST_P(ClientStatusDiscoveryServiceTest, XdsConfigDumpClusterRequested) {
int kTimeoutMillisecond = 1000;
std::string kClusterName1 = "cluster-1";
std::string kClusterName2 = "cluster-2";
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
// Create a route config requesting two non-existing clusters
RouteConfiguration route_config;
route_config.set_name(kDefaultRouteConfigurationName);
auto* vh = route_config.add_virtual_hosts();
// The VirtualHost must match the domain name, otherwise will cause resolver
// transient failure.
vh->add_domains("*");
auto* routes1 = vh->add_routes();
routes1->mutable_match()->set_prefix("");
routes1->mutable_route()->set_cluster(kClusterName1);
auto* routes2 = vh->add_routes();
routes2->mutable_match()->set_prefix("");
routes2->mutable_route()->set_cluster(kClusterName2);
SetRouteConfiguration(0, route_config);
// Try to get the configs plumb through
CheckRpcSendFailure(1, RpcOptions().set_timeout_ms(kTimeoutMillisecond),
grpc::DEADLINE_EXCEEDED);
auto csds_response = FetchCsdsResponse();
EXPECT_THAT(csds_response.config(0).xds_config(),
::testing::Contains(::testing::Property(
&envoy::service::status::v3::PerXdsConfig::cluster_config,
EqClustersConfigDump(
::testing::_,
::testing::UnorderedElementsAre(
EqDynamicCluster(kClusterName1, ::testing::_,
ClientResourceStatus::REQUESTED,
::testing::_),
EqDynamicCluster(kClusterName2, ::testing::_,
ClientResourceStatus::REQUESTED,
::testing::_))))));
}
class CsdsShortAdsTimeoutTest : public ClientStatusDiscoveryServiceTest {
void SetUp() override {
// Shorten the ADS subscription timeout to speed up the test run.
xds_resource_does_not_exist_timeout_ms_ = 2000;
ClientStatusDiscoveryServiceTest::SetUp();
}
};
TEST_P(CsdsShortAdsTimeoutTest, XdsConfigDumpListenerDoesNotExist) {
int kTimeoutMillisecond = 1000000; // 1000s wait for the transient failure.
balancers_[0]->ads_service()->UnsetResource(kLdsTypeUrl, kServerName);
CheckRpcSendFailure(1, RpcOptions().set_timeout_ms(kTimeoutMillisecond),
grpc::UNAVAILABLE);
auto csds_response = FetchCsdsResponse();
EXPECT_THAT(csds_response.config(0).xds_config(),
::testing::Contains(::testing::Property(
&envoy::service::status::v3::PerXdsConfig::listener_config,
EqListenersConfigDump(
::testing::_, ::testing::ElementsAre(EqDynamicListener(
kServerName, ::testing::_,
ClientResourceStatus::DOES_NOT_EXIST,
::testing::_, ::testing::_))))));
}
TEST_P(CsdsShortAdsTimeoutTest, XdsConfigDumpRouteConfigDoesNotExist) {
if (!GetParam().enable_rds_testing()) return;
int kTimeoutMillisecond = 1000000; // 1000s wait for the transient failure.
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
balancers_[0]->ads_service()->UnsetResource(kRdsTypeUrl,
kDefaultRouteConfigurationName);
CheckRpcSendFailure(1, RpcOptions().set_timeout_ms(kTimeoutMillisecond),
grpc::UNAVAILABLE);
auto csds_response = FetchCsdsResponse();
EXPECT_THAT(
csds_response.config(0).xds_config(),
::testing::Contains(::testing::Property(
&envoy::service::status::v3::PerXdsConfig::route_config,
EqRoutesConfigDump(::testing::ElementsAre(
EqDynamicRouteConfig(kDefaultRouteConfigurationName, ::testing::_,
ClientResourceStatus::DOES_NOT_EXIST,
::testing::_, ::testing::_))))));
}
TEST_P(CsdsShortAdsTimeoutTest, XdsConfigDumpClusterDoesNotExist) {
int kTimeoutMillisecond = 1000000; // 1000s wait for the transient failure.
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
balancers_[0]->ads_service()->UnsetResource(kCdsTypeUrl, kDefaultClusterName);
CheckRpcSendFailure(1, RpcOptions().set_timeout_ms(kTimeoutMillisecond),
grpc::UNAVAILABLE);
auto csds_response = FetchCsdsResponse();
EXPECT_THAT(csds_response.config(0).xds_config(),
::testing::Contains(::testing::Property(
&envoy::service::status::v3::PerXdsConfig::cluster_config,
EqClustersConfigDump(::testing::_,
::testing::ElementsAre(EqDynamicCluster(
kDefaultClusterName, ::testing::_,
ClientResourceStatus::DOES_NOT_EXIST,
::testing::_))))));
}
TEST_P(CsdsShortAdsTimeoutTest, XdsConfigDumpEndpointDoesNotExist) {
int kTimeoutMillisecond = 1000000; // 1000s wait for the transient failure.
SetNextResolution({});
SetNextResolutionForLbChannelAllBalancers();
balancers_[0]->ads_service()->UnsetResource(kEdsTypeUrl,
kDefaultEdsServiceName);
CheckRpcSendFailure(1, RpcOptions().set_timeout_ms(kTimeoutMillisecond),
grpc::UNAVAILABLE);
auto csds_response = FetchCsdsResponse();
EXPECT_THAT(
csds_response.config(0).xds_config(),
::testing::Contains(::testing::Property(
&envoy::service::status::v3::PerXdsConfig::endpoint_config,
EqEndpointsConfigDump(::testing::ElementsAre(EqDynamicEndpointConfig(
kDefaultEdsServiceName, ::testing::_,
ClientResourceStatus::DOES_NOT_EXIST, ::testing::_, ::testing::_,
::testing::_))))));
}
#endif // DISABLED_XDS_PROTO_IN_CC
std::string TestTypeName(const ::testing::TestParamInfo<TestType>& info) {
return info.param.AsString();
}
// Run with all combinations of xds/fake resolver and enabling load reporting.
INSTANTIATE_TEST_SUITE_P(
XdsTest, BasicTest,
::testing::Values(
TestType(), TestType().set_enable_load_reporting(),
TestType().set_use_fake_resolver(),
TestType().set_use_fake_resolver().set_enable_load_reporting()),
&TestTypeName);
// Run with both fake resolver and xds resolver.
// Don't run with load reporting or v2 or RDS, since they are irrelevant to
// the tests.
INSTANTIATE_TEST_SUITE_P(XdsTest, SecureNamingTest,
::testing::Values(TestType(),
TestType().set_use_fake_resolver()),
&TestTypeName);
// LDS depends on XdsResolver.
INSTANTIATE_TEST_SUITE_P(XdsTest, LdsTest, ::testing::Values(TestType()),
&TestTypeName);
INSTANTIATE_TEST_SUITE_P(XdsTest, LdsV2Test,
::testing::Values(TestType().set_use_v2()),
&TestTypeName);
// LDS/RDS commmon tests depend on XdsResolver.
INSTANTIATE_TEST_SUITE_P(
XdsTest, LdsRdsTest,
::testing::Values(TestType(), TestType().set_enable_rds_testing(),
// Also test with xDS v2.
TestType().set_enable_rds_testing().set_use_v2()),
&TestTypeName);
// CDS depends on XdsResolver.
INSTANTIATE_TEST_SUITE_P(
XdsTest, CdsTest,
::testing::Values(TestType(), TestType().set_enable_load_reporting()),
&TestTypeName);
// CDS depends on XdsResolver.
// Security depends on v3.
// Not enabling load reporting or RDS, since those are irrelevant to these
// tests.
INSTANTIATE_TEST_SUITE_P(
XdsTest, XdsSecurityTest,
::testing::Values(TestType().set_use_xds_credentials()), &TestTypeName);
// We are only testing the server here.
// Run with bootstrap from env var, so that we use a global XdsClient
// instance. Otherwise, we would need to use a separate fake resolver
// result generator on the client and server sides.
INSTANTIATE_TEST_SUITE_P(XdsTest, XdsEnabledServerTest,
::testing::Values(TestType().set_bootstrap_source(
TestType::kBootstrapFromEnvVar)),
&TestTypeName);
// We are only testing the server here.
INSTANTIATE_TEST_SUITE_P(XdsTest, XdsServerSecurityTest,
::testing::Values(TestType()
.set_use_fake_resolver()
.set_use_xds_credentials()),
&TestTypeName);
// We are only testing the server here.
INSTANTIATE_TEST_SUITE_P(XdsTest, XdsEnabledServerStatusNotificationTest,
::testing::Values(TestType()
.set_use_fake_resolver()
.set_use_xds_credentials()),
&TestTypeName);
// We are only testing the server here.
INSTANTIATE_TEST_SUITE_P(XdsTest, XdsServerFilterChainMatchTest,
::testing::Values(TestType()
.set_use_fake_resolver()
.set_use_xds_credentials()),
&TestTypeName);
// EDS could be tested with or without XdsResolver, but the tests would
// be the same either way, so we test it only with XdsResolver.
INSTANTIATE_TEST_SUITE_P(
XdsTest, EdsTest,
::testing::Values(TestType(), TestType().set_enable_load_reporting()),
&TestTypeName);
// Test initial resource timeouts for each resource type.
// Do this only for XdsResolver with RDS enabled, so that we can test
// all resource types.
// Run with V3 only, since the functionality is no different in V2.
INSTANTIATE_TEST_SUITE_P(XdsTest, TimeoutTest,
::testing::Values(TestType().set_enable_rds_testing()),
&TestTypeName);
// XdsResolverOnlyTest depends on XdsResolver.
INSTANTIATE_TEST_SUITE_P(
XdsTest, XdsResolverOnlyTest,
::testing::Values(TestType(), TestType().set_enable_load_reporting()),
&TestTypeName);
// Runs with bootstrap from env var, so that there's a global XdsClient.
INSTANTIATE_TEST_SUITE_P(
XdsTest, GlobalXdsClientTest,
::testing::Values(
TestType().set_bootstrap_source(TestType::kBootstrapFromEnvVar),
TestType()
.set_bootstrap_source(TestType::kBootstrapFromEnvVar)
.set_enable_load_reporting()),
&TestTypeName);
// XdsResolverLoadReprtingOnlyTest depends on XdsResolver and load reporting.
INSTANTIATE_TEST_SUITE_P(
XdsTest, XdsResolverLoadReportingOnlyTest,
::testing::Values(TestType().set_enable_load_reporting()), &TestTypeName);
INSTANTIATE_TEST_SUITE_P(
XdsTest, LocalityMapTest,
::testing::Values(
TestType(), TestType().set_enable_load_reporting(),
TestType().set_use_fake_resolver(),
TestType().set_use_fake_resolver().set_enable_load_reporting()),
&TestTypeName);
INSTANTIATE_TEST_SUITE_P(
XdsTest, FailoverTest,
::testing::Values(
TestType(), TestType().set_enable_load_reporting(),
TestType().set_use_fake_resolver(),
TestType().set_use_fake_resolver().set_enable_load_reporting()),
&TestTypeName);
INSTANTIATE_TEST_SUITE_P(
XdsTest, DropTest,
::testing::Values(
TestType(), TestType().set_enable_load_reporting(),
TestType().set_use_fake_resolver(),
TestType().set_use_fake_resolver().set_enable_load_reporting()),
&TestTypeName);
INSTANTIATE_TEST_SUITE_P(
XdsTest, BalancerUpdateTest,
::testing::Values(
TestType().set_use_fake_resolver(),
TestType().set_use_fake_resolver().set_enable_load_reporting(),
TestType().set_enable_load_reporting()),
&TestTypeName);
// Load reporting tests are not run with load reporting disabled.
INSTANTIATE_TEST_SUITE_P(
XdsTest, ClientLoadReportingTest,
::testing::Values(
TestType().set_enable_load_reporting(),
TestType().set_enable_load_reporting().set_use_fake_resolver()),
&TestTypeName);
// Load reporting tests are not run with load reporting disabled.
INSTANTIATE_TEST_SUITE_P(
XdsTest, ClientLoadReportingWithDropTest,
::testing::Values(
TestType().set_enable_load_reporting(),
TestType().set_enable_load_reporting().set_use_fake_resolver()),
&TestTypeName);
INSTANTIATE_TEST_SUITE_P(
XdsTest, FaultInjectionTest,
::testing::Values(
TestType(), TestType().set_enable_rds_testing(),
TestType().set_filter_config_setup(
TestType::FilterConfigSetup::kRouteOverride),
TestType().set_enable_rds_testing().set_filter_config_setup(
TestType::FilterConfigSetup::kRouteOverride)),
&TestTypeName);
INSTANTIATE_TEST_SUITE_P(
XdsTest, BootstrapSourceTest,
::testing::Values(
TestType().set_bootstrap_source(TestType::kBootstrapFromEnvVar),
TestType().set_bootstrap_source(TestType::kBootstrapFromFile)),
&TestTypeName);
#ifndef DISABLED_XDS_PROTO_IN_CC
// Run CSDS tests with RDS enabled and disabled.
// These need to run with the bootstrap from an env var instead of from
// a channel arg, since there needs to be a global XdsClient instance.
INSTANTIATE_TEST_SUITE_P(
XdsTest, ClientStatusDiscoveryServiceTest,
::testing::Values(
TestType().set_bootstrap_source(TestType::kBootstrapFromEnvVar),
TestType()
.set_bootstrap_source(TestType::kBootstrapFromEnvVar)
.set_enable_rds_testing(),
TestType()
.set_bootstrap_source(TestType::kBootstrapFromEnvVar)
.set_use_csds_streaming(),
TestType()
.set_bootstrap_source(TestType::kBootstrapFromEnvVar)
.set_enable_rds_testing()
.set_use_csds_streaming()),
&TestTypeName);
INSTANTIATE_TEST_SUITE_P(
XdsTest, CsdsShortAdsTimeoutTest,
::testing::Values(
TestType().set_bootstrap_source(TestType::kBootstrapFromEnvVar),
TestType()
.set_bootstrap_source(TestType::kBootstrapFromEnvVar)
.set_enable_rds_testing(),
TestType()
.set_bootstrap_source(TestType::kBootstrapFromEnvVar)
.set_use_csds_streaming(),
TestType()
.set_bootstrap_source(TestType::kBootstrapFromEnvVar)
.set_enable_rds_testing()
.set_use_csds_streaming()),
&TestTypeName);
#endif // DISABLED_XDS_PROTO_IN_CC
} // namespace
} // namespace testing
} // namespace grpc
int main(int argc, char** argv) {
grpc::testing::TestEnvironment env(argc, argv);
::testing::InitGoogleTest(&argc, argv);
grpc::testing::WriteBootstrapFiles();
// Make the backup poller poll very frequently in order to pick up
// updates from all the subchannels's FDs.
GPR_GLOBAL_CONFIG_SET(grpc_client_channel_backup_poll_interval_ms, 1);
#if TARGET_OS_IPHONE
// Workaround Apple CFStream bug
gpr_setenv("grpc_cfstream", "0");
#endif
grpc_core::CertificateProviderRegistry::RegisterCertificateProviderFactory(
absl::make_unique<grpc::testing::FakeCertificateProviderFactory>(
"fake1", &grpc::testing::g_fake1_cert_data_map));
grpc_core::CertificateProviderRegistry::RegisterCertificateProviderFactory(
absl::make_unique<grpc::testing::FakeCertificateProviderFactory>(
"fake2", &grpc::testing::g_fake2_cert_data_map));
grpc_init();
grpc_core::XdsHttpFilterRegistry::RegisterFilter(
absl::make_unique<grpc::testing::NoOpHttpFilter>(
"grpc.testing.client_only_http_filter", true, false),
{"grpc.testing.client_only_http_filter"});
grpc_core::XdsHttpFilterRegistry::RegisterFilter(
absl::make_unique<grpc::testing::NoOpHttpFilter>(
"grpc.testing.server_only_http_filter", false, true),
{"grpc.testing.server_only_http_filter"});
const auto result = RUN_ALL_TESTS();
grpc_shutdown();
return result;
}