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tcp_conn_pool_integration_test.cc
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tcp_conn_pool_integration_test.cc
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#include <list>
#include "envoy/server/filter_config.h"
#include "test/integration/integration.h"
#include "test/integration/utility.h"
#include "test/server/utility.h"
#include "test/test_common/registry.h"
#include "test/test_common/utility.h"
namespace Envoy {
namespace {
std::string tcp_conn_pool_config;
// Trivial Filter that obtains connections from a TCP connection pool each time onData is called
// and sends the data to the resulting upstream. The upstream's response is sent directly to
// the downstream.
class TestFilter : public Network::ReadFilter {
public:
TestFilter(Upstream::ClusterManager& cluster_manager) : cluster_manager_(cluster_manager) {}
// Network::ReadFilter
Network::FilterStatus onData(Buffer::Instance& data, bool end_stream) override {
UNREFERENCED_PARAMETER(end_stream);
Tcp::ConnectionPool::Instance* pool =
cluster_manager_.getThreadLocalCluster("cluster_0")
->tcpConnPool(Upstream::ResourcePriority::Default, nullptr);
ASSERT(pool != nullptr);
requests_.emplace_back(*this, data);
pool->newConnection(requests_.back());
ASSERT(data.length() == 0);
return Network::FilterStatus::StopIteration;
}
Network::FilterStatus onNewConnection() override { return Network::FilterStatus::Continue; }
void initializeReadFilterCallbacks(Network::ReadFilterCallbacks& callbacks) override {
read_callbacks_ = &callbacks;
}
private:
class Request : public Tcp::ConnectionPool::Callbacks,
public Tcp::ConnectionPool::UpstreamCallbacks {
public:
Request(TestFilter& parent, Buffer::Instance& data) : parent_(parent) { data_.move(data); }
// Tcp::ConnectionPool::Callbacks
void onPoolFailure(ConnectionPool::PoolFailureReason,
Upstream::HostDescriptionConstSharedPtr) override {
ASSERT(false);
}
void onPoolReady(Tcp::ConnectionPool::ConnectionDataPtr&& conn,
Upstream::HostDescriptionConstSharedPtr) override {
upstream_ = std::move(conn);
upstream_->addUpstreamCallbacks(*this);
upstream_->connection().write(data_, false);
}
// Tcp::ConnectionPool::UpstreamCallbacks
void onUpstreamData(Buffer::Instance& data, bool end_stream) override {
UNREFERENCED_PARAMETER(end_stream);
Network::Connection& downstream = parent_.read_callbacks_->connection();
downstream.write(data, false);
upstream_.reset();
}
void onEvent(Network::ConnectionEvent) override {}
void onAboveWriteBufferHighWatermark() override {}
void onBelowWriteBufferLowWatermark() override {}
TestFilter& parent_;
Buffer::OwnedImpl data_;
Tcp::ConnectionPool::ConnectionDataPtr upstream_;
};
Upstream::ClusterManager& cluster_manager_;
Network::ReadFilterCallbacks* read_callbacks_{};
std::list<Request> requests_;
};
class TestFilterConfigFactory : public Server::Configuration::NamedNetworkFilterConfigFactory {
public:
// NamedNetworkFilterConfigFactory
Network::FilterFactoryCb
createFilterFactoryFromProto(const Protobuf::Message&,
Server::Configuration::FactoryContext& context) override {
return [&context](Network::FilterManager& filter_manager) -> void {
filter_manager.addReadFilter(std::make_shared<TestFilter>(context.clusterManager()));
};
}
ProtobufTypes::MessagePtr createEmptyConfigProto() override {
// Using Struct instead of a custom per-filter empty config proto
// This is only allowed in tests.
return ProtobufTypes::MessagePtr{new Envoy::ProtobufWkt::Struct()};
}
std::string name() const override { CONSTRUCT_ON_FIRST_USE(std::string, "envoy.test.router"); }
bool isTerminalFilter() override { return true; }
};
} // namespace
class TcpConnPoolIntegrationTest : public testing::TestWithParam<Network::Address::IpVersion>,
public BaseIntegrationTest {
public:
TcpConnPoolIntegrationTest()
: BaseIntegrationTest(GetParam(), tcp_conn_pool_config), filter_resolver_(config_factory_) {}
// Called once by the gtest framework before any tests are run.
static void SetUpTestSuite() { // NOLINT(readability-identifier-naming)
tcp_conn_pool_config = absl::StrCat(ConfigHelper::baseConfig(), R"EOF(
filter_chains:
- filters:
- name: envoy.test.router
typed_config:
)EOF");
}
// Initializer for individual tests.
void SetUp() override { BaseIntegrationTest::initialize(); }
private:
TestFilterConfigFactory config_factory_;
Registry::InjectFactory<Server::Configuration::NamedNetworkFilterConfigFactory> filter_resolver_;
};
INSTANTIATE_TEST_SUITE_P(IpVersions, TcpConnPoolIntegrationTest,
testing::ValuesIn(TestEnvironment::getIpVersionsForTest()),
TestUtility::ipTestParamsToString);
TEST_P(TcpConnPoolIntegrationTest, SingleRequest) {
std::string request("request");
std::string response("response");
IntegrationTcpClientPtr tcp_client = makeTcpConnection(lookupPort("listener_0"));
ASSERT_TRUE(tcp_client->write(request));
FakeRawConnectionPtr fake_upstream_connection;
ASSERT_TRUE(fake_upstreams_[0]->waitForRawConnection(fake_upstream_connection));
ASSERT_TRUE(fake_upstream_connection->waitForData(request.size()));
ASSERT_TRUE(fake_upstream_connection->write(response));
tcp_client->waitForData(response);
tcp_client->close();
}
TEST_P(TcpConnPoolIntegrationTest, MultipleRequests) {
std::string request1("request1");
std::string request2("request2");
std::string response1("response1");
std::string response2("response2");
IntegrationTcpClientPtr tcp_client = makeTcpConnection(lookupPort("listener_0"));
// send request 1
ASSERT_TRUE(tcp_client->write(request1));
FakeRawConnectionPtr fake_upstream_connection1;
ASSERT_TRUE(fake_upstreams_[0]->waitForRawConnection(fake_upstream_connection1));
std::string data;
ASSERT_TRUE(fake_upstream_connection1->waitForData(request1.size(), &data));
EXPECT_EQ(request1, data);
// send request 2
ASSERT_TRUE(tcp_client->write(request2));
FakeRawConnectionPtr fake_upstream_connection2;
ASSERT_TRUE(fake_upstreams_[0]->waitForRawConnection(fake_upstream_connection2));
ASSERT_TRUE(fake_upstream_connection2->waitForData(request2.size(), &data));
EXPECT_EQ(request2, data);
// send response 2
ASSERT_TRUE(fake_upstream_connection2->write(response2));
tcp_client->waitForData(response2);
// send response 1
ASSERT_TRUE(fake_upstream_connection1->write(response1));
tcp_client->waitForData(response1, false);
tcp_client->close();
}
} // namespace Envoy