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idle_timeout_integration_test.cc
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idle_timeout_integration_test.cc
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#include "envoy/config/bootstrap/v3/bootstrap.pb.h"
#include "envoy/extensions/filters/network/http_connection_manager/v3/http_connection_manager.pb.h"
#include "test/integration/http_protocol_integration.h"
#include "test/test_common/test_time.h"
#include "test/test_common/utility.h"
using testing::HasSubstr;
namespace Envoy {
namespace {
class IdleTimeoutIntegrationTest : public HttpProtocolIntegrationTest {
public:
void initialize() override {
config_helper_.disableDelayClose();
useAccessLog("%RESPONSE_CODE_DETAILS%");
config_helper_.addConfigModifier(
[&](envoy::extensions::filters::network::http_connection_manager::v3::HttpConnectionManager&
hcm) -> void {
if (enable_global_idle_timeout_) {
hcm.mutable_stream_idle_timeout()->set_seconds(0);
hcm.mutable_stream_idle_timeout()->set_nanos(IdleTimeoutMs * 1000 * 1000);
}
if (enable_per_stream_idle_timeout_) {
auto* route_config = hcm.mutable_route_config();
auto* virtual_host = route_config->mutable_virtual_hosts(0);
auto* route = virtual_host->mutable_routes(0)->mutable_route();
route->mutable_idle_timeout()->set_seconds(0);
route->mutable_idle_timeout()->set_nanos(IdleTimeoutMs * 1000 * 1000);
auto* header = virtual_host->mutable_response_headers_to_add()->Add()->mutable_header();
header->set_key("foo");
header->set_value("bar");
}
if (enable_route_timeout_) {
auto* route_config = hcm.mutable_route_config();
auto* virtual_host = route_config->mutable_virtual_hosts(0);
auto* route = virtual_host->mutable_routes(0)->mutable_route();
route->mutable_timeout()->set_seconds(0);
route->mutable_timeout()->set_nanos(IdleTimeoutMs * 1000 * 1000);
}
if (enable_request_timeout_) {
hcm.mutable_request_timeout()->set_seconds(0);
hcm.mutable_request_timeout()->set_nanos(RequestTimeoutMs * 1000 * 1000);
}
if (enable_per_try_idle_timeout_) {
auto* route_config = hcm.mutable_route_config();
auto* virtual_host = route_config->mutable_virtual_hosts(0);
auto* route = virtual_host->mutable_routes(0)->mutable_route();
auto* retry_policy = route->mutable_retry_policy();
retry_policy->mutable_per_try_idle_timeout()->set_seconds(0);
retry_policy->mutable_per_try_idle_timeout()->set_nanos(IdleTimeoutMs * 1000 * 1000);
}
// For validating encode1xxHeaders() timer kick.
hcm.set_proxy_100_continue(true);
});
HttpProtocolIntegrationTest::initialize();
}
IntegrationStreamDecoderPtr setupPerStreamIdleTimeoutTest(const char* method = "GET") {
initialize();
codec_client_ = makeHttpConnection(makeClientConnection((lookupPort("http"))));
auto encoder_decoder =
codec_client_->startRequest(Http::TestRequestHeaderMapImpl{{":method", method},
{":path", "/test/long/url"},
{":scheme", "http"},
{":authority", "sni.lyft.com"}});
request_encoder_ = &encoder_decoder.first;
auto response = std::move(encoder_decoder.second);
AssertionResult result =
fake_upstreams_[0]->waitForHttpConnection(*dispatcher_, fake_upstream_connection_);
RELEASE_ASSERT(result, result.message());
result = fake_upstream_connection_->waitForNewStream(*dispatcher_, upstream_request_);
RELEASE_ASSERT(result, result.message());
result = upstream_request_->waitForHeadersComplete();
RELEASE_ASSERT(result, result.message());
return response;
}
IntegrationStreamDecoderPtr setupPerTryIdleTimeoutTest(const char* method = "GET") {
initialize();
codec_client_ = makeHttpConnection(makeClientConnection((lookupPort("http"))));
auto response = codec_client_->makeHeaderOnlyRequest(
Http::TestRequestHeaderMapImpl{{":method", method},
{":path", "/test/long/url"},
{":scheme", "http"},
{":authority", "sni.lyft.com"}});
AssertionResult result =
fake_upstreams_[0]->waitForHttpConnection(*dispatcher_, fake_upstream_connection_);
RELEASE_ASSERT(result, result.message());
result = fake_upstream_connection_->waitForNewStream(*dispatcher_, upstream_request_);
RELEASE_ASSERT(result, result.message());
result = upstream_request_->waitForHeadersComplete();
RELEASE_ASSERT(result, result.message());
result = upstream_request_->waitForEndStream(*dispatcher_);
RELEASE_ASSERT(result, result.message());
return response;
}
void sleep() {
test_time_.timeSystem().advanceTimeWait(std::chrono::milliseconds(IdleTimeoutMs / 2));
}
void waitForTimeout(IntegrationStreamDecoder& response, absl::string_view stat_name = "",
absl::string_view stat_prefix = "http.config_test") {
if (downstream_protocol_ == Http::CodecType::HTTP1) {
ASSERT_TRUE(codec_client_->waitForDisconnect());
} else {
ASSERT_TRUE(response.waitForReset());
codec_client_->close();
}
if (!stat_name.empty()) {
EXPECT_EQ(1, test_server_->counter(fmt::format("{}.{}", stat_prefix, stat_name))->value());
}
}
static constexpr uint64_t IdleTimeoutMs = 300 * TIMEOUT_FACTOR;
static constexpr uint64_t RequestTimeoutMs = 200;
bool enable_global_idle_timeout_{false};
bool enable_per_stream_idle_timeout_{false};
bool enable_request_timeout_{false};
bool enable_route_timeout_{false};
bool enable_per_try_idle_timeout_{false};
DangerousDeprecatedTestTime test_time_;
};
INSTANTIATE_TEST_SUITE_P(Protocols, IdleTimeoutIntegrationTest,
testing::ValuesIn(HttpProtocolIntegrationTest::getProtocolTestParams()),
HttpProtocolIntegrationTest::protocolTestParamsToString);
// Tests idle timeout behaviour with single request and validates that idle timer kicks in
// after given timeout.
TEST_P(IdleTimeoutIntegrationTest, TimeoutBasic) {
config_helper_.addConfigModifier([](envoy::config::bootstrap::v3::Bootstrap& bootstrap) {
ConfigHelper::HttpProtocolOptions protocol_options;
auto* http_protocol_options = protocol_options.mutable_common_http_protocol_options();
auto* idle_time_out = http_protocol_options->mutable_idle_timeout();
std::chrono::milliseconds timeout(1000);
auto seconds = std::chrono::duration_cast<std::chrono::seconds>(timeout);
idle_time_out->set_seconds(seconds.count());
ConfigHelper::setProtocolOptions(*bootstrap.mutable_static_resources()->mutable_clusters(0),
protocol_options);
});
initialize();
codec_client_ = makeHttpConnection(lookupPort("http"));
auto response = codec_client_->makeRequestWithBody(default_request_headers_, 1024);
waitForNextUpstreamRequest();
upstream_request_->encodeHeaders(default_response_headers_, false);
upstream_request_->encodeData(512, true);
ASSERT_TRUE(response->waitForEndStream());
EXPECT_TRUE(upstream_request_->complete());
EXPECT_TRUE(response->complete());
test_server_->waitForCounterGe("cluster.cluster_0.upstream_cx_total", 1);
test_server_->waitForCounterGe("cluster.cluster_0.upstream_rq_200", 1);
// Do not send any requests and validate if idle time out kicks in.
ASSERT_TRUE(fake_upstream_connection_->waitForDisconnect());
test_server_->waitForCounterGe("cluster.cluster_0.upstream_cx_idle_timeout", 1);
}
// Tests idle timeout behaviour with multiple requests and validates that idle timer kicks in
// after both the requests are done.
TEST_P(IdleTimeoutIntegrationTest, IdleTimeoutWithTwoRequests) {
config_helper_.addConfigModifier([](envoy::config::bootstrap::v3::Bootstrap& bootstrap) {
ConfigHelper::HttpProtocolOptions protocol_options;
auto* http_protocol_options = protocol_options.mutable_common_http_protocol_options();
auto* idle_time_out = http_protocol_options->mutable_idle_timeout();
std::chrono::milliseconds timeout(1000);
auto seconds = std::chrono::duration_cast<std::chrono::seconds>(timeout);
idle_time_out->set_seconds(seconds.count());
ConfigHelper::setProtocolOptions(*bootstrap.mutable_static_resources()->mutable_clusters(0),
protocol_options);
});
initialize();
codec_client_ = makeHttpConnection(lookupPort("http"));
// Request 1.
auto response = codec_client_->makeRequestWithBody(default_request_headers_, 1024);
waitForNextUpstreamRequest();
upstream_request_->encodeHeaders(default_response_headers_, false);
upstream_request_->encodeData(512, true);
ASSERT_TRUE(response->waitForEndStream());
EXPECT_TRUE(upstream_request_->complete());
EXPECT_TRUE(response->complete());
test_server_->waitForCounterGe("cluster.cluster_0.upstream_cx_total", 1);
test_server_->waitForCounterGe("cluster.cluster_0.upstream_rq_200", 1);
// Request 2.
response = codec_client_->makeRequestWithBody(default_request_headers_, 512);
waitForNextUpstreamRequest();
upstream_request_->encodeHeaders(default_response_headers_, false);
upstream_request_->encodeData(1024, true);
ASSERT_TRUE(response->waitForEndStream());
EXPECT_TRUE(upstream_request_->complete());
EXPECT_TRUE(response->complete());
test_server_->waitForCounterGe("cluster.cluster_0.upstream_cx_total", 1);
test_server_->waitForCounterGe("cluster.cluster_0.upstream_rq_200", 2);
// Do not send any requests and validate if idle time out kicks in.
ASSERT_TRUE(fake_upstream_connection_->waitForDisconnect());
test_server_->waitForCounterGe("cluster.cluster_0.upstream_cx_idle_timeout", 1);
}
// Max connection duration reached after a connection is created.
TEST_P(IdleTimeoutIntegrationTest, MaxConnectionDurationBasic) {
config_helper_.addConfigModifier([&](envoy::config::bootstrap::v3::Bootstrap& bootstrap) {
ConfigHelper::HttpProtocolOptions protocol_options;
auto* http_protocol_options = protocol_options.mutable_common_http_protocol_options();
auto* max_connection_duration = http_protocol_options->mutable_max_connection_duration();
max_connection_duration->set_seconds(1);
ConfigHelper::setProtocolOptions(*bootstrap.mutable_static_resources()->mutable_clusters(0),
protocol_options);
});
initialize();
codec_client_ = makeHttpConnection(lookupPort("http"));
auto response = codec_client_->makeRequestWithBody(default_request_headers_, 1024);
waitForNextUpstreamRequest();
upstream_request_->encodeHeaders(default_response_headers_, false);
upstream_request_->encodeData(512, true);
ASSERT_TRUE(response->waitForEndStream());
EXPECT_TRUE(upstream_request_->complete());
EXPECT_TRUE(response->complete());
test_server_->waitForCounterGe("cluster.cluster_0.upstream_cx_total", 1);
test_server_->waitForCounterGe("cluster.cluster_0.upstream_rq_200", 1);
// Do not send any requests and validate that the max connection duration is reached.
ASSERT_TRUE(fake_upstream_connection_->waitForDisconnect());
test_server_->waitForCounterGe("cluster.cluster_0.upstream_cx_max_duration_reached", 1);
}
// Per-stream idle timeout after having sent downstream headers.
TEST_P(IdleTimeoutIntegrationTest, PerStreamIdleTimeoutAfterDownstreamHeaders) {
enable_per_stream_idle_timeout_ = true;
auto response = setupPerStreamIdleTimeoutTest();
waitForTimeout(*response, "downstream_rq_idle_timeout");
EXPECT_FALSE(upstream_request_->complete());
EXPECT_EQ(0U, upstream_request_->bodyLength());
EXPECT_TRUE(response->complete());
EXPECT_EQ("408", response->headers().getStatusValue());
auto foo = Http::LowerCaseString("foo");
ASSERT_FALSE(response->headers().get(foo).empty());
EXPECT_EQ("bar", response->headers().get(foo)[0]->value().getStringView());
EXPECT_EQ("stream timeout", response->body());
EXPECT_THAT(waitForAccessLog(access_log_name_), HasSubstr("stream_idle_timeout"));
}
// Per-stream idle timeout after having sent downstream headers.
TEST_P(IdleTimeoutIntegrationTest, IdleStreamTimeoutWithRouteReselect) {
enable_per_stream_idle_timeout_ = true;
config_helper_.prependFilter(R"EOF(
name: set-route-filter
typed_config:
"@type": type.googleapis.com/test.integration.filters.SetRouteFilterConfig
cluster_override: cluster_0
idle_timeout_override:
seconds: 5
)EOF");
initialize();
codec_client_ = makeHttpConnection(makeClientConnection((lookupPort("http"))));
auto response = codec_client_->makeHeaderOnlyRequest(default_request_headers_);
waitForNextUpstreamRequest();
// Sleep past the default timeout.
sleep();
sleep();
sleep();
EXPECT_FALSE(response->complete());
upstream_request_->encodeHeaders(Http::TestResponseHeaderMapImpl{{":status", "200"}}, true);
ASSERT_TRUE(response->waitForEndStream());
EXPECT_TRUE(response->complete());
EXPECT_EQ("200", response->headers().getStatusValue());
}
// Per-stream idle timeout with reads disabled.
TEST_P(IdleTimeoutIntegrationTest, PerStreamIdleTimeoutWithLargeBuffer) {
config_helper_.prependFilter(R"EOF(
name: backpressure-filter
)EOF");
enable_per_stream_idle_timeout_ = true;
initialize();
codec_client_ = makeHttpConnection(makeClientConnection((lookupPort("http"))));
auto response = codec_client_->makeHeaderOnlyRequest(default_request_headers_);
ASSERT_TRUE(response->waitForEndStream());
EXPECT_TRUE(response->complete());
// Make sure that for HTTP/1.1 reads are enabled even though the first request
// ended in the "backed up" state.
auto response2 = codec_client_->makeHeaderOnlyRequest(default_request_headers_);
ASSERT_TRUE(response2->waitForEndStream());
EXPECT_TRUE(response2->complete());
}
// Per-stream idle timeout after having sent downstream head request.
TEST_P(IdleTimeoutIntegrationTest, PerStreamIdleTimeoutHeadRequestAfterDownstreamHeadRequest) {
enable_per_stream_idle_timeout_ = true;
auto response = setupPerStreamIdleTimeoutTest("HEAD");
waitForTimeout(*response, "downstream_rq_idle_timeout");
EXPECT_FALSE(upstream_request_->complete());
EXPECT_EQ(0U, upstream_request_->bodyLength());
EXPECT_TRUE(response->complete());
EXPECT_EQ("408", response->headers().getStatusValue());
EXPECT_EQ(fmt::format("{}", strlen("stream timeout")),
response->headers().getContentLengthValue());
EXPECT_EQ("", response->body());
}
// Global per-stream idle timeout applies if there is no per-stream idle timeout.
TEST_P(IdleTimeoutIntegrationTest, GlobalPerStreamIdleTimeoutAfterDownstreamHeaders) {
enable_per_stream_idle_timeout_ = true;
enable_global_idle_timeout_ = true;
auto response = setupPerStreamIdleTimeoutTest();
waitForTimeout(*response, "downstream_rq_idle_timeout");
EXPECT_FALSE(upstream_request_->complete());
EXPECT_EQ(0U, upstream_request_->bodyLength());
EXPECT_TRUE(response->complete());
EXPECT_EQ("408", response->headers().getStatusValue());
EXPECT_EQ("stream timeout", response->body());
}
// Per-stream idle timeout after having sent downstream headers+body.
TEST_P(IdleTimeoutIntegrationTest, PerStreamIdleTimeoutAfterDownstreamHeadersAndBody) {
enable_per_stream_idle_timeout_ = true;
auto response = setupPerStreamIdleTimeoutTest();
sleep();
codec_client_->sendData(*request_encoder_, 1, false);
waitForTimeout(*response, "downstream_rq_idle_timeout");
EXPECT_FALSE(upstream_request_->complete());
EXPECT_EQ(1U, upstream_request_->bodyLength());
EXPECT_TRUE(response->complete());
EXPECT_EQ("408", response->headers().getStatusValue());
EXPECT_EQ("stream timeout", response->body());
}
// Per-stream idle timeout after upstream headers have been sent.
TEST_P(IdleTimeoutIntegrationTest, PerStreamIdleTimeoutAfterUpstreamHeaders) {
enable_per_stream_idle_timeout_ = true;
auto response = setupPerStreamIdleTimeoutTest();
upstream_request_->encodeHeaders(Http::TestResponseHeaderMapImpl{{":status", "200"}}, false);
waitForTimeout(*response, "downstream_rq_idle_timeout");
EXPECT_FALSE(upstream_request_->complete());
EXPECT_EQ(0U, upstream_request_->bodyLength());
EXPECT_FALSE(response->complete());
EXPECT_EQ("200", response->headers().getStatusValue());
EXPECT_EQ("", response->body());
}
TEST_P(IdleTimeoutIntegrationTest, ResponseTimeout) {
enable_route_timeout_ = true;
initialize();
// Lock up fake upstream so that it won't accept connections.
absl::MutexLock l(&fake_upstreams_[0]->lock());
codec_client_ = makeHttpConnection(makeClientConnection((lookupPort("http"))));
auto response = codec_client_->makeHeaderOnlyRequest(default_request_headers_);
ASSERT_TRUE(response->waitForEndStream());
EXPECT_EQ("504", response->headers().getStatusValue());
EXPECT_THAT(waitForAccessLog(access_log_name_), HasSubstr("response_timeout"));
}
// Per-try idle timeout after upstream headers have been sent.
TEST_P(IdleTimeoutIntegrationTest, PerTryIdleTimeoutAfterUpstreamHeaders) {
enable_per_try_idle_timeout_ = true;
auto response = setupPerTryIdleTimeoutTest();
upstream_request_->encodeHeaders(Http::TestResponseHeaderMapImpl{{":status", "200"}}, false);
waitForTimeout(*response);
test_server_->waitForCounterGe("cluster.cluster_0.upstream_rq_per_try_idle_timeout", 1);
EXPECT_TRUE(upstream_request_->complete());
EXPECT_EQ(0U, upstream_request_->bodyLength());
EXPECT_FALSE(response->complete());
EXPECT_EQ("200", response->headers().getStatusValue());
EXPECT_EQ("", response->body());
}
// Per-stream idle timeout after a sequence of header/data events.
TEST_P(IdleTimeoutIntegrationTest, PerStreamIdleTimeoutAfterBidiData) {
enable_per_stream_idle_timeout_ = true;
auto response = setupPerStreamIdleTimeoutTest();
sleep();
upstream_request_->encode1xxHeaders(Http::TestResponseHeaderMapImpl{{":status", "100"}});
sleep();
upstream_request_->encodeHeaders(Http::TestResponseHeaderMapImpl{{":status", "200"}}, false);
sleep();
upstream_request_->encodeData(1, false);
sleep();
codec_client_->sendData(*request_encoder_, 1, false);
sleep();
Http::TestRequestTrailerMapImpl request_trailers{{"request1", "trailer1"},
{"request2", "trailer2"}};
codec_client_->sendTrailers(*request_encoder_, request_trailers);
sleep();
upstream_request_->encodeData(1, false);
waitForTimeout(*response, "downstream_rq_idle_timeout");
EXPECT_TRUE(upstream_request_->complete());
EXPECT_EQ(1U, upstream_request_->bodyLength());
EXPECT_FALSE(response->complete());
EXPECT_EQ("200", response->headers().getStatusValue());
EXPECT_EQ("aa", response->body());
}
// Successful request/response when per-stream idle timeout is configured.
TEST_P(IdleTimeoutIntegrationTest, PerStreamIdleTimeoutRequestAndResponse) {
enable_per_stream_idle_timeout_ = true;
testRouterRequestAndResponseWithBody(1024, 1024, false);
}
TEST_P(IdleTimeoutIntegrationTest, RequestTimeoutConfiguredRequestResponse) {
enable_request_timeout_ = true;
testRouterHeaderOnlyRequestAndResponse();
}
TEST_P(IdleTimeoutIntegrationTest, RequestTimeoutConfiguredRequestResponseWithBody) {
enable_request_timeout_ = true;
testRouterRequestAndResponseWithBody(1024, 1024, false);
}
TEST_P(IdleTimeoutIntegrationTest, RequestTimeoutTriggersOnBodilessPost) {
enable_request_timeout_ = true;
auto response = setupPerStreamIdleTimeoutTest("POST");
waitForTimeout(*response, "downstream_rq_timeout");
EXPECT_FALSE(upstream_request_->complete());
EXPECT_EQ(0U, upstream_request_->bodyLength());
EXPECT_TRUE(response->complete());
EXPECT_EQ("408", response->headers().getStatusValue());
EXPECT_EQ("request timeout", response->body());
}
TEST_P(IdleTimeoutIntegrationTest, RequestTimeoutUnconfiguredDoesNotTriggerOnBodilessPost) {
enable_request_timeout_ = false;
// with no request timeout configured, the idle timeout triggers instead
enable_per_stream_idle_timeout_ = true;
auto response = setupPerStreamIdleTimeoutTest("POST");
waitForTimeout(*response);
EXPECT_FALSE(upstream_request_->complete());
EXPECT_EQ(0U, upstream_request_->bodyLength());
EXPECT_TRUE(response->complete());
EXPECT_EQ("408", response->headers().getStatusValue());
EXPECT_NE("request timeout", response->body());
}
TEST_P(IdleTimeoutIntegrationTest, RequestTimeoutTriggersOnRawIncompleteRequestWithHeaders) {
// Omitting \r\n\r\n does not indicate incomplete request in HTTP2/3
if (downstreamProtocol() != Envoy::Http::CodecType::HTTP1) {
return;
}
enable_request_timeout_ = true;
initialize();
std::string raw_response;
sendRawHttpAndWaitForResponse(lookupPort("http"), "GET / HTTP/1.1", &raw_response);
EXPECT_THAT(raw_response, testing::HasSubstr("request timeout"));
}
TEST_P(IdleTimeoutIntegrationTest, RequestTimeoutDoesNotTriggerOnRawCompleteRequestWithHeaders) {
if (downstreamProtocol() != Envoy::Http::CodecType::HTTP1) {
return;
}
enable_request_timeout_ = true;
initialize();
std::string raw_response;
sendRawHttpAndWaitForResponse(lookupPort("http"), "GET / HTTP/1.1\r\n\r\n", &raw_response);
EXPECT_THAT(raw_response, testing::Not(testing::HasSubstr("request timeout")));
}
TEST_P(IdleTimeoutIntegrationTest, RequestTimeoutIsDisarmedByPrematureEncodeHeaders) {
enable_request_timeout_ = true;
enable_per_stream_idle_timeout_ = true;
auto response = setupPerStreamIdleTimeoutTest("POST");
upstream_request_->encodeHeaders(Http::TestResponseHeaderMapImpl{{":status", "200"}}, false);
waitForTimeout(*response);
EXPECT_FALSE(upstream_request_->complete());
EXPECT_FALSE(response->complete());
EXPECT_NE("request timeout", response->body());
}
TEST_P(IdleTimeoutIntegrationTest, RequestTimeoutIsNotDisarmedByEncode1xxHeaders) {
enable_request_timeout_ = true;
auto response = setupPerStreamIdleTimeoutTest("POST");
upstream_request_->encode1xxHeaders(Http::TestResponseHeaderMapImpl{{":status", "100"}});
waitForTimeout(*response, "downstream_rq_timeout");
EXPECT_FALSE(upstream_request_->complete());
EXPECT_EQ(0U, upstream_request_->bodyLength());
EXPECT_TRUE(response->complete());
EXPECT_EQ("408", response->headers().getStatusValue());
EXPECT_EQ("request timeout", response->body());
}
// Per-stream idle timeout reset from within a filter.
TEST_P(IdleTimeoutIntegrationTest, PerStreamIdleTimeoutResetFromFilter) {
config_helper_.prependFilter(R"EOF(
name: reset-idle-timer-filter
)EOF");
enable_per_stream_idle_timeout_ = true;
auto response = setupPerStreamIdleTimeoutTest();
sleep();
codec_client_->sendData(*request_encoder_, 1, false);
// Two sleeps should trigger the timer, as each advances time by timeout / 2. However, the data
// frame above would have caused the filter to reset the timer. Thus, the stream should not be
// reset yet.
sleep();
EXPECT_FALSE(response->complete());
sleep();
waitForTimeout(*response, "downstream_rq_idle_timeout");
// Now the timer should have triggered.
EXPECT_TRUE(response->complete());
EXPECT_EQ("408", response->headers().getStatusValue());
EXPECT_EQ("stream timeout", response->body());
}
// TODO(auni53) create a test filter that hangs and does not send data upstream, which would
// trigger a configured request_timer
} // namespace
} // namespace Envoy