/* * * 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 "src/core/lib/channel/channelz.h" #include #include #include #include #include #include #include "src/core/lib/channel/channel_trace.h" #include "src/core/lib/channel/channelz_registry.h" #include "src/core/lib/gpr/useful.h" #include "src/core/lib/iomgr/exec_ctx.h" #include "src/core/lib/json/json.h" #include "src/core/lib/surface/channel.h" #include "src/core/lib/surface/server.h" #include "test/core/util/test_config.h" #include "test/cpp/util/channel_trace_proto_helper.h" namespace grpc_core { namespace channelz { namespace testing { // testing peer to access channel internals class CallCountingHelperPeer { public: explicit CallCountingHelperPeer(CallCountingHelper* node) : node_(node) {} gpr_timespec last_call_started_time() const { CallCountingHelper::CounterData data; node_->CollectData(&data); return gpr_cycle_counter_to_time(data.last_call_started_cycle); } private: CallCountingHelper* node_; }; namespace { std::vector GetUuidListFromArray(const Json::Array& arr) { std::vector uuids; for (const Json& value : arr) { EXPECT_EQ(value.type(), Json::Type::OBJECT); if (value.type() != Json::Type::OBJECT) continue; const Json::Object& object = value.object_value(); auto it = object.find("ref"); EXPECT_NE(it, object.end()); if (it == object.end()) continue; EXPECT_EQ(it->second.type(), Json::Type::OBJECT); if (it->second.type() != Json::Type::OBJECT) continue; const Json::Object& ref_object = it->second.object_value(); it = ref_object.find("channelId"); EXPECT_NE(it, ref_object.end()); if (it != ref_object.end()) { uuids.push_back(atoi(it->second.string_value().c_str())); } } return uuids; } void ValidateJsonArraySize(const Json& array, size_t expected) { if (expected == 0) { ASSERT_EQ(array.type(), Json::Type::JSON_NULL); } else { ASSERT_EQ(array.type(), Json::Type::ARRAY); EXPECT_EQ(array.array_value().size(), expected); } } void ValidateJsonEnd(const Json& json, bool end) { auto it = json.object_value().find("end"); if (end) { ASSERT_NE(it, json.object_value().end()); EXPECT_EQ(it->second.type(), Json::Type::JSON_TRUE); } else { ASSERT_EQ(it, json.object_value().end()); } } void ValidateGetTopChannels(size_t expected_channels) { std::string json_str = ChannelzRegistry::GetTopChannels(0); grpc::testing::ValidateGetTopChannelsResponseProtoJsonTranslation( json_str.c_str()); grpc_error_handle error = GRPC_ERROR_NONE; Json parsed_json = Json::Parse(json_str, &error); ASSERT_EQ(error, GRPC_ERROR_NONE) << grpc_error_std_string(error); ASSERT_EQ(parsed_json.type(), Json::Type::OBJECT); // This check will naturally have to change when we support pagination. // tracked: https://github.com/grpc/grpc/issues/16019. ValidateJsonArraySize((*parsed_json.mutable_object())["channel"], expected_channels); ValidateJsonEnd(parsed_json, true); // Also check that the core API formats this correctly. char* core_api_json_str = grpc_channelz_get_top_channels(0); grpc::testing::ValidateGetTopChannelsResponseProtoJsonTranslation( core_api_json_str); gpr_free(core_api_json_str); } void ValidateGetServers(size_t expected_servers) { std::string json_str = ChannelzRegistry::GetServers(0); grpc::testing::ValidateGetServersResponseProtoJsonTranslation( json_str.c_str()); grpc_error_handle error = GRPC_ERROR_NONE; Json parsed_json = Json::Parse(json_str, &error); ASSERT_EQ(error, GRPC_ERROR_NONE) << grpc_error_std_string(error); ASSERT_EQ(parsed_json.type(), Json::Type::OBJECT); // This check will naturally have to change when we support pagination. // tracked: https://github.com/grpc/grpc/issues/16019. ValidateJsonArraySize((*parsed_json.mutable_object())["server"], expected_servers); ValidateJsonEnd(parsed_json, true); // Also check that the core API formats this correctly. char* core_api_json_str = grpc_channelz_get_servers(0); grpc::testing::ValidateGetServersResponseProtoJsonTranslation( core_api_json_str); gpr_free(core_api_json_str); } class ChannelFixture { public: explicit ChannelFixture(int max_tracer_event_memory = 0) { grpc_arg client_a[] = { grpc_channel_arg_integer_create( const_cast(GRPC_ARG_MAX_CHANNEL_TRACE_EVENT_MEMORY_PER_NODE), max_tracer_event_memory), grpc_channel_arg_integer_create( const_cast(GRPC_ARG_ENABLE_CHANNELZ), true)}; grpc_channel_args client_args = {GPR_ARRAY_SIZE(client_a), client_a}; channel_ = grpc_insecure_channel_create("fake_target", &client_args, nullptr); } ~ChannelFixture() { grpc_channel_destroy(channel_); } grpc_channel* channel() { return channel_; } private: grpc_channel* channel_; }; class ServerFixture { public: explicit ServerFixture(int max_tracer_event_memory = 0) { grpc_arg server_a[] = { grpc_channel_arg_integer_create( const_cast(GRPC_ARG_MAX_CHANNEL_TRACE_EVENT_MEMORY_PER_NODE), max_tracer_event_memory), grpc_channel_arg_integer_create( const_cast(GRPC_ARG_ENABLE_CHANNELZ), true), }; grpc_channel_args server_args = {GPR_ARRAY_SIZE(server_a), server_a}; server_ = grpc_server_create(&server_args, nullptr); } ~ServerFixture() { grpc_server_destroy(server_); } grpc_server* server() const { return server_; } private: grpc_server* server_; }; struct ValidateChannelDataArgs { int64_t calls_started; int64_t calls_failed; int64_t calls_succeeded; }; void ValidateChildInteger(const Json::Object& object, const std::string& key, int64_t expected) { auto it = object.find(key); if (expected == 0) { ASSERT_EQ(it, object.end()); return; } ASSERT_NE(it, object.end()); ASSERT_EQ(it->second.type(), Json::Type::STRING); int64_t gotten_number = static_cast( strtol(it->second.string_value().c_str(), nullptr, 0)); EXPECT_EQ(gotten_number, expected); } void ValidateCounters(const std::string& json_str, const ValidateChannelDataArgs& args) { grpc_error_handle error = GRPC_ERROR_NONE; Json json = Json::Parse(json_str, &error); ASSERT_EQ(error, GRPC_ERROR_NONE) << grpc_error_std_string(error); ASSERT_EQ(json.type(), Json::Type::OBJECT); Json::Object* object = json.mutable_object(); Json& data = (*object)["data"]; ASSERT_EQ(data.type(), Json::Type::OBJECT); ValidateChildInteger(data.object_value(), "callsStarted", args.calls_started); ValidateChildInteger(data.object_value(), "callsFailed", args.calls_failed); ValidateChildInteger(data.object_value(), "callsSucceeded", args.calls_succeeded); } void ValidateChannel(ChannelNode* channel, const ValidateChannelDataArgs& args) { std::string json_str = channel->RenderJsonString(); grpc::testing::ValidateChannelProtoJsonTranslation(json_str.c_str()); ValidateCounters(json_str, args); // also check that the core API formats this the correct way char* core_api_json_str = grpc_channelz_get_channel(channel->uuid()); grpc::testing::ValidateGetChannelResponseProtoJsonTranslation( core_api_json_str); gpr_free(core_api_json_str); } void ValidateServer(ServerNode* server, const ValidateChannelDataArgs& args) { std::string json_str = server->RenderJsonString(); grpc::testing::ValidateServerProtoJsonTranslation(json_str.c_str()); ValidateCounters(json_str, args); // also check that the core API formats this the correct way char* core_api_json_str = grpc_channelz_get_server(server->uuid()); grpc::testing::ValidateGetServerResponseProtoJsonTranslation( core_api_json_str); gpr_free(core_api_json_str); } gpr_timespec GetLastCallStartedTime(CallCountingHelper* channel) { CallCountingHelperPeer peer(channel); return peer.last_call_started_time(); } void ChannelzSleep(int64_t sleep_us) { gpr_sleep_until(gpr_time_add(gpr_now(GPR_CLOCK_REALTIME), gpr_time_from_micros(sleep_us, GPR_TIMESPAN))); ExecCtx::Get()->InvalidateNow(); } } // anonymous namespace class ChannelzChannelTest : public ::testing::TestWithParam {}; TEST_P(ChannelzChannelTest, BasicChannel) { ExecCtx exec_ctx; ChannelFixture channel(GetParam()); ChannelNode* channelz_channel = grpc_channel_get_channelz_node(channel.channel()); ValidateChannel(channelz_channel, {0, 0, 0}); } TEST(ChannelzChannelTest, ChannelzDisabled) { ExecCtx exec_ctx; // explicitly disable channelz grpc_arg arg[] = { grpc_channel_arg_integer_create( const_cast(GRPC_ARG_MAX_CHANNEL_TRACE_EVENT_MEMORY_PER_NODE), 0), grpc_channel_arg_integer_create( const_cast(GRPC_ARG_ENABLE_CHANNELZ), false)}; grpc_channel_args args = {GPR_ARRAY_SIZE(arg), arg}; grpc_channel* channel = grpc_insecure_channel_create("fake_target", &args, nullptr); ChannelNode* channelz_channel = grpc_channel_get_channelz_node(channel); ASSERT_EQ(channelz_channel, nullptr); grpc_channel_destroy(channel); } TEST_P(ChannelzChannelTest, BasicChannelAPIFunctionality) { ExecCtx exec_ctx; ChannelFixture channel(GetParam()); ChannelNode* channelz_channel = grpc_channel_get_channelz_node(channel.channel()); channelz_channel->RecordCallStarted(); channelz_channel->RecordCallFailed(); channelz_channel->RecordCallSucceeded(); ValidateChannel(channelz_channel, {1, 1, 1}); channelz_channel->RecordCallStarted(); channelz_channel->RecordCallFailed(); channelz_channel->RecordCallSucceeded(); channelz_channel->RecordCallStarted(); channelz_channel->RecordCallFailed(); channelz_channel->RecordCallSucceeded(); ValidateChannel(channelz_channel, {3, 3, 3}); } TEST_P(ChannelzChannelTest, LastCallStartedTime) { ExecCtx exec_ctx; CallCountingHelper counter; // start a call to set the last call started timestamp counter.RecordCallStarted(); gpr_timespec time1 = GetLastCallStartedTime(&counter); // time gone by should not affect the timestamp ChannelzSleep(100); gpr_timespec time2 = GetLastCallStartedTime(&counter); EXPECT_EQ(gpr_time_cmp(time1, time2), 0); // calls succeeded or failed should not affect the timestamp ChannelzSleep(100); counter.RecordCallFailed(); counter.RecordCallSucceeded(); gpr_timespec time3 = GetLastCallStartedTime(&counter); EXPECT_EQ(gpr_time_cmp(time1, time3), 0); // another call started should affect the timestamp // sleep for extra long to avoid flakes (since we cache Now()) ChannelzSleep(5000); counter.RecordCallStarted(); gpr_timespec time4 = GetLastCallStartedTime(&counter); EXPECT_NE(gpr_time_cmp(time1, time4), 0); } class ChannelzRegistryBasedTest : public ::testing::TestWithParam { protected: // ensure we always have a fresh registry for tests. void SetUp() override { ChannelzRegistry::Shutdown(); ChannelzRegistry::Init(); } void TearDown() override { ChannelzRegistry::Shutdown(); ChannelzRegistry::Init(); } }; TEST_F(ChannelzRegistryBasedTest, BasicGetTopChannelsTest) { ExecCtx exec_ctx; ChannelFixture channel; ValidateGetTopChannels(1); } TEST_F(ChannelzRegistryBasedTest, NoChannelsTest) { ExecCtx exec_ctx; ValidateGetTopChannels(0); } TEST_F(ChannelzRegistryBasedTest, ManyChannelsTest) { ExecCtx exec_ctx; ChannelFixture channels[10]; (void)channels; // suppress unused variable error ValidateGetTopChannels(10); } TEST_F(ChannelzRegistryBasedTest, GetTopChannelsPagination) { ExecCtx exec_ctx; // This is over the pagination limit. ChannelFixture channels[150]; (void)channels; // suppress unused variable error std::string json_str = ChannelzRegistry::GetTopChannels(0); grpc::testing::ValidateGetTopChannelsResponseProtoJsonTranslation( json_str.c_str()); grpc_error_handle error = GRPC_ERROR_NONE; Json parsed_json = Json::Parse(json_str, &error); ASSERT_EQ(error, GRPC_ERROR_NONE) << grpc_error_std_string(error); ASSERT_EQ(parsed_json.type(), Json::Type::OBJECT); // 100 is the pagination limit. ValidateJsonArraySize((*parsed_json.mutable_object())["channel"], 100); ValidateJsonEnd(parsed_json, false); // Now we get the rest. json_str = ChannelzRegistry::GetTopChannels(101); grpc::testing::ValidateGetTopChannelsResponseProtoJsonTranslation( json_str.c_str()); error = GRPC_ERROR_NONE; parsed_json = Json::Parse(json_str, &error); ASSERT_EQ(error, GRPC_ERROR_NONE) << grpc_error_std_string(error); ASSERT_EQ(parsed_json.type(), Json::Type::OBJECT); ValidateJsonArraySize((*parsed_json.mutable_object())["channel"], 50); ValidateJsonEnd(parsed_json, true); } TEST_F(ChannelzRegistryBasedTest, GetTopChannelsUuidCheck) { const intptr_t kNumChannels = 50; ExecCtx exec_ctx; ChannelFixture channels[kNumChannels]; (void)channels; // suppress unused variable error std::string json_str = ChannelzRegistry::GetTopChannels(0); grpc_error_handle error = GRPC_ERROR_NONE; Json parsed_json = Json::Parse(json_str, &error); ASSERT_EQ(error, GRPC_ERROR_NONE) << grpc_error_std_string(error); ASSERT_EQ(parsed_json.type(), Json::Type::OBJECT); Json& array = (*parsed_json.mutable_object())["channel"]; ValidateJsonArraySize(array, kNumChannels); std::vector uuids = GetUuidListFromArray(array.array_value()); for (int i = 0; i < kNumChannels; ++i) { EXPECT_EQ(i + 1, uuids[i]); } } TEST_F(ChannelzRegistryBasedTest, GetTopChannelsMiddleUuidCheck) { const intptr_t kNumChannels = 50; const intptr_t kMidQuery = 40; ExecCtx exec_ctx; ChannelFixture channels[kNumChannels]; (void)channels; // suppress unused variable error // Only query for the end of the channels. std::string json_str = ChannelzRegistry::GetTopChannels(kMidQuery); grpc_error_handle error = GRPC_ERROR_NONE; Json parsed_json = Json::Parse(json_str, &error); ASSERT_EQ(error, GRPC_ERROR_NONE) << grpc_error_std_string(error); ASSERT_EQ(parsed_json.type(), Json::Type::OBJECT); Json& array = (*parsed_json.mutable_object())["channel"]; ValidateJsonArraySize(array, kNumChannels - kMidQuery + 1); std::vector uuids = GetUuidListFromArray(array.array_value()); for (size_t i = 0; i < uuids.size(); ++i) { EXPECT_EQ(static_cast(kMidQuery + i), uuids[i]); } } TEST_F(ChannelzRegistryBasedTest, GetTopChannelsNoHitUuid) { ExecCtx exec_ctx; ChannelFixture pre_channels[40]; // will take uuid[1, 40] (void)pre_channels; // suppress unused variable error ServerFixture servers[10]; // will take uuid[41, 50] (void)servers; // suppress unused variable error ChannelFixture channels[10]; // will take uuid[51, 60] (void)channels; // suppress unused variable error // Query in the middle of the server channels. std::string json_str = ChannelzRegistry::GetTopChannels(45); grpc_error_handle error = GRPC_ERROR_NONE; Json parsed_json = Json::Parse(json_str, &error); ASSERT_EQ(error, GRPC_ERROR_NONE) << grpc_error_std_string(error); ASSERT_EQ(parsed_json.type(), Json::Type::OBJECT); Json& array = (*parsed_json.mutable_object())["channel"]; ValidateJsonArraySize(array, 10); std::vector uuids = GetUuidListFromArray(array.array_value()); for (size_t i = 0; i < uuids.size(); ++i) { EXPECT_EQ(static_cast(51 + i), uuids[i]); } } TEST_F(ChannelzRegistryBasedTest, GetTopChannelsMoreGaps) { ExecCtx exec_ctx; ChannelFixture channel_with_uuid1; { ServerFixture channel_with_uuid2; } ChannelFixture channel_with_uuid3; { ServerFixture server_with_uuid4; } ChannelFixture channel_with_uuid5; // Current state of list: [1, NULL, 3, NULL, 5] std::string json_str = ChannelzRegistry::GetTopChannels(2); grpc_error_handle error = GRPC_ERROR_NONE; Json parsed_json = Json::Parse(json_str, &error); ASSERT_EQ(error, GRPC_ERROR_NONE) << grpc_error_std_string(error); ASSERT_EQ(parsed_json.type(), Json::Type::OBJECT); Json array = (*parsed_json.mutable_object())["channel"]; ValidateJsonArraySize(array, 2); std::vector uuids = GetUuidListFromArray(array.array_value()); EXPECT_EQ(static_cast(3), uuids[0]); EXPECT_EQ(static_cast(5), uuids[1]); json_str = ChannelzRegistry::GetTopChannels(4); error = GRPC_ERROR_NONE; parsed_json = Json::Parse(json_str, &error); ASSERT_EQ(error, GRPC_ERROR_NONE) << grpc_error_std_string(error); ASSERT_EQ(parsed_json.type(), Json::Type::OBJECT); array = (*parsed_json.mutable_object())["channel"]; ValidateJsonArraySize(array, 1); uuids = GetUuidListFromArray(array.array_value()); EXPECT_EQ(static_cast(5), uuids[0]); } TEST_F(ChannelzRegistryBasedTest, GetTopChannelsUuidAfterCompaction) { const intptr_t kLoopIterations = 50; ExecCtx exec_ctx; std::vector> even_channels; { // these will delete and unregister themselves after this block. std::vector> odd_channels; for (int i = 0; i < kLoopIterations; i++) { odd_channels.push_back(absl::make_unique()); even_channels.push_back(absl::make_unique()); } } std::string json_str = ChannelzRegistry::GetTopChannels(0); grpc_error_handle error = GRPC_ERROR_NONE; Json parsed_json = Json::Parse(json_str, &error); ASSERT_EQ(error, GRPC_ERROR_NONE) << grpc_error_std_string(error); ASSERT_EQ(parsed_json.type(), Json::Type::OBJECT); Json& array = (*parsed_json.mutable_object())["channel"]; ValidateJsonArraySize(array, kLoopIterations); std::vector uuids = GetUuidListFromArray(array.array_value()); for (int i = 0; i < kLoopIterations; ++i) { // only the even uuids will still be present. EXPECT_EQ((i + 1) * 2, uuids[i]); } } TEST_F(ChannelzRegistryBasedTest, InternalChannelTest) { ExecCtx exec_ctx; ChannelFixture channels[10]; (void)channels; // suppress unused variable error // create an internal channel grpc_arg client_a[] = { grpc_channel_arg_integer_create( const_cast(GRPC_ARG_CHANNELZ_IS_INTERNAL_CHANNEL), 1), grpc_channel_arg_integer_create( const_cast(GRPC_ARG_ENABLE_CHANNELZ), true), }; grpc_channel_args client_args = {GPR_ARRAY_SIZE(client_a), client_a}; grpc_channel* internal_channel = grpc_insecure_channel_create("fake_target", &client_args, nullptr); // The internal channel should not be returned from the request ValidateGetTopChannels(10); grpc_channel_destroy(internal_channel); } TEST(ChannelzServerTest, BasicServerAPIFunctionality) { ExecCtx exec_ctx; ServerFixture server(10); ServerNode* channelz_server = Server::FromC(server.server())->channelz_node(); channelz_server->RecordCallStarted(); channelz_server->RecordCallFailed(); channelz_server->RecordCallSucceeded(); ValidateServer(channelz_server, {1, 1, 1}); channelz_server->RecordCallStarted(); channelz_server->RecordCallFailed(); channelz_server->RecordCallSucceeded(); channelz_server->RecordCallStarted(); channelz_server->RecordCallFailed(); channelz_server->RecordCallSucceeded(); ValidateServer(channelz_server, {3, 3, 3}); } TEST_F(ChannelzRegistryBasedTest, BasicGetServersTest) { ExecCtx exec_ctx; ServerFixture server; ValidateGetServers(1); } TEST_F(ChannelzRegistryBasedTest, NoServersTest) { ExecCtx exec_ctx; ValidateGetServers(0); } TEST_F(ChannelzRegistryBasedTest, ManyServersTest) { ExecCtx exec_ctx; ServerFixture servers[10]; (void)servers; // suppress unused variable error ValidateGetServers(10); } INSTANTIATE_TEST_SUITE_P(ChannelzChannelTestSweep, ChannelzChannelTest, ::testing::Values(0, 8, 64, 1024, 1024 * 1024)); } // namespace testing } // namespace channelz } // namespace grpc_core int main(int argc, char** argv) { grpc::testing::TestEnvironment env(argc, argv); grpc_init(); ::testing::InitGoogleTest(&argc, argv); int ret = RUN_ALL_TESTS(); grpc_shutdown(); return ret; }