Merge branch 'tyler_1k_shard_unit_test' of github.com:memgraph/memgraph into T1122-MG-ShardManager-ThreadPool

src/io/local_transport/local_transport.hpp

@@ -60,5 +60,9 @@ class LocalTransport {
     std::random_device rng;
     return distrib(rng);
   }
+
+  std::unordered_map<std::string, LatencyHistogramSummary> ResponseLatencies() {
+    return local_transport_handle_->ResponseLatencies();
+  }
 };
 };  // namespace memgraph::io::local_transport

tests/unit/1k_shards_1k_create_scanall.cpp

@@ -0,0 +1,258 @@
+// Copyright 2022 Memgraph Ltd.
+//
+// Use of this software is governed by the Business Source License
+// included in the file licenses/BSL.txt; by using this file, you agree to be bound by the terms of the Business Source
+// License, and you may not use this file except in compliance with the Business Source License.
+//
+// As of the Change Date specified in that file, in accordance with
+// the Business Source License, use of this software will be governed
+// by the Apache License, Version 2.0, included in the file
+// licenses/APL.txt.
+
+#include <chrono>
+#include <iostream>
+#include <limits>
+#include <memory>
+#include <set>
+#include <thread>
+
+#include <gtest/gtest.h>
+
+#include "coordinator/coordinator_client.hpp"
+#include "coordinator/coordinator_rsm.hpp"
+#include "coordinator/shard_map.hpp"
+#include "io/address.hpp"
+#include "io/local_transport/local_system.hpp"
+#include "io/local_transport/local_transport.hpp"
+#include "io/simulator/simulator.hpp"
+#include "io/simulator/simulator_config.hpp"
+#include "io/simulator/simulator_transport.hpp"
+#include "machine_manager/machine_config.hpp"
+#include "machine_manager/machine_manager.hpp"
+#include "query/v2/requests.hpp"
+#include "query/v2/shard_request_manager.hpp"
+#include "utils/print_helpers.hpp"
+#include "utils/variant_helpers.hpp"
+
+namespace memgraph::tests::simulation {
+
+using coordinator::Coordinator;
+using coordinator::CoordinatorClient;
+using coordinator::CoordinatorReadRequests;
+using coordinator::CoordinatorWriteRequests;
+using coordinator::CoordinatorWriteResponses;
+using coordinator::GetShardMapRequest;
+using coordinator::GetShardMapResponse;
+using coordinator::Hlc;
+using coordinator::HlcResponse;
+using coordinator::Shard;
+using coordinator::ShardMap;
+using io::Address;
+using io::Io;
+using io::local_transport::LocalSystem;
+using io::local_transport::LocalTransport;
+using io::rsm::RsmClient;
+using machine_manager::MachineConfig;
+using machine_manager::MachineManager;
+using msgs::ReadRequests;
+using msgs::ReadResponses;
+using msgs::WriteRequests;
+using msgs::WriteResponses;
+using storage::v3::LabelId;
+using storage::v3::SchemaProperty;
+
+using CompoundKey = std::pair<int, int>;
+using ShardClient = RsmClient<LocalTransport, WriteRequests, WriteResponses, ReadRequests, ReadResponses>;
+
+struct CreateVertex {
+  int first;
+  int second;
+
+  friend std::ostream &operator<<(std::ostream &in, const CreateVertex &add) {
+    in << "CreateVertex { first: " << add.first << ", second: " << add.second << " }";
+    return in;
+  }
+};
+
+struct ScanAll {
+  friend std::ostream &operator<<(std::ostream &in, const ScanAll &get) {
+    in << "ScanAll {}";
+    return in;
+  }
+};
+
+MachineManager<LocalTransport> MkMm(LocalSystem &local_system, std::vector<Address> coordinator_addresses, Address addr,
+                                    ShardMap shard_map) {
+  MachineConfig config{
+      .coordinator_addresses = coordinator_addresses,
+      .is_storage = true,
+      .is_coordinator = true,
+      .listen_ip = addr.last_known_ip,
+      .listen_port = addr.last_known_port,
+  };
+
+  Io<LocalTransport> io = local_system.Register(addr);
+
+  Coordinator coordinator{shard_map};
+
+  return MachineManager{io, config, coordinator, shard_map};
+}
+
+void RunMachine(MachineManager<LocalTransport> mm) { mm.Run(); }
+
+void WaitForShardsToInitialize(CoordinatorClient<LocalTransport> &coordinator_client) {
+  // Call coordinator client's read method for GetShardMap and keep
+  // reading it until the shard map contains proper replicas for
+  // each shard in the label space.
+
+  while (true) {
+    GetShardMapRequest req{};
+    CoordinatorReadRequests read_req = req;
+    auto read_res = coordinator_client.SendReadRequest(read_req);
+    if (read_res.HasError()) {
+      // timed out
+      continue;
+    }
+    auto response_result = read_res.GetValue();
+    auto response = std::get<GetShardMapResponse>(response_result);
+    auto shard_map = response.shard_map;
+
+    if (shard_map.ClusterInitialized()) {
+      spdlog::info("cluster stabilized - beginning workload");
+      return;
+    }
+  }
+}
+
+ShardMap TestShardMap(int n_splits, int replication_factor) {
+  ShardMap sm{};
+
+  const std::string label_name = std::string("test_label");
+
+  // register new properties
+  const std::vector<std::string> property_names = {"property_1", "property_2"};
+  const auto properties = sm.AllocatePropertyIds(property_names);
+  const auto property_id_1 = properties.at("property_1");
+  const auto property_id_2 = properties.at("property_2");
+  const auto type_1 = memgraph::common::SchemaType::INT;
+  const auto type_2 = memgraph::common::SchemaType::INT;
+
+  // register new label space
+  std::vector<SchemaProperty> schema = {
+      SchemaProperty{.property_id = property_id_1, .type = type_1},
+      SchemaProperty{.property_id = property_id_2, .type = type_2},
+  };
+
+  std::optional<LabelId> label_id = sm.InitializeNewLabel(label_name, schema, replication_factor, sm.shard_map_version);
+  MG_ASSERT(label_id.has_value());
+
+  // split the shard at N split points
+  for (int64_t i = 1; i < n_splits; ++i) {
+    const auto key1 = memgraph::storage::v3::PropertyValue(i);
+    const auto key2 = memgraph::storage::v3::PropertyValue(0);
+
+    const auto split_point = {key1, key2};
+
+    const bool split_success = sm.SplitShard(sm.shard_map_version, label_id.value(), split_point);
+
+    MG_ASSERT(split_success);
+  }
+
+  return sm;
+}
+
+void ExecuteOp(msgs::ShardRequestManager<LocalTransport> &shard_request_manager,
+               std::set<CompoundKey> &correctness_model, CreateVertex create_vertex) {
+  const auto key1 = memgraph::storage::v3::PropertyValue(create_vertex.first);
+  const auto key2 = memgraph::storage::v3::PropertyValue(create_vertex.second);
+
+  std::vector<msgs::Value> primary_key = {msgs::Value(int64_t(create_vertex.first)),
+                                          msgs::Value(int64_t(create_vertex.second))};
+
+  if (correctness_model.contains(std::make_pair(create_vertex.first, create_vertex.second))) {
+    // TODO(tyler) remove this early-return when we have properly handled setting non-unique vertexes
+    return;
+  }
+
+  msgs::ExecutionState<msgs::CreateVerticesRequest> state;
+
+  auto label_id = shard_request_manager.NameToLabel("test_label");
+
+  msgs::NewVertex nv{.primary_key = primary_key};
+  nv.label_ids.push_back({label_id});
+
+  std::vector<msgs::NewVertex> new_vertices;
+  new_vertices.push_back(std::move(nv));
+
+  auto result = shard_request_manager.Request(state, std::move(new_vertices));
+
+  MG_ASSERT(result.size() == 1);
+  MG_ASSERT(result[0].success);
+
+  correctness_model.emplace(std::make_pair(create_vertex.first, create_vertex.second));
+}
+
+void ExecuteOp(msgs::ShardRequestManager<LocalTransport> &shard_request_manager,
+               std::set<CompoundKey> &correctness_model, ScanAll scan_all) {
+  msgs::ExecutionState<msgs::ScanVerticesRequest> request{.label = "test_label"};
+
+  auto results = shard_request_manager.Request(request);
+
+  MG_ASSERT(results.size() == correctness_model.size());
+
+  for (const auto &vertex_accessor : results) {
+    const auto properties = vertex_accessor.Properties();
+    const auto primary_key = vertex_accessor.Id().second;
+    const CompoundKey model_key = std::make_pair(primary_key[0].int_v, primary_key[1].int_v);
+    MG_ASSERT(correctness_model.contains(model_key));
+  }
+}
+
+TEST(MachineManager, ManyShards) {
+  LocalSystem local_system;
+
+  auto cli_addr = Address::TestAddress(1);
+  auto machine_1_addr = cli_addr.ForkUniqueAddress();
+
+  Io<LocalTransport> cli_io = local_system.Register(cli_addr);
+  Io<LocalTransport> cli_io_2 = local_system.Register(Address::TestAddress(2));
+
+  auto coordinator_addresses = std::vector{
+      machine_1_addr,
+  };
+
+  auto shard_splits = 1024;
+  auto replication_factor = 1;
+  auto create_ops = 1000;
+
+  ShardMap initialization_sm = TestShardMap(shard_splits, replication_factor);
+
+  auto mm_1 = MkMm(local_system, coordinator_addresses, machine_1_addr, initialization_sm);
+  Address coordinator_address = mm_1.CoordinatorAddress();
+
+  auto mm_thread_1 = std::jthread(RunMachine, std::move(mm_1));
+
+  CoordinatorClient<LocalTransport> coordinator_client(cli_io, coordinator_address, {coordinator_address});
+  WaitForShardsToInitialize(coordinator_client);
+
+  msgs::ShardRequestManager<LocalTransport> shard_request_manager(std::move(coordinator_client), std::move(cli_io));
+
+  shard_request_manager.StartTransaction();
+
+  auto correctness_model = std::set<CompoundKey>{};
+
+  for (int i = 0; i < create_ops; i++) {
+    ExecuteOp(shard_request_manager, correctness_model, CreateVertex{.first = i, .second = i});
+  }
+
+  ExecuteOp(shard_request_manager, correctness_model, ScanAll{});
+
+  local_system.ShutDown();
+
+  auto histo = cli_io_2.ResponseLatencies();
+
+  using memgraph::utils::print_helpers::operator<<;
+  std::cout << "response latencies: " << histo << std::endl;
+}
+
+}  // namespace memgraph::tests::simulation

tests/unit/CMakeLists.txt

@@ -442,3 +442,7 @@ target_link_libraries(${test_prefix}pretty_print_ast_to_original_expression_test
 # Tests for mg-coordinator
 add_unit_test(coordinator_shard_map.cpp)
 target_link_libraries(${test_prefix}coordinator_shard_map mg-coordinator)
+
+# Tests for 1000 shards, 1000 creates, scan
+add_unit_test(1k_shards_1k_create_scanall.cpp)
+target_link_libraries(${test_prefix}1k_shards_1k_create_scanall mg-io mg-coordinator mg-storage-v3 mg-query-v2)