#include #include #include #include #include #include namespace DB { NamesAndTypesList StorageSystemClusters::getNamesAndTypes() { return { {"cluster", std::make_shared()}, {"shard_num", std::make_shared()}, {"shard_weight", std::make_shared()}, {"replica_num", std::make_shared()}, {"host_name", std::make_shared()}, {"host_address", std::make_shared()}, {"port", std::make_shared()}, {"is_local", std::make_shared()}, {"user", std::make_shared()}, {"default_database", std::make_shared()}, {"errors_count", std::make_shared()}, {"slowdowns_count", std::make_shared()}, {"estimated_recovery_time", std::make_shared()} }; } void StorageSystemClusters::fillData(MutableColumns & res_columns, const Context & context, const SelectQueryInfo &) const { for (const auto & name_and_cluster : context.getClusters().getContainer()) writeCluster(res_columns, name_and_cluster); const auto databases = DatabaseCatalog::instance().getDatabases(); for (const auto & name_and_database : databases) { if (const auto * replicated = typeid_cast(name_and_database.second.get())) { // A quick fix for stateless tests with DatabaseReplicated. Its ZK // node can be destroyed at any time. If another test lists // system.clusters to get client command line suggestions, it will // get an error when trying to get the info about DB from ZK. // Just ignore these inaccessible databases. A good example of a // failing test is `01526_client_start_and_exit`. try { writeCluster(res_columns, {name_and_database.first, replicated->getCluster()}); } catch (...) { tryLogCurrentException(__PRETTY_FUNCTION__); } } } } void StorageSystemClusters::writeCluster(MutableColumns & res_columns, const NameAndCluster & name_and_cluster) { const String & cluster_name = name_and_cluster.first; const ClusterPtr & cluster = name_and_cluster.second; const auto & shards_info = cluster->getShardsInfo(); const auto & addresses_with_failover = cluster->getShardsAddresses(); for (size_t shard_index = 0; shard_index < shards_info.size(); ++shard_index) { const auto & shard_info = shards_info[shard_index]; const auto & shard_addresses = addresses_with_failover[shard_index]; const auto pool_status = shard_info.pool->getStatus(); for (size_t replica_index = 0; replica_index < shard_addresses.size(); ++replica_index) { size_t i = 0; const auto & address = shard_addresses[replica_index]; res_columns[i++]->insert(cluster_name); res_columns[i++]->insert(shard_info.shard_num); res_columns[i++]->insert(shard_info.weight); res_columns[i++]->insert(replica_index + 1); res_columns[i++]->insert(address.host_name); auto resolved = address.getResolvedAddress(); res_columns[i++]->insert(resolved ? resolved->host().toString() : String()); res_columns[i++]->insert(address.port); res_columns[i++]->insert(address.is_local); res_columns[i++]->insert(address.user); res_columns[i++]->insert(address.default_database); res_columns[i++]->insert(pool_status[replica_index].error_count); res_columns[i++]->insert(pool_status[replica_index].slowdown_count); res_columns[i++]->insert(pool_status[replica_index].estimated_recovery_time.count()); } } } }