Example #1
0
        internal async Task <FetchResponse> InternalFetchAsync(uint statementId, ulong offset, int max)
        {
            FetchResponse resp = await _client.FetchRequestAsync(this.ConnectionId, statementId, offset, (int)max, this.Options);

            return(resp);
        }
Example #2
0
        public void QueryManyRowTest()
        {
            var            client  = new PhoenixClient(_credentials);
            string         connId  = GenerateRandomConnId();
            RequestOptions options = RequestOptions.GetGatewayDefaultOptions();

            // In gateway mode, url format will be https://<cluster dns name>.azurehdinsight.net/hbasephoenix<N>/
            // Requests sent to hbasephoenix0/ will be forwarded to PQS on workernode0
            options.AlternativeEndpoint = "hbasephoenix0/";
            string tableName = "Persons" + connId;

            OpenConnectionResponse  openConnResponse        = null;
            CreateStatementResponse createStatementResponse = null;

            try
            {
                // Opening connection
                pbc::MapField <string, string> info = new pbc::MapField <string, string>();
                openConnResponse = client.OpenConnectionRequestAsync(connId, info, options).Result;
                // Syncing connection
                ConnectionProperties connProperties = new ConnectionProperties
                {
                    HasAutoCommit        = true,
                    AutoCommit           = false,
                    HasReadOnly          = true,
                    ReadOnly             = false,
                    TransactionIsolation = 0,
                    Catalog = "",
                    Schema  = "",
                    IsDirty = true
                };
                client.ConnectionSyncRequestAsync(connId, connProperties, options).Wait();

                createStatementResponse = client.CreateStatementRequestAsync(connId, options).Result;
                // Running query 1
                string sql1 = "CREATE TABLE " + tableName + " (LastName varchar(255) PRIMARY KEY,FirstName varchar(255))";
                client.PrepareAndExecuteRequestAsync(connId, sql1, createStatementResponse.StatementId, long.MaxValue, int.MaxValue, options).Wait();

                // Commit statement 1
                client.CommitRequestAsync(connId, options).Wait();

                // Creating statement 2
                string          sql2            = "UPSERT INTO " + tableName + " VALUES (?,?)";
                PrepareResponse prepareResponse = client.PrepareRequestAsync(connId, sql2, long.MaxValue, options).Result;
                StatementHandle statementHandle = prepareResponse.Statement;
                // Insert 300 rows
                for (int i = 0; i < 300; i++)
                {
                    pbc::RepeatedField <TypedValue> list = new pbc.RepeatedField <TypedValue>();
                    TypedValue v1 = new TypedValue
                    {
                        StringValue = "d" + i,
                        Type        = Rep.String
                    };
                    TypedValue v2 = new TypedValue
                    {
                        StringValue = "x" + i,
                        Type        = Rep.String
                    };
                    list.Add(v1);
                    list.Add(v2);
                    ExecuteResponse executeResponse = client.ExecuteRequestAsync(statementHandle, list, long.MaxValue, true, options).Result;
                }

                // Commit statement 2
                client.CommitRequestAsync(connId, options).Wait();

                // Running query 3
                string                   sql3          = "select * from " + tableName;
                ExecuteResponse          execResponse3 = client.PrepareAndExecuteRequestAsync(connId, sql3, createStatementResponse.StatementId, long.MaxValue, int.MaxValue, options).Result;
                pbc::RepeatedField <Row> rows          = execResponse3.Results[0].FirstFrame.Rows;
                for (int i = 0; i < rows.Count; i++)
                {
                    Row row = rows[i];
                    Debug.WriteLine(row.Value[0].ScalarValue.StringValue + " " + row.Value[1].ScalarValue.StringValue);
                }
                // 100 is hard coded in server side as default firstframe size
                // In order to get remaining rows, FetchRequestAsync is used
                Assert.AreEqual(100, rows.Count);

                // Fetch remaining rows, offset is not used, simply set to 0
                // if FetchResponse.Frame.Done = true, that means all the rows fetched
                FetchResponse fetchResponse = client.FetchRequestAsync(connId, createStatementResponse.StatementId, 0, int.MaxValue, options).Result;
                Assert.AreEqual(200, fetchResponse.Frame.Rows.Count);
                Assert.AreEqual(true, fetchResponse.Frame.Done);


                // Running query 4
                string sql4 = "DROP TABLE " + tableName;
                client.PrepareAndExecuteRequestAsync(connId, sql4, createStatementResponse.StatementId, long.MaxValue, int.MaxValue, options).Wait();

                // Commit statement 4
                client.CommitRequestAsync(connId, options).Wait();
            }
            catch (Exception ex)
            {
                Assert.Fail(ex.Message);
            }
            finally
            {
                if (createStatementResponse != null)
                {
                    client.CloseStatementRequestAsync(connId, createStatementResponse.StatementId, options).Wait();
                    createStatementResponse = null;
                }

                if (openConnResponse != null)
                {
                    client.CloseConnectionRequestAsync(connId, options).Wait();
                    openConnResponse = null;
                }
            }
        }
Example #3
0
        public static async void ExecuteProcedure(DataContract dataContract)
        {
            string         connId      = Guid.NewGuid().ToString();
            RequestOptions options     = RequestOptions.GetGatewayDefaultOptions();
            var            credentials = new ClusterCredentials(new Uri("jdbc:phoenix:10.16.0.206:/hbase-unsecure"), null, null);
            var            client      = new PhoenixClient(credentials);

            // In gateway mode, PQS requests will be https://<cluster dns name>.azurehdinsight.net/hbasephoenix<N>/
            // Requests sent to hbasephoenix0/ will be forwarded to PQS on workernode0
            options.AlternativeEndpoint = "hbasephoenix0/";
            OpenConnectionResponse openConnResponse = null;
            StatementHandle        statementHandle  = null;

            try
            {
                //var info = new pbc::MapField<string, string>();
                // Opening connection
                pbc::MapField <string, string> info = new pbc::MapField <string, string>();
                openConnResponse = await client.OpenConnectionRequestAsync(connId, info, options);

                // Syncing connection
                ConnectionProperties connProperties = new ConnectionProperties
                {
                    HasAutoCommit        = true,
                    AutoCommit           = true,
                    HasReadOnly          = true,
                    ReadOnly             = false,
                    TransactionIsolation = 0,
                    Catalog = "",
                    Schema  = "",
                    IsDirty = true
                };
                await client.ConnectionSyncRequestAsync(connId, connProperties, options);

                var createStatementResponse = await client.CreateStatementRequestAsync(connId, options);

                string          sql             = "SELECT * FROM Customers";
                ExecuteResponse executeResponse = await client.PrepareAndExecuteRequestAsync(connId, sql, createStatementResponse.StatementId, long.MaxValue, int.MaxValue, options);

                pbc::RepeatedField <Row> rows = executeResponse.Results[0].FirstFrame.Rows;
                // Loop through all of the returned rows and display the first two columns
                for (int i = 0; i < rows.Count; i++)
                {
                    Row row = rows[i];
                    Console.WriteLine(row.Value[0].ScalarValue.StringValue + " " + row.Value[1].ScalarValue.StringValue);
                }

                // 100 is hard-coded on the server side as the default firstframe size
                // FetchRequestAsync is called to get any remaining rows
                Console.WriteLine("");
                Console.WriteLine($"Number of rows: {rows.Count}");

                // Fetch remaining rows, offset is not used, simply set to 0
                // When FetchResponse.Frame.Done is true, all rows were fetched
                FetchResponse fetchResponse = await client.FetchRequestAsync(connId, createStatementResponse.StatementId, 0, int.MaxValue, options);

                Console.WriteLine($"Frame row count: {fetchResponse.Frame.Rows.Count}");
                Console.WriteLine($"Fetch response is done: {fetchResponse.Frame.Done}");
                Console.WriteLine("");

                // Running query 2
                string          sql2          = "select count(*) from Customers";
                ExecuteResponse countResponse = await client.PrepareAndExecuteRequestAsync(connId, sql2, createStatementResponse.StatementId, long.MaxValue, int.MaxValue, options);

                long count = countResponse.Results[0].FirstFrame.Rows[0].Value[0].ScalarValue.NumberValue;

                Console.WriteLine($"Total customer records: {count}");
                Console.WriteLine("");

                // Running query 3
                string          sql3            = "select StateProvince, count(*) as Number from Customers group by StateProvince order by Number desc";
                ExecuteResponse groupByResponse = await client.PrepareAndExecuteRequestAsync(connId, sql3, createStatementResponse.StatementId, long.MaxValue, int.MaxValue, options);

                pbc::RepeatedField <Row> stateRows = groupByResponse.Results[0].FirstFrame.Rows;
                for (int i = 0; i < stateRows.Count; i++)
                {
                    Row row = stateRows[i];
                    Console.WriteLine(row.Value[0].ScalarValue.StringValue + ": " + row.Value[1].ScalarValue.NumberValue);
                }
            }
            catch (Exception ex)
            {
            }
            finally
            {
                if (statementHandle != null)
                {
                    await client.CloseStatementRequestAsync(connId, statementHandle.Id, options);

                    statementHandle = null;
                }
                if (openConnResponse != null)
                {
                    await client.CloseConnectionRequestAsync(connId, options);

                    openConnResponse = null;
                }
            }
        }