public VoltTable[] doWork(SQLStmt select, SQLStmt insert, long cid) {
if (select != null) { // use select / insert
// Get row for cid and copy to new table.
voltQueueSQL(select, cid);
VoltTable[] results = voltExecuteSQL();
VoltTable data = results[0];
if (data.getRowCount() != 1) {
throw new VoltAbortException("Failed to find cid that should exist: cid=" + cid);
}
data.advanceRow();
long rcid = data.getLong(0);
if (rcid != cid) {
throw new VoltAbortException(
"Failed to find cid does not match. (" + rcid + ":" + cid + ")");
}
long txnid = data.getLong(1);
long rowid = data.getLong(2);
voltQueueSQL(insert, rcid, txnid, rowid);
return voltExecuteSQL();
} else { // use insert into
voltQueueSQL(insert, cid);
VoltTable[] results = voltExecuteSQL();
VoltTable data = results[0];
int cnt = (int) data.fetchRow(0).getLong(0);
if (cnt != 1) {
throw new VoltAbortException(
"incorrect number of inserted rows=" + cnt + " for cid=" + cid);
}
return results;
}
}
public VoltTable[] run(
short w_id,
byte d_id,
double h_amount,
short c_w_id,
byte c_d_id,
byte[] c_last,
TimestampType timestamp)
throws VoltAbortException {
voltQueueSQL(getCustomersByLastName, c_last, c_d_id, c_w_id);
final VoltTable customers = voltExecuteSQL()[0];
final int namecnt = customers.getRowCount();
if (namecnt == 0) {
String c_lastString = null;
try {
c_lastString = new String(c_last, "UTF-8");
} catch (UnsupportedEncodingException e) {
throw new RuntimeException(e);
}
throw new VoltAbortException(
"paymentByCustomerNameC: no customers with last name: "
+ c_lastString
+ " in warehouse: "
+ c_w_id
+ " and in district "
+ c_d_id);
}
final int index = (namecnt - 1) / 2;
final VoltTableRow customer = customers.fetchRow(index);
final int c_id = (int) customer.getLong(C_ID_IDX);
return processPayment(w_id, d_id, c_w_id, c_d_id, c_id, h_amount, customer, timestamp);
}
public VoltTable[] getOrderStatus(short w_id, byte d_id, int c_id, VoltTable customer) {
voltQueueSQL(getLastOrder, w_id, d_id, c_id);
final VoltTable order = voltExecuteSQL()[0];
final long o_id = order.fetchRow(0).getLong(O_ID_IDX);
voltQueueSQL(getOrderLines, w_id, o_id, d_id);
final VoltTable orderLines = voltExecuteSQL()[0];
return new VoltTable[] {customer, order, orderLines};
}
/** sums the contents of a latency bucket table. */
private long[] latencySummaryHelper(VoltTable vt) {
long sums[] = new long[20];
for (int i = 0; i < vt.getRowCount(); i++) {
VoltTableRow row = vt.fetchRow(i);
// 20 buckets
for (int c = 0; c < 20; c++) {
// 7 ignored header columns
sums[c] += row.getLong(c + 7);
}
}
return sums;
}
@Override
public void clientCallback(ClientResponse response) throws Exception {
// Track the result of the operation (Success, Failure, Payload traffic...)
if (response.getStatus() == ClientResponse.SUCCESS) {
final VoltTable pairData = response.getResults()[0];
// Cache miss (Key does not exist)
if (pairData.getRowCount() == 0) {
missedGets.incrementAndGet();
} else {
final PayloadProcessor.Pair pair =
processor.retrieveFromStore(
pairData.fetchRow(0).getString(0), pairData.fetchRow(0).getVarbinary(1));
successfulGets.incrementAndGet();
if (rand < config.multisingleratio) successfulGetsMPT.incrementAndGet();
else successfulGetsMPF.incrementAndGet();
networkGetData.addAndGet(pair.getStoreValueLength());
rawGetData.addAndGet(pair.getRawValueLength());
}
} else {
failedGets.incrementAndGet();
}
}
@Override
public void clientCallback(ClientResponse response) throws Exception {
// Track the result of the operation (Success, Failure, Payload traffic...)
if (response.getStatus() == ClientResponse.SUCCESS) {
successfulPuts.incrementAndGet();
if (rand < config.multisingleratio) successfulPutsMPT.incrementAndGet();
else successfulPutsMPF.incrementAndGet();
final VoltTable pairData = response.getResults()[0];
final VoltTableRow tablerow = pairData.fetchRow(0);
final long counter = tablerow.getLong(0);
hashMap.put(thisPair.Key, counter);
} else {
failedPuts.incrementAndGet();
}
networkPutData.addAndGet(storeValueLength);
rawPutData.addAndGet(rawValueLength);
}
/**
* Queries all the tables present in default database and load them into 'tables' map.
*
* @param theTables the tables
*/
@Override
protected void openInternal(final Map<Base36, VoltDBTable> theTables) {
theTables.clear();
final VoltTable[] results;
try {
results = backend.client().callProcedure("@SystemCatalog", "TABLES").getResults();
for (final VoltTable node : results) {
int count = 0;
while (node.advanceRow()) {
final VoltTableRow row = node.fetchRow(count++);
final String tName = row.getString("TABLE_NAME");
theTables.put(Base36.get(tName.toLowerCase()), new VoltDBTable(this, tName));
}
}
} catch (final Exception e) {
throw new DBException("Error Opening Database: " + theTables, e);
}
}
public long run(String key, long by, byte increment) {
final int now = Shared.init(this, key);
voltQueueSQL(check, key, now);
VoltTable checkResult = voltExecuteSQL()[1];
if (checkResult.getRowCount() == 0) return VoltType.NULL_BIGINT;
try {
final byte[] oldRawData = checkResult.fetchRow(0).getVarbinary(1);
final long old_value = Long.parseLong(new String(oldRawData, "UTF-8"));
long value = old_value + (increment == 1 ? by : -by);
if (value < 0l) // Underflow protection: per protocol, this should be an unsigned long...
value = 0l;
final byte[] newRawData = Long.toString(value).getBytes("UTF-8");
voltQueueSQL(update, newRawData, key);
voltExecuteSQL(true);
return old_value;
} catch (Exception x) {
throw new VoltAbortException(x);
}
}
@Override
public void clientCallback(ClientResponse response) throws Exception {
if (response.getStatus() == ClientResponse.SUCCESS) {
final VoltTable pairData = response.getResults()[0];
if (pairData.getRowCount() != 0) {
successfulPutCount.incrementAndGet();
final long hashMapCount = hashMap.get(key);
final long dbCount = ByteBuffer.wrap(pairData.fetchRow(0).getVarbinary(1)).getLong(0);
if (dbCount < hashMapCount) {
missingPutCount.incrementAndGet();
incorrectPutCount.addAndGet(hashMapCount - dbCount);
System.out.printf(
"ERROR: Key %s: count in db '%d' is less than client expected '%d'\n",
key.replaceAll("\\s", ""), dbCount, hashMapCount);
}
}
} else {
System.out.print("ERROR: Bad Client response from Volt");
System.exit(1);
}
}
public VoltTable[] run(short w_id, byte d_id, byte[] c_last) {
voltQueueSQL(getCustomersByLastName, w_id, d_id, c_last);
VoltTable customers = voltExecuteSQL()[0];
// Get the midpoint customer's id
final int namecnt = customers.getRowCount();
final int index = (namecnt - 1) / 2;
final VoltTableRow customer = customers.fetchRow(index);
final long c_id = customer.getLong(C_ID_IDX);
// Build an VoltTable with a single customer row
final VoltTable customerResultTable = result_template.clone(1024);
customerResultTable.addRow(
c_id,
customer.getStringAsBytes(1),
customer.getStringAsBytes(2),
customer.getStringAsBytes(3),
customer.getDouble(4));
// Do the rest of the work
return getOrderStatus(w_id, d_id, c_id, customerResultTable);
}
public long run(String key, byte[] value) {
final int now = baseInit(key);
voltQueueSQL(check, key, now);
VoltTable checkResult = voltExecuteSQL()[1];
if (checkResult.getRowCount() == 0) return Result.NOT_STORED;
ByteArrayOutputStream stream = new ByteArrayOutputStream();
try {
byte[] old = checkResult.fetchRow(0).getVarbinary(1);
stream.write(value, 0, value.length);
stream.write(old, 0, old.length);
voltQueueSQL(update, stream.toByteArray(), key);
voltExecuteSQL(true);
return Result.STORED;
} catch (Exception x) {
throw new VoltAbortException(x);
} finally {
try {
stream.close();
} catch (Exception cx) {
}
}
}
public VoltTable[] run(long rowid, long ignore) {
@SuppressWarnings("deprecation")
long txid = getVoltPrivateRealTransactionIdDontUseMe();
// Critical for proper determinism: get a cluster-wide consistent Random instance
Random rand = new Random(txid);
// Check if the record exists first
voltQueueSQL(check, rowid);
// Grab resultset for possibly existing record
VoltTable item = voltExecuteSQL()[0];
// If the record exist perform an update or delete
if (item.getRowCount() > 0) {
// Randomly decide whether to delete (or update) the record
if (rand.nextBoolean()) {
voltQueueSQL(delete, rowid);
// Export deletion
VoltTableRow row = item.fetchRow(0);
voltQueueSQL(
export,
txid,
rowid,
row.get(1, VoltType.TINYINT),
row.get(2, VoltType.TINYINT),
row.get(3, VoltType.TINYINT),
row.get(4, VoltType.SMALLINT),
row.get(5, VoltType.SMALLINT),
row.get(6, VoltType.INTEGER),
row.get(7, VoltType.INTEGER),
row.get(8, VoltType.BIGINT),
row.get(9, VoltType.BIGINT),
row.get(10, VoltType.TIMESTAMP),
row.get(11, VoltType.TIMESTAMP),
row.get(12, VoltType.FLOAT),
row.get(13, VoltType.FLOAT),
row.get(14, VoltType.DECIMAL),
row.get(15, VoltType.DECIMAL),
row.get(16, VoltType.STRING),
row.get(17, VoltType.STRING),
row.get(18, VoltType.STRING),
row.get(19, VoltType.STRING),
row.get(20, VoltType.STRING),
row.get(21, VoltType.STRING));
} else {
SampleRecord record = new SampleRecord(rowid, rand);
voltQueueSQL(
update,
record.type_null_tinyint,
record.type_not_null_tinyint,
record.type_null_smallint,
record.type_not_null_smallint,
record.type_null_integer,
record.type_not_null_integer,
record.type_null_bigint,
record.type_not_null_bigint,
record.type_null_timestamp,
record.type_not_null_timestamp,
record.type_null_float,
record.type_not_null_float,
record.type_null_decimal,
record.type_not_null_decimal,
record.type_null_varchar25,
record.type_not_null_varchar25,
record.type_null_varchar128,
record.type_not_null_varchar128,
record.type_null_varchar1024,
record.type_not_null_varchar1024,
rowid);
}
} else {
// Insert a new record
SampleRecord record = new SampleRecord(rowid, rand);
voltQueueSQL(
insert,
rowid,
record.rowid_group,
record.type_null_tinyint,
record.type_not_null_tinyint,
record.type_null_smallint,
record.type_not_null_smallint,
record.type_null_integer,
record.type_not_null_integer,
record.type_null_bigint,
record.type_not_null_bigint,
record.type_null_timestamp,
record.type_not_null_timestamp,
record.type_null_float,
record.type_not_null_float,
record.type_null_decimal,
record.type_not_null_decimal,
record.type_null_varchar25,
record.type_not_null_varchar25,
record.type_null_varchar128,
record.type_not_null_varchar128,
record.type_null_varchar1024,
record.type_not_null_varchar1024);
}
// Execute last SQL batch
voltExecuteSQL(true);
// Retun to caller
return null;
}
@Override
public void run() {
// ratio of upsert for @Load*Table
final float upsertratio = 0.50F;
// ratio of upsert to an existing table for @Load*Table
final float upserthitratio = 0.20F;
CopyAndDeleteDataTask cdtask = new CopyAndDeleteDataTask();
cdtask.start();
try {
while (m_shouldContinue.get()) {
// 1 in 3 gets copied and then deleted after leaving some data
byte shouldCopy = (byte) (m_random.nextInt(3) == 0 ? 1 : 0);
byte upsertMode = (byte) (m_random.nextFloat() < upsertratio ? 1 : 0);
byte upsertHitMode =
(byte) ((upsertMode != 0) && (m_random.nextFloat() < upserthitratio) ? 1 : 0);
CountDownLatch latch = new CountDownLatch(batchSize);
final ArrayList<Long> lcpDelQueue = new ArrayList<Long>();
// try to insert batchSize random rows
for (int i = 0; i < batchSize; i++) {
m_table.clearRowData();
m_permits.acquire();
long p = Math.abs(r.nextLong());
m_table.addRow(p, p, Calendar.getInstance().getTimeInMillis());
boolean success = false;
if (!m_isMP) {
Object rpartitionParam =
TheHashinator.valueToBytes(
m_table.fetchRow(0).get(m_partitionedColumnIndex, VoltType.BIGINT));
if (upsertHitMode
!= 0) { // for test upsert an existing row, insert it and then upsert same row
// again.
success =
client.callProcedure(
new InsertCallback(latch, p, shouldCopy),
m_procName,
rpartitionParam,
m_tableName,
(byte) 1,
m_table);
}
success =
client.callProcedure(
new InsertCallback(latch, p, shouldCopy),
m_procName,
rpartitionParam,
m_tableName,
(byte) 1,
m_table);
} else {
if (upsertHitMode != 0) {
success =
client.callProcedure(
new InsertCallback(latch, p, shouldCopy),
m_procName,
m_tableName,
(byte) 1,
m_table);
}
success =
client.callProcedure(
new InsertCallback(latch, p, shouldCopy),
m_procName,
m_tableName,
(byte) 1,
m_table);
}
// Ad if successfully queued but remove if proc fails.
if (success) {
if (shouldCopy != 0) {
lcpDelQueue.add(p);
} else {
onlyDelQueue.add(p);
}
}
}
// Wait for all @Load{SP|MP}Done
latch.await();
cpDelQueue.addAll(lcpDelQueue);
long nextRowCount = 0;
try {
nextRowCount = TxnId2Utils.getRowCount(client, m_tableName);
} catch (Exception e) {
hardStop("getrowcount exception", e);
}
// if no progress, throttle a bit
if (nextRowCount == currentRowCount.get()) {
Thread.sleep(1000);
}
if (onlyDelQueue.size() > 0 && m_shouldContinue.get()) {
List<Long> workList = new ArrayList<Long>();
onlyDelQueue.drainTo(workList);
CountDownLatch odlatch = new CountDownLatch(workList.size());
for (Long lcid : workList) {
client.callProcedure(new DeleteCallback(odlatch, 1), m_onlydelprocName, lcid);
}
odlatch.await();
}
}
// Any accumulated in p/mp tables are left behind.
} catch (Exception e) {
// on exception, log and end the thread, but don't kill the process
log.error(
"LoadTableLoader failed a procedure call for table "
+ m_tableName
+ " and the thread will now stop.",
e);
} finally {
cdtask.shutdown();
try {
cdtask.join();
} catch (InterruptedException ex) {
log.error("CopyDelete Task was stopped.", ex);
}
}
}
public VoltTable[] run(long zip) throws VoltAbortException {
Date timestamp = new Date();
// create a District, Warehouse, and 4 Customers (multiple, since we
// want to test for correct behavior of paymentByCustomerName.
final double initialYTD = 15241.45;
voltQueueSQL(
insertDistrict,
7L,
3L,
"A District",
"Street Addy",
"meh",
"westerfield",
"BA",
"99999",
.0825,
initialYTD,
21L);
// check that a district was inserted
long resultsl = voltExecuteSQL()[0].asScalarLong();
assert (resultsl == 1);
voltQueueSQL(
insertWarehouse,
3L,
"EZ Street WHouse",
"Headquarters",
"77 Mass. Ave.",
"Cambridge",
"AZ",
"12938",
.1234,
initialYTD);
// check that a warehouse was inserted
resultsl = voltExecuteSQL()[0].asScalarLong();
assert (resultsl == 1);
final double initialBalance = 15.75;
voltQueueSQL(
insertCustomer,
C_ID,
D_ID,
W_ID,
"I",
"Be",
"lastname",
"Place",
"Place2",
"BiggerPlace",
"AL",
"91083",
"(193) 099 - 9082",
new Date(),
"BC",
19298943.12,
.13,
initialBalance,
initialYTD,
0L,
15L,
"Some History");
// check that a customer was inserted
resultsl = voltExecuteSQL()[0].asScalarLong();
assert (resultsl == 1);
voltQueueSQL(
insertCustomer,
C_ID + 1,
D_ID,
W_ID,
"We",
"Represent",
"Customer",
"Random Department",
"Place2",
"BiggerPlace",
"AL",
"13908",
"(913) 909 - 0928",
new Date(),
"GC",
19298943.12,
.13,
initialBalance,
initialYTD,
1L,
15L,
"Some History");
// check that a customer was inserted
resultsl = voltExecuteSQL()[0].asScalarLong();
assert (resultsl == 1);
voltQueueSQL(
insertCustomer,
C_ID + 2,
D_ID,
W_ID,
"Who",
"Is",
"Customer",
"Receiving",
"450 Mass F.X.",
"BiggerPlace",
"CI",
"91083",
"(541) 931 - 0928",
new Date(),
"GC",
19899324.21,
.13,
initialBalance,
initialYTD,
2L,
15L,
"Some History");
// check that a customer was inserted
resultsl = voltExecuteSQL()[0].asScalarLong();
assert (resultsl == 1);
voltQueueSQL(
insertCustomer,
C_ID + 3,
D_ID,
W_ID,
"ICanBe",
"",
"Customer",
"street",
"place",
"BiggerPlace",
"MA",
"91083",
"(913) 909 - 0928",
new Date(),
"GC",
19298943.12,
.13,
initialBalance,
initialYTD,
3L,
15L,
"Some History");
// check that a customer was inserted
resultsl = voltExecuteSQL()[0].asScalarLong();
assert (resultsl == 1);
// long d_id, long w_id, double h_amount, String c_last, long c_w_id,
// long c_d_id
final double paymentAmount = 500.25;
// VoltTable[] results = client.callProcedure("paymentByCustomerName", W_ID,
// D_ID, paymentAmount, W_ID, D_ID, "Customer", new Date());
// assertEquals(3, results.length);
// being proc
voltQueueSQL(getCustomersByLastName, "Customer", D_ID, W_ID);
final VoltTable customers = voltExecuteSQL()[0];
final int namecnt = customers.getRowCount();
if (namecnt == 0) {
throw new VoltAbortException(
"no customers with last name: "
+ "Customer"
+ " in warehouse: "
+ W_ID
+ " and in district "
+ D_ID);
}
try {
System.out.println("PAYMENT FOUND CUSTOMERS: " + customers.toString());
} catch (Exception e) {
e.printStackTrace();
}
final int index = (namecnt - 1) / 2;
final VoltTableRow customer = customers.fetchRow(index);
final long c_id = customer.getLong(C_ID_IDX);
voltQueueSQL(getWarehouse, W_ID);
voltQueueSQL(getDistrict, W_ID, D_ID);
final VoltTable[] results = voltExecuteSQL();
final VoltTable warehouse = results[0];
final VoltTable district = results[1];
try {
System.out.println("WAREHOUSE PRE: " + warehouse.toString());
} catch (Exception e) {
e.printStackTrace();
}
voltQueueSQL(getWarehouses);
VoltTable warehouses = voltExecuteSQL()[0];
try {
System.out.println("WAREHOUSE PRE: " + warehouses.toString());
} catch (Exception e) {
e.printStackTrace();
}
voltQueueSQL(updateWarehouseBalance, paymentAmount, W_ID);
voltQueueSQL(updateDistrictBalance, paymentAmount, W_ID, D_ID);
voltExecuteSQL();
voltQueueSQL(getWarehouses);
warehouses = voltExecuteSQL()[0];
try {
System.out.println("WAREHOUSE PRE: " + warehouses.toString());
} catch (Exception e) {
e.printStackTrace();
}
// do stuff to extract district and warehouse info.
// customer info
final byte[] c_first = customer.getStringAsBytes(C_FIRST_IDX);
final byte[] c_middle = customer.getStringAsBytes(C_MIDDLE_IDX);
final byte[] c_last = customer.getStringAsBytes(C_LAST_IDX);
final byte[] c_street_1 = customer.getStringAsBytes(C_STREET_1_IDX);
final byte[] c_street_2 = customer.getStringAsBytes(C_STREET_2_IDX);
final byte[] c_city = customer.getStringAsBytes(C_CITY_IDX);
final byte[] c_state = customer.getStringAsBytes(C_STATE_IDX);
final byte[] c_zip = customer.getStringAsBytes(C_ZIP_IDX);
final byte[] c_phone = customer.getStringAsBytes(C_PHONE_IDX);
final TimestampType c_since = customer.getTimestampAsTimestamp(C_SINCE_IDX);
final byte[] c_credit = customer.getStringAsBytes(C_CREDIT_IDX);
final double c_credit_lim = customer.getDouble(C_CREDIT_LIM_IDX);
final double c_discount = customer.getDouble(C_DISCOUNT_IDX);
final double c_balance = customer.getDouble(C_BALANCE_IDX) - paymentAmount;
final double c_ytd_payment = customer.getDouble(C_YTD_PAYMENT_IDX) + paymentAmount;
final long c_payment_cnt = customer.getLong(C_PAYMENT_CNT_IDX) + 1;
byte[] c_data;
if (Arrays.equals(c_credit, Constants.BAD_CREDIT_BYTES)) {
c_data = customer.getStringAsBytes(C_DATA_IDX);
byte[] newData =
(c_id + " " + D_ID + " " + W_ID + " " + D_ID + " " + W_ID + " " + paymentAmount + "|")
.getBytes();
int newLength = newData.length + c_data.length;
if (newLength > Constants.MAX_C_DATA) {
newLength = Constants.MAX_C_DATA;
}
ByteBuilder builder = new ByteBuilder(newLength);
int minLength = newLength;
if (newData.length < minLength) minLength = newData.length;
builder.append(newData, 0, minLength);
int remaining = newLength - minLength;
builder.append(c_data, 0, remaining);
c_data = builder.array();
voltQueueSQL(
updateBCCustomer, c_balance, c_ytd_payment, c_payment_cnt, c_data, W_ID, D_ID, c_id);
} else {
c_data = new byte[0];
voltQueueSQL(updateGCCustomer, c_balance, c_ytd_payment, c_payment_cnt, W_ID, D_ID, c_id);
}
// Concatenate w_name, four spaces, d_name
byte[] w_name = warehouse.fetchRow(0).getStringAsBytes(W_NAME_IDX);
final byte[] FOUR_SPACES = {' ', ' ', ' ', ' '};
byte[] d_name = district.fetchRow(0).getStringAsBytes(D_NAME_IDX);
ByteBuilder builder = new ByteBuilder(w_name.length + FOUR_SPACES.length + d_name.length);
builder.append(w_name);
builder.append(FOUR_SPACES);
builder.append(d_name);
byte[] h_data = builder.array();
// Create the history record
voltQueueSQL(insertHistory, c_id, D_ID, W_ID, D_ID, W_ID, timestamp, paymentAmount, h_data);
voltExecuteSQL();
// TPC-C 2.5.3.3: Must display the following fields:
// W_ID, D_ID, C_ID, C_D_ID, C_W_ID, W_STREET_1, W_STREET_2, W_CITY, W_STATE, W_ZIP,
// D_STREET_1, D_STREET_2, D_CITY, D_STATE, D_ZIP, C_FIRST, C_MIDDLE, C_LAST, C_STREET_1,
// C_STREET_2, C_CITY, C_STATE, C_ZIP, C_PHONE, C_SINCE, C_CREDIT, C_CREDIT_LIM,
// C_DISCOUNT, C_BALANCE, the first 200 characters of C_DATA (only if C_CREDIT = "BC"),
// H_AMOUNT, and H_DATE.
// Return the entire warehouse and district tuples. The client provided:
// w_id, d_id, c_d_id, c_w_id, h_amount, h_data.
// Build a table for the rest
final VoltTable misc = misc_template.clone(8192);
misc.addRow(
c_id,
c_first,
c_middle,
c_last,
c_street_1,
c_street_2,
c_city,
c_state,
c_zip,
c_phone,
c_since,
c_credit,
c_credit_lim,
c_discount,
c_balance,
c_data);
// Hand back all the warehouse, district, and customer data
VoltTable[] resultsX = new VoltTable[] {warehouse, district, misc};
// resume test code
// check that the middle "Customer" was returned
assert ((C_ID + 1) == (resultsX[2].fetchRow(0).getLong("c_id")));
assert ("".equals(resultsX[2].fetchRow(0).getString("c_data")));
// Verify that both warehouse, district and customer were updated
// correctly
// VoltTable[] allTables = client.callProcedure("SelectAll");
voltQueueSQL(getWarehouses);
warehouses = voltExecuteSQL()[0];
try {
System.out.println("WAREHOUSE POST: " + warehouses.toString());
} catch (Exception e) {
e.printStackTrace();
}
assert (1 == warehouses.getRowCount());
double amt1 = initialYTD + paymentAmount;
double amt2 = warehouses.fetchRow(0).getDouble("W_YTD");
assert (amt1 == amt2);
voltQueueSQL(getDistricts);
VoltTable districts = voltExecuteSQL()[0];
assert (1 == districts.getRowCount());
assert ((initialYTD + paymentAmount) == districts.fetchRow(0).getDouble("D_YTD"));
voltQueueSQL(getCustomers);
VoltTable customersX = voltExecuteSQL()[0];
assert (4 == customersX.getRowCount());
assert ((C_ID + 1) == customersX.fetchRow(1).getLong("C_ID"));
assert ((initialBalance - paymentAmount) == customersX.fetchRow(1).getDouble("C_BALANCE"));
assert ((initialYTD + paymentAmount) == customersX.fetchRow(1).getDouble("C_YTD_PAYMENT"));
assert (2 == customersX.fetchRow(1).getLong("C_PAYMENT_CNT"));
return null;
}