/*-
* See the file LICENSE for redistribution information.
*
* Copyright (c) 1997,2008 Oracle. All rights reserved.
*
* $Id: TpcbExample.java,v 12.11 2008/01/08 20:58:32 bostic Exp $
*/
package db;
import com.sleepycat.db.*;
import java.io.File;
import java.io.FileNotFoundException;
import java.math.BigDecimal;
import java.util.Calendar;
import java.util.Date;
import java.util.Random;
import java.util.GregorianCalendar;
//
// This program implements a basic TPC/B driver program. To create the
// TPC/B database, run with the -i (init) flag. The number of records
// with which to populate the account, history, branch, and teller tables
// is specified by the a, s, b, and t flags respectively. To run a TPC/B
// test, use the n flag to indicate a number of transactions to run in
// each thread and -T to specify the number of threads.
//
class TpcbExample {
public static final int TELLERS_PER_BRANCH = 10;
public static final int ACCOUNTS_PER_TELLER = 10000;
public static final int HISTORY_PER_BRANCH = 2592000;
//
// The default configuration that adheres to TPCB scaling rules requires
// nearly 3 GB of space. To avoid requiring that much space for testing,
// we set the parameters much lower. If you want to run a valid 10 TPS
// configuration, uncomment the VALID_SCALING configuration
//
// VALID_SCALING configuration
/*
public static final int ACCOUNTS = 1000000;
public static final int BRANCHES = 10;
public static final int TELLERS = 100;
public static final int HISTORY = 25920000;
*/
// TINY configuration
/*
public static final int ACCOUNTS = 1000;
public static final int BRANCHES = 10;
public static final int TELLERS = 100;
public static final int HISTORY = 10000;
*/
// Default configuration
public static final int ACCOUNTS = 100000;
public static final int BRANCHES = 10;
public static final int TELLERS = 100;
public static final int HISTORY = 259200;
public static final int HISTORY_LEN = 100;
public static final int RECLEN = 100;
public static final int BEGID = 1000000;
// used by random_id()
public static final int ACCOUNT = 0;
public static final int BRANCH = 1;
public static final int TELLER = 2;
public static boolean verbose = false;
public static final String progname = "TpcbExample"; // Program name.
Environment dbenv;
int accounts, branches, tellers, history;
public TpcbExample(File home,
int accounts, int branches, int tellers, int history,
int cachesize, boolean noSync)
throws DatabaseException, FileNotFoundException {
this.accounts = accounts;
this.branches = branches;
this.tellers = tellers;
this.history = history;
EnvironmentConfig config = new EnvironmentConfig();
config.setErrorStream(System.err);
config.setErrorPrefix(progname);
config.setCacheSize(cachesize == 0 ? 4 * 1024 * 1024 : cachesize);
config.setTxnNoSync(noSync);
config.setLockDetectMode(LockDetectMode.DEFAULT);
config.setAllowCreate(true);
config.setInitializeCache(true);
config.setTransactional(true);
config.setInitializeLocking(true);
config.setInitializeLogging(true);
dbenv = new Environment(home, config);
}
public void close()
throws DatabaseException {
try {
if (dbenv != null)
dbenv.close();
} finally {
dbenv = null;
}
}
//
// Initialize the database to the number of accounts, branches,
// history records, and tellers given to the constructor.
//
public void populate() {
Database dbp = null;
int err;
int balance, idnum;
int end_anum, end_bnum, end_tnum;
int start_anum, start_bnum, start_tnum;
int h_nelem;
idnum = BEGID;
balance = 500000;
h_nelem = accounts;
try {
DatabaseConfig config = new DatabaseConfig();
config.setType(DatabaseType.HASH);
config.setHashNumElements(h_nelem);
config.setAllowCreate(true);
dbp = dbenv.openDatabase(null, "account", null, config);
} catch (Exception e1) {
// can be DatabaseException or FileNotFoundException
errExit(e1, "Open of account file failed");
}
start_anum = idnum;
populateTable(dbp, idnum, balance, h_nelem, "account");
idnum += h_nelem;
end_anum = idnum - 1;
try {
dbp.close();
} catch (DatabaseException e2) {
errExit(e2, "Account file close failed");
}
if (verbose)
System.out.println("Populated accounts: " +
String.valueOf(start_anum) + " - " +
String.valueOf(end_anum));
//
// Since the number of branches is very small, we want to use very
// small pages and only 1 key per page. This is the poor-man's way
// of getting key locking instead of page locking.
//
h_nelem = (int)branches;
try {
DatabaseConfig config = new DatabaseConfig();
config.setType(DatabaseType.HASH);
config.setHashNumElements(h_nelem);
config.setHashFillFactor(1);
config.setPageSize(512);
config.setAllowCreate(true);
dbp = dbenv.openDatabase(null, "branch", null, config);
} catch (Exception e3) {
// can be DatabaseException or FileNotFoundException
errExit(e3, "Branch file create failed");
}
start_bnum = idnum;
populateTable(dbp, idnum, balance, h_nelem, "branch");
idnum += h_nelem;
end_bnum = idnum - 1;
try {
dbp.close();
} catch (DatabaseException dbe4) {
errExit(dbe4, "Close of branch file failed");
}
if (verbose)
System.out.println("Populated branches: " +
String.valueOf(start_bnum) + " - " +
String.valueOf(end_bnum));
//
// In the case of tellers, we also want small pages, but we'll let
// the fill factor dynamically adjust itself.
//
h_nelem = (int)tellers;
try {
DatabaseConfig config = new DatabaseConfig();
config.setType(DatabaseType.HASH);
config.setHashNumElements(h_nelem);
config.setHashFillFactor(0);
config.setPageSize(512);
config.setAllowCreate(true);
dbp = dbenv.openDatabase(null, "teller", null, config);
} catch (Exception e5) {
// can be DatabaseException or FileNotFoundException
errExit(e5, "Teller file create failed");
}
start_tnum = idnum;
populateTable(dbp, idnum, balance, h_nelem, "teller");
idnum += h_nelem;
end_tnum = idnum - 1;
try {
dbp.close();
} catch (DatabaseException e6) {
errExit(e6, "Close of teller file failed");
}
if (verbose)
System.out.println("Populated tellers: " +
String.valueOf(start_tnum) + " - " +
String.valueOf(end_tnum));
try {
DatabaseConfig config = new DatabaseConfig();
config.setType(DatabaseType.RECNO);
config.setRecordLength(HISTORY_LEN);
config.setAllowCreate(true);
dbp = dbenv.openDatabase(null, "history", null, config);
} catch (Exception e7) {
// can be DatabaseException or FileNotFoundException
errExit(e7, "Create of history file failed");
}
populateHistory(dbp);
try {
dbp.close();
} catch (DatabaseException e8) {
errExit(e8, "Close of history file failed");
}
}
public void populateTable(Database dbp,
int start_id, int balance, int nrecs, String msg) {
Defrec drec = new Defrec();
DatabaseEntry kdbt = new DatabaseEntry(drec.data);
kdbt.setSize(4); // sizeof(int)
DatabaseEntry ddbt = new DatabaseEntry(drec.data);
ddbt.setSize(drec.data.length); // uses whole array
try {
for (int i = 0; i < nrecs; i++) {
kdbt.setRecordNumber(start_id + (int)i);
drec.set_balance(balance);
dbp.putNoOverwrite(null, kdbt, ddbt);
}
} catch (DatabaseException dbe) {
System.err.println("Failure initializing " + msg + " file: " +
dbe.toString());
System.exit(1);
}
}
public void populateHistory(Database dbp) {
Histrec hrec = new Histrec();
hrec.set_amount(10);
byte[] arr = new byte[4]; // sizeof(int)
int i;
DatabaseEntry kdbt = new DatabaseEntry(arr);
kdbt.setSize(arr.length);
DatabaseEntry ddbt = new DatabaseEntry(hrec.data);
ddbt.setSize(hrec.data.length);
try {
for (i = 1; i <= history; i++) {
kdbt.setRecordNumber(i);
hrec.set_aid(random_id(ACCOUNT));
hrec.set_bid(random_id(BRANCH));
hrec.set_tid(random_id(TELLER));
dbp.append(null, kdbt, ddbt);
}
} catch (DatabaseException dbe) {
errExit(dbe, "Failure initializing history file");
}
}
static Random rand = new Random();
public static int random_int(int lo, int hi) {
int t = rand.nextInt();
if (t < 0)
t = -t;
int ret = (int)(((double)t / ((double)(Integer.MAX_VALUE) + 1)) *
(hi - lo + 1));
ret += lo;
return (ret);
}
public int random_id(int type) {
int min, max, num;
max = min = BEGID;
num = accounts;
switch(type) {
case TELLER:
min += branches;
num = tellers;
// fallthrough
case BRANCH:
if (type == BRANCH)
num = branches;
min += accounts;
// fallthrough
case ACCOUNT:
max = min + num - 1;
}
return (random_int(min, max));
}
// The byte order is our choice.
//
static long get_int_in_array(byte[] array, int offset) {
return
((0xff & array[offset + 0]) << 0) |
((0xff & array[offset + 1]) << 8) |
((0xff & array[offset + 2]) << 16) |
((0xff & array[offset + 3]) << 24);
}
// Note: Value needs to be long to avoid sign extension
static void set_int_in_array(byte[] array, int offset, long value) {
array[offset + 0] = (byte)((value >> 0) & 0xff);
array[offset + 1] = (byte)((value >> 8) & 0xff);
array[offset + 2] = (byte)((value >> 16) & 0xff);
array[offset + 3] = (byte)((value >> 24) & 0xff);
}
// round 'd' to 'scale' digits, and return result as string
static String showRounded(double d, int scale) {
return new BigDecimal(d).
setScale(scale, BigDecimal.ROUND_HALF_DOWN).toString();
}
public void run(int ntxns, int threads) {
double gtps;
int txns, failed;
long curtime, starttime;
TxnThread[] txnList = new TxnThread[threads];
for (int i = 0; i < threads; i++)
txnList[i] = new TxnThread("Thread " + String.valueOf(i), ntxns);
starttime = (new Date()).getTime();
for (int i = 0; i < threads; i++)
txnList[i].start();
for (int i = 0; i < threads; i++)
try {
txnList[i].join();
} catch (Exception e1) {
errExit(e1, "join failed");
}
curtime = (new Date()).getTime();
txns = failed = 0;
for (int i = 0; i < threads; i++) {
txns += txnList[i].txns;
failed += txnList[i].failed;
}
gtps = (double)(txns - failed) /
((curtime - starttime) / 1000.0);
System.out.print("\nTotal: " +
String.valueOf(txns) + " txns " +
String.valueOf(failed) + " failed ");
System.out.println(showRounded(gtps, 2) + " TPS");
}
class TxnThread extends Thread {
private int ntxns; /* Number of txns we were asked to run. */
public int txns, failed; /* Number that succeeded / failed. */
private Database adb, bdb, hdb, tdb;
public TxnThread(String name, int ntxns) {
super(name);
this.ntxns = ntxns;
}
public void run() {
double gtps, itps;
int n, ret;
long start_time, end_time;
//
// Open the database files.
//
int err;
try {
DatabaseConfig config = new DatabaseConfig();
config.setTransactional(true);
adb = dbenv.openDatabase(null, "account", null, config);
bdb = dbenv.openDatabase(null, "branch", null, config);
tdb = dbenv.openDatabase(null, "teller", null, config);
hdb = dbenv.openDatabase(null, "history", null, config);
} catch (DatabaseException dbe) {
TpcbExample.errExit(dbe, "Open of db files failed");
} catch (FileNotFoundException fnfe) {
TpcbExample.errExit(fnfe, "Open of db files failed, missing file");
}
start_time = (new Date()).getTime();
for (txns = n = ntxns, failed = 0; n-- > 0;)
if ((ret = txn()) != 0)
failed++;
end_time = (new Date()).getTime();
if (end_time == start_time)
end_time++;
System.out.println(getName() + ": " + (long)txns + " txns: " +
failed + " failed, " + TpcbExample.showRounded(
(txns - failed) / (double)(end_time - start_time), 2) + " TPS");
try {
adb.close();
bdb.close();
tdb.close();
hdb.close();
} catch (DatabaseException dbe2) {
TpcbExample.errExit(dbe2, "Close of db files failed");
}
}
//
// XXX Figure out the appropriate way to pick out IDs.
//
int txn() {
Cursor acurs = null;
Cursor bcurs = null;
Cursor hcurs = null;
Cursor tcurs = null;
Transaction t = null;
Defrec rec = new Defrec();
Histrec hrec = new Histrec();
int account, branch, teller;
DatabaseEntry d_dbt = new DatabaseEntry();
DatabaseEntry d_histdbt = new DatabaseEntry();
DatabaseEntry k_dbt = new DatabaseEntry();
DatabaseEntry k_histdbt = new DatabaseEntry();
account = TpcbExample.this.random_id(TpcbExample.ACCOUNT);
branch = TpcbExample.this.random_id(TpcbExample.BRANCH);
teller = TpcbExample.this.random_id(TpcbExample.TELLER);
// The history key will not actually be retrieved,
// but it does need to be set to something.
byte[] hist_key = new byte[4];
k_histdbt.setData(hist_key);
k_histdbt.setSize(4 /* == sizeof(int)*/);
byte[] key_bytes = new byte[4];
k_dbt.setData(key_bytes);
k_dbt.setSize(4 /* == sizeof(int)*/);
d_dbt.setData(rec.data);
d_dbt.setUserBuffer(rec.length(), true);
hrec.set_aid(account);
hrec.set_bid(branch);
hrec.set_tid(teller);
hrec.set_amount(10);
// Request 0 bytes since we're just positioning.
d_histdbt.setPartial(0, 0, true);
// START PER-TRANSACTION TIMING.
//
// Technically, TPCB requires a limit on response time, you only
// get to count transactions that complete within 2 seconds.
// That's not an issue for this sample application -- regardless,
// here's where the transaction begins.
try {
t = dbenv.beginTransaction(null, null);
acurs = adb.openCursor(t, null);
bcurs = bdb.openCursor(t, null);
tcurs = tdb.openCursor(t, null);
hcurs = hdb.openCursor(t, null);
// Account record
k_dbt.setRecordNumber(account);
if (acurs.getSearchKey(k_dbt, d_dbt, null) != OperationStatus.SUCCESS)
throw new Exception("acurs get failed");
rec.set_balance(rec.get_balance() + 10);
acurs.putCurrent(d_dbt);
// Branch record
k_dbt.setRecordNumber(branch);
if (bcurs.getSearchKey(k_dbt, d_dbt, null) != OperationStatus.SUCCESS)
throw new Exception("bcurs get failed");
rec.set_balance(rec.get_balance() + 10);
bcurs.putCurrent(d_dbt);
// Teller record
k_dbt.setRecordNumber(teller);
if (tcurs.getSearchKey(k_dbt, d_dbt, null) != OperationStatus.SUCCESS)
throw new Exception("ccurs get failed");
rec.set_balance(rec.get_balance() + 10);
tcurs.putCurrent(d_dbt);
// History record
d_histdbt.setPartial(0, 0, false);
d_histdbt.setData(hrec.data);
d_histdbt.setUserBuffer(hrec.length(), true);
if (hdb.append(t, k_histdbt, d_histdbt) != OperationStatus.SUCCESS)
throw new DatabaseException("put failed");
acurs.close();
acurs = null;
bcurs.close();
bcurs = null;
tcurs.close();
tcurs = null;
hcurs.close();
hcurs = null;
// null out t in advance; if the commit fails,
// we don't want to abort it in the catch clause.
Transaction tmptxn = t;
t = null;
tmptxn.commit();
// END TIMING
return (0);
} catch (Exception e) {
try {
if (acurs != null)
acurs.close();
if (bcurs != null)
bcurs.close();
if (tcurs != null)
tcurs.close();
if (hcurs != null)
hcurs.close();
if (t != null)
t.abort();
} catch (DatabaseException dbe) {
// not much we can do here.
}
if (TpcbExample.this.verbose) {
System.out.println("Transaction A=" + String.valueOf(account) +
" B=" + String.valueOf(branch) +
" T=" + String.valueOf(teller) +
" failed");
System.out.println("Reason: " + e.toString());
}
return (-1);
}
}
}
private static void usage() {
System.err.println(
"usage: TpcbExample [-fiv] [-a accounts] [-b branches]\n" +
" [-c cachesize] [-h home] [-n transactions]\n" +
" [-T threads] [-S seed] [-s history] [-t tellers]");
System.exit(1);
}
private static void invarg(String str) {
System.err.println("TpcbExample: invalid argument: " + str);
System.exit(1);
}
public static void errExit(Exception err, String s) {
System.err.print(progname + ": ");
if (s != null) {
System.err.print(s + ": ");
}
System.err.println(err.toString());
System.exit(1);
}
public static void main(String[] argv) throws java.io.IOException {
File home = new File("TESTDIR");
int accounts = ACCOUNTS;
int branches = BRANCHES;
int tellers = TELLERS;
int history = HISTORY;
int threads = 1;
int mpool = 0;
int ntxns = 0;
boolean iflag = false;
boolean txn_no_sync = false;
long seed = (new GregorianCalendar()).get(Calendar.SECOND);
for (int i = 0; i < argv.length; ++i) {
if (argv[i].equals("-a")) {
// Number of account records
if ((accounts = Integer.parseInt(argv[++i])) <= 0)
invarg(argv[i]);
} else if (argv[i].equals("-b")) {
// Number of branch records
if ((branches = Integer.parseInt(argv[++i])) <= 0)
invarg(argv[i]);
} else if (argv[i].equals("-c")) {
// Cachesize in bytes
if ((mpool = Integer.parseInt(argv[++i])) <= 0)
invarg(argv[i]);
} else if (argv[i].equals("-f")) {
// Fast mode: no txn sync.
txn_no_sync = true;
} else if (argv[i].equals("-h")) {
// DB home.
home = new File(argv[++i]);
} else if (argv[i].equals("-i")) {
// Initialize the test.
iflag = true;
} else if (argv[i].equals("-n")) {
// Number of transactions
if ((ntxns = Integer.parseInt(argv[++i])) <= 0)
invarg(argv[i]);
} else if (argv[i].equals("-S")) {
// Random number seed.
seed = Long.parseLong(argv[++i]);
if (seed <= 0)
invarg(argv[i]);
} else if (argv[i].equals("-s")) {
// Number of history records
if ((history = Integer.parseInt(argv[++i])) <= 0)
invarg(argv[i]);
} else if (argv[i].equals("-T")) {
// Number of threads
if ((threads = Integer.parseInt(argv[++i])) <= 0)
invarg(argv[i]);
} else if (argv[i].equals("-t")) {
// Number of teller records
if ((tellers = Integer.parseInt(argv[++i])) <= 0)
invarg(argv[i]);
} else if (argv[i].equals("-v")) {
// Verbose option.
verbose = true;
} else {
usage();
}
}
rand.setSeed((int)seed);
// Initialize the database environment.
// Must be done in within a try block.
//
TpcbExample app = null;
try {
app = new TpcbExample(home, accounts, branches, tellers, history,
mpool, iflag || txn_no_sync);
} catch (Exception e1) {
errExit(e1, "initializing environment failed");
}
if (verbose)
System.out.println((long)accounts + " Accounts, " +
String.valueOf(branches) + " Branches, " +
String.valueOf(tellers) + " Tellers, " +
String.valueOf(history) + " History");
if (iflag) {
if (ntxns != 0)
usage();
app.populate();
} else {
if (ntxns == 0)
usage();
app.run(ntxns, threads);
}
// Shut down the application.
try {
app.close();
} catch (DatabaseException dbe2) {
errExit(dbe2, "appexit failed");
}
System.exit(0);
}
};
// Simulate the following C struct:
// struct Defrec {
// u_int32_t id;
// u_int32_t balance;
// u_int8_t pad[RECLEN - sizeof(int) - sizeof(int)];
// };
class Defrec {
public Defrec() {
data = new byte[TpcbExample.RECLEN];
}
public int length() {
return TpcbExample.RECLEN;
}
public long get_id() {
return TpcbExample.get_int_in_array(data, 0);
}
public void set_id(long value) {
TpcbExample.set_int_in_array(data, 0, value);
}
public long get_balance() {
return TpcbExample.get_int_in_array(data, 4);
}
public void set_balance(long value) {
TpcbExample.set_int_in_array(data, 4, value);
}
static {
Defrec d = new Defrec();
d.set_balance(500000);
}
public byte[] data;
}
// Simulate the following C struct:
// struct Histrec {
// u_int32_t aid;
// u_int32_t bid;
// u_int32_t tid;
// u_int32_t amount;
// u_int8_t pad[RECLEN - 4 * sizeof(u_int32_t)];
// };
class Histrec {
public Histrec() {
data = new byte[TpcbExample.RECLEN];
}
public int length() {
return TpcbExample.RECLEN;
}
public long get_aid() {
return TpcbExample.get_int_in_array(data, 0);
}
public void set_aid(long value) {
TpcbExample.set_int_in_array(data, 0, value);
}
public long get_bid() {
return TpcbExample.get_int_in_array(data, 4);
}
public void set_bid(long value) {
TpcbExample.set_int_in_array(data, 4, value);
}
public long get_tid() {
return TpcbExample.get_int_in_array(data, 8);
}
public void set_tid(long value) {
TpcbExample.set_int_in_array(data, 8, value);
}
public long get_amount() {
return TpcbExample.get_int_in_array(data, 12);
}
public void set_amount(long value) {
TpcbExample.set_int_in_array(data, 12, value);
}
public byte[] data;
}
distrib
>
Mandriva
>
2010.1
>
x86_64
>
media
>
main-release
>
by-pkgid
>
bc1980b66a68f286299491ee8724e71c
>
files
>
121
