org.jivesoftware.database.SequenceManager Maven / Gradle / Ivy
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/*
* Copyright (C) 2004-2008 Jive Software. All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.jivesoftware.database;
import java.sql.Connection;
import java.sql.PreparedStatement;
import java.sql.ResultSet;
import java.sql.SQLException;
import java.util.Map;
import java.util.concurrent.ConcurrentHashMap;
import org.jivesoftware.util.JiveConstants;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/**
* Manages sequences of unique ID's that get stored in the database. Database support for sequences
* varies widely; some don't use them at all. Instead, we handle unique ID generation with a
* combination VM/database solution.
*
* A special table in the database doles out blocks of unique ID's to each
* virtual machine that interacts with Jive. This has the following consequences:
*
* - There is no need to go to the database every time we want a new unique id.
*
- Multiple app servers can interact with the same db without id collision.
*
- The order of unique id's may not correspond to the creation date of objects.
*
- There can be gaps in ID's after server restarts since blocks will get "lost" if the block
* size is greater than 1.
*
* Each sequence type that this class manages has a different block size value. Objects that aren't
* created often have a block size of 1, while frequently created objects such as entries and
* comments have larger block sizes.
*
* @author Matt Tucker
* @author Bruce Ritchie
*/
public class SequenceManager {
private static final Logger Log = LoggerFactory.getLogger(SequenceManager.class);
private static final String CREATE_ID =
"INSERT INTO ofID (id, idType) VALUES (1, ?)";
private static final String LOAD_ID =
"SELECT id FROM ofID WHERE idType=?";
private static final String UPDATE_ID =
"UPDATE ofID SET id=? WHERE idType=? AND id=?";
// Statically startup a sequence manager for each of the sequence counters.
private static Map managers = new ConcurrentHashMap<>();
static {
new SequenceManager(JiveConstants.ROSTER, 5);
new SequenceManager(JiveConstants.OFFLINE, 5);
new SequenceManager(JiveConstants.MUC_ROOM, 5);
}
/**
* Returns the next ID of the specified type.
*
* @param type the type of unique ID.
* @return the next unique ID of the specified type.
*/
public static long nextID(int type) {
if (managers.containsKey(type)) {
return managers.get(type).nextUniqueID();
}
else {
// Verify type is valid from the db, if so create an instance for the type
// And return the next unique id
SequenceManager manager = new SequenceManager(type, 1);
return manager.nextUniqueID();
}
}
/**
* Returns the next id for an object that has defined the annotation {@link JiveID}.
* The JiveID annotation value is the synonymous for the type integer.
*
* The annotation JiveID should contain the id type for the object (the same number you would
* use to call nextID(int type)). Example class definition:
*
* \@JiveID(10)
* public class MyClass {
*
* }
*
*
* @param o object that has annotation JiveID.
* @return the next unique ID.
* @throws IllegalArgumentException If the object passed in does not defined {@link JiveID}
*/
public static long nextID(Object o) {
JiveID id = o.getClass().getAnnotation(JiveID.class);
if (id == null) {
Log.error("Annotation JiveID must be defined in the class " + o.getClass());
throw new IllegalArgumentException(
"Annotation JiveID must be defined in the class " + o.getClass());
}
return nextID(id.value());
}
/**
* Used to set the blocksize of a given SequenceManager. If no SequenceManager has
* been registered for the type, the type is verified as valid and then a new
* sequence manager is created.
*
* @param type the type of unique id.
* @param blockSize how many blocks of ids we should.
*/
public static void setBlockSize(int type, int blockSize) {
if (managers.containsKey(type)) {
managers.get(type).blockSize = blockSize;
}
else {
new SequenceManager(type, blockSize);
}
}
private int type;
private long currentID;
private long maxID;
private int blockSize;
/**
* Creates a new DbSequenceManager.
*
* @param seqType the type of sequence.
* @param size the number of id's to "checkout" at a time.
*/
public SequenceManager(int seqType, int size) {
managers.put(seqType, this);
this.type = seqType;
this.blockSize = size;
currentID = 0l;
maxID = 0l;
}
/**
* Returns the next available unique ID. Essentially this provides for the functionality of an
* auto-increment database field.
*/
public synchronized long nextUniqueID() {
if (!(currentID < maxID)) {
// Get next block -- make 5 attempts at maximum.
getNextBlock(5);
}
long id = currentID;
currentID++;
return id;
}
/**
* Performs a lookup to get the next available ID block. The algorithm is as follows:
*
* - Select currentID from appropriate db row.
*
- Increment id returned from db.
*
- Update db row with new id where id=old_id.
*
- If update fails another process checked out the block first; go back to step 1.
* Otherwise, done.
*
*/
private void getNextBlock(int count) {
if (count == 0) {
Log.error("Failed at last attempt to obtain an ID, aborting...");
return;
}
Connection con = null;
PreparedStatement pstmt = null;
ResultSet rs = null;
boolean abortTransaction = false;
boolean success = false;
try {
con = DbConnectionManager.getTransactionConnection();
// Get the current ID from the database.
pstmt = con.prepareStatement(LOAD_ID);
pstmt.setInt(1, type);
rs = pstmt.executeQuery();
long currentID = 1;
if (rs.next()) {
currentID = rs.getLong(1);
}
else {
createNewID(con, type);
}
DbConnectionManager.fastcloseStmt(rs, pstmt);
// Increment the id to define our block.
long newID = currentID + blockSize;
// The WHERE clause includes the last value of the id. This ensures
// that an update will occur only if nobody else has performed an
// update first.
pstmt = con.prepareStatement(UPDATE_ID);
pstmt.setLong(1, newID);
pstmt.setInt(2, type);
pstmt.setLong(3, currentID);
// Check to see if the row was affected. If not, some other process
// already changed the original id that we read. Therefore, this
// round failed and we'll have to try again.
success = pstmt.executeUpdate() == 1;
if (success) {
this.currentID = currentID;
this.maxID = newID;
}
}
catch (SQLException e) {
Log.error(e.getMessage(), e);
abortTransaction = true;
}
finally {
DbConnectionManager.closeStatement(rs, pstmt);
DbConnectionManager.closeTransactionConnection(con, abortTransaction);
}
if (!success) {
Log.warn("WARNING: failed to obtain next ID block due to " +
"thread contention. Trying again...");
// Call this method again, but sleep briefly to try to avoid thread contention.
try {
Thread.sleep(75);
}
catch (InterruptedException ie) {
// Ignore.
}
getNextBlock(count - 1);
}
}
private void createNewID(Connection con, int type) throws SQLException {
Log.warn("Autocreating jiveID row for type '" + type + "'");
// create new ID row
PreparedStatement pstmt = null;
try {
pstmt = con.prepareStatement(CREATE_ID);
pstmt.setInt(1, type);
pstmt.execute();
}
finally {
DbConnectionManager.closeStatement(pstmt);
}
}
}