/*-
* See the file LICENSE for redistribution information.
*
* Copyright (c) 2002-2006
* Sleepycat Software. All rights reserved.
*
* $Id: LogBufferPool.java,v 1.68 2006/01/19 20:42:31 mark Exp $
*/
package com.sleepycat.je.log;
import java.io.IOException;
import java.nio.ByteBuffer;
import java.util.Iterator;
import java.util.LinkedList;
import com.sleepycat.je.DatabaseException;
import com.sleepycat.je.EnvironmentStats;
import com.sleepycat.je.StatsConfig;
import com.sleepycat.je.config.EnvironmentParams;
import com.sleepycat.je.dbi.DbConfigManager;
import com.sleepycat.je.dbi.EnvironmentImpl;
import com.sleepycat.je.latch.Latch;
import com.sleepycat.je.latch.LatchSupport;
/**
* LogBufferPool keeps a set of log buffers.
*/
class LogBufferPool {
private static final String DEBUG_NAME = LogBufferPool.class.getName();
private EnvironmentImpl envImpl = null;
private int logBufferSize; // size of each log buffer
private LinkedList bufferPool; // List of log buffers
/* Buffer that holds the current log end. All writes go to this buffer. */
private LogBuffer currentWriteBuffer;
private FileManager fileManager;
/* Stats */
private long nNotResident = 0; // had to be instantiated from an lsn
private long nCacheMiss = 0; // had to retrieve from disk
private boolean runInMemory;
/*
* bufferPoolLatch is synchronizes access and changes to the buffer pool.
* Related latches are the log write latch in LogManager and the read
* latches in each log buffer. The log write latch is always taken before
* the bufferPoolLatch. The bufferPoolLatch is always taken before any
* logBuffer read latch. When faulting in an object from the log, the order
* of latching is:
* bufferPoolLatch.acquire()
* LogBuffer read latch acquire();
* bufferPoolLatch.release();
* LogBuffer read latch release()
* bufferPoolLatch is also used to protect assignment to the
* currentWriteBuffer field.
*/
private Latch bufferPoolLatch;
LogBufferPool(FileManager fileManager,
EnvironmentImpl envImpl)
throws DatabaseException {
this.fileManager = fileManager;
this.envImpl = envImpl;
bufferPoolLatch =
LatchSupport.makeLatch(DEBUG_NAME + "_FullLatch", envImpl);
/* Configure the pool. */
DbConfigManager configManager = envImpl.getConfigManager();
runInMemory =
configManager.getBoolean(EnvironmentParams.LOG_MEMORY_ONLY);
reset(configManager);
/* Current buffer is the active buffer that writes go into. */
currentWriteBuffer = (LogBuffer) bufferPool.getFirst();
}
/**
* Initialize the pool at construction time and when the cache is resized.
* This method is called after the memory budget has been calculated.
*/
void reset(DbConfigManager configManager)
throws DatabaseException {
/*
* When running in memory, we can't clear the existing pool and
* changing the buffer size is not very useful, so just return.
*/
if (runInMemory && bufferPool != null) {
return;
}
/*
* Based on the log budget, figure the number and size of
* log buffers to use.
*/
int numBuffers =
configManager.getInt(EnvironmentParams.NUM_LOG_BUFFERS);
long logBufferBudget = envImpl.getMemoryBudget().getLogBufferBudget();
/* Buffers must be int sized. */
int newBufferSize = (int) logBufferBudget / numBuffers;
/* list of buffers that are available for log writing */
LinkedList newPool = new LinkedList();
/*
* If we're running in memory only, don't pre-allocate all the buffers.
* This case only occurs when called from the constructor.
*/
if (runInMemory) {
numBuffers = 1;
}
for (int i = 0; i < numBuffers; i++) {
newPool.add(new LogBuffer(newBufferSize, envImpl));
}
/*
* The following applies when this method is called to reset the pool
* when an existing pool is in use:
* - The old pool will no longer be referenced.
* - Buffers being read in the old pool will be no longer referenced
* after the read operation is complete.
* - The currentWriteBuffer field is not changed here; it will be no
* longer referenced after it is written to the file and a new
* currentWriteBuffer is assigned.
* - The logBufferSize can be changed now because it is only used for
* allocating new buffers; it is not used as the size of the
* currentWriteBuffer.
*/
bufferPoolLatch.acquire();
bufferPool = newPool;
logBufferSize = newBufferSize;
bufferPoolLatch.release();
}
/**
* Get a log buffer for writing sizeNeeded bytes. If currentWriteBuffer is
* too small or too full, flush currentWriteBuffer and get a new one.
* Called within the log write latch.
*
* @return a buffer that can hold sizeNeeded bytes.
*/
LogBuffer getWriteBuffer(int sizeNeeded, boolean flippedFile)
throws IOException, DatabaseException {
/*
* We need a new log buffer either because this log buffer is full, or
* the LSN has marched along to the next file. Each log buffer only
* holds entries that belong to a single file. If we've flipped over
* into the next file, we'll need to get a new log buffer even if the
* current one has room.
*/
if ((!currentWriteBuffer.hasRoom(sizeNeeded)) || flippedFile) {
/*
* Write the currentWriteBuffer to the file and reset
* currentWriteBuffer.
*/
writeBufferToFile(sizeNeeded);
}
if (flippedFile) {
/* Now that the old buffer has been written to disk, fsync. */
if (!runInMemory) {
fileManager.syncLogEndAndFinishFile();
}
}
return currentWriteBuffer;
}
/**
* Write the contents of the currentWriteBuffer to disk. Leave this buffer
* in memory to be available to would be readers. Set up a new
* currentWriteBuffer. Assumes the log write latch is held.
*
* @param sizeNeeded is the size of the next object we need to write to
* the log. May be 0 if this is called on behalf of LogManager.flush().
*/
void writeBufferToFile(int sizeNeeded)
throws IOException, DatabaseException {
int bufferSize =
((logBufferSize > sizeNeeded) ? logBufferSize : sizeNeeded);
/* We're done with the buffer, flip to make it readable. */
currentWriteBuffer.latchForWrite();
LogBuffer latchedBuffer = currentWriteBuffer;
try {
ByteBuffer currentByteBuffer = currentWriteBuffer.getDataBuffer();
int savePosition = currentByteBuffer.position();
int saveLimit = currentByteBuffer.limit();
currentByteBuffer.flip();
/* Dispose of it and get a new buffer for writing. */
if (runInMemory) {
/* We're done with the current buffer. */
latchedBuffer.release();
latchedBuffer = null;
/* We're supposed to run in-memory, allocate another buffer. */
bufferPoolLatch.acquire();
currentWriteBuffer = new LogBuffer(bufferSize, envImpl);
bufferPool.add(currentWriteBuffer);
bufferPoolLatch.release();
} else {
/*
* If we're configured for writing (not memory-only situation),
* write this buffer to disk and find a new buffer to use.
*/
try {
fileManager.writeLogBuffer(currentWriteBuffer);
/* Rewind so readers can see this. */
currentWriteBuffer.getDataBuffer().rewind();
/* We're done with the current buffer. */
latchedBuffer.release();
latchedBuffer = null;
/*
* Now look in the linked list for a buffer of the right
* size.
*/
LogBuffer nextToUse = null;
try {
bufferPoolLatch.acquire();
Iterator iter = bufferPool.iterator();
nextToUse = (LogBuffer) iter.next();
boolean done = bufferPool.remove(nextToUse);
assert done;
nextToUse.reinit();
/* Put the nextToUse buffer at the end of the queue. */
bufferPool.add(nextToUse);
/* Assign currentWriteBuffer with the latch held. */
currentWriteBuffer = nextToUse;
} finally {
bufferPoolLatch.releaseIfOwner();
}
} catch (DatabaseException DE) {
currentByteBuffer.position(savePosition);
currentByteBuffer.limit(saveLimit);
throw DE;
}
}
} finally {
if (latchedBuffer != null) {
latchedBuffer.release();
}
}
}
/**
* A loggable object has been freshly marshalled into the write log buffer.
* 1. Update buffer so it knows what LSNs it contains.
* 2. If this object requires a flush, write this buffer out to the
* backing file.
* Assumes log write latch is held.
*/
void writeCompleted(long lsn, boolean flushRequired)
throws DatabaseException, IOException {
currentWriteBuffer.registerLsn(lsn);
if (flushRequired) {
writeBufferToFile(0);
}
}
/**
* Find a buffer that holds this LSN.
* @return the buffer that contains this LSN, latched and ready to
* read, or return null.
*/
LogBuffer getReadBuffer(long lsn)
throws DatabaseException {
LogBuffer foundBuffer = null;
bufferPoolLatch.acquire();
try {
nNotResident++;
Iterator iter = bufferPool.iterator();
while (iter.hasNext()) {
LogBuffer l = (LogBuffer) iter.next();
if (l.containsLsn(lsn)) {
foundBuffer = l;
break;
}
}
/*
* Check the currentWriteBuffer separately, since if the pool was
* recently reset it will not be in the pool.
*/
if (foundBuffer == null &&
currentWriteBuffer.containsLsn(lsn)) {
foundBuffer = currentWriteBuffer;
}
if (foundBuffer == null) {
nCacheMiss++;
}
} finally {
bufferPoolLatch.releaseIfOwner();
}
if (foundBuffer == null) {
return null;
} else {
return foundBuffer;
}
}
void loadStats(StatsConfig config, EnvironmentStats stats)
throws DatabaseException {
stats.setNCacheMiss(nCacheMiss);
stats.setNNotResident(nNotResident);
if (config.getClear()) {
nCacheMiss = 0;
nNotResident = 0;
}
/* Also return buffer pool memory usage */
bufferPoolLatch.acquire();
long bufferBytes = 0;
int nLogBuffers = 0;
try {
Iterator iter = bufferPool.iterator();
while (iter.hasNext()) {
LogBuffer l = (LogBuffer) iter.next();
nLogBuffers++;
bufferBytes += l.getCapacity();
}
} finally {
bufferPoolLatch.release();
}
stats.setNLogBuffers(nLogBuffers);
stats.setBufferBytes(bufferBytes);
}
}