// indexRAMRI.java // (C) 2005, 2006 by Michael Peter Christen; mc@anomic.de, Frankfurt a. M., Germany // first published 2005 on http://www.anomic.de // // This is a part of YaCy, a peer-to-peer based web search engine // // $LastChangedDate: 2006-04-02 22:40:07 +0200 (So, 02 Apr 2006) $ // $LastChangedRevision: 1986 $ // $LastChangedBy: orbiter $ // // LICENSE // // This program is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; either version 2 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA package de.anomic.index; import java.io.File; import java.io.IOException; import java.util.Collections; import java.util.Iterator; import java.util.Map; import java.util.Set; import java.util.SortedMap; import java.util.TreeMap; import de.anomic.kelondro.kelondroBase64Order; import de.anomic.kelondro.kelondroBufferedRA; import de.anomic.kelondro.kelondroException; import de.anomic.kelondro.kelondroFixedWidthArray; import de.anomic.kelondro.kelondroMScoreCluster; import de.anomic.kelondro.kelondroNaturalOrder; import de.anomic.kelondro.kelondroRow; import de.anomic.server.serverByteBuffer; import de.anomic.server.serverFileUtils; import de.anomic.server.logging.serverLog; import de.anomic.yacy.yacySeedDB; public final class indexRAMRI implements indexRI { // environment constants public static final long wCacheMaxAge = 1000 * 60 * 30; // milliseconds; 30 minutes // class variables private final File databaseRoot; protected final SortedMap cache; // wordhash-container private final kelondroMScoreCluster hashScore; private final kelondroMScoreCluster hashDate; private long initTime; private int cacheMaxCount; public int cacheReferenceLimit; private final serverLog log; private String indexArrayFileName; private kelondroRow payloadrow; private kelondroRow bufferStructureBasis; public indexRAMRI(File databaseRoot, kelondroRow payloadrow, int wCacheReferenceLimitInit, String dumpname, serverLog log) { // creates a new index cache // the cache has a back-end where indexes that do not fit in the cache are flushed this.databaseRoot = databaseRoot; this.cache = Collections.synchronizedSortedMap(new TreeMap()); this.hashScore = new kelondroMScoreCluster(); this.hashDate = new kelondroMScoreCluster(); this.initTime = System.currentTimeMillis(); this.cacheMaxCount = 10000; this.cacheReferenceLimit = wCacheReferenceLimitInit; this.log = log; this.indexArrayFileName = dumpname; this.payloadrow = payloadrow; this.bufferStructureBasis = new kelondroRow( "byte[] wordhash-" + yacySeedDB.commonHashLength + ", " + "Cardinal occ-4 {b256}, " + "Cardinal time-8 {b256}, " + "byte[] urlprops-" + payloadrow.objectsize(), kelondroBase64Order.enhancedCoder, 0); // read in dump of last session try { restore(); } catch (IOException e){ log.logSevere("unable to restore cache dump: " + e.getMessage(), e); } } public int minMem() { return 1024*1024; } public synchronized long getUpdateTime(String wordHash) { indexContainer entries = getContainer(wordHash, null, -1); if (entries == null) return 0; return entries.updated(); } private void dump() throws IOException { log.logConfig("creating dump for index cache '" + indexArrayFileName + "', " + cache.size() + " words (and much more urls)"); File indexDumpFile = new File(databaseRoot, indexArrayFileName); if (indexDumpFile.exists()) indexDumpFile.delete(); kelondroFixedWidthArray dumpArray = null; kelondroBufferedRA writeBuffer = null; if (false /*serverMemory.available() > 50 * bufferStructureBasis.objectsize() * cache.size()*/) { writeBuffer = new kelondroBufferedRA(); dumpArray = new kelondroFixedWidthArray(writeBuffer, bufferStructureBasis, 0); log.logInfo("started dump of ram cache: " + cache.size() + " words; memory-enhanced write"); } else { dumpArray = new kelondroFixedWidthArray(indexDumpFile, bufferStructureBasis, 0); log.logInfo("started dump of ram cache: " + cache.size() + " words; low-memory write"); } long startTime = System.currentTimeMillis(); long messageTime = System.currentTimeMillis() + 5000; long wordsPerSecond = 0, wordcount = 0, urlcount = 0; Map.Entry entry; String wordHash; indexContainer container; long updateTime; indexRWIEntry iEntry; kelondroRow.Entry row = dumpArray.row().newEntry(); byte[] occ, time; // write wCache synchronized (cache) { Iterator i = cache.entrySet().iterator(); while (i.hasNext()) { // get entries entry = (Map.Entry) i.next(); wordHash = (String) entry.getKey(); updateTime = getUpdateTime(wordHash); container = (indexContainer) entry.getValue(); // put entries on stack if (container != null) { Iterator ci = container.entries(); occ = kelondroNaturalOrder.encodeLong(container.size(), 4); time = kelondroNaturalOrder.encodeLong(updateTime, 8); while (ci.hasNext()) { iEntry = (indexRWIEntry) ci.next(); row.setCol(0, wordHash.getBytes()); row.setCol(1, occ); row.setCol(2, time); row.setCol(3, iEntry.toKelondroEntry().bytes()); dumpArray.set((int) urlcount++, row); } } wordcount++; i.remove(); // free some mem // write a log if (System.currentTimeMillis() > messageTime) { // System.gc(); // for better statistic wordsPerSecond = wordcount * 1000 / (1 + System.currentTimeMillis() - startTime); log.logInfo("dump status: " + wordcount + " words done, " + (cache.size() / (wordsPerSecond + 1)) + " seconds remaining, free mem = " + (Runtime.getRuntime().freeMemory() / 1024 / 1024) + "MB"); messageTime = System.currentTimeMillis() + 5000; } } } if (writeBuffer != null) { serverByteBuffer bb = writeBuffer.getBuffer(); //System.out.println("*** byteBuffer size = " + bb.length()); serverFileUtils.write(bb.getBytes(), indexDumpFile); writeBuffer.close(); } dumpArray.close(); dumpArray = null; log.logInfo("finished dump of ram cache: " + urlcount + " word/URL relations in " + ((System.currentTimeMillis() - startTime) / 1000) + " seconds"); } private long restore() throws IOException { File indexDumpFile = new File(databaseRoot, indexArrayFileName); if (!(indexDumpFile.exists())) return 0; kelondroFixedWidthArray dumpArray; kelondroBufferedRA readBuffer = null; if (false /*serverMemory.available() > indexDumpFile.length() * 2*/) { readBuffer = new kelondroBufferedRA(new serverByteBuffer(serverFileUtils.read(indexDumpFile))); dumpArray = new kelondroFixedWidthArray(readBuffer, bufferStructureBasis, 0); log.logInfo("started restore of ram cache '" + indexArrayFileName + "', " + dumpArray.size() + " word/URL relations; memory-enhanced read"); } else { dumpArray = new kelondroFixedWidthArray(indexDumpFile, bufferStructureBasis, 0); log.logInfo("started restore of ram cache '" + indexArrayFileName + "', " + dumpArray.size() + " word/URL relations; low-memory read"); } long startTime = System.currentTimeMillis(); long messageTime = System.currentTimeMillis() + 5000; long urlCount = 0, urlsPerSecond = 0; try { synchronized (cache) { Iterator i = dumpArray.contentRows(-1); String wordHash; //long creationTime; indexRWIEntry wordEntry; kelondroRow.Entry row; //Runtime rt = Runtime.getRuntime(); while (i.hasNext()) { // get out one entry row = (kelondroRow.Entry) i.next(); if ((row == null) || (row.empty(0)) || (row.empty(3))) continue; wordHash = row.getColString(0, "UTF-8"); //creationTime = kelondroRecords.bytes2long(row[2]); wordEntry = new indexRWIEntryNew(row.getColBytes(3)); // store to cache addEntry(wordHash, wordEntry, startTime, false); urlCount++; // protect against memory shortage //while (rt.freeMemory() < 1000000) {flushFromMem(); java.lang.System.gc();} // write a log if (System.currentTimeMillis() > messageTime) { System.gc(); // for better statistic urlsPerSecond = 1 + urlCount * 1000 / (1 + System.currentTimeMillis() - startTime); log.logInfo("restoring status: " + urlCount + " urls done, " + ((dumpArray.size() - urlCount) / urlsPerSecond) + " seconds remaining, free mem = " + (Runtime.getRuntime().freeMemory() / 1024 / 1024) + "MB"); messageTime = System.currentTimeMillis() + 5000; } } } if (readBuffer != null) readBuffer.close(); dumpArray.close(); log.logConfig("finished restor " + cache.size() + " words in " + ((System.currentTimeMillis() - startTime) / 1000) + " seconds"); } catch (kelondroException e) { // restore failed log.logSevere("failed restore of indexCache array dump: " + e.getMessage(), e); } finally { if (dumpArray != null) try {dumpArray.close();}catch(Exception e){} } return urlCount; } // cache settings public int maxURLinCache() { if (hashScore.size() == 0) return 0; return hashScore.getMaxScore(); } public long minAgeOfCache() { if (hashDate.size() == 0) return 0; return System.currentTimeMillis() - longEmit(hashDate.getMaxScore()); } public long maxAgeOfCache() { if (hashDate.size() == 0) return 0; return System.currentTimeMillis() - longEmit(hashDate.getMinScore()); } public void setMaxWordCount(int maxWords) { this.cacheMaxCount = maxWords; } public int getMaxWordCount() { return this.cacheMaxCount; } public synchronized int size() { return cache.size(); } public synchronized int indexSize(String wordHash) { indexContainer cacheIndex = (indexContainer) cache.get(wordHash); if (cacheIndex == null) return 0; return cacheIndex.size(); } public synchronized Iterator wordContainers(String startWordHash, boolean rot) { // we return an iterator object that creates top-level-clones of the indexContainers // in the cache, so that manipulations of the iterated objects do not change // objects in the cache. return new wordContainerIterator(startWordHash, rot); } public class wordContainerIterator implements Iterator { // this class exists, because the wCache cannot be iterated with rotation // and because every indeContainer Object that is iterated must be returned as top-level-clone // so this class simulates wCache.tailMap(startWordHash).values().iterator() // plus the mentioned features private boolean rot; private Iterator iterator; public wordContainerIterator(String startWordHash, boolean rot) { this.rot = rot; this.iterator = (startWordHash == null) ? cache.values().iterator() : cache.tailMap(startWordHash).values().iterator(); // The collection's iterator will return the values in the order that their corresponding keys appear in the tree. } public boolean hasNext() { if (rot) return true; return iterator.hasNext(); } public Object next() { if (iterator.hasNext()) { return ((indexContainer) iterator.next()).topLevelClone(); } else { // rotation iteration if (rot) { iterator = cache.values().iterator(); return ((indexContainer) iterator.next()).topLevelClone(); } else { return null; } } } public void remove() { iterator.remove(); } } public synchronized String bestFlushWordHash() { // select appropriate hash // we have 2 different methods to find a good hash: // - the oldest entry in the cache // - the entry with maximum count if (cache.size() == 0) return null; try { String hash = null; int count = hashScore.getMaxScore(); if ((count >= cacheReferenceLimit) && ((hash = (String) hashScore.getMaxObject()) != null)) { // we MUST flush high-score entries, because a loop deletes entries in cache until this condition fails // in this cache we MUST NOT check wCacheMinAge return hash; } long oldestTime = longEmit(hashDate.getMinScore()); if (((System.currentTimeMillis() - oldestTime) > wCacheMaxAge) && ((hash = (String) hashDate.getMinObject()) != null)) { // flush out-dated entries return hash; } // cases with respect to memory situation if (Runtime.getRuntime().freeMemory() < 100000) { // urgent low-memory case hash = (String) hashScore.getMaxObject(); // flush high-score entries (saves RAM) } else { // not-efficient-so-far case. cleans up unnecessary cache slots hash = (String) hashDate.getMinObject(); // flush oldest entries } return hash; } catch (Exception e) { log.logSevere("flushFromMem: " + e.getMessage(), e); } return null; } private int intTime(long longTime) { return (int) Math.max(0, ((longTime - initTime) / 1000)); } private long longEmit(int intTime) { return (((long) intTime) * (long) 1000) + initTime; } public synchronized boolean hasContainer(String wordHash) { return cache.containsKey(wordHash); } public synchronized indexContainer getContainer(String wordHash, Set urlselection, long maxtime_dummy) { // retrieve container indexContainer container = (indexContainer) cache.get(wordHash); // We must not use the container from cache to store everything we find, // as that container remains linked to in the cache and might be changed later // while the returned container is still in use. // create a clone from the container if (container != null) container = container.topLevelClone(); // select the urlselection if ((urlselection != null) && (container != null)) container.select(urlselection); return container; } public synchronized indexContainer deleteContainer(String wordHash) { // returns the index that had been deleted indexContainer container = (indexContainer) cache.remove(wordHash); hashScore.deleteScore(wordHash); hashDate.deleteScore(wordHash); return container; } public synchronized boolean removeEntry(String wordHash, String urlHash) { indexContainer c = (indexContainer) cache.get(wordHash); if ((c != null) && (c.removeEntry(wordHash, urlHash))) { // removal successful if (c.size() == 0) { deleteContainer(wordHash); } else { cache.put(wordHash, c); hashScore.decScore(wordHash); hashDate.setScore(wordHash, intTime(System.currentTimeMillis())); } return true; } return false; } public synchronized int removeEntries(String wordHash, Set urlHashes) { if (urlHashes.size() == 0) return 0; indexContainer c = (indexContainer) cache.get(wordHash); int count; if ((c != null) && ((count = c.removeEntries(wordHash, urlHashes)) > 0)) { // removal successful if (c.size() == 0) { deleteContainer(wordHash); } else { cache.put(wordHash, c); hashScore.setScore(wordHash, c.size()); hashDate.setScore(wordHash, intTime(System.currentTimeMillis())); } return count; } return 0; } public synchronized int tryRemoveURLs(String urlHash) { // this tries to delete an index from the cache that has this // urlHash assigned. This can only work if the entry is really fresh // Such entries must be searched in the latest entries int delCount = 0; Iterator i = cache.entrySet().iterator(); Map.Entry entry; String wordhash; indexContainer c; while (i.hasNext()) { entry = (Map.Entry) i.next(); wordhash = (String) entry.getKey(); // get container c = (indexContainer) entry.getValue(); if (c.remove(urlHash) != null) { if (c.size() == 0) { i.remove(); } else { cache.put(wordhash, c); // superfluous? } delCount++; } } return delCount; } public synchronized void addEntries(indexContainer container, long updateTime, boolean dhtCase) { // this puts the entries into the cache, not into the assortment directly int added = 0; if ((container == null) || (container.size() == 0)) return; // put new words into cache String wordHash = container.getWordHash(); indexContainer entries = (indexContainer) cache.get(wordHash); // null pointer exception? wordhash != null! must be cache==null if (entries == null) { entries = container.topLevelClone(); added = entries.size(); } else { added = entries.putAllRecent(container); } if (added > 0) { cache.put(wordHash, entries); hashScore.addScore(wordHash, added); hashDate.setScore(wordHash, intTime(updateTime)); } entries = null; } public synchronized void addEntry(String wordHash, indexRWIEntry newEntry, long updateTime, boolean dhtCase) { indexContainer container = (indexContainer) cache.get(wordHash); if (container == null) container = new indexContainer(wordHash, this.payloadrow); container.put(newEntry); cache.put(wordHash, container); hashScore.incScore(wordHash); hashDate.setScore(wordHash, intTime(updateTime)); } public synchronized void close() { // dump cache try { dump(); } catch (IOException e){ log.logSevere("unable to dump cache: " + e.getMessage(), e); } } }