// kelondroSplitTable.java // (C) 2006 by Michael Peter Christen; mc@yacy.net, Frankfurt a. M., Germany // first published 12.10.2006 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.kelondro; import java.io.File; import java.io.IOException; import java.util.ArrayList; import java.util.Calendar; import java.util.Date; import java.util.HashMap; import java.util.Iterator; import java.util.List; import java.util.Map; import java.util.concurrent.Callable; import java.util.concurrent.CompletionService; import java.util.concurrent.ExecutionException; import java.util.concurrent.ExecutorCompletionService; import java.util.concurrent.ExecutorService; import java.util.concurrent.Future; import java.util.concurrent.LinkedBlockingQueue; import java.util.concurrent.RejectedExecutionException; import java.util.concurrent.ThreadPoolExecutor; import java.util.concurrent.TimeUnit; import de.anomic.server.NamePrefixThreadFactory; import de.anomic.server.serverProcessor; import de.anomic.server.logging.serverLog; public class kelondroSplitTable implements kelondroIndex { // this is a set of kelondro tables // the set is divided into tables with different entry date // the table type can be either kelondroFlex or kelondroEco private static final int EcoFSBufferSize = 20; static final kelondroIndex dummyIndex = new kelondroRAMIndex(new kelondroRow(new kelondroColumn[]{new kelondroColumn("key", kelondroColumn.celltype_binary, kelondroColumn.encoder_bytes, 2, "key")}, kelondroNaturalOrder.naturalOrder, 0), 0); // the thread pool for the keeperOf executor service private ExecutorService executor; private HashMap tables; // a map from a date string to a kelondroIndex object private final kelondroRow rowdef; private final File path; private final String tablename; private final kelondroOrder entryOrder; public kelondroSplitTable(final File path, final String tablename, final kelondroRow rowdef, final boolean resetOnFail) { this.path = path; this.tablename = tablename; this.rowdef = rowdef; this.entryOrder = new kelondroRow.EntryComparator(rowdef.objectOrder); init(resetOnFail); } public void init(final boolean resetOnFail) { // init the thread pool for the keeperOf executor service this.executor = new ThreadPoolExecutor(serverProcessor.useCPU + 1, serverProcessor.useCPU + 1, 10, TimeUnit.SECONDS, new LinkedBlockingQueue(), new NamePrefixThreadFactory(tablename)); // initialized tables map this.tables = new HashMap(); if (!(path.exists())) path.mkdirs(); final String[] tablefile = path.list(); String date; // first pass: find tables final HashMap t = new HashMap(); long ram, sum = 0; File f; for (int i = 0; i < tablefile.length; i++) { if ((tablefile[i].startsWith(tablename)) && (tablefile[i].charAt(tablename.length()) == '.') && (tablefile[i].length() == tablename.length() + 7)) { f = new File(path, tablefile[i]); if (f.isDirectory()) { ram = kelondroFlexTable.staticRAMIndexNeed(path, tablefile[i], rowdef); } else { ram = kelondroEcoTable.staticRAMIndexNeed(f, rowdef); } if (ram > 0) { t.put(tablefile[i], Long.valueOf(ram)); sum += ram; } } } // second pass: open tables Iterator> i; Map.Entry entry; String maxf; long maxram; kelondroIndex table; while (t.size() > 0) { // find maximum table maxram = 0; maxf = null; i = t.entrySet().iterator(); while (i.hasNext()) { entry = i.next(); ram = entry.getValue().longValue(); if (ram > maxram) { maxf = entry.getKey(); maxram = ram; } } // open next biggest table t.remove(maxf); if(maxf != null) { date = maxf.substring(tablename.length() + 1); f = new File(path, maxf); if (f.isDirectory()) { // this is a kelonodroFlex table kelondroFlexTable.delete(path, maxf); serverLog.logInfo("kelondroSplitTable", "replaced partial flex table " + f + " by new eco table"); } serverLog.logInfo("kelondroSplitTable", "opening partial eco table " + f); table = new kelondroEcoTable(f, rowdef, kelondroEcoTable.tailCacheUsageAuto, EcoFSBufferSize, 0); tables.put(date, table); } } } public void clear() throws IOException { this.close(); final String[] l = path.list(); for (int i = 0; i < l.length; i++) { if (l[i].startsWith(tablename)) { final File f = new File(path, l[i]); if (f.isDirectory()) kelondroFlexWidthArray.delete(path, l[i]); else f.delete(); } } init(true); } public String filename() { return new File(path, tablename).toString(); } private static final Calendar thisCalendar = Calendar.getInstance(); public static final String dateSuffix(final Date date) { int month, year; final StringBuilder suffix = new StringBuilder(6); synchronized (thisCalendar) { thisCalendar.setTime(date); month = thisCalendar.get(Calendar.MONTH) + 1; year = thisCalendar.get(Calendar.YEAR); } if ((year < 1970) && (year >= 70)) suffix.append("19").append(Integer.toString(year)); else if (year < 1970) suffix.append("20").append(Integer.toString(year)); else if (year > 3000) return null; else suffix.append(Integer.toString(year)); if (month < 10) suffix.append("0").append(Integer.toString(month)); else suffix.append(Integer.toString(month)); return new String(suffix); } public int size() { final Iterator i = tables.values().iterator(); int s = 0; while (i.hasNext()) s += i.next().size(); return s; } public synchronized kelondroProfile profile() { final kelondroProfile[] profiles = new kelondroProfile[tables.size()]; final Iterator i = tables.values().iterator(); int c = 0; while (i.hasNext()) profiles[c++] = (i.next()).profile(); return kelondroProfile.consolidate(profiles); } public int writeBufferSize() { int s = 0; for (final kelondroIndex index : tables.values()) { if (index instanceof kelondroCache) s += ((kelondroCache) index).writeBufferSize(); } return s; } public kelondroRow row() { return this.rowdef; } public boolean has(final byte[] key) { return keeperOf(key) != null; } public synchronized kelondroRow.Entry get(final byte[] key) throws IOException { final kelondroIndex keeper = keeperOf(key); if (keeper == null) return null; return keeper.get(key); } public synchronized void putMultiple(final List rows) throws IOException { throw new UnsupportedOperationException("not yet implemented"); } public synchronized kelondroRow.Entry put(final kelondroRow.Entry row) throws IOException { return put(row, null); // entry for current date } public synchronized kelondroRow.Entry put(final kelondroRow.Entry row, Date entryDate) throws IOException { assert row.objectsize() <= this.rowdef.objectsize; final kelondroIndex keeper = keeperOf(row.getColBytes(0)); if (keeper != null) return keeper.put(row); if ((entryDate == null) || (entryDate.after(new Date()))) entryDate = new Date(); // fix date final String suffix = dateSuffix(entryDate); if (suffix == null) return null; kelondroIndex table = tables.get(suffix); if (table == null) { // open table final File f = new File(path, tablename + "." + suffix); if (f.exists()) { if (f.isDirectory()) { kelondroFlexTable.delete(path, tablename + "." + suffix); } // open a eco table table = new kelondroEcoTable(f, rowdef, kelondroEcoTable.tailCacheDenyUsage, EcoFSBufferSize, 0); } else { // make new table table = new kelondroEcoTable(f, rowdef, kelondroEcoTable.tailCacheDenyUsage, EcoFSBufferSize, 0); } tables.put(suffix, table); } table.put(row); return null; } public synchronized kelondroIndex keeperOf(final byte[] key) { // because the index is stored only in one table, // and the index is completely in RAM, a concurrency will create // not concurrent File accesses //long start = System.currentTimeMillis(); // start a concurrent query to database tables final CompletionService cs = new ExecutorCompletionService(executor); final int s = tables.size(); int rejected = 0; for (final kelondroIndex table : tables.values()) { try { cs.submit(new Callable() { public kelondroIndex call() { if (table.has(key)) return table; return dummyIndex; } }); } catch (final RejectedExecutionException e) { // the executor is either shutting down or the blocking queue is full // execute the search direct here without concurrency if (table.has(key)) return table; rejected++; } } // read the result try { for (int i = 0, n = s - rejected; i < n; i++) { final Future f = cs.take(); final kelondroIndex index = f.get(); if (index != dummyIndex) { //System.out.println("*DEBUG SplitTable success.time = " + (System.currentTimeMillis() - start) + " ms"); return index; } } //System.out.println("*DEBUG SplitTable fail.time = " + (System.currentTimeMillis() - start) + " ms"); return null; } catch (final InterruptedException e) { Thread.currentThread().interrupt(); } catch (final ExecutionException e) { throw new RuntimeException(e.getCause()); } //System.out.println("*DEBUG SplitTable fail.time = " + (System.currentTimeMillis() - start) + " ms"); return null; } public synchronized void addUnique(final kelondroRow.Entry row) throws IOException { addUnique(row, null); } public synchronized void addUnique(final kelondroRow.Entry row, Date entryDate) throws IOException { assert row.objectsize() <= this.rowdef.objectsize; if ((entryDate == null) || (entryDate.after(new Date()))) entryDate = new Date(); // fix date final String suffix = dateSuffix(entryDate); if (suffix == null) return; kelondroIndex table = tables.get(suffix); if (table == null) { // make new table table = new kelondroEcoTable(new File(path, tablename + "." + suffix), rowdef, kelondroEcoTable.tailCacheDenyUsage, EcoFSBufferSize, 0); tables.put(suffix, table); } table.addUnique(row); } public synchronized void addUniqueMultiple(final List rows) throws IOException { final Iterator i = rows.iterator(); while (i.hasNext()) addUnique(i.next()); } public synchronized void addUniqueMultiple(final List rows, final Date entryDate) throws IOException { final Iterator i = rows.iterator(); while (i.hasNext()) addUnique(i.next(), entryDate); } public ArrayList removeDoubles() throws IOException { final Iterator i = tables.values().iterator(); final ArrayList report = new ArrayList(); while (i.hasNext()) { report.addAll(i.next().removeDoubles()); } return report; } public synchronized kelondroRow.Entry remove(final byte[] key) throws IOException { final kelondroIndex table = keeperOf(key); if (table == null) return null; return table.remove(key); } public synchronized kelondroRow.Entry removeOne() throws IOException { final Iterator i = tables.values().iterator(); kelondroIndex table, maxtable = null; int maxcount = -1; while (i.hasNext()) { table = i.next(); if (table.size() > maxcount) { maxtable = table; maxcount = table.size(); } } if (maxtable == null) { return null; } return maxtable.removeOne(); } public synchronized kelondroCloneableIterator keys(final boolean up, final byte[] firstKey) throws IOException { final List> c = new ArrayList>(tables.size()); final Iterator i = tables.values().iterator(); while (i.hasNext()) { c.add(i.next().keys(up, firstKey)); } return kelondroMergeIterator.cascade(c, rowdef.objectOrder, kelondroMergeIterator.simpleMerge, up); } public synchronized kelondroCloneableIterator rows(final boolean up, final byte[] firstKey) throws IOException { final List> c = new ArrayList>(tables.size()); final Iterator i = tables.values().iterator(); while (i.hasNext()) { c.add(i.next().rows(up, firstKey)); } return kelondroMergeIterator.cascade(c, entryOrder, kelondroMergeIterator.simpleMerge, up); } public final int cacheObjectChunkSize() { // dummy method return -1; } public long[] cacheObjectStatus() { // dummy method return null; } public final int cacheNodeChunkSize() { // returns the size that the node cache uses for a single entry return -1; } public final int[] cacheNodeStatus() { // a collection of different node cache status values return new int[]{0,0,0,0,0,0,0,0,0,0}; } public synchronized void close() { if (tables == null) return; this.executor.shutdown(); try { this.executor.awaitTermination(3, TimeUnit.SECONDS); } catch (final InterruptedException e) { } this.executor = null; final Iterator i = tables.values().iterator(); while (i.hasNext()) { i.next().close(); } this.tables = null; } public static void main(final String[] args) { System.out.println(dateSuffix(new Date())); } public void deleteOnExit() { for (kelondroIndex i: this.tables.values()) i.deleteOnExit(); } }