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yacy_search_server/source/net/yacy/peers/SeedDB.java

1124 lines
49 KiB

// yacySeedDB.java
// -------------------------------------
// (C) by Michael Peter Christen; mc@yacy.net
// first published on http://www.anomic.de
// Frankfurt, Germany, 2004, 2005
//
// $LastChangedDate$
// $LastChangedRevision$
// $LastChangedBy$
//
// 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 net.yacy.peers;
import java.io.BufferedWriter;
import java.io.File;
import java.io.FileWriter;
import java.io.IOException;
import java.io.PrintWriter;
import java.lang.ref.SoftReference;
import java.net.InetAddress;
import java.util.ArrayList;
import java.util.HashSet;
import java.util.Hashtable;
import java.util.Iterator;
import java.util.Map;
import java.util.Set;
import java.util.TreeMap;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
import net.yacy.cora.document.ASCII;
import net.yacy.cora.document.UTF8;
import net.yacy.cora.protocol.ClientIdentification;
import net.yacy.cora.protocol.Domains;
import net.yacy.cora.protocol.HeaderFramework;
import net.yacy.cora.protocol.RequestHeader;
import net.yacy.cora.protocol.http.HTTPClient;
import net.yacy.kelondro.blob.MapDataMining;
import net.yacy.kelondro.data.meta.DigestURI;
import net.yacy.kelondro.data.word.Word;
import net.yacy.kelondro.index.HandleSet;
import net.yacy.kelondro.index.RowSpaceExceededException;
import net.yacy.kelondro.logging.Log;
import net.yacy.kelondro.order.Base64Order;
import net.yacy.kelondro.util.FileUtils;
import net.yacy.kelondro.util.kelondroException;
import net.yacy.peers.dht.PartitionScheme;
import net.yacy.peers.dht.VerticalWordPartitionScheme;
import net.yacy.peers.operation.yacySeedUploader;
import net.yacy.search.Switchboard;
import de.anomic.http.server.AlternativeDomainNames;
import de.anomic.http.server.HTTPDemon;
import de.anomic.server.serverCore;
import de.anomic.server.serverSwitch;
public final class SeedDB implements AlternativeDomainNames {
// global statics
private static final int dhtActivityMagic = 32;
/**
* <p><code>public static final String <strong>DBFILE_OWN_SEED</strong> = "mySeed.txt"</code></p>
* <p>Name of the file containing the database holding this peer's seed</p>
*/
public static final String DBFILE_OWN_SEED = "mySeed.txt";
public static final String[] sortFields = new String[] {Seed.LCOUNT, Seed.RCOUNT, Seed.ICOUNT, Seed.UPTIME, Seed.VERSION, Seed.LASTSEEN};
public static final String[] longaccFields = new String[] {Seed.LCOUNT, Seed.ICOUNT, Seed.ISPEED};
public static final String[] doubleaccFields = new String[] {Seed.RSPEED};
// class objects
private File seedActiveDBFile, seedPassiveDBFile, seedPotentialDBFile;
private File myOwnSeedFile;
private MapDataMining seedActiveDB, seedPassiveDB, seedPotentialDB;
protected int lastSeedUpload_seedDBSize = 0;
public long lastSeedUpload_timeStamp = System.currentTimeMillis();
protected String lastSeedUpload_myIP = "";
public PeerActions peerActions;
public NewsPool newsPool;
private int netRedundancy;
public PartitionScheme scheme;
private Seed mySeed; // my own seed
private final Set<String> myBotIDs; // list of id's that this bot accepts as robots.txt identification
private final Hashtable<String, String> nameLookupCache; // a name-to-hash relation
private final Hashtable<InetAddress, SoftReference<Seed>> ipLookupCache;
public SeedDB(
final File networkRoot,
final String seedActiveDBFileName,
final String seedPassiveDBFileName,
final String seedPotentialDBFileName,
final File myOwnSeedFile,
final int redundancy,
final int partitionExponent,
final boolean useTailCache,
final boolean exceed134217727) {
this.seedActiveDBFile = new File(networkRoot, seedActiveDBFileName);
this.seedPassiveDBFile = new File(networkRoot, seedPassiveDBFileName);
this.seedPotentialDBFile = new File(networkRoot, seedPotentialDBFileName);
this.mySeed = null; // my own seed
this.myOwnSeedFile = myOwnSeedFile;
this.myBotIDs = new HashSet<String>();
this.myBotIDs.add("yacy");
this.myBotIDs.add("yacybot");
this.myBotIDs.add("yacyproxy");
this.netRedundancy = redundancy;
this.scheme = new VerticalWordPartitionScheme(partitionExponent);
// set up seed database
this.seedActiveDB = openSeedTable(this.seedActiveDBFile);
this.seedPassiveDB = openSeedTable(this.seedPassiveDBFile);
this.seedPotentialDB = openSeedTable(this.seedPotentialDBFile);
// start our virtual DNS service for yacy peers with empty cache
this.nameLookupCache = new Hashtable<String, String>();
// cache for reverse name lookup
this.ipLookupCache = new Hashtable<InetAddress, SoftReference<Seed>>();
// check if we are in the seedCaches: this can happen if someone else published our seed
removeMySeed();
this.lastSeedUpload_seedDBSize = sizeConnected();
// tell the httpdProxy how to find this table as address resolver
HTTPDemon.setAlternativeResolver(this);
// create or init news database
this.newsPool = new NewsPool(networkRoot, useTailCache, exceed134217727);
// deploy peer actions
this.peerActions = new PeerActions(this, this.newsPool);
}
public void relocate(
final File newNetworkRoot,
final int redundancy,
final int partitionExponent,
final boolean useTailCache,
final boolean exceed134217727) {
// close old databases
this.seedActiveDB.close();
this.seedPassiveDB.close();
this.seedPotentialDB.close();
this.newsPool.close();
this.peerActions.close();
// open new according to the newNetworkRoot
this.seedActiveDBFile = new File(newNetworkRoot, this.seedActiveDBFile.getName());
this.seedPassiveDBFile = new File(newNetworkRoot, this.seedPassiveDBFile.getName());
this.seedPotentialDBFile = new File(newNetworkRoot, this.seedPotentialDBFile.getName());
// replace my (old) seed with new seed definition from other network
// but keep the seed name
final String peername = myName();
this.mySeed = null; // my own seed
this.myOwnSeedFile = new File(newNetworkRoot, SeedDB.DBFILE_OWN_SEED);
initMySeed();
this.mySeed.setName(peername);
this.netRedundancy = redundancy;
this.scheme = new VerticalWordPartitionScheme(partitionExponent);
// set up seed database
this.seedActiveDB = openSeedTable(this.seedActiveDBFile);
this.seedPassiveDB = openSeedTable(this.seedPassiveDBFile);
this.seedPotentialDB = openSeedTable(this.seedPotentialDBFile);
// start our virtual DNS service for yacy peers with empty cache
this.nameLookupCache.clear();
// cache for reverse name lookup
this.ipLookupCache.clear();
// check if we are in the seedCaches: this can happen if someone else published our seed
removeMySeed();
this.lastSeedUpload_seedDBSize = sizeConnected();
// tell the httpdProxy how to find this table as address resolver
HTTPDemon.setAlternativeResolver(this);
// create or init news database
this.newsPool = new NewsPool(newNetworkRoot, useTailCache, exceed134217727);
// deploy peer actions
this.peerActions = new PeerActions(this, this.newsPool);
}
private synchronized void initMySeed() {
if (this.mySeed != null) return;
// create or init own seed
if (this.myOwnSeedFile.length() > 0) try {
// load existing identity
this.mySeed = Seed.load(this.myOwnSeedFile);
if (this.mySeed == null) throw new IOException("current seed is null");
} catch (final IOException e) {
// create new identity
Log.logSevere("SEEDDB", "could not load stored mySeed.txt from " + this.myOwnSeedFile.toString() + ": " + e.getMessage() + ". creating new seed.", e);
this.mySeed = Seed.genLocalSeed(this);
try {
this.mySeed.save(this.myOwnSeedFile);
} catch (final IOException ee) {
Log.logSevere("SEEDDB", "error saving mySeed.txt (1) to " + this.myOwnSeedFile.toString() + ": " + ee.getMessage(), ee);
Log.logException(ee);
System.exit(-1);
}
} else {
// create new identity
Log.logInfo("SEEDDB", "could not find stored mySeed.txt at " + this.myOwnSeedFile.toString() + ": " + ". creating new seed.");
this.mySeed = Seed.genLocalSeed(this);
try {
this.mySeed.save(this.myOwnSeedFile);
} catch (final IOException ee) {
Log.logSevere("SEEDDB", "error saving mySeed.txt (2) to " + this.myOwnSeedFile.toString() + ": " + ee.getMessage(), ee);
Log.logException(ee);
System.exit(-1);
}
}
this.myBotIDs.add(this.mySeed.getName() + ".yacy");
this.myBotIDs.add(this.mySeed.hash + ".yacyh");
this.mySeed.setIP(""); // we delete the old information to see what we have now
this.mySeed.put(Seed.PEERTYPE, Seed.PEERTYPE_VIRGIN); // markup startup condition
}
public Set<String> myBotIDs() {
return this.myBotIDs;
}
public int redundancy() {
if (this.mySeed.isJunior()) return 1;
return this.netRedundancy;
}
public boolean mySeedIsDefined() {
return this.mySeed != null;
}
public Seed mySeed() {
if (this.mySeed == null) {
if (sizeConnected() == 0) try {Thread.sleep(5000);} catch (final InterruptedException e) {} // wait for init
initMySeed();
// check if my seed has an IP assigned
if (myIP() == null || myIP().length() == 0) {
this.mySeed.setIP(Domains.myPublicLocalIP().getHostAddress());
}
}
return this.mySeed;
}
public void setMyName(final String name) {
this.myBotIDs.remove(this.mySeed.getName() + ".yacy");
this.mySeed.setName(name);
this.myBotIDs.add(name + ".yacy");
}
@Override
public String myAlternativeAddress() {
return mySeed().getName() + ".yacy";
}
@Override
public String myIP() {
return mySeed().getIP();
}
@Override
public int myPort() {
return mySeed().getPort();
}
@Override
public String myName() {
return this.mySeed.getName();
}
@Override
public String myID() {
return this.mySeed.hash;
}
public synchronized void removeMySeed() {
if (this.seedActiveDB.isEmpty() && this.seedPassiveDB.isEmpty() && this.seedPotentialDB.isEmpty()) return; // avoid that the own seed is initialized too early
if (this.mySeed == null) initMySeed();
try {
final byte[] mySeedHash = ASCII.getBytes(this.mySeed.hash);
this.seedActiveDB.delete(mySeedHash);
this.seedPassiveDB.delete(mySeedHash);
this.seedPotentialDB.delete(mySeedHash);
} catch (final IOException e) { Log.logWarning("yacySeedDB", "could not remove hash ("+ e.getClass() +"): "+ e.getMessage()); }
}
public void saveMySeed() {
try {
mySeed().save(this.myOwnSeedFile);
} catch (final IOException e) { Log.logWarning("yacySeedDB", "could not save mySeed '"+ this.myOwnSeedFile +"': "+ e.getMessage()); }
}
public boolean noDHTActivity() {
// for small networks, we don't perform DHT transmissions, because it is possible to search over all peers
return sizeConnected() <= dhtActivityMagic;
}
private synchronized MapDataMining openSeedTable(final File seedDBFile) {
final File parentDir = new File(seedDBFile.getParent());
if (!parentDir.exists()) {
if(!parentDir.mkdirs())
Log.logWarning("yacySeedDB", "could not create directories for "+ seedDBFile.getParent());
}
try {
return new MapDataMining(seedDBFile, Word.commonHashLength, Base64Order.enhancedCoder, 1024 * 512, 500, sortFields, longaccFields, doubleaccFields, this);
} catch (final Exception e) {
// try again
FileUtils.deletedelete(seedDBFile);
try {
return new MapDataMining(seedDBFile, Word.commonHashLength, Base64Order.enhancedCoder, 1024 * 512, 500, sortFields, longaccFields, doubleaccFields, this);
} catch (final IOException e1) {
Log.logException(e1);
System.exit(-1);
return null;
}
}
}
private synchronized MapDataMining resetSeedTable(MapDataMining seedDB, final File seedDBFile) {
// this is an emergency function that should only be used if any problem with the
// seed.db is detected
Network.log.logWarning("seed-db " + seedDBFile.toString() + " reset (on-the-fly)");
seedDB.close();
FileUtils.deletedelete(seedDBFile);
if (seedDBFile.exists())
Log.logWarning("yacySeedDB", "could not delete file "+ seedDBFile);
// create new seed database
seedDB = openSeedTable(seedDBFile);
return seedDB;
}
public synchronized void resetActiveTable() { this.seedActiveDB = resetSeedTable(this.seedActiveDB, this.seedActiveDBFile); }
private synchronized void resetPassiveTable() { this.seedPassiveDB = resetSeedTable(this.seedPassiveDB, this.seedPassiveDBFile); }
private synchronized void resetPotentialTable() { this.seedPotentialDB = resetSeedTable(this.seedPotentialDB, this.seedPotentialDBFile); }
public void close() {
if (this.seedActiveDB != null) this.seedActiveDB.close();
if (this.seedPassiveDB != null) this.seedPassiveDB.close();
if (this.seedPotentialDB != null) this.seedPotentialDB.close();
this.newsPool.close();
this.peerActions.close();
}
public Iterator<Seed> seedsSortedConnected(final boolean up, final String field) {
// enumerates seed-type objects: all seeds sequentially ordered by field
return new seedEnum(up, field, this.seedActiveDB);
}
public Iterator<Seed> seedsSortedDisconnected(final boolean up, final String field) {
// enumerates seed-type objects: all seeds sequentially ordered by field
return new seedEnum(up, field, this.seedPassiveDB);
}
public Iterator<Seed> seedsSortedPotential(final boolean up, final String field) {
// enumerates seed-type objects: all seeds sequentially ordered by field
return new seedEnum(up, field, this.seedPotentialDB);
}
public TreeMap<byte[], String> /* peer-b64-hashes/ipport */ clusterHashes(final String clusterdefinition) {
// collects seeds according to cluster definition string, which consists of
// comma-separated .yacy or .yacyh-domains
// the domain may be extended by an alternative address specification of the form
// <ip> or <ip>:<port>. The port must be identical to the port specified in the peer seed,
// therefore it is optional. The address specification is separated by a '='; the complete
// address has therefore the form
// address ::= (<peername>'.yacy'|<peerhexhash>'.yacyh'){'='<ip>{':'<port}}
// clusterdef ::= {address}{','address}*
final String[] addresses = (clusterdefinition.length() == 0) ? new String[0] : clusterdefinition.split(",");
final TreeMap<byte[], String> clustermap = new TreeMap<byte[], String>(Base64Order.enhancedCoder);
Seed seed;
String hash, yacydom, ipport;
int p;
for (final String addresse : addresses) {
p = addresse.indexOf('=');
if (p >= 0) {
yacydom = addresse.substring(0, p);
ipport = addresse.substring(p + 1);
} else {
yacydom = addresse;
ipport = null;
}
if (yacydom.endsWith(".yacyh")) {
// find a peer with its hexhash
hash = Seed.hexHash2b64Hash(yacydom.substring(0, yacydom.length() - 6));
seed = get(hash);
if (seed == null) {
Network.log.logWarning("cluster peer '" + yacydom + "' was not found.");
} else {
clustermap.put(ASCII.getBytes(hash), ipport);
}
} else if (yacydom.endsWith(".yacy")) {
// find a peer with its name
seed = lookupByName(yacydom.substring(0, yacydom.length() - 5));
if (seed == null) {
Network.log.logWarning("cluster peer '" + yacydom + "' was not found.");
} else {
clustermap.put(ASCII.getBytes(seed.hash), ipport);
}
} else {
Network.log.logWarning("cluster peer '" + addresse + "' has wrong syntax. the name must end with .yacy or .yacyh");
}
}
return clustermap;
}
public Iterator<Seed> seedsConnected(final boolean up, final boolean rot, final byte[] firstHash, final float minVersion) {
// enumerates seed-type objects: all seeds sequentially without order
return new seedEnum(up, rot, (firstHash == null) ? null : firstHash, null, this.seedActiveDB, minVersion);
}
private Iterator<Seed> seedsDisconnected(final boolean up, final boolean rot, final byte[] firstHash, final float minVersion) {
// enumerates seed-type objects: all seeds sequentially without order
return new seedEnum(up, rot, (firstHash == null) ? null : firstHash, null, this.seedPassiveDB, minVersion);
}
private Iterator<Seed> seedsPotential(final boolean up, final boolean rot, final byte[] firstHash, final float minVersion) {
// enumerates seed-type objects: all seeds sequentially without order
return new seedEnum(up, rot, (firstHash == null) ? null : firstHash, null, this.seedPotentialDB, minVersion);
}
public Seed anySeedVersion(final float minVersion) {
// return just any seed that has a specific minimum version number
final Iterator<Seed> e = seedsConnected(true, true, Seed.randomHash(), minVersion);
return e.next();
}
/**
* count the number of peers that had been seed within the time limit
* @param limit the time limit in minutes. 1440 minutes is a day
* @return the number of peers seen in the given time
*/
public int sizeActiveSince(final long limit) {
int c = this.seedActiveDB.size();
Seed seed;
Iterator<Seed> i = seedsSortedDisconnected(false, Seed.LASTSEEN);
while (i.hasNext()) {
seed = i.next();
if (seed != null) {
if (Math.abs((System.currentTimeMillis() - seed.getLastSeenUTC()) / 1000 / 60) > limit) break;
c++;
}
}
i = seedsSortedPotential(false, Seed.LASTSEEN);
while (i.hasNext()) {
seed = i.next();
if (seed != null) {
if (Math.abs((System.currentTimeMillis() - seed.getLastSeenUTC()) / 1000 / 60) > limit) break;
c++;
}
}
return c;
}
public int sizeConnected() {
return this.seedActiveDB.size();
}
public int sizeDisconnected() {
return this.seedPassiveDB.size();
}
public int sizePotential() {
return this.seedPotentialDB.size();
}
public long countActiveURL() { return this.seedActiveDB.getLongAcc(Seed.LCOUNT); }
public long countActiveRWI() { return this.seedActiveDB.getLongAcc(Seed.ICOUNT); }
public long countActivePPM() { return this.seedActiveDB.getLongAcc(Seed.ISPEED); }
public float countActiveQPM() { return this.seedActiveDB.getFloatAcc(Seed.RSPEED); }
public long countPassiveURL() { return this.seedPassiveDB.getLongAcc(Seed.LCOUNT); }
public long countPassiveRWI() { return this.seedPassiveDB.getLongAcc(Seed.ICOUNT); }
public long countPotentialURL() { return this.seedPotentialDB.getLongAcc(Seed.LCOUNT); }
public long countPotentialRWI() { return this.seedPotentialDB.getLongAcc(Seed.ICOUNT); }
public void addConnected(final Seed seed) {
if (seed.isProper(false) != null) return;
//seed.put(yacySeed.LASTSEEN, yacyCore.shortFormatter.format(new Date(yacyCore.universalTime())));
synchronized (this) {
try {
this.nameLookupCache.put(seed.getName(), seed.hash);
final ConcurrentMap<String, String> seedPropMap = seed.getMap();
this.seedActiveDB.insert(ASCII.getBytes(seed.hash), seedPropMap);
this.seedPassiveDB.delete(ASCII.getBytes(seed.hash));
this.seedPotentialDB.delete(ASCII.getBytes(seed.hash));
} catch (final Exception e) {
Network.log.logSevere("ERROR add: seed.db corrupt (" + e.getMessage() + "); resetting seed.db", e);
resetActiveTable();
}
}
}
protected void addDisconnected(final Seed seed) {
if (seed.isProper(false) != null) return;
synchronized (this) {
try {
this.nameLookupCache.remove(seed.getName());
this.seedActiveDB.delete(ASCII.getBytes(seed.hash));
this.seedPotentialDB.delete(ASCII.getBytes(seed.hash));
} catch (final Exception e) { Log.logWarning("yacySeedDB", "could not remove hash ("+ e.getClass() +"): "+ e.getMessage()); }
//seed.put(yacySeed.LASTSEEN, yacyCore.shortFormatter.format(new Date(yacyCore.universalTime())));
try {
final ConcurrentMap<String, String> seedPropMap = seed.getMap();
this.seedPassiveDB.insert(ASCII.getBytes(seed.hash), seedPropMap);
} catch (final Exception e) {
Network.log.logSevere("ERROR add: seed.db corrupt (" + e.getMessage() + "); resetting seed.db", e);
resetPassiveTable();
}
}
}
protected void addPotential(final Seed seed) {
if (seed.isProper(false) != null) return;
synchronized (this) {
try {
this.nameLookupCache.remove(seed.getName());
this.seedActiveDB.delete(ASCII.getBytes(seed.hash));
this.seedPassiveDB.delete(ASCII.getBytes(seed.hash));
} catch (final Exception e) { Log.logWarning("yacySeedDB", "could not remove hash ("+ e.getClass() +"): "+ e.getMessage()); }
//seed.put(yacySeed.LASTSEEN, yacyCore.shortFormatter.format(new Date(yacyCore.universalTime())));
try {
final ConcurrentMap<String, String> seedPropMap = seed.getMap();
this.seedPotentialDB.insert(ASCII.getBytes(seed.hash), seedPropMap);
} catch (final Exception e) {
Network.log.logSevere("ERROR add: seed.db corrupt (" + e.getMessage() + "); resetting seed.db", e);
resetPotentialTable();
}
}
}
public synchronized void removeDisconnected(final String peerHash) {
if (peerHash == null) return;
try {
this.seedPassiveDB.delete(ASCII.getBytes(peerHash));
} catch (final IOException e) { Log.logWarning("yacySeedDB", "could not remove hash ("+ e.getClass() +"): "+ e.getMessage()); }
}
public synchronized void removePotential(final String peerHash) {
if (peerHash == null) return;
try {
this.seedPotentialDB.delete(ASCII.getBytes(peerHash));
} catch (final IOException e) { Log.logWarning("yacySeedDB", "could not remove hash ("+ e.getClass() +"): "+ e.getMessage()); }
}
public boolean hasConnected(final byte[] hash) {
return this.seedActiveDB.containsKey(hash);
}
public boolean hasDisconnected(final byte[] hash) {
return this.seedPassiveDB.containsKey(hash);
}
public boolean hasPotential(final byte[] hash) {
return this.seedPotentialDB.containsKey(hash);
}
private Seed get(final String hash, final MapDataMining database) {
if (hash == null || hash.length() == 0) return null;
if ((this.mySeed != null) && (hash.equals(this.mySeed.hash))) return this.mySeed;
final ConcurrentHashMap<String, String> entry = new ConcurrentHashMap<String, String>();
try {
final Map<String, String> map = database.get(ASCII.getBytes(hash));
if (map == null) return null;
entry.putAll(map);
} catch (final IOException e) {
Log.logException(e);
return null;
} catch (final RowSpaceExceededException e) {
Log.logException(e);
return null;
}
return new Seed(hash, entry);
}
public Seed getConnected(final String hash) {
return get(hash, this.seedActiveDB);
}
public Seed getDisconnected(final String hash) {
return get(hash, this.seedPassiveDB);
}
public Seed getPotential(final String hash) {
return get(hash, this.seedPotentialDB);
}
public Seed get(final String hash) {
Seed seed = getConnected(hash);
if (seed == null) seed = getDisconnected(hash);
if (seed == null) seed = getPotential(hash);
return seed;
}
public void update(final String hash, final Seed seed) {
if (this.mySeed == null) initMySeed();
if (hash.equals(this.mySeed.hash)) {
this.mySeed = seed;
return;
}
final byte[] hashb = ASCII.getBytes(hash);
Seed s = get(hash, this.seedActiveDB);
if (s != null) try { this.seedActiveDB.insert(hashb, seed.getMap()); return;} catch (final Exception e) {Log.logException(e);}
s = get(hash, this.seedPassiveDB);
if (s != null) try { this.seedPassiveDB.insert(hashb, seed.getMap()); return;} catch (final Exception e) {Log.logException(e);}
s = get(hash, this.seedPotentialDB);
if (s != null) try { this.seedPotentialDB.insert(hashb, seed.getMap()); return;} catch (final Exception e) {Log.logException(e);}
}
public Seed lookupByName(String peerName) {
// reads a seed by searching by name
if (peerName.endsWith(".yacy")) peerName = peerName.substring(0, peerName.length() - 5);
// local peer?
if (peerName.equals("localpeer")) {
if (this.mySeed == null) initMySeed();
return this.mySeed;
}
// then try to use the cache
final String seedhash = this.nameLookupCache.get(peerName);
Seed seed;
if (seedhash != null) {
seed = this.get(seedhash);
if (seed != null) return seed;
}
// enumerate the cache and simultanous insert values
String name;
for (int table = 0; table < 2; table++) {
final Iterator<Seed> e = (table == 0) ? seedsConnected(true, false, null, (float) 0.0) : seedsDisconnected(true, false, null, (float) 0.0);
while (e.hasNext()) {
seed = e.next();
if (seed != null) {
name = seed.getName().toLowerCase();
if (seed.isProper(false) == null) this.nameLookupCache.put(name, seed.hash);
if (name.equals(peerName)) return seed;
}
}
}
// check local seed
if (this.mySeed == null) initMySeed();
name = this.mySeed.getName().toLowerCase();
if (this.mySeed.isProper(false) == null) this.nameLookupCache.put(name, this.mySeed.hash);
if (name.equals(peerName)) return this.mySeed;
// nothing found
return null;
}
public Seed lookupByIP(
final InetAddress peerIP,
final boolean lookupConnected,
final boolean lookupDisconnected,
final boolean lookupPotential
) {
if (peerIP == null) return null;
Seed seed = null;
// local peer?
if (Domains.isThisHostIP(peerIP)) {
if (this.mySeed == null) initMySeed();
return this.mySeed;
}
// then try to use the cache
final SoftReference<Seed> ref = this.ipLookupCache.get(peerIP);
if (ref != null) {
seed = ref.get();
if (seed != null) return seed;
}
int pos = -1;
String addressStr = null;
InetAddress seedIPAddress = null;
final HandleSet badPeerHashes = new HandleSet(12, Base64Order.enhancedCoder, 0);
if (lookupConnected) {
// enumerate the cache and simultaneously insert values
final Iterator<Seed> e = seedsConnected(true, false, null, (float) 0.0);
while (e.hasNext()) {
seed = e.next();
if (seed != null) {
addressStr = seed.getPublicAddress();
if (addressStr == null) {
Log.logWarning("YACY","lookupByIP/Connected: address of seed " + seed.getName() + "/" + seed.hash + " is null.");
try {
badPeerHashes.put(ASCII.getBytes(seed.hash));
} catch (final RowSpaceExceededException e1) {
Log.logException(e1);
break;
}
continue;
}
if ((pos = addressStr.indexOf(':'))!= -1) {
addressStr = addressStr.substring(0,pos);
}
seedIPAddress = Domains.dnsResolve(addressStr);
if (seedIPAddress == null) continue;
if (seed.isProper(false) == null) this.ipLookupCache.put(seedIPAddress, new SoftReference<Seed>(seed));
if (seedIPAddress.equals(peerIP)) return seed;
}
}
// delete bad peers
final Iterator<byte[]> i = badPeerHashes.iterator();
while (i.hasNext()) try {this.seedActiveDB.delete(i.next());} catch (final IOException e1) {Log.logException(e1);}
badPeerHashes.clear();
}
if (lookupDisconnected) {
// enumerate the cache and simultanous insert values
final Iterator<Seed>e = seedsDisconnected(true, false, null, (float) 0.0);
while (e.hasNext()) {
seed = e.next();
if (seed != null) {
addressStr = seed.getPublicAddress();
if (addressStr == null) {
Log.logWarning("YACY","lookupByIPDisconnected: address of seed " + seed.getName() + "/" + seed.hash + " is null.");
try {
badPeerHashes.put(UTF8.getBytes(seed.hash));
} catch (final RowSpaceExceededException e1) {
Log.logException(e1);
break;
}
continue;
}
if ((pos = addressStr.indexOf(':'))!= -1) {
addressStr = addressStr.substring(0,pos);
}
seedIPAddress = Domains.dnsResolve(addressStr);
if (seedIPAddress == null) continue;
if (seed.isProper(false) == null) this.ipLookupCache.put(seedIPAddress, new SoftReference<Seed>(seed));
if (seedIPAddress.equals(peerIP)) return seed;
}
}
// delete bad peers
final Iterator<byte[]> i = badPeerHashes.iterator();
while (i.hasNext()) try {this.seedActiveDB.delete(i.next());} catch (final IOException e1) {Log.logException(e1);}
badPeerHashes.clear();
}
if (lookupPotential) {
// enumerate the cache and simultanous insert values
final Iterator<Seed> e = seedsPotential(true, false, null, (float) 0.0);
while (e.hasNext()) {
seed = e.next();
if ((seed != null) && ((addressStr = seed.getPublicAddress()) != null)) {
if ((pos = addressStr.indexOf(':'))!= -1) {
addressStr = addressStr.substring(0,pos);
}
seedIPAddress = Domains.dnsResolve(addressStr);
if (seedIPAddress == null) continue;
if (seed.isProper(false) == null) this.ipLookupCache.put(seedIPAddress, new SoftReference<Seed>(seed));
if (seedIPAddress.equals(peerIP)) return seed;
}
}
}
// check local seed
if (this.mySeed == null) return null;
addressStr = this.mySeed.getPublicAddress();
if (addressStr == null) return null;
if ((pos = addressStr.indexOf(':'))!= -1) {
addressStr = addressStr.substring(0,pos);
}
seedIPAddress = Domains.dnsResolve(addressStr);
if (seedIPAddress == null) return null;
if (this.mySeed.isProper(false) == null) this.ipLookupCache.put(seedIPAddress, new SoftReference<Seed>(this.mySeed));
if (seedIPAddress.equals(peerIP)) return this.mySeed;
// nothing found
return null;
}
private ArrayList<String> storeSeedList(final File seedFile, final boolean addMySeed) throws IOException {
PrintWriter pw = null;
final ArrayList<String> v = new ArrayList<String>(this.seedActiveDB.size() + 1);
try {
pw = new PrintWriter(new BufferedWriter(new FileWriter(seedFile)));
// store own peer seed
String line;
if (this.mySeed == null) initMySeed();
if (addMySeed) {
line = this.mySeed.genSeedStr(null);
v.add(line);
pw.print(line + serverCore.CRLF_STRING);
}
// store active peer seeds
Seed ys;
Iterator<Seed> se = seedsConnected(true, false, null, (float) 0.0);
while (se.hasNext()) {
ys = se.next();
if (ys != null) {
line = ys.genSeedStr(null);
v.add(line);
pw.print(line + serverCore.CRLF_STRING);
}
}
// store some of the not-so-old passive peer seeds (limit: 1 day)
se = seedsDisconnected(true, false, null, (float) 0.0);
final long timeout = System.currentTimeMillis() - (1000L * 60L * 60L * 24L);
while (se.hasNext()) {
ys = se.next();
if (ys != null) {
if (ys.getLastSeenUTC() < timeout) continue;
line = ys.genSeedStr(null);
v.add(line);
pw.print(line + serverCore.CRLF_STRING);
}
}
pw.flush();
} finally {
if (pw != null) try { pw.close(); } catch (final Exception e) {}
}
return v;
}
protected String uploadSeedList(final yacySeedUploader uploader,
final serverSwitch sb,
final SeedDB seedDB,
final DigestURI seedURL) throws Exception {
// upload a seed file, if possible
if (seedURL == null) throw new NullPointerException("UPLOAD - Error: URL not given");
String log = null;
File seedFile = null;
try {
// create a seed file which for uploading ...
seedFile = File.createTempFile("seedFile",".txt", seedDB.myOwnSeedFile.getParentFile());
seedFile.deleteOnExit();
if (Log.isFine("YACY")) Log.logFine("YACY", "SaveSeedList: Storing seedlist into tempfile " + seedFile.toString());
final ArrayList<String> uv = storeSeedList(seedFile, true);
// uploading the seed file
if (Log.isFine("YACY")) Log.logFine("YACY", "SaveSeedList: Trying to upload seed-file, " + seedFile.length() + " bytes, " + uv.size() + " entries.");
log = uploader.uploadSeedFile(sb, seedFile);
// test download
if (Log.isFine("YACY")) Log.logFine("YACY", "SaveSeedList: Trying to download seed-file '" + seedURL + "'.");
final Iterator<String> check = downloadSeedFile(seedURL);
// Comparing if local copy and uploaded copy are equal
final String errorMsg = checkCache(uv, check);
if (errorMsg == null)
log = log + "UPLOAD CHECK - Success: the result vectors are equal" + serverCore.CRLF_STRING;
else {
throw new Exception("UPLOAD CHECK - Error: the result vector is different. " + errorMsg + serverCore.CRLF_STRING);
}
} finally {
if (seedFile != null)
try {
FileUtils.deletedelete(seedFile);
} catch (final Exception e) {
/* ignore this */
}
}
return log;
}
private Iterator<String> downloadSeedFile(final DigestURI seedURL) throws IOException {
// Configure http headers
final RequestHeader reqHeader = new RequestHeader();
reqHeader.put(HeaderFramework.PRAGMA, "no-cache");
reqHeader.put(HeaderFramework.CACHE_CONTROL, "no-cache"); // httpc uses HTTP/1.0 is this necessary?
reqHeader.put(HeaderFramework.USER_AGENT, ClientIdentification.getUserAgent());
final HTTPClient client = new HTTPClient();
client.setHeader(reqHeader.entrySet());
byte[] content = null;
try {
// send request
content = client.GETbytes(seedURL);
} catch (final Exception e) {
throw new IOException("Unable to download seed file '" + seedURL + "'. " + e.getMessage());
}
// check response code
if (client.getHttpResponse().getStatusLine().getStatusCode() != 200) {
throw new IOException("Server returned status: " + client.getHttpResponse().getStatusLine());
}
try {
// uncompress it if it is gzipped
content = FileUtils.uncompressGZipArray(content);
// convert it into an array
return FileUtils.strings(content);
} catch (final Exception e) {
throw new IOException("Unable to uncompress seed file '" + seedURL + "'. " + e.getMessage());
}
}
private String checkCache(final ArrayList<String> uv, final Iterator<String> check) {
if ((check == null) || (uv == null)) {
if (Log.isFine("YACY")) Log.logFine("YACY", "SaveSeedList: Local and uploades seed-list are different");
return "Entry count is different: uv.size() = " + ((uv == null) ? "null" : Integer.toString(uv.size()));
}
if (Log.isFine("YACY")) Log.logFine("YACY", "SaveSeedList: Comparing local and uploades seed-list entries ...");
int i = 0;
while (check.hasNext() && i < uv.size()) {
if (!((uv.get(i)).equals(check.next()))) return "Element at position " + i + " is different.";
i++;
}
// no difference found
return null;
}
/**
* resolve a yacy address
*/
public String resolve(String host) {
Seed seed;
int p;
String subdom = null;
if (host.endsWith(".yacyh")) {
// this is not functional at the moment
// caused by lowecasing of hashes at the browser client
p = host.indexOf('.');
if ((p > 0) && (p != (host.length() - 6))) {
subdom = host.substring(0, p);
host = host.substring(p + 1);
}
// check if we have a b64-hash or a hex-hash
String hash = host.substring(0, host.length() - 6);
if (hash.length() > Word.commonHashLength) {
// this is probably a hex-hash
hash = Seed.hexHash2b64Hash(hash);
}
// check remote seeds
seed = getConnected(hash); // checks only remote, not local
// check local seed
if (seed == null) {
if (this.mySeed == null) initMySeed();
if (hash.equals(this.mySeed.hash))
seed = this.mySeed;
else return null;
}
return seed.getPublicAddress() + ((subdom == null) ? "" : ("/" + subdom));
} else if (host.endsWith(".yacy")) {
// identify subdomain
p = host.indexOf('.');
if ((p > 0) && (p != (host.length() - 5))) {
subdom = host.substring(0, p); // no double-dot attack possible, the subdom cannot have ".." in it
host = host.substring(p + 1); // if ever, the double-dots are here but do not harm
}
// identify domain
final String domain = host.substring(0, host.length() - 5).toLowerCase();
seed = lookupByName(domain);
if (seed == null) return null;
if (this.mySeed == null) initMySeed();
if ((seed == this.mySeed) && (!(seed.isOnline()))) {
// take local ip instead of external
return Switchboard.getSwitchboard().myPublicIP() + ":" + Switchboard.getSwitchboard().getConfig("port", "8090") + ((subdom == null) ? "" : ("/" + subdom));
}
return seed.getPublicAddress() + ((subdom == null) ? "" : ("/" + subdom));
} else {
return null;
}
}
public String targetAddress(final String targetHash) {
// find target address
String address;
if (targetHash.equals(mySeed().hash)) {
address = mySeed().getClusterAddress();
} else {
final Seed targetSeed = getConnected(targetHash);
if (targetSeed == null) { return null; }
address = targetSeed.getClusterAddress();
}
if (address == null) address = "localhost:8090";
return address;
}
private class seedEnum implements Iterator<Seed> {
private Iterator<Map.Entry<byte[], Map<String, String>>> it;
private Seed nextSeed;
private final MapDataMining database;
private float minVersion;
private seedEnum(final boolean up, final boolean rot, final byte[] firstKey, final byte[] secondKey, final MapDataMining database, final float minVersion) {
this.database = database;
this.minVersion = minVersion;
try {
this.it = (firstKey == null) ? database.entries(up, rot) : database.entries(up, rot, firstKey, secondKey);
float version;
while (true) {
this.nextSeed = internalNext();
if (this.nextSeed == null) break;
version = this.nextSeed.getVersion();
if (version >= this.minVersion || version == 0.0) break; // include 0.0 to access always developer peers
}
} catch (final IOException e) {
Log.logException(e);
Network.log.logSevere("ERROR seedLinEnum: seed.db corrupt (" + e.getMessage() + "); resetting seed.db", e);
if (database == SeedDB.this.seedActiveDB) SeedDB.this.seedActiveDB = resetSeedTable(SeedDB.this.seedActiveDB, SeedDB.this.seedActiveDBFile);
if (database == SeedDB.this.seedPassiveDB) SeedDB.this.seedPassiveDB = resetSeedTable(SeedDB.this.seedPassiveDB, SeedDB.this.seedPassiveDBFile);
this.it = null;
} catch (final kelondroException e) {
Log.logException(e);
Network.log.logSevere("ERROR seedLinEnum: seed.db corrupt (" + e.getMessage() + "); resetting seed.db", e);
if (database == SeedDB.this.seedActiveDB) SeedDB.this.seedActiveDB = resetSeedTable(SeedDB.this.seedActiveDB, SeedDB.this.seedActiveDBFile);
if (database == SeedDB.this.seedPassiveDB) SeedDB.this.seedPassiveDB = resetSeedTable(SeedDB.this.seedPassiveDB, SeedDB.this.seedPassiveDBFile);
this.it = null;
}
}
private seedEnum(final boolean up, final String field, final MapDataMining database) {
this.database = database;
try {
this.it = database.entries(up, field);
this.nextSeed = internalNext();
} catch (final kelondroException e) {
Log.logException(e);
Network.log.logSevere("ERROR seedLinEnum: seed.db corrupt (" + e.getMessage() + "); resetting seed.db", e);
if (database == SeedDB.this.seedActiveDB) SeedDB.this.seedActiveDB = resetSeedTable(SeedDB.this.seedActiveDB, SeedDB.this.seedActiveDBFile);
if (database == SeedDB.this.seedPassiveDB) SeedDB.this.seedPassiveDB = resetSeedTable(SeedDB.this.seedPassiveDB, SeedDB.this.seedPassiveDBFile);
if (database == SeedDB.this.seedPotentialDB) SeedDB.this.seedPotentialDB = resetSeedTable(SeedDB.this.seedPotentialDB, SeedDB.this.seedPotentialDBFile);
this.it = null;
}
}
public boolean hasNext() {
return (this.nextSeed != null);
}
private Seed internalNext() {
if (this.it == null || !(this.it.hasNext())) return null;
try {
Map.Entry<byte[], Map<String, String>> dna0;
ConcurrentHashMap<String, String> dna;
while (this.it.hasNext()) {
try {
dna0 = this.it.next();
} catch (final OutOfMemoryError e) {
Log.logException(e);
dna0 = null;
}
assert dna0 != null;
if (dna0 == null) continue;
if (dna0.getValue() instanceof ConcurrentHashMap) {
dna = (ConcurrentHashMap<String, String>) dna0.getValue();
} else {
dna = new ConcurrentHashMap<String, String>();
dna.putAll(dna0.getValue());
}
if (dna0.getKey() == null) continue; // bad seed
final String hash = UTF8.String(dna0.getKey());
return new Seed(hash, dna);
}
return null;
} catch (final Exception e) {
Log.logException(e);
Network.log.logSevere("ERROR internalNext: seed.db corrupt (" + e.getMessage() + "); resetting seed.db", e);
if (this.database == SeedDB.this.seedActiveDB) SeedDB.this.seedActiveDB = resetSeedTable(SeedDB.this.seedActiveDB, SeedDB.this.seedActiveDBFile);
if (this.database == SeedDB.this.seedPassiveDB) SeedDB.this.seedPassiveDB = resetSeedTable(SeedDB.this.seedPassiveDB, SeedDB.this.seedPassiveDBFile);
if (this.database == SeedDB.this.seedPotentialDB) SeedDB.this.seedPotentialDB = resetSeedTable(SeedDB.this.seedPotentialDB, SeedDB.this.seedPotentialDBFile);
return null;
}
}
public Seed next() {
final Seed seed = this.nextSeed;
float version;
try {while (true) {
this.nextSeed = internalNext();
if (this.nextSeed == null) break;
version = this.nextSeed.getVersion();
if (version >= this.minVersion || version == 0.0) break; // include 0.0 to access always developer peers
}} catch (final kelondroException e) {
Log.logException(e);
// emergency reset
Network.log.logSevere("seed-db emergency reset", e);
this.database.clear();
this.nextSeed = null;
return null;
}
return seed;
}
public void remove() {
throw new UnsupportedOperationException();
}
}
}