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yacy_search_server/source/de/anomic/crawler/Latency.java

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// Latency.java
// ------------
// (C) 2009 by Michael Peter Christen; mc@yacy.net
// first published 19.03.2009 on http://yacy.net
//
// $LastChangedDate$
// $LastChangedRevision$
// $LastChangedBy$
//
// 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 de.anomic.crawler;
import java.io.IOException;
import java.util.Iterator;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
import net.yacy.cora.document.MultiProtocolURI;
import net.yacy.cora.protocol.Domains;
import net.yacy.kelondro.util.MemoryControl;
import net.yacy.search.Switchboard;
public class Latency {
// the map is a mapping from host names to host configurations
private static final ConcurrentHashMap<String, Host> map = new ConcurrentHashMap<String, Host>();
public static void update(final MultiProtocolURI url, final long time) {
final String host = url.getHost();
if (host == null) return;
Host h = map.get(host);
if (h == null) {
h = new Host(host, time);
if (map.size() > 1000 || MemoryControl.shortStatus()) map.clear();
map.put(host, h);
} else {
h.update(time);
}
}
public static void update(final MultiProtocolURI url) {
final String host = url.getHost();
if (host == null) return;
Host h = map.get(host);
if (h == null) {
h = new Host(host, 3000);
if (map.size() > 1000 || MemoryControl.shortStatus()) map.clear();
map.put(host, h);
} else {
h.update();
}
}
public static void slowdown(final MultiProtocolURI url) {
final String host = url.getHost();
if (host == null) return;
Host h = map.get(host);
if (h == null) {
h = new Host(host, 3000);
if (map.size() > 1000 || MemoryControl.shortStatus()) map.clear();
map.put(host, h);
} else {
h.slowdown();
}
}
public static Host host(final MultiProtocolURI url) {
final String host = url.getHost();
if (host == null) return null;
return map.get(host);
}
public static int average(final MultiProtocolURI url) {
final String host = url.getHost();
if (host == null) return 0;
final Host h = map.get(host);
if (h == null) return 0;
return h.average();
}
public static Iterator<Map.Entry<String, Host>> iterator() {
return map.entrySet().iterator();
}
/**
* calculate the time since the last access of the domain as referenced by the url hash
* @param urlhash
* @return a time in milliseconds since last access of the domain or Long.MAX_VALUE if the domain was not accessed before
*/
public static long lastAccessDelta(final MultiProtocolURI url) {
final Latency.Host host = Latency.host(url);
if (host == null) return Long.MAX_VALUE; // never accessed
return System.currentTimeMillis() - host.lastacc();
}
/**
* guess a minimum waiting time
* the time is not correct, because if the domain was not checked yet by the robots.txt delay value, it is too low
* also the 'isCGI' property is missing, because the full text of the domain is unknown here
* @param hostname
* @param minimumLocalDelta
* @param minimumGlobalDelta
* @return the remaining waiting time in milliseconds. The return value may be negative
* which expresses how long the time is over the minimum waiting time.
*/
public static long waitingRemainingGuessed(final String hostname, final long minimumLocalDelta, final long minimumGlobalDelta) {
if (hostname == null) return 0;
final Host host = map.get(hostname);
if (host == null) return 0;
// the time since last access to the domain is the basis of the remaining calculation
final long timeSinceLastAccess = System.currentTimeMillis() - host.lastacc();
// find the minimum waiting time based on the network domain (local or global)
final boolean local = Domains.isLocal(hostname, null);
long waiting = (local) ? minimumLocalDelta : minimumGlobalDelta;
// if we have accessed the domain many times, get slower (the flux factor)
if (!local) waiting += host.flux(waiting);
// use the access latency as rule how fast we can access the server
// this applies also to localhost, but differently, because it is not necessary to
// consider so many external accesses
waiting = Math.max(waiting, (local) ? host.average() / 2 : host.average() * 2);
// prevent that that a robots file can stop our indexer completely
waiting = Math.min(60000, waiting);
// return time that is remaining
//System.out.println("Latency: " + (waiting - timeSinceLastAccess));
return waiting - timeSinceLastAccess;
}
/**
* calculates how long should be waited until the domain can be accessed again
* this follows from:
* - given minimum access times
* - the fact that an url is a CGI url or not
* - the times that the domain was accessed (flux factor)
* - the response latency of the domain
* - and a given minimum access time as given in robots.txt
* @param minimumLocalDelta
* @param minimumGlobalDelta
* @return the remaining waiting time in milliseconds
*/
public static long waitingRemaining(final MultiProtocolURI url, final Set<String> thisAgents, final long minimumLocalDelta, final long minimumGlobalDelta) {
// first check if the domain was _ever_ accessed before
final Host host = host(url);
if (host == null) return Long.MIN_VALUE; // no delay if host is new
// find the minimum waiting time based on the network domain (local or global)
final boolean local = url.isLocal();
if (local) return minimumLocalDelta;
long waiting = (local) ? minimumLocalDelta : minimumGlobalDelta;
// the time since last access to the domain is the basis of the remaining calculation
final long timeSinceLastAccess = System.currentTimeMillis() - host.lastacc();
// for CGI accesses, we double the minimum time
// mostly there is a database access in the background
// which creates a lot of unwanted IO on target site
if (url.isCGI()) waiting = waiting * 2;
// if we have accessed the domain many times, get slower (the flux factor)
if (!local && host != null) waiting += host.flux(waiting);
// find the delay as given by robots.txt on target site
long robotsDelay = 0;
if (!local) {
RobotsTxtEntry robotsEntry;
try {
robotsEntry = Switchboard.getSwitchboard().robots.getEntry(url, thisAgents);
} catch (final IOException e) {
robotsEntry = null;
}
robotsDelay = (robotsEntry == null) ? 0 : robotsEntry.getCrawlDelayMillis();
if (robotsEntry != null && robotsDelay == 0 && robotsEntry.getAgentName() != null) return 0; // no limits if granted exclusively for this peer
}
waiting = Math.max(waiting, robotsDelay);
// use the access latency as rule how fast we can access the server
// this applies also to localhost, but differently, because it is not necessary to
// consider so many external accesses
waiting = Math.max(waiting, (local) ? host.average() / 2 : host.average() * 2);
// prevent that that a robots file can stop our indexer completely
waiting = Math.min(60000, waiting);
// return time that is remaining
//System.out.println("Latency: " + (waiting - timeSinceLastAccess));
return Math.max(0, waiting - timeSinceLastAccess);
}
public static String waitingRemainingExplain(final MultiProtocolURI url, final Set<String> thisAgents, final long minimumLocalDelta, final long minimumGlobalDelta) {
// first check if the domain was _ever_ accessed before
final Host host = host(url);
if (host == null) return "host " + host + " never accessed before -> 0"; // no delay if host is new
final StringBuilder s = new StringBuilder(50);
// find the minimum waiting time based on the network domain (local or global)
final boolean local = url.isLocal();
final long waiting = (local) ? minimumLocalDelta : minimumGlobalDelta;
s.append("minimumDelta = ").append(waiting);
// the time since last access to the domain is the basis of the remaining calculation
final long timeSinceLastAccess = (host == null) ? 0 : System.currentTimeMillis() - host.lastacc();
s.append(", timeSinceLastAccess = ").append(timeSinceLastAccess);
// for CGI accesses, we double the minimum time
// mostly there is a database access in the background
// which creates a lot of unwanted IO on target site
if (url.isCGI()) s.append(", isCGI = true -> double");
// if we have accessed the domain many times, get slower (the flux factor)
if (!local && host != null) s.append(", flux = ").append(host.flux(waiting));
// find the delay as given by robots.txt on target site
long robotsDelay = 0;
if (!local) {
RobotsTxtEntry robotsEntry;
try {
robotsEntry = Switchboard.getSwitchboard().robots.getEntry(url, thisAgents);
} catch (final IOException e) {
robotsEntry = null;
}
robotsDelay = (robotsEntry == null) ? 0 : robotsEntry.getCrawlDelayMillis();
if (robotsEntry != null && robotsDelay == 0 && robotsEntry.getAgentName() != null) return "no waiting for exclusive granted peer"; // no limits if granted exclusively for this peer
}
s.append(", robots.delay = ").append(robotsDelay);
// use the access latency as rule how fast we can access the server
// this applies also to localhost, but differently, because it is not necessary to
// consider so many external accesses
if (host != null) s.append(", host.average = ").append(host.average());
return s.toString();
}
public static final class Host {
private long timeacc;
private long lastacc;
private int count;
private final String host;
private long robotsMinDelay;
public Host(final String host, final long time) {
this.host = host;
this.timeacc = time;
this.count = 1;
this.lastacc = System.currentTimeMillis();
this.robotsMinDelay = 0;
}
public void update(final long time) {
this.lastacc = System.currentTimeMillis();
this.timeacc += Math.min(30000, time);
this.count++;
}
public void update() {
this.lastacc = System.currentTimeMillis();
}
public void slowdown() {
this.lastacc = System.currentTimeMillis();
this.timeacc = Math.min(60000, average() * 2);
this.count = 1;
}
public int count() {
return this.count;
}
public int average() {
return (int) (this.timeacc / this.count);
}
public long lastacc() {
return this.lastacc;
}
public String host() {
return this.host;
}
public void robotsDelay(final long ur) {
this.robotsMinDelay = ur;
}
public long robotsDelay() {
return this.robotsMinDelay;
}
public long flux(final long range) {
return this.count >= 1000 ? range * Math.min(5000, this.count) / 1000 : range / (1000 - this.count);
}
}
}