// CrawlQueues.java
// (C) 2007 by Michael Peter Christen; mc@yacy.net, Frankfurt a. M., Germany
// first published 29.10.2007 on http://yacy.net
//
// This is a part of YaCy, a peer-to-peer based web search engine
//
// $LastChangedDate$
// $LastChangedRevision$
// $LastChangedBy$
//
// 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.crawler ;
import java.io.File ;
import java.io.IOException ;
import java.net.MalformedURLException ;
import java.text.ParseException ;
import java.util.ArrayList ;
import java.util.Date ;
import java.util.Iterator ;
import java.util.Map ;
import java.util.concurrent.ConcurrentHashMap ;
import de.anomic.content.RSSMessage ;
import de.anomic.crawler.retrieval.Request ;
import de.anomic.crawler.retrieval.Response ;
import de.anomic.document.parser.xml.RSSFeed ;
import de.anomic.http.client.Client ;
import de.anomic.kelondro.table.SplitTable ;
import de.anomic.kelondro.util.DateFormatter ;
import de.anomic.kelondro.util.FileUtils ;
import de.anomic.search.Switchboard ;
import de.anomic.search.SwitchboardConstants ;
import de.anomic.server.serverProcessorJob ;
import de.anomic.yacy.yacyClient ;
import de.anomic.yacy.yacySeed ;
import de.anomic.yacy.yacyURL ;
import de.anomic.yacy.dht.PeerSelection ;
import de.anomic.yacy.logging.Log ;
public class CrawlQueues {
protected Switchboard sb ;
protected Log log ;
protected Map < Integer , crawlWorker > workers ; // mapping from url hash to Worker thread object
private final ArrayList < String > remoteCrawlProviderHashes ;
public NoticedURL noticeURL ;
public ZURL errorURL , delegatedURL ;
public CrawlQueues ( final Switchboard sb , final File plasmaPath ) {
this . sb = sb ;
this . log = new Log ( "CRAWLER" ) ;
this . workers = new ConcurrentHashMap < Integer , crawlWorker > ( ) ;
this . remoteCrawlProviderHashes = new ArrayList < String > ( ) ;
// start crawling management
log . logConfig ( "Starting Crawling Management" ) ;
noticeURL = new NoticedURL ( plasmaPath ) ;
//errorURL = new plasmaCrawlZURL(); // fresh error DB each startup; can be hold in RAM and reduces IO;
final File errorDBFile = new File ( plasmaPath , "urlError2.db" ) ;
if ( errorDBFile . exists ( ) ) {
// delete the error db to get a fresh each time on startup
// this is useful because there is currently no re-use of the data in this table.
if ( errorDBFile . isDirectory ( ) ) SplitTable . delete ( plasmaPath , "urlError2.db" ) ; else FileUtils . deletedelete ( errorDBFile ) ;
}
errorURL = new ZURL ( plasmaPath , "urlError3.db" , false ) ;
delegatedURL = new ZURL ( plasmaPath , "urlDelegated3.db" , true ) ;
}
public String urlExists ( final String hash ) {
// tests if hash occurrs in any database
// if it exists, the name of the database is returned,
// if it not exists, null is returned
if ( delegatedURL . exists ( hash ) ) return "delegated" ;
if ( errorURL . exists ( hash ) ) return "errors" ;
for ( final crawlWorker worker : workers . values ( ) ) {
if ( worker . request . url ( ) . hash ( ) . equals ( hash ) ) return "worker" ;
}
if ( noticeURL . existsInStack ( hash ) ) return "crawler" ;
return null ;
}
public void urlRemove ( final String hash ) {
noticeURL . removeByURLHash ( hash ) ;
delegatedURL . remove ( hash ) ;
errorURL . remove ( hash ) ;
}
public yacyURL getURL ( final String urlhash ) {
assert urlhash ! = null ;
if ( urlhash = = null | | urlhash . length ( ) = = 0 ) return null ;
ZURL . Entry ee = delegatedURL . getEntry ( urlhash ) ;
if ( ee ! = null ) return ee . url ( ) ;
ee = errorURL . getEntry ( urlhash ) ;
if ( ee ! = null ) return ee . url ( ) ;
for ( final crawlWorker w : workers . values ( ) ) {
if ( w . request . url ( ) . hash ( ) . equals ( urlhash ) ) return w . request . url ( ) ;
}
final Request ne = noticeURL . get ( urlhash ) ;
if ( ne ! = null ) return ne . url ( ) ;
return null ;
}
public void cleanup ( ) {
// wait for all workers to finish
int timeout = ( int ) sb . getConfigLong ( "crawler.clientTimeout" , 10000 ) ;
for ( final crawlWorker w : workers . values ( ) ) {
if ( w . age ( ) > timeout ) w . interrupt ( ) ;
}
}
public void clear ( ) {
// wait for all workers to finish
for ( final crawlWorker w : workers . values ( ) ) {
w . interrupt ( ) ;
}
// TODO: wait some more time until all threads are finished
workers . clear ( ) ;
remoteCrawlProviderHashes . clear ( ) ;
noticeURL . clear ( ) ;
try {
errorURL . clear ( ) ;
} catch ( final IOException e ) {
e . printStackTrace ( ) ;
}
try {
delegatedURL . clear ( ) ;
} catch ( final IOException e ) {
e . printStackTrace ( ) ;
}
}
public void close ( ) {
// wait for all workers to finish
for ( final crawlWorker w : workers . values ( ) ) {
w . interrupt ( ) ;
}
for ( final crawlWorker w : workers . values ( ) ) {
try {
w . join ( ) ;
} catch ( InterruptedException e ) {
e . printStackTrace ( ) ;
}
}
noticeURL . close ( ) ;
errorURL . close ( ) ;
delegatedURL . close ( ) ;
}
public Request [ ] activeWorkerEntries ( ) {
synchronized ( workers ) {
final Request [ ] e = new Request [ workers . size ( ) ] ;
int i = 0 ;
for ( final crawlWorker w : workers . values ( ) ) e [ i + + ] = w . request ;
return e ;
}
}
public int coreCrawlJobSize ( ) {
return noticeURL . stackSize ( NoticedURL . STACK_TYPE_CORE ) ;
}
public boolean coreCrawlJob ( ) {
final boolean robinsonPrivateCase = ( ( sb . isRobinsonMode ( ) ) & &
( ! sb . getConfig ( SwitchboardConstants . CLUSTER_MODE , "" ) . equals ( SwitchboardConstants . CLUSTER_MODE_PUBLIC_CLUSTER ) ) & &
( ! sb . getConfig ( SwitchboardConstants . CLUSTER_MODE , "" ) . equals ( SwitchboardConstants . CLUSTER_MODE_PRIVATE_CLUSTER ) ) ) ;
if ( ( ( robinsonPrivateCase ) | | ( coreCrawlJobSize ( ) < = 20 ) ) & & ( limitCrawlJobSize ( ) > 0 ) ) {
// move some tasks to the core crawl job so we have something to do
final int toshift = Math . min ( 10 , limitCrawlJobSize ( ) ) ; // this cannot be a big number because the balancer makes a forced waiting if it cannot balance
for ( int i = 0 ; i < toshift ; i + + ) {
noticeURL . shift ( NoticedURL . STACK_TYPE_LIMIT , NoticedURL . STACK_TYPE_CORE , sb . crawler . profilesActiveCrawls ) ;
}
log . logInfo ( "shifted " + toshift + " jobs from global crawl to local crawl (coreCrawlJobSize()=" + coreCrawlJobSize ( ) +
", limitCrawlJobSize()=" + limitCrawlJobSize ( ) + ", cluster.mode=" + sb . getConfig ( SwitchboardConstants . CLUSTER_MODE , "" ) +
", robinsonMode=" + ( ( sb . isRobinsonMode ( ) ) ? "on" : "off" ) ) ;
}
if ( ! crawlIsPossible ( NoticedURL . STACK_TYPE_CORE , "Core" ) ) return false ;
if ( isPaused ( SwitchboardConstants . CRAWLJOB_LOCAL_CRAWL ) ) return false ;
// do a local crawl
Request urlEntry = null ;
while ( urlEntry = = null & & noticeURL . stackSize ( NoticedURL . STACK_TYPE_CORE ) > 0 ) {
final String stats = "LOCALCRAWL[" + noticeURL . stackSize ( NoticedURL . STACK_TYPE_CORE ) + ", " + noticeURL . stackSize ( NoticedURL . STACK_TYPE_LIMIT ) + ", " + noticeURL . stackSize ( NoticedURL . STACK_TYPE_OVERHANG ) + ", " + noticeURL . stackSize ( NoticedURL . STACK_TYPE_REMOTE ) + "]" ;
try {
urlEntry = noticeURL . pop ( NoticedURL . STACK_TYPE_CORE , true , sb . crawler . profilesActiveCrawls ) ;
if ( urlEntry = = null ) continue ;
final String profileHandle = urlEntry . profileHandle ( ) ;
// System.out.println("DEBUG plasmaSwitchboard.processCrawling:
// profileHandle = " + profileHandle + ", urlEntry.url = " + urlEntry.url());
if ( profileHandle = = null ) {
log . logSevere ( stats + ": NULL PROFILE HANDLE '" + urlEntry . profileHandle ( ) + "' for URL " + urlEntry . url ( ) ) ;
return true ;
}
generateCrawl ( urlEntry , stats , profileHandle ) ;
return true ;
} catch ( final IOException e ) {
log . logSevere ( stats + ": CANNOT FETCH ENTRY: " + e . getMessage ( ) , e ) ;
if ( e . getMessage ( ) . indexOf ( "hash is null" ) > 0 ) noticeURL . clear ( NoticedURL . STACK_TYPE_CORE ) ;
}
}
return true ;
}
/ * *
* Make some checks if crawl is valid and start it
*
* @param urlEntry
* @param profileHandle
* @param stats String for log prefixing
* @return
* /
private void generateCrawl ( Request urlEntry , final String stats , final String profileHandle ) {
final CrawlProfile . entry profile = sb . crawler . profilesActiveCrawls . getEntry ( profileHandle ) ;
if ( profile ! = null ) {
// check if the protocol is supported
final yacyURL url = urlEntry . url ( ) ;
final String urlProtocol = url . getProtocol ( ) ;
if ( sb . loader . isSupportedProtocol ( urlProtocol ) ) {
if ( this . log . isFine ( ) )
log . logFine ( stats + ": URL=" + urlEntry . url ( )
+ ", initiator=" + urlEntry . initiator ( )
+ ", crawlOrder=" + ( ( profile . remoteIndexing ( ) ) ? "true" : "false" )
+ ", depth=" + urlEntry . depth ( )
+ ", crawlDepth=" + profile . depth ( )
+ ", must-match=" + profile . mustMatchPattern ( ) . toString ( )
+ ", must-not-match=" + profile . mustNotMatchPattern ( ) . toString ( )
+ ", permission=" + ( ( sb . peers = = null ) ? "undefined" : ( ( ( sb . peers . mySeed ( ) . isSenior ( ) ) | | ( sb . peers . mySeed ( ) . isPrincipal ( ) ) ) ? "true" : "false" ) ) ) ;
// work off one Crawl stack entry
if ( ( urlEntry = = null ) | | ( urlEntry . url ( ) = = null ) ) {
log . logInfo ( stats + ": urlEntry = null" ) ;
} else {
new crawlWorker ( urlEntry ) ;
}
} else {
this . log . logSevere ( "Unsupported protocol in URL '" + url . toString ( ) ) ;
}
} else {
log . logWarning ( stats + ": LOST PROFILE HANDLE '" + urlEntry . profileHandle ( ) + "' for URL " + urlEntry . url ( ) ) ;
}
}
/ * *
* if crawling was paused we have to wait until we were notified to continue
* blocks until pause is ended
* @param crawljob
* @return
* /
private boolean isPaused ( String crawljob ) {
final Object [ ] status = sb . crawlJobsStatus . get ( crawljob ) ;
boolean pauseEnded = false ;
synchronized ( status [ SwitchboardConstants . CRAWLJOB_SYNC ] ) {
if ( ( ( Boolean ) status [ SwitchboardConstants . CRAWLJOB_STATUS ] ) . booleanValue ( ) ) {
try {
status [ SwitchboardConstants . CRAWLJOB_SYNC ] . wait ( ) ;
}
catch ( final InterruptedException e ) { pauseEnded = true ; }
}
}
return pauseEnded ;
}
/ * *
* Checks if crawl queue has elements and new crawl will not exceed thread - limit
* @param stackType
* @param type
* @return
* /
private boolean crawlIsPossible ( int stackType , final String type ) {
int value ;
//System.out.println("stacksize = " + noticeURL.stackSize(stackType));
if ( noticeURL . stackSize ( stackType ) = = 0 ) {
//log.logDebug("GlobalCrawl: queue is empty");
return false ;
}
value = ( int ) sb . getConfigLong ( SwitchboardConstants . CRAWLER_THREADS_ACTIVE_MAX , 10 ) ;
if ( this . size ( ) > = value ) {
// try a cleanup
this . cleanup ( ) ;
}
// check again
if ( this . size ( ) > = value ) {
if ( this . log . isFine ( ) ) {
log . logFine ( type + "Crawl: too many processes in loader queue, dismissed (" + "cacheLoader=" + this . size ( ) + "), httpClients = " + Client . connectionCount ( ) ) ;
}
return false ;
}
String cautionCause = sb . onlineCaution ( ) ;
if ( cautionCause ! = null ) {
if ( this . log . isFine ( ) ) {
log . logFine ( type + "Crawl: online caution for " + cautionCause + ", omitting processing" ) ;
}
return false ;
}
return true ;
}
public boolean remoteCrawlLoaderJob ( ) {
// check if we are allowed to crawl urls provided by other peers
if ( ! sb . peers . mySeed ( ) . getFlagAcceptRemoteCrawl ( ) ) {
//this.log.logInfo("remoteCrawlLoaderJob: not done, we are not allowed to do that");
return false ;
}
// check if we are a senior peer
if ( ! sb . peers . mySeed ( ) . isActive ( ) ) {
//this.log.logInfo("remoteCrawlLoaderJob: not done, this should be a senior or principal peer");
return false ;
}
if ( this . size ( ) > = sb . getConfigLong ( SwitchboardConstants . CRAWLER_THREADS_ACTIVE_MAX , 10 ) ) {
// try a cleanup
cleanup ( ) ;
}
// check again
if ( this . size ( ) > = sb . getConfigLong ( SwitchboardConstants . CRAWLER_THREADS_ACTIVE_MAX , 10 ) ) {
if ( this . log . isFine ( ) ) log . logFine ( "remoteCrawlLoaderJob: too many processes in loader queue, dismissed (" + "cacheLoader=" + this . size ( ) + "), httpClients = " + Client . connectionCount ( ) ) ;
return false ;
}
String cautionCause = sb . onlineCaution ( ) ;
if ( cautionCause ! = null ) {
if ( this . log . isFine ( ) ) log . logFine ( "remoteCrawlLoaderJob: online caution for " + cautionCause + ", omitting processing" ) ;
return false ;
}
if ( remoteTriggeredCrawlJobSize ( ) > 100 ) {
if ( this . log . isFine ( ) ) log . logFine ( "remoteCrawlLoaderJob: the remote-triggered crawl job queue is filled, omitting processing" ) ;
return false ;
}
if ( coreCrawlJobSize ( ) > 0 & & sb . indexingStorageProcessor . queueSize ( ) > 0 ) {
if ( this . log . isFine ( ) ) log . logFine ( "remoteCrawlLoaderJob: a local crawl is running, omitting processing" ) ;
return false ;
}
// check if we have an entry in the provider list, otherwise fill the list
yacySeed seed ;
if ( remoteCrawlProviderHashes . size ( ) = = 0 ) {
if ( sb . peers ! = null & & sb . peers . sizeConnected ( ) > 0 ) {
final Iterator < yacySeed > e = PeerSelection . getProvidesRemoteCrawlURLs ( sb . peers ) ;
while ( e . hasNext ( ) ) {
seed = e . next ( ) ;
if ( seed ! = null ) {
remoteCrawlProviderHashes . add ( seed . hash ) ;
}
}
}
}
if ( remoteCrawlProviderHashes . size ( ) = = 0 ) return false ;
// take one entry from the provider list and load the entries from the remote peer
seed = null ;
String hash = null ;
while ( ( seed = = null ) & & ( remoteCrawlProviderHashes . size ( ) > 0 ) ) {
hash = remoteCrawlProviderHashes . remove ( remoteCrawlProviderHashes . size ( ) - 1 ) ;
if ( hash = = null ) continue ;
seed = sb . peers . get ( hash ) ;
if ( seed = = null ) continue ;
// check if the peer is inside our cluster
if ( ( sb . isRobinsonMode ( ) ) & & ( ! sb . isInMyCluster ( seed ) ) ) {
seed = null ;
continue ;
}
}
if ( seed = = null ) return false ;
// we know a peer which should provide remote crawl entries. load them now.
final RSSFeed feed = yacyClient . queryRemoteCrawlURLs ( sb . peers , seed , 30 , 60000 ) ;
if ( feed = = null | | feed . size ( ) = = 0 ) {
// something is wrong with this provider. To prevent that we get not stuck with this peer
// we remove it from the peer list
sb . peers . peerActions . peerDeparture ( seed , "no results from provided remote crawls" ) ;
// ask another peer
return remoteCrawlLoaderJob ( ) ;
}
// parse the rss
yacyURL url , referrer ;
Date loaddate ;
for ( final RSSMessage item : feed ) {
//System.out.println("URL=" + item.getLink() + ", desc=" + item.getDescription() + ", pubDate=" + item.getPubDate());
// put url on remote crawl stack
try {
url = new yacyURL ( item . getLink ( ) , null ) ;
} catch ( final MalformedURLException e ) {
url = null ;
}
try {
referrer = new yacyURL ( item . getReferrer ( ) , null ) ;
} catch ( final MalformedURLException e ) {
referrer = null ;
}
try {
loaddate = DateFormatter . parseShortSecond ( item . getPubDate ( ) ) ;
} catch ( final ParseException e ) {
loaddate = new Date ( ) ;
}
final String urlRejectReason = sb . crawlStacker . urlInAcceptedDomain ( url ) ;
if ( urlRejectReason = = null ) {
// stack url
if ( sb . getLog ( ) . isFinest ( ) ) sb . getLog ( ) . logFinest ( "crawlOrder: stack: url='" + url + "'" ) ;
sb . crawlStacker . enqueueEntry ( new Request (
hash ,
url ,
( referrer = = null ) ? null : referrer . hash ( ) ,
item . getDescription ( ) ,
null ,
loaddate ,
sb . crawler . defaultRemoteProfile . handle ( ) ,
0 ,
0 ,
0
) ) ;
} else {
log . logWarning ( "crawlOrder: Rejected URL '" + urlToString ( url ) + "': " + urlRejectReason ) ;
}
}
return true ;
}
/ * *
* @param url
* @return
* /
private String urlToString ( final yacyURL url ) {
return ( url = = null ? "null" : url . toNormalform ( true , false ) ) ;
}
public int limitCrawlJobSize ( ) {
return noticeURL . stackSize ( NoticedURL . STACK_TYPE_LIMIT ) ;
}
public int remoteTriggeredCrawlJobSize ( ) {
return noticeURL . stackSize ( NoticedURL . STACK_TYPE_REMOTE ) ;
}
public boolean remoteTriggeredCrawlJob ( ) {
// work off crawl requests that had been placed by other peers to our crawl stack
// do nothing if either there are private processes to be done
// or there is no global crawl on the stack
if ( ! crawlIsPossible ( NoticedURL . STACK_TYPE_REMOTE , "Global" ) ) return false ;
if ( isPaused ( SwitchboardConstants . CRAWLJOB_REMOTE_TRIGGERED_CRAWL ) ) return false ;
// we don't want to crawl a global URL globally, since WE are the global part. (from this point of view)
final String stats = "REMOTETRIGGEREDCRAWL[" + noticeURL . stackSize ( NoticedURL . STACK_TYPE_CORE ) + ", " + noticeURL . stackSize ( NoticedURL . STACK_TYPE_LIMIT ) + ", " + noticeURL . stackSize ( NoticedURL . STACK_TYPE_OVERHANG ) + ", "
+ noticeURL . stackSize ( NoticedURL . STACK_TYPE_REMOTE ) + "]" ;
try {
final Request urlEntry = noticeURL . pop ( NoticedURL . STACK_TYPE_REMOTE , true , sb . crawler . profilesActiveCrawls ) ;
final String profileHandle = urlEntry . profileHandle ( ) ;
// System.out.println("DEBUG plasmaSwitchboard.processCrawling:
// profileHandle = " + profileHandle + ", urlEntry.url = " +
// urlEntry.url());
generateCrawl ( urlEntry , stats , profileHandle ) ;
return true ;
} catch ( final IOException e ) {
log . logSevere ( stats + ": CANNOT FETCH ENTRY: " + e . getMessage ( ) , e ) ;
if ( e . getMessage ( ) . indexOf ( "hash is null" ) > 0 ) noticeURL . clear ( NoticedURL . STACK_TYPE_REMOTE ) ;
return true ;
}
}
public int size ( ) {
return workers . size ( ) ;
}
protected final class crawlWorker extends Thread {
protected Request request ;
private final Integer code ;
private long start ;
public crawlWorker ( final Request entry ) {
this . start = System . currentTimeMillis ( ) ;
this . request = entry ;
this . request . setStatus ( "worker-initialized" , serverProcessorJob . STATUS_INITIATED ) ;
this . code = Integer . valueOf ( entry . hashCode ( ) ) ;
if ( ! workers . containsKey ( code ) ) {
workers . put ( code , this ) ;
this . start ( ) ;
}
}
public long age ( ) {
return System . currentTimeMillis ( ) - start ;
}
public void run ( ) {
try {
// checking robots.txt for http(s) resources
this . request . setStatus ( "worker-checkingrobots" , serverProcessorJob . STATUS_STARTED ) ;
if ( ( request . url ( ) . getProtocol ( ) . equals ( "http" ) | | request . url ( ) . getProtocol ( ) . equals ( "https" ) ) & & sb . robots . isDisallowed ( request . url ( ) ) ) {
if ( log . isFine ( ) ) log . logFine ( "Crawling of URL '" + request . url ( ) . toString ( ) + "' disallowed by robots.txt." ) ;
final ZURL . Entry eentry = errorURL . newEntry (
this . request ,
sb . peers . mySeed ( ) . hash ,
new Date ( ) ,
1 ,
"denied by robots.txt" ) ;
eentry . store ( ) ;
errorURL . push ( eentry ) ;
this . request . setStatus ( "worker-disallowed" , serverProcessorJob . STATUS_FINISHED ) ;
} else {
// starting a load from the internet
this . request . setStatus ( "worker-loading" , serverProcessorJob . STATUS_RUNNING ) ;
String result = null ;
// load a resource and push queue entry to switchboard queue
// returns null if everything went fine, a fail reason string if a problem occurred
try {
request . setStatus ( "loading" , serverProcessorJob . STATUS_RUNNING ) ;
Response response = sb . loader . load ( request ) ;
if ( response = = null ) {
request . setStatus ( "error" , serverProcessorJob . STATUS_FINISHED ) ;
if ( log . isFine ( ) ) log . logFine ( "problem loading " + request . url ( ) . toString ( ) + ": no content (possibly caused by cache policy)" ) ;
result = "no content (possibly caused by cache policy)" ;
} else {
request . setStatus ( "loaded" , serverProcessorJob . STATUS_RUNNING ) ;
final boolean stored = sb . toIndexer ( response ) ;
request . setStatus ( "enqueued-" + ( ( stored ) ? "ok" : "fail" ) , serverProcessorJob . STATUS_FINISHED ) ;
result = ( stored ) ? null : "not enqueued to indexer" ;
}
} catch ( IOException e ) {
request . setStatus ( "error" , serverProcessorJob . STATUS_FINISHED ) ;
if ( log . isFine ( ) ) log . logFine ( "problem loading " + request . url ( ) . toString ( ) + ": " + e . getMessage ( ) ) ;
result = "load error - " + e . getMessage ( ) ;
}
if ( result ! = null ) {
final ZURL . Entry eentry = errorURL . newEntry (
this . request ,
sb . peers . mySeed ( ) . hash ,
new Date ( ) ,
1 ,
"cannot load: " + result ) ;
eentry . store ( ) ;
errorURL . push ( eentry ) ;
this . request . setStatus ( "worker-error" , serverProcessorJob . STATUS_FINISHED ) ;
} else {
this . request . setStatus ( "worker-processed" , serverProcessorJob . STATUS_FINISHED ) ;
}
}
} catch ( final Exception e ) {
final ZURL . Entry eentry = errorURL . newEntry (
this . request ,
sb . peers . mySeed ( ) . hash ,
new Date ( ) ,
1 ,
e . getMessage ( ) + " - in worker" ) ;
eentry . store ( ) ;
errorURL . push ( eentry ) ;
e . printStackTrace ( ) ;
Client . initConnectionManager ( ) ;
this . request . setStatus ( "worker-exception" , serverProcessorJob . STATUS_FINISHED ) ;
} finally {
crawlWorker w = workers . remove ( code ) ;
assert w ! = null ;
}
}
}
}
