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yacy_search_server/htroot/gsa/searchresult.java

213 lines
9.3 KiB

/**
* search
* Copyright 2012 by Michael Peter Christen, mc@yacy.net, Frankfurt am Main, Germany
* First released 14.08.2012 at http://yacy.net
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program in the file lgpl21.txt
* If not, see <http://www.gnu.org/licenses/>.
*/
import java.io.IOException;
import java.io.OutputStream;
import java.io.OutputStreamWriter;
import java.io.Writer;
import java.util.ArrayList;
import java.util.Map;
import net.yacy.cora.document.UTF8;
import net.yacy.cora.federate.solr.Boost;
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import net.yacy.cora.federate.solr.connector.EmbeddedSolrConnector;
import net.yacy.cora.federate.solr.responsewriter.GSAResponseWriter;
import net.yacy.cora.protocol.HeaderFramework;
import net.yacy.cora.protocol.RequestHeader;
import net.yacy.cora.util.CommonPattern;
import net.yacy.kelondro.logging.Log;
import net.yacy.search.Switchboard;
import net.yacy.search.SwitchboardConstants;
import net.yacy.search.query.AccessTracker;
import net.yacy.search.query.QueryGoal;
import net.yacy.search.query.SearchEvent;
introduced a second core named 'webgraph'. This core will hold the link structure, but is not filled yet. To have the opportunity of a second core, multi-core functionality had to be implemented to the deep-embedded solr: - migrated the solr_40 directory content to a subdirectory 'collection1'; the previously used default core is now called collection1 - added solr_40/webgraph subdirectory as second core - added a servlet configuration for the second core 'webgraph' in /IndexSchema_p.html - added instance handling as addition to solr connections: all solr connectors are now instances of an solr 'instance' object; this required a complete re-design of the solr embedding - migrated also caching and sharding ontop of new instance handling - migrated the search apis to handle now the access to a specific core, the default core named 'collection1' - migrated the remote solr search interface to access shards of cores; for the yacy remote search the default core is now called 'solr'; using the peer address as solr address - migrated the solr backup and restore process: old backups cannot be used after this migration! - redesign of solr instance handling in all methods which access the instances: they cannot hold copies of these instances any more; the must retrieve the actuall connection object every time they want to write to it (this solves also some bugs when switching the index/network) - added another schema 'solr.webgraph.schema', the old solr.keys.list is replaced by solr.collection.schema
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import net.yacy.search.schema.CollectionSchema;
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import net.yacy.server.serverObjects;
import net.yacy.server.serverSwitch;
import org.apache.solr.common.SolrException;
import org.apache.solr.common.params.CommonParams;
import org.apache.solr.request.SolrQueryRequest;
import org.apache.solr.response.ResultContext;
import org.apache.solr.response.SolrQueryResponse;
import org.apache.solr.util.FastWriter;
// try
// http://localhost:8090/gsa/searchresult?q=chicken+teriyaki&output=xml&client=test&site=test&sort=date:D:S:d1
/**
* This is a gsa result formatter for solr search results.
* The result format is implemented according to
* https://developers.google.com/search-appliance/documentation/68/xml_reference#results_xml
*/
public class searchresult {
private final static GSAResponseWriter responseWriter = new GSAResponseWriter();
/**
* get the right mime type for this streamed result page
* @param header
* @param post
* @param env
* @return
*/
public static String mime(final RequestHeader header, final serverObjects post, final serverSwitch env) {
return "text/xml";
}
/**
* @param header
* @param post
* @param env
* @param out
* @return
*/
public static serverObjects respond(final RequestHeader header, final serverObjects post, final serverSwitch env, final OutputStream out) {
// this uses the methods in the jetty servlet environment and can be removed if jetty in implemented
Switchboard sb = (Switchboard) env;
// remember the peer contact for peer statistics
final String clientip = header.get(HeaderFramework.CONNECTION_PROP_CLIENTIP, "<unknown>"); // read an artificial header addendum
final String userAgent = header.get(HeaderFramework.USER_AGENT, "<unknown>");
sb.peers.peerActions.setUserAgent(clientip, userAgent);
// check if user is allowed to search (can be switched in /ConfigPortal.html)
boolean authenticated = sb.adminAuthenticated(header) >= 2;
final boolean searchAllowed = authenticated || sb.getConfigBool("publicSearchpage", true);
if (!searchAllowed) return null;
// check post
if (post == null) return null;
Log.logInfo("GSA Query", post.toString());
sb.intermissionAllThreads(3000); // tell all threads to do nothing for a specific time
// update the boost values
Boost.RANKING.updateBoosts(sb.getConfig(SwitchboardConstants.SEARCH_RANKING_SOLR_BOOST, ""));
// rename post fields according to result style
//post.put(CommonParams.Q, post.remove("q")); // same as solr
//post.put(CommonParams.START, post.remove("start")); // same as solr
//post.put(, post.remove("client"));//required, example: myfrontend
//post.put(, post.remove("output"));//required, example: xml,xml_no_dtd
String originalQuery = post.get(CommonParams.Q, "");
post.put("originalQuery", originalQuery);
// get a solr query string
QueryGoal qg = new QueryGoal(originalQuery, originalQuery);
introduced a second core named 'webgraph'. This core will hold the link structure, but is not filled yet. To have the opportunity of a second core, multi-core functionality had to be implemented to the deep-embedded solr: - migrated the solr_40 directory content to a subdirectory 'collection1'; the previously used default core is now called collection1 - added solr_40/webgraph subdirectory as second core - added a servlet configuration for the second core 'webgraph' in /IndexSchema_p.html - added instance handling as addition to solr connections: all solr connectors are now instances of an solr 'instance' object; this required a complete re-design of the solr embedding - migrated also caching and sharding ontop of new instance handling - migrated the search apis to handle now the access to a specific core, the default core named 'collection1' - migrated the remote solr search interface to access shards of cores; for the yacy remote search the default core is now called 'solr'; using the peer address as solr address - migrated the solr backup and restore process: old backups cannot be used after this migration! - redesign of solr instance handling in all methods which access the instances: they cannot hold copies of these instances any more; the must retrieve the actuall connection object every time they want to write to it (this solves also some bugs when switching the index/network) - added another schema 'solr.webgraph.schema', the old solr.keys.list is replaced by solr.collection.schema
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StringBuilder solrQ = qg.solrQueryString(sb.index.fulltext().getDefaultConfiguration());
post.put("defType", "edismax");
post.put(CommonParams.Q, solrQ.toString());
post.put(CommonParams.ROWS, post.remove("num"));
post.put(CommonParams.ROWS, Math.min(post.getInt(CommonParams.ROWS, 10), (authenticated) ? 5000 : 100));
post.put("bq", Boost.RANKING.getBoostQuery()); // a boost query that moves double content to the back
post.put("bf", Boost.RANKING.getBoostFunction()); // a boost function extension
post.put(CommonParams.FL,
introduced a second core named 'webgraph'. This core will hold the link structure, but is not filled yet. To have the opportunity of a second core, multi-core functionality had to be implemented to the deep-embedded solr: - migrated the solr_40 directory content to a subdirectory 'collection1'; the previously used default core is now called collection1 - added solr_40/webgraph subdirectory as second core - added a servlet configuration for the second core 'webgraph' in /IndexSchema_p.html - added instance handling as addition to solr connections: all solr connectors are now instances of an solr 'instance' object; this required a complete re-design of the solr embedding - migrated also caching and sharding ontop of new instance handling - migrated the search apis to handle now the access to a specific core, the default core named 'collection1' - migrated the remote solr search interface to access shards of cores; for the yacy remote search the default core is now called 'solr'; using the peer address as solr address - migrated the solr backup and restore process: old backups cannot be used after this migration! - redesign of solr instance handling in all methods which access the instances: they cannot hold copies of these instances any more; the must retrieve the actuall connection object every time they want to write to it (this solves also some bugs when switching the index/network) - added another schema 'solr.webgraph.schema', the old solr.keys.list is replaced by solr.collection.schema
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CollectionSchema.content_type.getSolrFieldName() + ',' +
CollectionSchema.id.getSolrFieldName() + ',' +
CollectionSchema.sku.getSolrFieldName() + ',' +
CollectionSchema.title.getSolrFieldName() + ',' +
CollectionSchema.description.getSolrFieldName() + ',' +
CollectionSchema.load_date_dt.getSolrFieldName() + ',' +
CollectionSchema.last_modified.getSolrFieldName() + ',' +
CollectionSchema.size_i.getSolrFieldName());
post.put("hl", "true");
post.put("hl.q", originalQuery);
introduced a second core named 'webgraph'. This core will hold the link structure, but is not filled yet. To have the opportunity of a second core, multi-core functionality had to be implemented to the deep-embedded solr: - migrated the solr_40 directory content to a subdirectory 'collection1'; the previously used default core is now called collection1 - added solr_40/webgraph subdirectory as second core - added a servlet configuration for the second core 'webgraph' in /IndexSchema_p.html - added instance handling as addition to solr connections: all solr connectors are now instances of an solr 'instance' object; this required a complete re-design of the solr embedding - migrated also caching and sharding ontop of new instance handling - migrated the search apis to handle now the access to a specific core, the default core named 'collection1' - migrated the remote solr search interface to access shards of cores; for the yacy remote search the default core is now called 'solr'; using the peer address as solr address - migrated the solr backup and restore process: old backups cannot be used after this migration! - redesign of solr instance handling in all methods which access the instances: they cannot hold copies of these instances any more; the must retrieve the actuall connection object every time they want to write to it (this solves also some bugs when switching the index/network) - added another schema 'solr.webgraph.schema', the old solr.keys.list is replaced by solr.collection.schema
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post.put("hl.fl", CollectionSchema.h1_txt.getSolrFieldName() + "," + CollectionSchema.h2_txt.getSolrFieldName() + "," + CollectionSchema.text_t.getSolrFieldName());
post.put("hl.alternateField", CollectionSchema.description.getSolrFieldName());
post.put("hl.simple.pre", "<b>");
post.put("hl.simple.post", "</b>");
post.put("hl.fragsize", Integer.toString(SearchEvent.SNIPPET_MAX_LENGTH));
GSAResponseWriter.Sort sort = new GSAResponseWriter.Sort(post.get(CommonParams.SORT, ""));
String sorts = sort.toSolr();
if (sorts == null) {
post.remove(CommonParams.SORT);
} else {
post.put(CommonParams.SORT, sorts);
}
String[] site = post.remove("site"); // example: col1|col2
String[] access = post.remove("access");
String[] entqr = post.remove("entqr");
// add sites operator
if (site != null && site[0].length() > 0) {
String[] s0 = CommonPattern.VERTICALBAR.split(site[0]);
ArrayList<String> sites = new ArrayList<String>(2);
for (String s: s0) {
s = s.trim().toLowerCase();
if (s.length() > 0) sites.add(s);
}
StringBuilder fq = new StringBuilder(20);
if (sites.size() > 1) {
introduced a second core named 'webgraph'. This core will hold the link structure, but is not filled yet. To have the opportunity of a second core, multi-core functionality had to be implemented to the deep-embedded solr: - migrated the solr_40 directory content to a subdirectory 'collection1'; the previously used default core is now called collection1 - added solr_40/webgraph subdirectory as second core - added a servlet configuration for the second core 'webgraph' in /IndexSchema_p.html - added instance handling as addition to solr connections: all solr connectors are now instances of an solr 'instance' object; this required a complete re-design of the solr embedding - migrated also caching and sharding ontop of new instance handling - migrated the search apis to handle now the access to a specific core, the default core named 'collection1' - migrated the remote solr search interface to access shards of cores; for the yacy remote search the default core is now called 'solr'; using the peer address as solr address - migrated the solr backup and restore process: old backups cannot be used after this migration! - redesign of solr instance handling in all methods which access the instances: they cannot hold copies of these instances any more; the must retrieve the actuall connection object every time they want to write to it (this solves also some bugs when switching the index/network) - added another schema 'solr.webgraph.schema', the old solr.keys.list is replaced by solr.collection.schema
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fq.append(CollectionSchema.collection_sxt.getSolrFieldName()).append(':').append(sites.get(0));
for (int i = 1; i < sites.size(); i++) {
introduced a second core named 'webgraph'. This core will hold the link structure, but is not filled yet. To have the opportunity of a second core, multi-core functionality had to be implemented to the deep-embedded solr: - migrated the solr_40 directory content to a subdirectory 'collection1'; the previously used default core is now called collection1 - added solr_40/webgraph subdirectory as second core - added a servlet configuration for the second core 'webgraph' in /IndexSchema_p.html - added instance handling as addition to solr connections: all solr connectors are now instances of an solr 'instance' object; this required a complete re-design of the solr embedding - migrated also caching and sharding ontop of new instance handling - migrated the search apis to handle now the access to a specific core, the default core named 'collection1' - migrated the remote solr search interface to access shards of cores; for the yacy remote search the default core is now called 'solr'; using the peer address as solr address - migrated the solr backup and restore process: old backups cannot be used after this migration! - redesign of solr instance handling in all methods which access the instances: they cannot hold copies of these instances any more; the must retrieve the actuall connection object every time they want to write to it (this solves also some bugs when switching the index/network) - added another schema 'solr.webgraph.schema', the old solr.keys.list is replaced by solr.collection.schema
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fq.append(" OR ").append(CollectionSchema.collection_sxt.getSolrFieldName()).append(':').append(sites.get(i));
}
} else if (sites.size() == 1) {
introduced a second core named 'webgraph'. This core will hold the link structure, but is not filled yet. To have the opportunity of a second core, multi-core functionality had to be implemented to the deep-embedded solr: - migrated the solr_40 directory content to a subdirectory 'collection1'; the previously used default core is now called collection1 - added solr_40/webgraph subdirectory as second core - added a servlet configuration for the second core 'webgraph' in /IndexSchema_p.html - added instance handling as addition to solr connections: all solr connectors are now instances of an solr 'instance' object; this required a complete re-design of the solr embedding - migrated also caching and sharding ontop of new instance handling - migrated the search apis to handle now the access to a specific core, the default core named 'collection1' - migrated the remote solr search interface to access shards of cores; for the yacy remote search the default core is now called 'solr'; using the peer address as solr address - migrated the solr backup and restore process: old backups cannot be used after this migration! - redesign of solr instance handling in all methods which access the instances: they cannot hold copies of these instances any more; the must retrieve the actuall connection object every time they want to write to it (this solves also some bugs when switching the index/network) - added another schema 'solr.webgraph.schema', the old solr.keys.list is replaced by solr.collection.schema
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fq.append(CollectionSchema.collection_sxt.getSolrFieldName()).append(':').append(sites.get(0));
}
post.put(CommonParams.FQ, fq.toString());
}
// get the embedded connector
EmbeddedSolrConnector connector = sb.index.fulltext().getDefaultEmbeddedConnector();
if (connector == null) return null;
// do the solr request
SolrQueryRequest req = connector.request(post.toSolrParams(null));
SolrQueryResponse response = null;
Exception e = null;
try {response = connector.query(req);} catch (SolrException ee) {e = ee;}
if (response != null) e = response.getException();
if (e != null) {
Log.logException(e);
return null;
}
// set some context for the writer
Map<Object,Object> context = req.getContext();
context.put("ip", header.get("CLIENTIP", ""));
context.put("client", "vsm_frontent");
context.put("sort", sort.sort);
context.put("site", site == null ? "" : site);
context.put("access", access == null ? "p" : access[0]);
context.put("entqr", entqr == null ? "3" : entqr[0]);
// write the result directly to the output stream
Writer ow = new FastWriter(new OutputStreamWriter(out, UTF8.charset));
try {
responseWriter.write(ow, req, response);
ow.flush();
} catch (IOException e1) {
} finally {
req.close();
try {ow.close();} catch (IOException e1) {}
}
// log result
Object rv = response.getValues().get("response");
if (rv != null && rv instanceof ResultContext) {
AccessTracker.addToDump(originalQuery, Integer.toString(((ResultContext) rv).docs.matches()));
}
return null;
}
}