/* $Id: AlfrescoRepositoryConnector.java 1611521 2014-07-18 00:49:50Z kwright $ */
/**
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.manifoldcf.crawler.connectors.alfresco;
import java.io.IOException;
import java.io.InputStream;
import java.io.InterruptedIOException;
import java.text.ParseException;
import java.util.HashMap;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import org.alfresco.webservice.authentication.AuthenticationFault;
import org.alfresco.webservice.content.Content;
import org.alfresco.webservice.repository.QueryResult;
import org.alfresco.webservice.types.NamedValue;
import org.alfresco.webservice.types.Node;
import org.alfresco.webservice.types.Predicate;
import org.alfresco.webservice.types.Reference;
import org.alfresco.webservice.types.ResultSet;
import org.alfresco.webservice.types.ResultSetRow;
import org.alfresco.webservice.util.AuthenticationDetails;
import org.alfresco.webservice.util.AuthenticationUtils;
import org.alfresco.webservice.util.WebServiceException;
import org.alfresco.webservice.util.WebServiceFactory;
import org.apache.commons.lang.StringUtils;
import org.apache.manifoldcf.agents.interfaces.RepositoryDocument;
import org.apache.manifoldcf.agents.interfaces.ServiceInterruption;
import org.apache.manifoldcf.core.interfaces.ConfigParams;
import org.apache.manifoldcf.core.interfaces.IHTTPOutput;
import org.apache.manifoldcf.core.interfaces.IPasswordMapperActivity;
import org.apache.manifoldcf.core.interfaces.IPostParameters;
import org.apache.manifoldcf.core.interfaces.IThreadContext;
import org.apache.manifoldcf.core.interfaces.ManifoldCFException;
import org.apache.manifoldcf.core.interfaces.SpecificationNode;
import org.apache.manifoldcf.crawler.connectors.BaseRepositoryConnector;
import org.apache.manifoldcf.crawler.interfaces.DocumentSpecification;
import org.apache.manifoldcf.crawler.interfaces.IProcessActivity;
import org.apache.manifoldcf.crawler.interfaces.ISeedingActivity;
import org.apache.manifoldcf.crawler.system.Logging;
public class AlfrescoRepositoryConnector extends BaseRepositoryConnector {
/** Fetch activity */
public final static String ACTIVITY_FETCH = "fetch";
/** Username value for the Alfresco session */
protected String username = null;
/** Password value for the Alfresco session */
protected String password = null;
/** Endpoint protocol */
protected String protocol = null;
/** Endpoint server name */
protected String server = null;
/** Endpoint port */
protected String port = null;
/** Endpoint context path of the Alfresco webapp */
protected String path = null;
/** Endpoint with all the details */
protected String endpoint = null;
/** Alfresco Tenant domain */
protected String tenantDomain = null;
/** Socket Timeout for the Alfresco Web Service Client */
protected int socketTimeout = -1;
protected AuthenticationDetails session = null;
protected static final long timeToRelease = 300000L;
protected long lastSessionFetch = -1L;
protected static final String RELATIONSHIP_CHILD = "child";
// Tabs
/** Tab name parameter for managin the view of the Web UI */
private static final String TAB_NAME_PARAM = "TabName";
/** The Lucene Query label for the configuration tab of the job settings */
private static final String TAB_LABEL_LUCENE_QUERY_RESOURCE = "AlfrescoConnector.LuceneQuery";
/** Alfresco Server configuration tab name */
private static final String ALFRESCO_SERVER_TAB_RESOURCE = "AlfrescoConnector.Server";
// Velocity template names
/** Forward to the javascript to check the configuration parameters */
private static final String EDIT_CONFIG_HEADER_FORWARD = "editConfiguration.js";
/** Forward to the HTML template to edit the configuration parameters */
private static final String EDIT_CONFIG_FORWARD_SERVER = "editConfiguration_Server.html";
/** Forward to the javascript to check the specification parameters for the job */
private static final String EDIT_SPEC_HEADER_FORWARD = "editSpecification.js";
/** Forward to the template to edit the configuration parameters for the job */
private static final String EDIT_SPEC_FORWARD_LUCENEQUERY = "editSpecification_LuceneQuery.html";
/** Forward to the HTML template to view the configuration parameters */
private static final String VIEW_CONFIG_FORWARD = "viewConfiguration.html";
/** Forward to the template to view the specification parameters for the job */
private static final String VIEW_SPEC_FORWARD = "viewSpecification.html";
// Other miscellaneous constants
/** The root node for the Alfresco connector configuration in ManifoldCF */
private static final String JOB_STARTPOINT_NODE_TYPE = "startpoint";
/** Read activity */
protected final static String ACTIVITY_READ = "read document";
/** Separator used when a node has more than one content stream. More than one d:content property */
private static final String INGESTION_SEPARATOR_FOR_MULTI_BINARY = ";";
/**
* Constructor
*/
public AlfrescoRepositoryConnector() {
super();
}
/**
* Return the list of activities that this connector supports (i.e. writes into the log).
* @return the list.
*/
@Override
public String[] getActivitiesList() {
return new String[] { ACTIVITY_FETCH };
}
/** Get the bin name strings for a document identifier. The bin name describes the queue to which the
* document will be assigned for throttling purposes. Throttling controls the rate at which items in a
* given queue are fetched; it does not say anything about the overall fetch rate, which may operate on
* multiple queues or bins.
* For example, if you implement a web crawler, a good choice of bin name would be the server name, since
* that is likely to correspond to a real resource that will need real throttle protection.
*@param documentIdentifier is the document identifier.
*@return the set of bin names. If an empty array is returned, it is equivalent to there being no request
* rate throttling available for this identifier.
*/
@Override
public String[] getBinNames(String documentIdentifier) {
return new String[] { server };
}
/**
* Close the connection. Call this before discarding the connection.
*/
@Override
public void disconnect() throws ManifoldCFException {
if (session != null) {
try {
AuthenticationUtils.endSession();
} catch (Exception e) {
Logging.connectors.error("Alfresco: error disconnect:"+e.getMessage(), e);
throw new ManifoldCFException("Alfresco: error disconnect:"+e.getMessage(), e);
}
session = null;
lastSessionFetch = -1L;
}
username = null;
password = null;
protocol = null;
server = null;
port = null;
path = null;
endpoint = null;
tenantDomain = null;
socketTimeout = AlfrescoConfig.SOCKET_TIMEOUT_DEFAULT_VALUE;
}
/** Connect.
*@param configParameters is the set of configuration parameters, which
* in this case describe the target appliance, basic auth configuration, etc. (This formerly came
* out of the ini file.)
*/
@Override
public void connect(ConfigParams configParams) {
super.connect(configParams);
username = params.getParameter(AlfrescoConfig.USERNAME_PARAM);
password = params.getParameter(AlfrescoConfig.PASSWORD_PARAM);
protocol = params.getParameter(AlfrescoConfig.PROTOCOL_PARAM);
server = params.getParameter(AlfrescoConfig.SERVER_PARAM);
port = params.getParameter(AlfrescoConfig.PORT_PARAM);
path = params.getParameter(AlfrescoConfig.PATH_PARAM);
tenantDomain = params.getParameter(AlfrescoConfig.TENANT_DOMAIN_PARAM);
if(params.getParameter(AlfrescoConfig.SOCKET_TIMEOUT_PARAM)!=null){
socketTimeout = Integer.parseInt(params.getParameter(AlfrescoConfig.SOCKET_TIMEOUT_PARAM));
} else {
socketTimeout = AlfrescoConfig.SOCKET_TIMEOUT_DEFAULT_VALUE;
}
//endpoint
if(StringUtils.isNotEmpty(protocol)
&& StringUtils.isNotEmpty(server)
&& StringUtils.isNotEmpty(port)
&& StringUtils.isNotEmpty(path)){
endpoint = protocol+"://"+server+":"+port+path;
}
//tenant domain (optional parameter). Pattern: username@tenantDomain
if(StringUtils.isNotEmpty(tenantDomain)){
username += AlfrescoConfig.TENANT_DOMAIN_SEP + tenantDomain;
}
}
/** Test the connection. Returns a string describing the connection integrity.
*@return the connection's status as a displayable string.
*/
@Override
public String check() throws ManifoldCFException {
try {
checkConnection();
return super.check();
} catch (ServiceInterruption e) {
return "Connection temporarily failed: " + e.getMessage();
} catch (ManifoldCFException e) {
return "Connection failed: " + e.getMessage();
}
}
/** Set up a session */
protected void getSession() throws ManifoldCFException, ServiceInterruption {
if (session == null) {
// Check for parameter validity
if (StringUtils.isEmpty(username))
throw new ManifoldCFException("Parameter " + AlfrescoConfig.USERNAME_PARAM
+ " required but not set");
if (Logging.connectors.isDebugEnabled())
Logging.connectors.debug("Alfresco: Username = '" + username + "'");
if (StringUtils.isEmpty(password))
throw new ManifoldCFException("Parameter " + AlfrescoConfig.PASSWORD_PARAM
+ " required but not set");
Logging.connectors.debug("Alfresco: Password exists");
if (StringUtils.isEmpty(protocol))
throw new ManifoldCFException("Parameter " + AlfrescoConfig.PROTOCOL_PARAM
+ " required but not set");
if (StringUtils.isEmpty(server))
throw new ManifoldCFException("Parameter " + AlfrescoConfig.SERVER_PARAM
+ " required but not set");
if (StringUtils.isEmpty(port))
throw new ManifoldCFException("Parameter " + AlfrescoConfig.PORT_PARAM
+ " required but not set");
if (StringUtils.isEmpty(path))
throw new ManifoldCFException("Parameter " + AlfrescoConfig.PATH_PARAM
+ " required but not set");
endpoint = protocol+"://"+server+":"+port+path;
try {
WebServiceFactory.setEndpointAddress(endpoint);
WebServiceFactory.setTimeoutMilliseconds(socketTimeout);
AuthenticationUtils.startSession(username, password);
session = AuthenticationUtils.getAuthenticationDetails();
}catch (AuthenticationFault e) {
Logging.connectors.warn(
"Alfresco: Error during authentication. Username: "+username + ", endpoint: "+endpoint+". "
+ e.getMessage(), e);
handleIOException(e);
} catch (WebServiceException e){
Logging.connectors.warn(
"Alfresco: Error during trying to authenticate the user. Username: "+username + ", endpoint: "+endpoint
+". Please check the connector parameters. "
+ e.getMessage(), e);
throw new ManifoldCFException("Alfresco: Error during trying to authenticate the user. Username: "+username + ", endpoint: "+endpoint
+". Please check the connector parameters. "
+ e.getMessage(), e);
}
lastSessionFetch = System.currentTimeMillis();
}
}
/**
* Release the session, if it's time.
*/
protected void releaseCheck() throws ManifoldCFException {
if (lastSessionFetch == -1L)
return;
long currentTime = System.currentTimeMillis();
if (currentTime >= lastSessionFetch + timeToRelease) {
try {
AuthenticationUtils.endSession();
} catch (Exception e) {
Logging.connectors.error(
"Alfresco: Error during releasing the connection.");
throw new ManifoldCFException( "Alfresco: Error during releasing the connection.");
}
session = null;
lastSessionFetch = -1L;
}
}
protected void checkConnection() throws ManifoldCFException,
ServiceInterruption {
while (true) {
try {
getSession();
String ticket = AuthenticationUtils.getTicket();
if(StringUtils.isEmpty(ticket)){
Logging.connectors.error(
"Alfresco: Error during checking the connection.");
throw new ManifoldCFException( "Alfresco: Error during checking the connection.");
}
AuthenticationUtils.endSession();
} catch (Exception e) {
Logging.connectors.error(
"Alfresco: Error during checking the connection.");
throw new ManifoldCFException( "Alfresco: Error during checking the connection.");
}
session=null;
return;
}
}
/** This method is periodically called for all connectors that are connected but not
* in active use.
*/
@Override
public void poll() throws ManifoldCFException {
if (lastSessionFetch == -1L)
return;
long currentTime = System.currentTimeMillis();
if (currentTime >= lastSessionFetch + timeToRelease) {
try {
AuthenticationUtils.endSession();
session = null;
lastSessionFetch = -1L;
} catch (Exception e) {
Logging.connectors.error(
"Alfresco: Error during polling: "
+ e.getMessage(), e);
throw new ManifoldCFException("Alfresco: Error during polling: "
+ e.getMessage(),e);
}
}
}
/** This method is called to assess whether to count this connector instance should
* actually be counted as being connected.
*@return true if the connector instance is actually connected.
*/
@Override
public boolean isConnected()
{
return session != null;
}
/** Queue "seed" documents. Seed documents are the starting places for crawling activity. Documents
* are seeded when this method calls appropriate methods in the passed in ISeedingActivity object.
*
* This method can choose to find repository changes that happen only during the specified time interval.
* The seeds recorded by this method will be viewed by the framework based on what the
* getConnectorModel() method returns.
*
* It is not a big problem if the connector chooses to create more seeds than are
* strictly necessary; it is merely a question of overall work required.
*
* The times passed to this method may be interpreted for greatest efficiency. The time ranges
* any given job uses with this connector will not overlap, but will proceed starting at 0 and going
* to the "current time", each time the job is run. For continuous crawling jobs, this method will
* be called once, when the job starts, and at various periodic intervals as the job executes.
*
* When a job's specification is changed, the framework automatically resets the seeding start time to 0. The
* seeding start time may also be set to 0 on each job run, depending on the connector model returned by
* getConnectorModel().
*
* Note that it is always ok to send MORE documents rather than less to this method.
*@param activities is the interface this method should use to perform whatever framework actions are desired.
*@param spec is a document specification (that comes from the job).
*@param startTime is the beginning of the time range to consider, inclusive.
*@param endTime is the end of the time range to consider, exclusive.
*@param jobMode is an integer describing how the job is being run, whether continuous or once-only.
*/
@Override
public void addSeedDocuments(ISeedingActivity activities,
DocumentSpecification spec, long startTime, long endTime)
throws ManifoldCFException, ServiceInterruption {
String luceneQuery = StringUtils.EMPTY;
int i = 0;
while (i < spec.getChildCount()) {
SpecificationNode sn = spec.getChild(i);
if (sn.getType().equals(JOB_STARTPOINT_NODE_TYPE)) {
luceneQuery = sn.getAttributeValue(AlfrescoConfig.LUCENE_QUERY_PARAM);
break;
}
i++;
}
try{
QueryResult queryResult = null;
if (StringUtils.isEmpty(luceneQuery)) {
// get documents from the root of the Alfresco Repository
queryResult = SearchUtils.getChildrenFromCompanyHome(endpoint, username, password, socketTimeout, session);
} else {
// execute a Lucene query against the repository
queryResult = SearchUtils.luceneSearch(endpoint, username, password, socketTimeout, session, luceneQuery);
}
if(queryResult!=null){
ResultSet resultSet = queryResult.getResultSet();
ResultSetRow[] resultSetRows = resultSet.getRows();
for (ResultSetRow resultSetRow : resultSetRows) {
NamedValue[] properties = resultSetRow.getColumns();
String nodeReference = PropertiesUtils.getNodeReference(properties);
activities.addSeedDocument(nodeReference);
}
}
} catch(IOException e){
Logging.connectors.warn("Alfresco: IOException: " + e.getMessage(), e);
handleIOException(e);
}
}
/** Get the maximum number of documents to amalgamate together into one batch, for this connector.
*@return the maximum number. 0 indicates "unlimited".
*/
@Override
public int getMaxDocumentRequest() {
return 1;
}
/**
* Return the list of relationship types that this connector recognizes.
*
* @return the list.
*/
@Override
public String[] getRelationshipTypes() {
return new String[] { RELATIONSHIP_CHILD };
}
/**
* Read the content of a resource, replace the variable ${PARAMNAME} with the
* value and copy it to the out.
*
* @param resName
* @param out
* @throws ManifoldCFException
*/
private static void outputResource(String resName, IHTTPOutput out,
Locale locale, Map<String,String> paramMap) throws ManifoldCFException {
Messages.outputResourceWithVelocity(out,locale,resName,paramMap,true);
}
/** Fill in Velocity parameters for the Server tab.
*/
private static void fillInServerParameters(Map<String,String> paramMap, IPasswordMapperActivity mapper, ConfigParams parameters)
{
String username = parameters.getParameter(AlfrescoConfig.USERNAME_PARAM);
if (username == null)
username = AlfrescoConfig.USERNAME_DEFAULT_VALUE;
paramMap.put(AlfrescoConfig.USERNAME_PARAM, username);
String password = parameters.getParameter(AlfrescoConfig.PASSWORD_PARAM);
if (password == null)
password = AlfrescoConfig.PASSWORD_DEFAULT_VALUE;
else
password = mapper.mapPasswordToKey(password);
paramMap.put(AlfrescoConfig.PASSWORD_PARAM, password);
String protocol = parameters.getParameter(AlfrescoConfig.PROTOCOL_PARAM);
if (protocol == null)
protocol = AlfrescoConfig.PROTOCOL_DEFAULT_VALUE;
paramMap.put(AlfrescoConfig.PROTOCOL_PARAM, protocol);
String server = parameters.getParameter(AlfrescoConfig.SERVER_PARAM);
if (server == null)
server = AlfrescoConfig.SERVER_DEFAULT_VALUE;
paramMap.put(AlfrescoConfig.SERVER_PARAM, server);
String port = parameters.getParameter(AlfrescoConfig.PORT_PARAM);
if (port == null)
port = AlfrescoConfig.PORT_DEFAULT_VALUE;
paramMap.put(AlfrescoConfig.PORT_PARAM, port);
String path = parameters.getParameter(AlfrescoConfig.PATH_PARAM);
if (path == null)
path = AlfrescoConfig.PATH_DEFAULT_VALUE;
paramMap.put(AlfrescoConfig.PATH_PARAM, path);
String tenantDomain = parameters.getParameter(AlfrescoConfig.TENANT_DOMAIN_PARAM);
if (tenantDomain == null)
tenantDomain = StringUtils.EMPTY;
paramMap.put(AlfrescoConfig.TENANT_DOMAIN_PARAM, tenantDomain);
String socketTimeout = parameters.getParameter(AlfrescoConfig.SOCKET_TIMEOUT_PARAM);
if (socketTimeout == null)
socketTimeout = String.valueOf(AlfrescoConfig.SOCKET_TIMEOUT_DEFAULT_VALUE);
paramMap.put(AlfrescoConfig.SOCKET_TIMEOUT_PARAM, socketTimeout);
}
/**
* View configuration. This method is called in the body section of the
* connector's view configuration page. Its purpose is to present the
* connection information to the user. The coder can presume that the HTML
* that is output from this configuration will be within appropriate <html>
* and <body> tags.
*
* @param threadContext
* is the local thread context.
* @param out
* is the output to which any HTML should be sent.
* @param parameters
* are the configuration parameters, as they currently exist, for
* this connection being configured.
*/
@Override
public void viewConfiguration(IThreadContext threadContext, IHTTPOutput out,
Locale locale, ConfigParams parameters) throws ManifoldCFException, IOException {
Map<String,String> paramMap = new HashMap<String,String>();
// Fill in parameters for all tabs
// Server tab
fillInServerParameters(paramMap, out, parameters);
outputResource(VIEW_CONFIG_FORWARD, out, locale, paramMap);
}
/**
* Output the configuration header section. This method is called in the head
* section of the connector's configuration page. Its purpose is to add the
* required tabs to the list, and to output any javascript methods that might
* be needed by the configuration editing HTML.
*
* @param threadContext
* is the local thread context.
* @param out
* is the output to which any HTML should be sent.
* @param parameters
* are the configuration parameters, as they currently exist, for
* this connection being configured.
* @param tabsArray
* is an array of tab names. Add to this array any tab names that are
* specific to the connector.
*/
@Override
public void outputConfigurationHeader(IThreadContext threadContext,
IHTTPOutput out, Locale locale, ConfigParams parameters, List<String> tabsArray)
throws ManifoldCFException, IOException {
// Add Server tab
tabsArray.add(Messages.getString(locale,ALFRESCO_SERVER_TAB_RESOURCE));
Map<String,String> paramMap = new HashMap<String,String>();
// Fill in parameters for all tabs
fillInServerParameters(paramMap, out, parameters);
outputResource(EDIT_CONFIG_HEADER_FORWARD, out, locale, paramMap);
}
/** Output the configuration body section.
* This method is called in the body section of the connector's configuration page. Its purpose is to present the required form elements for editing.
* The coder can presume that the HTML that is output from this configuration will be within appropriate <html>, <body>, and <form> tags. The name of the
* form is "editconnection".
*@param threadContext is the local thread context.
*@param out is the output to which any HTML should be sent.
*@param parameters are the configuration parameters, as they currently exist, for this connection being configured.
*@param tabName is the current tab name.
*/
@Override
public void outputConfigurationBody(IThreadContext threadContext,
IHTTPOutput out, Locale locale, ConfigParams parameters, String tabName)
throws ManifoldCFException, IOException {
// Do the Server tab
Map<String,String> paramMap = new HashMap<String,String>();
paramMap.put(TAB_NAME_PARAM, tabName);
fillInServerParameters(paramMap, out, parameters);
outputResource(EDIT_CONFIG_FORWARD_SERVER, out, locale, paramMap);
}
/**
* Process a configuration post. This method is called at the start of the
* connector's configuration page, whenever there is a possibility that form
* data for a connection has been posted. Its purpose is to gather form
* information and modify the configuration parameters accordingly. The name
* of the posted form is "editconnection".
*
* @param threadContext
* is the local thread context.
* @param variableContext
* is the set of variables available from the post, including binary
* file post information.
* @param parameters
* are the configuration parameters, as they currently exist, for
* this connection being configured.
* @return null if all is well, or a string error message if there is an error
* that should prevent saving of the connection (and cause a
* redirection to an error page).
*/
@Override
public String processConfigurationPost(IThreadContext threadContext,
IPostParameters variableContext, Locale locale, ConfigParams parameters)
throws ManifoldCFException {
String username = variableContext.getParameter(AlfrescoConfig.USERNAME_PARAM);
if (username != null) {
parameters.setParameter(AlfrescoConfig.USERNAME_PARAM, username);
}
String password = variableContext.getParameter(AlfrescoConfig.PASSWORD_PARAM);
if (password != null) {
parameters.setParameter(AlfrescoConfig.PASSWORD_PARAM, variableContext.mapKeyToPassword(password));
}
String protocol = variableContext.getParameter(AlfrescoConfig.PROTOCOL_PARAM);
if (protocol != null) {
parameters.setParameter(AlfrescoConfig.PROTOCOL_PARAM, protocol);
}
String server = variableContext.getParameter(AlfrescoConfig.SERVER_PARAM);
if (server != null) {
parameters.setParameter(AlfrescoConfig.SERVER_PARAM, server);
}
String port = variableContext.getParameter(AlfrescoConfig.PORT_PARAM);
if (port != null){
parameters.setParameter(AlfrescoConfig.PORT_PARAM, port);
}
String path = variableContext.getParameter(AlfrescoConfig.PATH_PARAM);
if (path != null) {
parameters.setParameter(AlfrescoConfig.PATH_PARAM, path);
}
String tenantDomain = variableContext.getParameter(AlfrescoConfig.TENANT_DOMAIN_PARAM);
if (tenantDomain != null){
parameters.setParameter(AlfrescoConfig.TENANT_DOMAIN_PARAM, tenantDomain);
}
String socketTimeout = variableContext.getParameter(AlfrescoConfig.SOCKET_TIMEOUT_PARAM);
if (socketTimeout != null){
parameters.setParameter(AlfrescoConfig.SOCKET_TIMEOUT_PARAM, socketTimeout);
}
return null;
}
/** Fill in Velocity parameters for the LuceneQuery tab.
*/
private static void fillInLuceneQueryParameters(Map<String,String> paramMap, DocumentSpecification ds)
{
int i = 0;
String luceneQuery = "";
while (i < ds.getChildCount()) {
SpecificationNode sn = ds.getChild(i);
if (sn.getType().equals(JOB_STARTPOINT_NODE_TYPE)) {
luceneQuery = sn.getAttributeValue(AlfrescoConfig.LUCENE_QUERY_PARAM);
}
i++;
}
paramMap.put(AlfrescoConfig.LUCENE_QUERY_PARAM, luceneQuery);
}
/**
* View specification. This method is called in the body section of a job's
* view page. Its purpose is to present the document specification information
* to the user. The coder can presume that the HTML that is output from this
* configuration will be within appropriate <html> and <body> tags.
*
* @param out
* is the output to which any HTML should be sent.
* @param ds
* is the current document specification for this job.
*/
@Override
public void viewSpecification(IHTTPOutput out, Locale locale, DocumentSpecification ds)
throws ManifoldCFException, IOException {
Map<String,String> paramMap = new HashMap<String,String>();
// Fill in parameters from all tabs
fillInLuceneQueryParameters(paramMap, ds);
outputResource(VIEW_SPEC_FORWARD, out, locale, paramMap);
}
/**
* Process a specification post. This method is called at the start of job's
* edit or view page, whenever there is a possibility that form data for a
* connection has been posted. Its purpose is to gather form information and
* modify the document specification accordingly. The name of the posted form
* is "editjob".
*
* @param variableContext
* contains the post data, including binary file-upload information.
* @param ds
* is the current document specification for this job.
* @return null if all is well, or a string error message if there is an error
* that should prevent saving of the job (and cause a redirection to
* an error page).
*/
@Override
public String processSpecificationPost(IPostParameters variableContext,
Locale locale, DocumentSpecification ds) throws ManifoldCFException {
String luceneQuery = variableContext.getParameter(AlfrescoConfig.LUCENE_QUERY_PARAM);
if (luceneQuery != null) {
int i = 0;
while (i < ds.getChildCount()) {
SpecificationNode oldNode = ds.getChild(i);
if (oldNode.getType().equals(JOB_STARTPOINT_NODE_TYPE)) {
ds.removeChild(i);
}
else
i++;
}
SpecificationNode node = new SpecificationNode(JOB_STARTPOINT_NODE_TYPE);
node.setAttribute(AlfrescoConfig.LUCENE_QUERY_PARAM, luceneQuery);
ds.addChild(ds.getChildCount(), node);
}
return null;
}
/**
* Output the specification body section. This method is called in the body
* section of a job page which has selected a repository connection of the
* current type. Its purpose is to present the required form elements for
* editing. The coder can presume that the HTML that is output from this
* configuration will be within appropriate <html>, <body>, and <form> tags.
* The name of the form is "editjob".
*
* @param out
* is the output to which any HTML should be sent.
* @param ds
* is the current document specification for this job.
* @param tabName
* is the current tab name.
*/
@Override
public void outputSpecificationBody(IHTTPOutput out, Locale locale,
DocumentSpecification ds, String tabName) throws ManifoldCFException,
IOException {
// Do all tabs in turn.
// LuceneQuery tab
Map<String,String> paramMap = new HashMap<String,String>();
paramMap.put(TAB_NAME_PARAM, tabName);
fillInLuceneQueryParameters(paramMap, ds);
outputResource(EDIT_SPEC_FORWARD_LUCENEQUERY, out, locale, paramMap);
}
/**
* Output the specification header section. This method is called in the head
* section of a job page which has selected a repository connection of the
* current type. Its purpose is to add the required tabs to the list, and to
* output any javascript methods that might be needed by the job editing HTML.
*
* @param out
* is the output to which any HTML should be sent.
* @param ds
* is the current document specification for this job.
* @param tabsArray
* is an array of tab names. Add to this array any tab names that are
* specific to the connector.
*/
@Override
public void outputSpecificationHeader(IHTTPOutput out,
Locale locale, DocumentSpecification ds, List<String> tabsArray)
throws ManifoldCFException, IOException {
// Add LuceneQuery tab
tabsArray.add(Messages.getString(locale,TAB_LABEL_LUCENE_QUERY_RESOURCE));
// Fill in parameters from all tabs
Map<String,String> paramMap = new HashMap<String,String>();
// LuceneQuery tab
fillInLuceneQueryParameters(paramMap, ds);
outputResource(EDIT_SPEC_HEADER_FORWARD, out, locale, paramMap);
}
/** Process a set of documents.
* This is the method that should cause each document to be fetched, processed, and the results either added
* to the queue of documents for the current job, and/or entered into the incremental ingestion manager.
* The document specification allows this class to filter what is done based on the job.
*@param documentIdentifiers is the set of document identifiers to process.
*@param versions is the corresponding document versions to process, as returned by getDocumentVersions() above.
* The implementation may choose to ignore this parameter and always process the current version.
*@param activities is the interface this method should use to queue up new document references
* and ingest documents.
*@param spec is the document specification.
*@param scanOnly is an array corresponding to the document identifiers. It is set to true to indicate when the processing
* should only find other references, and should not actually call the ingestion methods.
*@param jobMode is an integer describing how the job is being run, whether continuous or once-only.
*/
@Override
public void processDocuments(String[] documentIdentifiers, String[] versions,
IProcessActivity activities, DocumentSpecification spec,
boolean[] scanOnly) throws ManifoldCFException, ServiceInterruption {
Logging.connectors.debug("Alfresco: Inside processDocuments");
int i = 0;
while (i < documentIdentifiers.length) {
long startTime = System.currentTimeMillis();
String nodeReference = documentIdentifiers[i];
String uuid = NodeUtils.getUuidFromNodeReference(nodeReference);
if (Logging.connectors.isDebugEnabled())
Logging.connectors.debug("Alfresco: Processing document identifier '"
+ nodeReference + "'");
Reference reference = new Reference();
reference.setStore(SearchUtils.STORE);
reference.setUuid(uuid);
Predicate predicate = new Predicate();
predicate.setStore(SearchUtils.STORE);
predicate.setNodes(new Reference[] { reference });
// getting properties
Node resultNode = null;
try {
resultNode = NodeUtils.get(endpoint, username, password, socketTimeout, session, predicate);
} catch (IOException e) {
Logging.connectors.warn(
"Alfresco: IOException closing file input stream: "
+ e.getMessage(), e);
handleIOException(e);
}
String errorCode = "OK";
String errorDesc = StringUtils.EMPTY;
NamedValue[] properties = resultNode.getProperties();
boolean isDocument = ContentModelUtils.isDocument(properties);
try{
boolean isFolder = ContentModelUtils.isFolder(endpoint, username, password, socketTimeout, session, reference);
//a generic node in Alfresco could have child-associations
if (isFolder) {
// ingest all the children of the folder
QueryResult queryResult = SearchUtils.getChildren(endpoint, username, password, socketTimeout, session, reference);
ResultSet resultSet = queryResult.getResultSet();
ResultSetRow[] resultSetRows = resultSet.getRows();
for (ResultSetRow resultSetRow : resultSetRows) {
NamedValue[] childProperties = resultSetRow.getColumns();
String childNodeReference = PropertiesUtils.getNodeReference(childProperties);
activities.addDocumentReference(childNodeReference, nodeReference, RELATIONSHIP_CHILD);
}
}
}catch(IOException e){
Logging.connectors.warn(
"Alfresco: IOException closing file input stream: "
+ e.getMessage(), e);
handleIOException(e);
}
//a generic node in Alfresco could also have binaries content
if (isDocument) {
if (!scanOnly[i]) {
// this is a content to ingest
InputStream is = null;
long fileLength = 0;
try {
//properties ingestion
RepositoryDocument rd = new RepositoryDocument();
List<NamedValue> contentProperties = PropertiesUtils.getContentProperties(properties);
PropertiesUtils.ingestProperties(rd, properties, contentProperties);
// binaries ingestion - in Alfresco we could have more than one binary for each node (custom content models)
for (NamedValue contentProperty : contentProperties) {
//we are ingesting all the binaries defined as d:content property in the Alfresco content model
Content binary = ContentReader.read(endpoint, username, password, socketTimeout, session, predicate, contentProperty.getName());
fileLength = binary.getLength();
is = ContentReader.getBinary(endpoint, binary, username, password, socketTimeout, session);
rd.setBinary(is, fileLength);
//id is the node reference only if the node has an unique content stream
//For a node with a single d:content property: id = node reference
String id = PropertiesUtils.getNodeReference(properties);
//For a node with multiple d:content properties: id = node reference;QName
//The QName of a property of type d:content will be appended to the node reference
if(contentProperties.size()>1){
id = id + INGESTION_SEPARATOR_FOR_MULTI_BINARY + contentProperty.getName();
}
//version label
String version = PropertiesUtils.getVersionLabel(properties);
//the document uri is related to the specific d:content property available in the node
//we want to ingest each content stream that are nested in a single node
String documentURI = binary.getUrl();
activities.ingestDocumentWithException(id, version, documentURI, rd);
}
AuthenticationUtils.endSession();
} catch (ParseException e) {
errorCode = "IO ERROR";
errorDesc = e.getMessage();
Logging.connectors.warn(
"Alfresco: Error during the reading process of dates: "
+ e.getMessage(), e);
handleParseException(e);
} catch (IOException e) {
Logging.connectors.warn(
"Alfresco: IOException: "
+ e.getMessage(), e);
handleIOException(e);
} finally {
try {
if(is!=null){
is.close();
}
} catch (InterruptedIOException e) {
errorCode = "Interrupted error";
errorDesc = e.getMessage();
throw new ManifoldCFException(e.getMessage(), e,
ManifoldCFException.INTERRUPTED);
} catch (IOException e) {
errorCode = "IO ERROR";
errorDesc = e.getMessage();
Logging.connectors.warn(
"Alfresco: IOException closing file input stream: "
+ e.getMessage(), e);
handleIOException(e);
}
session = null;
activities.recordActivity(new Long(startTime), ACTIVITY_READ,
fileLength, nodeReference, errorCode, errorDesc, null);
}
}
}
i++;
}
}
/** The short version of getDocumentVersions.
* Get document versions given an array of document identifiers.
* This method is called for EVERY document that is considered. It is
* therefore important to perform as little work as possible here.
*@param documentIdentifiers is the array of local document identifiers, as understood by this connector.
*@param spec is the current document specification for the current job. If there is a dependency on this
* specification, then the version string should include the pertinent data, so that reingestion will occur
* when the specification changes. This is primarily useful for metadata.
*@return the corresponding version strings, with null in the places where the document no longer exists.
* Empty version strings indicate that there is no versioning ability for the corresponding document, and the document
* will always be processed.
*/
@Override
public String[] getDocumentVersions(String[] documentIdentifiers,
DocumentSpecification spec) throws ManifoldCFException,
ServiceInterruption {
String[] rval = new String[documentIdentifiers.length];
int i = 0;
while (i < rval.length){
String nodeReference = documentIdentifiers[i];
String uuid = NodeUtils.getUuidFromNodeReference(nodeReference);
Reference reference = new Reference();
reference.setStore(SearchUtils.STORE);
reference.setUuid(uuid);
Predicate predicate = new Predicate();
predicate.setStore(SearchUtils.STORE);
predicate.setNodes(new Reference[]{reference});
Node node = null;
try {
node = NodeUtils.get(endpoint, username, password, socketTimeout, session, predicate);
} catch (IOException e) {
Logging.connectors.warn(
"Alfresco: IOException closing file input stream: "
+ e.getMessage(), e);
handleIOException(e);
}
if(node.getProperties()!=null){
NamedValue[] properties = node.getProperties();
boolean isDocument = ContentModelUtils.isDocument(properties);
if(isDocument){
boolean isVersioned = NodeUtils.isVersioned(node.getAspects());
if(isVersioned){
rval[i] = NodeUtils.getVersionLabel(properties);
} else {
//a document that doesn't contain versioning information will always be processed
rval[i] = StringUtils.EMPTY;
}
} else {
//a space will always be processed
rval[i] = StringUtils.EMPTY;
}
}
i++;
}
return rval;
}
private static void handleIOException(IOException e)
throws ManifoldCFException, ServiceInterruption {
if (!(e instanceof java.net.SocketTimeoutException) && (e instanceof InterruptedIOException)) {
throw new ManifoldCFException("Interrupted: " + e.getMessage(), e,
ManifoldCFException.INTERRUPTED);
}
long currentTime = System.currentTimeMillis();
throw new ServiceInterruption("IO exception: "+e.getMessage(), e, currentTime + 300000L,
currentTime + 3 * 60 * 60000L,-1,false);
}
private void handleParseException(ParseException e)
throws ManifoldCFException {
throw new ManifoldCFException(
"Alfresco: Error during parsing date values. This should never happen: "+e.getMessage(),e);
}
}