/** * Returns the set of data that user has entered through this wizard. * * @return Iterator */ public Iterator<Map.Entry<String, String>> getSummary() { Map<String, String> summaryTable = new Hashtable<String, String>(); summaryTable.put("User ID", registration.getUserID()); return summaryTable.entrySet().iterator(); }
/** * Send Conference POST request to API endpoint which is used for allocating new conferences in * reservation system. * * @param ownerEmail email of new conference owner * @param mucRoomName full name of MUC room that is hosting the conference. * {room_name}@{muc.server.net} * @return <tt>ApiResult</tt> that contains system response. It will contain <tt>Conference</tt> * instance filled with data from the reservation system if everything goes OK. * @throws FaultTolerantRESTRequest.RetryExhaustedException When the number of retries to submit * the request for the conference data is reached * @throws UnsupportedEncodingException When the room data have the encoding that does not play * with UTF8 standard */ public ApiResult createNewConference(String ownerEmail, String mucRoomName) throws FaultTolerantRESTRequest.RetryExhaustedException, UnsupportedEncodingException { Conference conference = new Conference(mucRoomName, ownerEmail, new Date()); HttpPost post = new HttpPost(baseUrl + "/conference"); List<NameValuePair> nameValuePairs = new ArrayList<NameValuePair>(1); Map<String, Object> jsonMap = conference.createJSonMap(); for (Map.Entry<String, Object> entry : jsonMap.entrySet()) { nameValuePairs.add(new BasicNameValuePair(entry.getKey(), String.valueOf(entry.getValue()))); } post.setEntity(new UrlEncodedFormEntity(nameValuePairs, "UTF8")); logger.info("Sending post: " + jsonMap); CreateConferenceResponseParser conferenceResponseParser = new CreateConferenceResponseParser(conference); FaultTolerantRESTRequest faultTolerantRESTRequest = new FaultTolerantRESTRequest(post, conferenceResponseParser, retriesCreate, httpClient); return faultTolerantRESTRequest.submit(); }
/** * Adds the channel-bundles of this <tt>Conference</tt> as * <tt>ColibriConferenceIQ.ChannelBundle</tt> instances in <tt>iq</tt>. * * @param iq the <tt>ColibriConferenceIQ</tt> in which to describe. */ void describeChannelBundles(ColibriConferenceIQ iq) { synchronized (transportManagers) { for (Map.Entry<String, IceUdpTransportManager> entry : transportManagers.entrySet()) { ColibriConferenceIQ.ChannelBundle responseBundleIQ = new ColibriConferenceIQ.ChannelBundle(entry.getKey()); entry.getValue().describe(responseBundleIQ); iq.addChannelBundle(responseBundleIQ); } } }
/** * Remove from our <tt>jids</tt> map all entries that have not seen any activity (i.e. neither * outgoing nor incoming messags) for more than JID_INACTIVITY_TIMEOUT. Note that this method is * not synchronous and that it is only meant for use by the {@link #getThreadIDForAddress(String)} * and {@link #putJidForAddress(String, String)} */ private void purgeOldJids() { long currentTime = System.currentTimeMillis(); Iterator<Map.Entry<String, StoredThreadID>> entries = jids.entrySet().iterator(); while (entries.hasNext()) { Map.Entry<String, StoredThreadID> entry = entries.next(); StoredThreadID target = entry.getValue(); if (currentTime - target.lastUpdatedTime > JID_INACTIVITY_TIMEOUT) entries.remove(); } }
/** * Verifies that all operation sets have the type they are declarded to have. * * @throws java.lang.Exception if a class indicated in one of the keys could not be forName()ed. */ public void testOperationSetTypes() throws Exception { Map<String, OperationSet> supportedOperationSets = fixture.provider1.getSupportedOperationSets(); // make sure that keys (which are supposed to be class names) correspond // what the class of the values recorded against them. for (Map.Entry<String, OperationSet> entry : supportedOperationSets.entrySet()) { String setName = entry.getKey(); Object opSet = entry.getValue(); assertTrue( opSet + " was not an instance of " + setName + " as declared", Class.forName(setName).isInstance(opSet)); } }
/** * Makes sure that conference is allocated for given <tt>room</tt>. * * @param room name of the MUC room of Jitsi Meet conference. * @param properties configuration properties, see {@link JitsiMeetConfig} for the list of valid * properties. * @throws Exception if any error occurs. */ private void createConference(String room, Map<String, String> properties) throws Exception { JitsiMeetConfig config = new JitsiMeetConfig(properties); JitsiMeetConference conference = new JitsiMeetConference(room, focusUserName, protocolProviderHandler, this, config); conferences.put(room, conference); StringBuilder options = new StringBuilder(); for (Map.Entry<String, String> option : properties.entrySet()) { options.append("\n ").append(option.getKey()).append(": ").append(option.getValue()); } logger.info( "Created new focus for " + room + "@" + focusUserDomain + " conferences count: " + conferences.size() + " options:" + options.toString()); // Send focus created event EventAdmin eventAdmin = FocusBundleActivator.getEventAdmin(); if (eventAdmin != null) { eventAdmin.sendEvent(EventFactory.focusCreated(conference.getId(), conference.getRoomName())); } try { conference.start(); } catch (Exception e) { logger.info("Exception while trying to start the conference", e); // stop() method is called by the conference automatically in order // to not release the lock on JitsiMeetConference instance and avoid // a deadlock. It may happen when this thread is about to call // conference.stop() and another thread has entered the method // before us. That other thread will try to call // FocusManager.conferenceEnded, but we're still holding the lock // on FocusManager instance. // conference.stop(); throw e; } }
/** * Makes sure that conference is allocated for given <tt>room</tt>. * * @param room name of the MUC room of Jitsi Meet conference. * @param properties configuration properties, see {@link JitsiMeetConfig} for the list of valid * properties. * @throws Exception if any error occurs. */ private void createConference(String room, Map<String, String> properties) throws Exception { JitsiMeetConfig config = new JitsiMeetConfig(properties); JitsiMeetConference conference = new JitsiMeetConference(room, focusUserName, protocolProviderHandler, this, config); conferences.put(room, conference); StringBuilder options = new StringBuilder(); for (Map.Entry<String, String> option : properties.entrySet()) { options.append("\n ").append(option.getKey()).append(": ").append(option.getValue()); } logger.info( "Created new focus for " + room + "@" + focusUserDomain + " conferences count: " + conferences.size() + " options:" + options.toString()); // Send focus created event EventAdmin eventAdmin = FocusBundleActivator.getEventAdmin(); if (eventAdmin != null) { eventAdmin.sendEvent(EventFactory.focusCreated(conference.getId(), conference.getRoomName())); } try { conference.start(); } catch (Exception e) { logger.info("Exception while trying to start the conference", e); conference.stop(); throw e; } }
/** * Attach any custom headers pre configured for the account. Added only to message Requests. The * header account properties are of form: ConfigHeader.N.Name=HeaderName * ConfigHeader.N.Value=HeaderValue ConfigHeader.N.Method=SIP_MethodName (optional) Where N is the * index of the header, multiple custom headers can be added. Name is the header name to use and * Value is its value. The optional property is whether to use a specific request method to attach * headers to or if missing we will attach it to all requests. * * @param message the message that we'd like to attach custom headers to. * @param protocolProvider the protocol provider to check for configured custom headers. */ static void attachConfigHeaders( Message message, ProtocolProviderServiceSipImpl protocolProvider) { if (message instanceof Response) return; Request request = (Request) message; Map<String, String> props = protocolProvider.getAccountID().getAccountProperties(); Map<String, Map<String, String>> headers = new HashMap<String, Map<String, String>>(); // parse the properties into the map where the index is the key for (Map.Entry<String, String> entry : props.entrySet()) { String pName = entry.getKey(); String prefStr = entry.getValue(); String name; String ix; if (!pName.startsWith(ACC_PROPERTY_CONFIG_HEADER) || prefStr == null) continue; prefStr = prefStr.trim(); if (pName.contains(".")) { pName = pName.replaceAll(ACC_PROPERTY_CONFIG_HEADER + ".", ""); name = pName.substring(pName.lastIndexOf('.') + 1).trim(); if (!pName.contains(".")) continue; ix = pName.substring(0, pName.lastIndexOf('.')).trim(); } else continue; Map<String, String> headerValues = headers.get(ix); if (headerValues == null) { headerValues = new HashMap<String, String>(); headers.put(ix, headerValues); } headerValues.put(name, prefStr); } // process the found custom headers for (Map<String, String> headerValues : headers.values()) { String method = headerValues.get(ACC_PROPERTY_CONFIG_HEADER_METHOD); // if there is a method setting and is different from // current request method skip this header // if any of the required properties are missing skip (Name & Value) if ((method != null && !request.getMethod().equalsIgnoreCase(method)) || !headerValues.containsKey(ACC_PROPERTY_CONFIG_HEADER_NAME) || !headerValues.containsKey(ACC_PROPERTY_CONFIG_HEADER_VALUE)) continue; try { String name = headerValues.get(ACC_PROPERTY_CONFIG_HEADER_NAME); String value = processParams(headerValues.get(ACC_PROPERTY_CONFIG_HEADER_VALUE), request); Header h = request.getHeader(name); // makes possible overriding already created headers which // are not custom one // RouteHeader is used by ProxyRouter/DefaultRouter and we // cannot use it as custom header if we want to add it if ((h != null && !(h instanceof CustomHeader)) || name.equals(SIPHeaderNames.ROUTE)) { request.setHeader(protocolProvider.getHeaderFactory().createHeader(name, value)); } else request.addHeader(new CustomHeaderList(name, value)); } catch (Exception e) { logger.error("Cannot create custom header", e); } } }