// serverSwitch.java // ------------------------------------- // (C) by Michael Peter Christen; mc@yacy.net // first published on http://www.anomic.de // Frankfurt, Germany, 2004, 2005 // last major change: 24.03.2005 // // 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 net.yacy.server; import java.io.BufferedInputStream; import java.io.ByteArrayInputStream; import java.io.File; import java.io.FileNotFoundException; import java.io.FileOutputStream; import java.io.FileReader; import java.io.IOException; import java.io.InputStreamReader; import java.io.Reader; import java.net.InetAddress; import java.util.HashSet; import java.util.Iterator; import java.util.LinkedHashSet; import java.util.Map; import java.util.NavigableMap; import java.util.Random; import java.util.Set; import java.util.TreeMap; import java.util.concurrent.ConcurrentHashMap; import java.util.concurrent.ConcurrentMap; import net.yacy.cora.order.Digest; import net.yacy.cora.protocol.ClientIdentification; import net.yacy.cora.protocol.Domains; import net.yacy.cora.protocol.HeaderFramework; import net.yacy.cora.protocol.RequestHeader; import net.yacy.cora.protocol.http.HTTPClient; import net.yacy.cora.util.CommonPattern; import net.yacy.cora.util.ConcurrentLog; import net.yacy.http.YaCyHttpServer; import net.yacy.kelondro.util.FileUtils; import net.yacy.kelondro.workflow.BusyThread; import net.yacy.kelondro.workflow.WorkflowThread; import net.yacy.peers.Seed; import net.yacy.search.SwitchboardConstants; public class serverSwitch { /** Key of system property defining locally open http port */ public static final String LOCAL_PORT_SYSTEM_PROPERTY = "net.yacy.server.localPort"; // configuration management private final File configFile; private final String configComment; public final File dataPath; public final File appPath; protected boolean firstInit; public ConcurrentLog log; protected int serverJobs; private ConcurrentMap<String, String> configProps; private final ConcurrentMap<String, String> configRemoved; private final NavigableMap<String, BusyThread> workerThreads; private YaCyHttpServer httpserver; // implemented HttpServer private ConcurrentMap<String, Integer> upnpPortMap = new ConcurrentHashMap<>(); private boolean isConnectedViaUpnp; public serverSwitch(final File dataPath, final File appPath, final String initPath, final String configPath) { // we initialize the switchboard with a property file, // but maintain these properties then later in a new 'config' file // to reset all changed configs, the config file must // be deleted, but not the init file // the only attribute that will always be read from the init is the // file name of the config file this.dataPath = dataPath; this.appPath = appPath; this.configComment = "This is an automatically generated file, updated by serverAbstractSwitch and initialized by " + initPath; final File initFile = new File(appPath, initPath); this.configFile = new File(dataPath, configPath); // propertiesFile(config); this.firstInit = !this.configFile.exists(); // this is true if the // application was started // for the first time new File(this.configFile.getParent()).mkdir(); // predefine init's final ConcurrentMap<String, String> initProps; if (initFile.exists()) { initProps = FileUtils.loadMap(initFile); } else { initProps = new ConcurrentHashMap<String, String>(); } // load config's from last save if (this.configFile.exists()) { this.configProps = FileUtils.loadMap(this.configFile); } else { this.configProps = new ConcurrentHashMap<String, String>(); } // remove all values from config that do not appear in init this.configRemoved = new ConcurrentHashMap<String, String>(); synchronized (this.configProps) { Iterator<String> i = this.configProps.keySet().iterator(); String key; while (i.hasNext()) { key = i.next(); if (!(initProps.containsKey(key))) { this.configRemoved.put(key, this.configProps.get(key)); i.remove(); } } // merge new props from init to config // this is necessary for migration, when new properties are attached initProps.putAll(this.configProps); this.configProps = initProps; // save result; this may initially create a config file after // initialization saveConfig(); } // init thread control this.workerThreads = new TreeMap<String, BusyThread>(); // init busy state control // this.serverJobs = 0; // init server tracking serverAccessTracker.init( getConfigLong("server.maxTrackingTime", 60 * 60 * 1000), (int) getConfigLong("server.maxTrackingCount", 1000), (int) getConfigLong("server.maxTrackingHostCount", 100)); } /** * get my public IP, either set statically or figure out dynamic This method * is deprecated because there may be more than one public IPs of this peer, * i.e. one IPv4 and one IPv6. Please use myPublicIPs() instead * * @return the public IP of this peer, if known */ @Deprecated public String myPublicIP() { // if a static IP was configured, we have to return it here ... final String staticIP = getConfig(SwitchboardConstants.SERVER_STATICIP, ""); if (staticIP.length() > 0) return staticIP; // otherwise we return the real IP address of this host final InetAddress pLIP = Domains.myPublicLocalIP(); if (pLIP != null) return pLIP.getHostAddress(); return null; } /** * Get all my public IPs. If there was a static IP assignment, only one, * that IP is returned. * * @return a set of IPs which are supposed to be my own public IPs */ public Set<String> myPublicIPs() { // if a static IP was configured, we have to return it here ... final String staticIP = getConfig(SwitchboardConstants.SERVER_STATICIP, ""); if (staticIP.length() > 0) { HashSet<String> h = new HashSet<>(); h.add(staticIP); return h; } Set<String> h = new LinkedHashSet<>(); for (InetAddress i : Domains.myPublicIPv6()) { String s = i.getHostAddress(); if (Seed.isProperIP(s)) h.add(Domains.chopZoneID(s)); } for (InetAddress i : Domains.myPublicIPv4()) { String s = i.getHostAddress(); if (Seed.isProperIP(s)) h.add(Domains.chopZoneID(s)); } return h; } /** * Gets public port. May differ from local port due to NATting. This method * will eventually removed once nobody used IPv4 anymore, but until then we * have to live with it. * * @param key * original key from config (for example "port" or "port.ssl") * @param dflt * default value which will be used if no value is found * @return the public port of this system on its IPv4 address * * @see #getLocalPort(String, int) */ public int getPublicPort(final String key, final int dflt) { if (isConnectedViaUpnp && upnpPortMap.containsKey(key)) { return upnpPortMap.get(key).intValue(); } // TODO: add way of setting and retrieving port for manual NAT return getConfigInt(key, dflt); } /** * @return local http server port or null if system property is not defined */ public Integer getLocalPortSystemProperty() { String systemDefinedPort = System.getProperty(LOCAL_PORT_SYSTEM_PROPERTY); Integer localPort = null; if(systemDefinedPort != null) { try { localPort = Integer.parseInt(systemDefinedPort); } catch(NumberFormatException e) { log.warn("System property " + LOCAL_PORT_SYSTEM_PROPERTY + " is not valid : it should be a integer."); } } return localPort; } /** * Wrapper for {@link #getConfigInt(String, int)} to have a more consistent * API. * * Default value 8090 will be used if no value is found in system properties and in configuration. * * @return the local http port of this system * @see #getPublicPort(String, int) */ public int getLocalPort() { /* A system property "net.yacy.server.localPort" may override configuration * This is useful when running YaCy inside a container manager such as Heroku which decide which http port to use */ Integer localPort = getLocalPortSystemProperty(); if(localPort != null) { return localPort; } return getConfigInt(SwitchboardConstants.SERVER_PORT, 8090); } // a logger for this switchboard public void setLog(final ConcurrentLog log) { this.log = log; } public ConcurrentLog getLog() { return this.log; } /** * add whole map of key-value pairs to config * * @param otherConfigs */ public void setConfig(final Map<String, String> otherConfigs) { final Iterator<Map.Entry<String, String>> i = otherConfigs.entrySet() .iterator(); Map.Entry<String, String> entry; while (i.hasNext()) { entry = i.next(); setConfig(entry.getKey(), entry.getValue()); } } public void setConfig(final String key, final boolean value) { setConfig(key, (value) ? "true" : "false"); } public void setConfig(final String key, final long value) { setConfig(key, Long.toString(value)); } public void setConfig(final String key, final float value) { setConfig(key, Float.toString(value)); } public void setConfig(final String key, final double value) { setConfig(key, Double.toString(value)); } public void setConfig(final String key, final String value) { // set the value final String oldValue = this.configProps.put(key, value); if (oldValue == null || !value.equals(oldValue)) { saveConfig(); } } public void setConfig(final String key, final String[] value) { StringBuilder sb = new StringBuilder(); if (value != null) for (String s: value) sb.append(',').append(s); setConfig(key, sb.length() > 0 ? sb.substring(1) : ""); } public void setConfig(final String key, Set<String> value) { String[] a = new String[value.size()]; int c = 0; for (String s: value) a[c++] = s; setConfig(key, a); } public void removeConfig(final String key) { this.configProps.remove(key); } /** * Gets a configuration parameter from the properties. * * @param key * name of the configuration parameter * @param dflt * default value which will be used in case parameter can not be * found or if it is invalid * @return value if the parameter or default value */ public String getConfig(final String key, final String dflt) { // get the value final String s = this.configProps.get(key); // return value if (s == null) { return dflt; } return s; } /** * Gets a configuration parameter from the properties. * * @param key * name of the configuration parameter * @param dflt * default value which will be used in case parameter can not be * found or if it is invalid * @return value if the parameter or default value */ public long getConfigLong(final String key, final long dflt) { try { return Long.parseLong(getConfig(key, Long.toString(dflt))); } catch (final NumberFormatException e) { return dflt; } } /** * Gets a configuration parameter from the properties. * * @param key * name of the configuration parameter * @param dflt * default value which will be used in case parameter can not be * found or if it is invalid * @return value if the parameter or default value */ public float getConfigFloat(final String key, final float dflt) { try { return Float.parseFloat(getConfig(key, Float.toString(dflt))); } catch (final NumberFormatException e) { return dflt; } } public boolean isConnectedViaUpnp() { return isConnectedViaUpnp; } public void setConnectedViaUpnp(final boolean isConnectedViaUpnp) { this.isConnectedViaUpnp = isConnectedViaUpnp; if (!isConnectedViaUpnp) { upnpPortMap.clear(); } } public void setUpnpPorts(final String key, final int port) { upnpPortMap.put(key, Integer.valueOf(port)); } public void removeUpnpPort(final String key) { upnpPortMap.remove(key); } /** * Gets a configuration parameter from the properties. * * @param key * name of the configuration parameter * @param dflt * default value which will be used in case parameter can not be * found or if it is invalid * @return value if the parameter or default value */ public int getConfigInt(final String key, final int dflt) { try { return Integer.parseInt(getConfig(key, Integer.toString(dflt))); } catch (final NumberFormatException e) { return dflt; } } /** * Gets a configuration parameter from the properties. * * @param key * name of the configuration parameter * @param dflt * default value which will be used in case parameter can not be * found or if it is invalid * @return value if the parameter or default value */ public boolean getConfigBool(final String key, final boolean dflt) { return Boolean.parseBoolean(getConfig(key, Boolean.toString(dflt))); } /** * get a configuration parameter list * @param key * @param dflt a default list * @return a list of strings which had been separated by comma in the setting */ public String[] getConfigArray(final String key, final String dflt) { return CommonPattern.COMMA.split(this.getConfig(key, dflt)); } /** * get a configuration parameter set * @param key * @param dflt a default list * @return a set of strings which had been separated by comma in the setting */ public Set<String> getConfigSet(final String key) { Set<String> h = new LinkedHashSet<>(); for (String s: getConfigArray(key, "")) {s = s.trim(); if (s.length() > 0) h.add(s.trim());} return h; } /** * Create a File instance for a configuration setting specifying a path. * * @param key * config key * @param dflt * default path value, that is used when there is no value * <code>key</code> in the configuration. * @return if the value of the setting is an absolute path String, then the * returned File is derived from this setting only. Otherwise the * path's file is constructed from the applications root path + the * relative path setting. */ public File getDataPath(final String key, final String dflt) { return getFileByPath(key, dflt, this.dataPath); } /** * return file at path from config entry "key", or fallback to default dflt * * @param key * @param dflt * @return */ public File getAppPath(final String key, final String dflt) { return getFileByPath(key, dflt, this.appPath); } private File getFileByPath(String key, String dflt, File prefix) { final String path = getConfig(key, dflt).replace('\\', '/'); final File f = new File(path); return (f.isAbsolute() ? new File(f.getAbsolutePath()) : new File( prefix, path)); } public Iterator<String> configKeys() { return this.configProps.keySet().iterator(); } /** * write the changes to permanent storage (File) */ private void saveConfig() { ConcurrentMap<String, String> configPropsCopy = new ConcurrentHashMap<String, String>(); configPropsCopy.putAll(this.configProps); // avoid concurrency problems FileUtils.saveMap(this.configFile, configPropsCopy, this.configComment); } /** * Gets configuration parameters which have been removed during * initialization. * * @return contains parameter name as key and parameter value as value */ public ConcurrentMap<String, String> getRemoved() { return this.configRemoved; } public void deployThread(final String threadName, final String threadShortDescription, final String threadLongDescription, final String threadMonitorURL, final BusyThread newThread, final long startupDelay) { deployThread( threadName, threadShortDescription, threadLongDescription, threadMonitorURL, newThread, startupDelay, Long.parseLong(getConfig(threadName + "_idlesleep", "1000")), Long.parseLong(getConfig(threadName + "_busysleep", "100")), Long.parseLong(getConfig(threadName + "_memprereq", "1048576")), Double.parseDouble(getConfig(threadName + "_loadprereq", "9.0"))); } public void deployThread(final String threadName, final String threadShortDescription, final String threadLongDescription, final String threadMonitorURL, final BusyThread newThread, final long startupDelay, final long initialIdleSleep, final long initialBusySleep, final long initialMemoryPreRequisite, final double initialLoadPreRequisite) { if (newThread.isAlive()) { throw new RuntimeException( "undeployed threads must not live; they are started as part of the deployment"); } newThread.setStartupSleep(startupDelay); long x; try { x = Long.parseLong(getConfig(threadName + "_idlesleep", "novalue")); newThread.setIdleSleep(x); } catch (final NumberFormatException e) { newThread.setIdleSleep(initialIdleSleep); setConfig(threadName + "_idlesleep", initialIdleSleep); } try { x = Long.parseLong(getConfig(threadName + "_busysleep", "novalue")); newThread.setBusySleep(x); } catch (final NumberFormatException e) { newThread.setBusySleep(initialBusySleep); setConfig(threadName + "_busysleep", initialBusySleep); } try { x = Long.parseLong(getConfig(threadName + "_memprereq", "novalue")); newThread.setMemPreReqisite(x); } catch (final NumberFormatException e) { newThread.setMemPreReqisite(initialMemoryPreRequisite); setConfig(threadName + "_memprereq", initialMemoryPreRequisite); } try { final double load = Double.parseDouble(getConfig(threadName + "_loadprereq", "novalue")); newThread.setLoadPreReqisite(load); } catch (final NumberFormatException e) { newThread.setLoadPreReqisite(initialLoadPreRequisite); setConfig(threadName + "_loadprereq", (float) initialLoadPreRequisite); } newThread.setDescription(threadShortDescription, threadLongDescription, threadMonitorURL); this.workerThreads.put(threadName, newThread); // start the thread if (this.workerThreads.containsKey(threadName)) { newThread.start(); } } public BusyThread getThread(final String threadName) { return this.workerThreads.get(threadName); } public void setThreadPerformance(final String threadName, final long idleMillis, final long busyMillis, final long memprereqBytes, final double loadprereq) { final BusyThread thread = this.workerThreads.get(threadName); if (thread != null) { setConfig(threadName + "_idlesleep", thread.setIdleSleep(idleMillis)); setConfig(threadName + "_busysleep", thread.setBusySleep(busyMillis)); setConfig(threadName + "_memprereq", memprereqBytes); thread.setMemPreReqisite(memprereqBytes); setConfig(threadName + "_loadprereq", (float) loadprereq); thread.setLoadPreReqisite(loadprereq); } } public synchronized void terminateThread(final String threadName, final boolean waitFor) { if (this.workerThreads.containsKey(threadName)) { ((WorkflowThread) this.workerThreads.get(threadName)) .terminate(waitFor); this.workerThreads.remove(threadName); } } public void intermissionAllThreads(final long pause) { final Iterator<String> e = this.workerThreads.keySet().iterator(); while (e.hasNext()) { this.workerThreads.get(e.next()).intermission(pause); } } public synchronized void terminateAllThreads(final boolean waitFor) { Iterator<String> e = this.workerThreads.keySet().iterator(); while (e.hasNext()) { ((WorkflowThread) this.workerThreads.get(e.next())) .terminate(false); } if (waitFor) { e = this.workerThreads.keySet().iterator(); while (e.hasNext()) { ((WorkflowThread) this.workerThreads.get(e.next())) .terminate(true); e.remove(); } } } public Iterator<String> /* of serverThread-Names (String) */threadNames() { return this.workerThreads.keySet().iterator(); } public File getDataPath() { return this.dataPath; } public File getAppPath() { return this.appPath; } @Override public String toString() { return this.configProps.toString(); } public void handleBusyState(final int jobs) { this.serverJobs = jobs; } /** * Retrieve text data (e. g. config file) from file file may be an url or a * filename with path relative to rootPath parameter * * @param file * url or filename * @param rootPath * searchpath for file * @param file * file to use when remote fetching fails (null if unused) */ public Reader getConfigFileFromWebOrLocally(final String uri, final String rootPath, final File file) throws IOException, FileNotFoundException { if (uri.startsWith("http://") || uri.startsWith("https://")) { final String[] uris = CommonPattern.COMMA.split(uri); for (String netdef : uris) { netdef = netdef.trim(); try { final RequestHeader reqHeader = new RequestHeader(); reqHeader .put(HeaderFramework.USER_AGENT, ClientIdentification.yacyInternetCrawlerAgent.userAgent); final HTTPClient client = new HTTPClient( ClientIdentification.yacyInternetCrawlerAgent); client.setHeader(reqHeader.entrySet()); byte[] data = client .GETbytes( uri, getConfig( SwitchboardConstants.ADMIN_ACCOUNT_USER_NAME, "admin"), getConfig( SwitchboardConstants.ADMIN_ACCOUNT_B64MD5, ""), false); if (data == null || data.length == 0) { continue; } // save locally in case next fetch fails if (file != null) { FileOutputStream f = new FileOutputStream(file); f.write(data); f.close(); } return new InputStreamReader(new BufferedInputStream( new ByteArrayInputStream(data))); } catch (final Exception e) { continue; } } if (file != null && file.exists()) { return new FileReader(file); } throw new FileNotFoundException(); } final File f = (uri.length() > 0 && uri.startsWith("/")) ? new File(uri) : new File(rootPath, uri); if (f.exists()) return new FileReader(f); throw new FileNotFoundException(f.toString()); } private static Random pwGenerator = new Random(); /** * Generates a random password. * * @return random password which is 20 characters long. */ public String genRandomPassword() { return genRandomPassword(20); } /** * Generates a random password of a given length. * * @param length * length o password * @return password of given length */ public String genRandomPassword(final int length) { byte[] bytes = new byte[length]; pwGenerator.nextBytes(bytes); return Digest.encodeMD5Hex(bytes); } /** * set/remember jetty server * * @param jettyserver */ public void setHttpServer(YaCyHttpServer jettyserver) { this.httpserver = jettyserver; } public YaCyHttpServer getHttpServer() { return httpserver; } }