// yacySeed.java // ------------------------------------- // (C) by Michael Peter Christen; mc@anomic.de // first published on http://www.anomic.de // Frankfurt, Germany, 2004 // // $LastChangedDate$ // $LastChangedRevision$ // $LastChangedBy$ // // 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 // // Using this software in any meaning (reading, learning, copying, compiling, // running) means that you agree that the Author(s) is (are) not responsible // for cost, loss of data or any harm that may be caused directly or indirectly // by usage of this softare or this documentation. The usage of this software // is on your own risk. The installation and usage (starting/running) of this // software may allow other people or application to access your computer and // any attached devices and is highly dependent on the configuration of the // software which must be done by the user of the software; the author(s) is // (are) also not responsible for proper configuration and usage of the // software, even if provoked by documentation provided together with // the software. // // Any changes to this file according to the GPL as documented in the file // gpl.txt aside this file in the shipment you received can be done to the // lines that follows this copyright notice here, but changes must not be // done inside the copyright notive above. A re-distribution must contain // the intact and unchanged copyright notice. // Contributions and changes to the program code must be marked as such. // // // YACY stands for Yet Another CYberspace // // the yacySeed Object is the object that bundles and carries all information about // a single peer in the yacy space. // The yacySeed object is carried along peers using a string representation, that can // be compressed and/or scrambled, depending on the purpose of the process. // // the yacy status // any value that is defined here will be overwritten each time the proxy is started // to prevent that the system gets confused, it should be set to "" which means // undefined. Other status' that can be reached at run-time are // junior - a peer that has no public socket, thus cannot be reached on demand // senior - a peer that has a public socked and serves search queries // principal - a peer like a senior socket and serves as gateway for network definition package de.anomic.yacy; import java.io.File; import java.io.FileReader; import java.io.FileWriter; import java.io.IOException; import java.net.InetAddress; import java.util.Collections; import java.util.Date; import java.util.HashMap; import java.util.Map; import java.util.Properties; import java.util.Set; import de.anomic.kelondro.kelondroBase64Order; import de.anomic.net.natLib; import de.anomic.plasma.plasmaSwitchboard; import de.anomic.server.serverCodings; import de.anomic.server.serverCore; import de.anomic.server.serverDate; import de.anomic.server.serverSystem; import de.anomic.tools.bitfield; import de.anomic.tools.crypt; public class yacySeed { /** * substance "sI" (send index/words) */ public static final String INDEX_OUT = "sI"; /** * substance "rI" (received index/words) */ public static final String INDEX_IN = "rI"; /** * substance "sU" (send URLs) */ public static final String URL_OUT = "sU"; /** * substance "rU" (received URLs) */ public static final String URL_IN = "rU"; /** * substance "virgin" */ public static final String PEERTYPE_VIRGIN = "virgin"; /** * substance "junior" */ public static final String PEERTYPE_JUNIOR = "junior"; /** * substance "senior" */ public static final String PEERTYPE_SENIOR = "senior"; /** * substance "principal" */ public static final String PEERTYPE_PRINCIPAL = "principal"; /** * substance "PeerType" */ public static final String PEERTYPE = "PeerType"; /** static/dynamic (if the IP changes often for any reason) */ public static final String IPTYPE = "IPType"; public static final String FLAGS = "Flags"; public static final String FLAGSZERO = "____"; /** the applications version */ public static final String VERSION = "Version"; public static final String YOURTYPE = "yourtype"; public static final String LASTSEEN = "LastSeen"; public static final String USPEED = "USpeed"; /** the name of the peer (user-set) */ public static final String NAME = "Name"; public static final String HASH = "Hash"; /** Birthday - first startup */ public static final String BDATE = "BDate"; /** UTC-Offset */ public static final String UTC = "UTC"; public static final String PEERTAGS = "Tags"; /** the speed of indexing (pages/minute) of the peer */ public static final String ISPEED = "ISpeed"; /** the speed of retrieval (queries/minute) of the peer */ public static final String RSPEED = "RSpeed"; /** the number of minutes that the peer is up in minutes/day (moving average MA30) */ public static final String UPTIME = "Uptime"; /** the number of links that the peer has stored (LURL's) */ public static final String LCOUNT = "LCount"; /** the number of links that the peer has noticed, but not loaded (NURL's) */ public static final String NCOUNT = "NCount"; /** the number of words the peer has indexed (as it says) */ public static final String ICOUNT = "ICount"; /** the number of seeds that the peer has stored */ public static final String SCOUNT = "SCount"; /** the number of clients that the peer connects (connects/hour) */ public static final String CCOUNT = "CCount"; /** Citation Rank (Own) - Count */ public static final String CRWCNT = "CRWCnt"; /** Citation Rank (Other) - Count */ public static final String CRTCNT = "CRTCnt"; public static final String IP = "IP"; public static final String PORT = "Port"; /** zero-value */ public static final String ZERO = "0"; // class variables /** the peer-hash */ public String hash; /** a set of identity founding values, eg. IP, name of the peer, YaCy-version, ...*/ private final Map dna; public int available; public int selectscore = -1; // only for debugging public yacySeed(String theHash, Map theDna) { // create a seed with a pre-defined hash map this.hash = theHash; this.dna = theDna; final String flags = (String) this.dna.get(yacySeed.FLAGS); if ((flags == null) || (flags.length() != 4)) { this.dna.put(yacySeed.FLAGS, yacySeed.FLAGSZERO); } this.available = 0; } public yacySeed(String theHash) { this.dna = Collections.synchronizedMap(new HashMap()); // settings that can only be computed by originating peer: // at first startup - this.hash = theHash; // the hash key of the peer - very important. should be static somehow, even after restart this.dna.put(yacySeed.NAME, "∅"); this.dna.put(yacySeed.BDATE, "∅"); this.dna.put(yacySeed.UTC, "+0000"); // later during operation - this.dna.put(yacySeed.ISPEED, yacySeed.ZERO); this.dna.put(yacySeed.RSPEED, yacySeed.ZERO); this.dna.put(yacySeed.UPTIME, yacySeed.ZERO); this.dna.put(yacySeed.LCOUNT, yacySeed.ZERO); this.dna.put(yacySeed.NCOUNT, yacySeed.ZERO); this.dna.put(yacySeed.ICOUNT, yacySeed.ZERO); this.dna.put(yacySeed.SCOUNT, yacySeed.ZERO); this.dna.put(yacySeed.CCOUNT, yacySeed.ZERO); this.dna.put(yacySeed.VERSION, yacySeed.ZERO); // settings that is created during the 'hello' phase - in first contact this.dna.put(yacySeed.IP, ""); // 123.234.345.456 this.dna.put(yacySeed.PORT, "∅"); this.dna.put(yacySeed.PEERTYPE, yacySeed.PEERTYPE_VIRGIN); // virgin/junior/senior/principal this.dna.put(yacySeed.IPTYPE, "∅"); // settings that can only be computed by visiting peer this.dna.put(yacySeed.LASTSEEN, yacyCore.universalDateShortString(new Date())); // for last-seen date this.dna.put(yacySeed.USPEED, yacySeed.ZERO); // the computated uplink speed of the peer this.dna.put(yacySeed.CRWCNT, yacySeed.ZERO); this.dna.put(yacySeed.CRTCNT, yacySeed.ZERO); // settings that are needed to organize the seed round-trip this.dna.put(yacySeed.FLAGS, yacySeed.FLAGSZERO); setFlagDirectConnect(false); setFlagAcceptRemoteCrawl(true); setFlagAcceptRemoteIndex(true); setFlagAcceptCitationReference(true); setUnusedFlags(); // index transfer this.dna.put(yacySeed.INDEX_OUT, yacySeed.ZERO); // send index this.dna.put(yacySeed.INDEX_IN, yacySeed.ZERO); // received index this.dna.put(yacySeed.URL_OUT, yacySeed.ZERO); // send URLs this.dna.put(yacySeed.URL_IN, yacySeed.ZERO); // received URLs this.available = 0; } /** generate a default peer name */ public static String makeDefaultPeerName() { String name = serverCore.publicIP() + "-" + yacyCore.speedKey + "dpn" + serverSystem.infoKey() + (System.currentTimeMillis() & 99); name = name.replace('.', '-'); name = name.replace('_', '-'); return name; } public static boolean isDefaultPeerName(String name) { return name != null && name.length() > 10 && name.charAt(0) <= '9' && name.charAt(name.length() - 1) <= '9' && name.indexOf("dpn") > 0; } /** * try to get the IP
* @return the IP or null */ public final String getIP() { return get(yacySeed.IP, ""); } /** * try to get the peertype
* @return the peertype or null */ public final String getPeerType() { return get(yacySeed.PEERTYPE, ""); } /** * try to get the peertype
* @return the peertype or "Virgin" */ public final String orVirgin() { return get(yacySeed.PEERTYPE, yacySeed.PEERTYPE_VIRGIN); } /** * try to get the peertype
* @return the peertype or "junior" */ public final String orJunior() { return get(yacySeed.PEERTYPE, yacySeed.PEERTYPE_JUNIOR); } /** * try to get the peertype
* @return the peertype or "senior" */ public final String orSenior() { return get(yacySeed.PEERTYPE, yacySeed.PEERTYPE_SENIOR); } /** * try to get the peertype
* @return the peertype or "principal" */ public final String orPrincipal() { return get(yacySeed.PEERTYPE, yacySeed.PEERTYPE_PRINCIPAL); } /** * Get a value from the peer's DNA (its set of peer defining values, e.g. IP, name, version, ...) * @param key the key for the value to fetch * @param dflt the default value */ public final String get(String key, String dflt) { final Object o = this.dna.get(key); if (o == null) { return dflt; } return (String) o; } public final void setIP() { dna.put(yacySeed.IP, ""); } public final void setIP(final String ip) { dna.put(yacySeed.IP, ip); } public final void setPort(final String port) { dna.put(yacySeed.PORT, port); } public final void setJunior() { dna.put(yacySeed.PEERTYPE, yacySeed.PEERTYPE_JUNIOR); } public final void setSenior() { dna.put(yacySeed.PEERTYPE, yacySeed.PEERTYPE_SENIOR); } public final void setPrincipal() { dna.put(yacySeed.PEERTYPE, yacySeed.PEERTYPE_PRINCIPAL); } public final void put(String key, String value) { synchronized (this.dna) { this.dna.put(key, value); } } /** return the DNA-map of this peer */ public final Map getMap() { return this.dna; } public final String getName() { return get(yacySeed.NAME, "∅"); } public final String getHexHash() { return b64Hash2hexHash(this.hash); } public final void incSI(int count) { String v = (String) this.dna.get(yacySeed.INDEX_OUT); if (v == null) { v = yacySeed.ZERO; } dna.put(yacySeed.INDEX_OUT, Integer.toString(Integer.parseInt(v) + count)); } public final void incRI(int count) { String v = (String) this.dna.get(yacySeed.INDEX_IN); if (v == null) { v = yacySeed.ZERO; } dna.put(yacySeed.INDEX_IN, Integer.toString(Integer.parseInt(v) + count)); } public final void incSU(int count) { String v = (String) this.dna.get(yacySeed.URL_OUT); if (v == null) { v = yacySeed.ZERO; } dna.put(yacySeed.URL_OUT, Integer.toString(Integer.parseInt(v) + count)); } public final void incRU(int count) { String v = (String) this.dna.get(yacySeed.URL_IN); if (v == null) { v = yacySeed.ZERO; } dna.put(yacySeed.URL_IN, Integer.toString(Integer.parseInt(v) + count)); } // 12 * 6 bit = 72 bit = 24 characters octal-hash // octal hashes are used for cache-dumps that are DHT-ready // cause: the natural order of octal hashes are the same as the b64-order of b64Hashes // a hexhash cannot be used in such cases, and b64Hashes are not appropriate for file names public static String b64Hash2octalHash(String b64Hash) { return serverCodings.encodeOctal(kelondroBase64Order.enhancedCoder.decode(b64Hash)); } // 12 * 6 bit = 72 bit = 18 characters hex-hash public static String b64Hash2hexHash(String b64Hash) { // the hash string represents 12 * 6 bit = 72 bits. This is too much for a long integer. return serverCodings.encodeHex(kelondroBase64Order.enhancedCoder.decode(b64Hash)); } public static String hexHash2b64Hash(String hexHash) { return kelondroBase64Order.enhancedCoder.encode(serverCodings.decodeHex(hexHash)); } // 12 * 6 bit = 72 bit = 9 byte public static byte[] b64Hash2b256Hash(String b64Hash) { assert b64Hash.length() == 12; return kelondroBase64Order.enhancedCoder.decode(b64Hash); } public static String b256Hash2b64Hash(byte[] b256Hash) { assert b256Hash.length == 9; return kelondroBase64Order.enhancedCoder.encode(b256Hash); } public final float getVersion() { try { return Float.parseFloat(get(yacySeed.VERSION, yacySeed.ZERO)); } catch (NumberFormatException e) { return 0; } } public final String getAddress() { // returns an ip:port string String ip = (String) this.dna.get(yacySeed.IP); if (ip == null) { return null; } if (ip.length() < 8) { return null; } // 10.0.0.0 // if (ip.equals(yacyCore.seedDB.mySeed.dna.get(yacySeed.IP))) ip = "127.0.0.1"; // if (this.hash.equals("xxxxxxxxxxxx")) return "192.168.100.1:3300"; final String port = (String) this.dna.get(yacySeed.PORT); if (port == null) { return null; } if (port.length() < 2) { return null; } return ip + ":" + port; } public final InetAddress getInetAddress() { // returns the ip address return natLib.getInetAddress((String) this.dna.get(yacySeed.IP)); } /** Get the portnumber of this seed */ public final int getPort() { final String port = (String) this.dna.get(yacySeed.PORT); if (port == null) return -1; /*if (port.length() < 2) return -1; It is possible to use port 0-9*/ return Integer.parseInt(port); } public final long getUTCDiff() { String utc = (String) this.dna.get(yacySeed.UTC); if (utc == null) { utc = "+0130"; } try { return serverDate.UTCDiff(utc); } catch (RuntimeException e) { return 0; } } public final void setLastSeenUTC() { // we put the current time into the lastseen field // because java thinks it must apply the UTC offset to the current time, // to create a string that looks like our current time, it adds the local UTC offset to the // time. To create a corrected UTC Date string, we first subtract the local UTC offset. dna.put(yacySeed.LASTSEEN, yacyCore.universalDateShortString(new Date(System.currentTimeMillis() - serverDate.UTCDiff())) ); } public final long getLastSeenUTC() { try { final long t = yacyCore.parseUniversalDate(get(yacySeed.LASTSEEN, "20040101000000")).getTime(); // getTime creates a UTC time number. But in this case java thinks, that the given // time string is a local time, which has a local UTC offset applied. // Therefore java subtracts the local UTC offset, to get a UTC number. // But the given time string is already in UTC time, so the subtraction // of the local UTC offset is wrong. We correct this here by adding the local UTC // offset again. return t + serverDate.UTCDiff(); } catch (java.text.ParseException e) { return System.currentTimeMillis(); } catch (java.lang.NumberFormatException e) { return System.currentTimeMillis(); } } public final String getLastSeenString() { return get(yacySeed.LASTSEEN, "20040101000000"); } /** returns the age of the seed in number of days */ public final int getAge() { try { final long t = yacyCore.parseUniversalDate(get(yacySeed.BDATE, "20040101000000")).getTime(); return (int) ((System.currentTimeMillis() - (t - getUTCDiff() + serverDate.UTCDiff())) / 1000 / 60 / 60 / 24); } catch (java.text.ParseException e) { return -1; } catch (java.lang.NumberFormatException e) { return -1; } } public void setPeerTags(Set keys) { dna.put(PEERTAGS, serverCodings.set2string(keys, "|", false)); } public Set getPeerTags() { return serverCodings.string2set(get(PEERTAGS, ""), "|"); } public int getPPM() { try { return Integer.parseInt(get(yacySeed.ISPEED, yacySeed.ZERO)); } catch (NumberFormatException e) { return 0; } } public double getQPM() { try { return Double.parseDouble(get(yacySeed.RSPEED, yacySeed.ZERO)); } catch (NumberFormatException e) { return 0d; } } public final long getLinkCount() { try { return Long.parseLong(get(yacySeed.LCOUNT, yacySeed.ZERO)); } catch (NumberFormatException e) { return 0; } } private boolean getFlag(int flag) { final String flags = get(yacySeed.FLAGS, yacySeed.FLAGSZERO); return (new bitfield(flags.getBytes())).get(flag); } private void setFlag(int flag, boolean value) { String flags = get(yacySeed.FLAGS, yacySeed.FLAGSZERO); if (flags.length() != 4) { flags = yacySeed.FLAGSZERO; } final bitfield f = new bitfield(flags.getBytes()); f.set(flag, value); dna.put(yacySeed.FLAGS, new String(f.getBytes())); } public final void setFlagDirectConnect(final boolean value) { setFlag(0, value); } public final void setFlagAcceptRemoteCrawl(final boolean value) { setFlag(1, value); } public final void setFlagAcceptRemoteIndex(final boolean value) { setFlag(2, value); } public final void setFlagAcceptCitationReference(final boolean value) { setFlag(3, value); } public final boolean getFlagDirectConnect() { return getFlag(0); } public final boolean getFlagAcceptRemoteCrawl() { //if (getVersion() < 0.300) return false; //if (getVersion() < 0.334) return true; return getFlag(1); } public final boolean getFlagAcceptRemoteIndex() { //if (getVersion() < 0.335) return false; return getFlag(2); } public final boolean getFlagAcceptCitationReference() { return getFlag(3); } public final void setUnusedFlags() { for (int i = 4; i < 24; i++) { setFlag(i, true); } } public final boolean isPotential() { return isVirgin() || isJunior(); } public final boolean isVirgin() { return get(yacySeed.PEERTYPE, "").equals(yacySeed.PEERTYPE_VIRGIN); } public final boolean isJunior() { return get(yacySeed.PEERTYPE, "").equals(yacySeed.PEERTYPE_JUNIOR); } public final boolean isActive() { return isSenior() || isPrincipal(); } public final boolean isSenior() { return get(yacySeed.PEERTYPE, "").equals(yacySeed.PEERTYPE_SENIOR); } public final boolean isPrincipal() { return get(yacySeed.PEERTYPE, "").equals(yacySeed.PEERTYPE_PRINCIPAL); } public final boolean isOnline() { return isSenior() || isPrincipal(); } public final boolean isOnline(final String type) { return type.equals(yacySeed.PEERTYPE_SENIOR) || type.equals(yacySeed.PEERTYPE_PRINCIPAL); } public static final long minDHTNumber = kelondroBase64Order.enhancedCoder.cardinal("AAAAAAAAAAAA".getBytes()); public static final long maxDHTDistance = Long.MAX_VALUE; public final long dhtDistance(String wordhash) { // computes a virtual distance, the result must be set in relation to maxDHTDistace // if the distance is small, this peer is more responsible for that word hash // if the distance is big, this peer is less responsible for that word hash final long myPos = dhtPosition(this.hash); final long wordPos = dhtPosition(wordhash); return (myPos > wordPos) ? (myPos - wordPos) : (yacySeed.maxDHTDistance - wordPos + myPos); } public final long dhtPosition() { // returns an absolute value return dhtPosition(this.hash); } public static long dhtPosition(String ahash) { // returns an absolute value return kelondroBase64Order.enhancedCoder.cardinal(ahash.getBytes()); } public static yacySeed genLocalSeed(plasmaSwitchboard sb) { // genera a seed for the local peer // this is the birthplace of a seed, that then will start to travel to other peers // at first we need a good peer hash // that hash should be as static as possible, so that it depends mainly on system // variables and can even then be reconstructed if the local seed has disappeared final Properties sp = System.getProperties(); final String slow = sp.getProperty("file.encoding", "") + sp.getProperty("file.separator", "") + sp.getProperty("java.class.path", "") + sp.getProperty("java.vendor", "") + sp.getProperty("os.arch", "") + sp.getProperty("os.name", "") + sp.getProperty("path.separator", "") + sp.getProperty("user.dir", "") + sp.getProperty("user.home", "") + sp.getProperty("user.language", "") + sp.getProperty("user.name", "") + sp.getProperty("user.timezone", ""); final String medium = sp.getProperty("java.class.version", "") + sp.getProperty("java.version", "") + sp.getProperty("os.version", "") + sb.getConfig("peerName", "noname"); final String fast = Long.toString(System.currentTimeMillis()); // the resultinh hash does not have any information than can be used to reconstruct the // original system information that has been collected here to create the hash // We simply distinuguish three parts of the hash: slow, medium and fast changing character of system idenfification // the Hash is constructed in such a way, that the slow part influences the main aerea of the distributed hash location // more than the fast part. The effect is, that if the peer looses it's seed information and is reconstructed, it // still hosts most information of the distributed hash the an appropriate 'position' final String hash = kelondroBase64Order.enhancedCoder.encode(serverCodings.encodeMD5Raw(slow)).substring(0, 4) + kelondroBase64Order.enhancedCoder.encode(serverCodings.encodeMD5Raw(medium)).substring(0, 4) + kelondroBase64Order.enhancedCoder.encode(serverCodings.encodeMD5Raw(fast)).substring(0, 4); yacyCore.log.logInfo("init: OWN SEED = " + hash); if (hash.length() != yacySeedDB.commonHashLength) { yacyCore.log.logSevere("YACY Internal error: distributed hash conceptual error"); System.exit(-1); } final yacySeed newSeed = new yacySeed(hash); // now calculate other information about the host newSeed.dna.put(yacySeed.NAME, sb.getConfig("peerName", "unnamed")); if ((serverCore.portForwardingEnabled) && (serverCore.portForwarding != null)) { newSeed.dna.put(yacySeed.PORT, Integer.toString(serverCore.portForwarding.getPort())); } else { newSeed.dna.put(yacySeed.PORT, Integer.toString(serverCore.getPortNr(sb.getConfig("port", "8080")))); } newSeed.dna.put(yacySeed.BDATE, yacyCore.universalDateShortString(new Date())); newSeed.dna.put(yacySeed.LASTSEEN, newSeed.dna.get(yacySeed.BDATE)); // just as initial setting newSeed.dna.put(yacySeed.UTC, serverDate.UTCDiffString()); newSeed.dna.put(yacySeed.PEERTYPE, yacySeed.PEERTYPE_VIRGIN); return newSeed; } //public static String randomHash() { return "zLXFf5lTteUv"; } // only for debugging public static String randomHash() { final String hash = kelondroBase64Order.enhancedCoder.encode(serverCodings.encodeMD5Raw(System.currentTimeMillis() + "a")).substring(0, 6) + kelondroBase64Order.enhancedCoder.encode(serverCodings.encodeMD5Raw(System.currentTimeMillis() + "b")).substring(0, 6); return hash; } public static yacySeed genRemoteSeed(String seedStr, String key, boolean properTest) { // this method is used to convert the external representation of a seed into a seed object // yacyCore.log.logFinest("genRemoteSeed: seedStr=" + seedStr + " key=" + key); if (seedStr == null) { return null; } final String seed = crypt.simpleDecode(seedStr, key); if (seed == null) { return null; } final Map dna = serverCodings.string2map(seed, ","); final String hash = (String) dna.remove(yacySeed.HASH); final yacySeed resultSeed = new yacySeed(hash, dna); if (properTest) { final String testResult = resultSeed.isProper(); if (testResult != null) { yacyCore.log.logFinest("seed is not proper (" + testResult + "): " + resultSeed); return null; } } return resultSeed; } public final String toString() { synchronized (this.dna) { this.dna.put(yacySeed.HASH, this.hash); // set hash into seed code structure final String s = serverCodings.map2string(this.dna, ",", true); // generate string representation this.dna.remove(yacySeed.HASH); // reconstruct original: hash is stored external return s; } } public final String genSeedStr(String key) { // use a default encoding return this.genSeedStr('b', key); } public final synchronized String genSeedStr(char method, String key) { return crypt.simpleEncode(this.toString(), key, method); } public final boolean isPeerOK() { return this.hash != null && this.isProper() == null; } public final String isProper() { // checks if everything is ok with that seed if (this.hash == null) { return "hash is null"; } if (this.hash.length() != yacySeedDB.commonHashLength) { return "wrong hash length (" + this.hash.length() + ")"; } final String ip = (String) this.dna.get(yacySeed.IP); if (ip == null) { return "IP is null"; } if (ip.length() < 8) { return "IP is too short: " + ip; } if (!natLib.isProper(ip)) { return "IP is not proper: " + ip; } //this does not work with staticIP return null; } public final void save(File f) throws IOException { final String out = this.genSeedStr('p', null); final FileWriter fw = new FileWriter(f); fw.write(out, 0, out.length()); fw.close(); } public static yacySeed load(File f) throws IOException { final FileReader fr = new FileReader(f); final char[] b = new char[(int) f.length()]; fr.read(b, 0, b.length); fr.close(); return genRemoteSeed(new String(b), null, false); } public final Object clone() { synchronized (this.dna) { return new yacySeed(this.hash, (HashMap) (new HashMap(this.dna)).clone()); } } }