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/*
 * 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
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package org.apache.catalina.util;

import java.net.InetAddress;
import java.net.UnknownHostException;
import java.util.regex.Pattern;
import java.util.regex.PatternSyntaxException;

import org.apache.tomcat.util.res.StringManager;

/**
 * A class representing a CIDR netmask.
 *
 * 

* The constructor takes a string as an argument which represents a netmask, as * per the CIDR notation -- whether this netmask be IPv4 or IPv6. It then * extracts the network address (before the /) and the CIDR prefix (after the * /), and tells through the #matches() method whether a candidate * {@link InetAddress} object fits in the recorded range. *

* *

* As byte arrays as returned by InetAddress.getByName() are always * in network byte order, finding a match is therefore as simple as testing * whether the n first bits (where n is the CIDR) are the same in both byte * arrays (the one of the network address and the one of the candidate address). * We do that by first doing byte comparisons, then testing the last bits if any * (that is, if the remainder of the integer division of the CIDR by 8 is not * 0). *

* *

* As a bonus, if no '/' is found in the input, it is assumed that an exact * address match is required. *

*/ public final class NetMask { private static final StringManager sm = StringManager.getManager(NetMask.class); /** * The argument to the constructor, used for .toString() */ private final String expression; /** * The byte array representing the address extracted from the expression */ private final byte[] netaddr; /** * The number of bytes to test for equality (CIDR / 8) */ private final int nrBytes; /** * The right shift to apply to the last byte if CIDR % 8 is not 0; if it is * 0, this variable is set to 0 */ private final int lastByteShift; /** * Should we use the port pattern when matching */ private final boolean foundPort; /** * The regular expression used to test for the server port (optional). */ private final Pattern portPattern; /** * Constructor * * @param input the CIDR netmask * @throws IllegalArgumentException if the netmask is not correct (invalid * address specification, malformed CIDR prefix, etc) */ public NetMask(final String input) { expression = input; final int portIdx = input.indexOf(';'); final String nonPortPart; if (portIdx == -1) { foundPort = false; nonPortPart = input; portPattern = null; } else { foundPort = true; nonPortPart = input.substring(0, portIdx); try { portPattern = Pattern.compile(input.substring(portIdx + 1)); } catch (PatternSyntaxException e) { /* * In case of error never match any non-empty port given */ throw new IllegalArgumentException(sm.getString("netmask.invalidPort", input), e); } } final int idx = nonPortPart.indexOf('/'); /* * Handle the "IP only" case first */ if (idx == -1) { try { netaddr = InetAddress.getByName(nonPortPart).getAddress(); } catch (UnknownHostException e) { throw new IllegalArgumentException(sm.getString("netmask.invalidAddress", nonPortPart)); } nrBytes = netaddr.length; lastByteShift = 0; return; } /* * OK, we do have a netmask specified, so let's extract both the address * and the CIDR. */ final String addressPart = nonPortPart.substring(0, idx), cidrPart = nonPortPart.substring(idx + 1); try { /* * The address first... */ netaddr = InetAddress.getByName(addressPart).getAddress(); } catch (UnknownHostException e) { throw new IllegalArgumentException(sm.getString("netmask.invalidAddress", addressPart)); } final int addrlen = netaddr.length * 8; final int cidr; try { /* * And then the CIDR. */ cidr = Integer.parseInt(cidrPart); } catch (NumberFormatException e) { throw new IllegalArgumentException(sm.getString("netmask.cidrNotNumeric", cidrPart)); } /* * We don't want a negative CIDR, nor do we want a CIDR which is greater * than the address length (consider 0.0.0.0/33, or ::/129) */ if (cidr < 0) { throw new IllegalArgumentException(sm.getString("netmask.cidrNegative", cidrPart)); } if (cidr > addrlen) { throw new IllegalArgumentException( sm.getString("netmask.cidrTooBig", cidrPart, Integer.valueOf(addrlen))); } nrBytes = cidr / 8; /* * These last two lines could be shortened to: * * lastByteShift = (8 - (cidr % 8)) & 7; * * But... It's not worth it. In fact, explaining why it could work would * be too long to be worth the trouble, so let's do it the simple way... */ final int remainder = cidr % 8; lastByteShift = (remainder == 0) ? 0 : 8 - remainder; } /** * Test if a given address and port matches this netmask. * * @param addr The {@link InetAddress} to test * @param port The port to test * @return true on match, false otherwise */ public boolean matches(final InetAddress addr, int port) { if (!foundPort) { return false; } final String portString = Integer.toString(port); if (!portPattern.matcher(portString).matches()) { return false; } return matches(addr, true); } /** * Test if a given address matches this netmask. * * @param addr The {@link InetAddress} to test * @return true on match, false otherwise */ public boolean matches(final InetAddress addr) { return matches(addr, false); } /** * Test if a given address matches this netmask. * * @param addr The {@link InetAddress} to test * @param checkedPort Indicates, whether we already checked the port * @return true on match, false otherwise */ public boolean matches(final InetAddress addr, boolean checkedPort) { if (!checkedPort && foundPort) { return false; } final byte[] candidate = addr.getAddress(); /* * OK, remember that a CIDR prefix tells the number of BITS which should * be equal between this NetMask's recorded address (netaddr) and the * candidate address. One byte is 8 bits, no matter what, and IP * addresses, whether they be IPv4 or IPv6, are big endian, aka MSB, * Most Significant Byte (first). * * We therefore need to get the byte array of the candidate address, * compare as many bytes of the candidate address with the recorded * address as the CIDR prefix tells us to (that is, CIDR / 8), and then * deal with the remaining bits -- if any. * * But prior to that, a simple test can be done: we deal with IP * addresses here, which means IPv4 and IPv6. IPv4 addresses are encoded * on 4 bytes, IPv6 addresses are encoded on 16 bytes. If the candidate * address length is different than this NetMask's address, we don't * have a match. */ if (candidate.length != netaddr.length) { return false; } /* * Now do the byte-compare. The constructor has recorded the number of * bytes to compare in nrBytes, use that. If any of the byte we have to * compare is different than what we expect, we don't have a match. * * If, on the opposite, after this loop, all bytes have been deemed * equal, then the loop variable i will point to the byte right after * that -- which we will need... */ int i = 0; for (; i < nrBytes; i++) { if (netaddr[i] != candidate[i]) { return false; } } /* * ... if there are bits left to test. There aren't any if lastByteShift * is set to 0. */ if (lastByteShift == 0) { return true; } /* * If it is not 0, however, we must test for the relevant bits in the * next byte (whatever is in the bytes after that doesn't matter). We do * it this way (remember that lastByteShift contains the amount of bits * we should _right_ shift the last byte): * * - grab both bytes at index i, both from the netmask address and the * candidate address; - xor them both. * * After the xor, it means that all the remaining bits of the CIDR * should be set to 0... */ final int lastByte = netaddr[i] ^ candidate[i]; /* * ... Which means that right shifting by lastByteShift should be 0. */ return lastByte >> lastByteShift == 0; } @Override public String toString() { return expression; } }




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