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package com.github.kristofa.brave.internal;

import java.net.InetAddress;
import java.nio.ByteBuffer;

/** Utilities for working with IP Addresses. */
public final class InetAddresses {

  //** Start code from Guava v20 **//
  private static final int IPV4_PART_COUNT = 4;
  private static final int IPV6_PART_COUNT = 8;

  /**
   * Returns the {@link InetAddress#getAddress()} having the given string representation or null if
   * unable to parse.
   *
   * 

This deliberately avoids all nameservice lookups (e.g. no DNS). * *

This is the same as com.google.common.net.InetAddresses.ipStringToBytes(), except internally * Splitter isn't used (as that would introduce more dependencies). * * @param ipString {@code String} containing an IPv4 or IPv6 string literal, e.g. {@code * "192.168.0.1"} or {@code "2001:db8::1"} */ @Nullable public static byte[] ipStringToBytes(String ipString) { // PATCHED! adding null/empty escape if (ipString == null || ipString.isEmpty()) return null; // Make a first pass to categorize the characters in this string. boolean hasColon = false; boolean hasDot = false; for (int i = 0; i < ipString.length(); i++) { char c = ipString.charAt(i); if (c == '.') { hasDot = true; } else if (c == ':') { if (hasDot) { return null; // Colons must not appear after dots. } hasColon = true; } else if (Character.digit(c, 16) == -1) { return null; // Everything else must be a decimal or hex digit. } } // Now decide which address family to parse. if (hasColon) { if (hasDot) { ipString = convertDottedQuadToHex(ipString); if (ipString == null) { return null; } } return textToNumericFormatV6(ipString); } else if (hasDot) { return textToNumericFormatV4(ipString); } return null; } @Nullable private static byte[] textToNumericFormatV4(String ipString) { byte[] bytes = new byte[IPV4_PART_COUNT]; int i = 0; try { // PATCHED! for (String octet : IPV4_SPLITTER.split(ipString)) { for (String octet : ipString.split("\\.", 5)) { bytes[i++] = parseOctet(octet); } } catch (NumberFormatException ex) { return null; } return i == IPV4_PART_COUNT ? bytes : null; } @Nullable private static byte[] textToNumericFormatV6(String ipString) { // An address can have [2..8] colons, and N colons make N+1 parts. String[] parts = ipString.split(":", IPV6_PART_COUNT + 2); if (parts.length < 3 || parts.length > IPV6_PART_COUNT + 1) { return null; } // Disregarding the endpoints, find "::" with nothing in between. // This indicates that a run of zeroes has been skipped. int skipIndex = -1; for (int i = 1; i < parts.length - 1; i++) { if (parts[i].length() == 0) { if (skipIndex >= 0) { return null; // Can't have more than one :: } skipIndex = i; } } int partsHi; // Number of parts to copy from above/before the "::" int partsLo; // Number of parts to copy from below/after the "::" if (skipIndex >= 0) { // If we found a "::", then check if it also covers the endpoints. partsHi = skipIndex; partsLo = parts.length - skipIndex - 1; if (parts[0].length() == 0 && --partsHi != 0) { return null; // ^: requires ^:: } if (parts[parts.length - 1].length() == 0 && --partsLo != 0) { return null; // :$ requires ::$ } } else { // Otherwise, allocate the entire address to partsHi. The endpoints // could still be empty, but parseHextet() will check for that. partsHi = parts.length; partsLo = 0; } // If we found a ::, then we must have skipped at least one part. // Otherwise, we must have exactly the right number of parts. int partsSkipped = IPV6_PART_COUNT - (partsHi + partsLo); if (!(skipIndex >= 0 ? partsSkipped >= 1 : partsSkipped == 0)) { return null; } // Now parse the hextets into a byte array. ByteBuffer rawBytes = ByteBuffer.allocate(2 * IPV6_PART_COUNT); try { for (int i = 0; i < partsHi; i++) { rawBytes.putShort(parseHextet(parts[i])); } for (int i = 0; i < partsSkipped; i++) { rawBytes.putShort((short) 0); } for (int i = partsLo; i > 0; i--) { rawBytes.putShort(parseHextet(parts[parts.length - i])); } } catch (NumberFormatException ex) { return null; } return rawBytes.array(); } @Nullable private static String convertDottedQuadToHex(String ipString) { int lastColon = ipString.lastIndexOf(':'); String initialPart = ipString.substring(0, lastColon + 1); String dottedQuad = ipString.substring(lastColon + 1); byte[] quad = textToNumericFormatV4(dottedQuad); if (quad == null) { return null; } String penultimate = Integer.toHexString(((quad[0] & 0xff) << 8) | (quad[1] & 0xff)); String ultimate = Integer.toHexString(((quad[2] & 0xff) << 8) | (quad[3] & 0xff)); return initialPart + penultimate + ":" + ultimate; } private static byte parseOctet(String ipPart) { // Note: we already verified that this string contains only hex digits. int octet = Integer.parseInt(ipPart); // Disallow leading zeroes, because no clear standard exists on // whether these should be interpreted as decimal or octal. if (octet > 255 || (ipPart.startsWith("0") && ipPart.length() > 1)) { throw new NumberFormatException(); } return (byte) octet; } private static short parseHextet(String ipPart) { // Note: we already verified that this string contains only hex digits. int hextet = Integer.parseInt(ipPart, 16); if (hextet > 0xffff) { throw new NumberFormatException(); } return (short) hextet; } //** End code from Guava v20 **// InetAddresses() { } }





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