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This artifact provides a single jar that contains all classes required to use remote EJB and JMS, including all dependencies. It is intended for use by those not using maven, maven users should just import the EJB and JMS BOM's instead (shaded JAR's cause lots of problems with maven, as it is very easy to inadvertently end up with different versions on classes on the class path).

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/*
 * Copyright (C) 2009 The Guava Authors
 *
 * Licensed 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 limitations under
 * the License.
 */

package com.google.common.net;

import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkNotNull;
import static com.google.common.base.Preconditions.checkState;

import com.google.common.annotations.GwtCompatible;
import com.google.common.base.Ascii;
import com.google.common.base.CharMatcher;
import com.google.common.base.Joiner;
import com.google.common.base.Optional;
import com.google.common.base.Splitter;
import com.google.common.collect.ImmutableList;
import com.google.errorprone.annotations.CanIgnoreReturnValue;
import com.google.errorprone.annotations.Immutable;
import com.google.errorprone.annotations.concurrent.LazyInit;
import com.google.thirdparty.publicsuffix.PublicSuffixPatterns;
import com.google.thirdparty.publicsuffix.PublicSuffixType;
import java.util.List;
import javax.annotation.CheckForNull;

/**
 * An immutable well-formed internet domain name, such as {@code com} or {@code foo.co.uk}. Only
 * syntactic analysis is performed; no DNS lookups or other network interactions take place. Thus
 * there is no guarantee that the domain actually exists on the internet.
 *
 * 

One common use of this class is to determine whether a given string is likely to represent an * addressable domain on the web -- that is, for a candidate string {@code "xxx"}, might browsing to * {@code "http://xxx/"} result in a webpage being displayed? In the past, this test was frequently * done by determining whether the domain ended with a {@linkplain #isPublicSuffix() public suffix} * but was not itself a public suffix. However, this test is no longer accurate. There are many * domains which are both public suffixes and addressable as hosts; {@code "uk.com"} is one example. * Using the subset of public suffixes that are {@linkplain #isRegistrySuffix() registry suffixes}, * one can get a better result, as only a few registry suffixes are addressable. However, the most * useful test to determine if a domain is a plausible web host is {@link #hasPublicSuffix()}. This * will return {@code true} for many domains which (currently) are not hosts, such as {@code "com"}, * but given that any public suffix may become a host without warning, it is better to err on the * side of permissiveness and thus avoid spurious rejection of valid sites. Of course, to actually * determine addressability of any host, clients of this class will need to perform their own DNS * lookups. * *

During construction, names are normalized in two ways: * *

    *
  1. ASCII uppercase characters are converted to lowercase. *
  2. Unicode dot separators other than the ASCII period ({@code '.'}) are converted to the ASCII * period. *
* *

The normalized values will be returned from {@link #toString()} and {@link #parts()}, and will * be reflected in the result of {@link #equals(Object)}. * *

Internationalized domain * names such as {@code 网络.cn} are supported, as are the equivalent IDNA Punycode-encoded * versions. * * @author Catherine Berry * @since 5.0 */ @GwtCompatible(emulated = true) @Immutable @ElementTypesAreNonnullByDefault public final class InternetDomainName { private static final CharMatcher DOTS_MATCHER = CharMatcher.anyOf(".\u3002\uFF0E\uFF61"); private static final Splitter DOT_SPLITTER = Splitter.on('.'); private static final Joiner DOT_JOINER = Joiner.on('.'); /** * Value of {@link #publicSuffixIndex()} or {@link #registrySuffixIndex()} which indicates that no * relevant suffix was found. */ private static final int NO_SUFFIX_FOUND = -1; /** * Value of {@link #publicSuffixIndexCache} or {@link #registrySuffixIndexCache} which indicates * that they were not initialized yet. */ private static final int SUFFIX_NOT_INITIALIZED = -2; /** * Maximum parts (labels) in a domain name. This value arises from the 255-octet limit described * in RFC 2181 part 11 with the fact that the * encoding of each part occupies at least two bytes (dot plus label externally, length byte plus * label internally). Thus, if all labels have the minimum size of one byte, 127 of them will fit. */ private static final int MAX_PARTS = 127; /** * Maximum length of a full domain name, including separators, and leaving room for the root * label. See RFC 2181 part 11. */ private static final int MAX_LENGTH = 253; /** * Maximum size of a single part of a domain name. See RFC 2181 part 11. */ private static final int MAX_DOMAIN_PART_LENGTH = 63; /** The full domain name, converted to lower case. */ private final String name; /** The parts of the domain name, converted to lower case. */ private final ImmutableList parts; /** * Cached value of #publicSuffixIndex(). Do not use directly. * *

Since this field isn't {@code volatile}, if an instance of this class is shared across * threads before it is initialized, then each thread is likely to compute their own copy of the * value. */ @SuppressWarnings("Immutable") @LazyInit private int publicSuffixIndexCache = SUFFIX_NOT_INITIALIZED; /** * Cached value of #registrySuffixIndex(). Do not use directly. * *

Since this field isn't {@code volatile}, if an instance of this class is shared across * threads before it is initialized, then each thread is likely to compute their own copy of the * value. */ @SuppressWarnings("Immutable") @LazyInit private int registrySuffixIndexCache = SUFFIX_NOT_INITIALIZED; /** Constructor used to implement {@link #from(String)}, and from subclasses. */ InternetDomainName(String name) { // Normalize: // * ASCII characters to lowercase // * All dot-like characters to '.' // * Strip trailing '.' name = Ascii.toLowerCase(DOTS_MATCHER.replaceFrom(name, '.')); if (name.endsWith(".")) { name = name.substring(0, name.length() - 1); } checkArgument(name.length() <= MAX_LENGTH, "Domain name too long: '%s':", name); this.name = name; this.parts = ImmutableList.copyOf(DOT_SPLITTER.split(name)); checkArgument(parts.size() <= MAX_PARTS, "Domain has too many parts: '%s'", name); checkArgument(validateSyntax(parts), "Not a valid domain name: '%s'", name); } /** * The index in the {@link #parts()} list at which the public suffix begins. For example, for the * domain name {@code myblog.blogspot.co.uk}, the value would be 1 (the index of the {@code * blogspot} part). The value is negative (specifically, {@link #NO_SUFFIX_FOUND}) if no public * suffix was found. */ private int publicSuffixIndex() { int publicSuffixIndexLocal = publicSuffixIndexCache; if (publicSuffixIndexLocal == SUFFIX_NOT_INITIALIZED) { publicSuffixIndexCache = publicSuffixIndexLocal = findSuffixOfType(Optional.absent()); } return publicSuffixIndexLocal; } /** * The index in the {@link #parts()} list at which the registry suffix begins. For example, for * the domain name {@code myblog.blogspot.co.uk}, the value would be 2 (the index of the {@code * co} part). The value is negative (specifically, {@link #NO_SUFFIX_FOUND}) if no registry suffix * was found. */ private int registrySuffixIndex() { int registrySuffixIndexLocal = registrySuffixIndexCache; if (registrySuffixIndexLocal == SUFFIX_NOT_INITIALIZED) { registrySuffixIndexCache = registrySuffixIndexLocal = findSuffixOfType(Optional.of(PublicSuffixType.REGISTRY)); } return registrySuffixIndexLocal; } /** * Returns the index of the leftmost part of the suffix, or -1 if not found. Note that the value * defined as a suffix may not produce {@code true} results from {@link #isPublicSuffix()} or * {@link #isRegistrySuffix()} if the domain ends with an excluded domain pattern such as {@code * "nhs.uk"}. * *

If a {@code desiredType} is specified, this method only finds suffixes of the given type. * Otherwise, it finds the first suffix of any type. */ private int findSuffixOfType(Optional desiredType) { int partsSize = parts.size(); for (int i = 0; i < partsSize; i++) { String ancestorName = DOT_JOINER.join(parts.subList(i, partsSize)); if (i > 0 && matchesType( desiredType, Optional.fromNullable(PublicSuffixPatterns.UNDER.get(ancestorName)))) { return i - 1; } if (matchesType( desiredType, Optional.fromNullable(PublicSuffixPatterns.EXACT.get(ancestorName)))) { return i; } // Excluded domains (e.g. !nhs.uk) use the next highest // domain as the effective public suffix (e.g. uk). if (PublicSuffixPatterns.EXCLUDED.containsKey(ancestorName)) { return i + 1; } } return NO_SUFFIX_FOUND; } /** * Returns an instance of {@link InternetDomainName} after lenient validation. Specifically, * validation against RFC 3490 * ("Internationalizing Domain Names in Applications") is skipped, while validation against RFC 1035 is relaxed in the following ways: * *

    *
  • Any part containing non-ASCII characters is considered valid. *
  • Underscores ('_') are permitted wherever dashes ('-') are permitted. *
  • Parts other than the final part may start with a digit, as mandated by RFC 1123. *
* * @param domain A domain name (not IP address) * @throws IllegalArgumentException if {@code domain} is not syntactically valid according to * {@link #isValid} * @since 10.0 (previously named {@code fromLenient}) */ @CanIgnoreReturnValue // TODO(b/219820829): consider removing public static InternetDomainName from(String domain) { return new InternetDomainName(checkNotNull(domain)); } /** * Validation method used by {@code from} to ensure that the domain name is syntactically valid * according to RFC 1035. * * @return Is the domain name syntactically valid? */ private static boolean validateSyntax(List parts) { int lastIndex = parts.size() - 1; // Validate the last part specially, as it has different syntax rules. if (!validatePart(parts.get(lastIndex), true)) { return false; } for (int i = 0; i < lastIndex; i++) { String part = parts.get(i); if (!validatePart(part, false)) { return false; } } return true; } private static final CharMatcher DASH_MATCHER = CharMatcher.anyOf("-_"); private static final CharMatcher DIGIT_MATCHER = CharMatcher.inRange('0', '9'); private static final CharMatcher LETTER_MATCHER = CharMatcher.inRange('a', 'z').or(CharMatcher.inRange('A', 'Z')); private static final CharMatcher PART_CHAR_MATCHER = DIGIT_MATCHER.or(LETTER_MATCHER).or(DASH_MATCHER); /** * Helper method for {@link #validateSyntax(List)}. Validates that one part of a domain name is * valid. * * @param part The domain name part to be validated * @param isFinalPart Is this the final (rightmost) domain part? * @return Whether the part is valid */ private static boolean validatePart(String part, boolean isFinalPart) { // These tests could be collapsed into one big boolean expression, but // they have been left as independent tests for clarity. if (part.length() < 1 || part.length() > MAX_DOMAIN_PART_LENGTH) { return false; } /* * GWT claims to support java.lang.Character's char-classification methods, but it actually only * works for ASCII. So for now, assume any non-ASCII characters are valid. The only place this * seems to be documented is here: * https://groups.google.com/d/topic/google-web-toolkit-contributors/1UEzsryq1XI * *

ASCII characters in the part are expected to be valid per RFC 1035, with underscore also * being allowed due to widespread practice. */ String asciiChars = CharMatcher.ascii().retainFrom(part); if (!PART_CHAR_MATCHER.matchesAllOf(asciiChars)) { return false; } // No initial or final dashes or underscores. if (DASH_MATCHER.matches(part.charAt(0)) || DASH_MATCHER.matches(part.charAt(part.length() - 1))) { return false; } /* * Note that we allow (in contravention of a strict interpretation of the relevant RFCs) domain * parts other than the last may begin with a digit (for example, "3com.com"). It's important to * disallow an initial digit in the last part; it's the only thing that stops an IPv4 numeric * address like 127.0.0.1 from looking like a valid domain name. */ if (isFinalPart && DIGIT_MATCHER.matches(part.charAt(0))) { return false; } return true; } /** * Returns the individual components of this domain name, normalized to all lower case. For * example, for the domain name {@code mail.google.com}, this method returns the list {@code * ["mail", "google", "com"]}. */ public ImmutableList parts() { return parts; } /** * Indicates whether this domain name represents a public suffix, as defined by the Mozilla * Foundation's Public Suffix List (PSL). A public suffix * is one under which Internet users can directly register names, such as {@code com}, {@code * co.uk} or {@code pvt.k12.wy.us}. Examples of domain names that are not public suffixes * include {@code google.com}, {@code foo.co.uk}, and {@code myblog.blogspot.com}. * *

Public suffixes are a proper superset of {@linkplain #isRegistrySuffix() registry suffixes}. * The list of public suffixes additionally contains privately owned domain names under which * Internet users can register subdomains. An example of a public suffix that is not a registry * suffix is {@code blogspot.com}. Note that it is true that all public suffixes have * registry suffixes, since domain name registries collectively control all internet domain names. * *

For considerations on whether the public suffix or registry suffix designation is more * suitable for your application, see this article. * * @return {@code true} if this domain name appears exactly on the public suffix list * @since 6.0 */ public boolean isPublicSuffix() { return publicSuffixIndex() == 0; } /** * Indicates whether this domain name ends in a {@linkplain #isPublicSuffix() public suffix}, * including if it is a public suffix itself. For example, returns {@code true} for {@code * www.google.com}, {@code foo.co.uk} and {@code com}, but not for {@code invalid} or {@code * google.invalid}. This is the recommended method for determining whether a domain is potentially * an addressable host. * *

Note that this method is equivalent to {@link #hasRegistrySuffix()} because all registry * suffixes are public suffixes and all public suffixes have registry suffixes. * * @since 6.0 */ public boolean hasPublicSuffix() { return publicSuffixIndex() != NO_SUFFIX_FOUND; } /** * Returns the {@linkplain #isPublicSuffix() public suffix} portion of the domain name, or {@code * null} if no public suffix is present. * * @since 6.0 */ @CheckForNull public InternetDomainName publicSuffix() { return hasPublicSuffix() ? ancestor(publicSuffixIndex()) : null; } /** * Indicates whether this domain name ends in a {@linkplain #isPublicSuffix() public suffix}, * while not being a public suffix itself. For example, returns {@code true} for {@code * www.google.com}, {@code foo.co.uk} and {@code myblog.blogspot.com}, but not for {@code com}, * {@code co.uk}, {@code google.invalid}, or {@code blogspot.com}. * *

This method can be used to determine whether it will probably be possible to set cookies on * the domain, though even that depends on individual browsers' implementations of cookie * controls. See RFC 2109 for details. * * @since 6.0 */ public boolean isUnderPublicSuffix() { return publicSuffixIndex() > 0; } /** * Indicates whether this domain name is composed of exactly one subdomain component followed by a * {@linkplain #isPublicSuffix() public suffix}. For example, returns {@code true} for {@code * google.com} {@code foo.co.uk}, and {@code myblog.blogspot.com}, but not for {@code * www.google.com}, {@code co.uk}, or {@code blogspot.com}. * *

This method can be used to determine whether a domain is probably the highest level for * which cookies may be set, though even that depends on individual browsers' implementations of * cookie controls. See RFC 2109 for details. * * @since 6.0 */ public boolean isTopPrivateDomain() { return publicSuffixIndex() == 1; } /** * Returns the portion of this domain name that is one level beneath the {@linkplain * #isPublicSuffix() public suffix}. For example, for {@code x.adwords.google.co.uk} it returns * {@code google.co.uk}, since {@code co.uk} is a public suffix. Similarly, for {@code * myblog.blogspot.com} it returns the same domain, {@code myblog.blogspot.com}, since {@code * blogspot.com} is a public suffix. * *

If {@link #isTopPrivateDomain()} is true, the current domain name instance is returned. * *

This method can be used to determine the probable highest level parent domain for which * cookies may be set, though even that depends on individual browsers' implementations of cookie * controls. * * @throws IllegalStateException if this domain does not end with a public suffix * @since 6.0 */ public InternetDomainName topPrivateDomain() { if (isTopPrivateDomain()) { return this; } checkState(isUnderPublicSuffix(), "Not under a public suffix: %s", name); return ancestor(publicSuffixIndex() - 1); } /** * Indicates whether this domain name represents a registry suffix, as defined by a subset * of the Mozilla Foundation's Public Suffix List (PSL). A * registry suffix is one under which Internet users can directly register names via a domain name * registrar, and have such registrations lawfully protected by internet-governing bodies such as * ICANN. Examples of registry suffixes include {@code com}, {@code co.uk}, and {@code * pvt.k12.wy.us}. Examples of domain names that are not registry suffixes include {@code * google.com} and {@code foo.co.uk}. * *

Registry suffixes are a proper subset of {@linkplain #isPublicSuffix() public suffixes}. The * list of public suffixes additionally contains privately owned domain names under which Internet * users can register subdomains. An example of a public suffix that is not a registry suffix is * {@code blogspot.com}. Note that it is true that all public suffixes have registry * suffixes, since domain name registries collectively control all internet domain names. * *

For considerations on whether the public suffix or registry suffix designation is more * suitable for your application, see this article. * * @return {@code true} if this domain name appears exactly on the public suffix list as part of * the registry suffix section (labelled "ICANN"). * @since 23.3 */ public boolean isRegistrySuffix() { return registrySuffixIndex() == 0; } /** * Indicates whether this domain name ends in a {@linkplain #isRegistrySuffix() registry suffix}, * including if it is a registry suffix itself. For example, returns {@code true} for {@code * www.google.com}, {@code foo.co.uk} and {@code com}, but not for {@code invalid} or {@code * google.invalid}. * *

Note that this method is equivalent to {@link #hasPublicSuffix()} because all registry * suffixes are public suffixes and all public suffixes have registry suffixes. * * @since 23.3 */ public boolean hasRegistrySuffix() { return registrySuffixIndex() != NO_SUFFIX_FOUND; } /** * Returns the {@linkplain #isRegistrySuffix() registry suffix} portion of the domain name, or * {@code null} if no registry suffix is present. * * @since 23.3 */ @CheckForNull public InternetDomainName registrySuffix() { return hasRegistrySuffix() ? ancestor(registrySuffixIndex()) : null; } /** * Indicates whether this domain name ends in a {@linkplain #isRegistrySuffix() registry suffix}, * while not being a registry suffix itself. For example, returns {@code true} for {@code * www.google.com}, {@code foo.co.uk} and {@code blogspot.com}, but not for {@code com}, {@code * co.uk}, or {@code google.invalid}. * * @since 23.3 */ public boolean isUnderRegistrySuffix() { return registrySuffixIndex() > 0; } /** * Indicates whether this domain name is composed of exactly one subdomain component followed by a * {@linkplain #isRegistrySuffix() registry suffix}. For example, returns {@code true} for {@code * google.com}, {@code foo.co.uk}, and {@code blogspot.com}, but not for {@code www.google.com}, * {@code co.uk}, or {@code myblog.blogspot.com}. * *

Warning: This method should not be used to determine the probable highest level * parent domain for which cookies may be set. Use {@link #topPrivateDomain()} for that purpose. * * @since 23.3 */ public boolean isTopDomainUnderRegistrySuffix() { return registrySuffixIndex() == 1; } /** * Returns the portion of this domain name that is one level beneath the {@linkplain * #isRegistrySuffix() registry suffix}. For example, for {@code x.adwords.google.co.uk} it * returns {@code google.co.uk}, since {@code co.uk} is a registry suffix. Similarly, for {@code * myblog.blogspot.com} it returns {@code blogspot.com}, since {@code com} is a registry suffix. * *

If {@link #isTopDomainUnderRegistrySuffix()} is true, the current domain name instance is * returned. * *

Warning: This method should not be used to determine whether a domain is probably the * highest level for which cookies may be set. Use {@link #isTopPrivateDomain()} for that purpose. * * @throws IllegalStateException if this domain does not end with a registry suffix * @since 23.3 */ public InternetDomainName topDomainUnderRegistrySuffix() { if (isTopDomainUnderRegistrySuffix()) { return this; } checkState(isUnderRegistrySuffix(), "Not under a registry suffix: %s", name); return ancestor(registrySuffixIndex() - 1); } /** Indicates whether this domain is composed of two or more parts. */ public boolean hasParent() { return parts.size() > 1; } /** * Returns an {@code InternetDomainName} that is the immediate ancestor of this one; that is, the * current domain with the leftmost part removed. For example, the parent of {@code * www.google.com} is {@code google.com}. * * @throws IllegalStateException if the domain has no parent, as determined by {@link #hasParent} */ public InternetDomainName parent() { checkState(hasParent(), "Domain '%s' has no parent", name); return ancestor(1); } /** * Returns the ancestor of the current domain at the given number of levels "higher" (rightward) * in the subdomain list. The number of levels must be non-negative, and less than {@code N-1}, * where {@code N} is the number of parts in the domain. * *

TODO: Reasonable candidate for addition to public API. */ private InternetDomainName ancestor(int levels) { return from(DOT_JOINER.join(parts.subList(levels, parts.size()))); } /** * Creates and returns a new {@code InternetDomainName} by prepending the argument and a dot to * the current name. For example, {@code InternetDomainName.from("foo.com").child("www.bar")} * returns a new {@code InternetDomainName} with the value {@code www.bar.foo.com}. Only lenient * validation is performed, as described {@link #from(String) here}. * * @throws NullPointerException if leftParts is null * @throws IllegalArgumentException if the resulting name is not valid */ public InternetDomainName child(String leftParts) { return from(checkNotNull(leftParts) + "." + name); } /** * Indicates whether the argument is a syntactically valid domain name using lenient validation. * Specifically, validation against RFC 3490 * ("Internationalizing Domain Names in Applications") is skipped. * *

The following two code snippets are equivalent: * *

{@code
   * domainName = InternetDomainName.isValid(name)
   *     ? InternetDomainName.from(name)
   *     : DEFAULT_DOMAIN;
   * }
* *
{@code
   * try {
   *   domainName = InternetDomainName.from(name);
   * } catch (IllegalArgumentException e) {
   *   domainName = DEFAULT_DOMAIN;
   * }
   * }
* * @since 8.0 (previously named {@code isValidLenient}) */ public static boolean isValid(String name) { try { InternetDomainName unused = from(name); return true; } catch (IllegalArgumentException e) { return false; } } /** * If a {@code desiredType} is specified, returns true only if the {@code actualType} is * identical. Otherwise, returns true as long as {@code actualType} is present. */ private static boolean matchesType( Optional desiredType, Optional actualType) { return desiredType.isPresent() ? desiredType.equals(actualType) : actualType.isPresent(); } /** Returns the domain name, normalized to all lower case. */ @Override public String toString() { return name; } /** * Equality testing is based on the text supplied by the caller, after normalization as described * in the class documentation. For example, a non-ASCII Unicode domain name and the Punycode * version of the same domain name would not be considered equal. */ @Override public boolean equals(@CheckForNull Object object) { if (object == this) { return true; } if (object instanceof InternetDomainName) { InternetDomainName that = (InternetDomainName) object; return this.name.equals(that.name); } return false; } @Override public int hashCode() { return name.hashCode(); } }




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