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package com.sun.grizzly.util.net;


import java.io.Serializable;
import java.util.Locale;
import java.net.MalformedURLException;


/**
 * 

URL is designed to provide public APIs for parsing * and synthesizing Uniform Resource Locators as similar as possible to the * APIs of java.net.URL, but without the ability to open a * stream or connection. One of the consequences of this is that you can * construct URLs for protocols for which a URLStreamHandler is not * available (such as an "https" URL when JSSE is not installed).

* *

WARNING - This class assumes that the string * representation of a URL conforms to the spec argument * as described in RFC 2396 "Uniform Resource Identifiers: Generic Syntax": *

 *   <scheme>//<authority><path>?<query>#<fragment>
 * 

* *

FIXME - This class really ought to end up in a Commons * package someplace.

* * @author Craig R. McClanahan * @version $Revision: 1.3 $ $Date: 2006/11/10 17:33:57 $ */ public final class URL implements Serializable { // ----------------------------------------------------------- Constructors /** * Create a URL object from the specified String representation. * * @param spec String representation of the URL * * @exception MalformedURLException if the string representation * cannot be parsed successfully */ public URL(String spec) throws MalformedURLException { this(null, spec); } /** * Create a URL object by parsing a string representation relative * to a specified context. Based on logic from JDK 1.3.1's * java.net.URL. * * @param context URL against which the relative representation * is resolved * @param spec String representation of the URL (usually relative) * * @exception MalformedURLException if the string representation * cannot be parsed successfully */ public URL(URL context, String spec) throws MalformedURLException { String original = spec; int i, limit, c; int start = 0; String newProtocol = null; boolean aRef = false; try { // Eliminate leading and trailing whitespace limit = spec.length(); while ((limit > 0) && (spec.charAt(limit - 1) <= ' ')) { limit--; } while ((start < limit) && (spec.charAt(start) <= ' ')) { start++; } // If the string representation starts with "url:", skip it if (spec.regionMatches(true, start, "url:", 0, 4)) { start += 4; } // Is this a ref relative to the context URL? if ((start < spec.length()) && (spec.charAt(start) == '#')) { aRef = true; } // Parse out the new protocol for (i = start; !aRef && (i < limit) && ((c = spec.charAt(i)) != '/'); i++) { if (c == ':') { String s = spec.substring(start, i).toLowerCase(Locale.ENGLISH); // Assume all protocols are valid newProtocol = s; start = i + 1; break; } else if( c == '#' ) { aRef = true; } else if( c == '?' ) { break; } } // Only use our context if the protocols match protocol = newProtocol; if ((context != null) && ((newProtocol == null) || newProtocol.equalsIgnoreCase(context.getProtocol()))) { // If the context is a hierarchical URL scheme and the spec // contains a matching scheme then maintain backwards // compatibility and treat it as if the spec didn't contain // the scheme; see 5.2.3 of RFC2396 if ((context.getPath() != null) && (context.getPath().startsWith("/"))) newProtocol = null; if (newProtocol == null) { protocol = context.getProtocol(); authority = context.getAuthority(); userInfo = context.getUserInfo(); host = context.getHost(); port = context.getPort(); file = context.getFile(); int question = file.lastIndexOf("?"); if (question < 0) path = file; else path = file.substring(0, question); } } if (protocol == null) throw new MalformedURLException("no protocol: " + original); // Parse out any ref portion of the spec i = spec.indexOf('#', start); if (i >= 0) { ref = spec.substring(i + 1, limit); limit = i; } // Parse the remainder of the spec in a protocol-specific fashion parse(spec, start, limit); if (context != null) normalize(); } catch (MalformedURLException e) { throw e; } catch (Exception e) { throw new MalformedURLException(e.toString()); } } /** * Create a URL object from the specified components. The default port * number for the specified protocol will be used. * * @param protocol Name of the protocol to use * @param host Name of the host addressed by this protocol * @param file Filename on the specified host * * @exception MalformedURLException is never thrown, but present for * compatible APIs */ public URL(String protocol, String host, String file) throws MalformedURLException { this(protocol, host, -1, file); } /** * Create a URL object from the specified components. Specifying a port * number of -1 indicates that the URL should use the default port for * that protocol. Based on logic from JDK 1.3.1's * java.net.URL. * * @param protocol Name of the protocol to use * @param host Name of the host addressed by this protocol * @param port Port number, or -1 for the default port for this protocol * @param file Filename on the specified host * * @exception MalformedURLException is never thrown, but present for * compatible APIs */ public URL(String protocol, String host, int port, String file) throws MalformedURLException { this.protocol = protocol; this.host = host; this.port = port; int hash = file.indexOf('#'); this.file = hash < 0 ? file : file.substring(0, hash); this.ref = hash < 0 ? null : file.substring(hash + 1); int question = file.lastIndexOf('?'); if (question >= 0) { query = file.substring(question + 1); path = file.substring(0, question); } else path = file; if ((host != null) && (host.length() > 0)) authority = (port == -1) ? host : host + ":" + port; } // ----------------------------------------------------- Instance Variables /** * The authority part of the URL. */ private String authority = null; /** * The filename part of the URL. */ private String file = null; /** * The host name part of the URL. */ private String host = null; /** * The path part of the URL. */ private String path = null; /** * The port number part of the URL. */ private int port = -1; /** * The protocol name part of the URL. */ private String protocol = null; /** * The query part of the URL. */ private String query = null; /** * The reference part of the URL. */ private String ref = null; /** * The user info part of the URL. */ private String userInfo = null; // --------------------------------------------------------- Public Methods /** * Compare two URLs for equality. The result is true if and * only if the argument is not null, and is a URL object * that represents the same URL as this object. Two * URLs are equal if they have the same protocol and * reference the same host, the same port number on the host, * and the same file and anchor on the host. * * @param obj The URL to compare against */ public boolean equals(Object obj) { if (obj == null) return (false); if (!(obj instanceof URL)) return (false); URL other = (URL) obj; if (!sameFile(other)) return (false); return (compare(ref, other.getRef())); } /** * Returns the hash code value for this object. * * @return a hash code value for this object. */ public int hashCode() { int hashCode = 0; if (getProtocol() != null) { hashCode += getProtocol().hashCode(); } if (getHost() != null) { hashCode += getHost().hashCode(); } hashCode += getPort(); if (getFile() != null) { hashCode += getFile().hashCode(); } if (getRef() != null) { hashCode += getRef().hashCode(); } return hashCode; } /** * Return the authority part of the URL. */ public String getAuthority() { return (this.authority); } /** * Return the filename part of the URL. NOTE - For * compatibility with java.net.URL, this value includes * the query string if there was one. For just the path portion, * call getPath() instead. */ public String getFile() { if (file == null) return (""); return (this.file); } /** * Return the host name part of the URL. */ public String getHost() { return (this.host); } /** * Return the path part of the URL. */ public String getPath() { if (this.path == null) return (""); return (this.path); } /** * Return the port number part of the URL. */ public int getPort() { return (this.port); } /** * Return the protocol name part of the URL. */ public String getProtocol() { return (this.protocol); } /** * Return the query part of the URL. */ public String getQuery() { return (this.query); } /** * Return the reference part of the URL. */ public String getRef() { return (this.ref); } /** * Return the user info part of the URL. */ public String getUserInfo() { return (this.userInfo); } /** * Normalize the path (and therefore file) * portions of this URL. *

* NOTE - This method is not part of the public API * of java.net.URL, but is provided as a value added * service of this implementation. * * @exception MalformedURLException if a normalization error occurs, * such as trying to move about the hierarchical root */ public void normalize() throws MalformedURLException { // Special case for null path if (path == null) { if (query != null) file = "?" + query; else file = ""; return; } // Create a place for the normalized path String normalized = path; if (normalized.equals("/.")) { path = "/"; if (query != null) file = path + "?" + query; else file = path; return; } // Normalize the slashes and add leading slash if necessary if (normalized.indexOf('\\') >= 0) normalized = normalized.replace('\\', '/'); if (!normalized.startsWith("/")) normalized = "/" + normalized; // Resolve occurrences of "//" in the normalized path while (true) { int index = normalized.indexOf("//"); if (index < 0) break; normalized = normalized.substring(0, index) + normalized.substring(index + 1); } // Resolve occurrences of "/./" in the normalized path while (true) { int index = normalized.indexOf("/./"); if (index < 0) break; normalized = normalized.substring(0, index) + normalized.substring(index + 2); } // Resolve occurrences of "/../" in the normalized path while (true) { int index = normalized.indexOf("/../"); if (index < 0) break; if (index == 0) throw new MalformedURLException ("Invalid relative URL reference"); int index2 = normalized.lastIndexOf('/', index - 1); normalized = normalized.substring(0, index2) + normalized.substring(index + 3); } // Resolve occurrences of "/." at the end of the normalized path if (normalized.endsWith("/.")) normalized = normalized.substring(0, normalized.length() - 1); // Resolve occurrences of "/.." at the end of the normalized path if (normalized.endsWith("/..")) { int index = normalized.length() - 3; int index2 = normalized.lastIndexOf('/', index - 1); if (index2 < 0) throw new MalformedURLException ("Invalid relative URL reference"); normalized = normalized.substring(0, index2 + 1); } // Return the normalized path that we have completed path = normalized; if (query != null) file = path + "?" + query; else file = path; } /** * Compare two URLs, excluding the "ref" fields. Returns true * if this URL and the other argument both refer * to the same resource. The two URLs might not both contain * the same anchor. */ public boolean sameFile(URL other) { if (!compare(protocol, other.getProtocol())) return (false); if (!compare(host, other.getHost())) return (false); if (port != other.getPort()) return (false); if (!compare(file, other.getFile())) return (false); return (true); } /** * Return a string representation of this URL. This follow the rules in * RFC 2396, Section 5.2, Step 7. */ public String toExternalForm() { StringBuilder sb = new StringBuilder(); if (protocol != null) { sb.append(protocol); sb.append(":"); } if (authority != null) { sb.append("//"); sb.append(authority); } if (path != null) sb.append(path); if (query != null) { sb.append('?'); sb.append(query); } if (ref != null) { sb.append('#'); sb.append(ref); } return (sb.toString()); } /** * Return a string representation of this object. */ public String toString() { StringBuilder sb = new StringBuilder("URL["); sb.append("authority="); sb.append(authority); sb.append(", file="); sb.append(file); sb.append(", host="); sb.append(host); sb.append(", port="); sb.append(port); sb.append(", protocol="); sb.append(protocol); sb.append(", query="); sb.append(query); sb.append(", ref="); sb.append(ref); sb.append(", userInfo="); sb.append(userInfo); sb.append("]"); return (sb.toString()); // return (toExternalForm()); } // -------------------------------------------------------- Private Methods /** * Compare to String values for equality, taking appropriate care if one * or both of the values are null. * * @param first First string * @param second Second string */ private boolean compare(String first, String second) { if (first == null) { if (second == null) return (true); else return (false); } else { if (second == null) return (false); else return (first.equals(second)); } } /** * Parse the specified portion of the string representation of a URL, * assuming that it has a format similar to that for http. * *

FIXME - This algorithm can undoubtedly be optimized * for performance. However, that needs to wait until after sufficient * unit tests are implemented to guarantee correct behavior with no * regressions.

* * @param spec String representation being parsed * @param start Starting offset, which will be just after the ':' (if * there is one) that determined the protocol name * @param limit Ending position, which will be the position of the '#' * (if there is one) that delimited the anchor * * @exception MalformedURLException if a parsing error occurs */ private void parse(String spec, int start, int limit) throws MalformedURLException { // Trim the query string (if any) off the tail end int question = spec.lastIndexOf('?', limit - 1); if ((question >= 0) && (question < limit)) { query = spec.substring(question + 1, limit); limit = question; } else { query = null; } // Parse the authority section if (spec.indexOf("//", start) == start) { int pathStart = spec.indexOf("/", start + 2); if ((pathStart >= 0) && (pathStart < limit)) { authority = spec.substring(start + 2, pathStart); start = pathStart; } else { authority = spec.substring(start + 2, limit); start = limit; } if (authority.length() > 0) { int at = authority.indexOf('@'); if( at >= 0 ) { userInfo = authority.substring(0,at); } int ipv6 = authority.indexOf('[',at+1); int hStart = at+1; if( ipv6 >= 0 ) { hStart = ipv6; ipv6 = authority.indexOf(']', ipv6); if( ipv6 < 0 ) { throw new MalformedURLException( "Closing ']' not found in IPV6 address: " + authority); } else { at = ipv6-1; } } int colon = authority.indexOf(':', at+1); if (colon >= 0) { try { port = Integer.parseInt(authority.substring(colon + 1)); } catch (NumberFormatException e) { throw new MalformedURLException(e.toString()); } host = authority.substring(hStart, colon); } else { host = authority.substring(hStart); port = -1; } } } // Parse the path section if (spec.indexOf("/", start) == start) { // Absolute path path = spec.substring(start, limit); if (query != null) file = path + "?" + query; else file = path; return; } // Resolve relative path against our context's file if (path == null) { if (query != null) file = "?" + query; else file = null; return; } if (!path.startsWith("/")) throw new MalformedURLException ("Base path does not start with '/'"); if (!path.endsWith("/")) path += "/../"; path += spec.substring(start, limit); if (query != null) file = path + "?" + query; else file = path; return; } }




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