src/windows/classes/java/lang/ProcessEnvironment.java - toolchain/jdk/jdk9_jdk - Git at Google

 /*
  * Copyright (c) 2003, 2006, Oracle and/or its affiliates. All rights reserved.
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License version 2 only, as
  * published by the Free Software Foundation.  Oracle designates this
  * particular file as subject to the "Classpath" exception as provided
  * by Oracle in the LICENSE file that accompanied this code.
  *
  * This code 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
  * version 2 for more details (a copy is included in the LICENSE file that
  * accompanied this code).
  *
  * You should have received a copy of the GNU General Public License version
  * 2 along with this work; if not, write to the Free Software Foundation,
  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  */

 /* We use APIs that access a so-called Windows "Environment Block",
  * which looks like an array of jchars like this:
  *
  * FOO=BAR\u0000 ... GORP=QUUX\u0000\u0000
  *
  * This data structure has a number of peculiarities we must contend with:
  * (see: http://windowssdk.msdn.microsoft.com/en-us/library/ms682009.aspx)
  * - The NUL jchar separators, and a double NUL jchar terminator.
  *   It appears that the Windows implementation requires double NUL
  *   termination even if the environment is empty.  We should always
  *   generate environments with double NUL termination, while accepting
  *   empty environments consisting of a single NUL.
  * - on Windows9x, this is actually an array of 8-bit chars, not jchars,
  *   encoded in the system default encoding.
  * - The block must be sorted by Unicode value, case-insensitively,
  *   as if folded to upper case.
  * - There are magic environment variables maintained by Windows
  *   that start with a `=' (!) character.  These are used for
  *   Windows drive current directory (e.g. "=C:=C:\WINNT") or the
  *   exit code of the last command (e.g. "=ExitCode=0000001").
  *
  * Since Java and non-9x Windows speak the same character set, and
  * even the same encoding, we don't have to deal with unreliable
  * conversion to byte streams.  Just add a few NUL terminators.
  *
  * System.getenv(String) is case-insensitive, while System.getenv()
  * returns a map that is case-sensitive, which is consistent with
  * native Windows APIs.
  *
  * The non-private methods in this class are not for general use even
  * within this package.  Instead, they are the system-dependent parts
  * of the system-independent method of the same name.  Don't even
  * think of using this class unless your method's name appears below.
  *
  * @author Martin Buchholz
  * @since 1.5
  */

 package java.lang;

 import java.io.*;
 import java.util.*;

 final class ProcessEnvironment extends HashMap<String,String>
 {
     private static String validateName(String name) {
         // An initial `=' indicates a magic Windows variable name -- OK
         if (name.indexOf('=', 1)   != -1 ||
             name.indexOf('\u0000') != -1)
             throw new IllegalArgumentException
                 ("Invalid environment variable name: \"" + name + "\"");
         return name;
     }

     private static String validateValue(String value) {
         if (value.indexOf('\u0000') != -1)
             throw new IllegalArgumentException
                 ("Invalid environment variable value: \"" + value + "\"");
         return value;
     }

     private static String nonNullString(Object o) {
         if (o == null)
             throw new NullPointerException();
         return (String) o;
     }

     public String put(String key, String value) {
         return super.put(validateName(key), validateValue(value));
     }

     public String get(Object key) {
         return super.get(nonNullString(key));
     }

     public boolean containsKey(Object key) {
         return super.containsKey(nonNullString(key));
     }

     public boolean containsValue(Object value) {
         return super.containsValue(nonNullString(value));
     }

     public String remove(Object key) {
         return super.remove(nonNullString(key));
     }

     private static class CheckedEntry
         implements Map.Entry<String,String>
     {
         private final Map.Entry<String,String> e;
         public CheckedEntry(Map.Entry<String,String> e) {this.e = e;}
         public String getKey()   { return e.getKey();}
         public String getValue() { return e.getValue();}
         public String setValue(String value) {
             return e.setValue(validateValue(value));
         }
         public String toString() { return getKey() + "=" + getValue();}
         public boolean equals(Object o) {return e.equals(o);}
         public int hashCode()    {return e.hashCode();}
     }

     private static class CheckedEntrySet
         extends AbstractSet<Map.Entry<String,String>>
     {
         private final Set<Map.Entry<String,String>> s;
         public CheckedEntrySet(Set<Map.Entry<String,String>> s) {this.s = s;}
         public int size()        {return s.size();}
         public boolean isEmpty() {return s.isEmpty();}
         public void clear()      {       s.clear();}
         public Iterator<Map.Entry<String,String>> iterator() {
             return new Iterator<Map.Entry<String,String>>() {
                 Iterator<Map.Entry<String,String>> i = s.iterator();
                 public boolean hasNext() { return i.hasNext();}
                 public Map.Entry<String,String> next() {
                     return new CheckedEntry(i.next());
                 }
                 public void remove() { i.remove();}
             };
         }
         private static Map.Entry<String,String> checkedEntry (Object o) {
             Map.Entry<String,String> e = (Map.Entry<String,String>) o;
             nonNullString(e.getKey());
             nonNullString(e.getValue());
             return e;
         }
         public boolean contains(Object o) {return s.contains(checkedEntry(o));}
         public boolean remove(Object o)   {return s.remove(checkedEntry(o));}
     }

     private static class CheckedValues extends AbstractCollection<String> {
         private final Collection<String> c;
         public CheckedValues(Collection<String> c) {this.c = c;}
         public int size()                  {return c.size();}
         public boolean isEmpty()           {return c.isEmpty();}
         public void clear()                {       c.clear();}
         public Iterator<String> iterator() {return c.iterator();}
         public boolean contains(Object o)  {return c.contains(nonNullString(o));}
         public boolean remove(Object o)    {return c.remove(nonNullString(o));}
     }

     private static class CheckedKeySet extends AbstractSet<String> {
         private final Set<String> s;
         public CheckedKeySet(Set<String> s) {this.s = s;}
         public int size()                  {return s.size();}
         public boolean isEmpty()           {return s.isEmpty();}
         public void clear()                {       s.clear();}
         public Iterator<String> iterator() {return s.iterator();}
         public boolean contains(Object o)  {return s.contains(nonNullString(o));}
         public boolean remove(Object o)    {return s.remove(nonNullString(o));}
     }

     public Set<String> keySet() {
         return new CheckedKeySet(super.keySet());
     }

     public Collection<String> values() {
         return new CheckedValues(super.values());
     }

     public Set<Map.Entry<String,String>> entrySet() {
         return new CheckedEntrySet(super.entrySet());
     }


     private static final class NameComparator
         implements Comparator<String> {
         public int compare(String s1, String s2) {
             // We can't use String.compareToIgnoreCase since it
             // canonicalizes to lower case, while Windows
             // canonicalizes to upper case!  For example, "_" should
             // sort *after* "Z", not before.
             int n1 = s1.length();
             int n2 = s2.length();
             int min = Math.min(n1, n2);
             for (int i = 0; i < min; i++) {
                 char c1 = s1.charAt(i);
                 char c2 = s2.charAt(i);
                 if (c1 != c2) {
                     c1 = Character.toUpperCase(c1);
                     c2 = Character.toUpperCase(c2);
                     if (c1 != c2)
                         // No overflow because of numeric promotion
                         return c1 - c2;
                 }
             }
             return n1 - n2;
         }
     }

     private static final class EntryComparator
         implements Comparator<Map.Entry<String,String>> {
         public int compare(Map.Entry<String,String> e1,
                            Map.Entry<String,String> e2) {
             return nameComparator.compare(e1.getKey(), e2.getKey());
         }
     }

     // Allow `=' as first char in name, e.g. =C:=C:\DIR
     static final int MIN_NAME_LENGTH = 1;

     private static final NameComparator nameComparator;
     private static final EntryComparator entryComparator;
     private static final ProcessEnvironment theEnvironment;
     private static final Map<String,String> theUnmodifiableEnvironment;
     private static final Map<String,String> theCaseInsensitiveEnvironment;

     static {
         nameComparator  = new NameComparator();
         entryComparator = new EntryComparator();
         theEnvironment  = new ProcessEnvironment();
         theUnmodifiableEnvironment
             = Collections.unmodifiableMap(theEnvironment);

         String envblock = environmentBlock();
         int beg, end, eql;
         for (beg = 0;
              ((end = envblock.indexOf('\u0000', beg  )) != -1 &&
               // An initial `=' indicates a magic Windows variable name -- OK
               (eql = envblock.indexOf('='     , beg+1)) != -1);
              beg = end + 1) {
             // Ignore corrupted environment strings.
             if (eql < end)
                 theEnvironment.put(envblock.substring(beg, eql),
                                    envblock.substring(eql+1,end));
         }

         theCaseInsensitiveEnvironment
             = new TreeMap<String,String>(nameComparator);
         theCaseInsensitiveEnvironment.putAll(theEnvironment);
     }

     private ProcessEnvironment() {
         super();
     }

     private ProcessEnvironment(int capacity) {
         super(capacity);
     }

     // Only for use by System.getenv(String)
     static String getenv(String name) {
         // The original implementation used a native call to _wgetenv,
         // but it turns out that _wgetenv is only consistent with
         // GetEnvironmentStringsW (for non-ASCII) if `wmain' is used
         // instead of `main', even in a process created using
         // CREATE_UNICODE_ENVIRONMENT.  Instead we perform the
         // case-insensitive comparison ourselves.  At least this
         // guarantees that System.getenv().get(String) will be
         // consistent with System.getenv(String).
         return theCaseInsensitiveEnvironment.get(name);
     }

     // Only for use by System.getenv()
     static Map<String,String> getenv() {
         return theUnmodifiableEnvironment;
     }

     // Only for use by ProcessBuilder.environment()
     static Map<String,String> environment() {
         return (Map<String,String>) theEnvironment.clone();
     }

     // Only for use by Runtime.exec(...String[]envp...)
     static Map<String,String> emptyEnvironment(int capacity) {
         return new ProcessEnvironment(capacity);
     }

     private static native String environmentBlock();

     // Only for use by ProcessImpl.start()
     String toEnvironmentBlock() {
         // Sort Unicode-case-insensitively by name
         List<Map.Entry<String,String>> list
             = new ArrayList<Map.Entry<String,String>>(entrySet());
         Collections.sort(list, entryComparator);

         StringBuilder sb = new StringBuilder(size()*30);
         for (Map.Entry<String,String> e : list)
             sb.append(e.getKey())
               .append('=')
               .append(e.getValue())
               .append('\u0000');
         // Ensure double NUL termination,
         // even if environment is empty.
         if (sb.length() == 0)
             sb.append('\u0000');
         sb.append('\u0000');
         return sb.toString();
     }

     static String toEnvironmentBlock(Map<String,String> map) {
         return map == null ? null :
             ((ProcessEnvironment)map).toEnvironmentBlock();
     }
 }
	/*
	* Copyright (c) 2003, 2006, Oracle and/or its affiliates. All rights reserved.
	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	*
	* This code is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License version 2 only, as
	* published by the Free Software Foundation. Oracle designates this
	* particular file as subject to the "Classpath" exception as provided
	* by Oracle in the LICENSE file that accompanied this code.
	*
	* This code 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
	* version 2 for more details (a copy is included in the LICENSE file that
	* accompanied this code).
	*
	* You should have received a copy of the GNU General Public License version
	* 2 along with this work; if not, write to the Free Software Foundation,
	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
	*
	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*/

	/* We use APIs that access a so-called Windows "Environment Block",
	* which looks like an array of jchars like this:
	*
	* FOO=BAR\u0000 ... GORP=QUUX\u0000\u0000
	*
	* This data structure has a number of peculiarities we must contend with:
	* (see: http://windowssdk.msdn.microsoft.com/en-us/library/ms682009.aspx)
	* - The NUL jchar separators, and a double NUL jchar terminator.
	* It appears that the Windows implementation requires double NUL
	* termination even if the environment is empty. We should always
	* generate environments with double NUL termination, while accepting
	* empty environments consisting of a single NUL.
	* - on Windows9x, this is actually an array of 8-bit chars, not jchars,
	* encoded in the system default encoding.
	* - The block must be sorted by Unicode value, case-insensitively,
	* as if folded to upper case.
	* - There are magic environment variables maintained by Windows
	* that start with a `=' (!) character. These are used for
	* Windows drive current directory (e.g. "=C:=C:\WINNT") or the
	* exit code of the last command (e.g. "=ExitCode=0000001").
	*
	* Since Java and non-9x Windows speak the same character set, and
	* even the same encoding, we don't have to deal with unreliable
	* conversion to byte streams. Just add a few NUL terminators.
	*
	* System.getenv(String) is case-insensitive, while System.getenv()
	* returns a map that is case-sensitive, which is consistent with
	* native Windows APIs.
	*
	* The non-private methods in this class are not for general use even
	* within this package. Instead, they are the system-dependent parts
	* of the system-independent method of the same name. Don't even
	* think of using this class unless your method's name appears below.
	*
	* @author Martin Buchholz
	* @since 1.5
	*/

	package java.lang;

	import java.io.*;
	import java.util.*;

	final class ProcessEnvironment extends HashMap<String,String>
	{
	private static String validateName(String name) {
	// An initial `=' indicates a magic Windows variable name -- OK
	if (name.indexOf('=', 1) != -1 \|\|
	name.indexOf('\u0000') != -1)
	throw new IllegalArgumentException
	("Invalid environment variable name: \"" + name + "\"");
	return name;
	}

	private static String validateValue(String value) {
	if (value.indexOf('\u0000') != -1)
	throw new IllegalArgumentException
	("Invalid environment variable value: \"" + value + "\"");
	return value;
	}

	private static String nonNullString(Object o) {
	if (o == null)
	throw new NullPointerException();
	return (String) o;
	}

	public String put(String key, String value) {
	return super.put(validateName(key), validateValue(value));
	}

	public String get(Object key) {
	return super.get(nonNullString(key));
	}

	public boolean containsKey(Object key) {
	return super.containsKey(nonNullString(key));
	}

	public boolean containsValue(Object value) {
	return super.containsValue(nonNullString(value));
	}

	public String remove(Object key) {
	return super.remove(nonNullString(key));
	}

	private static class CheckedEntry
	implements Map.Entry<String,String>
	{
	private final Map.Entry<String,String> e;
	public CheckedEntry(Map.Entry<String,String> e) {this.e = e;}
	public String getKey() { return e.getKey();}
	public String getValue() { return e.getValue();}
	public String setValue(String value) {
	return e.setValue(validateValue(value));
	}
	public String toString() { return getKey() + "=" + getValue();}
	public boolean equals(Object o) {return e.equals(o);}
	public int hashCode() {return e.hashCode();}
	}

	private static class CheckedEntrySet
	extends AbstractSet<Map.Entry<String,String>>
	{
	private final Set<Map.Entry<String,String>> s;
	public CheckedEntrySet(Set<Map.Entry<String,String>> s) {this.s = s;}
	public int size() {return s.size();}
	public boolean isEmpty() {return s.isEmpty();}
	public void clear() { s.clear();}
	public Iterator<Map.Entry<String,String>> iterator() {
	return new Iterator<Map.Entry<String,String>>() {
	Iterator<Map.Entry<String,String>> i = s.iterator();
	public boolean hasNext() { return i.hasNext();}
	public Map.Entry<String,String> next() {
	return new CheckedEntry(i.next());
	}
	public void remove() { i.remove();}
	};
	}
	private static Map.Entry<String,String> checkedEntry (Object o) {
	Map.Entry<String,String> e = (Map.Entry<String,String>) o;
	nonNullString(e.getKey());
	nonNullString(e.getValue());
	return e;
	}
	public boolean contains(Object o) {return s.contains(checkedEntry(o));}
	public boolean remove(Object o) {return s.remove(checkedEntry(o));}
	}

	private static class CheckedValues extends AbstractCollection<String> {
	private final Collection<String> c;
	public CheckedValues(Collection<String> c) {this.c = c;}
	public int size() {return c.size();}
	public boolean isEmpty() {return c.isEmpty();}
	public void clear() { c.clear();}
	public Iterator<String> iterator() {return c.iterator();}
	public boolean contains(Object o) {return c.contains(nonNullString(o));}
	public boolean remove(Object o) {return c.remove(nonNullString(o));}
	}

	private static class CheckedKeySet extends AbstractSet<String> {
	private final Set<String> s;
	public CheckedKeySet(Set<String> s) {this.s = s;}
	public int size() {return s.size();}
	public boolean isEmpty() {return s.isEmpty();}
	public void clear() { s.clear();}
	public Iterator<String> iterator() {return s.iterator();}
	public boolean contains(Object o) {return s.contains(nonNullString(o));}
	public boolean remove(Object o) {return s.remove(nonNullString(o));}
	}

	public Set<String> keySet() {
	return new CheckedKeySet(super.keySet());
	}

	public Collection<String> values() {
	return new CheckedValues(super.values());
	}

	public Set<Map.Entry<String,String>> entrySet() {
	return new CheckedEntrySet(super.entrySet());
	}


	private static final class NameComparator
	implements Comparator<String> {
	public int compare(String s1, String s2) {
	// We can't use String.compareToIgnoreCase since it
	// canonicalizes to lower case, while Windows
	// canonicalizes to upper case! For example, "_" should
	// sort after "Z", not before.
	int n1 = s1.length();
	int n2 = s2.length();
	int min = Math.min(n1, n2);
	for (int i = 0; i < min; i++) {
	char c1 = s1.charAt(i);
	char c2 = s2.charAt(i);
	if (c1 != c2) {
	c1 = Character.toUpperCase(c1);
	c2 = Character.toUpperCase(c2);
	if (c1 != c2)
	// No overflow because of numeric promotion
	return c1 - c2;
	}
	}
	return n1 - n2;
	}
	}

	private static final class EntryComparator
	implements Comparator<Map.Entry<String,String>> {
	public int compare(Map.Entry<String,String> e1,
	Map.Entry<String,String> e2) {
	return nameComparator.compare(e1.getKey(), e2.getKey());
	}
	}

	// Allow `=' as first char in name, e.g. =C:=C:\DIR
	static final int MIN_NAME_LENGTH = 1;

	private static final NameComparator nameComparator;
	private static final EntryComparator entryComparator;
	private static final ProcessEnvironment theEnvironment;
	private static final Map<String,String> theUnmodifiableEnvironment;
	private static final Map<String,String> theCaseInsensitiveEnvironment;

	static {
	nameComparator = new NameComparator();
	entryComparator = new EntryComparator();
	theEnvironment = new ProcessEnvironment();
	theUnmodifiableEnvironment
	= Collections.unmodifiableMap(theEnvironment);

	String envblock = environmentBlock();
	int beg, end, eql;
	for (beg = 0;
	((end = envblock.indexOf('\u0000', beg )) != -1 &&
	// An initial `=' indicates a magic Windows variable name -- OK
	(eql = envblock.indexOf('=' , beg+1)) != -1);
	beg = end + 1) {
	// Ignore corrupted environment strings.
	if (eql < end)
	theEnvironment.put(envblock.substring(beg, eql),
	envblock.substring(eql+1,end));
	}

	theCaseInsensitiveEnvironment
	= new TreeMap<String,String>(nameComparator);
	theCaseInsensitiveEnvironment.putAll(theEnvironment);
	}

	private ProcessEnvironment() {
	super();
	}

	private ProcessEnvironment(int capacity) {
	super(capacity);
	}

	// Only for use by System.getenv(String)
	static String getenv(String name) {
	// The original implementation used a native call to _wgetenv,
	// but it turns out that _wgetenv is only consistent with
	// GetEnvironmentStringsW (for non-ASCII) if `wmain' is used
	// instead of `main', even in a process created using
	// CREATE_UNICODE_ENVIRONMENT. Instead we perform the
	// case-insensitive comparison ourselves. At least this
	// guarantees that System.getenv().get(String) will be
	// consistent with System.getenv(String).
	return theCaseInsensitiveEnvironment.get(name);
	}

	// Only for use by System.getenv()
	static Map<String,String> getenv() {
	return theUnmodifiableEnvironment;
	}

	// Only for use by ProcessBuilder.environment()
	static Map<String,String> environment() {
	return (Map<String,String>) theEnvironment.clone();
	}

	// Only for use by Runtime.exec(...String[]envp...)
	static Map<String,String> emptyEnvironment(int capacity) {
	return new ProcessEnvironment(capacity);
	}

	private static native String environmentBlock();

	// Only for use by ProcessImpl.start()
	String toEnvironmentBlock() {
	// Sort Unicode-case-insensitively by name
	List<Map.Entry<String,String>> list
	= new ArrayList<Map.Entry<String,String>>(entrySet());
	Collections.sort(list, entryComparator);

	StringBuilder sb = new StringBuilder(size()*30);
	for (Map.Entry<String,String> e : list)
	sb.append(e.getKey())
	.append('=')
	.append(e.getValue())
	.append('\u0000');
	// Ensure double NUL termination,
	// even if environment is empty.
	if (sb.length() == 0)
	sb.append('\u0000');
	sb.append('\u0000');
	return sb.toString();
	}

	static String toEnvironmentBlock(Map<String,String> map) {
	return map == null ? null :
	((ProcessEnvironment)map).toEnvironmentBlock();
	}
	}