/*
* @(#)Win32FileSystem.java 1.33 05/12/01
*
* Copyright 2006 Sun Microsystems, Inc. All rights reserved.
* SUN PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.
*/
package java.io;
import java.security.AccessController;
import java.util.Locale;
import sun.security.action.GetPropertyAction;
class Win32FileSystem extends FileSystem {
private final char slash;
private final char altSlash;
private final char semicolon;
public Win32FileSystem() {
slash = ((String) AccessController.doPrivileged(
new GetPropertyAction("file.separator"))).charAt(0);
semicolon = ((String) AccessController.doPrivileged(
new GetPropertyAction("path.separator"))).charAt(0);
altSlash = (this.slash == '\\') ? '/' : '\\';
}
private boolean isSlash(char c) {
return (c == '\\') || (c == '/');
}
private boolean isLetter(char c) {
return ((c >= 'a') && (c <= 'z')) || ((c >= 'A') && (c <= 'Z'));
}
private String slashify(String p) {
if ((p.length() > 0) && (p.charAt(0) != slash)) return slash + p;
else return p;
}
�
/* -- Normalization and construction -- */
public char getSeparator() {
return slash;
}
public char getPathSeparator() {
return semicolon;
}
/* A normal Win32 pathname contains no duplicate slashes, except possibly
for a UNC prefix, and does not end with a slash. It may be the empty
string. Normalized Win32 pathnames have the convenient property that
the length of the prefix almost uniquely identifies the type of the path
and whether it is absolute or relative:
0 relative to both drive and directory
1 drive-relative (begins with '\\')
2 absolute UNC (if first char is '\\'),
else directory-relative (has form "z:foo")
3 absolute local pathname (begins with "z:\\")
*/
private int normalizePrefix(String path, int len, StringBuffer sb) {
int src = 0;
while ((src < len) && isSlash(path.charAt(src))) src++;
char c;
if ((len - src >= 2)
&& isLetter(c = path.charAt(src))
&& path.charAt(src + 1) == ':') {
/* Remove leading slashes if followed by drive specifier.
This hack is necessary to support file URLs containing drive
specifiers (e.g., "file://c:/path"). As a side effect,
"/c:/path" can be used as an alternative to "c:/path". */
sb.append(c);
sb.append(':');
src += 2;
} else {
src = 0;
if ((len >= 2)
&& isSlash(path.charAt(0))
&& isSlash(path.charAt(1))) {
/* UNC pathname: Retain first slash; leave src pointed at
second slash so that further slashes will be collapsed
into the second slash. The result will be a pathname
beginning with "\\\\" followed (most likely) by a host
name. */
src = 1;
sb.append(slash);
}
}
return src;
}
/* Normalize the given pathname, whose length is len, starting at the given
offset; everything before this offset is already normal. */
private String normalize(String path, int len, int off) {
if (len == 0) return path;
if (off < 3) off = 0; /* Avoid fencepost cases with UNC pathnames */
int src;
char slash = this.slash;
StringBuffer sb = new StringBuffer(len);
if (off == 0) {
/* Complete normalization, including prefix */
src = normalizePrefix(path, len, sb);
} else {
/* Partial normalization */
src = off;
sb.append(path.substring(0, off));
}
/* Remove redundant slashes from the remainder of the path, forcing all
slashes into the preferred slash */
while (src < len) {
char c = path.charAt(src++);
if (isSlash(c)) {
while ((src < len) && isSlash(path.charAt(src))) src++;
if (src == len) {
/* Check for trailing separator */
int sn = sb.length();
if ((sn == 2) && (sb.charAt(1) == ':')) {
/* "z:\\" */
sb.append(slash);
break;
}
if (sn == 0) {
/* "\\" */
sb.append(slash);
break;
}
if ((sn == 1) && (isSlash(sb.charAt(0)))) {
/* "\\\\" is not collapsed to "\\" because "\\\\" marks
the beginning of a UNC pathname. Even though it is
not, by itself, a valid UNC pathname, we leave it as
is in order to be consistent with the win32 APIs,
which treat this case as an invalid UNC pathname
rather than as an alias for the root directory of
the current drive. */
sb.append(slash);
break;
}
/* Path does not denote a root directory, so do not append
trailing slash */
break;
} else {
sb.append(slash);
}
} else {
sb.append(c);
}
}
String rv = sb.toString();
return rv;
}
/* Check that the given pathname is normal. If not, invoke the real
normalizer on the part of the pathname that requires normalization.
This way we iterate through the whole pathname string only once. */
public String normalize(String path) {
int n = path.length();
char slash = this.slash;
char altSlash = this.altSlash;
char prev = 0;
for (int i = 0; i < n; i++) {
char c = path.charAt(i);
if (c == altSlash)
return normalize(path, n, (prev == slash) ? i - 1 : i);
if ((c == slash) && (prev == slash) && (i > 1))
return normalize(path, n, i - 1);
if ((c == ':') && (i > 1))
return normalize(path, n, 0);
prev = c;
}
if (prev == slash) return normalize(path, n, n - 1);
return path;
}
public int prefixLength(String path) {
char slash = this.slash;
int n = path.length();
if (n == 0) return 0;
char c0 = path.charAt(0);
char c1 = (n > 1) ? path.charAt(1) : 0;
if (c0 == slash) {
if (c1 == slash) return 2; /* Absolute UNC pathname "\\\\foo" */
return 1; /* Drive-relative "\\foo" */
}
if (isLetter(c0) && (c1 == ':')) {
if ((n > 2) && (path.charAt(2) == slash))
return 3; /* Absolute local pathname "z:\\foo" */
return 2; /* Directory-relative "z:foo" */
}
return 0; /* Completely relative */
}
public String resolve(String parent, String child) {
int pn = parent.length();
if (pn == 0) return child;
int cn = child.length();
if (cn == 0) return parent;
String c = child;
int childStart = 0;
int parentEnd = pn;
if ((cn > 1) && (c.charAt(0) == slash)) {
if (c.charAt(1) == slash) {
/* Drop prefix when child is a UNC pathname */
childStart = 2;
} else {
/* Drop prefix when child is drive-relative */
childStart = 1;
}
if (cn == childStart) { // Child is double slash
if (parent.charAt(pn - 1) == slash)
return parent.substring(0, pn - 1);
return parent;
}
}
if (parent.charAt(pn - 1) == slash)
parentEnd--;
int strlen = parentEnd + cn - childStart;
char[] theChars = null;
if (child.charAt(childStart) == slash) {
theChars = new char[strlen];
parent.getChars(0, parentEnd, theChars, 0);
child.getChars(childStart, cn, theChars, parentEnd);
} else {
theChars = new char[strlen + 1];
parent.getChars(0, parentEnd, theChars, 0);
theChars[parentEnd] = slash;
child.getChars(childStart, cn, theChars, parentEnd + 1);
}
return new String(theChars);
}
public String getDefaultParent() {
return ("" + slash);
}
public String fromURIPath(String path) {
String p = path;
if ((p.length() > 2) && (p.charAt(2) == ':')) {
// "/c:/foo" --> "c:/foo"
p = p.substring(1);
// "c:/foo/" --> "c:/foo", but "c:/" --> "c:/"
if ((p.length() > 3) && p.endsWith("/"))
p = p.substring(0, p.length() - 1);
} else if ((p.length() > 1) && p.endsWith("/")) {
// "/foo/" --> "/foo"
p = p.substring(0, p.length() - 1);
}
return p;
}
�
/* -- Path operations -- */
public boolean isAbsolute(File f) {
int pl = f.getPrefixLength();
return (((pl == 2) && (f.getPath().charAt(0) == slash))
|| (pl == 3));
}
protected native String getDriveDirectory(int drive);
private static String[] driveDirCache = new String[26];
private static int driveIndex(char d) {
if ((d >= 'a') && (d <= 'z')) return d - 'a';
if ((d >= 'A') && (d <= 'Z')) return d - 'A';
return -1;
}
private String getDriveDirectory(char drive) {
int i = driveIndex(drive);
if (i < 0) return null;
String s = driveDirCache[i];
if (s != null) return s;
s = getDriveDirectory(i + 1);
driveDirCache[i] = s;
return s;
}
private String getUserPath() {
/* For both compatibility and security,
we must look this up every time */
return normalize(System.getProperty("user.dir"));
}
private String getDrive(String path) {
int pl = prefixLength(path);
return (pl == 3) ? path.substring(0, 2) : null;
}
public String resolve(File f) {
String path = f.getPath();
int pl = f.getPrefixLength();
if ((pl == 2) && (path.charAt(0) == slash))
return path; /* UNC */
if (pl == 3)
return path; /* Absolute local */
if (pl == 0)
return getUserPath() + slashify(path); /* Completely relative */
if (pl == 1) { /* Drive-relative */
String up = getUserPath();
String ud = getDrive(up);
if (ud != null) return ud + path;
return up + path; /* User dir is a UNC path */
}
if (pl == 2) { /* Directory-relative */
String up = getUserPath();
String ud = getDrive(up);
if ((ud != null) && path.startsWith(ud))
return up + slashify(path.substring(2));
char drive = path.charAt(0);
String dir = getDriveDirectory(drive);
String np;
if (dir != null) {
/* When resolving a directory-relative path that refers to a
drive other than the current drive, insist that the caller
have read permission on the result */
String p = drive + (':' + dir + slashify(path.substring(2)));
SecurityManager security = System.getSecurityManager();
try {
if (security != null) security.checkRead(p);
} catch (SecurityException x) {
/* Don't disclose the drive's directory in the exception */
throw new SecurityException("Cannot resolve path " + path);
}
return p;
}
return drive + ":" + slashify(path.substring(2)); /* fake it */
}
throw new InternalError("Unresolvable path: " + path);
}
// Caches for canonicalization results to improve startup performance.
// The first cache handles repeated canonicalizations of the same path
// name. The prefix cache handles repeated canonicalizations within the
// same directory, and must not create results differing from the true
// canonicalization algorithm in canonicalize_md.c. For this reason the
// prefix cache is conservative and is not used for complex path names.
private ExpiringCache cache = new ExpiringCache();
private ExpiringCache prefixCache = new ExpiringCache();
public String canonicalize(String path) throws IOException {
// If path is a drive letter only then skip canonicalization
int len = path.length();
if ((len == 2) &&
(isLetter(path.charAt(0))) &&
(path.charAt(1) == ':')) {
char c = path.charAt(0);
if ((c >= 'A') && (c <= 'Z'))
return path;
return "" + ((char) (c-32)) + ':';
} else if ((len == 3) &&
(isLetter(path.charAt(0))) &&
(path.charAt(1) == ':') &&
(path.charAt(2) == '\\')) {
char c = path.charAt(0);
if ((c >= 'A') && (c <= 'Z'))
return path;
return "" + ((char) (c-32)) + ':' + '\\';
}
if (!useCanonCaches) {
return canonicalize0(path);
} else {
String res = cache.get(path);
if (res == null) {
String dir = null;
String resDir = null;
if (useCanonPrefixCache) {
dir = parentOrNull(path);
if (dir != null) {
resDir = prefixCache.get(dir);
if (resDir != null) {
// Hit only in prefix cache; full path is canonical,
// but we need to get the canonical name of the file
// in this directory to get the appropriate capitalization
String filename = path.substring(1 + dir.length());
res = canonicalizeWithPrefix(resDir, filename);
cache.put(dir + File.separatorChar + filename, res);
}
}
}
if (res == null) {
res = canonicalize0(path);
cache.put(path, res);
if (useCanonPrefixCache && dir != null) {
resDir = parentOrNull(res);
if (resDir != null) {
File f = new File(res);
if (f.exists() && !f.isDirectory()) {
prefixCache.put(dir, resDir);
}
}
}
}
}
assert canonicalize0(path).equalsIgnoreCase(res);
return res;
}
}
protected native String canonicalize0(String path)
throws IOException;
protected String canonicalizeWithPrefix(String canonicalPrefix,
String filename) throws IOException
{
return canonicalizeWithPrefix0(canonicalPrefix,
canonicalPrefix + File.separatorChar + filename);
}
// Run the canonicalization operation assuming that the prefix
// (everything up to the last filename) is canonical; just gets
// the canonical name of the last element of the path
protected native String canonicalizeWithPrefix0(String canonicalPrefix,
String pathWithCanonicalPrefix)
throws IOException;
// Best-effort attempt to get parent of this path; used for
// optimization of filename canonicalization. This must return null for
// any cases where the code in canonicalize_md.c would throw an
// exception or otherwise deal with non-simple pathnames like handling
// of "." and "..". It may conservatively return null in other
// situations as well. Returning null will cause the underlying
// (expensive) canonicalization routine to be called.
static String parentOrNull(String path) {
if (path == null) return null;
char sep = File.separatorChar;
char altSep = '/';
int last = path.length() - 1;
int idx = last;
int adjacentDots = 0;
int nonDotCount = 0;
while (idx > 0) {
char c = path.charAt(idx);
if (c == '.') {
if (++adjacentDots >= 2) {
// Punt on pathnames containing . and ..
return null;
}
if (nonDotCount == 0) {
// Punt on pathnames ending in a .
return null;
}
} else if (c == sep) {
if (adjacentDots == 1 && nonDotCount == 0) {
// Punt on pathnames containing . and ..
return null;
}
if (idx == 0 ||
idx >= last - 1 ||
path.charAt(idx - 1) == sep ||
path.charAt(idx - 1) == altSep) {
// Punt on pathnames containing adjacent slashes
// toward the end
return null;
}
return path.substring(0, idx);
} else if (c == altSep) {
// Punt on pathnames containing both backward and
// forward slashes
return null;
} else if (c == '*' || c == '?') {
// Punt on pathnames containing wildcards
return null;
} else {
++nonDotCount;
adjacentDots = 0;
}
--idx;
}
return null;
}
�
/* -- Attribute accessors -- */
public native int getBooleanAttributes(File f);
public native boolean checkAccess(File f, int access);
public native long getLastModifiedTime(File f);
public native long getLength(File f);
public native boolean setPermission(File f, int access, boolean enable, boolean owneronly);
/* -- File operations -- */
public native boolean createFileExclusively(String path)
throws IOException;
public boolean delete(File f) {
// Keep canonicalization caches in sync after file deletion
// and renaming operations. Could be more clever than this
// (i.e., only remove/update affected entries) but probably
// not worth it since these entries expire after 30 seconds
// anyway.
cache.clear();
prefixCache.clear();
return delete0(f);
}
protected native boolean delete0(File f);
public native String[] list(File f);
public native boolean createDirectory(File f);
public boolean rename(File f1, File f2) {
// Keep canonicalization caches in sync after file deletion
// and renaming operations. Could be more clever than this
// (i.e., only remove/update affected entries) but probably
// not worth it since these entries expire after 30 seconds
// anyway.
cache.clear();
prefixCache.clear();
return rename0(f1, f2);
}
protected native boolean rename0(File f1, File f2);
public native boolean setLastModifiedTime(File f, long time);
public native boolean setReadOnly(File f);
/* -- Filesystem interface -- */
private boolean access(String path) {
try {
SecurityManager security = System.getSecurityManager();
if (security != null) security.checkRead(path);
return true;
} catch (SecurityException x) {
return false;
}
}
private static native int listRoots0();
public File[] listRoots() {
int ds = listRoots0();
int n = 0;
for (int i = 0; i < 26; i++) {
if (((ds >> i) & 1) != 0) {
if (!access((char)('A' + i) + ":" + slash))
ds &= ~(1 << i);
else
n++;
}
}
File[] fs = new File[n];
int j = 0;
char slash = this.slash;
for (int i = 0; i < 26; i++) {
if (((ds >> i) & 1) != 0)
fs[j++] = new File((char)('A' + i) + ":" + slash);
}
return fs;
}
/* -- Disk usage -- */
public long getSpace(File f, int t) {
if (f.exists()) {
File file = (f.isDirectory() ? f : f.getParentFile());
return getSpace0(file, t);
}
return 0;
}
private native long getSpace0(File f, int t);
/* -- Basic infrastructure -- */
public int compare(File f1, File f2) {
return f1.getPath().compareToIgnoreCase(f2.getPath());
}
public int hashCode(File f) {
/* Could make this more efficient: String.hashCodeIgnoreCase */
return f.getPath().toLowerCase(Locale.ENGLISH).hashCode() ^ 1234321;
}
private static native void initIDs();
static {
initIDs();
}
}
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