A file system's metadata is typically referred to as its
file attributes.
The Files
class includes methods that can be used to obtain
a single attribute of a file, or to set an attribute.
Methods | Comment |
---|---|
size(Path) |
Returns the size of the specified file in bytes. |
isDirectory(Path, LinkOption) |
Returns true if the specified Path locates a file that is a directory. |
isRegularFile(Path, LinkOption...) |
Returns true if the specified Path locates a file that is a regular file. |
isSymbolicLink(Path) |
Returns true if the specified Path locates a file that is a symbolic link. |
isHidden(Path) |
Returns true if the specified Path locates a file that is considered hidden by the file system. |
getLastModifiedTime(Path, LinkOption...) setLastModifiedTime(Path, FileTime) |
Returns or sets the specified file's last modified time. |
getOwner(Path, LinkOption...) setOwner(Path, UserPrincipal) |
Returns or sets the owner of the file. |
getPosixFilePermissions(Path, LinkOption...) setPosixFilePermissions(Path, Set<PosixFilePermission>) |
Returns or sets a file's POSIX file permissions. |
getAttribute(Path, String, LinkOption...) setAttribute(Path, String, Object, LinkOption...) |
Returns or sets the value of a file attribute. |
If a program needs multiple file attributes around the same time,
it can be inefficient to use methods that retrieve a single attribute.
Repeatedly accessing the file system to retrieve a single attribute can
adversely affect performance.
For this reason, the the Files
class provides two
readAttriutes
methods
to fetch a file's attributes in one bulk operation.
Method | Comment |
---|---|
readAttributes(Path, String, LinkOption...) |
Reads a file's attributes as a bulk operation. The
String parameter identifies the attributes to be read.
|
readAttributes(Path, Class<A>, LinkOption...) |
Reads a file's attributes as a bulk operation. The
Class<A> parameter is the type of attributes requested
and the method returns an object of that class.
|
Before showing examples of the readAttributes
methods,
it should be mentioned that different file systems have different notions
about which attributes should be tracked. For this reason,
related file attributes are grouped together into views.
A view maps to a particular file system implementation, such as
POSIX or DOS, or to a common functionality, such as file ownership.
The supported views are as follows:
BasicFileAttributeView
– Provides a view of basic attributes that are required to be
supported by all file system implementations.
DosFileAttributeView
– Extends the basic attribute view with the standard four bits supported on
file systems that support the DOS attributes.
PosixFileAttributeView
– Extends the basic attribute view with attributes supported on file
systems that support the POSIX family of standards, such as UNIX.
These attributes include file owner, group owner,
and the nine related access permissions.
FileOwnerAttributeView
– Supported by any file system implementation that supports the concept
of a file owner.
AclFileAttributeView
– Supports reading or updating a file's Access Control Lists (ACL).
The NFSv4 ACL model is supported. Any ACL model, such as the Windows ACL model, that
has a well-defined mapping to the NFSv4 model might also be supported.
UserDefinedFileAttributeView
– Enables support of metadata that is user defined. This view can be
mapped to any extension mechanisms that a system supports.
In the Solaris OS,
for example, you can use this view to store the MIME type of a file.
A specific file system implementation might support only the basic file attribute view, or it may support several of these file attribute views. A file system implementation might support other attribute views not included in this API.
In most instances, you should not have to deal directly with
any of the FileAttributeView
interfaces.
(If you do need to work directly with the FileAttributeView
,
you can access it via the
getFileAttributeView(Path, Class<V>, LinkOption...)
method.)
The readAttributes
methods use generics and can be used
to read the attributes for any of the file attributes views.
The examples in the rest of this page use the readAttributes
methods.
The remainder of this section covers the following topics:
As mentioned previously,
to read the basic attributes of a file, you can use one of the
Files.readAttributes
methods,
which reads all the basic attributes in one bulk operation.
This is far more efficient than accessing the file system separately to
read each individual attribute.
The varargs argument currently supports the
LinkOption
enum, NOFOLLOW_LINKS
. Use this option when you do not
want symbolic links to be followed.
creationTime
,
lastModifiedTime
, and lastAccessTime
.
Any of these time stamps might not be supported in a particular implementation,
in which case the corresponding accessor method returns an
implementation-specific value.
When supported, the time stamp is returned as an
FileTime
object.
The following code snippet reads and prints the basic file attributes
for a given file and uses the methods in the
BasicFileAttributes
class.
Path file = ...; BasicFileAttributes attr = Files.readAttributes(file, BasicFileAttributes.class); System.out.println("creationTime: " + attr.creationTime()); System.out.println("lastAccessTime: " + attr.lastAccessTime()); System.out.println("lastModifiedTime: " + attr.lastModifiedTime()); System.out.println("isDirectory: " + attr.isDirectory()); System.out.println("isOther: " + attr.isOther()); System.out.println("isRegularFile: " + attr.isRegularFile()); System.out.println("isSymbolicLink: " + attr.isSymbolicLink()); System.out.println("size: " + attr.size());
In addition to the accessor methods shown in this example,
there is a fileKey
method that returns either an object that
uniquely identifies the file or null
if no file key is available.
The following code snippet sets the last modified time in milliseconds:
Path file = ...; BasicFileAttributes attr = Files.readAttributes(file, BasicFileAttributes.class); long currentTime = System.currentTimeMillis(); FileTime ft = FileTime.fromMillis(currentTime); Files.setLastModifiedTime(file, ft); }
DOS file attributes are also supported on file systems other than DOS,
such as Samba. The following snippet uses the methods of the
DosFileAttributes
class.
Path file = ...; try { DosFileAttributes attr = Files.readAttributes(file, DosFileAttributes.class); System.out.println("isReadOnly is " + attr.isReadOnly()); System.out.println("isHidden is " + attr.isHidden()); System.out.println("isArchive is " + attr.isArchive()); System.out.println("isSystem is " + attr.isSystem()); } catch (UnsupportedOperationException x) { System.err.println("DOS file attributes not supported:" + x); }
However, you can set a DOS attribute using the
setAttribute(Path, String, Object, LinkOption...)
method, as follows:
Path file = ...; Files.setAttribute(file, "dos:hidden", true);
POSIX is an acronym for Portable Operating System Interface for UNIX and is a set of IEEE and ISO standards designed to ensure interoperability among different flavors of UNIX. If a program conforms to these POSIX standards, it should be easily ported to other POSIX-compliant operating systems.
Besides file owner and group owner, POSIX supports nine file permissions: read, write, and execute permissions for the file owner, members of the same group, and "everyone else."
The following code snippet reads the POSIX file attributes for a given file
and prints them to standard output. The code uses the methods in the
PosixFileAttributes
class.
Path file = ...; PosixFileAttributes attr = Files.readAttributes(file, PosixFileAttributes.class); System.out.format("%s %s %s%n", attr.owner().getName, attr.group().getName(), PosixFilePermissions.toString(attr.permissions()));
The
PosixFilePermissions
helper class provides several useful methods, as follows:
toString
method,
used in the previous code snippet, converts the file permissions to
a string (for example, rw-r--r--
).
fromString
method accepts
a string representing the file permissions and constructs
a Set
of file permissions.
asFileAttribute
method accepts a Set
of file permissions and constructs
a file attribute that can be passed to the Path.createFile
or Path.createDirectory
method.
The following code snippet reads the attributes from one file and creates a new file, assigning the attributes from the original file to the new file:
Path sourceFile = ...; Path newFile = ...; PosixFileAttributes attrs = Files.readAttributes(sourceFile, PosixFileAttributes.class); FileAttribute<Set<PosixFilePermission>> attr = PosixFilePermissions.asFileAttribute(attrs.permissions()); Files.createFile(file, attr);
The asFileAttribute
method wraps the permissions as a
FileAttribute
.
The code then attempts to create a new file with those permissions.
Note that the umask
also applies,
so the new file might be more secure than the permissions
that were requested.
To set a file's permissions to values represented as a hard-coded string, you can use the following code:
Path file = ...; Set<PosixFilePermission> perms = PosixFilePermissions.fromString("rw-------"); FileAttribute<Set<PosixFilePermission>> attr = PosixFilePermissions.asFileAttribute(perms); Files.setPosixFilePermissions(file, perms);
The
example recursively changes the permissions of files in a manner similar to the
Chmod
chmod
utility.
To translate a name into an object you can store as a file owner
or a group owner, you can use the
UserPrincipalLookupService
service.
This service looks up a name or group name as a string and returns
a UserPrincipal
object representing that string.
You can obtain the user principal look-up service for the default file system
by using the
FileSystem.getUserPrincipalLookupService
method.
The following code snippet shows how to set the file owner by using the
setOwner
method:
Path file = ...; UserPrincipal owner = file.GetFileSystem().getUserPrincipalLookupService() .lookupPrincipalByName("sally"); Files.setOwner(file, owner);
There is no special-purpose method in the Files
class
for setting a group owner.
However, a safe way to do so directly is through the POSIX file
attribute view, as follows:
Path file = ...; GroupPrincipal group = file.getFileSystem().getUserPrincipalLookupService() .lookupPrincipalByGroupName("green"); Files.getFileAttributeView(file, PosixFileAttributeView.class).setGroup(group);
If the file attributes supported by your file system implementation
aren't sufficient for your needs, you can use the UserDefinedAttributeView
to create and track your own file attributes.
Some implementations map this concept to features like NTFS Alternative Data Streams and extended attributes on file systems such as ext3 and ZFS. Most implementations impose restrictions on the size of the value, for example, ext3 limits the size to 4 kilobytes.
A file's MIME type can be stored as a user-defined attribute by using this code snippet:
Path file = ...; UserDefinedFileAttributeView view = Files .getFileAttributeView(file, UserDefinedFileAttributeView.class); view.write("user.mimetype", Charset.defaultCharset().encode("text/html");
To read the MIME type attribute, you would use this code snippet:
Path file = ...; UserDefinedFileAttributeView view = file .getFileAttributeView(UserDefinedFileAttributeView.class); String name = "user.mimetype"; ByteBuffer buf = ByteBuffer.allocate(view.size(name)); view.read(name, buf); buf.flip(); String value = Charset.defaultCharset().decode(buf).toString();
The
example shows how to get, set, and delete a user-defined attribute.
Xdd
UnsupportedOperationException
when
trying to access the user-defined attribute view,
you need to remount the file system.
The following command remounts the root partition with extended
attributes for the ext3 file system.
If this command does not work for your flavor of Linux,
consult the documentation.
$ sudo mount -o remount,user_xattr /
/etc/fstab
.
You can use the
FileStore
class to learn information about a file store, such as
how much space is available. The
getFileStore(Path)
method fetches the file store for the specified file.
The following code snippet prints the space usage for the file store where a particular file resides:
Path file = ...; FileStore store = Files.getFileStore(file); long total = store.getTotalSpace() / 1024; long used = (store.getTotalSpace() - store.getUnallocatedSpace()) / 1024; long avail = store.getUsableSpace() / 1024;
The
DiskUsage
example uses this API to print disk space information for all the stores
in the default file system. This example uses the
getFileStores
method in the FileSystem
class to fetch all the file stores
for the the file system.