Class MMapDirectory

  • All Implemented Interfaces:
    Closeable, AutoCloseable

    public class MMapDirectory
    extends FSDirectory
    File-based Directory implementation that uses mmap for reading, and FSDirectory.FSIndexOutput for writing.

    NOTE: memory mapping uses up a portion of the virtual memory address space in your process equal to the size of the file being mapped. Before using this class, be sure your have plenty of virtual address space, e.g. by using a 64 bit JRE, or a 32 bit JRE with indexes that are guaranteed to fit within the address space. On 32 bit platforms also consult MMapDirectory(Path, LockFactory, long) if you have problems with mmap failing because of fragmented address space. If you get an OutOfMemoryException, it is recommended to reduce the chunk size, until it works.

    This class supports preloading files into physical memory upon opening. This can help improve performance of searches on a cold page cache at the expense of slowing down opening an index. See setPreload(BiPredicate) for more details.

    Due to this bug in OpenJDK, MMapDirectory's IndexInput.close() is unable to close the underlying OS file handle. Only when GC finally collects the underlying objects, which could be quite some time later, will the file handle be closed.

    This will consume additional transient disk usage: on Windows, attempts to delete or overwrite the files will result in an exception; on other platforms, which typically have a "delete on last close" semantics, while such operations will succeed, the bytes are still consuming space on disk. For many applications this limitation is not a problem (e.g. if you have plenty of disk space, and you don't rely on overwriting files on Windows) but it's still an important limitation to be aware of.

    This class supplies the workaround mentioned in the bug report, which may fail on non-Oracle/OpenJDK JVMs. It forcefully unmaps the buffer on close by using an undocumented internal cleanup functionality. If UNMAP_SUPPORTED is true, the workaround will be automatically enabled (with no guarantees; if you discover any problems, you can disable it by using system property ENABLE_UNMAP_HACK_SYSPROP).

    For the hack to work correct, the following requirements need to be fulfilled: The used JVM must be at least Oracle Java / OpenJDK. In addition, the following permissions need to be granted to lucene-core.jar in your policy file:

    • permission java.lang.reflect.ReflectPermission "suppressAccessChecks";
    • permission java.lang.RuntimePermission "accessClassInPackage.sun.misc";

    On exactly Java 19 / 20 / 21 this class will use the modern MemorySegment API which allows to safely unmap (if you discover any problems with this preview API, you can disable it by using system property ENABLE_MEMORY_SEGMENTS_SYSPROP).

    NOTE: Accessing this class either directly or indirectly from a thread while it's interrupted can close the underlying channel immediately if at the same time the thread is blocked on IO. The channel will remain closed and subsequent access to MMapDirectory will throw a ClosedChannelException. If your application uses either Thread.interrupt() or Future.cancel(boolean) you should use the legacy RAFDirectory from the Lucene misc module in favor of MMapDirectory.

    NOTE: If your application requires external synchronization, you should not synchronize on the MMapDirectory instance as this may cause deadlock; use your own (non-Lucene) objects instead.

    See Also:
    Blog post about MMapDirectory
    • Field Detail

      • DEFAULT_MAX_CHUNK_SIZE

        public static final long DEFAULT_MAX_CHUNK_SIZE
        Default max chunk size:
        • 16 GiBytes for 64 bit Java 19 / 20 / 21 JVMs
        • 1 GiBytes for other 64 bit JVMs
        • 256 MiBytes for 32 bit JVMs
      • ENABLE_UNMAP_HACK_SYSPROP

        public static final String ENABLE_UNMAP_HACK_SYSPROP
        This sysprop allows to control the workaround/hack for unmapping the buffers from address space after closing IndexInput. By default it is enabled; set to false to disable the unmap hack globally. On command line pass -Dorg.apache.lucene.store.MMapDirectory.enableUnmapHack=false to disable.
        See Also:
        Constant Field Values
        NOTE: This API is for internal purposes only and might change in incompatible ways in the next release.
      • ENABLE_MEMORY_SEGMENTS_SYSPROP

        public static final String ENABLE_MEMORY_SEGMENTS_SYSPROP
        This sysprop allows to control if MemorySegment API should be used on supported Java versions. By default it is enabled; set to false to use legacy ByteBuffer implementation. On command line pass -Dorg.apache.lucene.store.MMapDirectory.enableMemorySegments=false to disable.
        See Also:
        Constant Field Values
        NOTE: This API is for internal purposes only and might change in incompatible ways in the next release.
      • UNMAP_SUPPORTED

        public static final boolean UNMAP_SUPPORTED
        true, if this platform supports unmapping mmapped files.
      • UNMAP_NOT_SUPPORTED_REASON

        public static final String UNMAP_NOT_SUPPORTED_REASON
        if UNMAP_SUPPORTED is false, this contains the reason why unmapping is not supported.
    • Constructor Detail

      • MMapDirectory

        public MMapDirectory​(Path path,
                             LockFactory lockFactory)
                      throws IOException
        Create a new MMapDirectory for the named location. The directory is created at the named location if it does not yet exist.
        Parameters:
        path - the path of the directory
        lockFactory - the lock factory to use
        Throws:
        IOException - if there is a low-level I/O error
      • MMapDirectory

        public MMapDirectory​(Path path)
                      throws IOException
        Create a new MMapDirectory for the named location and FSLockFactory.getDefault(). The directory is created at the named location if it does not yet exist.
        Parameters:
        path - the path of the directory
        Throws:
        IOException - if there is a low-level I/O error
      • MMapDirectory

        public MMapDirectory​(Path path,
                             long maxChunkSize)
                      throws IOException
        Create a new MMapDirectory for the named location and FSLockFactory.getDefault(). The directory is created at the named location if it does not yet exist.
        Parameters:
        path - the path of the directory
        maxChunkSize - maximum chunk size (for default see DEFAULT_MAX_CHUNK_SIZE) used for memory mapping.
        Throws:
        IOException - if there is a low-level I/O error
      • MMapDirectory

        public MMapDirectory​(Path path,
                             LockFactory lockFactory,
                             long maxChunkSize)
                      throws IOException
        Create a new MMapDirectory for the named location, specifying the maximum chunk size used for memory mapping. The directory is created at the named location if it does not yet exist.

        Especially on 32 bit platform, the address space can be very fragmented, so large index files cannot be mapped. Using a lower chunk size makes the directory implementation a little bit slower (as the correct chunk may be resolved on lots of seeks) but the chance is higher that mmap does not fail. On 64 bit Java platforms, this parameter should always be large (like 1 GiBytes, or even larger with recent Java versions), as the address space is big enough. If it is larger, fragmentation of address space increases, but number of file handles and mappings is lower for huge installations with many open indexes.

        Please note: The chunk size is always rounded down to a power of 2.

        Parameters:
        path - the path of the directory
        lockFactory - the lock factory to use, or null for the default (NativeFSLockFactory);
        maxChunkSize - maximum chunk size (for default see DEFAULT_MAX_CHUNK_SIZE) used for memory mapping.
        Throws:
        IOException - if there is a low-level I/O error
    • Method Detail

      • setPreload

        public void setPreload​(BiPredicate<String,​IOContext> preload)
        Configure which files to preload in physical memory upon opening. The default implementation does not preload anything. The behavior is best effort and operating system-dependent.
        Parameters:
        preload - a BiPredicate whose first argument is the file name, and second argument is the IOContext used to open the file
        See Also:
        ALL_FILES, NO_FILES
      • setPreload

        @Deprecated
        public void setPreload​(boolean preload)
        Deprecated.
        Use setPreload(BiPredicate) instead which provides more granular control.
        Configure whether to preload files on this MMapDirectory into physical memory upon opening. The behavior is best effort and operating system-dependent.
      • getPreload

        @Deprecated
        public boolean getPreload()
        Deprecated.
        This information is no longer reliable now that preloading is more granularly configured via a predicate.
        Return whether files are loaded into physical memory upon opening.
        See Also:
        setPreload(BiPredicate)