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Journaling Mechanics

When running with journaling, MongoDB stores and applies write operations in memory and in the on-disk journal before the changes are present in the data files on disk. This document discusses the implementation and mechanics of journaling in MongoDB systems. See Manage Journaling for information on configuring, tuning, and managing journaling.

Journal Files

With journaling enabled, MongoDB creates a journal subdirectory within the directory defined by dbpath, which is /data/db by default. The journal directory holds journal files, which contain write-ahead redo logs. The directory also holds a last-sequence-number file. A clean shutdown removes all the files in the journal directory. A dirty shutdown (crash) leaves files in the journal directory; these are used to automatically recover the database to a consistent state when the mongod process is restarted.

Journal files are append-only files and have file names prefixed with j._. When a journal file holds 1 gigabyte of data, MongoDB creates a new journal file. Once MongoDB applies all the write operations in a particular journal file to the database data files, it deletes the file, as it is no longer needed for recovery purposes. Unless you write many bytes of data per second, the journal directory should contain only two or three journal files.

You can use the smallfiles run time option when starting mongod to limit the size of each journal file to 128 megabytes, if you prefer.

To speed the frequent sequential writes that occur to the current journal file, you can ensure that the journal directory is on a different filesystem from the database data files.


If you place the journal on a different filesystem from your data files you cannot use a filesystem snapshot alone to capture valid backups of a dbpath directory. In this case, use fsyncLock() to ensure that database files are consistent before the snapshot and fsyncUnlock() once the snapshot is complete.


Depending on your filesystem, you might experience a preallocation lag the first time you start a mongod instance with journaling enabled.

MongoDB may preallocate journal files if the mongod process determines that it is more efficient to preallocate journal files than create new journal files as needed. The amount of time required to pre-allocate lag might last several minutes, during which you will not be able to connect to the database. This is a one-time preallocation and does not occur with future invocations.

To avoid preallocation lag, see Avoid Preallocation Lag.

Storage Views used in Journaling

Journaling adds three internal storage views to MongoDB.

The shared view stores modified data for upload to the MongoDB data files. The shared view is the only view with direct access to the MongoDB data files. When running with journaling, mongod asks the operating system to map your existing on-disk data files to the shared view virtual memory view. The operating system maps the files but does not load them. MongoDB later loads data files into the shared view as needed.

The private view stores data for use with read operations. The private view is the first place MongoDB applies new write operations. Upon a journal commit, MongoDB copies the changes made in the private view to the shared view, where they are then available for uploading to the database data files.

The journal is an on-disk view that stores new write operations after MongoDB applies the operation to the private view but before applying them to the data files. The journal provides durability. If the mongod instance were to crash without having applied the writes to the data files, the journal could replay the writes to the shared view for eventual upload to the data files.

How Journaling Records Write Operations

MongoDB copies the write operations to the journal in batches called group commits. These “group commits” help minimize the performance impact of journaling, since a group commit must block all writers during the commit. See journalCommitInterval for information on the default commit interval.

Journaling stores raw operations that allow MongoDB to reconstruct the following:

  • document insertion/updates
  • index modifications
  • metadata changes to the namespace files
  • creation and dropping of databases and their associated data files

As write operations occur, MongoDB writes the data to the private view in RAM and then copies the write operations in batches to the journal. The journal stores the operations on disk to ensure durability. Each journal entry describes the bytes the write operation changed in the data files.

MongoDB next applies the journal’s write operations to the shared view. At this point, the shared view becomes inconsistent with the data files.

At default intervals of 60 seconds, MongoDB asks the operating system to flush the shared view to disk. This brings the data files up-to-date with the latest write operations. The operating system may choose to flush the shared view to disk at a higher frequency than 60 seconds, particularly if the system is low on free memory.

When MongoDB flushes write operations to the data files, MongoDB notes which journal writes have been flushed. Once a journal file contains only flushed writes, it is no longer needed for recovery, and MongoDB either deletes it or recycles it for a new journal file.

As part of journaling, MongoDB routinely asks the operating system to remap the shared view to the private view, in order to save physical RAM. Upon a new remapping, the operating system knows that physical memory pages can be shared between the shared view and the private view mappings.


The interaction between the shared view and the on-disk data files is similar to how MongoDB works without journaling, which is that MongoDB asks the operating system to flush in-memory changes back to the data files every 60 seconds.