GridFS
GridFS is a specification for storing and retrieving files that exceed the BSON-document size limit of 16 MB.
Note
GridFS does not support multi-document transactions.
Instead of storing a file in a single document, GridFS divides the file into parts, or chunks [1], and stores each chunk as a separate document. By default, GridFS uses a default chunk size of 255 kB; that is, GridFS divides a file into chunks of 255 kB with the exception of the last chunk. The last chunk is only as large as necessary. Similarly, files that are no larger than the chunk size only have a final chunk, using only as much space as needed plus some additional metadata.
GridFS uses two collections to store files. One collection stores the file chunks, and the other stores file metadata. The section GridFS Collections describes each collection in detail.
When you query GridFS for a file, the driver will reassemble the chunks as needed. You can perform range queries on files stored through GridFS. You can also access information from arbitrary sections of files, such as to "skip" to the middle of a video or audio file.
GridFS is useful not only for storing files that exceed 16 MB but also for storing any files for which you want access without having to load the entire file into memory. See also When to Use GridFS.
When to Use GridFS
In MongoDB, use GridFS for storing files larger than 16 MB.
In some situations, storing large files may be more efficient in a MongoDB database than on a system-level filesystem.
If your filesystem limits the number of files in a directory, you can use GridFS to store as many files as needed.
When you want to access information from portions of large files without having to load whole files into memory, you can use GridFS to recall sections of files without reading the entire file into memory.
When you want to keep your files and metadata automatically synced and deployed across a number of systems and facilities, you can use GridFS. When using geographically distributed replica sets, MongoDB can distribute files and their metadata automatically to a number of
mongod
instances and facilities.
Do not use GridFS if you need to update the content of the entire file atomically. As an alternative you can store multiple versions of each file and specify the current version of the file in the metadata. You can update the metadata field that indicates "latest" status in an atomic update after uploading the new version of the file, and later remove previous versions if needed.
Furthermore, if your files are all smaller than the 16 MB BSON Document Size limit, consider storing each file in a single document instead of using GridFS. You may use the BinData data type to store the binary data. See your drivers documentation for details on using BinData.
Use GridFS
To store and retrieve files using GridFS, use either of the following:
A MongoDB driver. See the drivers documentation for information on using GridFS with your driver.
The
mongofiles
command-line tool. See themongofiles
reference for documentation.
GridFS Collections
GridFS stores files in two collections:
chunks
stores the binary chunks. For details, see Thechunks
Collection.files
stores the file's metadata. For details, see Thefiles
Collection.
GridFS places the collections in a common bucket by prefixing each
with the bucket name. By default, GridFS uses two collections with
a bucket named fs
:
fs.files
fs.chunks
You can choose a different bucket name, as well as create multiple buckets in a single database. The full collection name, which includes the bucket name, is subject to the namespace length limit.
The chunks
Collection
Each document in the chunks
[1] collection
represents a distinct chunk of a file as represented in GridFS.
Documents in this collection have the following form:
{ "_id" : <ObjectId>, "files_id" : <ObjectId>, "n" : <num>, "data" : <binary> }
A document from the chunks
collection contains the following fields:
chunks._id
The unique ObjectId of the chunk.
chunks.data
The chunk's payload as a BSON
Binary
type.
The files
Collection
Each document in the files
collection represents a file in
GridFS.
{ "_id" : <ObjectId>, "length" : <num>, "chunkSize" : <num>, "uploadDate" : <timestamp>, "md5" : <hash>, "filename" : <string>, "contentType" : <string>, "aliases" : <string array>, "metadata" : <any>, }
Documents in the files
collection contain some or all of the
following fields:
files._id
The unique identifier for this document. The
_id
is of the data type you chose for the original document. The default type for MongoDB documents is BSON ObjectId.
files.chunkSize
The size of each chunk in bytes. GridFS divides the document into chunks of size
chunkSize
, except for the last, which is only as large as needed. The default size is 255 kilobytes (kB).
files.md5
Deprecated
The MD5 algorithm is prohibited by FIPS 140-2. MongoDB drivers deprecate MD5 support and will remove MD5 generation in future releases. Applications that require a file digest should implement it outside of GridFS and store in
files.metadata
.An MD5 hash of the complete file returned by the filemd5 command. This value has the
String
type.
files.contentType
Deprecated
Optional. A valid MIME type for the GridFS file. For application use only.
Use
files.metadata
for storing information related to the MIME type of the GridFS file.
files.aliases
Deprecated
Optional. An array of alias strings. For application use only.
Use
files.metadata
for storing information related to the MIME type of the GridFS file.
GridFS Indexes
GridFS uses indexes on each of the chunks
and files
collections
for efficiency. Drivers that conform to
the GridFS specification
automatically create these indexes for
convenience. You can also create any additional indexes as desired to
suit your application's needs.
The chunks
Index
GridFS uses a unique, compound index on the chunks
collection using the
files_id
and n
fields. This allows for efficient retrieval of
chunks, as demonstrated in the following example:
db.fs.chunks.find( { files_id: myFileID } ).sort( { n: 1 } )
Drivers that conform to the GridFS specification will automatically ensure that this index exists before read and write operations. See the relevant driver documentation for the specific behavior of your GridFS application.
If this index does not exist, you can issue the following operation to
create it using the mongo
shell:
db.fs.chunks.createIndex( { files_id: 1, n: 1 }, { unique: true } );
The files
Index
GridFS uses an index on the files
collection using
the filename
and uploadDate
fields. This index allows for
efficient retrieval of files, as shown in this example:
db.fs.files.find( { filename: myFileName } ).sort( { uploadDate: 1 } )
Drivers that conform to the GridFS specification will automatically ensure that this index exists before read and write operations. See the relevant driver documentation for the specific behavior of your GridFS application.
If this index does not exist, you can issue the following operation to
create it using the mongo
shell:
db.fs.files.createIndex( { filename: 1, uploadDate: 1 } );
[1] | (1, 2) The use of the term chunks in the context of GridFS is not related to the use of the term chunks in the context of sharding. |
Sharding GridFS
There are two collections to consider with GridFS - files
and
chunks
.
chunks
Collection
To shard the chunks
collection, use either { files_id : 1, n : 1
}
or { files_id : 1 }
as the shard key index. files_id
is an
ObjectId and changes monotonically.
For MongoDB drivers that do not run filemd5
to verify
successful upload (for example, MongoDB drivers that support MongoDB
4.0 or greater), you can use Hashed Sharding for the
chunks
collection.
If the MongoDB driver runs filemd5
, you cannot use
Hashed Sharding. For details, see SERVER-9888.
files
Collection
The files
collection is small and only contains metadata. None of
the required keys for GridFS lend themselves to an even distribution in
a sharded environment. Leaving files
unsharded allows all the file
metadata documents to live on the primary shard.
If you must shard the files
collection, use the _id
field,
possibly in combination with an application field.