Fast & simple storage. A Node.js-style
LevelDB
wrapper for Node.js, Electron and browsers.
Click to expand
This is a convenience package that:
- exports a function that returns a
levelup
instance when invoked - bundles the current release of
leveldown
andlevel-js
- leverages encodings using
encoding-down
.
Use this package to avoid having to explicitly install leveldown
or level-js
when you just want to use levelup
. It uses leveldown
in Node.js or Electron and level-js
in browsers (when bundled by browserify
, webpack
, rollup
or similar). For a quick start, visit browserify-starter
or webpack-starter
. Note: rollup
currently fails to properly resolve the browser
field.
If you are upgrading: please see UPGRADING.md
.
var level = require('level')
// 1) Create our database, supply location and options.
// This will create or open the underlying store.
var db = level('my-db')
// 2) Put a key & value
db.put('name', 'Level', function (err) {
if (err) return console.log('Ooops!', err) // some kind of I/O error
// 3) Fetch by key
db.get('name', function (err, value) {
if (err) return console.log('Ooops!', err) // likely the key was not found
// Ta da!
console.log('name=' + value)
})
})
At the time of writing, level
works in Node.js 8+ and Electron 3+ on Linux, Mac OS, Windows and FreeBSD, including any future Node.js and Electron release thanks to N-API, including ARM platforms like Raspberry Pi and Android, as well as in Chrome, Firefox, IE 11, Edge, Safari, iPhone and Chrome for Android. For details, see Supported Platforms of leveldown
and Browser Support of level-js
.
Binary values are supported across the board; in browsers that support IndexedDB Second Edition (like Chrome and Firefox) you can also use binary keys.
If you want to use Promises, you will need a polyfill like pinkie
in older browsers like IE.
For options specific to leveldown
and level-js
("underlying store" from here on out), please see their respective READMEs.
level()
db.supports
db.open()
db.close()
db.put()
db.get()
db.del()
db.batch()
(array form)db.batch()
(chained form)db.isOpen()
db.isClosed()
db.createReadStream()
db.createKeyStream()
db.createValueStream()
db.iterator()
db.clear()
The main entry point for creating a new levelup
instance.
location
is a string pointing to the LevelDB location to be opened or in browsers, the name of theIDBDatabase
to be opened.options
is passed on to the underlying store.options.keyEncoding
andoptions.valueEncoding
are passed toencoding-down
, default encoding is'utf8'
Calling level('my-db')
will also open the underlying store. This is an asynchronous operation which will trigger your callback if you provide one. The callback should take the form function (err, db) {}
where db
is the levelup
instance. If you don't provide a callback, any read & write operations are simply queued internally until the store is fully opened.
This leads to two alternative ways of managing a levelup
instance:
level(location, options, function (err, db) {
if (err) throw err
db.get('foo', function (err, value) {
if (err) return console.log('foo does not exist')
console.log('got foo =', value)
})
})
Versus the equivalent:
// Will throw if an error occurs
var db = level(location, options)
db.get('foo', function (err, value) {
if (err) return console.log('foo does not exist')
console.log('got foo =', value)
})
The constructor function has a .errors
property which provides access to the different error types from level-errors
. See example below on how to use it:
level('my-db', { createIfMissing: false }, function (err, db) {
if (err instanceof level.errors.OpenError) {
console.log('failed to open database')
}
})
Note that createIfMissing
is an option specific to leveldown
.
A read-only manifest. Not widely supported yet. Might be used like so:
if (!db.supports.permanence) {
throw new Error('Persistent storage is required')
}
if (db.supports.bufferKeys && db.supports.promises) {
await db.put(Buffer.from('key'), 'value')
}
Opens the underlying store. In general you should never need to call this method directly as it's automatically called by levelup()
.
However, it is possible to reopen the store after it has been closed with close()
, although this is not generally advised.
If no callback is passed, a promise is returned.
close()
closes the underlying store. The callback will receive any error encountered during closing as the first argument.
You should always clean up your levelup
instance by calling close()
when you no longer need it to free up resources. A store cannot be opened by multiple instances of levelup
simultaneously.
If no callback is passed, a promise is returned.
put()
is the primary method for inserting data into the store. Both key
and value
can be of any type as far as levelup
is concerned.
options
is passed on to the underlying storeoptions.keyEncoding
andoptions.valueEncoding
are passed toencoding-down
, allowing you to override the key- and/or value encoding for thisput
operation.
If no callback is passed, a promise is returned.
get()
is the primary method for fetching data from the store. The key
can be of any type. If it doesn't exist in the store then the callback or promise will receive an error. A not-found err object will be of type 'NotFoundError'
so you can err.type == 'NotFoundError'
or you can perform a truthy test on the property err.notFound
.
db.get('foo', function (err, value) {
if (err) {
if (err.notFound) {
// handle a 'NotFoundError' here
return
}
// I/O or other error, pass it up the callback chain
return callback(err)
}
// .. handle `value` here
})
options
is passed on to the underlying store.options.keyEncoding
andoptions.valueEncoding
are passed toencoding-down
, allowing you to override the key- and/or value encoding for thisget
operation.
If no callback is passed, a promise is returned.
del()
is the primary method for removing data from the store.
db.del('foo', function (err) {
if (err)
// handle I/O or other error
});
options
is passed on to the underlying store.options.keyEncoding
is passed toencoding-down
, allowing you to override the key encoding for thisdel
operation.
If no callback is passed, a promise is returned.
batch()
can be used for very fast bulk-write operations (both put and delete). The array
argument should contain a list of operations to be executed sequentially, although as a whole they are performed as an atomic operation inside the underlying store.
Each operation is contained in an object having the following properties: type
, key
, value
, where the type is either 'put'
or 'del'
. In the case of 'del'
the value
property is ignored. Any entries with a key
of null
or undefined
will cause an error to be returned on the callback
and any type: 'put'
entry with a value
of null
or undefined
will return an error.
var ops = [
{ type: 'del', key: 'father' },
{ type: 'put', key: 'name', value: 'Yuri Irsenovich Kim' },
{ type: 'put', key: 'dob', value: '16 February 1941' },
{ type: 'put', key: 'spouse', value: 'Kim Young-sook' },
{ type: 'put', key: 'occupation', value: 'Clown' }
]
db.batch(ops, function (err) {
if (err) return console.log('Ooops!', err)
console.log('Great success dear leader!')
})
options
is passed on to the underlying store.options.keyEncoding
andoptions.valueEncoding
are passed toencoding-down
, allowing you to override the key- and/or value encoding of operations in this batch.
If no callback is passed, a promise is returned.
batch()
, when called with no arguments will return a Batch
object which can be used to build, and eventually commit, an atomic batch operation. Depending on how it's used, it is possible to obtain greater performance when using the chained form of batch()
over the array form.
db.batch()
.del('father')
.put('name', 'Yuri Irsenovich Kim')
.put('dob', '16 February 1941')
.put('spouse', 'Kim Young-sook')
.put('occupation', 'Clown')
.write(function () { console.log('Done!') })
batch.put(key, value)
Queue a put operation on the current batch, not committed until a write()
is called on the batch.
This method may throw
a WriteError
if there is a problem with your put (such as the value
being null
or undefined
).
batch.del(key)
Queue a del operation on the current batch, not committed until a write()
is called on the batch.
This method may throw
a WriteError
if there is a problem with your delete.
batch.clear()
Clear all queued operations on the current batch, any previous operations will be discarded.
batch.length
The number of queued operations on the current batch.
batch.write([options][, callback])
Commit the queued operations for this batch. All operations not cleared will be written to the underlying store atomically, that is, they will either all succeed or fail with no partial commits.
options
is passed on to the underlying store.options.keyEncoding
andoptions.valueEncoding
are not supported here.
If no callback is passed, a promise is returned.
A levelup
instance can be in one of the following states:
- "new" - newly created, not opened or closed
- "opening" - waiting for the underlying store to be opened
- "open" - successfully opened the store, available for use
- "closing" - waiting for the store to be closed
- "closed" - store has been successfully closed, should not be used
isOpen()
will return true
only when the state is "open".
isClosed()
will return true
only when the state is "closing" or "closed", it can be useful for determining if read and write operations are permissible.
Returns a Readable Stream of key-value pairs. A pair is an object with key
and value
properties. By default it will stream all entries in the underlying store from start to end. Use the options described below to control the range, direction and results.
db.createReadStream()
.on('data', function (data) {
console.log(data.key, '=', data.value)
})
.on('error', function (err) {
console.log('Oh my!', err)
})
.on('close', function () {
console.log('Stream closed')
})
.on('end', function () {
console.log('Stream ended')
})
You can supply an options object as the first parameter to createReadStream()
with the following properties:
-
gt
(greater than),gte
(greater than or equal) define the lower bound of the range to be streamed. Only entries where the key is greater than (or equal to) this option will be included in the range. Whenreverse=true
the order will be reversed, but the entries streamed will be the same. -
lt
(less than),lte
(less than or equal) define the higher bound of the range to be streamed. Only entries where the key is less than (or equal to) this option will be included in the range. Whenreverse=true
the order will be reversed, but the entries streamed will be the same. -
reverse
(boolean, default:false
): stream entries in reverse order. Beware that due to the way that stores like LevelDB work, a reverse seek can be slower than a forward seek. -
limit
(number, default:-1
): limit the number of entries collected by this stream. This number represents a maximum number of entries and may not be reached if you get to the end of the range first. A value of-1
means there is no limit. Whenreverse=true
the entries with the highest keys will be returned instead of the lowest keys. -
keys
(boolean, default:true
): whether the results should contain keys. If set totrue
andvalues
set tofalse
then results will simply be keys, rather than objects with akey
property. Used internally by thecreateKeyStream()
method. -
values
(boolean, default:true
): whether the results should contain values. If set totrue
andkeys
set tofalse
then results will simply be values, rather than objects with avalue
property. Used internally by thecreateValueStream()
method.
Legacy options:
-
start
: instead usegte
-
end
: instead uselte
Underlying stores may have additional options.
Returns a Readable Stream of keys rather than key-value pairs. Use the same options as described for createReadStream
to control the range and direction.
You can also obtain this stream by passing an options object to createReadStream()
with keys
set to true
and values
set to false
. The result is equivalent; both streams operate in object mode.
db.createKeyStream()
.on('data', function (data) {
console.log('key=', data)
})
// same as:
db.createReadStream({ keys: true, values: false })
.on('data', function (data) {
console.log('key=', data)
})
Returns a Readable Stream of values rather than key-value pairs. Use the same options as described for createReadStream
to control the range and direction.
You can also obtain this stream by passing an options object to createReadStream()
with values
set to true
and keys
set to false
. The result is equivalent; both streams operate in object mode.
db.createValueStream()
.on('data', function (data) {
console.log('value=', data)
})
// same as:
db.createReadStream({ keys: false, values: true })
.on('data', function (data) {
console.log('value=', data)
})
Returns an abstract-leveldown
iterator, which is what powers the readable streams above. Options are the same as the range options of createReadStream
and are passed to the underlying store.
This method is experimental. Not all underlying stores support it yet. Consult Level/community#79 to find out if your (combination of) dependencies support db.clear()
.
Delete all entries or a range. Not guaranteed to be atomic. Accepts the following range options (with the same rules as on iterators):
gt
(greater than),gte
(greater than or equal) define the lower bound of the range to be deleted. Only entries where the key is greater than (or equal to) this option will be included in the range. Whenreverse=true
the order will be reversed, but the entries deleted will be the same.lt
(less than),lte
(less than or equal) define the higher bound of the range to be deleted. Only entries where the key is less than (or equal to) this option will be included in the range. Whenreverse=true
the order will be reversed, but the entries deleted will be the same.reverse
(boolean, default:false
): delete entries in reverse order. Only effective in combination withlimit
, to remove the last N records.limit
(number, default:-1
): limit the number of entries to be deleted. This number represents a maximum number of entries and may not be reached if you get to the end of the range first. A value of-1
means there is no limit. Whenreverse=true
the entries with the highest keys will be deleted instead of the lowest keys.
If no options are provided, all entries will be deleted. The callback
function will be called with no arguments if the operation was successful or with an WriteError
if it failed for any reason.
If no callback is passed, a promise is returned.
level(up)
ships with native Promise
support out of the box.
Each function taking a callback also can be used as a promise, if the callback is omitted. This applies for:
db.get(key[, options])
db.put(key, value[, options])
db.del(key[, options])
db.batch(ops[, options])
db.batch().write()
db.clear(options)
The only exception is the level
constructor itself, which if no callback is passed will lazily open the underlying store in the background.
Example:
var db = level('my-db')
db.put('foo', 'bar')
.then(function () { return db.get('foo') })
.then(function (value) { console.log(value) })
.catch(function (err) { console.error(err) })
Or using async/await
:
var main = async () => {
var db = level('my-db')
await db.put('foo', 'bar')
console.log(await db.get('foo'))
}
levelup
is an EventEmitter
and emits the following events.
Event | Description | Arguments |
---|---|---|
put |
Key has been updated | key, value (any) |
del |
Key has been deleted | key (any) |
batch |
Batch has executed | operations (array) |
opening |
Underlying store is opening | - |
open |
Store has opened | - |
ready |
Alias of open |
- |
closing |
Store is closing | - |
closed |
Store has closed. | - |
For example you can do:
db.on('put', function (key, value) {
console.log('inserted', { key, value })
})
Level/level
is an OPEN Open Source Project. This means that:
Individuals making significant and valuable contributions are given commit-access to the project to contribute as they see fit. This project is more like an open wiki than a standard guarded open source project.
See the Contribution Guide for more details.
To sustain Level
and its activities, become a backer or sponsor on Open Collective. Your logo or avatar will be displayed on our 28+ GitHub repositories and npm packages. 💖
MIT © 2013-present Rod Vagg and Contributors.