const path = require ( 'path' )
const { deprecate } = require ( 'util' )
const byline = require ( './byline' )
const customUtils = require ( './customUtils.js' )
const Index = require ( './indexes.js' )
const model = require ( './model.js' )
const storage = require ( './storage.js' )
const DEFAULT _DIR _MODE = 0o755
const DEFAULT _FILE _MODE = 0o644
/ * *
* Under the hood , NeDB ' s persistence uses an append - only format , meaning that all
* updates and deletes actually result in lines added at the end of the datafile ,
* for performance reasons . The database is automatically compacted ( i . e . put back
* in the one - line - per - document format ) every time you load each database within
* your application .
*
* Persistence handles the compaction exposed in the Datastore { @ link Datastore # compactDatafileAsync } ,
* { @ link Datastore # setAutocompactionInterval } .
*
* Since version 3.0 . 0 , using { @ link Datastore . persistence } methods manually is deprecated .
*
* Compaction takes a bit of time ( not too much : 130 ms for 50 k
* records on a typical development machine ) and no other operation can happen when
* it does , so most projects actually don ' t need to use it .
*
* Compaction will also immediately remove any documents whose data line has become
* corrupted , assuming that the total percentage of all corrupted documents in that
* database still falls below the specified ` corruptAlertThreshold ` option ' s value .
*
* Durability works similarly to major databases : compaction forces the OS to
* physically flush data to disk , while appends to the data file do not ( the OS is
* responsible for flushing the data ) . That guarantees that a server crash can
* never cause complete data loss , while preserving performance . The worst that can
* happen is a crash between two syncs , causing a loss of all data between the two
* syncs . Usually syncs are 30 seconds appart so that ' s at most 30 seconds of
* data . [ This post by Antirez on Redis persistence ] ( http : //oldblog.antirez.com/post/redis-persistence-demystified.html)
* explains this in more details , NeDB being very close to Redis AOF persistence
* with ` appendfsync ` option set to ` no ` .
* /
class Persistence {
/ * *
* Create a new Persistence object for database options . db
* @ param { Datastore } options . db
* @ param { Number } [ options . corruptAlertThreshold ] Optional , threshold after which an alert is thrown if too much data is corrupt
* @ param { serializationHook } [ options . beforeDeserialization ] Hook you can use to transform data after it was serialized and before it is written to disk .
* @ param { serializationHook } [ options . afterSerialization ] Inverse of ` afterSerialization ` .
* @ param { object } [ options . modes ] Modes to use for FS permissions . Will not work on Windows .
* @ param { number } [ options . modes . fileMode = 0o644 ] Mode to use for files .
* @ param { number } [ options . modes . dirMode = 0o755 ] Mode to use for directories .
* @ param { boolean } [ options . testSerializationHooks = true ] Whether to test the serialization hooks or not , might be CPU - intensive
* /
constructor ( options ) {
this . db = options . db
this . inMemoryOnly = this . db . inMemoryOnly
this . filename = this . db . filename
this . corruptAlertThreshold = options . corruptAlertThreshold !== undefined ? options . corruptAlertThreshold : 0.1
this . modes = options . modes !== undefined ? options . modes : { fileMode : DEFAULT _FILE _MODE , dirMode : DEFAULT _DIR _MODE }
if ( this . modes . fileMode === undefined ) this . modes . fileMode = DEFAULT _FILE _MODE
if ( this . modes . dirMode === undefined ) this . modes . dirMode = DEFAULT _DIR _MODE
if (
! this . inMemoryOnly &&
this . filename &&
this . filename . charAt ( this . filename . length - 1 ) === '~'
) throw new Error ( 'The datafile name can\'t end with a ~, which is reserved for crash safe backup files' )
// After serialization and before deserialization hooks with some basic sanity checks
if (
options . afterSerialization &&
! options . beforeDeserialization
) throw new Error ( 'Serialization hook defined but deserialization hook undefined, cautiously refusing to start NeDB to prevent dataloss' )
if (
! options . afterSerialization &&
options . beforeDeserialization
) throw new Error ( 'Serialization hook undefined but deserialization hook defined, cautiously refusing to start NeDB to prevent dataloss' )
this . afterSerialization = options . afterSerialization || ( s => s )
this . beforeDeserialization = options . beforeDeserialization || ( s => s )
if ( options . testSerializationHooks === undefined || options . testSerializationHooks ) {
for ( let i = 1 ; i < 30 ; i += 1 ) {
for ( let j = 0 ; j < 10 ; j += 1 ) {
const randomString = customUtils . uid ( i )
if ( this . beforeDeserialization ( this . afterSerialization ( randomString ) ) !== randomString ) {
throw new Error ( 'beforeDeserialization is not the reverse of afterSerialization, cautiously refusing to start NeDB to prevent dataloss' )
}
}
}
}
}
/ * *
* Internal version without using the { @ link Datastore # executor } of { @ link Datastore # compactDatafileAsync } , use it instead .
* @ return { Promise < void > }
* @ private
* /
async persistCachedDatabaseAsync ( ) {
const lines = [ ]
if ( this . inMemoryOnly ) return
this . db . getAllData ( ) . forEach ( doc => {
lines . push ( this . afterSerialization ( model . serialize ( doc ) ) )
} )
Object . keys ( this . db . indexes ) . forEach ( fieldName => {
if ( fieldName !== '_id' ) { // The special _id index is managed by datastore.js, the others need to be persisted
lines . push ( this . afterSerialization ( model . serialize ( {
$$indexCreated : {
fieldName : fieldName ,
unique : this . db . indexes [ fieldName ] . unique ,
sparse : this . db . indexes [ fieldName ] . sparse
}
} ) ) )
}
} )
await storage . crashSafeWriteFileLinesAsync ( this . filename , lines , this . modes )
this . db . emit ( 'compaction.done' )
}
/ * *
* @ see Datastore # compactDatafile
* @ deprecated
* @ param { NoParamCallback } [ callback = ( ) => { } ]
* @ see Persistence # compactDatafileAsync
* /
compactDatafile ( callback ) {
deprecate ( _callback => this . db . compactDatafile ( _callback ) , '@seald-io/nedb: calling Datastore#persistence#compactDatafile is deprecated, please use Datastore#compactDatafile, it will be removed in the next major version.' ) ( callback )
}
/ * *
* @ see Datastore # setAutocompactionInterval
* @ deprecated
* /
setAutocompactionInterval ( interval ) {
deprecate ( _interval => this . db . setAutocompactionInterval ( _interval ) , '@seald-io/nedb: calling Datastore#persistence#setAutocompactionInterval is deprecated, please use Datastore#setAutocompactionInterval, it will be removed in the next major version.' ) ( interval )
}
/ * *
* @ see Datastore # stopAutocompaction
* @ deprecated
* /
stopAutocompaction ( ) {
deprecate ( ( ) => this . db . stopAutocompaction ( ) , '@seald-io/nedb: calling Datastore#persistence#stopAutocompaction is deprecated, please use Datastore#stopAutocompaction, it will be removed in the next major version.' ) ( )
}
/ * *
* Persist new state for the given newDocs ( can be insertion , update or removal )
* Use an append - only format
*
* Do not use directly , it should only used by a { @ link Datastore } instance .
* @ param { document [ ] } newDocs Can be empty if no doc was updated / removed
* @ return { Promise }
* @ private
* /
async persistNewStateAsync ( newDocs ) {
let toPersist = ''
// In-memory only datastore
if ( this . inMemoryOnly ) return
newDocs . forEach ( doc => {
toPersist += this . afterSerialization ( model . serialize ( doc ) ) + '\n'
} )
if ( toPersist . length === 0 ) return
await storage . appendFileAsync ( this . filename , toPersist , { encoding : 'utf8' , mode : this . modes . fileMode } )
}
/ * *
* @ typedef rawIndex
* @ property { string } fieldName
* @ property { boolean } [ unique ]
* @ property { boolean } [ sparse ]
* /
/ * *
* From a database ' s raw data , return the corresponding machine understandable collection .
*
* Do not use directly , it should only used by a { @ link Datastore } instance .
* @ param { string } rawData database file
* @ return { { data : document [ ] , indexes : Object . < string , rawIndex > } }
* @ private
* /
treatRawData ( rawData ) {
const data = rawData . split ( '\n' )
const dataById = { }
const indexes = { }
let dataLength = data . length
// Last line of every data file is usually blank so not really corrupt
let corruptItems = 0
for ( const datum of data ) {
if ( datum === '' ) { dataLength -- ; continue }
try {
const doc = model . deserialize ( this . beforeDeserialization ( datum ) )
if ( doc . _id ) {
if ( doc . $$deleted === true ) delete dataById [ doc . _id ]
else dataById [ doc . _id ] = doc
} else if ( doc . $$indexCreated && doc . $$indexCreated . fieldName != null ) indexes [ doc . $$indexCreated . fieldName ] = doc . $$indexCreated
else if ( typeof doc . $$indexRemoved === 'string' ) delete indexes [ doc . $$indexRemoved ]
} catch ( e ) {
corruptItems += 1
}
}
// A bit lenient on corruption
if ( dataLength > 0 ) {
const corruptionRate = corruptItems / dataLength
if ( corruptionRate > this . corruptAlertThreshold ) {
const error = new Error ( ` ${ Math . floor ( 100 * corruptionRate ) } % of the data file is corrupt, more than given corruptAlertThreshold ( ${ Math . floor ( 100 * this . corruptAlertThreshold ) } %). Cautiously refusing to start NeDB to prevent dataloss. ` )
error . corruptionRate = corruptionRate
error . corruptItems = corruptItems
error . dataLength = dataLength
throw error
}
}
const tdata = Object . values ( dataById )
return { data : tdata , indexes : indexes }
}
/ * *
* From a database ' s raw data stream , return the corresponding machine understandable collection
* Is only used by a { @ link Datastore } instance .
*
* Is only used in the Node . js version , since [ React - Native ] { @ link module : storageReactNative } &
* [ browser ] { @ link module : storageBrowser } storage modules don ' t provide an equivalent of
* { @ link module : storage . readFileStream } .
*
* Do not use directly , it should only used by a { @ link Datastore } instance .
* @ param { Readable } rawStream
* @ return { Promise < { data : document [ ] , indexes : Object . < string , rawIndex > } > }
* @ async
* @ private
* /
treatRawStreamAsync ( rawStream ) {
return new Promise ( ( resolve , reject ) => {
const dataById = { }
const indexes = { }
let corruptItems = 0
const lineStream = byline ( rawStream )
let dataLength = 0
lineStream . on ( 'data' , ( line ) => {
if ( line === '' ) return
try {
const doc = model . deserialize ( this . beforeDeserialization ( line ) )
if ( doc . _id ) {
if ( doc . $$deleted === true ) delete dataById [ doc . _id ]
else dataById [ doc . _id ] = doc
} else if ( doc . $$indexCreated && doc . $$indexCreated . fieldName != null ) indexes [ doc . $$indexCreated . fieldName ] = doc . $$indexCreated
else if ( typeof doc . $$indexRemoved === 'string' ) delete indexes [ doc . $$indexRemoved ]
} catch ( e ) {
corruptItems += 1
}
dataLength ++
} )
lineStream . on ( 'end' , ( ) => {
// A bit lenient on corruption
if ( dataLength > 0 ) {
const corruptionRate = corruptItems / dataLength
if ( corruptionRate > this . corruptAlertThreshold ) {
const error = new Error ( ` ${ Math . floor ( 100 * corruptionRate ) } % of the data file is corrupt, more than given corruptAlertThreshold ( ${ Math . floor ( 100 * this . corruptAlertThreshold ) } %). Cautiously refusing to start NeDB to prevent dataloss. ` )
error . corruptionRate = corruptionRate
error . corruptItems = corruptItems
error . dataLength = dataLength
reject ( error , null )
return
}
}
const data = Object . values ( dataById )
resolve ( { data , indexes : indexes } )
} )
lineStream . on ( 'error' , function ( err ) {
reject ( err , null )
} )
} )
}
/ * *
* Load the database
* 1 ) Create all indexes
* 2 ) Insert all data
* 3 ) Compact the database
*
* This means pulling data out of the data file or creating it if it doesn ' t exist
* Also , all data is persisted right away , which has the effect of compacting the database file
* This operation is very quick at startup for a big collection ( 60 ms for ~ 10 k docs )
*
* Do not use directly as it does not use the [ Executor ] { @ link Datastore . executor } , use { @ link Datastore # loadDatabaseAsync } instead .
* @ return { Promise < void > }
* @ private
* /
async loadDatabaseAsync ( ) {
this . db . _resetIndexes ( )
// In-memory only datastore
if ( this . inMemoryOnly ) return
await Persistence . ensureDirectoryExistsAsync ( path . dirname ( this . filename ) , this . modes . dirMode )
await storage . ensureDatafileIntegrityAsync ( this . filename , this . modes . fileMode )
let treatedData
if ( storage . readFileStream ) {
// Server side
const fileStream = storage . readFileStream ( this . filename , { encoding : 'utf8' , mode : this . modes . fileMode } )
treatedData = await this . treatRawStreamAsync ( fileStream )
} else {
// Browser
const rawData = await storage . readFileAsync ( this . filename , { encoding : 'utf8' , mode : this . modes . fileMode } )
treatedData = this . treatRawData ( rawData )
}
// Recreate all indexes in the datafile
Object . keys ( treatedData . indexes ) . forEach ( key => {
this . db . indexes [ key ] = new Index ( treatedData . indexes [ key ] )
} )
// Fill cached database (i.e. all indexes) with data
try {
this . db . _resetIndexes ( treatedData . data )
} catch ( e ) {
this . db . _resetIndexes ( ) // Rollback any index which didn't fail
throw e
}
await this . db . persistence . persistCachedDatabaseAsync ( )
this . db . executor . processBuffer ( )
}
/ * *
* See { @ link Datastore # dropDatabaseAsync } . This function uses { @ link Datastore # executor } internally . Decorating this
* function with an { @ link Executor # pushAsync } will result in a deadlock .
* @ return { Promise < void > }
* @ private
* @ see Datastore # dropDatabaseAsync
* /
async dropDatabaseAsync ( ) {
this . db . stopAutocompaction ( ) // stop autocompaction
this . db . executor . ready = false // prevent queuing new tasks
this . db . executor . resetBuffer ( ) // remove pending buffered tasks
await this . db . executor . queue . guardian // wait for the ongoing tasks to end
// remove indexes (which means remove data from memory)
this . db . indexes = { }
// add back _id index, otherwise it will fail
this . db . indexes . _id = new Index ( { fieldName : '_id' , unique : true } )
// reset TTL on indexes
this . db . ttlIndexes = { }
// remove datastore file
if ( ! this . db . inMemoryOnly ) {
await this . db . executor . pushAsync ( async ( ) => {
if ( await storage . existsAsync ( this . filename ) ) await storage . unlinkAsync ( this . filename )
} , true )
}
}
/ * *
* Check if a directory stat and create it on the fly if it is not the case .
* @ param { string } dir
* @ param { number } [ mode = 0o777 ]
* @ return { Promise < void > }
* @ private
* /
static async ensureDirectoryExistsAsync ( dir , mode = DEFAULT _DIR _MODE ) {
await storage . mkdirAsync ( dir , { recursive : true , mode } )
}
}
// Interface
module . exports = Persistence
