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import Logger from '@joplin/utils/Logger' ;
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import shim from './shim' ;
import BaseItem from './models/BaseItem' ;
import time from './time' ;
const { isHidden } = require ( './path-utils' ) ;
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import JoplinError from './JoplinError' ;
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import { Lock , LockClientType , LockType } from './services/synchronizer/LockHandler' ;
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import * as ArrayUtils from './ArrayUtils' ;
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const { sprintf } = require ( 'sprintf-js' ) ;
const Mutex = require ( 'async-mutex' ) . Mutex ;
const logger = Logger . create ( 'FileApi' ) ;
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export interface MultiPutItem {
name : string ;
body : string ;
}
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export interface RemoteItem {
id : string ;
path? : string ;
type_? : number ;
isDeleted? : boolean ;
// This the time when the file was created on the server. It is used for
// example for the locking mechanim or any file that's not an actual Joplin
// item.
updated_time? : number ;
// This is the time that corresponds to the actual Joplin item updated_time
// value. A note is always uploaded with a delay so the server updated_time
// value will always be ahead. However for synchronising we need to know the
// exact Joplin item updated_time value.
jop_updated_time? : number ;
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jopItem? : any ;
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}
export interface PaginatedList {
items : RemoteItem [ ] ;
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hasMore : boolean ;
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context : any ;
}
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// Tells whether the delta call is going to include the items themselves or
// just the metadata (which is the default). If the items are included it
// means less http request and faster processing.
export const getSupportsDeltaWithItems = ( deltaResponse : PaginatedList ) = > {
if ( ! deltaResponse . items . length ) return false ;
return 'jopItem' in deltaResponse . items [ 0 ] ;
} ;
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function requestCanBeRepeated ( error : any ) {
const errorCode = typeof error === 'object' && error . code ? error.code : null ;
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// Unauthorized/forbidden error - means username or password is incorrect or other
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// permission issue, which won't be fixed by repeating the request.
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if ( errorCode === 403 || errorCode === 401 ) return false ;
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// The target is explicitly rejecting the item so repeating wouldn't make a difference.
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if ( errorCode === 'rejectedByTarget' || errorCode === 'isReadOnly' ) return false ;
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// We don't repeat failSafe errors because it's an indication of an issue at the
// server-level issue which usually cannot be fixed by repeating the request.
// Also we print the previous requests and responses to the log in this case,
// so not repeating means there will be less noise in the log.
if ( errorCode === 'failSafe' ) return false ;
return true ;
}
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// eslint-disable-next-line @typescript-eslint/ban-types -- Old code before rule was applied
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async function tryAndRepeat ( fn : Function , count : number ) {
let retryCount = 0 ;
// Don't use internal fetch retry mechanim since we
// are already retrying here.
const shimFetchMaxRetryPrevious = shim . fetchMaxRetrySet ( 0 ) ;
const defer = ( ) = > {
shim . fetchMaxRetrySet ( shimFetchMaxRetryPrevious ) ;
} ;
while ( true ) {
try {
const result = await fn ( ) ;
defer ( ) ;
return result ;
} catch ( error ) {
if ( retryCount >= count || ! requestCanBeRepeated ( error ) ) {
defer ( ) ;
throw error ;
}
retryCount ++ ;
await time . sleep ( 1 + retryCount * 3 ) ;
}
}
}
class FileApi {
private baseDir_ : any ;
private driver_ : any ;
private logger_ : Logger = new Logger ( ) ;
private syncTargetId_ : number = null ;
private tempDirName_ : string = null ;
public requestRepeatCount_ : number = null ; // For testing purpose only - normally this value should come from the driver
private remoteDateOffset_ = 0 ;
private remoteDateNextCheckTime_ = 0 ;
private remoteDateMutex_ = new Mutex ( ) ;
private initialized_ = false ;
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// eslint-disable-next-line @typescript-eslint/ban-types -- Old code before rule was applied
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public constructor ( baseDir : string | Function , driver : any ) {
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this . baseDir_ = baseDir ;
this . driver_ = driver ;
this . driver_ . fileApi_ = this ;
}
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public async initialize() {
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if ( this . initialized_ ) return ;
this . initialized_ = true ;
if ( this . driver_ . initialize ) return this . driver_ . initialize ( this . fullPath ( '' ) ) ;
}
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// This can be true if the driver implements uploading items in batch. Will
// probably only be supported by Joplin Server.
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public get supportsMultiPut ( ) : boolean {
return ! ! this . driver ( ) . supportsMultiPut ;
}
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// This can be true when the sync target timestamps (updated_time) provided
// in the delta call are guaranteed to be accurate. That requires
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// explicitly setting the timestamp, which is not done anymore on any sync
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// target as it wasn't accurate (for example, the file system can't be
// relied on, and even OneDrive for some reason doesn't guarantee that the
// timestamp you set is what you get back).
//
// The only reliable one at the moment is Joplin Server since it reads the
// updated_time property directly from the item (it unserializes it
// server-side).
public get supportsAccurateTimestamp ( ) : boolean {
return ! ! this . driver ( ) . supportsAccurateTimestamp ;
}
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public get supportsLocks ( ) : boolean {
return ! ! this . driver ( ) . supportsLocks ;
}
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private async fetchRemoteDateOffset_() {
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const tempFile = ` ${ this . tempDirName ( ) } /timeCheck ${ Math . round ( Math . random ( ) * 1000000 ) } .txt ` ;
const startTime = Date . now ( ) ;
await this . put ( tempFile , 'timeCheck' ) ;
// Normally it should be possible to read the file back immediately but
// just in case, read it in a loop.
const loopStartTime = Date . now ( ) ;
let stat = null ;
while ( Date . now ( ) - loopStartTime < 5000 ) {
stat = await this . stat ( tempFile ) ;
if ( stat ) break ;
await time . msleep ( 200 ) ;
}
if ( ! stat ) throw new Error ( 'Timed out trying to get sync target clock time' ) ;
void this . delete ( tempFile ) ; // No need to await for this call
const endTime = Date . now ( ) ;
const expectedTime = Math . round ( ( endTime + startTime ) / 2 ) ;
return stat . updated_time - expectedTime ;
}
// Approximates the current time on the sync target. It caches the time offset to
// improve performance.
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public async remoteDate() {
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const shouldSyncTime = ( ) = > {
return ! this . remoteDateNextCheckTime_ || Date . now ( ) > this . remoteDateNextCheckTime_ ;
} ;
if ( shouldSyncTime ( ) ) {
const release = await this . remoteDateMutex_ . acquire ( ) ;
try {
// Another call might have refreshed the time while we were waiting for the mutex,
// so check again if we need to refresh.
if ( shouldSyncTime ( ) ) {
this . remoteDateOffset_ = await this . fetchRemoteDateOffset_ ( ) ;
// The sync target clock should rarely change but the device one might,
// so we need to refresh relatively frequently.
this . remoteDateNextCheckTime_ = Date . now ( ) + 10 * 60 * 1000 ;
}
} catch ( error ) {
logger . warn ( 'Could not retrieve remote date - defaulting to device date:' , error ) ;
this . remoteDateOffset_ = 0 ;
this . remoteDateNextCheckTime_ = Date . now ( ) + 60 * 1000 ;
} finally {
release ( ) ;
}
}
return new Date ( Date . now ( ) + this . remoteDateOffset_ ) ;
}
// Ideally all requests repeating should be done at the FileApi level to remove duplicate code in the drivers, but
// historically some drivers (eg. OneDrive) are already handling request repeating, so this is optional, per driver,
// and it defaults to no repeating.
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public requestRepeatCount() {
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if ( this . requestRepeatCount_ !== null ) return this . requestRepeatCount_ ;
if ( this . driver_ . requestRepeatCount ) return this . driver_ . requestRepeatCount ( ) ;
return 0 ;
}
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public lastRequests() {
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return this . driver_ . lastRequests ? this . driver_ . lastRequests ( ) : [ ] ;
}
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public clearLastRequests() {
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if ( this . driver_ . clearLastRequests ) this . driver_ . clearLastRequests ( ) ;
}
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public baseDir() {
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return typeof this . baseDir_ === 'function' ? this . baseDir_ ( ) : this . baseDir_ ;
}
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public tempDirName() {
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if ( this . tempDirName_ === null ) throw Error ( 'Temp dir not set!' ) ;
return this . tempDirName_ ;
}
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public setTempDirName ( v : string ) {
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this . tempDirName_ = v ;
}
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public fsDriver() {
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return shim . fsDriver ( ) ;
}
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public driver() {
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return this . driver_ ;
}
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public setSyncTargetId ( v : number ) {
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this . syncTargetId_ = v ;
}
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public syncTargetId() {
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if ( this . syncTargetId_ === null ) throw new Error ( 'syncTargetId has not been set!!' ) ;
return this . syncTargetId_ ;
}
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public setLogger ( l : Logger ) {
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if ( ! l ) l = new Logger ( ) ;
this . logger_ = l ;
}
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public logger() {
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return this . logger_ ;
}
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public fullPath ( path : string ) {
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const output = [ ] ;
if ( this . baseDir ( ) ) output . push ( this . baseDir ( ) ) ;
if ( path ) output . push ( path ) ;
return output . join ( '/' ) ;
}
// DRIVER MUST RETURN PATHS RELATIVE TO `path`
// eslint-disable-next-line no-unused-vars, @typescript-eslint/no-unused-vars
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public async list ( path = '' , options : any = null ) : Promise < PaginatedList > {
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if ( ! options ) options = { } ;
if ( ! ( 'includeHidden' in options ) ) options . includeHidden = false ;
if ( ! ( 'context' in options ) ) options . context = null ;
if ( ! ( 'includeDirs' in options ) ) options . includeDirs = true ;
if ( ! ( 'syncItemsOnly' in options ) ) options . syncItemsOnly = false ;
logger . debug ( ` list ${ this . baseDir ( ) } ` ) ;
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const result : PaginatedList = await tryAndRepeat ( ( ) = > this . driver_ . list ( this . fullPath ( path ) , options ) , this . requestRepeatCount ( ) ) ;
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if ( ! options . includeHidden ) {
const temp = [ ] ;
for ( let i = 0 ; i < result . items . length ; i ++ ) {
if ( ! isHidden ( result . items [ i ] . path ) ) temp . push ( result . items [ i ] ) ;
}
result . items = temp ;
}
if ( ! options . includeDirs ) {
result . items = result . items . filter ( ( f : any ) = > ! f . isDir ) ;
}
if ( options . syncItemsOnly ) {
result . items = result . items . filter ( ( f : any ) = > ! f . isDir && BaseItem . isSystemPath ( f . path ) ) ;
}
return result ;
}
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// Deprecated
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public setTimestamp ( path : string , timestampMs : number ) {
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logger . debug ( ` setTimestamp ${ this . fullPath ( path ) } ` ) ;
return tryAndRepeat ( ( ) = > this . driver_ . setTimestamp ( this . fullPath ( path ) , timestampMs ) , this . requestRepeatCount ( ) ) ;
// return this.driver_.setTimestamp(this.fullPath(path), timestampMs);
}
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public mkdir ( path : string ) {
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logger . debug ( ` mkdir ${ this . fullPath ( path ) } ` ) ;
return tryAndRepeat ( ( ) = > this . driver_ . mkdir ( this . fullPath ( path ) ) , this . requestRepeatCount ( ) ) ;
}
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public async stat ( path : string ) {
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logger . debug ( ` stat ${ this . fullPath ( path ) } ` ) ;
const output = await tryAndRepeat ( ( ) = > this . driver_ . stat ( this . fullPath ( path ) ) , this . requestRepeatCount ( ) ) ;
if ( ! output ) return output ;
output . path = path ;
return output ;
}
// Returns UTF-8 encoded string by default, or a Response if `options.target = 'file'`
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public get ( path : string , options : any = null ) {
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if ( ! options ) options = { } ;
if ( ! options . encoding ) options . encoding = 'utf8' ;
logger . debug ( ` get ${ this . fullPath ( path ) } ` ) ;
return tryAndRepeat ( ( ) = > this . driver_ . get ( this . fullPath ( path ) , options ) , this . requestRepeatCount ( ) ) ;
}
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public async put ( path : string , content : any , options : any = null ) {
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logger . debug ( ` put ${ this . fullPath ( path ) } ` , options ) ;
if ( options && options . source === 'file' ) {
if ( ! ( await this . fsDriver ( ) . exists ( options . path ) ) ) throw new JoplinError ( ` File not found: ${ options . path } ` , 'fileNotFound' ) ;
}
return tryAndRepeat ( ( ) = > this . driver_ . put ( this . fullPath ( path ) , content , options ) , this . requestRepeatCount ( ) ) ;
}
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public async multiPut ( items : MultiPutItem [ ] , options : any = null ) {
if ( ! this . driver ( ) . supportsMultiPut ) throw new Error ( 'Multi PUT not supported' ) ;
return tryAndRepeat ( ( ) = > this . driver_ . multiPut ( items , options ) , this . requestRepeatCount ( ) ) ;
}
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public delete ( path : string ) {
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logger . debug ( ` delete ${ this . fullPath ( path ) } ` ) ;
return tryAndRepeat ( ( ) = > this . driver_ . delete ( this . fullPath ( path ) ) , this . requestRepeatCount ( ) ) ;
}
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// Deprecated
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public move ( oldPath : string , newPath : string ) {
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logger . debug ( ` move ${ this . fullPath ( oldPath ) } => ${ this . fullPath ( newPath ) } ` ) ;
return tryAndRepeat ( ( ) = > this . driver_ . move ( this . fullPath ( oldPath ) , this . fullPath ( newPath ) ) , this . requestRepeatCount ( ) ) ;
}
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// Deprecated
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public format() {
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return tryAndRepeat ( ( ) = > this . driver_ . format ( ) , this . requestRepeatCount ( ) ) ;
}
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public clearRoot() {
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return tryAndRepeat ( ( ) = > this . driver_ . clearRoot ( this . baseDir ( ) ) , this . requestRepeatCount ( ) ) ;
}
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public delta ( path : string , options : any = null ) : Promise < PaginatedList > {
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logger . debug ( ` delta ${ this . fullPath ( path ) } ` ) ;
return tryAndRepeat ( ( ) = > this . driver_ . delta ( this . fullPath ( path ) , options ) , this . requestRepeatCount ( ) ) ;
}
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public async acquireLock ( type : LockType , clientType : LockClientType , clientId : string ) : Promise < Lock > {
if ( ! this . supportsLocks ) throw new Error ( 'Sync target does not support built-in locks' ) ;
return tryAndRepeat ( ( ) = > this . driver_ . acquireLock ( type , clientType , clientId ) , this . requestRepeatCount ( ) ) ;
}
public async releaseLock ( type : LockType , clientType : LockClientType , clientId : string ) {
if ( ! this . supportsLocks ) throw new Error ( 'Sync target does not support built-in locks' ) ;
return tryAndRepeat ( ( ) = > this . driver_ . releaseLock ( type , clientType , clientId ) , this . requestRepeatCount ( ) ) ;
}
public async listLocks() {
if ( ! this . supportsLocks ) throw new Error ( 'Sync target does not support built-in locks' ) ;
return tryAndRepeat ( ( ) = > this . driver_ . listLocks ( ) , this . requestRepeatCount ( ) ) ;
}
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}
function basicDeltaContextFromOptions_ ( options : any ) {
const output : any = {
timestamp : 0 ,
filesAtTimestamp : [ ] ,
statsCache : null ,
statIdsCache : null ,
deletedItemsProcessed : false ,
} ;
if ( ! options || ! options . context ) return output ;
const d = new Date ( options . context . timestamp ) ;
output . timestamp = isNaN ( d . getTime ( ) ) ? 0 : options.context.timestamp ;
output . filesAtTimestamp = Array . isArray ( options . context . filesAtTimestamp ) ? options . context . filesAtTimestamp . slice ( ) : [ ] ;
output . statsCache = options . context && options . context . statsCache ? options.context.statsCache : null ;
output . statIdsCache = options . context && options . context . statIdsCache ? options.context.statIdsCache : null ;
output . deletedItemsProcessed = options . context && 'deletedItemsProcessed' in options . context ? options.context.deletedItemsProcessed : false ;
return output ;
}
// This is the basic delta algorithm, which can be used in case the cloud service does not have
// a built-in delta API. OneDrive and Dropbox have one for example, but Nextcloud and obviously
// the file system do not.
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// eslint-disable-next-line @typescript-eslint/ban-types -- Old code before rule was applied
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async function basicDelta ( path : string , getDirStatFn : Function , options : any ) {
const outputLimit = 50 ;
const itemIds = await options . allItemIdsHandler ( ) ;
if ( ! Array . isArray ( itemIds ) ) throw new Error ( 'Delta API not supported - local IDs must be provided' ) ;
const logger = options && options . logger ? options.logger : new Logger ( ) ;
const context = basicDeltaContextFromOptions_ ( options ) ;
if ( context . timestamp > Date . now ( ) ) {
logger . warn ( ` BasicDelta: Context timestamp is greater than current time: ${ context . timestamp } ` ) ;
logger . warn ( 'BasicDelta: Sync will continue but it is likely that nothing will be synced' ) ;
}
const newContext = {
timestamp : context.timestamp ,
filesAtTimestamp : context.filesAtTimestamp.slice ( ) ,
statsCache : context.statsCache ,
statIdsCache : context.statIdsCache ,
deletedItemsProcessed : context.deletedItemsProcessed ,
} ;
// Stats are cached until all items have been processed (until hasMore is false)
if ( newContext . statsCache === null ) {
newContext . statsCache = await getDirStatFn ( path ) ;
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newContext . statsCache . sort ( ( a : any , b : any ) = > {
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return a . updated_time - b . updated_time ;
} ) ;
newContext . statIdsCache = newContext . statsCache . filter ( ( item : any ) = > BaseItem . isSystemPath ( item . path ) ) . map ( ( item : any ) = > BaseItem . pathToId ( item . path ) ) ;
newContext . statIdsCache . sort ( ) ; // Items must be sorted to use binary search below
}
let output = [ ] ;
const updateReport = {
timestamp : context.timestamp ,
older : 0 ,
newer : 0 ,
equal : 0 ,
} ;
// Find out which files have been changed since the last time. Note that we keep
// both the timestamp of the most recent change, *and* the items that exactly match
// this timestamp. This to handle cases where an item is modified while this delta
// function is running. For example:
// t0: Item 1 is changed
// t0: Sync items - run delta function
// t0: While delta() is running, modify Item 2
// Since item 2 was modified within the same millisecond, it would be skipped in the
// next sync if we relied exclusively on a timestamp.
for ( let i = 0 ; i < newContext . statsCache . length ; i ++ ) {
const stat = newContext . statsCache [ i ] ;
if ( stat . isDir ) continue ;
if ( stat . updated_time < context . timestamp ) {
updateReport . older ++ ;
continue ;
}
// Special case for items that exactly match the timestamp
if ( stat . updated_time === context . timestamp ) {
if ( context . filesAtTimestamp . indexOf ( stat . path ) >= 0 ) {
updateReport . equal ++ ;
continue ;
}
}
if ( stat . updated_time > newContext . timestamp ) {
newContext . timestamp = stat . updated_time ;
newContext . filesAtTimestamp = [ ] ;
updateReport . newer ++ ;
}
newContext . filesAtTimestamp . push ( stat . path ) ;
output . push ( stat ) ;
if ( output . length >= outputLimit ) break ;
}
logger . info ( ` BasicDelta: Report: ${ JSON . stringify ( updateReport ) } ` ) ;
if ( ! newContext . deletedItemsProcessed ) {
// Find out which items have been deleted on the sync target by comparing the items
// we have to the items on the target.
// Note that when deleted items are processed it might result in the output having
// more items than outputLimit. This is acceptable since delete operations are cheap.
const deletedItems = [ ] ;
for ( let i = 0 ; i < itemIds . length ; i ++ ) {
const itemId = itemIds [ i ] ;
if ( ArrayUtils . binarySearch ( newContext . statIdsCache , itemId ) < 0 ) {
deletedItems . push ( {
path : BaseItem.systemPath ( itemId ) ,
isDeleted : true ,
} ) ;
}
}
const percentDeleted = itemIds . length ? deletedItems . length / itemIds.length : 0 ;
// If more than 90% of the notes are going to be deleted, it's most likely a
// configuration error or bug. For example, if the user moves their Nextcloud
// directory, or if a network drive gets disconnected and returns an empty dir
// instead of an error. In that case, we don't wipe out the user data, unless
// they have switched off the fail-safe.
if ( options . wipeOutFailSafe && percentDeleted >= 0.90 ) throw new JoplinError ( sprintf ( 'Fail-safe: Sync was interrupted because %d%% of the data (%d items) is about to be deleted. To override this behaviour disable the fail-safe in the sync settings.' , Math . round ( percentDeleted * 100 ) , deletedItems . length ) , 'failSafe' ) ;
output = output . concat ( deletedItems ) ;
}
newContext . deletedItemsProcessed = true ;
const hasMore = output . length >= outputLimit ;
if ( ! hasMore ) {
// Clear temporary info from context. It's especially important to remove deletedItemsProcessed
// so that they are processed again on the next sync.
newContext . statsCache = null ;
newContext . statIdsCache = null ;
delete newContext . deletedItemsProcessed ;
}
return {
hasMore : hasMore ,
context : newContext ,
items : output ,
} ;
}
export { FileApi , basicDelta } ;