hostapd_switch
Version:
Utility to easy switch between client mode and ap mode.
223 lines (204 loc) • 13.6 kB
TypeScript
// Generated by typings
// Source: https://raw.githubusercontent.com/DefinitelyTyped/DefinitelyTyped/88a6a82c6984352a6b32c776d6cf07bc930ca253/async/async.d.ts
interface Dictionary<T> { [key: string]: T; }
interface ErrorCallback<T> { (err?: T): void; }
interface AsyncWaterfallCallback<E> { (err: E, ...args: any[]): void; }
interface AsyncBooleanResultCallback<E> { (err: E, truthValue: boolean): void; }
interface AsyncResultCallback<T, E> { (err: E, result: T): void; }
interface AsyncResultArrayCallback<T, E> { (err: E, results: T[]): void; }
interface AsyncResultObjectCallback<T, E> { (err: E, results: Dictionary<T>): void; }
interface AsyncFunction<T, E> { (callback: (err?: E, result?: T) => void): void; }
interface AsyncIterator<T, E> { (item: T, callback: ErrorCallback<E>): void; }
interface AsyncForEachOfIterator<T, E> { (item: T, key: number|string, callback: ErrorCallback<E>): void; }
interface AsyncResultIterator<T, R, E> { (item: T, callback: AsyncResultCallback<R, E>): void; }
interface AsyncMemoIterator<T, R, E> { (memo: R, item: T, callback: AsyncResultCallback<R, E>): void; }
interface AsyncBooleanIterator<T, E> { (item: T, callback: AsyncBooleanResultCallback<E>): void; }
interface AsyncWorker<T, E> { (task: T, callback: ErrorCallback<E>): void; }
interface AsyncVoidFunction<E> { (callback: ErrorCallback<E>): void; }
interface AsyncQueue<T> {
length(): number;
started: boolean;
running(): number;
idle(): boolean;
concurrency: number;
push<E>(task: T, callback?: ErrorCallback<E>): void;
push<E>(task: T[], callback?: ErrorCallback<E>): void;
unshift<E>(task: T, callback?: ErrorCallback<E>): void;
unshift<E>(task: T[], callback?: ErrorCallback<E>): void;
saturated: () => any;
empty: () => any;
drain: () => any;
paused: boolean;
pause(): void
resume(): void;
kill(): void;
workersList(): {
data: T,
callback: Function
}[];
error(error: Error, data: any): void;
unsaturated(): void;
buffer: number;
}
interface AsyncPriorityQueue<T> {
length(): number;
concurrency: number;
started: boolean;
paused: boolean;
push<E>(task: T, priority: number, callback?: AsyncResultArrayCallback<T, E>): void;
push<E>(task: T[], priority: number, callback?: AsyncResultArrayCallback<T, E>): void;
saturated: () => any;
empty: () => any;
drain: () => any;
running(): number;
idle(): boolean;
pause(): void;
resume(): void;
kill(): void;
workersList(): {
data: T,
priority: number,
callback: Function
}[];
error(error: Error, data: any): void;
unsaturated(): void;
buffer: number;
}
interface AsyncCargo {
length(): number;
payload: number;
push(task: any, callback? : Function): void;
push(task: any[], callback? : Function): void;
saturated(): void;
empty(): void;
drain(): void;
idle(): boolean;
pause(): void;
resume(): void;
kill(): void;
}
interface Async {
// Collections
each<T, E>(arr: T[], iterator: AsyncIterator<T, E>, callback?: ErrorCallback<E>): void;
each<T, E>(arr: Dictionary<T>, iterator: AsyncIterator<T, E>, callback?: ErrorCallback<E>): void;
eachSeries: typeof async.each;
eachLimit<T, E>(arr: T[], limit: number, iterator: AsyncIterator<T, E>, callback?: ErrorCallback<E>): void;
eachLimit<T, E>(arr: Dictionary<T>, limit: number, iterator: AsyncIterator<T, E>, callback?: ErrorCallback<E>): void;
forEach: typeof async.each;
forEachSeries: typeof async.each;
forEachLimit: typeof async.eachLimit;
forEachOf<T, E>(obj: T[], iterator: AsyncForEachOfIterator<T, E>, callback?: ErrorCallback<E>): void;
forEachOf<T, E>(obj: Dictionary<T>, iterator: AsyncForEachOfIterator<T, E>, callback?: ErrorCallback<E>): void;
forEachOfSeries: typeof async.forEachOf;
forEachOfLimit<T, E>(obj: T[], limit: number, iterator: AsyncForEachOfIterator<T, E>, callback?: ErrorCallback<E>): void;
forEachOfLimit<T, E>(obj: Dictionary<T>, limit: number, iterator: AsyncForEachOfIterator<T, E>, callback?: ErrorCallback<E>): void;
eachOf: typeof async.forEachOf;
eachOfSeries: typeof async.forEachOf;
eachOfLimit: typeof async.forEachOfLimit;
map<T, R, E>(arr: T[], iterator: AsyncResultIterator<T, R, E>, callback?: AsyncResultArrayCallback<R, E>): void;
map<T, R, E>(arr: Dictionary<T>, iterator: AsyncResultIterator<T, R, E>, callback?: AsyncResultArrayCallback<R, E>): void;
mapSeries: typeof async.map;
mapLimit<T, R, E>(arr: T[], limit: number, iterator: AsyncResultIterator<T, R, E>, callback?: AsyncResultArrayCallback<R, E>): void;
mapLimit<T, R, E>(arr: Dictionary<T>, limit: number, iterator: AsyncResultIterator<T, R, E>, callback?: AsyncResultArrayCallback<R, E>): void;
mapValuesLimit<T, R, E>(obj: Dictionary<T>, limit: number, iteratee: (value: T, key: string, callback: AsyncResultCallback<R, E>) => void, callback: AsyncResultCallback<R[], E>): void;
mapValues<T, R, E>(obj: Dictionary<T>, iteratee: (value: T, key: string, callback: AsyncResultCallback<R, E>) => void, callback: AsyncResultCallback<R[], E>): void;
mapValuesSeries: typeof async.mapValues;
filter<T, E>(arr: T[], iterator: AsyncBooleanIterator<T, E>, callback?: AsyncResultArrayCallback<T, E>): void;
filter<T, E>(arr: Dictionary<T>, iterator: AsyncBooleanIterator<T, E>, callback?: AsyncResultArrayCallback<T, E>): void;
filterSeries: typeof async.filter;
filterLimit<T, E>(arr: T[], limit: number, iterator: AsyncBooleanIterator<T, E>, callback?: AsyncResultArrayCallback<T, E>): void;
filterLimit<T, E>(arr: Dictionary<T>, limit: number, iterator: AsyncBooleanIterator<T, E>, callback?: AsyncResultArrayCallback<T, E>): void;
select: typeof async.filter;
selectSeries: typeof async.filter;
selectLimit: typeof async.filterLimit;
reject: typeof async.filter;
rejectSeries: typeof async.filter;
rejectLimit: typeof async.filterLimit;
reduce<T, R, E>(arr: T[], memo: R, iterator: AsyncMemoIterator<T, R, E>, callback?: AsyncResultCallback<R, E>): void;
inject: typeof async.reduce;
foldl: typeof async.reduce;
reduceRight: typeof async.reduce;
foldr: typeof async.reduce;
detect<T, E>(arr: T[], iterator: AsyncBooleanIterator<T, E>, callback?: AsyncResultCallback<T, E>): void;
detect<T, E>(arr: Dictionary<T>, iterator: AsyncBooleanIterator<T, E>, callback?: AsyncResultCallback<T, E>): void;
detectSeries: typeof async.detect;
detectLimit<T, E>(arr: T[], limit: number, iterator: AsyncBooleanIterator<T, E>, callback?: AsyncResultCallback<T, E>): void;
detectLimit<T, E>(arr: Dictionary<T>, limit: number, iterator: AsyncBooleanIterator<T, E>, callback?: AsyncResultCallback<T, E>): void;
find: typeof async.detect;
findSeries: typeof async.detect;
findLimit: typeof async.detectLimit;
sortBy<T, V, E>(arr: T[], iterator: AsyncResultIterator<T, V, E>, callback?: AsyncResultArrayCallback<T, E>): void;
some<T, E>(arr: T[], iterator: AsyncBooleanIterator<T, E>, callback?: AsyncBooleanResultCallback<E>): void;
some<T, E>(arr: Dictionary<T>, iterator: AsyncBooleanIterator<T, E>, callback?: AsyncBooleanResultCallback<E>): void;
someSeries: typeof async.some;
someLimit<T, E>(arr: T[], limit: number, iterator: AsyncBooleanIterator<T, E>, callback?: AsyncBooleanResultCallback<E>): void;
someLimit<T, E>(arr: Dictionary<T>, limit: number, iterator: AsyncBooleanIterator<T, E>, callback?: AsyncBooleanResultCallback<E>): void;
any: typeof async.some;
anySeries: typeof async.someSeries;
anyLimit: typeof async.someLimit;
every<T, E>(arr: T[], iterator: AsyncBooleanIterator<T, E>, callback?: AsyncBooleanResultCallback<E>): void;
every<T, E>(arr: Dictionary<T>, iterator: AsyncBooleanIterator<T, E>, callback?: AsyncBooleanResultCallback<E>): void;
everySeries: typeof async.every;
everyLimit<T, E>(arr: T[], limit: number, iterator: AsyncBooleanIterator<T, E>, callback?: AsyncBooleanResultCallback<E>): void;
everyLimit<T, E>(arr: Dictionary<T>, limit: number, iterator: AsyncBooleanIterator<T, E>, callback?: AsyncBooleanResultCallback<E>): void;
all: typeof async.every;
allSeries: typeof async.every;
allLimit: typeof async.everyLimit;
concat<T, R, E>(arr: T[], iterator: AsyncResultIterator<T, R[], E>, callback?: AsyncResultArrayCallback<R, E>): void;
concat<T, R, E>(arr: Dictionary<T>, iterator: AsyncResultIterator<T, R[], E>, callback?: AsyncResultArrayCallback<R, E>): void;
concatSeries: typeof async.concat;
// Control Flow
series<T, E>(tasks: AsyncFunction<T, E>[], callback?: AsyncResultArrayCallback<T, E>): void;
series<T, E>(tasks: Dictionary<AsyncFunction<T, E>>, callback?: AsyncResultObjectCallback<T, E>): void;
parallel<T, E>(tasks: Array<AsyncFunction<T, E>>, callback?: AsyncResultArrayCallback<T, E>): void;
parallel<T, E>(tasks: Dictionary<AsyncFunction<T, E>>, callback?: AsyncResultObjectCallback<T, E>): void;
parallelLimit<T, E>(tasks: Array<AsyncFunction<T, E>>, limit: number, callback?: AsyncResultArrayCallback<T, E>): void;
parallelLimit<T, E>(tasks: Dictionary<AsyncFunction<T, E>>, limit: number, callback?: AsyncResultObjectCallback<T, E>): void;
whilst<E>(test: () => boolean, fn: AsyncVoidFunction<E>, callback: ErrorCallback<E>): void;
doWhilst<E>(fn: AsyncVoidFunction<E>, test: () => boolean, callback: ErrorCallback<E>): void;
until<E>(test: () => boolean, fn: AsyncVoidFunction<E>, callback: ErrorCallback<E>): void;
doUntil<E>(fn: AsyncVoidFunction<E>, test: () => boolean, callback: ErrorCallback<E>): void;
during<E>(test: (testCallback : AsyncBooleanResultCallback<E>) => void, fn: AsyncVoidFunction<E>, callback: ErrorCallback<E>): void;
doDuring<E>(fn: AsyncVoidFunction<E>, test: (testCallback: AsyncBooleanResultCallback<E>) => void, callback: ErrorCallback<E>): void;
forever<E>(next: (next : ErrorCallback<E>) => void, errBack: ErrorCallback<E>) : void;
waterfall<T, E>(tasks: Function[], callback?: AsyncResultCallback<T,E>): void;
compose(...fns: Function[]): Function;
seq(...fns: Function[]): Function;
applyEach(fns: Function[], argsAndCallback: any[]): void; // applyEach(fns, args..., callback). TS does not support ... for a middle argument. Callback is optional.
applyEachSeries(fns: Function[], argsAndCallback: any[]): void; // applyEachSeries(fns, args..., callback). TS does not support ... for a middle argument. Callback is optional.
queue<T, E>(worker: AsyncWorker<T, E>, concurrency?: number): AsyncQueue<T>;
priorityQueue<T, E>(worker: AsyncWorker<T, E>, concurrency: number): AsyncPriorityQueue<T>;
cargo<E>(worker : (tasks: any[], callback : ErrorCallback<E>) => void, payload? : number) : AsyncCargo;
auto<E>(tasks: any, concurrency?: number, callback?: AsyncResultCallback<any, E>): void;
autoInject<E>(tasks: any, callback?: AsyncResultCallback<any, E>): void;
retry<T, E>(opts: number, task: (callback : AsyncResultCallback<T, E>, results: any) => void, callback: AsyncResultCallback<any, E>): void;
retry<T, E>(opts: { times: number, interval: number|((retryCount: number) => number) }, task: (callback: AsyncResultCallback<T, E>, results : any) => void, callback: AsyncResultCallback<any, E>): void;
retryable<T, E>(opts: number | {times: number, interval: number}, task: AsyncFunction<T, E>): AsyncFunction<T, E>;
apply<E>(fn: Function, ...arguments: any[]): AsyncFunction<any,E>;
nextTick(callback: Function, ...args: any[]): void;
setImmediate: typeof async.nextTick;
reflect<T, E>(fn: AsyncFunction<T, E>) : (callback: (err: void, result: {error?: Error, value?: T}) => void) => void;
reflectAll<T, E>(tasks: AsyncFunction<T, E>[]): ((callback: (err: void, result: {error?: Error, value?: T}) => void) => void)[];
timeout<T, E>(fn: AsyncFunction<T, E>, milliseconds: number, info: any): AsyncFunction<T, E>;
times<T, E> (n: number, iterator: AsyncResultIterator<number, T, E>, callback: AsyncResultArrayCallback<T, E>): void;
timesSeries<T, E>(n: number, iterator: AsyncResultIterator<number, T, E>, callback: AsyncResultArrayCallback<T, E>): void;
timesLimit<T, E>(n: number, limit: number, iterator: AsyncResultIterator<number, T, E>, callback: AsyncResultArrayCallback<T, E>): void;
transform<T, R, E>(arr: T[], iteratee: (acc: R[], item: T, key: string, callback: (error?: E) => void) => void): void;
transform<T, R, E>(arr: T[], acc: R[], iteratee: (acc: R[], item: T, key: string, callback: (error?: E) => void) => void): void;
transform<T, R, E>(arr: {[key: string] : T}, iteratee: (acc: {[key: string] : R}, item: T, key: string, callback: (error?: E) => void) => void): void;
transform<T, R, E>(arr: {[key: string] : T}, acc: {[key: string] : R}, iteratee: (acc: {[key: string] : R}, item: T, key: string, callback: (error?: E) => void) => void): void;
race<T, E>(tasks: (AsyncFunction<T, E>)[], callback: AsyncResultCallback<T, E>) : void;
// Utils
memoize(fn: Function, hasher?: Function): Function;
unmemoize(fn: Function): Function;
ensureAsync(fn: (... argsAndCallback: any[]) => void): Function;
constant(...values: any[]): Function;
asyncify(fn: Function): Function;
wrapSync(fn: Function): Function;
log(fn: Function, ...arguments: any[]): void;
dir(fn: Function, ...arguments: any[]): void;
}
declare var async: Async;
declare module "async" {
export = async;
}