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bitwarden-browser/apps/desktop/desktop_native/napi/index.d.ts

88 lines
3.7 KiB
TypeScript

/* tslint:disable */
/* eslint-disable */
/* auto-generated by NAPI-RS */
export declare namespace passwords {
/** Fetch the stored password from the keychain. */
export function getPassword(service: string, account: string): Promise<string>
/** Fetch the stored password from the keychain that was stored with Keytar. */
export function getPasswordKeytar(service: string, account: string): Promise<string>
/** Save the password to the keychain. Adds an entry if none exists otherwise updates the existing entry. */
export function setPassword(service: string, account: string, password: string): Promise<void>
/** Delete the stored password from the keychain. */
export function deletePassword(service: string, account: string): Promise<void>
export function isAvailable(): Promise<boolean>
}
export declare namespace biometrics {
export function prompt(hwnd: Buffer, message: string): Promise<boolean>
export function available(): Promise<boolean>
export function setBiometricSecret(service: string, account: string, secret: string, keyMaterial: KeyMaterial | undefined | null, ivB64: string): Promise<string>
export function getBiometricSecret(service: string, account: string, keyMaterial?: KeyMaterial | undefined | null): Promise<string>
/**
* Derives key material from biometric data. Returns a string encoded with a
* base64 encoded key and the base64 encoded challenge used to create it
* separated by a `|` character.
*
* If the iv is provided, it will be used as the challenge. Otherwise a random challenge will be generated.
*
* `format!("<key_base64>|<iv_base64>")`
*/
export function deriveKeyMaterial(iv?: string | undefined | null): Promise<OsDerivedKey>
export interface KeyMaterial {
osKeyPartB64: string
clientKeyPartB64?: string
}
export interface OsDerivedKey {
keyB64: string
ivB64: string
}
}
export declare namespace clipboards {
export function read(): Promise<string>
export function write(text: string, password: boolean): Promise<void>
}
export declare namespace processisolations {
export function disableCoredumps(): Promise<void>
export function isCoreDumpingDisabled(): Promise<boolean>
export function disableMemoryAccess(): Promise<void>
}
export declare namespace powermonitors {
export function onLock(callback: (err: Error | null, ) => any): Promise<void>
export function isLockMonitorAvailable(): Promise<boolean>
}
export declare namespace windows_registry {
export function createKey(key: string, subkey: string, value: string): Promise<void>
export function deleteKey(key: string, subkey: string): Promise<void>
}
export declare namespace ipc {
export interface IpcMessage {
clientId: number
kind: IpcMessageType
message?: string
}
export const enum IpcMessageType {
Connected = 0,
Disconnected = 1,
Message = 2
}
export class IpcServer {
/**
* Create and start the IPC server without blocking.
*
* @param name The endpoint name to listen on. This name uniquely identifies the IPC connection and must be the same for both the server and client.
* @param callback This function will be called whenever a message is received from a client.
*/
static listen(name: string, callback: (error: null | Error, message: IpcMessage) => void): Promise<IpcServer>
/** Stop the IPC server. */
stop(): void
/**
* Send a message over the IPC server to all the connected clients
*
* @return The number of clients that the message was sent to. Note that the number of messages
* actually received may be less, as some clients could disconnect before receiving the message.
*/
send(message: string): number
}
}