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openpgp.d.ts
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openpgp.d.ts
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/**
* Type definitions for OpenPGP.js http://openpgpjs.org/
*
* Contributors:
* - FlowCrypt a. s. <https://flowcrypt.com>
* - Guillaume Lacasa <https://blog.lacasa.fr>
* - Errietta Kostala <https://github.com/errietta>
*/
import type { WebStream as GenericWebStream, NodeStream as GenericNodeStream } from '@openpgp/web-stream-tools';
/* ############## v5 KEY #################### */
// The Key and PublicKey types can be used interchangably since TS cannot detect the difference, as they have the same class properties.
// The declared readKey(s) return type is Key instead of a PublicKey since it seems more obvious that a Key can be cast to a PrivateKey.
export function readKey(options: { armoredKey: string, config?: PartialConfig }): Promise<Key>;
export function readKey(options: { binaryKey: Uint8Array, config?: PartialConfig }): Promise<Key>;
export function readKeys(options: { armoredKeys: string, config?: PartialConfig }): Promise<Key[]>;
export function readKeys(options: { binaryKeys: Uint8Array, config?: PartialConfig }): Promise<Key[]>;
export function readPrivateKey(options: { armoredKey: string, config?: PartialConfig }): Promise<PrivateKey>;
export function readPrivateKey(options: { binaryKey: Uint8Array, config?: PartialConfig }): Promise<PrivateKey>;
export function readPrivateKeys(options: { armoredKeys: string, config?: PartialConfig }): Promise<PrivateKey[]>;
export function readPrivateKeys(options: { binaryKeys: Uint8Array, config?: PartialConfig }): Promise<PrivateKey[]>;
export function generateKey(options: GenerateKeyOptions & { format?: 'armored' }): Promise<SerializedKeyPair<string> & { revocationCertificate: string }>;
export function generateKey(options: GenerateKeyOptions & { format: 'binary' }): Promise<SerializedKeyPair<Uint8Array> & { revocationCertificate: string }>;
export function generateKey(options: GenerateKeyOptions & { format: 'object' }): Promise<KeyPair & { revocationCertificate: string }>;
export function decryptKey(options: { privateKey: PrivateKey; passphrase?: MaybeArray<string>; config?: PartialConfig }): Promise<PrivateKey>;
export function encryptKey(options: { privateKey: PrivateKey; passphrase?: MaybeArray<string>; config?: PartialConfig }): Promise<PrivateKey>;
export function reformatKey(options: { privateKey: PrivateKey; userIDs?: MaybeArray<UserID>; passphrase?: string; keyExpirationTime?: number; date?: Date, format?: 'armored', config?: PartialConfig }): Promise<SerializedKeyPair<string> & { revocationCertificate: string }>;
export function reformatKey(options: { privateKey: PrivateKey; userIDs?: MaybeArray<UserID>; passphrase?: string; keyExpirationTime?: number; date?: Date, format: 'binary', config?: PartialConfig }): Promise<SerializedKeyPair<Uint8Array> & { revocationCertificate: string }>;
export function reformatKey(options: { privateKey: PrivateKey; userIDs?: MaybeArray<UserID>; passphrase?: string; keyExpirationTime?: number; date?: Date, format: 'object', config?: PartialConfig }): Promise<KeyPair & { revocationCertificate: string }>;
export function revokeKey(options: { key: PrivateKey, reasonForRevocation?: ReasonForRevocation, date?: Date, format?: 'armored', config?: PartialConfig }): Promise<SerializedKeyPair<string>>;
export function revokeKey(options: { key: PrivateKey, reasonForRevocation?: ReasonForRevocation, date?: Date, format: 'binary', config?: PartialConfig }): Promise<SerializedKeyPair<Uint8Array>>;
export function revokeKey(options: { key: PrivateKey, reasonForRevocation?: ReasonForRevocation, date?: Date, format: 'object', config?: PartialConfig }): Promise<KeyPair>;
export function revokeKey(options: { key: PrivateKey, revocationCertificate: string, date?: Date, format?: 'armored', config?: PartialConfig }): Promise<SerializedKeyPair<string>>;
export function revokeKey(options: { key: PrivateKey, revocationCertificate: string, date?: Date, format: 'binary', config?: PartialConfig }): Promise<SerializedKeyPair<Uint8Array>>;
export function revokeKey(options: { key: PrivateKey, revocationCertificate: string, date?: Date, format: 'object', config?: PartialConfig }): Promise<KeyPair>;
export function revokeKey(options: { key: PublicKey, revocationCertificate: string, date?: Date, format?: 'armored', config?: PartialConfig }): Promise<{ publicKey: string, privateKey: null }>;
export function revokeKey(options: { key: PublicKey, revocationCertificate: string, date?: Date, format: 'binary', config?: PartialConfig }): Promise<{ publicKey: Uint8Array, privateKey: null }>;
export function revokeKey(options: { key: PublicKey, revocationCertificate: string, date?: Date, format: 'object', config?: PartialConfig }): Promise<{ publicKey: PublicKey, privateKey: null }>;
export abstract class Key {
public readonly keyPacket: PublicKeyPacket | SecretKeyPacket;
public subkeys: Subkey[]; // do not add/replace users directly
public users: User[]; // do not add/replace subkeys directly
public revocationSignatures: SignaturePacket[];
public write(): Uint8Array;
public armor(config?: Config): string;
public getExpirationTime(userID?: UserID, config?: Config): Promise<Date | typeof Infinity | null>;
public getKeyIDs(): KeyID[];
public getPrimaryUser(date?: Date, userID?: UserID, config?: Config): Promise<PrimaryUser>; // throws on error
public getUserIDs(): string[];
public isPrivate(): this is PrivateKey;
public toPublic(): PublicKey;
// NB: the order of the `update` declarations matters, since PublicKey includes PrivateKey
public update(sourceKey: PrivateKey, date?: Date, config?: Config): Promise<PrivateKey>;
public update(sourceKey: PublicKey, date?: Date, config?: Config): Promise<PublicKey>;
public signPrimaryUser(privateKeys: PrivateKey[], date?: Date, userID?: UserID, config?: Config): Promise<this>
public signAllUsers(privateKeys: PrivateKey[], date?: Date, config?: Config): Promise<this>
public verifyPrimaryKey(date?: Date, userID?: UserID, config?: Config): Promise<void>; // throws on error
public verifyPrimaryUser(publicKeys: PublicKey[], date?: Date, userIDs?: UserID, config?: Config): Promise<{ keyID: KeyID, valid: boolean | null }[]>;
public verifyAllUsers(publicKeys?: PublicKey[], date?: Date, config?: Config): Promise<{ userID: string, keyID: KeyID, valid: boolean | null }[]>;
public isRevoked(signature?: SignaturePacket, key?: AnyKeyPacket, date?: Date, config?: Config): Promise<boolean>;
public getRevocationCertificate(date?: Date, config?: Config): Promise<MaybeStream<string> | undefined>;
public getEncryptionKey(keyID?: KeyID, date?: Date | null, userID?: UserID, config?: Config): Promise<this | Subkey>;
public getSigningKey(keyID?: KeyID, date?: Date | null, userID?: UserID, config?: Config): Promise<this | Subkey>;
public getKeys(keyID?: KeyID): (this | Subkey)[];
public getSubkeys(keyID?: KeyID): Subkey[];
public getFingerprint(): string;
public getCreationTime(): Date;
public getAlgorithmInfo(): AlgorithmInfo;
public getKeyID(): KeyID;
public toPacketList(): PacketList<AllowedKeyPackets>;
}
type AllowedKeyPackets = PublicKeyPacket | PublicSubkeyPacket | SecretKeyPacket | SecretSubkeyPacket | UserIDPacket | UserAttributePacket | SignaturePacket;
export class PublicKey extends Key {
constructor(packetlist: PacketList<AnyPacket>);
}
export class PrivateKey extends PublicKey {
constructor(packetlist: PacketList<AnyPacket>);
public revoke(reason?: ReasonForRevocation, date?: Date, config?: Config): Promise<PrivateKey>;
public isDecrypted(): boolean;
public addSubkey(options: SubkeyOptions): Promise<PrivateKey>;
public getDecryptionKeys(keyID?: KeyID, date?: Date | null, userID?: UserID, config?: Config): Promise<PrivateKey | Subkey>
public update(sourceKey: PublicKey, date?: Date, config?: Config): Promise<PrivateKey>;
}
export class Subkey {
constructor(subkeyPacket: SecretSubkeyPacket | PublicSubkeyPacket, mainKey: PublicKey);
public readonly keyPacket: SecretSubkeyPacket | PublicSubkeyPacket;
public readonly mainKey: PublicKey;
public bindingSignatures: SignaturePacket[];
public revocationSignatures: SignaturePacket[];
public verify(date?: Date, config?: Config): Promise<SignaturePacket>;
public isDecrypted(): boolean;
public getFingerprint(): string;
public getCreationTime(): Date;
public getAlgorithmInfo(): AlgorithmInfo;
public getKeyID(): KeyID;
public getExpirationTime(date?: Date, config?: Config): Promise<Date | typeof Infinity | null>
public isRevoked(signature: SignaturePacket, key: AnyKeyPacket, date?: Date, config?: Config): Promise<boolean>;
public update(subKey: Subkey, date?: Date, config?: Config): Promise<void>
public revoke(primaryKey: SecretKeyPacket, reasonForRevocation?: ReasonForRevocation, date?: Date, config?: Config): Promise<Subkey>;
}
export interface User {
userID: UserIDPacket | null;
userAttribute: UserAttributePacket | null;
selfCertifications: SignaturePacket[];
otherCertifications: SignaturePacket[];
revocationSignatures: SignaturePacket[];
}
export interface PrimaryUser {
index: number;
user: User;
selfCertification: SignaturePacket;
}
type AlgorithmInfo = {
algorithm: enums.publicKeyNames;
bits?: number;
curve?: EllipticCurveName;
};
/* ############## v5 SIG #################### */
export function readSignature(options: { armoredSignature: string, config?: PartialConfig }): Promise<Signature>;
export function readSignature(options: { binarySignature: Uint8Array, config?: PartialConfig }): Promise<Signature>;
export class Signature {
public readonly packets: PacketList<SignaturePacket>;
constructor(packetlist: PacketList<SignaturePacket>);
public write(): MaybeStream<Uint8Array>;
public armor(config?: Config): string;
public getSigningKeyIDs(): Array<KeyID>;
}
interface VerificationResult {
keyID: KeyID;
verified: Promise<true>; // throws on invalid signature
signature: Promise<Signature>;
}
/* ############## v5 CLEARTEXT #################### */
export function readCleartextMessage(options: { cleartextMessage: string, config?: PartialConfig }): Promise<CleartextMessage>;
export function createCleartextMessage(options: { text: string }): Promise<CleartextMessage>;
/** Class that represents an OpenPGP cleartext signed message.
*/
export class CleartextMessage {
/** Returns ASCII armored text of cleartext signed message
*/
armor(config?: Config): string;
/** Returns the key IDs of the keys that signed the cleartext message
*/
getSigningKeyIDs(): KeyID[];
/** Get cleartext
*/
getText(): string;
/** Sign the cleartext message
*
* @param privateKeys private keys with decrypted secret key data for signing
*/
sign(privateKeys: PrivateKey[], signature?: Signature, signingKeyIDs?: KeyID[], date?: Date, userIDs?: UserID[], notations?: RawNotation[], config?: Config): void;
/** Verify signatures of cleartext signed message
* @param keys array of keys to verify signatures
*/
verify(keys: PublicKey[], date?: Date, config?: Config): Promise<VerificationResult[]>;
}
/* ############## v5 MSG #################### */
export function generateSessionKey(options: { encryptionKeys: MaybeArray<PublicKey>, date?: Date, encryptionUserIDs?: MaybeArray<UserID>, config?: PartialConfig }): Promise<SessionKey>;
export function encryptSessionKey(options: EncryptSessionKeyOptions & { format?: 'armored' }): Promise<string>;
export function encryptSessionKey(options: EncryptSessionKeyOptions & { format: 'binary' }): Promise<Uint8Array>;
export function encryptSessionKey(options: EncryptSessionKeyOptions & { format: 'object' }): Promise<Message<Data>>;
export function decryptSessionKeys<T extends MaybeStream<Data>>(options: { message: Message<T>, decryptionKeys?: MaybeArray<PrivateKey>, passwords?: MaybeArray<string>, date?: Date, config?: PartialConfig }): Promise<SessionKey[]>;
export function readMessage<T extends MaybeStream<string>>(options: { armoredMessage: T, config?: PartialConfig }): Promise<Message<T>>;
export function readMessage<T extends MaybeStream<Uint8Array>>(options: { binaryMessage: T, config?: PartialConfig }): Promise<Message<T>>;
export function createMessage<T extends MaybeStream<string>>(options: { text: T, filename?: string, date?: Date, format?: enums.literalFormatNames }): Promise<Message<T>>;
export function createMessage<T extends MaybeStream<Uint8Array>>(options: { binary: T, filename?: string, date?: Date, format?: enums.literalFormatNames }): Promise<Message<T>>;
export function encrypt<T extends MaybeStream<Data>>(options: EncryptOptions & { message: Message<T>, format?: 'armored' }): Promise<
T extends WebStream<infer X> ? WebStream<string> :
T extends NodeStream<infer X> ? NodeStream<string> :
string
>;
export function encrypt<T extends MaybeStream<Data>>(options: EncryptOptions & { message: Message<T>, format: 'binary' }): Promise<
T extends WebStream<infer X> ? WebStream<Uint8Array> :
T extends NodeStream<infer X> ? NodeStream<Uint8Array> :
Uint8Array
>;
export function encrypt<T extends MaybeStream<Data>>(options: EncryptOptions & { message: Message<T>, format: 'object' }): Promise<Message<T>>;
export function sign<T extends MaybeStream<Data>>(options: SignOptions & { message: Message<T>, format?: 'armored' }): Promise<
T extends WebStream<infer X> ? WebStream<string> :
T extends NodeStream<infer X> ? NodeStream<string> :
string
>;
export function sign<T extends MaybeStream<Data>>(options: SignOptions & { message: Message<T>, format: 'binary' }): Promise<
T extends WebStream<infer X> ? WebStream<Uint8Array> :
T extends NodeStream<infer X> ? NodeStream<Uint8Array> :
Uint8Array
>;
export function sign<T extends MaybeStream<Data>>(options: SignOptions & { message: Message<T>, format: 'object' }): Promise<Message<T>>;
export function sign(options: SignOptions & { message: CleartextMessage, format?: 'armored' }): Promise<string>;
export function sign(options: SignOptions & { message: CleartextMessage, format: 'object' }): Promise<CleartextMessage>;
export function decrypt<T extends MaybeStream<Data>>(options: DecryptOptions & { message: Message<T>, format: 'binary' }): Promise<DecryptMessageResult & {
data:
T extends WebStream<infer X> ? WebStream<Uint8Array> :
T extends NodeStream<infer X> ? NodeStream<Uint8Array> :
Uint8Array
}>;
export function decrypt<T extends MaybeStream<Data>>(options: DecryptOptions & { message: Message<T> }): Promise<DecryptMessageResult & {
data:
T extends WebStream<infer X> ? WebStream<string> :
T extends NodeStream<infer X> ? NodeStream<string> :
string
}>;
export function verify(options: VerifyOptions & { message: CleartextMessage, format?: 'utf8' }): Promise<VerifyMessageResult<string>>;
export function verify<T extends MaybeStream<Data>>(options: VerifyOptions & { message: Message<T>, format: 'binary' }): Promise<VerifyMessageResult<
T extends WebStream<infer X> ? WebStream<Uint8Array> :
T extends NodeStream<infer X> ? NodeStream<Uint8Array> :
Uint8Array
>>;
export function verify<T extends MaybeStream<Data>>(options: VerifyOptions & { message: Message<T> }): Promise<VerifyMessageResult<
T extends WebStream<infer X> ? WebStream<string> :
T extends NodeStream<infer X> ? NodeStream<string> :
string
>>;
/** Class that represents an OpenPGP message. Can be an encrypted message, signed message, compressed message or literal message
*/
export class Message<T extends MaybeStream<Data>> {
public readonly packets: PacketList<AnyPacket>;
constructor(packetlist: PacketList<AnyPacket>);
/** Returns binary representation of message
*/
public write(): MaybeStream<Uint8Array>;
/** Returns ASCII armored text of message
*/
public armor(config?: Config): string;
/** Decrypt the message
@param decryptionKeys array of private keys with decrypted secret data
*/
public decrypt(decryptionKeys?: PrivateKey[], passwords?: string[], sessionKeys?: SessionKey[], date?: Date, config?: Config): Promise<Message<MaybeStream<Data>>>;
/** Encrypt the message
@param encryptionKeys array of public keys, used to encrypt the message
*/
public encrypt(encryptionKeys?: PublicKey[], passwords?: string[], sessionKeys?: SessionKey[], wildcard?: boolean, encryptionKeyIDs?: KeyID[], date?: Date, userIDs?: UserID[], config?: Config): Promise<Message<MaybeStream<Data>>>;
/** Returns the key IDs of the keys to which the session key is encrypted
*/
public getEncryptionKeyIDs(): KeyID[];
/** Get literal data that is the body of the message
*/
public getLiteralData(): (T extends Stream<Data> ? WebStream<Uint8Array> : Uint8Array) | null;
/** Returns the key IDs of the keys that signed the message
*/
public getSigningKeyIDs(): KeyID[];
/** Get literal data as text
*/
public getText(): (T extends Stream<Data> ? WebStream<string> : string) | null;
public getFilename(): string | null;
/** Sign the message (the literal data packet of the message)
@param signingKeys private keys with decrypted secret key data for signing
*/
public sign(signingKeys: PrivateKey[], signature?: Signature, signingKeyIDs?: KeyID[], date?: Date, userIDs?: UserID[], notations?: RawNotation[], config?: Config): Promise<Message<T>>;
/** Unwrap compressed message
*/
public unwrapCompressed(): Message<T>;
/** Verify message signatures
@param verificationKeys array of public keys to verify signatures
*/
public verify(verificationKeys: PublicKey[], date?: Date, config?: Config): Promise<VerificationResult[]>;
/**
* Append signature to unencrypted message object
* @param {String|Uint8Array} detachedSignature - The detached ASCII-armored or Uint8Array PGP signature
*/
public appendSignature(detachedSignature: string | Uint8Array, config?: Config): Promise<void>;
}
/* ############## v5 CONFIG #################### */
interface Config {
preferredHashAlgorithm: enums.hash;
preferredSymmetricAlgorithm: enums.symmetric;
preferredCompressionAlgorithm: enums.compression;
showVersion: boolean;
showComment: boolean;
deflateLevel: number;
aeadProtect: boolean;
allowUnauthenticatedMessages: boolean;
allowUnauthenticatedStream: boolean;
checksumRequired: boolean;
minRSABits: number;
passwordCollisionCheck: boolean;
revocationsExpire: boolean;
ignoreUnsupportedPackets: boolean;
ignoreMalformedPackets: boolean;
versionString: string;
commentString: string;
allowInsecureDecryptionWithSigningKeys: boolean;
allowInsecureVerificationWithReformattedKeys: boolean;
constantTimePKCS1Decryption: boolean;
constantTimePKCS1DecryptionSupportedSymmetricAlgorithms: Set<enums.symmetric>;
v5Keys: boolean;
preferredAEADAlgorithm: enums.aead;
aeadChunkSizeByte: number;
s2kIterationCountByte: number;
minBytesForWebCrypto: number;
maxUserIDLength: number;
knownNotations: string[];
useIndutnyElliptic: boolean;
rejectHashAlgorithms: Set<enums.hash>;
rejectMessageHashAlgorithms: Set<enums.hash>;
rejectPublicKeyAlgorithms: Set<enums.publicKey>;
rejectCurves: Set<enums.curve>;
}
export var config: Config;
// PartialConfig has the same properties as Config, but declared as optional.
// This interface is relevant for top-level functions, which accept a subset of configuration options
interface PartialConfig extends Partial<Config> {}
/* ############## v5 PACKET #################### */
declare abstract class BasePacket {
static readonly tag: enums.packet;
public read(bytes: Uint8Array): void;
public write(): Uint8Array;
}
/**
* The relationship between the KeyPacket classes is modeled by considering the following:
* - A Secret (Sub)Key Packet can always be used when a Public one is expected.
* - A Subkey Packet cannot always be used when a Primary Key Packet is expected (and vice versa).
*/
declare abstract class BasePublicKeyPacket extends BasePacket {
public algorithm: enums.publicKey;
public created: Date;
public version: number;
public getAlgorithmInfo(): AlgorithmInfo;
public getFingerprint(): string;
public getFingerprintBytes(): Uint8Array | null;
public hasSameFingerprintAs(other: BasePublicKeyPacket): boolean;
public getCreationTime(): Date;
public getKeyID(): KeyID;
public isDecrypted(): boolean;
public publicParams: object;
// `isSubkey` is a dummy method to ensure that Subkey packets are not accepted as Key one, and vice versa.
// The key class hierarchy is already modelled to cover this, but the concrete key packet classes
// have compatible structure and TS can't detect the difference.
protected isSubkey(): boolean;
}
export class PublicKeyPacket extends BasePublicKeyPacket {
static readonly tag: enums.packet.publicKey;
protected isSubkey(): false;
}
export class PublicSubkeyPacket extends BasePublicKeyPacket {
static readonly tag: enums.packet.publicSubkey;
protected isSubkey(): true;
}
declare abstract class BaseSecretKeyPacket extends BasePublicKeyPacket {
public privateParams: object | null;
public encrypt(passphrase: string, config?: Config): Promise<void>; // throws on error
public decrypt(passphrase: string): Promise<void>; // throws on error
public validate(): Promise<void>; // throws on error
public isDummy(): boolean;
public isMissingSecretKeyMaterial(): boolean;
public makeDummy(config?: Config): void;
}
export class SecretKeyPacket extends BaseSecretKeyPacket {
static readonly tag: enums.packet.secretKey;
protected isSubkey(): false;
}
export class SecretSubkeyPacket extends BaseSecretKeyPacket {
static readonly tag: enums.packet.secretSubkey;
protected isSubkey(): true;
}
export class CompressedDataPacket extends BasePacket {
static readonly tag: enums.packet.compressedData;
private compress(): void;
private decompress(config?: Config): void;
}
export class SymEncryptedIntegrityProtectedDataPacket extends BasePacket {
static readonly tag: enums.packet.symEncryptedIntegrityProtectedData;
}
export class AEADEncryptedDataPacket extends BasePacket {
static readonly tag: enums.packet.aeadEncryptedData;
private decrypt(sessionKeyAlgorithm: enums.symmetric, sessionKey: Uint8Array, config?: Config): void;
private encrypt(sessionKeyAlgorithm: enums.symmetric, sessionKey: Uint8Array, config?: Config): void;
private crypt(fn: Function, sessionKey: Uint8Array, data: MaybeStream<Uint8Array>): MaybeStream<Uint8Array>
}
export class PublicKeyEncryptedSessionKeyPacket extends BasePacket {
static readonly tag: enums.packet.publicKeyEncryptedSessionKey;
private decrypt(keyPacket: SecretKeyPacket): void; // throws on error
private encrypt(keyPacket: PublicKeyPacket): void; // throws on error
}
export class SymEncryptedSessionKeyPacket extends BasePacket {
static readonly tag: enums.packet.symEncryptedSessionKey;
private decrypt(passphrase: string): Promise<void>;
private encrypt(passphrase: string, config?: Config): Promise<void>;
}
export class LiteralDataPacket extends BasePacket {
static readonly tag: enums.packet.literalData;
private getText(clone?: boolean): MaybeStream<string>;
private getBytes(clone?: boolean): MaybeStream<Uint8Array>;
private setText(text: MaybeStream<string>, format?: enums.literal);
private setBytes(bytes: MaybeStream<Uint8Array>, format: enums.literal);
private setFilename(filename: string);
private getFilename(): string;
private writeHeader(): Uint8Array;
}
export class SymmetricallyEncryptedDataPacket extends BasePacket {
static readonly tag: enums.packet.symmetricallyEncryptedData;
private decrypt(sessionKeyAlgorithm: enums.symmetric, sessionKey: Uint8Array, config?: Config): void;
private encrypt(sessionKeyAlgorithm: enums.symmetric, sessionKey: Uint8Array, config?: Config): void;
}
export class MarkerPacket extends BasePacket {
static readonly tag: enums.packet.marker;
}
export class UserAttributePacket extends BasePacket {
static readonly tag: enums.packet.userAttribute;
private equals(packet: UserAttributePacket): boolean;
}
export class OnePassSignaturePacket extends BasePacket {
static readonly tag: enums.packet.onePassSignature;
public correspondingSig?: Promise<SignaturePacket>;
private verify: SignaturePacket['verify'];
}
export class UserIDPacket extends BasePacket {
static readonly tag: enums.packet.userID;
public readonly name: string;
public readonly comment: string;
public readonly email: string;
public readonly userID: string;
static fromObject(userID: UserID): UserIDPacket;
}
export class SignaturePacket extends BasePacket {
static readonly tag: enums.packet.signature;
public version: number;
public signatureType: enums.signature | null;
public hashAlgorithm: enums.hash | null;
public publicKeyAlgorithm: enums.publicKey | null;
public signatureData: null | Uint8Array;
public unhashedSubpackets: null | Uint8Array;
public signedHashValue: null | Uint8Array;
public created: Date | null;
public signatureExpirationTime: null | number;
public signatureNeverExpires: boolean;
public exportable: null | boolean;
public trustLevel: null | number;
public trustAmount: null | number;
public regularExpression: null | number;
public revocable: null | boolean;
public keyExpirationTime: null | number;
public keyNeverExpires: null | boolean;
public preferredSymmetricAlgorithms: enums.symmetric[] | null;
public revocationKeyClass: null | number;
public revocationKeyAlgorithm: null | enums.publicKey;
public revocationKeyFingerprint: null | Uint8Array;
public issuerKeyID: KeyID;
public notation: null | { [name: string]: string };
public preferredHashAlgorithms: enums.hash[] | null;
public preferredCompressionAlgorithms: enums.compression[] | null;
public keyServerPreferences: null | number[];
public preferredKeyServer: null | string;
public isPrimaryUserID: null | boolean;
public policyURI: null | string;
public keyFlags: Uint8Array | null;
public signersUserID: null | string;
public reasonForRevocationFlag: null | enums.reasonForRevocation;
public reasonForRevocationString: null | string;
public features: Uint8Array | null;
public signatureTargetPublicKeyAlgorithm: enums.publicKey | null;
public signatureTargetHashAlgorithm: enums.hash | null;
public signatureTargetHash: null | string;
public embeddedSignature: null | SignaturePacket;
public issuerKeyVersion: null | number;
public issuerFingerprint: null | Uint8Array;
public preferredAEADAlgorithms: enums.aead[] | null;
public revoked: null | boolean;
public rawNotations: RawNotation[];
public sign(key: AnySecretKeyPacket, data: Uint8Array, date?: Date, detached?: boolean): Promise<void>;
public verify(key: AnyKeyPacket, signatureType: enums.signature, data: Uint8Array | object, date?: Date, detached?: boolean, config?: Config): Promise<void>; // throws on error
public isExpired(date?: Date): boolean;
public getExpirationTime(): Date | typeof Infinity;
}
export interface RawNotation {
name: string;
value: Uint8Array;
humanReadable: boolean;
critical: boolean;
}
export class TrustPacket extends BasePacket {
static readonly tag: enums.packet.trust;
}
export class UnparseablePacket {
tag: enums.packet;
write: () => Uint8Array;
}
export type AnyPacket = BasePacket | UnparseablePacket;
export type AnySecretKeyPacket = SecretKeyPacket | SecretSubkeyPacket;
export type AnyKeyPacket = BasePublicKeyPacket;
type AllowedPackets = Map<enums.packet, object>; // mapping to Packet classes (i.e. typeof LiteralDataPacket etc.)
export class PacketList<T extends AnyPacket> extends Array<T> {
static fromBinary(bytes: MaybeStream<Uint8Array>, allowedPackets: AllowedPackets, config?: Config): PacketList<AnyPacket>; // the packet types depend on`allowedPackets`
public read(bytes: MaybeStream<Uint8Array>, allowedPackets: AllowedPackets, config?: Config): void;
public write(): Uint8Array;
public filterByTag(...args: enums.packet[]): PacketList<T>;
public indexOfTag(...tags: enums.packet[]): number[];
public findPacket(tag: enums.packet): T | undefined;
}
/* ############## v5 STREAM #################### */
type Data = Uint8Array | string;
export interface WebStream<T extends Data> extends GenericWebStream<T> {}
export interface NodeStream<T extends Data> extends GenericNodeStream<T> {}
export type Stream<T extends Data> = WebStream<T> | NodeStream<T>;
export type MaybeStream<T extends Data> = T | Stream<T>;
/* ############## v5 GENERAL #################### */
type MaybeArray<T> = T | Array<T>;
export interface UserID { name?: string; email?: string; comment?: string; }
export interface SessionKey {
data: Uint8Array;
algorithm: enums.symmetricNames;
aeadAlgorithm?: enums.aeadNames;
}
export interface ReasonForRevocation { flag?: enums.reasonForRevocation, string?: string }
interface EncryptOptions {
/** message to be encrypted as created by createMessage */
message: Message<MaybeStream<Data>>;
/** (optional) array of keys or single key, used to encrypt the message */
encryptionKeys?: MaybeArray<PublicKey>;
/** (optional) private keys for signing. If omitted message will not be signed */
signingKeys?: MaybeArray<PrivateKey>;
/** (optional) array of passwords or a single password to encrypt the message */
passwords?: MaybeArray<string>;
/** (optional) session key */
sessionKey?: SessionKey;
/** if the return values should be ascii armored or the message/signature objects */
format?: 'armored' | 'binary' | 'object';
/** (optional) if the signature should be detached (if true, signature will be added to returned object) */
signature?: Signature;
/** (optional) encrypt as of a certain date */
date?: Date;
/** (optional) use a key ID of 0 instead of the public key IDs */
wildcard?: boolean;
/** (optional) Array of key IDs to use for signing. Each `signingKeyIDs[i]` corresponds to `signingKeys[i]` */
signingKeyIDs?: MaybeArray<KeyID>;
/** (optional) Array of key IDs to use for encryption. Each `encryptionKeyIDs[i]` corresponds to `encryptionKeys[i]`*/
encryptionKeyIDs?: MaybeArray<KeyID>;
/** (optional) Array of user IDs to sign with, e.g. { name:'Steve Sender', email:'[email protected]' } */
signingUserIDs?: MaybeArray<UserID>;
/** (optional) array of user IDs to encrypt for, e.g. { name:'Robert Receiver', email:'[email protected]' } */
encryptionUserIDs?: MaybeArray<UserID>;
/** (optional) array of notations to add to the signatures, e.g. { name: '[email protected]', value: new TextEncoder().encode('test'), humanReadable: true, critical: false } */
signatureNotations?: MaybeArray<RawNotation>;
config?: PartialConfig;
}
interface DecryptOptions {
/** the message object with the encrypted data */
message: Message<MaybeStream<Data>>;
/** (optional) private keys with decrypted secret key data or session key */
decryptionKeys?: MaybeArray<PrivateKey>;
/** (optional) passwords to decrypt the message */
passwords?: MaybeArray<string>;
/** (optional) session keys in the form: { data:Uint8Array, algorithm:String } */
sessionKeys?: MaybeArray<SessionKey>;
/** (optional) array of public keys or single key, to verify signatures */
verificationKeys?: MaybeArray<PublicKey>;
/** (optional) whether data decryption should fail if the message is not signed with the provided publicKeys */
expectSigned?: boolean;
/** (optional) whether to return data as a string(Stream) or Uint8Array(Stream). If 'utf8' (the default), also normalize newlines. */
format?: 'utf8' | 'binary';
/** (optional) detached signature for verification */
signature?: Signature;
/** (optional) use the given date for verification instead of the current time */
date?: Date;
config?: PartialConfig;
}
interface SignOptions {
message: CleartextMessage | Message<MaybeStream<Data>>;
signingKeys: MaybeArray<PrivateKey>;
format?: 'armored' | 'binary' | 'object';
detached?: boolean;
signingKeyIDs?: MaybeArray<KeyID>;
date?: Date;
signingUserIDs?: MaybeArray<UserID>;
signatureNotations?: MaybeArray<RawNotation>;
config?: PartialConfig;
}
interface VerifyOptions {
/** (cleartext) message object with signatures */
message: CleartextMessage | Message<MaybeStream<Data>>;
/** array of publicKeys or single key, to verify signatures */
verificationKeys: MaybeArray<PublicKey>;
/** (optional) whether verification should throw if the message is not signed with the provided publicKeys */
expectSigned?: boolean;
/** (optional) whether to return data as a string(Stream) or Uint8Array(Stream). If 'utf8' (the default), also normalize newlines. */
format?: 'utf8' | 'binary';
/** (optional) detached signature for verification */
signature?: Signature;
/** (optional) use the given date for verification instead of the current time */
date?: Date | null;
config?: PartialConfig;
}
interface EncryptSessionKeyOptions extends SessionKey {
encryptionKeys?: MaybeArray<PublicKey>,
passwords?: MaybeArray<string>,
format?: 'armored' | 'binary' | 'object',
date?: Date,
wildcard?: boolean,
encryptionKeyIDs?: MaybeArray<KeyID>,
encryptionUserIDs?: MaybeArray<UserID>,
config?: PartialConfig
}
interface SerializedKeyPair<T extends string|Uint8Array> {
privateKey: T;
publicKey: T;
}
interface KeyPair {
privateKey: PrivateKey;
publicKey: PublicKey;
}
export type EllipticCurveName = 'ed25519' | 'curve25519' | 'p256' | 'p384' | 'p521' | 'secp256k1' | 'brainpoolP256r1' | 'brainpoolP384r1' | 'brainpoolP512r1';
interface GenerateKeyOptions {
userIDs: MaybeArray<UserID>;
passphrase?: string;
type?: 'ecc' | 'rsa';
curve?: EllipticCurveName;
rsaBits?: number;
keyExpirationTime?: number;
date?: Date;
subkeys?: SubkeyOptions[];
format?: 'armored' | 'object' | 'binary';
config?: PartialConfig;
}
export type KeyOptions = GenerateKeyOptions;
interface SubkeyOptions {
type?: 'ecc' | 'rsa';
curve?: EllipticCurveName;
rsaBits?: number;
keyExpirationTime?: number;
date?: Date;
sign?: boolean;
config?: PartialConfig;
}
declare class KeyID {
bytes: string;
equals(keyID: KeyID, matchWildcard?: boolean): boolean;
toHex(): string;
static fromID(hex: string): KeyID;
}
interface DecryptMessageResult {
data: MaybeStream<Data>;
signatures: VerificationResult[];
filename: string;
}
interface VerifyMessageResult<T extends MaybeStream<Data> = MaybeStream<Data>> {
data: T;
signatures: VerificationResult[];
}
/**
* Armor an OpenPGP binary packet block
*/
export function armor(messagetype: enums.armor, body: object, partindex?: number, parttotal?: number, customComment?: string, config?: Config): string;
/**
* DeArmor an OpenPGP armored message; verify the checksum and return the encoded bytes
*/
export function unarmor(input: string, config?: Config): Promise<{ text: string, data: Stream<Uint8Array>, type: enums.armor }>;
/* ############## v5 ENUMS #################### */
export namespace enums {
function read(type: typeof armor, e: armor): armorNames;
function read(type: typeof compression, e: compression): compressionNames;
function read(type: typeof hash, e: hash): hashNames;
function read(type: typeof packet, e: packet): packetNames;
function read(type: typeof publicKey, e: publicKey): publicKeyNames;
function read(type: typeof symmetric, e: symmetric): symmetricNames;
function read(type: typeof keyStatus, e: keyStatus): keyStatusNames;
function read(type: typeof keyFlags, e: keyFlags): keyFlagsNames;
export type armorNames = 'multipartSection' | 'multipartLast' | 'signed' | 'message' | 'publicKey' | 'privateKey';
enum armor {
multipartSection = 0,
multipartLast = 1,
signed = 2,
message = 3,
publicKey = 4,
privateKey = 5,
signature = 6,
}
enum reasonForRevocation {
noReason = 0, // No reason specified (key revocations or cert revocations)
keySuperseded = 1, // Key is superseded (key revocations)
keyCompromised = 2, // Key material has been compromised (key revocations)
keyRetired = 3, // Key is retired and no longer used (key revocations)
userIDInvalid = 32, // User ID information is no longer valid (cert revocations)
}
export type compressionNames = 'uncompressed' | 'zip' | 'zlib' | 'bzip2';
enum compression {
uncompressed = 0,
zip = 1,
zlib = 2,
bzip2 = 3,
}
export type hashNames = 'md5' | 'sha1' | 'ripemd' | 'sha256' | 'sha384' | 'sha512' | 'sha224';
enum hash {
md5 = 1,
sha1 = 2,
ripemd = 3,
sha256 = 8,
sha384 = 9,
sha512 = 10,
sha224 = 11,
}
export type packetNames = 'publicKeyEncryptedSessionKey' | 'signature' | 'symEncryptedSessionKey' | 'onePassSignature' | 'secretKey' | 'publicKey'
| 'secretSubkey' | 'compressed' | 'symmetricallyEncrypted' | 'marker' | 'literal' | 'trust' | 'userID' | 'publicSubkey' | 'userAttribute'
| 'symEncryptedIntegrityProtected' | 'modificationDetectionCode' | 'AEADEncryptedDataPacket';
enum packet {
publicKeyEncryptedSessionKey = 1,
signature = 2,
symEncryptedSessionKey = 3,
onePassSignature = 4,
secretKey = 5,
publicKey = 6,
secretSubkey = 7,
compressedData = 8,
symmetricallyEncryptedData = 9,
marker = 10,
literalData = 11,
trust = 12,
userID = 13,
publicSubkey = 14,
userAttribute = 17,
symEncryptedIntegrityProtectedData = 18,
modificationDetectionCode = 19,
aeadEncryptedData = 20,
}
export type publicKeyNames = 'rsaEncryptSign' | 'rsaEncrypt' | 'rsaSign' | 'elgamal' | 'dsa' | 'ecdh' | 'ecdsa' | 'eddsa' | 'aedh' | 'aedsa';
enum publicKey {
rsaEncryptSign = 1,
rsaEncrypt = 2,
rsaSign = 3,
elgamal = 16,
dsa = 17,
ecdh = 18,
ecdsa = 19,
/** @deprecated use `eddsaLegacy` instead */
eddsa = 22,
eddsaLegacy = 22,
aedh = 23,
aedsa = 24,
}
enum curve {
p256 = 'p256',
p384 = 'p384',
p521 = 'p521',
/** @deprecated use `ed25519Legacy` instead */
ed25519 = 'ed25519',
ed25519Legacy = 'ed25519',
/** @deprecated use `curve25519Legacy` instead */
curve25519 = 'curve25519',
curve25519Legacy = 'curve25519',
secp256k1 = 'secp256k1',
brainpoolP256r1 = 'brainpoolP256r1',
brainpoolP384r1 = 'brainpoolP384r1',
brainpoolP512r1 = 'brainpoolP512r1'
}
export type symmetricNames = 'plaintext' | 'idea' | 'tripledes' | 'cast5' | 'blowfish' | 'aes128' | 'aes192' | 'aes256' | 'twofish';
enum symmetric {
plaintext = 0,
idea = 1,
tripledes = 2,
cast5 = 3,
blowfish = 4,
aes128 = 7,
aes192 = 8,
aes256 = 9,
twofish = 10,
}
export type keyStatusNames = 'invalid' | 'expired' | 'revoked' | 'valid' | 'noSelfCert';
enum keyStatus {
invalid = 0,
expired = 1,
revoked = 2,
valid = 3,
noSelfCert = 4,
}
export type keyFlagsNames = 'certifyKeys' | 'signData' | 'encryptCommunication' | 'encryptStorage' | 'splitPrivateKey' | 'authentication'
| 'sharedPrivateKey';
enum keyFlags {
certifyKeys = 1,
signData = 2,
encryptCommunication = 4,
encryptStorage = 8,
splitPrivateKey = 16,
authentication = 32,
sharedPrivateKey = 128,
}
enum signature {
binary = 0,
text = 1,
standalone = 2,
certGeneric = 16,
certPersona = 17,
certCasual = 18,
certPositive = 19,
certRevocation = 48,
subkeyBinding = 24,
keyBinding = 25,
key = 31,
keyRevocation = 32,
subkeyRevocation = 40,
timestamp = 64,
thirdParty = 80
}
export type aeadNames = 'eax' | 'ocb' | 'gcm';
enum aead {
eax = 1,
ocb = 2,
experimentalGCM = 100 // Private algorithm
}
export type literalFormatNames = 'utf8' | 'binary' | 'text' | 'mime'
enum literal {
binary = 98,
text = 116,
utf8 = 117,
mime = 109
}
}