/**
 * @license
 * Copyright 2020 Google LLC
 * SPDX-License-Identifier: Apache-2.0
 */
/**
 * Interface for hybrid encryption.
 *
 * Hybrid Encryption combines the efficiency of symmetric encryption with the
 * convenience of public-key encryption: to encrypt a message a fresh symmetric
 * key is generated and used to encrypt the actual plaintext data, while the
 * recipient’s public key is used to encrypt the symmetric key only, and the
 * final ciphertext consists of the symmetric ciphertext and the encrypted
 * symmetric key.
 *
 * WARNING: Hybrid Encryption does not provide authenticity, that is the
 * recipient of an encrypted message does not know the identity of the sender.
 * Similar to general public-key encryption schemes the security goal of Hybrid
 * Encryption is to provide privacy only. In other words, Hybrid Encryption is
 * secure if and only if the recipient can accept anonymous messages or can rely
 * on other mechanisms to authenticate the sender.
 *
 * Security guarantees: The functionality of Hybrid Encryption is represented as
 * a pair of primitives (interfaces): `HybridEncrypt` for encryption of data,
 * and `HybridDecrypt` for decryption. Implementations of these interfaces are
 * secure against adaptive chosen ciphertext attacks.
 *
 * In addition to `plaintext` the encryption takes an extra, optional parameter
 * `opt_contextInfo`, which usually is public data implicit from the context,
 * but should be bound to the resulting ciphertext, i.e. the ciphertext allows
 * for checking the integrity of `opt_contextInfo` (but there are no guarantees
 * wrt. the secrecy or authenticity of `opt_contextInfo`).
 *
 * `opt_contextInfo` can be empty or null, but to ensure the correct
 * decryption of a ciphertext the same value must be provided for the decryption
 * operation as was used during encryption (cf. `HybridEncrypt`}).
 *
 * A concrete instantiation of this interface can implement the binding of
 * contextInfo to the ciphertext in various ways, for example:
 *     * use `opt_contextInfo` as "associated data"-input for the employed
 *     AEAD symmetric encryption (cf. https://tools.ietf.org/html/rfc5116).
 *     * use `opt_contextInfo` as "CtxInfo"-input for HKDF (if the
 * implementation uses HKDF as key derivation function, cf.
 *      https://tools.ietf.org/html/rfc5869).
 *
 */
export declare abstract class HybridDecrypt {
    /**
     * Decryption operation: decrypts ciphertext verifying the integrity of
     * `opt_contextInfo`.
     *
     * @param ciphertext the ciphertext to be decrypted, must be
     *     non-null.
     * @param opt_contextInfo optional the context info to be
     *     authenticated. For successful decryption it must be the same as used
     *     during encryption. It can be null, which is equivalent to an empty
     *     (zero-length) byte array.
     * @return resulting plaintext
     */
    abstract decrypt(ciphertext: Uint8Array, opt_contextInfo?: Uint8Array | null): Promise<Uint8Array>;
}