// Generated by dts-bundle-generator v9.5.1

/**
 * see [core_crypto::prelude::CiphersuiteName]
 */
export declare enum Ciphersuite {
	/**
	 * DH KEM x25519 | AES-GCM 128 | SHA2-256 | Ed25519
	 */
	MLS_128_DHKEMX25519_AES128GCM_SHA256_Ed25519 = 1,
	/**
	 * DH KEM P256 | AES-GCM 128 | SHA2-256 | EcDSA P256
	 */
	MLS_128_DHKEMP256_AES128GCM_SHA256_P256 = 2,
	/**
	 * DH KEM x25519 | Chacha20Poly1305 | SHA2-256 | Ed25519
	 */
	MLS_128_DHKEMX25519_CHACHA20POLY1305_SHA256_Ed25519 = 3,
	/**
	 * DH KEM x448 | AES-GCM 256 | SHA2-512 | Ed448
	 */
	MLS_256_DHKEMX448_AES256GCM_SHA512_Ed448 = 4,
	/**
	 * DH KEM P521 | AES-GCM 256 | SHA2-512 | EcDSA P521
	 */
	MLS_256_DHKEMP521_AES256GCM_SHA512_P521 = 5,
	/**
	 * DH KEM x448 | Chacha20Poly1305 | SHA2-512 | Ed448
	 */
	MLS_256_DHKEMX448_CHACHA20POLY1305_SHA512_Ed448 = 6,
	/**
	 * DH KEM P384 | AES-GCM 256 | SHA2-384 | EcDSA P384
	 */
	MLS_256_DHKEMP384_AES256GCM_SHA384_P384 = 7
}
/* tslint:disable */
/* eslint-disable */
/**
 * Updates the key of the CoreCrypto database.
 * To be used only once, when moving from CoreCrypto <= 5.x to CoreCrypto 6.x.
 */
export function migrateDatabaseKeyTypeToBytes(name: string, old_key: string, new_key: DatabaseKey): Promise<void>;
export enum CredentialType {
	/**
	 * Basic credential i.e. a KeyPair
	 */
	Basic = 1,
	/**
	 * A x509 certificate generally obtained through e2e identity enrollment process
	 */
	X509 = 2
}
export enum DeviceStatus {
	/**
	 * All is fine
	 */
	Valid = 1,
	/**
	 * The Credential's certificate is expired
	 */
	Expired = 2,
	/**
	 * The Credential's certificate is revoked (not implemented yet)
	 */
	Revoked = 3
}
declare enum E2eiConversationState {
	/**
	 * All clients have a valid E2EI certificate
	 */
	Verified = 1,
	/**
	 * Some clients are either still Basic or their certificate is expired
	 */
	NotVerified = 2,
	/**
	 * All clients are still Basic. If all client have expired certificates, [E2eiConversationState::NotVerified] is returned.
	 */
	NotEnabled = 3
}
declare enum MlsGroupInfoEncryptionType {
	/**
	 * Unencrypted `GroupInfo`
	 */
	Plaintext = 1,
	/**
	 * `GroupInfo` encrypted in a JWE
	 */
	JweEncrypted = 2
}
declare enum MlsRatchetTreeType {
	/**
	 * Plain old and complete `GroupInfo`
	 */
	Full = 1,
	/**
	 * Contains `GroupInfo` changes since previous epoch (not yet implemented)
	 * (see [draft](https://github.com/rohan-wire/ietf-drafts/blob/main/mahy-mls-ratchet-tree-delta/draft-mahy-mls-ratchet-tree-delta.md))
	 */
	Delta = 2,
	ByRef = 3
}
/**
 * See [core_crypto::prelude::MlsWirePolicy]
 */
export enum WirePolicy {
	/**
	 * Handshake messages are never encrypted
	 */
	Plaintext = 1,
	/**
	 * Handshake messages are always encrypted
	 */
	Ciphertext = 2
}
/**
 * For creating a challenge.
 *
 * - See <https://www.rfc-editor.org/rfc/rfc8555.html#section-7.5.1>
 * - See [core_crypto::e2e_identity::types::E2eiAcmeChallenge]
 */
export class AcmeChallenge {
	private constructor();
	free(): void;
	/**
	 * Contains raw JSON data of this challenge. This is parsed by the underlying Rust library hence should not be accessed
	 */
	readonly delegate: Uint8Array;
	/**
	 * URL of this challenge
	 */
	readonly url: string;
	/**
	 * Non-standard, Wire specific claim. Indicates the consumer from where it should get the challenge proof.
	 * Either from wire-server "/access-token" endpoint in case of a DPoP challenge, or from an OAuth token endpoint for an OIDC challenge
	 */
	readonly target: string;
}
declare class AcmeDirectory {
	private constructor();
	free(): void;
	/**
	 * URL for fetching a new nonce. Use this only for creating a new account.
	 */
	readonly newNonce: string;
	/**
	 * URL for creating a new account.
	 */
	readonly newAccount: string;
	/**
	 * URL for creating a new order.
	 */
	readonly newOrder: string;
	/**
	 * Revocation URL
	 */
	readonly revokeCert: string;
}
declare class ArrayOfByteArray {
	free(): void;
	constructor(aoba: Uint8Array[]);
	as_arrays(): Uint8Array[];
}
declare class BufferedDecryptedMessage {
	private constructor();
	free(): void;
	readonly message: Uint8Array | undefined;
	/**
	 * It is set to false if ingesting this MLS message has resulted in the client being removed from the group (i.e. a Remove commit)
	 */
	readonly isActive: boolean;
	/**
	 * Commit delay hint (in milliseconds) to prevent clients from hammering the server with epoch changes
	 */
	readonly commitDelay: bigint | undefined;
	readonly senderClientId: ClientId | undefined;
	/**
	 * true when the decrypted message resulted in an epoch change i.e. it was a commit
	 *
	 * Deprecated: this member will be removed in the future. Prefer using the `EpochObserver` interface.
	 */
	readonly hasEpochChanged: boolean;
	readonly identity: WireIdentity;
	/**
	 * New CRL Distribution of members of this group
	 */
	readonly crlNewDistributionPoints: NewCrlDistributionPoints;
}
/**
 * Metadata describing the conditions of the build of this software.
 */
export class BuildMetadata {
	private constructor();
	/**
	** Return copy of self without private attributes.
	*/
	toJSON(): Object;
	/**
	* Return stringified version of self.
	*/
	toString(): string;
	free(): void;
	/**
	 * Build Timestamp
	 */
	readonly timestamp: string;
	/**
	 * Whether this build was in Debug mode (true) or Release mode (false)
	 */
	readonly cargoDebug: string;
	/**
	 * Features enabled for this build
	 */
	readonly cargoFeatures: string;
	/**
	 * Optimization level
	 */
	readonly optLevel: string;
	/**
	 * Build target triple
	 */
	readonly targetTriple: string;
	/**
	 * Git branch
	 */
	readonly gitBranch: string;
	/**
	 * Output of `git describe`
	 */
	readonly gitDescribe: string;
	/**
	 * Hash of current git commit
	 */
	readonly gitSha: string;
	/**
	 * `true` when the source code differed from the commit at the most recent git hash
	 */
	readonly gitDirty: string;
}
declare class Ciphersuite$1 {
	free(): void;
	as_u16(): number;
	constructor(discriminant: number);
}
declare class Ciphersuites {
	free(): void;
	constructor(ids: Uint16Array);
}
declare class ClientId {
	free(): void;
	constructor(bytes: Uint8Array);
	as_bytes(): Uint8Array;
}
declare class ConversationConfiguration {
	free(): void;
	constructor(ciphersuite?: Ciphersuite$1 | null, external_senders?: Uint8Array[] | null, key_rotation_span?: number | null, wire_policy?: WirePolicy | null);
	readonly ciphersuite: Ciphersuite$1 | undefined;
	readonly custom: CustomConfiguration;
	/**
	 * List of client IDs that are allowed to be external senders
	 */
	readonly externalSenders: Uint8Array[];
}
declare class CoreCryptoContext {
	private constructor();
	free(): void;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::e2ei_new_enrollment]
	 */
	e2ei_new_enrollment(client_id: string, display_name: string, handle: string, team: string | null | undefined, expiry_sec: number, ciphersuite: Ciphersuite$1): Promise<FfiWireE2EIdentity>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::e2ei_new_activation_enrollment]
	 */
	e2ei_new_activation_enrollment(display_name: string, handle: string, team: string | null | undefined, expiry_sec: number, ciphersuite: Ciphersuite$1): Promise<FfiWireE2EIdentity>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::e2ei_new_rotate_enrollment]
	 */
	e2ei_new_rotate_enrollment(display_name: string | null | undefined, handle: string | null | undefined, team: string | null | undefined, expiry_sec: number, ciphersuite: Ciphersuite$1): Promise<FfiWireE2EIdentity>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::e2ei_register_acme_ca]
	 */
	e2ei_register_acme_ca(trust_anchor_pem: string): Promise<void>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::e2ei_register_intermediate_ca_pem]
	 */
	e2ei_register_intermediate_ca(cert_pem: string): Promise<NewCrlDistributionPoints>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::e2ei_register_crl]
	 */
	e2ei_register_crl(crl_dp: string, crl_der: Uint8Array): Promise<CrlRegistration>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::e2ei_mls_init_only]
	 */
	e2ei_mls_init_only(enrollment: FfiWireE2EIdentity, certificate_chain: string, nb_key_package?: number | null): Promise<NewCrlDistributionPoints>;
	/**
	 * See [core_crypto::mls::conversation::ConversationGuard::e2ei_rotate]
	 */
	e2ei_rotate(conversation_id: Uint8Array): Promise<void>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::save_x509_credential]
	 */
	save_x509_credential(enrollment: FfiWireE2EIdentity, certificate_chain: string): Promise<NewCrlDistributionPoints>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::delete_stale_key_packages]
	 */
	delete_stale_key_packages(ciphersuite: Ciphersuite$1): Promise<void>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::e2ei_enrollment_stash]
	 *
	 * Note that this can only succeed if the enrollment is unique and there are no other hard refs to it.
	 */
	e2ei_enrollment_stash(enrollment: FfiWireE2EIdentity): Promise<Uint8Array>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::e2ei_enrollment_stash_pop]
	 */
	e2ei_enrollment_stash_pop(handle: Uint8Array): Promise<FfiWireE2EIdentity>;
	/**
	 * See [core_crypto::mls::conversation::Conversation::e2ei_conversation_state]
	 */
	e2ei_conversation_state(conversation_id: Uint8Array): Promise<E2eiConversationState>;
	/**
	 * See [core_crypto::prelude::Session::e2ei_is_enabled]
	 */
	e2ei_is_enabled(ciphersuite: Ciphersuite$1): Promise<boolean>;
	/**
	 * See [core_crypto::mls::conversation::Conversation::get_device_identities]
	 */
	get_device_identities(conversation_id: Uint8Array, device_ids: ClientId[]): Promise<WireIdentity[]>;
	/**
	 * See [core_crypto::mls::conversation::Conversation::get_user_identities]
	 */
	get_user_identities(conversation_id: Uint8Array, user_ids: string[]): Promise<Map<string, WireIdentity[]>>;
	/**
	 * See [core_crypto::prelude::Session::get_credential_in_use]
	 */
	get_credential_in_use(group_info: Uint8Array, credential_type: CredentialType): Promise<E2eiConversationState>;
	/**
	 * See [core_crypto::prelude::Session::e2ei_dump_pki_env]
	 */
	e2ei_dump_pki_env(): Promise<E2eiDumpedPkiEnv | undefined>;
	/**
	 * See [core_crypto::prelude::Session::e2ei_is_pki_env_setup]
	 */
	e2ei_is_pki_env_setup(): Promise<boolean>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::mls_init]
	 */
	mls_init(client_id: ClientId, ciphersuites: Ciphersuites, nb_key_package?: number | null): Promise<void>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::mls_generate_keypairs]
	 */
	mls_generate_keypairs(ciphersuites: Ciphersuites): Promise<ClientId[]>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::mls_init_with_client_id]
	 */
	mls_init_with_client_id(client_id: ClientId, tmp_client_ids: ClientId[], ciphersuites: Ciphersuites): Promise<void>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::client_public_key]
	 */
	client_public_key(ciphersuite: Ciphersuite$1, credential_type: CredentialType): Promise<Uint8Array>;
	/**
	 * See [core_crypto::mls::conversation::Conversation::epoch]
	 */
	conversation_epoch(conversation_id: Uint8Array): Promise<bigint>;
	/**
	 * See [core_crypto::mls::conversation::Conversation::ciphersuite]
	 */
	conversation_ciphersuite(conversation_id: Uint8Array): Promise<Ciphersuite$1>;
	/**
	 * See [core_crypto::prelude::Session::conversation_exists]
	 */
	conversation_exists(conversation_id: Uint8Array): Promise<boolean>;
	/**
	 * See [core_crypto::mls::conversation::Conversation::get_client_ids]
	 */
	get_client_ids(conversation_id: Uint8Array): Promise<ClientId[]>;
	/**
	 * See [core_crypto::mls::conversation::Conversation::export_secret_key]
	 */
	export_secret_key(conversation_id: Uint8Array, key_length: number): Promise<Uint8Array>;
	/**
	 * See [core_crypto::mls::conversation::Conversation::get_external_sender]
	 */
	get_external_sender(conversation_id: Uint8Array): Promise<Uint8Array>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::get_or_create_client_keypackages]
	 */
	client_keypackages(ciphersuite: Ciphersuite$1, credential_type: CredentialType, amount_requested: number): Promise<ArrayOfByteArray>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::client_valid_key_packages_count]
	 */
	client_valid_keypackages_count(ciphersuite: Ciphersuite$1, credential_type: CredentialType): Promise<bigint>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::delete_keypackages]
	 */
	delete_keypackages(refs: ArrayOfByteArray): Promise<void>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::new_conversation]
	 */
	create_conversation(conversation_id: Uint8Array, creator_credential_type: CredentialType, config: ConversationConfiguration): Promise<void>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::process_raw_welcome_message]
	 */
	process_welcome_message(welcome_message: Uint8Array, custom_configuration: CustomConfiguration): Promise<WelcomeBundle>;
	/**
	 * See [core_crypto::mls::conversation::ConversationGuard::add_members]
	 */
	add_clients_to_conversation(conversation_id: Uint8Array, key_packages: ArrayOfByteArray): Promise<NewCrlDistributionPoints>;
	/**
	 * See [core_crypto::mls::conversation::ConversationGuard::remove_members]
	 */
	remove_clients_from_conversation(conversation_id: Uint8Array, clients: ClientId[]): Promise<void>;
	/**
	 * See [core_crypto::mls::conversation::ConversationGuard::mark_as_child_of]
	 */
	mark_conversation_as_child_of(child_id: Uint8Array, parent_id: Uint8Array): Promise<void>;
	/**
	 * See [core_crypto::mls::conversation::ConversationGuard::update_key_material]
	 */
	update_keying_material(conversation_id: Uint8Array): Promise<void>;
	/**
	 * See [core_crypto::mls::conversation::ConversationGuard::commit_pending_proposals]
	 */
	commit_pending_proposals(conversation_id: Uint8Array): Promise<void>;
	/**
	 * See [core_crypto::mls::conversation::ConversationGuard::wipe]
	 */
	wipe_conversation(conversation_id: Uint8Array): Promise<void>;
	/**
	 * See [core_crypto::mls::conversation::ConversationGuard::decrypt_message]
	 */
	decrypt_message(conversation_id: Uint8Array, payload: Uint8Array): Promise<DecryptedMessage>;
	/**
	 * See [core_crypto::mls::conversation::ConversationGuard::encrypt_message]
	 */
	encrypt_message(conversation_id: Uint8Array, message: Uint8Array): Promise<Uint8Array>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::join_by_external_commit]
	 */
	join_by_external_commit(group_info: Uint8Array, custom_configuration: CustomConfiguration, credential_type: CredentialType): Promise<WelcomeBundle>;
	/**
	 * See [core_crypto::proteus::ProteusCentral::try_new]
	 */
	proteus_init(): Promise<void>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::proteus_session_from_prekey]
	 */
	proteus_session_from_prekey(session_id: string, prekey: Uint8Array): Promise<void>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::proteus_session_from_message]
	 */
	proteus_session_from_message(session_id: string, envelope: Uint8Array): Promise<Uint8Array>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::proteus_session_save]
	 *
	 * **Note**: This isn't usually needed as persisting sessions happens automatically when
	 * decrypting/encrypting messages and initializing Sessions
	 */
	proteus_session_save(session_id: string): Promise<void>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::proteus_session_delete]
	 */
	proteus_session_delete(session_id: string): Promise<void>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::proteus_session_exists]
	 */
	proteus_session_exists(session_id: string): Promise<boolean>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::proteus_decrypt]
	 */
	proteus_decrypt(session_id: string, ciphertext: Uint8Array): Promise<Uint8Array>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::proteus_encrypt]
	 */
	proteus_encrypt(session_id: string, plaintext: Uint8Array): Promise<Uint8Array>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::proteus_encrypt_batched]
	 */
	proteus_encrypt_batched(sessions: string[], plaintext: Uint8Array): Promise<Map<string, Uint8Array>>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::proteus_new_prekey]
	 */
	proteus_new_prekey(prekey_id: number): Promise<Uint8Array>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::proteus_new_prekey_auto]
	 */
	proteus_new_prekey_auto(): Promise<ProteusAutoPrekeyBundle>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::proteus_last_resort_prekey]
	 */
	proteus_last_resort_prekey(): Promise<Uint8Array>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::proteus_fingerprint]
	 */
	proteus_fingerprint(): Promise<string>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::proteus_fingerprint_local]
	 */
	proteus_fingerprint_local(session_id: string): Promise<string>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::proteus_fingerprint_remote]
	 */
	proteus_fingerprint_remote(session_id: string): Promise<string>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::proteus_cryptobox_migrate]
	 */
	proteus_cryptobox_migrate(path: string): Promise<void>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::proteus_reload_sessions]
	 */
	proteus_reload_sessions(): Promise<void>;
	/**
	 * See [core_crypto::proteus::ProteusCentral::last_resort_prekey_id]
	 */
	static proteus_last_resort_prekey_id(): number;
	/**
	 * See [core_crypto::proteus::ProteusCentral::fingerprint_prekeybundle]
	 */
	static proteus_fingerprint_prekeybundle(prekey: Uint8Array): string;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::set_data]
	 */
	set_data(data: Uint8Array): Promise<void>;
	/**
	 * See [core_crypto::transaction_context::TransactionContext::get_data]
	 */
	get_data(): Promise<Uint8Array | undefined>;
	/**
	 * See [core_crypto::prelude::Session::random_bytes].
	 */
	random_bytes(len: number): Promise<Uint8Array>;
}
declare class CrlRegistration {
	free(): void;
	constructor(dirty: boolean, expiration?: bigint | null);
	/**
	 * Whether this CRL modifies the old CRL (i.e. has a different revocated cert list)
	 */
	dirty: boolean;
	/**
	 * Optional expiration timestamp
	 */
	get expiration(): bigint | undefined;
	/**
	 * Optional expiration timestamp
	 */
	set expiration(value: bigint | null | undefined);
}
/**
 * see [core_crypto::prelude::MlsCustomConfiguration]
 */
export class CustomConfiguration {
	free(): void;
	constructor(key_rotation_span?: number | null, wire_policy?: WirePolicy | null);
	/**
	 *  Duration in seconds after which we will automatically force a self-update commit
	 *  Note: This isn't currently implemented
	 */
	get keyRotationSpan(): number | undefined;
	/**
	 *  Duration in seconds after which we will automatically force a self-update commit
	 *  Note: This isn't currently implemented
	 */
	set keyRotationSpan(value: number | null | undefined);
	/**
	 * Defines if handshake messages are encrypted or not
	 * Note: encrypted handshake messages are not supported by wire-server
	 */
	get wirePolicy(): WirePolicy | undefined;
	/**
	 * Defines if handshake messages are encrypted or not
	 * Note: encrypted handshake messages are not supported by wire-server
	 */
	set wirePolicy(value: WirePolicy | null | undefined);
}
export class DatabaseKey {
	free(): void;
	constructor(buf: Uint8Array);
}
declare class DecryptedMessage {
	private constructor();
	free(): void;
	readonly message: Uint8Array | undefined;
	/**
	 * It is set to false if ingesting this MLS message has resulted in the client being removed from the group (i.e. a Remove commit)
	 */
	readonly isActive: boolean;
	/**
	 * Commit delay hint (in milliseconds) to prevent clients from hammering the server with epoch changes
	 */
	readonly commitDelay: bigint | undefined;
	readonly senderClientId: ClientId | undefined;
	/**
	 * true when the decrypted message resulted in an epoch change i.e. it was a commit
	 *
	 * Deprecated: this member will be removed in the future. Prefer using the `EpochObserver` interface.
	 */
	readonly hasEpochChanged: boolean;
	readonly identity: WireIdentity;
	readonly bufferedMessages: BufferedDecryptedMessage[] | undefined;
	/**
	 * New CRL Distribution of members of this group
	 */
	readonly crlNewDistributionPoints: NewCrlDistributionPoints;
}
/**
 * Dump of the PKI environemnt as PEM
 */
export class E2eiDumpedPkiEnv {
	private constructor();
	free(): void;
	/**
	 * Root CA in use (i.e. Trust Anchor)
	 */
	readonly root_ca: string;
	/**
	 * Intermediate CAs that are loaded
	 */
	readonly intermediates: string[];
	/**
	 * CRLs registered in the PKI env
	 */
	readonly crls: string[];
}
declare class FfiWireE2EIdentity {
	private constructor();
	free(): void;
	/**
	 * See [core_crypto::e2e_identity::E2eiEnrollment::directory_response]
	 */
	directory_response(directory: Uint8Array): Promise<AcmeDirectory>;
	/**
	 * See [core_crypto::e2e_identity::E2eiEnrollment::new_account_request]
	 */
	new_account_request(previous_nonce: string): Promise<Uint8Array>;
	/**
	 * See [core_crypto::e2e_identity::E2eiEnrollment::new_account_response]
	 */
	new_account_response(account: Uint8Array): Promise<void>;
	/**
	 * See [core_crypto::e2e_identity::E2eiEnrollment::new_order_request]
	 */
	new_order_request(previous_nonce: string): Promise<Uint8Array>;
	/**
	 * See [core_crypto::e2e_identity::E2eiEnrollment::new_order_response]
	 */
	new_order_response(order: Uint8Array): Promise<NewAcmeOrder>;
	/**
	 * See [core_crypto::e2e_identity::E2eiEnrollment::new_authz_request]
	 */
	new_authz_request(url: string, previous_nonce: string): Promise<Uint8Array>;
	/**
	 * See [core_crypto::e2e_identity::E2eiEnrollment::new_authz_response]
	 */
	new_authz_response(authz: Uint8Array): Promise<NewAcmeAuthz>;
	/**
	 * See [core_crypto::e2e_identity::E2eiEnrollment::create_dpop_token]
	 */
	create_dpop_token(expiry_secs: number, backend_nonce: string): Promise<string>;
	/**
	 * See [core_crypto::e2e_identity::E2eiEnrollment::new_dpop_challenge_request]
	 */
	new_dpop_challenge_request(access_token: string, previous_nonce: string): Promise<Uint8Array>;
	/**
	 * See [core_crypto::e2e_identity::E2eiEnrollment::new_dpop_challenge_response]
	 */
	new_dpop_challenge_response(challenge: Uint8Array): Promise<void>;
	/**
	 * See [core_crypto::e2e_identity::E2eiEnrollment::check_order_request]
	 */
	check_order_request(order_url: string, previous_nonce: string): Promise<Uint8Array>;
	/**
	 * See [core_crypto::e2e_identity::E2eiEnrollment::check_order_response]
	 */
	check_order_response(order: Uint8Array): Promise<string>;
	/**
	 * See [core_crypto::prelude::E2eiEnrollment::finalize_request]
	 */
	finalize_request(previous_nonce: string): Promise<Uint8Array>;
	/**
	 * See [core_crypto::prelude::E2eiEnrollment::finalize_response]
	 */
	finalize_response(finalize: Uint8Array): Promise<string>;
	/**
	 * See [core_crypto::prelude::E2eiEnrollment::certificate_request]
	 */
	certificate_request(previous_nonce: string): Promise<Uint8Array>;
	/**
	 * See [core_crypto::e2e_identity::E2eiEnrollment::new_oidc_challenge_request]
	 */
	new_oidc_challenge_request(id_token: string, previous_nonce: string): Promise<Uint8Array>;
	/**
	 * See [core_crypto::e2e_identity::E2eiEnrollment::new_oidc_challenge_response]
	 */
	new_oidc_challenge_response(challenge: Uint8Array): Promise<void>;
}
/**
 * Result of an authorization creation.
 *
 * - See <https://www.rfc-editor.org/rfc/rfc8555.html#section-7.5>
 * - See [core_crypto::e2e_identity::types::E2eiNewAcmeAuthz]
 */
export class NewAcmeAuthz {
	private constructor();
	free(): void;
	/**
	 * DNS entry associated with those challenge
	 */
	readonly identifier: string;
	/**
	 * ACME challenge + ACME key thumbprint
	 */
	readonly keyauth: string | undefined;
	/**
	 * Associated ACME Challenge
	 */
	readonly challenge: AcmeChallenge;
}
/**
 * Result of an order creation.
 *
 * - See <https://www.rfc-editor.org/rfc/rfc8555.html#section-7.4>
 * - See [core_crypto::e2e_identity::types::E2eiNewAcmeOrder]
 */
export class NewAcmeOrder {
	private constructor();
	free(): void;
	readonly delegate: Uint8Array;
	readonly authorizations: string[];
}
declare class NewCrlDistributionPoints {
	private constructor();
	free(): void;
	as_strings(): string[] | undefined;
}
declare class ProteusAutoPrekeyBundle {
	private constructor();
	free(): void;
	readonly id: number;
	readonly pkb: Uint8Array;
}
/**
 * see [core_crypto::prelude::WelcomeBundle]
 */
export class WelcomeBundle {
	private constructor();
	free(): void;
	/**
	 * Identifier of the joined conversation
	 */
	readonly id: Uint8Array;
	/**
	 * New CRL Distribution of members of this group
	 */
	readonly crlNewDistributionPoints: string[] | undefined;
}
/**
 * See [core_crypto::prelude::WireIdentity]
 */
export class WireIdentity {
	private constructor();
	free(): void;
	/**
	 * Unique client identifier e.g. `T4Coy4vdRzianwfOgXpn6A:6add501bacd1d90e@whitehouse.gov`
	 */
	readonly clientId: string;
	/**
	 * Status of the Credential at the moment this object is created
	 */
	readonly status: DeviceStatus;
	/**
	 * MLS thumbprint
	 */
	readonly thumbprint: string;
	credentialType: CredentialType;
	readonly x509Identity: X509Identity | undefined;
}
/**
 * See [core_crypto::prelude::X509Identity]
 */
export class X509Identity {
	private constructor();
	free(): void;
	handle: string;
	display_name: string;
	domain: string;
	certificate: string;
	serial_number: string;
	not_before: bigint;
	not_after: bigint;
}
interface ConversationConfiguration$1 {
	/**
	 * The ciphersuite which should be used to encrypt this conversation.
	 */
	ciphersuite?: Ciphersuite;
	/**
	 * List of client IDs that are allowed to be external senders
	 */
	externalSenders?: Uint8Array[];
	/**
	 *  Duration in seconds after which we will automatically force a self-update commit
	 *  Note: This isn't currently implemented
	 */
	keyRotationSpan?: number;
	/**
	 * Defines if handshake messages are encrypted or not
	 * Note: encrypted handshake messages are not supported by wire-server
	 */
	wirePolicy?: WirePolicy;
}
export interface CoreCryptoRichError {
	message: string;
	error_name?: string;
	error_stack?: string[];
	proteus_error_code?: number;
}
/**
 * Error wrapper that takes care of extracting rich error details across the FFI (through JSON parsing)
 *
 * Whenever you're supposed to get this class (that extends `Error`) you might end up with a base `Error`
 * in case the parsing of the message structure fails. This is unlikely but the case is still covered and fall backs automatically.
 * More information will be found in the base `Error.cause` to inform you why the parsing has failed.
 *
 * Please note that in this case the extra properties will not be available.
 */
export declare class CoreCryptoError extends Error {
	errorStack: string[];
	proteusErrorCode: number | null;
	private constructor();
	private static fallback;
	static build(msg: string, ...params: unknown[]): CoreCryptoError | Error;
	static fromStdError(e: Error): CoreCryptoError | Error;
	static asyncMapErr<T>(p: Promise<T>): Promise<T>;
}
/**
 * Alias for conversation IDs.
 * This is a freeform, uninspected buffer.
 */
export type ConversationId = Uint8Array;
/**
 * Alias for client identifier.
 * This is a freeform, uninspected buffer.
 */
type ClientId$1 = Uint8Array;
/**
 * Alias for proposal reference. It is a byte array of size 16.
 */
export type ProposalRef = Uint8Array;
/**
 * Data shape for a MLS generic commit + optional bundle (aka stapled commit & welcome)
 */
export interface CommitBundle {
	/**
	 * TLS-serialized MLS Commit that needs to be fanned out to other (existing) members of the conversation
	 *
	 * @readonly
	 */
	commit: Uint8Array;
	/**
	 * Optional TLS-serialized MLS Welcome message that needs to be fanned out to the clients newly added to the conversation
	 *
	 * @readonly
	 */
	welcome?: Uint8Array;
	/**
	 * MLS GroupInfo which is required for joining a group by external commit
	 *
	 * @readonly
	 */
	groupInfo: GroupInfoBundle;
}
/**
 * Wraps a GroupInfo in order to efficiently upload it to the Delivery Service.
 * This is not part of MLS protocol but parts might be standardized at some point.
 */
export interface GroupInfoBundle {
	/**
	 * see {@link GroupInfoEncryptionType}
	 */
	encryptionType: MlsGroupInfoEncryptionType;
	/**
	 * see {@link RatchetTreeType}
	 */
	ratchetTreeType: MlsRatchetTreeType;
	/**
	 * TLS-serialized GroupInfo
	 */
	payload: Uint8Array;
}
/**
 * This is a wrapper for all the possible outcomes you can get after decrypting a message
 */
interface DecryptedMessage$1 {
	/**
	 * Raw decrypted application message, if the decrypted MLS message is an application message
	 */
	message?: Uint8Array;
	/**
	 * It is set to false if ingesting this MLS message has resulted in the client being removed from the group (i.e. a Remove commit)
	 */
	isActive: boolean;
	/**
	 * Commit delay hint (in milliseconds) to prevent clients from hammering the server with epoch changes
	 */
	commitDelay?: number;
	/**
	 * Client identifier of the sender of the message being decrypted. Only present for application messages.
	 */
	senderClientId?: ClientId$1;
	/**
	 * true when the decrypted message resulted in an epoch change i.e. it was a commit
	 */
	hasEpochChanged: boolean;
	/**
	 * Identity claims present in the sender credential
	 * Only present when the credential is a x509 certificate
	 * Present for all messages
	 */
	identity?: WireIdentity;
	/**
	 * Only set when the decrypted message is a commit.
	 * Contains buffered messages for next epoch which were received before the commit creating the epoch
	 * because the DS did not fan them out in order.
	 */
	bufferedMessages?: BufferedDecryptedMessage$1[];
	/**
	 * New CRL distribution points that appeared by the introduction of a new credential
	 */
	crlNewDistributionPoints?: string[];
}
/**
 * Almost same as {@link DecryptedMessage} but avoids recursion
 */
interface BufferedDecryptedMessage$1 {
	/**
	 * see {@link DecryptedMessage.message}
	 */
	message?: Uint8Array;
	/**
	 * see {@link DecryptedMessage.isActive}
	 */
	isActive: boolean;
	/**
	 * see {@link DecryptedMessage.commitDelay}
	 */
	commitDelay?: number;
	/**
	 * see {@link DecryptedMessage.senderClientId}
	 */
	senderClientId?: ClientId$1;
	/**
	 * see {@link DecryptedMessage.hasEpochChanged}
	 */
	hasEpochChanged: boolean;
	/**
	 * see {@link DecryptedMessage.identity}
	 */
	identity?: WireIdentity;
	/**
	 * see {@link DecryptedMessage.crlNewDistributionPoints}
	 */
	crlNewDistributionPoints?: string[];
}
/**
 * Returned by {@link MlsTransport} callbacks.
 */
export type MlsTransportResponse = "success" | "retry" | {
	/**
	 * The message was rejected by the delivery service and there's no recovery.
	 */
	abort: {
		reason: string;
	};
};
/**
 * An interface that must be implemented and provided to CoreCrypto via
 * {@link CoreCrypto.provideTransport}.
 */
export interface MlsTransport {
	/**
	 * This callback is called by CoreCrypto to send a commit bundle to the delivery service.
	 *
	 * @param commitBundle - the commit bundle
	 * @returns a promise resolving to a {@link MlsTransportResponse}
	 */
	sendCommitBundle: (commitBundle: CommitBundle) => Promise<MlsTransportResponse>;
	/**
	 *  This callback is called by CoreCrypto to send a regular message to the delivery service.
	 * @param message
	 * @returns a promise resolving to a {@link MlsTransportResponse}
	 */
	sendMessage: (message: Uint8Array) => Promise<MlsTransportResponse>;
}
/**
 *  Supporting struct for CRL registration result
 */
export interface CRLRegistration {
	/**
	 * Whether this CRL modifies the old CRL (i.e. has a different revocated cert list)
	 *
	 * @readonly
	 */
	dirty: boolean;
	/**
	 * Optional expiration timestamp
	 *
	 * @readonly
	 */
	expiration?: number;
}
interface AcmeDirectory$1 {
	/**
	 * URL for fetching a new nonce. Use this only for creating a new account.
	 */
	newNonce: string;
	/**
	 * URL for creating a new account.
	 */
	newAccount: string;
	/**
	 * URL for creating a new order.
	 */
	newOrder: string;
	/**
	 * Revocation URL
	 */
	revokeCert: string;
}
/**
 * Returned by APIs whose code paths potentially discover new certificate revocation list distribution URLs.
 */
type NewCrlDistributionPoints$1 = string[] | undefined;
export type JsonRawData = Uint8Array;
export declare class E2eiEnrollment {
	#private;
	/** @hidden */
	constructor(e2ei: FfiWireE2EIdentity);
	free(): void;
	/**
	 * Should only be used internally
	 */
	inner(): unknown;
	/**
	 * Parses the response from `GET /acme/{provisioner-name}/directory`.
	 * Use this {@link AcmeDirectory} in the next step to fetch the first nonce from the acme server. Use
	 * {@link AcmeDirectory.newNonce}.
	 *
	 * @param directory HTTP response body
	 * @see https://www.rfc-editor.org/rfc/rfc8555.html#section-7.1.1
	 */
	directoryResponse(directory: JsonRawData): Promise<AcmeDirectory$1>;
	/**
	 * For creating a new acme account. This returns a signed JWS-alike request body to send to
	 * `POST /acme/{provisioner-name}/new-account`.
	 *
	 * @param previousNonce you got from calling `HEAD {@link AcmeDirectory.newNonce}`
	 * @see https://www.rfc-editor.org/rfc/rfc8555.html#section-7.3
	 */
	newAccountRequest(previousNonce: string): Promise<JsonRawData>;
	/**
	 * Parses the response from `POST /acme/{provisioner-name}/new-account`.
	 * @param account HTTP response body
	 * @see https://www.rfc-editor.org/rfc/rfc8555.html#section-7.3
	 */
	newAccountResponse(account: JsonRawData): Promise<void>;
	/**
	 * Creates a new acme order for the handle (userId + display name) and the clientId.
	 *
	 * @param previousNonce `replay-nonce` response header from `POST /acme/{provisioner-name}/new-account`
	 * @see https://www.rfc-editor.org/rfc/rfc8555.html#section-7.4
	 */
	newOrderRequest(previousNonce: string): Promise<JsonRawData>;
	/**
	 * Parses the response from `POST /acme/{provisioner-name}/new-order`.
	 *
	 * @param order HTTP response body
	 * @see https://www.rfc-editor.org/rfc/rfc8555.html#section-7.4
	 */
	newOrderResponse(order: JsonRawData): Promise<NewAcmeOrder>;
	/**
	 * Creates a new authorization request.
	 *
	 * @param url one of the URL in new order's authorizations from {@link newOrderResponse})
	 * @param previousNonce `replay-nonce` response header from `POST /acme/{provisioner-name}/new-order` (or from the
	 * previous to this method if you are creating the second authorization)
	 * @see https://www.rfc-editor.org/rfc/rfc8555.html#section-7.5
	 */
	newAuthzRequest(url: string, previousNonce: string): Promise<JsonRawData>;
	/**
	 * Parses the response from `POST /acme/{provisioner-name}/authz/{authz-id}`
	 *
	 * @param authz HTTP response body
	 * @see https://www.rfc-editor.org/rfc/rfc8555.html#section-7.5
	 */
	newAuthzResponse(authz: JsonRawData): Promise<NewAcmeAuthz>;
	/**
	 * Generates a new client Dpop JWT token. It demonstrates proof of possession of the nonces
	 * (from wire-server & acme server) and will be verified by the acme server when verifying the
	 * challenge (in order to deliver a certificate).
	 *
	 * Then send it to `POST /clients/{id}/access-token`
	 * {@link https://staging-nginz-https.zinfra.io/api/swagger-ui/#/default/post_clients__cid__access_token} on wire-server.
	 *
	 * @param expirySecs of the client Dpop JWT. This should be equal to the grace period set in Team Management
	 * @param backendNonce you get by calling `GET /clients/token/nonce` on wire-server as defined here {@link https://staging-nginz-https.zinfra.io/api/swagger-ui/#/default/get_clients__client__nonce}
	 */
	createDpopToken(expirySecs: number, backendNonce: string): Promise<Uint8Array>;
	/**
	 * Creates a new challenge request for Wire Dpop challenge.
	 *
	 * @param accessToken returned by wire-server from https://staging-nginz-https.zinfra.io/api/swagger-ui/#/default/post_clients__cid__access_token
	 * @param previousNonce `replay-nonce` response header from `POST /acme/{provisioner-name}/authz/{authz-id}`
	 * @see https://www.rfc-editor.org/rfc/rfc8555.html#section-7.5.1
	 */
	newDpopChallengeRequest(accessToken: string, previousNonce: string): Promise<JsonRawData>;
	/**
	 * Parses the response from `POST /acme/{provisioner-name}/challenge/{challenge-id}` for the DPoP challenge.
	 *
	 * @param challenge HTTP response body
	 * @see https://www.rfc-editor.org/rfc/rfc8555.html#section-7.5.1
	 */
	newDpopChallengeResponse(challenge: JsonRawData): Promise<void>;
	/**
	 * Creates a new challenge request for Wire Oidc challenge.
	 *
	 * @param idToken you get back from Identity Provider
	 * @param previousNonce `replay-nonce` response header from `POST /acme/{provisioner-name}/authz/{authz-id}`
	 * @see https://www.rfc-editor.org/rfc/rfc8555.html#section-7.5.1
	 */
	newOidcChallengeRequest(idToken: string, previousNonce: string): Promise<JsonRawData>;
	/**
	 * Parses the response from `POST /acme/{provisioner-name}/challenge/{challenge-id}` for the OIDC challenge.
	 *
	 * @param challenge HTTP response body
	 * @see https://www.rfc-editor.org/rfc/rfc8555.html#section-7.5.1
	 */
	newOidcChallengeResponse(challenge: JsonRawData): Promise<void>;
	/**
	 * Verifies that the previous challenge has been completed.
	 *
	 * @param orderUrl `location` header from http response you got from {@link newOrderResponse}
	 * @param previousNonce `replay-nonce` response header from `POST /acme/{provisioner-name}/challenge/{challenge-id}`
	 * @see https://www.rfc-editor.org/rfc/rfc8555.html#section-7.4
	 */
	checkOrderRequest(orderUrl: string, previousNonce: string): Promise<JsonRawData>;
	/**
	 * Parses the response from `POST /acme/{provisioner-name}/order/{order-id}`.
	 *
	 * @param order HTTP response body
	 * @return finalize url to use with {@link finalizeRequest}
	 * @see https://www.rfc-editor.org/rfc/rfc8555.html#section-7.4
	 */
	checkOrderResponse(order: JsonRawData): Promise<string>;
	/**
	 * Final step before fetching the certificate.
	 *
	 * @param previousNonce - `replay-nonce` response header from `POST /acme/{provisioner-name}/order/{order-id}`
	 * @see https://www.rfc-editor.org/rfc/rfc8555.html#section-7.4
	 */
	finalizeRequest(previousNonce: string): Promise<JsonRawData>;
	/**
	 * Parses the response from `POST /acme/{provisioner-name}/order/{order-id}/finalize`.
	 *
	 * @param finalize HTTP response body
	 * @return the certificate url to use with {@link certificateRequest}
	 * @see https://www.rfc-editor.org/rfc/rfc8555.html#section-7.4
	 */
	finalizeResponse(finalize: JsonRawData): Promise<string>;
	/**
	 * Creates a request for finally fetching the x509 certificate.
	 *
	 * @param previousNonce `replay-nonce` response header from `POST /acme/{provisioner-name}/order/{order-id}/finalize`
	 * @see https://www.rfc-editor.org/rfc/rfc8555.html#section-7.4.2
	 */
	certificateRequest(previousNonce: string): Promise<JsonRawData>;
}
/**
 * Indicates the state of a Conversation regarding end-to-end identity.
 * Note: this does not check pending state (pending commit, pending proposals) so it does not
 * consider members about to be added/removed
 */
declare enum E2eiConversationState$1 {
	/**
	 * All clients have a valid E2EI certificate
	 */
	Verified = 1,
	/**
	 * Some clients are either still Basic or their certificate is expired
	 */
	NotVerified = 2,
	/**
	 * All clients are still Basic. If all client have expired certificates, NotVerified is returned.
	 */
	NotEnabled = 3
}
/**
 * Data shape for proteusNewPrekeyAuto() call returns.
 */
interface ProteusAutoPrekeyBundle$1 {
	/**
	 * Proteus PreKey id
	 *
	 * @readonly
	 */
	id: number;
	/**
	 * CBOR-serialized Proteus PreKeyBundle
	 *
	 * @readonly
	 */
	pkb: Uint8Array;
}
declare class CoreCryptoContext$1 {
	#private;
	/** @hidden */
	private constructor();
	/** @hidden */
	static fromFfiContext(ctx: CoreCryptoContext): CoreCryptoContext$1;
	/**
	 * Set arbitrary data to be retrieved by {@link getData}.
	 * This is meant to be used as a check point at the end of a transaction.
	 * The data should be limited to a reasonable size.
	 */
	setData(data: Uint8Array): Promise<void>;
	/**
	 * Get data if it has previously been set by {@link setData}, or `undefined` otherwise.
	 * This is meant to be used as a check point at the end of a transaction.
	 */
	getData(): Promise<Uint8Array | undefined>;
	/**
	 * Use this after {@link CoreCrypto.deferredInit} when you have a clientId. It initializes MLS.
	 *
	 * @param clientId - {@link CoreCryptoParams#clientId} but required
	 * @param ciphersuites - All the ciphersuites supported by this MLS client
	 * @param nbKeyPackage - number of initial KeyPackage to create when initializing the client
	 */
	mlsInit(clientId: ClientId$1, ciphersuites: Ciphersuite[], nbKeyPackage?: number): Promise<void>;
	/**
	 * Generates a MLS KeyPair/CredentialBundle with a temporary, random client ID.
	 * This method is designed to be used in conjunction with {@link CoreCryptoContext.mlsInitWithClientId} and represents the first step in this process
	 *
	 * @param ciphersuites - All the ciphersuites supported by this MLS client
	 * @returns This returns the TLS-serialized identity key (i.e. the signature keypair's public key)
	 */
	mlsGenerateKeypair(ciphersuites: Ciphersuite[]): Promise<Uint8Array[]>;
	/**
	 * Updates the current temporary Client ID with the newly provided one. This is the second step in the externally-generated clients process
	 *
	 * Important: This is designed to be called after {@link CoreCryptoContext.mlsGenerateKeypair}
	 *
	 * @param clientId - The newly-allocated client ID by the MLS Authentication Service
	 * @param signaturePublicKeys - The public key you were given at the first step; This is for authentication purposes
	 * @param ciphersuites - All the ciphersuites supported by this MLS client
	 */
	mlsInitWithClientId(clientId: ClientId$1, signaturePublicKeys: Uint8Array[], ciphersuites: Ciphersuite[]): Promise<void>;
	/**
	 * Checks if the Client is member of a given conversation and if the MLS Group is loaded up
	 *
	 * @returns Whether the given conversation ID exists
	 *
	 * @example
	 * ```ts
	 *  const cc = await CoreCrypto.init({ databaseName: "test", key: "test", clientId: "test" });
	 *  const encoder = new TextEncoder();
	 *  if (await cc.conversationExists(encoder.encode("my super chat"))) {
	 *    // Do something
	 *  } else {
	 *    // Do something else
	 *  }
	 * ```
	 */
	conversationExists(conversationId: ConversationId): Promise<boolean>;
	/**
	 * Marks a conversation as child of another one
	 * This will mostly affect the behavior of the callbacks (the parentConversationClients parameter will be filled)
	 *
	 * @param childId - conversation identifier of the child conversation
	 * @param parentId - conversation identifier of the parent conversation
	 */
	markConversationAsChildOf(childId: ConversationId, parentId: ConversationId): Promise<void>;
	/**
	 * Returns the current epoch of a conversation
	 *
	 * @returns the epoch of the conversation
	 *
	 * @example
	 * ```ts
	 *  const cc = await CoreCrypto.init({ databaseName: "test", key: "test", clientId: "test" });
	 *  const encoder = new TextEncoder();
	 *  console.log(await cc.conversationEpoch(encoder.encode("my super chat")))
	 * ```
	 */
	conversationEpoch(conversationId: ConversationId): Promise<number>;
	/**
	 * Returns the ciphersuite of a conversation
	 *
	 * @returns the ciphersuite of the conversation
	 */
	conversationCiphersuite(conversationId: ConversationId): Promise<Ciphersuite>;
	/**
	 * Wipes and destroys the local storage of a given conversation / MLS group
	 *
	 * @param conversationId - The ID of the conversation to remove
	 */
	wipeConversation(conversationId: ConversationId): Promise<void>;
	/**
	 * Creates a new conversation with the current client being the sole member
	 * You will want to use {@link addClientsToConversation} afterwards to add clients to this conversation
	 *
	 * @param conversationId - The conversation ID; You can either make them random or let the backend attribute MLS group IDs
	 * @param creatorCredentialType - kind of credential the creator wants to create the group with
	 * @param configuration - configuration of the MLS group
	 * @param configuration.ciphersuite - The {@link Ciphersuite} that is chosen to be the group's
	 * @param configuration.externalSenders - Array of Client IDs that are qualified as external senders within the group
	 */
	createConversation(conversationId: ConversationId, creatorCredentialType: CredentialType, configuration?: ConversationConfiguration$1): Promise<void>;
	/**
	 * Decrypts a message for a given conversation.
	 *
	 * Note: you should catch & ignore the following error reasons:
	 * * "We already decrypted this message once"
	 * * "You tried to join with an external commit but did not merge it yet. We will reapply this message for you when you merge your external commit"
	 * * "Incoming message is for a future epoch. We will buffer it until the commit for that epoch arrives"
	 *
	 * @param conversationId - The ID of the conversation
	 * @param payload - The encrypted message buffer
	 *
	 * @returns a {@link DecryptedMessage}. Note that {@link DecryptedMessage#message} is `undefined` when the encrypted payload contains a system message such a proposal or commit
	 */
	decryptMessage(conversationId: ConversationId, payload: Uint8Array): Promise<DecryptedMessage$1>;
	/**
	 * Encrypts a message for a given conversation
	 *
	 * @param conversationId - The ID of the conversation
	 * @param message - The plaintext message to encrypt
	 *
	 * @returns The encrypted payload for the given group. This needs to be fanned out to the other members of the group.
	 */
	encryptMessage(conversationId: ConversationId, message: Uint8Array): Promise<Uint8Array>;
	/**
	 * Ingest a TLS-serialized MLS welcome message to join an existing MLS group
	 *
	 * You have to catch the error with this reason "Although this Welcome seems valid, the local KeyPackage
	 * it references has already been deleted locally. Join this group with an external commit", ignore it and then
	 * join this group via {@link CoreCryptoContext.joinByExternalCommit}.
	 *
	 * @param welcomeMessage - TLS-serialized MLS Welcome message
	 * @param configuration - configuration of the MLS group
	 * @returns The conversation ID of the newly joined group. You can use the same ID to decrypt/encrypt messages
	 */
	processWelcomeMessage(welcomeMessage: Uint8Array, configuration?: Partial<CustomConfiguration>): Promise<WelcomeBundle>;
	/**
	 * Get the client's public signature key. To upload to the DS for further backend side validation
	 *
	 * @param ciphersuite - of the signature key to get
	 * @param credentialType - of the public key to look for
	 * @returns the client's public signature key
	 */
	clientPublicKey(ciphersuite: Ciphersuite, credentialType: CredentialType): Promise<Uint8Array>;
	/**
	 *
	 * @param ciphersuite - of the KeyPackages to count
	 * @param credentialType - of the KeyPackages to count
	 * @returns The amount of valid, non-expired KeyPackages that are persisted in the backing storage
	 */
	clientValidKeypackagesCount(ciphersuite: Ciphersuite, credentialType: CredentialType): Promise<number>;
	/**
	 * Fetches a requested amount of keypackages
	 *
	 * @param ciphersuite - of the KeyPackages to generate
	 * @param credentialType - of the KeyPackages to generate
	 * @param amountRequested - The amount of keypackages requested
	 * @returns An array of length `amountRequested` containing TLS-serialized KeyPackages
	 */
	clientKeypackages(ciphersuite: Ciphersuite, credentialType: CredentialType, amountRequested: number): Promise<Array<Uint8Array>>;
	/**
	 * Prunes local KeyPackages after making sure they also have been deleted on the backend side
	 * You should only use this after calling {@link CoreCryptoContext.e2eiRotate} on all conversations.
	 *
	 * @param refs - KeyPackage references to delete obtained from a {RotateBundle}
	 */
	deleteKeypackages(refs: Uint8Array[]): Promise<void>;
	/**
	 * Adds new clients to a conversation, assuming the current client has the right to add new clients to the conversation.
	 *
	 * Sends the corresponding commit via {@link MlsTransport.sendCommitBundle} and merges it if the call is successful.
	 *
	 * @param conversationId - The ID of the conversation
	 * @param keyPackages - KeyPackages of the new clients to add
	 *
	 * @returns Potentially a list of newly discovered crl distribution points
	 */
	addClientsToConversation(conversationId: ConversationId, keyPackages: Uint8Array[]): Promise<NewCrlDistributionPoints$1>;
	/**
	 * Removes the provided clients from a conversation; Assuming those clients exist and the current client is allowed
	 * to do so, otherwise this operation does nothing.
	 *
	 * @param conversationId - The ID of the conversation
	 * @param clientIds - Array of Client IDs to remove.
	 */
	removeClientsFromConversation(conversationId: ConversationId, clientIds: ClientId$1[]): Promise<void>;
	/**
	 * Update the keying material of the conversation.
	 *
	 * @param conversationId - The ID of the conversation
	 */
	updateKeyingMaterial(conversationId: ConversationId): Promise<void>;
	/**
	 * Commits the local pending proposals.
	 *
	 * Sends the corresponding commit via {@link MlsTransport.sendCommitBundle}
	 * and merges it if the call is successful.
	 *
	 * @param conversationId - The ID of the conversation
	 */
	commitPendingProposals(conversationId: ConversationId): Promise<void>;
	/**
	 * "Apply" to join a group through its GroupInfo.
	 *
	 * Sends the corresponding commit via {@link MlsTransport.sendCommitBundle}
	 * and creates the group if the call is successful.
	 *
	 * @param groupInfo - a TLS encoded GroupInfo fetched from the Delivery Service
	 * @param credentialType - kind of Credential to use for joining this group. If {@link CredentialType.Basic} is
	 * chosen and no Credential has been created yet for it, a new one will be generated.
	 * @param configuration - configuration of the MLS group
	 * When {@link CredentialType.X509} is chosen, it fails when no Credential has been created for the given {@link Ciphersuite}.
	 *
	 * @return see {@link WelcomeBundle}
	 */
	joinByExternalCommit(groupInfo: Uint8Array, credentialType: CredentialType, configuration?: Partial<CustomConfiguration>): Promise<WelcomeBundle>;
	/**
	 * Derives a new key from the group
	 *
	 * @param conversationId - The group's ID
	 * @param keyLength - the length of the key to be derived. If the value is higher than the
	 * bounds of `u16` or the context hash * 255, an error will be returned
	 *
	 * @returns A `Uint8Array` representing the derived key
	 */
	exportSecretKey(conversationId: ConversationId, keyLength: number): Promise<Uint8Array>;
	/**
	 * Returns the raw public key of the single external sender present in this group.
	 * This should be used to initialize a subconversation
	 *
	 * @param conversationId - The group's ID
	 *
	 * @returns A `Uint8Array` representing the external sender raw public key
	 */
	getExternalSender(conversationId: ConversationId): Promise<Uint8Array>;
	/**
	 * Returns all clients from group's members
	 *
	 * @param conversationId - The group's ID
	 *
	 * @returns A list of clients from the members of the group
	 */
	getClientIds(conversationId: ConversationId): Promise<ClientId$1[]>;
	/**
	 * Allows {@link CoreCryptoContext} to act as a CSPRNG provider
	 *
	 * The underlying CSPRNG algorithm is ChaCha20 and takes in account the external seed provider.
	 *
	 * @param length - The number of bytes to be returned in the `Uint8Array`
	 *
	 * @returns A `Uint8Array` buffer that contains `length` cryptographically-secure random bytes
	 */
	randomBytes(length: number): Promise<Uint8Array>;
	/**
	 * Initializes the proteus client
	 */
	proteusInit(): Promise<void>;
	/**
	 * Create a Proteus session using a prekey
	 *
	 * @param sessionId - ID of the Proteus session
	 * @param prekey - CBOR-encoded Proteus prekey of the other client
	 */
	proteusSessionFromPrekey(sessionId: string, prekey: Uint8Array): Promise<void>;
	/**
	 * Create a Proteus session from a handshake message
	 *
	 * @param sessionId - ID of the Proteus session
	 * @param envelope - CBOR-encoded Proteus message
	 *
	 * @returns A `Uint8Array` containing the message that was sent along with the session handshake
	 */
	proteusSessionFromMessage(sessionId: string, envelope: Uint8Array): Promise<Uint8Array>;
	/**
	 * Locally persists a session to the keystore
	 *
	 * **Note**: This isn't usually needed as persisting sessions happens automatically when decrypting/encrypting messages and initializing Sessions
	 *
	 * @param sessionId - ID of the Proteus session
	 */
	proteusSessionSave(sessionId: string): Promise<void>;
	/**
	 * Deletes a session
	 * Note: this also deletes the persisted data within the keystore
	 *
	 * @param sessionId - ID of the Proteus session
	 */
	proteusSessionDelete(sessionId: string): Promise<void>;
	/**
	 * Checks if a session exists
	 *
	 * @param sessionId - ID of the Proteus session
	 *
	 * @returns whether the session exists or not
	 */
	proteusSessionExists(sessionId: string): Promise<boolean>;
	/**
	 * Decrypt an incoming message for an existing Proteus session
	 *
	 * @param sessionId - ID of the Proteus session
	 * @param ciphertext - CBOR encoded, encrypted proteus message
	 * @returns The decrypted payload contained within the message
	 */
	proteusDecrypt(sessionId: string, ciphertext: Uint8Array): Promise<Uint8Array>;
	/**
	 * Encrypt a message for a given Proteus session
	 *
	 * @param sessionId - ID of the Proteus session
	 * @param plaintext - payload to encrypt
	 * @returns The CBOR-serialized encrypted message
	 */
	proteusEncrypt(sessionId: string, plaintext: Uint8Array): Promise<Uint8Array>;
	/**
	 * Batch encryption for proteus messages
	 * This is used to minimize FFI roundtrips when used in the context of a multi-client session (i.e. conversation)
	 *
	 * @param sessions - List of Proteus session IDs to encrypt the message for
	 * @param plaintext - payload to encrypt
	 * @returns A map indexed by each session ID and the corresponding CBOR-serialized encrypted message for this session
	 */
	proteusEncryptBatched(sessions: string[], plaintext: Uint8Array): Promise<Map<string, Uint8Array>>;
	/**
	 * Creates a new prekey with the requested ID.
	 *
	 * @param prekeyId - ID of the PreKey to generate. This cannot be bigger than a u16
	 * @returns: A CBOR-serialized version of the PreKeyBundle corresponding to the newly generated and stored PreKey
	 */
	proteusNewPrekey(prekeyId: number): Promise<Uint8Array>;
	/**
	 * Creates a new prekey with an automatically generated ID..
	 *
	 * @returns A CBOR-serialized version of the PreKeyBundle corresponding to the newly generated and stored PreKey accompanied by its ID
	 */
	proteusNewPrekeyAuto(): Promise<ProteusAutoPrekeyBundle$1>;
	/**
	 * Proteus last resort prekey stuff
	 *
	 * @returns A CBOR-serialize version of the PreKeyBundle associated with the last resort PreKey (holding the last resort prekey id)
	 */
	proteusLastResortPrekey(): Promise<Uint8Array>;
	/**
	 * @returns The last resort PreKey id
	 */
	static proteusLastResortPrekeyId(): number;
	/**
	 * Proteus public key fingerprint
	 * It's basically the public key encoded as an hex string
	 *
	 * @returns Hex-encoded public key string
	 */
	proteusFingerprint(): Promise<string>;
	/**
	 * Proteus session local fingerprint
	 *
	 * @param sessionId - ID of the Proteus session
	 * @returns Hex-encoded public key string
	 */
	proteusFingerprintLocal(sessionId: string): Promise<string>;
	/**
	 * Proteus session remote fingerprint
	 *
	 * @param sessionId - ID of the Proteus session
	 * @returns Hex-encoded public key string
	 */
	proteusFingerprintRemote(sessionId: string): Promise<string>;
	/**
	 * Hex-encoded fingerprint of the given prekey
	 *
	 * @param prekey - the prekey bundle to get the fingerprint from
	 * @returns Hex-encoded public key string
	 **/
	static proteusFingerprintPrekeybundle(prekey: Uint8Array): string;
	/**
	 * Imports all the data stored by Cryptobox into the CoreCrypto keystore
	 *
	 * @param storeName - The name of the IndexedDB store where the data is stored
	 */
	proteusCryptoboxMigrate(storeName: string): Promise<void>;
	/**
	 * Creates an enrollment instance with private key material you can use in order to fetch
	 * a new x509 certificate from the acme server.
	 *
	 * @param clientId - client identifier e.g. `b7ac11a4-8f01-4527-af88-1c30885a7931:6add501bacd1d90e@example.com`
	 * @param displayName - human-readable name displayed in the application e.g. `Smith, Alice M (QA)`
	 * @param handle - user handle e.g. `alice.smith.qa@example.com`
	 * @param expirySec - generated x509 certificate expiry
	 * @param ciphersuite - for generating signing key material
	 * @param team - name of the Wire team a user belongs to
	 * @returns The new {@link E2eiEnrollment} enrollment instance to use with {@link CoreCryptoContext.e2eiMlsInitOnly}
	 */
	e2eiNewEnrollment(clientId: string, displayName: string, handle: string, expirySec: number, ciphersuite: Ciphersuite, team?: string): Promise<E2eiEnrollment>;
	/**
	 * Generates an E2EI enrollment instance for a "regular" client (with a Basic credential) willing to migrate to E2EI.
	 * Once the enrollment is finished, use {@link CoreCryptoContext.e2eiRotate} to do key rotation.
	 *
	 * @param displayName - human-readable name displayed in the application e.g. `Smith, Alice M (QA)`
	 * @param handle - user handle e.g. `alice.smith.qa@example.com`
	 * @param expirySec - generated x509 certificate expiry
	 * @param ciphersuite - for generating signing key material
	 * @param team - name of the Wire team a user belongs to
	 * @returns The new {@link E2eiEnrollment} enrollment instance to use with {@link CoreCryptoContext.e2eiRotate}
	 */
	e2eiNewActivationEnrollment(displayName: string, handle: string, expirySec: number, ciphersuite: Ciphersuite, team?: string): Promise<E2eiEnrollment>;
	/**
	 * Generates an E2EI enrollment instance for a E2EI client (with a X509 certificate credential)
	 * having to change/rotate their credential, either because the former one is expired or it
	 * has been revoked. It lets you change the DisplayName or the handle
	 * if you need to. Once the enrollment is finished, use {@link CoreCryptoContext.e2eiRotate}
	 * to do key rotation.
	 *
	 * @param expirySec - generated x509 certificate expiry
	 * @param ciphersuite - for generating signing key material
	 * @param displayName - human-readable name displayed in the application e.g. `Smith, Alice M (QA)`
	 * @param handle - user handle e.g. `alice.smith.qa@example.com`
	 * @param team - name of the Wire team a user belongs to
	 * @returns The new {@link E2eiEnrollment} enrollment instance to use with {@link CoreCryptoContext.e2eiRotate}
	 */
	e2eiNewRotateEnrollment(expirySec: number, ciphersuite: Ciphersuite, displayName?: string, handle?: string, team?: string): Promise<E2eiEnrollment>;
	/**
	 * Use this method to initialize end-to-end identity when a client signs up and the grace period is already expired ;
	 * that means he cannot initialize with a Basic credential
	 *
	 * @param enrollment - the enrollment instance used to fetch the certificates
	 * @param certificateChain - the raw response from ACME server
	 * @param nbKeyPackage - number of initial KeyPackage to create when initializing the client
	 * @returns a MlsClient initialized with only a x509 credential
	 */
	e2eiMlsInitOnly(enrollment: E2eiEnrollment, certificateChain: string, nbKeyPackage?: number): Promise<NewCrlDistributionPoints$1>;
	/**
	 * Dumps the PKI environment as PEM
	 *
	 * @returns a struct with different fields representing the PKI environment as PEM strings
	 */
	e2eiDumpPKIEnv(): Promise<E2eiDumpedPkiEnv | undefined>;
	/**
	 * @returns whether the E2EI PKI environment is setup (i.e. Root CA, Intermediates, CRLs)
	 */
	e2eiIsPKIEnvSetup(): Promise<boolean>;
	/**
	 * Registers a Root Trust Anchor CA for the use in E2EI processing.
	 *
	 * Please note that without a Root Trust Anchor, all validations *will* fail;
	 * So this is the first step to perform after initializing your E2EI client
	 *
	 * @param trustAnchorPEM - PEM certificate to anchor as a Trust Root
	 */
	e2eiRegisterAcmeCA(trustAnchorPEM: string): Promise<void>;
	/**
	 * Registers an Intermediate CA for the use in E2EI processing.
	 *
	 * Please note that a Root Trust Anchor CA is needed to validate Intermediate CAs;
	 * You **need** to have a Root CA registered before calling this
	 *
	 * @param certPEM - PEM certificate to register as an Intermediate CA
	 */
	e2eiRegisterIntermediateCA(certPEM: string): Promise<NewCrlDistributionPoints$1>;
	/**
	 * Registers a CRL for the use in E2EI processing.
	 *
	 * Please note that a Root Trust Anchor CA is needed to validate CRLs;
	 * You **need** to have a Root CA registered before calling this
	 *
	 * @param crlDP - CRL Distribution Point; Basically the URL you fetched it from
	 * @param crlDER - DER representation of the CRL
	 *
	 * @returns a {@link CRLRegistration} with the dirty state of the new CRL (see struct) and its expiration timestamp
	 */
	e2eiRegisterCRL(crlDP: string, crlDER: Uint8Array): Promise<CRLRegistration>;
	/**
	 * Creates an update commit which replaces your leaf containing basic credentials with a leaf node containing x509 credentials in the conversation.
	 *
	 * NOTE: you can only call this after you've completed the enrollment for an end-to-end identity, and saved the
	 * resulting credential with {@link CoreCryptoContext.saveX509Credential}.
	 * Calling this without a valid end-to-end identity will result in an error.
	 *
	 * Sends the corresponding commit via {@link MlsTransport.sendCommitBundle} and merges it if the call is successful.
	 *
	 * @param conversationId - The ID of the conversation
	 */
	e2eiRotate(conversationId: ConversationId): Promise<void>;
	/**
	 * Saves a new X509 credential. Requires first
	 * having enrolled a new X509 certificate with either {@link CoreCryptoContext.e2eiNewActivationEnrollment}
	 * or {@link CoreCryptoContext.e2eiNewRotateEnrollment}
	 *
	 * # Expected actions to perform after this function (in this order)
	 * 1. Rotate credentials for each conversation using {@link CoreCryptoContext.e2eiRotate}
	 * 2. Generate new key packages with {@link CoreCryptoContext.clientKeypackages}
	 * 3. Use these to replace the stale ones the in the backend
	 * 4. Delete the stale ones locally using {@link CoreCryptoContext.deleteStaleKeyPackages}
	 *      * This is the last step because you might still need the old key packages to avoid
	 *        an orphan welcome message
	 *
	 * @param enrollment - the enrollment instance used to fetch the certificates
	 * @param certificateChain - the raw response from ACME server
	 * @returns Potentially a list of new crl distribution points discovered in the certificate chain
	 */
	saveX509Credential(enrollment: E2eiEnrollment, certificateChain: string): Promise<NewCrlDistributionPoints$1>;
	/**
	 * Deletes all key packages whose credential does not match the most recently
	 * saved x509 credential and the provided signature scheme.
	 * @param cipherSuite
	 */
	deleteStaleKeyPackages(cipherSuite: Ciphersuite): Promise<void>;
	/**
	 * Allows persisting an active enrollment (for example while redirecting the user during OAuth) in order to resume
	 * it later with {@link e2eiEnrollmentStashPop}
	 *
	 * @param enrollment the enrollment instance to persist
	 * @returns a handle to fetch the enrollment later with {@link e2eiEnrollmentStashPop}
	 */
	e2eiEnrollmentStash(enrollment: E2eiEnrollment): Promise<Uint8Array>;
	/**
	 * Fetches the persisted enrollment and deletes it from the keystore
	 *
	 * @param handle returned by {@link e2eiEnrollmentStash}
	 * @returns the persisted enrollment instance
	 */
	e2eiEnrollmentStashPop(handle: Uint8Array): Promise<E2eiEnrollment>;
	/**
	 * Indicates when to mark a conversation as not verified i.e. when not all its members have a X509.
	 * Credential generated by Wire's end-to-end identity enrollment
	 *
	 * @param conversationId The group's ID
	 * @returns the conversation state given current members
	 */
	e2eiConversationState(conversationId: ConversationId): Promise<E2eiConversationState$1>;
	/**
	 * Returns true when end-to-end-identity is enabled for the given Ciphersuite
	 *
	 * @param ciphersuite of the credential to check
	 * @returns true if end-to-end identity is enabled for the given ciphersuite
	 */
	e2eiIsEnabled(ciphersuite: Ciphersuite): Promise<boolean>;
	/**
	 * From a given conversation, get the identity of the members supplied. Identity is only present for members with a
	 * Certificate Credential (after turning on end-to-end identity).
	 *
	 * @param conversationId - identifier of the conversation
	 * @param deviceIds - identifiers of the devices
	 * @returns identities or if no member has a x509 certificate, it will return an empty List
	 */
	getDeviceIdentities(conversationId: ConversationId, deviceIds: ClientId$1[]): Promise<WireIdentity[]>;
	/**
	 * From a given conversation, get the identity of the users (device holders) supplied.
	 * Identity is only present for devices with a Certificate Credential (after turning on end-to-end identity).
	 * If no member has a x509 certificate, it will return an empty Vec.
	 *
	 * @param conversationId - identifier of the conversation
	 * @param userIds - user identifiers hyphenated UUIDv4 e.g. 'bd4c7053-1c5a-4020-9559-cd7bf7961954'
	 * @returns a Map with all the identities for a given users. Consumers are then recommended to reduce those identities to determine the actual status of a user.
	 */
	getUserIdentities(conversationId: ConversationId, userIds: string[]): Promise<Map<string, WireIdentity[]>>;
	/**
	 * Gets the e2ei conversation state from a `GroupInfo`. Useful to check if the group has e2ei
	 * turned on or not before joining it.
	 *
	 * @param groupInfo - a TLS encoded GroupInfo fetched from the Delivery Service
	 * @param credentialType - kind of Credential to check usage of. Defaults to X509 for now as no other value will give any result.
	 * @returns see {@link E2eiConversationState}
	 */
	getCredentialInUse(groupInfo: Uint8Array, credentialType?: CredentialType): Promise<E2eiConversationState$1>;
}
/**
 * Params for CoreCrypto deferred initialization
 * Please note that the `entropySeed` parameter MUST be exactly 32 bytes
 */
export interface CoreCryptoDeferredParams {
	/**
	 * Name of the IndexedDB database
	 */
	databaseName: string;
	/**
	 * Encryption master key
	 * This should be appropriately stored in a secure location (i.e. WebCrypto private key storage)
	 */
	key: DatabaseKey;
	/**
	 * External PRNG entropy pool seed.
	 * This **must** be exactly 32 bytes
	 */
	entropySeed?: Uint8Array;
	/**
	 * .wasm file path, this will be useful in case your bundling system likes to relocate files (i.e. what webpack does)
	 */
	wasmFilePath?: string;
}
/**
 * Params for CoreCrypto initialization
 * Please note that the `entropySeed` parameter MUST be exactly 32 bytes
 */
export interface CoreCryptoParams extends CoreCryptoDeferredParams {
	/**
	 * MLS Client ID.
	 * This should stay consistent as it will be verified against the stored signature & identity to validate the persisted credential
	 */
	clientId: ClientId$1;
	/**
	 * All the ciphersuites this MLS client can support
	 */
	ciphersuites: Ciphersuite[];
	/**
	 * Number of initial KeyPackage to create when initializing the client
	 */
	nbKeyPackage?: number;
}
export interface EpochObserver {
	epochChanged(conversationId: ConversationId, epoch: number): Promise<void>;
}
/**
 * Initializes the global logger for Core Crypto and registers the callback.
 *
 * **NOTE:** you must call this after `await CoreCrypto.init(params)` or `await CoreCrypto.deferredInit(params)`.
 *
 * @param logger - the interface to be called when something is going to be logged
 **/
export declare function setLogger(logger: CoreCryptoLogger): void;
/**
 * An interface to register a logger in CoreCrypto
 **/
export interface CoreCryptoLogger {
	/**
	 * This method will be called by Core Crypto to log messages. It is up to the implementer to decide how to handle the message and where to actually log it.
	 * @param level - the level of the logged message. it will also be present in the json message
	 * @param message - log message
	 * @param context - additional context captured when the log was made.
	 **/
	log: (level: CoreCryptoLogLevel, message: string, context: string) => void;
}
/**
 * Defines the maximum log level for the logs from Core Crypto
 **/
export declare enum CoreCryptoLogLevel {
	Off = 1,
	Trace = 2,
	Debug = 3,
	Info = 4,
	Warn = 5,
	Error = 6
}
/**
 * Sets maximum log level for logs forwarded to the logger, defaults to `Warn`.
 *
 * @param level - the max level that should be logged
 */
export declare function setMaxLogLevel(level: CoreCryptoLogLevel): void;
/**
 * Returns build metadata for the {@link CoreCrypto} libary.
 *
 * @returns varous build metadata for `core-crypto`.
 */
export declare function buildMetadata(): BuildMetadata;
/**
 * Returns the current version of {@link CoreCrypto}
 *
 * @returns the CoreCrypto version as a string (e.g. "3.1.2")
 */
export declare function version(): string;
/**
 * Wrapper for the WASM-compiled version of CoreCrypto
 */
export declare class CoreCrypto {
	#private;
	/**
	 * Should only be used internally
	 */
	inner(): unknown;
	static setLogger(logger: CoreCryptoLogger): void;
	static setMaxLogLevel(level: CoreCryptoLogLevel): void;
	/**
	 * This is your entrypoint to initialize {@link CoreCrypto}!
	 *
	 * @param params - {@link CoreCryptoParams}
	 *
	 * @example
	 * ## Simple init
	 * ```ts
	 * const cc = await CoreCrypto.init({ databaseName: "test", key: "test", clientId: "test" });
	 * // Do the rest with `cc`
	 * ```
	 *
	 * ## Custom Entropy seed init & wasm file location
	 * ```ts
	 * // FYI, this is the IETF test vector #1
	 * const entropySeed = Uint32Array.from([
	 *   0xade0b876, 0x903df1a0, 0xe56a5d40, 0x28bd8653,
	 *   0xb819d2bd, 0x1aed8da0, 0xccef36a8, 0xc70d778b,
	 *   0x7c5941da, 0x8d485751, 0x3fe02477, 0x374ad8b8,
	 *   0xf4b8436a, 0x1ca11815, 0x69b687c3, 0x8665eeb2,
	 * ]);
	 *
	 * const wasmFilePath = "/long/complicated/path/on/webserver/whatever.wasm";
	 *
	 * const cc = await CoreCrypto.init({
	 *   databaseName: "test",
	 *   key: "test",
	 *   clientId: "test",
	 *   entropySeed,
	 *   wasmFilePath,
	 * });
	 * ````
	 */
	static init({ databaseName, key, clientId, wasmFilePath, // eslint-disable-line @typescript-eslint/no-unused-vars
	ciphersuites, entropySeed, nbKeyPackage, }: CoreCryptoParams): Promise<CoreCrypto>;
	/**
	 * Almost identical to {@link CoreCrypto.init} but allows a 2 phase initialization of MLS.
	 * First, calling this will set up the keystore and will allow generating proteus prekeys.
	 * Then, those keys can be traded for a clientId.
	 * Use this clientId to initialize MLS with {@link CoreCryptoContext.mlsInit}.
	 * @param params - {@link CoreCryptoDeferredParams}
	 */
	static deferredInit({ databaseName, key, entropySeed, wasmFilePath, }: CoreCryptoDeferredParams): Promise<CoreCrypto>;
	/**
	 * Instantiate a history client.
	 *
	 * This client exposes the full interface of `CoreCrypto`, but it should only be used to decrypt messages.
	 * Other use is a logic error.
	 */
	static historyClient(historySecret: Uint8Array): Promise<CoreCrypto>;
	/**
	 * Starts a new transaction in Core Crypto. If the callback succeeds, it will be committed,
	 * otherwise, every operation performed with the context will be discarded.
	 *
	 * @param callback - The callback to execute within the transaction
	 *
	 * @returns the result of the callback will be returned from this call
	 */
	transaction<R>(callback: (ctx: CoreCryptoContext$1) => Promise<R>): Promise<R>;
	/** @hidden */
	private constructor();
	/**
	 * If this returns `false` you **cannot** call {@link CoreCrypto.close} as it will produce an error because of the
	 * outstanding references that were detected.
	 *
	 * As always with this kind of thing, beware TOCTOU.
	 *
	 * @returns whether the CoreCrypto instance can currently close.
	 */
	canClose(): Promise<boolean>;
	/**
	 * If this returns `true` you **cannot** call {@link CoreCrypto.close} as it will produce an error because of the
	 * outstanding references that were detected.
	 *
	 * This will never return `true` as we need an async method to accurately determine whether or not this can close.
	 *
	 * @returns false
	 * @deprecated prefer {@link CoreCrypto.canClose}
	 */
	isLocked(): boolean;
	/**
	 * Closes this {@link CoreCrypto} instance and deallocates all loaded resources
	 *
	 * **CAUTION**: This {@link CoreCrypto} instance won't be usable after a call to this method, but there's no way to express this requirement in TypeScript, so you'll get errors instead!
	 */
	close(): Promise<void>;
	/**
	 * Registers the transport callbacks for core crypto to give it access to backend endpoints for sending
	 * a commit bundle or a message, respectively.
	 *
	 * @param transportProvider - Any implementor of the {@link MlsTransport} interface
	 * @param _ctx - unused
	 */
	provideTransport(transportProvider: MlsTransport, _ctx?: unknown): Promise<void>;
	/**
	 * See {@link CoreCryptoContext.conversationExists}.
	 */
	conversationExists(conversationId: ConversationId): Promise<boolean>;
	/**
	 * See {@link CoreCryptoContext.conversationEpoch}.
	 *
	 * @returns the epoch of the conversation
	 *
	 * @example
	 * ```ts
	 *  const cc = await CoreCrypto.init({ databaseName: "test", key: "test", clientId: "test" });
	 *  const encoder = new TextEncoder();
	 *  console.log(await cc.conversationEpoch(encoder.encode("my super chat")))
	 * ```
	 */
	conversationEpoch(conversationId: ConversationId): Promise<number>;
	/**
	 * See {@link CoreCryptoContext.conversationCiphersuite}.
	 *
	 * @returns the ciphersuite of the conversation
	 */
	conversationCiphersuite(conversationId: ConversationId): Promise<Ciphersuite>;
	/**
	 * See {@link CoreCryptoContext.clientPublicKey}.
	 *
	 * @param ciphersuite - of the signature key to get
	 * @param credentialType - of the public key to look for
	 * @returns the client's public signature key
	 */
	clientPublicKey(ciphersuite: Ciphersuite, credentialType: CredentialType): Promise<Uint8Array>;
	/**
	 * See {@link CoreCryptoContext.exportSecretKey}.
	 *
	 * @param conversationId - The group's ID
	 * @param keyLength - the length of the key to be derived. If the value is higher than the
	 * bounds of `u16` or the context hash * 255, an error will be returned
	 *
	 * @returns A `Uint8Array` representing the derived key
	 */
	exportSecretKey(conversationId: ConversationId, keyLength: number): Promise<Uint8Array>;
	/**
	 * See {@link CoreCryptoContext.getExternalSender}.
	 *
	 * @param conversationId - The group's ID
	 *
	 * @returns A `Uint8Array` representing the external sender raw public key
	 */
	getExternalSender(conversationId: ConversationId): Promise<Uint8Array>;
	/**
	 * See {@link CoreCryptoContext.getClientIds}.
	 *
	 * @param conversationId - The group's ID
	 *
	 * @returns A list of clients from the members of the group
	 */
	getClientIds(conversationId: ConversationId): Promise<ClientId$1[]>;
	/**
	 * See {@link CoreCryptoContext.randomBytes}.
	 *
	 * @param length - The number of bytes to be returned in the `Uint8Array`
	 *
	 * @returns A `Uint8Array` buffer that contains `length` cryptographically-secure random bytes
	 */
	randomBytes(length: number): Promise<Uint8Array>;
	/**
	 * Allows to reseed {@link CoreCrypto}'s internal CSPRNG with a new seed.
	 *
	 * @param seed - **exactly 32** bytes buffer seed
	 */
	reseedRng(seed: Uint8Array): Promise<void>;
	/**
	 * Checks if a session exists
	 *
	 * @param sessionId - ID of the Proteus session
	 *
	 * @returns whether the session exists or not
	 */
	proteusSessionExists(sessionId: string): Promise<boolean>;
	/**
	 * @returns The last resort PreKey id
	 */
	static proteusLastResortPrekeyId(): number;
	/**
	 * Proteus public key fingerprint
	 * It's basically the public key encoded as an hex string
	 *
	 * @returns Hex-encoded public key string
	 */
	proteusFingerprint(): Promise<string>;
	/**
	 * Proteus session local fingerprint
	 *
	 * @param sessionId - ID of the Proteus session
	 * @returns Hex-encoded public key string
	 */
	proteusFingerprintLocal(sessionId: string): Promise<string>;
	/**
	 * Proteus session remote fingerprint
	 *
	 * @param sessionId - ID of the Proteus session
	 * @returns Hex-encoded public key string
	 */
	proteusFingerprintRemote(sessionId: string): Promise<string>;
	/**
	 * Hex-encoded fingerprint of the given prekey
	 *
	 * @param prekey - the prekey bundle to get the fingerprint from
	 * @returns Hex-encoded public key string
	 **/
	static proteusFingerprintPrekeybundle(prekey: Uint8Array): string;
	/**
	 * See {@link CoreCryptoContext.e2eiDumpPKIEnv}.
	 *
	 * @returns a struct with different fields representing the PKI environment as PEM strings
	 */
	e2eiDumpPKIEnv(): Promise<E2eiDumpedPkiEnv | undefined>;
	/**
	 * See {@link CoreCryptoContext.e2eiIsPKIEnvSetup}.
	 * @returns whether the E2EI PKI environment is setup (i.e. Root CA, Intermediates, CRLs)
	 */
	e2eiIsPKIEnvSetup(): Promise<boolean>;
	/**
	 * See {@link CoreCryptoContext.e2eiIsEnabled}.
	 *
	 * @param ciphersuite of the credential to check
	 * @returns true if end-to-end identity is enabled for the given ciphersuite
	 */
	e2eiIsEnabled(ciphersuite: Ciphersuite): Promise<boolean>;
	/**
	 * See {@link CoreCryptoContext.getDeviceIdentities}.
	 *
	 * @param conversationId - identifier of the conversation
	 * @param deviceIds - identifiers of the devices
	 * @returns identities or if no member has a x509 certificate, it will return an empty List
	 */
	getDeviceIdentities(conversationId: ConversationId, deviceIds: ClientId$1[]): Promise<WireIdentity[]>;
	/**
	 * See {@link CoreCryptoContext.getUserIdentities}.
	 *
	 * @param conversationId - identifier of the conversation
	 * @param userIds - user identifiers hyphenated UUIDv4 e.g. 'bd4c7053-1c5a-4020-9559-cd7bf7961954'
	 * @returns a Map with all the identities for a given users. Consumers are then recommended to reduce those identities to determine the actual status of a user.
	 */
	getUserIdentities(conversationId: ConversationId, userIds: string[]): Promise<Map<string, WireIdentity[]>>;
	/**
	 * See {@link CoreCryptoContext.getCredentialInUse}.
	 *
	 * @param groupInfo - a TLS encoded GroupInfo fetched from the Delivery Service
	 * @param credentialType - kind of Credential to check usage of. Defaults to X509 for now as no other value will give any result.
	 * @returns see {@link E2eiConversationState}
	 */
	getCredentialInUse(groupInfo: Uint8Array, credentialType?: CredentialType): Promise<E2eiConversationState$1>;
	/**
	 * Registers an epoch observer, which will then be notified every time a conversation's epoch changes.
	 *
	 * @param observer must conform to the {@link EpochObserver} interface
	 * @returns nothing
	 */
	registerEpochObserver(observer: EpochObserver): Promise<void>;
}
/**
 * Initialises the wasm module necessary for running core crypto.
 *
 * @param location path where the wasm module is located. If omitted the module is assumed be located at the root of the core crypto module.
 */
export declare function initWasmModule(location?: string | undefined): Promise<void>;

export {
	AcmeDirectory$1 as AcmeDirectory,
	BufferedDecryptedMessage$1 as BufferedDecryptedMessage,
	ClientId$1 as ClientId,
	ConversationConfiguration$1 as ConversationConfiguration,
	CoreCryptoContext$1 as CoreCryptoContext,
	DecryptedMessage$1 as DecryptedMessage,
	E2eiConversationState$1 as E2eiConversationState,
	MlsGroupInfoEncryptionType as GroupInfoEncryptionType,
	MlsRatchetTreeType as RatchetTreeType,
	NewCrlDistributionPoints$1 as NewCrlDistributionPoints,
	ProteusAutoPrekeyBundle$1 as ProteusAutoPrekeyBundle,
};

export {};
