603 lines
29 KiB
TypeScript
603 lines
29 KiB
TypeScript
declare module "crypto" {
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import * as stream from "stream";
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interface Certificate {
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exportChallenge(spkac: BinaryLike): Buffer;
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exportPublicKey(spkac: BinaryLike): Buffer;
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verifySpkac(spkac: Binary): boolean;
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}
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const Certificate: {
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new(): Certificate;
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(): Certificate;
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};
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namespace constants { // https://nodejs.org/dist/latest-v10.x/docs/api/crypto.html#crypto_crypto_constants
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const OPENSSL_VERSION_NUMBER: number;
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/** Applies multiple bug workarounds within OpenSSL. See https://www.openssl.org/docs/man1.0.2/ssl/SSL_CTX_set_options.html for detail. */
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const SSL_OP_ALL: number;
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/** Allows legacy insecure renegotiation between OpenSSL and unpatched clients or servers. See https://www.openssl.org/docs/man1.0.2/ssl/SSL_CTX_set_options.html. */
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const SSL_OP_ALLOW_UNSAFE_LEGACY_RENEGOTIATION: number;
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/** Attempts to use the server's preferences instead of the client's when selecting a cipher. See https://www.openssl.org/docs/man1.0.2/ssl/SSL_CTX_set_options.html. */
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const SSL_OP_CIPHER_SERVER_PREFERENCE: number;
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/** Instructs OpenSSL to use Cisco's "speshul" version of DTLS_BAD_VER. */
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const SSL_OP_CISCO_ANYCONNECT: number;
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/** Instructs OpenSSL to turn on cookie exchange. */
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const SSL_OP_COOKIE_EXCHANGE: number;
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/** Instructs OpenSSL to add server-hello extension from an early version of the cryptopro draft. */
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const SSL_OP_CRYPTOPRO_TLSEXT_BUG: number;
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/** Instructs OpenSSL to disable a SSL 3.0/TLS 1.0 vulnerability workaround added in OpenSSL 0.9.6d. */
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const SSL_OP_DONT_INSERT_EMPTY_FRAGMENTS: number;
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/** Instructs OpenSSL to always use the tmp_rsa key when performing RSA operations. */
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const SSL_OP_EPHEMERAL_RSA: number;
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/** Allows initial connection to servers that do not support RI. */
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const SSL_OP_LEGACY_SERVER_CONNECT: number;
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const SSL_OP_MICROSOFT_BIG_SSLV3_BUFFER: number;
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const SSL_OP_MICROSOFT_SESS_ID_BUG: number;
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/** Instructs OpenSSL to disable the workaround for a man-in-the-middle protocol-version vulnerability in the SSL 2.0 server implementation. */
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const SSL_OP_MSIE_SSLV2_RSA_PADDING: number;
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const SSL_OP_NETSCAPE_CA_DN_BUG: number;
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const SSL_OP_NETSCAPE_CHALLENGE_BUG: number;
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const SSL_OP_NETSCAPE_DEMO_CIPHER_CHANGE_BUG: number;
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const SSL_OP_NETSCAPE_REUSE_CIPHER_CHANGE_BUG: number;
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/** Instructs OpenSSL to disable support for SSL/TLS compression. */
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const SSL_OP_NO_COMPRESSION: number;
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const SSL_OP_NO_QUERY_MTU: number;
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/** Instructs OpenSSL to always start a new session when performing renegotiation. */
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const SSL_OP_NO_SESSION_RESUMPTION_ON_RENEGOTIATION: number;
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const SSL_OP_NO_SSLv2: number;
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const SSL_OP_NO_SSLv3: number;
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const SSL_OP_NO_TICKET: number;
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const SSL_OP_NO_TLSv1: number;
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const SSL_OP_NO_TLSv1_1: number;
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const SSL_OP_NO_TLSv1_2: number;
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const SSL_OP_PKCS1_CHECK_1: number;
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const SSL_OP_PKCS1_CHECK_2: number;
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/** Instructs OpenSSL to always create a new key when using temporary/ephemeral DH parameters. */
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const SSL_OP_SINGLE_DH_USE: number;
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/** Instructs OpenSSL to always create a new key when using temporary/ephemeral ECDH parameters. */
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const SSL_OP_SINGLE_ECDH_USE: number;
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const SSL_OP_SSLEAY_080_CLIENT_DH_BUG: number;
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const SSL_OP_SSLREF2_REUSE_CERT_TYPE_BUG: number;
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const SSL_OP_TLS_BLOCK_PADDING_BUG: number;
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const SSL_OP_TLS_D5_BUG: number;
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/** Instructs OpenSSL to disable version rollback attack detection. */
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const SSL_OP_TLS_ROLLBACK_BUG: number;
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const ENGINE_METHOD_RSA: number;
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const ENGINE_METHOD_DSA: number;
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const ENGINE_METHOD_DH: number;
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const ENGINE_METHOD_RAND: number;
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const ENGINE_METHOD_EC: number;
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const ENGINE_METHOD_CIPHERS: number;
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const ENGINE_METHOD_DIGESTS: number;
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const ENGINE_METHOD_PKEY_METHS: number;
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const ENGINE_METHOD_PKEY_ASN1_METHS: number;
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const ENGINE_METHOD_ALL: number;
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const ENGINE_METHOD_NONE: number;
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const DH_CHECK_P_NOT_SAFE_PRIME: number;
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const DH_CHECK_P_NOT_PRIME: number;
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const DH_UNABLE_TO_CHECK_GENERATOR: number;
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const DH_NOT_SUITABLE_GENERATOR: number;
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const ALPN_ENABLED: number;
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const RSA_PKCS1_PADDING: number;
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const RSA_SSLV23_PADDING: number;
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const RSA_NO_PADDING: number;
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const RSA_PKCS1_OAEP_PADDING: number;
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const RSA_X931_PADDING: number;
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const RSA_PKCS1_PSS_PADDING: number;
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/** Sets the salt length for RSA_PKCS1_PSS_PADDING to the digest size when signing or verifying. */
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const RSA_PSS_SALTLEN_DIGEST: number;
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/** Sets the salt length for RSA_PKCS1_PSS_PADDING to the maximum permissible value when signing data. */
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const RSA_PSS_SALTLEN_MAX_SIGN: number;
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/** Causes the salt length for RSA_PKCS1_PSS_PADDING to be determined automatically when verifying a signature. */
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const RSA_PSS_SALTLEN_AUTO: number;
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const POINT_CONVERSION_COMPRESSED: number;
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const POINT_CONVERSION_UNCOMPRESSED: number;
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const POINT_CONVERSION_HYBRID: number;
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/** Specifies the built-in default cipher list used by Node.js (colon-separated values). */
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const defaultCoreCipherList: string;
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/** Specifies the active default cipher list used by the current Node.js process (colon-separated values). */
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const defaultCipherList: string;
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}
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/** @deprecated since v10.0.0 */
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const fips: boolean;
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function createHash(algorithm: string, options?: stream.TransformOptions): Hash;
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function createHmac(algorithm: string, key: BinaryLike, options?: stream.TransformOptions): Hmac;
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type Utf8AsciiLatin1Encoding = "utf8" | "ascii" | "latin1";
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type HexBase64Latin1Encoding = "latin1" | "hex" | "base64";
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type Utf8AsciiBinaryEncoding = "utf8" | "ascii" | "binary";
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type HexBase64BinaryEncoding = "binary" | "base64" | "hex";
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type ECDHKeyFormat = "compressed" | "uncompressed" | "hybrid";
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class Hash extends stream.Duplex {
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private constructor();
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update(data: BinaryLike): Hash;
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update(data: string, input_encoding: Utf8AsciiLatin1Encoding): Hash;
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digest(): Buffer;
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digest(encoding: HexBase64Latin1Encoding): string;
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}
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class Hmac extends stream.Duplex {
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private constructor();
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update(data: BinaryLike): Hmac;
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update(data: string, input_encoding: Utf8AsciiLatin1Encoding): Hmac;
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digest(): Buffer;
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digest(encoding: HexBase64Latin1Encoding): string;
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}
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export type KeyObjectType = 'secret' | 'public' | 'private';
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interface KeyExportOptions<T extends KeyFormat> {
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type: 'pkcs1' | 'spki' | 'pkcs8' | 'sec1';
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format: T;
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cipher?: string;
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passphrase?: string | Buffer;
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}
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class KeyObject {
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private constructor();
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asymmetricKeyType?: KeyType;
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/**
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* For asymmetric keys, this property represents the size of the embedded key in
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* bytes. This property is `undefined` for symmetric keys.
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*/
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asymmetricKeySize?: number;
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export(options: KeyExportOptions<'pem'>): string | Buffer;
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export(options?: KeyExportOptions<'der'>): Buffer;
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symmetricSize?: number;
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type: KeyObjectType;
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}
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type CipherCCMTypes = 'aes-128-ccm' | 'aes-192-ccm' | 'aes-256-ccm';
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type CipherGCMTypes = 'aes-128-gcm' | 'aes-192-gcm' | 'aes-256-gcm';
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type Binary = NodeJS.TypedArray | DataView;
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type BinaryLike = string | Binary;
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type CipherKey = BinaryLike | KeyObject;
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interface CipherCCMOptions extends stream.TransformOptions {
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authTagLength: number;
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}
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interface CipherGCMOptions extends stream.TransformOptions {
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authTagLength?: number;
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}
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/** @deprecated since v10.0.0 use createCipheriv() */
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function createCipher(algorithm: CipherCCMTypes, password: BinaryLike, options: CipherCCMOptions): CipherCCM;
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/** @deprecated since v10.0.0 use createCipheriv() */
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function createCipher(algorithm: CipherGCMTypes, password: BinaryLike, options?: CipherGCMOptions): CipherGCM;
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/** @deprecated since v10.0.0 use createCipheriv() */
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function createCipher(algorithm: string, password: BinaryLike, options?: stream.TransformOptions): Cipher;
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function createCipheriv(
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algorithm: CipherCCMTypes,
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key: CipherKey,
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iv: BinaryLike | null,
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options: CipherCCMOptions
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): CipherCCM;
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function createCipheriv(
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algorithm: CipherGCMTypes,
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key: CipherKey,
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iv: BinaryLike | null,
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options?: CipherGCMOptions
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): CipherGCM;
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function createCipheriv(
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algorithm: string, key: CipherKey, iv: BinaryLike | null, options?: stream.TransformOptions
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): Cipher;
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class Cipher extends stream.Duplex {
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private constructor();
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update(data: BinaryLike): Buffer;
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update(data: string, input_encoding: Utf8AsciiBinaryEncoding): Buffer;
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update(data: Binary, input_encoding: undefined, output_encoding: HexBase64BinaryEncoding): string;
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update(data: string, input_encoding: Utf8AsciiBinaryEncoding | undefined, output_encoding: HexBase64BinaryEncoding): string;
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final(): Buffer;
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final(output_encoding: string): string;
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setAutoPadding(auto_padding?: boolean): this;
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// getAuthTag(): Buffer;
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// setAAD(buffer: Buffer): this; // docs only say buffer
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}
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interface CipherCCM extends Cipher {
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setAAD(buffer: Buffer, options: { plaintextLength: number }): this;
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getAuthTag(): Buffer;
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}
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interface CipherGCM extends Cipher {
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setAAD(buffer: Buffer, options?: { plaintextLength: number }): this;
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getAuthTag(): Buffer;
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}
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/** @deprecated since v10.0.0 use createCipheriv() */
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function createDecipher(algorithm: CipherCCMTypes, password: BinaryLike, options: CipherCCMOptions): DecipherCCM;
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/** @deprecated since v10.0.0 use createCipheriv() */
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function createDecipher(algorithm: CipherGCMTypes, password: BinaryLike, options?: CipherGCMOptions): DecipherGCM;
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/** @deprecated since v10.0.0 use createCipheriv() */
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function createDecipher(algorithm: string, password: BinaryLike, options?: stream.TransformOptions): Decipher;
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function createDecipheriv(
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algorithm: CipherCCMTypes,
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key: BinaryLike,
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iv: BinaryLike | null,
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options: CipherCCMOptions,
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): DecipherCCM;
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function createDecipheriv(
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algorithm: CipherGCMTypes,
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key: BinaryLike,
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iv: BinaryLike | null,
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options?: CipherGCMOptions,
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): DecipherGCM;
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function createDecipheriv(algorithm: string, key: BinaryLike, iv: BinaryLike | null, options?: stream.TransformOptions): Decipher;
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class Decipher extends stream.Duplex {
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private constructor();
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update(data: Binary): Buffer;
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update(data: string, input_encoding: HexBase64BinaryEncoding): Buffer;
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update(data: Binary, input_encoding: undefined, output_encoding: Utf8AsciiBinaryEncoding): string;
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update(data: string, input_encoding: HexBase64BinaryEncoding | undefined, output_encoding: Utf8AsciiBinaryEncoding): string;
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final(): Buffer;
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final(output_encoding: string): string;
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setAutoPadding(auto_padding?: boolean): this;
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// setAuthTag(tag: Binary): this;
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// setAAD(buffer: Binary): this;
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}
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interface DecipherCCM extends Decipher {
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setAuthTag(buffer: Binary): this;
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setAAD(buffer: Binary, options: { plaintextLength: number }): this;
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}
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interface DecipherGCM extends Decipher {
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setAuthTag(buffer: Binary): this;
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setAAD(buffer: Binary, options?: { plaintextLength: number }): this;
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}
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interface PrivateKeyInput {
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key: string | Buffer;
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format?: KeyFormat;
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type?: 'pkcs1' | 'pkcs8' | 'sec1';
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passphrase?: string | Buffer;
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}
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interface PublicKeyInput {
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key: string | Buffer;
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format?: KeyFormat;
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type?: 'pkcs1' | 'spki';
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}
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function createPrivateKey(key: PrivateKeyInput | string | Buffer): KeyObject;
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function createPublicKey(key: PublicKeyInput | string | Buffer | KeyObject): KeyObject;
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function createSecretKey(key: Buffer): KeyObject;
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function createSign(algorithm: string, options?: stream.WritableOptions): Signer;
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interface SigningOptions {
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/**
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* @See crypto.constants.RSA_PKCS1_PADDING
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*/
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padding?: number;
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saltLength?: number;
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}
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interface SignPrivateKeyInput extends PrivateKeyInput, SigningOptions {
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}
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type KeyLike = string | Buffer | KeyObject;
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class Signer extends stream.Writable {
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private constructor();
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update(data: BinaryLike): Signer;
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update(data: string, input_encoding: Utf8AsciiLatin1Encoding): Signer;
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sign(private_key: SignPrivateKeyInput | KeyLike): Buffer;
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sign(private_key: SignPrivateKeyInput | KeyLike, output_format: HexBase64Latin1Encoding): string;
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}
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function createVerify(algorithm: string, options?: stream.WritableOptions): Verify;
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class Verify extends stream.Writable {
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private constructor();
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update(data: BinaryLike): Verify;
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update(data: string, input_encoding: Utf8AsciiLatin1Encoding): Verify;
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verify(object: Object | KeyLike, signature: Binary): boolean;
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verify(object: Object | KeyLike, signature: string, signature_format?: HexBase64Latin1Encoding): boolean;
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// https://nodejs.org/api/crypto.html#crypto_verifier_verify_object_signature_signature_format
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// The signature field accepts a TypedArray type, but it is only available starting ES2017
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}
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function createDiffieHellman(prime_length: number, generator?: number | Binary): DiffieHellman;
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function createDiffieHellman(prime: Binary): DiffieHellman;
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function createDiffieHellman(prime: string, prime_encoding: HexBase64Latin1Encoding): DiffieHellman;
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function createDiffieHellman(prime: string, prime_encoding: HexBase64Latin1Encoding, generator: number | Binary): DiffieHellman;
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function createDiffieHellman(prime: string, prime_encoding: HexBase64Latin1Encoding, generator: string, generator_encoding: HexBase64Latin1Encoding): DiffieHellman;
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class DiffieHellman {
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private constructor();
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generateKeys(): Buffer;
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generateKeys(encoding: HexBase64Latin1Encoding): string;
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computeSecret(other_public_key: Binary): Buffer;
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computeSecret(other_public_key: string, input_encoding: HexBase64Latin1Encoding): Buffer;
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computeSecret(other_public_key: Binary, output_encoding: HexBase64Latin1Encoding): string;
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computeSecret(other_public_key: string, input_encoding: HexBase64Latin1Encoding, output_encoding: HexBase64Latin1Encoding): string;
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getPrime(): Buffer;
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getPrime(encoding: HexBase64Latin1Encoding): string;
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getGenerator(): Buffer;
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getGenerator(encoding: HexBase64Latin1Encoding): string;
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getPublicKey(): Buffer;
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getPublicKey(encoding: HexBase64Latin1Encoding): string;
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getPrivateKey(): Buffer;
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getPrivateKey(encoding: HexBase64Latin1Encoding): string;
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setPublicKey(public_key: Binary): void;
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setPublicKey(public_key: string, encoding: string): void;
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setPrivateKey(private_key: Binary): void;
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setPrivateKey(private_key: string, encoding: string): void;
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verifyError: number;
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}
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function getDiffieHellman(group_name: string): DiffieHellman;
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function pbkdf2(
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password: BinaryLike,
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salt: BinaryLike,
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iterations: number,
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keylen: number,
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digest: string,
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callback: (err: Error | null, derivedKey: Buffer) => any,
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): void;
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function pbkdf2Sync(password: BinaryLike, salt: BinaryLike, iterations: number, keylen: number, digest: string): Buffer;
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function randomBytes(size: number): Buffer;
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function randomBytes(size: number, callback: (err: Error | null, buf: Buffer) => void): void;
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function pseudoRandomBytes(size: number): Buffer;
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function pseudoRandomBytes(size: number, callback: (err: Error | null, buf: Buffer) => void): void;
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function randomFillSync<T extends Binary>(buffer: T, offset?: number, size?: number): T;
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function randomFill<T extends Binary>(buffer: T, callback: (err: Error | null, buf: T) => void): void;
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function randomFill<T extends Binary>(buffer: T, offset: number, callback: (err: Error | null, buf: T) => void): void;
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function randomFill<T extends Binary>(buffer: T, offset: number, size: number, callback: (err: Error | null, buf: T) => void): void;
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interface ScryptOptions {
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N?: number;
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r?: number;
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p?: number;
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maxmem?: number;
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}
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function scrypt(
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password: BinaryLike,
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salt: BinaryLike,
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keylen: number, callback: (err: Error | null, derivedKey: Buffer) => void,
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): void;
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function scrypt(
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password: BinaryLike,
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salt: BinaryLike,
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keylen: number,
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options: ScryptOptions,
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callback: (err: Error | null, derivedKey: Buffer) => void,
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): void;
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function scryptSync(password: BinaryLike, salt: BinaryLike, keylen: number, options?: ScryptOptions): Buffer;
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interface RsaPublicKey {
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key: KeyLike;
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padding?: number;
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}
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interface RsaPrivateKey {
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key: KeyLike;
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passphrase?: string;
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padding?: number;
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}
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function publicEncrypt(public_key: RsaPublicKey | KeyLike, buffer: Binary): Buffer;
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function privateDecrypt(private_key: RsaPrivateKey | KeyLike, buffer: Binary): Buffer;
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function privateEncrypt(private_key: RsaPrivateKey | KeyLike, buffer: Binary): Buffer;
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function publicDecrypt(public_key: RsaPublicKey | KeyLike, buffer: Binary): Buffer;
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function getCiphers(): string[];
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function getCurves(): string[];
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function getHashes(): string[];
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class ECDH {
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private constructor();
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static convertKey(
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key: BinaryLike,
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curve: string,
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inputEncoding?: HexBase64Latin1Encoding,
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outputEncoding?: "latin1" | "hex" | "base64",
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format?: "uncompressed" | "compressed" | "hybrid",
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): Buffer | string;
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generateKeys(): Buffer;
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generateKeys(encoding: HexBase64Latin1Encoding, format?: ECDHKeyFormat): string;
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computeSecret(other_public_key: Binary): Buffer;
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computeSecret(other_public_key: string, input_encoding: HexBase64Latin1Encoding): Buffer;
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computeSecret(other_public_key: Binary, output_encoding: HexBase64Latin1Encoding): string;
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computeSecret(other_public_key: string, input_encoding: HexBase64Latin1Encoding, output_encoding: HexBase64Latin1Encoding): string;
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getPrivateKey(): Buffer;
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getPrivateKey(encoding: HexBase64Latin1Encoding): string;
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getPublicKey(): Buffer;
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getPublicKey(encoding: HexBase64Latin1Encoding, format?: ECDHKeyFormat): string;
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setPrivateKey(private_key: Binary): void;
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setPrivateKey(private_key: string, encoding: HexBase64Latin1Encoding): void;
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}
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function createECDH(curve_name: string): ECDH;
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function timingSafeEqual(a: Binary, b: Binary): boolean;
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/** @deprecated since v10.0.0 */
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const DEFAULT_ENCODING: string;
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export type KeyType = 'rsa' | 'dsa' | 'ec';
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export type KeyFormat = 'pem' | 'der';
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interface BasePrivateKeyEncodingOptions<T extends KeyFormat> {
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format: T;
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cipher?: string;
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passphrase?: string;
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}
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interface KeyPairKeyObjectResult {
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publicKey: KeyObject;
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privateKey: KeyObject;
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}
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interface ECKeyPairKeyObjectOptions {
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/**
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* Name of the curve to use.
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*/
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namedCurve: string;
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}
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interface RSAKeyPairKeyObjectOptions {
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/**
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* Key size in bits
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*/
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modulusLength: number;
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/**
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* @default 0x10001
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*/
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publicExponent?: number;
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}
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interface DSAKeyPairKeyObjectOptions {
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/**
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* Key size in bits
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*/
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modulusLength: number;
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/**
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* Size of q in bits
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*/
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divisorLength: number;
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}
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interface RSAKeyPairOptions<PubF extends KeyFormat, PrivF extends KeyFormat> {
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/**
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* Key size in bits
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*/
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modulusLength: number;
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/**
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* @default 0x10001
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*/
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publicExponent?: number;
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publicKeyEncoding: {
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type: 'pkcs1' | 'spki';
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format: PubF;
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};
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privateKeyEncoding: BasePrivateKeyEncodingOptions<PrivF> & {
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type: 'pkcs1' | 'pkcs8';
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};
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}
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interface DSAKeyPairOptions<PubF extends KeyFormat, PrivF extends KeyFormat> {
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/**
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* Key size in bits
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*/
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modulusLength: number;
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/**
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* Size of q in bits
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*/
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divisorLength: number;
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publicKeyEncoding: {
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type: 'spki';
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format: PubF;
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};
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privateKeyEncoding: BasePrivateKeyEncodingOptions<PrivF> & {
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type: 'pkcs8';
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};
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}
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interface ECKeyPairOptions<PubF extends KeyFormat, PrivF extends KeyFormat> {
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/**
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* Name of the curve to use.
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*/
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namedCurve: string;
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publicKeyEncoding: {
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type: 'pkcs1' | 'spki';
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format: PubF;
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};
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privateKeyEncoding: BasePrivateKeyEncodingOptions<PrivF> & {
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type: 'sec1' | 'pkcs8';
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};
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}
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interface KeyPairSyncResult<T1 extends string | Buffer, T2 extends string | Buffer> {
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publicKey: T1;
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privateKey: T2;
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}
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function generateKeyPairSync(type: 'rsa', options: RSAKeyPairOptions<'pem', 'pem'>): KeyPairSyncResult<string, string>;
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function generateKeyPairSync(type: 'rsa', options: RSAKeyPairOptions<'pem', 'der'>): KeyPairSyncResult<string, Buffer>;
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function generateKeyPairSync(type: 'rsa', options: RSAKeyPairOptions<'der', 'pem'>): KeyPairSyncResult<Buffer, string>;
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function generateKeyPairSync(type: 'rsa', options: RSAKeyPairOptions<'der', 'der'>): KeyPairSyncResult<Buffer, Buffer>;
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function generateKeyPairSync(type: 'rsa', options: RSAKeyPairKeyObjectOptions): KeyPairKeyObjectResult;
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function generateKeyPairSync(type: 'dsa', options: DSAKeyPairOptions<'pem', 'pem'>): KeyPairSyncResult<string, string>;
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function generateKeyPairSync(type: 'dsa', options: DSAKeyPairOptions<'pem', 'der'>): KeyPairSyncResult<string, Buffer>;
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function generateKeyPairSync(type: 'dsa', options: DSAKeyPairOptions<'der', 'pem'>): KeyPairSyncResult<Buffer, string>;
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function generateKeyPairSync(type: 'dsa', options: DSAKeyPairOptions<'der', 'der'>): KeyPairSyncResult<Buffer, Buffer>;
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function generateKeyPairSync(type: 'dsa', options: DSAKeyPairKeyObjectOptions): KeyPairKeyObjectResult;
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function generateKeyPairSync(type: 'ec', options: ECKeyPairOptions<'pem', 'pem'>): KeyPairSyncResult<string, string>;
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function generateKeyPairSync(type: 'ec', options: ECKeyPairOptions<'pem', 'der'>): KeyPairSyncResult<string, Buffer>;
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function generateKeyPairSync(type: 'ec', options: ECKeyPairOptions<'der', 'pem'>): KeyPairSyncResult<Buffer, string>;
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function generateKeyPairSync(type: 'ec', options: ECKeyPairOptions<'der', 'der'>): KeyPairSyncResult<Buffer, Buffer>;
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function generateKeyPairSync(type: 'ec', options: ECKeyPairKeyObjectOptions): KeyPairKeyObjectResult;
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function generateKeyPair(type: 'rsa', options: RSAKeyPairOptions<'pem', 'pem'>, callback: (err: Error | null, publicKey: string, privateKey: string) => void): void;
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function generateKeyPair(type: 'rsa', options: RSAKeyPairOptions<'pem', 'der'>, callback: (err: Error | null, publicKey: string, privateKey: Buffer) => void): void;
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function generateKeyPair(type: 'rsa', options: RSAKeyPairOptions<'der', 'pem'>, callback: (err: Error | null, publicKey: Buffer, privateKey: string) => void): void;
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function generateKeyPair(type: 'rsa', options: RSAKeyPairOptions<'der', 'der'>, callback: (err: Error | null, publicKey: Buffer, privateKey: Buffer) => void): void;
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function generateKeyPair(type: 'rsa', options: RSAKeyPairKeyObjectOptions, callback: (err: Error | null, publicKey: KeyObject, privateKey: KeyObject) => void): void;
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function generateKeyPair(type: 'dsa', options: DSAKeyPairOptions<'pem', 'pem'>, callback: (err: Error | null, publicKey: string, privateKey: string) => void): void;
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function generateKeyPair(type: 'dsa', options: DSAKeyPairOptions<'pem', 'der'>, callback: (err: Error | null, publicKey: string, privateKey: Buffer) => void): void;
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function generateKeyPair(type: 'dsa', options: DSAKeyPairOptions<'der', 'pem'>, callback: (err: Error | null, publicKey: Buffer, privateKey: string) => void): void;
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function generateKeyPair(type: 'dsa', options: DSAKeyPairOptions<'der', 'der'>, callback: (err: Error | null, publicKey: Buffer, privateKey: Buffer) => void): void;
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function generateKeyPair(type: 'dsa', options: DSAKeyPairKeyObjectOptions, callback: (err: Error | null, publicKey: KeyObject, privateKey: KeyObject) => void): void;
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function generateKeyPair(type: 'ec', options: ECKeyPairOptions<'pem', 'pem'>, callback: (err: Error | null, publicKey: string, privateKey: string) => void): void;
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function generateKeyPair(type: 'ec', options: ECKeyPairOptions<'pem', 'der'>, callback: (err: Error | null, publicKey: string, privateKey: Buffer) => void): void;
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function generateKeyPair(type: 'ec', options: ECKeyPairOptions<'der', 'pem'>, callback: (err: Error | null, publicKey: Buffer, privateKey: string) => void): void;
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function generateKeyPair(type: 'ec', options: ECKeyPairOptions<'der', 'der'>, callback: (err: Error | null, publicKey: Buffer, privateKey: Buffer) => void): void;
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function generateKeyPair(type: 'ec', options: ECKeyPairKeyObjectOptions, callback: (err: Error | null, publicKey: KeyObject, privateKey: KeyObject) => void): void;
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namespace generateKeyPair {
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function __promisify__(type: "rsa", options: RSAKeyPairOptions<'pem', 'pem'>): Promise<{ publicKey: string, privateKey: string }>;
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function __promisify__(type: "rsa", options: RSAKeyPairOptions<'pem', 'der'>): Promise<{ publicKey: string, privateKey: Buffer }>;
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function __promisify__(type: "rsa", options: RSAKeyPairOptions<'der', 'pem'>): Promise<{ publicKey: Buffer, privateKey: string }>;
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function __promisify__(type: "rsa", options: RSAKeyPairOptions<'der', 'der'>): Promise<{ publicKey: Buffer, privateKey: Buffer }>;
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function __promisify__(type: "rsa", options: RSAKeyPairKeyObjectOptions): Promise<KeyPairKeyObjectResult>;
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function __promisify__(type: "dsa", options: DSAKeyPairOptions<'pem', 'pem'>): Promise<{ publicKey: string, privateKey: string }>;
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function __promisify__(type: "dsa", options: DSAKeyPairOptions<'pem', 'der'>): Promise<{ publicKey: string, privateKey: Buffer }>;
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function __promisify__(type: "dsa", options: DSAKeyPairOptions<'der', 'pem'>): Promise<{ publicKey: Buffer, privateKey: string }>;
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function __promisify__(type: "dsa", options: DSAKeyPairOptions<'der', 'der'>): Promise<{ publicKey: Buffer, privateKey: Buffer }>;
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function __promisify__(type: "dsa", options: DSAKeyPairKeyObjectOptions): Promise<KeyPairKeyObjectResult>;
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function __promisify__(type: "ec", options: ECKeyPairOptions<'pem', 'pem'>): Promise<{ publicKey: string, privateKey: string }>;
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function __promisify__(type: "ec", options: ECKeyPairOptions<'pem', 'der'>): Promise<{ publicKey: string, privateKey: Buffer }>;
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function __promisify__(type: "ec", options: ECKeyPairOptions<'der', 'pem'>): Promise<{ publicKey: Buffer, privateKey: string }>;
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function __promisify__(type: "ec", options: ECKeyPairOptions<'der', 'der'>): Promise<{ publicKey: Buffer, privateKey: Buffer }>;
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function __promisify__(type: "ec", options: ECKeyPairKeyObjectOptions): Promise<KeyPairKeyObjectResult>;
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}
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/**
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* Calculates and returns the signature for `data` using the given private key and
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* algorithm. If `algorithm` is `null` or `undefined`, then the algorithm is
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* dependent upon the key type (especially Ed25519 and Ed448).
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*
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* If `key` is not a [`KeyObject`][], this function behaves as if `key` had been
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* passed to [`crypto.createPrivateKey()`][].
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*/
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function sign(algorithm: string | null | undefined, data: Binary, key: KeyLike | SignPrivateKeyInput): Buffer;
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interface VerifyKeyWithOptions extends KeyObject, SigningOptions {
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}
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/**
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* Calculates and returns the signature for `data` using the given private key and
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* algorithm. If `algorithm` is `null` or `undefined`, then the algorithm is
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* dependent upon the key type (especially Ed25519 and Ed448).
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*
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* If `key` is not a [`KeyObject`][], this function behaves as if `key` had been
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* passed to [`crypto.createPublicKey()`][].
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*/
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function verify(algorithm: string | null | undefined, data: Binary, key: KeyLike | VerifyKeyWithOptions, signature: Binary): Buffer;
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}
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