kubernetes-handbook/@types/node/tls.d.ts

778 lines
37 KiB
TypeScript

declare module "tls" {
import * as crypto from "crypto";
import * as dns from "dns";
import * as net from "net";
import * as stream from "stream";
const CLIENT_RENEG_LIMIT: number;
const CLIENT_RENEG_WINDOW: number;
interface Certificate {
/**
* Country code.
*/
C: string;
/**
* Street.
*/
ST: string;
/**
* Locality.
*/
L: string;
/**
* Organization.
*/
O: string;
/**
* Organizational unit.
*/
OU: string;
/**
* Common name.
*/
CN: string;
}
interface PeerCertificate {
subject: Certificate;
issuer: Certificate;
subjectaltname: string;
infoAccess: NodeJS.Dict<string[]>;
modulus: string;
exponent: string;
valid_from: string;
valid_to: string;
fingerprint: string;
fingerprint256: string;
ext_key_usage: string[];
serialNumber: string;
raw: Buffer;
}
interface DetailedPeerCertificate extends PeerCertificate {
issuerCertificate: DetailedPeerCertificate;
}
interface CipherNameAndProtocol {
/**
* The cipher name.
*/
name: string;
/**
* SSL/TLS protocol version.
*/
version: string;
/**
* IETF name for the cipher suite.
*/
standardName: string;
}
interface EphemeralKeyInfo {
/**
* The supported types are 'DH' and 'ECDH'.
*/
type: string;
/**
* The name property is available only when type is 'ECDH'.
*/
name?: string;
/**
* The size of parameter of an ephemeral key exchange.
*/
size: number;
}
interface KeyObject {
/**
* Private keys in PEM format.
*/
pem: string | Buffer;
/**
* Optional passphrase.
*/
passphrase?: string;
}
interface PxfObject {
/**
* PFX or PKCS12 encoded private key and certificate chain.
*/
buf: string | Buffer;
/**
* Optional passphrase.
*/
passphrase?: string;
}
interface TLSSocketOptions extends SecureContextOptions, CommonConnectionOptions {
/**
* If true the TLS socket will be instantiated in server-mode.
* Defaults to false.
*/
isServer?: boolean;
/**
* An optional net.Server instance.
*/
server?: net.Server;
/**
* An optional Buffer instance containing a TLS session.
*/
session?: Buffer;
/**
* If true, specifies that the OCSP status request extension will be
* added to the client hello and an 'OCSPResponse' event will be
* emitted on the socket before establishing a secure communication
*/
requestOCSP?: boolean;
}
class TLSSocket extends net.Socket {
/**
* Construct a new tls.TLSSocket object from an existing TCP socket.
*/
constructor(socket: net.Socket, options?: TLSSocketOptions);
/**
* A boolean that is true if the peer certificate was signed by one of the specified CAs, otherwise false.
*/
authorized: boolean;
/**
* The reason why the peer's certificate has not been verified.
* This property becomes available only when tlsSocket.authorized === false.
*/
authorizationError: Error;
/**
* Static boolean value, always true.
* May be used to distinguish TLS sockets from regular ones.
*/
encrypted: boolean;
/**
* String containing the selected ALPN protocol.
* When ALPN has no selected protocol, tlsSocket.alpnProtocol equals false.
*/
alpnProtocol?: string;
/**
* Returns an object representing the local certificate. The returned
* object has some properties corresponding to the fields of the
* certificate.
*
* See tls.TLSSocket.getPeerCertificate() for an example of the
* certificate structure.
*
* If there is no local certificate, an empty object will be returned.
* If the socket has been destroyed, null will be returned.
*/
getCertificate(): PeerCertificate | object | null;
/**
* Returns an object representing the cipher name and the SSL/TLS protocol version of the current connection.
* @returns Returns an object representing the cipher name
* and the SSL/TLS protocol version of the current connection.
*/
getCipher(): CipherNameAndProtocol;
/**
* Returns an object representing the type, name, and size of parameter
* of an ephemeral key exchange in Perfect Forward Secrecy on a client
* connection. It returns an empty object when the key exchange is not
* ephemeral. As this is only supported on a client socket; null is
* returned if called on a server socket. The supported types are 'DH'
* and 'ECDH'. The name property is available only when type is 'ECDH'.
*
* For example: { type: 'ECDH', name: 'prime256v1', size: 256 }.
*/
getEphemeralKeyInfo(): EphemeralKeyInfo | object | null;
/**
* Returns the latest Finished message that has
* been sent to the socket as part of a SSL/TLS handshake, or undefined
* if no Finished message has been sent yet.
*
* As the Finished messages are message digests of the complete
* handshake (with a total of 192 bits for TLS 1.0 and more for SSL
* 3.0), they can be used for external authentication procedures when
* the authentication provided by SSL/TLS is not desired or is not
* enough.
*
* Corresponds to the SSL_get_finished routine in OpenSSL and may be
* used to implement the tls-unique channel binding from RFC 5929.
*/
getFinished(): Buffer | undefined;
/**
* Returns an object representing the peer's certificate.
* The returned object has some properties corresponding to the field of the certificate.
* If detailed argument is true the full chain with issuer property will be returned,
* if false only the top certificate without issuer property.
* If the peer does not provide a certificate, it returns null or an empty object.
* @param detailed - If true; the full chain with issuer property will be returned.
* @returns An object representing the peer's certificate.
*/
getPeerCertificate(detailed: true): DetailedPeerCertificate;
getPeerCertificate(detailed?: false): PeerCertificate;
getPeerCertificate(detailed?: boolean): PeerCertificate | DetailedPeerCertificate;
/**
* Returns the latest Finished message that is expected or has actually
* been received from the socket as part of a SSL/TLS handshake, or
* undefined if there is no Finished message so far.
*
* As the Finished messages are message digests of the complete
* handshake (with a total of 192 bits for TLS 1.0 and more for SSL
* 3.0), they can be used for external authentication procedures when
* the authentication provided by SSL/TLS is not desired or is not
* enough.
*
* Corresponds to the SSL_get_peer_finished routine in OpenSSL and may
* be used to implement the tls-unique channel binding from RFC 5929.
*/
getPeerFinished(): Buffer | undefined;
/**
* Returns a string containing the negotiated SSL/TLS protocol version of the current connection.
* The value `'unknown'` will be returned for connected sockets that have not completed the handshaking process.
* The value `null` will be returned for server sockets or disconnected client sockets.
* See https://www.openssl.org/docs/man1.0.2/ssl/SSL_get_version.html for more information.
* @returns negotiated SSL/TLS protocol version of the current connection
*/
getProtocol(): string | null;
/**
* Could be used to speed up handshake establishment when reconnecting to the server.
* @returns ASN.1 encoded TLS session or undefined if none was negotiated.
*/
getSession(): Buffer | undefined;
/**
* Returns a list of signature algorithms shared between the server and
* the client in the order of decreasing preference.
*/
getSharedSigalgs(): string[];
/**
* NOTE: Works only with client TLS sockets.
* Useful only for debugging, for session reuse provide session option to tls.connect().
* @returns TLS session ticket or undefined if none was negotiated.
*/
getTLSTicket(): Buffer | undefined;
/**
* Returns true if the session was reused, false otherwise.
*/
isSessionReused(): boolean;
/**
* Initiate TLS renegotiation process.
*
* NOTE: Can be used to request peer's certificate after the secure connection has been established.
* ANOTHER NOTE: When running as the server, socket will be destroyed with an error after handshakeTimeout timeout.
* @param options - The options may contain the following fields: rejectUnauthorized,
* requestCert (See tls.createServer() for details).
* @param callback - callback(err) will be executed with null as err, once the renegotiation
* is successfully completed.
* @return `undefined` when socket is destroy, `false` if negotiaion can't be initiated.
*/
renegotiate(options: { rejectUnauthorized?: boolean, requestCert?: boolean }, callback: (err: Error | null) => void): undefined | boolean;
/**
* Set maximum TLS fragment size (default and maximum value is: 16384, minimum is: 512).
* Smaller fragment size decreases buffering latency on the client: large fragments are buffered by
* the TLS layer until the entire fragment is received and its integrity is verified;
* large fragments can span multiple roundtrips, and their processing can be delayed due to packet
* loss or reordering. However, smaller fragments add extra TLS framing bytes and CPU overhead,
* which may decrease overall server throughput.
* @param size - TLS fragment size (default and maximum value is: 16384, minimum is: 512).
* @returns Returns true on success, false otherwise.
*/
setMaxSendFragment(size: number): boolean;
/**
* Disables TLS renegotiation for this TLSSocket instance. Once called,
* attempts to renegotiate will trigger an 'error' event on the
* TLSSocket.
*/
disableRenegotiation(): void;
/**
* When enabled, TLS packet trace information is written to `stderr`. This can be
* used to debug TLS connection problems.
*
* Note: The format of the output is identical to the output of `openssl s_client
* -trace` or `openssl s_server -trace`. While it is produced by OpenSSL's
* `SSL_trace()` function, the format is undocumented, can change without notice,
* and should not be relied on.
*/
enableTrace(): void;
/**
* @param length number of bytes to retrieve from keying material
* @param label an application specific label, typically this will be a value from the
* [IANA Exporter Label Registry](https://www.iana.org/assignments/tls-parameters/tls-parameters.xhtml#exporter-labels).
* @param context optionally provide a context.
*/
exportKeyingMaterial(length: number, label: string, context: Buffer): Buffer;
addListener(event: string, listener: (...args: any[]) => void): this;
addListener(event: "OCSPResponse", listener: (response: Buffer) => void): this;
addListener(event: "secureConnect", listener: () => void): this;
addListener(event: "session", listener: (session: Buffer) => void): this;
addListener(event: "keylog", listener: (line: Buffer) => void): this;
emit(event: string | symbol, ...args: any[]): boolean;
emit(event: "OCSPResponse", response: Buffer): boolean;
emit(event: "secureConnect"): boolean;
emit(event: "session", session: Buffer): boolean;
emit(event: "keylog", line: Buffer): boolean;
on(event: string, listener: (...args: any[]) => void): this;
on(event: "OCSPResponse", listener: (response: Buffer) => void): this;
on(event: "secureConnect", listener: () => void): this;
on(event: "session", listener: (session: Buffer) => void): this;
on(event: "keylog", listener: (line: Buffer) => void): this;
once(event: string, listener: (...args: any[]) => void): this;
once(event: "OCSPResponse", listener: (response: Buffer) => void): this;
once(event: "secureConnect", listener: () => void): this;
once(event: "session", listener: (session: Buffer) => void): this;
once(event: "keylog", listener: (line: Buffer) => void): this;
prependListener(event: string, listener: (...args: any[]) => void): this;
prependListener(event: "OCSPResponse", listener: (response: Buffer) => void): this;
prependListener(event: "secureConnect", listener: () => void): this;
prependListener(event: "session", listener: (session: Buffer) => void): this;
prependListener(event: "keylog", listener: (line: Buffer) => void): this;
prependOnceListener(event: string, listener: (...args: any[]) => void): this;
prependOnceListener(event: "OCSPResponse", listener: (response: Buffer) => void): this;
prependOnceListener(event: "secureConnect", listener: () => void): this;
prependOnceListener(event: "session", listener: (session: Buffer) => void): this;
prependOnceListener(event: "keylog", listener: (line: Buffer) => void): this;
}
interface CommonConnectionOptions {
/**
* An optional TLS context object from tls.createSecureContext()
*/
secureContext?: SecureContext;
/**
* When enabled, TLS packet trace information is written to `stderr`. This can be
* used to debug TLS connection problems.
* @default false
*/
enableTrace?: boolean;
/**
* If true the server will request a certificate from clients that
* connect and attempt to verify that certificate. Defaults to
* false.
*/
requestCert?: boolean;
/**
* An array of strings or a Buffer naming possible ALPN protocols.
* (Protocols should be ordered by their priority.)
*/
ALPNProtocols?: string[] | Uint8Array[] | Uint8Array;
/**
* SNICallback(servername, cb) <Function> A function that will be
* called if the client supports SNI TLS extension. Two arguments
* will be passed when called: servername and cb. SNICallback should
* invoke cb(null, ctx), where ctx is a SecureContext instance.
* (tls.createSecureContext(...) can be used to get a proper
* SecureContext.) If SNICallback wasn't provided the default callback
* with high-level API will be used (see below).
*/
SNICallback?: (servername: string, cb: (err: Error | null, ctx: SecureContext) => void) => void;
/**
* If true the server will reject any connection which is not
* authorized with the list of supplied CAs. This option only has an
* effect if requestCert is true.
* @default true
*/
rejectUnauthorized?: boolean;
}
interface TlsOptions extends SecureContextOptions, CommonConnectionOptions {
/**
* Abort the connection if the SSL/TLS handshake does not finish in the
* specified number of milliseconds. A 'tlsClientError' is emitted on
* the tls.Server object whenever a handshake times out. Default:
* 120000 (120 seconds).
*/
handshakeTimeout?: number;
/**
* The number of seconds after which a TLS session created by the
* server will no longer be resumable. See Session Resumption for more
* information. Default: 300.
*/
sessionTimeout?: number;
/**
* 48-bytes of cryptographically strong pseudo-random data.
*/
ticketKeys?: Buffer;
/**
*
* @param socket
* @param identity identity parameter sent from the client.
* @return pre-shared key that must either be
* a buffer or `null` to stop the negotiation process. Returned PSK must be
* compatible with the selected cipher's digest.
*
* When negotiating TLS-PSK (pre-shared keys), this function is called
* with the identity provided by the client.
* If the return value is `null` the negotiation process will stop and an
* "unknown_psk_identity" alert message will be sent to the other party.
* If the server wishes to hide the fact that the PSK identity was not known,
* the callback must provide some random data as `psk` to make the connection
* fail with "decrypt_error" before negotiation is finished.
* PSK ciphers are disabled by default, and using TLS-PSK thus
* requires explicitly specifying a cipher suite with the `ciphers` option.
* More information can be found in the RFC 4279.
*/
pskCallback?(socket: TLSSocket, identity: string): DataView | NodeJS.TypedArray | null;
/**
* hint to send to a client to help
* with selecting the identity during TLS-PSK negotiation. Will be ignored
* in TLS 1.3. Upon failing to set pskIdentityHint `tlsClientError` will be
* emitted with `ERR_TLS_PSK_SET_IDENTIY_HINT_FAILED` code.
*/
pskIdentityHint?: string;
}
interface PSKCallbackNegotation {
psk: DataView | NodeJS.TypedArray;
identitty: string;
}
interface ConnectionOptions extends SecureContextOptions, CommonConnectionOptions {
host?: string;
port?: number;
path?: string; // Creates unix socket connection to path. If this option is specified, `host` and `port` are ignored.
socket?: net.Socket; // Establish secure connection on a given socket rather than creating a new socket
checkServerIdentity?: typeof checkServerIdentity;
servername?: string; // SNI TLS Extension
session?: Buffer;
minDHSize?: number;
lookup?: net.LookupFunction;
timeout?: number;
/**
* When negotiating TLS-PSK (pre-shared keys), this function is called
* with optional identity `hint` provided by the server or `null`
* in case of TLS 1.3 where `hint` was removed.
* It will be necessary to provide a custom `tls.checkServerIdentity()`
* for the connection as the default one will try to check hostname/IP
* of the server against the certificate but that's not applicable for PSK
* because there won't be a certificate present.
* More information can be found in the RFC 4279.
*
* @param hint message sent from the server to help client
* decide which identity to use during negotiation.
* Always `null` if TLS 1.3 is used.
* @returns Return `null` to stop the negotiation process. `psk` must be
* compatible with the selected cipher's digest.
* `identity` must use UTF-8 encoding.
*/
pskCallback?(hint: string | null): PSKCallbackNegotation | null;
}
class Server extends net.Server {
/**
* The server.addContext() method adds a secure context that will be
* used if the client request's SNI name matches the supplied hostname
* (or wildcard).
*/
addContext(hostName: string, credentials: SecureContextOptions): void;
/**
* Returns the session ticket keys.
*/
getTicketKeys(): Buffer;
/**
*
* The server.setSecureContext() method replaces the
* secure context of an existing server. Existing connections to the
* server are not interrupted.
*/
setSecureContext(details: SecureContextOptions): void;
/**
* The server.setSecureContext() method replaces the secure context of
* an existing server. Existing connections to the server are not
* interrupted.
*/
setTicketKeys(keys: Buffer): void;
/**
* events.EventEmitter
* 1. tlsClientError
* 2. newSession
* 3. OCSPRequest
* 4. resumeSession
* 5. secureConnection
* 6. keylog
*/
addListener(event: string, listener: (...args: any[]) => void): this;
addListener(event: "tlsClientError", listener: (err: Error, tlsSocket: TLSSocket) => void): this;
addListener(event: "newSession", listener: (sessionId: Buffer, sessionData: Buffer, callback: (err: Error, resp: Buffer) => void) => void): this;
addListener(event: "OCSPRequest", listener: (certificate: Buffer, issuer: Buffer, callback: (err: Error | null, resp: Buffer) => void) => void): this;
addListener(event: "resumeSession", listener: (sessionId: Buffer, callback: (err: Error, sessionData: Buffer) => void) => void): this;
addListener(event: "secureConnection", listener: (tlsSocket: TLSSocket) => void): this;
addListener(event: "keylog", listener: (line: Buffer, tlsSocket: TLSSocket) => void): this;
emit(event: string | symbol, ...args: any[]): boolean;
emit(event: "tlsClientError", err: Error, tlsSocket: TLSSocket): boolean;
emit(event: "newSession", sessionId: Buffer, sessionData: Buffer, callback: (err: Error, resp: Buffer) => void): boolean;
emit(event: "OCSPRequest", certificate: Buffer, issuer: Buffer, callback: (err: Error | null, resp: Buffer) => void): boolean;
emit(event: "resumeSession", sessionId: Buffer, callback: (err: Error, sessionData: Buffer) => void): boolean;
emit(event: "secureConnection", tlsSocket: TLSSocket): boolean;
emit(event: "keylog", line: Buffer, tlsSocket: TLSSocket): boolean;
on(event: string, listener: (...args: any[]) => void): this;
on(event: "tlsClientError", listener: (err: Error, tlsSocket: TLSSocket) => void): this;
on(event: "newSession", listener: (sessionId: Buffer, sessionData: Buffer, callback: (err: Error, resp: Buffer) => void) => void): this;
on(event: "OCSPRequest", listener: (certificate: Buffer, issuer: Buffer, callback: (err: Error | null, resp: Buffer) => void) => void): this;
on(event: "resumeSession", listener: (sessionId: Buffer, callback: (err: Error, sessionData: Buffer) => void) => void): this;
on(event: "secureConnection", listener: (tlsSocket: TLSSocket) => void): this;
on(event: "keylog", listener: (line: Buffer, tlsSocket: TLSSocket) => void): this;
once(event: string, listener: (...args: any[]) => void): this;
once(event: "tlsClientError", listener: (err: Error, tlsSocket: TLSSocket) => void): this;
once(event: "newSession", listener: (sessionId: Buffer, sessionData: Buffer, callback: (err: Error, resp: Buffer) => void) => void): this;
once(event: "OCSPRequest", listener: (certificate: Buffer, issuer: Buffer, callback: (err: Error | null, resp: Buffer) => void) => void): this;
once(event: "resumeSession", listener: (sessionId: Buffer, callback: (err: Error, sessionData: Buffer) => void) => void): this;
once(event: "secureConnection", listener: (tlsSocket: TLSSocket) => void): this;
once(event: "keylog", listener: (line: Buffer, tlsSocket: TLSSocket) => void): this;
prependListener(event: string, listener: (...args: any[]) => void): this;
prependListener(event: "tlsClientError", listener: (err: Error, tlsSocket: TLSSocket) => void): this;
prependListener(event: "newSession", listener: (sessionId: Buffer, sessionData: Buffer, callback: (err: Error, resp: Buffer) => void) => void): this;
prependListener(event: "OCSPRequest", listener: (certificate: Buffer, issuer: Buffer, callback: (err: Error | null, resp: Buffer) => void) => void): this;
prependListener(event: "resumeSession", listener: (sessionId: Buffer, callback: (err: Error, sessionData: Buffer) => void) => void): this;
prependListener(event: "secureConnection", listener: (tlsSocket: TLSSocket) => void): this;
prependListener(event: "keylog", listener: (line: Buffer, tlsSocket: TLSSocket) => void): this;
prependOnceListener(event: string, listener: (...args: any[]) => void): this;
prependOnceListener(event: "tlsClientError", listener: (err: Error, tlsSocket: TLSSocket) => void): this;
prependOnceListener(event: "newSession", listener: (sessionId: Buffer, sessionData: Buffer, callback: (err: Error, resp: Buffer) => void) => void): this;
prependOnceListener(event: "OCSPRequest", listener: (certificate: Buffer, issuer: Buffer, callback: (err: Error | null, resp: Buffer) => void) => void): this;
prependOnceListener(event: "resumeSession", listener: (sessionId: Buffer, callback: (err: Error, sessionData: Buffer) => void) => void): this;
prependOnceListener(event: "secureConnection", listener: (tlsSocket: TLSSocket) => void): this;
prependOnceListener(event: "keylog", listener: (line: Buffer, tlsSocket: TLSSocket) => void): this;
}
interface SecurePair {
encrypted: TLSSocket;
cleartext: TLSSocket;
}
type SecureVersion = 'TLSv1.3' | 'TLSv1.2' | 'TLSv1.1' | 'TLSv1';
interface SecureContextOptions {
/**
* Optionally override the trusted CA certificates. Default is to trust
* the well-known CAs curated by Mozilla. Mozilla's CAs are completely
* replaced when CAs are explicitly specified using this option.
*/
ca?: string | Buffer | Array<string | Buffer>;
/**
* Cert chains in PEM format. One cert chain should be provided per
* private key. Each cert chain should consist of the PEM formatted
* certificate for a provided private key, followed by the PEM
* formatted intermediate certificates (if any), in order, and not
* including the root CA (the root CA must be pre-known to the peer,
* see ca). When providing multiple cert chains, they do not have to
* be in the same order as their private keys in key. If the
* intermediate certificates are not provided, the peer will not be
* able to validate the certificate, and the handshake will fail.
*/
cert?: string | Buffer | Array<string | Buffer>;
/**
* Colon-separated list of supported signature algorithms. The list
* can contain digest algorithms (SHA256, MD5 etc.), public key
* algorithms (RSA-PSS, ECDSA etc.), combination of both (e.g
* 'RSA+SHA384') or TLS v1.3 scheme names (e.g. rsa_pss_pss_sha512).
*/
sigalgs?: string;
/**
* Cipher suite specification, replacing the default. For more
* information, see modifying the default cipher suite. Permitted
* ciphers can be obtained via tls.getCiphers(). Cipher names must be
* uppercased in order for OpenSSL to accept them.
*/
ciphers?: string;
/**
* Name of an OpenSSL engine which can provide the client certificate.
*/
clientCertEngine?: string;
/**
* PEM formatted CRLs (Certificate Revocation Lists).
*/
crl?: string | Buffer | Array<string | Buffer>;
/**
* Diffie Hellman parameters, required for Perfect Forward Secrecy. Use
* openssl dhparam to create the parameters. The key length must be
* greater than or equal to 1024 bits or else an error will be thrown.
* Although 1024 bits is permissible, use 2048 bits or larger for
* stronger security. If omitted or invalid, the parameters are
* silently discarded and DHE ciphers will not be available.
*/
dhparam?: string | Buffer;
/**
* A string describing a named curve or a colon separated list of curve
* NIDs or names, for example P-521:P-384:P-256, to use for ECDH key
* agreement. Set to auto to select the curve automatically. Use
* crypto.getCurves() to obtain a list of available curve names. On
* recent releases, openssl ecparam -list_curves will also display the
* name and description of each available elliptic curve. Default:
* tls.DEFAULT_ECDH_CURVE.
*/
ecdhCurve?: string;
/**
* Attempt to use the server's cipher suite preferences instead of the
* client's. When true, causes SSL_OP_CIPHER_SERVER_PREFERENCE to be
* set in secureOptions
*/
honorCipherOrder?: boolean;
/**
* Private keys in PEM format. PEM allows the option of private keys
* being encrypted. Encrypted keys will be decrypted with
* options.passphrase. Multiple keys using different algorithms can be
* provided either as an array of unencrypted key strings or buffers,
* or an array of objects in the form {pem: <string|buffer>[,
* passphrase: <string>]}. The object form can only occur in an array.
* object.passphrase is optional. Encrypted keys will be decrypted with
* object.passphrase if provided, or options.passphrase if it is not.
*/
key?: string | Buffer | Array<Buffer | KeyObject>;
/**
* Name of an OpenSSL engine to get private key from. Should be used
* together with privateKeyIdentifier.
*/
privateKeyEngine?: string;
/**
* Identifier of a private key managed by an OpenSSL engine. Should be
* used together with privateKeyEngine. Should not be set together with
* key, because both options define a private key in different ways.
*/
privateKeyIdentifier?: string;
/**
* Optionally set the maximum TLS version to allow. One
* of `'TLSv1.3'`, `'TLSv1.2'`, `'TLSv1.1'`, or `'TLSv1'`. Cannot be specified along with the
* `secureProtocol` option, use one or the other.
* **Default:** `'TLSv1.3'`, unless changed using CLI options. Using
* `--tls-max-v1.2` sets the default to `'TLSv1.2'`. Using `--tls-max-v1.3` sets the default to
* `'TLSv1.3'`. If multiple of the options are provided, the highest maximum is used.
*/
maxVersion?: SecureVersion;
/**
* Optionally set the minimum TLS version to allow. One
* of `'TLSv1.3'`, `'TLSv1.2'`, `'TLSv1.1'`, or `'TLSv1'`. Cannot be specified along with the
* `secureProtocol` option, use one or the other. It is not recommended to use
* less than TLSv1.2, but it may be required for interoperability.
* **Default:** `'TLSv1.2'`, unless changed using CLI options. Using
* `--tls-v1.0` sets the default to `'TLSv1'`. Using `--tls-v1.1` sets the default to
* `'TLSv1.1'`. Using `--tls-min-v1.3` sets the default to
* 'TLSv1.3'. If multiple of the options are provided, the lowest minimum is used.
*/
minVersion?: SecureVersion;
/**
* Shared passphrase used for a single private key and/or a PFX.
*/
passphrase?: string;
/**
* PFX or PKCS12 encoded private key and certificate chain. pfx is an
* alternative to providing key and cert individually. PFX is usually
* encrypted, if it is, passphrase will be used to decrypt it. Multiple
* PFX can be provided either as an array of unencrypted PFX buffers,
* or an array of objects in the form {buf: <string|buffer>[,
* passphrase: <string>]}. The object form can only occur in an array.
* object.passphrase is optional. Encrypted PFX will be decrypted with
* object.passphrase if provided, or options.passphrase if it is not.
*/
pfx?: string | Buffer | Array<string | Buffer | PxfObject>;
/**
* Optionally affect the OpenSSL protocol behavior, which is not
* usually necessary. This should be used carefully if at all! Value is
* a numeric bitmask of the SSL_OP_* options from OpenSSL Options
*/
secureOptions?: number; // Value is a numeric bitmask of the `SSL_OP_*` options
/**
* Legacy mechanism to select the TLS protocol version to use, it does
* not support independent control of the minimum and maximum version,
* and does not support limiting the protocol to TLSv1.3. Use
* minVersion and maxVersion instead. The possible values are listed as
* SSL_METHODS, use the function names as strings. For example, use
* 'TLSv1_1_method' to force TLS version 1.1, or 'TLS_method' to allow
* any TLS protocol version up to TLSv1.3. It is not recommended to use
* TLS versions less than 1.2, but it may be required for
* interoperability. Default: none, see minVersion.
*/
secureProtocol?: string;
/**
* Opaque identifier used by servers to ensure session state is not
* shared between applications. Unused by clients.
*/
sessionIdContext?: string;
/**
* 48 bytes of cryptographically strong pseudo-random data.
*/
ticketKeys?: Buffer;
/**
* The number of seconds after which a TLS session created by the server
* will no longer be resumable.
*/
sessionTimeout?: number;
}
interface SecureContext {
context: any;
}
/*
* Verifies the certificate `cert` is issued to host `host`.
* @host The hostname to verify the certificate against
* @cert PeerCertificate representing the peer's certificate
*
* Returns Error object, populating it with the reason, host and cert on failure. On success, returns undefined.
*/
function checkServerIdentity(host: string, cert: PeerCertificate): Error | undefined;
function createServer(secureConnectionListener?: (socket: TLSSocket) => void): Server;
function createServer(options: TlsOptions, secureConnectionListener?: (socket: TLSSocket) => void): Server;
function connect(options: ConnectionOptions, secureConnectListener?: () => void): TLSSocket;
function connect(port: number, host?: string, options?: ConnectionOptions, secureConnectListener?: () => void): TLSSocket;
function connect(port: number, options?: ConnectionOptions, secureConnectListener?: () => void): TLSSocket;
/**
* @deprecated since v0.11.3 Use `tls.TLSSocket` instead.
*/
function createSecurePair(credentials?: SecureContext, isServer?: boolean, requestCert?: boolean, rejectUnauthorized?: boolean): SecurePair;
function createSecureContext(details: SecureContextOptions): SecureContext;
function getCiphers(): string[];
/**
* The default curve name to use for ECDH key agreement in a tls server.
* The default value is 'auto'. See tls.createSecureContext() for further
* information.
*/
let DEFAULT_ECDH_CURVE: string;
/**
* The default value of the maxVersion option of
* tls.createSecureContext(). It can be assigned any of the supported TLS
* protocol versions, 'TLSv1.3', 'TLSv1.2', 'TLSv1.1', or 'TLSv1'. Default:
* 'TLSv1.3', unless changed using CLI options. Using --tls-max-v1.2 sets
* the default to 'TLSv1.2'. Using --tls-max-v1.3 sets the default to
* 'TLSv1.3'. If multiple of the options are provided, the highest maximum
* is used.
*/
let DEFAULT_MAX_VERSION: SecureVersion;
/**
* The default value of the minVersion option of tls.createSecureContext().
* It can be assigned any of the supported TLS protocol versions,
* 'TLSv1.3', 'TLSv1.2', 'TLSv1.1', or 'TLSv1'. Default: 'TLSv1.2', unless
* changed using CLI options. Using --tls-min-v1.0 sets the default to
* 'TLSv1'. Using --tls-min-v1.1 sets the default to 'TLSv1.1'. Using
* --tls-min-v1.3 sets the default to 'TLSv1.3'. If multiple of the options
* are provided, the lowest minimum is used.
*/
let DEFAULT_MIN_VERSION: SecureVersion;
/**
* An immutable array of strings representing the root certificates (in PEM
* format) used for verifying peer certificates. This is the default value
* of the ca option to tls.createSecureContext().
*/
const rootCertificates: ReadonlyArray<string>;
}