122 lines
4.0 KiB
TypeScript
122 lines
4.0 KiB
TypeScript
/**
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* Add details about signing here.
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*
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* @_subsection: api/crypto:Signing [about-signing]
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*/
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import { Signature } from "./signature.js";
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import type { BytesLike } from "../utils/index.js";
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import type { SignatureLike } from "./index.js";
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/**
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* A **SigningKey** provides high-level access to the elliptic curve
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* cryptography (ECC) operations and key management.
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*/
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export declare class SigningKey {
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#private;
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/**
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* Creates a new **SigningKey** for %%privateKey%%.
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*/
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constructor(privateKey: BytesLike);
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/**
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* The private key.
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*/
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get privateKey(): string;
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/**
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* The uncompressed public key.
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*
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* This will always begin with the prefix ``0x04`` and be 132
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* characters long (the ``0x`` prefix and 130 hexadecimal nibbles).
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*/
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get publicKey(): string;
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/**
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* The compressed public key.
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*
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* This will always begin with either the prefix ``0x02`` or ``0x03``
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* and be 68 characters long (the ``0x`` prefix and 33 hexadecimal
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* nibbles)
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*/
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get compressedPublicKey(): string;
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/**
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* Return the signature of the signed %%digest%%.
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*/
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sign(digest: BytesLike): Signature;
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/**
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* Returns the [[link-wiki-ecdh]] shared secret between this
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* private key and the %%other%% key.
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*
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* The %%other%% key may be any type of key, a raw public key,
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* a compressed/uncompressed pubic key or aprivate key.
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*
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* Best practice is usually to use a cryptographic hash on the
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* returned value before using it as a symetric secret.
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*
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* @example:
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* sign1 = new SigningKey(id("some-secret-1"))
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* sign2 = new SigningKey(id("some-secret-2"))
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*
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* // Notice that privA.computeSharedSecret(pubB)...
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* sign1.computeSharedSecret(sign2.publicKey)
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* //_result:
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*
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* // ...is equal to privB.computeSharedSecret(pubA).
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* sign2.computeSharedSecret(sign1.publicKey)
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* //_result:
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*/
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computeSharedSecret(other: BytesLike): string;
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/**
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* Compute the public key for %%key%%, optionally %%compressed%%.
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*
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* The %%key%% may be any type of key, a raw public key, a
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* compressed/uncompressed public key or private key.
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*
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* @example:
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* sign = new SigningKey(id("some-secret"));
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*
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* // Compute the uncompressed public key for a private key
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* SigningKey.computePublicKey(sign.privateKey)
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* //_result:
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*
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* // Compute the compressed public key for a private key
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* SigningKey.computePublicKey(sign.privateKey, true)
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* //_result:
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*
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* // Compute the uncompressed public key
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* SigningKey.computePublicKey(sign.publicKey, false);
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* //_result:
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*
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* // Compute the Compressed a public key
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* SigningKey.computePublicKey(sign.publicKey, true);
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* //_result:
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*/
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static computePublicKey(key: BytesLike, compressed?: boolean): string;
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/**
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* Returns the public key for the private key which produced the
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* %%signature%% for the given %%digest%%.
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*
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* @example:
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* key = new SigningKey(id("some-secret"))
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* digest = id("hello world")
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* sig = key.sign(digest)
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*
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* // Notice the signer public key...
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* key.publicKey
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* //_result:
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*
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* // ...is equal to the recovered public key
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* SigningKey.recoverPublicKey(digest, sig)
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* //_result:
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*
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*/
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static recoverPublicKey(digest: BytesLike, signature: SignatureLike): string;
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/**
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* Returns the point resulting from adding the ellipic curve points
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* %%p0%% and %%p1%%.
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*
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* This is not a common function most developers should require, but
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* can be useful for certain privacy-specific techniques.
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*
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* For example, it is used by [[HDNodeWallet]] to compute child
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* addresses from parent public keys and chain codes.
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*/
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static addPoints(p0: BytesLike, p1: BytesLike, compressed?: boolean): string;
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}
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//# sourceMappingURL=signing-key.d.ts.map
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