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chromium / chromium / src / 1675c51b1d83160a8b7061f38bb722b2c43937b4 / . / third_party / blink / web_tests / external / wpt / interfaces / WebCryptoAPI.idl
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// GENERATED CONTENT - DO NOT EDIT
// Content was automatically extracted by Reffy into reffy-reports
// (https://github.com/tidoust/reffy-reports)
// Source: Web Cryptography API (https://w3c.github.io/webcrypto/Overview.html)
partial interface mixin WindowOrWorkerGlobalScope {
readonly attribute Crypto crypto;
};
[Exposed=(Window,Worker)]
interface Crypto {
[SecureContext] readonly attribute SubtleCrypto subtle;
ArrayBufferView getRandomValues(ArrayBufferView array);
};
typedef (object or DOMString) AlgorithmIdentifier;
typedef AlgorithmIdentifier HashAlgorithmIdentifier;
dictionary Algorithm {
required DOMString name;
};
dictionary KeyAlgorithm {
required DOMString name;
};
enum KeyType { "public", "private", "secret" };
enum KeyUsage { "encrypt", "decrypt", "sign", "verify", "deriveKey", "deriveBits", "wrapKey", "unwrapKey" };
[SecureContext,Exposed=(Window,Worker)]
interface CryptoKey {
readonly attribute KeyType type;
readonly attribute boolean extractable;
readonly attribute object algorithm;
readonly attribute object usages;
};
enum KeyFormat { "raw", "spki", "pkcs8", "jwk" };
[SecureContext,Exposed=(Window,Worker)]
interface SubtleCrypto {
Promise<any> encrypt(AlgorithmIdentifier algorithm,
CryptoKey key,
BufferSource data);
Promise<any> decrypt(AlgorithmIdentifier algorithm,
CryptoKey key,
BufferSource data);
Promise<any> sign(AlgorithmIdentifier algorithm,
CryptoKey key,
BufferSource data);
Promise<any> verify(AlgorithmIdentifier algorithm,
CryptoKey key,
BufferSource signature,
BufferSource data);
Promise<any> digest(AlgorithmIdentifier algorithm,
BufferSource data);
Promise<any> generateKey(AlgorithmIdentifier algorithm,
boolean extractable,
sequence<KeyUsage> keyUsages );
Promise<any> deriveKey(AlgorithmIdentifier algorithm,
CryptoKey baseKey,
AlgorithmIdentifier derivedKeyType,
boolean extractable,
sequence<KeyUsage> keyUsages );
Promise<ArrayBuffer> deriveBits(AlgorithmIdentifier algorithm,
CryptoKey baseKey,
unsigned long length);
Promise<CryptoKey> importKey(KeyFormat format,
(BufferSource or JsonWebKey) keyData,
AlgorithmIdentifier algorithm,
boolean extractable,
sequence<KeyUsage> keyUsages );
Promise<any> exportKey(KeyFormat format, CryptoKey key);
Promise<any> wrapKey(KeyFormat format,
CryptoKey key,
CryptoKey wrappingKey,
AlgorithmIdentifier wrapAlgorithm);
Promise<CryptoKey> unwrapKey(KeyFormat format,
BufferSource wrappedKey,
CryptoKey unwrappingKey,
AlgorithmIdentifier unwrapAlgorithm,
AlgorithmIdentifier unwrappedKeyAlgorithm,
boolean extractable,
sequence<KeyUsage> keyUsages );
};
dictionary RsaOtherPrimesInfo {
// The following fields are defined in Section 6.3.2.7 of JSON Web Algorithms
DOMString r;
DOMString d;
DOMString t;
};
dictionary JsonWebKey {
// The following fields are defined in Section 3.1 of JSON Web Key
DOMString kty;
DOMString use;
sequence<DOMString> key_ops;
DOMString alg;
// The following fields are defined in JSON Web Key Parameters Registration
boolean ext;
// The following fields are defined in Section 6 of JSON Web Algorithms
DOMString crv;
DOMString x;
DOMString y;
DOMString d;
DOMString n;
DOMString e;
DOMString p;
DOMString q;
DOMString dp;
DOMString dq;
DOMString qi;
sequence<RsaOtherPrimesInfo> oth;
DOMString k;
};
typedef Uint8Array BigInteger;
dictionary CryptoKeyPair {
CryptoKey publicKey;
CryptoKey privateKey;
};
dictionary RsaKeyGenParams : Algorithm {
// The length, in bits, of the RSA modulus
required [EnforceRange] unsigned long modulusLength;
// The RSA public exponent
required BigInteger publicExponent;
};
dictionary RsaHashedKeyGenParams : RsaKeyGenParams {
// The hash algorithm to use
required HashAlgorithmIdentifier hash;
};
dictionary RsaKeyAlgorithm : KeyAlgorithm {
// The length, in bits, of the RSA modulus
required unsigned long modulusLength;
// The RSA public exponent
required BigInteger publicExponent;
};
dictionary RsaHashedKeyAlgorithm : RsaKeyAlgorithm {
// The hash algorithm that is used with this key
required KeyAlgorithm hash;
};
dictionary RsaHashedImportParams : Algorithm {
// The hash algorithm to use
required HashAlgorithmIdentifier hash;
};
dictionary RsaPssParams : Algorithm {
// The desired length of the random salt
[EnforceRange] required unsigned long saltLength;
};
dictionary RsaOaepParams : Algorithm {
// The optional label/application data to associate with the message
BufferSource label;
};
dictionary EcdsaParams : Algorithm {
// The hash algorithm to use
required HashAlgorithmIdentifier hash;
};
typedef DOMString NamedCurve;
dictionary EcKeyGenParams : Algorithm {
// A named curve
required NamedCurve namedCurve;
};
dictionary EcKeyAlgorithm : KeyAlgorithm {
// The named curve that the key uses
required NamedCurve namedCurve;
};
dictionary EcKeyImportParams : Algorithm {
// A named curve
required NamedCurve namedCurve;
};
dictionary EcdhKeyDeriveParams : Algorithm {
// The peer's EC public key.
required CryptoKey public;
};
dictionary AesCtrParams : Algorithm {
// The initial value of the counter block. counter MUST be 16 bytes
// (the AES block size). The counter bits are the rightmost length
// bits of the counter block. The rest of the counter block is for
// the nonce. The counter bits are incremented using the standard
// incrementing function specified in NIST SP 800-38A Appendix B.1:
// the counter bits are interpreted as a big-endian integer and
// incremented by one.
required BufferSource counter;
// The length, in bits, of the rightmost part of the counter block
// that is incremented.
[EnforceRange] required octet length;
};
dictionary AesKeyAlgorithm : KeyAlgorithm {
// The length, in bits, of the key.
required unsigned short length;
};
dictionary AesKeyGenParams : Algorithm {
// The length, in bits, of the key.
[EnforceRange] required unsigned short length;
};
dictionary AesDerivedKeyParams : Algorithm {
// The length, in bits, of the key.
[EnforceRange] required unsigned short length;
};
dictionary AesCbcParams : Algorithm {
// The initialization vector. MUST be 16 bytes.
required BufferSource iv;
};
dictionary AesGcmParams : Algorithm {
// The initialization vector to use. May be up to 2^64-1 bytes long.
required BufferSource iv;
// The additional authentication data to include.
BufferSource additionalData;
// The desired length of the authentication tag. May be 0 - 128.
[EnforceRange] octet tagLength;
};
dictionary HmacImportParams : Algorithm {
// The inner hash function to use.
required HashAlgorithmIdentifier hash;
// The length (in bits) of the key.
[EnforceRange] unsigned long length;
};
dictionary HmacKeyAlgorithm : KeyAlgorithm {
// The inner hash function to use.
required KeyAlgorithm hash;
// The length (in bits) of the key.
required unsigned long length;
};
dictionary HmacKeyGenParams : Algorithm {
// The inner hash function to use.
required HashAlgorithmIdentifier hash;
// The length (in bits) of the key to generate. If unspecified, the
// recommended length will be used, which is the size of the associated hash function's block
// size.
[EnforceRange] unsigned long length;
};
dictionary HkdfParams : Algorithm {
// The algorithm to use with HMAC (e.g.: SHA-256)
required HashAlgorithmIdentifier hash;
// A bit string that corresponds to the salt used in the extract step.
required BufferSource salt;
// A bit string that corresponds to the context and application specific context for the derived keying material.
required BufferSource info;
};
dictionary Pbkdf2Params : Algorithm {
required BufferSource salt;
[EnforceRange] required unsigned long iterations;
required HashAlgorithmIdentifier hash;
};