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// Copyright 2011 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Package crypto collects common cryptographic constants. package crypto import ( "hash" "io" "strconv" ) // Hash identifies a cryptographic hash function that is implemented in another // package. type Hash uint // HashFunc simply returns the value of h so that [Hash] implements [SignerOpts]. func (h Hash) HashFunc() Hash { return h } func (h Hash) String() string { switch h { case MD4: return "MD4" case MD5: return "MD5" case SHA1: return "SHA-1" case SHA224: return "SHA-224" case SHA256: return "SHA-256" case SHA384: return "SHA-384" case SHA512: return "SHA-512" case MD5SHA1: return "MD5+SHA1" case RIPEMD160: return "RIPEMD-160" case SHA3_224: return "SHA3-224" case SHA3_256: return "SHA3-256" case SHA3_384: return "SHA3-384" case SHA3_512: return "SHA3-512" case SHA512_224: return "SHA-512/224" case SHA512_256: return "SHA-512/256" case BLAKE2s_256: return "BLAKE2s-256" case BLAKE2b_256: return "BLAKE2b-256" case BLAKE2b_384: return "BLAKE2b-384" case BLAKE2b_512: return "BLAKE2b-512" default: return "unknown hash value " + strconv.Itoa(int(h)) } } const ( MD4 Hash = 1 + iota // import golang.org/x/crypto/md4 MD5 // import crypto/md5 SHA1 // import crypto/sha1 SHA224 // import crypto/sha256 SHA256 // import crypto/sha256 SHA384 // import crypto/sha512 SHA512 // import crypto/sha512 MD5SHA1 // no implementation; MD5+SHA1 used for TLS RSA RIPEMD160 // import golang.org/x/crypto/ripemd160 SHA3_224 // import golang.org/x/crypto/sha3 SHA3_256 // import golang.org/x/crypto/sha3 SHA3_384 // import golang.org/x/crypto/sha3 SHA3_512 // import golang.org/x/crypto/sha3 SHA512_224 // import crypto/sha512 SHA512_256 // import crypto/sha512 BLAKE2s_256 // import golang.org/x/crypto/blake2s BLAKE2b_256 // import golang.org/x/crypto/blake2b BLAKE2b_384 // import golang.org/x/crypto/blake2b BLAKE2b_512 // import golang.org/x/crypto/blake2b maxHash ) var digestSizes = []uint8{ MD4: 16, MD5: 16, SHA1: 20, SHA224: 28, SHA256: 32, SHA384: 48, SHA512: 64, SHA512_224: 28, SHA512_256: 32, SHA3_224: 28, SHA3_256: 32, SHA3_384: 48, SHA3_512: 64, MD5SHA1: 36, RIPEMD160: 20, BLAKE2s_256: 32, BLAKE2b_256: 32, BLAKE2b_384: 48, BLAKE2b_512: 64, } // Size returns the length, in bytes, of a digest resulting from the given hash // function. It doesn't require that the hash function in question be linked // into the program. func (h Hash) Size() int { if h > 0 && h < maxHash { return int(digestSizes[h]) } panic("crypto: Size of unknown hash function") } var hashes = make([]func() hash.Hash, maxHash) // New returns a new hash.Hash calculating the given hash function. New panics // if the hash function is not linked into the binary. func (h Hash) New() hash.Hash { if h > 0 && h < maxHash { f := hashes[h] if f != nil { return f() } } panic("crypto: requested hash function #" + strconv.Itoa(int(h)) + " is unavailable") } // Available reports whether the given hash function is linked into the binary. func (h Hash) Available() bool { return h < maxHash && hashes[h] != nil } // RegisterHash registers a function that returns a new instance of the given // hash function. This is intended to be called from the init function in // packages that implement hash functions. func RegisterHash(h Hash, f func() hash.Hash) { if h >= maxHash { panic("crypto: RegisterHash of unknown hash function") } hashes[h] = f } // PublicKey represents a public key using an unspecified algorithm. // // Although this type is an empty interface for backwards compatibility reasons, // all public key types in the standard library implement the following interface // // interface{ // Equal(x crypto.PublicKey) bool // } // // which can be used for increased type safety within applications. type PublicKey any // PrivateKey represents a private key using an unspecified algorithm. // // Although this type is an empty interface for backwards compatibility reasons, // all private key types in the standard library implement the following interface // // interface{ // Public() crypto.PublicKey // Equal(x crypto.PrivateKey) bool // } // // as well as purpose-specific interfaces such as [Signer] and [Decrypter], which // can be used for increased type safety within applications. type PrivateKey any // Signer is an interface for an opaque private key that can be used for // signing operations. For example, an RSA key kept in a hardware module. type Signer interface { // Public returns the public key corresponding to the opaque, // private key. Public() PublicKey // Sign signs digest with the private key, possibly using entropy from // rand. For an RSA key, the resulting signature should be either a // PKCS #1 v1.5 or PSS signature (as indicated by opts). For an (EC)DSA // key, it should be a DER-serialised, ASN.1 signature structure. // // Hash implements the SignerOpts interface and, in most cases, one can // simply pass in the hash function used as opts. Sign may also attempt // to type assert opts to other types in order to obtain algorithm // specific values. See the documentation in each package for details. // // Note that when a signature of a hash of a larger message is needed, // the caller is responsible for hashing the larger message and passing // the hash (as digest) and the hash function (as opts) to Sign. Sign(rand io.Reader, digest []byte, opts SignerOpts) (signature []byte, err error) } // SignerOpts contains options for signing with a [Signer]. type SignerOpts interface { // HashFunc returns an identifier for the hash function used to produce // the message passed to Signer.Sign, or else zero to indicate that no // hashing was done. HashFunc() Hash } // Decrypter is an interface for an opaque private key that can be used for // asymmetric decryption operations. An example would be an RSA key // kept in a hardware module. type Decrypter interface { // Public returns the public key corresponding to the opaque, // private key. Public() PublicKey // Decrypt decrypts msg. The opts argument should be appropriate for // the primitive used. See the documentation in each implementation for // details. Decrypt(rand io.Reader, msg []byte, opts DecrypterOpts) (plaintext []byte, err error) } type DecrypterOpts any