bc998d034f
Reviewed-on: https://go-review.googlesource.com/63753 From-SVN: r252767
159 lines
5.3 KiB
Go
159 lines
5.3 KiB
Go
// Copyright 2011 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Package crypto collects common cryptographic constants.
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package crypto
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import (
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"hash"
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"io"
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"strconv"
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)
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// Hash identifies a cryptographic hash function that is implemented in another
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// package.
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type Hash uint
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// HashFunc simply returns the value of h so that Hash implements SignerOpts.
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func (h Hash) HashFunc() Hash {
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return h
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}
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const (
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MD4 Hash = 1 + iota // import golang.org/x/crypto/md4
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MD5 // import crypto/md5
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SHA1 // import crypto/sha1
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SHA224 // import crypto/sha256
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SHA256 // import crypto/sha256
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SHA384 // import crypto/sha512
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SHA512 // import crypto/sha512
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MD5SHA1 // no implementation; MD5+SHA1 used for TLS RSA
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RIPEMD160 // import golang.org/x/crypto/ripemd160
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SHA3_224 // import golang.org/x/crypto/sha3
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SHA3_256 // import golang.org/x/crypto/sha3
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SHA3_384 // import golang.org/x/crypto/sha3
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SHA3_512 // import golang.org/x/crypto/sha3
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SHA512_224 // import crypto/sha512
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SHA512_256 // import crypto/sha512
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BLAKE2s_256 // import golang.org/x/crypto/blake2s
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BLAKE2b_256 // import golang.org/x/crypto/blake2b
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BLAKE2b_384 // import golang.org/x/crypto/blake2b
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BLAKE2b_512 // import golang.org/x/crypto/blake2b
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maxHash
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)
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var digestSizes = []uint8{
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MD4: 16,
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MD5: 16,
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SHA1: 20,
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SHA224: 28,
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SHA256: 32,
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SHA384: 48,
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SHA512: 64,
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SHA512_224: 28,
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SHA512_256: 32,
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SHA3_224: 28,
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SHA3_256: 32,
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SHA3_384: 48,
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SHA3_512: 64,
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MD5SHA1: 36,
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RIPEMD160: 20,
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BLAKE2s_256: 32,
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BLAKE2b_256: 32,
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BLAKE2b_384: 48,
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BLAKE2b_512: 64,
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}
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// Size returns the length, in bytes, of a digest resulting from the given hash
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// function. It doesn't require that the hash function in question be linked
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// into the program.
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func (h Hash) Size() int {
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if h > 0 && h < maxHash {
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return int(digestSizes[h])
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}
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panic("crypto: Size of unknown hash function")
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}
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var hashes = make([]func() hash.Hash, maxHash)
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// New returns a new hash.Hash calculating the given hash function. New panics
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// if the hash function is not linked into the binary.
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func (h Hash) New() hash.Hash {
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if h > 0 && h < maxHash {
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f := hashes[h]
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if f != nil {
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return f()
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}
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}
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panic("crypto: requested hash function #" + strconv.Itoa(int(h)) + " is unavailable")
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}
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// Available reports whether the given hash function is linked into the binary.
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func (h Hash) Available() bool {
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return h < maxHash && hashes[h] != nil
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}
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// RegisterHash registers a function that returns a new instance of the given
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// hash function. This is intended to be called from the init function in
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// packages that implement hash functions.
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func RegisterHash(h Hash, f func() hash.Hash) {
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if h >= maxHash {
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panic("crypto: RegisterHash of unknown hash function")
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}
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hashes[h] = f
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}
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// PublicKey represents a public key using an unspecified algorithm.
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type PublicKey interface{}
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// PrivateKey represents a private key using an unspecified algorithm.
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type PrivateKey interface{}
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// Signer is an interface for an opaque private key that can be used for
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// signing operations. For example, an RSA key kept in a hardware module.
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type Signer interface {
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// Public returns the public key corresponding to the opaque,
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// private key.
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Public() PublicKey
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// Sign signs digest with the private key, possibly using entropy from
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// rand. For an RSA key, the resulting signature should be either a
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// PKCS#1 v1.5 or PSS signature (as indicated by opts). For an (EC)DSA
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// key, it should be a DER-serialised, ASN.1 signature structure.
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//
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// Hash implements the SignerOpts interface and, in most cases, one can
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// simply pass in the hash function used as opts. Sign may also attempt
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// to type assert opts to other types in order to obtain algorithm
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// specific values. See the documentation in each package for details.
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//
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// Note that when a signature of a hash of a larger message is needed,
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// the caller is responsible for hashing the larger message and passing
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// the hash (as digest) and the hash function (as opts) to Sign.
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Sign(rand io.Reader, digest []byte, opts SignerOpts) (signature []byte, err error)
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}
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// SignerOpts contains options for signing with a Signer.
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type SignerOpts interface {
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// HashFunc returns an identifier for the hash function used to produce
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// the message passed to Signer.Sign, or else zero to indicate that no
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// hashing was done.
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HashFunc() Hash
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}
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// Decrypter is an interface for an opaque private key that can be used for
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// asymmetric decryption operations. An example would be an RSA key
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// kept in a hardware module.
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type Decrypter interface {
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// Public returns the public key corresponding to the opaque,
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// private key.
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Public() PublicKey
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// Decrypt decrypts msg. The opts argument should be appropriate for
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// the primitive used. See the documentation in each implementation for
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// details.
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Decrypt(rand io.Reader, msg []byte, opts DecrypterOpts) (plaintext []byte, err error)
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}
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type DecrypterOpts interface{}
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