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104 lines
3.9 KiB
Go
104 lines
3.9 KiB
Go
// Copyright 2012 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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/*
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Package box authenticates and encrypts small messages using public-key cryptography.
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Box uses Curve25519, XSalsa20 and Poly1305 to encrypt and authenticate
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messages. The length of messages is not hidden.
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It is the caller's responsibility to ensure the uniqueness of nonces—for
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example, by using nonce 1 for the first message, nonce 2 for the second
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message, etc. Nonces are long enough that randomly generated nonces have
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negligible risk of collision.
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Messages should be small because:
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1. The whole message needs to be held in memory to be processed.
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2. Using large messages pressures implementations on small machines to decrypt
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and process plaintext before authenticating it. This is very dangerous, and
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this API does not allow it, but a protocol that uses excessive message sizes
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might present some implementations with no other choice.
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3. Fixed overheads will be sufficiently amortised by messages as small as 8KB.
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4. Performance may be improved by working with messages that fit into data caches.
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Thus large amounts of data should be chunked so that each message is small.
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(Each message still needs a unique nonce.) If in doubt, 16KB is a reasonable
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chunk size.
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This package is interoperable with NaCl: https://nacl.cr.yp.to/box.html.
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*/
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package box // import "golang.org/x/crypto/nacl/box"
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import (
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"io"
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"golang.org/x/crypto/curve25519"
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"golang.org/x/crypto/nacl/secretbox"
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"golang.org/x/crypto/salsa20/salsa"
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)
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// Overhead is the number of bytes of overhead when boxing a message.
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const Overhead = secretbox.Overhead
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// GenerateKey generates a new public/private key pair suitable for use with
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// Seal and Open.
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func GenerateKey(rand io.Reader) (publicKey, privateKey *[32]byte, err error) {
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publicKey = new([32]byte)
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privateKey = new([32]byte)
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_, err = io.ReadFull(rand, privateKey[:])
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if err != nil {
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publicKey = nil
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privateKey = nil
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return
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}
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curve25519.ScalarBaseMult(publicKey, privateKey)
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return
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}
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var zeros [16]byte
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// Precompute calculates the shared key between peersPublicKey and privateKey
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// and writes it to sharedKey. The shared key can be used with
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// OpenAfterPrecomputation and SealAfterPrecomputation to speed up processing
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// when using the same pair of keys repeatedly.
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func Precompute(sharedKey, peersPublicKey, privateKey *[32]byte) {
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curve25519.ScalarMult(sharedKey, privateKey, peersPublicKey)
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salsa.HSalsa20(sharedKey, &zeros, sharedKey, &salsa.Sigma)
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}
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// Seal appends an encrypted and authenticated copy of message to out, which
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// will be Overhead bytes longer than the original and must not overlap it. The
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// nonce must be unique for each distinct message for a given pair of keys.
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func Seal(out, message []byte, nonce *[24]byte, peersPublicKey, privateKey *[32]byte) []byte {
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var sharedKey [32]byte
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Precompute(&sharedKey, peersPublicKey, privateKey)
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return secretbox.Seal(out, message, nonce, &sharedKey)
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}
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// SealAfterPrecomputation performs the same actions as Seal, but takes a
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// shared key as generated by Precompute.
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func SealAfterPrecomputation(out, message []byte, nonce *[24]byte, sharedKey *[32]byte) []byte {
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return secretbox.Seal(out, message, nonce, sharedKey)
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}
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// Open authenticates and decrypts a box produced by Seal and appends the
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// message to out, which must not overlap box. The output will be Overhead
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// bytes smaller than box.
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func Open(out, box []byte, nonce *[24]byte, peersPublicKey, privateKey *[32]byte) ([]byte, bool) {
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var sharedKey [32]byte
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Precompute(&sharedKey, peersPublicKey, privateKey)
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return secretbox.Open(out, box, nonce, &sharedKey)
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}
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// OpenAfterPrecomputation performs the same actions as Open, but takes a
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// shared key as generated by Precompute.
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func OpenAfterPrecomputation(out, box []byte, nonce *[24]byte, sharedKey *[32]byte) ([]byte, bool) {
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return secretbox.Open(out, box, nonce, sharedKey)
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}
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