Current File : //usr/local/go119/src/crypto/rsa/boring.go
// Copyright 2017 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.
//go:build boringcrypto
package rsa
import (
"crypto/internal/boring"
"crypto/internal/boring/bbig"
"crypto/internal/boring/bcache"
"math/big"
"unsafe"
)
// Cached conversions from Go PublicKey/PrivateKey to BoringCrypto.
//
// The first operation on a PublicKey or PrivateKey makes a parallel
// BoringCrypto key and saves it in pubCache or privCache.
//
// We could just assume that once used in a sign/verify/encrypt/decrypt operation,
// a particular key is never again modified, but that has not been a
// stated assumption before. Just in case there is any existing code that
// does modify the key between operations, we save the original values
// alongside the cached BoringCrypto key and check that the real key
// still matches before using the cached key. The theory is that the real
// operations are significantly more expensive than the comparison.
type boringPub struct {
key *boring.PublicKeyRSA
orig PublicKey
}
var pubCache bcache.Cache
var privCache bcache.Cache
func init() {
pubCache.Register()
privCache.Register()
}
func boringPublicKey(pub *PublicKey) (*boring.PublicKeyRSA, error) {
b := (*boringPub)(pubCache.Get(unsafe.Pointer(pub)))
if b != nil && publicKeyEqual(&b.orig, pub) {
return b.key, nil
}
b = new(boringPub)
b.orig = copyPublicKey(pub)
key, err := boring.NewPublicKeyRSA(bbig.Enc(b.orig.N), bbig.Enc(big.NewInt(int64(b.orig.E))))
if err != nil {
return nil, err
}
b.key = key
pubCache.Put(unsafe.Pointer(pub), unsafe.Pointer(b))
return key, nil
}
type boringPriv struct {
key *boring.PrivateKeyRSA
orig PrivateKey
}
func boringPrivateKey(priv *PrivateKey) (*boring.PrivateKeyRSA, error) {
b := (*boringPriv)(privCache.Get(unsafe.Pointer(priv)))
if b != nil && privateKeyEqual(&b.orig, priv) {
return b.key, nil
}
b = new(boringPriv)
b.orig = copyPrivateKey(priv)
var N, E, D, P, Q, Dp, Dq, Qinv *big.Int
N = b.orig.N
E = big.NewInt(int64(b.orig.E))
D = b.orig.D
if len(b.orig.Primes) == 2 {
P = b.orig.Primes[0]
Q = b.orig.Primes[1]
Dp = b.orig.Precomputed.Dp
Dq = b.orig.Precomputed.Dq
Qinv = b.orig.Precomputed.Qinv
}
key, err := boring.NewPrivateKeyRSA(bbig.Enc(N), bbig.Enc(E), bbig.Enc(D), bbig.Enc(P), bbig.Enc(Q), bbig.Enc(Dp), bbig.Enc(Dq), bbig.Enc(Qinv))
if err != nil {
return nil, err
}
b.key = key
privCache.Put(unsafe.Pointer(priv), unsafe.Pointer(b))
return key, nil
}
func publicKeyEqual(k1, k2 *PublicKey) bool {
return k1.N != nil &&
k1.N.Cmp(k2.N) == 0 &&
k1.E == k2.E
}
func copyPublicKey(k *PublicKey) PublicKey {
return PublicKey{
N: new(big.Int).Set(k.N),
E: k.E,
}
}
func privateKeyEqual(k1, k2 *PrivateKey) bool {
return publicKeyEqual(&k1.PublicKey, &k2.PublicKey) &&
k1.D.Cmp(k2.D) == 0
}
func copyPrivateKey(k *PrivateKey) PrivateKey {
dst := PrivateKey{
PublicKey: copyPublicKey(&k.PublicKey),
D: new(big.Int).Set(k.D),
}
dst.Primes = make([]*big.Int, len(k.Primes))
for i, p := range k.Primes {
dst.Primes[i] = new(big.Int).Set(p)
}
if x := k.Precomputed.Dp; x != nil {
dst.Precomputed.Dp = new(big.Int).Set(x)
}
if x := k.Precomputed.Dq; x != nil {
dst.Precomputed.Dq = new(big.Int).Set(x)
}
if x := k.Precomputed.Qinv; x != nil {
dst.Precomputed.Qinv = new(big.Int).Set(x)
}
return dst
}
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