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impl.go
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impl.go
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/*
Copyright IBM Corp. 2016 All Rights Reserved.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package sw
import (
"crypto/elliptic"
"crypto/sha256"
"crypto/sha512"
"hash"
"reflect"
"github.com/hyperledger/fabric/bccsp"
"github.com/hyperledger/fabric/common/errors"
"github.com/hyperledger/fabric/common/flogging"
"golang.org/x/crypto/sha3"
)
var (
logger = flogging.MustGetLogger("bccsp_sw")
)
// NewDefaultSecurityLevel returns a new instance of the software-based BCCSP
// at security level 256, hash family SHA2 and using FolderBasedKeyStore as KeyStore.
func NewDefaultSecurityLevel(keyStorePath string) (bccsp.BCCSP, error) {
ks := &fileBasedKeyStore{}
if err := ks.Init(nil, keyStorePath, false); err != nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.Internal, "Failed initializing key store at [%v]", keyStorePath).WrapError(err)
}
return New(256, "SHA2", ks)
}
// NewDefaultSecurityLevel returns a new instance of the software-based BCCSP
// at security level 256, hash family SHA2 and using the passed KeyStore.
func NewDefaultSecurityLevelWithKeystore(keyStore bccsp.KeyStore) (bccsp.BCCSP, error) {
return New(256, "SHA2", keyStore)
}
// New returns a new instance of the software-based BCCSP
// set at the passed security level, hash family and KeyStore.
func New(securityLevel int, hashFamily string, keyStore bccsp.KeyStore) (bccsp.BCCSP, error) {
// Init config
conf := &config{}
err := conf.setSecurityLevel(securityLevel, hashFamily)
if err != nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.Internal, "Failed initializing configuration at [%v,%v]", securityLevel, hashFamily).WrapError(err)
}
// Check KeyStore
if keyStore == nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.BadRequest, "Invalid bccsp.KeyStore instance. It must be different from nil.")
}
// Set the encryptors
encryptors := make(map[reflect.Type]Encryptor)
encryptors[reflect.TypeOf(&aesPrivateKey{})] = &aescbcpkcs7Encryptor{}
// Set the decryptors
decryptors := make(map[reflect.Type]Decryptor)
decryptors[reflect.TypeOf(&aesPrivateKey{})] = &aescbcpkcs7Decryptor{}
// Set the signers
signers := make(map[reflect.Type]Signer)
signers[reflect.TypeOf(&ecdsaPrivateKey{})] = &ecdsaSigner{}
signers[reflect.TypeOf(&rsaPrivateKey{})] = &rsaSigner{}
// Set the verifiers
verifiers := make(map[reflect.Type]Verifier)
verifiers[reflect.TypeOf(&ecdsaPrivateKey{})] = &ecdsaPrivateKeyVerifier{}
verifiers[reflect.TypeOf(&ecdsaPublicKey{})] = &ecdsaPublicKeyKeyVerifier{}
verifiers[reflect.TypeOf(&rsaPrivateKey{})] = &rsaPrivateKeyVerifier{}
verifiers[reflect.TypeOf(&rsaPublicKey{})] = &rsaPublicKeyKeyVerifier{}
// Set the hashers
hashers := make(map[reflect.Type]Hasher)
hashers[reflect.TypeOf(&bccsp.SHAOpts{})] = &hasher{hash: conf.hashFunction}
hashers[reflect.TypeOf(&bccsp.SHA256Opts{})] = &hasher{hash: sha256.New}
hashers[reflect.TypeOf(&bccsp.SHA384Opts{})] = &hasher{hash: sha512.New384}
hashers[reflect.TypeOf(&bccsp.SHA3_256Opts{})] = &hasher{hash: sha3.New256}
hashers[reflect.TypeOf(&bccsp.SHA3_384Opts{})] = &hasher{hash: sha3.New384}
impl := &impl{
conf: conf,
ks: keyStore,
encryptors: encryptors,
decryptors: decryptors,
signers: signers,
verifiers: verifiers,
hashers: hashers}
// Set the key generators
keyGenerators := make(map[reflect.Type]KeyGenerator)
keyGenerators[reflect.TypeOf(&bccsp.ECDSAKeyGenOpts{})] = &ecdsaKeyGenerator{curve: conf.ellipticCurve}
keyGenerators[reflect.TypeOf(&bccsp.ECDSAP256KeyGenOpts{})] = &ecdsaKeyGenerator{curve: elliptic.P256()}
keyGenerators[reflect.TypeOf(&bccsp.ECDSAP384KeyGenOpts{})] = &ecdsaKeyGenerator{curve: elliptic.P384()}
keyGenerators[reflect.TypeOf(&bccsp.AESKeyGenOpts{})] = &aesKeyGenerator{length: conf.aesBitLength}
keyGenerators[reflect.TypeOf(&bccsp.AES256KeyGenOpts{})] = &aesKeyGenerator{length: 32}
keyGenerators[reflect.TypeOf(&bccsp.AES192KeyGenOpts{})] = &aesKeyGenerator{length: 24}
keyGenerators[reflect.TypeOf(&bccsp.AES128KeyGenOpts{})] = &aesKeyGenerator{length: 16}
keyGenerators[reflect.TypeOf(&bccsp.RSAKeyGenOpts{})] = &rsaKeyGenerator{length: conf.rsaBitLength}
keyGenerators[reflect.TypeOf(&bccsp.RSA1024KeyGenOpts{})] = &rsaKeyGenerator{length: 1024}
keyGenerators[reflect.TypeOf(&bccsp.RSA2048KeyGenOpts{})] = &rsaKeyGenerator{length: 2048}
keyGenerators[reflect.TypeOf(&bccsp.RSA3072KeyGenOpts{})] = &rsaKeyGenerator{length: 3072}
keyGenerators[reflect.TypeOf(&bccsp.RSA4096KeyGenOpts{})] = &rsaKeyGenerator{length: 4096}
impl.keyGenerators = keyGenerators
// Set the key generators
keyDerivers := make(map[reflect.Type]KeyDeriver)
keyDerivers[reflect.TypeOf(&ecdsaPrivateKey{})] = &ecdsaPrivateKeyKeyDeriver{}
keyDerivers[reflect.TypeOf(&ecdsaPublicKey{})] = &ecdsaPublicKeyKeyDeriver{}
keyDerivers[reflect.TypeOf(&aesPrivateKey{})] = &aesPrivateKeyKeyDeriver{bccsp: impl}
impl.keyDerivers = keyDerivers
// Set the key importers
keyImporters := make(map[reflect.Type]KeyImporter)
keyImporters[reflect.TypeOf(&bccsp.AES256ImportKeyOpts{})] = &aes256ImportKeyOptsKeyImporter{}
keyImporters[reflect.TypeOf(&bccsp.HMACImportKeyOpts{})] = &hmacImportKeyOptsKeyImporter{}
keyImporters[reflect.TypeOf(&bccsp.ECDSAPKIXPublicKeyImportOpts{})] = &ecdsaPKIXPublicKeyImportOptsKeyImporter{}
keyImporters[reflect.TypeOf(&bccsp.ECDSAPrivateKeyImportOpts{})] = &ecdsaPrivateKeyImportOptsKeyImporter{}
keyImporters[reflect.TypeOf(&bccsp.ECDSAGoPublicKeyImportOpts{})] = &ecdsaGoPublicKeyImportOptsKeyImporter{}
keyImporters[reflect.TypeOf(&bccsp.RSAGoPublicKeyImportOpts{})] = &rsaGoPublicKeyImportOptsKeyImporter{}
keyImporters[reflect.TypeOf(&bccsp.X509PublicKeyImportOpts{})] = &x509PublicKeyImportOptsKeyImporter{bccsp: impl}
impl.keyImporters = keyImporters
return impl, nil
}
// SoftwareBasedBCCSP is the software-based implementation of the BCCSP.
type impl struct {
conf *config
ks bccsp.KeyStore
keyGenerators map[reflect.Type]KeyGenerator
keyDerivers map[reflect.Type]KeyDeriver
keyImporters map[reflect.Type]KeyImporter
encryptors map[reflect.Type]Encryptor
decryptors map[reflect.Type]Decryptor
signers map[reflect.Type]Signer
verifiers map[reflect.Type]Verifier
hashers map[reflect.Type]Hasher
}
// KeyGen generates a key using opts.
func (csp *impl) KeyGen(opts bccsp.KeyGenOpts) (k bccsp.Key, err error) {
// Validate arguments
if opts == nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.BadRequest, "Invalid Opts parameter. It must not be nil.")
}
keyGenerator, found := csp.keyGenerators[reflect.TypeOf(opts)]
if !found {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.NotFound, "Unsupported 'KeyGenOpts' provided [%v]", opts)
}
k, err = keyGenerator.KeyGen(opts)
if err != nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.Internal, "Failed generating key with opts [%v]", opts).WrapError(err)
}
// If the key is not Ephemeral, store it.
if !opts.Ephemeral() {
// Store the key
err = csp.ks.StoreKey(k)
if err != nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.Internal, "Failed storing key [%s]. [%s]", opts.Algorithm(), err)
}
}
return k, nil
}
// KeyDeriv derives a key from k using opts.
// The opts argument should be appropriate for the primitive used.
func (csp *impl) KeyDeriv(k bccsp.Key, opts bccsp.KeyDerivOpts) (dk bccsp.Key, err error) {
// Validate arguments
if k == nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.BadRequest, "Invalid Key. It must not be nil.")
}
if opts == nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.BadRequest, "Invalid opts. It must not be nil.")
}
keyDeriver, found := csp.keyDerivers[reflect.TypeOf(k)]
if !found {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.NotFound, "Unsupported 'Key' provided [%v]", k)
}
k, err = keyDeriver.KeyDeriv(k, opts)
if err != nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.Internal, "Failed deriving key with opts [%v]", opts).WrapError(err)
}
// If the key is not Ephemeral, store it.
if !opts.Ephemeral() {
// Store the key
err = csp.ks.StoreKey(k)
if err != nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.Internal, "Failed storing key [%s]. [%s]", opts.Algorithm(), err)
}
}
return k, nil
}
// KeyImport imports a key from its raw representation using opts.
// The opts argument should be appropriate for the primitive used.
func (csp *impl) KeyImport(raw interface{}, opts bccsp.KeyImportOpts) (k bccsp.Key, err error) {
// Validate arguments
if raw == nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.BadRequest, "Invalid raw. It must not be nil.")
}
if opts == nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.BadRequest, "Invalid opts. It must not be nil.")
}
keyImporter, found := csp.keyImporters[reflect.TypeOf(opts)]
if !found {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.NotFound, "Unsupported 'KeyImportOpts' provided [%v]", opts)
}
k, err = keyImporter.KeyImport(raw, opts)
if err != nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.Internal, "Failed importing key with opts [%v]", opts).WrapError(err)
}
// If the key is not Ephemeral, store it.
if !opts.Ephemeral() {
// Store the key
err = csp.ks.StoreKey(k)
if err != nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.Internal, "Failed storing imported key with opts [%v]", opts).WrapError(err)
}
}
return
}
// GetKey returns the key this CSP associates to
// the Subject Key Identifier ski.
func (csp *impl) GetKey(ski []byte) (k bccsp.Key, err error) {
k, err = csp.ks.GetKey(ski)
if err != nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.Internal, "Failed getting key for SKI [%v]", ski).WrapError(err)
}
return
}
// Hash hashes messages msg using options opts.
func (csp *impl) Hash(msg []byte, opts bccsp.HashOpts) (digest []byte, err error) {
// Validate arguments
if opts == nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.BadRequest, "Invalid opts. It must not be nil.")
}
hasher, found := csp.hashers[reflect.TypeOf(opts)]
if !found {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.NotFound, "Unsupported 'HashOpt' provided [%v]", opts)
}
digest, err = hasher.Hash(msg, opts)
if err != nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.Internal, "Failed hashing with opts [%v]", opts).WrapError(err)
}
return
}
// GetHash returns and instance of hash.Hash using options opts.
// If opts is nil then the default hash function is returned.
func (csp *impl) GetHash(opts bccsp.HashOpts) (h hash.Hash, err error) {
// Validate arguments
if opts == nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.BadRequest, "Invalid opts. It must not be nil.")
}
hasher, found := csp.hashers[reflect.TypeOf(opts)]
if !found {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.NotFound, "Unsupported 'HashOpt' provided [%v]", opts)
}
h, err = hasher.GetHash(opts)
if err != nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.Internal, "Failed getting hash function with opts [%v]", opts).WrapError(err)
}
return
}
// Sign signs digest using key k.
// The opts argument should be appropriate for the primitive used.
//
// 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).
func (csp *impl) Sign(k bccsp.Key, digest []byte, opts bccsp.SignerOpts) (signature []byte, err error) {
// Validate arguments
if k == nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.BadRequest, "Invalid Key. It must not be nil.")
}
if len(digest) == 0 {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.BadRequest, "Invalid digest. Cannot be empty.")
}
signer, found := csp.signers[reflect.TypeOf(k)]
if !found {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.NotFound, "Unsupported 'SignKey' provided [%v]", k)
}
signature, err = signer.Sign(k, digest, opts)
if err != nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.Internal, "Failed signing with opts [%v]", opts).WrapError(err)
}
return
}
// Verify verifies signature against key k and digest
func (csp *impl) Verify(k bccsp.Key, signature, digest []byte, opts bccsp.SignerOpts) (valid bool, err error) {
// Validate arguments
if k == nil {
return false, errors.ErrorWithCallstack(errors.BCCSP, errors.BadRequest, "Invalid Key. It must not be nil.")
}
if len(signature) == 0 {
return false, errors.ErrorWithCallstack(errors.BCCSP, errors.BadRequest, "Invalid signature. Cannot be empty.")
}
if len(digest) == 0 {
return false, errors.ErrorWithCallstack(errors.BCCSP, errors.BadRequest, "Invalid digest. Cannot be empty.")
}
verifier, found := csp.verifiers[reflect.TypeOf(k)]
if !found {
return false, errors.ErrorWithCallstack(errors.BCCSP, errors.NotFound, "Unsupported 'VerifyKey' provided [%v]", k)
}
valid, err = verifier.Verify(k, signature, digest, opts)
if err != nil {
return false, errors.ErrorWithCallstack(errors.BCCSP, errors.Internal, "Failed verifing with opts [%v]", opts).WrapError(err)
}
return
}
// Encrypt encrypts plaintext using key k.
// The opts argument should be appropriate for the primitive used.
func (csp *impl) Encrypt(k bccsp.Key, plaintext []byte, opts bccsp.EncrypterOpts) (ciphertext []byte, err error) {
// Validate arguments
if k == nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.BadRequest, "Invalid Key. It must not be nil.")
}
encryptor, found := csp.encryptors[reflect.TypeOf(k)]
if !found {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.NotFound, "Unsupported 'EncryptKey' provided [%v]", k)
}
return encryptor.Encrypt(k, plaintext, opts)
}
// Decrypt decrypts ciphertext using key k.
// The opts argument should be appropriate for the primitive used.
func (csp *impl) Decrypt(k bccsp.Key, ciphertext []byte, opts bccsp.DecrypterOpts) (plaintext []byte, err error) {
// Validate arguments
if k == nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.BadRequest, "Invalid Key. It must not be nil.")
}
decryptor, found := csp.decryptors[reflect.TypeOf(k)]
if !found {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.NotFound, "Unsupported 'DecryptKey' provided [%v]", k)
}
plaintext, err = decryptor.Decrypt(k, ciphertext, opts)
if err != nil {
return nil, errors.ErrorWithCallstack(errors.BCCSP, errors.Internal, "Failed decrypting with opts [%v]", opts).WrapError(err)
}
return
}