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go-openssl/keys.go

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package openssl
import (
"crypto/md5" //#nosec G501 -- Used for OpenSSL compatibility in old KDF
"crypto/sha1" //#nosec G505 -- Used for OpenSSL compatibility in old KDF
"crypto/sha256"
"crypto/sha512"
"fmt"
"hash"
"golang.org/x/crypto/pbkdf2"
)
// DefaultPBKDF2Iterations specifies the number of iterations to use
// in PBKDF2 key generation. This is taken from the `openssl enc`
// commands default.
//
// Taken from OpenSSL v3.1.2:
// `openssl enc --help |& grep -A1 iter`
const DefaultPBKDF2Iterations = 10000
const (
opensslKeyLength = 32
opensslIVLength = 16
)
// CredsGenerator are functions to derive a key and iv from a password and a salt
type CredsGenerator func(password, salt []byte) (Creds, error)
var (
// BytesToKeyMD5 utilizes MD5 key-derivation (`-md md5`)
BytesToKeyMD5 = NewBytesToKeyGenerator(md5.New)
// BytesToKeySHA1 utilizes SHA1 key-derivation (`-md sha1`)
BytesToKeySHA1 = NewBytesToKeyGenerator(sha1.New)
// BytesToKeySHA256 utilizes SHA256 key-derivation (`-md sha256`)
BytesToKeySHA256 = NewBytesToKeyGenerator(sha256.New)
// BytesToKeySHA384 utilizes SHA384 key-derivation (`-md sha384`)
BytesToKeySHA384 = NewBytesToKeyGenerator(sha512.New384)
// BytesToKeySHA512 utilizes SHA512 key-derivation (`-md sha512`)
BytesToKeySHA512 = NewBytesToKeyGenerator(sha512.New)
// PBKDF2MD5 utilizes PBKDF2 key derivation with MD5 hashing (`-pbkdf2 -md md5`)
PBKDF2MD5 = NewPBKDF2Generator(md5.New, DefaultPBKDF2Iterations)
// PBKDF2SHA1 utilizes PBKDF2 key derivation with SHA1 hashing (`-pbkdf2 -md sha1`)
PBKDF2SHA1 = NewPBKDF2Generator(sha1.New, DefaultPBKDF2Iterations)
// PBKDF2SHA256 utilizes PBKDF2 key derivation with SHA256 hashing (`-pbkdf2 -md sha256`)
PBKDF2SHA256 = NewPBKDF2Generator(sha256.New, DefaultPBKDF2Iterations)
// PBKDF2SHA384 utilizes PBKDF2 key derivation with SHA384 hashing (`-pbkdf2 -md sha384`)
PBKDF2SHA384 = NewPBKDF2Generator(sha512.New384, DefaultPBKDF2Iterations)
// PBKDF2SHA512 utilizes PBKDF2 key derivation with SHA512 hashing (`-pbkdf2 -md sha512`)
PBKDF2SHA512 = NewPBKDF2Generator(sha512.New, DefaultPBKDF2Iterations)
)
// NewBytesToKeyGenerator implements the openSSLEvpBytesToKey key
// derivation functions described in the OpenSSL code as follows:
//
// openSSLEvpBytesToKey follows the OpenSSL (undocumented?) convention for extracting the key and IV from passphrase.
// It uses the EVP_BytesToKey() method which is basically:
// D_i = HASH^count(D_(i-1) || password || salt) where || denotes concatentaion, until there are sufficient bytes available
// 48 bytes since we're expecting to handle AES-256, 32bytes for a key and 16bytes for the IV
func NewBytesToKeyGenerator(hashFunc func() hash.Hash) CredsGenerator {
df := func(in []byte) []byte {
h := hashFunc()
if _, err := h.Write(in); err != nil {
panic(fmt.Errorf("writing to hash: %w", err))
}
return h.Sum(nil)
}
return func(password, salt []byte) (Creds, error) {
var m []byte
prev := []byte{}
for len(m) < opensslKeyLength+opensslIVLength {
a := make([]byte, len(prev)+len(password)+len(salt))
copy(a, prev)
copy(a[len(prev):], password)
copy(a[len(prev)+len(password):], salt)
prev = df(a)
m = append(m, prev...)
}
return Creds{Key: m[:opensslKeyLength], IV: m[opensslKeyLength : opensslKeyLength+opensslIVLength]}, nil
}
}
// NewPBKDF2Generator implements a credential generator compatible
// with the OpenSSL `-pbkdf2` parameter
func NewPBKDF2Generator(hashFunc func() hash.Hash, iterations int) CredsGenerator {
return func(password, salt []byte) (Creds, error) {
m := pbkdf2.Key(password, salt, iterations, opensslKeyLength+opensslIVLength, hashFunc)
return Creds{Key: m[:opensslKeyLength], IV: m[opensslKeyLength : opensslKeyLength+opensslIVLength]}, nil
}
}