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algs.go
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package hpke
import (
"crypto"
"crypto/aes"
"crypto/cipher"
"crypto/elliptic"
_ "crypto/sha256" // Linking sha256.
_ "crypto/sha512" // Linking sha512.
"fmt"
"hash"
"io"
"github.com/cloudflare/circl/dh/x25519"
"github.com/cloudflare/circl/dh/x448"
"github.com/cloudflare/circl/ecc/p384"
"github.com/cloudflare/circl/kem"
"github.com/cloudflare/circl/kem/kyber/kyber768"
"golang.org/x/crypto/chacha20poly1305"
"golang.org/x/crypto/hkdf"
)
type KEM uint16
//nolint:golint,stylecheck
const (
// KEM_P256_HKDF_SHA256 is a KEM using P256 curve and HKDF with SHA-256.
KEM_P256_HKDF_SHA256 KEM = 0x10
// KEM_P384_HKDF_SHA384 is a KEM using P384 curve and HKDF with SHA-384.
KEM_P384_HKDF_SHA384 KEM = 0x11
// KEM_P521_HKDF_SHA512 is a KEM using P521 curve and HKDF with SHA-512.
KEM_P521_HKDF_SHA512 KEM = 0x12
// KEM_X25519_HKDF_SHA256 is a KEM using X25519 Diffie-Hellman function
// and HKDF with SHA-256.
KEM_X25519_HKDF_SHA256 KEM = 0x20
// KEM_X448_HKDF_SHA512 is a KEM using X448 Diffie-Hellman function and
// HKDF with SHA-512.
KEM_X448_HKDF_SHA512 KEM = 0x21
// KEM_X25519_KYBER768_DRAFT00 is a hybrid KEM built on DHKEM(X25519, HKDF-SHA256)
// and Kyber768Draft00
KEM_X25519_KYBER768_DRAFT00 KEM = 0x30
)
// IsValid returns true if the KEM identifier is supported by the HPKE package.
func (k KEM) IsValid() bool {
switch k {
case KEM_P256_HKDF_SHA256,
KEM_P384_HKDF_SHA384,
KEM_P521_HKDF_SHA512,
KEM_X25519_HKDF_SHA256,
KEM_X448_HKDF_SHA512,
KEM_X25519_KYBER768_DRAFT00:
return true
default:
return false
}
}
// Scheme returns an instance of a KEM that supports authentication. Panics if
// the KEM identifier is invalid.
func (k KEM) Scheme() kem.AuthScheme {
switch k {
case KEM_P256_HKDF_SHA256:
return dhkemp256hkdfsha256
case KEM_P384_HKDF_SHA384:
return dhkemp384hkdfsha384
case KEM_P521_HKDF_SHA512:
return dhkemp521hkdfsha512
case KEM_X25519_HKDF_SHA256:
return dhkemx25519hkdfsha256
case KEM_X448_HKDF_SHA512:
return dhkemx448hkdfsha512
case KEM_X25519_KYBER768_DRAFT00:
return hybridkemX25519Kyber768
default:
panic(ErrInvalidKEM)
}
}
type KDF uint16
//nolint:golint,stylecheck
const (
// KDF_HKDF_SHA256 is a KDF using HKDF with SHA-256.
KDF_HKDF_SHA256 KDF = 0x01
// KDF_HKDF_SHA384 is a KDF using HKDF with SHA-384.
KDF_HKDF_SHA384 KDF = 0x02
// KDF_HKDF_SHA512 is a KDF using HKDF with SHA-512.
KDF_HKDF_SHA512 KDF = 0x03
)
func (k KDF) IsValid() bool {
switch k {
case KDF_HKDF_SHA256,
KDF_HKDF_SHA384,
KDF_HKDF_SHA512:
return true
default:
return false
}
}
// ExtractSize returns the size (in bytes) of the pseudorandom key produced
// by KDF.Extract.
func (k KDF) ExtractSize() int {
switch k {
case KDF_HKDF_SHA256:
return crypto.SHA256.Size()
case KDF_HKDF_SHA384:
return crypto.SHA384.Size()
case KDF_HKDF_SHA512:
return crypto.SHA512.Size()
default:
panic(ErrInvalidKDF)
}
}
// Extract derives a pseudorandom key from a high-entropy, secret input and a
// salt. The size of the output is determined by KDF.ExtractSize.
func (k KDF) Extract(secret, salt []byte) (pseudorandomKey []byte) {
return hkdf.Extract(k.hash(), secret, salt)
}
// Expand derives a variable length pseudorandom string from a pseudorandom key
// and an information string. Panics if the pseudorandom key is less
// than N bytes, or if the output length is greater than 255*N bytes,
// where N is the size returned by KDF.Extract function.
func (k KDF) Expand(pseudorandomKey, info []byte, outputLen uint) []byte {
extractSize := k.ExtractSize()
if len(pseudorandomKey) < extractSize {
panic(fmt.Errorf("pseudorandom key must be %v bytes", extractSize))
}
maxLength := uint(255 * extractSize)
if outputLen > maxLength {
panic(fmt.Errorf("output length must be less than %v bytes", maxLength))
}
output := make([]byte, outputLen)
rd := hkdf.Expand(k.hash(), pseudorandomKey[:extractSize], info)
_, err := io.ReadFull(rd, output)
if err != nil {
panic(err)
}
return output
}
func (k KDF) hash() func() hash.Hash {
switch k {
case KDF_HKDF_SHA256:
return crypto.SHA256.New
case KDF_HKDF_SHA384:
return crypto.SHA384.New
case KDF_HKDF_SHA512:
return crypto.SHA512.New
default:
panic(ErrInvalidKDF)
}
}
type AEAD uint16
//nolint:golint,stylecheck
const (
// AEAD_AES128GCM is AES-128 block cipher in Galois Counter Mode (GCM).
AEAD_AES128GCM AEAD = 0x01
// AEAD_AES256GCM is AES-256 block cipher in Galois Counter Mode (GCM).
AEAD_AES256GCM AEAD = 0x02
// AEAD_ChaCha20Poly1305 is ChaCha20 stream cipher and Poly1305 MAC.
AEAD_ChaCha20Poly1305 AEAD = 0x03
)
// New instantiates an AEAD cipher from the identifier, returns an error if the
// identifier is not known.
func (a AEAD) New(key []byte) (cipher.AEAD, error) {
switch a {
case AEAD_AES128GCM, AEAD_AES256GCM:
block, err := aes.NewCipher(key)
if err != nil {
return nil, err
}
return cipher.NewGCM(block)
case AEAD_ChaCha20Poly1305:
return chacha20poly1305.New(key)
default:
panic(ErrInvalidAEAD)
}
}
func (a AEAD) IsValid() bool {
switch a {
case AEAD_AES128GCM,
AEAD_AES256GCM,
AEAD_ChaCha20Poly1305:
return true
default:
return false
}
}
// KeySize returns the size in bytes of the keys used by the AEAD cipher.
func (a AEAD) KeySize() uint {
switch a {
case AEAD_AES128GCM:
return 16
case AEAD_AES256GCM:
return 32
case AEAD_ChaCha20Poly1305:
return chacha20poly1305.KeySize
default:
panic(ErrInvalidAEAD)
}
}
// NonceSize returns the size in bytes of the nonce used by the AEAD cipher.
func (a AEAD) NonceSize() uint {
switch a {
case AEAD_AES128GCM,
AEAD_AES256GCM,
AEAD_ChaCha20Poly1305:
return 12
default:
panic(ErrInvalidAEAD)
}
}
// CipherLen returns the length of a ciphertext corresponding to a message of
// length mLen.
func (a AEAD) CipherLen(mLen uint) uint {
switch a {
case AEAD_AES128GCM, AEAD_AES256GCM, AEAD_ChaCha20Poly1305:
return mLen + 16
default:
panic(ErrInvalidAEAD)
}
}
var (
dhkemp256hkdfsha256, dhkemp384hkdfsha384, dhkemp521hkdfsha512 shortKEM
dhkemx25519hkdfsha256, dhkemx448hkdfsha512 xKEM
hybridkemX25519Kyber768 hybridKEM
)
func init() {
dhkemp256hkdfsha256.Curve = elliptic.P256()
dhkemp256hkdfsha256.dhKemBase.id = KEM_P256_HKDF_SHA256
dhkemp256hkdfsha256.dhKemBase.name = "HPKE_KEM_P256_HKDF_SHA256"
dhkemp256hkdfsha256.dhKemBase.Hash = crypto.SHA256
dhkemp256hkdfsha256.dhKemBase.dhKEM = dhkemp256hkdfsha256
dhkemp384hkdfsha384.Curve = p384.P384()
dhkemp384hkdfsha384.dhKemBase.id = KEM_P384_HKDF_SHA384
dhkemp384hkdfsha384.dhKemBase.name = "HPKE_KEM_P384_HKDF_SHA384"
dhkemp384hkdfsha384.dhKemBase.Hash = crypto.SHA384
dhkemp384hkdfsha384.dhKemBase.dhKEM = dhkemp384hkdfsha384
dhkemp521hkdfsha512.Curve = elliptic.P521()
dhkemp521hkdfsha512.dhKemBase.id = KEM_P521_HKDF_SHA512
dhkemp521hkdfsha512.dhKemBase.name = "HPKE_KEM_P521_HKDF_SHA512"
dhkemp521hkdfsha512.dhKemBase.Hash = crypto.SHA512
dhkemp521hkdfsha512.dhKemBase.dhKEM = dhkemp521hkdfsha512
dhkemx25519hkdfsha256.size = x25519.Size
dhkemx25519hkdfsha256.dhKemBase.id = KEM_X25519_HKDF_SHA256
dhkemx25519hkdfsha256.dhKemBase.name = "HPKE_KEM_X25519_HKDF_SHA256"
dhkemx25519hkdfsha256.dhKemBase.Hash = crypto.SHA256
dhkemx25519hkdfsha256.dhKemBase.dhKEM = dhkemx25519hkdfsha256
dhkemx448hkdfsha512.size = x448.Size
dhkemx448hkdfsha512.dhKemBase.id = KEM_X448_HKDF_SHA512
dhkemx448hkdfsha512.dhKemBase.name = "HPKE_KEM_X448_HKDF_SHA512"
dhkemx448hkdfsha512.dhKemBase.Hash = crypto.SHA512
dhkemx448hkdfsha512.dhKemBase.dhKEM = dhkemx448hkdfsha512
hybridkemX25519Kyber768.kemBase.id = KEM_X25519_KYBER768_DRAFT00
hybridkemX25519Kyber768.kemBase.name = "HPKE_KEM_X25519_KYBER768_HKDF_SHA256"
hybridkemX25519Kyber768.kemBase.Hash = crypto.SHA256
hybridkemX25519Kyber768.kemA = dhkemx25519hkdfsha256
hybridkemX25519Kyber768.kemB = kyber768.Scheme()
}