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path: root/internal/cryptocore/cryptocore.go
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// Package cryptocore wraps OpenSSL and Go GCM crypto and provides
// a nonce generator.
package cryptocore

import (
	"crypto/aes"
	"crypto/cipher"
	"crypto/sha512"
	"fmt"
	"log"

	"github.com/rfjakob/eme"

	"github.com/rfjakob/gocryptfs/internal/siv_aead"
	"github.com/rfjakob/gocryptfs/internal/stupidgcm"
)

// BackendTypeEnum indicates the type of AEAD backend in use.
type AEADTypeEnum int

const (
	// KeyLen is the cipher key length in bytes.  32 for AES-256.
	KeyLen = 32
	// AuthTagLen is the length of a GCM auth tag in bytes.
	AuthTagLen = 16

	_ = iota // Skip zero
	// BackendOpenSSL specifies the OpenSSL backend.
	BackendOpenSSL AEADTypeEnum = iota
	// BackendGoGCM specifies the Go based GCM backend.
	BackendGoGCM AEADTypeEnum = iota
	// BackendAESSIV specifies an AESSIV backend.
	BackendAESSIV AEADTypeEnum = iota
)

// CryptoCore is the low level crypto implementation.
type CryptoCore struct {
	// EME is used for filename encryption.
	EMECipher *eme.EMECipher
	// GCM or AES-SIV. This is used for content encryption.
	AEADCipher cipher.AEAD
	// Which backend is behind AEADCipher?
	AEADBackend AEADTypeEnum
	// GCM needs unique IVs (nonces)
	IVGenerator *nonceGenerator
	IVLen       int
}

// New returns a new CryptoCore object or panics.
//
// Even though the "GCMIV128" feature flag is now mandatory, we must still
// support 96-bit IVs here because they were used for encrypting the master
// key in gocryptfs.conf up to gocryptfs v1.2. v1.3 switched to 128 bits.
func New(key []byte, aeadType AEADTypeEnum, IVBitLen int) *CryptoCore {
	if len(key) != KeyLen {
		log.Panic(fmt.Sprintf("Unsupported key length %d", len(key)))
	}
	// We want the IV size in bytes
	IVLen := IVBitLen / 8

	// Name encryption always uses built-in Go AES through blockCipher.
	// Content encryption uses BlockCipher only if useOpenssl=false.
	blockCipher, err := aes.NewCipher(key)
	if err != nil {
		log.Panic(err)
	}
	emeCipher := eme.New(blockCipher)

	var aeadCipher cipher.AEAD
	switch aeadType {
	case BackendOpenSSL:
		if IVLen != 16 {
			log.Panic("stupidgcm only supports 128-bit IVs")
		}
		aeadCipher = stupidgcm.New(key)
	case BackendGoGCM:
		aeadCipher, err = cipher.NewGCMWithNonceSize(blockCipher, IVLen)
	case BackendAESSIV:
		if IVLen != 16 {
			// SIV supports any nonce size, but we only use 16.
			log.Panic("AES-SIV must use 16-byte nonces")
		}
		// AES-SIV uses 1/2 of the key for authentication, 1/2 for
		// encryption, so we need a 64-bytes key for AES-256. Derive it from
		// the master key by hashing it with SHA-512.
		key64 := sha512.Sum512(key)
		aeadCipher = siv_aead.New(key64[:])
	default:
		log.Panic("unknown backend cipher")
	}
	if err != nil {
		log.Panic(err)
	}

	return &CryptoCore{
		EMECipher:   emeCipher,
		AEADCipher:  aeadCipher,
		AEADBackend: aeadType,
		IVGenerator: &nonceGenerator{nonceLen: IVLen},
		IVLen:       IVLen,
	}
}