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Crypt2go

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Some basic Golang packages complementing existing standard library crypto packages and the extension packages x/crypto.

Installation

$ go get github.com/andreburgaud/crypt2go

or to update to the latest version:

$ go get -u github.com/andreburgaud/crypt2go

Test

In the crypt2go directory:

$ go test ./...

Disclaimer

I'm, by no mean, an expert in cryptography and welcome any comment or suggestion to improve the code included in this repository.

ECB (Electronic Codebook)

The ECB mode of operation should NOT be used anymore. This code was written to facilate migrating legacy data encrypted with ECB.

There is plenty of literature explaining why ECB should not be used, starting with https://en.wikipedia.org/wiki/Block_cipher_mode_of_operation, section Electronic Codebook (ECB).

Nevertheless, if like me, someone needed to solve a problem with legacy software and use ECB, this code might be helpful.

Blowfish encryption in ECB mode with padding

package main

import (
  "fmt"

  "golang.org/x/crypto/blowfish"

  "github.com/andreburgaud/crypt2go/ecb"
  "github.com/andreburgaud/crypt2go/padding"
)

func encrypt(pt, key []byte) []byte {
  block, err := blowfish.NewCipher(key)
  if err != nil {
    panic(err.Error())
  }
  mode := ecb.NewECBEncrypter(block)
  padder := padding.NewPkcs5Padding()
  pt, err = padder.Pad(pt) // padd last block of plaintext if block size less than block cipher size
  if err != nil {
    panic(err.Error())
  }
  ct := make([]byte, len(pt))
  mode.CryptBlocks(ct, pt)
  return ct
}

func decrypt(ct, key []byte) []byte {
  block, err := blowfish.NewCipher(key)
  if err != nil {
    panic(err.Error())
  }
  mode := ecb.NewECBDecrypter(block)
  pt := make([]byte, len(ct))
  mode.CryptBlocks(pt, ct)
  padder := padding.NewPkcs5Padding()
  pt, err = padder.Unpad(pt) // unpad plaintext after decryption
  if err != nil {
    panic(err.Error())
  }
  return pt
}

func example() {
  pt := []byte("Some plain text")
  key := []byte("a_very_secret_key")

  ct := encrypt(pt, key)
  fmt.Printf("Ciphertext: %x\n", ct)

  recovered_pt := decrypt(ct, key)
  fmt.Printf("Recovered plaintext: %s\n", recovered_pt)
}

func main() {
  example()
}

AES Encryption in ECB mode with padding

import (
  "fmt"

  "crypto/aes"

  "github.com/andreburgaud/crypt2go/ecb"
  "github.com/andreburgaud/crypt2go/padding"
)

func encrypt(pt, key []byte) []byte {
  block, err := aes.NewCipher(key)
  if err != nil {
    panic(err.Error())
  }
  mode := ecb.NewECBEncrypter(block)
  padder := padding.NewPkcs7Padding(mode.BlockSize())
  pt, err = padder.Pad(pt) // padd last block of plaintext if block size less than block cipher size
  if err != nil {
    panic(err.Error())
  }
  ct := make([]byte, len(pt))
  mode.CryptBlocks(ct, pt)
  return ct
}

func decrypt(ct, key []byte) []byte {
  block, err := aes.NewCipher(key)
  if err != nil {
    panic(err.Error())
  }
  mode := ecb.NewECBDecrypter(block)
  pt := make([]byte, len(ct))
  mode.CryptBlocks(pt, ct)
  padder := padding.NewPkcs7Padding(mode.BlockSize())
  pt, err = padder.Unpad(pt) // unpad plaintext after decryption
  if err != nil {
    panic(err.Error())
  }
  return pt
}

func example() {
  pt := []byte("Some plain text")
  // Key size for AES is either: 16 bytes (128 bits), 24 bytes (192 bits) or 32 bytes (256 bits)
  key := []byte("secretkey16bytes")

  ct := encrypt(pt, key)
  fmt.Printf("Ciphertext: %x\n", ct)

  recovered_pt := decrypt(ct, key)
  fmt.Printf("Recovered plaintext: %s\n", recovered_pt)
}

func main() {
  fmt.Println("AES encryption with ECB and PKCS7 padding")
  example()
}

Padding

Both ECB (Electronic Codebook) and CBC (Cipher Block Chaining) require blocks of fixed size. In order to comply with this requirement, it is necessary to pad the plain text to a size multiple of the block size in order to perform any encryption with these modes of operation.

The padding package exposes simple functions to provide a way to pad and unpad a given plaintext respectively prior to encryption and after decryption.

The code examples in the previous section shows encryption examples with Blowfish and AES in ECB mode. Blowfish encrypts blocks of 8 bytes hence using the padding type described in the https://tools.ietf.org/html/rfc2898 PKCS #5: Password-Based Cryptography Specification Version 2.0. Whereas AES requires blocks of 16 bytes (128 bits). The padding type in the second example is based on https://tools.ietf.org/html/rfc2315 PKCS #7: Cryptographic Message Syntax Version 1.5.

The only difference between the two specs is only that PKCS #5 accommodates only for blocks of 8 bytes. The padding package reflects that and exposes two builders, resepectively NewPkcs5Padding() that embeds an hard-coded value for a block size of 8, while NewPkcs7Padding(int blockSize) takes a parameter for the block size. Nothing prevents using NewPkcs7Padding with a block size of 8 to work with an encryption scheme working on blocks of 8 bytes, like Blowfish.

Additional Examples

See the unit tests or the example tests in the respective package directories.

License

The ecb package, is directly modeled after the CBC Golang code (https://golang.org/src/crypto/cipher/cbc.go) released under a BSD license (https://golang.org/LICENSE). To avoid any license conflicts, crypt2go is also released under a BSD license.

See the LICENSE file in the repository.

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