package main import ( "crypto/aes" "crypto/cipher" "crypto/rand" "errors" "flag" "fmt" "io" "io/ioutil" "log" "os" "syscall" "math" "golang.org/x/crypto/scrypt" "golang.org/x/crypto/ssh/terminal" ) func check(err error) { if err != nil { log.Fatal(err) } } const saltChunkName = "saLt" const chunkName = "crPt" const chunkSize = 0x100000 const scrN = 32768 const scrR = 8 const scrP = 1 const scrKeyLength = 32 var inputFile string var outputFile string var imageFile string var decryptImage bool func main() { encryptFlags := flag.NewFlagSet("encrypt", flag.ContinueOnError) decryptFlags := flag.NewFlagSet("decrypt", flag.ContinueOnError) encryptFlags.StringVar(&imageFile, "img", "image.png", "The path of the png file.") encryptFlags.StringVar(&imageFile, "image", "image.png", "The path of the png file.") decryptFlags.StringVar(&imageFile, "img", "image.png", "The path of the png file.") decryptFlags.StringVar(&imageFile, "image", "image.png", "The path of the png file.") encryptFlags.StringVar(&inputFile, "in", "input.txt","The file with the input data.") encryptFlags.StringVar(&outputFile, "out", "out.png", "The output filename for the image.") decryptFlags.StringVar(&outputFile, "out", "out.txt", "The output file for the decrypted data.") flag.Parse() switch os.Args[1] { case "encrypt": err := encryptFlags.Parse(os.Args[2:]) check(err) f, err := os.Open(imageFile) check(err) defer f.Close() check(err) fout, err := os.Create(outputFile) check(err) defer fout.Close() fin, err := os.Open(inputFile) check(err) defer fin.Close() EncryptDataPng(f, fin, fout) case "decrypt": err := decryptFlags.Parse(os.Args[2:]) check(err) f, err := os.Open(imageFile) check(err) defer f.Close() check(err) fout, err := os.Create(outputFile) check(err) defer fout.Close() DecryptDataPng(f, fout) } } // encrypts the data of fin inside the png (f) and writes it to fout func EncryptDataPng(f *os.File, fin *os.File, fout *os.File) { png := PngData{} err := png.Read(f) check(err) inputData, err := ioutil.ReadAll(fin) check(err) inputData, salt := encryptData(inputData) check(err) saltChunk := CreateChunk(salt, saltChunkName) png.AddMetaChunk(saltChunk) chunkCount := int(math.Ceil(float64(len(inputData)) / chunkSize)) for i := 0; i < chunkCount; i++ { dataStart := i * chunkSize dataEnd := dataStart + int(math.Min(chunkSize, float64(len(inputData[dataStart:])))) cryptChunk := CreateChunk(inputData[dataStart:dataEnd], chunkName) png.AddMetaChunk(cryptChunk) } err = png.Write(fout) check(err) } // Decrypts the data from a png file func DecryptDataPng(f *os.File, fout *os.File) { png := PngData{} err := png.Read(f) check(err) salt := make([]byte, 0) saltChunk := png.GetChunk(saltChunkName) if saltChunk != nil { salt = append(salt, saltChunk.data...) } var data []byte for _, cryptChunk := range png.GetChunksByName(chunkName) { data = append(data, cryptChunk.data...) } if len(data) > 0 { data, err = decryptData(data, salt) if err != nil { log.Println("\nThe provided password is probably incorrect.") } check(err) _, err = fout.Write(data) check(err) } else { log.Fatal("no encrypted data inside the input image") } } // creates an encrypted png chunk func encryptData(data []byte) ([]byte, []byte) { key, salt := readPassword(nil) encData, err := encrypt(key, data) check(err) return encData, salt } // decrypts the data of a png chunk func decryptData(data []byte, salt []byte) ([]byte, error) { key, _ := readPassword(&salt) return decrypt(key, data) } // reads a password from the terminal // turns off the input for the typing of the password func readPassword(passwordSalt *[]byte) ([]byte, []byte) { fmt.Print("Password: ") bytePw, err := terminal.ReadPassword(int(syscall.Stdin)) check(err) if passwordSalt != nil { key, err := scrypt.Key(bytePw, *passwordSalt, scrN, scrR, scrP, scrKeyLength) check(err) return key, *passwordSalt } else { salt := make([]byte, 32) _, err = io.ReadFull(rand.Reader, salt) check(err) key, err := scrypt.Key(bytePw, salt, scrN, scrR, scrP, scrKeyLength) check(err) return key, salt } } // function to encrypt the data func encrypt(key, data []byte) ([]byte, error) { block, err := aes.NewCipher(key) if err != nil { return nil, err } cipherText := make([]byte, aes.BlockSize+len(data)) iv := cipherText[:aes.BlockSize] if _, err := io.ReadFull(rand.Reader, iv); err != nil { return nil, err } cfb := cipher.NewCFBEncrypter(block, iv) cfb.XORKeyStream(cipherText[aes.BlockSize:], data) return cipherText, nil } // function to decrypt the data func decrypt(key, data []byte) ([]byte, error) { block, err := aes.NewCipher(key) if err != nil { return nil, err } if len(data) < aes.BlockSize { return nil, errors.New("data too short") } iv := data[:aes.BlockSize] data = data[aes.BlockSize:] cfb := cipher.NewCFBDecrypter(block, iv) cfb.XORKeyStream(data, data) return data, nil }