A functions wrapping of OpenSSL library for symmetric and asymmetric encryption and decryption
The only requirement is the Go Programming Language
go get -u github.com/forgoer/openssl
The length of the key can be 16/24/32 characters (128/192/256 bits)
AES-ECB:
src := []byte("123456")
key := []byte("1234567890123456")
dst , _ := openssl.AesECBEncrypt(src, key, openssl.PKCS7_PADDING)
fmt.Printf(base64.StdEncoding.EncodeToString(dst)) // yXVUkR45PFz0UfpbDB8/ew==
dst , _ = openssl.AesECBDecrypt(dst, key, openssl.PKCS7_PADDING)
fmt.Println(string(dst)) // 123456
AES-CBC:
src := []byte("123456")
key := []byte("1234567890123456")
iv := []byte("1234567890123456")
dst , _ := openssl.AesCBCEncrypt(src, key, iv, openssl.PKCS7_PADDING)
fmt.Println(base64.StdEncoding.EncodeToString(dst)) // 1jdzWuniG6UMtoa3T6uNLA==
dst , _ = openssl.AesCBCDecrypt(dst, key, iv, openssl.PKCS7_PADDING)
fmt.Println(string(dst)) // 123456
The length of the key must be 8 characters (64 bits).
DES-ECB:
openssl.DesECBEncrypt(src, key, openssl.PKCS7_PADDING)
openssl.DesECBDecrypt(src, key, openssl.PKCS7_PADDING)
DES-CBC:
openssl.DesCBCEncrypt(src, key, iv, openssl.PKCS7_PADDING)
openssl.DesCBCDecrypt(src, key, iv, openssl.PKCS7_PADDING)
The length of the key must be 24 characters (192 bits).
3DES-ECB:
openssl.Des3ECBEncrypt(src, key, openssl.PKCS7_PADDING)
openssl.Des3ECBDecrypt(src, key, openssl.PKCS7_PADDING)
3DES-CBC:
openssl.Des3CBCEncrypt(src, key, iv, openssl.PKCS7_PADDING)
openssl.Des3CBCDecrypt(src, key, iv, openssl.PKCS7_PADDING)
openssl.RSAGenerateKey(bits int, out io.Writer)
openssl.RSAGeneratePublicKey(priKey []byte, out io.Writer)
openssl.RSAEncrypt(src, pubKey []byte) ([]byte, error)
openssl.RSADecrypt(src, priKey []byte) ([]byte, error)
openssl.RSASign(src []byte, priKey []byte, hash crypto.Hash) ([]byte, error)
openssl.RSAVerify(src, sign, pubKey []byte, hash crypto.Hash) error
// Sha1 Calculate the sha1 hash of a string
Sha1(str string) []byte
// HmacSha1 Calculate the sha1 hash of a string using the HMAC method
HmacSha1(key string, data string) []byte
// HmacSha1ToString Calculate the sha1 hash of a string using the HMAC method, outputs lowercase hexits
HmacSha1ToString(key string, data string) string
// Sha256 Calculate the sha256 hash of a string
Sha256(str string) []byte
// HmacSha256 Calculate the sha256 hash of a string using the HMAC method
HmacSha256(key string, data string) []byte
// HmacSha256ToString Calculate the sha256 hash of a string using the HMAC method, outputs lowercase hexits
HmacSha256ToString(key string, data string) string
This project is licensed under the Apache 2.0 license.
If you have any issues or feature requests, please contact us. PR is welcomed.