go-openssl
is a small library wrapping the crypto/aes
functions in a way the output is compatible to OpenSSL / CryptoJS. For all encryption / decryption processes AES256 is used so this library will not be able to decrypt messages generated with other than openssl aes-256-cbc
. If you're using CryptoJS to process the data you also need to use AES256 on that side.
For this library only the latest major version is supported. All prior major versions should no longer be used.
The versioning is following SemVer which means upgrading to a newer major version will break your code!
Starting with v2.0.0
go-openssl
generates the encryption keys using sha256sum
algorithm. This is the default introduced in OpenSSL 1.1.0c. When encrypting data you can choose which digest method to use and therefore also continue to use md5sum
. When decrypting OpenSSL encrypted data md5sum
, sha1sum
and sha256sum
are supported.
Starting with v4.0.0
go-openssl
is capable of using the PBKDF2 key derivation method for encryption. You can choose to use it by passing the corresponding CredsGenerator
.
# Get the latest version
go get github.com/Luzifer/go-openssl/v4
The usage is quite simple as you don't need any special knowledge about OpenSSL and/or AES256:
import (
"fmt"
openssl "github.com/Luzifer/go-openssl/v4"
)
func main() {
plaintext := "Hello World!"
passphrase := "z4yH36a6zerhfE5427ZV"
o := openssl.New()
enc, err := o.EncryptBytes(passphrase, []byte(plaintext), PBKDF2SHA256)
if err != nil {
fmt.Printf("An error occurred: %s\n", err)
}
fmt.Printf("Encrypted text: %s\n", string(enc))
}
import (
"fmt"
openssl "github.com/Luzifer/go-openssl/v4"
)
func main() {
opensslEncrypted := "U2FsdGVkX19ZM5qQJGe/d5A/4pccgH+arBGTp+QnWPU="
passphrase := "z4yH36a6zerhfE5427ZV"
o := openssl.New()
dec, err := o.DecryptBytes(passphrase, []byte(opensslEncrypted), BytesToKeyMD5)
if err != nil {
fmt.Printf("An error occurred: %s\n", err)
}
fmt.Printf("Decrypted text: %s\n", string(dec))
}
To execute the tests for this library you need to be on a system having /bin/bash
and openssl
available as the compatibility of the output is tested directly against the openssl
binary. The library itself should be usable on all operating systems supported by Go and crypto/aes
.