openssl

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Published: May 23, 2024 License: BSD-3-Clause Imports: 14 Imported by: 0

README

Open SSL

OpenSSL module is a porting of original work https://github.com/Luzifer/go-openssl/

Documentation

Index

Constants

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const DefaultPBKDF2Iterations = 10000

Variables

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var ErrInvalidSalt = errors.New("Salt needs to have exactly 8 byte")

ErrInvalidSalt is returned when a salt with a length of != 8 byte is passed

Functions

This section is empty.

Types

type Creds

type Creds struct {
	Key []byte
	IV  []byte
}

Creds holds a key and an IV for encryption methods

type CredsGenerator

type CredsGenerator func(password, salt []byte) (Creds, error)

CredsGenerator are functions to derive a key and iv from a password and a salt

func NewBytesToKeyGenerator

func NewBytesToKeyGenerator(hashFunc func() hash.Hash) CredsGenerator

NewBytesToKeyGenerator openSSLEvpBytesToKey follows the OpenSSL (undocumented?) convention for extracting the key and IV from passphrase. It uses the EVP_BytesToKey() method which is basically: D_i = HASH^count(D_(i-1) || password || salt) where || denotes concatenation, until there are sufficient bytes available 48 bytes since we're expecting to handle AES-256, 32bytes for a key and 16bytes for the IV

func NewPBKDF2Generator

func NewPBKDF2Generator(hashFunc func() hash.Hash, iterations int) CredsGenerator

type OpenSSL

type OpenSSL struct {
	// contains filtered or unexported fields
}

OpenSSL is a helper to generate OpenSSL compatible encryption with autmatic IV derivation and storage. As long as the key is known all data can also get decrypted using OpenSSL CLI. Code from http://dequeue.blogspot.de/2014/11/decrypting-something-encrypted-with.html

func NewOpenSSL

func NewOpenSSL() *OpenSSL

NewOpenSSL New instantiates and initializes a new OpenSSL encrypter

func (OpenSSL) DecryptBinaryBytes

func (instance OpenSSL) DecryptBinaryBytes(passphrase string, encryptedData []byte, cg CredsGenerator) ([]byte, error)

DecryptBinaryBytes takes a slice of binary bytes, encrypted data to decrypt and a key-derivation function. The key-derivation function must match the function used to encrypt the data. (In OpenSSL the value of the `-md` parameter.)

You should not just try to loop the digest functions as this will cause a race condition and you will not be able to decrypt your data properly.

func (OpenSSL) DecryptBytes

func (instance OpenSSL) DecryptBytes(passphrase string, encryptedBase64Data []byte, cg CredsGenerator) ([]byte, error)

DecryptBytes takes a slice of bytes with base64 encoded, encrypted data to decrypt and a key-derivation function. The key-derivation function must match the function used to encrypt the data. (In OpenSSL the value of the `-md` parameter.)

You should not just try to loop the digest functions as this will cause a race condition and you will not be able to decrypt your data properly.

func (OpenSSL) EncryptBinaryBytes

func (instance OpenSSL) EncryptBinaryBytes(passphrase string, plainData []byte, cg CredsGenerator) ([]byte, error)

EncryptBinaryBytes encrypts a slice of bytes in a manner compatible to OpenSSL encryption functions using AES-256-CBC as encryption algorithm. This function generates a random salt on every execution.

func (OpenSSL) EncryptBinaryBytesWithSaltAndDigestFunc

func (instance OpenSSL) EncryptBinaryBytesWithSaltAndDigestFunc(passphrase string, salt, plainData []byte, cg CredsGenerator) ([]byte, error)

EncryptBinaryBytesWithSaltAndDigestFunc encrypts a slice of bytes in a manner compatible to OpenSSL encryption functions using AES-256-CBC as encryption algorithm. The salt needs to be passed in here which ensures the same result on every execution on cost of a much weaker encryption as with EncryptString.

The salt passed into this function needs to have exactly 8 byte.

The hash function corresponds to the `-md` parameter of OpenSSL. For OpenSSL pre-1.1.0c DigestMD5Sum was the default, since then it is DigestSHA256Sum.

If you don't have a good reason to use this, please don't! For more information see this: https://en.wikipedia.org/wiki/Salt_(cryptography)#Common_mistakes

func (OpenSSL) EncryptBytes

func (instance OpenSSL) EncryptBytes(passphrase string, plainData []byte, cg CredsGenerator) ([]byte, error)

EncryptBytes encrypts a slice of bytes that are base64 encoded in a manner compatible to OpenSSL encryption functions using AES-256-CBC as encryption algorithm. This function generates a random salt on every execution.

func (OpenSSL) EncryptBytesWithSaltAndDigestFunc

func (instance OpenSSL) EncryptBytesWithSaltAndDigestFunc(passphrase string, salt, plainData []byte, cg CredsGenerator) ([]byte, error)

EncryptBytesWithSaltAndDigestFunc encrypts a slice of bytes that are base64 encoded in a manner compatible to OpenSSL encryption functions using AES-256-CBC as encryption algorithm. The salt needs to be passed in here which ensures the same result on every execution on cost of a much weaker encryption as with EncryptString.

The salt passed into this function needs to have exactly 8 byte.

The hash function corresponds to the `-md` parameter of OpenSSL. For OpenSSL pre-1.1.0c DigestMD5Sum was the default, since then it is DigestSHA256Sum.

If you don't have a good reason to use this, please don't! For more information see this: https://en.wikipedia.org/wiki/Salt_(cryptography)#Common_mistakes

func (OpenSSL) GenerateSalt

func (instance OpenSSL) GenerateSalt() ([]byte, error)

GenerateSalt generates a random 8 byte salt

func (OpenSSL) MustGenerateSalt

func (instance OpenSSL) MustGenerateSalt() []byte

MustGenerateSalt is a wrapper around GenerateSalt which will panic on an error. This allows you to use this function as a parameter to EncryptBytesWithSaltAndDigestFunc

type OpenSSLHelper

type OpenSSLHelper struct {
}
var OpenSSLUtil *OpenSSLHelper

func (*OpenSSLHelper) New

func (instance *OpenSSLHelper) New() *OpenSSL

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