org.bouncycastle.crypto.engines
Class EthereumIESEngine
java.lang.Object
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+--org.bouncycastle.crypto.engines.EthereumIESEngine
- public class EthereumIESEngine
- extends java.lang.Object
Support class for constructing integrated encryption ciphers for doing basic message exchanges on top of key
agreement ciphers. Follows the description given in IEEE Std 1363a.
Some tweaks added to IESEngine to conform to the Ethereum encryption approach.
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Inner Class Summary |
static class |
EthereumIESEngine.HandshakeKDFFunction
Basic KDF generator for derived keys and ivs as defined by IEEE P1363a/ISO 18033
This implementation is based on ISO 18033/P1363a. |
| Methods inherited from class java.lang.Object |
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait |
EthereumIESEngine
public EthereumIESEngine(BasicAgreement agree,
DerivationFunction kdf,
Mac mac,
byte[] commonMac)
- Set up for use with stream mode, where the key derivation function is used to provide a stream of bytes to xor with
the message.
- Parameters:
agree - the key agreement used as the basis for the encryptionkdf - the key derivation function used for byte generationmac - the message authentication code generator for the messagecommonMac - the common MAC bytes to append to the mac
EthereumIESEngine
public EthereumIESEngine(BasicAgreement agree,
DerivationFunction kdf,
Mac mac,
byte[] commonMac,
BufferedBlockCipher cipher)
- Set up for use in conjunction with a block cipher to handle the message. It is strongly recommended that the
cipher is not in ECB mode.
- Parameters:
agree - the key agreement used as the basis for the encryptionkdf - the key derivation function used for byte generationmac - the message authentication code generator for the messagecommonMac - the common MAC bytes to append to the maccipher - the cipher to used for encrypting the message
init
public void init(boolean forEncryption,
CipherParameters privParam,
CipherParameters pubParam,
CipherParameters params)
- Initialise the encryptor.
- Parameters:
forEncryption - whether or not this is encryption/decryption.privParam - our private key parameterspubParam - the recipient's/sender's public key parametersparams - encoding and derivation parameters, may be wrapped to include an IV for an underlying block cipher.
init
public void init(AsymmetricKeyParameter publicKey,
CipherParameters params,
EphemeralKeyPairGenerator ephemeralKeyPairGenerator)
- Initialise the decryptor.
- Parameters:
publicKey - the recipient's/sender's public key parametersparams - encoding and derivation parameters, may be wrapped to include an IV for an underlying block cipher.ephemeralKeyPairGenerator - the ephemeral key pair generator to use.
init
public void init(AsymmetricKeyParameter privateKey,
CipherParameters params,
KeyParser publicKeyParser)
- Initialise the encryptor.
- Parameters:
privateKey - the recipient's private key.params - encoding and derivation parameters, may be wrapped to include an IV for an underlying block cipher.publicKeyParser - the parser for reading the ephemeral public key.
getCipher
public BufferedBlockCipher getCipher()
getMac
public Mac getMac()
processBlock
public byte[] processBlock(byte[] in,
int inOff,
int inLen)
throws InvalidCipherTextException
getLengthTag
protected byte[] getLengthTag(byte[] p2)