org.bouncycastle.pqc.jcajce.provider.util.CipherSpiExt Maven / Gradle / Ivy
Show all versions of bcprov-ext-jdk15on Show documentation
package org.bouncycastle.pqc.jcajce.provider.util;
import java.security.InvalidAlgorithmParameterException;
import java.security.InvalidKeyException;
import java.security.InvalidParameterException;
import java.security.Key;
import java.security.NoSuchAlgorithmException;
import java.security.SecureRandom;
import java.security.spec.AlgorithmParameterSpec;
import javax.crypto.BadPaddingException;
import javax.crypto.CipherSpi;
import javax.crypto.IllegalBlockSizeException;
import javax.crypto.NoSuchPaddingException;
import javax.crypto.ShortBufferException;
/**
* The CipherSpiExt class extends CipherSpi.
*/
public abstract class CipherSpiExt
extends CipherSpi
{
/**
* Constant specifying encrypt mode.
*/
public static final int ENCRYPT_MODE = javax.crypto.Cipher.ENCRYPT_MODE;
/**
* Constant specifying decrypt mode.
*/
public static final int DECRYPT_MODE = javax.crypto.Cipher.DECRYPT_MODE;
/**
* The operation mode for this cipher ({@link #ENCRYPT_MODE} or
* {@link #DECRYPT_MODE}).
*/
protected int opMode;
// ****************************************************
// JCA adapter methods
// ****************************************************
/**
* Initialize this cipher object with a proper key and some random seed.
* Before a cipher object is ready for data processing, it has to be
* initialized according to the desired cryptographic operation, which is
* specified by the opMode parameter.
*
* If this cipher (including its underlying mode or padding scheme) requires
* any random bytes, it will obtain them from random.
*
* Note: If the mode needs an initialization vector, a blank array is used
* in this case.
*
* @param opMode the operation mode ({@link #ENCRYPT_MODE} or
* {@link #DECRYPT_MODE})
* @param key the key
* @param random the random seed
* @throws java.security.InvalidKeyException if the key is inappropriate for initializing this cipher.
*/
protected final void engineInit(int opMode, java.security.Key key,
java.security.SecureRandom random)
throws java.security.InvalidKeyException
{
try
{
engineInit(opMode, key,
(java.security.spec.AlgorithmParameterSpec)null, random);
}
catch (java.security.InvalidAlgorithmParameterException e)
{
throw new InvalidParameterException(e.getMessage());
}
}
/**
* Initialize this cipher with a key, a set of algorithm parameters, and a
* source of randomness. The cipher is initialized for encryption or
* decryption, depending on the value of opMode.
*
* If this cipher (including its underlying mode or padding scheme) requires
* any random bytes, it will obtain them from random. Note that
* when a cipher object is initialized, it loses all
* previously-acquired state. In other words, initializing a Cipher is
* equivalent to creating a new instance of that Cipher and initializing it.
*
* Note: If the mode needs an initialization vector, a try to retrieve it
* from the AlgorithmParametersSpec is made.
*
* @param opMode the operation mode ({@link #ENCRYPT_MODE} or
* {@link #DECRYPT_MODE})
* @param key the key
* @param algParams the algorithm parameters
* @param random the random seed
* @throws java.security.InvalidKeyException if the key is inappropriate for initializing this block
* cipher.
* @throws java.security.InvalidAlgorithmParameterException if the parameters are inappropriate for initializing this
* block cipher.
*/
protected final void engineInit(int opMode, java.security.Key key,
java.security.AlgorithmParameters algParams,
java.security.SecureRandom random)
throws java.security.InvalidKeyException,
java.security.InvalidAlgorithmParameterException
{
// if algParams are not specified, initialize without them
if (algParams == null)
{
engineInit(opMode, key, random);
return;
}
AlgorithmParameterSpec paramSpec = null;
// XXX getting AlgorithmParameterSpec from AlgorithmParameters
engineInit(opMode, key, paramSpec, random);
}
/**
* Initialize this cipher with a key, a set of algorithm parameters, and a
* source of randomness. The cipher is initialized for one of the following
* four operations: encryption, decryption, key wrapping or key unwrapping,
* depending on the value of opMode. If this cipher (including its
* underlying feedback or padding scheme) requires any random bytes (e.g.,
* for parameter generation), it will get them from random. Note that when a
* Cipher object is initialized, it loses all previously-acquired state. In
* other words, initializing a Cipher is equivalent to creating a new
* instance of that Cipher and initializing it.
*
* @param opMode the operation mode ({@link #ENCRYPT_MODE} or
* {@link #DECRYPT_MODE})
* @param key the encryption key
* @param params the algorithm parameters
* @param javaRand the source of randomness
* @throws java.security.InvalidKeyException if the given key is inappropriate for initializing this
* cipher
* @throws java.security.InvalidAlgorithmParameterException if the given algorithm parameters are inappropriate for
* this cipher, or if this cipher is being initialized for
* decryption and requires algorithm parameters and the
* parameters are null.
*/
protected void engineInit(int opMode, java.security.Key key,
java.security.spec.AlgorithmParameterSpec params,
java.security.SecureRandom javaRand)
throws java.security.InvalidKeyException,
java.security.InvalidAlgorithmParameterException
{
if ((params != null) && !(params instanceof AlgorithmParameterSpec))
{
throw new java.security.InvalidAlgorithmParameterException();
}
if ((key == null) || !(key instanceof Key))
{
throw new java.security.InvalidKeyException();
}
this.opMode = opMode;
if (opMode == ENCRYPT_MODE)
{
SecureRandom flexiRand = javaRand;
initEncrypt((Key)key, (AlgorithmParameterSpec)params, flexiRand);
}
else if (opMode == DECRYPT_MODE)
{
initDecrypt((Key)key, (AlgorithmParameterSpec)params);
}
}
/**
* Return the result of the last step of a multi-step en-/decryption
* operation or the result of a single-step en-/decryption operation by
* processing the given input data and any remaining buffered data. The data
* to be processed is given in an input byte array. Beginning at
* inputOffset, only the first inputLen bytes are en-/decrypted, including
* any buffered bytes of a previous update operation. If necessary, padding
* is performed. The result is returned as a output byte array.
*
* @param input the byte array holding the data to be processed
* @param inOff the offset indicating the start position within the input
* byte array
* @param inLen the number of bytes to be processed
* @return the byte array containing the en-/decrypted data
* @throws javax.crypto.IllegalBlockSizeException if the ciphertext length is not a multiple of the
* blocklength.
* @throws javax.crypto.BadPaddingException if unpadding is not possible.
*/
protected final byte[] engineDoFinal(byte[] input, int inOff, int inLen)
throws javax.crypto.IllegalBlockSizeException,
javax.crypto.BadPaddingException
{
return doFinal(input, inOff, inLen);
}
/**
* Perform the last step of a multi-step en-/decryption operation or a
* single-step en-/decryption operation by processing the given input data
* and any remaining buffered data. The data to be processed is given in an
* input byte array. Beginning at inputOffset, only the first inputLen bytes
* are en-/decrypted, including any buffered bytes of a previous update
* operation. If necessary, padding is performed. The result is stored in
* the given output byte array, beginning at outputOffset. The number of
* bytes stored in this byte array are returned.
*
* @param input the byte array holding the data to be processed
* @param inOff the offset indicating the start position within the input
* byte array
* @param inLen the number of bytes to be processed
* @param output the byte array for holding the result
* @param outOff the offset indicating the start position within the output
* byte array to which the en/decrypted data is written
* @return the number of bytes stored in the output byte array
* @throws javax.crypto.ShortBufferException if the output buffer is too short to hold the output.
* @throws javax.crypto.IllegalBlockSizeException if the ciphertext length is not a multiple of the
* blocklength.
* @throws javax.crypto.BadPaddingException if unpadding is not possible.
*/
protected final int engineDoFinal(byte[] input, int inOff, int inLen,
byte[] output, int outOff)
throws javax.crypto.ShortBufferException,
javax.crypto.IllegalBlockSizeException,
javax.crypto.BadPaddingException
{
return doFinal(input, inOff, inLen, output, outOff);
}
/**
* @return the block size (in bytes), or 0 if the underlying algorithm is
* not a block cipher
*/
protected final int engineGetBlockSize()
{
return getBlockSize();
}
/**
* Return the key size of the given key object in bits.
*
* @param key the key object
* @return the key size in bits of the given key object
* @throws java.security.InvalidKeyException if key is invalid.
*/
protected final int engineGetKeySize(java.security.Key key)
throws java.security.InvalidKeyException
{
if (!(key instanceof Key))
{
throw new java.security.InvalidKeyException("Unsupported key.");
}
return getKeySize((Key)key);
}
/**
* Return the initialization vector. This is useful in the context of
* password-based encryption or decryption, where the IV is derived from a
* user-provided passphrase.
*
* @return the initialization vector in a new buffer, or null if
* the underlying algorithm does not use an IV, or if the IV has not
* yet been set.
*/
protected final byte[] engineGetIV()
{
return getIV();
}
/**
* Return the length in bytes that an output buffer would need to be in
* order to hold the result of the next update or doFinal operation, given
* the input length inputLen (in bytes).
*
* This call takes into account any unprocessed (buffered) data from a
* previous update call, and padding.
*
* The actual output length of the next update or doFinal call may be
* smaller than the length returned by this method.
*
* @param inLen the input length (in bytes)
* @return the required output buffer size (in bytes)
*/
protected final int engineGetOutputSize(int inLen)
{
return getOutputSize(inLen);
}
/**
* Returns the parameters used with this cipher.
*
* The returned parameters may be the same that were used to initialize this
* cipher, or may contain the default set of parameters or a set of randomly
* generated parameters used by the underlying cipher implementation
* (provided that the underlying cipher implementation uses a default set of
* parameters or creates new parameters if it needs parameters but was not
* initialized with any).
*
* @return the parameters used with this cipher, or null if this cipher does
* not use any parameters.
*/
protected final java.security.AlgorithmParameters engineGetParameters()
{
// TODO
return null;
}
/**
* Set the mode of this cipher.
*
* @param modeName the cipher mode
* @throws java.security.NoSuchAlgorithmException if neither the mode with the given name nor the default
* mode can be found
*/
protected final void engineSetMode(String modeName)
throws java.security.NoSuchAlgorithmException
{
setMode(modeName);
}
/**
* Set the padding scheme of this cipher.
*
* @param paddingName the padding scheme
* @throws javax.crypto.NoSuchPaddingException if the requested padding scheme cannot be found.
*/
protected final void engineSetPadding(String paddingName)
throws javax.crypto.NoSuchPaddingException
{
setPadding(paddingName);
}
/**
* Return the result of the next step of a multi-step en-/decryption
* operation. The data to be processed is given in an input byte array.
* Beginning at inputOffset, only the first inputLen bytes are
* en-/decrypted. The result is returned as a byte array.
*
* @param input the byte array holding the data to be processed
* @param inOff the offset indicating the start position within the input
* byte array
* @param inLen the number of bytes to be processed
* @return the byte array containing the en-/decrypted data
*/
protected final byte[] engineUpdate(byte[] input, int inOff, int inLen)
{
return update(input, inOff, inLen);
}
/**
* Perform the next step of a multi-step en-/decryption operation. The data
* to be processed is given in an input byte array. Beginning at
* inputOffset, only the first inputLen bytes are en-/decrypted. The result
* is stored in the given output byte array, beginning at outputOffset. The
* number of bytes stored in this output byte array are returned.
*
* @param input the byte array holding the data to be processed
* @param inOff the offset indicating the start position within the input
* byte array
* @param inLen the number of bytes to be processed
* @param output the byte array for holding the result
* @param outOff the offset indicating the start position within the output
* byte array to which the en-/decrypted data is written
* @return the number of bytes that are stored in the output byte array
* @throws javax.crypto.ShortBufferException if the output buffer is too short to hold the output.
*/
protected final int engineUpdate(final byte[] input, final int inOff,
final int inLen, byte[] output, final int outOff)
throws javax.crypto.ShortBufferException
{
return update(input, inOff, inLen, output, outOff);
}
/**
* Initialize this cipher with a key, a set of algorithm parameters, and a
* source of randomness for encryption.
*
* If this cipher requires any algorithm parameters and paramSpec is null,
* the underlying cipher implementation is supposed to generate the required
* parameters itself (using provider-specific default or random values) if
* it is being initialized for encryption, and raise an
* InvalidAlgorithmParameterException if it is being initialized for
* decryption. The generated parameters can be retrieved using
* engineGetParameters or engineGetIV (if the parameter is an IV).
*
* If this cipher (including its underlying feedback or padding scheme)
* requires any random bytes (e.g., for parameter generation), it will get
* them from random.
*
* Note that when a cipher object is initialized, it loses all
* previously-acquired state. In other words, initializing a Cipher is
* equivalent to creating a new instance of that Cipher and initializing it.
*
* @param key the encryption key
* @param cipherParams the cipher parameters
* @param random the source of randomness
* @throws InvalidKeyException if the given key is inappropriate for initializing this
* block cipher.
* @throws InvalidAlgorithmParameterException if the parameters are inappropriate for initializing this
* block cipher.
*/
public abstract void initEncrypt(Key key,
AlgorithmParameterSpec cipherParams, SecureRandom random)
throws InvalidKeyException, InvalidAlgorithmParameterException;
/**
* Initialize this cipher with a key, a set of algorithm parameters, and a
* source of randomness for decryption.
*
* If this cipher requires any algorithm parameters and paramSpec is null,
* the underlying cipher implementation is supposed to generate the required
* parameters itself (using provider-specific default or random values) if
* it is being initialized for encryption, and throw an
* {@link InvalidAlgorithmParameterException} if it is being initialized for
* decryption. The generated parameters can be retrieved using
* engineGetParameters or engineGetIV (if the parameter is an IV).
*
* If this cipher (including its underlying feedback or padding scheme)
* requires any random bytes (e.g., for parameter generation), it will get
* them from random.
*
* Note that when a cipher object is initialized, it loses all
* previously-acquired state. In other words, initializing a Cipher is
* equivalent to creating a new instance of that Cipher and initializing it.
*
* @param key the encryption key
* @param cipherParams the cipher parameters
* @throws InvalidKeyException if the given key is inappropriate for initializing this
* block cipher.
* @throws InvalidAlgorithmParameterException if the parameters are inappropriate for initializing this
* block cipher.
*/
public abstract void initDecrypt(Key key,
AlgorithmParameterSpec cipherParams)
throws InvalidKeyException,
InvalidAlgorithmParameterException;
/**
* @return the name of this cipher
*/
public abstract String getName();
/**
* @return the block size (in bytes), or 0 if the underlying algorithm is
* not a block cipher
*/
public abstract int getBlockSize();
/**
* Returns the length in bytes that an output buffer would need to be in
* order to hold the result of the next update or doFinal operation, given
* the input length inputLen (in bytes).
*
* This call takes into account any unprocessed (buffered) data from a
* previous update call, and padding.
*
* The actual output length of the next update or doFinal call may be
* smaller than the length returned by this method.
*
* @param inputLen the input length (in bytes)
* @return the required output buffer size (in bytes)
*/
public abstract int getOutputSize(int inputLen);
/**
* Return the key size of the given key object in bits.
*
* @param key the key object
* @return the key size in bits of the given key object
* @throws InvalidKeyException if key is invalid.
*/
public abstract int getKeySize(Key key)
throws InvalidKeyException;
/**
* Returns the parameters used with this cipher.
*
* The returned parameters may be the same that were used to initialize this
* cipher, or may contain the default set of parameters or a set of randomly
* generated parameters used by the underlying cipher implementation
* (provided that the underlying cipher implementation uses a default set of
* parameters or creates new parameters if it needs parameters but was not
* initialized with any).
*
* @return the parameters used with this cipher, or null if this cipher does
* not use any parameters.
*/
public abstract AlgorithmParameterSpec getParameters();
/**
* Return the initialization vector. This is useful in the context of
* password-based encryption or decryption, where the IV is derived from a
* user-provided passphrase.
*
* @return the initialization vector in a new buffer, or null if
* the underlying algorithm does not use an IV, or if the IV has not
* yet been set.
*/
public abstract byte[] getIV();
/**
* Set the mode of this cipher.
*
* @param mode the cipher mode
* @throws NoSuchAlgorithmException if the requested mode cannot be found.
*/
protected abstract void setMode(String mode)
throws NoSuchAlgorithmException;
/**
* Set the padding mechanism of this cipher.
*
* @param padding the padding mechanism
* @throws NoSuchPaddingException if the requested padding scheme cannot be found.
*/
protected abstract void setPadding(String padding)
throws NoSuchPaddingException;
/**
* Continue a multiple-part encryption or decryption operation (depending on
* how this cipher was initialized), processing another data part.
*
* @param input the input buffer
* @return a new buffer with the result (maybe an empty byte array)
*/
public final byte[] update(byte[] input)
{
return update(input, 0, input.length);
}
/**
* Continue a multiple-part encryption or decryption operation (depending on
* how this cipher was initialized), processing another data part.
*
* @param input the input buffer
* @param inOff the offset where the input starts
* @param inLen the input length
* @return a new buffer with the result (maybe an empty byte array)
*/
public abstract byte[] update(byte[] input, int inOff, int inLen);
/**
* Continue a multiple-part encryption or decryption operation (depending on
* how this cipher was initialized), processing another data part.
*
* @param input the input buffer
* @param inOff the offset where the input starts
* @param inLen the input length
* @param output the output buffer
* @param outOff the offset where the result is stored
* @return the length of the output
* @throws ShortBufferException if the output buffer is too small to hold the result.
*/
public abstract int update(byte[] input, int inOff, int inLen,
byte[] output, int outOff)
throws ShortBufferException;
/**
* Finish a multiple-part encryption or decryption operation (depending on
* how this cipher was initialized).
*
* @return a new buffer with the result
* @throws IllegalBlockSizeException if this cipher is a block cipher and the total input
* length is not a multiple of the block size (for
* encryption when no padding is used or for decryption).
* @throws BadPaddingException if this cipher is a block cipher and unpadding fails.
*/
public final byte[] doFinal()
throws IllegalBlockSizeException,
BadPaddingException
{
return doFinal(null, 0, 0);
}
/**
* Finish a multiple-part encryption or decryption operation (depending on
* how this cipher was initialized).
*
* @param input the input buffer
* @return a new buffer with the result
* @throws IllegalBlockSizeException if this cipher is a block cipher and the total input
* length is not a multiple of the block size (for
* encryption when no padding is used or for decryption).
* @throws BadPaddingException if this cipher is a block cipher and unpadding fails.
*/
public final byte[] doFinal(byte[] input)
throws IllegalBlockSizeException,
BadPaddingException
{
return doFinal(input, 0, input.length);
}
/**
* Finish a multiple-part encryption or decryption operation (depending on
* how this cipher was initialized).
*
* @param input the input buffer
* @param inOff the offset where the input starts
* @param inLen the input length
* @return a new buffer with the result
* @throws IllegalBlockSizeException if this cipher is a block cipher and the total input
* length is not a multiple of the block size (for
* encryption when no padding is used or for decryption).
* @throws BadPaddingException if this cipher is a block cipher and unpadding fails.
*/
public abstract byte[] doFinal(byte[] input, int inOff, int inLen)
throws IllegalBlockSizeException, BadPaddingException;
/**
* Finish a multiple-part encryption or decryption operation (depending on
* how this cipher was initialized).
*
* @param input the input buffer
* @param inOff the offset where the input starts
* @param inLen the input length
* @param output the buffer for the result
* @param outOff the offset where the result is stored
* @return the output length
* @throws ShortBufferException if the output buffer is too small to hold the result.
* @throws IllegalBlockSizeException if this cipher is a block cipher and the total input
* length is not a multiple of the block size (for
* encryption when no padding is used or for decryption).
* @throws BadPaddingException if this cipher is a block cipher and unpadding fails.
*/
public abstract int doFinal(byte[] input, int inOff, int inLen,
byte[] output, int outOff)
throws ShortBufferException,
IllegalBlockSizeException, BadPaddingException;
}