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/*
 * Copyright 2013-2018 Amazon.com, Inc. or its affiliates. All Rights Reserved.
 *
 * Licensed under the Apache License, Version 2.0 (the "License").
 * You may not use this file except in compliance with the License.
 * A copy of the License is located at
 *
 *  http://aws.amazon.com/apache2.0
 *
 * or in the "license" file accompanying this file. This file is distributed
 * on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either
 * express or implied. See the License for the specific language governing
 * permissions and limitations under the License.
 */

package com.amazonaws.services.s3.internal.crypto;

import java.security.InvalidAlgorithmParameterException;
import java.security.InvalidKeyException;
import java.security.NoSuchAlgorithmException;
import java.security.NoSuchProviderException;
import java.security.Provider;

import javax.crypto.BadPaddingException;
import javax.crypto.Cipher;
import javax.crypto.IllegalBlockSizeException;
import javax.crypto.NoSuchPaddingException;
import javax.crypto.NullCipher;
import javax.crypto.SecretKey;

/**
 * Functions like a {@link Cipher} but provides only a subset of all the
 * interface methods of {@link Cipher}. This class is intended to be used in
 * lieu of the underlying Cipher directly whenever applicable. For example, this
 * class makes it easy to generate an inverse cipher, or to create an
 * "auxiliary" cipher for use with get-range or multi-part upload operations. A
 * subclass may also support the mark and reset operations to enable parts of a
 * plaintext to be re-processed which is useful for error recovery typical when
 * network transmission is involved.
 * 

* However a cipher lite, unlike a {@link Cipher}, can only be used once, and * cannot be reused after the {@link #doFinal()} methods have been invoked. In * other words, it is NOT true that, upon finishing, the doFinal method will * reset the cipher lite object to the state it was in when first constructed. * * @author Hanson Char * @see GCMCipherLite */ class CipherLite { /** * A no-op implementation. */ static final CipherLite NULL = new CipherLite() { @Override CipherLite createAuxiliary(long startingBytePos) { return this; } @Override CipherLite createInverse() { return this; } }; private final Cipher cipher; private final ContentCryptoScheme scheme; private final SecretKey secreteKey; private final int cipherMode; private CipherLite() { this.cipher = new NullCipher(); this.scheme = null; this.secreteKey = null; this.cipherMode = -1; } CipherLite(Cipher cipher, ContentCryptoScheme scheme, SecretKey secreteKey, int cipherMode) { this.cipher = cipher; this.scheme = scheme; this.secreteKey = secreteKey; this.cipherMode = cipherMode; } /** * Recreates a new instance of CipherLite from the current one. */ CipherLite recreate() { return scheme.createCipherLite(secreteKey, cipher.getIV(), this.cipherMode, cipher.getProvider()); } /** * Creates a new instance of CipherLite from the current one, but using * the given IV. */ CipherLite createUsingIV(byte[] iv) { return scheme.createCipherLite(secreteKey, iv, this.cipherMode, cipher.getProvider()); } /** * Returns an auxiliary {@link CipherLite} for partial plaintext * re-encryption (or re-decryption) purposes. * * @param startingBytePos the starting byte position of the plaintext. Must * be a multiple of the cipher block size. */ CipherLite createAuxiliary(long startingBytePos) throws InvalidKeyException, NoSuchAlgorithmException, NoSuchProviderException, NoSuchPaddingException, InvalidAlgorithmParameterException { return scheme.createAuxillaryCipher(secreteKey, cipher.getIV(), cipherMode, cipher.getProvider(), startingBytePos); } /** * Returns the inverse of the current {@link CipherLite}. */ CipherLite createInverse() throws InvalidKeyException, NoSuchAlgorithmException, NoSuchProviderException, NoSuchPaddingException, InvalidAlgorithmParameterException { int inversedMode; if (cipherMode == Cipher.DECRYPT_MODE) inversedMode = Cipher.ENCRYPT_MODE; else if (cipherMode == Cipher.ENCRYPT_MODE) inversedMode = Cipher.DECRYPT_MODE; else throw new UnsupportedOperationException(); return scheme.createCipherLite(secreteKey, cipher.getIV(), inversedMode, cipher.getProvider()); } /** * Finishes a multiple-part encryption or decryption operation, depending on * how the underlying cipher was initialized. *

* Input data that may have been buffered during a previous * update operation is processed, with padding (if requested) * being applied. If an AEAD mode such as GCM/CCM is being used, the * authentication tag is appended in the case of encryption, or verified in * the case of decryption. The result is stored in a new buffer. *

* Note: if any exception is thrown, a new instance of this cipher lite * object may need to be constructed before it can be used again. be * reconstructed before it can be used again. * * @return the new buffer with the result * @exception IllegalStateException if this cipher is in a wrong state (e.g., * has not been initialized) * @exception IllegalBlockSizeException if this cipher is a block cipher, no * padding has been requested (only in encryption mode), and * the total input length of the data processed by this * cipher is not a multiple of block size; or if this * encryption algorithm is unable to process the input data * provided. * @exception BadPaddingException if this cipher is in decryption mode, and * (un)padding has been requested, but the decrypted data is * not bounded by the appropriate padding bytes * @exception BadTagException if this cipher is decrypting in an AEAD mode * (such as GCM/CCM), and the received authentication tag * does not match the calculated value */ byte[] doFinal() throws IllegalBlockSizeException, BadPaddingException { return cipher.doFinal(); } /** * Encrypts or decrypts data in a single-part operation, or finishes a * multiple-part operation. The data is encrypted or decrypted, depending on * how the underlying cipher was initialized. *

* The bytes in the input buffer, and any input bytes that may * have been buffered during a previous update operation, are * processed, with padding (if requested) being applied. If an AEAD mode * such as GCM/CCM is being used, the authentication tag is appended in the * case of encryption, or verified in the case of decryption. The result is * stored in a new buffer. *

* Note: if any exception is thrown, a new instance of this cipher lite * object may need to be constructed before it can be used again. * * @param input the input buffer * @return the new buffer with the result * @exception IllegalStateException if this cipher is in a wrong state (e.g., * has not been initialized) * @exception IllegalBlockSizeException if this cipher is a block cipher, no * padding has been requested (only in encryption mode), and * the total input length of the data processed by this * cipher is not a multiple of block size; or if this * encryption algorithm is unable to process the input data * provided. * @exception BadPaddingException if this cipher is in decryption mode, and * (un)padding has been requested, but the decrypted data is * not bounded by the appropriate padding bytes; or if this * cipher is decrypting in an AEAD mode (such as GCM/CCM), * and the received authentication tag does not match the * calculated value */ byte[] doFinal(byte[] input) throws IllegalBlockSizeException, BadPaddingException { return cipher.doFinal(input); } /** * Encrypts or decrypts data in a single-part operation, or finishes a * multiple-part operation. The data is encrypted or decrypted, depending on * how the underlying cipher was initialized. *

* The first inputLen bytes in the input buffer, * starting at inputOffset inclusive, and any input bytes that * may have been buffered during a previous update operation, * are processed, with padding (if requested) being applied. If an AEAD mode * such as GCM/CCM is being used, the authentication tag is appended in the * case of encryption, or verified in the case of decryption. The result is * stored in a new buffer. *

* Note: if any exception is thrown, a new instance of this cipher lite * object may need to be constructed before it can be used again. * * @param input the input buffer * @param inputOffset the offset in input where the input * starts * @param inputLen the input length * @return the new buffer with the result * @exception IllegalStateException if this cipher is in a wrong state (e.g., * has not been initialized) * @exception IllegalBlockSizeException if this cipher is a block cipher, no * padding has been requested (only in encryption mode), and * the total input length of the data processed by this * cipher is not a multiple of block size; or if this * encryption algorithm is unable to process the input data * provided. * @exception BadPaddingException if this cipher is in decryption mode, and * (un)padding has been requested, but the decrypted data is * not bounded by the appropriate padding bytes; or if this * cipher is decrypting in an AEAD mode (such as GCM/CCM), * and the received authentication tag does not match the * calculated value */ byte[] doFinal(byte[] input, int inputOffset, int inputLen) throws IllegalBlockSizeException, BadPaddingException { return cipher.doFinal(input, inputOffset, inputLen); } /** * Continues a multiple-part encryption or decryption operation (depending * on how the underlying cipher was initialized), processing another data * part. *

* The first inputLen bytes in the input buffer, * starting at inputOffset inclusive, are processed, and the * result is stored in a new buffer. *

* If inputLen is zero, this method returns null. * * @param input the input buffer * @param inputOffset the offset in input where the input * starts * @param inputLen the input length * @return the new buffer with the result, or null if the underlying cipher * is a block cipher and the input data is too short to result in a * new block. * @exception IllegalStateException if the underlying cipher is in a wrong * state (e.g., has not been initialized) */ byte[] update(byte[] input, int inputOffset, int inputLen) { return cipher.update(input, inputOffset, inputLen); } /** * Returns the algorithm name of the underlying cipher. */ final String getCipherAlgorithm() { return cipher.getAlgorithm(); } /** * Returns the provider of the underlying cipher. */ final Provider getCipherProvider() { return cipher.getProvider(); } /** * Returns the standard algorithm name for the secret key. For example, * "DSA" would indicate that this key is a DSA key. See Appendix A in the Java Cryptography Architecture API Specification & Reference * for information about standard algorithm names. */ final String getSecretKeyAlgorithm() { return secreteKey.getAlgorithm(); } /** * This method is provided only for testing purposes. The {@link CipherLite} * is intended to be used in lieu of the underlying Cipher. */ final Cipher getCipher() { return cipher; } final ContentCryptoScheme getContentCryptoScheme() { return scheme; } /** * Returns the initialization vector (IV) in a new buffer. *

* This is useful in the case where a random IV was created, or in the * context of password-based encryption or decryption, where the IV is * derived from a user-supplied password. * * @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. */ final byte[] getIV() { return cipher.getIV(); } /** * Returns the block size (in bytes). * * @return the block size (in bytes), or 0 if the underlying algorithm is * not a block cipher */ final int getBlockSize() { return cipher.getBlockSize(); } final int getCipherMode() { return cipherMode; } /** * Tests if this cipher lite supports the mark and * reset methods. Returns false by default, but subclass may * override. */ boolean markSupported() { return false; } /** * Marks the current position in this cipher lite. A subsequent call to the * reset method repositions this cipher lite at the last marked * position so that subsequent crypto operations will be logically performed * in an idempotent manner as if the cipher has been rewinded back to the * marked position. *

* The general contract of mark is that, if the method * markSupported returns true, the cipher lite * somehow remembers the internal state after the call to mark * and stands ready to restore to the internal state so that it would be * able to produce the same output given the same input again if and * whenever the method reset is called. * * @return the current position marked or -1 if mark/reset is not supported. */ long mark() { return -1; } /** * Repositions this cipher lite to the position at the time the * mark method was last called. *

* The general contract of reset is: *

*

    *
  • If the method markSupported returns true, * then the cipher lite is reset to the internal state since the most recent * call to mark (or since the start of the input data, if * mark has not been called), so that subsequent callers of the * udpate or doFinal method would produce the same * output given the same input data identical to the input data after the * mark method was last called..
  • *
  • If the method markSupported returns false, * then the call to reset may throw an * IllegalStateException.
  • *
*/ void reset() { throw new IllegalStateException("mark/reset not supported"); } int getOutputSize(int inputLen) { return cipher.getOutputSize(inputLen); } }




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