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/*
 * Copyright 2016 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.encryptionsdk.model;

import java.io.ByteArrayOutputStream;
import java.io.DataOutputStream;
import java.io.IOException;
import java.util.Arrays;

import com.amazonaws.encryptionsdk.exception.AwsCryptoException;
import com.amazonaws.encryptionsdk.exception.BadCiphertextException;
import com.amazonaws.encryptionsdk.exception.ParseException;
import com.amazonaws.encryptionsdk.internal.Constants;
import com.amazonaws.encryptionsdk.internal.PrimitivesParser;

/**
 * This class implements the headers for the encrypted content stored in a
 * frame. These headers are parsed and used when the encrypted content in the
 * frame is decrypted.
 * 
 * 

* It contains the following fields in order: *

    *
  1. final sequence number marker if final frame
  2. *
  3. sequence number
  4. *
  5. nonce
  6. *
  7. length of content in frame
  8. *
*/ public final class CipherFrameHeaders { private int sequenceNumber_ = 0; // this is okay since sequence numbers in // frames start at 1 private byte[] nonce_; private int frameContentLength_ = -1; // This is set after the nonce length is parsed in the CiphertextHeaders // during decryption. This can be set only using its setter. private short nonceLength_ = 0; private boolean includeFrameSize_; private boolean isComplete_; private boolean isFinalFrame_; /** * Default constructor. */ public CipherFrameHeaders() { } /** * Construct the frame headers using the provided sequence number, nonce, * length of content, and boolean value indicating if it is the final frame. * * @param sequenceNumber * the sequence number of the frame * @param nonce * the bytes containing the nonce. * @param frameContentLen * the length of the content in the frame. * @param isFinal * boolean value indicating if it is the final frame. */ public CipherFrameHeaders(final int sequenceNumber, final byte[] nonce, final int frameContentLen, final boolean isFinal) { sequenceNumber_ = sequenceNumber; if (nonce == null) { throw new AwsCryptoException("Nonce cannot be null."); } if (nonce.length > Constants.MAX_NONCE_LENGTH) { throw new AwsCryptoException( "Nonce length is greater than the maximum value of an unsigned byte."); } nonce_ = nonce.clone(); isFinalFrame_ = isFinal; frameContentLength_ = frameContentLen; } /** * Serialize the header into a byte array. * * @return * the serialized bytes of the header. */ public byte[] toByteArray() { try { ByteArrayOutputStream outBytes = new ByteArrayOutputStream(); DataOutputStream dataStream = new DataOutputStream(outBytes); if (isFinalFrame_) { dataStream.writeInt(Constants.ENDFRAME_SEQUENCE_NUMBER); } dataStream.writeInt(sequenceNumber_); dataStream.write(nonce_); if (includeFrameSize_ || isFinalFrame_) { dataStream.writeInt(frameContentLength_); } dataStream.close(); return outBytes.toByteArray(); } catch (IOException e) { throw new RuntimeException("Failed to serialize cipher frame headers", e); } } /** * Parse the sequence number in the provided bytes. It looks for 4 bytes * representing a integer primitive type in the provided bytes starting at * the specified offset. * *

* If successful, it returns the size of the parsed bytes which is the size * of the integer primitive type. On failure, it throws a parse exception. * * @param b * the byte array to parse. * @param off * the offset in the byte array to use when parsing. * @return * the size of the parsed bytes which is the size of the integer * primitive type. * @throws ParseException * if there are not sufficient bytes to parse the sequence * number. */ private int parseSequenceNumber(final byte[] b, final int off) throws ParseException { sequenceNumber_ = PrimitivesParser.parseInt(b, off); return Integer.SIZE / Byte.SIZE; } /** * Parse the nonce in the provided bytes. It looks for bytes of size * defined by the nonce length in the provided bytes starting at the * specified off. * *

* If successful, it returns the size of the parsed bytes which is the nonce * length. On failure, it throws a parse exception. * * @param b * the byte array to parse. * @param off * the offset in the byte array to use when parsing. * @return * the size of the parsed bytes which is the nonce length. * @throws ParseException * if there are not sufficient bytes to parse the nonce. */ private int parseNonce(final byte[] b, final int off) throws ParseException { final int bytesToParseLen = b.length - off; if (bytesToParseLen >= nonceLength_) { nonce_ = Arrays.copyOfRange(b, off, off + nonceLength_); return nonceLength_; } else { throw new ParseException("Not enough bytes to parse nonce"); } } /** * Parse the frame content length in the provided bytes. It looks for 4 * bytes representing an integer primitive type in the provided bytes * starting at the specified off. * *

* If successful, it returns the size of the parsed bytes which is the size * of the integer primitive type. On failure, it throws a parse exception. * * @param b * the byte array to parse. * @param off * the offset in the byte array to use when parsing. * @return * the size of the parsed bytes which is the size of the integer * primitive type. * @throws ParseException * if there are not sufficient bytes to parse the frame content * length. */ private int parseFrameContentLength(final byte[] b, final int off) throws ParseException { frameContentLength_ = PrimitivesParser.parseInt(b, off); if (frameContentLength_ < 0) { throw new BadCiphertextException("Invalid frame length in ciphertext"); } return Integer.SIZE / Byte.SIZE; } /** * Deserialize the provided bytes starting at the specified offset to * construct an instance of this class. * *

* This method parses the provided bytes for the individual fields in this * class. This methods also supports partial parsing where not all the bytes * required for parsing the fields successfully are available. * * @param b * the byte array to deserialize. * @param off * the offset in the byte array to use for deserialization. * @return * the number of bytes consumed in deserialization. */ public int deserialize(final byte[] b, final int off) { if (b == null) { return 0; } int parsedBytes = 0; try { if (sequenceNumber_ == 0) { parsedBytes += parseSequenceNumber(b, off + parsedBytes); } // parse the sequence number again if the sequence number parsed in // the previous call is the final frame marker and this frame hasn't // already been marked final. if (sequenceNumber_ == Constants.ENDFRAME_SEQUENCE_NUMBER && !isFinalFrame_) { parsedBytes += parseSequenceNumber(b, off + parsedBytes); isFinalFrame_ = true; } if (nonceLength_ > 0 && nonce_ == null) { parsedBytes += parseNonce(b, off + parsedBytes); } if (includeFrameSize_ || isFinalFrame_) { if (frameContentLength_ < 0) { parsedBytes += parseFrameContentLength(b, off + parsedBytes); } } isComplete_ = true; } catch (ParseException e) { // this results when we do partial parsing and there aren't enough // bytes to parse; so just return the bytes parsed thus far. } return parsedBytes; } /** * Return if the frame is a final frame. The final frame is identified as * the frame containing the final sequence number marker. * * @return * true if final frame; false otherwise. */ public boolean isFinalFrame() { return isFinalFrame_; } /** * Check if this object has all the header fields populated and available * for reading. * * @return * true if this object containing the single block header fields * is complete; false otherwise. */ public boolean isComplete() { return isComplete_; } /** * Return the nonce set in the frame header. * * @return * the bytes containing the nonce set in the frame header. */ public byte[] getNonce() { return nonce_ != null ? nonce_.clone() : null; } /** * Return the frame content length set in the frame header. * * @return * the frame content length set in the frame header. */ public int getFrameContentLength() { return frameContentLength_; } /** * Return the frame sequence number set in the frame header. * * @return * the frame sequence number set in the frame header. */ public int getSequenceNumber() { return sequenceNumber_; } /** * Set the length of the nonce used in the encryption of the content in the * frame. * * @param nonceLength * the length of the nonce used in the encryption of the content * in the frame. */ public void setNonceLength(final short nonceLength) { nonceLength_ = nonceLength; } /** * Set the flag to specify whether the frame length needs to be included or * parsed in the header. * * @param value * true if the frame length needs to be included or parsed in the * header; false otherwise */ public void includeFrameSize(final boolean value) { includeFrameSize_ = true; } }





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