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/**
 * Copyright Microsoft Corporation
 * 
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 * http://www.apache.org/licenses/LICENSE-2.0
 * 
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License 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.microsoft.azure.storage.table;

import java.security.Key;
import java.security.MessageDigest;
import java.util.Arrays;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Map;

import javax.crypto.Cipher;
import javax.crypto.KeyGenerator;
import javax.crypto.SecretKey;
import javax.crypto.spec.IvParameterSpec;
import javax.crypto.spec.SecretKeySpec;

import org.apache.commons.lang3.tuple.Pair;

import com.microsoft.azure.keyvault.core.IKey;
import com.microsoft.azure.keyvault.core.IKeyResolver;
import com.microsoft.azure.storage.Constants;
import com.microsoft.azure.storage.StorageErrorCodeStrings;
import com.microsoft.azure.storage.StorageException;
import com.microsoft.azure.storage.core.EncryptionAgent;
import com.microsoft.azure.storage.core.EncryptionAlgorithm;
import com.microsoft.azure.storage.core.EncryptionData;
import com.microsoft.azure.storage.core.SR;
import com.microsoft.azure.storage.core.Utility;
import com.microsoft.azure.storage.core.WrappedContentKey;
import com.microsoft.azure.storage.table.TableRequestOptions.EncryptionResolver;

/**
 * Represents a table encryption policy that is used to perform envelope encryption/decryption of Azure table entities.
 */
public class TableEncryptionPolicy {
    
    /**
     * An object of type {@link IKey} that is used to wrap/unwrap the content key during encryption.
     */
    public IKey keyWrapper;

    /**
     * The {@link IKeyResolver} used to select the correct key for decrypting existing table entities.
     */
    public IKeyResolver keyResolver;

    /**
     * Initializes a new instance of the {@link TableEncryptionPolicy} class with the specified key and resolver.
     * 

* If the generated policy is intended to be used for encryption, users are expected to provide a key at the * minimum. The absence of key will cause an exception to be thrown during encryption. If the generated policy is * intended to be used for decryption, users can provide a keyResolver. The client library will - 1. Invoke the key * resolver if specified to get the key. 2. If resolver is not specified but a key is specified, match the key id on * the key and use it. * * @param key * An object of type {@link IKey} that is used to wrap/unwrap the content encryption key. * @param keyResolver * The key resolver used to select the correct key for decrypting existing table entities. */ public TableEncryptionPolicy(IKey key, IKeyResolver keyResolver) { this.keyWrapper = key; this.keyResolver = keyResolver; } /** * Gets the {@link IKey} that is used to wrap/unwrap the content key during encryption. * * @return An {@link IKey} object. */ public IKey getKey() { return this.keyWrapper; } /** * Gets the key resolver used to select the correct key for decrypting existing table entities. * * @return A resolver that returns an {@link IKey} given a keyId. */ public IKeyResolver getKeyResolver() { return this.keyResolver; } /** * Sets the {@link IKey} that is used to wrap/unwrap the content key during encryption. * * @param key * An {@link IKey} object. */ public void setKey(IKey key) { this.keyWrapper = key; } /** * Sets the key resolver used to select the correct key for decrypting existing table entities. * * @param keyResolver * A resolver that returns an {@link IKey} given a keyId. */ public void setKeyResolver(IKeyResolver keyResolver) { this.keyResolver = keyResolver; } /** * Return an encrypted entity. This method is used for encrypting entity properties. */ Map encryptEntity(Map properties, String partitionKey, String rowKey, EncryptionResolver encryptionResolver) throws StorageException { Utility.assertNotNull("properties", properties); // The Key should be set on the policy for encryption. Otherwise, throw an error. if (this.keyWrapper == null) { throw new IllegalArgumentException(SR.KEY_MISSING); } EncryptionData encryptionData = new EncryptionData(); if (encryptionData.getKeyWrappingMetadata() == null) { encryptionData.setKeyWrappingMetadata(new HashMap()); } encryptionData.getKeyWrappingMetadata().put("EncryptionLibrary", "Java " + Constants.HeaderConstants.USER_AGENT_VERSION); encryptionData.setEncryptionAgent(new EncryptionAgent(Constants.EncryptionConstants.ENCRYPTION_PROTOCOL_V1, EncryptionAlgorithm.AES_CBC_256)); try { Map encryptedProperties = new HashMap(); HashSet encryptionPropertyDetailsSet = new HashSet(); KeyGenerator keyGen = KeyGenerator.getInstance("AES"); keyGen.init(256); Cipher myAes = Cipher.getInstance("AES/CBC/PKCS5Padding"); SecretKey aesKey = keyGen.generateKey(); myAes.init(Cipher.ENCRYPT_MODE, aesKey); // Wrap key Pair encryptedKey = this.keyWrapper .wrapKeyAsync(aesKey.getEncoded(), null /* algorithm */).get(); encryptionData.setWrappedContentKey(new WrappedContentKey(this.keyWrapper.getKid(), encryptedKey.getKey(), encryptedKey.getValue())); encryptionData.setContentEncryptionIV(myAes.getIV()); MessageDigest digest = MessageDigest.getInstance("SHA-256"); for (Map.Entry kvp : properties.entrySet()) { if (encryptionResolver != null && encryptionResolver.encryptionResolver(partitionKey, rowKey, kvp.getKey())) { // Throw if users try to encrypt null properties. This could happen in the DynamicTableEntity case // where a user adds a new property as follows - ent.Properties.Add("foo2", null); if (kvp.getValue() == null) { throw new IllegalArgumentException(SR.ENCRYPTING_NULL_PROPERTIES_NOT_ALLOWED); } kvp.getValue().setIsEncrypted(true); } // IsEncrypted is set to true when either the EncryptPropertyAttribute is set on a property or when it is // specified in the encryption resolver or both. if (kvp.getValue() != null && kvp.getValue().isEncrypted()) { // Throw if users try to encrypt non-string properties. if (kvp.getValue().getEdmType() != EdmType.STRING) { throw new IllegalArgumentException(String.format(SR.UNSUPPORTED_PROPERTY_TYPE_FOR_ENCRYPTION, kvp.getValue().getEdmType())); } byte[] columnIVFull = digest.digest(Utility.binaryAppend(encryptionData.getContentEncryptionIV(), (partitionKey + rowKey + kvp.getKey()).getBytes(Constants.UTF8_CHARSET))); byte[] columnIV = new byte[16]; System.arraycopy(columnIVFull, 0, columnIV, 0, 16); myAes.init(Cipher.ENCRYPT_MODE, aesKey, new IvParameterSpec(columnIV)); // Throw if users try to encrypt null properties. This could happen in the DynamicTableEntity or POCO // case when the property value is null. if (kvp.getValue() == null) { throw new IllegalArgumentException(SR.ENCRYPTING_NULL_PROPERTIES_NOT_ALLOWED); } byte[] src = kvp.getValue().getValueAsString().getBytes(Constants.UTF8_CHARSET); byte[] dest = myAes.doFinal(src, 0, src.length); // Store the encrypted properties as binary values on the service instead of base 64 encoded strings because strings are stored as a sequence of // WCHARs thereby further reducing the allowed size by half. During retrieve, it is handled by the response parsers correctly // even when the service does not return the type for JSON no-metadata. encryptedProperties.put(kvp.getKey(), new EntityProperty(dest)); encryptionPropertyDetailsSet.add(kvp.getKey()); } else { encryptedProperties.put(kvp.getKey(), kvp.getValue()); } // Encrypt the property details set and add it to entity properties. byte[] metadataIVFull = digest.digest(Utility.binaryAppend(encryptionData.getContentEncryptionIV(), (partitionKey + rowKey + Constants.EncryptionConstants.TABLE_ENCRYPTION_PROPERTY_DETAILS) .getBytes(Constants.UTF8_CHARSET))); byte[] metadataIV = new byte[16]; System.arraycopy(metadataIVFull, 0, metadataIV, 0, 16); myAes.init(Cipher.ENCRYPT_MODE, aesKey, new IvParameterSpec(metadataIV)); byte[] src = Arrays.toString(encryptionPropertyDetailsSet.toArray()).getBytes(Constants.UTF8_CHARSET); byte[] dest = myAes.doFinal(src, 0, src.length); encryptedProperties.put(Constants.EncryptionConstants.TABLE_ENCRYPTION_PROPERTY_DETAILS, new EntityProperty(dest)); } encryptedProperties.put(Constants.EncryptionConstants.TABLE_ENCRYPTION_KEY_DETAILS, new EntityProperty( encryptionData.serialize())); return encryptedProperties; } catch (Exception e) { throw StorageException.translateClientException(e); } } CEKReturn decryptMetadataAndReturnCEK(String partitionKey, String rowKey, EntityProperty encryptionKeyProperty, EntityProperty propertyDetailsProperty, EncryptionData encryptionData) throws StorageException { // Throw if neither the key nor the key resolver are set. if (this.keyWrapper == null && this.keyResolver == null) { throw new StorageException(StorageErrorCodeStrings.DECRYPTION_ERROR, SR.KEY_AND_RESOLVER_MISSING, null); } try { // Copy the values into the passed in encryption data object so they can be accessed outside of this context encryptionData.copyValues(EncryptionData.deserialize(encryptionKeyProperty.getValueAsString())); Utility.assertNotNull("contentEncryptionIV", encryptionData.getContentEncryptionIV()); Utility.assertNotNull("encryptedKey", encryptionData.getWrappedContentKey().getEncryptedKey()); // Throw if the encryption protocol on the entity doesn't match the version that this client library understands // and is able to decrypt. if (!Constants.EncryptionConstants.ENCRYPTION_PROTOCOL_V1.equals(encryptionData.getEncryptionAgent() .getProtocol())) { throw new StorageException(StorageErrorCodeStrings.DECRYPTION_ERROR, SR.ENCRYPTION_PROTOCOL_VERSION_INVALID, null); } Boolean isJavaV1 = (encryptionData.getEncryptionAgent().getProtocol().equals(Constants.EncryptionConstants.ENCRYPTION_PROTOCOL_V1)) && ((encryptionData.getKeyWrappingMetadata() == null) || (encryptionData.getKeyWrappingMetadata().containsKey("EncryptionLibrary") && encryptionData.getKeyWrappingMetadata().get("EncryptionLibrary").contains("Java"))); byte[] contentEncryptionKey = null; // 1. Invoke the key resolver if specified to get the key. If the resolver is specified but does not have a // mapping for the key id, an error should be thrown. This is important for key rotation scenario. // 2. If resolver is not specified but a key is specified, match the key id on the key and and use it. // Calling UnwrapKeyAsync synchronously is fine because for the storage client scenario, unwrap happens // locally. No service call is made. if (this.keyResolver != null) { IKey keyEncryptionKey = this.keyResolver.resolveKeyAsync(encryptionData.getWrappedContentKey() .getKeyId()).get(); Utility.assertNotNull("keyEncryptionKey", keyEncryptionKey); contentEncryptionKey = keyEncryptionKey.unwrapKeyAsync( encryptionData.getWrappedContentKey().getEncryptedKey(), encryptionData.getWrappedContentKey().getAlgorithm()).get(); } else { if (encryptionData.getWrappedContentKey().getKeyId().equals(this.keyWrapper.getKid())) { contentEncryptionKey = this.keyWrapper.unwrapKeyAsync( encryptionData.getWrappedContentKey().getEncryptedKey(), encryptionData.getWrappedContentKey().getAlgorithm()).get(); } else { throw new StorageException(StorageErrorCodeStrings.DECRYPTION_ERROR, SR.KEY_MISMATCH, null); } } Cipher myAes = Cipher.getInstance("AES/CBC/PKCS5Padding"); MessageDigest sha256 = MessageDigest.getInstance("SHA-256"); String IVString = isJavaV1 ? (partitionKey + rowKey + Constants.EncryptionConstants.TABLE_ENCRYPTION_PROPERTY_DETAILS) : (rowKey + partitionKey + Constants.EncryptionConstants.TABLE_ENCRYPTION_PROPERTY_DETAILS); byte[] metadataIVFull = sha256.digest(Utility.binaryAppend(encryptionData.getContentEncryptionIV(), IVString.getBytes(Constants.UTF8_CHARSET))); byte[] metadataIV = new byte[16]; System.arraycopy(metadataIVFull, 0, metadataIV, 0, 16); IvParameterSpec ivParameterSpec = new IvParameterSpec(metadataIV); SecretKey keySpec = new SecretKeySpec(contentEncryptionKey, 0, contentEncryptionKey.length, "AES"); myAes.init(Cipher.DECRYPT_MODE, keySpec, ivParameterSpec); byte[] src = propertyDetailsProperty.getValueAsByteArray(); propertyDetailsProperty.setValue(myAes.doFinal(src, 0, src.length)); CEKReturn ret = new CEKReturn(); ret.key = keySpec; ret.isJavaV1 = isJavaV1; return ret; } catch (StorageException ex) { throw ex; } catch (Exception ex) { throw new StorageException(StorageErrorCodeStrings.DECRYPTION_ERROR, SR.DECRYPTION_LOGIC_ERROR, ex); } } /** * Return a decrypted entity. This method is used for decrypting entity properties. */ HashMap decryptEntity(HashMap properties, HashSet encryptedPropertyDetailsSet, String partitionKey, String rowKey, Key contentEncryptionKey, EncryptionData encryptionData, Boolean isJavaV1) throws StorageException { HashMap decryptedProperties = new HashMap(); try { switch (encryptionData.getEncryptionAgent().getEncryptionAlgorithm()) { case AES_CBC_256: Cipher myAes = Cipher.getInstance("AES/CBC/PKCS5Padding"); for (Map.Entry kvp : properties.entrySet()) { if (kvp.getKey() == Constants.EncryptionConstants.TABLE_ENCRYPTION_KEY_DETAILS || kvp.getKey() == Constants.EncryptionConstants.TABLE_ENCRYPTION_PROPERTY_DETAILS) { // Do nothing. Do not add to the result properties. } else if (encryptedPropertyDetailsSet.contains(kvp.getKey())) { MessageDigest digest = MessageDigest.getInstance("SHA-256"); String IVString = isJavaV1 ? (partitionKey + rowKey + kvp.getKey()) : (rowKey + partitionKey + kvp.getKey()); byte[] columnIVFull = digest.digest(Utility.binaryAppend(encryptionData.getContentEncryptionIV(), IVString.getBytes(Constants.UTF8_CHARSET))); byte[] columnIV = new byte[16]; System.arraycopy(columnIVFull, 0, columnIV, 0, 16); myAes.init(Cipher.DECRYPT_MODE, contentEncryptionKey, new IvParameterSpec(columnIV)); byte[] src = kvp.getValue().getValueAsByteArray(); byte[] dest = myAes.doFinal(src, 0, src.length); String destString = new String(dest, Constants.UTF8_CHARSET); decryptedProperties.put(kvp.getKey(), new EntityProperty(destString)); } else { decryptedProperties.put(kvp.getKey(), kvp.getValue()); } } return decryptedProperties; default: throw new StorageException(StorageErrorCodeStrings.DECRYPTION_ERROR, SR.INVALID_ENCRYPTION_ALGORITHM, null); } } catch (StorageException ex) { throw ex; } catch (Exception ex) { throw new StorageException(StorageErrorCodeStrings.DECRYPTION_ERROR, SR.DECRYPTION_LOGIC_ERROR, ex); } } }





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