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Microsoft JDBC Driver for SQL Server.
/*
* Microsoft JDBC Driver for SQL Server Copyright(c) Microsoft Corporation All rights reserved. This program is made
* available under the terms of the MIT License. See the LICENSE file in the project root for more information.
*/
package com.microsoft.sqlserver.jdbc;
import static java.nio.charset.StandardCharsets.UTF_8;
import java.io.BufferedReader;
import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.net.HttpURLConnection;
import java.net.URL;
import java.security.InvalidKeyException;
import java.security.NoSuchAlgorithmException;
import java.text.MessageFormat;
import java.util.ArrayList;
import java.util.Calendar;
import java.util.Date;
import java.util.Iterator;
import java.util.List;
import java.util.concurrent.ThreadLocalRandom;
import java.util.logging.Level;
import javax.crypto.Mac;
import javax.crypto.spec.SecretKeySpec;
import com.microsoft.sqlserver.jdbc.SQLServerConnection.ActiveDirectoryAuthentication;
/**
* Various SQLServer security utilities.
*
*/
class SQLServerSecurityUtility {
static final private java.util.logging.Logger connectionlogger = java.util.logging.Logger
.getLogger("com.microsoft.sqlserver.jdbc.internals.SQLServerConnection");
static final int GONE = 410;
static final int TOO_MANY_RESQUESTS = 429;
static final int NOT_FOUND = 404;
static final int INTERNAL_SERVER_ERROR = 500;
static final int NETWORK_CONNECT_TIMEOUT_ERROR = 599;
/**
* Give the hash of given plain text
*
* @param plainText
* @param key
* @param length
* @return hash of the plain text using provided key
* @throws NoSuchAlgorithmException
* @throws InvalidKeyException
*/
static byte[] getHMACWithSHA256(byte[] plainText, byte[] key,
int length) throws NoSuchAlgorithmException, InvalidKeyException {
byte[] computedHash;
byte[] hash = new byte[length];
Mac mac = Mac.getInstance("HmacSHA256");
SecretKeySpec ivkeySpec = new SecretKeySpec(key, "HmacSHA256");
mac.init(ivkeySpec);
computedHash = mac.doFinal(plainText);
// truncating hash if needed
System.arraycopy(computedHash, 0, hash, 0, hash.length);
return hash;
}
/**
* Compare two arrays
*
* @param buffer1
* first array
* @param buffer2
* second array
* @param buffer2Index
* @param lengthToCompare
* @return true if array contains same bytes otherwise false
*/
static boolean compareBytes(byte[] buffer1, byte[] buffer2, int buffer2Index, int lengthToCompare) {
if (null == buffer1 || null == buffer2) {
return false;
}
if ((buffer2.length - buffer2Index) < lengthToCompare) {
return false;
}
for (int index = 0; index < buffer1.length && index < lengthToCompare; ++index) {
if (buffer1[index] != buffer2[buffer2Index + index]) {
return false;
}
}
return true;
}
/*
* Encrypts the ciphertext.
*/
static byte[] encryptWithKey(byte[] plainText, CryptoMetadata md,
SQLServerConnection connection) throws SQLServerException {
String serverName = connection.getTrustedServerNameAE();
assert serverName != null : "Server name should npt be null in EncryptWithKey";
// Initialize cipherAlgo if not already done.
if (!md.IsAlgorithmInitialized()) {
SQLServerSecurityUtility.decryptSymmetricKey(md, connection);
}
assert md.IsAlgorithmInitialized();
byte[] cipherText = md.cipherAlgorithm.encryptData(plainText); // this call succeeds or throws.
if (null == cipherText || 0 == cipherText.length) {
throw new SQLServerException(null, SQLServerException.getErrString("R_NullCipherTextAE"), null, 0, false);
}
return cipherText;
}
/**
* Return the algorithm name mapped to an Id
*
* @param cipherAlgorithmId
* The cipher algorithm Id
* @param cipherAlgorithmName
* The cipher algorithm name
* @return The cipher algorithm name
*/
private static String ValidateAndGetEncryptionAlgorithmName(byte cipherAlgorithmId,
String cipherAlgorithmName) throws SQLServerException {
// Custom cipher algorithm not supported for CTP.
if (TDS.AEAD_AES_256_CBC_HMAC_SHA256 != cipherAlgorithmId) {
throw new SQLServerException(null, SQLServerException.getErrString("R_CustomCipherAlgorithmNotSupportedAE"),
null, 0, false);
}
return SQLServerAeadAes256CbcHmac256Algorithm.algorithmName;
}
/**
* Decrypts the symmetric key and saves it in metadata. In addition, initializes the SqlClientEncryptionAlgorithm
* for rapid decryption.
*
* @param md
* The cipher metadata
* @param connection
* The connection
*/
static void decryptSymmetricKey(CryptoMetadata md, SQLServerConnection connection) throws SQLServerException {
assert null != md : "md should not be null in DecryptSymmetricKey.";
assert null != md.cekTableEntry : "md.EncryptionInfo should not be null in DecryptSymmetricKey.";
assert null != md.cekTableEntry.columnEncryptionKeyValues : "md.EncryptionInfo.ColumnEncryptionKeyValues should not be null in DecryptSymmetricKey.";
SQLServerSymmetricKey symKey = null;
EncryptionKeyInfo encryptionkeyInfoChosen = null;
SQLServerSymmetricKeyCache cache = SQLServerSymmetricKeyCache.getInstance();
Iterator it = md.cekTableEntry.columnEncryptionKeyValues.iterator();
SQLServerException lastException = null;
while (it.hasNext()) {
EncryptionKeyInfo keyInfo = it.next();
try {
symKey = cache.getKey(keyInfo, connection);
if (null != symKey) {
encryptionkeyInfoChosen = keyInfo;
break;
}
} catch (SQLServerException e) {
lastException = e;
}
}
if (null == symKey) {
if (null != lastException) {
throw lastException;
} else {
throw new SQLServerException(null, SQLServerException.getErrString("R_CEKDecryptionFailed"), null, 0,
false);
}
}
// Given the symmetric key instantiate a SqlClientEncryptionAlgorithm object and cache it in metadata.
md.cipherAlgorithm = null;
SQLServerEncryptionAlgorithm cipherAlgorithm = null;
String algorithmName = ValidateAndGetEncryptionAlgorithmName(md.cipherAlgorithmId, md.cipherAlgorithmName); // may
// throw
cipherAlgorithm = SQLServerEncryptionAlgorithmFactoryList.getInstance().getAlgorithm(symKey, md.encryptionType,
algorithmName); // will
// validate
// algorithm
// name and
// type
assert null != cipherAlgorithm : "Cipher algorithm cannot be null in DecryptSymmetricKey";
md.cipherAlgorithm = cipherAlgorithm;
md.encryptionKeyInfo = encryptionkeyInfoChosen;
}
/*
* Decrypts the ciphertext.
*/
static byte[] decryptWithKey(byte[] cipherText, CryptoMetadata md,
SQLServerConnection connection) throws SQLServerException {
String serverName = connection.getTrustedServerNameAE();
assert null != serverName : "serverName should not be null in DecryptWithKey.";
// Initialize cipherAlgo if not already done.
if (!md.IsAlgorithmInitialized()) {
SQLServerSecurityUtility.decryptSymmetricKey(md, connection);
}
assert md.IsAlgorithmInitialized() : "Decryption Algorithm is not initialized";
byte[] plainText = md.cipherAlgorithm.decryptData(cipherText); // this call succeeds or throws.
if (null == plainText) {
throw new SQLServerException(null, SQLServerException.getErrString("R_PlainTextNullAE"), null, 0, false);
}
return plainText;
}
/*
* Verify the signature for the CMK
*/
static void verifyColumnMasterKeyMetadata(SQLServerConnection connection, String keyStoreName, String keyPath,
String serverName, boolean isEnclaveEnabled, byte[] CMKSignature) throws SQLServerException {
// check trusted key paths
Boolean[] hasEntry = new Boolean[1];
List trustedKeyPaths = SQLServerConnection.getColumnEncryptionTrustedMasterKeyPaths(serverName,
hasEntry);
if (hasEntry[0]) {
if ((null == trustedKeyPaths) || (0 == trustedKeyPaths.size()) || (!trustedKeyPaths.contains(keyPath))) {
MessageFormat form = new MessageFormat(SQLServerException.getErrString("R_UntrustedKeyPath"));
Object[] msgArgs = {keyPath, serverName};
throw new SQLServerException(form.format(msgArgs), null);
}
}
if (!connection.getColumnEncryptionKeyStoreProvider(keyStoreName).verifyColumnMasterKeyMetadata(keyPath,
isEnclaveEnabled, CMKSignature)) {
throw new SQLServerException(SQLServerException.getErrString("R_VerifySignature"), null);
}
}
/**
* Get Managed Identity Authentication token
*
* @param resource
* token resource
* @param msiClientId
* Managed Identity or User Assigned Managed Identity
* @return fedauth token
* @throws SQLServerException
*/
static SqlFedAuthToken getMSIAuthToken(String resource, String msiClientId) throws SQLServerException {
// IMDS upgrade time can take up to 70s
final int imdsUpgradeTimeInMs = 70 * 1000;
final List retrySlots = new ArrayList<>();
StringBuilder urlString = new StringBuilder();
int retry = 1, maxRetry = 1;
// MSI_ENDPOINT and MSI_SECRET can be used instead of IDENTITY_ENDPOINT and IDENTITY_HEADER
String identityEndpoint = System.getenv("IDENTITY_ENDPOINT");
if (null == identityEndpoint || identityEndpoint.trim().isEmpty()) {
identityEndpoint = System.getenv("MSI_ENDPOINT");
}
String identityHeader = System.getenv("IDENTITY_HEADER");
if (null == identityHeader || identityHeader.trim().isEmpty()) {
identityHeader = System.getenv("MSI_SECRET");
}
/*
* isAzureFunction is used for identifying if the current client application is running in a Virtual Machine
* (without Managed Identity environment variables) or App Service/Function (with Managed Identity environment
* variables) as the APIs to be called for acquiring MSI Token are different for both cases.
*/
boolean isAzureFunction = null != identityEndpoint && !identityEndpoint.isEmpty() && null != identityHeader
&& !identityHeader.isEmpty();
if (isAzureFunction) {
urlString.append(identityEndpoint).append("?api-version=2019-08-01&resource=").append(resource);
} else {
urlString.append(ActiveDirectoryAuthentication.AZURE_REST_MSI_URL).append("&resource=").append(resource);
// Retry acquiring access token up to 20 times due to possible IMDS upgrade (Applies to VM only)
maxRetry = 20;
// Simplified variant of Exponential BackOff
for (int x = 0; x < maxRetry; x++) {
retrySlots.add(INTERNAL_SERVER_ERROR * ((2 << 1) - 1) / 1000);
}
}
// Append Client Id if available
if (null != msiClientId && !msiClientId.isEmpty()) {
urlString.append("&client_id=").append(msiClientId);
}
// Loop while maxRetry reaches its limit
while (retry <= maxRetry) {
HttpURLConnection connection = null;
try {
connection = (HttpURLConnection) new URL(urlString.toString()).openConnection();
connection.setRequestMethod("GET");
if (isAzureFunction) {
connection.setRequestProperty("X-IDENTITY-HEADER", identityHeader);
if (connectionlogger.isLoggable(Level.FINER)) {
connectionlogger.finer("Using Azure Function/App Service Managed Identity auth: " + urlString);
}
} else {
connection.setRequestProperty("Metadata", "true");
if (connectionlogger.isLoggable(Level.FINER)) {
connectionlogger.finer("Using Azure Managed Identity auth: " + urlString);
}
}
connection.connect();
try (InputStream stream = connection.getInputStream()) {
BufferedReader reader = new BufferedReader(new InputStreamReader(stream, UTF_8), 100);
StringBuilder result = new StringBuilder(reader.readLine());
int startIndex_AT = result.indexOf(ActiveDirectoryAuthentication.ACCESS_TOKEN_IDENTIFIER)
+ ActiveDirectoryAuthentication.ACCESS_TOKEN_IDENTIFIER.length();
String accessToken = result.substring(startIndex_AT, result.indexOf("\"", startIndex_AT + 1));
Calendar cal = new Calendar.Builder().setInstant(new Date()).build();
int startIndex_ATX;
// Fetch expires_on
if (isAzureFunction) {
startIndex_ATX = result
.indexOf(ActiveDirectoryAuthentication.ACCESS_TOKEN_EXPIRES_ON_IDENTIFIER)
+ ActiveDirectoryAuthentication.ACCESS_TOKEN_EXPIRES_ON_IDENTIFIER.length();
} else {
startIndex_ATX = result
.indexOf(ActiveDirectoryAuthentication.ACCESS_TOKEN_EXPIRES_IN_IDENTIFIER)
+ ActiveDirectoryAuthentication.ACCESS_TOKEN_EXPIRES_IN_IDENTIFIER.length();
}
String accessTokenExpiry = result.substring(startIndex_ATX,
result.indexOf("\"", startIndex_ATX + 1));
cal.add(Calendar.SECOND, Integer.parseInt(accessTokenExpiry));
return new SqlFedAuthToken(accessToken, cal.getTime());
}
} catch (Exception e) {
retry++;
// Below code applicable only when !isAzureFunctcion (VM)
if (retry > maxRetry) {
// Do not retry if maxRetry limit has been reached.
break;
} else {
try {
int responseCode = connection.getResponseCode();
// Check Error Response Code from Connection
if (GONE == responseCode || TOO_MANY_RESQUESTS == responseCode || NOT_FOUND == responseCode
|| (INTERNAL_SERVER_ERROR <= responseCode
&& NETWORK_CONNECT_TIMEOUT_ERROR >= responseCode)) {
try {
int retryTimeoutInMs = retrySlots.get(ThreadLocalRandom.current().nextInt(retry - 1));
// Error code 410 indicates IMDS upgrade is in progress, which can take up to 70s
retryTimeoutInMs = (responseCode == 410
&& retryTimeoutInMs < imdsUpgradeTimeInMs) ? imdsUpgradeTimeInMs
: retryTimeoutInMs;
Thread.sleep(retryTimeoutInMs);
} catch (InterruptedException ex) {
// Throw runtime exception as driver must not be interrupted here
throw new RuntimeException(ex);
}
} else {
if (null != msiClientId && !msiClientId.isEmpty()) {
throw new SQLServerException(
SQLServerException.getErrString("R_MSITokenFailureImdsClientId"), null);
} else {
throw new SQLServerException(SQLServerException.getErrString("R_MSITokenFailureImds"),
null);
}
}
} catch (IOException io) {
// Throw error as unexpected if response code not available
throw new SQLServerException(SQLServerException.getErrString("R_MSITokenFailureUnexpected"),
null);
}
}
} finally {
if (connection != null) {
connection.disconnect();
}
}
}
if (retry > maxRetry) {
throw new SQLServerException(SQLServerException
.getErrString(isAzureFunction ? "R_MSITokenFailureEndpoint" : "R_MSITokenFailureImds"), null);
}
return null;
}
}