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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_16LE;
import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.net.URL;
import java.net.URLConnection;
import java.nio.ByteBuffer;
import java.nio.ByteOrder;
import java.security.GeneralSecurityException;
import java.security.SecureRandom;
import java.security.Signature;
import java.security.cert.CertificateFactory;
import java.security.cert.X509Certificate;
import java.sql.PreparedStatement;
import java.sql.ResultSet;
import java.sql.SQLException;
import java.time.Instant;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Base64;
import java.util.concurrent.ConcurrentHashMap;
import com.google.gson.JsonArray;
import com.google.gson.JsonElement;
import com.google.gson.JsonObject;
import com.google.gson.JsonParser;
/**
*
* Provides the implementation of the AAS Enclave Provider. The enclave provider encapsulates the client-side
* implementation details of the enclave attestation protocol.
*
*/
public class SQLServerAASEnclaveProvider implements ISQLServerEnclaveProvider {
private static EnclaveSessionCache enclaveCache = new EnclaveSessionCache();
private AASAttestationParameters aasParams = null;
private AASAttestationResponse hgsResponse = null;
private String attestationUrl = null;
private EnclaveSession enclaveSession = null;
/**
* default constructor
*/
public SQLServerAASEnclaveProvider() {
// default constructor
}
@Override
public void getAttestationParameters(String url) throws SQLServerException {
if (null == aasParams) {
attestationUrl = url;
try {
aasParams = new AASAttestationParameters(attestationUrl);
} catch (IOException e) {
SQLServerException.makeFromDriverError(null, this, e.getLocalizedMessage(), "0", false);
}
}
}
@Override
public ArrayList createEnclaveSession(SQLServerConnection connection, SQLServerStatement statement,
String userSql, String preparedTypeDefinitions, Parameter[] params,
ArrayList parameterNames) throws SQLServerException {
// Check if the session exists in our cache
StringBuilder keyLookup = new StringBuilder(connection.getServerName()).append(connection.getCatalog())
.append(attestationUrl);
EnclaveCacheEntry entry = enclaveCache.getSession(keyLookup.toString());
if (null != entry) {
this.enclaveSession = entry.getEnclaveSession();
this.aasParams = (AASAttestationParameters) entry.getBaseAttestationRequest();
}
ArrayList b = describeParameterEncryption(connection, statement, userSql, preparedTypeDefinitions,
params, parameterNames);
if (connection.enclaveEstablished()) {
return b;
} else if (null != hgsResponse && !connection.enclaveEstablished()) {
try {
enclaveSession = new EnclaveSession(hgsResponse.getSessionID(),
aasParams.createSessionSecret(hgsResponse.getDHpublicKey()));
enclaveCache.addEntry(connection.getServerName(), connection.getCatalog(),
connection.enclaveAttestationUrl, aasParams, enclaveSession);
} catch (GeneralSecurityException e) {
SQLServerException.makeFromDriverError(connection, this, e.getLocalizedMessage(), "0", false);
}
}
return b;
}
@Override
public void invalidateEnclaveSession() {
if (null != enclaveSession) {
enclaveCache.removeEntry(enclaveSession);
}
enclaveSession = null;
aasParams = null;
attestationUrl = null;
}
@Override
public EnclaveSession getEnclaveSession() {
return enclaveSession;
}
private void validateAttestationResponse() throws SQLServerException {
if (null != hgsResponse) {
try {
hgsResponse.validateToken(attestationUrl, aasParams.getNonce());
hgsResponse.validateDHPublicKey(aasParams.getNonce());
} catch (GeneralSecurityException e) {
SQLServerException.makeFromDriverError(null, this, e.getLocalizedMessage(), "0", false);
}
}
}
private ArrayList describeParameterEncryption(SQLServerConnection connection, SQLServerStatement statement,
String userSql, String preparedTypeDefinitions, Parameter[] params,
ArrayList parameterNames) throws SQLServerException {
// sp_describe_parameter_encryption stored procedure with 2 params
final String SDPE1 = "EXEC sp_describe_parameter_encryption ?,?";
// sp_describe_parameter_encryption stored procedure with 3 params
final String SDPE2 = "EXEC sp_describe_parameter_encryption ?,?,?";
ArrayList enclaveRequestedCEKs = new ArrayList<>();
try (PreparedStatement stmt = connection.prepareStatement(connection.enclaveEstablished() ? SDPE1 : SDPE2)) {
// Check the cache for metadata for Always Encrypted versions 1 and 3, when there are parameters to check.
if (connection.getServerColumnEncryptionVersion() == ColumnEncryptionVersion.AE_V2 || params == null
|| params.length == 0 || !ParameterMetaDataCache.getQueryMetadata(params, parameterNames,
connection, statement, userSql)) {
try (ResultSet rs = connection.enclaveEstablished() ? executeSDPEv1(stmt, userSql,
preparedTypeDefinitions) : executeSDPEv2(stmt, userSql, preparedTypeDefinitions, aasParams)) {
if (null == rs) {
// No results. Meaning no parameter.
// Should never happen.
return enclaveRequestedCEKs;
}
processSDPEv1(userSql, preparedTypeDefinitions, params, parameterNames, connection, statement, stmt,
rs, enclaveRequestedCEKs);
// Process the third resultset.
if (connection.isAEv2() && stmt.getMoreResults()) {
try (ResultSet hgsRs = (SQLServerResultSet) stmt.getResultSet()) {
if (hgsRs.next()) {
hgsResponse = new AASAttestationResponse(hgsRs.getBytes(1));
// This validates and establishes the enclave session if valid
validateAttestationResponse();
} else {
SQLServerException.makeFromDriverError(null, this,
SQLServerException.getErrString("R_UnableRetrieveParameterMetadata"), "0",
false);
}
}
}
}
}
} catch (SQLException | IOException e) {
if (e instanceof SQLServerException) {
throw (SQLServerException) e;
} else {
throw new SQLServerException(SQLServerException.getErrString("R_UnableRetrieveParameterMetadata"), null,
0, e);
}
}
return enclaveRequestedCEKs;
}
}
class AASAttestationParameters extends BaseAttestationRequest {
// Type 1 is AAS, sent as Little Endian 0x10000000
private static final byte[] ENCLAVE_TYPE = new byte[] {0x1, 0x0, 0x0, 0x0};
// Nonce length is always 256
private static final byte[] NONCE_LENGTH = new byte[] {0x0, 0x1, 0x0, 0x0};
private byte[] nonce = new byte[256];
AASAttestationParameters(String attestationUrl) throws SQLServerException, IOException {
byte[] attestationUrlBytes = (attestationUrl + '\0').getBytes(UTF_16LE);
ByteArrayOutputStream os = new ByteArrayOutputStream();
os.write(ByteBuffer.allocate(4).order(ByteOrder.LITTLE_ENDIAN).putInt(attestationUrlBytes.length).array());
os.write(attestationUrlBytes);
os.write(NONCE_LENGTH);
new SecureRandom().nextBytes(nonce);
os.write(nonce);
enclaveChallenge = os.toByteArray();
initBcryptECDH();
}
@Override
byte[] getBytes() throws IOException {
ByteArrayOutputStream os = new ByteArrayOutputStream();
os.write(ENCLAVE_TYPE);
os.write(ByteBuffer.allocate(4).order(ByteOrder.LITTLE_ENDIAN).putInt(enclaveChallenge.length).array());
os.write(enclaveChallenge);
os.write(ByteBuffer.allocate(4).order(ByteOrder.LITTLE_ENDIAN).putInt(ENCLAVE_LENGTH).array());
os.write(ECDH_MAGIC);
os.write(x);
os.write(y);
return os.toByteArray();
}
byte[] getNonce() {
return nonce;
}
}
class JWTCertificateEntry {
private static final long TWENTY_FOUR_HOUR_IN_SECONDS = 86400;
private JsonArray certificates;
private long timeCreatedInSeconds;
JWTCertificateEntry(JsonArray j) {
certificates = j;
timeCreatedInSeconds = Instant.now().getEpochSecond();
}
boolean expired() {
return (Instant.now().getEpochSecond() - timeCreatedInSeconds) > TWENTY_FOUR_HOUR_IN_SECONDS;
}
JsonArray getCertificates() {
return certificates;
}
}
@SuppressWarnings("unused")
class AASAttestationResponse extends BaseAttestationResponse {
private byte[] attestationToken;
private static ConcurrentHashMap certificateCache = new ConcurrentHashMap<>();
AASAttestationResponse(byte[] b) throws SQLServerException {
/*-
* A model class representing the deserialization of the byte payload the client
* receives from SQL Server while setting up a session.
* Protocol format:
* 1. Total Size of the attestation blob as UINT
* 2. Size of Enclave RSA public key as UINT
* 3. Size of Attestation token as UINT
* 4. Enclave Type as UINT
* 5. Enclave RSA public key (raw key, of length #2)
* 6. Attestation token (of length #3)
* 7. Size of Session Id was UINT
* 8. Session id value
* 9. Size of enclave ECDH public key
* 10. Enclave ECDH public key (of length #9)
*/
ByteBuffer response = ByteBuffer.wrap(b).order(ByteOrder.LITTLE_ENDIAN);
this.totalSize = response.getInt();
this.identitySize = response.getInt();
this.attestationTokenSize = response.getInt();
this.enclaveType = response.getInt(); // 1 for VBS, 2 for SGX
enclavePK = new byte[identitySize];
attestationToken = new byte[attestationTokenSize];
response.get(enclavePK, 0, identitySize);
response.get(attestationToken, 0, attestationTokenSize);
this.sessionInfoSize = response.getInt();
response.get(sessionID, 0, 8);
this.dhpkSize = response.getInt();
this.dhpkSsize = response.getInt();
dhPublicKey = new byte[dhpkSize];
publicKeySig = new byte[dhpkSsize];
response.get(dhPublicKey, 0, dhpkSize);
response.get(publicKeySig, 0, dhpkSsize);
if (0 != response.remaining()) {
SQLServerException.makeFromDriverError(null, this,
SQLServerResource.getResource("R_EnclaveResponseLengthError"), "0", false);
}
}
void validateToken(String attestationUrl, byte[] nonce) throws SQLServerException {
try {
/*
* 3 parts of our JWT token: Header, Body, and Signature. Broken up via '.'
*/
String jwtToken = (new String(attestationToken)).trim();
if (jwtToken.startsWith("\"") && jwtToken.endsWith("\"")) {
jwtToken = jwtToken.substring(1, jwtToken.length() - 1);
}
String[] splitString = jwtToken.split("\\.");
java.util.Base64.Decoder decoder = Base64.getUrlDecoder();
String header = new String(decoder.decode(splitString[0]));
String body = new String(decoder.decode(splitString[1]));
byte[] stmtSig = decoder.decode(splitString[2]);
JsonArray keys = null;
JWTCertificateEntry cacheEntry = certificateCache.get(attestationUrl);
if (null != cacheEntry && !cacheEntry.expired()) {
keys = cacheEntry.getCertificates();
} else if (null != cacheEntry && cacheEntry.expired()) {
certificateCache.remove(attestationUrl);
}
if (null == keys) {
// Use the attestation URL to find where our keys are
String authorityUrl = new URL(attestationUrl).getAuthority();
URL wellKnownUrl = new URL("https://" + authorityUrl + "/.well-known/openid-configuration");
URLConnection con = wellKnownUrl.openConnection();
String wellKnownUrlJson = Util.convertInputStreamToString(con.getInputStream());
JsonObject attestationJson = JsonParser.parseString(wellKnownUrlJson).getAsJsonObject();
// Get our Keys
URL jwksUrl = new URL(attestationJson.get("jwks_uri").getAsString());
URLConnection jwksCon = jwksUrl.openConnection();
String jwksUrlJson = Util.convertInputStreamToString(jwksCon.getInputStream());
JsonObject jwksJson = JsonParser.parseString(jwksUrlJson).getAsJsonObject();
keys = jwksJson.get("keys").getAsJsonArray();
certificateCache.put(attestationUrl, new JWTCertificateEntry(keys));
}
// Find the specific keyID we need from our header
JsonObject headerJsonObject = JsonParser.parseString(header).getAsJsonObject();
String keyID = headerJsonObject.get("kid").getAsString();
// Iterate through our list of keys and find the one with the same keyID
for (JsonElement key : keys) {
JsonObject keyObj = key.getAsJsonObject();
String kId = keyObj.get("kid").getAsString();
if (kId.equals(keyID)) {
JsonArray certsFromServer = keyObj.get("x5c").getAsJsonArray();
/*
* To create the signature part you have to take the encoded header, the encoded payload, a secret,
* the algorithm specified in the header, and sign that.
*/
byte[] signatureBytes = (splitString[0] + "." + splitString[1]).getBytes();
for (JsonElement jsonCert : certsFromServer) {
CertificateFactory cf = CertificateFactory.getInstance("X.509");
X509Certificate cert = (X509Certificate) cf.generateCertificate(
new ByteArrayInputStream(java.util.Base64.getDecoder().decode(jsonCert.getAsString())));
Signature sig = Signature.getInstance("SHA256withRSA");
sig.initVerify(cert.getPublicKey());
sig.update(signatureBytes);
if (sig.verify(stmtSig)) {
// Token is verified, now check the aas-ehd
JsonObject bodyJsonObject = JsonParser.parseString(body).getAsJsonObject();
String aasEhd = bodyJsonObject.get("aas-ehd").getAsString();
if (!Arrays.equals(Base64.getUrlDecoder().decode(aasEhd), enclavePK)) {
SQLServerException.makeFromDriverError(null, this,
SQLServerResource.getResource("R_AasEhdError"), "0", false);
}
if (this.enclaveType == 1) {
// Verify rp_data claim as well if VBS
String rpData = bodyJsonObject.get("rp_data").getAsString();
if (!Arrays.equals(Base64.getUrlDecoder().decode(rpData), nonce)) {
SQLServerException.makeFromDriverError(null, this,
SQLServerResource.getResource("R_VbsRpDataError"), "0", false);
}
}
return;
}
}
}
}
SQLServerException.makeFromDriverError(null, this, SQLServerResource.getResource("R_AasJWTError"), "0",
false);
} catch (IOException | GeneralSecurityException e) {
SQLServerException.makeFromDriverError(null, this, e.getLocalizedMessage(), "", false);
}
}
void validateDHPublicKey(byte[] nonce) throws SQLServerException, GeneralSecurityException {
if (this.enclaveType == 2) {
for (int i = 0; i < enclavePK.length; i++) {
enclavePK[i] = (byte) (enclavePK[i] ^ nonce[i % nonce.length]);
}
}
validateDHPublicKey();
}
}
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