Source/WebCore/crypto/mac/CryptoKeyRSAMac.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2013-2019 Apple Inc. All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
  * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
  * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
  * THE POSSIBILITY OF SUCH DAMAGE.
  */

 #include "config.h"
 #include "CryptoKeyRSA.h"

 #if ENABLE(WEB_CRYPTO)

 #include "CommonCryptoDERUtilities.h"
 #include "CommonCryptoUtilities.h"
 #include "CryptoAlgorithmRegistry.h"
 #include "CryptoKeyPair.h"
 #include "CryptoKeyRSAComponents.h"
 #include "ScriptExecutionContext.h"
 #include <JavaScriptCore/GenericTypedArrayViewInlines.h>
 #include <JavaScriptCore/HeapInlines.h>
 #include <JavaScriptCore/JSGenericTypedArrayViewInlines.h>
 #include <wtf/MainThread.h>

 namespace WebCore {

 // OID rsaEncryption: 1.2.840.113549.1.1.1. Per https://tools.ietf.org/html/rfc3279#section-2.3.1
 static const unsigned char RSAOIDHeader[] = {0x30, 0x0d, 0x06, 0x09, 0x2a, 0x86, 0x48, 0x86, 0xf7, 0x0d, 0x01, 0x01, 0x01, 0x05, 0x00};

 // FIXME: We should get rid of magic number 16384. It assumes that the length of provided key will not exceed 16KB.
 // https://bugs.webkit.org/show_bug.cgi?id=164942
 static CCCryptorStatus getPublicKeyComponents(const PlatformRSAKeyContainer& rsaKey, Vector<uint8_t>& modulus, Vector<uint8_t>& publicExponent)
 {
     ASSERT(CCRSAGetKeyType(rsaKey.get()) == ccRSAKeyPublic || CCRSAGetKeyType(rsaKey.get()) == ccRSAKeyPrivate);
     bool keyIsPublic = CCRSAGetKeyType(rsaKey.get()) == ccRSAKeyPublic;
     ALLOW_DEPRECATED_DECLARATIONS_BEGIN
     PlatformRSAKeyContainer publicKeyFromPrivateKey(keyIsPublic ? nullptr : CCRSACryptorGetPublicKeyFromPrivateKey(rsaKey.get()));
     ALLOW_DEPRECATED_DECLARATIONS_END

     modulus.resize(16384);
     size_t modulusLength = modulus.size();
     publicExponent.resize(16384);
     size_t exponentLength = publicExponent.size();
     CCCryptorStatus status = CCRSAGetKeyComponents(keyIsPublic ? rsaKey.get() : publicKeyFromPrivateKey.get(), modulus.data(), &modulusLength, publicExponent.data(), &exponentLength, 0, 0, 0, 0);
     if (status)
         return status;

     modulus.shrink(modulusLength);
     publicExponent.shrink(exponentLength);
     return status;
 }

 static CCCryptorStatus getPrivateKeyComponents(const PlatformRSAKeyContainer& rsaKey, Vector<uint8_t>& privateExponent, CryptoKeyRSAComponents::PrimeInfo& firstPrimeInfo, CryptoKeyRSAComponents::PrimeInfo& secondPrimeInfo)
 {
     ASSERT(CCRSAGetKeyType(rsaKey.get()) == ccRSAKeyPrivate);

     Vector<uint8_t> unusedModulus(16384);
     size_t modulusLength = unusedModulus.size();
     privateExponent.resize(16384);
     size_t exponentLength = privateExponent.size();
     firstPrimeInfo.primeFactor.resize(16384);
     size_t pLength = firstPrimeInfo.primeFactor.size();
     secondPrimeInfo.primeFactor.resize(16384);
     size_t qLength = secondPrimeInfo.primeFactor.size();

     CCCryptorStatus status = CCRSAGetKeyComponents(rsaKey.get(), unusedModulus.data(), &modulusLength, privateExponent.data(), &exponentLength, firstPrimeInfo.primeFactor.data(), &pLength, secondPrimeInfo.primeFactor.data(), &qLength);
     if (status)
         return status;

     privateExponent.shrink(exponentLength);
     firstPrimeInfo.primeFactor.shrink(pLength);
     secondPrimeInfo.primeFactor.shrink(qLength);

     size_t dpSize;
     size_t dqSize;
     size_t qinvSize;
     if (auto status = CCRSAGetCRTComponentsSizes(rsaKey.get(), &dpSize, &dqSize, &qinvSize))
         return status;

     Vector<uint8_t> dp(dpSize);
     Vector<uint8_t> dq(dqSize);
     Vector<uint8_t> qinv(qinvSize);
     if (auto status = CCRSAGetCRTComponents(rsaKey.get(), dp.data(), dpSize, dq.data(), dqSize, qinv.data(), qinvSize))
         return status;

     firstPrimeInfo.factorCRTExponent = WTFMove(dp);
     secondPrimeInfo.factorCRTExponent = WTFMove(dq);
     secondPrimeInfo.factorCRTCoefficient = WTFMove(qinv);

     return status;
 }

 CryptoKeyRSA::CryptoKeyRSA(CryptoAlgorithmIdentifier identifier, CryptoAlgorithmIdentifier hash, bool hasHash, CryptoKeyType type, PlatformRSAKeyContainer&& platformKey, bool extractable, CryptoKeyUsageBitmap usage)
     : CryptoKey(identifier, type, extractable, usage)
     , m_platformKey(WTFMove(platformKey))
     , m_restrictedToSpecificHash(hasHash)
     , m_hash(hash)
 {
 }

 RefPtr<CryptoKeyRSA> CryptoKeyRSA::create(CryptoAlgorithmIdentifier identifier, CryptoAlgorithmIdentifier hash, bool hasHash, const CryptoKeyRSAComponents& keyData, bool extractable, CryptoKeyUsageBitmap usage)
 {
     if (keyData.type() == CryptoKeyRSAComponents::Type::Private && !keyData.hasAdditionalPrivateKeyParameters()) {
         // <rdar://problem/15452324> tracks adding support.
         WTFLogAlways("Private keys without additional data are not supported");
         return nullptr;
     }
     if (keyData.otherPrimeInfos().size()) {
         // <rdar://problem/15444074> tracks adding support.
         WTFLogAlways("Keys with more than two primes are not supported");
         return nullptr;
     }
     // When an empty vector p is provided to CCRSACryptorCreateFromData to create a private key, it crashes.
     // <rdar://problem/30550228> tracks the issue.
     if (keyData.type() == CryptoKeyRSAComponents::Type::Private && keyData.firstPrimeInfo().primeFactor.isEmpty())
         return nullptr;

     CCRSACryptorRef cryptor = nullptr;
     // FIXME: It is so weired that we recaculate the private exponent from first prime factor and second prime factor,
     // given the fact that we have already had it. Also, the re-caculated private exponent may not match the given one.
     // See <rdar://problem/15452324>.
     CCCryptorStatus status = CCRSACryptorCreateFromData(
         keyData.type() == CryptoKeyRSAComponents::Type::Public ? ccRSAKeyPublic : ccRSAKeyPrivate,
         keyData.modulus().data(), keyData.modulus().size(),
         keyData.exponent().data(), keyData.exponent().size(),
         keyData.firstPrimeInfo().primeFactor.data(), keyData.firstPrimeInfo().primeFactor.size(),
         keyData.secondPrimeInfo().primeFactor.data(), keyData.secondPrimeInfo().primeFactor.size(),
         &cryptor);

     if (status) {
         LOG_ERROR("Couldn't create RSA key from data, error %d", status);
         return nullptr;
     }

     return adoptRef(new CryptoKeyRSA(identifier, hash, hasHash, keyData.type() == CryptoKeyRSAComponents::Type::Public ? CryptoKeyType::Public : CryptoKeyType::Private, PlatformRSAKeyContainer(cryptor), extractable, usage));
 }

 bool CryptoKeyRSA::isRestrictedToHash(CryptoAlgorithmIdentifier& identifier) const
 {
     if (!m_restrictedToSpecificHash)
         return false;

     identifier = m_hash;
     return true;
 }

 size_t CryptoKeyRSA::keySizeInBits() const
 {
     Vector<uint8_t> modulus;
     Vector<uint8_t> publicExponent;
     CCCryptorStatus status = getPublicKeyComponents(m_platformKey, modulus, publicExponent);
     if (status) {
         WTFLogAlways("Couldn't get RSA key components, status %d", status);
         return 0;
     }

     return modulus.size() * 8;
 }

 auto CryptoKeyRSA::algorithm() const -> KeyAlgorithm
 {
     // FIXME: Add a version of getPublicKeyComponents that returns Uint8Array, rather
     // than Vector<uint8_t>, to avoid a copy of the data.

     Vector<uint8_t> modulus;
     Vector<uint8_t> publicExponent;
     CCCryptorStatus status = getPublicKeyComponents(m_platformKey, modulus, publicExponent);
     if (status) {
         WTFLogAlways("Couldn't get RSA key components, status %d", status);
         publicExponent.clear();

         CryptoRsaKeyAlgorithm result;
         result.name = CryptoAlgorithmRegistry::singleton().name(algorithmIdentifier());
         result.modulusLength = 0;
         result.publicExponent = Uint8Array::tryCreate(0);
         return result;
     }

     size_t modulusLength = modulus.size() * 8;

     if (m_restrictedToSpecificHash) {
         CryptoRsaHashedKeyAlgorithm result;
         result.name = CryptoAlgorithmRegistry::singleton().name(algorithmIdentifier());
         result.modulusLength = modulusLength;
         result.publicExponent = Uint8Array::tryCreate(publicExponent.data(), publicExponent.size());
         result.hash.name = CryptoAlgorithmRegistry::singleton().name(m_hash);
         return result;
     }

     CryptoRsaKeyAlgorithm result;
     result.name = CryptoAlgorithmRegistry::singleton().name(algorithmIdentifier());
     result.modulusLength = modulusLength;
     result.publicExponent = Uint8Array::tryCreate(publicExponent.data(), publicExponent.size());
     return result;
 }

 std::unique_ptr<CryptoKeyRSAComponents> CryptoKeyRSA::exportData() const
 {
     switch (CCRSAGetKeyType(m_platformKey.get())) {
     case ccRSAKeyPublic: {
         Vector<uint8_t> modulus;
         Vector<uint8_t> publicExponent;
         CCCryptorStatus status = getPublicKeyComponents(m_platformKey, modulus, publicExponent);
         if (status) {
             WTFLogAlways("Couldn't get RSA key components, status %d", status);
             return nullptr;
         }
         return CryptoKeyRSAComponents::createPublic(modulus, publicExponent);
     }
     case ccRSAKeyPrivate: {
         Vector<uint8_t> modulus;
         Vector<uint8_t> publicExponent;
         CCCryptorStatus status = getPublicKeyComponents(m_platformKey, modulus, publicExponent);
         if (status) {
             WTFLogAlways("Couldn't get RSA key components, status %d", status);
             return nullptr;
         }
         Vector<uint8_t> privateExponent;
         CryptoKeyRSAComponents::PrimeInfo firstPrimeInfo;
         CryptoKeyRSAComponents::PrimeInfo secondPrimeInfo;
         Vector<CryptoKeyRSAComponents::PrimeInfo> otherPrimeInfos; // Always empty, CommonCrypto only supports two primes (cf. <rdar://problem/15444074>).
         status = getPrivateKeyComponents(m_platformKey, privateExponent, firstPrimeInfo, secondPrimeInfo);
         if (status) {
             WTFLogAlways("Couldn't get RSA key components, status %d", status);
             return nullptr;
         }
         return CryptoKeyRSAComponents::createPrivateWithAdditionalData(modulus, publicExponent, privateExponent, firstPrimeInfo, secondPrimeInfo, otherPrimeInfos);
     }
     default:
         return nullptr;
     }
 }

 static bool bigIntegerToUInt32(const Vector<uint8_t>& bigInteger, uint32_t& result)
 {
     result = 0;
     for (size_t i = 0; i + 4 < bigInteger.size(); ++i) {
         if (bigInteger[i])
             return false; // Too big to fit in 32 bits.
     }

     for (size_t i = bigInteger.size() > 4 ? bigInteger.size() - 4 : 0; i < bigInteger.size(); ++i) {
         result <<= 8;
         result += bigInteger[i];
     }
     return true;
 }

 // FIXME: We should use WorkQueue here instead of dispatch_async once WebKitSubtleCrypto is deprecated.
 // https://bugs.webkit.org/show_bug.cgi?id=164943
 void CryptoKeyRSA::generatePair(CryptoAlgorithmIdentifier algorithm, CryptoAlgorithmIdentifier hash, bool hasHash, unsigned modulusLength, const Vector<uint8_t>& publicExponent, bool extractable, CryptoKeyUsageBitmap usage, KeyPairCallback&& callback, VoidCallback&& failureCallback, ScriptExecutionContext* context)
 {
     uint32_t e;
     if (!bigIntegerToUInt32(publicExponent, e)) {
         // Adding support is tracked as <rdar://problem/15444034>.
         WTFLogAlways("Public exponent is too big, not supported");
         failureCallback();
         return;
     }

     __block auto blockCallback(WTFMove(callback));
     __block auto blockFailureCallback(WTFMove(failureCallback));
     auto contextIdentifier = context->contextIdentifier();
     dispatch_async(dispatch_get_global_queue(DISPATCH_QUEUE_PRIORITY_DEFAULT, 0), ^{
         CCRSACryptorRef ccPublicKey = nullptr;
         CCRSACryptorRef ccPrivateKey = nullptr;
         CCCryptorStatus status = CCRSACryptorGeneratePair(modulusLength, e, &ccPublicKey, &ccPrivateKey);
         if (status) {
             WTFLogAlways("Could not generate a key pair, status %d", status);
             ScriptExecutionContext::postTaskTo(contextIdentifier, [callback = WTFMove(blockCallback), failureCallback = WTFMove(blockFailureCallback)](auto&) {
                 failureCallback();
             });
             return;
         }
         ScriptExecutionContext::postTaskTo(contextIdentifier, [algorithm, hash, hasHash, extractable, usage, callback = WTFMove(blockCallback), failureCallback = WTFMove(blockFailureCallback), ccPublicKey = PlatformRSAKeyContainer(ccPublicKey), ccPrivateKey = PlatformRSAKeyContainer(ccPrivateKey)](auto&) mutable {
             auto publicKey = CryptoKeyRSA::create(algorithm, hash, hasHash, CryptoKeyType::Public, WTFMove(ccPublicKey), true, usage);
             auto privateKey = CryptoKeyRSA::create(algorithm, hash, hasHash, CryptoKeyType::Private, WTFMove(ccPrivateKey), extractable, usage);

             callback(CryptoKeyPair { WTFMove(publicKey), WTFMove(privateKey) });
         });
     });
 }

 RefPtr<CryptoKeyRSA> CryptoKeyRSA::importSpki(CryptoAlgorithmIdentifier identifier, Optional<CryptoAlgorithmIdentifier> hash, Vector<uint8_t>&& keyData, bool extractable, CryptoKeyUsageBitmap usages)
 {
     // The current SecLibrary cannot import a SPKI format binary. Hence, we need to strip out the SPKI header.
     // This hack can be removed when <rdar://problem/29523286> is resolved.
     // The header format we assume is: SequenceMark(1) + Length(?) + rsaEncryption(15) + BitStringMark(1) + Length(?) + InitialOctet(1).
     // The header format could be varied. However since we don't have a full-fledged ASN.1 encoder/decoder, we want to restrict it to
     // the most common one for now.
     // Per https://tools.ietf.org/html/rfc5280#section-4.1. subjectPublicKeyInfo.
     size_t headerSize = 1;
     if (keyData.size() < headerSize + 1)
         return nullptr;
     headerSize += bytesUsedToEncodedLength(keyData[headerSize]) + sizeof(RSAOIDHeader) + sizeof(BitStringMark);
     if (keyData.size() < headerSize + 1)
         return nullptr;
     headerSize += bytesUsedToEncodedLength(keyData[headerSize]) + sizeof(InitialOctet);

     CCRSACryptorRef ccPublicKey = nullptr;
     if (CCRSACryptorImport(keyData.data() + headerSize, keyData.size() - headerSize, &ccPublicKey))
         return nullptr;

     // Notice: CryptoAlgorithmIdentifier::SHA_1 is just a placeholder. It should not have any effect if hash is WTF::nullopt.
     return adoptRef(new CryptoKeyRSA(identifier, hash.valueOr(CryptoAlgorithmIdentifier::SHA_1), !!hash, CryptoKeyType::Public, PlatformRSAKeyContainer(ccPublicKey), extractable, usages));
 }

 ExceptionOr<Vector<uint8_t>> CryptoKeyRSA::exportSpki() const
 {
     if (type() != CryptoKeyType::Public)
         return Exception { InvalidAccessError };

     // The current SecLibrary cannot output a valid SPKI format binary. Hence, we need the following hack.
     // This hack can be removed when <rdar://problem/29523286> is resolved.
     // Estimated size in produced bytes format. Per https://tools.ietf.org/html/rfc3279#section-2.3.1. RSAPublicKey.
     // O(size) = Sequence(1) + Length(3) + Integer(1) + Length(3) + Modulus + Integer(1) + Length(3) + Exponent
     Vector<uint8_t> keyBytes(keySizeInBits() / 4);
     size_t keySize = keyBytes.size();
     if (CCRSACryptorExport(platformKey(), keyBytes.data(), &keySize))
         return Exception { OperationError };
     keyBytes.shrink(keySize);

     // RSAOIDHeader + BitStringMark + Length + keySize + InitialOctet
     size_t totalSize = sizeof(RSAOIDHeader) + bytesNeededForEncodedLength(keySize + 1) + keySize + 2;

     // Per https://tools.ietf.org/html/rfc5280#section-4.1. subjectPublicKeyInfo.
     Vector<uint8_t> result;
     result.reserveCapacity(totalSize + bytesNeededForEncodedLength(totalSize) + 1);
     result.append(SequenceMark);
     addEncodedASN1Length(result, totalSize);
     result.append(RSAOIDHeader, sizeof(RSAOIDHeader));
     result.append(BitStringMark);
     addEncodedASN1Length(result, keySize + 1);
     result.append(InitialOctet);
     result.append(keyBytes.data(), keyBytes.size());

     return WTFMove(result);
 }

 RefPtr<CryptoKeyRSA> CryptoKeyRSA::importPkcs8(CryptoAlgorithmIdentifier identifier, Optional<CryptoAlgorithmIdentifier> hash, Vector<uint8_t>&& keyData, bool extractable, CryptoKeyUsageBitmap usages)
 {
     // The current SecLibrary cannot import a PKCS8 format binary. Hence, we need to strip out the PKCS8 header.
     // This hack can be removed when <rdar://problem/29523286> is resolved.
     // The header format we assume is: SequenceMark(1) + Length(?) + Version(3) + rsaEncryption(15) + OctetStringMark(1) + Length(?).
     // The header format could be varied. However since we don't have a full-fledged ASN.1 encoder/decoder, we want to restrict it to
     // the most common one for now.
     // Per https://tools.ietf.org/html/rfc5208#section-5. PrivateKeyInfo.
     // We also assume there is no optional parameters.
     size_t headerSize = 1;
     if (keyData.size() < headerSize + 1)
         return nullptr;
     headerSize += bytesUsedToEncodedLength(keyData[headerSize]) + sizeof(Version) + sizeof(RSAOIDHeader) + sizeof(OctetStringMark);
     if (keyData.size() < headerSize + 1)
         return nullptr;
     headerSize += bytesUsedToEncodedLength(keyData[headerSize]);

     CCRSACryptorRef ccPrivateKey = nullptr;
     if (CCRSACryptorImport(keyData.data() + headerSize, keyData.size() - headerSize, &ccPrivateKey))
         return nullptr;

     // Notice: CryptoAlgorithmIdentifier::SHA_1 is just a placeholder. It should not have any effect if hash is WTF::nullopt.
     return adoptRef(new CryptoKeyRSA(identifier, hash.valueOr(CryptoAlgorithmIdentifier::SHA_1), !!hash, CryptoKeyType::Private, PlatformRSAKeyContainer(ccPrivateKey), extractable, usages));
 }

 ExceptionOr<Vector<uint8_t>> CryptoKeyRSA::exportPkcs8() const
 {
     if (type() != CryptoKeyType::Private)
         return Exception { InvalidAccessError };

     // The current SecLibrary cannot output a valid PKCS8 format binary. Hence, we need the following hack.
     // This hack can be removed when <rdar://problem/29523286> is resolved.
     // Estimated size in produced bytes format. Per https://tools.ietf.org/html/rfc3447#appendix-A.1.2. RSAPrivateKey.
     // O(size) = Sequence(1) + Length(3) + Integer(1) + Length(3) + Modulus + Integer(1) + Length(3) + publicExponent + Integer(1) + Length(3) +
     // privateExponent + Integer(1) + Length(3) + prime1 + Integer(1) + Length(3) + prime2 + Integer(1) + Length(3) + exponent1 + Integer(1) +
     // Length(3) + exponent2 + Integer(1) + Length(3) + coefficient.
     Vector<uint8_t> keyBytes(keySizeInBits());
     size_t keySize = keyBytes.size();
     if (CCRSACryptorExport(platformKey(), keyBytes.data(), &keySize))
         return Exception { OperationError };
     keyBytes.shrink(keySize);

     // Version + RSAOIDHeader + OctetStringMark + Length + keySize
     size_t totalSize = sizeof(Version) + sizeof(RSAOIDHeader) + bytesNeededForEncodedLength(keySize) + keySize + 1;

     // Per https://tools.ietf.org/html/rfc5208#section-5. PrivateKeyInfo.
     Vector<uint8_t> result;
     result.reserveCapacity(totalSize + bytesNeededForEncodedLength(totalSize) + 1);
     result.append(SequenceMark);
     addEncodedASN1Length(result, totalSize);
     result.append(Version, sizeof(Version));
     result.append(RSAOIDHeader, sizeof(RSAOIDHeader));
     result.append(OctetStringMark);
     addEncodedASN1Length(result, keySize);
     result.append(keyBytes.data(), keyBytes.size());

     return WTFMove(result);
 }

 } // namespace WebCore

 #endif // ENABLE(WEB_CRYPTO)
	/*
	* Copyright (C) 2013-2019 Apple Inc. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
	* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
	* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
	* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
	* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
	* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
	* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
	* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
	* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
	* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
	* THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#include "config.h"
	#include "CryptoKeyRSA.h"

	#if ENABLE(WEB_CRYPTO)

	#include "CommonCryptoDERUtilities.h"
	#include "CommonCryptoUtilities.h"
	#include "CryptoAlgorithmRegistry.h"
	#include "CryptoKeyPair.h"
	#include "CryptoKeyRSAComponents.h"
	#include "ScriptExecutionContext.h"
	#include <JavaScriptCore/GenericTypedArrayViewInlines.h>
	#include <JavaScriptCore/HeapInlines.h>
	#include <JavaScriptCore/JSGenericTypedArrayViewInlines.h>
	#include <wtf/MainThread.h>

	namespace WebCore {

	// OID rsaEncryption: 1.2.840.113549.1.1.1. Per https://tools.ietf.org/html/rfc3279#section-2.3.1
	static const unsigned char RSAOIDHeader[] = {0x30, 0x0d, 0x06, 0x09, 0x2a, 0x86, 0x48, 0x86, 0xf7, 0x0d, 0x01, 0x01, 0x01, 0x05, 0x00};

	// FIXME: We should get rid of magic number 16384. It assumes that the length of provided key will not exceed 16KB.
	// https://bugs.webkit.org/show_bug.cgi?id=164942
	static CCCryptorStatus getPublicKeyComponents(const PlatformRSAKeyContainer& rsaKey, Vector<uint8_t>& modulus, Vector<uint8_t>& publicExponent)
	{
	ASSERT(CCRSAGetKeyType(rsaKey.get()) == ccRSAKeyPublic \|\| CCRSAGetKeyType(rsaKey.get()) == ccRSAKeyPrivate);
	bool keyIsPublic = CCRSAGetKeyType(rsaKey.get()) == ccRSAKeyPublic;
	ALLOW_DEPRECATED_DECLARATIONS_BEGIN
	PlatformRSAKeyContainer publicKeyFromPrivateKey(keyIsPublic ? nullptr : CCRSACryptorGetPublicKeyFromPrivateKey(rsaKey.get()));
	ALLOW_DEPRECATED_DECLARATIONS_END

	modulus.resize(16384);
	size_t modulusLength = modulus.size();
	publicExponent.resize(16384);
	size_t exponentLength = publicExponent.size();
	CCCryptorStatus status = CCRSAGetKeyComponents(keyIsPublic ? rsaKey.get() : publicKeyFromPrivateKey.get(), modulus.data(), &modulusLength, publicExponent.data(), &exponentLength, 0, 0, 0, 0);
	if (status)
	return status;

	modulus.shrink(modulusLength);
	publicExponent.shrink(exponentLength);
	return status;
	}

	static CCCryptorStatus getPrivateKeyComponents(const PlatformRSAKeyContainer& rsaKey, Vector<uint8_t>& privateExponent, CryptoKeyRSAComponents::PrimeInfo& firstPrimeInfo, CryptoKeyRSAComponents::PrimeInfo& secondPrimeInfo)
	{
	ASSERT(CCRSAGetKeyType(rsaKey.get()) == ccRSAKeyPrivate);

	Vector<uint8_t> unusedModulus(16384);
	size_t modulusLength = unusedModulus.size();
	privateExponent.resize(16384);
	size_t exponentLength = privateExponent.size();
	firstPrimeInfo.primeFactor.resize(16384);
	size_t pLength = firstPrimeInfo.primeFactor.size();
	secondPrimeInfo.primeFactor.resize(16384);
	size_t qLength = secondPrimeInfo.primeFactor.size();

	CCCryptorStatus status = CCRSAGetKeyComponents(rsaKey.get(), unusedModulus.data(), &modulusLength, privateExponent.data(), &exponentLength, firstPrimeInfo.primeFactor.data(), &pLength, secondPrimeInfo.primeFactor.data(), &qLength);
	if (status)
	return status;

	privateExponent.shrink(exponentLength);
	firstPrimeInfo.primeFactor.shrink(pLength);
	secondPrimeInfo.primeFactor.shrink(qLength);

	size_t dpSize;
	size_t dqSize;
	size_t qinvSize;
	if (auto status = CCRSAGetCRTComponentsSizes(rsaKey.get(), &dpSize, &dqSize, &qinvSize))
	return status;

	Vector<uint8_t> dp(dpSize);
	Vector<uint8_t> dq(dqSize);
	Vector<uint8_t> qinv(qinvSize);
	if (auto status = CCRSAGetCRTComponents(rsaKey.get(), dp.data(), dpSize, dq.data(), dqSize, qinv.data(), qinvSize))
	return status;

	firstPrimeInfo.factorCRTExponent = WTFMove(dp);
	secondPrimeInfo.factorCRTExponent = WTFMove(dq);
	secondPrimeInfo.factorCRTCoefficient = WTFMove(qinv);

	return status;
	}

	CryptoKeyRSA::CryptoKeyRSA(CryptoAlgorithmIdentifier identifier, CryptoAlgorithmIdentifier hash, bool hasHash, CryptoKeyType type, PlatformRSAKeyContainer&& platformKey, bool extractable, CryptoKeyUsageBitmap usage)
	: CryptoKey(identifier, type, extractable, usage)
	, m_platformKey(WTFMove(platformKey))
	, m_restrictedToSpecificHash(hasHash)
	, m_hash(hash)
	{
	}

	RefPtr<CryptoKeyRSA> CryptoKeyRSA::create(CryptoAlgorithmIdentifier identifier, CryptoAlgorithmIdentifier hash, bool hasHash, const CryptoKeyRSAComponents& keyData, bool extractable, CryptoKeyUsageBitmap usage)
	{
	if (keyData.type() == CryptoKeyRSAComponents::Type::Private && !keyData.hasAdditionalPrivateKeyParameters()) {
	// <rdar://problem/15452324> tracks adding support.
	WTFLogAlways("Private keys without additional data are not supported");
	return nullptr;
	}
	if (keyData.otherPrimeInfos().size()) {
	// <rdar://problem/15444074> tracks adding support.
	WTFLogAlways("Keys with more than two primes are not supported");
	return nullptr;
	}
	// When an empty vector p is provided to CCRSACryptorCreateFromData to create a private key, it crashes.
	// <rdar://problem/30550228> tracks the issue.
	if (keyData.type() == CryptoKeyRSAComponents::Type::Private && keyData.firstPrimeInfo().primeFactor.isEmpty())
	return nullptr;

	CCRSACryptorRef cryptor = nullptr;
	// FIXME: It is so weired that we recaculate the private exponent from first prime factor and second prime factor,
	// given the fact that we have already had it. Also, the re-caculated private exponent may not match the given one.
	// See <rdar://problem/15452324>.
	CCCryptorStatus status = CCRSACryptorCreateFromData(
	keyData.type() == CryptoKeyRSAComponents::Type::Public ? ccRSAKeyPublic : ccRSAKeyPrivate,
	keyData.modulus().data(), keyData.modulus().size(),
	keyData.exponent().data(), keyData.exponent().size(),
	keyData.firstPrimeInfo().primeFactor.data(), keyData.firstPrimeInfo().primeFactor.size(),
	keyData.secondPrimeInfo().primeFactor.data(), keyData.secondPrimeInfo().primeFactor.size(),
	&cryptor);

	if (status) {
	LOG_ERROR("Couldn't create RSA key from data, error %d", status);
	return nullptr;
	}

	return adoptRef(new CryptoKeyRSA(identifier, hash, hasHash, keyData.type() == CryptoKeyRSAComponents::Type::Public ? CryptoKeyType::Public : CryptoKeyType::Private, PlatformRSAKeyContainer(cryptor), extractable, usage));
	}

	bool CryptoKeyRSA::isRestrictedToHash(CryptoAlgorithmIdentifier& identifier) const
	{
	if (!m_restrictedToSpecificHash)
	return false;

	identifier = m_hash;
	return true;
	}

	size_t CryptoKeyRSA::keySizeInBits() const
	{
	Vector<uint8_t> modulus;
	Vector<uint8_t> publicExponent;
	CCCryptorStatus status = getPublicKeyComponents(m_platformKey, modulus, publicExponent);
	if (status) {
	WTFLogAlways("Couldn't get RSA key components, status %d", status);
	return 0;
	}

	return modulus.size() * 8;
	}

	auto CryptoKeyRSA::algorithm() const -> KeyAlgorithm
	{
	// FIXME: Add a version of getPublicKeyComponents that returns Uint8Array, rather
	// than Vector<uint8_t>, to avoid a copy of the data.

	Vector<uint8_t> modulus;
	Vector<uint8_t> publicExponent;
	CCCryptorStatus status = getPublicKeyComponents(m_platformKey, modulus, publicExponent);
	if (status) {
	WTFLogAlways("Couldn't get RSA key components, status %d", status);
	publicExponent.clear();

	CryptoRsaKeyAlgorithm result;
	result.name = CryptoAlgorithmRegistry::singleton().name(algorithmIdentifier());
	result.modulusLength = 0;
	result.publicExponent = Uint8Array::tryCreate(0);
	return result;
	}

	size_t modulusLength = modulus.size() * 8;

	if (m_restrictedToSpecificHash) {
	CryptoRsaHashedKeyAlgorithm result;
	result.name = CryptoAlgorithmRegistry::singleton().name(algorithmIdentifier());
	result.modulusLength = modulusLength;
	result.publicExponent = Uint8Array::tryCreate(publicExponent.data(), publicExponent.size());
	result.hash.name = CryptoAlgorithmRegistry::singleton().name(m_hash);
	return result;
	}

	CryptoRsaKeyAlgorithm result;
	result.name = CryptoAlgorithmRegistry::singleton().name(algorithmIdentifier());
	result.modulusLength = modulusLength;
	result.publicExponent = Uint8Array::tryCreate(publicExponent.data(), publicExponent.size());
	return result;
	}

	std::unique_ptr<CryptoKeyRSAComponents> CryptoKeyRSA::exportData() const
	{
	switch (CCRSAGetKeyType(m_platformKey.get())) {
	case ccRSAKeyPublic: {
	Vector<uint8_t> modulus;
	Vector<uint8_t> publicExponent;
	CCCryptorStatus status = getPublicKeyComponents(m_platformKey, modulus, publicExponent);
	if (status) {
	WTFLogAlways("Couldn't get RSA key components, status %d", status);
	return nullptr;
	}
	return CryptoKeyRSAComponents::createPublic(modulus, publicExponent);
	}
	case ccRSAKeyPrivate: {
	Vector<uint8_t> modulus;
	Vector<uint8_t> publicExponent;
	CCCryptorStatus status = getPublicKeyComponents(m_platformKey, modulus, publicExponent);
	if (status) {
	WTFLogAlways("Couldn't get RSA key components, status %d", status);
	return nullptr;
	}
	Vector<uint8_t> privateExponent;
	CryptoKeyRSAComponents::PrimeInfo firstPrimeInfo;
	CryptoKeyRSAComponents::PrimeInfo secondPrimeInfo;
	Vector<CryptoKeyRSAComponents::PrimeInfo> otherPrimeInfos; // Always empty, CommonCrypto only supports two primes (cf. <rdar://problem/15444074>).
	status = getPrivateKeyComponents(m_platformKey, privateExponent, firstPrimeInfo, secondPrimeInfo);
	if (status) {
	WTFLogAlways("Couldn't get RSA key components, status %d", status);
	return nullptr;
	}
	return CryptoKeyRSAComponents::createPrivateWithAdditionalData(modulus, publicExponent, privateExponent, firstPrimeInfo, secondPrimeInfo, otherPrimeInfos);
	}
	default:
	return nullptr;
	}
	}

	static bool bigIntegerToUInt32(const Vector<uint8_t>& bigInteger, uint32_t& result)
	{
	result = 0;
	for (size_t i = 0; i + 4 < bigInteger.size(); ++i) {
	if (bigInteger[i])
	return false; // Too big to fit in 32 bits.
	}

	for (size_t i = bigInteger.size() > 4 ? bigInteger.size() - 4 : 0; i < bigInteger.size(); ++i) {
	result <<= 8;
	result += bigInteger[i];
	}
	return true;
	}

	// FIXME: We should use WorkQueue here instead of dispatch_async once WebKitSubtleCrypto is deprecated.
	// https://bugs.webkit.org/show_bug.cgi?id=164943
	void CryptoKeyRSA::generatePair(CryptoAlgorithmIdentifier algorithm, CryptoAlgorithmIdentifier hash, bool hasHash, unsigned modulusLength, const Vector<uint8_t>& publicExponent, bool extractable, CryptoKeyUsageBitmap usage, KeyPairCallback&& callback, VoidCallback&& failureCallback, ScriptExecutionContext* context)
	{
	uint32_t e;
	if (!bigIntegerToUInt32(publicExponent, e)) {
	// Adding support is tracked as <rdar://problem/15444034>.
	WTFLogAlways("Public exponent is too big, not supported");
	failureCallback();
	return;
	}

	__block auto blockCallback(WTFMove(callback));
	__block auto blockFailureCallback(WTFMove(failureCallback));
	auto contextIdentifier = context->contextIdentifier();
	dispatch_async(dispatch_get_global_queue(DISPATCH_QUEUE_PRIORITY_DEFAULT, 0), ^{
	CCRSACryptorRef ccPublicKey = nullptr;
	CCRSACryptorRef ccPrivateKey = nullptr;
	CCCryptorStatus status = CCRSACryptorGeneratePair(modulusLength, e, &ccPublicKey, &ccPrivateKey);
	if (status) {
	WTFLogAlways("Could not generate a key pair, status %d", status);
	ScriptExecutionContext::postTaskTo(contextIdentifier, [callback = WTFMove(blockCallback), failureCallback = WTFMove(blockFailureCallback)](auto&) {
	failureCallback();
	});
	return;
	}
	ScriptExecutionContext::postTaskTo(contextIdentifier, [algorithm, hash, hasHash, extractable, usage, callback = WTFMove(blockCallback), failureCallback = WTFMove(blockFailureCallback), ccPublicKey = PlatformRSAKeyContainer(ccPublicKey), ccPrivateKey = PlatformRSAKeyContainer(ccPrivateKey)](auto&) mutable {
	auto publicKey = CryptoKeyRSA::create(algorithm, hash, hasHash, CryptoKeyType::Public, WTFMove(ccPublicKey), true, usage);
	auto privateKey = CryptoKeyRSA::create(algorithm, hash, hasHash, CryptoKeyType::Private, WTFMove(ccPrivateKey), extractable, usage);

	callback(CryptoKeyPair { WTFMove(publicKey), WTFMove(privateKey) });
	});
	});
	}

	RefPtr<CryptoKeyRSA> CryptoKeyRSA::importSpki(CryptoAlgorithmIdentifier identifier, Optional<CryptoAlgorithmIdentifier> hash, Vector<uint8_t>&& keyData, bool extractable, CryptoKeyUsageBitmap usages)
	{
	// The current SecLibrary cannot import a SPKI format binary. Hence, we need to strip out the SPKI header.
	// This hack can be removed when <rdar://problem/29523286> is resolved.
	// The header format we assume is: SequenceMark(1) + Length(?) + rsaEncryption(15) + BitStringMark(1) + Length(?) + InitialOctet(1).
	// The header format could be varied. However since we don't have a full-fledged ASN.1 encoder/decoder, we want to restrict it to
	// the most common one for now.
	// Per https://tools.ietf.org/html/rfc5280#section-4.1. subjectPublicKeyInfo.
	size_t headerSize = 1;
	if (keyData.size() < headerSize + 1)
	return nullptr;
	headerSize += bytesUsedToEncodedLength(keyData[headerSize]) + sizeof(RSAOIDHeader) + sizeof(BitStringMark);
	if (keyData.size() < headerSize + 1)
	return nullptr;
	headerSize += bytesUsedToEncodedLength(keyData[headerSize]) + sizeof(InitialOctet);

	CCRSACryptorRef ccPublicKey = nullptr;
	if (CCRSACryptorImport(keyData.data() + headerSize, keyData.size() - headerSize, &ccPublicKey))
	return nullptr;

	// Notice: CryptoAlgorithmIdentifier::SHA_1 is just a placeholder. It should not have any effect if hash is WTF::nullopt.
	return adoptRef(new CryptoKeyRSA(identifier, hash.valueOr(CryptoAlgorithmIdentifier::SHA_1), !!hash, CryptoKeyType::Public, PlatformRSAKeyContainer(ccPublicKey), extractable, usages));
	}

	ExceptionOr<Vector<uint8_t>> CryptoKeyRSA::exportSpki() const
	{
	if (type() != CryptoKeyType::Public)
	return Exception { InvalidAccessError };

	// The current SecLibrary cannot output a valid SPKI format binary. Hence, we need the following hack.
	// This hack can be removed when <rdar://problem/29523286> is resolved.
	// Estimated size in produced bytes format. Per https://tools.ietf.org/html/rfc3279#section-2.3.1. RSAPublicKey.
	// O(size) = Sequence(1) + Length(3) + Integer(1) + Length(3) + Modulus + Integer(1) + Length(3) + Exponent
	Vector<uint8_t> keyBytes(keySizeInBits() / 4);
	size_t keySize = keyBytes.size();
	if (CCRSACryptorExport(platformKey(), keyBytes.data(), &keySize))
	return Exception { OperationError };
	keyBytes.shrink(keySize);

	// RSAOIDHeader + BitStringMark + Length + keySize + InitialOctet
	size_t totalSize = sizeof(RSAOIDHeader) + bytesNeededForEncodedLength(keySize + 1) + keySize + 2;

	// Per https://tools.ietf.org/html/rfc5280#section-4.1. subjectPublicKeyInfo.
	Vector<uint8_t> result;
	result.reserveCapacity(totalSize + bytesNeededForEncodedLength(totalSize) + 1);
	result.append(SequenceMark);
	addEncodedASN1Length(result, totalSize);
	result.append(RSAOIDHeader, sizeof(RSAOIDHeader));
	result.append(BitStringMark);
	addEncodedASN1Length(result, keySize + 1);
	result.append(InitialOctet);
	result.append(keyBytes.data(), keyBytes.size());

	return WTFMove(result);
	}

	RefPtr<CryptoKeyRSA> CryptoKeyRSA::importPkcs8(CryptoAlgorithmIdentifier identifier, Optional<CryptoAlgorithmIdentifier> hash, Vector<uint8_t>&& keyData, bool extractable, CryptoKeyUsageBitmap usages)
	{
	// The current SecLibrary cannot import a PKCS8 format binary. Hence, we need to strip out the PKCS8 header.
	// This hack can be removed when <rdar://problem/29523286> is resolved.
	// The header format we assume is: SequenceMark(1) + Length(?) + Version(3) + rsaEncryption(15) + OctetStringMark(1) + Length(?).
	// The header format could be varied. However since we don't have a full-fledged ASN.1 encoder/decoder, we want to restrict it to
	// the most common one for now.
	// Per https://tools.ietf.org/html/rfc5208#section-5. PrivateKeyInfo.
	// We also assume there is no optional parameters.
	size_t headerSize = 1;
	if (keyData.size() < headerSize + 1)
	return nullptr;
	headerSize += bytesUsedToEncodedLength(keyData[headerSize]) + sizeof(Version) + sizeof(RSAOIDHeader) + sizeof(OctetStringMark);
	if (keyData.size() < headerSize + 1)
	return nullptr;
	headerSize += bytesUsedToEncodedLength(keyData[headerSize]);

	CCRSACryptorRef ccPrivateKey = nullptr;
	if (CCRSACryptorImport(keyData.data() + headerSize, keyData.size() - headerSize, &ccPrivateKey))
	return nullptr;

	// Notice: CryptoAlgorithmIdentifier::SHA_1 is just a placeholder. It should not have any effect if hash is WTF::nullopt.
	return adoptRef(new CryptoKeyRSA(identifier, hash.valueOr(CryptoAlgorithmIdentifier::SHA_1), !!hash, CryptoKeyType::Private, PlatformRSAKeyContainer(ccPrivateKey), extractable, usages));
	}

	ExceptionOr<Vector<uint8_t>> CryptoKeyRSA::exportPkcs8() const
	{
	if (type() != CryptoKeyType::Private)
	return Exception { InvalidAccessError };

	// The current SecLibrary cannot output a valid PKCS8 format binary. Hence, we need the following hack.
	// This hack can be removed when <rdar://problem/29523286> is resolved.
	// Estimated size in produced bytes format. Per https://tools.ietf.org/html/rfc3447#appendix-A.1.2. RSAPrivateKey.
	// O(size) = Sequence(1) + Length(3) + Integer(1) + Length(3) + Modulus + Integer(1) + Length(3) + publicExponent + Integer(1) + Length(3) +
	// privateExponent + Integer(1) + Length(3) + prime1 + Integer(1) + Length(3) + prime2 + Integer(1) + Length(3) + exponent1 + Integer(1) +
	// Length(3) + exponent2 + Integer(1) + Length(3) + coefficient.
	Vector<uint8_t> keyBytes(keySizeInBits());
	size_t keySize = keyBytes.size();
	if (CCRSACryptorExport(platformKey(), keyBytes.data(), &keySize))
	return Exception { OperationError };
	keyBytes.shrink(keySize);

	// Version + RSAOIDHeader + OctetStringMark + Length + keySize
	size_t totalSize = sizeof(Version) + sizeof(RSAOIDHeader) + bytesNeededForEncodedLength(keySize) + keySize + 1;

	// Per https://tools.ietf.org/html/rfc5208#section-5. PrivateKeyInfo.
	Vector<uint8_t> result;
	result.reserveCapacity(totalSize + bytesNeededForEncodedLength(totalSize) + 1);
	result.append(SequenceMark);
	addEncodedASN1Length(result, totalSize);
	result.append(Version, sizeof(Version));
	result.append(RSAOIDHeader, sizeof(RSAOIDHeader));
	result.append(OctetStringMark);
	addEncodedASN1Length(result, keySize);
	result.append(keyBytes.data(), keyBytes.size());

	return WTFMove(result);
	}

	} // namespace WebCore

	#endif // ENABLE(WEB_CRYPTO)