mirror of
https://gitlab.winehq.org/wine/wine-gecko.git
synced 2024-09-13 09:24:08 -07:00
631 lines
17 KiB
C++
631 lines
17 KiB
C++
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim:set ts=2 sw=2 sts=2 et cindent: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "pk11pub.h"
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#include "cryptohi.h"
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#include "ScopedNSSTypes.h"
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#include "mozilla/dom/CryptoKey.h"
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#include "mozilla/dom/WebCryptoCommon.h"
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#include "mozilla/dom/SubtleCryptoBinding.h"
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namespace mozilla {
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namespace dom {
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NS_IMPL_CYCLE_COLLECTION_WRAPPERCACHE(CryptoKey, mGlobal, mAlgorithm)
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NS_IMPL_CYCLE_COLLECTING_ADDREF(CryptoKey)
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NS_IMPL_CYCLE_COLLECTING_RELEASE(CryptoKey)
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NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(CryptoKey)
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NS_WRAPPERCACHE_INTERFACE_MAP_ENTRY
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NS_INTERFACE_MAP_ENTRY(nsISupports)
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NS_INTERFACE_MAP_END
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nsresult
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StringToUsage(const nsString& aUsage, CryptoKey::KeyUsage& aUsageOut)
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{
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if (aUsage.EqualsLiteral(WEBCRYPTO_KEY_USAGE_ENCRYPT)) {
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aUsageOut = CryptoKey::ENCRYPT;
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} else if (aUsage.EqualsLiteral(WEBCRYPTO_KEY_USAGE_DECRYPT)) {
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aUsageOut = CryptoKey::DECRYPT;
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} else if (aUsage.EqualsLiteral(WEBCRYPTO_KEY_USAGE_SIGN)) {
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aUsageOut = CryptoKey::SIGN;
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} else if (aUsage.EqualsLiteral(WEBCRYPTO_KEY_USAGE_VERIFY)) {
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aUsageOut = CryptoKey::VERIFY;
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} else if (aUsage.EqualsLiteral(WEBCRYPTO_KEY_USAGE_DERIVEKEY)) {
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aUsageOut = CryptoKey::DERIVEKEY;
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} else if (aUsage.EqualsLiteral(WEBCRYPTO_KEY_USAGE_DERIVEBITS)) {
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aUsageOut = CryptoKey::DERIVEBITS;
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} else if (aUsage.EqualsLiteral(WEBCRYPTO_KEY_USAGE_WRAPKEY)) {
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aUsageOut = CryptoKey::WRAPKEY;
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} else if (aUsage.EqualsLiteral(WEBCRYPTO_KEY_USAGE_UNWRAPKEY)) {
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aUsageOut = CryptoKey::UNWRAPKEY;
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} else {
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return NS_ERROR_DOM_SYNTAX_ERR;
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}
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return NS_OK;
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}
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CryptoKey::CryptoKey(nsIGlobalObject* aGlobal)
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: mGlobal(aGlobal)
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, mAttributes(0)
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, mSymKey()
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, mPrivateKey(nullptr)
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, mPublicKey(nullptr)
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{
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SetIsDOMBinding();
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}
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CryptoKey::~CryptoKey()
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{
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nsNSSShutDownPreventionLock locker;
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if (isAlreadyShutDown()) {
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return;
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}
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destructorSafeDestroyNSSReference();
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shutdown(calledFromObject);
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}
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JSObject*
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CryptoKey::WrapObject(JSContext* aCx)
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{
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return CryptoKeyBinding::Wrap(aCx, this);
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}
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void
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CryptoKey::GetType(nsString& aRetVal) const
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{
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uint32_t type = mAttributes & TYPE_MASK;
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switch (type) {
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case PUBLIC: aRetVal.AssignLiteral(WEBCRYPTO_KEY_TYPE_PUBLIC); break;
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case PRIVATE: aRetVal.AssignLiteral(WEBCRYPTO_KEY_TYPE_PRIVATE); break;
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case SECRET: aRetVal.AssignLiteral(WEBCRYPTO_KEY_TYPE_SECRET); break;
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}
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}
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bool
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CryptoKey::Extractable() const
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{
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return (mAttributes & EXTRACTABLE);
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}
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KeyAlgorithm*
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CryptoKey::Algorithm() const
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{
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return mAlgorithm;
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}
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void
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CryptoKey::GetUsages(nsTArray<nsString>& aRetVal) const
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{
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if (mAttributes & ENCRYPT) {
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aRetVal.AppendElement(NS_LITERAL_STRING(WEBCRYPTO_KEY_USAGE_ENCRYPT));
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}
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if (mAttributes & DECRYPT) {
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aRetVal.AppendElement(NS_LITERAL_STRING(WEBCRYPTO_KEY_USAGE_DECRYPT));
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}
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if (mAttributes & SIGN) {
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aRetVal.AppendElement(NS_LITERAL_STRING(WEBCRYPTO_KEY_USAGE_SIGN));
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}
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if (mAttributes & VERIFY) {
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aRetVal.AppendElement(NS_LITERAL_STRING(WEBCRYPTO_KEY_USAGE_VERIFY));
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}
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if (mAttributes & DERIVEKEY) {
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aRetVal.AppendElement(NS_LITERAL_STRING(WEBCRYPTO_KEY_USAGE_DERIVEKEY));
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}
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if (mAttributes & DERIVEBITS) {
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aRetVal.AppendElement(NS_LITERAL_STRING(WEBCRYPTO_KEY_USAGE_DERIVEBITS));
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}
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if (mAttributes & WRAPKEY) {
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aRetVal.AppendElement(NS_LITERAL_STRING(WEBCRYPTO_KEY_USAGE_WRAPKEY));
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}
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if (mAttributes & UNWRAPKEY) {
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aRetVal.AppendElement(NS_LITERAL_STRING(WEBCRYPTO_KEY_USAGE_UNWRAPKEY));
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}
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}
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CryptoKey::KeyType
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CryptoKey::GetKeyType() const
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{
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return static_cast<CryptoKey::KeyType>(mAttributes & TYPE_MASK);
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}
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nsresult
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CryptoKey::SetType(const nsString& aType)
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{
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mAttributes &= CLEAR_TYPE;
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if (aType.EqualsLiteral(WEBCRYPTO_KEY_TYPE_SECRET)) {
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mAttributes |= SECRET;
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} else if (aType.EqualsLiteral(WEBCRYPTO_KEY_TYPE_PUBLIC)) {
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mAttributes |= PUBLIC;
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} else if (aType.EqualsLiteral(WEBCRYPTO_KEY_TYPE_PRIVATE)) {
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mAttributes |= PRIVATE;
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} else {
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mAttributes |= UNKNOWN;
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return NS_ERROR_DOM_SYNTAX_ERR;
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}
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return NS_OK;
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}
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void
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CryptoKey::SetType(CryptoKey::KeyType aType)
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{
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mAttributes &= CLEAR_TYPE;
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mAttributes |= aType;
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}
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void
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CryptoKey::SetExtractable(bool aExtractable)
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{
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mAttributes &= CLEAR_EXTRACTABLE;
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if (aExtractable) {
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mAttributes |= EXTRACTABLE;
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}
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}
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void
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CryptoKey::SetAlgorithm(KeyAlgorithm* aAlgorithm)
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{
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mAlgorithm = aAlgorithm;
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}
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void
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CryptoKey::ClearUsages()
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{
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mAttributes &= CLEAR_USAGES;
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}
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nsresult
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CryptoKey::AddUsage(const nsString& aUsage)
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{
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return AddUsageIntersecting(aUsage, USAGES_MASK);
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}
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nsresult
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CryptoKey::AddUsageIntersecting(const nsString& aUsage, uint32_t aUsageMask)
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{
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KeyUsage usage;
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if (NS_FAILED(StringToUsage(aUsage, usage))) {
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return NS_ERROR_DOM_SYNTAX_ERR;
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}
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if (usage & aUsageMask) {
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AddUsage(usage);
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return NS_OK;
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}
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return NS_OK;
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}
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void
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CryptoKey::AddUsage(CryptoKey::KeyUsage aUsage)
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{
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mAttributes |= aUsage;
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}
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bool
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CryptoKey::HasUsage(CryptoKey::KeyUsage aUsage)
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{
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return !!(mAttributes & aUsage);
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}
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bool
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CryptoKey::HasUsageOtherThan(uint32_t aUsages)
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{
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return !!(mAttributes & USAGES_MASK & ~aUsages);
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}
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void CryptoKey::SetSymKey(const CryptoBuffer& aSymKey)
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{
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mSymKey = aSymKey;
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}
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void
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CryptoKey::SetPrivateKey(SECKEYPrivateKey* aPrivateKey)
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{
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nsNSSShutDownPreventionLock locker;
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if (!aPrivateKey || isAlreadyShutDown()) {
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mPrivateKey = nullptr;
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return;
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}
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mPrivateKey = SECKEY_CopyPrivateKey(aPrivateKey);
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}
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void
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CryptoKey::SetPublicKey(SECKEYPublicKey* aPublicKey)
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{
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nsNSSShutDownPreventionLock locker;
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if (!aPublicKey || isAlreadyShutDown()) {
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mPublicKey = nullptr;
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return;
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}
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mPublicKey = SECKEY_CopyPublicKey(aPublicKey);
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}
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const CryptoBuffer&
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CryptoKey::GetSymKey() const
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{
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return mSymKey;
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}
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SECKEYPrivateKey*
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CryptoKey::GetPrivateKey() const
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{
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nsNSSShutDownPreventionLock locker;
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if (!mPrivateKey || isAlreadyShutDown()) {
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return nullptr;
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}
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return SECKEY_CopyPrivateKey(mPrivateKey.get());
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}
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SECKEYPublicKey*
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CryptoKey::GetPublicKey() const
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{
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nsNSSShutDownPreventionLock locker;
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if (!mPublicKey || isAlreadyShutDown()) {
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return nullptr;
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}
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return SECKEY_CopyPublicKey(mPublicKey.get());
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}
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void CryptoKey::virtualDestroyNSSReference()
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{
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destructorSafeDestroyNSSReference();
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}
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void CryptoKey::destructorSafeDestroyNSSReference()
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{
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mPrivateKey.dispose();
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mPublicKey.dispose();
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}
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// Serialization and deserialization convenience methods
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SECKEYPrivateKey*
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CryptoKey::PrivateKeyFromPkcs8(CryptoBuffer& aKeyData,
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const nsNSSShutDownPreventionLock& /*proofOfLock*/)
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{
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SECKEYPrivateKey* privKey;
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ScopedPK11SlotInfo slot(PK11_GetInternalSlot());
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ScopedSECItem pkcs8Item(aKeyData.ToSECItem());
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if (!pkcs8Item) {
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return nullptr;
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}
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// Allow everything, we enforce usage ourselves
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unsigned int usage = KU_ALL;
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SECStatus rv = PK11_ImportDERPrivateKeyInfoAndReturnKey(
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slot.get(), pkcs8Item.get(), nullptr, nullptr, false, false,
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usage, &privKey, nullptr);
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if (rv == SECFailure) {
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return nullptr;
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}
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return privKey;
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}
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SECKEYPublicKey*
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CryptoKey::PublicKeyFromSpki(CryptoBuffer& aKeyData,
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const nsNSSShutDownPreventionLock& /*proofOfLock*/)
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{
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ScopedSECItem spkiItem(aKeyData.ToSECItem());
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if (!spkiItem) {
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return nullptr;
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}
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ScopedCERTSubjectPublicKeyInfo spki(SECKEY_DecodeDERSubjectPublicKeyInfo(spkiItem.get()));
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if (!spki) {
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return nullptr;
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}
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return SECKEY_ExtractPublicKey(spki.get());
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}
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nsresult
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CryptoKey::PrivateKeyToPkcs8(SECKEYPrivateKey* aPrivKey,
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CryptoBuffer& aRetVal,
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const nsNSSShutDownPreventionLock& /*proofOfLock*/)
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{
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ScopedSECItem pkcs8Item(PK11_ExportDERPrivateKeyInfo(aPrivKey, nullptr));
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if (!pkcs8Item.get()) {
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return NS_ERROR_DOM_INVALID_ACCESS_ERR;
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}
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aRetVal.Assign(pkcs8Item.get());
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return NS_OK;
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}
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nsresult
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CryptoKey::PublicKeyToSpki(SECKEYPublicKey* aPubKey,
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CryptoBuffer& aRetVal,
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const nsNSSShutDownPreventionLock& /*proofOfLock*/)
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{
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ScopedSECItem spkiItem(PK11_DEREncodePublicKey(aPubKey));
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if (!spkiItem.get()) {
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return NS_ERROR_DOM_INVALID_ACCESS_ERR;
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}
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aRetVal.Assign(spkiItem.get());
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return NS_OK;
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}
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SECKEYPrivateKey*
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CryptoKey::PrivateKeyFromJwk(const JsonWebKey& aJwk,
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const nsNSSShutDownPreventionLock& /*proofOfLock*/)
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{
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if (!aJwk.mKty.WasPassed() || !aJwk.mKty.Value().EqualsLiteral(JWK_TYPE_RSA)) {
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return nullptr;
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}
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// Verify that all of the required parameters are present
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CryptoBuffer n, e, d, p, q, dp, dq, qi;
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if (!aJwk.mN.WasPassed() || NS_FAILED(n.FromJwkBase64(aJwk.mN.Value())) ||
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!aJwk.mE.WasPassed() || NS_FAILED(e.FromJwkBase64(aJwk.mE.Value())) ||
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!aJwk.mD.WasPassed() || NS_FAILED(d.FromJwkBase64(aJwk.mD.Value())) ||
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!aJwk.mP.WasPassed() || NS_FAILED(p.FromJwkBase64(aJwk.mP.Value())) ||
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!aJwk.mQ.WasPassed() || NS_FAILED(q.FromJwkBase64(aJwk.mQ.Value())) ||
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!aJwk.mDp.WasPassed() || NS_FAILED(dp.FromJwkBase64(aJwk.mDp.Value())) ||
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!aJwk.mDq.WasPassed() || NS_FAILED(dq.FromJwkBase64(aJwk.mDq.Value())) ||
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!aJwk.mQi.WasPassed() || NS_FAILED(qi.FromJwkBase64(aJwk.mQi.Value()))) {
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return nullptr;
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}
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// Compute the ID for this key
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// This is generated with a SHA-1 hash, so unlikely to collide
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ScopedSECItem nItem(n.ToSECItem());
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ScopedSECItem objID(PK11_MakeIDFromPubKey(nItem.get()));
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if (!nItem.get() || !objID.get()) {
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return nullptr;
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}
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// Populate template from parameters
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CK_OBJECT_CLASS privateKeyValue = CKO_PRIVATE_KEY;
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CK_KEY_TYPE rsaValue = CKK_RSA;
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CK_BBOOL falseValue = CK_FALSE;
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CK_ATTRIBUTE keyTemplate[14] = {
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{ CKA_CLASS, &privateKeyValue, sizeof(privateKeyValue) },
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{ CKA_KEY_TYPE, &rsaValue, sizeof(rsaValue) },
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{ CKA_TOKEN, &falseValue, sizeof(falseValue) },
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{ CKA_SENSITIVE, &falseValue, sizeof(falseValue) },
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{ CKA_PRIVATE, &falseValue, sizeof(falseValue) },
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{ CKA_ID, objID->data, objID->len },
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{ CKA_MODULUS, (void*) n.Elements(), n.Length() },
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{ CKA_PUBLIC_EXPONENT, (void*) e.Elements(), e.Length() },
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{ CKA_PRIVATE_EXPONENT, (void*) d.Elements(), d.Length() },
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{ CKA_PRIME_1, (void*) p.Elements(), p.Length() },
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{ CKA_PRIME_2, (void*) q.Elements(), q.Length() },
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{ CKA_EXPONENT_1, (void*) dp.Elements(), dp.Length() },
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{ CKA_EXPONENT_2, (void*) dq.Elements(), dq.Length() },
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{ CKA_COEFFICIENT, (void*) qi.Elements(), qi.Length() },
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};
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// Create a generic object with the contents of the key
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ScopedPK11SlotInfo slot(PK11_GetInternalSlot());
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if (!slot.get()) {
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return nullptr;
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}
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ScopedPK11GenericObject obj(PK11_CreateGenericObject(slot.get(),
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keyTemplate,
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PR_ARRAY_SIZE(keyTemplate),
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PR_FALSE));
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if (!obj.get()) {
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return nullptr;
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}
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// Have NSS translate the object to a private key by inspection
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// and make a copy we can own
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ScopedSECKEYPrivateKey privKey(PK11_FindKeyByKeyID(slot.get(), objID.get(),
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nullptr));
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if (!privKey.get()) {
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return nullptr;
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}
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return SECKEY_CopyPrivateKey(privKey.get());
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}
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bool ReadAndEncodeAttribute(SECKEYPrivateKey* aKey,
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CK_ATTRIBUTE_TYPE aAttribute,
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Optional<nsString>& aDst)
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{
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ScopedSECItem item(new SECItem());
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if (PK11_ReadRawAttribute(PK11_TypePrivKey, aKey, aAttribute, item)
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!= SECSuccess) {
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return false;
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}
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CryptoBuffer buffer;
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if (!buffer.Assign(item)) {
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return false;
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}
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if (NS_FAILED(buffer.ToJwkBase64(aDst.Value()))) {
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return false;
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}
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return true;
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}
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nsresult
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CryptoKey::PrivateKeyToJwk(SECKEYPrivateKey* aPrivKey,
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JsonWebKey& aRetVal,
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const nsNSSShutDownPreventionLock& /*proofOfLock*/)
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{
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switch (aPrivKey->keyType) {
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case rsaKey: {
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aRetVal.mN.Construct();
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aRetVal.mE.Construct();
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aRetVal.mD.Construct();
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aRetVal.mP.Construct();
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aRetVal.mQ.Construct();
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aRetVal.mDp.Construct();
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aRetVal.mDq.Construct();
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aRetVal.mQi.Construct();
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if (!ReadAndEncodeAttribute(aPrivKey, CKA_MODULUS, aRetVal.mN) ||
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!ReadAndEncodeAttribute(aPrivKey, CKA_PUBLIC_EXPONENT, aRetVal.mE) ||
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!ReadAndEncodeAttribute(aPrivKey, CKA_PRIVATE_EXPONENT, aRetVal.mD) ||
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!ReadAndEncodeAttribute(aPrivKey, CKA_PRIME_1, aRetVal.mP) ||
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!ReadAndEncodeAttribute(aPrivKey, CKA_PRIME_2, aRetVal.mQ) ||
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!ReadAndEncodeAttribute(aPrivKey, CKA_EXPONENT_1, aRetVal.mDp) ||
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!ReadAndEncodeAttribute(aPrivKey, CKA_EXPONENT_2, aRetVal.mDq) ||
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!ReadAndEncodeAttribute(aPrivKey, CKA_COEFFICIENT, aRetVal.mQi)) {
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return NS_ERROR_DOM_OPERATION_ERR;
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}
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aRetVal.mKty.Construct(NS_LITERAL_STRING(JWK_TYPE_RSA));
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return NS_OK;
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}
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case ecKey: // TODO: Bug 1034855
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default:
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return NS_ERROR_DOM_NOT_SUPPORTED_ERR;
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}
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}
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SECKEYPublicKey*
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CryptoKey::PublicKeyFromJwk(const JsonWebKey& aJwk,
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const nsNSSShutDownPreventionLock& /*proofOfLock*/)
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{
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if (!aJwk.mKty.WasPassed() || !aJwk.mKty.Value().EqualsLiteral(JWK_TYPE_RSA)) {
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return nullptr;
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}
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|
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// Verify that all of the required parameters are present
|
|
CryptoBuffer n, e;
|
|
if (!aJwk.mN.WasPassed() || NS_FAILED(n.FromJwkBase64(aJwk.mN.Value())) ||
|
|
!aJwk.mE.WasPassed() || NS_FAILED(e.FromJwkBase64(aJwk.mE.Value()))) {
|
|
return nullptr;
|
|
}
|
|
|
|
// Transcode to a DER RSAPublicKey structure
|
|
struct RSAPublicKeyData {
|
|
SECItem n;
|
|
SECItem e;
|
|
};
|
|
const RSAPublicKeyData input = {
|
|
{ siUnsignedInteger, n.Elements(), (unsigned int) n.Length() },
|
|
{ siUnsignedInteger, e.Elements(), (unsigned int) e.Length() }
|
|
};
|
|
const SEC_ASN1Template rsaPublicKeyTemplate[] = {
|
|
{SEC_ASN1_SEQUENCE, 0, nullptr, sizeof(RSAPublicKeyData)},
|
|
{SEC_ASN1_INTEGER, offsetof(RSAPublicKeyData, n),},
|
|
{SEC_ASN1_INTEGER, offsetof(RSAPublicKeyData, e),},
|
|
{0,}
|
|
};
|
|
|
|
ScopedSECItem pkDer(SEC_ASN1EncodeItem(nullptr, nullptr, &input,
|
|
rsaPublicKeyTemplate));
|
|
if (!pkDer.get()) {
|
|
return nullptr;
|
|
}
|
|
|
|
return SECKEY_ImportDERPublicKey(pkDer.get(), CKK_RSA);
|
|
}
|
|
|
|
nsresult
|
|
CryptoKey::PublicKeyToJwk(SECKEYPublicKey* aPubKey,
|
|
JsonWebKey& aRetVal,
|
|
const nsNSSShutDownPreventionLock& /*proofOfLock*/)
|
|
{
|
|
switch (aPubKey->keyType) {
|
|
case rsaKey: {
|
|
CryptoBuffer n, e;
|
|
aRetVal.mN.Construct();
|
|
aRetVal.mE.Construct();
|
|
|
|
if (!n.Assign(&aPubKey->u.rsa.modulus) ||
|
|
!e.Assign(&aPubKey->u.rsa.publicExponent) ||
|
|
NS_FAILED(n.ToJwkBase64(aRetVal.mN.Value())) ||
|
|
NS_FAILED(e.ToJwkBase64(aRetVal.mE.Value()))) {
|
|
return NS_ERROR_DOM_OPERATION_ERR;
|
|
}
|
|
|
|
aRetVal.mKty.Construct(NS_LITERAL_STRING(JWK_TYPE_RSA));
|
|
return NS_OK;
|
|
}
|
|
case ecKey: // TODO
|
|
default:
|
|
return NS_ERROR_DOM_NOT_SUPPORTED_ERR;
|
|
}
|
|
}
|
|
|
|
bool
|
|
CryptoKey::WriteStructuredClone(JSStructuredCloneWriter* aWriter) const
|
|
{
|
|
nsNSSShutDownPreventionLock locker;
|
|
if (isAlreadyShutDown()) {
|
|
return false;
|
|
}
|
|
|
|
// Write in five pieces
|
|
// 1. Attributes
|
|
// 2. Symmetric key as raw (if present)
|
|
// 3. Private key as pkcs8 (if present)
|
|
// 4. Public key as spki (if present)
|
|
// 5. Algorithm in whatever form it chooses
|
|
CryptoBuffer priv, pub;
|
|
|
|
if (mPrivateKey) {
|
|
CryptoKey::PrivateKeyToPkcs8(mPrivateKey, priv, locker);
|
|
}
|
|
|
|
if (mPublicKey) {
|
|
CryptoKey::PublicKeyToSpki(mPublicKey, pub, locker);
|
|
}
|
|
|
|
return JS_WriteUint32Pair(aWriter, mAttributes, 0) &&
|
|
WriteBuffer(aWriter, mSymKey) &&
|
|
WriteBuffer(aWriter, priv) &&
|
|
WriteBuffer(aWriter, pub) &&
|
|
mAlgorithm->WriteStructuredClone(aWriter);
|
|
}
|
|
|
|
bool
|
|
CryptoKey::ReadStructuredClone(JSStructuredCloneReader* aReader)
|
|
{
|
|
nsNSSShutDownPreventionLock locker;
|
|
if (isAlreadyShutDown()) {
|
|
return false;
|
|
}
|
|
|
|
uint32_t zero;
|
|
CryptoBuffer sym, priv, pub;
|
|
nsRefPtr<KeyAlgorithm> algorithm;
|
|
|
|
bool read = JS_ReadUint32Pair(aReader, &mAttributes, &zero) &&
|
|
ReadBuffer(aReader, sym) &&
|
|
ReadBuffer(aReader, priv) &&
|
|
ReadBuffer(aReader, pub) &&
|
|
(algorithm = KeyAlgorithm::Create(mGlobal, aReader));
|
|
if (!read) {
|
|
return false;
|
|
}
|
|
|
|
if (sym.Length() > 0) {
|
|
mSymKey = sym;
|
|
}
|
|
if (priv.Length() > 0) {
|
|
mPrivateKey = CryptoKey::PrivateKeyFromPkcs8(priv, locker);
|
|
}
|
|
if (pub.Length() > 0) {
|
|
mPublicKey = CryptoKey::PublicKeyFromSpki(pub, locker);
|
|
}
|
|
mAlgorithm = algorithm;
|
|
|
|
// Ensure that what we've read is consistent
|
|
// If the attributes indicate a key type, should have a key of that type
|
|
if (!((GetKeyType() == SECRET && mSymKey.Length() > 0) ||
|
|
(GetKeyType() == PRIVATE && mPrivateKey) ||
|
|
(GetKeyType() == PUBLIC && mPublicKey))) {
|
|
return false;
|
|
}
|
|
|
|
return true;
|
|
}
|
|
|
|
} // namespace dom
|
|
} // namespace mozilla
|