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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
#ifndef mozilla_dom_WebCryptoTask_h
#define mozilla_dom_WebCryptoTask_h
#include "ScopedNSSTypes.h"
#include "mozilla/dom/CryptoKey.h"
#include "mozilla/dom/DOMException.h"
#include "mozilla/dom/Promise.h"
#include "mozilla/dom/SubtleCryptoBinding.h"
#include "nsIGlobalObject.h"
namespace mozilla::dom {
class ThreadSafeWorkerRef;
typedef ArrayBufferViewOrArrayBuffer CryptoOperationData;
typedef ArrayBufferViewOrArrayBuffer KeyData;
/*
The execution of a WebCryptoTask happens in several phases
1. Constructor
2. BeforeCrypto
3. CalculateResult -> DoCrypto
4. AfterCrypto
5. Resolve or FailWithError
6. Cleanup
If any of these steps produces an error (setting mEarlyRv), then
subsequent steps will not proceed. If the constructor or BeforeCrypto
sets mEarlyComplete to true, then we will skip step 3, saving the
thread overhead.
In general, the constructor should handle any parsing steps that
require JS context, and otherwise just cache information for later
steps to use.
All steps besides step 3 occur on the main thread, so they should
avoid blocking operations.
Only step 3 is guarded to ensure that NSS has not been shutdown,
so all NSS interactions should occur in DoCrypto
Cleanup should execute regardless of what else happens.
*/
#define MAYBE_EARLY_FAIL(rv) \
if (NS_FAILED(rv)) { \
FailWithError(rv); \
return; \
}
class WebCryptoTask : public CancelableRunnable {
public:
virtual void DispatchWithPromise(Promise* aResultPromise);
protected:
static WebCryptoTask* CreateEncryptDecryptTask(
JSContext* aCx, const ObjectOrString& aAlgorithm, CryptoKey& aKey,
const CryptoOperationData& aData, bool aEncrypt);
static WebCryptoTask* CreateSignVerifyTask(
JSContext* aCx, const ObjectOrString& aAlgorithm, CryptoKey& aKey,
const CryptoOperationData& aSignature, const CryptoOperationData& aData,
bool aSign);
public:
static WebCryptoTask* CreateEncryptTask(JSContext* aCx,
const ObjectOrString& aAlgorithm,
CryptoKey& aKey,
const CryptoOperationData& aData) {
return CreateEncryptDecryptTask(aCx, aAlgorithm, aKey, aData, true);
}
static WebCryptoTask* CreateDecryptTask(JSContext* aCx,
const ObjectOrString& aAlgorithm,
CryptoKey& aKey,
const CryptoOperationData& aData) {
return CreateEncryptDecryptTask(aCx, aAlgorithm, aKey, aData, false);
}
static WebCryptoTask* CreateSignTask(JSContext* aCx,
const ObjectOrString& aAlgorithm,
CryptoKey& aKey,
const CryptoOperationData& aData) {
CryptoOperationData dummy;
Unused << dummy.SetAsArrayBuffer(aCx);
return CreateSignVerifyTask(aCx, aAlgorithm, aKey, dummy, aData, true);
}
static WebCryptoTask* CreateVerifyTask(JSContext* aCx,
const ObjectOrString& aAlgorithm,
CryptoKey& aKey,
const CryptoOperationData& aSignature,
const CryptoOperationData& aData) {
return CreateSignVerifyTask(aCx, aAlgorithm, aKey, aSignature, aData,
false);
}
static WebCryptoTask* CreateDigestTask(JSContext* aCx,
const ObjectOrString& aAlgorithm,
const CryptoOperationData& aData);
static WebCryptoTask* CreateImportKeyTask(
nsIGlobalObject* aGlobal, JSContext* aCx, const nsAString& aFormat,
JS::Handle<JSObject*> aKeyData, const ObjectOrString& aAlgorithm,
bool aExtractable, const Sequence<nsString>& aKeyUsages);
static WebCryptoTask* CreateExportKeyTask(const nsAString& aFormat,
CryptoKey& aKey);
static WebCryptoTask* CreateGenerateKeyTask(
nsIGlobalObject* aGlobal, JSContext* aCx,
const ObjectOrString& aAlgorithm, bool aExtractable,
const Sequence<nsString>& aKeyUsages);
static WebCryptoTask* CreateDeriveKeyTask(
nsIGlobalObject* aGlobal, JSContext* aCx,
const ObjectOrString& aAlgorithm, CryptoKey& aBaseKey,
const ObjectOrString& aDerivedKeyType, bool extractable,
const Sequence<nsString>& aKeyUsages);
static WebCryptoTask* CreateDeriveBitsTask(JSContext* aCx,
const ObjectOrString& aAlgorithm,
CryptoKey& aKey,
const Nullable<uint32_t>& aLength);
static WebCryptoTask* CreateWrapKeyTask(JSContext* aCx,
const nsAString& aFormat,
CryptoKey& aKey,
CryptoKey& aWrappingKey,
const ObjectOrString& aWrapAlgorithm);
static WebCryptoTask* CreateUnwrapKeyTask(
nsIGlobalObject* aGlobal, JSContext* aCx, const nsAString& aFormat,
const ArrayBufferViewOrArrayBuffer& aWrappedKey,
CryptoKey& aUnwrappingKey, const ObjectOrString& aUnwrapAlgorithm,
const ObjectOrString& aUnwrappedKeyAlgorithm, bool aExtractable,
const Sequence<nsString>& aKeyUsages);
protected:
RefPtr<Promise> mResultPromise;
nsresult mEarlyRv;
bool mEarlyComplete;
WebCryptoTask();
virtual ~WebCryptoTask();
bool IsOnOriginalThread() {
return !mOriginalEventTarget || mOriginalEventTarget->IsOnCurrentThread();
}
// For things that need to happen on the main thread
// either before or after CalculateResult
virtual nsresult BeforeCrypto() { return NS_OK; }
virtual nsresult DoCrypto() { return NS_OK; }
virtual nsresult AfterCrypto() { return NS_OK; }
virtual void Resolve() {}
virtual void Cleanup() {}
void FailWithError(nsresult aRv);
nsresult CalculateResult();
void CallCallback(nsresult rv);
private:
NS_IMETHOD Run() final;
nsresult Cancel() final;
nsCOMPtr<nsISerialEventTarget> mOriginalEventTarget;
RefPtr<ThreadSafeWorkerRef> mWorkerRef;
nsresult mRv;
};
// XXX This class is declared here (unlike others) to enable reuse by WebRTC.
class GenerateAsymmetricKeyTask : public WebCryptoTask {
public:
GenerateAsymmetricKeyTask(nsIGlobalObject* aGlobal, JSContext* aCx,
const ObjectOrString& aAlgorithm, bool aExtractable,
const Sequence<nsString>& aKeyUsages);
protected:
UniquePLArenaPool mArena;
UniquePtr<CryptoKeyPair> mKeyPair;
nsString mAlgName;
CK_MECHANISM_TYPE mMechanism;
PK11RSAGenParams mRsaParams;
SECKEYDHParams mDhParams;
nsString mNamedCurve;
virtual nsresult DoCrypto() override;
virtual void Resolve() override;
virtual void Cleanup() override;
private:
UniqueSECKEYPublicKey mPublicKey;
UniqueSECKEYPrivateKey mPrivateKey;
};
} // namespace mozilla::dom
#endif // mozilla_dom_WebCryptoTask_h