/* -*- 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 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef mozilla_dom_InternalResponse_h #define mozilla_dom_InternalResponse_h #include "mozilla/dom/FetchTypes.h" #include "nsIInputStream.h" #include "nsICacheInfoChannel.h" #include "nsISupportsImpl.h" #include "nsProxyRelease.h" #include "mozilla/dom/InternalHeaders.h" #include "mozilla/dom/RequestBinding.h" #include "mozilla/dom/ResponseBinding.h" #include "mozilla/dom/ChannelInfo.h" #include "mozilla/dom/SafeRefPtr.h" #include "mozilla/NotNull.h" #include "mozilla/UniquePtr.h" namespace mozilla { namespace ipc { class PBackgroundChild; class PBackgroundParent; class PrincipalInfo; } // namespace ipc namespace dom { class ChildToParentInternalResponse; class InternalHeaders; class ParentToChildInternalResponse; class ParentToParentInternalResponse; class InternalResponse final : public AtomicSafeRefCounted { friend class FetchDriver; public: MOZ_DECLARE_REFCOUNTED_TYPENAME(InternalResponse) InternalResponse( uint16_t aStatus, const nsACString& aStatusText, RequestCredentials aCredentialsMode = RequestCredentials::Omit); static SafeRefPtr FromIPC( const ParentToChildInternalResponse& aIPCResponse); static SafeRefPtr FromIPC( const ParentToParentInternalResponse& aIPCResponse); void ToChildToParentInternalResponse( ChildToParentInternalResponse* aIPCResponse, mozilla::ipc::PBackgroundChild* aManager); ParentToParentInternalResponse ToParentToParentInternalResponse(); enum CloneType { eCloneInputStream, eDontCloneInputStream, }; SafeRefPtr Clone(CloneType aCloneType); static SafeRefPtr NetworkError(nsresult aRv) { MOZ_DIAGNOSTIC_ASSERT(NS_FAILED(aRv)); SafeRefPtr response = MakeSafeRefPtr(0, ""_ns); ErrorResult result; response->Headers()->SetGuard(HeadersGuardEnum::Immutable, result); MOZ_ASSERT(!result.Failed()); response->mType = ResponseType::Error; response->mErrorCode = aRv; return response; } SafeRefPtr OpaqueResponse(); SafeRefPtr OpaqueRedirectResponse(); SafeRefPtr BasicResponse(); SafeRefPtr CORSResponse(); ResponseType Type() const { MOZ_ASSERT_IF(mType == ResponseType::Error, !mWrappedResponse); MOZ_ASSERT_IF(mType == ResponseType::Default, !mWrappedResponse); MOZ_ASSERT_IF(mType == ResponseType::Basic, mWrappedResponse); MOZ_ASSERT_IF(mType == ResponseType::Cors, mWrappedResponse); MOZ_ASSERT_IF(mType == ResponseType::Opaque, mWrappedResponse); MOZ_ASSERT_IF(mType == ResponseType::Opaqueredirect, mWrappedResponse); return mType; } bool IsError() const { return Type() == ResponseType::Error; } // GetUrl should return last fetch URL in response's url list and null if // response's url list is the empty list. const nsCString& GetURL() const { // Empty urlList when response is a synthetic response. if (mURLList.IsEmpty()) { return EmptyCString(); } return mURLList.LastElement(); } void GetURLList(nsTArray& aURLList) const { aURLList.Assign(mURLList); } const nsCString& GetUnfilteredURL() const { if (mWrappedResponse) { return mWrappedResponse->GetURL(); } return GetURL(); } void GetUnfilteredURLList(nsTArray& aURLList) const { if (mWrappedResponse) { return mWrappedResponse->GetURLList(aURLList); } return GetURLList(aURLList); } nsTArray GetUnfilteredURLList() const { nsTArray list; GetUnfilteredURLList(list); return list; } void SetURLList(const nsTArray& aURLList) { mURLList.Assign(aURLList); #ifdef DEBUG for (uint32_t i = 0; i < mURLList.Length(); ++i) { MOZ_ASSERT(mURLList[i].Find("#"_ns) == kNotFound); } #endif } uint16_t GetStatus() const { return mStatus; } uint16_t GetUnfilteredStatus() const { if (mWrappedResponse) { return mWrappedResponse->GetStatus(); } return GetStatus(); } const nsCString& GetStatusText() const { return mStatusText; } const nsCString& GetUnfilteredStatusText() const { if (mWrappedResponse) { return mWrappedResponse->GetStatusText(); } return GetStatusText(); } InternalHeaders* Headers() { return mHeaders; } InternalHeaders* UnfilteredHeaders() { if (mWrappedResponse) { return mWrappedResponse->Headers(); }; return Headers(); } void GetUnfilteredBody(nsIInputStream** aStream, int64_t* aBodySize = nullptr) { if (mWrappedResponse) { MOZ_ASSERT(!mBody); return mWrappedResponse->GetBody(aStream, aBodySize); } nsCOMPtr stream = mBody; stream.forget(aStream); if (aBodySize) { *aBodySize = mBodySize; } } void GetBody(nsIInputStream** aStream, int64_t* aBodySize = nullptr) { if (Type() == ResponseType::Opaque || Type() == ResponseType::Opaqueredirect) { *aStream = nullptr; if (aBodySize) { *aBodySize = UNKNOWN_BODY_SIZE; } return; } GetUnfilteredBody(aStream, aBodySize); } void SetBodyBlobURISpec(nsACString& aBlobURISpec) { mBodyBlobURISpec = aBlobURISpec; } const nsACString& BodyBlobURISpec() const { if (mWrappedResponse) { return mWrappedResponse->BodyBlobURISpec(); } return mBodyBlobURISpec; } void SetBodyLocalPath(nsAString& aLocalPath) { mBodyLocalPath = aLocalPath; } const nsAString& BodyLocalPath() const { if (mWrappedResponse) { return mWrappedResponse->BodyLocalPath(); } return mBodyLocalPath; } void SetBody(nsIInputStream* aBody, int64_t aBodySize) { if (mWrappedResponse) { return mWrappedResponse->SetBody(aBody, aBodySize); } // A request's body may not be reset once set. MOZ_ASSERT(!mBody); MOZ_ASSERT(mBodySize == UNKNOWN_BODY_SIZE); // Check arguments. MOZ_ASSERT(aBodySize == UNKNOWN_BODY_SIZE || aBodySize >= 0); // If body is not given, then size must be unknown. MOZ_ASSERT_IF(!aBody, aBodySize == UNKNOWN_BODY_SIZE); mBody = aBody; mBodySize = aBodySize; } uint32_t GetPaddingInfo(); nsresult GeneratePaddingInfo(); int64_t GetPaddingSize(); void SetPaddingSize(int64_t aPaddingSize); void SetAlternativeDataType(const nsACString& aAltDataType) { if (mWrappedResponse) { return mWrappedResponse->SetAlternativeDataType(aAltDataType); } MOZ_DIAGNOSTIC_ASSERT(mAlternativeDataType.IsEmpty()); mAlternativeDataType.Assign(aAltDataType); } const nsCString& GetAlternativeDataType() { if (mWrappedResponse) { return mWrappedResponse->GetAlternativeDataType(); } return mAlternativeDataType; } void SetAlternativeBody(nsIInputStream* aAlternativeBody) { if (mWrappedResponse) { return mWrappedResponse->SetAlternativeBody(aAlternativeBody); } // A request's body may not be reset once set. MOZ_DIAGNOSTIC_ASSERT(!mAlternativeBody); mAlternativeBody = aAlternativeBody; } already_AddRefed TakeAlternativeBody() { if (mWrappedResponse) { return mWrappedResponse->TakeAlternativeBody(); } if (!mAlternativeBody) { return nullptr; } // cleanup the non-alternative body here. // Once alternative data is used, the real body is no need anymore. mBody = nullptr; mBodySize = UNKNOWN_BODY_SIZE; return mAlternativeBody.forget(); } void SetCacheInfoChannel( const nsMainThreadPtrHandle& aCacheInfoChannel) { if (mWrappedResponse) { return mWrappedResponse->SetCacheInfoChannel(aCacheInfoChannel); } MOZ_ASSERT(!mCacheInfoChannel); mCacheInfoChannel = aCacheInfoChannel; } nsMainThreadPtrHandle TakeCacheInfoChannel() { if (mWrappedResponse) { return mWrappedResponse->TakeCacheInfoChannel(); } nsMainThreadPtrHandle rtn = mCacheInfoChannel; mCacheInfoChannel = nullptr; return rtn; } bool HasCacheInfoChannel() const { if (mWrappedResponse) { return !!mWrappedResponse->HasCacheInfoChannel(); } return !!mCacheInfoChannel; } bool HasBeenCloned() const { return mCloned; } void InitChannelInfo(nsIChannel* aChannel) { mChannelInfo.InitFromChannel(aChannel); } void InitChannelInfo(nsITransportSecurityInfo* aSecurityInfo) { mChannelInfo.InitFromTransportSecurityInfo(aSecurityInfo); } void InitChannelInfo(const ChannelInfo& aChannelInfo) { mChannelInfo = aChannelInfo; } const ChannelInfo& GetChannelInfo() const { return mChannelInfo; } const UniquePtr& GetPrincipalInfo() const { return mPrincipalInfo; } bool IsRedirected() const { return mURLList.Length() > 1; } nsresult GetErrorCode() const { return mErrorCode; } // Takes ownership of the principal info. void SetPrincipalInfo(UniquePtr aPrincipalInfo); LoadTainting GetTainting() const; SafeRefPtr Unfiltered(); ~InternalResponse(); private: explicit InternalResponse(const InternalResponse& aOther) = delete; InternalResponse& operator=(const InternalResponse&) = delete; // Returns an instance of InternalResponse which is a copy of this // InternalResponse, except headers, body and wrapped response (if any) which // are left uninitialized. Used for cloning and filtering. SafeRefPtr CreateIncompleteCopy(); template static SafeRefPtr FromIPCTemplate(const T& aIPCResponse); InternalResponseMetadata GetMetadata(); ResponseType mType; // A response has an associated url list (a list of zero or more fetch URLs). // Unless stated otherwise, it is the empty list. The current url is the last // element in mURLlist nsTArray mURLList; const uint16_t mStatus; const nsCString mStatusText; RefPtr mHeaders; nsCOMPtr mBody; nsCString mBodyBlobURISpec; nsString mBodyLocalPath; int64_t mBodySize; // It's used to passed to the CacheResponse to generate padding size. Once, we // generate the padding size for resposne, we don't need it anymore. Maybe mPaddingInfo; int64_t mPaddingSize; nsresult mErrorCode; RequestCredentials mCredentialsMode; // For alternative data such as JS Bytecode cached in the HTTP cache. nsCString mAlternativeDataType; nsCOMPtr mAlternativeBody; nsMainThreadPtrHandle mCacheInfoChannel; bool mCloned; public: static constexpr int64_t UNKNOWN_BODY_SIZE = -1; static constexpr int64_t UNKNOWN_PADDING_SIZE = -1; private: ChannelInfo mChannelInfo; UniquePtr mPrincipalInfo; // For filtered responses. // Cache, and SW interception should always serialize/access the underlying // unfiltered headers and when deserializing, create an InternalResponse // with the unfiltered headers followed by wrapping it. SafeRefPtr mWrappedResponse; }; ParentToChildInternalResponse ToParentToChild( const ParentToParentInternalResponse& aResponse, NotNull aBackgroundParent); } // namespace dom } // namespace mozilla #endif // mozilla_dom_InternalResponse_h