/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* 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 nsBaseChannel_h__ #define nsBaseChannel_h__ #include "mozilla/dom/MimeType.h" #include "mozilla/Maybe.h" #include "mozilla/MozPromise.h" #include "mozilla/UniquePtr.h" #include "mozilla/net/ContentRange.h" #include "mozilla/net/NeckoTargetHolder.h" #include "mozilla/net/PrivateBrowsingChannel.h" #include "nsHashPropertyBag.h" #include "nsIAsyncVerifyRedirectCallback.h" #include "nsIBaseChannel.h" #include "nsIChannel.h" #include "nsIInterfaceRequestor.h" #include "nsILoadGroup.h" #include "nsILoadInfo.h" #include "nsIProgressEventSink.h" #include "nsIStreamListener.h" #include "nsIThreadRetargetableRequest.h" #include "nsIThreadRetargetableStreamListener.h" #include "nsITransport.h" #include "nsITransportSecurityInfo.h" #include "nsIURI.h" #include "nsInputStreamPump.h" #include "nsString.h" #include "nsThreadUtils.h" #include "nsCOMPtr.h" class nsIInputStream; class nsICancelable; //----------------------------------------------------------------------------- // nsBaseChannel is designed to be subclassed. The subclass is responsible for // implementing the OpenContentStream method, which will be called by the // nsIChannel::AsyncOpen and nsIChannel::Open implementations. // // nsBaseChannel implements nsIInterfaceRequestor to provide a convenient way // for subclasses to query both the nsIChannel::notificationCallbacks and // nsILoadGroup::notificationCallbacks for supported interfaces. // // nsBaseChannel implements nsITransportEventSink to support progress & status // notifications generated by the transport layer. class nsBaseChannel : public nsHashPropertyBag, public nsIBaseChannel, public nsIChannel, public nsIThreadRetargetableRequest, public nsIInterfaceRequestor, public nsITransportEventSink, public nsIAsyncVerifyRedirectCallback, public mozilla::net::PrivateBrowsingChannel, public mozilla::net::NeckoTargetHolder, protected nsIThreadRetargetableStreamListener { public: NS_DECL_ISUPPORTS_INHERITED NS_DECL_NSIREQUEST NS_DECL_NSICHANNEL NS_DECL_NSIBASECHANNEL NS_DECL_NSIINTERFACEREQUESTOR NS_DECL_NSITRANSPORTEVENTSINK NS_DECL_NSIASYNCVERIFYREDIRECTCALLBACK NS_DECL_NSITHREADRETARGETABLEREQUEST NS_DECL_NSITHREADRETARGETABLESTREAMLISTENER nsBaseChannel(); protected: // ----------------------------------------------- // Methods to be implemented by the derived class: virtual ~nsBaseChannel(); using BlockingPromise = mozilla::MozPromise; private: // Implemented by subclass to supply data stream. The parameter, async, is // true when called from nsIChannel::AsyncOpen and false otherwise. When // async is true, the resulting stream will be used with a nsIInputStreamPump // instance. This means that if it is a non-blocking stream that supports // nsIAsyncInputStream that it will be read entirely on the main application // thread, and its AsyncWait method will be called whenever ReadSegments // returns NS_BASE_STREAM_WOULD_BLOCK. Otherwise, if the stream is blocking, // then it will be read on one of the background I/O threads, and it does not // need to implement ReadSegments. If async is false, this method may return // NS_ERROR_NOT_IMPLEMENTED to cause the basechannel to implement Open in // terms of AsyncOpen (see NS_ImplementChannelOpen). // A callee is allowed to return an nsIChannel instead of an nsIInputStream. // That case will be treated as a redirect to the new channel. By default // *channel will be set to null by the caller, so callees who don't want to // return one an just not touch it. virtual nsresult OpenContentStream(bool async, nsIInputStream** stream, nsIChannel** channel) = 0; // Implemented by subclass to begin pumping data for an async channel, in // lieu of returning a stream. If implemented, OpenContentStream will never // be called for async channels. If not implemented, AsyncOpen will fall // back to OpenContentStream. // // On success, the callee must begin pumping data to the stream listener, // and at some point call OnStartRequest followed by OnStopRequest. // // Additionally, when a successful nsresult is returned, then the subclass // should be setting through its two out params either: // - a request object, which may be used to suspend, resume, and cancel // the underlying request. // - or a cancelable object (e.g. when a request can't be returned right away // due to some async work needed to retrieve it). which may be used to // cancel the underlying request (e.g. because the channel has been // canceled) // // Not returning a request or cancelable leads to potentially leaking the // an underling stream pump (which would keep to be pumping data even after // the channel has been canceled and nothing is going to handle the data // available, e.g. see Bug 1706594). virtual nsresult BeginAsyncRead(nsIStreamListener* listener, nsIRequest** request, nsICancelable** cancelableRequest) { return NS_ERROR_NOT_IMPLEMENTED; } // This method may return a promise that will keep the input stream pump // suspended until the promise is resolved or rejected. On resolution the // pump is resumed. On rejection the channel is canceled with the resulting // error and then the pump is also resumed to propagate the error to the // channel listener. Use it to do any asynchronous/background tasks you need // to finish prior calling OnStartRequest of the listener. This method is // called right after OpenContentStream() with async == true, after the input // stream pump has already been called asyncRead(). virtual nsresult ListenerBlockingPromise(BlockingPromise** aPromise) { NS_ENSURE_ARG(aPromise); *aPromise = nullptr; return NS_OK; } // The basechannel calls this method from its OnTransportStatus method to // determine whether to call nsIProgressEventSink::OnStatus in addition to // nsIProgressEventSink::OnProgress. This method may be overriden by the // subclass to enable nsIProgressEventSink::OnStatus events. If this method // returns true, then the statusArg out param specifies the "statusArg" value // to pass to the OnStatus method. By default, OnStatus messages are // suppressed. The status parameter passed to this method is the status value // from the OnTransportStatus method. virtual bool GetStatusArg(nsresult status, nsString& statusArg) { return false; } // Called when the callbacks available to this channel may have changed. virtual void OnCallbacksChanged() {} // Called when our channel is done, to allow subclasses to drop resources. virtual void OnChannelDone() {} public: // ---------------------------------------------- // Methods provided for use by the derived class: // Redirect to another channel. This method takes care of notifying // observers of this redirect as well as of opening the new channel, if asked // to do so. It also cancels |this| with the status code // NS_BINDING_REDIRECTED. A failure return from this method means that the // redirect could not be performed (no channel was opened; this channel // wasn't canceled.) The redirectFlags parameter consists of the flag values // defined on nsIChannelEventSink. nsresult Redirect(nsIChannel* newChannel, uint32_t redirectFlags, bool openNewChannel); // Tests whether a type hint was set. Subclasses can use this to decide // whether to call SetContentType. // NOTE: This is only reliable if the subclass didn't itself call // SetContentType, and should also not be called after OpenContentStream. bool HasContentTypeHint() const; // The URI member should be initialized before the channel is used, and then // it should never be changed again until the channel is destroyed. nsIURI* URI() { return mURI; } void SetURI(nsIURI* uri) { NS_ASSERTION(uri, "must specify a non-null URI"); NS_ASSERTION(!mURI, "must not modify URI"); NS_ASSERTION(!mOriginalURI, "how did that get set so early?"); mURI = uri; mOriginalURI = uri; } nsIURI* OriginalURI() { return mOriginalURI; } // The security info is a property of the transport-layer, which should be // assigned by the subclass. nsITransportSecurityInfo* SecurityInfo() { return mSecurityInfo; } void SetSecurityInfo(nsITransportSecurityInfo* info) { mSecurityInfo = info; } // Test the load flags bool HasLoadFlag(uint32_t flag) { return (mLoadFlags & flag) != 0; } // This is a short-cut to calling nsIRequest::IsPending() virtual bool Pending() const { return mPumpingData || mWaitingOnAsyncRedirect; } // Helper function for querying the channel's notification callbacks. template void GetCallback(nsCOMPtr& result) { GetInterface(NS_GET_TEMPLATE_IID(T), getter_AddRefs(result)); } // If a subclass does not want to feed transport-layer progress events to the // base channel via nsITransportEventSink, then it may set this flag to cause // the base channel to synthesize progress events when it receives data from // the content stream. By default, progress events are not synthesized. void EnableSynthesizedProgressEvents(bool enable) { mSynthProgressEvents = enable; } // Some subclasses may wish to manually insert a stream listener between this // and the channel's listener. The following methods make that possible. void SetStreamListener(nsIStreamListener* listener) { mListener = listener; } nsIStreamListener* StreamListener() { return mListener; } protected: void DisallowThreadRetargeting() { mAllowThreadRetargeting = false; } virtual void SetupNeckoTarget(); private: NS_DECL_NSISTREAMLISTENER NS_DECL_NSIREQUESTOBSERVER // Called to setup mPump and call AsyncRead on it. nsresult BeginPumpingData(); // Called when the callbacks available to this channel may have changed. void CallbacksChanged() { mProgressSink = nullptr; mQueriedProgressSink = false; OnCallbacksChanged(); } // Called when our channel is done. This should drop no-longer-needed // pointers. void ChannelDone() { mListener = nullptr; OnChannelDone(); } // Handle an async redirect callback. This will only be called if we // returned success from AsyncOpen while posting a redirect runnable. void HandleAsyncRedirect(nsIChannel* newChannel); void ContinueHandleAsyncRedirect(nsresult result); nsresult ContinueRedirect(); // start URI classifier if requested void ClassifyURI(); class RedirectRunnable : public mozilla::Runnable { public: RedirectRunnable(nsBaseChannel* chan, nsIChannel* newChannel) : mozilla::Runnable("nsBaseChannel::RedirectRunnable"), mChannel(chan), mNewChannel(newChannel) { MOZ_ASSERT(newChannel, "Must have channel to redirect to"); } NS_IMETHOD Run() override { mChannel->HandleAsyncRedirect(mNewChannel); return NS_OK; } private: RefPtr mChannel; nsCOMPtr mNewChannel; }; friend class RedirectRunnable; RefPtr mPump; RefPtr mRequest; nsCOMPtr mCancelableAsyncRequest; bool mPumpingData{false}; nsCOMPtr mProgressSink; nsCOMPtr mOriginalURI; nsCOMPtr mOwner; nsCOMPtr mSecurityInfo; nsCOMPtr mRedirectChannel; uint32_t mLoadFlags{LOAD_NORMAL}; bool mQueriedProgressSink{true}; bool mSynthProgressEvents{false}; bool mAllowThreadRetargeting{true}; bool mWaitingOnAsyncRedirect{false}; bool mOpenRedirectChannel{false}; uint32_t mRedirectFlags{0}; RefPtr mContentRange; RefPtr mFullMimeType; protected: nsCString mContentType; nsCString mContentCharset; nsCOMPtr mURI; nsCOMPtr mLoadGroup; nsCOMPtr mLoadInfo; nsCOMPtr mCallbacks; nsCOMPtr mListener; nsresult mStatus{NS_OK}; uint32_t mContentDispositionHint{UINT32_MAX}; mozilla::UniquePtr mContentDispositionFilename; int64_t mContentLength{-1}; bool mWasOpened{false}; bool mCanceled{false}; friend class mozilla::net::PrivateBrowsingChannel; }; #endif // !nsBaseChannel_h__