/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim:set et cin ts=4 sw=2 sts=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 nsHttpChannel_h__ #define nsHttpChannel_h__ #include "AlternateServices.h" #include "AutoClose.h" #include "HttpBaseChannel.h" #include "TimingStruct.h" #include "mozilla/AtomicBitfields.h" #include "mozilla/Atomics.h" #include "mozilla/Mutex.h" #include "mozilla/extensions/PStreamFilterParent.h" #include "mozilla/net/DocumentLoadListener.h" #include "nsIAsyncVerifyRedirectCallback.h" #include "nsICacheEntry.h" #include "nsICacheEntryOpenCallback.h" #include "nsICachingChannel.h" #include "nsICorsPreflightCallback.h" #include "nsIDNSListener.h" #include "nsIEarlyHintObserver.h" #include "nsIHttpAuthenticableChannel.h" #include "nsIProtocolProxyCallback.h" #include "nsIRaceCacheWithNetwork.h" #include "nsIStreamListener.h" #include "nsIThreadRetargetableRequest.h" #include "nsIThreadRetargetableStreamListener.h" #include "nsITransportSecurityInfo.h" #include "nsTArray.h" #include "nsWeakReference.h" class nsDNSPrefetch; class nsICancelable; class nsIDNSRecord; class nsIDNSHTTPSSVCRecord; class nsIHttpChannelAuthProvider; class nsInputStreamPump; class nsITransportSecurityInfo; namespace mozilla { namespace net { class nsChannelClassifier; class HttpChannelSecurityWarningReporter; using DNSPromise = MozPromise, nsresult, false>; //----------------------------------------------------------------------------- // nsHttpChannel //----------------------------------------------------------------------------- // Use to support QI nsIChannel to nsHttpChannel #define NS_HTTPCHANNEL_IID \ { \ 0x301bf95b, 0x7bb3, 0x4ae1, { \ 0xa9, 0x71, 0x40, 0xbc, 0xfa, 0x81, 0xde, 0x12 \ } \ } class nsHttpChannel final : public HttpBaseChannel, public HttpAsyncAborter, public nsIStreamListener, public nsICachingChannel, public nsICacheEntryOpenCallback, public nsITransportEventSink, public nsIProtocolProxyCallback, public nsIHttpAuthenticableChannel, public nsIAsyncVerifyRedirectCallback, public nsIThreadRetargetableRequest, public nsIThreadRetargetableStreamListener, public nsIDNSListener, public nsSupportsWeakReference, public nsICorsPreflightCallback, public nsIRaceCacheWithNetwork, public nsIRequestTailUnblockCallback, public nsIEarlyHintObserver { public: NS_DECL_ISUPPORTS_INHERITED NS_DECL_NSIREQUESTOBSERVER NS_DECL_NSISTREAMLISTENER NS_DECL_NSITHREADRETARGETABLESTREAMLISTENER NS_DECL_NSICACHEINFOCHANNEL NS_DECL_NSICACHINGCHANNEL NS_DECL_NSICACHEENTRYOPENCALLBACK NS_DECL_NSITRANSPORTEVENTSINK NS_DECL_NSIPROTOCOLPROXYCALLBACK NS_DECL_NSIPROXIEDCHANNEL NS_DECL_NSIASYNCVERIFYREDIRECTCALLBACK NS_DECL_NSITHREADRETARGETABLEREQUEST NS_DECL_NSIDNSLISTENER NS_DECLARE_STATIC_IID_ACCESSOR(NS_HTTPCHANNEL_IID) NS_DECL_NSIRACECACHEWITHNETWORK NS_DECL_NSIREQUESTTAILUNBLOCKCALLBACK NS_DECL_NSIEARLYHINTOBSERVER // nsIHttpAuthenticableChannel. We can't use // NS_DECL_NSIHTTPAUTHENTICABLECHANNEL because it duplicates cancel() and // others. NS_IMETHOD GetIsSSL(bool* aIsSSL) override; NS_IMETHOD GetProxyMethodIsConnect(bool* aProxyMethodIsConnect) override; NS_IMETHOD GetServerResponseHeader( nsACString& aServerResponseHeader) override; NS_IMETHOD GetProxyChallenges(nsACString& aChallenges) override; NS_IMETHOD GetWWWChallenges(nsACString& aChallenges) override; NS_IMETHOD SetProxyCredentials(const nsACString& aCredentials) override; NS_IMETHOD SetWWWCredentials(const nsACString& aCredentials) override; NS_IMETHOD OnAuthAvailable() override; NS_IMETHOD OnAuthCancelled(bool userCancel) override; NS_IMETHOD CloseStickyConnection() override; NS_IMETHOD ConnectionRestartable(bool) override; // Functions we implement from nsIHttpAuthenticableChannel but are // declared in HttpBaseChannel must be implemented in this class. We // just call the HttpBaseChannel:: impls. NS_IMETHOD GetLoadFlags(nsLoadFlags* aLoadFlags) override; NS_IMETHOD GetURI(nsIURI** aURI) override; NS_IMETHOD GetNotificationCallbacks( nsIInterfaceRequestor** aCallbacks) override; NS_IMETHOD GetLoadGroup(nsILoadGroup** aLoadGroup) override; NS_IMETHOD GetRequestMethod(nsACString& aMethod) override; nsHttpChannel(); [[nodiscard]] virtual nsresult Init(nsIURI* aURI, uint32_t aCaps, nsProxyInfo* aProxyInfo, uint32_t aProxyResolveFlags, nsIURI* aProxyURI, uint64_t aChannelId, ExtContentPolicyType aContentPolicyType, nsILoadInfo* aLoadInfo) override; [[nodiscard]] nsresult OnPush(uint32_t aPushedStreamId, const nsACString& aUrl, const nsACString& aRequestString, HttpTransactionShell* aTransaction); static bool IsRedirectStatus(uint32_t status); static bool WillRedirect(const nsHttpResponseHead& response); // Methods HttpBaseChannel didn't implement for us or that we override. // // nsIRequest NS_IMETHOD SetCanceledReason(const nsACString& aReason) override; NS_IMETHOD GetCanceledReason(nsACString& aReason) override; NS_IMETHOD CancelWithReason(nsresult status, const nsACString& reason) override; NS_IMETHOD Cancel(nsresult status) override; NS_IMETHOD Suspend() override; NS_IMETHOD Resume() override; // nsIChannel NS_IMETHOD GetSecurityInfo(nsITransportSecurityInfo** aSecurityInfo) override; NS_IMETHOD AsyncOpen(nsIStreamListener* aListener) override; // nsIHttpChannel NS_IMETHOD GetEncodedBodySize(uint64_t* aEncodedBodySize) override; // nsIHttpChannelInternal NS_IMETHOD GetIsAuthChannel(bool* aIsAuthChannel) override; NS_IMETHOD SetChannelIsForDownload(bool aChannelIsForDownload) override; NS_IMETHOD GetNavigationStartTimeStamp(TimeStamp* aTimeStamp) override; NS_IMETHOD SetNavigationStartTimeStamp(TimeStamp aTimeStamp) override; NS_IMETHOD CancelByURLClassifier(nsresult aErrorCode) override; // nsISupportsPriority NS_IMETHOD SetPriority(int32_t value) override; // nsIClassOfService NS_IMETHOD SetClassFlags(uint32_t inFlags) override; NS_IMETHOD AddClassFlags(uint32_t inFlags) override; NS_IMETHOD ClearClassFlags(uint32_t inFlags) override; NS_IMETHOD SetClassOfService(ClassOfService cos) override; NS_IMETHOD SetIncremental(bool incremental) override; // nsIResumableChannel NS_IMETHOD ResumeAt(uint64_t startPos, const nsACString& entityID) override; NS_IMETHOD SetNotificationCallbacks( nsIInterfaceRequestor* aCallbacks) override; NS_IMETHOD SetLoadGroup(nsILoadGroup* aLoadGroup) override; // nsITimedChannel NS_IMETHOD GetDomainLookupStart( mozilla::TimeStamp* aDomainLookupStart) override; NS_IMETHOD GetDomainLookupEnd(mozilla::TimeStamp* aDomainLookupEnd) override; NS_IMETHOD GetConnectStart(mozilla::TimeStamp* aConnectStart) override; NS_IMETHOD GetTcpConnectEnd(mozilla::TimeStamp* aTcpConnectEnd) override; NS_IMETHOD GetSecureConnectionStart( mozilla::TimeStamp* aSecureConnectionStart) override; NS_IMETHOD GetConnectEnd(mozilla::TimeStamp* aConnectEnd) override; NS_IMETHOD GetRequestStart(mozilla::TimeStamp* aRequestStart) override; NS_IMETHOD GetResponseStart(mozilla::TimeStamp* aResponseStart) override; NS_IMETHOD GetResponseEnd(mozilla::TimeStamp* aResponseEnd) override; NS_IMETHOD GetTransactionPending( mozilla::TimeStamp* aTransactionPending) override; // nsICorsPreflightCallback NS_IMETHOD OnPreflightSucceeded() override; NS_IMETHOD OnPreflightFailed(nsresult aError) override; [[nodiscard]] nsresult AddSecurityMessage( const nsAString& aMessageTag, const nsAString& aMessageCategory) override; NS_IMETHOD LogBlockedCORSRequest(const nsAString& aMessage, const nsACString& aCategory) override; NS_IMETHOD LogMimeTypeMismatch(const nsACString& aMessageName, bool aWarning, const nsAString& aURL, const nsAString& aContentType) override; NS_IMETHOD SetEarlyHintObserver(nsIEarlyHintObserver* aObserver) override; void SetWarningReporter(HttpChannelSecurityWarningReporter* aReporter); HttpChannelSecurityWarningReporter* GetWarningReporter(); bool DataSentToChildProcess() { return LoadDataSentToChildProcess(); } enum class SnifferType { Media, Image }; void DisableIsOpaqueResponseAllowedAfterSniffCheck(SnifferType aType); public: /* internal necko use only */ uint32_t GetRequestTime() const { return mRequestTime; } void AsyncOpenFinal(TimeStamp aTimeStamp); [[nodiscard]] nsresult OpenCacheEntry(bool isHttps); [[nodiscard]] nsresult OpenCacheEntryInternal(bool isHttps); [[nodiscard]] nsresult ContinueConnect(); [[nodiscard]] nsresult StartRedirectChannelToURI(nsIURI*, uint32_t); SnifferCategoryType GetSnifferCategoryType() const { return mSnifferCategoryType; } // Helper to keep cache callbacks wait flags consistent class AutoCacheWaitFlags { public: explicit AutoCacheWaitFlags(nsHttpChannel* channel) : mChannel(channel), mKeep(0) { // Flags must be set before entering any AsyncOpenCacheEntry call. mChannel->StoreWaitForCacheEntry(nsHttpChannel::WAIT_FOR_CACHE_ENTRY); } void Keep(uint32_t flags) { // Called after successful call to appropriate AsyncOpenCacheEntry call. mKeep |= flags; } ~AutoCacheWaitFlags() { // Keep only flags those are left to be wait for. mChannel->StoreWaitForCacheEntry(mChannel->LoadWaitForCacheEntry() & mKeep); } private: nsHttpChannel* mChannel; uint32_t mKeep : 1; }; bool AwaitingCacheCallbacks(); void SetCouldBeSynthesized(); // Return true if the latest ODA is invoked by mCachePump. // Should only be called on the same thread as ODA. bool IsReadingFromCache() const { return mIsReadingFromCache; } base::ProcessId ProcessId(); using ChildEndpointPromise = MozPromise, bool, true>; [[nodiscard]] RefPtr AttachStreamFilter(); WebTransportSessionEventListener* GetWebTransportSessionEventListener(); private: // used for alternate service validation RefPtr mTransactionObserver; public: void SetTransactionObserver(TransactionObserver* arg) { mTransactionObserver = arg; } TransactionObserver* GetTransactionObserver() { return mTransactionObserver; } CacheDisposition mCacheDisposition{kCacheUnresolved}; protected: virtual ~nsHttpChannel(); private: using nsContinueRedirectionFunc = nsresult (nsHttpChannel::*)(nsresult); // Directly call |aFunc| if the channel is not canceled and not suspended. // Otherwise, set |aFunc| to |mCallOnResume| and wait until the channel // resumes. nsresult CallOrWaitForResume( const std::function& aFunc); bool RequestIsConditional(); void HandleContinueCancellingByURLClassifier(nsresult aErrorCode); nsresult CancelInternal(nsresult status); void ContinueCancellingByURLClassifier(nsresult aErrorCode); // Connections will only be established in this function. // (including DNS prefetch and speculative connection.) void MaybeResolveProxyAndBeginConnect(); nsresult MaybeStartDNSPrefetch(); // Tells the channel to resolve the origin of the end server we are connecting // to. static uint16_t const DNS_PREFETCH_ORIGIN = 1 << 0; // Tells the channel to resolve the host name of the proxy. static uint16_t const DNS_PREFETCH_PROXY = 1 << 1; // Will be set if the current channel uses an HTTP/HTTPS proxy. static uint16_t const DNS_PROXY_IS_HTTP = 1 << 2; // Tells the channel to wait for the result of the origin server resolution // before any connection attempts are made. static uint16_t const DNS_BLOCK_ON_ORIGIN_RESOLVE = 1 << 3; // Based on the proxy configuration determine the strategy for resolving the // end server host name. // Returns a combination of the above flags. uint16_t GetProxyDNSStrategy(); // We might synchronously or asynchronously call BeginConnect, // which includes DNS prefetch and speculative connection, according to // whether an async tracker lookup is required. If the tracker lookup // is required, this funciton will just return NS_OK and BeginConnect() // will be called when callback. See Bug 1325054 for more information. nsresult BeginConnect(); [[nodiscard]] nsresult PrepareToConnect(); [[nodiscard]] nsresult OnBeforeConnect(); [[nodiscard]] nsresult ContinueOnBeforeConnect( bool aShouldUpgrade, nsresult aStatus, bool aUpgradeWithHTTPSRR = false); nsresult MaybeUseHTTPSRRForUpgrade(bool aShouldUpgrade, nsresult aStatus); void OnHTTPSRRAvailable(nsIDNSHTTPSSVCRecord* aRecord); [[nodiscard]] nsresult Connect(); void SpeculativeConnect(); [[nodiscard]] nsresult SetupTransaction(); [[nodiscard]] nsresult CallOnStartRequest(); [[nodiscard]] nsresult ProcessResponse(); void AsyncContinueProcessResponse(); [[nodiscard]] nsresult ContinueProcessResponse1(); [[nodiscard]] nsresult ContinueProcessResponse2(nsresult); public: void UpdateCacheDisposition(bool aSuccessfulReval, bool aPartialContentUsed); [[nodiscard]] nsresult ContinueProcessResponse3(nsresult); [[nodiscard]] nsresult ContinueProcessResponse4(nsresult); [[nodiscard]] nsresult ProcessNormal(); [[nodiscard]] nsresult ContinueProcessNormal(nsresult); void ProcessAltService(); bool ShouldBypassProcessNotModified(); [[nodiscard]] nsresult ProcessNotModified( const std::function& aContinueProcessResponseFunc); [[nodiscard]] nsresult ContinueProcessResponseAfterNotModified(nsresult aRv); [[nodiscard]] nsresult AsyncProcessRedirection(uint32_t redirectType); [[nodiscard]] nsresult ContinueProcessRedirection(nsresult); [[nodiscard]] nsresult ContinueProcessRedirectionAfterFallback(nsresult); [[nodiscard]] nsresult ProcessFailedProxyConnect(uint32_t httpStatus); void HandleAsyncAbort(); [[nodiscard]] nsresult EnsureAssocReq(); void ProcessSSLInformation(); bool IsHTTPS(); [[nodiscard]] nsresult ContinueOnStartRequest1(nsresult); [[nodiscard]] nsresult ContinueOnStartRequest2(nsresult); [[nodiscard]] nsresult ContinueOnStartRequest3(nsresult); [[nodiscard]] nsresult ContinueOnStartRequest4(nsresult); void OnClassOfServiceUpdated(); // redirection specific methods void HandleAsyncRedirect(); void HandleAsyncAPIRedirect(); [[nodiscard]] nsresult ContinueHandleAsyncRedirect(nsresult); void HandleAsyncNotModified(); [[nodiscard]] nsresult PromptTempRedirect(); [[nodiscard]] virtual nsresult SetupReplacementChannel( nsIURI*, nsIChannel*, bool preserveMethod, uint32_t redirectFlags) override; void HandleAsyncRedirectToUnstrippedURI(); // proxy specific methods [[nodiscard]] nsresult ProxyFailover(); [[nodiscard]] nsresult AsyncDoReplaceWithProxy(nsIProxyInfo*); [[nodiscard]] nsresult ContinueDoReplaceWithProxy(nsresult); [[nodiscard]] nsresult ResolveProxy(); // cache specific methods [[nodiscard]] nsresult OnNormalCacheEntryAvailable(nsICacheEntry* aEntry, bool aNew, nsresult aEntryStatus); [[nodiscard]] nsresult OnCacheEntryAvailableInternal(nsICacheEntry* entry, bool aNew, nsresult status); [[nodiscard]] nsresult GenerateCacheKey(uint32_t postID, nsACString& key); [[nodiscard]] nsresult UpdateExpirationTime(); [[nodiscard]] nsresult CheckPartial(nsICacheEntry* aEntry, int64_t* aSize, int64_t* aContentLength); [[nodiscard]] nsresult ReadFromCache(bool alreadyMarkedValid); void CloseCacheEntry(bool doomOnFailure); [[nodiscard]] nsresult InitCacheEntry(); void UpdateInhibitPersistentCachingFlag(); [[nodiscard]] nsresult AddCacheEntryHeaders(nsICacheEntry* entry); [[nodiscard]] nsresult FinalizeCacheEntry(); [[nodiscard]] nsresult InstallCacheListener(int64_t offset = 0); void MaybeInvalidateCacheEntryForSubsequentGet(); void AsyncOnExamineCachedResponse(); // Handle the bogus Content-Encoding Apache sometimes sends void ClearBogusContentEncodingIfNeeded(); // byte range request specific methods [[nodiscard]] nsresult ProcessPartialContent( const std::function& aContinueProcessResponseFunc); [[nodiscard]] nsresult ContinueProcessResponseAfterPartialContent( nsresult aRv); [[nodiscard]] nsresult OnDoneReadingPartialCacheEntry(bool* streamDone); [[nodiscard]] nsresult DoAuthRetry( HttpTransactionShell* aTransWithStickyConn, const std::function& aContinueOnStopRequestFunc); [[nodiscard]] nsresult ContinueDoAuthRetry( HttpTransactionShell* aTransWithStickyConn, const std::function& aContinueOnStopRequestFunc); [[nodiscard]] MOZ_NEVER_INLINE nsresult DoConnect(HttpTransactionShell* aTransWithStickyConn = nullptr); [[nodiscard]] nsresult DoConnectActual( HttpTransactionShell* aTransWithStickyConn); [[nodiscard]] nsresult ContinueOnStopRequestAfterAuthRetry( nsresult aStatus, bool aAuthRetry, bool aIsFromNet, bool aContentComplete, HttpTransactionShell* aTransWithStickyConn); [[nodiscard]] nsresult ContinueOnStopRequest(nsresult status, bool aIsFromNet, bool aContentComplete); void HandleAsyncRedirectChannelToHttps(); [[nodiscard]] nsresult StartRedirectChannelToHttps(); [[nodiscard]] nsresult ContinueAsyncRedirectChannelToURI(nsresult rv); [[nodiscard]] nsresult OpenRedirectChannel(nsresult rv); HttpTrafficCategory CreateTrafficCategory(); /** * A function that takes care of reading STS and PKP headers and enforcing * STS and PKP load rules. After a secure channel is erected, STS and PKP * requires the channel to be trusted or any STS or PKP header data on * the channel is ignored. This is called from ProcessResponse. */ [[nodiscard]] nsresult ProcessSecurityHeaders(); /** * Taking care of the Content-Signature header and fail the channel if * the signature verification fails or is required but the header is not * present. * This sets mListener to ContentVerifier, which buffers the entire response * before verifying the Content-Signature header. If the verification is * successful, the load proceeds as usual. If the verification fails, a * NS_ERROR_INVALID_SIGNATURE is thrown and a fallback loaded in nsDocShell */ [[nodiscard]] nsresult ProcessContentSignatureHeader( nsHttpResponseHead* aResponseHead); /** * A function to process HTTP Strict Transport Security (HSTS) headers. * Some basic consistency checks have been applied to the channel. Called * from ProcessSecurityHeaders. */ [[nodiscard]] nsresult ProcessHSTSHeader(nsITransportSecurityInfo* aSecInfo); void InvalidateCacheEntryForLocation(const char* location); void AssembleCacheKey(const char* spec, uint32_t postID, nsACString& key); [[nodiscard]] nsresult CreateNewURI(const char* loc, nsIURI** newURI); void DoInvalidateCacheEntry(nsIURI* aURI); // Ref RFC2616 13.10: "invalidation... MUST only be performed if // the host part is the same as in the Request-URI" inline bool HostPartIsTheSame(nsIURI* uri) { nsAutoCString tmpHost1, tmpHost2; return (NS_SUCCEEDED(mURI->GetAsciiHost(tmpHost1)) && NS_SUCCEEDED(uri->GetAsciiHost(tmpHost2)) && (tmpHost1 == tmpHost2)); } inline static bool DoNotRender3xxBody(nsresult rv) { return rv == NS_ERROR_REDIRECT_LOOP || rv == NS_ERROR_CORRUPTED_CONTENT || rv == NS_ERROR_UNKNOWN_PROTOCOL || rv == NS_ERROR_MALFORMED_URI || rv == NS_ERROR_PORT_ACCESS_NOT_ALLOWED; } // Report net vs cache time telemetry void ReportNetVSCacheTelemetry(); int64_t ComputeTelemetryBucketNumber(int64_t difftime_ms); // Report telemetry and stats to about:networking void ReportRcwnStats(bool isFromNet); // Create a aggregate set of the current notification callbacks // and ensure the transaction is updated to use it. void UpdateAggregateCallbacks(); static bool HasQueryString(nsHttpRequestHead::ParsedMethodType method, nsIURI* uri); bool ResponseWouldVary(nsICacheEntry* entry); bool IsResumable(int64_t partialLen, int64_t contentLength, bool ignoreMissingPartialLen = false) const; [[nodiscard]] nsresult MaybeSetupByteRangeRequest( int64_t partialLen, int64_t contentLength, bool ignoreMissingPartialLen = false); [[nodiscard]] nsresult SetupByteRangeRequest(int64_t partialLen); void UntieByteRangeRequest(); void UntieValidationRequest(); [[nodiscard]] nsresult OpenCacheInputStream(nsICacheEntry* cacheEntry, bool startBuffering); void SetPushedStreamTransactionAndId( HttpTransactionShell* aTransWithPushedStream, uint32_t aPushedStreamId); void SetOriginHeader(); void SetDoNotTrack(); void SetGlobalPrivacyControl(); already_AddRefed GetOrCreateChannelClassifier(); // Start an internal redirect to a new InterceptedHttpChannel which will // resolve in firing a ServiceWorker FetchEvent. [[nodiscard]] nsresult RedirectToInterceptedChannel(); // Determines and sets content type in the cache entry. It's called when // writing a new entry. The content type is used in cache internally only. void SetCachedContentType(); private: // this section is for main-thread-only object // all the references need to be proxy released on main thread. // auth specific data nsCOMPtr mAuthProvider; nsCOMPtr mRedirectURI; nsCOMPtr mUnstrippedRedirectURI; nsCOMPtr mRedirectChannel; nsCOMPtr mPreflightChannel; // nsChannelClassifier checks this channel's URI against // the URI classifier service. // nsChannelClassifier will be invoked twice in InitLocalBlockList() and // BeginConnect(), so save the nsChannelClassifier here to keep the // state of whether tracking protection is enabled or not. RefPtr mChannelClassifier; // Proxy release all members above on main thread. void ReleaseMainThreadOnlyReferences(); // Called after the channel is made aware of its tracking status in order // to readjust the referrer if needed according to the referrer default // policy preferences. void ReEvaluateReferrerAfterTrackingStatusIsKnown(); // Create a dummy channel for the same principal, out of the load group // just to revalidate the cache entry. We don't care if this fails. // This method can be called on any thread, and creates an idle task // to perform the revalidation with delay. void PerformBackgroundCacheRevalidation(); // This method can only be called on the main thread. void PerformBackgroundCacheRevalidationNow(); private: nsCOMPtr mProxyRequest; nsCOMPtr mTransactionPump; RefPtr mTransaction; uint64_t mLogicalOffset{0}; // cache specific data nsCOMPtr mCacheEntry; // This will be set during OnStopRequest() before calling CloseCacheEntry(), // but only if the listener wants to use alt-data (signaled by // HttpBaseChannel::mPreferredCachedAltDataType being not empty) // Needed because calling openAlternativeOutputStream needs a reference // to the cache entry. nsCOMPtr mAltDataCacheEntry; nsCOMPtr mCacheEntryURI; nsCString mCacheIdExtension; // We must close mCacheInputStream explicitly to avoid leaks. AutoClose mCacheInputStream; RefPtr mCachePump; UniquePtr mCachedResponseHead; nsCOMPtr mCachedSecurityInfo; uint32_t mPostID{0}; uint32_t mRequestTime{0}; nsTArray mStreamFilterRequests; mozilla::TimeStamp mOnStartRequestTimestamp; // Timestamp of the time the channel was suspended. mozilla::TimeStamp mSuspendTimestamp; mozilla::TimeStamp mOnCacheEntryCheckTimestamp; // Properties used for the profiler markers // This keeps the timestamp for the start marker, to be reused for the end // marker. mozilla::TimeStamp mLastStatusReported; // This is true when one end marker is output, so that we never output more // than one. bool mEndMarkerAdded = false; // Total time the channel spent suspended. This value is reported to // telemetry in nsHttpChannel::OnStartRequest(). uint32_t mSuspendTotalTime{0}; friend class AutoRedirectVetoNotifier; friend class HttpAsyncAborter; uint32_t mRedirectType{0}; static const uint32_t WAIT_FOR_CACHE_ENTRY = 1; bool mCacheOpenWithPriority{false}; uint32_t mCacheQueueSizeWhenOpen{0}; Atomic mCachedContentIsValid{false}; Atomic mIsAuthChannel{false}; Atomic mAuthRetryPending{false}; // clang-format off // state flags MOZ_ATOMIC_BITFIELDS(mAtomicBitfields5, 32, ( (uint32_t, CachedContentIsPartial, 1), (uint32_t, CacheOnlyMetadata, 1), (uint32_t, TransactionReplaced, 1), (uint32_t, ProxyAuthPending, 1), // Set if before the first authentication attempt a custom authorization // header has been set on the channel. This will make that custom header // go to the server instead of any cached credentials. (uint32_t, CustomAuthHeader, 1), (uint32_t, Resuming, 1), (uint32_t, InitedCacheEntry, 1), // True if consumer added its own If-None-Match or If-Modified-Since // headers. In such a case we must not override them in the cache code // and also we want to pass possible 304 code response through. (uint32_t, CustomConditionalRequest, 1), (uint32_t, WaitingForRedirectCallback, 1), // True if mRequestTime has been set. In such a case it is safe to update // the cache entry's expiration time. Otherwise, it is not(see bug 567360). (uint32_t, RequestTimeInitialized, 1), (uint32_t, CacheEntryIsReadOnly, 1), (uint32_t, CacheEntryIsWriteOnly, 1), // see WAIT_FOR_* constants above (uint32_t, WaitForCacheEntry, 1), // whether cache entry data write was in progress during cache entry check // when true, after we finish read from cache we must check all data // had been loaded from cache. If not, then an error has to be propagated // to the consumer. (uint32_t, ConcurrentCacheAccess, 1), // whether the request is setup be byte-range (uint32_t, IsPartialRequest, 1), // true iff there is AutoRedirectVetoNotifier on the stack (uint32_t, HasAutoRedirectVetoNotifier, 1), // consumers set this to true to use cache pinning, this has effect // only when the channel is in an app context (uint32_t, PinCacheContent, 1), // True if CORS preflight has been performed (uint32_t, IsCorsPreflightDone, 1), // if the http transaction was performed (i.e. not cached) and // the result in OnStopRequest was known to be correctly delimited // by chunking, content-length, or h2 end-stream framing (uint32_t, StronglyFramed, 1), // true if an HTTP transaction is created for the socket thread (uint32_t, UsedNetwork, 1), // the next authentication request can be sent on a whole new connection (uint32_t, AuthConnectionRestartable, 1), // True if the channel classifier has marked the channel to be cancelled due // to the safe-browsing classifier rules, but the asynchronous cancellation // process hasn't finished yet. (uint32_t, ChannelClassifierCancellationPending, 1), // True only when we are between Resume and async fire of mCallOnResume. // Used to suspend any newly created pumps in mCallOnResume handler. (uint32_t, AsyncResumePending, 1), // True if the data will be sent from the socket process to the // content process directly. (uint32_t, DataSentToChildProcess, 1), (uint32_t, UseHTTPSSVC, 1), (uint32_t, WaitHTTPSSVCRecord, 1) )) // Broken up into two bitfields to avoid alignment requirements of uint64_t. // (Too many bits used for one uint32_t.) MOZ_ATOMIC_BITFIELDS(mAtomicBitfields6, 32, ( // Only set to true when we receive an HTTPSSVC record before the // transaction is created. (uint32_t, HTTPSSVCTelemetryReported, 1), (uint32_t, EchConfigUsed, 1) )) // clang-format on nsTArray mRedirectFuncStack; // Needed for accurate DNS timing RefPtr mDNSPrefetch; uint32_t mPushedStreamId{0}; RefPtr mTransWithPushedStream; // True if the channel's principal was found on a phishing, malware, or // tracking (if tracking protection is enabled) blocklist bool mLocalBlocklist{false}; [[nodiscard]] nsresult WaitForRedirectCallback(); void PushRedirectAsyncFunc(nsContinueRedirectionFunc func); void PopRedirectAsyncFunc(nsContinueRedirectionFunc func); // If this resource is eligible for tailing based on class-of-service flags // and load flags. We don't tail Leaders/Unblocked/UrgentStart and top-level // loads. bool EligibleForTailing(); // Called exclusively only from AsyncOpen or after all classification // callbacks. If this channel is 1) Tail, 2) assigned a request context, 3) // the context is still in the tail-blocked phase, then the method will queue // this channel. OnTailUnblock will be called after the context is // tail-unblocked or canceled. bool WaitingForTailUnblock(); // A function we trigger when untail callback is triggered by our request // context in case this channel was tail-blocked. using TailUnblockCallback = nsresult (nsHttpChannel::*)(); TailUnblockCallback mOnTailUnblock{nullptr}; // Called on untail when tailed during AsyncOpen execution. nsresult AsyncOpenOnTailUnblock(); // Called on untail when tailed because of being a tracking resource. nsresult ConnectOnTailUnblock(); nsCString mUsername; // If non-null, warnings should be reported to this object. RefPtr mWarningReporter; // True if the channel is reading from cache. Atomic mIsReadingFromCache{false}; // nsITimerCallback is implemented on a subclass so that the name attribute // doesn't conflict with the name attribute of the nsIRequest interface that // might be present on the same object (as seen from JavaScript code). class TimerCallback final : public nsITimerCallback, public nsINamed { public: NS_DECL_ISUPPORTS NS_DECL_NSITIMERCALLBACK NS_DECL_NSINAMED explicit TimerCallback(nsHttpChannel* aChannel); private: ~TimerCallback() = default; RefPtr mChannel; }; // These next members are only used in unit tests to delay the call to // cache->AsyncOpenURI in order to race the cache with the network. nsCOMPtr mCacheOpenTimer; std::function mCacheOpenFunc; uint32_t mCacheOpenDelay = 0; // We need to remember which is the source of the response we are using. enum ResponseSource { RESPONSE_PENDING = 0, // response is pending RESPONSE_FROM_CACHE = 1, // response coming from cache. no network. RESPONSE_FROM_NETWORK = 2 // response coming from the network }; Atomic mFirstResponseSource{RESPONSE_PENDING}; // Determines if it's possible and advisable to race the network request // with the cache fetch, and proceeds to do so. void MaybeRaceCacheWithNetwork(); // Creates a new cache entry when network wins the race to ensure we have // the latest version of the resource in the cache. Otherwise we might return // an old content when navigating back in history. void MaybeCreateCacheEntryWhenRCWN(); nsresult TriggerNetworkWithDelay(uint32_t aDelay); nsresult TriggerNetwork(); void CancelNetworkRequest(nsresult aStatus); void SetHTTPSSVCRecord(already_AddRefed&& aRecord); // Timer used to delay the network request, or to trigger the network // request if retrieving the cache entry takes too long. nsCOMPtr mNetworkTriggerTimer; // Is true if the network request has been triggered. bool mNetworkTriggered = false; bool mWaitingForProxy = false; bool mStaleRevalidation = false; // Will be true if the onCacheEntryAvailable callback is not called by the // time we send the network request Atomic mRaceCacheWithNetwork{false}; uint32_t mRaceDelay{0}; // If true then OnCacheEntryAvailable should ignore the entry, because // SetupTransaction removed conditional headers and decisions made in // OnCacheEntryCheck are no longer valid. bool mIgnoreCacheEntry{false}; // Lock preventing SetupTransaction/MaybeCreateCacheEntryWhenRCWN and // OnCacheEntryCheck being called at the same time. mozilla::Mutex mRCWNLock MOZ_UNANNOTATED{"nsHttpChannel.mRCWNLock"}; TimeStamp mNavigationStartTimeStamp; // Promise that blocks connection creation when we want to resolve the origin // host name to be able to give the configured proxy only the resolved IP // to not leak names. MozPromiseHolder mDNSBlockingPromise; // When we hit DoConnect before the resolution is done, Then() will be set // here to resume DoConnect. RefPtr mDNSBlockingThenable; // We update the value of mProxyConnectResponseCode when OnStartRequest is // called and reset the value when we switch to another failover proxy. int32_t mProxyConnectResponseCode{0}; // If mHTTPSSVCRecord has value, it means OnHTTPSRRAvailable() is called and // we got the result of HTTPS RR query. Otherwise, it means we are still // waiting for the result or the query is not performed. Maybe> mHTTPSSVCRecord; protected: virtual void DoNotifyListenerCleanup() override; // Override ReleaseListeners() because mChannelClassifier only exists // in nsHttpChannel and it will be released in ReleaseListeners(). virtual void ReleaseListeners() override; virtual void DoAsyncAbort(nsresult aStatus) override; private: // cache telemetry bool mDidReval{false}; RefPtr mEarlyHintObserver; Maybe mOpenerCallingScriptLocation; bool mIsForWebTransport{false}; }; NS_DEFINE_STATIC_IID_ACCESSOR(nsHttpChannel, NS_HTTPCHANNEL_IID) } // namespace net } // namespace mozilla inline nsISupports* ToSupports(mozilla::net::nsHttpChannel* aChannel) { return static_cast(aChannel); } #endif // nsHttpChannel_h__