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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set sw=2 ts=8 et 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_net_InterceptedHttpChannel_h
#define mozilla_net_InterceptedHttpChannel_h
#include "HttpBaseChannel.h"
#include "nsIAsyncVerifyRedirectCallback.h"
#include "nsINetworkInterceptController.h"
#include "nsIInputStream.h"
#include "nsICacheInfoChannel.h"
#include "nsIThreadRetargetableRequest.h"
#include "nsIThreadRetargetableStreamListener.h"
namespace mozilla::net {
// This class represents an http channel that is being intercepted by a
// ServiceWorker. This means that when the channel is opened a FetchEvent
// will be fired on the ServiceWorker thread. The channel will complete
// depending on what the worker does. The options are:
//
// 1. If the ServiceWorker does not handle the FetchEvent or does not call
// FetchEvent.respondWith(), then the channel needs to fall back to a
// normal request. When this happens ResetInterception() is called and
// the channel will perform an internal redirect back to an nsHttpChannel.
//
// 2. If the ServiceWorker provides a Response to FetchEvent.respondWith()
// then the status, headers, and body must be synthesized. When
// FinishSynthesizedResponse() is called the synthesized data must be
// reported back to the channel listener. This is handled in a few
// different ways:
// a. If a redirect was synthesized, then we perform the redirect to
// a new nsHttpChannel. This new channel might trigger yet another
// interception.
// b. If a same-origin or CORS Response was synthesized, then we simply
// crate an nsInputStreamPump to process it and call back to the
// listener.
// c. If an opaque Response was synthesized, then we perform an internal
// redirect to a new InterceptedHttpChannel using the cross-origin URL.
// When this new channel is opened, it then creates a pump as in case
// (b). The extra redirect here is to make sure the various listeners
// treat the result as unsafe cross-origin data.
//
// 3. If an error occurs, such as the ServiceWorker passing garbage to
// FetchEvent.respondWith(), then CancelInterception() is called. This is
// handled the same as a normal nsIChannel::Cancel() call. We abort the
// channel and end up calling OnStopRequest() with an error code.
class InterceptedHttpChannel final
: public HttpBaseChannel,
public HttpAsyncAborter<InterceptedHttpChannel>,
public nsIInterceptedChannel,
public nsICacheInfoChannel,
public nsIAsyncVerifyRedirectCallback,
public nsIThreadRetargetableRequest,
public nsIThreadRetargetableStreamListener {
NS_DECL_ISUPPORTS_INHERITED
NS_DECL_NSIINTERCEPTEDCHANNEL
NS_DECL_NSICACHEINFOCHANNEL
NS_DECL_NSIASYNCVERIFYREDIRECTCALLBACK
NS_DECL_NSIREQUESTOBSERVER
NS_DECL_NSISTREAMLISTENER
NS_DECL_NSITHREADRETARGETABLEREQUEST
NS_DECL_NSITHREADRETARGETABLESTREAMLISTENER
private:
friend class HttpAsyncAborter<InterceptedHttpChannel>;
UniquePtr<nsHttpResponseHead> mSynthesizedResponseHead;
nsCOMPtr<nsIChannel> mRedirectChannel;
nsCOMPtr<nsIInputStream> mBodyReader;
nsCOMPtr<nsISupports> mReleaseHandle;
nsCOMPtr<nsIProgressEventSink> mProgressSink;
nsCOMPtr<nsIInterceptedBodyCallback> mBodyCallback;
nsCOMPtr<nsICacheInfoChannel> mSynthesizedCacheInfo;
RefPtr<nsInputStreamPump> mPump;
TimeStamp mInterceptedChannelCreationTimestamp;
// For the profiler markers
TimeStamp mLastStatusReported;
Atomic<int64_t> mProgress;
int64_t mProgressReported;
int64_t mSynthesizedStreamLength;
uint64_t mResumeStartPos;
nsCString mResumeEntityId;
nsString mStatusHost;
Atomic<bool> mCallingStatusAndProgress;
bool mInterceptionReset{false};
/**
* InterceptionTimeStamps is used to record the time stamps of the
* interception.
* The general usage:
* Step 1. Initialize the InterceptionTimeStamps;
* InterceptionTimeStamps::Init(channel);
* Step 2. Record time for each stage
* InterceptionTimeStamps::RecordTime(); or
* InterceptionTimeStamps::RecordTime(timeStamp);
* Step 3. Record time for the last stage with the final status
* InterceptionTimeStamps::RecordTime(InterceptionTimeStamps::Synthesized);
*/
class InterceptionTimeStamps final {
public:
// The possible status of the interception.
enum Status {
Created,
Initialized,
Synthesized,
Reset,
Redirected,
Canceled,
CanceledAfterSynthesized,
CanceledAfterReset,
CanceledAfterRedirected
};
InterceptionTimeStamps();
~InterceptionTimeStamps() = default;
/**
* Initialize with the given channel.
* This method should be called before any RecordTime().
*/
void Init(nsIChannel* aChannel);
/**
* Record the given time stamp for current stage. If there is no given time
* stamp, TimeStamp::Now() will be recorded.
* The current stage is auto moved to the next one.
*/
void RecordTime(TimeStamp&& aTimeStamp = TimeStamp::Now());
/**
* Record the given time stamp for the last stage(InterceptionFinish) and
* set the final status to the given status.
* If these is no given time stamp, TimeStamp::Now() will be recorded.
* Notice that this method is for the last stage, it calls SaveTimeStamps()
* to write data into telemetries.
*/
void RecordTime(Status&& aStatus,
TimeStamp&& aTimeStamp = TimeStamp::Now());
// The time stamp which the intercepted channel is created and async opend.
TimeStamp mInterceptionStart;
// The time stamp which the interception finishes.
TimeStamp mInterceptionFinish;
// The time stamp which the fetch event starts to be handled by fetch event
// handler.
TimeStamp mFetchHandlerStart;
// The time stamp which the fetch event handling finishes. It would the time
// which remote worker sends result back.
TimeStamp mFetchHandlerFinish;
private:
// The stage of interception.
enum Stage {
InterceptionStart,
FetchHandlerStart,
FetchHandlerFinish,
InterceptionFinish
} mStage;
// The final status of the interception.
Status mStatus;
bool mIsNonSubresourceRequest;
// The keys used for telemetries.
nsCString mKey;
nsCString mSubresourceKey;
void RecordTimeInternal(TimeStamp&& aTimeStamp);
// Generate the record keys with final status.
void GenKeysWithStatus(nsCString& aKey, nsCString& aSubresourceKey);
// Save the time stamps into telemetries.
void SaveTimeStamps();
};
InterceptionTimeStamps mTimeStamps;
InterceptedHttpChannel(PRTime aCreationTime,
const TimeStamp& aCreationTimestamp,
const TimeStamp& aAsyncOpenTimestamp);
~InterceptedHttpChannel() = default;
virtual void ReleaseListeners() override;
[[nodiscard]] virtual nsresult SetupReplacementChannel(
nsIURI* aURI, nsIChannel* aChannel, bool aPreserveMethod,
uint32_t aRedirectFlags) override;
void AsyncOpenInternal();
bool ShouldRedirect() const;
nsresult FollowSyntheticRedirect();
// If the response's URL is different from the request's then do a service
// worker redirect. If Response.redirected is false we do an internal
// redirect. Otherwise, if Response.redirect is true do a non-internal
// redirect so end consumers detect the redirected state.
nsresult RedirectForResponseURL(nsIURI* aResponseURI,
bool aResponseRedirected);
nsresult StartPump();
nsresult OpenRedirectChannel();
void MaybeCallStatusAndProgress();
void MaybeCallBodyCallback();
TimeStamp mServiceWorkerLaunchStart;
TimeStamp mServiceWorkerLaunchEnd;
public:
static already_AddRefed<InterceptedHttpChannel> CreateForInterception(
PRTime aCreationTime, const TimeStamp& aCreationTimestamp,
const TimeStamp& aAsyncOpenTimestamp);
static already_AddRefed<InterceptedHttpChannel> CreateForSynthesis(
const nsHttpResponseHead* aHead, nsIInputStream* aBody,
nsIInterceptedBodyCallback* aBodyCallback, PRTime aCreationTime,
const TimeStamp& aCreationTimestamp,
const TimeStamp& aAsyncOpenTimestamp);
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 aStatus) override;
NS_IMETHOD
Suspend(void) override;
NS_IMETHOD
Resume(void) override;
NS_IMETHOD
GetSecurityInfo(nsITransportSecurityInfo** aSecurityInfo) override;
NS_IMETHOD
AsyncOpen(nsIStreamListener* aListener) override;
NS_IMETHOD
LogBlockedCORSRequest(const nsAString& aMessage, const nsACString& aCategory,
bool aIsWarning) override;
NS_IMETHOD
LogMimeTypeMismatch(const nsACString& aMessageName, bool aWarning,
const nsAString& aURL,
const nsAString& aContentType) override;
NS_IMETHOD
GetIsAuthChannel(bool* aIsAuthChannel) override;
NS_IMETHOD
SetPriority(int32_t aPriority) override;
NS_IMETHOD
SetClassFlags(uint32_t aClassFlags) override;
NS_IMETHOD
ClearClassFlags(uint32_t flags) override;
NS_IMETHOD
AddClassFlags(uint32_t flags) override;
NS_IMETHOD
SetClassOfService(ClassOfService cos) override;
NS_IMETHOD
SetIncremental(bool incremental) override;
NS_IMETHOD
ResumeAt(uint64_t startPos, const nsACString& entityID) override;
NS_IMETHOD
SetEarlyHintObserver(nsIEarlyHintObserver* aObserver) override {
return NS_OK;
}
NS_IMETHOD SetWebTransportSessionEventListener(
WebTransportSessionEventListener* aListener) override {
return NS_OK;
}
NS_IMETHOD SetLaunchServiceWorkerStart(TimeStamp aTimeStamp) override;
NS_IMETHOD GetLaunchServiceWorkerStart(TimeStamp* aRetVal) override;
NS_IMETHOD SetLaunchServiceWorkerEnd(TimeStamp aTimeStamp) override;
NS_IMETHOD GetLaunchServiceWorkerEnd(TimeStamp* aRetVal) override;
NS_IMETHOD GetDispatchFetchEventStart(TimeStamp* aRetVal) override;
NS_IMETHOD GetDispatchFetchEventEnd(TimeStamp* aRetVal) override;
NS_IMETHOD GetHandleFetchEventStart(TimeStamp* aRetVal) override;
NS_IMETHOD GetHandleFetchEventEnd(TimeStamp* aRetVal) override;
void DoNotifyListenerCleanup() override;
void DoAsyncAbort(nsresult aStatus) override;
};
} // namespace mozilla::net
#endif // mozilla_net_InterceptedHttpChannel_h
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