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tenfourfox/netwerk/protocol/http/nsHttpChannel.cpp

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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/* vim:set expandtab ts=4 sw=4 sts=4 cin: */
/* 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/. */
// HttpLog.h should generally be included first
#include "HttpLog.h"
#include "mozilla/dom/nsCSPUtils.h"
#include "mozilla/dom/nsCSPContext.h"
#include "nsHttp.h"
#include "nsHttpChannel.h"
#include "nsHttpHandler.h"
#include "nsIApplicationCacheService.h"
#include "nsIApplicationCacheContainer.h"
#include "nsICacheStorageService.h"
#include "nsICacheStorage.h"
#include "nsICacheEntry.h"
#include "nsICaptivePortalService.h"
#include "nsICryptoHash.h"
#include "nsINetworkInterceptController.h"
#include "nsIStringBundle.h"
#include "nsIStreamListenerTee.h"
#include "nsISeekableStream.h"
#include "nsILoadGroupChild.h"
#include "nsIProtocolProxyService2.h"
#include "nsIURIClassifier.h"
#include "nsMimeTypes.h"
#include "nsNetCID.h"
#include "nsNetUtil.h"
#include "nsIURL.h"
#include "nsIStreamTransportService.h"
#include "prprf.h"
#include "prnetdb.h"
#include "nsEscape.h"
#include "nsStreamUtils.h"
#include "nsIOService.h"
#include "nsDNSPrefetch.h"
#include "nsChannelClassifier.h"
#include "nsIRedirectResultListener.h"
#include "mozilla/TimeStamp.h"
#include "nsError.h"
#include "nsPrintfCString.h"
#include "nsAlgorithm.h"
#include "nsQueryObject.h"
#include "GeckoProfiler.h"
#include "nsIConsoleService.h"
#include "mozilla/Attributes.h"
#include "mozilla/DebugOnly.h"
#include "mozilla/Preferences.h"
#include "nsISSLSocketControl.h"
#include "sslt.h"
#include "nsContentUtils.h"
#include "nsContentSecurityManager.h"
#include "nsIClassOfService.h"
#include "nsIPermissionManager.h"
#include "nsIPrincipal.h"
#include "nsIScriptError.h"
#include "nsIScriptSecurityManager.h"
#include "nsISSLStatus.h"
#include "nsISSLStatusProvider.h"
#include "nsITransportSecurityInfo.h"
#include "nsIWebProgressListener.h"
#include "LoadContextInfo.h"
#include "netCore.h"
#include "nsHttpTransaction.h"
#include "nsICacheEntryDescriptor.h"
#include "nsICancelable.h"
#include "nsIHttpChannelAuthProvider.h"
#include "nsIHttpChannelInternal.h"
#include "nsIHttpEventSink.h"
#include "nsIPrompt.h"
#include "nsInputStreamPump.h"
#include "nsURLHelper.h"
#include "nsISocketTransport.h"
#include "nsIStreamConverterService.h"
#include "nsISiteSecurityService.h"
#include "nsCRT.h"
#include "nsPerformance.h"
#include "CacheObserver.h"
#include "mozilla/Telemetry.h"
#include "AlternateServices.h"
#include "InterceptedChannel.h"
#include "nsIHttpPushListener.h"
#include "nsIX509Cert.h"
#include "ScopedNSSTypes.h"
#include "nsNullPrincipal.h"
#include "nsIPackagedAppService.h"
#include "nsIDeprecationWarner.h"
#include "nsIDocument.h"
#include "nsICompressConvStats.h"
#include "mozilla/unused.h"
#include "mozilla-config.h"
#include "plvmx.h"
namespace mozilla { namespace net {
namespace {
// Monotonically increasing ID for generating unique cache entries per
// intercepted channel.
static uint64_t gNumIntercepted = 0;
// True if the local cache should be bypassed when processing a request.
#define BYPASS_LOCAL_CACHE(loadFlags) \
(loadFlags & (nsIRequest::LOAD_BYPASS_CACHE | \
nsICachingChannel::LOAD_BYPASS_LOCAL_CACHE))
#define RECOVER_FROM_CACHE_FILE_ERROR(result) \
((result) == NS_ERROR_FILE_NOT_FOUND || \
(result) == NS_ERROR_FILE_CORRUPTED || \
(result) == NS_ERROR_OUT_OF_MEMORY)
static NS_DEFINE_CID(kStreamListenerTeeCID, NS_STREAMLISTENERTEE_CID);
static NS_DEFINE_CID(kStreamTransportServiceCID,
NS_STREAMTRANSPORTSERVICE_CID);
enum CacheDisposition {
kCacheHit = 1,
kCacheHitViaReval = 2,
kCacheMissedViaReval = 3,
kCacheMissed = 4
};
void
AccumulateCacheHitTelemetry(CacheDisposition hitOrMiss)
{
if (!CacheObserver::UseNewCache()) {
Telemetry::Accumulate(Telemetry::HTTP_CACHE_DISPOSITION_2, hitOrMiss);
}
else {
Telemetry::Accumulate(Telemetry::HTTP_CACHE_DISPOSITION_2_V2, hitOrMiss);
int32_t experiment = CacheObserver::HalfLifeExperiment();
if (experiment > 0 && hitOrMiss == kCacheMissed) {
Telemetry::Accumulate(Telemetry::HTTP_CACHE_MISS_HALFLIFE_EXPERIMENT_2,
experiment - 1);
}
}
}
// Computes and returns a SHA1 hash of the input buffer. The input buffer
// must be a null-terminated string.
nsresult
Hash(const char *buf, nsACString &hash)
{
nsresult rv;
nsCOMPtr<nsICryptoHash> hasher
= do_CreateInstance(NS_CRYPTO_HASH_CONTRACTID, &rv);
NS_ENSURE_SUCCESS(rv, rv);
rv = hasher->Init(nsICryptoHash::SHA1);
NS_ENSURE_SUCCESS(rv, rv);
rv = hasher->Update(reinterpret_cast<unsigned const char*>(buf),
strlen(buf));
NS_ENSURE_SUCCESS(rv, rv);
rv = hasher->Finish(true, hash);
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
bool
IsInSubpathOfAppCacheManifest(nsIApplicationCache *cache, nsACString const& uriSpec)
{
MOZ_ASSERT(cache);
static bool sForbid = true;
static nsresult once = Preferences::AddBoolVarCache(&sForbid, "network.appcache.forbid-fallback-outside-manifest-path", true);
Unused << once;
if (!sForbid) {
return true;
}
nsresult rv;
nsCOMPtr<nsIURI> uri;
rv = NS_NewURI(getter_AddRefs(uri), uriSpec);
if (NS_FAILED(rv)) {
return false;
}
nsCOMPtr<nsIURL> url(do_QueryInterface(uri, &rv));
if (NS_FAILED(rv)) {
return false;
}
nsAutoCString directory;
rv = url->GetDirectory(directory);
if (NS_FAILED(rv)) {
return false;
}
nsCOMPtr<nsIURI> manifestURI;
rv = cache->GetManifestURI(getter_AddRefs(manifestURI));
if (NS_FAILED(rv)) {
return false;
}
nsCOMPtr<nsIURL> manifestURL(do_QueryInterface(manifestURI, &rv));
if (NS_FAILED(rv)) {
return false;
}
nsAutoCString manifestDirectory;
rv = manifestURL->GetDirectory(manifestDirectory);
if (NS_FAILED(rv)) {
return false;
}
return StringBeginsWith(directory, manifestDirectory);
}
} // unnamed namespace
// We only treat 3xx responses as redirects if they have a Location header and
// the status code is in a whitelist.
bool
WillRedirect(const nsHttpResponseHead * response)
{
return nsHttpChannel::IsRedirectStatus(response->Status()) &&
response->PeekHeader(nsHttp::Location);
}
nsresult
StoreAuthorizationMetaData(nsICacheEntry *entry, nsHttpRequestHead *requestHead);
class AutoRedirectVetoNotifier
{
public:
explicit AutoRedirectVetoNotifier(nsHttpChannel* channel) : mChannel(channel)
{
if (mChannel->mHasAutoRedirectVetoNotifier) {
MOZ_CRASH("Nested AutoRedirectVetoNotifier on the stack");
mChannel = nullptr;
return;
}
mChannel->mHasAutoRedirectVetoNotifier = true;
}
~AutoRedirectVetoNotifier() {ReportRedirectResult(false);}
void RedirectSucceeded() {ReportRedirectResult(true);}
private:
nsHttpChannel* mChannel;
void ReportRedirectResult(bool succeeded);
};
void
AutoRedirectVetoNotifier::ReportRedirectResult(bool succeeded)
{
if (!mChannel)
return;
mChannel->mRedirectChannel = nullptr;
nsCOMPtr<nsIRedirectResultListener> vetoHook;
NS_QueryNotificationCallbacks(mChannel,
NS_GET_IID(nsIRedirectResultListener),
getter_AddRefs(vetoHook));
nsHttpChannel* channel = mChannel;
mChannel = nullptr;
if (vetoHook)
vetoHook->OnRedirectResult(succeeded);
// Drop after the notification
channel->mHasAutoRedirectVetoNotifier = false;
}
//-----------------------------------------------------------------------------
// nsHttpChannel <public>
//-----------------------------------------------------------------------------
nsHttpChannel::nsHttpChannel()
: HttpAsyncAborter<nsHttpChannel>(this)
, mLogicalOffset(0)
, mPostID(0)
, mRequestTime(0)
, mOfflineCacheLastModifiedTime(0)
, mInterceptCache(DO_NOT_INTERCEPT)
, mInterceptionID(gNumIntercepted++)
, mCachedContentIsValid(false)
, mCachedContentIsPartial(false)
, mCacheOnlyMetadata(false)
, mTransactionReplaced(false)
, mAuthRetryPending(false)
, mProxyAuthPending(false)
, mResuming(false)
, mInitedCacheEntry(false)
, mFallbackChannel(false)
, mCustomConditionalRequest(false)
, mFallingBack(false)
, mWaitingForRedirectCallback(false)
, mRequestTimeInitialized(false)
, mCacheEntryIsReadOnly(false)
, mCacheEntryIsWriteOnly(false)
, mCacheEntriesToWaitFor(0)
, mHasQueryString(0)
, mConcurentCacheAccess(0)
, mIsPartialRequest(0)
, mHasAutoRedirectVetoNotifier(0)
, mPinCacheContent(0)
, mIsPackagedAppResource(0)
, mIsCorsPreflightDone(0)
, mPushedStream(nullptr)
, mLocalBlocklist(false)
, mWarningReporter(nullptr)
, mDidReval(false)
{
LOG(("Creating nsHttpChannel [this=%p]\n", this));
mChannelCreationTime = PR_Now();
mChannelCreationTimestamp = TimeStamp::Now();
}
nsHttpChannel::~nsHttpChannel()
{
LOG(("Destroying nsHttpChannel [this=%p]\n", this));
if (mAuthProvider)
mAuthProvider->Disconnect(NS_ERROR_ABORT);
}
nsresult
nsHttpChannel::Init(nsIURI *uri,
uint32_t caps,
nsProxyInfo *proxyInfo,
uint32_t proxyResolveFlags,
nsIURI *proxyURI)
{
nsresult rv = HttpBaseChannel::Init(uri, caps, proxyInfo,
proxyResolveFlags, proxyURI);
if (NS_FAILED(rv))
return rv;
LOG(("nsHttpChannel::Init [this=%p]\n", this));
return rv;
}
nsresult
nsHttpChannel::AddSecurityMessage(const nsAString& aMessageTag,
const nsAString& aMessageCategory)
{
if (mWarningReporter) {
return mWarningReporter->ReportSecurityMessage(aMessageTag,
aMessageCategory);
}
return HttpBaseChannel::AddSecurityMessage(aMessageTag,
aMessageCategory);
}
//-----------------------------------------------------------------------------
// nsHttpChannel <private>
//-----------------------------------------------------------------------------
nsresult
nsHttpChannel::Connect()
{
nsresult rv;
LOG(("nsHttpChannel::Connect [this=%p]\n", this));
// Even if we're in private browsing mode, we still enforce existing STS
// data (it is read-only).
// if the connection is not using SSL and either the exact host matches or
// a superdomain wants to force HTTPS, do it.
bool isHttps = false;
rv = mURI->SchemeIs("https", &isHttps);
NS_ENSURE_SUCCESS(rv,rv);
if (!isHttps) {
// If any of the documents up the chain to the root doucment makes use of
// the CSP directive 'upgrade-insecure-requests', then it's time to fulfill
// the promise to CSP and mixed content blocking to upgrade the channel
// from http to https.
if (mLoadInfo) {
// Please note that cross origin top level navigations are not subject
// to upgrade-insecure-requests, see:
// http://www.w3.org/TR/upgrade-insecure-requests/#examples
nsCOMPtr<nsIPrincipal> resultPrincipal;
nsContentUtils::GetSecurityManager()->
GetChannelResultPrincipal(this, getter_AddRefs(resultPrincipal));
bool crossOriginNavigation =
(mLoadInfo->GetExternalContentPolicyType() == nsIContentPolicy::TYPE_DOCUMENT) &&
(!resultPrincipal->Equals(mLoadInfo->LoadingPrincipal()));
if (mLoadInfo->GetUpgradeInsecureRequests() && !crossOriginNavigation) {
// let's log a message to the console that we are upgrading a request
nsAutoCString spec, scheme;
mURI->GetSpec(spec);
mURI->GetScheme(scheme);
// append the additional 's' for security to the scheme :-)
scheme.AppendASCII("s");
NS_ConvertUTF8toUTF16 reportSpec(spec);
NS_ConvertUTF8toUTF16 reportScheme(scheme);
const char16_t* params[] = { reportSpec.get(), reportScheme.get() };
uint32_t innerWindowId = mLoadInfo ? mLoadInfo->GetInnerWindowID() : 0;
CSP_LogLocalizedStr(MOZ_UTF16("upgradeInsecureRequest"),
params, ArrayLength(params),
EmptyString(), // aSourceFile
EmptyString(), // aScriptSample
0, // aLineNumber
0, // aColumnNumber
nsIScriptError::warningFlag, "CSP",
innerWindowId);
Telemetry::Accumulate(Telemetry::HTTP_SCHEME_UPGRADE, 4);
return AsyncCall(&nsHttpChannel::HandleAsyncRedirectChannelToHttps);
}
}
// enforce Strict-Transport-Security
nsISiteSecurityService* sss = gHttpHandler->GetSSService();
NS_ENSURE_TRUE(sss, NS_ERROR_OUT_OF_MEMORY);
bool isStsHost = false;
uint32_t flags = mPrivateBrowsing ? nsISocketProvider::NO_PERMANENT_STORAGE : 0;
rv = sss->IsSecureURI(nsISiteSecurityService::HEADER_HSTS, mURI, flags,
&isStsHost);
// if the SSS check fails, it's likely because this load is on a
// malformed URI or something else in the setup is wrong, so any error
// should be reported.
NS_ENSURE_SUCCESS(rv, rv);
if (isStsHost) {
LOG(("nsHttpChannel::Connect() STS permissions found\n"));
if (mAllowSTS) {
Telemetry::Accumulate(Telemetry::HTTP_SCHEME_UPGRADE, 3);
return AsyncCall(&nsHttpChannel::HandleAsyncRedirectChannelToHttps);
} else {
Telemetry::Accumulate(Telemetry::HTTP_SCHEME_UPGRADE, 2);
}
} else {
Telemetry::Accumulate(Telemetry::HTTP_SCHEME_UPGRADE, 1);
}
} else {
Telemetry::Accumulate(Telemetry::HTTP_SCHEME_UPGRADE, 0);
}
// ensure that we are using a valid hostname
if (!net_IsValidHostName(nsDependentCString(mConnectionInfo->Origin())))
return NS_ERROR_UNKNOWN_HOST;
// Finalize ConnectionInfo flags before SpeculativeConnect
mConnectionInfo->SetAnonymous((mLoadFlags & LOAD_ANONYMOUS) != 0);
mConnectionInfo->SetPrivate(mPrivateBrowsing);
mConnectionInfo->SetNoSpdy(mCaps & NS_HTTP_DISALLOW_SPDY);
// Consider opening a TCP connection right away.
SpeculativeConnect();
// Don't allow resuming when cache must be used
if (mResuming && (mLoadFlags & LOAD_ONLY_FROM_CACHE)) {
LOG(("Resuming from cache is not supported yet"));
return NS_ERROR_DOCUMENT_NOT_CACHED;
}
// open a cache entry for this channel...
rv = OpenCacheEntry(isHttps);
// do not continue if asyncOpenCacheEntry is in progress
if (AwaitingCacheCallbacks()) {
LOG(("nsHttpChannel::Connect %p AwaitingCacheCallbacks forces async\n", this));
MOZ_ASSERT(NS_SUCCEEDED(rv), "Unexpected state");
return NS_OK;
}
if (NS_FAILED(rv)) {
LOG(("OpenCacheEntry failed [rv=%x]\n", rv));
// if this channel is only allowed to pull from the cache, then
// we must fail if we were unable to open a cache entry.
if (mLoadFlags & LOAD_ONLY_FROM_CACHE) {
// If we have a fallback URI (and we're not already
// falling back), process the fallback asynchronously.
if (!mFallbackChannel && !mFallbackKey.IsEmpty()) {
return AsyncCall(&nsHttpChannel::HandleAsyncFallback);
}
return NS_ERROR_DOCUMENT_NOT_CACHED;
}
// otherwise, let's just proceed without using the cache.
}
return ContinueConnect();
}
nsresult
nsHttpChannel::ContinueConnect()
{
// If we need to start a CORS preflight, do it now!
// Note that it is important to do this before the early returns below.
if (!mIsCorsPreflightDone && mRequireCORSPreflight &&
mInterceptCache != INTERCEPTED) {
MOZ_ASSERT(!mPreflightChannel);
nsresult rv =
nsCORSListenerProxy::StartCORSPreflight(this, this,
mUnsafeHeaders,
getter_AddRefs(mPreflightChannel));
return rv;
}
MOZ_RELEASE_ASSERT(!(mRequireCORSPreflight &&
mInterceptCache != INTERCEPTED) ||
mIsCorsPreflightDone,
"CORS preflight must have been finished by the time we "
"do the rest of ContinueConnect");
// we may or may not have a cache entry at this point
if (mCacheEntry) {
// read straight from the cache if possible...
if (mCachedContentIsValid) {
nsRunnableMethod<nsHttpChannel> *event = nullptr;
if (!mCachedContentIsPartial) {
AsyncCall(&nsHttpChannel::AsyncOnExamineCachedResponse, &event);
}
nsresult rv = ReadFromCache(true);
if (NS_FAILED(rv) && event) {
event->Revoke();
}
// Don't accumulate the cache hit telemetry for intercepted channels.
if (mInterceptCache != INTERCEPTED) {
AccumulateCacheHitTelemetry(kCacheHit);
}
return rv;
}
else if (mLoadFlags & LOAD_ONLY_FROM_CACHE) {
// the cache contains the requested resource, but it must be
// validated before we can reuse it. since we are not allowed
// to hit the net, there's nothing more to do. the document
// is effectively not in the cache.
LOG((" !mCachedContentIsValid && mLoadFlags & LOAD_ONLY_FROM_CACHE"));
return NS_ERROR_DOCUMENT_NOT_CACHED;
}
}
else if (mLoadFlags & LOAD_ONLY_FROM_CACHE) {
// If we have a fallback URI (and we're not already
// falling back), process the fallback asynchronously.
if (!mFallbackChannel && !mFallbackKey.IsEmpty()) {
return AsyncCall(&nsHttpChannel::HandleAsyncFallback);
}
LOG((" !mCachedEntry && mLoadFlags & LOAD_ONLY_FROM_CACHE"));
return NS_ERROR_DOCUMENT_NOT_CACHED;
}
if (mLoadFlags & LOAD_NO_NETWORK_IO) {
LOG((" mLoadFlags & LOAD_NO_NETWORK_IO"));
return NS_ERROR_DOCUMENT_NOT_CACHED;
}
// hit the net...
nsresult rv = SetupTransaction();
if (NS_FAILED(rv)) return rv;
rv = gHttpHandler->InitiateTransaction(mTransaction, mPriority);
if (NS_FAILED(rv)) return rv;
rv = mTransactionPump->AsyncRead(this, nullptr);
if (NS_FAILED(rv)) return rv;
uint32_t suspendCount = mSuspendCount;
while (suspendCount--)
mTransactionPump->Suspend();
return NS_OK;
}
void
nsHttpChannel::SpeculativeConnect()
{
// Before we take the latency hit of dealing with the cache, try and
// get the TCP (and SSL) handshakes going so they can overlap.
// don't speculate if we are on a local blocklist, on uses of the offline
// application cache, if we are offline, when doing http upgrade (i.e.
// websockets bootstrap), or if we can't do keep-alive (because then we
// couldn't reuse the speculative connection anyhow).
if (mLocalBlocklist || mApplicationCache || gIOService->IsOffline() ||
mUpgradeProtocolCallback || !(mCaps & NS_HTTP_ALLOW_KEEPALIVE))
return;
// LOAD_ONLY_FROM_CACHE and LOAD_NO_NETWORK_IO must not hit network.
// LOAD_FROM_CACHE and LOAD_CHECK_OFFLINE_CACHE are unlikely to hit network,
// so skip preconnects for them.
if (mLoadFlags & (LOAD_ONLY_FROM_CACHE | LOAD_FROM_CACHE |
LOAD_NO_NETWORK_IO | LOAD_CHECK_OFFLINE_CACHE))
return;
nsCOMPtr<nsIInterfaceRequestor> callbacks;
NS_NewNotificationCallbacksAggregation(mCallbacks, mLoadGroup,
getter_AddRefs(callbacks));
if (!callbacks)
return;
gHttpHandler->SpeculativeConnect(
mConnectionInfo, callbacks, mCaps & NS_HTTP_DISALLOW_SPDY);
}
void
nsHttpChannel::DoNotifyListenerCleanup()
{
// We don't need this info anymore
CleanRedirectCacheChainIfNecessary();
}
void
nsHttpChannel::HandleAsyncRedirect()
{
NS_PRECONDITION(!mCallOnResume, "How did that happen?");
if (mSuspendCount) {
LOG(("Waiting until resume to do async redirect [this=%p]\n", this));
mCallOnResume = &nsHttpChannel::HandleAsyncRedirect;
return;
}
nsresult rv = NS_OK;
LOG(("nsHttpChannel::HandleAsyncRedirect [this=%p]\n", this));
// since this event is handled asynchronously, it is possible that this
// channel could have been canceled, in which case there would be no point
// in processing the redirect.
if (NS_SUCCEEDED(mStatus)) {
PushRedirectAsyncFunc(&nsHttpChannel::ContinueHandleAsyncRedirect);
rv = AsyncProcessRedirection(mResponseHead->Status());
if (NS_FAILED(rv)) {
PopRedirectAsyncFunc(&nsHttpChannel::ContinueHandleAsyncRedirect);
// TODO: if !DoNotRender3xxBody(), render redirect body instead.
// But first we need to cache 3xx bodies (bug 748510)
ContinueHandleAsyncRedirect(rv);
}
}
else {
ContinueHandleAsyncRedirect(mStatus);
}
}
nsresult
nsHttpChannel::ContinueHandleAsyncRedirect(nsresult rv)
{
if (NS_FAILED(rv)) {
// If AsyncProcessRedirection fails, then we have to send out the
// OnStart/OnStop notifications.
LOG(("ContinueHandleAsyncRedirect got failure result [rv=%x]\n", rv));
bool redirectsEnabled =
!mLoadInfo || !mLoadInfo->GetDontFollowRedirects();
if (redirectsEnabled) {
// TODO: stop failing original channel if redirect vetoed?
mStatus = rv;
DoNotifyListener();
// Blow away cache entry if we couldn't process the redirect
// for some reason (the cache entry might be corrupt).
if (mCacheEntry) {
mCacheEntry->AsyncDoom(nullptr);
}
}
else {
DoNotifyListener();
}
}
CloseCacheEntry(false);
mIsPending = false;
if (mLoadGroup)
mLoadGroup->RemoveRequest(this, nullptr, mStatus);
return NS_OK;
}
void
nsHttpChannel::HandleAsyncNotModified()
{
NS_PRECONDITION(!mCallOnResume, "How did that happen?");
if (mSuspendCount) {
LOG(("Waiting until resume to do async not-modified [this=%p]\n",
this));
mCallOnResume = &nsHttpChannel::HandleAsyncNotModified;
return;
}
LOG(("nsHttpChannel::HandleAsyncNotModified [this=%p]\n", this));
DoNotifyListener();
CloseCacheEntry(true);
mIsPending = false;
if (mLoadGroup)
mLoadGroup->RemoveRequest(this, nullptr, mStatus);
}
void
nsHttpChannel::HandleAsyncFallback()
{
NS_PRECONDITION(!mCallOnResume, "How did that happen?");
if (mSuspendCount) {
LOG(("Waiting until resume to do async fallback [this=%p]\n", this));
mCallOnResume = &nsHttpChannel::HandleAsyncFallback;
return;
}
nsresult rv = NS_OK;
LOG(("nsHttpChannel::HandleAsyncFallback [this=%p]\n", this));
// since this event is handled asynchronously, it is possible that this
// channel could have been canceled, in which case there would be no point
// in processing the fallback.
if (!mCanceled) {
PushRedirectAsyncFunc(&nsHttpChannel::ContinueHandleAsyncFallback);
bool waitingForRedirectCallback;
rv = ProcessFallback(&waitingForRedirectCallback);
if (waitingForRedirectCallback)
return;
PopRedirectAsyncFunc(&nsHttpChannel::ContinueHandleAsyncFallback);
}
ContinueHandleAsyncFallback(rv);
}
nsresult
nsHttpChannel::ContinueHandleAsyncFallback(nsresult rv)
{
if (!mCanceled && (NS_FAILED(rv) || !mFallingBack)) {
// If ProcessFallback fails, then we have to send out the
// OnStart/OnStop notifications.
LOG(("ProcessFallback failed [rv=%x, %d]\n", rv, mFallingBack));
mStatus = NS_FAILED(rv) ? rv : NS_ERROR_DOCUMENT_NOT_CACHED;
DoNotifyListener();
}
mIsPending = false;
if (mLoadGroup)
mLoadGroup->RemoveRequest(this, nullptr, mStatus);
return rv;
}
void
nsHttpChannel::SetupTransactionSchedulingContext()
{
if (!EnsureSchedulingContextID()) {
return;
}
nsISchedulingContextService *scsvc =
gHttpHandler->GetSchedulingContextService();
if (!scsvc) {
return;
}
nsCOMPtr<nsISchedulingContext> sc;
nsresult rv = scsvc->GetSchedulingContext(mSchedulingContextID,
getter_AddRefs(sc));
if (NS_FAILED(rv)) {
return;
}
mTransaction->SetSchedulingContext(sc);
}
static bool
SafeForPipelining(nsHttpRequestHead::ParsedMethodType method,
const nsCString &methodString)
{
if (method == nsHttpRequestHead::kMethod_Get ||
method == nsHttpRequestHead::kMethod_Head ||
method == nsHttpRequestHead::kMethod_Options) {
return true;
}
if (method != nsHttpRequestHead::kMethod_Custom) {
return false;
}
return (!strcmp(methodString.get(), "PROPFIND") ||
!strcmp(methodString.get(), "PROPPATCH"));
}
nsresult
nsHttpChannel::SetupTransaction()
{
LOG(("nsHttpChannel::SetupTransaction [this=%p]\n", this));
NS_ENSURE_TRUE(!mTransaction, NS_ERROR_ALREADY_INITIALIZED);
nsresult rv;
if (mCaps & NS_HTTP_ALLOW_PIPELINING) {
//
// disable pipelining if:
// (1) pipelining has been disabled by config
// (2) pipelining has been disabled by connection mgr info
// (3) request corresponds to a top-level document load (link click)
// (4) request method is non-idempotent
// (5) request is marked slow (e.g XHR)
//
if (!mAllowPipelining ||
(mLoadFlags & (LOAD_INITIAL_DOCUMENT_URI | INHIBIT_PIPELINE)) ||
!SafeForPipelining(mRequestHead.ParsedMethod(), mRequestHead.Method())) {
LOG((" pipelining disallowed\n"));
mCaps &= ~NS_HTTP_ALLOW_PIPELINING;
}
}
if (!mAllowSpdy)
mCaps |= NS_HTTP_DISALLOW_SPDY;
// Use the URI path if not proxying (transparent proxying such as proxy
// CONNECT does not count here). Also figure out what HTTP version to use.
nsAutoCString buf, path;
nsCString* requestURI;
// This is the normal e2e H1 path syntax "/index.html"
rv = mURI->GetPath(path);
if (NS_FAILED(rv)) {
return rv;
}
// path may contain UTF-8 characters, so ensure that they're escaped.
if (NS_EscapeURL(path.get(), path.Length(), esc_OnlyNonASCII, buf)) {
requestURI = &buf;
} else {
requestURI = &path;
}
// trim off the #ref portion if any...
int32_t ref = requestURI->FindChar('#');
if (ref != kNotFound) {
requestURI->SetLength(ref);
}
if (mConnectionInfo->UsingConnect() || !mConnectionInfo->UsingHttpProxy()) {
mRequestHead.SetVersion(gHttpHandler->HttpVersion());
}
else {
mRequestHead.SetPath(*requestURI);
// RequestURI should be the absolute uri H1 proxy syntax "http://foo/index.html"
// so we will overwrite the relative version in requestURI
rv = mURI->GetUserPass(buf);
if (NS_FAILED(rv)) return rv;
if (!buf.IsEmpty() && ((strncmp(mSpec.get(), "http:", 5) == 0) ||
strncmp(mSpec.get(), "https:", 6) == 0)) {
nsCOMPtr<nsIURI> tempURI;
rv = mURI->Clone(getter_AddRefs(tempURI));
if (NS_FAILED(rv)) return rv;
rv = tempURI->SetUserPass(EmptyCString());
if (NS_FAILED(rv)) return rv;
rv = tempURI->GetAsciiSpec(path);
if (NS_FAILED(rv)) return rv;
requestURI = &path;
} else {
requestURI = &mSpec;
}
// trim off the #ref portion if any...
int32_t ref = requestURI->FindChar('#');
if (ref != kNotFound) {
requestURI->SetLength(ref);
}
mRequestHead.SetVersion(gHttpHandler->ProxyHttpVersion());
}
mRequestHead.SetRequestURI(*requestURI);
// set the request time for cache expiration calculations
mRequestTime = NowInSeconds();
mRequestTimeInitialized = true;
// if doing a reload, force end-to-end
if (mLoadFlags & LOAD_BYPASS_CACHE) {
// We need to send 'Pragma:no-cache' to inhibit proxy caching even if
// no proxy is configured since we might be talking with a transparent
// proxy, i.e. one that operates at the network level. See bug #14772.
mRequestHead.SetHeaderOnce(nsHttp::Pragma, "no-cache", true);
// If we're configured to speak HTTP/1.1 then also send 'Cache-control:
// no-cache'
if (mRequestHead.Version() >= NS_HTTP_VERSION_1_1)
mRequestHead.SetHeaderOnce(nsHttp::Cache_Control, "no-cache", true);
}
else if ((mLoadFlags & VALIDATE_ALWAYS) && !mCacheEntryIsWriteOnly) {
// We need to send 'Cache-Control: max-age=0' to force each cache along
// the path to the origin server to revalidate its own entry, if any,
// with the next cache or server. See bug #84847.
//
// If we're configured to speak HTTP/1.0 then just send 'Pragma: no-cache'
if (mRequestHead.Version() >= NS_HTTP_VERSION_1_1)
mRequestHead.SetHeaderOnce(nsHttp::Cache_Control, "max-age=0", true);
else
mRequestHead.SetHeaderOnce(nsHttp::Pragma, "no-cache", true);
}
if (mResuming) {
char byteRange[32];
PR_snprintf(byteRange, sizeof(byteRange), "bytes=%llu-", mStartPos);
mRequestHead.SetHeader(nsHttp::Range, nsDependentCString(byteRange));
if (!mEntityID.IsEmpty()) {
// Also, we want an error if this resource changed in the meantime
// Format of the entity id is: escaped_etag/size/lastmod
nsCString::const_iterator start, end, slash;
mEntityID.BeginReading(start);
mEntityID.EndReading(end);
mEntityID.BeginReading(slash);
if (FindCharInReadable('/', slash, end)) {
nsAutoCString ifMatch;
mRequestHead.SetHeader(nsHttp::If_Match,
NS_UnescapeURL(Substring(start, slash), 0, ifMatch));
++slash; // Incrementing, so that searching for '/' won't find
// the same slash again
}
if (FindCharInReadable('/', slash, end)) {
mRequestHead.SetHeader(nsHttp::If_Unmodified_Since,
Substring(++slash, end));
}
}
}
// create wrapper for this channel's notification callbacks
nsCOMPtr<nsIInterfaceRequestor> callbacks;
NS_NewNotificationCallbacksAggregation(mCallbacks, mLoadGroup,
getter_AddRefs(callbacks));
// create the transaction object
mTransaction = new nsHttpTransaction();
LOG(("nsHttpChannel %p created nsHttpTransaction %p\n", this, mTransaction.get()));
// See bug #466080. Transfer LOAD_ANONYMOUS flag to socket-layer.
if (mLoadFlags & LOAD_ANONYMOUS)
mCaps |= NS_HTTP_LOAD_ANONYMOUS;
if (mTimingEnabled)
mCaps |= NS_HTTP_TIMING_ENABLED;
if (mUpgradeProtocolCallback) {
mRequestHead.SetHeader(nsHttp::Upgrade, mUpgradeProtocol, false);
mRequestHead.SetHeaderOnce(nsHttp::Connection,
nsHttp::Upgrade.get(),
true);
mCaps |= NS_HTTP_STICKY_CONNECTION;
mCaps &= ~NS_HTTP_ALLOW_PIPELINING;
mCaps &= ~NS_HTTP_ALLOW_KEEPALIVE;
mCaps |= NS_HTTP_DISALLOW_SPDY;
}
if (mPushedStream) {
mTransaction->SetPushedStream(mPushedStream);
mPushedStream = nullptr;
}
nsCOMPtr<nsIHttpPushListener> pushListener;
NS_QueryNotificationCallbacks(mCallbacks,
mLoadGroup,
NS_GET_IID(nsIHttpPushListener),
getter_AddRefs(pushListener));
if (pushListener) {
mCaps |= NS_HTTP_ONPUSH_LISTENER;
}
nsCOMPtr<nsIAsyncInputStream> responseStream;
rv = mTransaction->Init(mCaps, mConnectionInfo, &mRequestHead,
mUploadStream, mUploadStreamHasHeaders,
NS_GetCurrentThread(), callbacks, this,
getter_AddRefs(responseStream));
if (NS_FAILED(rv)) {
mTransaction = nullptr;
return rv;
}
mTransaction->SetClassOfService(mClassOfService);
SetupTransactionSchedulingContext();
rv = nsInputStreamPump::Create(getter_AddRefs(mTransactionPump),
responseStream);
return rv;
}
// NOTE: This function duplicates code from nsBaseChannel. This will go away
// once HTTP uses nsBaseChannel (part of bug 312760)
static void
CallTypeSniffers(void *aClosure, const uint8_t *aData, uint32_t aCount)
{
nsIChannel *chan = static_cast<nsIChannel*>(aClosure);
nsAutoCString newType;
NS_SniffContent(NS_CONTENT_SNIFFER_CATEGORY, chan, aData, aCount, newType);
if (!newType.IsEmpty()) {
chan->SetContentType(newType);
}
}
nsresult
nsHttpChannel::CallOnStartRequest()
{
MOZ_RELEASE_ASSERT(!(mRequireCORSPreflight &&
mInterceptCache != INTERCEPTED) ||
mIsCorsPreflightDone,
"CORS preflight must have been finished by the time we "
"call OnStartRequest");
nsresult rv;
mTracingEnabled = false;
// Allow consumers to override our content type
if (mLoadFlags & LOAD_CALL_CONTENT_SNIFFERS) {
// NOTE: We can have both a txn pump and a cache pump when the cache
// content is partial. In that case, we need to read from the cache,
// because that's the one that has the initial contents. If that fails
// then give the transaction pump a shot.
nsIChannel* thisChannel = static_cast<nsIChannel*>(this);
bool typeSniffersCalled = false;
if (mCachePump) {
typeSniffersCalled =
NS_SUCCEEDED(mCachePump->PeekStream(CallTypeSniffers, thisChannel));
}
if (!typeSniffersCalled && mTransactionPump) {
mTransactionPump->PeekStream(CallTypeSniffers, thisChannel);
}
}
bool unknownDecoderStarted = false;
if (mResponseHead && mResponseHead->ContentType().IsEmpty()) {
MOZ_ASSERT(mConnectionInfo, "Should have connection info here");
if (!mContentTypeHint.IsEmpty())
mResponseHead->SetContentType(mContentTypeHint);
else if (mResponseHead->Version() == NS_HTTP_VERSION_0_9 &&
mConnectionInfo->OriginPort() != mConnectionInfo->DefaultPort())
mResponseHead->SetContentType(NS_LITERAL_CSTRING(TEXT_PLAIN));
else {
// Uh-oh. We had better find out what type we are!
nsCOMPtr<nsIStreamConverterService> serv;
rv = gHttpHandler->
GetStreamConverterService(getter_AddRefs(serv));
// If we failed, we just fall through to the "normal" case
if (NS_SUCCEEDED(rv)) {
nsCOMPtr<nsIStreamListener> converter;
rv = serv->AsyncConvertData(UNKNOWN_CONTENT_TYPE,
"*/*",
mListener,
mListenerContext,
getter_AddRefs(converter));
if (NS_SUCCEEDED(rv)) {
mListener = converter;
unknownDecoderStarted = true;
}
}
}
}
if (mResponseHead && mResponseHead->ContentCharset().IsEmpty())
mResponseHead->SetContentCharset(mContentCharsetHint);
if (mResponseHead && mCacheEntry) {
// If we have a cache entry, set its predicted size to TotalEntitySize to
// avoid caching an entry that will exceed the max size limit.
rv = mCacheEntry->SetPredictedDataSize(
mResponseHead->TotalEntitySize());
if (NS_ERROR_FILE_TOO_BIG == rv) {
// Don't throw the entry away, we will need it later.
LOG((" entry too big"));
} else {
NS_ENSURE_SUCCESS(rv, rv);
}
}
LOG((" calling mListener->OnStartRequest\n"));
if (mListener) {
NS_ASSERTION(!mOnStartRequestCalled,
"We should not call OsStartRequest twice");
if (mOnStartRequestCalled) return NS_OK;
rv = mListener->OnStartRequest(this, mListenerContext);
mOnStartRequestCalled = true;
if (NS_FAILED(rv))
return rv;
} else {
NS_WARNING("OnStartRequest skipped because of null listener");
}
// Install stream converter if required.
// If we use unknownDecoder, stream converters will be installed later (in
// nsUnknownDecoder) after OnStartRequest is called for the real listener.
if (!unknownDecoderStarted) {
nsCOMPtr<nsIStreamListener> listener;
nsISupports *ctxt = mListenerContext;
rv = DoApplyContentConversions(mListener, getter_AddRefs(listener), ctxt);
if (NS_FAILED(rv)) {
return rv;
}
if (listener) {
mListener = listener;
mCompressListener = listener;
}
}
rv = EnsureAssocReq();
if (NS_FAILED(rv))
return rv;
// if this channel is for a download, close off access to the cache.
if (mCacheEntry && mChannelIsForDownload) {
mCacheEntry->AsyncDoom(nullptr);
// We must keep the cache entry in case of partial request.
// Concurrent access is the same, we need the entry in
// OnStopRequest.
if (!mCachedContentIsPartial && !mConcurentCacheAccess)
CloseCacheEntry(false);
}
if (!mCanceled) {
// create offline cache entry if offline caching was requested
if (ShouldUpdateOfflineCacheEntry()) {
LOG(("writing to the offline cache"));
rv = InitOfflineCacheEntry();
if (NS_FAILED(rv)) return rv;
// InitOfflineCacheEntry may have closed mOfflineCacheEntry
if (mOfflineCacheEntry) {
rv = InstallOfflineCacheListener();
if (NS_FAILED(rv)) return rv;
}
} else if (mApplicationCacheForWrite) {
LOG(("offline cache is up to date, not updating"));
CloseOfflineCacheEntry();
}
}
return NS_OK;
}
nsresult
nsHttpChannel::ProcessFailedProxyConnect(uint32_t httpStatus)
{
// Failure to set up a proxy tunnel via CONNECT means one of the following:
// 1) Proxy wants authorization, or forbids.
// 2) DNS at proxy couldn't resolve target URL.
// 3) Proxy connection to target failed or timed out.
// 4) Eve intercepted our CONNECT, and is replying with malicious HTML.
//
// Our current architecture would parse the proxy's response content with
// the permission of the target URL. Given #4, we must avoid rendering the
// body of the reply, and instead give the user a (hopefully helpful)
// boilerplate error page, based on just the HTTP status of the reply.
MOZ_ASSERT(mConnectionInfo->UsingConnect(),
"proxy connect failed but not using CONNECT?");
nsresult rv;
switch (httpStatus)
{
case 300: case 301: case 302: case 303: case 307: case 308:
// Bad redirect: not top-level, or it's a POST, bad/missing Location,
// or ProcessRedirect() failed for some other reason. Legal
// redirects that fail because site not available, etc., are handled
// elsewhere, in the regular codepath.
rv = NS_ERROR_CONNECTION_REFUSED;
break;
case 403: // HTTP/1.1: "Forbidden"
case 407: // ProcessAuthentication() failed
case 501: // HTTP/1.1: "Not Implemented"
// user sees boilerplate Mozilla "Proxy Refused Connection" page.
rv = NS_ERROR_PROXY_CONNECTION_REFUSED;
break;
// Squid sends 404 if DNS fails (regular 404 from target is tunneled)
case 404: // HTTP/1.1: "Not Found"
// RFC 2616: "some deployed proxies are known to return 400 or 500 when
// DNS lookups time out." (Squid uses 500 if it runs out of sockets: so
// we have a conflict here).
case 400: // HTTP/1.1 "Bad Request"
case 500: // HTTP/1.1: "Internal Server Error"
/* User sees: "Address Not Found: Firefox can't find the server at
* www.foo.com."
*/
rv = NS_ERROR_UNKNOWN_HOST;
break;
case 502: // HTTP/1.1: "Bad Gateway" (invalid resp from target server)
// Squid returns 503 if target request fails for anything but DNS.
case 503: // HTTP/1.1: "Service Unavailable"
/* User sees: "Failed to Connect:
* Firefox can't establish a connection to the server at
* www.foo.com. Though the site seems valid, the browser
* was unable to establish a connection."
*/
rv = NS_ERROR_CONNECTION_REFUSED;
break;
// RFC 2616 uses 504 for both DNS and target timeout, so not clear what to
// do here: picking target timeout, as DNS covered by 400/404/500
case 504: // HTTP/1.1: "Gateway Timeout"
// user sees: "Network Timeout: The server at www.foo.com
// is taking too long to respond."
rv = NS_ERROR_NET_TIMEOUT;
break;
// Confused proxy server or malicious response
default:
rv = NS_ERROR_PROXY_CONNECTION_REFUSED;
break;
}
LOG(("Cancelling failed proxy CONNECT [this=%p httpStatus=%u]\n",
this, httpStatus));
Cancel(rv);
CallOnStartRequest();
return rv;
}
static void
GetSTSConsoleErrorTag(uint32_t failureResult, nsAString& consoleErrorTag)
{
switch (failureResult) {
case nsISiteSecurityService::ERROR_UNTRUSTWORTHY_CONNECTION:
consoleErrorTag = NS_LITERAL_STRING("STSUntrustworthyConnection");
break;
case nsISiteSecurityService::ERROR_COULD_NOT_PARSE_HEADER:
consoleErrorTag = NS_LITERAL_STRING("STSCouldNotParseHeader");
break;
case nsISiteSecurityService::ERROR_NO_MAX_AGE:
consoleErrorTag = NS_LITERAL_STRING("STSNoMaxAge");
break;
case nsISiteSecurityService::ERROR_MULTIPLE_MAX_AGES:
consoleErrorTag = NS_LITERAL_STRING("STSMultipleMaxAges");
break;
case nsISiteSecurityService::ERROR_INVALID_MAX_AGE:
consoleErrorTag = NS_LITERAL_STRING("STSInvalidMaxAge");
break;
case nsISiteSecurityService::ERROR_MULTIPLE_INCLUDE_SUBDOMAINS:
consoleErrorTag = NS_LITERAL_STRING("STSMultipleIncludeSubdomains");
break;
case nsISiteSecurityService::ERROR_INVALID_INCLUDE_SUBDOMAINS:
consoleErrorTag = NS_LITERAL_STRING("STSInvalidIncludeSubdomains");
break;
case nsISiteSecurityService::ERROR_COULD_NOT_SAVE_STATE:
consoleErrorTag = NS_LITERAL_STRING("STSCouldNotSaveState");
break;
default:
consoleErrorTag = NS_LITERAL_STRING("STSUnknownError");
break;
}
}
static void
GetPKPConsoleErrorTag(uint32_t failureResult, nsAString& consoleErrorTag)
{
switch (failureResult) {
case nsISiteSecurityService::ERROR_UNTRUSTWORTHY_CONNECTION:
consoleErrorTag = NS_LITERAL_STRING("PKPUntrustworthyConnection");
break;
case nsISiteSecurityService::ERROR_COULD_NOT_PARSE_HEADER:
consoleErrorTag = NS_LITERAL_STRING("PKPCouldNotParseHeader");
break;
case nsISiteSecurityService::ERROR_NO_MAX_AGE:
consoleErrorTag = NS_LITERAL_STRING("PKPNoMaxAge");
break;
case nsISiteSecurityService::ERROR_MULTIPLE_MAX_AGES:
consoleErrorTag = NS_LITERAL_STRING("PKPMultipleMaxAges");
break;
case nsISiteSecurityService::ERROR_INVALID_MAX_AGE:
consoleErrorTag = NS_LITERAL_STRING("PKPInvalidMaxAge");
break;
case nsISiteSecurityService::ERROR_MULTIPLE_INCLUDE_SUBDOMAINS:
consoleErrorTag = NS_LITERAL_STRING("PKPMultipleIncludeSubdomains");
break;
case nsISiteSecurityService::ERROR_INVALID_INCLUDE_SUBDOMAINS:
consoleErrorTag = NS_LITERAL_STRING("PKPInvalidIncludeSubdomains");
break;
case nsISiteSecurityService::ERROR_INVALID_PIN:
consoleErrorTag = NS_LITERAL_STRING("PKPInvalidPin");
break;
case nsISiteSecurityService::ERROR_MULTIPLE_REPORT_URIS:
consoleErrorTag = NS_LITERAL_STRING("PKPMultipleReportURIs");
break;
case nsISiteSecurityService::ERROR_PINSET_DOES_NOT_MATCH_CHAIN:
consoleErrorTag = NS_LITERAL_STRING("PKPPinsetDoesNotMatch");
break;
case nsISiteSecurityService::ERROR_NO_BACKUP_PIN:
consoleErrorTag = NS_LITERAL_STRING("PKPNoBackupPin");
break;
case nsISiteSecurityService::ERROR_COULD_NOT_SAVE_STATE:
consoleErrorTag = NS_LITERAL_STRING("PKPCouldNotSaveState");
break;
case nsISiteSecurityService::ERROR_ROOT_NOT_BUILT_IN:
consoleErrorTag = NS_LITERAL_STRING("PKPRootNotBuiltIn");
break;
default:
consoleErrorTag = NS_LITERAL_STRING("PKPUnknownError");
break;
}
}
/**
* Process a single security header. Only two types are supported: HSTS and HPKP.
*/
nsresult
nsHttpChannel::ProcessSingleSecurityHeader(uint32_t aType,
nsISSLStatus *aSSLStatus,
uint32_t aFlags)
{
nsHttpAtom atom;
switch (aType) {
case nsISiteSecurityService::HEADER_HSTS:
atom = nsHttp::ResolveAtom("Strict-Transport-Security");
break;
case nsISiteSecurityService::HEADER_HPKP:
atom = nsHttp::ResolveAtom("Public-Key-Pins");
break;
default:
NS_NOTREACHED("Invalid security header type");
return NS_ERROR_FAILURE;
}
nsAutoCString securityHeader;
nsresult rv = mResponseHead->GetHeader(atom, securityHeader);
if (NS_SUCCEEDED(rv)) {
nsISiteSecurityService* sss = gHttpHandler->GetSSService();
NS_ENSURE_TRUE(sss, NS_ERROR_OUT_OF_MEMORY);
// Process header will now discard the headers itself if the channel
// wasn't secure (whereas before it had to be checked manually)
uint32_t failureResult;
rv = sss->ProcessHeader(aType, mURI, securityHeader.get(), aSSLStatus,
aFlags, nullptr, nullptr, &failureResult);
if (NS_FAILED(rv)) {
nsAutoString consoleErrorCategory;
nsAutoString consoleErrorTag;
switch (aType) {
case nsISiteSecurityService::HEADER_HSTS:
GetSTSConsoleErrorTag(failureResult, consoleErrorTag);
consoleErrorCategory = NS_LITERAL_STRING("Invalid HSTS Headers");
break;
case nsISiteSecurityService::HEADER_HPKP:
GetPKPConsoleErrorTag(failureResult, consoleErrorTag);
consoleErrorCategory = NS_LITERAL_STRING("Invalid HPKP Headers");
break;
default:
return NS_ERROR_FAILURE;
}
AddSecurityMessage(consoleErrorTag, consoleErrorCategory);
LOG(("nsHttpChannel: Failed to parse %s header, continuing load.\n",
atom.get()));
}
} else {
if (rv != NS_ERROR_NOT_AVAILABLE) {
// All other errors are fatal
NS_ENSURE_SUCCESS(rv, rv);
}
LOG(("nsHttpChannel: No %s header, continuing load.\n",
atom.get()));
}
return NS_OK;
}
/**
* Decide whether or not to remember Strict-Transport-Security, and whether
* or not to enforce channel integrity.
*
* @return NS_ERROR_FAILURE if there's security information missing even though
* it's an HTTPS connection.
*/
nsresult
nsHttpChannel::ProcessSecurityHeaders()
{
nsresult rv;
bool isHttps = false;
rv = mURI->SchemeIs("https", &isHttps);
NS_ENSURE_SUCCESS(rv, rv);
// If this channel is not loading securely, STS or PKP doesn't do anything.
// In the case of HSTS, the upgrade to HTTPS takes place earlier in the
// channel load process.
if (!isHttps)
return NS_OK;
nsAutoCString asciiHost;
rv = mURI->GetAsciiHost(asciiHost);
NS_ENSURE_SUCCESS(rv, NS_OK);
// If the channel is not a hostname, but rather an IP, do not process STS
// or PKP headers
PRNetAddr hostAddr;
if (PR_SUCCESS == PR_StringToNetAddr(asciiHost.get(), &hostAddr))
return NS_OK;
// mSecurityInfo may not always be present, and if it's not then it is okay
// to just disregard any security headers since we know nothing about the
// security of the connection.
NS_ENSURE_TRUE(mSecurityInfo, NS_OK);
uint32_t flags =
NS_UsePrivateBrowsing(this) ? nsISocketProvider::NO_PERMANENT_STORAGE : 0;
// Get the SSLStatus
nsCOMPtr<nsISSLStatusProvider> sslprov = do_QueryInterface(mSecurityInfo);
NS_ENSURE_TRUE(sslprov, NS_ERROR_FAILURE);
nsCOMPtr<nsISSLStatus> sslStatus;
rv = sslprov->GetSSLStatus(getter_AddRefs(sslStatus));
NS_ENSURE_SUCCESS(rv, rv);
NS_ENSURE_TRUE(sslStatus, NS_ERROR_FAILURE);
rv = ProcessSingleSecurityHeader(nsISiteSecurityService::HEADER_HSTS,
sslStatus, flags);
NS_ENSURE_SUCCESS(rv, rv);
rv = ProcessSingleSecurityHeader(nsISiteSecurityService::HEADER_HPKP,
sslStatus, flags);
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
bool
nsHttpChannel::IsHTTPS()
{
bool isHttps;
if (NS_FAILED(mURI->SchemeIs("https", &isHttps)) || !isHttps)
return false;
return true;
}
void
nsHttpChannel::ProcessSSLInformation()
{
// If this is HTTPS, record any use of RSA so that Key Exchange Algorithm
// can be whitelisted for TLS False Start in future sessions. We could
// do the same for DH but its rarity doesn't justify the lookup.
if (mCanceled || NS_FAILED(mStatus) || !mSecurityInfo ||
!IsHTTPS() || mPrivateBrowsing)
return;
nsCOMPtr<nsISSLStatusProvider> statusProvider =
do_QueryInterface(mSecurityInfo);
if (!statusProvider)
return;
nsCOMPtr<nsISSLStatus> sslstat;
statusProvider->GetSSLStatus(getter_AddRefs(sslstat));
if (!sslstat)
return;
nsCOMPtr<nsITransportSecurityInfo> securityInfo =
do_QueryInterface(mSecurityInfo);
uint32_t state;
if (securityInfo &&
NS_SUCCEEDED(securityInfo->GetSecurityState(&state)) &&
(state & nsIWebProgressListener::STATE_IS_BROKEN)) {
// Send weak crypto warnings to the web console
if (state & nsIWebProgressListener::STATE_USES_WEAK_CRYPTO) {
nsString consoleErrorTag = NS_LITERAL_STRING("WeakCipherSuiteWarning");
nsString consoleErrorCategory = NS_LITERAL_STRING("SSL");
AddSecurityMessage(consoleErrorTag, consoleErrorCategory);
}
}
// Send (SHA-1) signature algorithm errors to the web console
nsCOMPtr<nsIX509Cert> cert;
sslstat->GetServerCert(getter_AddRefs(cert));
if (cert) {
ScopedCERTCertificate nssCert(cert->GetCert());
if (nssCert) {
SECOidTag tag = SECOID_GetAlgorithmTag(&nssCert->signature);
LOG(("Checking certificate signature: The OID tag is %i [this=%p]\n", tag, this));
// Check to see if the signature is sha-1 based.
// Not including checks for SEC_OID_ISO_SHA1_WITH_RSA_SIGNATURE
// from http://tools.ietf.org/html/rfc2437#section-8 since I
// can't see reference to it outside this spec
if (tag == SEC_OID_PKCS1_SHA1_WITH_RSA_ENCRYPTION ||
tag == SEC_OID_ANSIX9_DSA_SIGNATURE_WITH_SHA1_DIGEST ||
tag == SEC_OID_ANSIX962_ECDSA_SHA1_SIGNATURE) {
nsString consoleErrorTag = NS_LITERAL_STRING("SHA1Sig");
nsString consoleErrorMessage
= NS_LITERAL_STRING("SHA-1 Signature");
AddSecurityMessage(consoleErrorTag, consoleErrorMessage);
}
}
}
}
void
nsHttpChannel::ProcessAltService()
{
// e.g. Alt-Svc: h2=":443"; ma=60
// e.g. Alt-Svc: h2="otherhost:443"
// Alt-Svc = 1#( alternative *( OWS ";" OWS parameter ) )
// alternative = protocol-id "=" alt-authority
// protocol-id = token ; percent-encoded ALPN protocol identifier
// alt-authority = quoted-string ; containing [ uri-host ] ":" port
if (!mAllowAltSvc) { // per channel opt out
return;
}
if (!gHttpHandler->AllowAltSvc() || (mCaps & NS_HTTP_DISALLOW_SPDY)) {
return;
}
nsAutoCString scheme;
mURI->GetScheme(scheme);
bool isHttp = scheme.Equals(NS_LITERAL_CSTRING("http"));
if (!isHttp && !scheme.Equals(NS_LITERAL_CSTRING("https"))) {
return;
}
const char *altSvc;
if (!(altSvc = mResponseHead->PeekHeader(nsHttp::Alternate_Service))) {
return;
}
nsCString buf(altSvc);
if (!nsHttp::IsReasonableHeaderValue(buf)) {
LOG(("Alt-Svc Response Header seems unreasonable - skipping\n"));
return;
}
nsAutoCString originHost;
int32_t originPort = 80;
mURI->GetPort(&originPort);
if (NS_FAILED(mURI->GetHost(originHost))) {
return;
}
nsCOMPtr<nsIInterfaceRequestor> callbacks;
nsCOMPtr<nsProxyInfo> proxyInfo;
NS_NewNotificationCallbacksAggregation(mCallbacks, mLoadGroup,
getter_AddRefs(callbacks));
if (mProxyInfo) {
proxyInfo = do_QueryInterface(mProxyInfo);
}
AltSvcMapping::ProcessHeader(buf, scheme, originHost, originPort,
mUsername, mPrivateBrowsing, callbacks, proxyInfo,
mCaps & NS_HTTP_DISALLOW_SPDY);
}
nsresult
nsHttpChannel::ProcessResponse()
{
nsresult rv;
uint32_t httpStatus = mResponseHead->Status();
// do some telemetry
if (gHttpHandler->IsTelemetryEnabled()) {
// Gather data on whether the transaction and page (if this is
// the initial page load) is being loaded with SSL.
Telemetry::Accumulate(Telemetry::HTTP_TRANSACTION_IS_SSL,
mConnectionInfo->EndToEndSSL());
if (mLoadFlags & LOAD_INITIAL_DOCUMENT_URI) {
Telemetry::Accumulate(Telemetry::HTTP_PAGELOAD_IS_SSL,
mConnectionInfo->EndToEndSSL());
}
// how often do we see something like Alternate-Protocol: "443:quic,p=1"
const char *alt_protocol = mResponseHead->PeekHeader(nsHttp::Alternate_Protocol);
bool saw_quic = (alt_protocol && PL_strstr(alt_protocol, "quic")) ? 1 : 0;
Telemetry::Accumulate(Telemetry::HTTP_SAW_QUIC_ALT_PROTOCOL, saw_quic);
}
LOG(("nsHttpChannel::ProcessResponse [this=%p httpStatus=%u]\n",
this, httpStatus));
if (mTransaction->ProxyConnectFailed()) {
// Only allow 407 (authentication required) to continue
if (httpStatus != 407)
return ProcessFailedProxyConnect(httpStatus);
// If proxy CONNECT response needs to complete, wait to process connection
// for Strict-Transport-Security.
} else {
// Given a successful connection, process any STS or PKP data that's
// relevant.
rv = ProcessSecurityHeaders();
MOZ_ASSERT(NS_SUCCEEDED(rv), "ProcessSTSHeader failed, continuing load.");
}
MOZ_ASSERT(!mCachedContentIsValid);
ProcessSSLInformation();
// notify "http-on-examine-response" observers
gHttpHandler->OnExamineResponse(this);
// Cookies and Alt-Service should not be handled on proxy failure either.
// This would be consolidated with ProcessSecurityHeaders but it should
// happen after OnExamineResponse.
if (!mTransaction->ProxyConnectFailed() && (httpStatus != 407)) {
SetCookie(mResponseHead->PeekHeader(nsHttp::Set_Cookie));
if ((httpStatus < 500) && (httpStatus != 421)) {
ProcessAltService();
}
}
// handle unused username and password in url (see bug 232567)
if (httpStatus != 401 && httpStatus != 407) {
if (!mAuthRetryPending)
mAuthProvider->CheckForSuperfluousAuth();
if (mCanceled)
return CallOnStartRequest();
// reset the authentication's current continuation state because our
// last authentication attempt has been completed successfully
mAuthProvider->Disconnect(NS_ERROR_ABORT);
mAuthProvider = nullptr;
LOG((" continuation state has been reset"));
}
bool successfulReval = false;
// handle different server response categories. Note that we handle
// caching or not caching of error pages in
// nsHttpResponseHead::MustValidate; if you change this switch, update that
// one
switch (httpStatus) {
case 200:
case 203:
// Per RFC 2616, 14.35.2, "A server MAY ignore the Range header".
// So if a server does that and sends 200 instead of 206 that we
// expect, notify our caller.
// However, if we wanted to start from the beginning, let it go through
if (mResuming && mStartPos != 0) {
LOG(("Server ignored our Range header, cancelling [this=%p]\n", this));
Cancel(NS_ERROR_NOT_RESUMABLE);
rv = CallOnStartRequest();
break;
}
// these can normally be cached
rv = ProcessNormal();
MaybeInvalidateCacheEntryForSubsequentGet();
break;
case 206:
if (mCachedContentIsPartial) // an internal byte range request...
rv = ProcessPartialContent();
else {
mCacheInputStream.CloseAndRelease();
rv = ProcessNormal();
}
break;
case 300:
case 301:
case 302:
case 307:
case 308:
case 303:
#if 0
case 305: // disabled as a security measure (see bug 187996).
#endif
// don't store the response body for redirects
MaybeInvalidateCacheEntryForSubsequentGet();
PushRedirectAsyncFunc(&nsHttpChannel::ContinueProcessResponse);
rv = AsyncProcessRedirection(httpStatus);
if (NS_FAILED(rv)) {
PopRedirectAsyncFunc(&nsHttpChannel::ContinueProcessResponse);
LOG(("AsyncProcessRedirection failed [rv=%x]\n", rv));
// don't cache failed redirect responses.
if (mCacheEntry)
mCacheEntry->AsyncDoom(nullptr);
if (DoNotRender3xxBody(rv)) {
mStatus = rv;
DoNotifyListener();
} else {
rv = ContinueProcessResponse(rv);
}
}
break;
case 304:
rv = ProcessNotModified();
if (NS_FAILED(rv)) {
LOG(("ProcessNotModified failed [rv=%x]\n", rv));
mCacheInputStream.CloseAndRelease();
rv = ProcessNormal();
}
else {
successfulReval = true;
}
break;
case 401:
case 407:
rv = mAuthProvider->ProcessAuthentication(
httpStatus, mConnectionInfo->EndToEndSSL() &&
mTransaction->ProxyConnectFailed());
if (rv == NS_ERROR_IN_PROGRESS) {
// authentication prompt has been invoked and result
// is expected asynchronously
mAuthRetryPending = true;
if (httpStatus == 407 || mTransaction->ProxyConnectFailed())
mProxyAuthPending = true;
// suspend the transaction pump to stop receiving the
// unauthenticated content data. We will throw that data
// away when user provides credentials or resume the pump
// when user refuses to authenticate.
LOG(("Suspending the transaction, asynchronously prompting for credentials"));
mTransactionPump->Suspend();
rv = NS_OK;
}
else if (NS_FAILED(rv)) {
LOG(("ProcessAuthentication failed [rv=%x]\n", rv));
if (mTransaction->ProxyConnectFailed())
return ProcessFailedProxyConnect(httpStatus);
if (!mAuthRetryPending)
mAuthProvider->CheckForSuperfluousAuth();
rv = ProcessNormal();
}
else
mAuthRetryPending = true; // see DoAuthRetry
break;
default:
rv = ProcessNormal();
MaybeInvalidateCacheEntryForSubsequentGet();
break;
}
CacheDisposition cacheDisposition;
if (!mDidReval)
cacheDisposition = kCacheMissed;
else if (successfulReval)
cacheDisposition = kCacheHitViaReval;
else
cacheDisposition = kCacheMissedViaReval;
AccumulateCacheHitTelemetry(cacheDisposition);
Telemetry::Accumulate(Telemetry::HTTP_RESPONSE_VERSION,
mResponseHead->Version());
#if defined(ANDROID) || defined(MOZ_B2G)
if (gHttpHandler->IsTelemetryEnabled()) {
// Gather telemetry on being sent a WAP content-type
// This check will catch (at least) the following content types:
// application/wml+xml, application/vnd.wap.xhtml+xml,
// text/vnd.wap.wml, application/vnd.wap.wmlc
bool isWap = false;
if (!mResponseHead->ContentType().IsEmpty() && (
mResponseHead->ContentType().Find(".wap") != -1 ||
mResponseHead->ContentType().Find("/wml") != -1)) {
isWap = true;
}
Telemetry::Accumulate(Telemetry::HTTP_WAP_CONTENT_TYPE_RECEIVED, isWap);
}
#endif
return rv;
}
nsresult
nsHttpChannel::ContinueProcessResponse(nsresult rv)
{
bool doNotRender = DoNotRender3xxBody(rv);
if (rv == NS_ERROR_DOM_BAD_URI && mRedirectURI) {
bool isHTTP = false;
if (NS_FAILED(mRedirectURI->SchemeIs("http", &isHTTP)))
isHTTP = false;
if (!isHTTP && NS_FAILED(mRedirectURI->SchemeIs("https", &isHTTP)))
isHTTP = false;
if (!isHTTP) {
// This was a blocked attempt to redirect and subvert the system by
// redirecting to another protocol (perhaps javascript:)
// In that case we want to throw an error instead of displaying the
// non-redirected response body.
LOG(("ContinueProcessResponse detected rejected Non-HTTP Redirection"));
doNotRender = true;
rv = NS_ERROR_CORRUPTED_CONTENT;
}
}
if (doNotRender) {
Cancel(rv);
DoNotifyListener();
return rv;
}
if (NS_SUCCEEDED(rv)) {
UpdateInhibitPersistentCachingFlag();
InitCacheEntry();
CloseCacheEntry(false);
if (mApplicationCacheForWrite) {
// Store response in the offline cache
InitOfflineCacheEntry();
CloseOfflineCacheEntry();
}
return NS_OK;
}
LOG(("ContinueProcessResponse got failure result [rv=%x]\n", rv));
if (mTransaction->ProxyConnectFailed()) {
return ProcessFailedProxyConnect(mRedirectType);
}
return ProcessNormal();
}
nsresult
nsHttpChannel::ProcessNormal()
{
nsresult rv;
LOG(("nsHttpChannel::ProcessNormal [this=%p]\n", this));
bool succeeded;
rv = GetRequestSucceeded(&succeeded);
if (NS_SUCCEEDED(rv) && !succeeded) {
PushRedirectAsyncFunc(&nsHttpChannel::ContinueProcessNormal);
bool waitingForRedirectCallback;
(void)ProcessFallback(&waitingForRedirectCallback);
if (waitingForRedirectCallback) {
// The transaction has been suspended by ProcessFallback.
return NS_OK;
}
PopRedirectAsyncFunc(&nsHttpChannel::ContinueProcessNormal);
}
return ContinueProcessNormal(NS_OK);
}
nsresult
nsHttpChannel::ContinueProcessNormal(nsresult rv)
{
if (NS_FAILED(rv)) {
// Fill the failure status here, we have failed to fall back, thus we
// have to report our status as failed.
mStatus = rv;
DoNotifyListener();
return rv;
}
if (mFallingBack) {
// Do not continue with normal processing, fallback is in
// progress now.
return NS_OK;
}
// if we're here, then any byte-range requests failed to result in a partial
// response. we must clear this flag to prevent BufferPartialContent from
// being called inside our OnDataAvailable (see bug 136678).
mCachedContentIsPartial = false;
ClearBogusContentEncodingIfNeeded();
UpdateInhibitPersistentCachingFlag();
// this must be called before firing OnStartRequest, since http clients,
// such as imagelib, expect our cache entry to already have the correct
// expiration time (bug 87710).
if (mCacheEntry) {
rv = InitCacheEntry();
if (NS_FAILED(rv))
CloseCacheEntry(true);
}
// Check that the server sent us what we were asking for
if (mResuming) {
// Create an entity id from the response
nsAutoCString id;
rv = GetEntityID(id);
if (NS_FAILED(rv)) {
// If creating an entity id is not possible -> error
Cancel(NS_ERROR_NOT_RESUMABLE);
}
else if (mResponseHead->Status() != 206 &&
mResponseHead->Status() != 200) {
// Probably 404 Not Found, 412 Precondition Failed or
// 416 Invalid Range -> error
LOG(("Unexpected response status while resuming, aborting [this=%p]\n",
this));
Cancel(NS_ERROR_ENTITY_CHANGED);
}
// If we were passed an entity id, verify it's equal to the server's
else if (!mEntityID.IsEmpty()) {
if (!mEntityID.Equals(id)) {
LOG(("Entity mismatch, expected '%s', got '%s', aborting [this=%p]",
mEntityID.get(), id.get(), this));
Cancel(NS_ERROR_ENTITY_CHANGED);
}
}
}
rv = CallOnStartRequest();
if (NS_FAILED(rv)) return rv;
// install cache listener if we still have a cache entry open
if (mCacheEntry && !mCacheEntryIsReadOnly) {
rv = InstallCacheListener();
if (NS_FAILED(rv)) return rv;
}
return NS_OK;
}
nsresult
nsHttpChannel::PromptTempRedirect()
{
if (!gHttpHandler->PromptTempRedirect()) {
return NS_OK;
}
nsresult rv;
nsCOMPtr<nsIStringBundleService> bundleService =
do_GetService(NS_STRINGBUNDLE_CONTRACTID, &rv);
if (NS_FAILED(rv)) return rv;
nsCOMPtr<nsIStringBundle> stringBundle;
rv = bundleService->CreateBundle(NECKO_MSGS_URL, getter_AddRefs(stringBundle));
if (NS_FAILED(rv)) return rv;
nsXPIDLString messageString;
rv = stringBundle->GetStringFromName(MOZ_UTF16("RepostFormData"), getter_Copies(messageString));
// GetStringFromName can return NS_OK and nullptr messageString.
if (NS_SUCCEEDED(rv) && messageString) {
bool repost = false;
nsCOMPtr<nsIPrompt> prompt;
GetCallback(prompt);
if (!prompt)
return NS_ERROR_NO_INTERFACE;
prompt->Confirm(nullptr, messageString, &repost);
if (!repost)
return NS_ERROR_FAILURE;
}
return rv;
}
nsresult
nsHttpChannel::ProxyFailover()
{
LOG(("nsHttpChannel::ProxyFailover [this=%p]\n", this));
nsresult rv;
nsCOMPtr<nsIProtocolProxyService> pps =
do_GetService(NS_PROTOCOLPROXYSERVICE_CONTRACTID, &rv);
if (NS_FAILED(rv))
return rv;
nsCOMPtr<nsIProxyInfo> pi;
rv = pps->GetFailoverForProxy(mConnectionInfo->ProxyInfo(), mURI, mStatus,
getter_AddRefs(pi));
if (NS_FAILED(rv))
return rv;
// XXXbz so where does this codepath remove us from the loadgroup,
// exactly?
return AsyncDoReplaceWithProxy(pi);
}
void
nsHttpChannel::HandleAsyncRedirectChannelToHttps()
{
NS_PRECONDITION(!mCallOnResume, "How did that happen?");
if (mSuspendCount) {
LOG(("Waiting until resume to do async redirect to https [this=%p]\n", this));
mCallOnResume = &nsHttpChannel::HandleAsyncRedirectChannelToHttps;
return;
}
nsresult rv = StartRedirectChannelToHttps();
if (NS_FAILED(rv))
ContinueAsyncRedirectChannelToURI(rv);
}
nsresult
nsHttpChannel::StartRedirectChannelToHttps()
{
nsresult rv = NS_OK;
LOG(("nsHttpChannel::HandleAsyncRedirectChannelToHttps() [STS]\n"));
nsCOMPtr<nsIURI> upgradedURI;
rv = mURI->Clone(getter_AddRefs(upgradedURI));
NS_ENSURE_SUCCESS(rv,rv);
upgradedURI->SetScheme(NS_LITERAL_CSTRING("https"));
int32_t oldPort = -1;
rv = mURI->GetPort(&oldPort);
if (NS_FAILED(rv)) return rv;
// Keep any nonstandard ports so only the scheme is changed.
// For example:
// http://foo.com:80 -> https://foo.com:443
// http://foo.com:81 -> https://foo.com:81
if (oldPort == 80 || oldPort == -1)
upgradedURI->SetPort(-1);
else
upgradedURI->SetPort(oldPort);
return StartRedirectChannelToURI(upgradedURI,
nsIChannelEventSink::REDIRECT_PERMANENT |
nsIChannelEventSink::REDIRECT_STS_UPGRADE);
}
void
nsHttpChannel::HandleAsyncAPIRedirect()
{
NS_PRECONDITION(!mCallOnResume, "How did that happen?");
NS_PRECONDITION(mAPIRedirectToURI, "How did that happen?");
if (mSuspendCount) {
LOG(("Waiting until resume to do async API redirect [this=%p]\n", this));
mCallOnResume = &nsHttpChannel::HandleAsyncAPIRedirect;
return;
}
nsresult rv = StartRedirectChannelToURI(mAPIRedirectToURI,
nsIChannelEventSink::REDIRECT_PERMANENT);
if (NS_FAILED(rv))
ContinueAsyncRedirectChannelToURI(rv);
return;
}
nsresult
nsHttpChannel::StartRedirectChannelToURI(nsIURI *upgradedURI, uint32_t flags)
{
nsresult rv = NS_OK;
LOG(("nsHttpChannel::StartRedirectChannelToURI()\n"));
nsCOMPtr<nsIChannel> newChannel;
nsCOMPtr<nsIIOService> ioService;
rv = gHttpHandler->GetIOService(getter_AddRefs(ioService));
NS_ENSURE_SUCCESS(rv, rv);
rv = NS_NewChannelInternal(getter_AddRefs(newChannel),
upgradedURI,
mLoadInfo,
nullptr, // aLoadGroup
nullptr, // aCallbacks
nsIRequest::LOAD_NORMAL,
ioService);
NS_ENSURE_SUCCESS(rv, rv);
rv = SetupReplacementChannel(upgradedURI, newChannel, true, flags);
NS_ENSURE_SUCCESS(rv, rv);
// Inform consumers about this fake redirect
mRedirectChannel = newChannel;
if (!(flags & nsIChannelEventSink::REDIRECT_STS_UPGRADE)) {
// Ensure that internally-redirected channels cannot be intercepted, which would look
// like two separate requests to the nsINetworkInterceptController.
if (mInterceptCache == INTERCEPTED) {
nsCOMPtr<nsIHttpChannelInternal> httpRedirect = do_QueryInterface(mRedirectChannel);
if (httpRedirect) {
httpRedirect->ForceIntercepted(mInterceptionID);
}
} else {
nsLoadFlags loadFlags = nsIRequest::LOAD_NORMAL;
rv = mRedirectChannel->GetLoadFlags(&loadFlags);
NS_ENSURE_SUCCESS(rv, rv);
loadFlags |= nsIChannel::LOAD_BYPASS_SERVICE_WORKER;
rv = mRedirectChannel->SetLoadFlags(loadFlags);
NS_ENSURE_SUCCESS(rv, rv);
}
}
PushRedirectAsyncFunc(
&nsHttpChannel::ContinueAsyncRedirectChannelToURI);
rv = gHttpHandler->AsyncOnChannelRedirect(this, newChannel, flags);
if (NS_SUCCEEDED(rv))
rv = WaitForRedirectCallback();
if (NS_FAILED(rv)) {
AutoRedirectVetoNotifier notifier(this);
/* Remove the async call to ContinueAsyncRedirectChannelToURI().
* It is called directly by our callers upon return (to clean up
* the failed redirect). */
PopRedirectAsyncFunc(
&nsHttpChannel::ContinueAsyncRedirectChannelToURI);
}
return rv;
}
nsresult
nsHttpChannel::ContinueAsyncRedirectChannelToURI(nsresult rv)
{
if (NS_SUCCEEDED(rv))
rv = OpenRedirectChannel(rv);
if (NS_FAILED(rv)) {
// Fill the failure status here, the update to https had been vetoed
// but from the security reasons we have to discard the whole channel
// load.
mStatus = rv;
}
if (mLoadGroup)
mLoadGroup->RemoveRequest(this, nullptr, mStatus);
if (NS_FAILED(rv)) {
// We have to manually notify the listener because there is not any pump
// that would call our OnStart/StopRequest after resume from waiting for
// the redirect callback.
DoNotifyListener();
}
return rv;
}
nsresult
nsHttpChannel::OpenRedirectChannel(nsresult rv)
{
AutoRedirectVetoNotifier notifier(this);
// Make sure to do this _after_ calling OnChannelRedirect
mRedirectChannel->SetOriginalURI(mOriginalURI);
// And now, notify observers the deprecated way
nsCOMPtr<nsIHttpEventSink> httpEventSink;
GetCallback(httpEventSink);
if (httpEventSink) {
// NOTE: nsIHttpEventSink is only used for compatibility with pre-1.8
// versions.
rv = httpEventSink->OnRedirect(this, mRedirectChannel);
if (NS_FAILED(rv)) {
return rv;
}
}
// open new channel
if (mLoadInfo && mLoadInfo->GetEnforceSecurity()) {
MOZ_ASSERT(!mListenerContext, "mListenerContext should be null!");
rv = mRedirectChannel->AsyncOpen2(mListener);
}
else {
rv = mRedirectChannel->AsyncOpen(mListener, mListenerContext);
}
NS_ENSURE_SUCCESS(rv, rv);
mStatus = NS_BINDING_REDIRECTED;
notifier.RedirectSucceeded();
ReleaseListeners();
return NS_OK;
}
nsresult
nsHttpChannel::AsyncDoReplaceWithProxy(nsIProxyInfo* pi)
{
LOG(("nsHttpChannel::AsyncDoReplaceWithProxy [this=%p pi=%p]", this, pi));
nsresult rv;
nsCOMPtr<nsIChannel> newChannel;
rv = gHttpHandler->NewProxiedChannel2(mURI, pi, mProxyResolveFlags,
mProxyURI, mLoadInfo,
getter_AddRefs(newChannel));
if (NS_FAILED(rv))
return rv;
uint32_t flags = nsIChannelEventSink::REDIRECT_INTERNAL;
rv = SetupReplacementChannel(mURI, newChannel, true, flags);
if (NS_FAILED(rv))
return rv;
// Inform consumers about this fake redirect
mRedirectChannel = newChannel;
PushRedirectAsyncFunc(&nsHttpChannel::ContinueDoReplaceWithProxy);
rv = gHttpHandler->AsyncOnChannelRedirect(this, newChannel, flags);
if (NS_SUCCEEDED(rv))
rv = WaitForRedirectCallback();
if (NS_FAILED(rv)) {
AutoRedirectVetoNotifier notifier(this);
PopRedirectAsyncFunc(&nsHttpChannel::ContinueDoReplaceWithProxy);
}
return rv;
}
nsresult
nsHttpChannel::ContinueDoReplaceWithProxy(nsresult rv)
{
AutoRedirectVetoNotifier notifier(this);
if (NS_FAILED(rv))
return rv;
NS_PRECONDITION(mRedirectChannel, "No redirect channel?");
// Make sure to do this _after_ calling OnChannelRedirect
mRedirectChannel->SetOriginalURI(mOriginalURI);
// open new channel
if (mLoadInfo && mLoadInfo->GetEnforceSecurity()) {
MOZ_ASSERT(!mListenerContext, "mListenerContext should be null!");
rv = mRedirectChannel->AsyncOpen2(mListener);
}
else {
rv = mRedirectChannel->AsyncOpen(mListener, mListenerContext);
}
NS_ENSURE_SUCCESS(rv, rv);
mStatus = NS_BINDING_REDIRECTED;
notifier.RedirectSucceeded();
ReleaseListeners();
return rv;
}
nsresult
nsHttpChannel::ResolveProxy()
{
LOG(("nsHttpChannel::ResolveProxy [this=%p]\n", this));
nsresult rv;
nsCOMPtr<nsIProtocolProxyService> pps =
do_GetService(NS_PROTOCOLPROXYSERVICE_CONTRACTID, &rv);
if (NS_FAILED(rv))
return rv;
// using the nsIProtocolProxyService2 allows a minor performance
// optimization, but if an add-on has only provided the original interface
// then it is ok to use that version.
nsCOMPtr<nsIProtocolProxyService2> pps2 = do_QueryInterface(pps);
if (pps2) {
rv = pps2->AsyncResolve2(this, mProxyResolveFlags,
this, getter_AddRefs(mProxyRequest));
} else {
rv = pps->AsyncResolve(static_cast<nsIChannel*>(this), mProxyResolveFlags,
this, getter_AddRefs(mProxyRequest));
}
return rv;
}
bool
nsHttpChannel::ResponseWouldVary(nsICacheEntry* entry) const
{
nsresult rv;
nsAutoCString buf, metaKey;
mCachedResponseHead->GetHeader(nsHttp::Vary, buf);
if (!buf.IsEmpty()) {
NS_NAMED_LITERAL_CSTRING(prefix, "request-");
// enumerate the elements of the Vary header...
char *val = buf.BeginWriting(); // going to munge buf
char *token = nsCRT::strtok(val, NS_HTTP_HEADER_SEPS, &val);
while (token) {
LOG(("nsHttpChannel::ResponseWouldVary [channel=%p] " \
"processing %s\n",
this, token));
//
// if "*", then assume response would vary. technically speaking,
// "Vary: header, *" is not permitted, but we allow it anyways.
//
// We hash values of cookie-headers for the following reasons:
//
// 1- cookies can be very large in size
//
// 2- cookies may contain sensitive information. (for parity with
// out policy of not storing Set-cookie headers in the cache
// meta data, we likewise do not want to store cookie headers
// here.)
//
if (*token == '*')
return true; // if we encounter this, just get out of here
// build cache meta data key...
metaKey = prefix + nsDependentCString(token);
// check the last value of the given request header to see if it has
// since changed. if so, then indeed the cached response is invalid.
nsXPIDLCString lastVal;
entry->GetMetaDataElement(metaKey.get(), getter_Copies(lastVal));
LOG(("nsHttpChannel::ResponseWouldVary [channel=%p] "
"stored value = \"%s\"\n",
this, lastVal.get()));
// Look for value of "Cookie" in the request headers
nsHttpAtom atom = nsHttp::ResolveAtom(token);
const char *newVal = mRequestHead.PeekHeader(atom);
if (!lastVal.IsEmpty()) {
// value for this header in cache, but no value in request
if (!newVal)
return true; // yes - response would vary
// If this is a cookie-header, stored metadata is not
// the value itself but the hash. So we also hash the
// outgoing value here in order to compare the hashes
nsAutoCString hash;
if (atom == nsHttp::Cookie) {
rv = Hash(newVal, hash);
// If hash failed, be conservative (the cached hash
// exists at this point) and claim response would vary
if (NS_FAILED(rv))
return true;
newVal = hash.get();
LOG(("nsHttpChannel::ResponseWouldVary [this=%p] " \
"set-cookie value hashed to %s\n",
this, newVal));
}
if (strcmp(newVal, lastVal))
return true; // yes, response would vary
} else if (newVal) { // old value is empty, but newVal is set
return true;
}
// next token...
token = nsCRT::strtok(val, NS_HTTP_HEADER_SEPS, &val);
}
}
return false;
}
// We need to have an implementation of this function just so that we can keep
// all references to mCallOnResume of type nsHttpChannel: it's not OK in C++
// to set a member function ptr to a base class function.
void
nsHttpChannel::HandleAsyncAbort()
{
HttpAsyncAborter<nsHttpChannel>::HandleAsyncAbort();
}
nsresult
nsHttpChannel::EnsureAssocReq()
{
// Confirm Assoc-Req response header on pipelined transactions
// per draft-nottingham-http-pipeline-01.txt
// of the form: GET http://blah.com/foo/bar?qv
// return NS_OK as long as we don't find a violation
// (i.e. no header is ok, as are malformed headers, as are
// transactions that have not been pipelined (unless those have been
// opted in via pragma))
if (!mResponseHead)
return NS_OK;
const char *assoc_val = mResponseHead->PeekHeader(nsHttp::Assoc_Req);
if (!assoc_val)
return NS_OK;
if (!mTransaction || !mURI)
return NS_OK;
if (!mTransaction->PipelinePosition()) {
// "Pragma: X-Verify-Assoc-Req" can be used to verify even non pipelined
// transactions. It is used by test harness.
const char *pragma_val = mResponseHead->PeekHeader(nsHttp::Pragma);
if (!pragma_val ||
!nsHttp::FindToken(pragma_val, "X-Verify-Assoc-Req",
HTTP_HEADER_VALUE_SEPS))
return NS_OK;
}
char *method = net_FindCharNotInSet(assoc_val, HTTP_LWS);
if (!method)
return NS_OK;
bool equals;
char *endofmethod;
assoc_val = nullptr;
endofmethod = net_FindCharInSet(method, HTTP_LWS);
if (endofmethod)
assoc_val = net_FindCharNotInSet(endofmethod, HTTP_LWS);
if (!assoc_val)
return NS_OK;
// check the method
int32_t methodlen = strlen(mRequestHead.Method().get());
if ((methodlen != (endofmethod - method)) ||
PL_strncmp(method,
mRequestHead.Method().get(),
endofmethod - method)) {
LOG((" Assoc-Req failure Method %s", method));
if (mConnectionInfo)
gHttpHandler->ConnMgr()->
PipelineFeedbackInfo(mConnectionInfo,
nsHttpConnectionMgr::RedCorruptedContent,
nullptr, 0);
nsCOMPtr<nsIConsoleService> consoleService =
do_GetService(NS_CONSOLESERVICE_CONTRACTID);
if (consoleService) {
nsAutoString message
(NS_LITERAL_STRING("Failed Assoc-Req. Received "));
AppendASCIItoUTF16(
mResponseHead->PeekHeader(nsHttp::Assoc_Req),
message);
message += NS_LITERAL_STRING(" expected method ");
AppendASCIItoUTF16(mRequestHead.Method().get(), message);
consoleService->LogStringMessage(message.get());
}
if (gHttpHandler->EnforceAssocReq())
return NS_ERROR_CORRUPTED_CONTENT;
return NS_OK;
}
// check the URL
nsCOMPtr<nsIURI> assoc_url;
if (NS_FAILED(NS_NewURI(getter_AddRefs(assoc_url), assoc_val)) ||
!assoc_url)
return NS_OK;
mURI->Equals(assoc_url, &equals);
if (!equals) {
LOG((" Assoc-Req failure URL %s", assoc_val));
if (mConnectionInfo)
gHttpHandler->ConnMgr()->
PipelineFeedbackInfo(mConnectionInfo,
nsHttpConnectionMgr::RedCorruptedContent,
nullptr, 0);
nsCOMPtr<nsIConsoleService> consoleService =
do_GetService(NS_CONSOLESERVICE_CONTRACTID);
if (consoleService) {
nsAutoString message
(NS_LITERAL_STRING("Failed Assoc-Req. Received "));
AppendASCIItoUTF16(
mResponseHead->PeekHeader(nsHttp::Assoc_Req),
message);
message += NS_LITERAL_STRING(" expected URL ");
AppendASCIItoUTF16(mSpec.get(), message);
consoleService->LogStringMessage(message.get());
}
if (gHttpHandler->EnforceAssocReq())
return NS_ERROR_CORRUPTED_CONTENT;
}
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsHttpChannel <byte-range>
//-----------------------------------------------------------------------------
bool
nsHttpChannel::IsResumable(int64_t partialLen, int64_t contentLength,
bool ignoreMissingPartialLen) const
{
bool hasContentEncoding =
mCachedResponseHead->PeekHeader(nsHttp::Content_Encoding)
!= nullptr;
return (partialLen < contentLength) &&
(partialLen > 0 || ignoreMissingPartialLen) &&
!hasContentEncoding &&
mCachedResponseHead->IsResumable() &&
!mCustomConditionalRequest &&
!mCachedResponseHead->NoStore();
}
nsresult
nsHttpChannel::MaybeSetupByteRangeRequest(int64_t partialLen, int64_t contentLength,
bool ignoreMissingPartialLen)
{
// Be pesimistic
mIsPartialRequest = false;
if (!IsResumable(partialLen, contentLength, ignoreMissingPartialLen))
return NS_ERROR_NOT_RESUMABLE;
// looks like a partial entry we can reuse; add If-Range
// and Range headers.
nsresult rv = SetupByteRangeRequest(partialLen);
if (NS_FAILED(rv)) {
// Make the request unconditional again.
UntieByteRangeRequest();
}
return rv;
}
nsresult
nsHttpChannel::SetupByteRangeRequest(int64_t partialLen)
{
// cached content has been found to be partial, add necessary request
// headers to complete cache entry.
// use strongest validator available...
const char *val = mCachedResponseHead->PeekHeader(nsHttp::ETag);
if (!val)
val = mCachedResponseHead->PeekHeader(nsHttp::Last_Modified);
if (!val) {
// if we hit this code it means mCachedResponseHead->IsResumable() is
// either broken or not being called.
NS_NOTREACHED("no cache validator");
mIsPartialRequest = false;
return NS_ERROR_FAILURE;
}
char buf[64];
PR_snprintf(buf, sizeof(buf), "bytes=%lld-", partialLen);
mRequestHead.SetHeader(nsHttp::Range, nsDependentCString(buf));
mRequestHead.SetHeader(nsHttp::If_Range, nsDependentCString(val));
mIsPartialRequest = true;
return NS_OK;
}
void
nsHttpChannel::UntieByteRangeRequest()
{
mRequestHead.ClearHeader(nsHttp::Range);
mRequestHead.ClearHeader(nsHttp::If_Range);
}
nsresult
nsHttpChannel::ProcessPartialContent()
{
// ok, we've just received a 206
//
// we need to stream whatever data is in the cache out first, and then
// pick up whatever data is on the wire, writing it into the cache.
LOG(("nsHttpChannel::ProcessPartialContent [this=%p]\n", this));
NS_ENSURE_TRUE(mCachedResponseHead, NS_ERROR_NOT_INITIALIZED);
NS_ENSURE_TRUE(mCacheEntry, NS_ERROR_NOT_INITIALIZED);
// Make sure to clear bogus content-encodings before looking at the header
ClearBogusContentEncodingIfNeeded();
// Check if the content-encoding we now got is different from the one we
// got before
if (PL_strcasecmp(mResponseHead->PeekHeader(nsHttp::Content_Encoding),
mCachedResponseHead->PeekHeader(nsHttp::Content_Encoding))
!= 0) {
Cancel(NS_ERROR_INVALID_CONTENT_ENCODING);
return CallOnStartRequest();
}
nsresult rv;
int64_t cachedContentLength = mCachedResponseHead->ContentLength();
int64_t entitySize = mResponseHead->TotalEntitySize();
LOG(("nsHttpChannel::ProcessPartialContent [this=%p trans=%p] "
"original content-length %lld, entity-size %lld, content-range %s\n",
this, mTransaction.get(), cachedContentLength, entitySize,
mResponseHead->PeekHeader(nsHttp::Content_Range)));
if ((entitySize >= 0) && (cachedContentLength >= 0) &&
(entitySize != cachedContentLength)) {
LOG(("nsHttpChannel::ProcessPartialContent [this=%p] "
"206 has different total entity size than the content length "
"of the original partially cached entity.\n", this));
mCacheEntry->AsyncDoom(nullptr);
Cancel(NS_ERROR_CORRUPTED_CONTENT);
return CallOnStartRequest();
}
if (mConcurentCacheAccess) {
// We started to read cached data sooner than its write has been done.
// But the concurrent write has not finished completely, so we had to
// do a range request. Now let the content coming from the network
// be presented to consumers and also stored to the cache entry.
rv = InstallCacheListener(mLogicalOffset);
if (NS_FAILED(rv)) return rv;
if (mOfflineCacheEntry) {
rv = InstallOfflineCacheListener(mLogicalOffset);
if (NS_FAILED(rv)) return rv;
}
} else {
// suspend the current transaction
rv = mTransactionPump->Suspend();
if (NS_FAILED(rv)) return rv;
}
// merge any new headers with the cached response headers
rv = mCachedResponseHead->UpdateHeaders(mResponseHead->Headers());
if (NS_FAILED(rv)) return rv;
// update the cached response head
nsAutoCString head;
mCachedResponseHead->Flatten(head, true);
rv = mCacheEntry->SetMetaDataElement("response-head", head.get());
if (NS_FAILED(rv)) return rv;
// make the cached response be the current response
mResponseHead = Move(mCachedResponseHead);
UpdateInhibitPersistentCachingFlag();
rv = UpdateExpirationTime();
if (NS_FAILED(rv)) return rv;
// notify observers interested in looking at a response that has been
// merged with any cached headers (http-on-examine-merged-response).
gHttpHandler->OnExamineMergedResponse(this);
if (mConcurentCacheAccess) {
mCachedContentIsPartial = false;
mConcurentCacheAccess = 0;
// Now we continue reading the network response.
} else {
// the cached content is valid, although incomplete.
mCachedContentIsValid = true;
rv = ReadFromCache(false);
}
return rv;
}
nsresult
nsHttpChannel::OnDoneReadingPartialCacheEntry(bool *streamDone)
{
nsresult rv;
LOG(("nsHttpChannel::OnDoneReadingPartialCacheEntry [this=%p]", this));
// by default, assume we would have streamed all data or failed...
*streamDone = true;
// setup cache listener to append to cache entry
int64_t size;
rv = mCacheEntry->GetDataSize(&size);
if (NS_FAILED(rv)) return rv;
rv = InstallCacheListener(size);
if (NS_FAILED(rv)) return rv;
// Entry is valid, do it now, after the output stream has been opened,
// otherwise when done earlier, pending readers would consider the cache
// entry still as partial (CacheEntry::GetDataSize would return the partial
// data size) and consumers would do the conditional request again.
rv = mCacheEntry->SetValid();
if (NS_FAILED(rv)) return rv;
// need to track the logical offset of the data being sent to our listener
mLogicalOffset = size;
// we're now completing the cached content, so we can clear this flag.
// this puts us in the state of a regular download.
mCachedContentIsPartial = false;
// resume the transaction if it exists, otherwise the pipe contained the
// remaining part of the document and we've now streamed all of the data.
if (mTransactionPump) {
rv = mTransactionPump->Resume();
if (NS_SUCCEEDED(rv))
*streamDone = false;
}
else
NS_NOTREACHED("no transaction");
return rv;
}
//-----------------------------------------------------------------------------
// nsHttpChannel <cache>
//-----------------------------------------------------------------------------
nsresult
nsHttpChannel::ProcessNotModified()
{
nsresult rv;
LOG(("nsHttpChannel::ProcessNotModified [this=%p]\n", this));
if (mCustomConditionalRequest) {
LOG(("Bypassing ProcessNotModified due to custom conditional headers"));
return NS_ERROR_FAILURE;
}
if (!mDidReval) {
LOG(("Server returned a 304 response even though we did not send a "
"conditional request"));
return NS_ERROR_FAILURE;
}
MOZ_ASSERT(mCachedResponseHead);
MOZ_ASSERT(mCacheEntry);
NS_ENSURE_TRUE(mCachedResponseHead && mCacheEntry, NS_ERROR_UNEXPECTED);
// If the 304 response contains a Last-Modified different than the
// one in our cache that is pretty suspicious and is, in at least the
// case of bug 716840, a sign of the server having previously corrupted
// our cache with a bad response. Take the minor step here of just dooming
// that cache entry so there is a fighting chance of getting things on the
// right track as well as disabling pipelining for that host.
nsAutoCString lastModifiedCached;
nsAutoCString lastModified304;
rv = mCachedResponseHead->GetHeader(nsHttp::Last_Modified,
lastModifiedCached);
if (NS_SUCCEEDED(rv)) {
rv = mResponseHead->GetHeader(nsHttp::Last_Modified,
lastModified304);
}
if (NS_SUCCEEDED(rv) && !lastModified304.Equals(lastModifiedCached)) {
LOG(("Cache Entry and 304 Last-Modified Headers Do Not Match "
"[%s] and [%s]\n",
lastModifiedCached.get(), lastModified304.get()));
mCacheEntry->AsyncDoom(nullptr);
if (mConnectionInfo)
gHttpHandler->ConnMgr()->
PipelineFeedbackInfo(mConnectionInfo,
nsHttpConnectionMgr::RedCorruptedContent,
nullptr, 0);
Telemetry::Accumulate(Telemetry::CACHE_LM_INCONSISTENT, true);
}
// merge any new headers with the cached response headers
rv = mCachedResponseHead->UpdateHeaders(mResponseHead->Headers());
if (NS_FAILED(rv)) return rv;
// update the cached response head
nsAutoCString head;
mCachedResponseHead->Flatten(head, true);
rv = mCacheEntry->SetMetaDataElement("response-head", head.get());
if (NS_FAILED(rv)) return rv;
// make the cached response be the current response
mResponseHead = Move(mCachedResponseHead);
UpdateInhibitPersistentCachingFlag();
rv = UpdateExpirationTime();
if (NS_FAILED(rv)) return rv;
rv = AddCacheEntryHeaders(mCacheEntry);
if (NS_FAILED(rv)) return rv;
// notify observers interested in looking at a reponse that has been
// merged with any cached headers
gHttpHandler->OnExamineMergedResponse(this);
mCachedContentIsValid = true;
// Tell other consumers the entry is OK to use
rv = mCacheEntry->SetValid();
if (NS_FAILED(rv)) return rv;
rv = ReadFromCache(false);
if (NS_FAILED(rv)) return rv;
mTransactionReplaced = true;
return NS_OK;
}
nsresult
nsHttpChannel::ProcessFallback(bool *waitingForRedirectCallback)
{
LOG(("nsHttpChannel::ProcessFallback [this=%p]\n", this));
nsresult rv;
*waitingForRedirectCallback = false;
mFallingBack = false;
// At this point a load has failed (either due to network problems
// or an error returned on the server). Perform an application
// cache fallback if we have a URI to fall back to.
if (!mApplicationCache || mFallbackKey.IsEmpty() || mFallbackChannel) {
LOG((" choosing not to fallback [%p,%s,%d]",
mApplicationCache.get(), mFallbackKey.get(), mFallbackChannel));
return NS_OK;
}
// Make sure the fallback entry hasn't been marked as a foreign
// entry.
uint32_t fallbackEntryType;
rv = mApplicationCache->GetTypes(mFallbackKey, &fallbackEntryType);
NS_ENSURE_SUCCESS(rv, rv);
if (fallbackEntryType & nsIApplicationCache::ITEM_FOREIGN) {
// This cache points to a fallback that refers to a different
// manifest. Refuse to fall back.
return NS_OK;
}
if (!IsInSubpathOfAppCacheManifest(mApplicationCache, mFallbackKey)) {
// Refuse to fallback if the fallback key is not contained in the same
// path as the cache manifest.
return NS_OK;
}
MOZ_ASSERT(fallbackEntryType & nsIApplicationCache::ITEM_FALLBACK,
"Fallback entry not marked correctly!");
// Kill any offline cache entry, and disable offline caching for the
// fallback.
if (mOfflineCacheEntry) {
mOfflineCacheEntry->AsyncDoom(nullptr);
mOfflineCacheEntry = nullptr;
}
mApplicationCacheForWrite = nullptr;
mOfflineCacheEntry = nullptr;
// Close the current cache entry.
CloseCacheEntry(true);
// Create a new channel to load the fallback entry.
RefPtr<nsIChannel> newChannel;
rv = gHttpHandler->NewChannel2(mURI,
mLoadInfo,
getter_AddRefs(newChannel));
NS_ENSURE_SUCCESS(rv, rv);
uint32_t redirectFlags = nsIChannelEventSink::REDIRECT_INTERNAL;
rv = SetupReplacementChannel(mURI, newChannel, true, redirectFlags);
NS_ENSURE_SUCCESS(rv, rv);
// Make sure the new channel loads from the fallback key.
nsCOMPtr<nsIHttpChannelInternal> httpInternal =
do_QueryInterface(newChannel, &rv);
NS_ENSURE_SUCCESS(rv, rv);
rv = httpInternal->SetupFallbackChannel(mFallbackKey.get());
NS_ENSURE_SUCCESS(rv, rv);
// ... and fallbacks should only load from the cache.
uint32_t newLoadFlags = mLoadFlags | LOAD_REPLACE | LOAD_ONLY_FROM_CACHE;
rv = newChannel->SetLoadFlags(newLoadFlags);
// Inform consumers about this fake redirect
mRedirectChannel = newChannel;
PushRedirectAsyncFunc(&nsHttpChannel::ContinueProcessFallback);
rv = gHttpHandler->AsyncOnChannelRedirect(this, newChannel, redirectFlags);
if (NS_SUCCEEDED(rv))
rv = WaitForRedirectCallback();
if (NS_FAILED(rv)) {
AutoRedirectVetoNotifier notifier(this);
PopRedirectAsyncFunc(&nsHttpChannel::ContinueProcessFallback);
return rv;
}
// Indicate we are now waiting for the asynchronous redirect callback
// if all went OK.
*waitingForRedirectCallback = true;
return NS_OK;
}
nsresult
nsHttpChannel::ContinueProcessFallback(nsresult rv)
{
AutoRedirectVetoNotifier notifier(this);
if (NS_FAILED(rv))
return rv;
NS_PRECONDITION(mRedirectChannel, "No redirect channel?");
// Make sure to do this _after_ calling OnChannelRedirect
mRedirectChannel->SetOriginalURI(mOriginalURI);
if (mLoadInfo && mLoadInfo->GetEnforceSecurity()) {
MOZ_ASSERT(!mListenerContext, "mListenerContext should be null!");
rv = mRedirectChannel->AsyncOpen2(mListener);
}
else {
rv = mRedirectChannel->AsyncOpen(mListener, mListenerContext);
}
NS_ENSURE_SUCCESS(rv, rv);
if (mLoadFlags & LOAD_INITIAL_DOCUMENT_URI) {
MaybeWarnAboutAppCache();
}
// close down this channel
Cancel(NS_BINDING_REDIRECTED);
notifier.RedirectSucceeded();
ReleaseListeners();
mFallingBack = true;
return NS_OK;
}
// Determines if a request is a byte range request for a subrange,
// i.e. is a byte range request, but not a 0- byte range request.
static bool
IsSubRangeRequest(nsHttpRequestHead &aRequestHead)
{
if (!aRequestHead.PeekHeader(nsHttp::Range))
return false;
nsAutoCString byteRange;
aRequestHead.GetHeader(nsHttp::Range, byteRange);
return !byteRange.EqualsLiteral("bytes=0-");
}
nsresult
nsHttpChannel::OpenCacheEntry(bool isHttps)
{
// Handle correctly mCacheEntriesToWaitFor
AutoCacheWaitFlags waitFlags(this);
// Drop this flag here
mConcurentCacheAccess = 0;
nsresult rv;
mLoadedFromApplicationCache = false;
mHasQueryString = HasQueryString(mRequestHead.ParsedMethod(), mURI);
LOG(("nsHttpChannel::OpenCacheEntry [this=%p]", this));
// make sure we're not abusing this function
NS_PRECONDITION(!mCacheEntry, "cache entry already open");
nsAutoCString cacheKey;
nsAutoCString extension;
if (mRequestHead.IsPost()) {
// If the post id is already set then this is an attempt to replay
// a post transaction via the cache. Otherwise, we need a unique
// post id for this transaction.
if (mPostID == 0)
mPostID = gHttpHandler->GenerateUniqueID();
}
else if (!PossiblyIntercepted() && !mRequestHead.IsGet() && !mRequestHead.IsHead()) {
// don't use the cache for other types of requests
return NS_OK;
}
if (mResuming) {
// We don't support caching for requests initiated
// via nsIResumableChannel.
return NS_OK;
}
// Don't cache byte range requests which are subranges, only cache 0-
// byte range requests.
if (IsSubRangeRequest(mRequestHead))
return NS_OK;
// Pick up an application cache from the notification
// callbacks if available and if we are not an intercepted channel.
if (!PossiblyIntercepted() && !mApplicationCache &&
mInheritApplicationCache) {
nsCOMPtr<nsIApplicationCacheContainer> appCacheContainer;
GetCallback(appCacheContainer);
if (appCacheContainer) {
appCacheContainer->GetApplicationCache(getter_AddRefs(mApplicationCache));
}
}
nsCOMPtr<nsICacheStorageService> cacheStorageService =
do_GetService("@mozilla.org/netwerk/cache-storage-service;1", &rv);
NS_ENSURE_SUCCESS(rv, rv);
nsCOMPtr<nsICacheStorage> cacheStorage;
nsCOMPtr<nsIURI> openURI;
if (!mFallbackKey.IsEmpty() && mFallbackChannel) {
// This is a fallback channel, open fallback URI instead
rv = NS_NewURI(getter_AddRefs(openURI), mFallbackKey);
NS_ENSURE_SUCCESS(rv, rv);
}
else {
// In the case of intercepted channels, we need to construct the cache
// entry key based on the original URI, so that in case the intercepted
// channel is redirected, the cache entry key before and after the
// redirect is the same.
if (PossiblyIntercepted()) {
openURI = mOriginalURI;
} else {
openURI = mURI;
}
}
RefPtr<LoadContextInfo> info = GetLoadContextInfo(this);
if (!info) {
return NS_ERROR_FAILURE;
}
uint32_t appId = info->OriginAttributesPtr()->mAppId;
bool appOffline = false;
if (appId != NECKO_NO_APP_ID) {
gIOService->IsAppOffline(appId, &appOffline);
LOG(("nsHttpChannel::OpenCacheEntry appId: %u, offline: %d\n", appId, appOffline));
}
uint32_t cacheEntryOpenFlags;
bool offline = gIOService->IsOffline() || appOffline;
if (offline || (mLoadFlags & INHIBIT_CACHING)) {
if (BYPASS_LOCAL_CACHE(mLoadFlags) && !offline && !PossiblyIntercepted()) {
goto bypassCacheEntryOpen;
}
cacheEntryOpenFlags = nsICacheStorage::OPEN_READONLY;
mCacheEntryIsReadOnly = true;
}
else if (BYPASS_LOCAL_CACHE(mLoadFlags) && !mApplicationCache) {
cacheEntryOpenFlags = nsICacheStorage::OPEN_TRUNCATE;
}
else {
cacheEntryOpenFlags = nsICacheStorage::OPEN_NORMALLY
| nsICacheStorage::CHECK_MULTITHREADED;
}
if (!mPostID && mApplicationCache) {
rv = cacheStorageService->AppCacheStorage(info,
mApplicationCache,
getter_AddRefs(cacheStorage));
} else if (PossiblyIntercepted()) {
// The synthesized cache has less restrictions on file size and so on.
rv = cacheStorageService->SynthesizedCacheStorage(info,
getter_AddRefs(cacheStorage));
} else if (mLoadFlags & INHIBIT_PERSISTENT_CACHING) {
rv = cacheStorageService->MemoryCacheStorage(info, // ? choose app cache as well...
getter_AddRefs(cacheStorage));
}
else if (mPinCacheContent) {
rv = cacheStorageService->PinningCacheStorage(info,
getter_AddRefs(cacheStorage));
}
else {
rv = cacheStorageService->DiskCacheStorage(info,
!mPostID && (mChooseApplicationCache || (mLoadFlags & LOAD_CHECK_OFFLINE_CACHE)),
getter_AddRefs(cacheStorage));
}
NS_ENSURE_SUCCESS(rv, rv);
if ((mClassOfService & nsIClassOfService::Leader) ||
(mLoadFlags & LOAD_INITIAL_DOCUMENT_URI))
cacheEntryOpenFlags |= nsICacheStorage::OPEN_PRIORITY;
// Only for backward compatibility with the old cache back end.
// When removed, remove the flags and related code snippets.
if (mLoadFlags & LOAD_BYPASS_LOCAL_CACHE_IF_BUSY)
cacheEntryOpenFlags |= nsICacheStorage::OPEN_BYPASS_IF_BUSY;
if (PossiblyIntercepted()) {
extension.Append(nsPrintfCString("u%lld", mInterceptionID));
} else if (mPostID) {
extension.Append(nsPrintfCString("%d", mPostID));
}
// If this channel should be intercepted, we do not open a cache entry for this channel
// until the interception process is complete and the consumer decides what to do with it.
if (mInterceptCache == MAYBE_INTERCEPT) {
DebugOnly<bool> exists;
MOZ_ASSERT(NS_FAILED(cacheStorage->Exists(openURI, extension, &exists)) || !exists,
"The entry must not exist in the cache before we create it here");
nsCOMPtr<nsICacheEntry> entry;
rv = cacheStorage->OpenTruncate(openURI, extension, getter_AddRefs(entry));
NS_ENSURE_SUCCESS(rv, rv);
nsCOMPtr<nsINetworkInterceptController> controller;
GetCallback(controller);
RefPtr<InterceptedChannelChrome> intercepted =
new InterceptedChannelChrome(this, controller, entry);
intercepted->NotifyController();
} else {
if (mInterceptCache == INTERCEPTED) {
cacheEntryOpenFlags |= nsICacheStorage::OPEN_INTERCEPTED;
DebugOnly<bool> exists;
MOZ_ASSERT(NS_SUCCEEDED(cacheStorage->Exists(openURI, extension, &exists)) && exists,
"The entry must exist in the cache after we create it here");
}
rv = cacheStorage->AsyncOpenURI(openURI, extension, cacheEntryOpenFlags, this);
NS_ENSURE_SUCCESS(rv, rv);
}
waitFlags.Keep(WAIT_FOR_CACHE_ENTRY);
bypassCacheEntryOpen:
if (!mApplicationCacheForWrite)
return NS_OK;
// If there is an app cache to write to, open the entry right now in parallel.
// make sure we're not abusing this function
NS_PRECONDITION(!mOfflineCacheEntry, "cache entry already open");
if (offline) {
// only put things in the offline cache while online
return NS_OK;
}
if (mLoadFlags & INHIBIT_CACHING) {
// respect demand not to cache
return NS_OK;
}
if (!mRequestHead.IsGet()) {
// only cache complete documents offline
return NS_OK;
}
rv = cacheStorageService->AppCacheStorage(info, mApplicationCacheForWrite,
getter_AddRefs(cacheStorage));
NS_ENSURE_SUCCESS(rv, rv);
rv = cacheStorage->AsyncOpenURI(
mURI, EmptyCString(), nsICacheStorage::OPEN_TRUNCATE, this);
NS_ENSURE_SUCCESS(rv, rv);
waitFlags.Keep(WAIT_FOR_OFFLINE_CACHE_ENTRY);
return NS_OK;
}
nsresult
nsHttpChannel::CheckPartial(nsICacheEntry* aEntry, int64_t *aSize, int64_t *aContentLength)
{
nsresult rv;
rv = aEntry->GetDataSize(aSize);
if (NS_ERROR_IN_PROGRESS == rv) {
*aSize = -1;
rv = NS_OK;
}
NS_ENSURE_SUCCESS(rv, rv);
nsHttpResponseHead* responseHead = mCachedResponseHead
? mCachedResponseHead
: mResponseHead;
if (!responseHead)
return NS_ERROR_UNEXPECTED;
*aContentLength = responseHead->ContentLength();
return NS_OK;
}
void
nsHttpChannel::UntieValidationRequest()
{
// Make the request unconditional again.
mRequestHead.ClearHeader(nsHttp::If_Modified_Since);
mRequestHead.ClearHeader(nsHttp::If_None_Match);
mRequestHead.ClearHeader(nsHttp::ETag);
}
NS_IMETHODIMP
nsHttpChannel::OnCacheEntryCheck(nsICacheEntry* entry, nsIApplicationCache* appCache,
uint32_t* aResult)
{
nsresult rv = NS_OK;
LOG(("nsHttpChannel::OnCacheEntryCheck enter [channel=%p entry=%p]",
this, entry));
// Remember the request is a custom conditional request so that we can
// process any 304 response correctly.
mCustomConditionalRequest =
mRequestHead.PeekHeader(nsHttp::If_Modified_Since) ||
mRequestHead.PeekHeader(nsHttp::If_None_Match) ||
mRequestHead.PeekHeader(nsHttp::If_Unmodified_Since) ||
mRequestHead.PeekHeader(nsHttp::If_Match) ||
mRequestHead.PeekHeader(nsHttp::If_Range);
// Be pessimistic: assume the cache entry has no useful data.
*aResult = ENTRY_WANTED;
mCachedContentIsValid = false;
nsXPIDLCString buf;
// Get the method that was used to generate the cached response
rv = entry->GetMetaDataElement("request-method", getter_Copies(buf));
NS_ENSURE_SUCCESS(rv, rv);
bool methodWasHead = buf.EqualsLiteral("HEAD");
bool methodWasGet = buf.EqualsLiteral("GET");
if (methodWasHead) {
// The cached response does not contain an entity. We can only reuse
// the response if the current request is also HEAD.
if (!mRequestHead.IsHead()) {
return NS_OK;
}
}
buf.Adopt(0);
// We'll need this value in later computations...
uint32_t lastModifiedTime;
rv = entry->GetLastModified(&lastModifiedTime);
NS_ENSURE_SUCCESS(rv, rv);
// Determine if this is the first time that this cache entry
// has been accessed during this session.
bool fromPreviousSession =
(gHttpHandler->SessionStartTime() > lastModifiedTime);
// Get the cached HTTP response headers
rv = entry->GetMetaDataElement("response-head", getter_Copies(buf));
NS_ENSURE_SUCCESS(rv, rv);
// Parse the cached HTTP response headers
mCachedResponseHead = new nsHttpResponseHead();
rv = mCachedResponseHead->Parse((char *) buf.get());
NS_ENSURE_SUCCESS(rv, rv);
buf.Adopt(0);
bool isCachedRedirect = WillRedirect(mCachedResponseHead);
// Do not return 304 responses from the cache, and also do not return
// any other non-redirect 3xx responses from the cache (see bug 759043).
NS_ENSURE_TRUE((mCachedResponseHead->Status() / 100 != 3) ||
isCachedRedirect, NS_ERROR_ABORT);
// Don't bother to validate items that are read-only,
// unless they are read-only because of INHIBIT_CACHING or because
// we're updating the offline cache.
// Don't bother to validate if this is a fallback entry.
if (!mApplicationCacheForWrite &&
(appCache ||
(mCacheEntryIsReadOnly && !(mLoadFlags & nsIRequest::INHIBIT_CACHING)) ||
mFallbackChannel)) {
rv = OpenCacheInputStream(entry, true, !!appCache);
if (NS_SUCCEEDED(rv)) {
mCachedContentIsValid = true;
entry->MaybeMarkValid();
}
return rv;
}
bool wantCompleteEntry = false;
if (!methodWasHead && !isCachedRedirect) {
// If the cached content-length is set and it does not match the data
// size of the cached content, then the cached response is partial...
// either we need to issue a byte range request or we need to refetch
// the entire document.
//
// We exclude redirects from this check because we (usually) strip the
// entity when we store the cache entry, and even if we didn't, we
// always ignore a cached redirect's entity anyway. See bug 759043.
int64_t size, contentLength;
rv = CheckPartial(entry, &size, &contentLength);
NS_ENSURE_SUCCESS(rv,rv);
if (size == int64_t(-1)) {
LOG((" write is in progress"));
if (mLoadFlags & LOAD_BYPASS_LOCAL_CACHE_IF_BUSY) {
LOG((" not interested in the entry, "
"LOAD_BYPASS_LOCAL_CACHE_IF_BUSY specified"));
*aResult = ENTRY_NOT_WANTED;
return NS_OK;
}
// Ignore !(size > 0) from the resumability condition
if (!IsResumable(size, contentLength, true)) {
LOG((" wait for entry completion, "
"response is not resumable"));
wantCompleteEntry = true;
}
else {
mConcurentCacheAccess = 1;
}
}
else if (contentLength != int64_t(-1) && contentLength != size) {
LOG(("Cached data size does not match the Content-Length header "
"[content-length=%lld size=%lld]\n", contentLength, size));
rv = MaybeSetupByteRangeRequest(size, contentLength);
mCachedContentIsPartial = NS_SUCCEEDED(rv) && mIsPartialRequest;
if (mCachedContentIsPartial) {
rv = OpenCacheInputStream(entry, false, !!appCache);
if (NS_FAILED(rv)) {
UntieByteRangeRequest();
return rv;
}
*aResult = ENTRY_NEEDS_REVALIDATION;
return NS_OK;
}
if (size == 0 && mCacheOnlyMetadata) {
// Don't break cache entry load when the entry's data size
// is 0 and mCacheOnlyMetadata flag is set. In that case we
// want to proceed since the LOAD_ONLY_IF_MODIFIED flag is
// also set.
MOZ_ASSERT(mLoadFlags & LOAD_ONLY_IF_MODIFIED);
} else if (mInterceptCache != INTERCEPTED) {
return rv;
}
}
}
bool isHttps = false;
rv = mURI->SchemeIs("https", &isHttps);
NS_ENSURE_SUCCESS(rv,rv);
bool doValidation = false;
bool canAddImsHeader = true;
bool isForcedValid = false;
entry->GetIsForcedValid(&isForcedValid);
// Cached entry is not the entity we request (see bug #633743)
if (ResponseWouldVary(entry)) {
LOG(("Validating based on Vary headers returning TRUE\n"));
canAddImsHeader = false;
doValidation = true;
}
// Check isForcedValid to see if it is possible to skip validation
// See netwerk/cache2/nsICacheEntry.idl for details
else if (isForcedValid) {
LOG(("NOT validating based on isForcedValid being true.\n"));
doValidation = false;
}
// If the LOAD_FROM_CACHE flag is set, any cached data can simply be used
else if (mLoadFlags & nsIRequest::LOAD_FROM_CACHE) {
LOG(("NOT validating based on LOAD_FROM_CACHE load flag\n"));
doValidation = false;
}
// If the VALIDATE_ALWAYS flag is set, any cached data won't be used until
// it's revalidated with the server.
else if (mLoadFlags & nsIRequest::VALIDATE_ALWAYS) {
LOG(("Validating based on VALIDATE_ALWAYS load flag\n"));
doValidation = true;
}
// Even if the VALIDATE_NEVER flag is set, there are still some cases in
// which we must validate the cached response with the server.
else if (mLoadFlags & nsIRequest::VALIDATE_NEVER) {
LOG(("VALIDATE_NEVER set\n"));
// if no-store or if no-cache and ssl, validate cached response (see
// bug 112564 for an explanation of this logic)
if (mCachedResponseHead->NoStore() ||
(mCachedResponseHead->NoCache() && isHttps)) {
LOG(("Validating based on (no-store || (no-cache && ssl)) logic\n"));
doValidation = true;
}
else {
LOG(("NOT validating based on VALIDATE_NEVER load flag\n"));
doValidation = false;
}
}
// check if validation is strictly required...
else if (mCachedResponseHead->MustValidate()) {
LOG(("Validating based on MustValidate() returning TRUE\n"));
doValidation = true;
} else {
// previously we also checked for a query-url w/out expiration
// and didn't do heuristic on it. but defacto that is allowed now.
//
// Check if the cache entry has expired...
uint32_t time = 0; // a temporary variable for storing time values...
rv = entry->GetExpirationTime(&time);
NS_ENSURE_SUCCESS(rv, rv);
LOG((" NowInSeconds()=%u, time=%u", NowInSeconds(), time));
if (NowInSeconds() <= time)
doValidation = false;
else if (mCachedResponseHead->MustValidateIfExpired())
doValidation = true;
else if (mLoadFlags & nsIRequest::VALIDATE_ONCE_PER_SESSION) {
// If the cached response does not include expiration infor-
// mation, then we must validate the response, despite whether
// or not this is the first access this session. This behavior
// is consistent with existing browsers and is generally expected
// by web authors.
rv = mCachedResponseHead->ComputeFreshnessLifetime(&time);
NS_ENSURE_SUCCESS(rv, rv);
if (time == 0)
doValidation = true;
else
doValidation = fromPreviousSession;
}
else
doValidation = true;
LOG(("%salidating based on expiration time\n", doValidation ? "V" : "Not v"));
}
if (!doValidation && mRequestHead.PeekHeader(nsHttp::If_Match) &&
(methodWasGet || methodWasHead)) {
const char *requestedETag, *cachedETag;
cachedETag = mCachedResponseHead->PeekHeader(nsHttp::ETag);
requestedETag = mRequestHead.PeekHeader(nsHttp::If_Match);
if (cachedETag && (!strncmp(cachedETag, "W/", 2) ||
strcmp(requestedETag, cachedETag))) {
// User has defined If-Match header, if the cached entry is not
// matching the provided header value or the cached ETag is weak,
// force validation.
doValidation = true;
}
}
if (!doValidation) {
//
// Check the authorization headers used to generate the cache entry.
// We must validate the cache entry if:
//
// 1) the cache entry was generated prior to this session w/
// credentials (see bug 103402).
// 2) the cache entry was generated w/o credentials, but would now
// require credentials (see bug 96705).
//
// NOTE: this does not apply to proxy authentication.
//
entry->GetMetaDataElement("auth", getter_Copies(buf));
doValidation =
(fromPreviousSession && !buf.IsEmpty()) ||
(buf.IsEmpty() && mRequestHead.PeekHeader(nsHttp::Authorization));
}
// Bug #561276: We maintain a chain of cache-keys which returns cached
// 3xx-responses (redirects) in order to detect cycles. If a cycle is
// found, ignore the cached response and hit the net. Otherwise, use
// the cached response and add the cache-key to the chain. Note that
// a limited number of redirects (cached or not) is allowed and is
// enforced independently of this mechanism
if (!doValidation && isCachedRedirect) {
nsAutoCString cacheKey;
GenerateCacheKey(mPostID, cacheKey);
if (!mRedirectedCachekeys)
mRedirectedCachekeys = new nsTArray<nsCString>();
else if (mRedirectedCachekeys->Contains(cacheKey))
doValidation = true;
LOG(("Redirection-chain %s key %s\n",
doValidation ? "contains" : "does not contain", cacheKey.get()));
// Append cacheKey if not in the chain already
if (!doValidation)
mRedirectedCachekeys->AppendElement(cacheKey);
}
if (doValidation && mInterceptCache == INTERCEPTED) {
doValidation = false;
}
mCachedContentIsValid = !doValidation;
if (doValidation) {
//
// now, we are definitely going to issue a HTTP request to the server.
// make it conditional if possible.
//
// do not attempt to validate no-store content, since servers will not
// expect it to be cached. (we only keep it in our cache for the
// purposes of back/forward, etc.)
//
// the request method MUST be either GET or HEAD (see bug 175641).
//
// do not override conditional headers when consumer has defined its own
if (!mCachedResponseHead->NoStore() &&
(mRequestHead.IsGet() || mRequestHead.IsHead()) &&
!mCustomConditionalRequest) {
if (mConcurentCacheAccess) {
// In case of concurrent read and also validation request we
// must wait for the current writer to close the output stream
// first. Otherwise, when the writer's job would have been interrupted
// before all the data were downloaded, we'd have to do a range request
// which would be a second request in line during this channel's
// life-time. nsHttpChannel is not designed to do that, so rather
// turn off concurrent read and wait for entry's completion.
// Then only re-validation or range-re-validation request will go out.
mConcurentCacheAccess = 0;
// This will cause that OnCacheEntryCheck is called again with the same
// entry after the writer is done.
wantCompleteEntry = true;
} else {
const char *val;
// Add If-Modified-Since header if a Last-Modified was given
// and we are allowed to do this (see bugs 510359 and 269303)
if (canAddImsHeader) {
val = mCachedResponseHead->PeekHeader(nsHttp::Last_Modified);
if (val)
mRequestHead.SetHeader(nsHttp::If_Modified_Since,
nsDependentCString(val));
}
// Add If-None-Match header if an ETag was given in the response
val = mCachedResponseHead->PeekHeader(nsHttp::ETag);
if (val)
mRequestHead.SetHeader(nsHttp::If_None_Match,
nsDependentCString(val));
mDidReval = true;
}
}
}
if (mCachedContentIsValid || mDidReval) {
rv = OpenCacheInputStream(entry, mCachedContentIsValid, !!appCache);
if (NS_FAILED(rv)) {
// If we can't get the entity then we have to act as though we
// don't have the cache entry.
if (mDidReval) {
UntieValidationRequest();
mDidReval = false;
}
mCachedContentIsValid = false;
}
}
if (mDidReval)
*aResult = ENTRY_NEEDS_REVALIDATION;
else if (wantCompleteEntry)
*aResult = RECHECK_AFTER_WRITE_FINISHED;
else
*aResult = ENTRY_WANTED;
if (mCachedContentIsValid) {
entry->MaybeMarkValid();
}
LOG(("nsHTTPChannel::OnCacheEntryCheck exit [this=%p doValidation=%d result=%d]\n",
this, doValidation, *aResult));
return rv;
}
NS_IMETHODIMP
nsHttpChannel::OnCacheEntryAvailable(nsICacheEntry *entry,
bool aNew,
nsIApplicationCache* aAppCache,
nsresult status)
{
MOZ_ASSERT(NS_IsMainThread());
nsresult rv;
LOG(("nsHttpChannel::OnCacheEntryAvailable [this=%p entry=%p "
"new=%d appcache=%p status=%x mAppCache=%p mAppCacheForWrite=%p]\n",
this, entry, aNew, aAppCache, status,
mApplicationCache.get(), mApplicationCacheForWrite.get()));
// if the channel's already fired onStopRequest, then we should ignore
// this event.
if (!mIsPending) {
mCacheInputStream.CloseAndRelease();
return NS_OK;
}
rv = OnCacheEntryAvailableInternal(entry, aNew, aAppCache, status);
if (NS_FAILED(rv)) {
CloseCacheEntry(true);
AsyncAbort(rv);
}
return NS_OK;
}
nsresult
nsHttpChannel::OnCacheEntryAvailableInternal(nsICacheEntry *entry,
bool aNew,
nsIApplicationCache* aAppCache,
nsresult status)
{
nsresult rv;
if (mCanceled) {
LOG(("channel was canceled [this=%p status=%x]\n", this, mStatus));
return mStatus;
}
if (aAppCache) {
if (mApplicationCache == aAppCache && !mCacheEntry) {
rv = OnOfflineCacheEntryAvailable(entry, aNew, aAppCache, status);
}
else if (mApplicationCacheForWrite == aAppCache && aNew && !mOfflineCacheEntry) {
rv = OnOfflineCacheEntryForWritingAvailable(entry, aAppCache, status);
}
else {
rv = OnOfflineCacheEntryAvailable(entry, aNew, aAppCache, status);
}
}
else {
rv = OnNormalCacheEntryAvailable(entry, aNew, status);
}
if (NS_FAILED(rv) && (mLoadFlags & LOAD_ONLY_FROM_CACHE)) {
// If we have a fallback URI (and we're not already
// falling back), process the fallback asynchronously.
if (!mFallbackChannel && !mFallbackKey.IsEmpty()) {
return AsyncCall(&nsHttpChannel::HandleAsyncFallback);
}
if (mIsPackagedAppResource) {
// We need to return FILE_NOT_FOUND in case an error occurs
// or we will take the user to the <you're offline> screen.
return NS_ERROR_FILE_NOT_FOUND;
}
return NS_ERROR_DOCUMENT_NOT_CACHED;
}
if (NS_FAILED(rv)) {
return rv;
}
// We may be waiting for more callbacks...
if (AwaitingCacheCallbacks()) {
return NS_OK;
}
return ContinueConnect();
}
nsresult
nsHttpChannel::OnNormalCacheEntryAvailable(nsICacheEntry *aEntry,
bool aNew,
nsresult aEntryStatus)
{
mCacheEntriesToWaitFor &= ~WAIT_FOR_CACHE_ENTRY;
if (NS_FAILED(aEntryStatus) || aNew) {
// Make sure this flag is dropped. It may happen the entry is doomed
// between OnCacheEntryCheck and OnCacheEntryAvailable.
mCachedContentIsValid = false;
// From the same reason remove any conditional headers added
// in OnCacheEntryCheck.
if (mDidReval) {
LOG((" Removing conditional request headers"));
UntieValidationRequest();
mDidReval = false;
}
if (mLoadFlags & LOAD_ONLY_FROM_CACHE) {
// if this channel is only allowed to pull from the cache, then
// we must fail if we were unable to open a cache entry for read.
return NS_ERROR_DOCUMENT_NOT_CACHED;
}
}
if (NS_SUCCEEDED(aEntryStatus)) {
mCacheEntry = aEntry;
mCacheEntryIsWriteOnly = aNew;
if (mLoadFlags & LOAD_INITIAL_DOCUMENT_URI) {
Telemetry::Accumulate(Telemetry::HTTP_OFFLINE_CACHE_DOCUMENT_LOAD,
false);
}
}
return NS_OK;
}
nsresult
nsHttpChannel::OnOfflineCacheEntryAvailable(nsICacheEntry *aEntry,
bool aNew,
nsIApplicationCache* aAppCache,
nsresult aEntryStatus)
{
MOZ_ASSERT(!mApplicationCache || aAppCache == mApplicationCache);
MOZ_ASSERT(!aNew || !aEntry || mApplicationCacheForWrite);
mCacheEntriesToWaitFor &= ~WAIT_FOR_CACHE_ENTRY;
nsresult rv;
if (NS_SUCCEEDED(aEntryStatus)) {
if (!mApplicationCache) {
mApplicationCache = aAppCache;
}
// We successfully opened an offline cache session and the entry,
// so indicate we will load from the offline cache.
mLoadedFromApplicationCache = true;
mCacheEntryIsReadOnly = true;
mCacheEntry = aEntry;
mCacheEntryIsWriteOnly = false;
if (mLoadFlags & LOAD_INITIAL_DOCUMENT_URI && !mApplicationCacheForWrite) {
MaybeWarnAboutAppCache();
}
return NS_OK;
}
if (!mApplicationCacheForWrite && !mFallbackChannel) {
if (!mApplicationCache) {
mApplicationCache = aAppCache;
}
// Check for namespace match.
nsCOMPtr<nsIApplicationCacheNamespace> namespaceEntry;
rv = mApplicationCache->GetMatchingNamespace(mSpec,
getter_AddRefs(namespaceEntry));
NS_ENSURE_SUCCESS(rv, rv);
uint32_t namespaceType = 0;
if (!namespaceEntry ||
NS_FAILED(namespaceEntry->GetItemType(&namespaceType)) ||
(namespaceType &
(nsIApplicationCacheNamespace::NAMESPACE_FALLBACK |
nsIApplicationCacheNamespace::NAMESPACE_BYPASS)) == 0) {
// When loading from an application cache, only items
// on the whitelist or matching a
// fallback namespace should hit the network...
mLoadFlags |= LOAD_ONLY_FROM_CACHE;
// ... and if there were an application cache entry,
// we would have found it earlier.
return NS_ERROR_CACHE_KEY_NOT_FOUND;
}
if (namespaceType &
nsIApplicationCacheNamespace::NAMESPACE_FALLBACK) {
nsAutoCString namespaceSpec;
rv = namespaceEntry->GetNamespaceSpec(namespaceSpec);
NS_ENSURE_SUCCESS(rv, rv);
// This prevents fallback attacks injected by an insecure subdirectory
// for the whole origin (or a parent directory).
if (!IsInSubpathOfAppCacheManifest(mApplicationCache, namespaceSpec)) {
return NS_OK;
}
rv = namespaceEntry->GetData(mFallbackKey);
NS_ENSURE_SUCCESS(rv, rv);
}
}
return NS_OK;
}
nsresult
nsHttpChannel::OnOfflineCacheEntryForWritingAvailable(nsICacheEntry *aEntry,
nsIApplicationCache* aAppCache,
nsresult aEntryStatus)
{
MOZ_ASSERT(mApplicationCacheForWrite && aAppCache == mApplicationCacheForWrite);
mCacheEntriesToWaitFor &= ~WAIT_FOR_OFFLINE_CACHE_ENTRY;
if (NS_SUCCEEDED(aEntryStatus)) {
mOfflineCacheEntry = aEntry;
if (NS_FAILED(aEntry->GetLastModified(&mOfflineCacheLastModifiedTime))) {
mOfflineCacheLastModifiedTime = 0;
}
}
return aEntryStatus;
}
// Generates the proper cache-key for this instance of nsHttpChannel
nsresult
nsHttpChannel::GenerateCacheKey(uint32_t postID, nsACString &cacheKey)
{
AssembleCacheKey(mFallbackChannel ? mFallbackKey.get() : mSpec.get(),
postID, cacheKey);
return NS_OK;
}
// Assembles a cache-key from the given pieces of information and |mLoadFlags|
void
nsHttpChannel::AssembleCacheKey(const char *spec, uint32_t postID,
nsACString &cacheKey)
{
cacheKey.Truncate();
if (mLoadFlags & LOAD_ANONYMOUS) {
cacheKey.AssignLiteral("anon&");
}
if (postID) {
char buf[32];
PR_snprintf(buf, sizeof(buf), "id=%x&", postID);
cacheKey.Append(buf);
}
if (!cacheKey.IsEmpty()) {
cacheKey.AppendLiteral("uri=");
}
// Strip any trailing #ref from the URL before using it as the key
const char *p = VMX_STRCHR(spec, '#');
if (p)
cacheKey.Append(spec, p - spec);
else
cacheKey.Append(spec);
}
nsresult
DoUpdateExpirationTime(nsHttpChannel* aSelf,
nsICacheEntry* aCacheEntry,
nsHttpResponseHead* aResponseHead,
uint32_t& aExpirationTime)
{
MOZ_ASSERT(aExpirationTime == 0);
NS_ENSURE_TRUE(aResponseHead, NS_ERROR_FAILURE);
nsresult rv;
if (!aResponseHead->MustValidate()) {
uint32_t freshnessLifetime = 0;
rv = aResponseHead->ComputeFreshnessLifetime(&freshnessLifetime);
if (NS_FAILED(rv)) return rv;
if (freshnessLifetime > 0) {
uint32_t now = NowInSeconds(), currentAge = 0;
rv = aResponseHead->ComputeCurrentAge(now, aSelf->GetRequestTime(), &currentAge);
if (NS_FAILED(rv)) return rv;
LOG(("freshnessLifetime = %u, currentAge = %u\n",
freshnessLifetime, currentAge));
if (freshnessLifetime > currentAge) {
uint32_t timeRemaining = freshnessLifetime - currentAge;
// be careful... now + timeRemaining may overflow
if (now + timeRemaining < now)
aExpirationTime = uint32_t(-1);
else
aExpirationTime = now + timeRemaining;
}
else
aExpirationTime = now;
}
}
rv = aCacheEntry->SetExpirationTime(aExpirationTime);
NS_ENSURE_SUCCESS(rv, rv);
return rv;
}
// UpdateExpirationTime is called when a new response comes in from the server.
// It updates the stored response-time and sets the expiration time on the
// cache entry.
//
// From section 13.2.4 of RFC2616, we compute expiration time as follows:
//
// timeRemaining = freshnessLifetime - currentAge
// expirationTime = now + timeRemaining
//
nsresult
nsHttpChannel::UpdateExpirationTime()
{
uint32_t expirationTime = 0;
nsresult rv = DoUpdateExpirationTime(this, mCacheEntry, mResponseHead, expirationTime);
NS_ENSURE_SUCCESS(rv, rv);
if (mOfflineCacheEntry) {
rv = mOfflineCacheEntry->SetExpirationTime(expirationTime);
NS_ENSURE_SUCCESS(rv, rv);
}
return NS_OK;
}
/*static*/ inline bool
nsHttpChannel::HasQueryString(nsHttpRequestHead::ParsedMethodType method, nsIURI * uri)
{
// Must be called on the main thread because nsIURI does not implement
// thread-safe QueryInterface.
MOZ_ASSERT(NS_IsMainThread());
if (method != nsHttpRequestHead::kMethod_Get &&
method != nsHttpRequestHead::kMethod_Head)
return false;
nsAutoCString query;
nsCOMPtr<nsIURL> url = do_QueryInterface(uri);
nsresult rv = url->GetQuery(query);
return NS_SUCCEEDED(rv) && !query.IsEmpty();
}
bool
nsHttpChannel::ShouldUpdateOfflineCacheEntry()
{
if (!mApplicationCacheForWrite || !mOfflineCacheEntry) {
return false;
}
// if we're updating the cache entry, update the offline cache entry too
if (mCacheEntry && mCacheEntryIsWriteOnly) {
return true;
}
// if there's nothing in the offline cache, add it
if (mOfflineCacheEntry) {
return true;
}
// if the document is newer than the offline entry, update it
uint32_t docLastModifiedTime;
nsresult rv = mResponseHead->GetLastModifiedValue(&docLastModifiedTime);
if (NS_FAILED(rv)) {
return true;
}
if (mOfflineCacheLastModifiedTime == 0) {
return false;
}
if (docLastModifiedTime > mOfflineCacheLastModifiedTime) {
return true;
}
return false;
}
nsresult
nsHttpChannel::OpenCacheInputStream(nsICacheEntry* cacheEntry, bool startBuffering,
bool checkingAppCacheEntry)
{
nsresult rv;
bool isHttps = false;
rv = mURI->SchemeIs("https", &isHttps);
NS_ENSURE_SUCCESS(rv,rv);
if (isHttps) {
rv = cacheEntry->GetSecurityInfo(
getter_AddRefs(mCachedSecurityInfo));
if (NS_FAILED(rv)) {
LOG(("failed to parse security-info [channel=%p, entry=%p]",
this, cacheEntry));
NS_WARNING("failed to parse security-info");
cacheEntry->AsyncDoom(nullptr);
return rv;
}
// XXX: We should not be skilling this check in the offline cache
// case, but we have to do so now to work around bug 794507.
bool mustHaveSecurityInfo = !mLoadedFromApplicationCache && !checkingAppCacheEntry;
MOZ_ASSERT(mCachedSecurityInfo || !mustHaveSecurityInfo);
if (!mCachedSecurityInfo && mustHaveSecurityInfo) {
LOG(("mCacheEntry->GetSecurityInfo returned success but did not "
"return the security info [channel=%p, entry=%p]",
this, cacheEntry));
cacheEntry->AsyncDoom(nullptr);
return NS_ERROR_UNEXPECTED; // XXX error code
}
}
// Keep the conditions below in sync with the conditions in ReadFromCache.
rv = NS_OK;
if (WillRedirect(mCachedResponseHead)) {
// Do not even try to read the entity for a redirect because we do not
// return an entity to the application when we process redirects.
LOG(("Will skip read of cached redirect entity\n"));
return NS_OK;
}
if ((mLoadFlags & nsICachingChannel::LOAD_ONLY_IF_MODIFIED) &&
!mCachedContentIsPartial) {
// For LOAD_ONLY_IF_MODIFIED, we usually don't have to deal with the
// cached entity.
if (!mApplicationCacheForWrite) {
LOG(("Will skip read from cache based on LOAD_ONLY_IF_MODIFIED "
"load flag\n"));
return NS_OK;
}
// If offline caching has been requested and the offline cache needs
// updating, we must complete the call even if the main cache entry
// is up to date. We don't know yet for sure whether the offline
// cache needs updating because at this point we haven't opened it
// for writing yet, so we have to start reading the cached entity now
// just in case.
LOG(("May skip read from cache based on LOAD_ONLY_IF_MODIFIED "
"load flag\n"));
}
// Open an input stream for the entity, so that the call to OpenInputStream
// happens off the main thread.
nsCOMPtr<nsIInputStream> stream;
rv = cacheEntry->OpenInputStream(0, getter_AddRefs(stream));
if (NS_FAILED(rv)) {
LOG(("Failed to open cache input stream [channel=%p, "
"mCacheEntry=%p]", this, cacheEntry));
return rv;
}
if (startBuffering) {
bool nonBlocking;
rv = stream->IsNonBlocking(&nonBlocking);
if (NS_SUCCEEDED(rv) && nonBlocking)
startBuffering = false;
}
if (!startBuffering) {
// Bypass wrapping the input stream for the new cache back-end since
// nsIStreamTransportService expects a blocking stream. Preloading of
// the data must be done on the level of the cache backend, internally.
//
// We do not connect the stream to the stream transport service if we
// have to validate the entry with the server. If we did, we would get
// into a race condition between the stream transport service reading
// the existing contents and the opening of the cache entry's output
// stream to write the new contents in the case where we get a non-304
// response.
LOG(("Opened cache input stream without buffering [channel=%p, "
"mCacheEntry=%p, stream=%p]", this,
cacheEntry, stream.get()));
mCacheInputStream.takeOver(stream);
return rv;
}
// Have the stream transport service start reading the entity on one of its
// background threads.
nsCOMPtr<nsITransport> transport;
nsCOMPtr<nsIInputStream> wrapper;
nsCOMPtr<nsIStreamTransportService> sts =
do_GetService(kStreamTransportServiceCID, &rv);
if (NS_SUCCEEDED(rv)) {
rv = sts->CreateInputTransport(stream, int64_t(-1), int64_t(-1),
true, getter_AddRefs(transport));
}
if (NS_SUCCEEDED(rv)) {
rv = transport->OpenInputStream(0, 0, 0, getter_AddRefs(wrapper));
}
if (NS_SUCCEEDED(rv)) {
LOG(("Opened cache input stream [channel=%p, wrapper=%p, "
"transport=%p, stream=%p]", this, wrapper.get(),
transport.get(), stream.get()));
} else {
LOG(("Failed to open cache input stream [channel=%p, "
"wrapper=%p, transport=%p, stream=%p]", this,
wrapper.get(), transport.get(), stream.get()));
stream->Close();
return rv;
}
mCacheInputStream.takeOver(wrapper);
return NS_OK;
}
// Actually process the cached response that we started to handle in CheckCache
// and/or StartBufferingCachedEntity.
nsresult
nsHttpChannel::ReadFromCache(bool alreadyMarkedValid)
{
NS_ENSURE_TRUE(mCacheEntry, NS_ERROR_FAILURE);
NS_ENSURE_TRUE(mCachedContentIsValid, NS_ERROR_FAILURE);
LOG(("nsHttpChannel::ReadFromCache [this=%p] "
"Using cached copy of: %s\n", this, mSpec.get()));
if (mCachedResponseHead)
mResponseHead = Move(mCachedResponseHead);
UpdateInhibitPersistentCachingFlag();
// if we don't already have security info, try to get it from the cache
// entry. there are two cases to consider here: 1) we are just reading
// from the cache, or 2) this may be due to a 304 not modified response,
// in which case we could have security info from a socket transport.
if (!mSecurityInfo)
mSecurityInfo = mCachedSecurityInfo;
if (!alreadyMarkedValid && !mCachedContentIsPartial) {
// We validated the entry, and we have write access to the cache, so
// mark the cache entry as valid in order to allow others access to
// this cache entry.
//
// TODO: This should be done asynchronously so we don't take the cache
// service lock on the main thread.
mCacheEntry->MaybeMarkValid();
}
nsresult rv;
// Keep the conditions below in sync with the conditions in
// StartBufferingCachedEntity.
if (WillRedirect(mResponseHead)) {
// TODO: Bug 759040 - We should call HandleAsyncRedirect directly here,
// to avoid event dispatching latency.
MOZ_ASSERT(!mCacheInputStream);
LOG(("Skipping skip read of cached redirect entity\n"));
return AsyncCall(&nsHttpChannel::HandleAsyncRedirect);
}
if ((mLoadFlags & LOAD_ONLY_IF_MODIFIED) && !mCachedContentIsPartial) {
if (!mApplicationCacheForWrite) {
LOG(("Skipping read from cache based on LOAD_ONLY_IF_MODIFIED "
"load flag\n"));
MOZ_ASSERT(!mCacheInputStream);
// TODO: Bug 759040 - We should call HandleAsyncNotModified directly
// here, to avoid event dispatching latency.
return AsyncCall(&nsHttpChannel::HandleAsyncNotModified);
}
if (!ShouldUpdateOfflineCacheEntry()) {
LOG(("Skipping read from cache based on LOAD_ONLY_IF_MODIFIED "
"load flag (mApplicationCacheForWrite not null case)\n"));
mCacheInputStream.CloseAndRelease();
// TODO: Bug 759040 - We should call HandleAsyncNotModified directly
// here, to avoid event dispatching latency.
return AsyncCall(&nsHttpChannel::HandleAsyncNotModified);
}
}
MOZ_ASSERT(mCacheInputStream);
if (!mCacheInputStream) {
NS_ERROR("mCacheInputStream is null but we're expecting to "
"be able to read from it.");
return NS_ERROR_UNEXPECTED;
}
nsCOMPtr<nsIInputStream> inputStream = mCacheInputStream.forget();
rv = nsInputStreamPump::Create(getter_AddRefs(mCachePump), inputStream,
int64_t(-1), int64_t(-1), 0, 0, true);
if (NS_FAILED(rv)) {
inputStream->Close();
return rv;
}
rv = mCachePump->AsyncRead(this, mListenerContext);
if (NS_FAILED(rv)) return rv;
if (mTimingEnabled)
mCacheReadStart = TimeStamp::Now();
uint32_t suspendCount = mSuspendCount;
while (suspendCount--)
mCachePump->Suspend();
return NS_OK;
}
void
nsHttpChannel::CloseCacheEntry(bool doomOnFailure)
{
mCacheInputStream.CloseAndRelease();
if (!mCacheEntry)
return;
LOG(("nsHttpChannel::CloseCacheEntry [this=%p] mStatus=%x mCacheEntryIsWriteOnly=%x",
this, mStatus, mCacheEntryIsWriteOnly));
// If we have begun to create or replace a cache entry, and that cache
// entry is not complete and not resumable, then it needs to be doomed.
// Otherwise, CheckCache will make the mistake of thinking that the
// partial cache entry is complete.
bool doom = false;
if (mInitedCacheEntry) {
MOZ_ASSERT(mResponseHead, "oops");
if (NS_FAILED(mStatus) && doomOnFailure &&
mCacheEntryIsWriteOnly && !mResponseHead->IsResumable())
doom = true;
}
else if (mCacheEntryIsWriteOnly)
doom = true;
if (doom) {
LOG((" dooming cache entry!!"));
mCacheEntry->AsyncDoom(nullptr);
} else {
// Store updated security info, makes cached EV status race less likely
// (see bug 1040086)
if (mSecurityInfo)
mCacheEntry->SetSecurityInfo(mSecurityInfo);
}
mCachedResponseHead = nullptr;
mCachePump = nullptr;
mCacheEntry = nullptr;
mCacheEntryIsWriteOnly = false;
mInitedCacheEntry = false;
}
void
nsHttpChannel::CloseOfflineCacheEntry()
{
if (!mOfflineCacheEntry)
return;
LOG(("nsHttpChannel::CloseOfflineCacheEntry [this=%p]", this));
if (NS_FAILED(mStatus)) {
mOfflineCacheEntry->AsyncDoom(nullptr);
}
else {
bool succeeded;
if (NS_SUCCEEDED(GetRequestSucceeded(&succeeded)) && !succeeded)
mOfflineCacheEntry->AsyncDoom(nullptr);
}
mOfflineCacheEntry = nullptr;
}
// Initialize the cache entry for writing.
// - finalize storage policy
// - store security info
// - update expiration time
// - store headers and other meta data
nsresult
nsHttpChannel::InitCacheEntry()
{
nsresult rv;
NS_ENSURE_TRUE(mCacheEntry, NS_ERROR_UNEXPECTED);
// if only reading, nothing to be done here.
if (mCacheEntryIsReadOnly)
return NS_OK;
// Don't cache the response again if already cached...
if (mCachedContentIsValid)
return NS_OK;
LOG(("nsHttpChannel::InitCacheEntry [this=%p entry=%p]\n",
this, mCacheEntry.get()));
bool recreate = !mCacheEntryIsWriteOnly;
bool dontPersist = mLoadFlags & INHIBIT_PERSISTENT_CACHING;
if (!recreate && dontPersist) {
// If the current entry is persistent but we inhibit peristence
// then force recreation of the entry as memory/only.
rv = mCacheEntry->GetPersistent(&recreate);
if (NS_FAILED(rv))
return rv;
}
if (recreate) {
LOG((" we have a ready entry, but reading it again from the server -> recreating cache entry\n"));
nsCOMPtr<nsICacheEntry> currentEntry;
currentEntry.swap(mCacheEntry);
rv = currentEntry->Recreate(dontPersist, getter_AddRefs(mCacheEntry));
if (NS_FAILED(rv)) {
LOG((" recreation failed, the response will not be cached"));
return NS_OK;
}
mCacheEntryIsWriteOnly = true;
}
// Set the expiration time for this cache entry
rv = UpdateExpirationTime();
if (NS_FAILED(rv)) return rv;
rv = AddCacheEntryHeaders(mCacheEntry);
if (NS_FAILED(rv)) return rv;
mInitedCacheEntry = true;
// Don't perform the check when writing (doesn't make sense)
mConcurentCacheAccess = 0;
return NS_OK;
}
void
nsHttpChannel::UpdateInhibitPersistentCachingFlag()
{
// The no-store directive within the 'Cache-Control:' header indicates
// that we must not store the response in a persistent cache.
if (mResponseHead->NoStore())
mLoadFlags |= INHIBIT_PERSISTENT_CACHING;
// Only cache SSL content on disk if the pref is set
bool isHttps;
if (!gHttpHandler->IsPersistentHttpsCachingEnabled() &&
NS_SUCCEEDED(mURI->SchemeIs("https", &isHttps)) && isHttps) {
mLoadFlags |= INHIBIT_PERSISTENT_CACHING;
}
}
nsresult
nsHttpChannel::InitOfflineCacheEntry()
{
// This function can be called even when we fail to connect (bug 551990)
if (!mOfflineCacheEntry) {
return NS_OK;
}
if (!mResponseHead || mResponseHead->NoStore()) {
if (mResponseHead && mResponseHead->NoStore()) {
mOfflineCacheEntry->AsyncDoom(nullptr);
}
CloseOfflineCacheEntry();
if (mResponseHead && mResponseHead->NoStore()) {
return NS_ERROR_NOT_AVAILABLE;
}
return NS_OK;
}
// This entry's expiration time should match the main entry's expiration
// time. UpdateExpirationTime() will keep it in sync once the offline
// cache entry has been created.
if (mCacheEntry) {
uint32_t expirationTime;
nsresult rv = mCacheEntry->GetExpirationTime(&expirationTime);
NS_ENSURE_SUCCESS(rv, rv);
mOfflineCacheEntry->SetExpirationTime(expirationTime);
}
return AddCacheEntryHeaders(mOfflineCacheEntry);
}
nsresult
DoAddCacheEntryHeaders(nsHttpChannel *self,
nsICacheEntry *entry,
nsHttpRequestHead *requestHead,
nsHttpResponseHead *responseHead,
nsISupports *securityInfo)
{
nsresult rv;
LOG(("nsHttpChannel::AddCacheEntryHeaders [this=%p] begin", self));
// Store secure data in memory only
if (securityInfo)
entry->SetSecurityInfo(securityInfo);
// Store the HTTP request method with the cache entry so we can distinguish
// for example GET and HEAD responses.
rv = entry->SetMetaDataElement("request-method",
requestHead->Method().get());
if (NS_FAILED(rv)) return rv;
// Store the HTTP authorization scheme used if any...
rv = StoreAuthorizationMetaData(entry, requestHead);
if (NS_FAILED(rv)) return rv;
// Iterate over the headers listed in the Vary response header, and
// store the value of the corresponding request header so we can verify
// that it has not varied when we try to re-use the cached response at
// a later time. Take care to store "Cookie" headers only as hashes
// due to security considerations and the fact that they can be pretty
// large (bug 468426). We take care of "Vary: cookie" in ResponseWouldVary.
//
// NOTE: if "Vary: accept, cookie", then we will store the "accept" header
// in the cache. we could try to avoid needlessly storing the "accept"
// header in this case, but it doesn't seem worth the extra code to perform
// the check.
{
nsAutoCString buf, metaKey;
responseHead->GetHeader(nsHttp::Vary, buf);
if (!buf.IsEmpty()) {
NS_NAMED_LITERAL_CSTRING(prefix, "request-");
char *val = buf.BeginWriting(); // going to munge buf
char *token = nsCRT::strtok(val, NS_HTTP_HEADER_SEPS, &val);
while (token) {
LOG(("nsHttpChannel::AddCacheEntryHeaders [this=%p] " \
"processing %s", self, token));
if (*token != '*') {
nsHttpAtom atom = nsHttp::ResolveAtom(token);
const char *val = requestHead->PeekHeader(atom);
nsAutoCString hash;
if (val) {
// If cookie-header, store a hash of the value
if (atom == nsHttp::Cookie) {
LOG(("nsHttpChannel::AddCacheEntryHeaders [this=%p] " \
"cookie-value %s", self, val));
rv = Hash(val, hash);
// If hash failed, store a string not very likely
// to be the result of subsequent hashes
if (NS_FAILED(rv))
val = "<hash failed>";
else
val = hash.get();
LOG((" hashed to %s\n", val));
}
// build cache meta data key and set meta data element...
metaKey = prefix + nsDependentCString(token);
entry->SetMetaDataElement(metaKey.get(), val);
} else {
LOG(("nsHttpChannel::AddCacheEntryHeaders [this=%p] " \
"clearing metadata for %s", self, token));
metaKey = prefix + nsDependentCString(token);
entry->SetMetaDataElement(metaKey.get(), nullptr);
}
}
token = nsCRT::strtok(val, NS_HTTP_HEADER_SEPS, &val);
}
}
}
// Store the received HTTP head with the cache entry as an element of
// the meta data.
nsAutoCString head;
responseHead->Flatten(head, true);
rv = entry->SetMetaDataElement("response-head", head.get());
if (NS_FAILED(rv)) return rv;
// Indicate we have successfully finished setting metadata on the cache entry.
rv = entry->MetaDataReady();
return rv;
}
nsresult
nsHttpChannel::AddCacheEntryHeaders(nsICacheEntry *entry)
{
return DoAddCacheEntryHeaders(this, entry, &mRequestHead, mResponseHead, mSecurityInfo);
}
inline void
GetAuthType(const char *challenge, nsCString &authType)
{
const char *p;
// get the challenge type
if ((p = VMX_STRCHR(challenge, ' ')) != nullptr)
authType.Assign(challenge, p - challenge);
else
authType.Assign(challenge);
}
nsresult
StoreAuthorizationMetaData(nsICacheEntry *entry, nsHttpRequestHead *requestHead)
{
// Not applicable to proxy authorization...
const char *val = requestHead->PeekHeader(nsHttp::Authorization);
if (!val)
return NS_OK;
// eg. [Basic realm="wally world"]
nsAutoCString buf;
GetAuthType(val, buf);
return entry->SetMetaDataElement("auth", buf.get());
}
// Finalize the cache entry
// - may need to rewrite response headers if any headers changed
// - may need to recalculate the expiration time if any headers changed
// - called only for freshly written cache entries
nsresult
nsHttpChannel::FinalizeCacheEntry()
{
LOG(("nsHttpChannel::FinalizeCacheEntry [this=%p]\n", this));
if (mResponseHead && mResponseHeadersModified) {
// Set the expiration time for this cache entry
nsresult rv = UpdateExpirationTime();
if (NS_FAILED(rv)) return rv;
}
return NS_OK;
}
// Open an output stream to the cache entry and insert a listener tee into
// the chain of response listeners.
nsresult
nsHttpChannel::InstallCacheListener(int64_t offset)
{
nsresult rv;
LOG(("Preparing to write data into the cache [uri=%s]\n", mSpec.get()));
MOZ_ASSERT(mCacheEntry);
MOZ_ASSERT(mCacheEntryIsWriteOnly || mCachedContentIsPartial);
MOZ_ASSERT(mListener);
// If the content is compressible and the server has not compressed it,
// mark the cache entry for compression.
if ((mResponseHead->PeekHeader(nsHttp::Content_Encoding) == nullptr) && (
mResponseHead->ContentType().EqualsLiteral(TEXT_HTML) ||
mResponseHead->ContentType().EqualsLiteral(TEXT_PLAIN) ||
mResponseHead->ContentType().EqualsLiteral(TEXT_CSS) ||
mResponseHead->ContentType().EqualsLiteral(TEXT_JAVASCRIPT) ||
mResponseHead->ContentType().EqualsLiteral(TEXT_ECMASCRIPT) ||
mResponseHead->ContentType().EqualsLiteral(TEXT_XML) ||
mResponseHead->ContentType().EqualsLiteral(APPLICATION_JAVASCRIPT) ||
mResponseHead->ContentType().EqualsLiteral(APPLICATION_ECMASCRIPT) ||
mResponseHead->ContentType().EqualsLiteral(APPLICATION_XJAVASCRIPT) ||
mResponseHead->ContentType().EqualsLiteral(APPLICATION_XHTML_XML))) {
rv = mCacheEntry->SetMetaDataElement("uncompressed-len", "0");
if (NS_FAILED(rv)) {
LOG(("unable to mark cache entry for compression"));
}
}
LOG(("Trading cache input stream for output stream [channel=%p]", this));
// We must close the input stream first because cache entries do not
// correctly handle having an output stream and input streams open at
// the same time.
mCacheInputStream.CloseAndRelease();
nsCOMPtr<nsIOutputStream> out;
rv = mCacheEntry->OpenOutputStream(offset, getter_AddRefs(out));
if (rv == NS_ERROR_NOT_AVAILABLE) {
LOG((" entry doomed, not writing it [channel=%p]", this));
// Entry is already doomed.
// This may happen when expiration time is set to past and the entry
// has been removed by the background eviction logic.
return NS_OK;
}
if (NS_FAILED(rv)) return rv;
if (mCacheOnlyMetadata) {
LOG(("Not storing content, cacheOnlyMetadata set"));
// We must open and then close the output stream of the cache entry.
// This way we indicate the content has been written (despite with zero
// length) and the entry is now in the ready state with "having data".
out->Close();
return NS_OK;
}
// XXX disk cache does not support overlapped i/o yet
#if 0
// Mark entry valid inorder to allow simultaneous reading...
rv = mCacheEntry->MarkValid();
if (NS_FAILED(rv)) return rv;
#endif
nsCOMPtr<nsIStreamListenerTee> tee =
do_CreateInstance(kStreamListenerTeeCID, &rv);
if (NS_FAILED(rv)) return rv;
nsCOMPtr<nsIEventTarget> cacheIOTarget;
if (!CacheObserver::UseNewCache()) {
nsCOMPtr<nsICacheStorageService> serv =
do_GetService("@mozilla.org/netwerk/cache-storage-service;1", &rv);
NS_ENSURE_SUCCESS(rv, rv);
serv->GetIoTarget(getter_AddRefs(cacheIOTarget));
}
if (!cacheIOTarget) {
LOG(("nsHttpChannel::InstallCacheListener sync tee %p rv=%x "
"cacheIOTarget=%p", tee.get(), rv, cacheIOTarget.get()));
rv = tee->Init(mListener, out, nullptr);
} else {
LOG(("nsHttpChannel::InstallCacheListener async tee %p", tee.get()));
rv = tee->InitAsync(mListener, cacheIOTarget, out, nullptr);
}
if (NS_FAILED(rv)) return rv;
mListener = tee;
return NS_OK;
}
nsresult
nsHttpChannel::InstallOfflineCacheListener(int64_t offset)
{
nsresult rv;
LOG(("Preparing to write data into the offline cache [uri=%s]\n",
mSpec.get()));
MOZ_ASSERT(mOfflineCacheEntry);
MOZ_ASSERT(mListener);
nsCOMPtr<nsIOutputStream> out;
rv = mOfflineCacheEntry->OpenOutputStream(offset, getter_AddRefs(out));
if (NS_FAILED(rv)) return rv;
nsCOMPtr<nsIStreamListenerTee> tee =
do_CreateInstance(kStreamListenerTeeCID, &rv);
if (NS_FAILED(rv)) return rv;
rv = tee->Init(mListener, out, nullptr);
if (NS_FAILED(rv)) return rv;
mListener = tee;
return NS_OK;
}
void
nsHttpChannel::ClearBogusContentEncodingIfNeeded()
{
// For .gz files, apache sends both a Content-Type: application/x-gzip
// as well as Content-Encoding: gzip, which is completely wrong. In
// this case, we choose to ignore the rogue Content-Encoding header. We
// must do this early on so as to prevent it from being seen up stream.
// The same problem exists for Content-Encoding: compress in default
// Apache installs.
if (mResponseHead->HasHeaderValue(nsHttp::Content_Encoding, "gzip") && (
mResponseHead->ContentType().EqualsLiteral(APPLICATION_GZIP) ||
mResponseHead->ContentType().EqualsLiteral(APPLICATION_GZIP2) ||
mResponseHead->ContentType().EqualsLiteral(APPLICATION_GZIP3))) {
// clear the Content-Encoding header
mResponseHead->ClearHeader(nsHttp::Content_Encoding);
}
else if (mResponseHead->HasHeaderValue(nsHttp::Content_Encoding, "compress") && (
mResponseHead->ContentType().EqualsLiteral(APPLICATION_COMPRESS) ||
mResponseHead->ContentType().EqualsLiteral(APPLICATION_COMPRESS2))) {
// clear the Content-Encoding header
mResponseHead->ClearHeader(nsHttp::Content_Encoding);
}
}
//-----------------------------------------------------------------------------
// nsHttpChannel <redirect>
//-----------------------------------------------------------------------------
nsresult
nsHttpChannel::SetupReplacementChannel(nsIURI *newURI,
nsIChannel *newChannel,
bool preserveMethod,
uint32_t redirectFlags)
{
LOG(("nsHttpChannel::SetupReplacementChannel "
"[this=%p newChannel=%p preserveMethod=%d]",
this, newChannel, preserveMethod));
nsresult rv =
HttpBaseChannel::SetupReplacementChannel(newURI, newChannel,
preserveMethod, redirectFlags);
if (NS_FAILED(rv))
return rv;
nsCOMPtr<nsIHttpChannel> httpChannel = do_QueryInterface(newChannel);
if (!httpChannel)
return NS_OK; // no other options to set
// convey the mApplyConversion flag (bug 91862)
nsCOMPtr<nsIEncodedChannel> encodedChannel = do_QueryInterface(httpChannel);
if (encodedChannel)
encodedChannel->SetApplyConversion(mApplyConversion);
// transfer the resume information
if (mResuming) {
nsCOMPtr<nsIResumableChannel> resumableChannel(do_QueryInterface(newChannel));
if (!resumableChannel) {
NS_WARNING("Got asked to resume, but redirected to non-resumable channel!");
return NS_ERROR_NOT_RESUMABLE;
}
resumableChannel->ResumeAt(mStartPos, mEntityID);
}
return NS_OK;
}
nsresult
nsHttpChannel::AsyncProcessRedirection(uint32_t redirectType)
{
LOG(("nsHttpChannel::AsyncProcessRedirection [this=%p type=%u]\n",
this, redirectType));
const char *location = mResponseHead->PeekHeader(nsHttp::Location);
// if a location header was not given, then we can't perform the redirect,
// so just carry on as though this were a normal response.
if (!location)
return NS_ERROR_FAILURE;
// make sure non-ASCII characters in the location header are escaped.
nsAutoCString locationBuf;
if (NS_EscapeURL(location, -1, esc_OnlyNonASCII, locationBuf))
location = locationBuf.get();
if (mRedirectionLimit == 0) {
LOG(("redirection limit reached!\n"));
return NS_ERROR_REDIRECT_LOOP;
}
mRedirectType = redirectType;
LOG(("redirecting to: %s [redirection-limit=%u]\n",
location, uint32_t(mRedirectionLimit)));
nsresult rv = CreateNewURI(location, getter_AddRefs(mRedirectURI));
if (NS_FAILED(rv)) {
LOG(("Invalid URI for redirect: Location: %s\n", location));
return NS_ERROR_CORRUPTED_CONTENT;
}
if (mApplicationCache) {
// if we are redirected to a different origin check if there is a fallback
// cache entry to fall back to. we don't care about file strict
// checking, at least mURI is not a file URI.
if (!NS_SecurityCompareURIs(mURI, mRedirectURI, false)) {
PushRedirectAsyncFunc(&nsHttpChannel::ContinueProcessRedirectionAfterFallback);
bool waitingForRedirectCallback;
(void)ProcessFallback(&waitingForRedirectCallback);
if (waitingForRedirectCallback)
return NS_OK;
PopRedirectAsyncFunc(&nsHttpChannel::ContinueProcessRedirectionAfterFallback);
}
}
return ContinueProcessRedirectionAfterFallback(NS_OK);
}
nsresult
nsHttpChannel::ContinueProcessRedirectionAfterFallback(nsresult rv)
{
if (NS_SUCCEEDED(rv) && mFallingBack) {
// do not continue with redirect processing, fallback is in
// progress now.
return NS_OK;
}
// Kill the current cache entry if we are redirecting
// back to ourself.
bool redirectingBackToSameURI = false;
if (mCacheEntry && mCacheEntryIsWriteOnly &&
NS_SUCCEEDED(mURI->Equals(mRedirectURI, &redirectingBackToSameURI)) &&
redirectingBackToSameURI)
mCacheEntry->AsyncDoom(nullptr);
// move the reference of the old location to the new one if the new
// one has none.
nsAutoCString ref;
rv = mRedirectURI->GetRef(ref);
if (NS_SUCCEEDED(rv) && ref.IsEmpty()) {
mURI->GetRef(ref);
if (!ref.IsEmpty()) {
// NOTE: SetRef will fail if mRedirectURI is immutable
// (e.g. an about: URI)... Oh well.
mRedirectURI->SetRef(ref);
}
}
bool rewriteToGET = ShouldRewriteRedirectToGET(mRedirectType,
mRequestHead.ParsedMethod());
// prompt if the method is not safe (such as POST, PUT, DELETE, ...)
if (!rewriteToGET && !mRequestHead.IsSafeMethod()) {
rv = PromptTempRedirect();
if (NS_FAILED(rv)) return rv;
}
nsCOMPtr<nsIIOService> ioService;
rv = gHttpHandler->GetIOService(getter_AddRefs(ioService));
if (NS_FAILED(rv)) return rv;
nsCOMPtr<nsIChannel> newChannel;
rv = NS_NewChannelInternal(getter_AddRefs(newChannel),
mRedirectURI,
mLoadInfo,
nullptr, // aLoadGroup
nullptr, // aCallbacks
nsIRequest::LOAD_NORMAL,
ioService);
NS_ENSURE_SUCCESS(rv, rv);
uint32_t redirectFlags;
if (nsHttp::IsPermanentRedirect(mRedirectType))
redirectFlags = nsIChannelEventSink::REDIRECT_PERMANENT;
else
redirectFlags = nsIChannelEventSink::REDIRECT_TEMPORARY;
rv = SetupReplacementChannel(mRedirectURI, newChannel,
!rewriteToGET, redirectFlags);
if (NS_FAILED(rv)) return rv;
// verify that this is a legal redirect
mRedirectChannel = newChannel;
PushRedirectAsyncFunc(&nsHttpChannel::ContinueProcessRedirection);
rv = gHttpHandler->AsyncOnChannelRedirect(this, newChannel, redirectFlags);
if (NS_SUCCEEDED(rv))
rv = WaitForRedirectCallback();
if (NS_FAILED(rv)) {
AutoRedirectVetoNotifier notifier(this);
PopRedirectAsyncFunc(&nsHttpChannel::ContinueProcessRedirection);
}
return rv;
}
nsresult
nsHttpChannel::ContinueProcessRedirection(nsresult rv)
{
AutoRedirectVetoNotifier notifier(this);
LOG(("nsHttpChannel::ContinueProcessRedirection [rv=%x,this=%p]\n", rv,
this));
if (NS_FAILED(rv))
return rv;
NS_PRECONDITION(mRedirectChannel, "No redirect channel?");
// Make sure to do this _after_ calling OnChannelRedirect
mRedirectChannel->SetOriginalURI(mOriginalURI);
// And now, the deprecated way
nsCOMPtr<nsIHttpEventSink> httpEventSink;
GetCallback(httpEventSink);
if (httpEventSink) {
// NOTE: nsIHttpEventSink is only used for compatibility with pre-1.8
// versions.
rv = httpEventSink->OnRedirect(this, mRedirectChannel);
if (NS_FAILED(rv))
return rv;
}
// XXX we used to talk directly with the script security manager, but that
// should really be handled by the event sink implementation.
// begin loading the new channel
if (mLoadInfo && mLoadInfo->GetEnforceSecurity()) {
MOZ_ASSERT(!mListenerContext, "mListenerContext should be null!");
rv = mRedirectChannel->AsyncOpen2(mListener);
}
else {
rv = mRedirectChannel->AsyncOpen(mListener, mListenerContext);
}
NS_ENSURE_SUCCESS(rv, rv);
// close down this channel
Cancel(NS_BINDING_REDIRECTED);
notifier.RedirectSucceeded();
ReleaseListeners();
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsHttpChannel <auth>
//-----------------------------------------------------------------------------
NS_IMETHODIMP nsHttpChannel::OnAuthAvailable()
{
LOG(("nsHttpChannel::OnAuthAvailable [this=%p]", this));
// setting mAuthRetryPending flag and resuming the transaction
// triggers process of throwing away the unauthenticated data already
// coming from the network
mAuthRetryPending = true;
mProxyAuthPending = false;
LOG(("Resuming the transaction, we got credentials from user"));
mTransactionPump->Resume();
return NS_OK;
}
NS_IMETHODIMP nsHttpChannel::OnAuthCancelled(bool userCancel)
{
LOG(("nsHttpChannel::OnAuthCancelled [this=%p]", this));
if (mTransactionPump) {
// If the channel is trying to authenticate to a proxy and
// that was canceled we cannot show the http response body
// from the 40x as that might mislead the user into thinking
// it was a end host response instead of a proxy reponse.
// This must check explicitly whether a proxy auth was being done
// because we do want to show the content if this is an error from
// the origin server.
if (mProxyAuthPending)
Cancel(NS_ERROR_PROXY_CONNECTION_REFUSED);
// ensure call of OnStartRequest of the current listener here,
// it would not be called otherwise at all
nsresult rv = CallOnStartRequest();
// drop mAuthRetryPending flag and resume the transaction
// this resumes load of the unauthenticated content data (which
// may have been canceled if we don't want to show it)
mAuthRetryPending = false;
LOG(("Resuming the transaction, user cancelled the auth dialog"));
mTransactionPump->Resume();
if (NS_FAILED(rv))
mTransactionPump->Cancel(rv);
}
mProxyAuthPending = false;
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsISupports
//-----------------------------------------------------------------------------
NS_IMPL_ADDREF_INHERITED(nsHttpChannel, HttpBaseChannel)
NS_IMPL_RELEASE_INHERITED(nsHttpChannel, HttpBaseChannel)
NS_INTERFACE_MAP_BEGIN(nsHttpChannel)
NS_INTERFACE_MAP_ENTRY(nsIRequest)
NS_INTERFACE_MAP_ENTRY(nsIChannel)
NS_INTERFACE_MAP_ENTRY(nsIRequestObserver)
NS_INTERFACE_MAP_ENTRY(nsIStreamListener)
NS_INTERFACE_MAP_ENTRY(nsIPackagedAppChannelListener)
NS_INTERFACE_MAP_ENTRY(nsIHttpChannel)
NS_INTERFACE_MAP_ENTRY(nsICacheInfoChannel)
NS_INTERFACE_MAP_ENTRY(nsICachingChannel)
NS_INTERFACE_MAP_ENTRY(nsIClassOfService)
NS_INTERFACE_MAP_ENTRY(nsIUploadChannel)
NS_INTERFACE_MAP_ENTRY(nsIUploadChannel2)
NS_INTERFACE_MAP_ENTRY(nsICacheEntryOpenCallback)
NS_INTERFACE_MAP_ENTRY(nsIHttpChannelInternal)
NS_INTERFACE_MAP_ENTRY(nsIResumableChannel)
NS_INTERFACE_MAP_ENTRY(nsITransportEventSink)
NS_INTERFACE_MAP_ENTRY(nsISupportsPriority)
NS_INTERFACE_MAP_ENTRY(nsIProtocolProxyCallback)
NS_INTERFACE_MAP_ENTRY(nsIProxiedChannel)
NS_INTERFACE_MAP_ENTRY(nsIHttpAuthenticableChannel)
NS_INTERFACE_MAP_ENTRY(nsIApplicationCacheContainer)
NS_INTERFACE_MAP_ENTRY(nsIApplicationCacheChannel)
NS_INTERFACE_MAP_ENTRY(nsIAsyncVerifyRedirectCallback)
NS_INTERFACE_MAP_ENTRY(nsIThreadRetargetableRequest)
NS_INTERFACE_MAP_ENTRY(nsIThreadRetargetableStreamListener)
NS_INTERFACE_MAP_ENTRY(nsIDNSListener)
NS_INTERFACE_MAP_ENTRY(nsISupportsWeakReference)
NS_INTERFACE_MAP_ENTRY(nsICorsPreflightCallback)
// we have no macro that covers this case.
if (aIID.Equals(NS_GET_IID(nsHttpChannel)) ) {
AddRef();
*aInstancePtr = this;
return NS_OK;
} else
NS_INTERFACE_MAP_END_INHERITING(HttpBaseChannel)
//-----------------------------------------------------------------------------
// nsHttpChannel::nsIRequest
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::Cancel(nsresult status)
{
MOZ_ASSERT(NS_IsMainThread());
// We should never have a pump open while a CORS preflight is in progress.
MOZ_ASSERT_IF(mPreflightChannel, !mCachePump);
LOG(("nsHttpChannel::Cancel [this=%p status=%x]\n", this, status));
if (mCanceled) {
LOG((" ignoring; already canceled\n"));
return NS_OK;
}
if (mWaitingForRedirectCallback) {
LOG(("channel canceled during wait for redirect callback"));
}
mCanceled = true;
mStatus = status;
if (mProxyRequest)
mProxyRequest->Cancel(status);
if (mTransaction)
gHttpHandler->CancelTransaction(mTransaction, status);
if (mTransactionPump)
mTransactionPump->Cancel(status);
mCacheInputStream.CloseAndRelease();
if (mCachePump)
mCachePump->Cancel(status);
if (mAuthProvider)
mAuthProvider->Cancel(status);
if (mPreflightChannel)
mPreflightChannel->Cancel(status);
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::Suspend()
{
NS_ENSURE_TRUE(mIsPending, NS_ERROR_NOT_AVAILABLE);
LOG(("nsHttpChannel::Suspend [this=%p]\n", this));
++mSuspendCount;
nsresult rvTransaction = NS_OK;
if (mTransactionPump) {
rvTransaction = mTransactionPump->Suspend();
}
nsresult rvCache = NS_OK;
if (mCachePump) {
rvCache = mCachePump->Suspend();
}
return NS_FAILED(rvTransaction) ? rvTransaction : rvCache;
}
NS_IMETHODIMP
nsHttpChannel::Resume()
{
NS_ENSURE_TRUE(mSuspendCount > 0, NS_ERROR_UNEXPECTED);
LOG(("nsHttpChannel::Resume [this=%p]\n", this));
if (--mSuspendCount == 0 && mCallOnResume) {
nsresult rv = AsyncCall(mCallOnResume);
mCallOnResume = nullptr;
NS_ENSURE_SUCCESS(rv, rv);
}
nsresult rvTransaction = NS_OK;
if (mTransactionPump) {
rvTransaction = mTransactionPump->Resume();
}
nsresult rvCache = NS_OK;
if (mCachePump) {
rvCache = mCachePump->Resume();
}
return NS_FAILED(rvTransaction) ? rvTransaction : rvCache;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsIChannel
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::GetSecurityInfo(nsISupports **securityInfo)
{
NS_ENSURE_ARG_POINTER(securityInfo);
*securityInfo = mSecurityInfo;
NS_IF_ADDREF(*securityInfo);
return NS_OK;
}
// If any of the functions that AsyncOpen calls returns immediately an error
// AsyncAbort(which calls onStart/onStopRequest) does not need to be call.
// To be sure that they are not call ReleaseListeners() is called.
// If AsyncOpen returns NS_OK, after that point AsyncAbort must be called on
// any error.
NS_IMETHODIMP
nsHttpChannel::AsyncOpen(nsIStreamListener *listener, nsISupports *context)
{
MOZ_ASSERT(!mLoadInfo ||
mLoadInfo->GetSecurityMode() == 0 ||
mLoadInfo->GetInitialSecurityCheckDone() ||
(mLoadInfo->GetSecurityMode() == nsILoadInfo::SEC_ALLOW_CROSS_ORIGIN_DATA_IS_NULL &&
nsContentUtils::IsSystemPrincipal(mLoadInfo->LoadingPrincipal())),
"security flags in loadInfo but asyncOpen2() not called");
LOG(("nsHttpChannel::AsyncOpen [this=%p]\n", this));
NS_ENSURE_ARG_POINTER(listener);
NS_ENSURE_TRUE(!mIsPending, NS_ERROR_IN_PROGRESS);
NS_ENSURE_TRUE(!mWasOpened, NS_ERROR_ALREADY_OPENED);
nsresult rv;
MOZ_ASSERT(NS_IsMainThread());
if (gHttpHandler->PackagedAppsEnabled()) {
nsAutoCString path;
nsCOMPtr<nsIURL> url(do_QueryInterface(mURI));
if (url) {
url->GetFilePath(path);
}
mIsPackagedAppResource = path.Find(PACKAGED_APP_TOKEN) != kNotFound;
}
rv = NS_CheckPortSafety(mURI);
if (NS_FAILED(rv)) {
ReleaseListeners();
return rv;
}
if (mInterceptCache != INTERCEPTED && ShouldIntercept()) {
mInterceptCache = MAYBE_INTERCEPT;
SetCouldBeSynthesized();
}
// Remember the cookie header that was set, if any
const char *cookieHeader = mRequestHead.PeekHeader(nsHttp::Cookie);
if (cookieHeader) {
mUserSetCookieHeader = cookieHeader;
}
AddCookiesToRequest();
// notify "http-on-opening-request" observers, but not if this is a redirect
if (!(mLoadFlags & LOAD_REPLACE)) {
gHttpHandler->OnOpeningRequest(this);
}
mIsPending = true;
mWasOpened = true;
mListener = listener;
mListenerContext = context;
// add ourselves to the load group. from this point forward, we'll report
// all failures asynchronously.
if (mLoadGroup)
mLoadGroup->AddRequest(this, nullptr);
// record asyncopen time unconditionally and clear it if we
// don't want it after OnModifyRequest() weighs in. But waiting for
// that to complete would mean we don't include proxy resolution in the
// timing.
mAsyncOpenTime = TimeStamp::Now();
// the only time we would already know the proxy information at this
// point would be if we were proxying a non-http protocol like ftp
if (!mProxyInfo && NS_SUCCEEDED(ResolveProxy()))
return NS_OK;
rv = BeginConnect();
if (NS_FAILED(rv))
ReleaseListeners();
return rv;
}
NS_IMETHODIMP
nsHttpChannel::AsyncOpen2(nsIStreamListener *aListener)
{
nsCOMPtr<nsIStreamListener> listener = aListener;
nsresult rv = nsContentSecurityManager::doContentSecurityCheck(this, listener);
NS_ENSURE_SUCCESS(rv, rv);
return AsyncOpen(listener, nullptr);
}
// BeginConnect() will not call AsyncAbort() on an error and if AsyncAbort needs
// to be called the function calling BeginConnect will need to call AsyncAbort.
// If BeginConnect is called from AsyncOpen, AsyncnAbort doesn't need to be
// called. If it is called form another function (e.g. the function is called
// from OnProxyAvailable) that function should call AsyncOpen.
nsresult
nsHttpChannel::BeginConnect()
{
LOG(("nsHttpChannel::BeginConnect [this=%p]\n", this));
nsresult rv;
// Construct connection info object
nsAutoCString host;
nsAutoCString scheme;
int32_t port = -1;
bool isHttps = false;
rv = mURI->GetScheme(scheme);
if (NS_SUCCEEDED(rv))
rv = mURI->SchemeIs("https", &isHttps);
if (NS_SUCCEEDED(rv))
rv = mURI->GetAsciiHost(host);
if (NS_SUCCEEDED(rv))
rv = mURI->GetPort(&port);
if (NS_SUCCEEDED(rv))
mURI->GetUsername(mUsername);
if (NS_SUCCEEDED(rv))
rv = mURI->GetAsciiSpec(mSpec);
if (NS_FAILED(rv)) {
return rv;
}
// Reject the URL if it doesn't specify a host
if (host.IsEmpty()) {
rv = NS_ERROR_MALFORMED_URI;
return rv;
}
LOG(("host=%s port=%d\n", host.get(), port));
LOG(("uri=%s\n", mSpec.get()));
nsCOMPtr<nsProxyInfo> proxyInfo;
if (mProxyInfo)
proxyInfo = do_QueryInterface(mProxyInfo);
mRequestHead.SetHTTPS(isHttps);
mRequestHead.SetOrigin(scheme, host, port);
RefPtr<AltSvcMapping> mapping;
if (mAllowAltSvc && // per channel
(scheme.Equals(NS_LITERAL_CSTRING("http")) ||
scheme.Equals(NS_LITERAL_CSTRING("https"))) &&
(!proxyInfo || proxyInfo->IsDirect()) &&
(mapping = gHttpHandler->GetAltServiceMapping(scheme,
host, port,
mPrivateBrowsing))) {
LOG(("nsHttpChannel %p Alt Service Mapping Found %s://%s:%d [%s]\n",
this, scheme.get(), mapping->AlternateHost().get(),
mapping->AlternatePort(), mapping->HashKey().get()));
if (!(mLoadFlags & LOAD_ANONYMOUS) && !mPrivateBrowsing) {
nsAutoCString altUsedLine(mapping->AlternateHost());
bool defaultPort = mapping->AlternatePort() ==
(isHttps ? NS_HTTPS_DEFAULT_PORT : NS_HTTP_DEFAULT_PORT);
if (!defaultPort) {
altUsedLine.AppendLiteral(":");
altUsedLine.AppendInt(mapping->AlternatePort());
}
mRequestHead.SetHeader(nsHttp::Alternate_Service_Used, altUsedLine);
}
nsCOMPtr<nsIConsoleService> consoleService =
do_GetService(NS_CONSOLESERVICE_CONTRACTID);
if (consoleService) {
nsAutoString message(NS_LITERAL_STRING("Alternate Service Mapping found: "));
AppendASCIItoUTF16(scheme.get(), message);
message.Append(NS_LITERAL_STRING("://"));
AppendASCIItoUTF16(host.get(), message);
message.Append(NS_LITERAL_STRING(":"));
message.AppendInt(port);
message.Append(NS_LITERAL_STRING(" to "));
AppendASCIItoUTF16(scheme.get(), message);
message.Append(NS_LITERAL_STRING("://"));
AppendASCIItoUTF16(mapping->AlternateHost().get(), message);
message.Append(NS_LITERAL_STRING(":"));
message.AppendInt(mapping->AlternatePort());
consoleService->LogStringMessage(message.get());
}
LOG(("nsHttpChannel %p Using connection info from altsvc mapping", this));
mapping->GetConnectionInfo(getter_AddRefs(mConnectionInfo), proxyInfo);
Telemetry::Accumulate(Telemetry::HTTP_TRANSACTION_USE_ALTSVC, true);
Telemetry::Accumulate(Telemetry::HTTP_TRANSACTION_USE_ALTSVC_OE, !isHttps);
} else {
LOG(("nsHttpChannel %p Using default connection info", this));
mConnectionInfo = new nsHttpConnectionInfo(host, port, EmptyCString(), mUsername, proxyInfo, isHttps);
Telemetry::Accumulate(Telemetry::HTTP_TRANSACTION_USE_ALTSVC, false);
}
// Set network interface id only when it's not empty to avoid
// rebuilding hash key.
if (!mNetworkInterfaceId.IsEmpty()) {
mConnectionInfo->SetNetworkInterfaceId(mNetworkInterfaceId);
}
mAuthProvider =
do_CreateInstance("@mozilla.org/network/http-channel-auth-provider;1",
&rv);
if (NS_SUCCEEDED(rv))
rv = mAuthProvider->Init(this);
if (NS_FAILED(rv)) {
return rv;
}
// check to see if authorization headers should be included
mAuthProvider->AddAuthorizationHeaders();
// notify "http-on-modify-request" observers
CallOnModifyRequestObservers();
// Check to see if we should redirect this channel elsewhere by
// nsIHttpChannel.redirectTo API request
if (mAPIRedirectToURI) {
return AsyncCall(&nsHttpChannel::HandleAsyncAPIRedirect);
}
// Check to see if this principal exists on local blocklists.
RefPtr<nsChannelClassifier> channelClassifier = new nsChannelClassifier();
if (mLoadFlags & LOAD_CLASSIFY_URI) {
nsCOMPtr<nsIURIClassifier> classifier = do_GetService(NS_URICLASSIFIERSERVICE_CONTRACTID);
bool tpEnabled = false;
channelClassifier->ShouldEnableTrackingProtection(this, &tpEnabled);
if (classifier && tpEnabled) {
// We skip speculative connections by setting mLocalBlocklist only
// when tracking protection is enabled. Though we could do this for
// both phishing and malware, it is not necessary for correctness,
// since no network events will be received while the
// nsChannelClassifier is in progress. See bug 1122691.
nsCOMPtr<nsIURI> uri;
rv = GetURI(getter_AddRefs(uri));
if (NS_SUCCEEDED(rv) && uri) {
nsAutoCString tables;
Preferences::GetCString("urlclassifier.trackingTable", &tables);
nsAutoCString results;
rv = classifier->ClassifyLocalWithTables(uri, tables, results);
if (NS_SUCCEEDED(rv) && !results.IsEmpty()) {
LOG(("nsHttpChannel::ClassifyLocalWithTables found "
"uri on local tracking blocklist [this=%p]",
this));
mLocalBlocklist = true;
} else {
LOG(("nsHttpChannel::ClassifyLocalWithTables no result "
"found [this=%p]", this));
}
}
}
}
// If mTimingEnabled flag is not set after OnModifyRequest() then
// clear the already recorded AsyncOpen value for consistency.
if (!mTimingEnabled)
mAsyncOpenTime = TimeStamp();
if (mIsPackagedAppResource) {
// If this is a packaged app resource, the content will be fetched
// by the packaged app service into the cache, and the cache entry will
// be passed to OnCacheEntryAvailable.
nsCOMPtr<nsIPackagedAppService> pas =
do_GetService("@mozilla.org/network/packaged-app-service;1", &rv);
if (NS_WARN_IF(NS_FAILED(rv))) {
AsyncAbort(rv);
return rv;
}
rv = pas->GetResource(this, this);
if (NS_FAILED(rv)) {
AsyncAbort(rv);
}
// We need to alter the flags so the cache entry returned by the
// packaged app service is always accepted. Revalidation is handled
// by the service.
mLoadFlags |= LOAD_ONLY_FROM_CACHE;
mLoadFlags |= LOAD_FROM_CACHE;
mLoadFlags &= ~VALIDATE_ALWAYS;
return rv;
}
// when proxying only use the pipeline bit if ProxyPipelining() allows it.
if (!mConnectionInfo->UsingConnect() && mConnectionInfo->UsingHttpProxy()) {
mCaps &= ~NS_HTTP_ALLOW_PIPELINING;
if (gHttpHandler->ProxyPipelining())
mCaps |= NS_HTTP_ALLOW_PIPELINING;
}
// if this somehow fails we can go on without it
gHttpHandler->AddConnectionHeader(&mRequestHead.Headers(), mCaps);
if (mLoadFlags & VALIDATE_ALWAYS || BYPASS_LOCAL_CACHE(mLoadFlags))
mCaps |= NS_HTTP_REFRESH_DNS;
if (!mLocalBlocklist && !mConnectionInfo->UsingHttpProxy() &&
!(mLoadFlags & (LOAD_NO_NETWORK_IO | LOAD_ONLY_FROM_CACHE))) {
// Start a DNS lookup very early in case the real open is queued the DNS can
// happen in parallel. Do not do so in the presence of an HTTP proxy as
// all lookups other than for the proxy itself are done by the proxy.
// Also we don't do a lookup if the LOAD_NO_NETWORK_IO or
// LOAD_ONLY_FROM_CACHE flags are set.
//
// We keep the DNS prefetch object around so that we can retrieve
// timing information from it. There is no guarantee that we actually
// use the DNS prefetch data for the real connection, but as we keep
// this data around for 3 minutes by default, this should almost always
// be correct, and even when it isn't, the timing still represents _a_
// valid DNS lookup timing for the site, even if it is not _the_
// timing we used.
LOG(("nsHttpChannel::BeginConnect [this=%p] prefetching%s\n",
this, mCaps & NS_HTTP_REFRESH_DNS ? ", refresh requested" : ""));
mDNSPrefetch = new nsDNSPrefetch(mURI, this, mTimingEnabled);
mDNSPrefetch->PrefetchHigh(mCaps & NS_HTTP_REFRESH_DNS);
}
// Adjust mCaps according to our request headers:
// - If "Connection: close" is set as a request header, then do not bother
// trying to establish a keep-alive connection.
if (mRequestHead.HasHeaderValue(nsHttp::Connection, "close"))
mCaps &= ~(NS_HTTP_ALLOW_KEEPALIVE | NS_HTTP_ALLOW_PIPELINING);
if (gHttpHandler->CriticalRequestPrioritization()) {
if (mClassOfService & nsIClassOfService::Leader) {
mCaps |= NS_HTTP_LOAD_AS_BLOCKING;
}
if (mClassOfService & nsIClassOfService::Unblocked) {
mCaps |= NS_HTTP_LOAD_UNBLOCKED;
}
}
// Force-Reload should reset the persistent connection pool for this host
if (mLoadFlags & LOAD_FRESH_CONNECTION) {
// just the initial document resets the whole pool
if (mLoadFlags & LOAD_INITIAL_DOCUMENT_URI) {
gHttpHandler->ConnMgr()->ClearAltServiceMappings();
gHttpHandler->ConnMgr()->DoShiftReloadConnectionCleanup(mConnectionInfo);
}
mCaps &= ~NS_HTTP_ALLOW_PIPELINING;
}
// We may have been cancelled already, either by on-modify-request
// listeners or load group observers; in that case, we should not send the
// request to the server
if (mCanceled) {
return mStatus;
}
if (!(mLoadFlags & LOAD_CLASSIFY_URI)) {
ContinueBeginConnect();
return NS_OK;
}
// mLocalBlocklist is true only if tracking protection is enabled and the
// URI is a tracking domain, it makes no guarantees about phishing or
// malware, so if LOAD_CLASSIFY_URI is true we must call
// nsChannelClassifier to catch phishing and malware URIs.
bool callContinueBeginConnect = true;
if (!mLocalBlocklist) {
// Here we call ContinueBeginConnectWithResult and not
// ContinueBeginConnect so that in the case of an error we do not start
// channelClassifier.
rv = ContinueBeginConnectWithResult();
if (NS_FAILED(rv)) {
return rv;
}
callContinueBeginConnect = false;
}
// nsChannelClassifier calls ContinueBeginConnect if it has not already
// been called, after optionally cancelling the channel once we have a
// remote verdict. We call a concrete class instead of an nsI* that might
// be overridden.
LOG(("nsHttpChannel::Starting nsChannelClassifier %p [this=%p]",
channelClassifier.get(), this));
channelClassifier->Start(this);
if (callContinueBeginConnect) {
ContinueBeginConnect();
}
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::GetEncodedBodySize(uint64_t *aEncodedBodySize)
{
if (mCacheEntry && !mCacheEntryIsWriteOnly) {
int64_t dataSize = 0;
mCacheEntry->GetDataSize(&dataSize);
*aEncodedBodySize = dataSize;
} else {
*aEncodedBodySize = mLogicalOffset;
}
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsIHttpChannelInternal
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::SetupFallbackChannel(const char *aFallbackKey)
{
ENSURE_CALLED_BEFORE_CONNECT();
LOG(("nsHttpChannel::SetupFallbackChannel [this=%p, key=%s]\n",
this, aFallbackKey));
mFallbackChannel = true;
mFallbackKey = aFallbackKey;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::ForceIntercepted(uint64_t aInterceptionID)
{
ENSURE_CALLED_BEFORE_ASYNC_OPEN();
if (NS_WARN_IF(mLoadFlags & LOAD_BYPASS_SERVICE_WORKER)) {
return NS_ERROR_NOT_AVAILABLE;
}
MarkIntercepted();
mResponseCouldBeSynthesized = true;
mInterceptionID = aInterceptionID;
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsISupportsPriority
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::SetPriority(int32_t value)
{
int16_t newValue = clamped<int32_t>(value, INT16_MIN, INT16_MAX);
if (mPriority == newValue)
return NS_OK;
mPriority = newValue;
if (mTransaction)
gHttpHandler->RescheduleTransaction(mTransaction, mPriority);
return NS_OK;
}
nsresult
nsHttpChannel::ContinueBeginConnectWithResult()
{
LOG(("nsHttpChannel::ContinueBeginConnectWithResult [this=%p]", this));
NS_PRECONDITION(!mCallOnResume, "How did that happen?");
nsresult rv;
if (mSuspendCount) {
LOG(("Waiting until resume to do async connect [this=%p]\n", this));
mCallOnResume = &nsHttpChannel::ContinueBeginConnect;
rv = NS_OK;
} else if (mCanceled) {
// We may have been cancelled already, by nsChannelClassifier in that
// case, we should not send the request to the server
rv = mStatus;
} else {
rv = Connect();
}
LOG(("nsHttpChannel::ContinueBeginConnectWithResult result [this=%p rv=%x "
"mCanceled=%i]\n", this, rv, mCanceled));
return rv;
}
void
nsHttpChannel::ContinueBeginConnect()
{
nsresult rv = ContinueBeginConnectWithResult();
if (NS_FAILED(rv)) {
CloseCacheEntry(true);
AsyncAbort(rv);
}
}
//-----------------------------------------------------------------------------
// HttpChannel::nsIClassOfService
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::SetClassFlags(uint32_t inFlags)
{
mClassOfService = inFlags;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::AddClassFlags(uint32_t inFlags)
{
mClassOfService |= inFlags;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::ClearClassFlags(uint32_t inFlags)
{
mClassOfService &= ~inFlags;
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsIProtocolProxyCallback
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::OnProxyAvailable(nsICancelable *request, nsIChannel *channel,
nsIProxyInfo *pi, nsresult status)
{
LOG(("nsHttpChannel::OnProxyAvailable [this=%p pi=%p status=%x mStatus=%x]\n",
this, pi, status, mStatus));
mProxyRequest = nullptr;
nsresult rv;
// If status is a failure code, then it means that we failed to resolve
// proxy info. That is a non-fatal error assuming it wasn't because the
// request was canceled. We just failover to DIRECT when proxy resolution
// fails (failure can mean that the PAC URL could not be loaded).
if (NS_SUCCEEDED(status))
mProxyInfo = pi;
if (!gHttpHandler->Active()) {
LOG(("nsHttpChannel::OnProxyAvailable [this=%p] "
"Handler no longer active.\n", this));
rv = NS_ERROR_NOT_AVAILABLE;
}
else {
rv = BeginConnect();
}
if (NS_FAILED(rv)) {
AsyncAbort(rv);
Cancel(rv);
}
return rv;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsIProxiedChannel
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::GetProxyInfo(nsIProxyInfo **result)
{
if (!mConnectionInfo)
*result = mProxyInfo;
else
*result = mConnectionInfo->ProxyInfo();
NS_IF_ADDREF(*result);
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsITimedChannel
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::GetDomainLookupStart(TimeStamp* _retval) {
if (mTransaction)
*_retval = mTransaction->GetDomainLookupStart();
else
*_retval = mTransactionTimings.domainLookupStart;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::GetDomainLookupEnd(TimeStamp* _retval) {
if (mTransaction)
*_retval = mTransaction->GetDomainLookupEnd();
else
*_retval = mTransactionTimings.domainLookupEnd;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::GetConnectStart(TimeStamp* _retval) {
if (mTransaction)
*_retval = mTransaction->GetConnectStart();
else
*_retval = mTransactionTimings.connectStart;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::GetConnectEnd(TimeStamp* _retval) {
if (mTransaction)
*_retval = mTransaction->GetConnectEnd();
else
*_retval = mTransactionTimings.connectEnd;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::GetRequestStart(TimeStamp* _retval) {
if (mTransaction)
*_retval = mTransaction->GetRequestStart();
else
*_retval = mTransactionTimings.requestStart;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::GetResponseStart(TimeStamp* _retval) {
if (mTransaction)
*_retval = mTransaction->GetResponseStart();
else
*_retval = mTransactionTimings.responseStart;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::GetResponseEnd(TimeStamp* _retval) {
if (mTransaction)
*_retval = mTransaction->GetResponseEnd();
else
*_retval = mTransactionTimings.responseEnd;
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsIHttpAuthenticableChannel
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::GetIsSSL(bool *aIsSSL)
{
// this attribute is really misnamed - it wants to know if
// https:// is being used. SSL might be used to cover http://
// in some circumstances (proxies, http/2, etc..)
return mURI->SchemeIs("https", aIsSSL);
}
NS_IMETHODIMP
nsHttpChannel::GetProxyMethodIsConnect(bool *aProxyMethodIsConnect)
{
*aProxyMethodIsConnect = mConnectionInfo->UsingConnect();
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::GetServerResponseHeader(nsACString &value)
{
if (!mResponseHead)
return NS_ERROR_NOT_AVAILABLE;
return mResponseHead->GetHeader(nsHttp::Server, value);
}
NS_IMETHODIMP
nsHttpChannel::GetProxyChallenges(nsACString &value)
{
if (!mResponseHead)
return NS_ERROR_UNEXPECTED;
return mResponseHead->GetHeader(nsHttp::Proxy_Authenticate, value);
}
NS_IMETHODIMP
nsHttpChannel::GetWWWChallenges(nsACString &value)
{
if (!mResponseHead)
return NS_ERROR_UNEXPECTED;
return mResponseHead->GetHeader(nsHttp::WWW_Authenticate, value);
}
NS_IMETHODIMP
nsHttpChannel::SetProxyCredentials(const nsACString &value)
{
return mRequestHead.SetHeader(nsHttp::Proxy_Authorization, value);
}
NS_IMETHODIMP
nsHttpChannel::SetWWWCredentials(const nsACString &value)
{
return mRequestHead.SetHeader(nsHttp::Authorization, value);
}
//-----------------------------------------------------------------------------
// Methods that nsIHttpAuthenticableChannel dupes from other IDLs, which we
// get from HttpBaseChannel, must be explicitly forwarded, because C++ sucks.
//
NS_IMETHODIMP
nsHttpChannel::GetLoadFlags(nsLoadFlags *aLoadFlags)
{
return HttpBaseChannel::GetLoadFlags(aLoadFlags);
}
NS_IMETHODIMP
nsHttpChannel::GetURI(nsIURI **aURI)
{
return HttpBaseChannel::GetURI(aURI);
}
NS_IMETHODIMP
nsHttpChannel::GetNotificationCallbacks(nsIInterfaceRequestor **aCallbacks)
{
return HttpBaseChannel::GetNotificationCallbacks(aCallbacks);
}
NS_IMETHODIMP
nsHttpChannel::GetLoadGroup(nsILoadGroup **aLoadGroup)
{
return HttpBaseChannel::GetLoadGroup(aLoadGroup);
}
NS_IMETHODIMP
nsHttpChannel::GetRequestMethod(nsACString& aMethod)
{
return HttpBaseChannel::GetRequestMethod(aMethod);
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsIPackagedAppChannelListener
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::OnStartSignedPackageRequest(const nsACString& aPackageId)
{
nsCOMPtr<nsIPackagedAppChannelListener> listener;
NS_QueryNotificationCallbacks(this, listener);
if (listener) {
listener->OnStartSignedPackageRequest(aPackageId);
} else {
LOG(("nsHttpChannel::OnStartSignedPackageRequest [this=%p], no listener on %p", this, mListener.get()));
}
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsIRequestObserver
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::OnStartRequest(nsIRequest *request, nsISupports *ctxt)
{
PROFILER_LABEL("nsHttpChannel", "OnStartRequest",
js::ProfileEntry::Category::NETWORK);
if (!(mCanceled || NS_FAILED(mStatus))) {
// capture the request's status, so our consumers will know ASAP of any
// connection failures, etc - bug 93581
request->GetStatus(&mStatus);
}
LOG(("nsHttpChannel::OnStartRequest [this=%p request=%p status=%x]\n",
this, request, mStatus));
// Make sure things are what we expect them to be...
MOZ_ASSERT(request == mCachePump || request == mTransactionPump,
"Unexpected request");
MOZ_ASSERT(!(mTransactionPump && mCachePump) || mCachedContentIsPartial,
"If we have both pumps, the cache content must be partial");
if (!mSecurityInfo && !mCachePump && mTransaction) {
// grab the security info from the connection object; the transaction
// is guaranteed to own a reference to the connection.
mSecurityInfo = mTransaction->SecurityInfo();
}
// don't enter this block if we're reading from the cache...
if (NS_SUCCEEDED(mStatus) && !mCachePump && mTransaction) {
// mTransactionPump doesn't hit OnInputStreamReady and call this until
// all of the response headers have been acquired, so we can take ownership
// of them from the transaction.
mResponseHead = mTransaction->TakeResponseHead();
// the response head may be null if the transaction was cancelled. in
// which case we just need to call OnStartRequest/OnStopRequest.
if (mResponseHead)
return ProcessResponse();
NS_WARNING("No response head in OnStartRequest");
}
// cache file could be deleted on our behalf, it could contain errors or
// it failed to allocate memory, reload from network here.
if (mCacheEntry && mCachePump && RECOVER_FROM_CACHE_FILE_ERROR(mStatus)) {
LOG((" cache file error, reloading from server"));
mCacheEntry->AsyncDoom(nullptr);
nsresult rv = StartRedirectChannelToURI(mURI, nsIChannelEventSink::REDIRECT_INTERNAL);
if (NS_SUCCEEDED(rv))
return NS_OK;
}
// avoid crashing if mListener happens to be null...
if (!mListener) {
NS_NOTREACHED("mListener is null");
return NS_OK;
}
// on proxy errors, try to failover
if (mConnectionInfo->ProxyInfo() &&
(mStatus == NS_ERROR_PROXY_CONNECTION_REFUSED ||
mStatus == NS_ERROR_UNKNOWN_PROXY_HOST ||
mStatus == NS_ERROR_NET_TIMEOUT)) {
PushRedirectAsyncFunc(&nsHttpChannel::ContinueOnStartRequest1);
if (NS_SUCCEEDED(ProxyFailover()))
return NS_OK;
PopRedirectAsyncFunc(&nsHttpChannel::ContinueOnStartRequest1);
}
return ContinueOnStartRequest2(NS_OK);
}
nsresult
nsHttpChannel::ContinueOnStartRequest1(nsresult result)
{
// Success indicates we passed ProxyFailover, in that case we must not continue
// with this code chain.
if (NS_SUCCEEDED(result))
return NS_OK;
return ContinueOnStartRequest2(result);
}
nsresult
nsHttpChannel::ContinueOnStartRequest2(nsresult result)
{
// on other request errors, try to fall back
if (NS_FAILED(mStatus)) {
PushRedirectAsyncFunc(&nsHttpChannel::ContinueOnStartRequest3);
bool waitingForRedirectCallback;
ProcessFallback(&waitingForRedirectCallback);
if (waitingForRedirectCallback)
return NS_OK;
PopRedirectAsyncFunc(&nsHttpChannel::ContinueOnStartRequest3);
}
return ContinueOnStartRequest3(NS_OK);
}
nsresult
nsHttpChannel::ContinueOnStartRequest3(nsresult result)
{
if (mFallingBack)
return NS_OK;
return CallOnStartRequest();
}
NS_IMETHODIMP
nsHttpChannel::OnStopRequest(nsIRequest *request, nsISupports *ctxt, nsresult status)
{
PROFILER_LABEL("nsHttpChannel", "OnStopRequest",
js::ProfileEntry::Category::NETWORK);
LOG(("nsHttpChannel::OnStopRequest [this=%p request=%p status=%x]\n",
this, request, status));
if (mTimingEnabled && request == mCachePump) {
mCacheReadEnd = TimeStamp::Now();
}
// allow content to be cached if it was loaded successfully (bug #482935)
bool contentComplete = NS_SUCCEEDED(status);
// honor the cancelation status even if the underlying transaction completed.
if (mCanceled || NS_FAILED(mStatus))
status = mStatus;
if (mCachedContentIsPartial) {
if (NS_SUCCEEDED(status)) {
// mTransactionPump should be suspended
MOZ_ASSERT(request != mTransactionPump,
"byte-range transaction finished prematurely");
if (request == mCachePump) {
bool streamDone;
status = OnDoneReadingPartialCacheEntry(&streamDone);
if (NS_SUCCEEDED(status) && !streamDone)
return status;
// otherwise, fall through and fire OnStopRequest...
}
else if (request == mTransactionPump) {
MOZ_ASSERT(mConcurentCacheAccess);
}
else
NS_NOTREACHED("unexpected request");
}
// Do not to leave the transaction in a suspended state in error cases.
if (NS_FAILED(status) && mTransaction)
gHttpHandler->CancelTransaction(mTransaction, status);
}
nsCOMPtr<nsICompressConvStats> conv = do_QueryInterface(mCompressListener);
if (conv) {
conv->GetDecodedDataLength(&mDecodedBodySize);
}
if (mTransaction) {
// determine if we should call DoAuthRetry
bool authRetry = mAuthRetryPending && NS_SUCCEEDED(status);
//
// grab references to connection in case we need to retry an
// authentication request over it or use it for an upgrade
// to another protocol.
//
// this code relies on the code in nsHttpTransaction::Close, which
// tests for NS_HTTP_STICKY_CONNECTION to determine whether or not to
// keep the connection around after the transaction is finished.
//
RefPtr<nsAHttpConnection> conn;
if (authRetry && (mCaps & NS_HTTP_STICKY_CONNECTION)) {
conn = mTransaction->GetConnectionReference();
// This is so far a workaround to fix leak when reusing unpersistent
// connection for authentication retry. See bug 459620 comment 4
// for details.
if (conn && !conn->IsPersistent())
conn = nullptr;
}
RefPtr<nsAHttpConnection> stickyConn;
if (mCaps & NS_HTTP_STICKY_CONNECTION)
stickyConn = mTransaction->GetConnectionReference();
mTransferSize = mTransaction->GetTransferSize();
// at this point, we're done with the transaction
mTransactionTimings = mTransaction->Timings();
mTransaction = nullptr;
mTransactionPump = nullptr;
// We no longer need the dns prefetch object
if (mDNSPrefetch && mDNSPrefetch->TimingsValid()
&& !mTransactionTimings.requestStart.IsNull()
&& mDNSPrefetch->EndTimestamp() <= mTransactionTimings.requestStart) {
// We only need the domainLookup timestamps when not using a
// persistent connection, meaning if the endTimestamp < requestStart
mTransactionTimings.domainLookupStart =
mDNSPrefetch->StartTimestamp();
mTransactionTimings.domainLookupEnd =
mDNSPrefetch->EndTimestamp();
}
mDNSPrefetch = nullptr;
// handle auth retry...
if (authRetry) {
mAuthRetryPending = false;
status = DoAuthRetry(conn);
if (NS_SUCCEEDED(status))
return NS_OK;
}
// If DoAuthRetry failed, or if we have been cancelled since showing
// the auth. dialog, then we need to send OnStartRequest now
if (authRetry || (mAuthRetryPending && NS_FAILED(status))) {
MOZ_ASSERT(NS_FAILED(status), "should have a failure code here");
// NOTE: since we have a failure status, we can ignore the return
// value from onStartRequest.
if (mListener) {
MOZ_ASSERT(!mOnStartRequestCalled,
"We should not call OnStartRequest twice.");
mListener->OnStartRequest(this, mListenerContext);
mOnStartRequestCalled = true;
} else {
NS_WARNING("OnStartRequest skipped because of null listener");
}
}
// if this transaction has been replaced, then bail.
if (mTransactionReplaced)
return NS_OK;
if (mUpgradeProtocolCallback && stickyConn &&
mResponseHead && mResponseHead->Status() == 101) {
gHttpHandler->ConnMgr()->CompleteUpgrade(stickyConn,
mUpgradeProtocolCallback);
}
}
// if needed, check cache entry has all data we expect
if (mCacheEntry && mCachePump &&
mConcurentCacheAccess && contentComplete) {
int64_t size, contentLength;
nsresult rv = CheckPartial(mCacheEntry, &size, &contentLength);
if (NS_SUCCEEDED(rv)) {
if (size == int64_t(-1)) {
// mayhemer TODO - we have to restart read from cache here at the size offset
MOZ_ASSERT(false);
LOG((" cache entry write is still in progress, but we just "
"finished reading the cache entry"));
}
else if (contentLength != int64_t(-1) && contentLength != size) {
LOG((" concurrent cache entry write has been interrupted"));
mCachedResponseHead = Move(mResponseHead);
// Ignore zero partial length because we also want to resume when
// no data at all has been read from the cache.
rv = MaybeSetupByteRangeRequest(size, contentLength, true);
if (NS_SUCCEEDED(rv) && mIsPartialRequest) {
// Prevent read from cache again
mCachedContentIsValid = 0;
mCachedContentIsPartial = 1;
// Perform the range request
rv = ContinueConnect();
if (NS_SUCCEEDED(rv)) {
LOG((" performing range request"));
mCachePump = nullptr;
return NS_OK;
} else {
LOG((" but range request perform failed 0x%08x", rv));
status = NS_ERROR_NET_INTERRUPT;
}
}
else {
LOG((" but range request setup failed rv=0x%08x, failing load", rv));
}
}
}
}
mIsPending = false;
mStatus = status;
// perform any final cache operations before we close the cache entry.
if (mCacheEntry && mRequestTimeInitialized) {
bool writeAccess;
// New implementation just returns value of the !mCacheEntryIsReadOnly flag passed in.
// Old implementation checks on nsICache::ACCESS_WRITE flag.
mCacheEntry->HasWriteAccess(!mCacheEntryIsReadOnly, &writeAccess);
if (writeAccess) {
FinalizeCacheEntry();
}
}
// Register entry to the Performance resource timing
nsPerformance* documentPerformance = GetPerformance();
if (documentPerformance) {
documentPerformance->AddEntry(this, this);
}
if (mListener) {
LOG((" calling OnStopRequest\n"));
mListener->OnStopRequest(this, mListenerContext, status);
}
CloseCacheEntry(!contentComplete);
if (mOfflineCacheEntry)
CloseOfflineCacheEntry();
if (mLoadGroup)
mLoadGroup->RemoveRequest(this, nullptr, status);
// We don't need this info anymore
CleanRedirectCacheChainIfNecessary();
ReleaseListeners();
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsIStreamListener
//-----------------------------------------------------------------------------
class OnTransportStatusAsyncEvent : public nsRunnable
{
public:
OnTransportStatusAsyncEvent(nsITransportEventSink* aEventSink,
nsresult aTransportStatus,
int64_t aProgress,
int64_t aProgressMax)
: mEventSink(aEventSink)
, mTransportStatus(aTransportStatus)
, mProgress(aProgress)
, mProgressMax(aProgressMax)
{
MOZ_ASSERT(!NS_IsMainThread(), "Shouldn't be created on main thread");
}
NS_IMETHOD Run()
{
MOZ_ASSERT(NS_IsMainThread(), "Should run on main thread");
if (mEventSink) {
mEventSink->OnTransportStatus(nullptr, mTransportStatus,
mProgress, mProgressMax);
}
return NS_OK;
}
private:
nsCOMPtr<nsITransportEventSink> mEventSink;
nsresult mTransportStatus;
int64_t mProgress;
int64_t mProgressMax;
};
NS_IMETHODIMP
nsHttpChannel::OnDataAvailable(nsIRequest *request, nsISupports *ctxt,
nsIInputStream *input,
uint64_t offset, uint32_t count)
{
PROFILER_LABEL("nsHttpChannel", "OnDataAvailable",
js::ProfileEntry::Category::NETWORK);
LOG(("nsHttpChannel::OnDataAvailable [this=%p request=%p offset=%llu count=%u]\n",
this, request, offset, count));
// don't send out OnDataAvailable notifications if we've been canceled.
if (mCanceled)
return mStatus;
MOZ_ASSERT(mResponseHead, "No response head in ODA!!");
MOZ_ASSERT(!(mCachedContentIsPartial && (request == mTransactionPump)),
"transaction pump not suspended");
if (mAuthRetryPending || (request == mTransactionPump && mTransactionReplaced)) {
uint32_t n;
return input->ReadSegments(NS_DiscardSegment, nullptr, count, &n);
}
if (mListener) {
//
// synthesize transport progress event. we do this here since we want
// to delay OnProgress events until we start streaming data. this is
// crucially important since it impacts the lock icon (see bug 240053).
//
nsresult transportStatus;
if (request == mCachePump)
transportStatus = NS_NET_STATUS_READING;
else
transportStatus = NS_NET_STATUS_RECEIVING_FROM;
// mResponseHead may reference new or cached headers, but either way it
// holds our best estimate of the total content length. Even in the case
// of a byte range request, the content length stored in the cached
// response headers is what we want to use here.
int64_t progressMax(mResponseHead->ContentLength());
int64_t progress = mLogicalOffset + count;
if ((progress > progressMax) && (progressMax != -1)) {
NS_WARNING("unexpected progress values - "
"is server exceeding content length?");
}
// make sure params are in range for js
if (!InScriptableRange(progressMax)) {
progressMax = -1;
}
if (!InScriptableRange(progress)) {
progress = -1;
}
if (NS_IsMainThread()) {
OnTransportStatus(nullptr, transportStatus, progress, progressMax);
} else {
nsresult rv = NS_DispatchToMainThread(
new OnTransportStatusAsyncEvent(this, transportStatus,
progress, progressMax));
NS_ENSURE_SUCCESS(rv, rv);
}
//
// we have to manually keep the logical offset of the stream up-to-date.
// we cannot depend solely on the offset provided, since we may have
// already streamed some data from another source (see, for example,
// OnDoneReadingPartialCacheEntry).
//
int64_t offsetBefore = 0;
nsCOMPtr<nsISeekableStream> seekable = do_QueryInterface(input);
if (seekable && NS_FAILED(seekable->Tell(&offsetBefore))) {
seekable = nullptr;
}
nsresult rv = mListener->OnDataAvailable(this,
mListenerContext,
input,
mLogicalOffset,
count);
if (NS_SUCCEEDED(rv)) {
// by contract mListener must read all of "count" bytes, but
// nsInputStreamPump is tolerant to seekable streams that violate that
// and it will redeliver incompletely read data. So we need to do
// the same thing when updating the progress counter to stay in sync.
int64_t offsetAfter, delta;
if (seekable && NS_SUCCEEDED(seekable->Tell(&offsetAfter))) {
delta = offsetAfter - offsetBefore;
if (delta != count) {
count = delta;
NS_WARNING("Listener OnDataAvailable contract violation");
nsCOMPtr<nsIConsoleService> consoleService =
do_GetService(NS_CONSOLESERVICE_CONTRACTID);
nsAutoString message
(NS_LITERAL_STRING(
"http channel Listener OnDataAvailable contract violation"));
if (consoleService) {
consoleService->LogStringMessage(message.get());
}
}
}
mLogicalOffset += count;
}
return rv;
}
return NS_ERROR_ABORT;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsIThreadRetargetableRequest
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::RetargetDeliveryTo(nsIEventTarget* aNewTarget)
{
MOZ_ASSERT(NS_IsMainThread(), "Should be called on main thread only");
NS_ENSURE_ARG(aNewTarget);
if (aNewTarget == NS_GetCurrentThread()) {
NS_WARNING("Retargeting delivery to same thread");
return NS_OK;
}
if (!mTransactionPump && !mCachePump) {
LOG(("nsHttpChannel::RetargetDeliveryTo %p %p no pump available\n",
this, aNewTarget));
return NS_ERROR_NOT_AVAILABLE;
}
nsresult rv = NS_OK;
// If both cache pump and transaction pump exist, we're probably dealing
// with partially cached content. So, we must be able to retarget both.
nsCOMPtr<nsIThreadRetargetableRequest> retargetableCachePump;
nsCOMPtr<nsIThreadRetargetableRequest> retargetableTransactionPump;
if (mCachePump) {
retargetableCachePump = do_QueryObject(mCachePump);
// nsInputStreamPump should implement this interface.
MOZ_ASSERT(retargetableCachePump);
rv = retargetableCachePump->RetargetDeliveryTo(aNewTarget);
}
if (NS_SUCCEEDED(rv) && mTransactionPump) {
retargetableTransactionPump = do_QueryObject(mTransactionPump);
// nsInputStreamPump should implement this interface.
MOZ_ASSERT(retargetableTransactionPump);
rv = retargetableTransactionPump->RetargetDeliveryTo(aNewTarget);
// If retarget fails for transaction pump, we must restore mCachePump.
if (NS_FAILED(rv) && retargetableCachePump) {
nsCOMPtr<nsIThread> mainThread;
rv = NS_GetMainThread(getter_AddRefs(mainThread));
NS_ENSURE_SUCCESS(rv, rv);
rv = retargetableCachePump->RetargetDeliveryTo(mainThread);
}
}
return rv;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsThreadRetargetableStreamListener
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::CheckListenerChain()
{
NS_ASSERTION(NS_IsMainThread(), "Should be on main thread!");
nsresult rv = NS_OK;
nsCOMPtr<nsIThreadRetargetableStreamListener> retargetableListener =
do_QueryInterface(mListener, &rv);
if (retargetableListener) {
rv = retargetableListener->CheckListenerChain();
}
return rv;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsITransportEventSink
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::OnTransportStatus(nsITransport *trans, nsresult status,
int64_t progress, int64_t progressMax)
{
MOZ_ASSERT(NS_IsMainThread(), "Should be on main thread only");
// cache the progress sink so we don't have to query for it each time.
if (!mProgressSink)
GetCallback(mProgressSink);
if (status == NS_NET_STATUS_CONNECTED_TO ||
status == NS_NET_STATUS_WAITING_FOR) {
if (mTransaction) {
mTransaction->GetNetworkAddresses(mSelfAddr, mPeerAddr);
} else {
nsCOMPtr<nsISocketTransport> socketTransport =
do_QueryInterface(trans);
if (socketTransport) {
socketTransport->GetSelfAddr(&mSelfAddr);
socketTransport->GetPeerAddr(&mPeerAddr);
}
}
}
// block socket status event after Cancel or OnStopRequest has been called.
if (mProgressSink && NS_SUCCEEDED(mStatus) && mIsPending) {
LOG(("sending progress%s notification [this=%p status=%x"
" progress=%lld/%lld]\n",
(mLoadFlags & LOAD_BACKGROUND)? "" : " and status",
this, status, progress, progressMax));
if (!(mLoadFlags & LOAD_BACKGROUND)) {
nsAutoCString host;
mURI->GetHost(host);
mProgressSink->OnStatus(this, nullptr, status,
NS_ConvertUTF8toUTF16(host).get());
}
if (progress > 0) {
if ((progress > progressMax) && (progressMax != -1)) {
NS_WARNING("unexpected progress values");
}
// Try to get mProgressSink if it was nulled out during OnStatus.
if (!mProgressSink) {
GetCallback(mProgressSink);
}
if (mProgressSink) {
mProgressSink->OnProgress(this, nullptr, progress, progressMax);
}
}
}
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsICacheInfoChannel
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::IsFromCache(bool *value)
{
if (!mIsPending)
return NS_ERROR_NOT_AVAILABLE;
// return false if reading a partial cache entry; the data isn't entirely
// from the cache!
*value = (mCachePump || (mLoadFlags & LOAD_ONLY_IF_MODIFIED)) &&
mCachedContentIsValid && !mCachedContentIsPartial;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::GetCacheTokenExpirationTime(uint32_t *_retval)
{
NS_ENSURE_ARG_POINTER(_retval);
if (!mCacheEntry)
return NS_ERROR_NOT_AVAILABLE;
return mCacheEntry->GetExpirationTime(_retval);
}
NS_IMETHODIMP
nsHttpChannel::GetCacheTokenCachedCharset(nsACString &_retval)
{
nsresult rv;
if (!mCacheEntry)
return NS_ERROR_NOT_AVAILABLE;
nsXPIDLCString cachedCharset;
rv = mCacheEntry->GetMetaDataElement("charset",
getter_Copies(cachedCharset));
if (NS_SUCCEEDED(rv))
_retval = cachedCharset;
return rv;
}
NS_IMETHODIMP
nsHttpChannel::SetCacheTokenCachedCharset(const nsACString &aCharset)
{
if (!mCacheEntry)
return NS_ERROR_NOT_AVAILABLE;
return mCacheEntry->SetMetaDataElement("charset",
PromiseFlatCString(aCharset).get());
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsICachingChannel
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::GetCacheToken(nsISupports **token)
{
NS_ENSURE_ARG_POINTER(token);
if (!mCacheEntry)
return NS_ERROR_NOT_AVAILABLE;
return CallQueryInterface(mCacheEntry, token);
}
NS_IMETHODIMP
nsHttpChannel::SetCacheToken(nsISupports *token)
{
return NS_ERROR_NOT_IMPLEMENTED;
}
NS_IMETHODIMP
nsHttpChannel::GetOfflineCacheToken(nsISupports **token)
{
NS_ENSURE_ARG_POINTER(token);
if (!mOfflineCacheEntry)
return NS_ERROR_NOT_AVAILABLE;
return CallQueryInterface(mOfflineCacheEntry, token);
}
NS_IMETHODIMP
nsHttpChannel::SetOfflineCacheToken(nsISupports *token)
{
return NS_ERROR_NOT_IMPLEMENTED;
}
NS_IMETHODIMP
nsHttpChannel::GetCacheKey(nsISupports **key)
{
nsresult rv;
NS_ENSURE_ARG_POINTER(key);
LOG(("nsHttpChannel::GetCacheKey [this=%p]\n", this));
*key = nullptr;
nsCOMPtr<nsISupportsPRUint32> container =
do_CreateInstance(NS_SUPPORTS_PRUINT32_CONTRACTID, &rv);
if (!container)
return NS_ERROR_OUT_OF_MEMORY;
rv = container->SetData(mPostID);
if (NS_FAILED(rv)) return rv;
return CallQueryInterface(container.get(), key);
}
NS_IMETHODIMP
nsHttpChannel::SetCacheKey(nsISupports *key)
{
nsresult rv;
LOG(("nsHttpChannel::SetCacheKey [this=%p key=%p]\n", this, key));
ENSURE_CALLED_BEFORE_CONNECT();
if (!key)
mPostID = 0;
else {
// extract the post id
nsCOMPtr<nsISupportsPRUint32> container = do_QueryInterface(key, &rv);
if (NS_FAILED(rv)) return rv;
rv = container->GetData(&mPostID);
if (NS_FAILED(rv)) return rv;
}
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::GetCacheOnlyMetadata(bool *aOnlyMetadata)
{
NS_ENSURE_ARG(aOnlyMetadata);
*aOnlyMetadata = mCacheOnlyMetadata;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::SetCacheOnlyMetadata(bool aOnlyMetadata)
{
LOG(("nsHttpChannel::SetCacheOnlyMetadata [this=%p only-metadata=%d]\n",
this, aOnlyMetadata));
ENSURE_CALLED_BEFORE_ASYNC_OPEN();
mCacheOnlyMetadata = aOnlyMetadata;
if (aOnlyMetadata) {
mLoadFlags |= LOAD_ONLY_IF_MODIFIED;
}
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::GetPin(bool *aPin)
{
NS_ENSURE_ARG(aPin);
*aPin = mPinCacheContent;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::SetPin(bool aPin)
{
LOG(("nsHttpChannel::SetPin [this=%p pin=%d]\n",
this, aPin));
ENSURE_CALLED_BEFORE_CONNECT();
mPinCacheContent = aPin;
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsIResumableChannel
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::ResumeAt(uint64_t aStartPos,
const nsACString& aEntityID)
{
LOG(("nsHttpChannel::ResumeAt [this=%p startPos=%llu id='%s']\n",
this, aStartPos, PromiseFlatCString(aEntityID).get()));
mEntityID = aEntityID;
mStartPos = aStartPos;
mResuming = true;
return NS_OK;
}
nsresult
nsHttpChannel::DoAuthRetry(nsAHttpConnection *conn)
{
LOG(("nsHttpChannel::DoAuthRetry [this=%p]\n", this));
MOZ_ASSERT(!mTransaction, "should not have a transaction");
nsresult rv;
// toggle mIsPending to allow nsIObserver implementations to modify
// the request headers (bug 95044).
mIsPending = false;
// fetch cookies, and add them to the request header.
// the server response could have included cookies that must be sent with
// this authentication attempt (bug 84794).
// TODO: save cookies from auth response and send them here (bug 572151).
AddCookiesToRequest();
// notify "http-on-modify-request" observers
CallOnModifyRequestObservers();
mIsPending = true;
// get rid of the old response headers
mResponseHead = nullptr;
// rewind the upload stream
if (mUploadStream) {
nsCOMPtr<nsISeekableStream> seekable = do_QueryInterface(mUploadStream);
if (seekable)
seekable->Seek(nsISeekableStream::NS_SEEK_SET, 0);
}
// set sticky connection flag and disable pipelining.
mCaps |= NS_HTTP_STICKY_CONNECTION;
mCaps &= ~NS_HTTP_ALLOW_PIPELINING;
// and create a new one...
rv = SetupTransaction();
if (NS_FAILED(rv)) return rv;
// transfer ownership of connection to transaction
if (conn)
mTransaction->SetConnection(conn);
rv = gHttpHandler->InitiateTransaction(mTransaction, mPriority);
if (NS_FAILED(rv)) return rv;
rv = mTransactionPump->AsyncRead(this, nullptr);
if (NS_FAILED(rv)) return rv;
uint32_t suspendCount = mSuspendCount;
while (suspendCount--)
mTransactionPump->Suspend();
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsIApplicationCacheChannel
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::GetApplicationCache(nsIApplicationCache **out)
{
NS_IF_ADDREF(*out = mApplicationCache);
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::SetApplicationCache(nsIApplicationCache *appCache)
{
ENSURE_CALLED_BEFORE_CONNECT();
mApplicationCache = appCache;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::GetApplicationCacheForWrite(nsIApplicationCache **out)
{
NS_IF_ADDREF(*out = mApplicationCacheForWrite);
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::SetApplicationCacheForWrite(nsIApplicationCache *appCache)
{
ENSURE_CALLED_BEFORE_CONNECT();
mApplicationCacheForWrite = appCache;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::GetLoadedFromApplicationCache(bool *aLoadedFromApplicationCache)
{
*aLoadedFromApplicationCache = mLoadedFromApplicationCache;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::GetInheritApplicationCache(bool *aInherit)
{
*aInherit = mInheritApplicationCache;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::SetInheritApplicationCache(bool aInherit)
{
ENSURE_CALLED_BEFORE_CONNECT();
mInheritApplicationCache = aInherit;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::GetChooseApplicationCache(bool *aChoose)
{
*aChoose = mChooseApplicationCache;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::SetChooseApplicationCache(bool aChoose)
{
ENSURE_CALLED_BEFORE_CONNECT();
mChooseApplicationCache = aChoose;
return NS_OK;
}
nsHttpChannel::OfflineCacheEntryAsForeignMarker*
nsHttpChannel::GetOfflineCacheEntryAsForeignMarker()
{
if (!mApplicationCache)
return nullptr;
return new OfflineCacheEntryAsForeignMarker(mApplicationCache, mURI);
}
nsresult
nsHttpChannel::OfflineCacheEntryAsForeignMarker::MarkAsForeign()
{
nsresult rv;
nsCOMPtr<nsIURI> noRefURI;
rv = mCacheURI->CloneIgnoringRef(getter_AddRefs(noRefURI));
NS_ENSURE_SUCCESS(rv, rv);
nsAutoCString spec;
rv = noRefURI->GetAsciiSpec(spec);
NS_ENSURE_SUCCESS(rv, rv);
return mApplicationCache->MarkEntry(spec,
nsIApplicationCache::ITEM_FOREIGN);
}
NS_IMETHODIMP
nsHttpChannel::MarkOfflineCacheEntryAsForeign()
{
nsresult rv;
nsAutoPtr<OfflineCacheEntryAsForeignMarker> marker(
GetOfflineCacheEntryAsForeignMarker());
if (!marker)
return NS_ERROR_NOT_AVAILABLE;
rv = marker->MarkAsForeign();
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsHttpChannel::nsIAsyncVerifyRedirectCallback
//-----------------------------------------------------------------------------
nsresult
nsHttpChannel::WaitForRedirectCallback()
{
nsresult rv;
LOG(("nsHttpChannel::WaitForRedirectCallback [this=%p]\n", this));
if (mTransactionPump) {
rv = mTransactionPump->Suspend();
NS_ENSURE_SUCCESS(rv, rv);
}
if (mCachePump) {
rv = mCachePump->Suspend();
if (NS_FAILED(rv) && mTransactionPump) {
#ifdef DEBUG
nsresult resume =
#endif
mTransactionPump->Resume();
MOZ_ASSERT(NS_SUCCEEDED(resume),
"Failed to resume transaction pump");
}
NS_ENSURE_SUCCESS(rv, rv);
}
mWaitingForRedirectCallback = true;
return NS_OK;
}
NS_IMETHODIMP
nsHttpChannel::OnRedirectVerifyCallback(nsresult result)
{
LOG(("nsHttpChannel::OnRedirectVerifyCallback [this=%p] "
"result=%x stack=%d mWaitingForRedirectCallback=%u\n",
this, result, mRedirectFuncStack.Length(), mWaitingForRedirectCallback));
MOZ_ASSERT(mWaitingForRedirectCallback,
"Someone forgot to call WaitForRedirectCallback() ?!");
mWaitingForRedirectCallback = false;
if (mCanceled && NS_SUCCEEDED(result))
result = NS_BINDING_ABORTED;
for (uint32_t i = mRedirectFuncStack.Length(); i > 0;) {
--i;
// Pop the last function pushed to the stack
nsContinueRedirectionFunc func = mRedirectFuncStack[i];
mRedirectFuncStack.RemoveElementAt(mRedirectFuncStack.Length() - 1);
// Call it with the result we got from the callback or the deeper
// function call.
result = (this->*func)(result);
// If a new function has been pushed to the stack and placed us in the
// waiting state, we need to break the chain and wait for the callback
// again.
if (mWaitingForRedirectCallback)
break;
}
if (NS_FAILED(result) && !mCanceled) {
// First, cancel this channel if we are in failure state to set mStatus
// and let it be propagated to pumps.
Cancel(result);
}
if (!mWaitingForRedirectCallback) {
// We are not waiting for the callback. At this moment we must release
// reference to the redirect target channel, otherwise we may leak.
mRedirectChannel = nullptr;
}
// We always resume the pumps here. If all functions on stack have been
// called we need OnStopRequest to be triggered, and if we broke out of the
// loop above (and are thus waiting for a new callback) the suspension
// count must be balanced in the pumps.
if (mTransactionPump)
mTransactionPump->Resume();
if (mCachePump)
mCachePump->Resume();
return result;
}
void
nsHttpChannel::PushRedirectAsyncFunc(nsContinueRedirectionFunc func)
{
mRedirectFuncStack.AppendElement(func);
}
void
nsHttpChannel::PopRedirectAsyncFunc(nsContinueRedirectionFunc func)
{
MOZ_ASSERT(func == mRedirectFuncStack[mRedirectFuncStack.Length() - 1],
"Trying to pop wrong method from redirect async stack!");
mRedirectFuncStack.TruncateLength(mRedirectFuncStack.Length() - 1);
}
//-----------------------------------------------------------------------------
// nsIDNSListener functions
//-----------------------------------------------------------------------------
NS_IMETHODIMP
nsHttpChannel::OnLookupComplete(nsICancelable *request,
nsIDNSRecord *rec,
nsresult status)
{
MOZ_ASSERT(NS_IsMainThread(), "Expecting DNS callback on main thread.");
LOG(("nsHttpChannel::OnLookupComplete [this=%p] prefetch complete%s: "
"%s status[0x%x]\n",
this, mCaps & NS_HTTP_REFRESH_DNS ? ", refresh requested" : "",
NS_SUCCEEDED(status) ? "success" : "failure", status));
// We no longer need the dns prefetch object. Note: mDNSPrefetch could be
// validly null if OnStopRequest has already been called.
// We only need the domainLookup timestamps when not loading from cache
if (mDNSPrefetch && mDNSPrefetch->TimingsValid() && mTransaction) {
TimeStamp requestStart = mTransaction->GetRequestStart();
// We only set the domainLookup timestamps if we're not using a
// persistent connection.
if (requestStart.IsNull() || (mDNSPrefetch->EndTimestamp() < requestStart)) {
mTransaction->SetDomainLookupStart(mDNSPrefetch->StartTimestamp());
mTransaction->SetDomainLookupEnd(mDNSPrefetch->EndTimestamp());
}
}
mDNSPrefetch = nullptr;
// Unset DNS cache refresh if it was requested,
if (mCaps & NS_HTTP_REFRESH_DNS) {
mCaps &= ~NS_HTTP_REFRESH_DNS;
if (mTransaction) {
mTransaction->SetDNSWasRefreshed();
}
}
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsHttpChannel internal functions
//-----------------------------------------------------------------------------
// Creates an URI to the given location using current URI for base and charset
nsresult
nsHttpChannel::CreateNewURI(const char *loc, nsIURI **newURI)
{
nsCOMPtr<nsIIOService> ioService;
nsresult rv = gHttpHandler->GetIOService(getter_AddRefs(ioService));
if (NS_FAILED(rv)) return rv;
// the new uri should inherit the origin charset of the current uri
nsAutoCString originCharset;
rv = mURI->GetOriginCharset(originCharset);
if (NS_FAILED(rv))
originCharset.Truncate();
return ioService->NewURI(nsDependentCString(loc),
originCharset.get(),
mURI,
newURI);
}
void
nsHttpChannel::MaybeInvalidateCacheEntryForSubsequentGet()
{
// See RFC 2616 section 5.1.1. These are considered valid
// methods which DO NOT invalidate cache-entries for the
// referred resource. POST, PUT and DELETE as well as any
// other method not listed here will potentially invalidate
// any cached copy of the resource
if (mRequestHead.IsGet() || mRequestHead.IsOptions() ||
mRequestHead.IsHead() || mRequestHead.IsTrace() ||
mRequestHead.IsConnect()) {
return;
}
// Invalidate the request-uri.
if (LOG_ENABLED()) {
nsAutoCString key;
mURI->GetAsciiSpec(key);
LOG(("MaybeInvalidateCacheEntryForSubsequentGet [this=%p uri=%s]\n",
this, key.get()));
}
DoInvalidateCacheEntry(mURI);
// Invalidate Location-header if set
const char *location = mResponseHead->PeekHeader(nsHttp::Location);
if (location) {
LOG((" Location-header=%s\n", location));
InvalidateCacheEntryForLocation(location);
}
// Invalidate Content-Location-header if set
location = mResponseHead->PeekHeader(nsHttp::Content_Location);
if (location) {
LOG((" Content-Location-header=%s\n", location));
InvalidateCacheEntryForLocation(location);
}
}
void
nsHttpChannel::InvalidateCacheEntryForLocation(const char *location)
{
nsAutoCString tmpCacheKey, tmpSpec;
nsCOMPtr<nsIURI> resultingURI;
nsresult rv = CreateNewURI(location, getter_AddRefs(resultingURI));
if (NS_SUCCEEDED(rv) && HostPartIsTheSame(resultingURI)) {
DoInvalidateCacheEntry(resultingURI);
} else {
LOG((" hosts not matching\n"));
}
}
void
nsHttpChannel::DoInvalidateCacheEntry(nsIURI* aURI)
{
// NOTE:
// Following comments 24,32 and 33 in bug #327765, we only care about
// the cache in the protocol-handler, not the application cache.
// The logic below deviates from the original logic in OpenCacheEntry on
// one point by using only READ_ONLY access-policy. I think this is safe.
nsresult rv;
nsAutoCString key;
if (LOG_ENABLED()) {
aURI->GetAsciiSpec(key);
}
LOG(("DoInvalidateCacheEntry [channel=%p key=%s]", this, key.get()));
nsCOMPtr<nsICacheStorageService> cacheStorageService =
do_GetService("@mozilla.org/netwerk/cache-storage-service;1", &rv);
nsCOMPtr<nsICacheStorage> cacheStorage;
if (NS_SUCCEEDED(rv)) {
RefPtr<LoadContextInfo> info = GetLoadContextInfo(this);
rv = cacheStorageService->DiskCacheStorage(info, false, getter_AddRefs(cacheStorage));
}
if (NS_SUCCEEDED(rv)) {
rv = cacheStorage->AsyncDoomURI(aURI, EmptyCString(), nullptr);
}
LOG(("DoInvalidateCacheEntry [channel=%p key=%s rv=%d]", this, key.get(), int(rv)));
}
void
nsHttpChannel::AsyncOnExamineCachedResponse()
{
gHttpHandler->OnExamineCachedResponse(this);
}
void
nsHttpChannel::UpdateAggregateCallbacks()
{
if (!mTransaction) {
return;
}
nsCOMPtr<nsIInterfaceRequestor> callbacks;
NS_NewNotificationCallbacksAggregation(mCallbacks, mLoadGroup,
NS_GetCurrentThread(),
getter_AddRefs(callbacks));
mTransaction->SetSecurityCallbacks(callbacks);
}
NS_IMETHODIMP
nsHttpChannel::SetLoadGroup(nsILoadGroup *aLoadGroup)
{
MOZ_ASSERT(NS_IsMainThread(), "Wrong thread.");
nsresult rv = HttpBaseChannel::SetLoadGroup(aLoadGroup);
if (NS_SUCCEEDED(rv)) {
UpdateAggregateCallbacks();
}
return rv;
}
NS_IMETHODIMP
nsHttpChannel::SetNotificationCallbacks(nsIInterfaceRequestor *aCallbacks)
{
MOZ_ASSERT(NS_IsMainThread(), "Wrong thread.");
nsresult rv = HttpBaseChannel::SetNotificationCallbacks(aCallbacks);
if (NS_SUCCEEDED(rv)) {
UpdateAggregateCallbacks();
}
return rv;
}
void
nsHttpChannel::MarkIntercepted()
{
mInterceptCache = INTERCEPTED;
}
NS_IMETHODIMP
nsHttpChannel::GetResponseSynthesized(bool* aSynthesized)
{
NS_ENSURE_ARG_POINTER(aSynthesized);
*aSynthesized = (mInterceptCache == INTERCEPTED);
return NS_OK;
}
bool
nsHttpChannel::AwaitingCacheCallbacks()
{
return mCacheEntriesToWaitFor != 0;
}
void
nsHttpChannel::SetPushedStream(Http2PushedStream *stream)
{
MOZ_ASSERT(stream);
MOZ_ASSERT(!mPushedStream);
mPushedStream = stream;
}
nsresult
nsHttpChannel::OnPush(const nsACString &url, Http2PushedStream *pushedStream)
{
MOZ_ASSERT(NS_IsMainThread());
LOG(("nsHttpChannel::OnPush [this=%p]\n", this));
MOZ_ASSERT(mCaps & NS_HTTP_ONPUSH_LISTENER);
nsCOMPtr<nsIHttpPushListener> pushListener;
NS_QueryNotificationCallbacks(mCallbacks,
mLoadGroup,
NS_GET_IID(nsIHttpPushListener),
getter_AddRefs(pushListener));
MOZ_ASSERT(pushListener);
if (!pushListener) {
LOG(("nsHttpChannel::OnPush [this=%p] notification callbacks do not "
"implement nsIHttpPushListener\n", this));
return NS_ERROR_UNEXPECTED;
}
nsCOMPtr<nsIURI> pushResource;
nsresult rv;
// Create a Channel for the Push Resource
rv = NS_NewURI(getter_AddRefs(pushResource), url);
if (NS_FAILED(rv)) {
return NS_ERROR_FAILURE;
}
nsCOMPtr<nsIIOService> ioService;
rv = gHttpHandler->GetIOService(getter_AddRefs(ioService));
NS_ENSURE_SUCCESS(rv, rv);
nsCOMPtr<nsIChannel> pushChannel;
rv = NS_NewChannelInternal(getter_AddRefs(pushChannel),
pushResource,
mLoadInfo,
nullptr, // aLoadGroup
nullptr, // aCallbacks
nsIRequest::LOAD_NORMAL,
ioService);
NS_ENSURE_SUCCESS(rv, rv);
nsCOMPtr<nsIHttpChannel> pushHttpChannel = do_QueryInterface(pushChannel);
MOZ_ASSERT(pushHttpChannel);
if (!pushHttpChannel) {
return NS_ERROR_UNEXPECTED;
}
RefPtr<nsHttpChannel> channel;
CallQueryInterface(pushHttpChannel, channel.StartAssignment());
MOZ_ASSERT(channel);
if (!channel) {
return NS_ERROR_UNEXPECTED;
}
// new channel needs mrqeuesthead and headers from pushedStream
channel->mRequestHead.ParseHeaderSet(
pushedStream->GetRequestString().BeginWriting());
channel->mLoadGroup = mLoadGroup;
channel->mLoadInfo = mLoadInfo;
channel->mCallbacks = mCallbacks;
// Link the pushed stream with the new channel and call listener
channel->SetPushedStream(pushedStream);
rv = pushListener->OnPush(this, pushHttpChannel);
return rv;
}
// static
bool nsHttpChannel::IsRedirectStatus(uint32_t status)
{
// 305 disabled as a security measure (see bug 187996).
return status == 300 || status == 301 || status == 302 || status == 303 ||
status == 307 || status == 308;
}
void
nsHttpChannel::SetCouldBeSynthesized()
{
MOZ_ASSERT(!BypassServiceWorker());
mResponseCouldBeSynthesized = true;
}
NS_IMETHODIMP
nsHttpChannel::OnPreflightSucceeded()
{
MOZ_ASSERT(mRequireCORSPreflight, "Why did a preflight happen?");
mIsCorsPreflightDone = 1;
mPreflightChannel = nullptr;
return ContinueConnect();
}
NS_IMETHODIMP
nsHttpChannel::OnPreflightFailed(nsresult aError)
{
MOZ_ASSERT(mRequireCORSPreflight, "Why did a preflight happen?");
mIsCorsPreflightDone = 1;
mPreflightChannel = nullptr;
CloseCacheEntry(true);
AsyncAbort(aError);
return NS_OK;
}
void
nsHttpChannel::MaybeWarnAboutAppCache()
{
// First, accumulate a telemetry ping about appcache usage.
Telemetry::Accumulate(Telemetry::HTTP_OFFLINE_CACHE_DOCUMENT_LOAD,
true);
// Then, issue a deprecation warning if service worker interception is
// enabled.
if (nsContentUtils::ServiceWorkerInterceptionEnabled()) {
nsCOMPtr<nsIDeprecationWarner> warner;
GetCallback(warner);
if (warner) {
warner->IssueWarning(nsIDocument::eAppCache, false);
}
}
}
} // namespace net
} // namespace mozilla
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