/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "nsCharSeparatedTokenizer.h" #include "nsComponentManagerUtils.h" #include "nsDirectoryServiceUtils.h" #include "nsHttpConnectionInfo.h" #include "nsICaptivePortalService.h" #include "nsIFile.h" #include "nsIParentalControlsService.h" #include "nsINetworkLinkService.h" #include "nsIObserverService.h" #include "nsIOService.h" #include "nsNetUtil.h" #include "nsStandardURL.h" #include "TRR.h" #include "TRRService.h" #include "mozilla/Preferences.h" #include "mozilla/StaticPrefs_network.h" #include "mozilla/Telemetry.h" #include "mozilla/TelemetryComms.h" #include "mozilla/Tokenizer.h" #include "mozilla/dom/ContentParent.h" #include "mozilla/net/NeckoParent.h" #include "mozilla/net/TRRServiceChild.h" // Put DNSLogging.h at the end to avoid LOG being overwritten by other headers. #include "DNSLogging.h" static const char kOpenCaptivePortalLoginEvent[] = "captive-portal-login"; static const char kClearPrivateData[] = "clear-private-data"; static const char kPurge[] = "browser:purge-session-history"; static const char kDisableIpv6Pref[] = "network.dns.disableIPv6"; #define TRR_PREF_PREFIX "network.trr." #define TRR_PREF(x) TRR_PREF_PREFIX x namespace mozilla::net { StaticRefPtr sTRRBackgroundThread; static Atomic sTRRServicePtr; static Atomic sDomainIndex(0); constexpr nsLiteralCString kTRRDomains[] = { // clang-format off "(other)"_ns, "mozilla.cloudflare-dns.com"_ns, "firefox.dns.nextdns.io"_ns, "private.canadianshield.cira.ca"_ns, "doh.xfinity.com"_ns, // Steered clients "dns.shaw.ca"_ns, // Steered clients // clang-format on }; // static void TRRService::SetProviderDomain(const nsACString& aTRRDomain) { sDomainIndex = 0; for (size_t i = 1; i < std::size(kTRRDomains); i++) { if (aTRRDomain.Equals(kTRRDomains[i])) { sDomainIndex = i; break; } } } // static const nsCString& TRRService::ProviderKey() { return kTRRDomains[sDomainIndex]; } NS_IMPL_ISUPPORTS_INHERITED(TRRService, TRRServiceBase, nsIObserver, nsISupportsWeakReference) NS_IMPL_ADDREF_USING_AGGREGATOR(TRRService::ConfirmationContext, OwningObject()) NS_IMPL_RELEASE_USING_AGGREGATOR(TRRService::ConfirmationContext, OwningObject()) NS_IMPL_QUERY_INTERFACE(TRRService::ConfirmationContext, nsITimerCallback, nsINamed) TRRService::TRRService() : mLock("TRRService", this) { MOZ_ASSERT(NS_IsMainThread(), "wrong thread"); } // static TRRService* TRRService::Get() { return sTRRServicePtr; } // static void TRRService::AddObserver(nsIObserver* aObserver, nsIObserverService* aObserverService) { nsCOMPtr observerService; if (aObserverService) { observerService = aObserverService; } else { observerService = mozilla::services::GetObserverService(); } if (observerService) { observerService->AddObserver(aObserver, NS_CAPTIVE_PORTAL_CONNECTIVITY, true); observerService->AddObserver(aObserver, kOpenCaptivePortalLoginEvent, true); observerService->AddObserver(aObserver, kClearPrivateData, true); observerService->AddObserver(aObserver, kPurge, true); observerService->AddObserver(aObserver, NS_NETWORK_LINK_TOPIC, true); observerService->AddObserver(aObserver, NS_DNS_SUFFIX_LIST_UPDATED_TOPIC, true); observerService->AddObserver(aObserver, "xpcom-shutdown-threads", true); } } // static bool TRRService::CheckCaptivePortalIsPassed() { bool result = false; nsCOMPtr captivePortalService = do_GetService(NS_CAPTIVEPORTAL_CID); if (captivePortalService) { int32_t captiveState; MOZ_ALWAYS_SUCCEEDS(captivePortalService->GetState(&captiveState)); if ((captiveState == nsICaptivePortalService::UNLOCKED_PORTAL) || (captiveState == nsICaptivePortalService::NOT_CAPTIVE)) { result = true; } LOG(("TRRService::Init mCaptiveState=%d mCaptiveIsPassed=%d\n", captiveState, (int)result)); } return result; } static void EventTelemetryPrefChanged(const char* aPref, void* aData) { Telemetry::SetEventRecordingEnabled( "network.dns"_ns, StaticPrefs::network_trr_confirmation_telemetry_enabled()); } nsresult TRRService::Init() { MOZ_ASSERT(NS_IsMainThread(), "wrong thread"); if (mInitialized) { return NS_OK; } mInitialized = true; AddObserver(this); nsCOMPtr prefBranch; GetPrefBranch(getter_AddRefs(prefBranch)); if (prefBranch) { prefBranch->AddObserver(TRR_PREF_PREFIX, this, true); prefBranch->AddObserver(kDisableIpv6Pref, this, true); prefBranch->AddObserver(kRolloutURIPref, this, true); prefBranch->AddObserver(kRolloutModePref, this, true); } sTRRServicePtr = this; ReadPrefs(nullptr); mConfirmation.HandleEvent(ConfirmationEvent::Init); if (XRE_IsParentProcess()) { mCaptiveIsPassed = CheckCaptivePortalIsPassed(); mParentalControlEnabled = GetParentalControlEnabledInternal(); mLinkService = do_GetService(NS_NETWORK_LINK_SERVICE_CONTRACTID); if (mLinkService) { nsTArray suffixList; mLinkService->GetDnsSuffixList(suffixList); RebuildSuffixList(std::move(suffixList)); } nsCOMPtr thread; if (NS_FAILED( NS_NewNamedThread("TRR Background", getter_AddRefs(thread)))) { NS_WARNING("NS_NewNamedThread failed!"); return NS_ERROR_FAILURE; } sTRRBackgroundThread = thread; } mODoHService = new ODoHService(); if (!mODoHService->Init()) { return NS_ERROR_FAILURE; } Preferences::RegisterCallbackAndCall( EventTelemetryPrefChanged, "network.trr.confirmation_telemetry_enabled"_ns); LOG(("Initialized TRRService\n")); return NS_OK; } // static bool TRRService::GetParentalControlEnabledInternal() { nsCOMPtr pc = do_CreateInstance("@mozilla.org/parental-controls-service;1"); if (pc) { bool result = false; pc->GetParentalControlsEnabled(&result); LOG(("TRRService::GetParentalControlEnabledInternal=%d\n", result)); return result; } return false; } void TRRService::SetDetectedTrrURI(const nsACString& aURI) { LOG(("SetDetectedTrrURI(%s", nsPromiseFlatCString(aURI).get())); // If the user has set a custom URI then we don't want to override that. // If the URI is set via doh-rollout.uri, mURIPref will be empty // (see TRRServiceBase::OnTRRURIChange) if (!mURIPref.IsEmpty()) { LOG(("Already has user value. Not setting URI")); return; } mURISetByDetection = MaybeSetPrivateURI(aURI); } bool TRRService::Enabled(nsIRequest::TRRMode aRequestMode) { if (mMode == nsIDNSService::MODE_TRROFF || aRequestMode == nsIRequest::TRR_DISABLED_MODE) { LOG(("TRR service not enabled - off or disabled")); return false; } // If already confirmed, service is enabled. if (mConfirmation.State() == CONFIRM_OK || aRequestMode == nsIRequest::TRR_ONLY_MODE) { LOG(("TRR service enabled - confirmed or trr_only request")); return true; } // If this is a TRR_FIRST request but the resolver has a different mode, // just go ahead and let it try to use TRR. if (aRequestMode == nsIRequest::TRR_FIRST_MODE && mMode != nsIDNSService::MODE_TRRFIRST) { LOG(("TRR service enabled - trr_first request")); return true; } // In TRR_ONLY_MODE / confirmationNS == "skip" we don't try to confirm. if (mConfirmation.State() == CONFIRM_DISABLED) { LOG(("TRRService service enabled - confirmation is disabled")); return true; } LOG(("TRRService::Enabled mConfirmation.mState=%d mCaptiveIsPassed=%d\n", mConfirmation.State(), (int)mCaptiveIsPassed)); if (StaticPrefs::network_trr_wait_for_confirmation()) { return mConfirmation.State() == CONFIRM_OK; } if (StaticPrefs::network_trr_attempt_when_retrying_confirmation()) { return mConfirmation.State() == CONFIRM_OK || mConfirmation.State() == CONFIRM_TRYING_OK || mConfirmation.State() == CONFIRM_TRYING_FAILED; } return mConfirmation.State() == CONFIRM_OK || mConfirmation.State() == CONFIRM_TRYING_OK; } void TRRService::GetPrefBranch(nsIPrefBranch** result) { MOZ_ASSERT(NS_IsMainThread(), "wrong thread"); *result = nullptr; CallGetService(NS_PREFSERVICE_CONTRACTID, result); } bool TRRService::MaybeSetPrivateURI(const nsACString& aURI) { bool clearCache = false; nsAutoCString newURI(aURI); LOG(("MaybeSetPrivateURI(%s)", newURI.get())); ProcessURITemplate(newURI); { MutexSingleWriterAutoLock lock(mLock); if (mPrivateURI.Equals(newURI)) { return false; } if (!mPrivateURI.IsEmpty()) { LOG(("TRRService clearing blocklist because of change in uri service\n")); auto bl = mTRRBLStorage.Lock(); bl->Clear(); clearCache = true; } nsCOMPtr url; nsresult rv = NS_MutateURI(NS_STANDARDURLMUTATOR_CONTRACTID) .Apply(&nsIStandardURLMutator::Init, nsIStandardURL::URLTYPE_STANDARD, 443, newURI, nullptr, nullptr, nullptr) .Finalize(url); if (NS_FAILED(rv)) { LOG(("TRRService::MaybeSetPrivateURI failed to create URI!\n")); return false; } nsAutoCString host; url->GetHost(host); SetProviderDomain(host); mPrivateURI = newURI; // Notify the content processes of the new TRR for (auto* cp : dom::ContentParent::AllProcesses(dom::ContentParent::eLive)) { PNeckoParent* neckoParent = SingleManagedOrNull(cp->ManagedPNeckoParent()); if (!neckoParent) { continue; } Unused << neckoParent->SendSetTRRDomain(host); } AsyncCreateTRRConnectionInfo(mPrivateURI); // The URI has changed. We should trigger a new confirmation immediately. // We must do this here because the URI could also change because of // steering. mConfirmationTriggered = mConfirmation.HandleEvent(ConfirmationEvent::URIChange, lock); } // Clear the cache because we changed the URI if (clearCache) { ClearEntireCache(); } nsCOMPtr obs = mozilla::services::GetObserverService(); if (obs) { obs->NotifyObservers(nullptr, NS_NETWORK_TRR_URI_CHANGED_TOPIC, nullptr); } return true; } nsresult TRRService::ReadPrefs(const char* name) { MOZ_ASSERT(NS_IsMainThread(), "wrong thread"); // Whenever a pref change occurs that would cause us to clear the cache // we set this to true then do it at the end of the method. bool clearEntireCache = false; if (!name || !strcmp(name, TRR_PREF("mode")) || !strcmp(name, kRolloutModePref)) { nsIDNSService::ResolverMode prevMode = Mode(); OnTRRModeChange(); // When the TRR service gets disabled we should purge the TRR cache to // make sure we don't use any of the cached entries on a network where // they are invalid - for example after turning on a VPN. if (TRR_DISABLED(Mode()) && !TRR_DISABLED(prevMode)) { clearEntireCache = true; } } if (!name || !strcmp(name, TRR_PREF("uri")) || !strcmp(name, TRR_PREF("default_provider_uri")) || !strcmp(name, kRolloutURIPref)) { OnTRRURIChange(); } if (!name || !strcmp(name, TRR_PREF("credentials"))) { MutexSingleWriterAutoLock lock(mLock); Preferences::GetCString(TRR_PREF("credentials"), mPrivateCred); } if (!name || !strcmp(name, TRR_PREF("confirmationNS"))) { MutexSingleWriterAutoLock lock(mLock); Preferences::GetCString(TRR_PREF("confirmationNS"), mConfirmationNS); LOG(("confirmationNS = %s", mConfirmationNS.get())); } if (!name || !strcmp(name, TRR_PREF("bootstrapAddr"))) { MutexSingleWriterAutoLock lock(mLock); Preferences::GetCString(TRR_PREF("bootstrapAddr"), mBootstrapAddr); clearEntireCache = true; } if (!name || !strcmp(name, kDisableIpv6Pref)) { bool tmp; if (NS_SUCCEEDED(Preferences::GetBool(kDisableIpv6Pref, &tmp))) { mDisableIPv6 = tmp; } } if (!name || !strcmp(name, TRR_PREF("excluded-domains")) || !strcmp(name, TRR_PREF("builtin-excluded-domains"))) { MutexSingleWriterAutoLock lock(mLock); mExcludedDomains.Clear(); auto parseExcludedDomains = [this](const char* aPrefName) { nsAutoCString excludedDomains; mLock.AssertCurrentThreadOwns(); Preferences::GetCString(aPrefName, excludedDomains); if (excludedDomains.IsEmpty()) { return; } for (const nsACString& tokenSubstring : nsCCharSeparatedTokenizerTemplate< NS_IsAsciiWhitespace, nsTokenizerFlags::SeparatorOptional>( excludedDomains, ',') .ToRange()) { nsCString token{tokenSubstring}; LOG(("TRRService::ReadPrefs %s host:[%s]\n", aPrefName, token.get())); mExcludedDomains.Insert(token); } }; parseExcludedDomains(TRR_PREF("excluded-domains")); parseExcludedDomains(TRR_PREF("builtin-excluded-domains")); clearEntireCache = true; } // if name is null, then we're just now initializing. In that case we don't // need to clear the cache. if (name && clearEntireCache) { ClearEntireCache(); } return NS_OK; } void TRRService::ClearEntireCache() { if (!StaticPrefs::network_trr_clear_cache_on_pref_change()) { return; } nsCOMPtr dns = do_GetService(NS_DNSSERVICE_CONTRACTID); if (!dns) { return; } dns->ClearCache(true); } void TRRService::AddEtcHosts(const nsTArray& aArray) { MutexSingleWriterAutoLock lock(mLock); for (const auto& item : aArray) { LOG(("Adding %s from /etc/hosts to excluded domains", item.get())); mEtcHostsDomains.Insert(item); } } void TRRService::ReadEtcHostsFile() { if (!XRE_IsParentProcess()) { return; } DoReadEtcHostsFile([](const nsTArray* aArray) -> bool { RefPtr service(sTRRServicePtr); if (service && aArray) { service->AddEtcHosts(*aArray); } return !!service; }); } void TRRService::GetURI(nsACString& result) { MutexSingleWriterAutoLock lock(mLock); result = mPrivateURI; } nsresult TRRService::GetCredentials(nsCString& result) { MutexSingleWriterAutoLock lock(mLock); result = mPrivateCred; return NS_OK; } uint32_t TRRService::GetRequestTimeout() { if (mMode == nsIDNSService::MODE_TRRONLY) { return StaticPrefs::network_trr_request_timeout_mode_trronly_ms(); } if (StaticPrefs::network_trr_strict_native_fallback()) { return StaticPrefs::network_trr_strict_fallback_request_timeout_ms(); } return StaticPrefs::network_trr_request_timeout_ms(); } nsresult TRRService::Start() { MOZ_ASSERT(NS_IsMainThread(), "wrong thread"); if (!mInitialized) { return NS_ERROR_NOT_INITIALIZED; } return NS_OK; } TRRService::~TRRService() { MOZ_ASSERT(NS_IsMainThread(), "wrong thread"); LOG(("Exiting TRRService\n")); } nsresult TRRService::DispatchTRRRequest(TRR* aTrrRequest) { return DispatchTRRRequestInternal(aTrrRequest, true); } nsresult TRRService::DispatchTRRRequestInternal(TRR* aTrrRequest, bool aWithLock) { NS_ENSURE_ARG_POINTER(aTrrRequest); nsCOMPtr thread = MainThreadOrTRRThread(aWithLock); if (!thread) { return NS_ERROR_FAILURE; } RefPtr trr = aTrrRequest; return thread->Dispatch(trr.forget()); } already_AddRefed TRRService::MainThreadOrTRRThread(bool aWithLock) { if (!StaticPrefs::network_trr_fetch_off_main_thread() || XRE_IsSocketProcess()) { return do_GetMainThread(); } nsCOMPtr thread = aWithLock ? TRRThread() : TRRThread_locked(); return thread.forget(); } already_AddRefed TRRService::TRRThread() { MutexSingleWriterAutoLock lock(mLock); return TRRThread_locked(); } already_AddRefed TRRService::TRRThread_locked() { RefPtr thread = sTRRBackgroundThread; return thread.forget(); } bool TRRService::IsOnTRRThread() { nsCOMPtr thread; { MutexSingleWriterAutoLock lock(mLock); thread = sTRRBackgroundThread; } if (!thread) { return false; } return thread->IsOnCurrentThread(); } NS_IMETHODIMP TRRService::Observe(nsISupports* aSubject, const char* aTopic, const char16_t* aData) { MOZ_ASSERT(NS_IsMainThread(), "wrong thread"); LOG(("TRR::Observe() topic=%s\n", aTopic)); if (!strcmp(aTopic, NS_PREFBRANCH_PREFCHANGE_TOPIC_ID)) { // Reset the state of whether a confirmation is triggered, so we can check // if we create a new one after ReadPrefs(). mConfirmationTriggered = false; ReadPrefs(NS_ConvertUTF16toUTF8(aData).get()); { MutexSingleWriterAutoLock lock(mLock); mConfirmation.RecordEvent("pref-change", lock); } // We should only trigger a new confirmation if reading the prefs didn't // already trigger one. if (!mConfirmationTriggered) { mConfirmation.HandleEvent(ConfirmationEvent::PrefChange); } } else if (!strcmp(aTopic, kOpenCaptivePortalLoginEvent)) { // We are in a captive portal LOG(("TRRservice in captive portal\n")); mCaptiveIsPassed = false; mConfirmation.SetCaptivePortalStatus( nsICaptivePortalService::LOCKED_PORTAL); } else if (!strcmp(aTopic, NS_CAPTIVE_PORTAL_CONNECTIVITY)) { nsAutoCString data = NS_ConvertUTF16toUTF8(aData); LOG(("TRRservice captive portal was %s\n", data.get())); nsCOMPtr cps = do_QueryInterface(aSubject); if (cps) { mConfirmation.SetCaptivePortalStatus(cps->State()); } // If we were previously in a captive portal, this event means we will // need to trigger confirmation again. Otherwise it's just a periodical // captive-portal check that completed and we don't need to react to it. if (!mCaptiveIsPassed) { mConfirmation.HandleEvent(ConfirmationEvent::CaptivePortalConnectivity); } mCaptiveIsPassed = true; } else if (!strcmp(aTopic, kClearPrivateData) || !strcmp(aTopic, kPurge)) { // flush the TRR blocklist auto bl = mTRRBLStorage.Lock(); bl->Clear(); } else if (!strcmp(aTopic, NS_DNS_SUFFIX_LIST_UPDATED_TOPIC) || !strcmp(aTopic, NS_NETWORK_LINK_TOPIC)) { // nsINetworkLinkService is only available on parent process. if (XRE_IsParentProcess()) { nsCOMPtr link = do_QueryInterface(aSubject); // The network link service notification normally passes itself as the // subject, but some unit tests will sometimes pass a null subject. if (link) { nsTArray suffixList; link->GetDnsSuffixList(suffixList); RebuildSuffixList(std::move(suffixList)); } } if (!strcmp(aTopic, NS_NETWORK_LINK_TOPIC)) { if (NS_ConvertUTF16toUTF8(aData).EqualsLiteral( NS_NETWORK_LINK_DATA_DOWN)) { MutexSingleWriterAutoLock lock(mLock); mConfirmation.RecordEvent("network-change", lock); } if (mURISetByDetection) { // If the URI was set via SetDetectedTrrURI we need to restore it to the // default pref when a network link change occurs. CheckURIPrefs(); } if (NS_ConvertUTF16toUTF8(aData).EqualsLiteral(NS_NETWORK_LINK_DATA_UP)) { mConfirmation.HandleEvent(ConfirmationEvent::NetworkUp); } } } else if (!strcmp(aTopic, "xpcom-shutdown-threads")) { mShutdown = true; // If a confirmation is still in progress we record the event. // Since there should be no more confirmations after this, the shutdown // reason would not really be recorded in telemetry. { MutexSingleWriterAutoLock lock(mLock); mConfirmation.RecordEvent("shutdown", lock); } if (sTRRBackgroundThread) { nsCOMPtr thread; thread = sTRRBackgroundThread.get(); sTRRBackgroundThread = nullptr; MOZ_ALWAYS_SUCCEEDS(thread->Shutdown()); sTRRServicePtr = nullptr; } } return NS_OK; } void TRRService::RebuildSuffixList(nsTArray&& aSuffixList) { if (!StaticPrefs::network_trr_split_horizon_mitigations() || mShutdown) { return; } MutexSingleWriterAutoLock lock(mLock); mDNSSuffixDomains.Clear(); for (const auto& item : aSuffixList) { LOG(("TRRService adding %s to suffix list", item.get())); mDNSSuffixDomains.Insert(item); } } void TRRService::ConfirmationContext::SetState( enum ConfirmationState aNewState) { mState = aNewState; if (XRE_IsParentProcess()) { return; } MOZ_ASSERT(XRE_IsSocketProcess()); MOZ_ASSERT(NS_IsMainThread()); TRRServiceChild* child = TRRServiceChild::GetSingleton(); if (child && child->CanSend()) { LOG(("TRRService::SendSetConfirmationState")); Unused << child->SendSetConfirmationState(mState); } } bool TRRService::ConfirmationContext::HandleEvent(ConfirmationEvent aEvent) { MutexSingleWriterAutoLock lock(OwningObject()->mLock); return HandleEvent(aEvent, lock); } // We're protected by service->mLock bool TRRService::ConfirmationContext::HandleEvent( ConfirmationEvent aEvent, const MutexSingleWriterAutoLock&) { auto prevAddr = TaskAddr(); TRRService* service = OwningObject(); service->mLock.AssertCurrentThreadOwns(); nsIDNSService::ResolverMode mode = service->Mode(); auto resetConfirmation = [&]() { service->mLock.AssertCurrentThreadOwns(); mTask = nullptr; nsCOMPtr timer = std::move(mTimer); if (timer) { timer->Cancel(); } mRetryInterval = StaticPrefs::network_trr_retry_timeout_ms(); mTRRFailures = 0; if (TRR_DISABLED(mode)) { LOG(("TRR is disabled. mConfirmation.mState -> CONFIRM_OFF")); SetState(CONFIRM_OFF); return; } if (mode == nsIDNSService::MODE_TRRONLY) { LOG(("TRR_ONLY_MODE. mConfirmation.mState -> CONFIRM_DISABLED")); SetState(CONFIRM_DISABLED); return; } if (service->mConfirmationNS.Equals("skip"_ns)) { LOG(( "mConfirmationNS == skip. mConfirmation.mState -> CONFIRM_DISABLED")); SetState(CONFIRM_DISABLED); return; } // The next call to maybeConfirm will transition to CONFIRM_TRYING_OK LOG(("mConfirmation.mState -> CONFIRM_OK")); SetState(CONFIRM_OK); }; auto maybeConfirm = [&](const char* aReason) { service->mLock.AssertCurrentThreadOwns(); if (TRR_DISABLED(mode) || mState == CONFIRM_DISABLED || mTask) { LOG( ("TRRService:MaybeConfirm(%s) mode=%d, mTask=%p " "mState=%d\n", aReason, (int)mode, (void*)mTask, (int)mState)); return; } MOZ_ASSERT(mode != nsIDNSService::MODE_TRRONLY, "Confirmation should be disabled"); MOZ_ASSERT(!service->mConfirmationNS.Equals("skip"), "Confirmation should be disabled"); LOG(("maybeConfirm(%s) starting confirmation test %s %s\n", aReason, service->mPrivateURI.get(), service->mConfirmationNS.get())); MOZ_ASSERT(mState == CONFIRM_OK || mState == CONFIRM_FAILED); if (mState == CONFIRM_FAILED) { LOG(("mConfirmation.mState -> CONFIRM_TRYING_FAILED")); SetState(CONFIRM_TRYING_FAILED); } else { LOG(("mConfirmation.mState -> CONFIRM_TRYING_OK")); SetState(CONFIRM_TRYING_OK); } nsCOMPtr timer = std::move(mTimer); if (timer) { timer->Cancel(); } MOZ_ASSERT(mode == nsIDNSService::MODE_TRRFIRST, "Should only confirm in TRR first mode"); // Set aUseFreshConnection if TRR lookups are retried. mTask = new TRR(service, service->mConfirmationNS, TRRTYPE_NS, ""_ns, false, StaticPrefs::network_trr_retry_on_recoverable_errors()); mTask->SetTimeout(StaticPrefs::network_trr_confirmation_timeout_ms()); mTask->SetPurpose(TRR::Confirmation); if (service->mLinkService) { service->mLinkService->GetNetworkID(mNetworkId); } if (mFirstRequestTime.IsNull()) { mFirstRequestTime = TimeStamp::Now(); } if (mTrigger.IsEmpty()) { mTrigger.Assign(aReason); } LOG(("Dispatching confirmation task: %p", mTask.get())); service->DispatchTRRRequestInternal(mTask, false); }; switch (aEvent) { case ConfirmationEvent::Init: resetConfirmation(); maybeConfirm("context-init"); break; case ConfirmationEvent::PrefChange: resetConfirmation(); maybeConfirm("pref-change"); break; case ConfirmationEvent::ConfirmationRetry: MOZ_ASSERT(mState == CONFIRM_FAILED); if (mState == CONFIRM_FAILED) { maybeConfirm("confirmation-retry"); } break; case ConfirmationEvent::FailedLookups: MOZ_ASSERT(mState == CONFIRM_OK); mTrigger.Assign("failed-lookups"); mFailedLookups = nsDependentCSubstring( mFailureReasons, mTRRFailures % ConfirmationContext::RESULTS_SIZE); maybeConfirm("failed-lookups"); break; case ConfirmationEvent::RetryTRR: MOZ_ASSERT(mState == CONFIRM_OK); maybeConfirm("retry-trr"); break; case ConfirmationEvent::URIChange: resetConfirmation(); maybeConfirm("uri-change"); break; case ConfirmationEvent::CaptivePortalConnectivity: // If we area already confirmed then we're fine. // If there is a confirmation in progress, likely it started before // we had full connectivity, so it may be hanging. We reset and try again. if (mState == CONFIRM_FAILED || mState == CONFIRM_TRYING_FAILED || mState == CONFIRM_TRYING_OK) { resetConfirmation(); maybeConfirm("cp-connectivity"); } break; case ConfirmationEvent::NetworkUp: if (mState != CONFIRM_OK) { resetConfirmation(); maybeConfirm("network-up"); } break; case ConfirmationEvent::ConfirmOK: SetState(CONFIRM_OK); mTask = nullptr; break; case ConfirmationEvent::ConfirmFail: MOZ_ASSERT(mState == CONFIRM_TRYING_OK || mState == CONFIRM_TRYING_FAILED); SetState(CONFIRM_FAILED); mTask = nullptr; // retry failed NS confirmation NS_NewTimerWithCallback(getter_AddRefs(mTimer), this, mRetryInterval, nsITimer::TYPE_ONE_SHOT); if (mRetryInterval < 64000) { // double the interval up to this point mRetryInterval *= 2; } break; default: MOZ_ASSERT_UNREACHABLE("Unexpected ConfirmationEvent"); } return prevAddr != TaskAddr(); } bool TRRService::MaybeBootstrap(const nsACString& aPossible, nsACString& aResult) { MutexSingleWriterAutoLock lock(mLock); if (mMode == nsIDNSService::MODE_TRROFF || mBootstrapAddr.IsEmpty()) { return false; } nsCOMPtr url; nsresult rv = NS_MutateURI(NS_STANDARDURLMUTATOR_CONTRACTID) .Apply(&nsIStandardURLMutator::Init, nsIStandardURL::URLTYPE_STANDARD, 443, mPrivateURI, nullptr, nullptr, nullptr) .Finalize(url); if (NS_FAILED(rv)) { LOG(("TRRService::MaybeBootstrap failed to create URI!\n")); return false; } nsAutoCString host; url->GetHost(host); if (!aPossible.Equals(host)) { return false; } LOG(("TRRService::MaybeBootstrap: use %s instead of %s\n", mBootstrapAddr.get(), host.get())); aResult = mBootstrapAddr; return true; } bool TRRService::IsDomainBlocked(const nsACString& aHost, const nsACString& aOriginSuffix, bool aPrivateBrowsing) { auto bl = mTRRBLStorage.Lock(); if (bl->IsEmpty()) { return false; } // use a unified casing for the hashkey nsAutoCString hashkey(aHost + aOriginSuffix); if (auto val = bl->Lookup(hashkey)) { int32_t until = *val + int32_t(StaticPrefs::network_trr_temp_blocklist_duration_sec()); int32_t expire = NowInSeconds(); if (until > expire) { LOG(("Host [%s] is TRR blocklisted\n", nsCString(aHost).get())); return true; } // the blocklisted entry has expired val.Remove(); } return false; } // When running in TRR-only mode, the blocklist is not used and it will also // try resolving the localhost / .local names. bool TRRService::IsTemporarilyBlocked(const nsACString& aHost, const nsACString& aOriginSuffix, bool aPrivateBrowsing, bool aParentsToo) // false if domain { if (!StaticPrefs::network_trr_temp_blocklist()) { LOG(("TRRService::IsTemporarilyBlocked temp blocklist disabled by pref")); return false; } if (mMode == nsIDNSService::MODE_TRRONLY) { return false; // might as well try } LOG(("Checking if host [%s] is blocklisted", aHost.BeginReading())); int32_t dot = aHost.FindChar('.'); if ((dot == kNotFound) && aParentsToo) { // Only if a full host name. Domains can be dotless to be able to // blocklist entire TLDs return true; } if (IsDomainBlocked(aHost, aOriginSuffix, aPrivateBrowsing)) { return true; } nsDependentCSubstring domain = Substring(aHost, 0); while (dot != kNotFound) { dot++; domain.Rebind(domain, dot, domain.Length() - dot); if (IsDomainBlocked(domain, aOriginSuffix, aPrivateBrowsing)) { return true; } dot = domain.FindChar('.'); } return false; } bool TRRService::IsExcludedFromTRR(const nsACString& aHost) { // This method may be called off the main thread. We need to lock so // mExcludedDomains and mDNSSuffixDomains don't change while this code // is running. MutexSingleWriterAutoLock lock(mLock); return IsExcludedFromTRR_unlocked(aHost); } bool TRRService::IsExcludedFromTRR_unlocked(const nsACString& aHost) { mLock.AssertOnWritingThreadOrHeld(); int32_t dot = 0; // iteratively check the sub-domain of |aHost| while (dot < static_cast(aHost.Length())) { nsDependentCSubstring subdomain = Substring(aHost, dot, aHost.Length() - dot); if (mExcludedDomains.Contains(subdomain)) { LOG(("Subdomain [%s] of host [%s] Is Excluded From TRR via pref\n", subdomain.BeginReading(), aHost.BeginReading())); return true; } if (mDNSSuffixDomains.Contains(subdomain)) { LOG(("Subdomain [%s] of host [%s] Is Excluded From TRR via pref\n", subdomain.BeginReading(), aHost.BeginReading())); return true; } if (mEtcHostsDomains.Contains(subdomain)) { LOG(("Subdomain [%s] of host [%s] Is Excluded From TRR by /etc/hosts\n", subdomain.BeginReading(), aHost.BeginReading())); return true; } dot = aHost.FindChar('.', dot + 1); if (dot == kNotFound) { break; } dot++; } return false; } void TRRService::AddToBlocklist(const nsACString& aHost, const nsACString& aOriginSuffix, bool privateBrowsing, bool aParentsToo) { if (!StaticPrefs::network_trr_temp_blocklist()) { LOG(("TRRService::AddToBlocklist temp blocklist disabled by pref")); return; } LOG(("TRR blocklist %s\n", nsCString(aHost).get())); nsAutoCString hashkey(aHost + aOriginSuffix); // this overwrites any existing entry { auto bl = mTRRBLStorage.Lock(); bl->InsertOrUpdate(hashkey, NowInSeconds()); } // See bug 1700405. Some test expects 15 trr consecutive failures, but the NS // check against the base domain is successful. So, we skip this NS check when // the pref said so in order to pass the test reliably. if (aParentsToo && !StaticPrefs::network_trr_skip_check_for_blocked_host()) { // when given a full host name, verify its domain as well int32_t dot = aHost.FindChar('.'); if (dot != kNotFound) { // this has a domain to be checked dot++; nsDependentCSubstring domain = Substring(aHost, dot, aHost.Length() - dot); nsAutoCString check(domain); if (IsTemporarilyBlocked(check, aOriginSuffix, privateBrowsing, false)) { // the domain part is already blocklisted, no need to add this entry return; } // verify 'check' over TRR LOG(("TRR: verify if '%s' resolves as NS\n", check.get())); // check if there's an NS entry for this name RefPtr trr = new TRR(this, check, TRRTYPE_NS, aOriginSuffix, privateBrowsing, false); trr->SetPurpose(TRR::Blocklist); DispatchTRRRequest(trr); } } } NS_IMETHODIMP TRRService::ConfirmationContext::Notify(nsITimer* aTimer) { MutexSingleWriterAutoLock lock(OwningObject()->mLock); if (aTimer == mTimer) { HandleEvent(ConfirmationEvent::ConfirmationRetry, lock); } return NS_OK; } NS_IMETHODIMP TRRService::ConfirmationContext::GetName(nsACString& aName) { aName.AssignLiteral("TRRService::ConfirmationContext"); return NS_OK; } static char StatusToChar(nsresult aLookupStatus, nsresult aChannelStatus) { // If the resolution fails in the TRR channel then we'll have a failed // aChannelStatus. Otherwise, we parse the response - if it's not a valid DNS // packet or doesn't contain the correct responses aLookupStatus will be a // failure code. if (aChannelStatus == NS_OK) { // Return + if confirmation was OK, or - if confirmation failed return aLookupStatus == NS_OK ? '+' : '-'; } if (nsCOMPtr ios = do_GetIOService()) { bool hasConnectiviy = true; ios->GetConnectivity(&hasConnectiviy); if (!hasConnectiviy) { // Browser has no active network interfaces = is offline. return 'o'; } } switch (aChannelStatus) { case NS_ERROR_NET_TIMEOUT_EXTERNAL: // TRR timeout expired return 't'; case NS_ERROR_UNKNOWN_HOST: // TRRServiceChannel failed to due to unresolved host return 'd'; default: break; } // The error is a network error if (NS_ERROR_GET_MODULE(aChannelStatus) == NS_ERROR_MODULE_NETWORK) { return 'n'; } // Some other kind of failure. return '?'; } void TRRService::RetryTRRConfirm() { if (mConfirmation.State() == CONFIRM_OK) { LOG(("TRRService::RetryTRRConfirm triggering confirmation")); mConfirmation.HandleEvent(ConfirmationEvent::RetryTRR); } } void TRRService::RecordTRRStatus(nsresult aChannelStatus) { MOZ_ASSERT_IF(XRE_IsParentProcess(), NS_IsMainThread() || IsOnTRRThread()); MOZ_ASSERT_IF(XRE_IsSocketProcess(), NS_IsMainThread()); Telemetry::AccumulateCategoricalKeyed( ProviderKey(), NS_SUCCEEDED(aChannelStatus) ? Telemetry::LABELS_DNS_TRR_SUCCESS3::Fine : (aChannelStatus == NS_ERROR_NET_TIMEOUT_EXTERNAL ? Telemetry::LABELS_DNS_TRR_SUCCESS3::Timeout : Telemetry::LABELS_DNS_TRR_SUCCESS3::Bad)); mConfirmation.RecordTRRStatus(aChannelStatus); } void TRRService::ConfirmationContext::RecordTRRStatus(nsresult aChannelStatus) { if (NS_SUCCEEDED(aChannelStatus)) { LOG(("TRRService::RecordTRRStatus channel success")); mTRRFailures = 0; return; } if (OwningObject()->Mode() != nsIDNSService::MODE_TRRFIRST) { return; } // only count failures while in OK state if (State() != CONFIRM_OK) { return; } // When TRR retry is enabled, nsHostResolver will trigger Confirmation // immediately upon a lookup failure, so nothing to be done here. // nsHostResolver can assess the success of the lookup considering all the // involved results (A, AAAA) so we let it tell us when to re-Confirm. if (StaticPrefs::network_trr_retry_on_recoverable_errors()) { LOG(("TRRService not counting failures when retry is enabled")); return; } mFailureReasons[mTRRFailures % ConfirmationContext::RESULTS_SIZE] = StatusToChar(NS_OK, aChannelStatus); uint32_t fails = ++mTRRFailures; LOG(("TRRService::RecordTRRStatus fails=%u", fails)); if (fails >= StaticPrefs::network_trr_max_fails()) { LOG(("TRRService had %u failures in a row\n", fails)); // When several failures occur we trigger a confirmation causing // us to transition into the CONFIRM_TRYING_OK state. // Only after the confirmation fails do we finally go into CONFIRM_FAILED // and start skipping TRR. // Trigger a confirmation immediately. // If it fails, it will fire off a timer to start retrying again. HandleEvent(ConfirmationEvent::FailedLookups); } } void TRRService::ConfirmationContext::RecordEvent( const char* aReason, const MutexSingleWriterAutoLock&) { // Reset the confirmation context attributes // Only resets the attributes that we keep for telemetry purposes. auto reset = [&]() { mAttemptCount = 0; mNetworkId.Truncate(); mFirstRequestTime = TimeStamp(); mContextChangeReason.Assign(aReason); mTrigger.Truncate(); mFailedLookups.Truncate(); mRetryInterval = StaticPrefs::network_trr_retry_timeout_ms(); }; if (mAttemptCount == 0) { // XXX: resetting everything might not be the best thing here, even if the // context changes, because there might still be a confirmation pending. // But cancelling and retrying that confirmation might just make the whole // confirmation longer for no reason. reset(); return; } Telemetry::EventID eventType = Telemetry::EventID::NetworkDns_Trrconfirmation_Context; nsAutoCString results; static_assert(RESULTS_SIZE < 64); // mResults is a circular buffer ending at mAttemptCount if (mAttemptCount <= RESULTS_SIZE) { // We have fewer attempts than the size of the buffer, so all of the // results are in the buffer. results.Append(nsDependentCSubstring(mResults, mAttemptCount)); } else { // More attempts than the buffer size. // That means past RESULTS_SIZE attempts in order are // [posInResults .. end-of-buffer) + [start-of-buffer .. posInResults) uint32_t posInResults = mAttemptCount % RESULTS_SIZE; results.Append(nsDependentCSubstring(mResults + posInResults, RESULTS_SIZE - posInResults)); results.Append(nsDependentCSubstring(mResults, posInResults)); } auto extra = Some>({ Telemetry::EventExtraEntry{"trigger"_ns, mTrigger}, Telemetry::EventExtraEntry{"contextReason"_ns, mContextChangeReason}, Telemetry::EventExtraEntry{"attemptCount"_ns, nsPrintfCString("%u", mAttemptCount)}, Telemetry::EventExtraEntry{"results"_ns, results}, Telemetry::EventExtraEntry{ "time"_ns, nsPrintfCString( "%f", !mFirstRequestTime.IsNull() ? (TimeStamp::Now() - mFirstRequestTime).ToMilliseconds() : 0.0)}, Telemetry::EventExtraEntry{"networkID"_ns, mNetworkId}, Telemetry::EventExtraEntry{"captivePortal"_ns, nsPrintfCString("%i", mCaptivePortalStatus)}, }); if (mTrigger.Equals("failed-lookups"_ns)) { extra.ref().AppendElement( Telemetry::EventExtraEntry{"failedLookups"_ns, mFailedLookups}); } enum ConfirmationState state = mState; Telemetry::RecordEvent(eventType, mozilla::Some(nsPrintfCString("%u", state)), extra); reset(); } void TRRService::ConfirmationContext::RequestCompleted( nsresult aLookupStatus, nsresult aChannelStatus) { mResults[mAttemptCount % RESULTS_SIZE] = StatusToChar(aLookupStatus, aChannelStatus); mAttemptCount++; } void TRRService::ConfirmationContext::CompleteConfirmation(nsresult aStatus, TRR* aTRRRequest) { { MutexSingleWriterAutoLock lock(OwningObject()->mLock); // Ignore confirmations that dont match the pending task. if (mTask != aTRRRequest) { return; } MOZ_ASSERT(State() == CONFIRM_TRYING_OK || State() == CONFIRM_TRYING_FAILED); if (State() != CONFIRM_TRYING_OK && State() != CONFIRM_TRYING_FAILED) { return; } RequestCompleted(aStatus, aTRRRequest->ChannelStatus()); MOZ_ASSERT(mTask); if (NS_SUCCEEDED(aStatus)) { HandleEvent(ConfirmationEvent::ConfirmOK, lock); } else { HandleEvent(ConfirmationEvent::ConfirmFail, lock); } if (State() == CONFIRM_OK) { // Record event and start new confirmation context RecordEvent("success", lock); } LOG(("TRRService finishing confirmation test %s %d %X\n", OwningObject()->mPrivateURI.get(), State(), (unsigned int)aStatus)); } if (State() == CONFIRM_OK) { // A fresh confirmation means previous blocked entries might not // be valid anymore. auto bl = OwningObject()->mTRRBLStorage.Lock(); bl->Clear(); } else { MOZ_ASSERT(State() == CONFIRM_FAILED); } Telemetry::Accumulate(Telemetry::DNS_TRR_NS_VERFIFIED3, TRRService::ProviderKey(), (State() == CONFIRM_OK)); } AHostResolver::LookupStatus TRRService::CompleteLookup( nsHostRecord* rec, nsresult status, AddrInfo* aNewRRSet, bool pb, const nsACString& aOriginSuffix, TRRSkippedReason aReason, TRR* aTRRRequest) { // this is an NS check for the TRR blocklist or confirmationNS check MOZ_ASSERT_IF(XRE_IsParentProcess(), NS_IsMainThread() || IsOnTRRThread()); MOZ_ASSERT_IF(XRE_IsSocketProcess(), NS_IsMainThread()); MOZ_ASSERT(!rec); RefPtr newRRSet(aNewRRSet); MOZ_ASSERT(newRRSet && newRRSet->TRRType() == TRRTYPE_NS); if (aTRRRequest->Purpose() == TRR::Confirmation) { mConfirmation.CompleteConfirmation(status, aTRRRequest); return LOOKUP_OK; } if (aTRRRequest->Purpose() == TRR::Blocklist) { if (NS_SUCCEEDED(status)) { LOG(("TRR verified %s to be fine!\n", newRRSet->Hostname().get())); } else { LOG(("TRR says %s doesn't resolve as NS!\n", newRRSet->Hostname().get())); AddToBlocklist(newRRSet->Hostname(), aOriginSuffix, pb, false); } return LOOKUP_OK; } MOZ_ASSERT_UNREACHABLE( "TRRService::CompleteLookup called for unexpected request"); return LOOKUP_OK; } AHostResolver::LookupStatus TRRService::CompleteLookupByType( nsHostRecord*, nsresult, mozilla::net::TypeRecordResultType& aResult, uint32_t aTtl, bool aPb) { return LOOKUP_OK; } NS_IMETHODIMP TRRService::OnProxyConfigChanged() { LOG(("TRRService::OnProxyConfigChanged")); nsAutoCString uri; GetURI(uri); AsyncCreateTRRConnectionInfo(uri); return NS_OK; } void TRRService::InitTRRConnectionInfo() { if (XRE_IsParentProcess()) { TRRServiceBase::InitTRRConnectionInfo(); return; } MOZ_ASSERT(XRE_IsSocketProcess()); MOZ_ASSERT(NS_IsMainThread()); TRRServiceChild* child = TRRServiceChild::GetSingleton(); if (child && child->CanSend()) { LOG(("TRRService::SendInitTRRConnectionInfo")); Unused << child->SendInitTRRConnectionInfo(); } } } // namespace mozilla::net