/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim:set ts=2 sw=2 sts=2 et cindent: */ /* 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 "ProxyAutoConfig.h" #include "nsICancelable.h" #include "nsIDNSListener.h" #include "nsIDNSRecord.h" #include "nsIDNSService.h" #include "nsINamed.h" #include "nsThreadUtils.h" #include "nsIConsoleService.h" #include "nsIURLParser.h" #include "nsJSUtils.h" #include "jsfriendapi.h" #include "js/CallAndConstruct.h" // JS_CallFunctionName #include "js/CompilationAndEvaluation.h" // JS::Compile #include "js/ContextOptions.h" #include "js/Initialization.h" #include "js/PropertyAndElement.h" // JS_DefineFunctions, JS_GetProperty #include "js/PropertySpec.h" #include "js/SourceText.h" // JS::Source{Ownership,Text} #include "js/Utility.h" #include "js/Warnings.h" // JS::SetWarningReporter #include "prnetdb.h" #include "nsITimer.h" #include "mozilla/Atomics.h" #include "mozilla/SpinEventLoopUntil.h" #include "mozilla/ipc/Endpoint.h" #include "mozilla/net/DNS.h" #include "mozilla/net/SocketProcessChild.h" #include "mozilla/net/SocketProcessParent.h" #include "mozilla/net/ProxyAutoConfigChild.h" #include "mozilla/net/ProxyAutoConfigParent.h" #include "mozilla/Utf8.h" // mozilla::Utf8Unit #include "nsServiceManagerUtils.h" #include "nsNetCID.h" #if defined(XP_MACOSX) # include "nsMacUtilsImpl.h" #endif #include "XPCSelfHostedShmem.h" namespace mozilla { namespace net { // These are some global helper symbols the PAC format requires that we provide // that are initialized as part of the global javascript context used for PAC // evaluations. Additionally dnsResolve(host) and myIpAddress() are supplied in // the same context but are implemented as c++ helpers. alert(msg) is similarly // defined. // // Per ProxyAutoConfig::Init, this data must be ASCII. static const char sAsciiPacUtils[] = #include "ascii_pac_utils.inc" ; // sRunning is defined for the helper functions only while the // Javascript engine is running and the PAC object cannot be deleted // or reset. static Atomic& RunningIndex() { static Atomic sRunningIndex(0xdeadbeef); return sRunningIndex; } static ProxyAutoConfig* GetRunning() { MOZ_ASSERT(RunningIndex() != 0xdeadbeef); return static_cast(PR_GetThreadPrivate(RunningIndex())); } static void SetRunning(ProxyAutoConfig* arg) { MOZ_ASSERT(RunningIndex() != 0xdeadbeef); MOZ_DIAGNOSTIC_ASSERT_IF(!arg, GetRunning() != nullptr); MOZ_DIAGNOSTIC_ASSERT_IF(arg, GetRunning() == nullptr); PR_SetThreadPrivate(RunningIndex(), arg); } // The PACResolver is used for dnsResolve() class PACResolver final : public nsIDNSListener, public nsITimerCallback, public nsINamed { public: NS_DECL_THREADSAFE_ISUPPORTS explicit PACResolver(nsIEventTarget* aTarget) : mStatus(NS_ERROR_FAILURE), mMainThreadEventTarget(aTarget), mMutex("PACResolver::Mutex") {} // nsIDNSListener NS_IMETHOD OnLookupComplete(nsICancelable* request, nsIDNSRecord* record, nsresult status) override { nsCOMPtr timer; { MutexAutoLock lock(mMutex); timer.swap(mTimer); mRequest = nullptr; } if (timer) { timer->Cancel(); } mStatus = status; mResponse = record; return NS_OK; } // nsITimerCallback NS_IMETHOD Notify(nsITimer* timer) override { nsCOMPtr request; { MutexAutoLock lock(mMutex); request.swap(mRequest); mTimer = nullptr; } if (request) { request->Cancel(NS_ERROR_NET_TIMEOUT); } return NS_OK; } // nsINamed NS_IMETHOD GetName(nsACString& aName) override { aName.AssignLiteral("PACResolver"); return NS_OK; } nsresult mStatus; nsCOMPtr mRequest; nsCOMPtr mResponse; nsCOMPtr mTimer; nsCOMPtr mMainThreadEventTarget; Mutex mMutex MOZ_UNANNOTATED; private: ~PACResolver() = default; }; NS_IMPL_ISUPPORTS(PACResolver, nsIDNSListener, nsITimerCallback, nsINamed) static void PACLogToConsole(nsString& aMessage) { if (XRE_IsSocketProcess()) { auto task = [message(aMessage)]() { SocketProcessChild* child = SocketProcessChild::GetSingleton(); if (child) { Unused << child->SendOnConsoleMessage(message); } }; if (NS_IsMainThread()) { task(); } else { NS_DispatchToMainThread(NS_NewRunnableFunction("PACLogToConsole", task)); } return; } nsCOMPtr consoleService = do_GetService(NS_CONSOLESERVICE_CONTRACTID); if (!consoleService) return; consoleService->LogStringMessage(aMessage.get()); } // Javascript errors and warnings are logged to the main error console static void PACLogErrorOrWarning(const nsAString& aKind, JSErrorReport* aReport) { nsString formattedMessage(u"PAC Execution "_ns); formattedMessage += aKind; formattedMessage += u": "_ns; if (aReport->message()) { formattedMessage.Append(NS_ConvertUTF8toUTF16(aReport->message().c_str())); } formattedMessage += u" ["_ns; formattedMessage.Append(aReport->linebuf(), aReport->linebufLength()); formattedMessage += u"]"_ns; PACLogToConsole(formattedMessage); } static void PACWarningReporter(JSContext* aCx, JSErrorReport* aReport) { MOZ_ASSERT(aReport); MOZ_ASSERT(aReport->isWarning()); PACLogErrorOrWarning(u"Warning"_ns, aReport); } class MOZ_STACK_CLASS AutoPACErrorReporter { JSContext* mCx; public: explicit AutoPACErrorReporter(JSContext* aCx) : mCx(aCx) {} ~AutoPACErrorReporter() { if (!JS_IsExceptionPending(mCx)) { return; } JS::ExceptionStack exnStack(mCx); if (!JS::StealPendingExceptionStack(mCx, &exnStack)) { return; } JS::ErrorReportBuilder report(mCx); if (!report.init(mCx, exnStack, JS::ErrorReportBuilder::WithSideEffects)) { JS_ClearPendingException(mCx); return; } PACLogErrorOrWarning(u"Error"_ns, report.report()); } }; // timeout of 0 means the normal necko timeout strategy, otherwise the dns // request will be canceled after aTimeout milliseconds static bool PACResolve(const nsACString& aHostName, NetAddr* aNetAddr, unsigned int aTimeout) { if (!GetRunning()) { NS_WARNING("PACResolve without a running ProxyAutoConfig object"); return false; } return GetRunning()->ResolveAddress(aHostName, aNetAddr, aTimeout); } ProxyAutoConfig::ProxyAutoConfig() { MOZ_COUNT_CTOR(ProxyAutoConfig); } bool ProxyAutoConfig::ResolveAddress(const nsACString& aHostName, NetAddr* aNetAddr, unsigned int aTimeout) { nsCOMPtr dns = do_GetService(NS_DNSSERVICE_CONTRACTID); if (!dns) return false; RefPtr helper = new PACResolver(mMainThreadEventTarget); OriginAttributes attrs; // When the PAC script attempts to resolve a domain, we must make sure we // don't use TRR, otherwise the TRR channel might also attempt to resolve // a name and we'll have a deadlock. nsIDNSService::DNSFlags flags = nsIDNSService::RESOLVE_PRIORITY_MEDIUM | nsIDNSService::GetFlagsFromTRRMode(nsIRequest::TRR_DISABLED_MODE); if (NS_FAILED(dns->AsyncResolveNative( aHostName, nsIDNSService::RESOLVE_TYPE_DEFAULT, flags, nullptr, helper, GetCurrentSerialEventTarget(), attrs, getter_AddRefs(helper->mRequest)))) { return false; } if (aTimeout && helper->mRequest) { if (!mTimer) mTimer = NS_NewTimer(); if (mTimer) { mTimer->SetTarget(mMainThreadEventTarget); mTimer->InitWithCallback(helper, aTimeout, nsITimer::TYPE_ONE_SHOT); helper->mTimer = mTimer; } } // Spin the event loop of the pac thread until lookup is complete. // nsPACman is responsible for keeping a queue and only allowing // one PAC execution at a time even when it is called re-entrantly. SpinEventLoopUntil("ProxyAutoConfig::ResolveAddress"_ns, [&, helper, this]() { if (!helper->mRequest) { return true; } if (this->mShutdown) { NS_WARNING("mShutdown set with PAC request not cancelled"); MOZ_ASSERT(NS_FAILED(helper->mStatus)); return true; } return false; }); if (NS_FAILED(helper->mStatus)) { return false; } nsCOMPtr rec = do_QueryInterface(helper->mResponse); return !(!rec || NS_FAILED(rec->GetNextAddr(0, aNetAddr))); } static bool PACResolveToString(const nsACString& aHostName, nsCString& aDottedDecimal, unsigned int aTimeout) { NetAddr netAddr; if (!PACResolve(aHostName, &netAddr, aTimeout)) return false; char dottedDecimal[128]; if (!netAddr.ToStringBuffer(dottedDecimal, sizeof(dottedDecimal))) { return false; } aDottedDecimal.Assign(dottedDecimal); return true; } // dnsResolve(host) javascript implementation static bool PACDnsResolve(JSContext* cx, unsigned int argc, JS::Value* vp) { JS::CallArgs args = CallArgsFromVp(argc, vp); if (NS_IsMainThread()) { NS_WARNING("DNS Resolution From PAC on Main Thread. How did that happen?"); return false; } if (!args.requireAtLeast(cx, "dnsResolve", 1)) return false; // Previously we didn't check the type of the argument, so just converted it // to string. A badly written PAC file oculd pass null or undefined here // which could lead to odd results if there are any hosts called "null" // on the network. See bug 1724345 comment 6. if (!args[0].isString()) { args.rval().setNull(); return true; } JS::Rooted arg1(cx); arg1 = args[0].toString(); nsAutoJSString hostName; nsAutoCString dottedDecimal; if (!hostName.init(cx, arg1)) return false; if (PACResolveToString(NS_ConvertUTF16toUTF8(hostName), dottedDecimal, 0)) { JSString* dottedDecimalString = JS_NewStringCopyZ(cx, dottedDecimal.get()); if (!dottedDecimalString) { return false; } args.rval().setString(dottedDecimalString); } else { args.rval().setNull(); } return true; } // myIpAddress() javascript implementation static bool PACMyIpAddress(JSContext* cx, unsigned int argc, JS::Value* vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); if (NS_IsMainThread()) { NS_WARNING("DNS Resolution From PAC on Main Thread. How did that happen?"); return false; } if (!GetRunning()) { NS_WARNING("PAC myIPAddress without a running ProxyAutoConfig object"); return false; } return GetRunning()->MyIPAddress(args); } // proxyAlert(msg) javascript implementation static bool PACProxyAlert(JSContext* cx, unsigned int argc, JS::Value* vp) { JS::CallArgs args = CallArgsFromVp(argc, vp); if (!args.requireAtLeast(cx, "alert", 1)) return false; JS::Rooted arg1(cx, JS::ToString(cx, args[0])); if (!arg1) return false; nsAutoJSString message; if (!message.init(cx, arg1)) return false; nsAutoString alertMessage; alertMessage.AssignLiteral(u"PAC-alert: "); alertMessage.Append(message); PACLogToConsole(alertMessage); args.rval().setUndefined(); /* return undefined */ return true; } static const JSFunctionSpec PACGlobalFunctions[] = { JS_FN("dnsResolve", PACDnsResolve, 1, 0), // a global "var pacUseMultihomedDNS = true;" will change behavior // of myIpAddress to actively use DNS JS_FN("myIpAddress", PACMyIpAddress, 0, 0), JS_FN("alert", PACProxyAlert, 1, 0), JS_FS_END}; // JSContextWrapper is a c++ object that manages the context for the JS engine // used on the PAC thread. It is initialized and destroyed on the PAC thread. class JSContextWrapper { public: static JSContextWrapper* Create(uint32_t aExtraHeapSize) { JSContext* cx = JS_NewContext(JS::DefaultHeapMaxBytes + aExtraHeapSize); if (NS_WARN_IF(!cx)) return nullptr; JS::ContextOptionsRef(cx).setDisableIon().setDisableEvalSecurityChecks(); JSContextWrapper* entry = new JSContextWrapper(cx); if (NS_FAILED(entry->Init())) { delete entry; return nullptr; } return entry; } JSContext* Context() const { return mContext; } JSObject* Global() const { return mGlobal; } ~JSContextWrapper() { mGlobal = nullptr; MOZ_COUNT_DTOR(JSContextWrapper); if (mContext) { JS_DestroyContext(mContext); } } void SetOK() { mOK = true; } bool IsOK() { return mOK; } private: JSContext* mContext; JS::PersistentRooted mGlobal; bool mOK; static const JSClass sGlobalClass; explicit JSContextWrapper(JSContext* cx) : mContext(cx), mGlobal(cx, nullptr), mOK(false) { MOZ_COUNT_CTOR(JSContextWrapper); } nsresult Init() { /* * Not setting this will cause JS_CHECK_RECURSION to report false * positives */ JS_SetNativeStackQuota(mContext, 128 * sizeof(size_t) * 1024); JS::SetWarningReporter(mContext, PACWarningReporter); // When available, set the self-hosted shared memory to be read, so that // we can decode the self-hosted content instead of parsing it. { auto& shm = xpc::SelfHostedShmem::GetSingleton(); JS::SelfHostedCache selfHostedContent = shm.Content(); if (!JS::InitSelfHostedCode(mContext, selfHostedContent)) { return NS_ERROR_OUT_OF_MEMORY; } } JS::RealmOptions options; options.creationOptions().setNewCompartmentInSystemZone(); options.behaviors() .setClampAndJitterTime(false) .setReduceTimerPrecisionCallerType( RTPCallerTypeToToken(RTPCallerType::Normal)); mGlobal = JS_NewGlobalObject(mContext, &sGlobalClass, nullptr, JS::DontFireOnNewGlobalHook, options); if (!mGlobal) { JS_ClearPendingException(mContext); return NS_ERROR_OUT_OF_MEMORY; } JS::Rooted global(mContext, mGlobal); JSAutoRealm ar(mContext, global); AutoPACErrorReporter aper(mContext); if (!JS_DefineFunctions(mContext, global, PACGlobalFunctions)) { return NS_ERROR_FAILURE; } JS_FireOnNewGlobalObject(mContext, global); return NS_OK; } }; const JSClass JSContextWrapper::sGlobalClass = {"PACResolutionThreadGlobal", JSCLASS_GLOBAL_FLAGS, &JS::DefaultGlobalClassOps}; void ProxyAutoConfig::SetThreadLocalIndex(uint32_t index) { RunningIndex() = index; } nsresult ProxyAutoConfig::ConfigurePAC(const nsACString& aPACURI, const nsACString& aPACScriptData, bool aIncludePath, uint32_t aExtraHeapSize, nsISerialEventTarget* aEventTarget) { mShutdown = false; // Shutdown needs to be called prior to destruction mPACURI = aPACURI; // The full PAC script data is the concatenation of 1) the various functions // exposed to PAC scripts in |sAsciiPacUtils| and 2) the user-provided PAC // script data. Historically this was single-byte Latin-1 text (usually just // ASCII, but bug 296163 has a real-world Latin-1 example). We now support // UTF-8 if the full data validates as UTF-8, before falling back to Latin-1. // (Technically this is a breaking change: intentional Latin-1 scripts that // happen to be valid UTF-8 may have different behavior. We assume such cases // are vanishingly rare.) // // Supporting both UTF-8 and Latin-1 requires that the functions exposed to // PAC scripts be both UTF-8- and Latin-1-compatible: that is, they must be // ASCII. mConcatenatedPACData = sAsciiPacUtils; if (!mConcatenatedPACData.Append(aPACScriptData, mozilla::fallible)) { return NS_ERROR_OUT_OF_MEMORY; } mIncludePath = aIncludePath; mExtraHeapSize = aExtraHeapSize; mMainThreadEventTarget = aEventTarget; if (!GetRunning()) return SetupJS(); mJSNeedsSetup = true; return NS_OK; } nsresult ProxyAutoConfig::SetupJS() { mJSNeedsSetup = false; MOZ_DIAGNOSTIC_ASSERT(!GetRunning(), "JIT is running"); if (GetRunning()) { return NS_ERROR_ALREADY_INITIALIZED; } #if defined(XP_MACOSX) nsMacUtilsImpl::EnableTCSMIfAvailable(); #endif delete mJSContext; mJSContext = nullptr; if (mConcatenatedPACData.IsEmpty()) return NS_ERROR_FAILURE; NS_GetCurrentThread()->SetCanInvokeJS(true); mJSContext = JSContextWrapper::Create(mExtraHeapSize); if (!mJSContext) return NS_ERROR_FAILURE; JSContext* cx = mJSContext->Context(); JSAutoRealm ar(cx, mJSContext->Global()); AutoPACErrorReporter aper(cx); // check if this is a data: uri so that we don't spam the js console with // huge meaningless strings. this is not on the main thread, so it can't // use nsIURI scheme methods bool isDataURI = nsDependentCSubstring(mPACURI, 0, 5).LowerCaseEqualsASCII("data:", 5); SetRunning(this); JS::Rooted global(cx, mJSContext->Global()); auto CompilePACScript = [this](JSContext* cx) -> JSScript* { JS::CompileOptions options(cx); options.setSkipFilenameValidation(true); options.setFileAndLine(this->mPACURI.get(), 1); // Per ProxyAutoConfig::Init, compile as UTF-8 if the full data is UTF-8, // and otherwise inflate Latin-1 to UTF-16 and compile that. const char* scriptData = this->mConcatenatedPACData.get(); size_t scriptLength = this->mConcatenatedPACData.Length(); if (mozilla::IsUtf8(mozilla::Span(scriptData, scriptLength))) { JS::SourceText srcBuf; if (!srcBuf.init(cx, scriptData, scriptLength, JS::SourceOwnership::Borrowed)) { return nullptr; } return JS::Compile(cx, options, srcBuf); } // nsReadableUtils.h says that "ASCII" is a misnomer "for legacy reasons", // and this handles not just ASCII but Latin-1 too. NS_ConvertASCIItoUTF16 inflated(this->mConcatenatedPACData); JS::SourceText source; if (!source.init(cx, inflated.get(), inflated.Length(), JS::SourceOwnership::Borrowed)) { return nullptr; } return JS::Compile(cx, options, source); }; JS::Rooted script(cx, CompilePACScript(cx)); if (!script || !JS_ExecuteScript(cx, script)) { nsString alertMessage(u"PAC file failed to install from "_ns); if (isDataURI) { alertMessage += u"data: URI"_ns; } else { alertMessage += NS_ConvertUTF8toUTF16(mPACURI); } PACLogToConsole(alertMessage); SetRunning(nullptr); return NS_ERROR_FAILURE; } SetRunning(nullptr); mJSContext->SetOK(); nsString alertMessage(u"PAC file installed from "_ns); if (isDataURI) { alertMessage += u"data: URI"_ns; } else { alertMessage += NS_ConvertUTF8toUTF16(mPACURI); } PACLogToConsole(alertMessage); // we don't need these now mConcatenatedPACData.Truncate(); mPACURI.Truncate(); return NS_OK; } void ProxyAutoConfig::GetProxyForURIWithCallback( const nsACString& aTestURI, const nsACString& aTestHost, std::function&& aCallback) { nsAutoCString result; nsresult status = GetProxyForURI(aTestURI, aTestHost, result); aCallback(status, result); } nsresult ProxyAutoConfig::GetProxyForURI(const nsACString& aTestURI, const nsACString& aTestHost, nsACString& result) { if (mJSNeedsSetup) SetupJS(); if (!mJSContext || !mJSContext->IsOK()) return NS_ERROR_NOT_AVAILABLE; JSContext* cx = mJSContext->Context(); JSAutoRealm ar(cx, mJSContext->Global()); AutoPACErrorReporter aper(cx); // the sRunning flag keeps a new PAC file from being installed // while the event loop is spinning on a DNS function. Don't early return. SetRunning(this); mRunningHost = aTestHost; nsresult rv = NS_ERROR_FAILURE; nsCString clensedURI(aTestURI); if (!mIncludePath) { nsCOMPtr urlParser = do_GetService(NS_STDURLPARSER_CONTRACTID); int32_t pathLen = 0; if (urlParser) { uint32_t schemePos; int32_t schemeLen; uint32_t authorityPos; int32_t authorityLen; uint32_t pathPos; rv = urlParser->ParseURL(aTestURI.BeginReading(), aTestURI.Length(), &schemePos, &schemeLen, &authorityPos, &authorityLen, &pathPos, &pathLen); } if (NS_SUCCEEDED(rv)) { if (pathLen) { // cut off the path but leave the initial slash pathLen--; } aTestURI.Left(clensedURI, aTestURI.Length() - pathLen); } } JS::Rooted uriString( cx, JS_NewStringCopyN(cx, clensedURI.BeginReading(), clensedURI.Length())); JS::Rooted hostString( cx, JS_NewStringCopyN(cx, aTestHost.BeginReading(), aTestHost.Length())); if (uriString && hostString) { JS::RootedValueArray<2> args(cx); args[0].setString(uriString); args[1].setString(hostString); JS::Rooted rval(cx); JS::Rooted global(cx, mJSContext->Global()); bool ok = JS_CallFunctionName(cx, global, "FindProxyForURL", args, &rval); if (ok && rval.isString()) { nsAutoJSString pacString; if (pacString.init(cx, rval.toString())) { CopyUTF16toUTF8(pacString, result); rv = NS_OK; } } } mRunningHost.Truncate(); SetRunning(nullptr); return rv; } void ProxyAutoConfig::GC() { if (!mJSContext || !mJSContext->IsOK()) return; JSAutoRealm ar(mJSContext->Context(), mJSContext->Global()); JS_MaybeGC(mJSContext->Context()); } ProxyAutoConfig::~ProxyAutoConfig() { MOZ_COUNT_DTOR(ProxyAutoConfig); MOZ_ASSERT(mShutdown, "Shutdown must be called before dtor."); NS_ASSERTION(!mJSContext, "~ProxyAutoConfig leaking JS context that " "should have been deleted on pac thread"); } void ProxyAutoConfig::Shutdown() { MOZ_ASSERT(!NS_IsMainThread(), "wrong thread for shutdown"); if (NS_WARN_IF(GetRunning()) || mShutdown) { return; } mShutdown = true; delete mJSContext; mJSContext = nullptr; } bool ProxyAutoConfig::SrcAddress(const NetAddr* remoteAddress, nsCString& localAddress) { PRFileDesc* fd; fd = PR_OpenUDPSocket(remoteAddress->raw.family); if (!fd) return false; PRNetAddr prRemoteAddress; NetAddrToPRNetAddr(remoteAddress, &prRemoteAddress); if (PR_Connect(fd, &prRemoteAddress, 0) != PR_SUCCESS) { PR_Close(fd); return false; } PRNetAddr localName; if (PR_GetSockName(fd, &localName) != PR_SUCCESS) { PR_Close(fd); return false; } PR_Close(fd); char dottedDecimal[128]; if (PR_NetAddrToString(&localName, dottedDecimal, sizeof(dottedDecimal)) != PR_SUCCESS) { return false; } localAddress.Assign(dottedDecimal); return true; } // hostName is run through a dns lookup and then a udp socket is connected // to the result. If that all works, the local IP address of the socket is // returned to the javascript caller and |*aResult| is set to true. Otherwise // |*aResult| is set to false. bool ProxyAutoConfig::MyIPAddressTryHost(const nsACString& hostName, unsigned int timeout, const JS::CallArgs& aArgs, bool* aResult) { *aResult = false; NetAddr remoteAddress; nsAutoCString localDottedDecimal; JSContext* cx = mJSContext->Context(); if (PACResolve(hostName, &remoteAddress, timeout) && SrcAddress(&remoteAddress, localDottedDecimal)) { JSString* dottedDecimalString = JS_NewStringCopyZ(cx, localDottedDecimal.get()); if (!dottedDecimalString) { return false; } *aResult = true; aArgs.rval().setString(dottedDecimalString); } return true; } bool ProxyAutoConfig::MyIPAddress(const JS::CallArgs& aArgs) { nsAutoCString remoteDottedDecimal; nsAutoCString localDottedDecimal; JSContext* cx = mJSContext->Context(); JS::Rooted v(cx); JS::Rooted global(cx, mJSContext->Global()); bool useMultihomedDNS = JS_GetProperty(cx, global, "pacUseMultihomedDNS", &v) && !v.isUndefined() && ToBoolean(v); // first, lookup the local address of a socket connected // to the host of uri being resolved by the pac file. This is // v6 safe.. but is the last step like that bool rvalAssigned = false; if (useMultihomedDNS) { if (!MyIPAddressTryHost(mRunningHost, kTimeout, aArgs, &rvalAssigned) || rvalAssigned) { return rvalAssigned; } } else { // we can still do the fancy multi homing thing if the host is a literal if (HostIsIPLiteral(mRunningHost) && (!MyIPAddressTryHost(mRunningHost, kTimeout, aArgs, &rvalAssigned) || rvalAssigned)) { return rvalAssigned; } } // next, look for a route to a public internet address that doesn't need DNS. // This is the google anycast dns address, but it doesn't matter if it // remains operable (as we don't contact it) as long as the address stays // in commonly routed IP address space. remoteDottedDecimal.AssignLiteral("8.8.8.8"); if (!MyIPAddressTryHost(remoteDottedDecimal, 0, aArgs, &rvalAssigned) || rvalAssigned) { return rvalAssigned; } // finally, use the old algorithm based on the local hostname nsAutoCString hostName; nsCOMPtr dns = do_GetService(NS_DNSSERVICE_CONTRACTID); // without multihomedDNS use such a short timeout that we are basically // just looking at the cache for raw dotted decimals uint32_t timeout = useMultihomedDNS ? kTimeout : 1; if (dns && NS_SUCCEEDED(dns->GetMyHostName(hostName)) && PACResolveToString(hostName, localDottedDecimal, timeout)) { JSString* dottedDecimalString = JS_NewStringCopyZ(cx, localDottedDecimal.get()); if (!dottedDecimalString) { return false; } aArgs.rval().setString(dottedDecimalString); return true; } // next try a couple RFC 1918 variants.. maybe there is a // local route remoteDottedDecimal.AssignLiteral("192.168.0.1"); if (!MyIPAddressTryHost(remoteDottedDecimal, 0, aArgs, &rvalAssigned) || rvalAssigned) { return rvalAssigned; } // more RFC 1918 remoteDottedDecimal.AssignLiteral("10.0.0.1"); if (!MyIPAddressTryHost(remoteDottedDecimal, 0, aArgs, &rvalAssigned) || rvalAssigned) { return rvalAssigned; } // who knows? let's fallback to localhost localDottedDecimal.AssignLiteral("127.0.0.1"); JSString* dottedDecimalString = JS_NewStringCopyZ(cx, localDottedDecimal.get()); if (!dottedDecimalString) { return false; } aArgs.rval().setString(dottedDecimalString); return true; } RemoteProxyAutoConfig::RemoteProxyAutoConfig() = default; RemoteProxyAutoConfig::~RemoteProxyAutoConfig() = default; nsresult RemoteProxyAutoConfig::Init(nsIThread* aPACThread) { MOZ_ASSERT(NS_IsMainThread()); SocketProcessParent* socketProcessParent = SocketProcessParent::GetSingleton(); if (!socketProcessParent) { return NS_ERROR_NOT_AVAILABLE; } ipc::Endpoint parent; ipc::Endpoint child; nsresult rv = PProxyAutoConfig::CreateEndpoints( base::GetCurrentProcId(), socketProcessParent->OtherPid(), &parent, &child); if (NS_FAILED(rv)) { return rv; } Unused << socketProcessParent->SendInitProxyAutoConfigChild(std::move(child)); mProxyAutoConfigParent = new ProxyAutoConfigParent(); return aPACThread->Dispatch( NS_NewRunnableFunction("ProxyAutoConfigParent::ProxyAutoConfigParent", [proxyAutoConfigParent(mProxyAutoConfigParent), endpoint{std::move(parent)}]() mutable { proxyAutoConfigParent->Init(std::move(endpoint)); })); } nsresult RemoteProxyAutoConfig::ConfigurePAC(const nsACString& aPACURI, const nsACString& aPACScriptData, bool aIncludePath, uint32_t aExtraHeapSize, nsISerialEventTarget*) { Unused << mProxyAutoConfigParent->SendConfigurePAC( aPACURI, aPACScriptData, aIncludePath, aExtraHeapSize); return NS_OK; } void RemoteProxyAutoConfig::Shutdown() { mProxyAutoConfigParent->Close(); } void RemoteProxyAutoConfig::GC() { // Do nothing. GC would be performed when there is not pending query in socket // process. } void RemoteProxyAutoConfig::GetProxyForURIWithCallback( const nsACString& aTestURI, const nsACString& aTestHost, std::function&& aCallback) { if (!mProxyAutoConfigParent->CanSend()) { return; } mProxyAutoConfigParent->SendGetProxyForURI( aTestURI, aTestHost, [aCallback](std::tuple&& aResult) { auto [status, result] = aResult; aCallback(status, result); }, [aCallback](mozilla::ipc::ResponseRejectReason&& aReason) { aCallback(NS_ERROR_FAILURE, ""_ns); }); } } // namespace net } // namespace mozilla