/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "GlobalStyleSheetCache.h" #include "nsAppDirectoryServiceDefs.h" #include "nsExceptionHandler.h" #include "mozilla/MemoryReporting.h" #include "mozilla/Preferences.h" #include "mozilla/StaticPrefs_layout.h" #include "mozilla/StyleSheet.h" #include "mozilla/StyleSheetInlines.h" #include "mozilla/Telemetry.h" #include "mozilla/css/Loader.h" #include "mozilla/StaticPrefs_browser.h" #include "mozilla/dom/SRIMetadata.h" #include "mozilla/ipc/SharedMemory.h" #include "MainThreadUtils.h" #include "nsColor.h" #include "nsContentUtils.h" #include "nsIConsoleService.h" #include "nsIFile.h" #include "nsIObserverService.h" #include "nsIXULRuntime.h" #include "nsNetUtil.h" #include "nsPresContext.h" #include "nsPrintfCString.h" #include "nsServiceManagerUtils.h" #include "nsXULAppAPI.h" #include namespace mozilla { // The GlobalStyleSheetCache is responsible for sharing user agent style sheet // contents across processes using shared memory. Here is a high level view of // how that works: // // * In the parent process, in the GlobalStyleSheetCache constructor (which is // called early on in a process' lifetime), we parse all UA style sheets into // Gecko StyleSheet objects. // // * The constructor calls InitSharedSheetsInParent, which creates a shared // memory segment that we know ahead of time will be big enough to store the // UA sheets. // // * It then creates a Rust SharedMemoryBuilder object and passes it a pointer // to the start of the shared memory. // // * For each UA sheet, we call Servo_SharedMemoryBuilder_AddStylesheet, which // takes the StylesheetContents::rules (an Arc>), produces a // deep clone of it, and writes that clone into the shared memory: // // * The deep clone isn't a clone() call, but a call to ToShmem::to_shmem. The // ToShmem trait must be implemented on every type that is reachable under // the Arc>. The to_shmem call for each type will clone the // value, but any heap allocation will be cloned and placed into the shared // memory buffer, rather than heap allocated. // // * For most types, the ToShmem implementation is simple, and we just // #[derive(ToShmem)] it. For the types that need special handling due to // having heap allocations (Vec, Box, Arc, etc.) we have impls that // call to_shmem on the heap allocated data, and then create a new container // (e.g. using Box::from_raw) that points into the shared memory. // // * Arc and Locked want to perform atomic writes on data that needs to // be in the shared memory buffer (the reference count for Arc, and the // SharedRwLock's AtomicRefCell for Locked), so we add special modes to // those objects that skip the writes. For Arc, that means never // dropping the object since we don't track the reference count. That's // fine, since we want to just drop the entire shared memory buffer at // shutdown. For Locked, we just panic on attempting to take the lock // for writing. That's also fine, since we don't want devtools being able // to modify UA sheets. // // * For Atoms in Rust, static atoms are represented by an index into the // static atom table. Then if we need to Deref the Atom we look up the // table. We panic if any Atom we encounter in the UA style sheets is // not a static atom. // // * For each UA sheet, we create a new C++ StyleSheet object using the shared // memory clone of the sheet contents, and throw away the original heap // allocated one. (We could avoid creating a new C++ StyleSheet object // wrapping the shared contents, and update the original StyleSheet object's // contents, but it's doubtful that matters.) // // * When we initially map the shared memory in the parent process in // InitSharedSheetsInParent, we choose an address which is far away from the // current extent of the heap. Although not too far, since we don't want to // unnecessarily fragment the virtual address space. // // * In the child process, as early as possible (in // ContentChild::InitSharedUASheets), we try to map the shared memory at that // same address, then pass the shared memory buffer to // GlobalStyleSheetCache::SetSharedMemory. Since we map at the same // address, this means any internal pointers in the UA sheets back into the // shared memory buffer that were written by the parent process are valid in // the child process too. // // * In practice, mapping at the address we need in the child process this works // nearly all the time. If we fail to map at the address we need, the child // process falls back to parsing and allocating its own copy of the UA sheets. using namespace mozilla; using namespace css; #define PREF_LEGACY_STYLESHEET_CUSTOMIZATION \ "toolkit.legacyUserProfileCustomizations.stylesheets" NS_IMPL_ISUPPORTS(GlobalStyleSheetCache, nsIObserver, nsIMemoryReporter) nsresult GlobalStyleSheetCache::Observe(nsISupports* aSubject, const char* aTopic, const char16_t* aData) { if (!strcmp(aTopic, "profile-before-change")) { mUserContentSheet = nullptr; mUserChromeSheet = nullptr; } else if (!strcmp(aTopic, "profile-do-change")) { InitFromProfile(); } else { MOZ_ASSERT_UNREACHABLE("Unexpected observer topic."); } return NS_OK; } #define STYLE_SHEET(identifier_, url_, shared_) \ NotNull GlobalStyleSheetCache::identifier_##Sheet() { \ if (!m##identifier_##Sheet) { \ m##identifier_##Sheet = LoadSheetURL(url_, eAgentSheetFeatures, eCrash); \ } \ return WrapNotNull(m##identifier_##Sheet); \ } #include "mozilla/UserAgentStyleSheetList.h" #undef STYLE_SHEET StyleSheet* GlobalStyleSheetCache::GetUserContentSheet() { return mUserContentSheet; } StyleSheet* GlobalStyleSheetCache::GetUserChromeSheet() { return mUserChromeSheet; } StyleSheet* GlobalStyleSheetCache::ChromePreferenceSheet() { if (!mChromePreferenceSheet) { BuildPreferenceSheet(&mChromePreferenceSheet, PreferenceSheet::ChromePrefs()); } return mChromePreferenceSheet; } StyleSheet* GlobalStyleSheetCache::ContentPreferenceSheet() { if (!mContentPreferenceSheet) { BuildPreferenceSheet(&mContentPreferenceSheet, PreferenceSheet::ContentPrefs()); } return mContentPreferenceSheet; } void GlobalStyleSheetCache::Shutdown() { gCSSLoader = nullptr; NS_WARNING_ASSERTION(!gStyleCache || !gUserContentSheetURL, "Got the URL but never used?"); gStyleCache = nullptr; gUserContentSheetURL = nullptr; for (auto& r : URLExtraData::sShared) { r = nullptr; } // We want to leak the shared memory forever, rather than cleaning up all // potential DOM references and such that chrome code may have created. } void GlobalStyleSheetCache::SetUserContentCSSURL(nsIURI* aURI) { MOZ_ASSERT(XRE_IsContentProcess(), "Only used in content processes."); gUserContentSheetURL = aURI; } MOZ_DEFINE_MALLOC_SIZE_OF(LayoutStylesheetCacheMallocSizeOf) NS_IMETHODIMP GlobalStyleSheetCache::CollectReports(nsIHandleReportCallback* aHandleReport, nsISupports* aData, bool aAnonymize) { MOZ_COLLECT_REPORT("explicit/layout/style-sheet-cache/unshared", KIND_HEAP, UNITS_BYTES, SizeOfIncludingThis(LayoutStylesheetCacheMallocSizeOf), "Memory used for built-in style sheets that are not " "shared between processes."); if (XRE_IsParentProcess()) { MOZ_COLLECT_REPORT( "explicit/layout/style-sheet-cache/shared", KIND_NONHEAP, UNITS_BYTES, sSharedMemory ? sUsedSharedMemory : 0, "Memory used for built-in style sheets that are shared to " "child processes."); } return NS_OK; } size_t GlobalStyleSheetCache::SizeOfIncludingThis( MallocSizeOf aMallocSizeOf) const { size_t n = aMallocSizeOf(this); #define MEASURE(s) n += s ? s->SizeOfIncludingThis(aMallocSizeOf) : 0; #define STYLE_SHEET(identifier_, url_, shared_) MEASURE(m##identifier_##Sheet); #include "mozilla/UserAgentStyleSheetList.h" #undef STYLE_SHEET MEASURE(mChromePreferenceSheet); MEASURE(mContentPreferenceSheet); MEASURE(mUserChromeSheet); MEASURE(mUserContentSheet); // Measurement of the following members may be added later if DMD finds it is // worthwhile: // - gCSSLoader return n; } GlobalStyleSheetCache::GlobalStyleSheetCache() { nsCOMPtr obsSvc = services::GetObserverService(); NS_ASSERTION(obsSvc, "No global observer service?"); if (obsSvc) { obsSvc->AddObserver(this, "profile-before-change", false); obsSvc->AddObserver(this, "profile-do-change", false); } // Load user style sheets. InitFromProfile(); if (XRE_IsParentProcess()) { // We know we need xul.css for the UI, so load that now too: XULSheet(); } if (gUserContentSheetURL) { MOZ_ASSERT(XRE_IsContentProcess(), "Only used in content processes."); mUserContentSheet = LoadSheet(gUserContentSheetURL, eUserSheetFeatures, eLogToConsole); gUserContentSheetURL = nullptr; } // If we are the in the parent process, then we load all of the UA sheets that // are shareable and store them into shared memory. In both the parent and // the content process, we load these sheets out of shared memory. // // The shared memory buffer's format is a Header object, which contains // internal pointers to each of the shared style sheets, followed by the style // sheets themselves. if (StaticPrefs::layout_css_shared_memory_ua_sheets_enabled()) { if (XRE_IsParentProcess()) { // Load the style sheets and store them in a new shared memory buffer. InitSharedSheetsInParent(); } else if (sSharedMemory) { // Use the shared memory handle that was given to us by a SetSharedMemory // call under ContentChild::InitXPCOM. MOZ_ASSERT(sSharedMemory->memory(), "GlobalStyleSheetCache::SetSharedMemory should have mapped " "the shared memory"); } } // If we get here and we don't have a shared memory handle, then it means // either we failed to create the shared memory buffer in the parent process // (unexpected), or we failed to map the shared memory buffer at the address // we needed in the content process (might happen). // // If sSharedMemory is non-null, but it is not currently mapped, then it means // we are in the parent process, and we failed to re-map the memory after // freezing it. (We keep sSharedMemory around so that we can still share it // to content processes.) // // In the parent process, this means we'll just leave our eagerly loaded // non-shared sheets in the mFooSheet fields. In a content process, we'll // lazily load our own copies of the sheets later. if (sSharedMemory) { if (auto header = static_cast(sSharedMemory->memory())) { MOZ_RELEASE_ASSERT(header->mMagic == Header::kMagic); #define STYLE_SHEET(identifier_, url_, shared_) \ if (shared_) { \ LoadSheetFromSharedMemory(url_, &m##identifier_##Sheet, \ eAgentSheetFeatures, header, \ UserAgentStyleSheetID::identifier_); \ } #include "mozilla/UserAgentStyleSheetList.h" #undef STYLE_SHEET } } } void GlobalStyleSheetCache::LoadSheetFromSharedMemory( const char* aURL, RefPtr* aSheet, SheetParsingMode aParsingMode, Header* aHeader, UserAgentStyleSheetID aSheetID) { auto i = size_t(aSheetID); auto sheet = MakeRefPtr(aParsingMode, CORS_NONE, dom::SRIMetadata()); nsCOMPtr uri; MOZ_ALWAYS_SUCCEEDS(NS_NewURI(getter_AddRefs(uri), aURL)); sheet->SetPrincipal(nsContentUtils::GetSystemPrincipal()); sheet->SetURIs(uri, uri, uri); sheet->SetSharedContents(aHeader->mSheets[i]); sheet->SetComplete(); nsCOMPtr referrerInfo = dom::ReferrerInfo::CreateForExternalCSSResources(sheet); sheet->SetReferrerInfo(referrerInfo); URLExtraData::sShared[i] = sheet->URLData(); *aSheet = std::move(sheet); } void GlobalStyleSheetCache::InitSharedSheetsInParent() { MOZ_ASSERT(XRE_IsParentProcess()); MOZ_RELEASE_ASSERT(!sSharedMemory); auto shm = MakeUnique(); if (NS_WARN_IF(!shm->CreateFreezeable(kSharedMemorySize))) { return; } // We need to choose an address to map the shared memory in the parent process // that we'll also be able to use in content processes. There's no way to // pick an address that is guaranteed to be free in future content processes, // so instead we pick an address that is some distance away from current heap // allocations and hope that by the time the content process maps the shared // memory, that address will be free. // // On 64 bit, we have a large amount of address space, so we pick an address // half way through the next 8 GiB of free space, and this has a very good // chance of succeeding. On 32 bit, address space is more constrained. We // only have 3 GiB of space to work with, and we don't want to pick a location // right in the middle, since that could cause future large allocations to // fail. So we pick an address half way through the next 512 MiB of free // space. Experimentally this seems to work 9 times out of 10; this is good // enough, as it means only 1 in 10 content processes will have its own unique // copies of the UA style sheets, and we're still getting a significant // overall memory saving. // // In theory ASLR could reduce the likelihood of the mapping succeeding in // content processes, due to our expectations of where the heap is being // wrong, but in practice this isn't an issue. #ifdef HAVE_64BIT_BUILD constexpr size_t kOffset = 0x200000000ULL; // 8 GiB #else constexpr size_t kOffset = 0x20000000; // 512 MiB #endif void* address = nullptr; if (void* p = base::SharedMemory::FindFreeAddressSpace(2 * kOffset)) { address = reinterpret_cast(uintptr_t(p) + kOffset); } if (!shm->Map(kSharedMemorySize, address)) { // Failed to map at the address we computed for some reason. Fall back // to just allocating at a location of the OS's choosing, and hope that // it works in the content process. if (NS_WARN_IF(!shm->Map(kSharedMemorySize))) { return; } } address = shm->memory(); auto header = static_cast(address); header->mMagic = Header::kMagic; #ifdef DEBUG for (auto ptr : header->mSheets) { MOZ_RELEASE_ASSERT(!ptr, "expected shared memory to have been zeroed"); } #endif UniquePtr builder( Servo_SharedMemoryBuilder_Create( header->mBuffer, kSharedMemorySize - offsetof(Header, mBuffer))); nsCString message; // Copy each one into the shared memory, and record its pointer. // // Normally calling ToShared on UA sheets should not fail. It happens // in practice in odd cases that seem like corrupted installations; see bug // 1621773. On failure, return early and fall back to non-shared sheets. #define STYLE_SHEET(identifier_, url_, shared_) \ if (shared_) { \ StyleSheet* sheet = identifier_##Sheet(); \ size_t i = size_t(UserAgentStyleSheetID::identifier_); \ URLExtraData::sShared[i] = sheet->URLData(); \ header->mSheets[i] = sheet->ToShared(builder.get(), message); \ if (!header->mSheets[i]) { \ CrashReporter::AppendAppNotesToCrashReport("\n"_ns + message); \ return; \ } \ } #include "mozilla/UserAgentStyleSheetList.h" #undef STYLE_SHEET // Finished writing into the shared memory. Freeze it, so that a process // can't confuse other processes by changing the UA style sheet contents. if (NS_WARN_IF(!shm->Freeze())) { return; } // The Freeze() call unmaps the shared memory. Re-map it again as read only. // If this fails, due to something else being mapped into the same place // between the Freeze() and Map() call, we can just fall back to keeping our // own copy of the UA style sheets in the parent, and still try sending the // shared memory to the content processes. shm->Map(kSharedMemorySize, address); // Record how must of the shared memory we have used, for memory reporting // later. We round up to the nearest page since the free space at the end // of the page isn't really usable for anything else. // // TODO(heycam): This won't be true on Windows unless we allow creating the // shared memory with SEC_RESERVE so that the pages are reserved but not // committed. size_t pageSize = ipc::SharedMemory::SystemPageSize(); sUsedSharedMemory = (Servo_SharedMemoryBuilder_GetLength(builder.get()) + pageSize - 1) & ~(pageSize - 1); sSharedMemory = shm.release(); } GlobalStyleSheetCache::~GlobalStyleSheetCache() { UnregisterWeakMemoryReporter(this); } void GlobalStyleSheetCache::InitMemoryReporter() { RegisterWeakMemoryReporter(this); } /* static */ GlobalStyleSheetCache* GlobalStyleSheetCache::Singleton() { MOZ_ASSERT(NS_IsMainThread()); if (!gStyleCache) { gStyleCache = new GlobalStyleSheetCache; gStyleCache->InitMemoryReporter(); // For each pref that controls a CSS feature that a UA style sheet depends // on (such as a pref that enables a property that a UA style sheet uses), // register DependentPrefChanged as a callback to ensure that the relevant // style sheets will be re-parsed. // Preferences::RegisterCallback(&DependentPrefChanged, // "layout.css.example-pref.enabled"); } return gStyleCache; } void GlobalStyleSheetCache::InitFromProfile() { if (!Preferences::GetBool(PREF_LEGACY_STYLESHEET_CUSTOMIZATION)) { return; } nsCOMPtr appInfo = do_GetService("@mozilla.org/xre/app-info;1"); if (appInfo) { bool inSafeMode = false; appInfo->GetInSafeMode(&inSafeMode); if (inSafeMode) return; } nsCOMPtr contentFile; nsCOMPtr chromeFile; NS_GetSpecialDirectory(NS_APP_USER_CHROME_DIR, getter_AddRefs(contentFile)); if (!contentFile) { // if we don't have a profile yet, that's OK! return; } contentFile->Clone(getter_AddRefs(chromeFile)); if (!chromeFile) return; contentFile->Append(u"userContent.css"_ns); chromeFile->Append(u"userChrome.css"_ns); mUserContentSheet = LoadSheetFile(contentFile, eUserSheetFeatures); mUserChromeSheet = LoadSheetFile(chromeFile, eUserSheetFeatures); } RefPtr GlobalStyleSheetCache::LoadSheetURL( const char* aURL, SheetParsingMode aParsingMode, FailureAction aFailureAction) { nsCOMPtr uri; NS_NewURI(getter_AddRefs(uri), aURL); return LoadSheet(uri, aParsingMode, aFailureAction); } RefPtr GlobalStyleSheetCache::LoadSheetFile( nsIFile* aFile, SheetParsingMode aParsingMode) { bool exists = false; aFile->Exists(&exists); if (!exists) { return nullptr; } nsCOMPtr uri; NS_NewFileURI(getter_AddRefs(uri), aFile); return LoadSheet(uri, aParsingMode, eLogToConsole); } static void ErrorLoadingSheet(nsIURI* aURI, const char* aMsg, FailureAction aFailureAction) { nsPrintfCString errorMessage("%s loading built-in stylesheet '%s'", aMsg, aURI ? aURI->GetSpecOrDefault().get() : ""); if (aFailureAction == eLogToConsole) { nsCOMPtr cs = do_GetService(NS_CONSOLESERVICE_CONTRACTID); if (cs) { cs->LogStringMessage(NS_ConvertUTF8toUTF16(errorMessage).get()); return; } } MOZ_CRASH_UNSAFE(errorMessage.get()); } RefPtr GlobalStyleSheetCache::LoadSheet( nsIURI* aURI, SheetParsingMode aParsingMode, FailureAction aFailureAction) { if (!aURI) { ErrorLoadingSheet(aURI, "null URI", eCrash); return nullptr; } if (!gCSSLoader) { gCSSLoader = new Loader; } // Note: The parallel parsing code assume that UA sheets are always loaded // synchronously like they are here, and thus that we'll never attempt // parallel parsing on them. If that ever changes, we'll either need to find a // different way to prohibit parallel parsing for UA sheets, or handle // -moz-bool-pref and various other things in the parallel parsing code. auto result = gCSSLoader->LoadSheetSync(aURI, aParsingMode, css::Loader::UseSystemPrincipal::Yes); if (MOZ_UNLIKELY(result.isErr())) { ErrorLoadingSheet( aURI, nsPrintfCString("LoadSheetSync failed with error %" PRIx32, static_cast(result.unwrapErr())) .get(), aFailureAction); } return result.unwrapOr(nullptr); } /* static */ void GlobalStyleSheetCache::InvalidatePreferenceSheets() { if (gStyleCache) { gStyleCache->mContentPreferenceSheet = nullptr; gStyleCache->mChromePreferenceSheet = nullptr; } } void GlobalStyleSheetCache::BuildPreferenceSheet( RefPtr* aSheet, const PreferenceSheet::Prefs& aPrefs) { *aSheet = new StyleSheet(eAgentSheetFeatures, CORS_NONE, dom::SRIMetadata()); StyleSheet* sheet = *aSheet; nsCOMPtr uri; NS_NewURI(getter_AddRefs(uri), "about:PreferenceStyleSheet"); MOZ_ASSERT(uri, "URI creation shouldn't fail"); sheet->SetURIs(uri, uri, uri); sheet->SetComplete(); static const uint32_t kPreallocSize = 1024; nsCString sheetText; sheetText.SetCapacity(kPreallocSize); #define NS_GET_R_G_B(color_) \ NS_GET_R(color_), NS_GET_G(color_), NS_GET_B(color_) sheetText.AppendLiteral( "@namespace url(http://www.w3.org/1999/xhtml);\n" "@namespace svg url(http://www.w3.org/2000/svg);\n"); // Rules for link styling. const bool underlineLinks = StaticPrefs::browser_underline_anchors(); sheetText.AppendPrintf("*|*:any-link%s { text-decoration: %s; }\n", underlineLinks ? ":not(svg|a)" : "", underlineLinks ? "underline" : "none"); // Rules for focus styling. const bool focusRingOnAnything = StaticPrefs::browser_display_focus_ring_on_anything(); uint8_t focusRingWidth = StaticPrefs::browser_display_focus_ring_width(); uint8_t focusRingStyle = StaticPrefs::browser_display_focus_ring_style(); if ((focusRingWidth != 1 && focusRingWidth <= 4) || focusRingOnAnything) { if (focusRingWidth != 1) { // If the focus ring width is different from the default, fix buttons // with rings. sheetText.AppendPrintf( "button::-moz-focus-inner, input[type=\"reset\"]::-moz-focus-inner, " "input[type=\"button\"]::-moz-focus-inner, " "input[type=\"submit\"]::-moz-focus-inner { " "border: %dpx %s transparent !important; }\n", focusRingWidth, focusRingStyle == 0 ? "solid" : "dotted"); sheetText.AppendLiteral( "button:focus::-moz-focus-inner, " "input[type=\"reset\"]:focus::-moz-focus-inner, " "input[type=\"button\"]:focus::-moz-focus-inner, " "input[type=\"submit\"]:focus::-moz-focus-inner { " "border-color: ButtonText !important; }\n"); } sheetText.AppendPrintf( "%s { outline: %dpx %s !important; }\n", focusRingOnAnything ? ":focus" : "*|*:link:focus, *|*:visited:focus", focusRingWidth, focusRingStyle == 0 ? "solid -moz-mac-focusring" : "dotted WindowText"); } if (StaticPrefs::browser_display_use_focus_colors()) { const auto& colors = aPrefs.mLightColors; nscolor focusText = colors.mFocusText; nscolor focusBG = colors.mFocusBackground; sheetText.AppendPrintf( "*:focus, *:focus > font { color: #%02x%02x%02x !important; " "background-color: #%02x%02x%02x !important; }\n", NS_GET_R_G_B(focusText), NS_GET_R_G_B(focusBG)); } NS_ASSERTION(sheetText.Length() <= kPreallocSize, "kPreallocSize should be big enough to build preference style " "sheet without reallocation"); // NB: The pref sheet never has @import rules, thus no loader. sheet->ParseSheetSync(nullptr, sheetText, /* aLoadData = */ nullptr, /* aLineNumber = */ 0); #undef NS_GET_R_G_B } bool GlobalStyleSheetCache::AffectedByPref(const nsACString& aPref) { const char* prefs[] = { StaticPrefs::GetPrefName_browser_display_show_focus_rings(), StaticPrefs::GetPrefName_browser_display_focus_ring_style(), StaticPrefs::GetPrefName_browser_display_focus_ring_width(), StaticPrefs::GetPrefName_browser_display_focus_ring_on_anything(), StaticPrefs::GetPrefName_browser_display_use_focus_colors(), StaticPrefs::GetPrefName_browser_underline_anchors(), }; for (const char* pref : prefs) { if (aPref.Equals(pref)) { return true; } } return false; } /* static */ void GlobalStyleSheetCache::SetSharedMemory( base::SharedMemoryHandle aHandle, uintptr_t aAddress) { MOZ_ASSERT(!XRE_IsParentProcess()); MOZ_ASSERT(!gStyleCache, "Too late, GlobalStyleSheetCache already created!"); MOZ_ASSERT(!sSharedMemory, "Shouldn't call this more than once"); auto shm = MakeUnique(); if (!shm->SetHandle(std::move(aHandle), /* read_only */ true)) { return; } if (shm->Map(kSharedMemorySize, reinterpret_cast(aAddress))) { sSharedMemory = shm.release(); } } base::SharedMemoryHandle GlobalStyleSheetCache::CloneHandle() { MOZ_ASSERT(XRE_IsParentProcess()); if (sSharedMemory) { return sSharedMemory->CloneHandle(); } return nullptr; } StaticRefPtr GlobalStyleSheetCache::gStyleCache; StaticRefPtr GlobalStyleSheetCache::gCSSLoader; StaticRefPtr GlobalStyleSheetCache::gUserContentSheetURL; StaticAutoPtr GlobalStyleSheetCache::sSharedMemory; size_t GlobalStyleSheetCache::sUsedSharedMemory; } // namespace mozilla