// Copyright 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "components/nacl/renderer/ppb_nacl_private_impl.h" #include #include #include #include "base/bind.h" #include "base/bind_helpers.h" #include "base/command_line.h" #include "base/containers/scoped_ptr_hash_map.h" #include "base/cpu.h" #include "base/files/file.h" #include "base/lazy_instance.h" #include "base/logging.h" #include "base/rand_util.h" #include "base/strings/string_split.h" #include "base/strings/string_util.h" #include "components/nacl/common/nacl_host_messages.h" #include "components/nacl/common/nacl_messages.h" #include "components/nacl/common/nacl_nonsfi_util.h" #include "components/nacl/common/nacl_switches.h" #include "components/nacl/common/nacl_types.h" #include "components/nacl/renderer/file_downloader.h" #include "components/nacl/renderer/histogram.h" #include "components/nacl/renderer/json_manifest.h" #include "components/nacl/renderer/manifest_downloader.h" #include "components/nacl/renderer/manifest_service_channel.h" #include "components/nacl/renderer/nexe_load_manager.h" #include "components/nacl/renderer/platform_info.h" #include "components/nacl/renderer/pnacl_translation_resource_host.h" #include "components/nacl/renderer/progress_event.h" #include "components/nacl/renderer/trusted_plugin_channel.h" #include "content/public/common/content_client.h" #include "content/public/common/content_switches.h" #include "content/public/common/sandbox_init.h" #include "content/public/renderer/pepper_plugin_instance.h" #include "content/public/renderer/render_thread.h" #include "content/public/renderer/render_view.h" #include "content/public/renderer/renderer_ppapi_host.h" #include "native_client/src/public/imc_types.h" #include "net/base/data_url.h" #include "net/base/net_errors.h" #include "net/http/http_util.h" #include "ppapi/c/pp_bool.h" #include "ppapi/c/private/pp_file_handle.h" #include "ppapi/shared_impl/ppapi_globals.h" #include "ppapi/shared_impl/ppapi_permissions.h" #include "ppapi/shared_impl/ppapi_preferences.h" #include "ppapi/shared_impl/var.h" #include "ppapi/shared_impl/var_tracker.h" #include "ppapi/thunk/enter.h" #include "third_party/WebKit/public/platform/WebURLLoader.h" #include "third_party/WebKit/public/platform/WebURLResponse.h" #include "third_party/WebKit/public/web/WebDocument.h" #include "third_party/WebKit/public/web/WebElement.h" #include "third_party/WebKit/public/web/WebLocalFrame.h" #include "third_party/WebKit/public/web/WebPluginContainer.h" #include "third_party/WebKit/public/web/WebSecurityOrigin.h" #include "third_party/WebKit/public/web/WebURLLoaderOptions.h" #include "third_party/jsoncpp/source/include/json/reader.h" #include "third_party/jsoncpp/source/include/json/value.h" namespace nacl { namespace { // The pseudo-architecture used to indicate portable native client. const char* const kPortableArch = "portable"; // The base URL for resources used by the PNaCl translator processes. const char* kPNaClTranslatorBaseUrl = "chrome://pnacl-translator/"; base::LazyInstance > g_pnacl_resource_host = LAZY_INSTANCE_INITIALIZER; bool InitializePnaclResourceHost() { // Must run on the main thread. content::RenderThread* render_thread = content::RenderThread::Get(); if (!render_thread) return false; if (!g_pnacl_resource_host.Get()) { g_pnacl_resource_host.Get() = new PnaclTranslationResourceHost( render_thread->GetIOMessageLoopProxy()); render_thread->AddFilter(g_pnacl_resource_host.Get()); } return true; } struct InstanceInfo { InstanceInfo() : plugin_pid(base::kNullProcessId), plugin_child_id(0) {} GURL url; ppapi::PpapiPermissions permissions; base::ProcessId plugin_pid; int plugin_child_id; IPC::ChannelHandle channel_handle; }; typedef std::map InstanceInfoMap; base::LazyInstance g_instance_info = LAZY_INSTANCE_INITIALIZER; typedef base::ScopedPtrHashMap NexeLoadManagerMap; base::LazyInstance g_load_manager_map = LAZY_INSTANCE_INITIALIZER; nacl::NexeLoadManager* GetNexeLoadManager(PP_Instance instance) { NexeLoadManagerMap& map = g_load_manager_map.Get(); NexeLoadManagerMap::iterator iter = map.find(instance); if (iter != map.end()) return iter->second; return NULL; } static const PP_NaClFileInfo kInvalidNaClFileInfo = { PP_kInvalidFileHandle, 0, // token_lo 0, // token_hi }; int GetRoutingID(PP_Instance instance) { // Check that we are on the main renderer thread. DCHECK(content::RenderThread::Get()); content::RendererPpapiHost *host = content::RendererPpapiHost::GetForPPInstance(instance); if (!host) return 0; return host->GetRoutingIDForWidget(instance); } // Returns whether the channel_handle is valid or not. bool IsValidChannelHandle(const IPC::ChannelHandle& channel_handle) { if (channel_handle.name.empty()) { return false; } #if defined(OS_POSIX) if (channel_handle.socket.fd == -1) { return false; } #endif return true; } void PostPPCompletionCallback(PP_CompletionCallback callback, int32_t status) { ppapi::PpapiGlobals::Get()->GetMainThreadMessageLoop()->PostTask( FROM_HERE, base::Bind(callback.func, callback.user_data, status)); } bool ManifestResolveKey(PP_Instance instance, bool is_helper_process, const std::string& key, std::string* full_url, PP_PNaClOptions* pnacl_options); typedef base::Callback DownloadFileCallback; void DownloadFile(PP_Instance instance, const std::string& url, const DownloadFileCallback& callback); PP_Bool StartPpapiProxy(PP_Instance instance); // Thin adapter from PPP_ManifestService to ManifestServiceChannel::Delegate. // Note that user_data is managed by the caller of LaunchSelLdr. Please see // also PP_ManifestService's comment for more details about resource // management. class ManifestServiceProxy : public ManifestServiceChannel::Delegate { public: ManifestServiceProxy(PP_Instance pp_instance) : pp_instance_(pp_instance) { } virtual ~ManifestServiceProxy() { } virtual void StartupInitializationComplete() OVERRIDE { if (StartPpapiProxy(pp_instance_) == PP_TRUE) { JsonManifest* manifest = GetJsonManifest(pp_instance_); NexeLoadManager* load_manager = GetNexeLoadManager(pp_instance_); if (load_manager && manifest) { std::string full_url; PP_PNaClOptions pnacl_options; bool uses_nonsfi_mode; JsonManifest::ErrorInfo error_info; if (manifest->GetProgramURL(&full_url, &pnacl_options, &uses_nonsfi_mode, &error_info)) { int64_t nexe_size = load_manager->nexe_size(); load_manager->ReportLoadSuccess(full_url, nexe_size, nexe_size); } } } } virtual void OpenResource( const std::string& key, const ManifestServiceChannel::OpenResourceCallback& callback) OVERRIDE { DCHECK(ppapi::PpapiGlobals::Get()->GetMainThreadMessageLoop()-> BelongsToCurrentThread()); std::string url; // TODO(teravest): Clean up pnacl_options logic in JsonManifest so we don't // have to initialize it like this here. PP_PNaClOptions pnacl_options; pnacl_options.translate = PP_FALSE; pnacl_options.is_debug = PP_FALSE; pnacl_options.opt_level = 2; if (!ManifestResolveKey(pp_instance_, false, key, &url, &pnacl_options)) { base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(callback, base::Passed(base::File()))); return; } // We have to call DidDownloadFile, even if this object is destroyed, so // that the handle inside PP_NaClFileInfo isn't leaked. This means that the // callback passed to this function shouldn't have a weak pointer to an // object either. // // TODO(teravest): Make a type like PP_NaClFileInfo to use for DownloadFile // that would close the file handle on destruction. DownloadFile(pp_instance_, url, base::Bind(&ManifestServiceProxy::DidDownloadFile, callback)); } private: static void DidDownloadFile( ManifestServiceChannel::OpenResourceCallback callback, int32_t pp_error, const PP_NaClFileInfo& file_info) { if (pp_error != PP_OK) { callback.Run(base::File()); return; } callback.Run(base::File(file_info.handle)); } PP_Instance pp_instance_; DISALLOW_COPY_AND_ASSIGN(ManifestServiceProxy); }; blink::WebURLLoader* CreateWebURLLoader(const blink::WebDocument& document, const GURL& gurl) { blink::WebURLLoaderOptions options; options.untrustedHTTP = true; // Options settings here follow the original behavior in the trusted // plugin and PepperURLLoaderHost. if (document.securityOrigin().canRequest(gurl)) { options.allowCredentials = true; } else { // Allow CORS. options.crossOriginRequestPolicy = blink::WebURLLoaderOptions::CrossOriginRequestPolicyUseAccessControl; } return document.frame()->createAssociatedURLLoader(options); } blink::WebURLRequest CreateWebURLRequest(const blink::WebDocument& document, const GURL& gurl) { blink::WebURLRequest request; request.initialize(); request.setURL(gurl); request.setFirstPartyForCookies(document.firstPartyForCookies()); return request; } int32_t FileDownloaderToPepperError(FileDownloader::Status status) { switch (status) { case FileDownloader::SUCCESS: return PP_OK; case FileDownloader::ACCESS_DENIED: return PP_ERROR_NOACCESS; case FileDownloader::FAILED: return PP_ERROR_FAILED; // No default case, to catch unhandled Status values. } return PP_ERROR_FAILED; } // Launch NaCl's sel_ldr process. void LaunchSelLdr(PP_Instance instance, PP_Bool main_service_runtime, const char* alleged_url, const PP_NaClFileInfo* nexe_file_info, PP_Bool uses_irt, PP_Bool uses_ppapi, PP_Bool uses_nonsfi_mode, PP_Bool enable_ppapi_dev, PP_Bool enable_dyncode_syscalls, PP_Bool enable_exception_handling, PP_Bool enable_crash_throttling, void* imc_handle, PP_CompletionCallback callback) { CHECK(ppapi::PpapiGlobals::Get()->GetMainThreadMessageLoop()-> BelongsToCurrentThread()); // Create the manifest service proxy here, so on error case, it will be // destructed (without passing it to ManifestServiceChannel). scoped_ptr manifest_service_proxy( new ManifestServiceProxy(instance)); FileDescriptor result_socket; IPC::Sender* sender = content::RenderThread::Get(); DCHECK(sender); int routing_id = 0; // If the nexe uses ppapi APIs, we need a routing ID. // To get the routing ID, we must be on the main thread. // Some nexes do not use ppapi and launch from the background thread, // so those nexes can skip finding a routing_id. if (uses_ppapi) { routing_id = GetRoutingID(instance); if (!routing_id) { if (nexe_file_info->handle != PP_kInvalidFileHandle) { base::File closer(nexe_file_info->handle); } ppapi::PpapiGlobals::Get()->GetMainThreadMessageLoop()->PostTask( FROM_HERE, base::Bind(callback.func, callback.user_data, static_cast(PP_ERROR_FAILED))); return; } } InstanceInfo instance_info; instance_info.url = GURL(alleged_url); uint32_t perm_bits = ppapi::PERMISSION_NONE; // Conditionally block 'Dev' interfaces. We do this for the NaCl process, so // it's clearer to developers when they are using 'Dev' inappropriately. We // must also check on the trusted side of the proxy. if (enable_ppapi_dev) perm_bits |= ppapi::PERMISSION_DEV; instance_info.permissions = ppapi::PpapiPermissions::GetForCommandLine(perm_bits); std::string error_message_string; NaClLaunchResult launch_result; IPC::PlatformFileForTransit nexe_for_transit = IPC::InvalidPlatformFileForTransit(); #if defined(OS_POSIX) if (nexe_file_info->handle != PP_kInvalidFileHandle) nexe_for_transit = base::FileDescriptor(nexe_file_info->handle, true); #elif defined(OS_WIN) // Duplicate the handle on the browser side instead of the renderer. // This is because BrokerGetFileForProcess isn't part of content/public, and // it's simpler to do the duplication in the browser anyway. nexe_for_transit = nexe_file_info->handle; #else #error Unsupported target platform. #endif if (!sender->Send(new NaClHostMsg_LaunchNaCl( NaClLaunchParams( instance_info.url.spec(), nexe_for_transit, nexe_file_info->token_lo, nexe_file_info->token_hi, routing_id, perm_bits, PP_ToBool(uses_irt), PP_ToBool(uses_nonsfi_mode), PP_ToBool(enable_dyncode_syscalls), PP_ToBool(enable_exception_handling), PP_ToBool(enable_crash_throttling)), &launch_result, &error_message_string))) { ppapi::PpapiGlobals::Get()->GetMainThreadMessageLoop()->PostTask( FROM_HERE, base::Bind(callback.func, callback.user_data, static_cast(PP_ERROR_FAILED))); return; } if (!error_message_string.empty()) { if (PP_ToBool(main_service_runtime)) { NexeLoadManager* load_manager = GetNexeLoadManager(instance); if (load_manager) { load_manager->ReportLoadError(PP_NACL_ERROR_SEL_LDR_LAUNCH, "ServiceRuntime: failed to start", error_message_string); } } ppapi::PpapiGlobals::Get()->GetMainThreadMessageLoop()->PostTask( FROM_HERE, base::Bind(callback.func, callback.user_data, static_cast(PP_ERROR_FAILED))); return; } result_socket = launch_result.imc_channel_handle; instance_info.channel_handle = launch_result.ppapi_ipc_channel_handle; instance_info.plugin_pid = launch_result.plugin_pid; instance_info.plugin_child_id = launch_result.plugin_child_id; // Don't save instance_info if channel handle is invalid. if (IsValidChannelHandle(instance_info.channel_handle)) g_instance_info.Get()[instance] = instance_info; *(static_cast(imc_handle)) = ToNativeHandle(result_socket); NexeLoadManager* load_manager = GetNexeLoadManager(instance); DCHECK(load_manager); if (!load_manager) { PostPPCompletionCallback(callback, PP_ERROR_FAILED); return; } // Create the trusted plugin channel. if (IsValidChannelHandle(launch_result.trusted_ipc_channel_handle)) { scoped_ptr trusted_plugin_channel( new TrustedPluginChannel( launch_result.trusted_ipc_channel_handle)); load_manager->set_trusted_plugin_channel(trusted_plugin_channel.Pass()); } else { PostPPCompletionCallback(callback, PP_ERROR_FAILED); return; } // Create the manifest service handle as well. // For security hardening, disable the IPCs for open_resource() when they // aren't needed. PNaCl doesn't expose open_resource(), and the new // open_resource() IPCs are currently only used for Non-SFI NaCl so far, // not SFI NaCl. Note that enable_dyncode_syscalls is true if and only if // the plugin is a non-PNaCl plugin. if (load_manager && enable_dyncode_syscalls && uses_nonsfi_mode && IsValidChannelHandle( launch_result.manifest_service_ipc_channel_handle)) { scoped_ptr manifest_service_channel( new ManifestServiceChannel( launch_result.manifest_service_ipc_channel_handle, base::Bind(&PostPPCompletionCallback, callback), manifest_service_proxy.Pass(), content::RenderThread::Get()->GetShutdownEvent())); load_manager->set_manifest_service_channel( manifest_service_channel.Pass()); } else { // Currently, manifest service works only on linux/non-SFI mode. // On other platforms, the socket will not be created, and thus this // condition needs to be handled as success. PostPPCompletionCallback(callback, PP_OK); } } PP_Bool StartPpapiProxy(PP_Instance instance) { NexeLoadManager* load_manager = GetNexeLoadManager(instance); DCHECK(load_manager); if (!load_manager) return PP_FALSE; content::PepperPluginInstance* plugin_instance = content::PepperPluginInstance::Get(instance); if (!plugin_instance) { DLOG(ERROR) << "GetInstance() failed"; return PP_FALSE; } InstanceInfoMap& map = g_instance_info.Get(); InstanceInfoMap::iterator it = map.find(instance); if (it == map.end()) { DLOG(ERROR) << "Could not find instance ID"; return PP_FALSE; } InstanceInfo instance_info = it->second; map.erase(it); PP_ExternalPluginResult result = plugin_instance->SwitchToOutOfProcessProxy( base::FilePath().AppendASCII(instance_info.url.spec()), instance_info.permissions, instance_info.channel_handle, instance_info.plugin_pid, instance_info.plugin_child_id); if (result == PP_EXTERNAL_PLUGIN_OK) { // Log the amound of time that has passed between the trusted plugin being // initialized and the untrusted plugin being initialized. This is // (roughly) the cost of using NaCl, in terms of startup time. load_manager->ReportStartupOverhead(); return PP_TRUE; } else if (result == PP_EXTERNAL_PLUGIN_ERROR_MODULE) { load_manager->ReportLoadError(PP_NACL_ERROR_START_PROXY_MODULE, "could not initialize module."); } else if (result == PP_EXTERNAL_PLUGIN_ERROR_INSTANCE) { load_manager->ReportLoadError(PP_NACL_ERROR_START_PROXY_MODULE, "could not create instance."); } return PP_FALSE; } int UrandomFD(void) { #if defined(OS_POSIX) return base::GetUrandomFD(); #else return -1; #endif } PP_Bool Are3DInterfacesDisabled() { return PP_FromBool(CommandLine::ForCurrentProcess()->HasSwitch( switches::kDisable3DAPIs)); } int32_t BrokerDuplicateHandle(PP_FileHandle source_handle, uint32_t process_id, PP_FileHandle* target_handle, uint32_t desired_access, uint32_t options) { #if defined(OS_WIN) return content::BrokerDuplicateHandle(source_handle, process_id, target_handle, desired_access, options); #else return 0; #endif } // Convert a URL to a filename for GetReadonlyPnaclFd. // Must be kept in sync with PnaclCanOpenFile() in // components/nacl/browser/nacl_file_host.cc. std::string PnaclComponentURLToFilename(const std::string& url) { // PNaCl component URLs aren't arbitrary URLs; they are always either // generated from ManifestResolveKey or PnaclResources::ReadResourceInfo. // So, it's safe to just use string parsing operations here instead of // URL-parsing ones. DCHECK(StartsWithASCII(url, kPNaClTranslatorBaseUrl, true)); std::string r = url.substr(std::string(kPNaClTranslatorBaseUrl).length()); // Use white-listed-chars. size_t replace_pos; static const char* white_list = "abcdefghijklmnopqrstuvwxyz0123456789_"; replace_pos = r.find_first_not_of(white_list); while(replace_pos != std::string::npos) { r = r.replace(replace_pos, 1, "_"); replace_pos = r.find_first_not_of(white_list); } return r; } PP_FileHandle GetReadonlyPnaclFd(const char* url, bool is_executable, uint64_t* nonce_lo, uint64_t* nonce_hi) { std::string filename = PnaclComponentURLToFilename(url); IPC::PlatformFileForTransit out_fd = IPC::InvalidPlatformFileForTransit(); IPC::Sender* sender = content::RenderThread::Get(); DCHECK(sender); if (!sender->Send(new NaClHostMsg_GetReadonlyPnaclFD( std::string(filename), is_executable, &out_fd, nonce_lo, nonce_hi))) { return PP_kInvalidFileHandle; } if (out_fd == IPC::InvalidPlatformFileForTransit()) { return PP_kInvalidFileHandle; } return IPC::PlatformFileForTransitToPlatformFile(out_fd); } void GetReadExecPnaclFd(const char* url, PP_NaClFileInfo* out_file_info) { *out_file_info = kInvalidNaClFileInfo; out_file_info->handle = GetReadonlyPnaclFd(url, true /* is_executable */, &out_file_info->token_lo, &out_file_info->token_hi); } PP_FileHandle CreateTemporaryFile(PP_Instance instance) { IPC::PlatformFileForTransit transit_fd = IPC::InvalidPlatformFileForTransit(); IPC::Sender* sender = content::RenderThread::Get(); DCHECK(sender); if (!sender->Send(new NaClHostMsg_NaClCreateTemporaryFile( &transit_fd))) { return PP_kInvalidFileHandle; } if (transit_fd == IPC::InvalidPlatformFileForTransit()) { return PP_kInvalidFileHandle; } return IPC::PlatformFileForTransitToPlatformFile(transit_fd); } int32_t GetNumberOfProcessors() { IPC::Sender* sender = content::RenderThread::Get(); DCHECK(sender); int32_t num_processors = 1; return sender->Send(new NaClHostMsg_NaClGetNumProcessors(&num_processors)) ? num_processors : 1; } PP_Bool PPIsNonSFIModeEnabled() { return PP_FromBool(IsNonSFIModeEnabled()); } void GetNexeFd(PP_Instance instance, const std::string& pexe_url, uint32_t opt_level, const base::Time& last_modified_time, const std::string& etag, bool has_no_store_header, base::Callback callback) { if (!InitializePnaclResourceHost()) { ppapi::PpapiGlobals::Get()->GetMainThreadMessageLoop()->PostTask( FROM_HERE, base::Bind(callback, static_cast(PP_ERROR_FAILED), false, PP_kInvalidFileHandle)); return; } PnaclCacheInfo cache_info; cache_info.pexe_url = GURL(pexe_url); // TODO(dschuff): Get this value from the pnacl json file after it // rolls in from NaCl. cache_info.abi_version = 1; cache_info.opt_level = opt_level; cache_info.last_modified = last_modified_time; cache_info.etag = etag; cache_info.has_no_store_header = has_no_store_header; cache_info.sandbox_isa = GetSandboxArch(); cache_info.extra_flags = GetCpuFeatures(); g_pnacl_resource_host.Get()->RequestNexeFd( GetRoutingID(instance), instance, cache_info, callback); } void ReportTranslationFinished(PP_Instance instance, PP_Bool success, int32_t opt_level, int64_t pexe_size, int64_t compile_time_us) { if (success == PP_TRUE) { static const int32_t kUnknownOptLevel = 4; if (opt_level < 0 || opt_level > 3) opt_level = kUnknownOptLevel; HistogramEnumerate("NaCl.Options.PNaCl.OptLevel", opt_level, kUnknownOptLevel + 1); HistogramKBPerSec("NaCl.Perf.PNaClLoadTime.CompileKBPerSec", pexe_size / 1024, compile_time_us); HistogramSizeKB("NaCl.Perf.Size.Pexe", pexe_size / 1024); NexeLoadManager* load_manager = GetNexeLoadManager(instance); if (load_manager) { base::TimeDelta total_time = base::Time::Now() - load_manager->pnacl_start_time(); HistogramTimeTranslation("NaCl.Perf.PNaClLoadTime.TotalUncachedTime", total_time.InMilliseconds()); HistogramKBPerSec("NaCl.Perf.PNaClLoadTime.TotalUncachedKBPerSec", pexe_size / 1024, total_time.InMicroseconds()); } } // If the resource host isn't initialized, don't try to do that here. // Just return because something is already very wrong. if (g_pnacl_resource_host.Get() == NULL) return; g_pnacl_resource_host.Get()->ReportTranslationFinished(instance, success); } PP_FileHandle OpenNaClExecutable(PP_Instance instance, const char* file_url, uint64_t* nonce_lo, uint64_t* nonce_hi) { // Fast path only works for installed file URLs. GURL gurl(file_url); if (!gurl.SchemeIs("chrome-extension")) return PP_kInvalidFileHandle; content::PepperPluginInstance* plugin_instance = content::PepperPluginInstance::Get(instance); if (!plugin_instance) return PP_kInvalidFileHandle; // IMPORTANT: Make sure the document can request the given URL. If we don't // check, a malicious app could probe the extension system. This enforces a // same-origin policy which prevents the app from requesting resources from // another app. blink::WebSecurityOrigin security_origin = plugin_instance->GetContainer()->element().document().securityOrigin(); if (!security_origin.canRequest(gurl)) return PP_kInvalidFileHandle; IPC::PlatformFileForTransit out_fd = IPC::InvalidPlatformFileForTransit(); IPC::Sender* sender = content::RenderThread::Get(); DCHECK(sender); *nonce_lo = 0; *nonce_hi = 0; base::FilePath file_path; if (!sender->Send( new NaClHostMsg_OpenNaClExecutable(GetRoutingID(instance), GURL(file_url), &out_fd, nonce_lo, nonce_hi))) { return PP_kInvalidFileHandle; } if (out_fd == IPC::InvalidPlatformFileForTransit()) return PP_kInvalidFileHandle; return IPC::PlatformFileForTransitToPlatformFile(out_fd); } void DispatchEvent(PP_Instance instance, PP_NaClEventType event_type, const char *resource_url, PP_Bool length_is_computable, uint64_t loaded_bytes, uint64_t total_bytes) { ProgressEvent event(event_type, resource_url, PP_ToBool(length_is_computable), loaded_bytes, total_bytes); DispatchProgressEvent(instance, event); } void ReportLoadSuccess(PP_Instance instance, uint64_t loaded_bytes, uint64_t total_bytes) { NexeLoadManager* load_manager = GetNexeLoadManager(instance); if (load_manager) { load_manager->ReportLoadSuccess(load_manager->program_url(), loaded_bytes, total_bytes); } } void ReportLoadError(PP_Instance instance, PP_NaClError error, const char* error_message) { NexeLoadManager* load_manager = GetNexeLoadManager(instance); if (load_manager) load_manager->ReportLoadError(error, error_message); } void ReportLoadAbort(PP_Instance instance) { NexeLoadManager* load_manager = GetNexeLoadManager(instance); if (load_manager) load_manager->ReportLoadAbort(); } void NexeDidCrash(PP_Instance instance, const char* crash_log) { NexeLoadManager* load_manager = GetNexeLoadManager(instance); if (load_manager) load_manager->NexeDidCrash(crash_log); } void InstanceCreated(PP_Instance instance) { scoped_ptr new_load_manager(new NexeLoadManager(instance)); NexeLoadManagerMap& map = g_load_manager_map.Get(); DLOG_IF(ERROR, map.count(instance) != 0) << "Instance count should be 0"; map.add(instance, new_load_manager.Pass()); } void InstanceDestroyed(PP_Instance instance) { DeleteJsonManifest(instance); NexeLoadManagerMap& map = g_load_manager_map.Get(); DLOG_IF(ERROR, map.count(instance) == 0) << "Could not find instance ID"; // The erase may call NexeLoadManager's destructor prior to removing it from // the map. In that case, it is possible for the trusted Plugin to re-enter // the NexeLoadManager (e.g., by calling ReportLoadError). Passing out the // NexeLoadManager to a local scoped_ptr just ensures that its entry is gone // from the map prior to the destructor being invoked. scoped_ptr temp(map.take(instance)); map.erase(instance); } PP_Bool NaClDebugEnabledForURL(const char* alleged_nmf_url) { if (!CommandLine::ForCurrentProcess()->HasSwitch(switches::kEnableNaClDebug)) return PP_FALSE; IPC::Sender* sender = content::RenderThread::Get(); DCHECK(sender); bool should_debug = false; return PP_FromBool( sender->Send(new NaClHostMsg_NaClDebugEnabledForURL(GURL(alleged_nmf_url), &should_debug)) && should_debug); } void LogToConsole(PP_Instance instance, const char* message) { NexeLoadManager* load_manager = GetNexeLoadManager(instance); DCHECK(load_manager); if (load_manager) load_manager->LogToConsole(std::string(message)); } PP_NaClReadyState GetNaClReadyState(PP_Instance instance) { NexeLoadManager* load_manager = GetNexeLoadManager(instance); DCHECK(load_manager); if (load_manager) return load_manager->nacl_ready_state(); return PP_NACL_READY_STATE_UNSENT; } int32_t GetExitStatus(PP_Instance instance) { NexeLoadManager* load_manager = GetNexeLoadManager(instance); DCHECK(load_manager); if (load_manager) return load_manager->exit_status(); return -1; } void SetExitStatus(PP_Instance instance, int32_t exit_status) { NexeLoadManager* load_manager = GetNexeLoadManager(instance); DCHECK(load_manager); if (load_manager) return load_manager->set_exit_status(exit_status); } void Vlog(const char* message) { VLOG(1) << message; } void InitializePlugin(PP_Instance instance, uint32_t argc, const char* argn[], const char* argv[]) { NexeLoadManager* load_manager = GetNexeLoadManager(instance); DCHECK(load_manager); if (load_manager) load_manager->InitializePlugin(argc, argn, argv); } int64_t GetNexeSize(PP_Instance instance) { NexeLoadManager* load_manager = GetNexeLoadManager(instance); DCHECK(load_manager); if (load_manager) return load_manager->nexe_size(); return 0; } void DownloadManifestToBuffer(PP_Instance instance, struct PP_CompletionCallback callback); bool CreateJsonManifest(PP_Instance instance, const std::string& manifest_url, const std::string& manifest_data); void RequestNaClManifest(PP_Instance instance, PP_CompletionCallback callback) { NexeLoadManager* load_manager = GetNexeLoadManager(instance); DCHECK(load_manager); if (!load_manager) { ppapi::PpapiGlobals::Get()->GetMainThreadMessageLoop()->PostTask( FROM_HERE, base::Bind(callback.func, callback.user_data, static_cast(PP_ERROR_FAILED))); return; } std::string url = load_manager->GetManifestURLArgument(); if (url.empty() || !load_manager->RequestNaClManifest(url)) { ppapi::PpapiGlobals::Get()->GetMainThreadMessageLoop()->PostTask( FROM_HERE, base::Bind(callback.func, callback.user_data, static_cast(PP_ERROR_FAILED))); return; } const GURL& base_url = load_manager->manifest_base_url(); if (base_url.SchemeIs("data")) { GURL gurl(base_url); std::string mime_type; std::string charset; std::string data; int32_t error = PP_ERROR_FAILED; if (net::DataURL::Parse(gurl, &mime_type, &charset, &data)) { if (data.size() <= ManifestDownloader::kNaClManifestMaxFileBytes) { if (CreateJsonManifest(instance, base_url.spec(), data)) error = PP_OK; } else { load_manager->ReportLoadError(PP_NACL_ERROR_MANIFEST_TOO_LARGE, "manifest file too large."); } } else { load_manager->ReportLoadError(PP_NACL_ERROR_MANIFEST_LOAD_URL, "could not load manifest url."); } ppapi::PpapiGlobals::Get()->GetMainThreadMessageLoop()->PostTask( FROM_HERE, base::Bind(callback.func, callback.user_data, error)); } else { DownloadManifestToBuffer(instance, callback); } } PP_Var GetManifestBaseURL(PP_Instance instance) { NexeLoadManager* load_manager = GetNexeLoadManager(instance); DCHECK(load_manager); if (!load_manager) return PP_MakeUndefined(); const GURL& gurl = load_manager->manifest_base_url(); if (!gurl.is_valid()) return PP_MakeUndefined(); return ppapi::StringVar::StringToPPVar(gurl.spec()); } void ProcessNaClManifest(PP_Instance instance, const char* program_url) { nacl::NexeLoadManager* load_manager = GetNexeLoadManager(instance); if (load_manager) load_manager->ProcessNaClManifest(program_url); } PP_Bool DevInterfacesEnabled(PP_Instance instance) { nacl::NexeLoadManager* load_manager = GetNexeLoadManager(instance); if (load_manager) return PP_FromBool(load_manager->DevInterfacesEnabled()); return PP_FALSE; } void DownloadManifestToBufferCompletion(PP_Instance instance, struct PP_CompletionCallback callback, base::Time start_time, PP_NaClError pp_nacl_error, const std::string& data); void DownloadManifestToBuffer(PP_Instance instance, struct PP_CompletionCallback callback) { nacl::NexeLoadManager* load_manager = GetNexeLoadManager(instance); DCHECK(load_manager); content::PepperPluginInstance* plugin_instance = content::PepperPluginInstance::Get(instance); if (!load_manager || !plugin_instance) { ppapi::PpapiGlobals::Get()->GetMainThreadMessageLoop()->PostTask( FROM_HERE, base::Bind(callback.func, callback.user_data, static_cast(PP_ERROR_FAILED))); } const blink::WebDocument& document = plugin_instance->GetContainer()->element().document(); const GURL& gurl = load_manager->manifest_base_url(); scoped_ptr url_loader( CreateWebURLLoader(document, gurl)); blink::WebURLRequest request = CreateWebURLRequest(document, gurl); // ManifestDownloader deletes itself after invoking the callback. ManifestDownloader* manifest_downloader = new ManifestDownloader( url_loader.Pass(), load_manager->is_installed(), base::Bind(DownloadManifestToBufferCompletion, instance, callback, base::Time::Now())); manifest_downloader->Load(request); } void DownloadManifestToBufferCompletion(PP_Instance instance, struct PP_CompletionCallback callback, base::Time start_time, PP_NaClError pp_nacl_error, const std::string& data) { base::TimeDelta download_time = base::Time::Now() - start_time; HistogramTimeSmall("NaCl.Perf.StartupTime.ManifestDownload", download_time.InMilliseconds()); nacl::NexeLoadManager* load_manager = GetNexeLoadManager(instance); if (!load_manager) { callback.func(callback.user_data, PP_ERROR_ABORTED); return; } int32_t pp_error; switch (pp_nacl_error) { case PP_NACL_ERROR_LOAD_SUCCESS: pp_error = PP_OK; break; case PP_NACL_ERROR_MANIFEST_LOAD_URL: pp_error = PP_ERROR_FAILED; load_manager->ReportLoadError(PP_NACL_ERROR_MANIFEST_LOAD_URL, "could not load manifest url."); break; case PP_NACL_ERROR_MANIFEST_TOO_LARGE: pp_error = PP_ERROR_FILETOOBIG; load_manager->ReportLoadError(PP_NACL_ERROR_MANIFEST_TOO_LARGE, "manifest file too large."); break; case PP_NACL_ERROR_MANIFEST_NOACCESS_URL: pp_error = PP_ERROR_NOACCESS; load_manager->ReportLoadError(PP_NACL_ERROR_MANIFEST_NOACCESS_URL, "access to manifest url was denied."); break; default: NOTREACHED(); pp_error = PP_ERROR_FAILED; load_manager->ReportLoadError(PP_NACL_ERROR_MANIFEST_LOAD_URL, "could not load manifest url."); } if (pp_error == PP_OK) { std::string base_url = load_manager->manifest_base_url().spec(); if (!CreateJsonManifest(instance, base_url, data)) pp_error = PP_ERROR_FAILED; } callback.func(callback.user_data, pp_error); } bool CreateJsonManifest(PP_Instance instance, const std::string& manifest_url, const std::string& manifest_data) { HistogramSizeKB("NaCl.Perf.Size.Manifest", static_cast(manifest_data.length() / 1024)); nacl::NexeLoadManager* load_manager = GetNexeLoadManager(instance); if (!load_manager) return false; const char* isa_type; if (load_manager->IsPNaCl()) isa_type = kPortableArch; else isa_type = GetSandboxArch(); scoped_ptr j( new nacl::JsonManifest( manifest_url.c_str(), isa_type, IsNonSFIModeEnabled(), PP_ToBool(NaClDebugEnabledForURL(manifest_url.c_str())))); JsonManifest::ErrorInfo error_info; if (j->Init(manifest_data.c_str(), &error_info)) { AddJsonManifest(instance, j.Pass()); return true; } load_manager->ReportLoadError(error_info.error, error_info.string); return false; } PP_Bool ManifestGetProgramURL(PP_Instance instance, PP_Var* pp_full_url, PP_PNaClOptions* pnacl_options, PP_Bool* pp_uses_nonsfi_mode) { nacl::NexeLoadManager* load_manager = GetNexeLoadManager(instance); JsonManifest* manifest = GetJsonManifest(instance); if (manifest == NULL) return PP_FALSE; bool uses_nonsfi_mode; std::string full_url; JsonManifest::ErrorInfo error_info; if (manifest->GetProgramURL(&full_url, pnacl_options, &uses_nonsfi_mode, &error_info)) { *pp_full_url = ppapi::StringVar::StringToPPVar(full_url); *pp_uses_nonsfi_mode = PP_FromBool(uses_nonsfi_mode); return PP_TRUE; } if (load_manager) load_manager->ReportLoadError(error_info.error, error_info.string); return PP_FALSE; } bool ManifestResolveKey(PP_Instance instance, bool is_helper_process, const std::string& key, std::string* full_url, PP_PNaClOptions* pnacl_options) { // For "helper" processes (llc and ld, for PNaCl translation), we resolve // keys manually as there is no existing .nmf file to parse. if (is_helper_process) { pnacl_options->translate = PP_FALSE; // We can only resolve keys in the files/ namespace. const std::string kFilesPrefix = "files/"; if (key.find(kFilesPrefix) == std::string::npos) { nacl::NexeLoadManager* load_manager = GetNexeLoadManager(instance); if (load_manager) load_manager->ReportLoadError(PP_NACL_ERROR_MANIFEST_RESOLVE_URL, "key did not start with files/"); return false; } std::string key_basename = key.substr(kFilesPrefix.length()); *full_url = std::string(kPNaClTranslatorBaseUrl) + GetSandboxArch() + "/" + key_basename; return true; } JsonManifest* manifest = GetJsonManifest(instance); if (manifest == NULL) return false; return manifest->ResolveKey(key, full_url, pnacl_options); } PP_Bool GetPNaClResourceInfo(PP_Instance instance, PP_Var* llc_tool_name, PP_Var* ld_tool_name) { static const char kFilename[] = "chrome://pnacl-translator/pnacl.json"; NexeLoadManager* load_manager = GetNexeLoadManager(instance); DCHECK(load_manager); if (!load_manager) return PP_FALSE; uint64_t nonce_lo = 0; uint64_t nonce_hi = 0; base::File file(GetReadonlyPnaclFd(kFilename, false /* is_executable */, &nonce_lo, &nonce_hi)); if (!file.IsValid()) { load_manager->ReportLoadError( PP_NACL_ERROR_PNACL_RESOURCE_FETCH, "The Portable Native Client (pnacl) component is not " "installed. Please consult chrome://components for more " "information."); return PP_FALSE; } base::File::Info file_info; if (!file.GetInfo(&file_info)) { load_manager->ReportLoadError( PP_NACL_ERROR_PNACL_RESOURCE_FETCH, std::string("GetPNaClResourceInfo, GetFileInfo failed for: ") + kFilename); return PP_FALSE; } if (file_info.size > 1 << 20) { load_manager->ReportLoadError( PP_NACL_ERROR_PNACL_RESOURCE_FETCH, std::string("GetPNaClResourceInfo, file too large: ") + kFilename); return PP_FALSE; } scoped_ptr buffer(new char[file_info.size + 1]); if (buffer.get() == NULL) { load_manager->ReportLoadError( PP_NACL_ERROR_PNACL_RESOURCE_FETCH, std::string("GetPNaClResourceInfo, couldn't allocate for: ") + kFilename); return PP_FALSE; } int rc = file.Read(0, buffer.get(), file_info.size); if (rc < 0) { load_manager->ReportLoadError( PP_NACL_ERROR_PNACL_RESOURCE_FETCH, std::string("GetPNaClResourceInfo, reading failed for: ") + kFilename); return PP_FALSE; } // Null-terminate the bytes we we read from the file. buffer.get()[rc] = 0; // Expect the JSON file to contain a top-level object (dictionary). Json::Reader json_reader; Json::Value json_data; if (!json_reader.parse(buffer.get(), json_data)) { load_manager->ReportLoadError( PP_NACL_ERROR_PNACL_RESOURCE_FETCH, std::string("Parsing resource info failed: JSON parse error: ") + json_reader.getFormattedErrorMessages()); return PP_FALSE; } if (!json_data.isObject()) { load_manager->ReportLoadError( PP_NACL_ERROR_PNACL_RESOURCE_FETCH, "Parsing resource info failed: Malformed JSON dictionary"); return PP_FALSE; } if (json_data.isMember("pnacl-llc-name")) { Json::Value json_name = json_data["pnacl-llc-name"]; if (json_name.isString()) { std::string llc_tool_name_str = json_name.asString(); *llc_tool_name = ppapi::StringVar::StringToPPVar(llc_tool_name_str); } } if (json_data.isMember("pnacl-ld-name")) { Json::Value json_name = json_data["pnacl-ld-name"]; if (json_name.isString()) { std::string ld_tool_name_str = json_name.asString(); *ld_tool_name = ppapi::StringVar::StringToPPVar(ld_tool_name_str); } } return PP_TRUE; } PP_Var GetCpuFeatureAttrs() { return ppapi::StringVar::StringToPPVar(GetCpuFeatures()); } void PostMessageToJavaScriptMainThread(PP_Instance instance, const std::string& message) { content::PepperPluginInstance* plugin_instance = content::PepperPluginInstance::Get(instance); if (plugin_instance) { PP_Var message_var = ppapi::StringVar::StringToPPVar(message); plugin_instance->PostMessageToJavaScript(message_var); ppapi::PpapiGlobals::Get()->GetVarTracker()->ReleaseVar(message_var); } } void PostMessageToJavaScript(PP_Instance instance, const char* message) { ppapi::PpapiGlobals::Get()->GetMainThreadMessageLoop()->PostTask( FROM_HERE, base::Bind(&PostMessageToJavaScriptMainThread, instance, std::string(message))); } // Encapsulates some of the state for a call to DownloadNexe to prevent // argument lists from getting too long. struct DownloadNexeRequest { PP_Instance instance; std::string url; PP_CompletionCallback callback; base::Time start_time; }; // A utility class to ensure that we don't send progress events more often than // every 10ms for a given file. class ProgressEventRateLimiter { public: explicit ProgressEventRateLimiter(PP_Instance instance) : instance_(instance) { } void ReportProgress(const std::string& url, int64_t total_bytes_received, int64_t total_bytes_to_be_received) { base::Time now = base::Time::Now(); if (now - last_event_ > base::TimeDelta::FromMilliseconds(10)) { DispatchProgressEvent(instance_, ProgressEvent(PP_NACL_EVENT_PROGRESS, url, total_bytes_to_be_received >= 0, total_bytes_received, total_bytes_to_be_received)); last_event_ = now; } } private: PP_Instance instance_; base::Time last_event_; }; void DownloadNexeCompletion(const DownloadNexeRequest& request, PP_NaClFileInfo* out_file_info, FileDownloader::Status status, base::File target_file, int http_status); void DownloadNexe(PP_Instance instance, const char* url, PP_NaClFileInfo* out_file_info, PP_CompletionCallback callback) { CHECK(url); CHECK(out_file_info); DownloadNexeRequest request; request.instance = instance; request.url = url; request.callback = callback; request.start_time = base::Time::Now(); // Try the fast path for retrieving the file first. PP_FileHandle handle = OpenNaClExecutable(instance, url, &out_file_info->token_lo, &out_file_info->token_hi); if (handle != PP_kInvalidFileHandle) { DownloadNexeCompletion(request, out_file_info, FileDownloader::SUCCESS, base::File(handle), 200); return; } // The fast path didn't work, we'll fetch the file using URLLoader and write // it to local storage. base::File target_file(CreateTemporaryFile(instance)); GURL gurl(url); content::PepperPluginInstance* plugin_instance = content::PepperPluginInstance::Get(instance); if (!plugin_instance) { ppapi::PpapiGlobals::Get()->GetMainThreadMessageLoop()->PostTask( FROM_HERE, base::Bind(callback.func, callback.user_data, static_cast(PP_ERROR_FAILED))); } const blink::WebDocument& document = plugin_instance->GetContainer()->element().document(); scoped_ptr url_loader( CreateWebURLLoader(document, gurl)); blink::WebURLRequest url_request = CreateWebURLRequest(document, gurl); ProgressEventRateLimiter* tracker = new ProgressEventRateLimiter(instance); // FileDownloader deletes itself after invoking DownloadNexeCompletion. FileDownloader* file_downloader = new FileDownloader( url_loader.Pass(), target_file.Pass(), base::Bind(&DownloadNexeCompletion, request, out_file_info), base::Bind(&ProgressEventRateLimiter::ReportProgress, base::Owned(tracker), std::string(url))); file_downloader->Load(url_request); } void DownloadNexeCompletion(const DownloadNexeRequest& request, PP_NaClFileInfo* out_file_info, FileDownloader::Status status, base::File target_file, int http_status) { int32_t pp_error = FileDownloaderToPepperError(status); int64_t bytes_read = -1; if (pp_error == PP_OK && target_file.IsValid()) { base::File::Info info; if (target_file.GetInfo(&info)) bytes_read = info.size; } if (bytes_read == -1) { target_file.Close(); pp_error = PP_ERROR_FAILED; } base::TimeDelta download_time = base::Time::Now() - request.start_time; NexeLoadManager* load_manager = GetNexeLoadManager(request.instance); if (load_manager) { load_manager->NexeFileDidOpen(pp_error, target_file, http_status, bytes_read, request.url, download_time); } if (pp_error == PP_OK && target_file.IsValid()) out_file_info->handle = target_file.TakePlatformFile(); else out_file_info->handle = PP_kInvalidFileHandle; request.callback.func(request.callback.user_data, pp_error); } void DownloadFileCompletion( const DownloadFileCallback& callback, FileDownloader::Status status, base::File file, int http_status) { int32_t pp_error = FileDownloaderToPepperError(status); PP_NaClFileInfo file_info; if (pp_error == PP_OK) { file_info.handle = file.TakePlatformFile(); file_info.token_lo = 0; file_info.token_hi = 0; } else { file_info = kInvalidNaClFileInfo; } callback.Run(pp_error, file_info); } void DownloadFile(PP_Instance instance, const std::string& url, const DownloadFileCallback& callback) { DCHECK(ppapi::PpapiGlobals::Get()->GetMainThreadMessageLoop()-> BelongsToCurrentThread()); NexeLoadManager* load_manager = GetNexeLoadManager(instance); DCHECK(load_manager); if (!load_manager) { base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(callback, static_cast(PP_ERROR_FAILED), kInvalidNaClFileInfo)); return; } // Handle special PNaCl support files which are installed on the user's // machine. if (url.find(kPNaClTranslatorBaseUrl, 0) == 0) { PP_NaClFileInfo file_info = kInvalidNaClFileInfo; PP_FileHandle handle = GetReadonlyPnaclFd(url.c_str(), false /* is_executable */, &file_info.token_lo, &file_info.token_hi); if (handle == PP_kInvalidFileHandle) { base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(callback, static_cast(PP_ERROR_FAILED), kInvalidNaClFileInfo)); return; } file_info.handle = handle; base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(callback, static_cast(PP_OK), file_info)); return; } // We have to ensure that this url resolves relative to the plugin base url // before downloading it. const GURL& test_gurl = load_manager->plugin_base_url().Resolve(url); if (!test_gurl.is_valid()) { base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(callback, static_cast(PP_ERROR_FAILED), kInvalidNaClFileInfo)); return; } // Try the fast path for retrieving the file first. uint64_t file_token_lo = 0; uint64_t file_token_hi = 0; PP_FileHandle file_handle = OpenNaClExecutable(instance, url.c_str(), &file_token_lo, &file_token_hi); if (file_handle != PP_kInvalidFileHandle) { PP_NaClFileInfo file_info; file_info.handle = file_handle; file_info.token_lo = file_token_lo; file_info.token_hi = file_token_hi; base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(callback, static_cast(PP_OK), file_info)); return; } // The fast path didn't work, we'll fetch the file using URLLoader and write // it to local storage. base::File target_file(CreateTemporaryFile(instance)); GURL gurl(url); content::PepperPluginInstance* plugin_instance = content::PepperPluginInstance::Get(instance); if (!plugin_instance) { base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(callback, static_cast(PP_ERROR_FAILED), kInvalidNaClFileInfo)); } const blink::WebDocument& document = plugin_instance->GetContainer()->element().document(); scoped_ptr url_loader( CreateWebURLLoader(document, gurl)); blink::WebURLRequest url_request = CreateWebURLRequest(document, gurl); ProgressEventRateLimiter* tracker = new ProgressEventRateLimiter(instance); // FileDownloader deletes itself after invoking DownloadNexeCompletion. FileDownloader* file_downloader = new FileDownloader( url_loader.Pass(), target_file.Pass(), base::Bind(&DownloadFileCompletion, callback), base::Bind(&ProgressEventRateLimiter::ReportProgress, base::Owned(tracker), std::string(url))); file_downloader->Load(url_request); } void ReportSelLdrStatus(PP_Instance instance, int32_t load_status, int32_t max_status) { HistogramEnumerate("NaCl.LoadStatus.SelLdr", load_status, max_status); NexeLoadManager* load_manager = GetNexeLoadManager(instance); DCHECK(load_manager); if (!load_manager) return; // Gather data to see if being installed changes load outcomes. const char* name = load_manager->is_installed() ? "NaCl.LoadStatus.SelLdr.InstalledApp" : "NaCl.LoadStatus.SelLdr.NotInstalledApp"; HistogramEnumerate(name, load_status, max_status); } void LogTranslateTime(const char* histogram_name, int64_t time_in_us) { ppapi::PpapiGlobals::Get()->GetMainThreadMessageLoop()->PostTask( FROM_HERE, base::Bind(&HistogramTimeTranslation, std::string(histogram_name), time_in_us / 1000)); } void DidOpenManifestEntry(PP_NaClFileInfo* out_file_info, PP_CompletionCallback callback, int32_t pp_error, const PP_NaClFileInfo& file_info) { if (pp_error == PP_OK) *out_file_info = file_info; callback.func(callback.user_data, pp_error); } void OpenManifestEntry(PP_Instance instance, PP_Bool is_helper_process, const char* key, PP_NaClFileInfo* out_file_info, PP_CompletionCallback callback) { std::string url; PP_PNaClOptions pnacl_options; pnacl_options.translate = PP_FALSE; pnacl_options.is_debug = PP_FALSE; pnacl_options.opt_level = 2; if (!ManifestResolveKey(instance, PP_ToBool(is_helper_process), key, &url, &pnacl_options)) { PostPPCompletionCallback(callback, PP_ERROR_FAILED); } // TODO(teravest): Make a type like PP_NaClFileInfo to use for DownloadFile // that would close the file handle on destruction. DownloadFile(instance, url, base::Bind(&DidOpenManifestEntry, out_file_info, callback)); } void SetPNaClStartTime(PP_Instance instance) { NexeLoadManager* load_manager = GetNexeLoadManager(instance); if (load_manager) load_manager->set_pnacl_start_time(base::Time::Now()); } class PexeDownloader : public blink::WebURLLoaderClient { public: PexeDownloader(PP_Instance instance, scoped_ptr url_loader, const std::string& pexe_url, int32_t pexe_opt_level, const PPP_PexeStreamHandler* stream_handler, void* stream_handler_user_data) : instance_(instance), url_loader_(url_loader.Pass()), pexe_url_(pexe_url), pexe_opt_level_(pexe_opt_level), stream_handler_(stream_handler), stream_handler_user_data_(stream_handler_user_data), success_(false), expected_content_length_(-1), weak_factory_(this) { } void Load(const blink::WebURLRequest& request) { url_loader_->loadAsynchronously(request, this); } private: virtual void didReceiveResponse(blink::WebURLLoader* loader, const blink::WebURLResponse& response) { success_ = (response.httpStatusCode() == 200); if (!success_) return; expected_content_length_ = response.expectedContentLength(); // Defer loading after receiving headers. This is because we may already // have a cached translated nexe, so check for that now. url_loader_->setDefersLoading(true); std::string etag = response.httpHeaderField("etag").utf8(); std::string last_modified = response.httpHeaderField("last-modified").utf8(); base::Time last_modified_time; base::Time::FromString(last_modified.c_str(), &last_modified_time); bool has_no_store_header = false; std::string cache_control = response.httpHeaderField("cache-control").utf8(); std::vector values; base::SplitString(cache_control, ',', &values); for (std::vector::const_iterator it = values.begin(); it != values.end(); ++it) { if (StringToLowerASCII(*it) == "no-store") has_no_store_header = true; } GetNexeFd(instance_, pexe_url_, pexe_opt_level_, last_modified_time, etag, has_no_store_header, base::Bind(&PexeDownloader::didGetNexeFd, weak_factory_.GetWeakPtr())); } virtual void didGetNexeFd(int32_t pp_error, bool cache_hit, PP_FileHandle file_handle) { HistogramEnumerate("NaCl.Perf.PNaClCache.IsHit", cache_hit, 2); if (cache_hit) { stream_handler_->DidCacheHit(stream_handler_user_data_, file_handle); // We delete the PexeDownloader at this point since we successfully got a // cached, translated nexe. delete this; return; } stream_handler_->DidCacheMiss(stream_handler_user_data_, expected_content_length_); // No translated nexe was found in the cache, so we should download the // file to start streaming it. url_loader_->setDefersLoading(false); } virtual void didReceiveData(blink::WebURLLoader* loader, const char* data, int data_length, int encoded_data_length) { // Stream the data we received to the stream callback. stream_handler_->DidStreamData(stream_handler_user_data_, data, data_length); } virtual void didFinishLoading(blink::WebURLLoader* loader, double finish_time, int64_t total_encoded_data_length) { int32_t result = success_ ? PP_OK : PP_ERROR_FAILED; stream_handler_->DidFinishStream(stream_handler_user_data_, result); delete this; } virtual void didFail(blink::WebURLLoader* loader, const blink::WebURLError& error) { success_ = false; } PP_Instance instance_; scoped_ptr url_loader_; std::string pexe_url_; int32_t pexe_opt_level_; const PPP_PexeStreamHandler* stream_handler_; void* stream_handler_user_data_; bool success_; int64_t expected_content_length_; base::WeakPtrFactory weak_factory_; }; void StreamPexe(PP_Instance instance, const char* pexe_url, int32_t opt_level, const PPP_PexeStreamHandler* handler, void* handler_user_data) { content::PepperPluginInstance* plugin_instance = content::PepperPluginInstance::Get(instance); if (!plugin_instance) { base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(handler->DidFinishStream, handler_user_data, static_cast(PP_ERROR_FAILED))); return; } GURL gurl(pexe_url); const blink::WebDocument& document = plugin_instance->GetContainer()->element().document(); scoped_ptr url_loader( CreateWebURLLoader(document, gurl)); PexeDownloader* downloader = new PexeDownloader(instance, url_loader.Pass(), pexe_url, opt_level, handler, handler_user_data); blink::WebURLRequest url_request = CreateWebURLRequest(document, gurl); // Mark the request as requesting a PNaCl bitcode file, // so that component updater can detect this user action. url_request.addHTTPHeaderField( blink::WebString::fromUTF8("Accept"), blink::WebString::fromUTF8("application/x-pnacl, */*")); downloader->Load(url_request); } const PPB_NaCl_Private nacl_interface = { &LaunchSelLdr, &StartPpapiProxy, &UrandomFD, &Are3DInterfacesDisabled, &BrokerDuplicateHandle, &GetReadExecPnaclFd, &CreateTemporaryFile, &GetNumberOfProcessors, &PPIsNonSFIModeEnabled, &ReportTranslationFinished, &DispatchEvent, &ReportLoadSuccess, &ReportLoadError, &ReportLoadAbort, &NexeDidCrash, &InstanceCreated, &InstanceDestroyed, &NaClDebugEnabledForURL, &GetSandboxArch, &LogToConsole, &GetNaClReadyState, &GetExitStatus, &SetExitStatus, &Vlog, &InitializePlugin, &GetNexeSize, &RequestNaClManifest, &GetManifestBaseURL, &ProcessNaClManifest, &DevInterfacesEnabled, &ManifestGetProgramURL, &GetPNaClResourceInfo, &GetCpuFeatureAttrs, &PostMessageToJavaScript, &DownloadNexe, &ReportSelLdrStatus, &LogTranslateTime, &OpenManifestEntry, &SetPNaClStartTime, &StreamPexe }; } // namespace const PPB_NaCl_Private* GetNaClPrivateInterface() { return &nacl_interface; } } // namespace nacl