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android / platform / external / chromium_org / d273ce5ed23e43893c48445d86222a46cd57548b / . / extensions / browser / process_manager.cc
blob: 6a57d8e600ac1eba65ec9eeef9d6c5b582c08baf [file] [log] [blame]
// 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 "extensions/browser/process_manager.h"
#include "base/bind.h"
#include "base/command_line.h"
#include "base/lazy_instance.h"
#include "base/logging.h"
#include "base/message_loop/message_loop.h"
#include "base/metrics/histogram.h"
#include "base/stl_util.h"
#include "base/strings/string_number_conversions.h"
#include "base/time/time.h"
#include "chrome/browser/chrome_notification_types.h"
#include "chrome/browser/extensions/api/runtime/runtime_api.h"
#include "chrome/browser/extensions/extension_host.h"
#include "chrome/browser/extensions/extension_service.h"
#include "chrome/browser/extensions/extension_system.h"
#include "chrome/browser/extensions/extension_util.h"
#include "chrome/common/extensions/extension_messages.h"
#include "content/public/browser/browser_context.h"
#include "content/public/browser/browser_thread.h"
#include "content/public/browser/devtools_agent_host.h"
#include "content/public/browser/devtools_manager.h"
#include "content/public/browser/notification_service.h"
#include "content/public/browser/render_process_host.h"
#include "content/public/browser/render_view_host.h"
#include "content/public/browser/site_instance.h"
#include "content/public/browser/web_contents.h"
#include "content/public/browser/web_contents_delegate.h"
#include "content/public/browser/web_contents_observer.h"
#include "content/public/browser/web_contents_user_data.h"
#include "content/public/common/renderer_preferences.h"
#include "extensions/browser/extensions_browser_client.h"
#include "extensions/browser/view_type_utils.h"
#include "extensions/common/extension.h"
#include "extensions/common/manifest_handlers/background_info.h"
#include "extensions/common/manifest_handlers/incognito_info.h"
#include "extensions/common/switches.h"
using content::BrowserContext;
using content::RenderViewHost;
using content::SiteInstance;
using content::WebContents;
namespace extensions {
class RenderViewHostDestructionObserver;
}
DEFINE_WEB_CONTENTS_USER_DATA_KEY(
extensions::RenderViewHostDestructionObserver);
namespace extensions {
namespace {
std::string GetExtensionID(RenderViewHost* render_view_host) {
// This works for both apps and extensions because the site has been
// normalized to the extension URL for apps.
if (!render_view_host->GetSiteInstance())
return std::string();
return render_view_host->GetSiteInstance()->GetSiteURL().host();
}
void OnRenderViewHostUnregistered(BrowserContext* context,
RenderViewHost* render_view_host) {
content::NotificationService::current()->Notify(
chrome::NOTIFICATION_EXTENSION_VIEW_UNREGISTERED,
content::Source<BrowserContext>(context),
content::Details<RenderViewHost>(render_view_host));
}
// Incognito profiles use this process manager. It is mostly a shim that decides
// whether to fall back on the original profile's ProcessManager based
// on whether a given extension uses "split" or "spanning" incognito behavior.
class IncognitoProcessManager : public ProcessManager {
public:
IncognitoProcessManager(BrowserContext* incognito_context,
BrowserContext* original_context);
virtual ~IncognitoProcessManager() {}
virtual ExtensionHost* CreateBackgroundHost(const Extension* extension,
const GURL& url) OVERRIDE;
virtual SiteInstance* GetSiteInstanceForURL(const GURL& url) OVERRIDE;
private:
// Returns true if the extension is allowed to run in incognito mode.
bool IsIncognitoEnabled(const Extension* extension);
ProcessManager* original_manager_;
DISALLOW_COPY_AND_ASSIGN(IncognitoProcessManager);
};
static void CreateBackgroundHostForExtensionLoad(
ProcessManager* manager, const Extension* extension) {
DVLOG(1) << "CreateBackgroundHostForExtensionLoad";
if (BackgroundInfo::HasPersistentBackgroundPage(extension))
manager->CreateBackgroundHost(extension,
BackgroundInfo::GetBackgroundURL(extension));
}
} // namespace
class RenderViewHostDestructionObserver
: public content::WebContentsObserver,
public content::WebContentsUserData<RenderViewHostDestructionObserver> {
public:
virtual ~RenderViewHostDestructionObserver() {}
private:
explicit RenderViewHostDestructionObserver(WebContents* web_contents)
: WebContentsObserver(web_contents) {
BrowserContext* context = web_contents->GetBrowserContext();
process_manager_ =
ExtensionSystem::GetForBrowserContext(context)->process_manager();
}
friend class content::WebContentsUserData<RenderViewHostDestructionObserver>;
// content::WebContentsObserver overrides.
virtual void RenderViewDeleted(RenderViewHost* render_view_host) OVERRIDE {
process_manager_->UnregisterRenderViewHost(render_view_host);
}
ProcessManager* process_manager_;
DISALLOW_COPY_AND_ASSIGN(RenderViewHostDestructionObserver);
};
struct ProcessManager::BackgroundPageData {
// The count of things keeping the lazy background page alive.
int lazy_keepalive_count;
// Tracks if an impulse event has occured since the last polling check.
bool keepalive_impulse;
bool previous_keepalive_impulse;
// This is used with the ShouldSuspend message, to ensure that the extension
// remained idle between sending the message and receiving the ack.
int close_sequence_id;
// True if the page responded to the ShouldSuspend message and is currently
// dispatching the suspend event. During this time any events that arrive will
// cancel the suspend process and an onSuspendCanceled event will be
// dispatched to the page.
bool is_closing;
// Keeps track of when this page was last suspended. Used for perf metrics.
linked_ptr<base::ElapsedTimer> since_suspended;
BackgroundPageData()
: lazy_keepalive_count(0),
keepalive_impulse(false),
previous_keepalive_impulse(false),
close_sequence_id(0),
is_closing(false) {}
};
//
// ProcessManager
//
// static
ProcessManager* ProcessManager::Create(BrowserContext* context) {
if (context->IsOffTheRecord()) {
BrowserContext* original_context =
ExtensionsBrowserClient::Get()->GetOriginalContext(context);
return new IncognitoProcessManager(context, original_context);
}
return new ProcessManager(context, context);
}
ProcessManager::ProcessManager(BrowserContext* context,
BrowserContext* original_context)
: site_instance_(SiteInstance::Create(context)),
startup_background_hosts_created_(false),
devtools_callback_(base::Bind(
&ProcessManager::OnDevToolsStateChanged,
base::Unretained(this))),
weak_ptr_factory_(this) {
registrar_.Add(this, chrome::NOTIFICATION_EXTENSIONS_READY,
content::Source<BrowserContext>(original_context));
registrar_.Add(this, chrome::NOTIFICATION_EXTENSION_LOADED,
content::Source<BrowserContext>(original_context));
registrar_.Add(this, chrome::NOTIFICATION_EXTENSION_UNLOADED,
content::Source<BrowserContext>(original_context));
registrar_.Add(this, chrome::NOTIFICATION_EXTENSION_HOST_DESTROYED,
content::Source<BrowserContext>(context));
registrar_.Add(this, chrome::NOTIFICATION_EXTENSION_HOST_VIEW_SHOULD_CLOSE,
content::Source<BrowserContext>(context));
registrar_.Add(this, content::NOTIFICATION_RENDER_VIEW_HOST_CHANGED,
content::NotificationService::AllSources());
registrar_.Add(this, content::NOTIFICATION_WEB_CONTENTS_CONNECTED,
content::NotificationService::AllSources());
registrar_.Add(this, chrome::NOTIFICATION_PROFILE_CREATED,
content::Source<BrowserContext>(original_context));
registrar_.Add(this, chrome::NOTIFICATION_PROFILE_DESTROYED,
content::Source<BrowserContext>(context));
if (context->IsOffTheRecord()) {
registrar_.Add(this, chrome::NOTIFICATION_PROFILE_DESTROYED,
content::Source<BrowserContext>(original_context));
}
event_page_idle_time_ = base::TimeDelta::FromSeconds(10);
unsigned idle_time_msec = 0;
if (base::StringToUint(CommandLine::ForCurrentProcess()->GetSwitchValueASCII(
extensions::switches::kEventPageIdleTime), &idle_time_msec)) {
CHECK(idle_time_msec > 0); // OnKeepaliveImpulseCheck requires non zero.
event_page_idle_time_ = base::TimeDelta::FromMilliseconds(idle_time_msec);
}
event_page_suspending_time_ = base::TimeDelta::FromSeconds(5);
unsigned suspending_time_msec = 0;
if (base::StringToUint(CommandLine::ForCurrentProcess()->GetSwitchValueASCII(
extensions::switches::kEventPageSuspendingTime),
&suspending_time_msec)) {
event_page_suspending_time_ =
base::TimeDelta::FromMilliseconds(suspending_time_msec);
}
content::DevToolsManager::GetInstance()->AddAgentStateCallback(
devtools_callback_);
OnKeepaliveImpulseCheck();
}
ProcessManager::~ProcessManager() {
CloseBackgroundHosts();
DCHECK(background_hosts_.empty());
content::DevToolsManager::GetInstance()->RemoveAgentStateCallback(
devtools_callback_);
}
const ProcessManager::ViewSet ProcessManager::GetAllViews() const {
ViewSet result;
for (ExtensionRenderViews::const_iterator iter =
all_extension_views_.begin();
iter != all_extension_views_.end(); ++iter) {
result.insert(iter->first);
}
return result;
}
ExtensionHost* ProcessManager::CreateBackgroundHost(const Extension* extension,
const GURL& url) {
// Hosted apps are taken care of from BackgroundContentsService. Ignore them
// here.
if (extension->is_hosted_app())
return NULL;
// Don't create multiple background hosts for an extension.
if (ExtensionHost* host = GetBackgroundHostForExtension(extension->id()))
return host; // TODO(kalman): return NULL here? It might break things...
ExtensionHost* host =
new ExtensionHost(extension, GetSiteInstanceForURL(url), url,
VIEW_TYPE_EXTENSION_BACKGROUND_PAGE);
host->CreateRenderViewSoon();
OnBackgroundHostCreated(host);
return host;
}
ExtensionHost* ProcessManager::GetBackgroundHostForExtension(
const std::string& extension_id) {
for (ExtensionHostSet::iterator iter = background_hosts_.begin();
iter != background_hosts_.end(); ++iter) {
ExtensionHost* host = *iter;
if (host->extension_id() == extension_id)
return host;
}
return NULL;
}
std::set<RenderViewHost*> ProcessManager::GetRenderViewHostsForExtension(
const std::string& extension_id) {
std::set<RenderViewHost*> result;
SiteInstance* site_instance = GetSiteInstanceForURL(
Extension::GetBaseURLFromExtensionId(extension_id));
if (!site_instance)
return result;
// Gather up all the views for that site.
for (ExtensionRenderViews::iterator view = all_extension_views_.begin();
view != all_extension_views_.end(); ++view) {
if (view->first->GetSiteInstance() == site_instance)
result.insert(view->first);
}
return result;
}
const Extension* ProcessManager::GetExtensionForRenderViewHost(
RenderViewHost* render_view_host) {
if (!render_view_host->GetSiteInstance())
return NULL;
ExtensionService* service = ExtensionSystem::GetForBrowserContext(
GetBrowserContext())->extension_service();
if (!service)
return NULL;
return service->extensions()->GetByID(GetExtensionID(render_view_host));
}
void ProcessManager::UnregisterRenderViewHost(
RenderViewHost* render_view_host) {
ExtensionRenderViews::iterator view =
all_extension_views_.find(render_view_host);
if (view == all_extension_views_.end())
return;
OnRenderViewHostUnregistered(GetBrowserContext(), render_view_host);
ViewType view_type = view->second;
all_extension_views_.erase(view);
// Keepalive count, balanced in RegisterRenderViewHost.
if (view_type != VIEW_TYPE_INVALID &&
view_type != VIEW_TYPE_EXTENSION_BACKGROUND_PAGE) {
const Extension* extension = GetExtensionForRenderViewHost(
render_view_host);
if (extension)
DecrementLazyKeepaliveCount(extension);
}
}
void ProcessManager::RegisterRenderViewHost(RenderViewHost* render_view_host) {
const Extension* extension = GetExtensionForRenderViewHost(
render_view_host);
if (!extension)
return;
WebContents* web_contents = WebContents::FromRenderViewHost(render_view_host);
all_extension_views_[render_view_host] = GetViewType(web_contents);
// Keep the lazy background page alive as long as any non-background-page
// extension views are visible. Keepalive count balanced in
// UnregisterRenderViewHost.
IncrementLazyKeepaliveCountForView(render_view_host);
}
SiteInstance* ProcessManager::GetSiteInstanceForURL(const GURL& url) {
return site_instance_->GetRelatedSiteInstance(url);
}
bool ProcessManager::IsBackgroundHostClosing(const std::string& extension_id) {
ExtensionHost* host = GetBackgroundHostForExtension(extension_id);
return (host && background_page_data_[extension_id].is_closing);
}
int ProcessManager::GetLazyKeepaliveCount(const Extension* extension) {
if (!BackgroundInfo::HasLazyBackgroundPage(extension))
return 0;
return background_page_data_[extension->id()].lazy_keepalive_count;
}
void ProcessManager::IncrementLazyKeepaliveCount(const Extension* extension) {
if (!BackgroundInfo::HasLazyBackgroundPage(extension))
return;
int& count = background_page_data_[extension->id()].lazy_keepalive_count;
if (++count == 1)
OnLazyBackgroundPageActive(extension->id());
}
void ProcessManager::DecrementLazyKeepaliveCount(const Extension* extension) {
if (!BackgroundInfo::HasLazyBackgroundPage(extension))
return;
DecrementLazyKeepaliveCount(extension->id());
}
void ProcessManager::DecrementLazyKeepaliveCount(
const std::string& extension_id) {
int& count = background_page_data_[extension_id].lazy_keepalive_count;
DCHECK_GT(count, 0);
// If we reach a zero keepalive count when the lazy background page is about
// to be closed, incrementing close_sequence_id will cancel the close
// sequence and cause the background page to linger. So check is_closing
// before initiating another close sequence.
if (--count == 0 && !background_page_data_[extension_id].is_closing) {
base::MessageLoop::current()->PostDelayedTask(
FROM_HERE,
base::Bind(&ProcessManager::OnLazyBackgroundPageIdle,
weak_ptr_factory_.GetWeakPtr(), extension_id,
++background_page_data_[extension_id].close_sequence_id),
event_page_idle_time_);
}
}
void ProcessManager::IncrementLazyKeepaliveCountForView(
RenderViewHost* render_view_host) {
WebContents* web_contents =
WebContents::FromRenderViewHost(render_view_host);
ViewType view_type = GetViewType(web_contents);
if (view_type != VIEW_TYPE_INVALID &&
view_type != VIEW_TYPE_EXTENSION_BACKGROUND_PAGE) {
const Extension* extension = GetExtensionForRenderViewHost(
render_view_host);
if (extension)
IncrementLazyKeepaliveCount(extension);
}
}
// This implementation layers on top of the keepalive count. An impulse sets
// a per extension flag. On a regular interval that flag is checked. Changes
// from the flag not being set to set cause an IncrementLazyKeepaliveCount.
void ProcessManager::KeepaliveImpulse(const Extension* extension) {
if (!BackgroundInfo::HasLazyBackgroundPage(extension))
return;
BackgroundPageData& bd = background_page_data_[extension->id()];
if (!bd.keepalive_impulse) {
bd.keepalive_impulse = true;
if (!bd.previous_keepalive_impulse) {
IncrementLazyKeepaliveCount(extension);
}
}
}
// DecrementLazyKeepaliveCount is called when no calls to KeepaliveImpulse
// have been made for at least event_page_idle_time_. In the best case an
// impulse was made just before being cleared, and the decrement will occur
// event_page_idle_time_ later, causing a 2 * event_page_idle_time_ total time
// for extension to be shut down based on impulses. Worst case is an impulse
// just after a clear, adding one check cycle and resulting in 3x total time.
void ProcessManager::OnKeepaliveImpulseCheck() {
for (BackgroundPageDataMap::iterator i = background_page_data_.begin();
i != background_page_data_.end();
++i) {
if (i->second.previous_keepalive_impulse && !i->second.keepalive_impulse)
DecrementLazyKeepaliveCount(i->first);
i->second.previous_keepalive_impulse = i->second.keepalive_impulse;
i->second.keepalive_impulse = false;
}
// OnKeepaliveImpulseCheck() is always called in constructor, but in unit
// tests there will be no message loop. In that event don't schedule tasks.
if (base::MessageLoop::current()) {
base::MessageLoop::current()->PostDelayedTask(
FROM_HERE,
base::Bind(&ProcessManager::OnKeepaliveImpulseCheck,
weak_ptr_factory_.GetWeakPtr()),
event_page_idle_time_);
}
}
void ProcessManager::OnLazyBackgroundPageIdle(const std::string& extension_id,
int sequence_id) {
ExtensionHost* host = GetBackgroundHostForExtension(extension_id);
if (host && !background_page_data_[extension_id].is_closing &&
sequence_id == background_page_data_[extension_id].close_sequence_id) {
// Tell the renderer we are about to close. This is a simple ping that the
// renderer will respond to. The purpose is to control sequencing: if the
// extension remains idle until the renderer responds with an ACK, then we
// know that the extension process is ready to shut down. If our
// close_sequence_id has already changed, then we would ignore the
// ShouldSuspendAck, so we don't send the ping.
host->render_view_host()->Send(new ExtensionMsg_ShouldSuspend(
extension_id, sequence_id));
}
}
void ProcessManager::OnLazyBackgroundPageActive(
const std::string& extension_id) {
ExtensionHost* host = GetBackgroundHostForExtension(extension_id);
if (host && !background_page_data_[extension_id].is_closing) {
// Cancel the current close sequence by changing the close_sequence_id,
// which causes us to ignore the next ShouldSuspendAck.
++background_page_data_[extension_id].close_sequence_id;
}
}
void ProcessManager::OnShouldSuspendAck(const std::string& extension_id,
int sequence_id) {
ExtensionHost* host = GetBackgroundHostForExtension(extension_id);
if (host &&
sequence_id == background_page_data_[extension_id].close_sequence_id) {
host->render_view_host()->Send(new ExtensionMsg_Suspend(extension_id));
}
}
void ProcessManager::OnSuspendAck(const std::string& extension_id) {
background_page_data_[extension_id].is_closing = true;
int sequence_id = background_page_data_[extension_id].close_sequence_id;
base::MessageLoop::current()->PostDelayedTask(
FROM_HERE,
base::Bind(&ProcessManager::CloseLazyBackgroundPageNow,
weak_ptr_factory_.GetWeakPtr(), extension_id, sequence_id),
event_page_suspending_time_);
}
void ProcessManager::CloseLazyBackgroundPageNow(const std::string& extension_id,
int sequence_id) {
ExtensionHost* host = GetBackgroundHostForExtension(extension_id);
if (host &&
sequence_id == background_page_data_[extension_id].close_sequence_id) {
ExtensionHost* host = GetBackgroundHostForExtension(extension_id);
if (host)
CloseBackgroundHost(host);
}
}
void ProcessManager::OnNetworkRequestStarted(RenderViewHost* render_view_host) {
ExtensionHost* host = GetBackgroundHostForExtension(
GetExtensionID(render_view_host));
if (host && host->render_view_host() == render_view_host)
IncrementLazyKeepaliveCount(host->extension());
}
void ProcessManager::OnNetworkRequestDone(RenderViewHost* render_view_host) {
ExtensionHost* host = GetBackgroundHostForExtension(
GetExtensionID(render_view_host));
if (host && host->render_view_host() == render_view_host)
DecrementLazyKeepaliveCount(host->extension());
}
void ProcessManager::CancelSuspend(const Extension* extension) {
bool& is_closing = background_page_data_[extension->id()].is_closing;
ExtensionHost* host = GetBackgroundHostForExtension(extension->id());
if (host && is_closing) {
is_closing = false;
host->render_view_host()->Send(
new ExtensionMsg_CancelSuspend(extension->id()));
// This increment / decrement is to simulate an instantaneous event. This
// has the effect of invalidating close_sequence_id, preventing any in
// progress closes from completing and starting a new close process if
// necessary.
IncrementLazyKeepaliveCount(extension);
DecrementLazyKeepaliveCount(extension);
}
}
void ProcessManager::OnBrowserWindowReady() {
ExtensionService* service = ExtensionSystem::GetForBrowserContext(
GetBrowserContext())->extension_service();
// On Chrome OS, a login screen is implemented as a browser.
// This browser has no extension service. In this case,
// service will be NULL.
if (!service || !service->is_ready())
return;
CreateBackgroundHostsForProfileStartup();
}
content::BrowserContext* ProcessManager::GetBrowserContext() const {
return site_instance_->GetBrowserContext();
}
void ProcessManager::Observe(int type,
const content::NotificationSource& source,
const content::NotificationDetails& details) {
switch (type) {
case chrome::NOTIFICATION_EXTENSIONS_READY:
case chrome::NOTIFICATION_PROFILE_CREATED: {
// Don't load background hosts now if the loading should be deferred.
// Instead they will be loaded when a browser window for this profile
// (or an incognito profile from this profile) is ready.
if (DeferLoadingBackgroundHosts())
break;
CreateBackgroundHostsForProfileStartup();
break;
}
case chrome::NOTIFICATION_EXTENSION_LOADED: {
BrowserContext* context = content::Source<BrowserContext>(source).ptr();
ExtensionService* service =
ExtensionSystem::GetForBrowserContext(context)->extension_service();
if (service->is_ready()) {
const Extension* extension =
content::Details<const Extension>(details).ptr();
CreateBackgroundHostForExtensionLoad(this, extension);
}
break;
}
case chrome::NOTIFICATION_EXTENSION_UNLOADED: {
const Extension* extension =
content::Details<UnloadedExtensionInfo>(details)->extension;
for (ExtensionHostSet::iterator iter = background_hosts_.begin();
iter != background_hosts_.end(); ++iter) {
ExtensionHost* host = *iter;
if (host->extension_id() == extension->id()) {
CloseBackgroundHost(host);
break;
}
}
UnregisterExtension(extension->id());
break;
}
case chrome::NOTIFICATION_EXTENSION_HOST_DESTROYED: {
ExtensionHost* host = content::Details<ExtensionHost>(details).ptr();
if (background_hosts_.erase(host)) {
ClearBackgroundPageData(host->extension()->id());
background_page_data_[host->extension()->id()].since_suspended.reset(
new base::ElapsedTimer());
}
break;
}
case chrome::NOTIFICATION_EXTENSION_HOST_VIEW_SHOULD_CLOSE: {
ExtensionHost* host = content::Details<ExtensionHost>(details).ptr();
if (host->extension_host_type() == VIEW_TYPE_EXTENSION_BACKGROUND_PAGE) {
CloseBackgroundHost(host);
}
break;
}
case content::NOTIFICATION_RENDER_VIEW_HOST_CHANGED: {
// We get this notification both for new WebContents and when one
// has its RenderViewHost replaced (e.g. when a user does a cross-site
// navigation away from an extension URL). For the replaced case, we must
// unregister the old RVH so it doesn't count as an active view that would
// keep the event page alive.
WebContents* contents = content::Source<WebContents>(source).ptr();
if (contents->GetBrowserContext() != GetBrowserContext())
break;
typedef std::pair<RenderViewHost*, RenderViewHost*> RVHPair;
RVHPair* switched_details = content::Details<RVHPair>(details).ptr();
if (switched_details->first)
UnregisterRenderViewHost(switched_details->first);
// The above will unregister a RVH when it gets swapped out with a new
// one. However we need to watch the WebContents to know when a RVH is
// deleted because the WebContents has gone away.
RenderViewHostDestructionObserver::CreateForWebContents(contents);
RegisterRenderViewHost(switched_details->second);
break;
}
case content::NOTIFICATION_WEB_CONTENTS_CONNECTED: {
WebContents* contents = content::Source<WebContents>(source).ptr();
if (contents->GetBrowserContext() != GetBrowserContext())
break;
const Extension* extension = GetExtensionForRenderViewHost(
contents->GetRenderViewHost());
if (!extension)
return;
// RegisterRenderViewHost is called too early (before the process is
// available), so we need to wait until now to notify.
content::NotificationService::current()->Notify(
chrome::NOTIFICATION_EXTENSION_VIEW_REGISTERED,
content::Source<BrowserContext>(GetBrowserContext()),
content::Details<RenderViewHost>(contents->GetRenderViewHost()));
break;
}
case chrome::NOTIFICATION_PROFILE_DESTROYED: {
// Close background hosts when the last browser is closed so that they
// have time to shutdown various objects on different threads. Our
// destructor is called too late in the shutdown sequence.
CloseBackgroundHosts();
break;
}
default:
NOTREACHED();
}
}
void ProcessManager::OnDevToolsStateChanged(
content::DevToolsAgentHost* agent_host,
bool attached) {
RenderViewHost* rvh = agent_host->GetRenderViewHost();
// Ignore unrelated notifications.
if (!rvh ||
rvh->GetSiteInstance()->GetProcess()->GetBrowserContext() !=
GetBrowserContext())
return;
if (GetViewType(WebContents::FromRenderViewHost(rvh)) !=
VIEW_TYPE_EXTENSION_BACKGROUND_PAGE)
return;
const Extension* extension = GetExtensionForRenderViewHost(rvh);
if (!extension)
return;
if (attached) {
// Keep the lazy background page alive while it's being inspected.
CancelSuspend(extension);
IncrementLazyKeepaliveCount(extension);
} else {
DecrementLazyKeepaliveCount(extension);
}
}
void ProcessManager::CreateBackgroundHostsForProfileStartup() {
if (startup_background_hosts_created_)
return;
ExtensionService* service = ExtensionSystem::GetForBrowserContext(
GetBrowserContext())->extension_service();
DCHECK(service);
for (ExtensionSet::const_iterator extension = service->extensions()->begin();
extension != service->extensions()->end(); ++extension) {
CreateBackgroundHostForExtensionLoad(this, extension->get());
RuntimeEventRouter::DispatchOnStartupEvent(GetBrowserContext(),
(*extension)->id());
}
startup_background_hosts_created_ = true;
// Background pages should only be loaded once. To prevent any further loads
// occurring, we remove the notification listeners.
BrowserContext* original_context =
ExtensionsBrowserClient::Get()->GetOriginalContext(GetBrowserContext());
if (registrar_.IsRegistered(
this,
chrome::NOTIFICATION_PROFILE_CREATED,
content::Source<BrowserContext>(original_context))) {
registrar_.Remove(this,
chrome::NOTIFICATION_PROFILE_CREATED,
content::Source<BrowserContext>(original_context));
}
if (registrar_.IsRegistered(
this,
chrome::NOTIFICATION_EXTENSIONS_READY,
content::Source<BrowserContext>(original_context))) {
registrar_.Remove(this,
chrome::NOTIFICATION_EXTENSIONS_READY,
content::Source<BrowserContext>(original_context));
}
}
void ProcessManager::OnBackgroundHostCreated(ExtensionHost* host) {
DCHECK_EQ(GetBrowserContext(), host->browser_context());
background_hosts_.insert(host);
if (BackgroundInfo::HasLazyBackgroundPage(host->extension())) {
linked_ptr<base::ElapsedTimer> since_suspended(
background_page_data_[host->extension()->id()].
since_suspended.release());
if (since_suspended.get()) {
UMA_HISTOGRAM_LONG_TIMES("Extensions.EventPageIdleTime",
since_suspended->Elapsed());
}
}
}
void ProcessManager::CloseBackgroundHost(ExtensionHost* host) {
CHECK(host->extension_host_type() ==
VIEW_TYPE_EXTENSION_BACKGROUND_PAGE);
delete host;
// |host| should deregister itself from our structures.
CHECK(background_hosts_.find(host) == background_hosts_.end());
}
void ProcessManager::CloseBackgroundHosts() {
for (ExtensionHostSet::iterator iter = background_hosts_.begin();
iter != background_hosts_.end(); ) {
ExtensionHostSet::iterator current = iter++;
delete *current;
}
}
void ProcessManager::UnregisterExtension(const std::string& extension_id) {
// The lazy_keepalive_count may be greater than zero at this point because
// RenderViewHosts are still alive. During extension reloading, they will
// decrement the lazy_keepalive_count to negative for the new extension
// instance when they are destroyed. Since we are erasing the background page
// data for the unloaded extension, unregister the RenderViewHosts too.
BrowserContext* context = GetBrowserContext();
for (ExtensionRenderViews::iterator it = all_extension_views_.begin();
it != all_extension_views_.end(); ) {
if (GetExtensionID(it->first) == extension_id) {
OnRenderViewHostUnregistered(context, it->first);
all_extension_views_.erase(it++);
} else {
++it;
}
}
background_page_data_.erase(extension_id);
}
void ProcessManager::ClearBackgroundPageData(const std::string& extension_id) {
background_page_data_.erase(extension_id);
// Re-register all RenderViews for this extension. We do this to restore
// the lazy_keepalive_count (if any) to properly reflect the number of open
// views.
for (ExtensionRenderViews::const_iterator it = all_extension_views_.begin();
it != all_extension_views_.end(); ++it) {
if (GetExtensionID(it->first) == extension_id)
IncrementLazyKeepaliveCountForView(it->first);
}
}
bool ProcessManager::DeferLoadingBackgroundHosts() const {
// The extensions embedder may have special rules about background hosts.
return ExtensionsBrowserClient::Get()->DeferLoadingBackgroundHosts(
GetBrowserContext());
}
//
// IncognitoProcessManager
//
IncognitoProcessManager::IncognitoProcessManager(
BrowserContext* incognito_context,
BrowserContext* original_context)
: ProcessManager(incognito_context, original_context),
original_manager_(ExtensionSystem::GetForBrowserContext(
original_context)->process_manager()) {
DCHECK(incognito_context->IsOffTheRecord());
// The original profile will have its own ProcessManager to
// load the background pages of the spanning extensions. This process
// manager need only worry about the split mode extensions, which is handled
// in the NOTIFICATION_BROWSER_WINDOW_READY notification handler.
registrar_.Remove(this, chrome::NOTIFICATION_EXTENSIONS_READY,
content::Source<BrowserContext>(original_context));
registrar_.Remove(this, chrome::NOTIFICATION_PROFILE_CREATED,
content::Source<BrowserContext>(original_context));
}
ExtensionHost* IncognitoProcessManager::CreateBackgroundHost(
const Extension* extension, const GURL& url) {
if (IncognitoInfo::IsSplitMode(extension)) {
if (IsIncognitoEnabled(extension))
return ProcessManager::CreateBackgroundHost(extension, url);
} else {
// Do nothing. If an extension is spanning, then its original-profile
// background page is shared with incognito, so we don't create another.
}
return NULL;
}
SiteInstance* IncognitoProcessManager::GetSiteInstanceForURL(const GURL& url) {
ExtensionService* service = ExtensionSystem::GetForBrowserContext(
GetBrowserContext())->extension_service();
if (service) {
const Extension* extension =
service->extensions()->GetExtensionOrAppByURL(url);
if (extension && !IncognitoInfo::IsSplitMode(extension)) {
return original_manager_->GetSiteInstanceForURL(url);
}
}
return ProcessManager::GetSiteInstanceForURL(url);
}
bool IncognitoProcessManager::IsIncognitoEnabled(const Extension* extension) {
// Keep in sync with duplicate in extension_info_map.cc.
ExtensionService* service = ExtensionSystem::GetForBrowserContext(
GetBrowserContext())->extension_service();
return extension_util::IsIncognitoEnabled(extension->id(), service);
}
} // namespace extensions