chrome/browser/site_details.cc - chromium/src - Git at Google

 // 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 "chrome/browser/site_details.h"

 #include "base/metrics/histogram.h"
 #include "content/public/browser/browser_thread.h"
 #include "content/public/browser/render_process_host.h"

 using content::BrowserThread;
 using content::RenderProcessHost;
 using content::SiteInstance;
 using content::WebContents;

 SiteData::SiteData() {}

 SiteData::~SiteData() {}

 SiteDetails::SiteDetails() {}

 SiteDetails::~SiteDetails() {}

 void SiteDetails::CollectSiteInfo(WebContents* contents,
                                   SiteData* site_data) {
   DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI));
   content::BrowserContext* browser_context = contents->GetBrowserContext();

   // Find the BrowsingInstance this WebContents belongs to by iterating over
   // the "primary" SiteInstances of each BrowsingInstance we've seen so far.
   SiteInstance* instance = contents->GetSiteInstance();
   SiteInstance* primary = NULL;
   for (size_t i = 0; i < site_data->instances.size(); ++i) {
     if (instance->IsRelatedSiteInstance(site_data->instances[i])) {
       primary = site_data->instances[i];
       break;
     }
   }
   if (!primary) {
     // Remember this as the "primary" SiteInstance of a new BrowsingInstance.
     primary = instance;
     site_data->instances.push_back(instance);
   }

   // Now keep track of how many sites we have in this BrowsingInstance (and
   // overall), including sites in iframes.
   std::set<GURL> sites_in_tab = contents->GetSitesInTab();
   for (std::set<GURL>::iterator iter = sites_in_tab.begin();
        iter != sites_in_tab.end(); ++iter) {
     // Skip about:blank, since we won't usually give it its own process.
     // Because about:blank has no host, its site URL will be blank.
     if (iter->is_empty())
       continue;

     // Make sure we don't overcount process-per-site sites, like the NTP.
     if (RenderProcessHost::ShouldUseProcessPerSite(browser_context, *iter) &&
         site_data->sites.find(*iter) != site_data->sites.end()) {
       continue;
     }

     site_data->sites.insert(*iter);
     site_data->instance_site_map[primary->GetId()].insert(*iter);

     // Also keep track of how things would look if we only isolated HTTPS sites.
     // In this model, all HTTP sites are grouped into one "http://" site.  HTTPS
     // and other schemes (e.g., chrome:) are still isolated.
     GURL https_site = iter->SchemeIs("http") ? GURL("http://") : *iter;
     site_data->https_sites.insert(https_site);
     site_data->instance_https_site_map[primary->GetId()].insert(https_site);
   }
 }

 void SiteDetails::UpdateHistograms(
     const BrowserContextSiteDataMap& site_data_map,
     int all_renderer_process_count,
     int non_renderer_process_count) {
   // Reports a set of site-based process metrics to UMA.
   int process_limit = RenderProcessHost::GetMaxRendererProcessCount();

   // Sum the number of sites and SiteInstances in each BrowserContext.
   int num_sites = 0;
   int num_https_sites = 0;
   int num_browsing_instances = 0;
   int num_isolated_site_instances = 0;
   int num_isolated_https_site_instances = 0;
   for (BrowserContextSiteDataMap::const_iterator i = site_data_map.begin();
        i != site_data_map.end(); ++i) {
     num_sites += i->second.sites.size();
     num_https_sites += i->second.https_sites.size();
     num_browsing_instances += i->second.instance_site_map.size();
     for (BrowsingInstanceSiteMap::const_iterator iter =
              i->second.instance_site_map.begin();
          iter != i->second.instance_site_map.end(); ++iter) {
       num_isolated_site_instances += iter->second.size();
     }
     for (BrowsingInstanceSiteMap::const_iterator iter =
              i->second.instance_https_site_map.begin();
          iter != i->second.instance_https_site_map.end(); ++iter) {
       num_isolated_https_site_instances += iter->second.size();
     }
   }

   // Predict the number of processes needed when isolating all sites and when
   // isolating only HTTPS sites.
   int process_count_lower_bound = num_sites;
   int process_count_upper_bound = num_sites + process_limit - 1;
   int process_count_estimate = std::min(
       num_isolated_site_instances, process_count_upper_bound);

   int process_count_https_lower_bound = num_https_sites;
   int process_count_https_upper_bound = num_https_sites + process_limit - 1;
   int process_count_https_estimate = std::min(
       num_isolated_https_site_instances, process_count_https_upper_bound);

   // Just renderer process count:
   UMA_HISTOGRAM_COUNTS_100("SiteIsolation.CurrentRendererProcessCount",
                            all_renderer_process_count);
   UMA_HISTOGRAM_COUNTS_100(
       "SiteIsolation.BrowsingInstanceCount",
       num_browsing_instances);
   UMA_HISTOGRAM_COUNTS_100(
       "SiteIsolation.IsolateAllSitesProcessCountNoLimit",
       num_isolated_site_instances);
   UMA_HISTOGRAM_COUNTS_100(
       "SiteIsolation.IsolateAllSitesProcessCountLowerBound",
       process_count_lower_bound);
   UMA_HISTOGRAM_COUNTS_100(
       "SiteIsolation.IsolateAllSitesProcessCountEstimate",
       process_count_estimate);
   UMA_HISTOGRAM_COUNTS_100(
       "SiteIsolation.IsolateHttpsSitesProcessCountNoLimit",
       num_isolated_https_site_instances);
   UMA_HISTOGRAM_COUNTS_100(
       "SiteIsolation.IsolateHttpsSitesProcessCountLowerBound",
       process_count_https_lower_bound);
   UMA_HISTOGRAM_COUNTS_100(
       "SiteIsolation.IsolateHttpsSitesProcessCountEstimate",
       process_count_https_estimate);

   // Total process count:
   UMA_HISTOGRAM_COUNTS_100(
       "SiteIsolation.IsolateAllSitesTotalProcessCountEstimate",
       process_count_estimate + non_renderer_process_count);
   UMA_HISTOGRAM_COUNTS_100(
       "SiteIsolation.IsolateHttpsSitesTotalProcessCountEstimate",
       process_count_https_estimate + non_renderer_process_count);
 }
	// 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 "chrome/browser/site_details.h"

	#include "base/metrics/histogram.h"
	#include "content/public/browser/browser_thread.h"
	#include "content/public/browser/render_process_host.h"

	using content::BrowserThread;
	using content::RenderProcessHost;
	using content::SiteInstance;
	using content::WebContents;

	SiteData::SiteData() {}

	SiteData::~SiteData() {}

	SiteDetails::SiteDetails() {}

	SiteDetails::~SiteDetails() {}

	void SiteDetails::CollectSiteInfo(WebContents* contents,
	SiteData* site_data) {
	DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI));
	content::BrowserContext* browser_context = contents->GetBrowserContext();

	// Find the BrowsingInstance this WebContents belongs to by iterating over
	// the "primary" SiteInstances of each BrowsingInstance we've seen so far.
	SiteInstance* instance = contents->GetSiteInstance();
	SiteInstance* primary = NULL;
	for (size_t i = 0; i < site_data->instances.size(); ++i) {
	if (instance->IsRelatedSiteInstance(site_data->instances[i])) {
	primary = site_data->instances[i];
	break;
	}
	}
	if (!primary) {
	// Remember this as the "primary" SiteInstance of a new BrowsingInstance.
	primary = instance;
	site_data->instances.push_back(instance);
	}

	// Now keep track of how many sites we have in this BrowsingInstance (and
	// overall), including sites in iframes.
	std::set<GURL> sites_in_tab = contents->GetSitesInTab();
	for (std::set<GURL>::iterator iter = sites_in_tab.begin();
	iter != sites_in_tab.end(); ++iter) {
	// Skip about:blank, since we won't usually give it its own process.
	// Because about:blank has no host, its site URL will be blank.
	if (iter->is_empty())
	continue;

	// Make sure we don't overcount process-per-site sites, like the NTP.
	if (RenderProcessHost::ShouldUseProcessPerSite(browser_context, *iter) &&
	site_data->sites.find(*iter) != site_data->sites.end()) {
	continue;
	}

	site_data->sites.insert(*iter);
	site_data->instance_site_map[primary->GetId()].insert(*iter);

	// Also keep track of how things would look if we only isolated HTTPS sites.
	// In this model, all HTTP sites are grouped into one "http://" site. HTTPS
	// and other schemes (e.g., chrome:) are still isolated.
	GURL https_site = iter->SchemeIs("http") ? GURL("http://") : *iter;
	site_data->https_sites.insert(https_site);
	site_data->instance_https_site_map[primary->GetId()].insert(https_site);
	}
	}

	void SiteDetails::UpdateHistograms(
	const BrowserContextSiteDataMap& site_data_map,
	int all_renderer_process_count,
	int non_renderer_process_count) {
	// Reports a set of site-based process metrics to UMA.
	int process_limit = RenderProcessHost::GetMaxRendererProcessCount();

	// Sum the number of sites and SiteInstances in each BrowserContext.
	int num_sites = 0;
	int num_https_sites = 0;
	int num_browsing_instances = 0;
	int num_isolated_site_instances = 0;
	int num_isolated_https_site_instances = 0;
	for (BrowserContextSiteDataMap::const_iterator i = site_data_map.begin();
	i != site_data_map.end(); ++i) {
	num_sites += i->second.sites.size();
	num_https_sites += i->second.https_sites.size();
	num_browsing_instances += i->second.instance_site_map.size();
	for (BrowsingInstanceSiteMap::const_iterator iter =
	i->second.instance_site_map.begin();
	iter != i->second.instance_site_map.end(); ++iter) {
	num_isolated_site_instances += iter->second.size();
	}
	for (BrowsingInstanceSiteMap::const_iterator iter =
	i->second.instance_https_site_map.begin();
	iter != i->second.instance_https_site_map.end(); ++iter) {
	num_isolated_https_site_instances += iter->second.size();
	}
	}

	// Predict the number of processes needed when isolating all sites and when
	// isolating only HTTPS sites.
	int process_count_lower_bound = num_sites;
	int process_count_upper_bound = num_sites + process_limit - 1;
	int process_count_estimate = std::min(
	num_isolated_site_instances, process_count_upper_bound);

	int process_count_https_lower_bound = num_https_sites;
	int process_count_https_upper_bound = num_https_sites + process_limit - 1;
	int process_count_https_estimate = std::min(
	num_isolated_https_site_instances, process_count_https_upper_bound);

	// Just renderer process count:
	UMA_HISTOGRAM_COUNTS_100("SiteIsolation.CurrentRendererProcessCount",
	all_renderer_process_count);
	UMA_HISTOGRAM_COUNTS_100(
	"SiteIsolation.BrowsingInstanceCount",
	num_browsing_instances);
	UMA_HISTOGRAM_COUNTS_100(
	"SiteIsolation.IsolateAllSitesProcessCountNoLimit",
	num_isolated_site_instances);
	UMA_HISTOGRAM_COUNTS_100(
	"SiteIsolation.IsolateAllSitesProcessCountLowerBound",
	process_count_lower_bound);
	UMA_HISTOGRAM_COUNTS_100(
	"SiteIsolation.IsolateAllSitesProcessCountEstimate",
	process_count_estimate);
	UMA_HISTOGRAM_COUNTS_100(
	"SiteIsolation.IsolateHttpsSitesProcessCountNoLimit",
	num_isolated_https_site_instances);
	UMA_HISTOGRAM_COUNTS_100(
	"SiteIsolation.IsolateHttpsSitesProcessCountLowerBound",
	process_count_https_lower_bound);
	UMA_HISTOGRAM_COUNTS_100(
	"SiteIsolation.IsolateHttpsSitesProcessCountEstimate",
	process_count_https_estimate);

	// Total process count:
	UMA_HISTOGRAM_COUNTS_100(
	"SiteIsolation.IsolateAllSitesTotalProcessCountEstimate",
	process_count_estimate + non_renderer_process_count);
	UMA_HISTOGRAM_COUNTS_100(
	"SiteIsolation.IsolateHttpsSitesTotalProcessCountEstimate",
	process_count_https_estimate + non_renderer_process_count);
	}