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chromium / chromium / src / refs/tags/114.0.5735.25 / . / content / browser / site_instance_impl.cc
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// Copyright 2012 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "content/browser/site_instance_impl.h"
#include <string>
#include <tuple>
#include "base/containers/contains.h"
#include "base/debug/crash_logging.h"
#include "base/debug/dump_without_crashing.h"
#include "base/lazy_instance.h"
#include "base/trace_event/typed_macros.h"
#include "content/browser/bad_message.h"
#include "content/browser/browsing_instance.h"
#include "content/browser/child_process_security_policy_impl.h"
#include "content/browser/isolated_origin_util.h"
#include "content/browser/isolation_context.h"
#include "content/browser/process_lock.h"
#include "content/browser/renderer_host/render_process_host_impl.h"
#include "content/browser/site_instance_group.h"
#include "content/browser/storage_partition_impl.h"
#include "content/public/browser/browser_or_resource_context.h"
#include "content/public/browser/content_browser_client.h"
#include "content/public/browser/site_isolation_policy.h"
#include "content/public/browser/web_ui_controller_factory.h"
#include "content/public/common/content_client.h"
#include "content/public/common/content_features.h"
#include "content/public/common/url_constants.h"
#include "content/public/common/url_utils.h"
#include "net/base/registry_controlled_domains/registry_controlled_domain.h"
#include "third_party/blink/public/common/chrome_debug_urls.h"
#include "third_party/blink/public/common/features.h"
#include "third_party/perfetto/include/perfetto/tracing/traced_value.h"
#include "url/origin.h"
namespace content {
namespace {
// Constant used to mark two call sites that must always agree on whether
// the default SiteInstance is allowed.
constexpr bool kCreateForURLAllowsDefaultSiteInstance = true;
// Asks the embedder whether effective URLs should be used when determining if
// |dest_url| should end up in |site_instance|.
// This is used to keep same-site scripting working for hosted apps.
bool ShouldCompareEffectiveURLs(BrowserContext* browser_context,
SiteInstanceImpl* site_instance,
bool for_outermost_main_frame,
const GURL& dest_url) {
return site_instance->IsDefaultSiteInstance() ||
GetContentClient()
->browser()
->ShouldCompareEffectiveURLsForSiteInstanceSelection(
browser_context, site_instance, for_outermost_main_frame,
site_instance->original_url(), dest_url);
}
SiteInstanceId::Generator g_site_instance_id_generator;
} // namespace
// static
const GURL& SiteInstanceImpl::GetDefaultSiteURL() {
struct DefaultSiteURL {
const GURL url = GURL("http://unisolated.invalid");
};
static base::LazyInstance<DefaultSiteURL>::Leaky default_site_url =
LAZY_INSTANCE_INITIALIZER;
return default_site_url.Get().url;
}
class SiteInstanceImpl::DefaultSiteInstanceState {
public:
void AddSiteInfo(const SiteInfo& site_info) {
default_site_url_set_.insert(site_info.site_url());
}
bool ContainsSite(const GURL& site_url) {
return base::Contains(default_site_url_set_, site_url);
}
private:
// Keeps track of the site URLs that have been mapped to the default
// SiteInstance.
// TODO(wjmaclean): Revise this to store SiteInfos instead of GURLs.
std::set<GURL> default_site_url_set_;
};
SiteInstanceImpl::SiteInstanceImpl(BrowsingInstance* browsing_instance)
: id_(g_site_instance_id_generator.GenerateNextId()),
browsing_instance_(browsing_instance),
can_associate_with_spare_process_(true),
site_info_(browsing_instance->isolation_context()
.browser_or_resource_context()
.ToBrowserContext()),
has_site_(false),
process_reuse_policy_(ProcessReusePolicy::DEFAULT),
is_for_service_worker_(false),
process_assignment_(SiteInstanceProcessAssignment::UNKNOWN) {
DCHECK(browsing_instance);
}
SiteInstanceImpl::~SiteInstanceImpl() {
GetContentClient()->browser()->SiteInstanceDeleting(this);
// Now that no one is referencing us, we can safely remove ourselves from
// the BrowsingInstance. Any future visits to a page from this site
// (within the same BrowsingInstance) can safely create a new SiteInstance.
if (has_site_)
browsing_instance_->UnregisterSiteInstance(this);
if (has_group()) {
group()->RemoveSiteInstance(this);
ResetSiteInstanceGroup();
}
}
// static
scoped_refptr<SiteInstanceImpl> SiteInstanceImpl::Create(
BrowserContext* browser_context) {
DCHECK(browser_context);
return base::WrapRefCounted(new SiteInstanceImpl(new BrowsingInstance(
browser_context, WebExposedIsolationInfo::CreateNonIsolated(),
/*is_guest=*/false, /*is_fenced=*/false,
/*coop_related_group=*/nullptr, /*common_coop_origin=*/absl::nullopt)));
}
// static
scoped_refptr<SiteInstanceImpl> SiteInstanceImpl::CreateForUrlInfo(
BrowserContext* browser_context,
const UrlInfo& url_info,
bool is_guest,
bool is_fenced) {
DCHECK(url_info.is_sandboxed ||
url_info.unique_sandbox_id == UrlInfo::kInvalidUniqueSandboxId);
CHECK(!is_guest || url_info.storage_partition_config.has_value());
DCHECK(browser_context);
// This will create a new SiteInstance and BrowsingInstance.
scoped_refptr<BrowsingInstance> instance(
new BrowsingInstance(browser_context,
url_info.web_exposed_isolation_info.value_or(
WebExposedIsolationInfo::CreateNonIsolated()),
is_guest, is_fenced, /*coop_related_group=*/nullptr,
url_info.common_coop_origin));
// Note: The |allow_default_instance| value used here MUST match the value
// used in DoesSiteForURLMatch().
return instance->GetSiteInstanceForURL(
url_info, kCreateForURLAllowsDefaultSiteInstance);
}
// static
scoped_refptr<SiteInstanceImpl> SiteInstanceImpl::CreateForServiceWorker(
BrowserContext* browser_context,
const UrlInfo& url_info,
bool can_reuse_process,
bool is_guest,
bool is_fenced) {
DCHECK(!url_info.url.SchemeIs(kChromeErrorScheme));
DCHECK(url_info.storage_partition_config.has_value());
// This will create a new SiteInstance and BrowsingInstance.
// TODO(https://crbug.com/1221127): Verify that having different common COOP
// origins does not hinder the ability of a ServiceWorker to share its page's
// process.
scoped_refptr<BrowsingInstance> instance(
new BrowsingInstance(browser_context,
url_info.web_exposed_isolation_info.value_or(
WebExposedIsolationInfo::CreateNonIsolated()),
is_guest, is_fenced, /*coop_related_group=*/nullptr,
url_info.common_coop_origin));
// We do NOT want to allow the default site instance here because workers
// need to be kept separate from other sites.
scoped_refptr<SiteInstanceImpl> site_instance =
instance->GetSiteInstanceForURL(url_info,
/* allow_default_instance */ false);
DCHECK(!site_instance->GetSiteInfo().is_error_page());
DCHECK_EQ(site_instance->IsGuest(), is_guest);
site_instance->is_for_service_worker_ = true;
// Attempt to reuse a renderer process if possible. Note that in the
// <webview> case, process reuse isn't currently supported and a new
// process will always be created (https://crbug.com/752667).
DCHECK(site_instance->process_reuse_policy() ==
SiteInstanceImpl::ProcessReusePolicy::DEFAULT ||
site_instance->process_reuse_policy() ==
SiteInstanceImpl::ProcessReusePolicy::PROCESS_PER_SITE);
if (can_reuse_process) {
site_instance->set_process_reuse_policy(
SiteInstanceImpl::ProcessReusePolicy::REUSE_PENDING_OR_COMMITTED_SITE);
}
return site_instance;
}
// static
scoped_refptr<SiteInstanceImpl> SiteInstanceImpl::CreateForGuest(
BrowserContext* browser_context,
const StoragePartitionConfig& partition_config) {
DCHECK(browser_context);
DCHECK(!partition_config.is_default());
auto guest_site_info =
SiteInfo::CreateForGuest(browser_context, partition_config);
scoped_refptr<SiteInstanceImpl> site_instance =
base::WrapRefCounted(new SiteInstanceImpl(new BrowsingInstance(
browser_context, guest_site_info.web_exposed_isolation_info(),
/*is_guest=*/true,
/*is_fenced=*/false, /*coop_related_group=*/nullptr,
/*common_coop_origin=*/absl::nullopt)));
site_instance->SetSiteInfoInternal(guest_site_info);
return site_instance;
}
// static
scoped_refptr<SiteInstanceImpl> SiteInstanceImpl::CreateForFencedFrame(
SiteInstanceImpl* embedder_site_instance) {
DCHECK(embedder_site_instance);
BrowserContext* browser_context = embedder_site_instance->GetBrowserContext();
bool should_isolate_fenced_frames =
SiteIsolationPolicy::IsProcessIsolationForFencedFramesEnabled();
scoped_refptr<SiteInstanceImpl> site_instance =
base::WrapRefCounted(new SiteInstanceImpl(new BrowsingInstance(
browser_context, embedder_site_instance->GetWebExposedIsolationInfo(),
embedder_site_instance->IsGuest(),
/*is_fenced=*/should_isolate_fenced_frames,
/*coop_related_group=*/nullptr,
/*common_coop_origin=*/absl::nullopt)));
// Give the new fenced frame SiteInstance the same site url as its embedder's
// SiteInstance to allow it to reuse its embedder's process. We avoid doing
// this in the default SiteInstance case as the url will be invalid; process
// reuse will still happen below though, as the embedder's SiteInstance's
// process will not be locked to any site.
// Note: Even when process isolation for fenced frames is enabled, we will
// still be able to reuse the embedder's process below, because we set its
// SiteInfo to be the embedder's SiteInfo, and |is_fenced| will be false. The
// process will change after the first navigation (the new SiteInstance will
// have a SiteInfo with is_fenced set to true).
if (!embedder_site_instance->IsDefaultSiteInstance()) {
site_instance->SetSite(embedder_site_instance->GetSiteInfo());
} else if (embedder_site_instance->IsGuest()) {
// For guests, in the case where the embedder is not a default SiteInstance,
// we reuse the embedder's SiteInfo above. When the embedder is
// a default SiteInstance, we explicitly create a SiteInfo through
// CreateForGuest.
// TODO(crbug.com/1340662): When we support fenced frame process isolation
// with partial or no site isolation modes, we will be able to reach this
// code path and will need to also set is_fenced for the SiteInfo created
// below.
DCHECK(!should_isolate_fenced_frames);
site_instance->SetSite(SiteInfo::CreateForGuest(
browser_context, embedder_site_instance->GetStoragePartitionConfig()));
}
DCHECK_EQ(embedder_site_instance->IsGuest(), site_instance->IsGuest());
site_instance->ReuseExistingProcessIfPossible(
embedder_site_instance->GetProcess());
return site_instance;
}
// static
scoped_refptr<SiteInstanceImpl>
SiteInstanceImpl::CreateReusableInstanceForTesting(
BrowserContext* browser_context,
const GURL& url) {
DCHECK(browser_context);
// This will create a new SiteInstance and BrowsingInstance.
scoped_refptr<BrowsingInstance> instance(new BrowsingInstance(
browser_context, WebExposedIsolationInfo::CreateNonIsolated(),
/*is_guest=*/false, /*is_fenced=*/false,
/*coop_related_group=*/nullptr,
/*common_coop_origin=*/absl::nullopt));
auto site_instance = instance->GetSiteInstanceForURL(
UrlInfo(UrlInfoInit(url)), /* allow_default_instance */ false);
site_instance->set_process_reuse_policy(
SiteInstanceImpl::ProcessReusePolicy::REUSE_PENDING_OR_COMMITTED_SITE);
return site_instance;
}
// static
scoped_refptr<SiteInstanceImpl> SiteInstanceImpl::CreateForTesting(
BrowserContext* browser_context,
const GURL& url) {
DCHECK(browser_context);
return SiteInstanceImpl::CreateForUrlInfo(browser_context,
UrlInfo::CreateForTesting(url),
/*is_guest=*/false,
/*is_fenced=*/false);
}
// static
bool SiteInstanceImpl::ShouldAssignSiteForUrlInfo(const UrlInfo& url_info) {
// Only empty document schemes can leave SiteInstances unassigned.
if (!base::Contains(url::GetEmptyDocumentSchemes(), url_info.url.scheme())) {
return true;
}
if (url_info.url.SchemeIs(url::kAboutScheme)) {
// TODO(alexmos): Currently, we force about: URLs that are not about:blank
// to assign a site. This has been the legacy behavior, and it's unclear
// whether this matters one way or another, so we can consider changing
// this if there's a good motivation.
if (!url_info.url.IsAboutBlank()) {
return true;
}
// Check if the UrlInfo carries an inherited origin for about:blank, such
// as with a renderer-initiated about:blank navigation where the origin is
// taken from the navigation's initiator. In such cases, the SiteInstance
// assignment must also honor a valid initiator origin (which could require
// a dedicated process), and hence it cannot be left unassigned.
//
// Note that starting an about:blank navigation from an opaque unique
// origin is safe to leave unassigned. Some Android tests currently rely on
// that behavior.
if (url_info.origin.has_value() &&
url_info.origin->GetTupleOrPrecursorTupleIfOpaque().IsValid()) {
return true;
}
// Otherwise, it is ok for about:blank to not "use up" a new SiteInstance.
// The SiteInstance can still be used for a normal web site. For example,
// this is used for newly-created tabs.
return false;
}
// Do not assign a site for other empty document schemes. One notable use of
// this is for Android's native NTP, which uses the chrome-native: scheme.
return false;
}
SiteInstanceId SiteInstanceImpl::GetId() {
return id_;
}
BrowsingInstanceId SiteInstanceImpl::GetBrowsingInstanceId() {
return browsing_instance_->isolation_context().browsing_instance_id();
}
const IsolationContext& SiteInstanceImpl::GetIsolationContext() {
return browsing_instance_->isolation_context();
}
RenderProcessHost* SiteInstanceImpl::GetSiteInstanceGroupProcessIfAvailable() {
return browsing_instance_->site_instance_group_manager()
.GetExistingGroupProcess(this);
}
bool SiteInstanceImpl::IsDefaultSiteInstance() const {
return default_site_instance_state_ != nullptr;
}
void SiteInstanceImpl::AddSiteInfoToDefault(const SiteInfo& site_info) {
DCHECK(IsDefaultSiteInstance());
default_site_instance_state_->AddSiteInfo(site_info);
}
bool SiteInstanceImpl::IsSiteInDefaultSiteInstance(const GURL& site_url) const {
DCHECK(IsDefaultSiteInstance());
return default_site_instance_state_->ContainsSite(site_url);
}
// static
BrowsingInstanceId SiteInstanceImpl::NextBrowsingInstanceId() {
return BrowsingInstance::NextBrowsingInstanceId();
}
bool SiteInstanceImpl::HasProcess() {
if (has_group())
return true;
// If we would use process-per-site for this site, also check if there is an
// existing process that we would use if GetProcess() were called.
if (ShouldUseProcessPerSite() &&
RenderProcessHostImpl::GetSoleProcessHostForSite(GetIsolationContext(),
site_info_)) {
return true;
}
return false;
}
RenderProcessHost* SiteInstanceImpl::GetProcess() {
// Create a new SiteInstanceGroup and RenderProcessHost is there isn't one.
// All SiteInstances within a SiteInstanceGroup share a process and
// AgentSchedulingGroupHost. A group must have a process. If the process gets
// destructed, `site_instance_group_` will get cleared, and another one with a
// new process will be assigned the next time GetProcess() gets called.
if (!has_group()) {
// Check if the ProcessReusePolicy should be updated.
if (ShouldUseProcessPerSite()) {
process_reuse_policy_ = ProcessReusePolicy::PROCESS_PER_SITE;
} else if (process_reuse_policy_ == ProcessReusePolicy::PROCESS_PER_SITE) {
process_reuse_policy_ = ProcessReusePolicy::DEFAULT;
}
SetProcessInternal(
RenderProcessHostImpl::GetProcessHostForSiteInstance(this));
}
DCHECK(site_instance_group_);
return site_instance_group_->process();
}
bool SiteInstanceImpl::ShouldUseProcessPerSite() const {
BrowserContext* browser_context = browsing_instance_->GetBrowserContext();
return has_site_ && site_info_.ShouldUseProcessPerSite(browser_context);
}
void SiteInstanceImpl::ReuseExistingProcessIfPossible(
RenderProcessHost* existing_process) {
if (HasProcess())
return;
// We should not reuse `existing_process` if the destination uses
// process-per-site. Note that this includes the case where the process for
// the site is not there yet (so we're going to create a new process). Note
// also that this does not apply for the reverse case: if the existing process
// is used for a process-per-site site, it is ok to reuse this for the new
// page (regardless of the site).
if (ShouldUseProcessPerSite())
return;
// Do not reuse the process if it's not suitable for this SiteInstance. For
// example, this won't allow reusing a process if it's locked to a site that's
// different from this SiteInstance's site.
if (!RenderProcessHostImpl::MayReuseAndIsSuitable(existing_process, this)) {
return;
}
// TODO(crbug.com/1055779): Don't try to reuse process if either of the
// SiteInstances are cross-origin isolated (uses COOP/COEP).
SetProcessInternal(existing_process);
}
void SiteInstanceImpl::SetProcessInternal(RenderProcessHost* process) {
if (!site_instance_group_) {
site_instance_group_ =
browsing_instance_->site_instance_group_manager()
.GetOrCreateGroupForNewSiteInstance(this, process);
}
LockProcessIfNeeded();
// If we are using process-per-site, we need to register this process
// for the current site so that we can find it again. (If no site is set
// at this time, we will register it in SetSite().)
if (process_reuse_policy_ == ProcessReusePolicy::PROCESS_PER_SITE &&
has_site_) {
RenderProcessHostImpl::RegisterSoleProcessHostForSite(
site_instance_group_->process(), this);
}
TRACE_EVENT2("navigation", "SiteInstanceImpl::SetProcessInternal", "site id",
id_.value(), "process id",
site_instance_group_->process()->GetID());
GetContentClient()->browser()->SiteInstanceGotProcess(this);
// Notify SiteInstanceGroupManager that the process was set on this
// SiteInstance. This must be called after LockProcessIfNeeded() because
// the SiteInstanceGroupManager does suitability checks that use the lock.
browsing_instance_->site_instance_group_manager().OnProcessSet(this);
}
bool SiteInstanceImpl::CanAssociateWithSpareProcess() {
return can_associate_with_spare_process_;
}
void SiteInstanceImpl::PreventAssociationWithSpareProcess() {
can_associate_with_spare_process_ = false;
}
void SiteInstanceImpl::SetSite(const UrlInfo& url_info) {
const GURL& url = url_info.url;
// TODO(creis): Consider calling ShouldAssignSiteForURL internally, rather
// than before multiple call sites. See https://crbug.com/949220.
TRACE_EVENT2("navigation", "SiteInstanceImpl::SetSite", "site id",
id_.value(), "url", url.possibly_invalid_spec());
// A SiteInstance's site should not change.
// TODO(creis): When following links or script navigations, we can currently
// render pages from other sites in this SiteInstance. This will eventually
// be fixed, but until then, we should still not set the site of a
// SiteInstance more than once.
DCHECK(!has_site_);
original_url_ = url;
// Convert |url| into an appropriate SiteInfo that can be passed to
// SetSiteInfoInternal(). We must do this transformation for any arbitrary
// URL we get from a user, a navigation, or script.
SetSiteInfoInternal(browsing_instance_->GetSiteInfoForURL(
url_info, /* allow_default_instance */ false));
}
void SiteInstanceImpl::SetSite(const SiteInfo& site_info) {
TRACE_EVENT2("navigation", "SiteInstanceImpl::SetSite", "site id",
id_.value(), "siteinfo", site_info.GetDebugString());
DCHECK(!has_site_);
SetSiteInfoInternal(site_info);
}
void SiteInstanceImpl::SetSiteInfoToDefault(
const StoragePartitionConfig& storage_partition_config) {
TRACE_EVENT1("navigation", "SiteInstanceImpl::SetSiteInfoToDefault",
"site id", id_.value());
DCHECK(!has_site_);
default_site_instance_state_ = std::make_unique<DefaultSiteInstanceState>();
original_url_ = GetDefaultSiteURL();
SetSiteInfoInternal(SiteInfo::CreateForDefaultSiteInstance(
GetIsolationContext(), storage_partition_config,
browsing_instance_->web_exposed_isolation_info()));
}
void SiteInstanceImpl::SetSiteInfoInternal(const SiteInfo& site_info) {
// TODO(acolwell): Add logic to validate |site_url| and |lock_url| are valid.
DCHECK(!has_site_);
CHECK_EQ(site_info.web_exposed_isolation_info(),
browsing_instance_->web_exposed_isolation_info());
if (verify_storage_partition_info_) {
auto old_partition_config = site_info_.storage_partition_config();
auto new_partition_config = site_info.storage_partition_config();
CHECK_EQ(old_partition_config, new_partition_config);
}
// Remember that this SiteInstance has been used to load a URL, even if the
// URL is invalid.
has_site_ = true;
site_info_ = site_info;
// Now that we have a site, register it with the BrowsingInstance. This
// ensures that we won't create another SiteInstance for this site within
// the same BrowsingInstance, because all same-site pages within a
// BrowsingInstance can script each other.
browsing_instance_->RegisterSiteInstance(this);
if (site_info_.requires_origin_keyed_process()) {
// Track this origin's isolation in the current BrowsingInstance. This is
// needed to consistently isolate future navigations to this origin in this
// BrowsingInstance, even if its opt-in status changes later.
ChildProcessSecurityPolicyImpl* policy =
ChildProcessSecurityPolicyImpl::GetInstance();
url::Origin origin(url::Origin::Create(site_info_.process_lock_url()));
// This is one of two places that origins can be marked as opted-in, the
// other is
// NavigationRequest::AddSameProcessOriginAgentClusterStateIfNecessary().
// This site handles the case where OAC isolation gets a separate process.
// In future, when SiteInstance Groups are complete, this may revert to
// being the only call site.
policy->AddOriginIsolationStateForBrowsingInstance(
browsing_instance_->isolation_context(), origin,
true /* is_origin_agent_cluster */,
true /* requires_origin_keyed_process */);
}
if (site_info_.does_site_request_dedicated_process_for_coop()) {
// If there was a request to process-isolate `site_info_` from COOP
// headers, notify ChildProcessSecurityPolicy about the new isolated origin
// in the current BrowsingInstance. Note that we must convert the origin
// to a site to avoid breaking document.domain. Typically, the process
// lock URL would already correspond to a site (since we isolate sites, not
// origins, by default), but this isn't always the case. For example, this
// SiteInstance could be isolated with the origin granularity due to
// Origin-Agent-Cluster (see site_info_.requires_origin_keyed_process()
// above).
url::Origin origin(url::Origin::Create(site_info_.process_lock_url()));
GURL site(SiteInfo::GetSiteForOrigin(origin));
ChildProcessSecurityPolicyImpl* policy =
ChildProcessSecurityPolicyImpl::GetInstance();
policy->AddCoopIsolatedOriginForBrowsingInstance(
browsing_instance_->isolation_context(), url::Origin::Create(site),
ChildProcessSecurityPolicy::IsolatedOriginSource::WEB_TRIGGERED);
}
// Update the process reuse policy based on the site.
bool should_use_process_per_site = ShouldUseProcessPerSite();
if (should_use_process_per_site)
process_reuse_policy_ = ProcessReusePolicy::PROCESS_PER_SITE;
if (has_group()) {
LockProcessIfNeeded();
// Ensure the process is registered for this site if necessary.
if (should_use_process_per_site) {
RenderProcessHostImpl::RegisterSoleProcessHostForSite(
site_instance_group_->process(), this);
}
}
// Notify SiteInstanceGroupManager that the SiteInfo was set on this
// SiteInstance. This must be called after LockProcessIfNeeded() because
// the SiteInstanceGroupManager does suitability checks that use the lock.
browsing_instance_->site_instance_group_manager().OnSiteInfoSet(this,
has_group());
}
void SiteInstanceImpl::ConvertToDefaultOrSetSite(const UrlInfo& url_info) {
DCHECK(!has_site_);
if (!browsing_instance_->HasDefaultSiteInstance()) {
// We want to set a SiteInfo in this SiteInstance, from information in a
// UrlInfo. The WebExposedIsolationInfo must be compatible for this function
// to not violate WebExposedIsolationInfo isolation invariant within a
// BrowsingInstance.
DCHECK(WebExposedIsolationInfo::AreCompatible(
url_info.web_exposed_isolation_info, GetWebExposedIsolationInfo()));
// If |url_info| has a null WebExposedIsolationInfo, it is compatible with
// any isolation state. We reuse the isolation state of the browsing
// instance for the SiteInfo, to preserve the invariant.
UrlInfo updated_url_info = url_info;
updated_url_info.web_exposed_isolation_info = GetWebExposedIsolationInfo();
const SiteInfo site_info =
SiteInfo::Create(GetIsolationContext(), updated_url_info);
if (CanBePlacedInDefaultSiteInstance(GetIsolationContext(),
updated_url_info.url, site_info)) {
SetSiteInfoToDefault(site_info.storage_partition_config());
AddSiteInfoToDefault(site_info);
DCHECK(browsing_instance_->HasDefaultSiteInstance());
return;
}
}
SetSite(url_info);
}
SiteInstanceProcessAssignment
SiteInstanceImpl::GetLastProcessAssignmentOutcome() {
return process_assignment_;
}
const GURL& SiteInstanceImpl::GetSiteURL() {
return site_info_.site_url();
}
const SiteInfo& SiteInstanceImpl::GetSiteInfo() {
return site_info_;
}
SiteInfo SiteInstanceImpl::DeriveSiteInfo(
const UrlInfo& url_info,
bool is_related,
bool disregard_web_exposed_isolation_info) {
if (is_related) {
return browsing_instance_->GetSiteInfoForURL(
url_info, /* allow_default_instance */ true);
}
// If we care about WebExposedIsolationInfo, verify that the passed in
// WebExposedIsolationInfo is compatible with the internal state. If they
// don't, the semantics of the function would be unclear.
if (!disregard_web_exposed_isolation_info) {
DCHECK(WebExposedIsolationInfo::AreCompatible(
url_info.web_exposed_isolation_info, GetWebExposedIsolationInfo()));
}
// At this stage, we either have two values of WebExposedIsolationInfo that
// can be resolved into one, for example when UrlInfo has an empty
// WebExposedIsolationInfo and it is matchable with any isolation state. Or we
// are trying to compute other state, regardless of what the passed in
// WebExposedIsolationInfos are. In both cases, we simply use the
// SiteInstance's value.
UrlInfo overridden_url_info = url_info;
overridden_url_info.web_exposed_isolation_info = GetWebExposedIsolationInfo();
// New SiteInfos created for site-isolated guests should keep the same
// StoragePartition.
if (IsGuest()) {
overridden_url_info.storage_partition_config =
GetSiteInfo().storage_partition_config();
}
return SiteInfo::Create(GetIsolationContext(), overridden_url_info);
}
bool SiteInstanceImpl::HasSite() const {
return has_site_;
}
bool SiteInstanceImpl::HasRelatedSiteInstance(const SiteInfo& site_info) {
return browsing_instance_->HasSiteInstance(site_info);
}
scoped_refptr<SiteInstance> SiteInstanceImpl::GetRelatedSiteInstance(
const GURL& url) {
return GetRelatedSiteInstanceImpl(UrlInfo(UrlInfoInit(url)));
}
scoped_refptr<SiteInstanceImpl> SiteInstanceImpl::GetRelatedSiteInstanceImpl(
const UrlInfo& url_info) {
return browsing_instance_->GetSiteInstanceForURL(
url_info, /* allow_default_instance */ true);
}
scoped_refptr<SiteInstanceImpl>
SiteInstanceImpl::GetCoopRelatedSiteInstanceImpl(const UrlInfo& url_info) {
return browsing_instance_->GetCoopRelatedSiteInstanceForURL(
url_info, /* allow_default_instance */ true);
}
AgentSchedulingGroupHost& SiteInstanceImpl::GetOrCreateAgentSchedulingGroup() {
if (!site_instance_group_)
GetProcess();
return site_instance_group_->agent_scheduling_group();
}
void SiteInstanceImpl::ResetSiteInstanceGroup() {
site_instance_group_.reset();
}
bool SiteInstanceImpl::IsRelatedSiteInstance(const SiteInstance* instance) {
return browsing_instance_.get() ==
static_cast<const SiteInstanceImpl*>(instance)
->browsing_instance_.get();
}
size_t SiteInstanceImpl::GetRelatedActiveContentsCount() {
return browsing_instance_->GetCoopRelatedGroupActiveContentsCount();
}
namespace {
bool SandboxConfigurationsMatch(const SiteInfo& site_info,
const UrlInfo& url_info) {
return site_info.is_sandboxed() == url_info.is_sandboxed &&
site_info.unique_sandbox_id() == url_info.unique_sandbox_id;
}
} // namespace
bool SiteInstanceImpl::IsSuitableForUrlInfo(const UrlInfo& url_info) {
const GURL& url = url_info.url;
DCHECK_CURRENTLY_ON(BrowserThread::UI);
// If the URL to navigate to can be associated with any site instance,
// we want to keep it in the same process.
if (blink::IsRendererDebugURL(url))
return true;
// Any process can host an about:blank URL, except the one used for error
// pages, which should not commit successful navigations. This check avoids a
// process transfer for browser-initiated navigations to about:blank in a
// dedicated process; without it, IsSuitableHost would consider this process
// unsuitable for about:blank when it compares process locks.
// Renderer-initiated navigations will handle about:blank navigations
// elsewhere and leave them in the source SiteInstance, along with
// about:srcdoc and data:.
if (url.IsAboutBlank() && !site_info_.is_error_page())
return true;
// The is_sandboxed flags and unique_sandbox_ids must match for this to be a
// suitable SiteInstance.
if (!SandboxConfigurationsMatch(GetSiteInfo(), url_info))
return false;
// If the site URL is an extension (e.g., for hosted apps or WebUI) but the
// process is not (or vice versa), make sure we notice and fix it.
// Note: This call must return information that is identical to what
// would be reported in the SiteInstance returned by
// GetRelatedSiteInstance(url).
SiteInfo site_info = DeriveSiteInfo(url_info, /* is_related= */ true);
// If this is a default SiteInstance and the BrowsingInstance gives us a
// non-default SiteInfo even when we explicitly allow the default SiteInstance
// to be considered, then |url| does not belong in the same process as this
// SiteInstance. This can happen when the
// kProcessSharingWithDefaultSiteInstances feature is not enabled and the
// site URL is explicitly set on a SiteInstance for a URL that would normally
// be directed to the default SiteInstance (e.g. a site not requiring a
// dedicated process). This situation typically happens when the top-level
// frame is a site that should be in the default SiteInstance and the
// SiteInstance associated with that frame is initially a SiteInstance with
// no site URL set.
if (IsDefaultSiteInstance() && site_info != site_info_)
return false;
// Note that HasProcess() may return true if site_instance_group_->process_ is
// null, in process-per-site cases where there's an existing process
// available. We want to use such a process in the IsSuitableHost check, so we
// may end up assigning process_ in the GetProcess() call below.
if (!HasProcess()) {
// If there is no process or site, then this is a new SiteInstance that can
// be used for anything.
if (!HasSite())
return true;
// If there is no process but there is a site, then the process must have
// been discarded after we navigated away. If the SiteInfos match, then it
// is safe to use this SiteInstance unless it is a guest. Guests are a
// special case because we need to be consistent with the HasProcess() path
// and the IsSuitableHost() call below always returns false for guests.
if (site_info_ == site_info)
return !IsGuest();
// If the site URLs do not match, but neither this SiteInstance nor the
// destination site_url require dedicated processes, then it is safe to use
// this SiteInstance.
if (!RequiresDedicatedProcess() &&
!site_info.RequiresDedicatedProcess(GetIsolationContext())) {
return true;
}
// Otherwise, there's no process, the SiteInfos don't match, and at least
// one of them requires a dedicated process, so it is not safe to use this
// SiteInstance.
return false;
}
return RenderProcessHostImpl::IsSuitableHost(
GetProcess(), GetIsolationContext(), site_info);
}
bool SiteInstanceImpl::RequiresDedicatedProcess() {
DCHECK_CURRENTLY_ON(BrowserThread::UI);
if (!has_site_)
return false;
return site_info_.RequiresDedicatedProcess(GetIsolationContext());
}
bool SiteInstanceImpl::RequiresOriginKeyedProcess() {
DCHECK_CURRENTLY_ON(BrowserThread::UI);
if (!has_site_)
return false;
// TODO(wjmaclean): once SiteInstanceGroups are ready we may give logically
// (same-process) isolated origins their own SiteInstances ... in that case we
// should consider updating this function.
return site_info_.requires_origin_keyed_process();
}
void SiteInstanceImpl::IncrementRelatedActiveContentsCount() {
browsing_instance_->IncrementActiveContentsCount();
}
void SiteInstanceImpl::DecrementRelatedActiveContentsCount() {
browsing_instance_->DecrementActiveContentsCount();
}
BrowserContext* SiteInstanceImpl::GetBrowserContext() {
return browsing_instance_->GetBrowserContext();
}
// static
scoped_refptr<SiteInstance> SiteInstance::Create(
BrowserContext* browser_context) {
DCHECK(browser_context);
return SiteInstanceImpl::Create(browser_context);
}
// static
scoped_refptr<SiteInstance> SiteInstance::CreateForURL(
BrowserContext* browser_context,
const GURL& url) {
return SiteInstanceImpl::CreateForURL(browser_context, url);
}
// static
scoped_refptr<SiteInstanceImpl> SiteInstanceImpl::CreateForURL(
BrowserContext* browser_context,
const GURL& url) {
DCHECK(browser_context);
return SiteInstanceImpl::CreateForUrlInfo(
browser_context, UrlInfo(UrlInfoInit(url)), /*is_guest=*/false,
/*is_fenced=*/false);
}
// static
scoped_refptr<SiteInstance> SiteInstance::CreateForGuest(
BrowserContext* browser_context,
const StoragePartitionConfig& partition_config) {
DCHECK(browser_context);
return SiteInstanceImpl::CreateForGuest(browser_context, partition_config);
}
// static
bool SiteInstance::ShouldAssignSiteForURL(const GURL& url) {
return SiteInstanceImpl::ShouldAssignSiteForUrlInfo(
UrlInfo(UrlInfoInit(url)));
}
bool SiteInstanceImpl::IsSameSiteWithURL(const GURL& url) {
return IsSameSiteWithURLInfo(UrlInfo(UrlInfoInit(url)));
}
bool SiteInstanceImpl::IsSameSiteWithURLInfo(const UrlInfo& url_info) {
const GURL& url = url_info.url;
if (IsDefaultSiteInstance()) {
// about:blank URLs should always be considered same site just like they are
// in IsSameSite().
if (url.IsAboutBlank())
return true;
// Consider |url| the same site if it could be handled by the
// default SiteInstance and we don't already have a SiteInstance for
// this URL.
// TODO(acolwell): Remove HasSiteInstance() call once we have a way to
// prevent SiteInstances with no site URL from being used for URLs
// that should be routed to the default SiteInstance.
DCHECK_EQ(site_info_.site_url(), GetDefaultSiteURL());
// We're only interested in knowning if we're same-site.
// WebExposedIsolationInfo should not come into play here so we make them
// match explicitly.
UrlInfo updated_url_info = url_info;
updated_url_info.web_exposed_isolation_info = GetWebExposedIsolationInfo();
auto site_info = SiteInfo::Create(GetIsolationContext(), updated_url_info);
return CanBePlacedInDefaultSiteInstance(GetIsolationContext(), url,
site_info) &&
!browsing_instance_->HasSiteInstance(site_info);
}
return SiteInstanceImpl::IsSameSite(
GetIsolationContext(), UrlInfo(UrlInfoInit(site_info_.site_url())),
url_info, true /* should_compare_effective_urls */);
}
bool SiteInstanceImpl::IsGuest() {
return site_info_.is_guest();
}
bool SiteInstanceImpl::IsJitDisabled() {
return site_info_.is_jit_disabled();
}
bool SiteInstanceImpl::IsPdf() {
return site_info_.is_pdf();
}
const StoragePartitionConfig& SiteInstanceImpl::GetStoragePartitionConfig() {
if (!has_site_) {
// Note: `site_info_` has not been set yet. This is ok as long as the
// StoragePartition of this SiteInstance does not change when `site_info_`
// is actually set. Enable the verification code in SetSiteInfoInternal()
// to verify that the storage partition info does not change.
verify_storage_partition_info_ = true;
}
return site_info_.storage_partition_config();
}
std::string SiteInstanceImpl::GetPartitionDomain(
StoragePartitionImpl* storage_partition) {
auto storage_partition_config = GetStoragePartitionConfig();
// The DCHECK here is to allow the trybots to detect any attempt to introduce
// new code that violates this assumption.
DCHECK_EQ(storage_partition->GetPartitionDomain(),
storage_partition_config.partition_domain());
if (storage_partition->GetPartitionDomain() !=
storage_partition_config.partition_domain()) {
// Trigger crash logging if we encounter a case that violates our
// assumptions.
SCOPED_CRASH_KEY_STRING256("GetPartitionDomain", "domain",
storage_partition->GetPartitionDomain());
SCOPED_CRASH_KEY_STRING256("GetPartitionDomain", "config_domain_key",
storage_partition_config.partition_domain());
base::debug::DumpWithoutCrashing();
// Return the value from the config to preserve legacy behavior until we
// can land a fix.
return storage_partition_config.partition_domain();
}
return storage_partition->GetPartitionDomain();
}
bool SiteInstanceImpl::IsOriginalUrlSameSite(
const UrlInfo& dest_url_info,
bool should_compare_effective_urls) {
if (IsDefaultSiteInstance())
return IsSameSiteWithURLInfo(dest_url_info);
// Here we use an |origin_isolation_request| of kNone (done implicitly in the
// UrlInfoInit constructor) when converting |original_url_| to UrlInfo, since
// (i) the isolation status of this SiteInstance was determined at the time
// |original_url_| was set, and in this case it is |dest_url_info| that is
// currently navigating, and that's where the current isolation request (if
// any) is stored. Whether or not this SiteInstance has origin isolation is a
// separate question, and not what the UrlInfo for |original_url_| is supposed
// to reflect.
return IsSameSite(GetIsolationContext(), UrlInfo(UrlInfoInit(original_url_)),
dest_url_info, should_compare_effective_urls);
}
bool SiteInstanceImpl::IsNavigationSameSite(
const GURL& last_successful_url,
const url::Origin& last_committed_origin,
bool for_outermost_main_frame,
const UrlInfo& dest_url_info) {
// The is_sandboxed flags and unique_sandbox_ids must match for this to be a
// same-site navigation.
if (!SandboxConfigurationsMatch(GetSiteInfo(), dest_url_info))
return false;
const GURL& dest_url = dest_url_info.url;
BrowserContext* browser_context = GetBrowserContext();
bool should_compare_effective_urls = ShouldCompareEffectiveURLs(
browser_context, this, for_outermost_main_frame, dest_url);
// If IsSuitableForUrlInfo finds a process type mismatch, return false
// even if |dest_url| is same-site. (The URL may have been installed as an
// app since the last time we visited it.)
//
// This check must be skipped for certain same-site navigations from a hosted
// app to non-hosted app, and vice versa, to keep them in the same process
// due to scripting requirements. Otherwise, this would return false due to
// a process privilege level mismatch.
bool should_check_for_wrong_process =
!IsNavigationAllowedToStayInSameProcessDueToEffectiveURLs(
browser_context, for_outermost_main_frame, dest_url);
if (should_check_for_wrong_process && !IsSuitableForUrlInfo(dest_url_info))
return false;
// If we don't have a last successful URL, we can't trust the origin or URL
// stored on the frame, so we fall back to the SiteInstance URL. This case
// matters for newly created frames which haven't committed a navigation yet,
// as well as for net errors. Note that we use the SiteInstance's
// original_url() and not the site URL, so that we can do this comparison
// without the effective URL resolution if needed.
if (last_successful_url.is_empty())
return IsOriginalUrlSameSite(dest_url_info, should_compare_effective_urls);
// In the common case, we use the last successful URL. Thus, we compare
// against the last successful commit when deciding whether to swap this time.
// We convert |last_successful_url| to UrlInfo with |origin_isolation_request|
// set to kNone (done implicitly in the UrlInfoInit constructor) since it
// isn't currently navigating.
if (IsSameSite(GetIsolationContext(),
UrlInfo(UrlInfoInit(last_successful_url)), dest_url_info,
should_compare_effective_urls)) {
return true;
}
// It is possible that last_successful_url was a nonstandard scheme (for
// example, "about:blank"). If so, examine the last committed origin to
// determine the site.
// Similar to above, convert |last_committed_origin| to UrlInfo with
// |origin_isolation_request| set to kNone: this is done implicitly in the
// UrlInfoInit constructor.
if (!last_committed_origin.opaque() &&
IsSameSite(GetIsolationContext(),
UrlInfo(UrlInfoInit(GURL(last_committed_origin.Serialize()))),
dest_url_info, should_compare_effective_urls)) {
return true;
}
// If the last successful URL was "about:blank" with a unique origin (which
// implies that it was a browser-initiated navigation to "about:blank"), none
// of the cases above apply, but we should still allow a scenario like
// foo.com -> about:blank -> foo.com to be treated as same-site, as some
// tests rely on that behavior. To accomplish this, compare |dest_url|
// against the site URL.
if (last_successful_url.IsAboutBlank() && last_committed_origin.opaque() &&
IsOriginalUrlSameSite(dest_url_info, should_compare_effective_urls)) {
return true;
}
// Not same-site.
return false;
}
bool SiteInstanceImpl::IsNavigationAllowedToStayInSameProcessDueToEffectiveURLs(
BrowserContext* browser_context,
bool for_outermost_main_frame,
const GURL& dest_url) {
if (ShouldCompareEffectiveURLs(browser_context, this,
for_outermost_main_frame, dest_url)) {
return false;
}
bool src_has_effective_url = !IsDefaultSiteInstance() &&
HasEffectiveURL(browser_context, original_url());
if (src_has_effective_url)
return true;
return HasEffectiveURL(browser_context, dest_url);
}
// static
bool SiteInstanceImpl::IsSameSite(const IsolationContext& isolation_context,
const UrlInfo& real_src_url_info,
const UrlInfo& real_dest_url_info,
bool should_compare_effective_urls) {
const GURL& real_src_url = real_src_url_info.url;
const GURL& real_dest_url = real_dest_url_info.url;
DCHECK_CURRENTLY_ON(BrowserThread::UI);
BrowserContext* browser_context =
isolation_context.browser_or_resource_context().ToBrowserContext();
DCHECK(browser_context);
DCHECK_NE(real_src_url, GetDefaultSiteURL());
GURL src_url =
should_compare_effective_urls
? SiteInstanceImpl::GetEffectiveURL(browser_context, real_src_url)
: real_src_url;
GURL dest_url =
should_compare_effective_urls
? SiteInstanceImpl::GetEffectiveURL(browser_context, real_dest_url)
: real_dest_url;
// We infer web site boundaries based on the registered domain name of the
// top-level page and the scheme. We do not pay attention to the port if
// one is present, because pages served from different ports can still
// access each other if they change their document.domain variable.
// Some special URLs will match the site instance of any other URL. This is
// done before checking both of them for validity, since we want these URLs
// to have the same site instance as even an invalid one.
if (blink::IsRendererDebugURL(src_url) || blink::IsRendererDebugURL(dest_url))
return true;
// If either URL is invalid, they aren't part of the same site.
if (!src_url.is_valid() || !dest_url.is_valid())
return false;
// To be same-site they must have the same `is_sandbox` flag.
if (real_src_url_info.is_sandboxed != real_dest_url_info.is_sandboxed)
return false;
// If the destination url is just a blank page, we treat them as part of the
// same site.
if (dest_url.IsAboutBlank())
return true;
// If the source and destination URLs are equal excluding the hash, they have
// the same site. This matters for file URLs, where SameDomainOrHost() would
// otherwise return false below.
if (src_url.EqualsIgnoringRef(dest_url))
return true;
url::Origin src_origin = url::Origin::Create(src_url);
url::Origin dest_origin = url::Origin::Create(dest_url);
// If the schemes differ, they aren't part of the same site.
if (src_origin.scheme() != dest_origin.scheme())
return false;
// Rely on an origin comparison if StrictOriginIsolation is enabled for all
// URLs, or if we're comparing against a sandboxed iframe in a per-origin
// mode. Due to an earlier check, at this point
// `real_src_url_info.is_sandboxed` and `real_dest_url_info.is_sandboxed` are
// known to have the same value.
if (SiteIsolationPolicy::IsStrictOriginIsolationEnabled() ||
(real_src_url_info.is_sandboxed &&
blink::features::kIsolateSandboxedIframesGroupingParam.Get() ==
blink::features::IsolateSandboxedIframesGrouping::kPerOrigin)) {
return src_origin == dest_origin;
}
if (!net::registry_controlled_domains::SameDomainOrHost(
src_origin, dest_origin,
net::registry_controlled_domains::INCLUDE_PRIVATE_REGISTRIES)) {
return false;
}
// If the sites are the same, check isolated origins. If either URL matches
// an isolated origin, compare origins rather than sites. As an optimization
// to avoid unneeded isolated origin lookups, shortcut this check if the two
// origins are the same.
if (src_origin == dest_origin)
return true;
auto* policy = ChildProcessSecurityPolicyImpl::GetInstance();
url::Origin src_isolated_origin;
url::Origin dest_isolated_origin;
bool src_origin_is_isolated = policy->GetMatchingProcessIsolatedOrigin(
isolation_context, src_origin,
real_src_url_info.requests_origin_keyed_process(), &src_isolated_origin);
bool dest_origin_is_isolated = policy->GetMatchingProcessIsolatedOrigin(
isolation_context, dest_origin,
real_dest_url_info.requests_origin_keyed_process(),
&dest_isolated_origin);
if (src_origin_is_isolated || dest_origin_is_isolated) {
// Compare most specific matching origins to ensure that a subdomain of an
// isolated origin (e.g., https://subdomain.isolated.foo.com) also matches
// the isolated origin's site URL (e.g., https://isolated.foo.com).
return src_isolated_origin == dest_isolated_origin;
}
return true;
}
bool SiteInstanceImpl::DoesSiteInfoForURLMatch(const UrlInfo& url_info) {
// We want to compare this SiteInstance's SiteInfo to the SiteInfo that would
// be generated by the passed in UrlInfo. For them to match, the
// WebExposedIsolationInfo must be compatible.
if (!WebExposedIsolationInfo::AreCompatible(
url_info.web_exposed_isolation_info, GetWebExposedIsolationInfo())) {
return false;
}
// If the passed in UrlInfo has a null WebExposedIsolationInfo, meaning that
// it is compatible with any isolation state, we reuse the isolation state of
// this SiteInstance's SiteInfo so the member comparison of SiteInfos will
// match.
UrlInfo updated_url_info = url_info;
updated_url_info.web_exposed_isolation_info =
site_info_.web_exposed_isolation_info();
auto site_info = SiteInfo::Create(GetIsolationContext(), updated_url_info);
if (kCreateForURLAllowsDefaultSiteInstance &&
CanBePlacedInDefaultSiteInstance(GetIsolationContext(), url_info.url,
site_info)) {
site_info = SiteInfo::CreateForDefaultSiteInstance(
GetIsolationContext(), site_info.storage_partition_config(),
GetWebExposedIsolationInfo());
}
return site_info_.IsExactMatch(site_info);
}
void SiteInstanceImpl::RegisterAsDefaultOriginIsolation(
const url::Origin& previously_visited_origin) {
auto* policy = ChildProcessSecurityPolicyImpl::GetInstance();
policy->AddDefaultIsolatedOriginIfNeeded(
GetIsolationContext(), previously_visited_origin,
true /* is_global_walk_or_frame_removal */);
}
// static
bool SiteInstanceImpl::CanBePlacedInDefaultSiteInstance(
const IsolationContext& isolation_context,
const GURL& url,
const SiteInfo& site_info) {
DCHECK_CURRENTLY_ON(BrowserThread::UI);
if (!base::FeatureList::IsEnabled(
features::kProcessSharingWithDefaultSiteInstances)) {
return false;
}
// Exclude "file://" URLs from the default SiteInstance to prevent the
// default SiteInstance process from accumulating file access grants that
// could be exploited by other non-isolated sites.
if (url.SchemeIs(url::kFileScheme))
return false;
// Don't use the default SiteInstance when
// kProcessSharingWithStrictSiteInstances is enabled because we want each
// site to have its own SiteInstance object and logic elsewhere ensures
// that those SiteInstances share a process.
if (base::FeatureList::IsEnabled(
features::kProcessSharingWithStrictSiteInstances)) {
return false;
}
// Don't use the default SiteInstance when SiteInstance doesn't assign a
// site URL for |url|, since in that case the SiteInstance should remain
// unused, and a subsequent navigation should always be able to reuse it,
// whether or not it's to a site requiring a dedicated process or to a site
// that will use the default SiteInstance.
if (!ShouldAssignSiteForURL(url))
return false;
// Allow the default SiteInstance to be used for sites that don't need to be
// isolated in their own process.
return !site_info.RequiresDedicatedProcess(isolation_context);
}
// static
GURL SiteInstanceImpl::GetEffectiveURL(BrowserContext* browser_context,
const GURL& url) {
DCHECK(browser_context);
return GetContentClient()->browser()->GetEffectiveURL(browser_context, url);
}
// static
bool SiteInstanceImpl::HasEffectiveURL(BrowserContext* browser_context,
const GURL& url) {
return GetEffectiveURL(browser_context, url) != url;
}
void SiteInstanceImpl::LockProcessIfNeeded() {
RenderProcessHost* process = site_instance_group_->process();
ChildProcessSecurityPolicyImpl* policy =
ChildProcessSecurityPolicyImpl::GetInstance();
ProcessLock process_lock = process->GetProcessLock();
StoragePartitionImpl* storage_partition =
static_cast<StoragePartitionImpl*>(process->GetStoragePartition());
if (!has_site_) {
CHECK(!process_lock.is_locked_to_site())
<< "A process that's already locked to " << process_lock.ToString()
<< " cannot be updated to a more permissive lock";
// Update the process lock state to signal that the process has been
// associated with a SiteInstance that is not locked to a site yet. Note
// that even if the process lock is already set to a lock that allows any
// site, we still need to notify ChildProcessSecurityPolicy about the
// current SiteInstance's IsolationContext, so that the corresponding
// BrowsingInstance can be associated with |process_|. See
// https://crbug.com/1135539.
if (process_lock.is_invalid()) {
auto new_process_lock = ProcessLock::CreateAllowAnySite(
storage_partition->GetConfig(), GetWebExposedIsolationInfo());
process->SetProcessLock(GetIsolationContext(), new_process_lock);
} else {
CHECK(process_lock.allows_any_site())
<< "Unexpected process lock " << process_lock.ToString();
policy->IncludeIsolationContext(process->GetID(), GetIsolationContext());
}
return;
}
DCHECK(HasSite());
DCHECK_EQ(storage_partition->GetConfig(),
site_info_.storage_partition_config());
if (site_info_.ShouldLockProcessToSite(GetIsolationContext())) {
ProcessLock lock_to_set = ProcessLock::FromSiteInfo(GetSiteInfo());
if (!process_lock.is_locked_to_site()) {
// TODO(nick): When all sites are isolated, this operation provides
// strong protection. If only some sites are isolated, we need
// additional logic to prevent the non-isolated sites from requesting
// resources for isolated sites. https://crbug.com/509125
TRACE_EVENT2("navigation", "RenderProcessHost::SetProcessLock", "site id",
id_.value(), "lock", lock_to_set.ToString());
process->SetProcessLock(GetIsolationContext(), lock_to_set);
} else if (process_lock != lock_to_set) {
// We should never attempt to reassign a different origin lock to a
// process.
base::debug::SetCrashKeyString(bad_message::GetRequestedSiteInfoKey(),
site_info_.GetDebugString());
policy->LogKilledProcessOriginLock(process->GetID());
CHECK(false) << "Trying to lock a process to " << lock_to_set.ToString()
<< " but the process is already locked to "
<< process_lock.ToString();
} else {
// Process already has the right origin lock assigned. This case will
// happen for commits to |site_info_| after the first one.
}
} else {
if (process_lock.is_locked_to_site()) {
// The site that we're committing doesn't require a dedicated
// process, but it has been put in a process for a site that does.
base::debug::SetCrashKeyString(bad_message::GetRequestedSiteInfoKey(),
site_info_.GetDebugString());
policy->LogKilledProcessOriginLock(process->GetID());
CHECK(false) << "Trying to commit non-isolated site " << site_info_
<< " in process locked to " << process_lock.ToString();
} else if (process_lock.is_invalid()) {
// Update the process lock state to signal that the process has been
// associated with a SiteInstance that is not locked to a site yet.
auto new_process_lock = ProcessLock::CreateAllowAnySite(
storage_partition->GetConfig(), GetWebExposedIsolationInfo());
process->SetProcessLock(GetIsolationContext(), new_process_lock);
} else {
CHECK(process_lock.allows_any_site())
<< "Unexpected process lock " << process_lock.ToString();
}
}
// From now on, this process should be considered "tainted" for future
// process reuse decisions:
// (1) If |site_info_| required a dedicated process, this SiteInstance's
// process can only host URLs for the same site.
// (2) Even if |site_info_| does not require a dedicated process, this
// SiteInstance's process still cannot be reused to host other sites
// requiring dedicated sites in the future.
// We can get here either when we commit a URL into a SiteInstance that does
// not yet have a site, or when we create a process for a SiteInstance with a
// preassigned site.
process->SetIsUsed();
// Track which isolation contexts use the given process. This lets
// ChildProcessSecurityPolicyImpl (e.g. CanAccessDataForOrigin) determine
// whether a given URL should require a lock or not (a dynamically isolated
// origin may require a lock in some isolation contexts but not in others).
policy->IncludeIsolationContext(process->GetID(), GetIsolationContext());
}
const WebExposedIsolationInfo& SiteInstanceImpl::GetWebExposedIsolationInfo()
const {
return browsing_instance_->web_exposed_isolation_info();
}
bool SiteInstanceImpl::IsCrossOriginIsolated() const {
return GetWebExposedIsolationInfo().is_isolated();
}
const absl::optional<url::Origin>& SiteInstanceImpl::GetCommonCoopOrigin()
const {
return browsing_instance_->common_coop_origin();
}
// static
void SiteInstance::StartIsolatingSite(
BrowserContext* context,
const GURL& url,
ChildProcessSecurityPolicy::IsolatedOriginSource source,
bool should_persist) {
if (!SiteIsolationPolicy::AreDynamicIsolatedOriginsEnabled())
return;
// Ignore attempts to isolate origins that are not supported. Do this here
// instead of relying on AddFutureIsolatedOrigins()'s internal validation, to
// avoid the runtime warning generated by the latter.
url::Origin origin(url::Origin::Create(url));
if (!IsolatedOriginUtil::IsValidIsolatedOrigin(origin))
return;
// Convert |url| to a site, to avoid breaking document.domain. Note that
// this doesn't use effective URL resolution or other special cases from
// GetSiteForURL() and simply converts |origin| to a scheme and eTLD+1.
GURL site(SiteInfo::GetSiteForOrigin(origin));
ChildProcessSecurityPolicyImpl* policy =
ChildProcessSecurityPolicyImpl::GetInstance();
url::Origin site_origin(url::Origin::Create(site));
policy->AddFutureIsolatedOrigins({site_origin}, source, context);
// This function currently assumes the new isolated site should persist
// across restarts, so ask the embedder to save it, excluding off-the-record
// profiles.
if (!context->IsOffTheRecord() && should_persist) {
GetContentClient()->browser()->PersistIsolatedOrigin(context, site_origin,
source);
}
}
void SiteInstanceImpl::WriteIntoTrace(
perfetto::TracedProto<perfetto::protos::pbzero::SiteInstance> proto) {
proto->set_site_instance_id(GetId().value());
proto->set_browsing_instance_id(GetBrowsingInstanceId().value());
proto->set_is_default(IsDefaultSiteInstance());
proto->set_has_process(HasProcess());
proto->set_related_active_contents_count(GetRelatedActiveContentsCount());
proto.Set(TraceProto::kSiteInstanceGroup, group());
if (group()) {
proto->set_active_rfh_count(site_instance_group_->active_frame_count());
}
perfetto::TracedDictionary dict = std::move(proto).AddDebugAnnotations();
dict.Add("site_info", site_info_);
}
int SiteInstanceImpl::EstimateOriginAgentClusterOverheadForMetrics() {
return browsing_instance_->EstimateOriginAgentClusterOverhead();
}
scoped_refptr<SiteInstanceImpl>
SiteInstanceImpl::GetCompatibleSandboxedSiteInstance(
const UrlInfo& url_info,
const url::Origin& parent_origin) {
DCHECK(!IsDefaultSiteInstance());
DCHECK(has_site_);
DCHECK(!GetSiteInfo().is_sandboxed());
DCHECK(url_info.url.IsAboutSrcdoc());
UrlInfo sandboxed_url_info = url_info;
// Since the input `url_info` has a srcdoc url, using the url as-is will
// result in a SiteInfo that's not very specific, so we need something more
// meaningful. Ideally we'd use the UrlInfo used to load the parent, but we
// don't have that anymore, so we use the parent's origin which should be
// close enough. We use GetTupleOrPrecursorTupleIfOpaque in case
// `parent_origin` is opaque.
sandboxed_url_info.url =
parent_origin.GetTupleOrPrecursorTupleIfOpaque().GetURL();
// The `url_info` should already have its is_sandboxed flag set if we're here.
DCHECK(sandboxed_url_info.is_sandboxed);
DCHECK(!sandboxed_url_info.origin);
// At this point assume all other fields in the input `url_info` are correct.
auto sandboxed_site_info =
SiteInfo::Create(GetIsolationContext(), sandboxed_url_info);
auto result =
browsing_instance_->GetSiteInstanceForSiteInfo(sandboxed_site_info);
result->original_url_ = original_url_;
return result;
}
RenderProcessHost* SiteInstanceImpl::GetDefaultProcessForBrowsingInstance() {
if (SiteInstanceImpl* default_instance =
browsing_instance_->default_site_instance()) {
DCHECK(base::FeatureList::IsEnabled(
features::kProcessSharingWithDefaultSiteInstances));
return default_instance->HasProcess() ? default_instance->GetProcess()
: nullptr;
}
if (browsing_instance_->site_instance_group_manager().default_process()) {
DCHECK(base::FeatureList::IsEnabled(
features::kProcessSharingWithStrictSiteInstances));
return browsing_instance_->site_instance_group_manager().default_process();
}
return nullptr;
}
bool SiteInstanceImpl::IsCoopRelatedSiteInstance(
const SiteInstanceImpl* instance) const {
return instance->browsing_instance_->GetCoopRelatedGroupId() ==
browsing_instance_->GetCoopRelatedGroupId();
}
void SiteInstanceImpl::SetProcessForTesting(RenderProcessHost* process) {
SetProcessInternal(process);
}
} // namespace content