// Copyright (c) 2012 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. #ifndef CONTENT_BROWSER_SITE_INSTANCE_IMPL_H_ #define CONTENT_BROWSER_SITE_INSTANCE_IMPL_H_ #include #include #include "base/observer_list.h" #include "content/browser/coop_coep_cross_origin_isolated_info.h" #include "content/browser/isolation_context.h" #include "content/browser/renderer_host/render_process_host_impl.h" #include "content/common/content_export.h" #include "content/public/browser/render_process_host_observer.h" #include "content/public/browser/site_instance.h" #include "url/gurl.h" #include "url/origin.h" namespace content { class AgentSchedulingGroupHost; class BrowsingInstance; class ProcessLock; class RenderProcessHostFactory; class StoragePartitionImpl; // SiteInfo represents the principal of a SiteInstance. All documents and // workers within a SiteInstance are considered part of this principal and will // share a renderer process. Any two documents within the same browsing context // group (i.e., BrowsingInstance) that are allowed to script each other *must* // have the same SiteInfo principal, so that they end up in the same renderer // process. // // As a result, SiteInfo is primarily defined in terms of "site URL," which is // often the scheme plus the eTLD+1 of a URL. This allows same-site URLs to // always share a process even when document.domain is modified. However, some // site URLs can be finer grained (e.g., origins) or coarser grained (e.g., // file://). See |site_url()| for more considerations. // // In the future, we may add more information to SiteInfo for cases where the // site URL is not sufficient to identify which process a document belongs in. // For example, origin isolation (https://crbug.com/1067389) will introduce a // 'keying' bit ('site' or 'origin') to avoid an ambiguity between sites and // origins, and it will be possible for two SiteInstances with different keying // values to have the same site URL. It is important that any extra members of // SiteInfo do not cause two documents that can script each other to end up in // different SiteInfos and thus different processes. // // TODO(wjmaclean): This should eventually move to // content/public/browser/site_info.h. class CONTENT_EXPORT SiteInfo { public: static SiteInfo CreateForErrorPage(); static SiteInfo CreateForDefaultSiteInstance( const CoopCoepCrossOriginIsolatedInfo& cross_origin_isolated_info); static SiteInfo CreateForGuest(const GURL& guest_site_url); // The SiteInfo constructor should take in all values needed for comparing two // SiteInfos, to help ensure all creation sites are updated accordingly when // new values are added. The private function MakeTie() should be updated // accordingly. SiteInfo(const GURL& site_url, const GURL& process_lock_url, bool is_origin_keyed, const CoopCoepCrossOriginIsolatedInfo& cross_origin_isolated_info, bool is_guest = false); SiteInfo(); SiteInfo(const SiteInfo& rhs); ~SiteInfo(); // Returns the site URL associated with all of the documents and workers in // this principal, as described above. // // NOTE: In most cases, code should be performing checks against the origin // returned by |RenderFrameHost::GetLastCommittedOrigin()|. In contrast, the // GURL returned by |site_url()| should not be considered authoritative // because: // - A SiteInstance can host pages from multiple sites if "site per process" // is not enabled and the SiteInstance isn't hosting pages that require // process isolation (e.g. WebUI or extensions). // - Even with site per process, the site URL is not an origin: while often // derived from the origin, it only contains the scheme and the eTLD + 1, // i.e. an origin with the host "deeply.nested.subdomain.example.com" // corresponds to a site URL with the host "example.com". // - When origin isolation is in use, there may be multiple SiteInstance with // the same site_url() but that differ in other properties. const GURL& site_url() const { return site_url_; } // Returns the URL which should be used in a SetProcessLock call for this // SiteInfo's process. This is the same as |site_url_| except for cases // involving effective URLs, such as hosted apps. In those cases, this URL is // a site URL that is computed without the use of effective URLs. // // NOTE: This URL is currently set even in cases where this SiteInstance's // process is *not* going to be locked to it. Callers should be careful // to consider this case when comparing lock URLs; // ShouldLockProcessToSite() may be used to determine whether the // process lock will actually be used. // // TODO(alexmos): See if we can clean this up and not set |process_lock_url_| // if the SiteInstance's process isn't going to be locked. const GURL& process_lock_url() const { return process_lock_url_; } // Returns whether this SiteInfo is specific to an origin rather than a site, // such as due to opt-in origin isolation. This resolves an ambiguity of // whether a process with a lock_url() like "https://foo.example" is allowed // to include "https://sub.foo.example" or not. In opt-in isolation, it is // possible for example.com to be isolated, and sub.example.com not be // isolated. In contrast, if command-line isolation is used to isolate // example.com, then sub.example.com is also (automatically) isolated. // Also note that opt-in isolated origins will include ports (if non-default) // in their site urls. bool is_origin_keyed() const { return is_origin_keyed_; } // Returns the cross-origin isolation status of pages hosted by the // SiteInstance. This is deduced from the COOP and COEP headers and has // implications for which pages can live in this SiteInstance as well as // process allocation decisions. const CoopCoepCrossOriginIsolatedInfo& coop_coep_cross_origin_isolated_info() const { return coop_coep_cross_origin_isolated_info_; } bool is_guest() const { return is_guest_; } // Returns true if the site_url() is empty. bool is_empty() const { return site_url().possibly_invalid_spec().empty(); } SiteInfo& operator=(const SiteInfo& rhs); bool operator==(const SiteInfo& other) const; bool operator!=(const SiteInfo& other) const; // Defined to allow this object to act as a key for std::map and std::set. bool operator<(const SiteInfo& other) const; // Returns a string representation of this SiteInfo principal. std::string GetDebugString() const; // Returns true if pages loaded with this SiteInfo ought to be handled only // by a renderer process isolated from other sites. If --site-per-process is // used, like it is on desktop platforms, then this is true for all sites. In // other site isolation modes, only a subset of sites will require dedicated // processes. bool RequiresDedicatedProcess( const IsolationContext& isolation_context) const; // Returns true if a process for this SiteInfo should be locked to a // ProcessLock whose is_locked_to_site() method returns true. Returning true // here also implies that this SiteInfo requires a dedicated process. However, // the converse does not hold: this might still return false for certain // special cases where a site specific process lock can't be applied even when // this SiteInfo requires a dedicated process (e.g., with // --site-per-process). Examples of those cases include guests, // single-process mode, or extensions where a process is currently allowed to // be reused for different extensions. Most of these special cases should // eventually be removed, and this function should become equivalent to // RequiresDedicatedProcess(). bool ShouldLockProcessToSite(const IsolationContext& isolation_context) const; // Returns whether the process-per-site model is in use (globally or just for // the current site), in which case we should ensure there is only one // RenderProcessHost per site for the entire browser context. bool ShouldUseProcessPerSite(BrowserContext* browser_context) const; private: static auto MakeTie(const SiteInfo& site_info); GURL site_url_; // The URL to use when locking a process to this SiteInstance's site via // SetProcessLock(). This is the same as |site_url_| except for cases // involving effective URLs, such as hosted apps. In those cases, this URL is // a site URL that is computed without the use of effective URLs. GURL process_lock_url_; // Indicates whether this SiteInfo is specific to a single origin, rather than // including all subdomains of that origin. Only used for opt-in origin // isolation. In contrast, the site-level URLs that are typically used in // SiteInfo include subdomains, as do command-line isolated origins. bool is_origin_keyed_ = false; // Indicates the cross-origin isolation status of pages hosted by the // SiteInstance. This is deduced from the COOP and COEP headers and has // implications for which pages can live in this SiteInstance as well as // process allocation decisions. CoopCoepCrossOriginIsolatedInfo coop_coep_cross_origin_isolated_info_ = CoopCoepCrossOriginIsolatedInfo::CreateNonIsolated(); // Indicates this SiteInfo is for a guest. bool is_guest_ = false; }; CONTENT_EXPORT std::ostream& operator<<(std::ostream& out, const SiteInfo& site_info); // This struct is used to package a GURL together with extra state required to // make SiteInstance/process allocation decisions, e.g. whether the url's origin // is requesting isolation as determined by response headers in the // corresponding navigation request. The extra state is generally most relevant // when navigation to the URL is in progress, since once placed into a // SiteInstance, the extra state will be available via SiteInfo. Otherwise, most // callsites requiring a UrlInfo can create with a GURL, specifying false for // |origin_requests_isolation|. Some examples of where passing false for // |origin_requests_isolation| is safe are: // * at DidCommitNavigation time, since at that point the SiteInstance has // already been picked and the navigation can be considered finished, // * before a response is received (the only way to request isolation is via // response headers), and // * outside of a navigation. // // If UrlInfo::origin_requests_isolation is false, that does *not* imply that // the url will not be origin-isolated, and vice versa. The origin isolation // decision involves both response headers and consistency within a // BrowsingInstance, and once we decide on the isolation outcome for an origin, // it won't change for the lifetime of the BrowsingInstance. To check whether // or not a frame is origin-isolated, see SiteInfo::is_origin_keyed() on its // SiteInstance. // // Note: it is not expected that this struct will be exposed in content/public. struct CONTENT_EXPORT UrlInfo { public: UrlInfo() = default; // Needed for inclusion in SiteInstanceDescriptor. UrlInfo(const GURL& url_in, bool origin_requests_isolation_in) : url(url_in), origin_requests_isolation(origin_requests_isolation_in) {} static inline UrlInfo CreateForTesting(const GURL& url_in) { // Used to convert GURL to UrlInfo in tests where opt-in isolation is not // being tested. return UrlInfo(url_in, false); } GURL url; // This flag is only relevant (1) during a navigation request, (2) up to the // point where the origin is placed into a SiteInstance, thus determining the // opt-in isolation status of the origin. Other than these cases, this should // be set to false. bool origin_requests_isolation; }; class CONTENT_EXPORT SiteInstanceImpl final : public SiteInstance, public RenderProcessHostObserver { public: class CONTENT_EXPORT Observer { public: // Called when this SiteInstance transitions to having no active frames, // as measured by active_frame_count(). virtual void ActiveFrameCountIsZero(SiteInstanceImpl* site_instance) {} // Called when the renderer process of this SiteInstance has exited. Note // that GetProcess() still returns the same RenderProcessHost instance. You // can reinitialize it by a call to GetProcess()->Init(). virtual void RenderProcessGone(SiteInstanceImpl* site_instance, const ChildProcessTerminationInfo& info) {} // Called when the RenderProcessHost for this SiteInstance has been // destructed. After this, the underlying `process_` is cleared, and calling // GetProcess() would assign a different RenderProcessHost to this // SiteInstance. virtual void RenderProcessHostDestroyed() {} }; // Methods for creating new SiteInstances. The documentation for these methods // are on the SiteInstance::Create* methods with the same name. static scoped_refptr Create( BrowserContext* browser_context); // |url_info| contains the GURL for which we want to create a SiteInstance, // along with other state relevant to making process allocation decisions. // |cross_origin_isolated_info| is not exposed in content/public. It // sets the BrowsingInstance coop_coep_cross_origin_isolated_info_ property. // Once this property is set it cannot be changed and is used in process // allocation decisions. // TODO(wjmaclean): absorb |coop_coep_cross_origin_info| into UrlInfo. static scoped_refptr CreateForUrlInfo( BrowserContext* browser_context, const UrlInfo& url_info, const CoopCoepCrossOriginIsolatedInfo& cross_origin_isolated_info); static scoped_refptr CreateForGuest( content::BrowserContext* browser_context, const GURL& guest_site_url); // Creates a SiteInstance that will be use for a service worker. // |url| - The script URL for the service worker if |is_guest| is false. // The guest site URL if |is_guest| is true. // |can_reuse_process| - Set to true if the new SiteInstance can use the // same process as the renderer for |url|. // |cross_origin_isolated_info| - Indicates the cross-origin isolation state // of the main script. ServiceWorkers are // considered cross-origin Isolated if their // Cross-Origin-Embedder-Policy header is set // to "same-origin". // |is_guest| - Set to true if the new SiteInstance is for a // guest. static scoped_refptr CreateForServiceWorker( BrowserContext* browser_context, const GURL& url, const CoopCoepCrossOriginIsolatedInfo& cross_origin_isolated_info, bool can_reuse_process = false, bool is_guest = false); // Creates a SiteInstance for |url| like CreateForURL() would except the // instance that is returned has its process_reuse_policy set to // REUSE_PENDING_OR_COMMITTED_SITE and the default SiteInstance will never // be returned. static scoped_refptr CreateReusableInstanceForTesting( BrowserContext* browser_context, const GURL& url); static bool ShouldAssignSiteForURL(const GURL& url); // Use this to get a related SiteInstance during navigations, where UrlInfo // may be requesting opt-in isolation. Outside of navigations, callers just // looking up an existing SiteInstance based on a GURL can use // GetRelatedSiteInstance (overridden from SiteInstance). scoped_refptr GetRelatedSiteInstanceImpl( const UrlInfo& url_info); bool IsSameSiteWithURLInfo(const UrlInfo& url_info); // SiteInstance interface overrides. int32_t GetId() override; int32_t GetBrowsingInstanceId() override; bool HasProcess() override; RenderProcessHost* GetProcess() override; BrowserContext* GetBrowserContext() override; const GURL& GetSiteURL() override; scoped_refptr GetRelatedSiteInstance(const GURL& url) override; bool IsRelatedSiteInstance(const SiteInstance* instance) override; size_t GetRelatedActiveContentsCount() override; bool RequiresDedicatedProcess() override; bool IsSameSiteWithURL(const GURL& url) override; bool IsGuest() override; SiteInstanceProcessAssignment GetLastProcessAssignmentOutcome() override; // This is called every time a renderer process is assigned to a SiteInstance // and is used by the content embedder for collecting metrics. void set_process_assignment(SiteInstanceProcessAssignment assignment) { process_assignment_ = assignment; } // The policy to apply when selecting a RenderProcessHost for the // SiteInstance. If no suitable RenderProcessHost for the SiteInstance exists // according to the policy, and there are processes with unmatched service // workers for the site, the newest process with an unmatched service worker // is reused. If still no RenderProcessHost exists a new RenderProcessHost // will be created unless the process limit has been reached. When the limit // has been reached, the RenderProcessHost reused will be chosen randomly and // not based on the site. enum class ProcessReusePolicy { // In this mode, all instances of the site will be hosted in the same // RenderProcessHost. PROCESS_PER_SITE, // In this mode, the site will be rendered in a RenderProcessHost that is // already in use for the site, either for a pending navigation or a // committed navigation. If multiple such processes exist, ones that have // foreground frames are given priority, and otherwise one is selected // randomly. REUSE_PENDING_OR_COMMITTED_SITE, // In this mode, SiteInstances don't proactively reuse processes. An // existing process with an unmatched service worker for the site is reused // only for navigations, not for service workers. When the process limit has // been reached, a randomly chosen RenderProcessHost is reused as in the // other policies. DEFAULT, }; void set_process_reuse_policy(ProcessReusePolicy policy) { DCHECK(!IsDefaultSiteInstance()); process_reuse_policy_ = policy; } ProcessReusePolicy process_reuse_policy() const { return process_reuse_policy_; } // Returns true if |has_site_| is true and |site_info_| indicates that the // process-per-site model should be used. bool ShouldUseProcessPerSite() const; // Checks if |current_process| can be reused for this SiteInstance, and // sets |process_| to |current_process| if so. void ReuseCurrentProcessIfPossible(RenderProcessHost* current_process); // Whether the SiteInstance is created for a service worker. If this flag // is true, when a new process is created for this SiteInstance or a randomly // chosen existing process is reused because of the process limit, the process // will be tracked as having an unmatched service worker until reused by // another SiteInstance from the same site. bool is_for_service_worker() const { return is_for_service_worker_; } // Returns the URL which was used to set the |site_info_| for this // SiteInstance. May be empty if this SiteInstance does not have a // |site_info_|. const GURL& original_url() { DCHECK(!IsDefaultSiteInstance()); return original_url_; } // This is primarily a helper for RenderFrameHostImpl::IsNavigationSameSite(); // most callers should use that API. // // Returns true if navigating a frame with (|last_successful_url| and // |last_committed_origin|) to |dest_url_info| should stay in the same // SiteInstance to preserve scripting relationships. |dest_url_info| carries // additional state, e.g. if the destination url requests origin isolation. // // |for_main_frame| is set to true if the caller is interested in an // answer for a main frame. This is set to false for subframe navigations. // Note: In some circumstances, like hosted apps, different answers can be // returned if we are navigating a main frame instead of a subframe. bool IsNavigationSameSite(const GURL& last_successful_url, const url::Origin last_committed_origin, bool for_main_frame, const UrlInfo& dest_url_info); // SiteInfo related functions. // Returns the SiteInfo principal identifying all documents and workers within // this SiteInstance. // TODO(wjmaclean): eventually this function will replace const GURL& // GetSiteURL(). const SiteInfo& GetSiteInfo(); // Derives a new SiteInfo based on this SiteInstance's current state, and // the information provided in |url_info|. This function is slightly different // than ComputeSiteInfo() because it takes into account information specific // to this SiteInstance, like whether it is a guest or not, and changes its // behavior accordingly. // |is_related| - Controls the SiteInfo returned for non-guest SiteInstances. // Set to true if the caller wants the SiteInfo for an existing related // SiteInstance associated with |url_info|. This is identical to what you // would get from GetRelatedSiteInstanceImpl(url_info)->GetSiteInfo(). This // may return the SiteInfo for the default SiteInstance so callers must be // prepared to deal with that. If set to false, a SiteInfo created with // ComputeSiteInfo() is returned. // // For guest SiteInstances, |site_info_| is returned because guests are not // allowed to derive new guest SiteInfos. All guest navigations must stay in // the same SiteInstance with the same SiteInfo. SiteInfo DeriveSiteInfo(const UrlInfo& url_info, bool is_related = false); // Returns a ProcessLock that can be used with SetProcessLock to lock a // process to this SiteInstance's SiteInfo. The ProcessLock relies heavily on // the SiteInfo's process_lock_url() for security decisions. const ProcessLock GetProcessLock() const; // Helper function that returns the storage partition domain for this // object. // This is a temporary helper function used to verify that // the partition domain computed using this SiteInstance's site URL matches // the partition domain returned by storage_partition->GetPartitionDomain(). // If there is a mismatch, we call DumpWithoutCrashing() and return the value // computed from the site URL since that is the legacy behavior. // // TODO(acolwell) : Remove this function and update callers to directly call // storage_partition->GetPartitionDomain() once we've verified that this is // safe. std::string GetPartitionDomain(StoragePartitionImpl* storage_partition); // This function returns a SiteInfo with the appropriate site_url and // process_lock_url computed. This function can only be called on the UI // thread since it expects an effective URL. // Note: eventually this function will replace GetSiteForURL(). static SiteInfo ComputeSiteInfo( const IsolationContext& isolation_context, const UrlInfo& url_info, const CoopCoepCrossOriginIsolatedInfo& cross_origin_isolated_info); // Helper method for tests that don't trigger special COOP/COEP // functionality, or test opt-in origin isolation. static SiteInfo ComputeSiteInfoForTesting( const IsolationContext& isolation_context, const GURL& url); // Returns the site for the given UrlInfo, which includes only the scheme and // registered domain. Returns an empty GURL if the URL has no host. // |url| will be resolved to an effective URL (via // ContentBrowserClient::GetEffectiveURL()) before determining the site. // NOTE: This function will soon be removed, and replaced by // ComputeSiteInfo(). New code should use that function instead. static GURL GetSiteForURL(const IsolationContext& isolation_context, const UrlInfo& url_info); // Returns the site of a given |origin|. Unlike GetSiteForURL(), this does // not utilize effective URLs, isolated origins, or other special logic. It // only translates an origin into a site (i.e., scheme and eTLD+1) and is // used internally by GetSiteForURL(). For making process model decisions, // GetSiteForURL() should be used instead. static GURL GetSiteForOrigin(const url::Origin& origin); // Similar to above, but also computes a full SiteInfo (including a // process_lock_url) and returns a ProcessLock. If called from the IO thread, // this will return a ProcessLock that doesn't consider effective URLs. static ProcessLock DetermineProcessLock( const IsolationContext& isolation_context, const UrlInfo& url_info, const CoopCoepCrossOriginIsolatedInfo& cross_origin_isolated_info); // Set the web site that this SiteInstance is rendering pages for. // This includes the scheme and registered domain, but not the port. If the // URL does not have a valid registered domain, then the full hostname is // stored. This method does not convert this instance into a default // SiteInstance, but the BrowsingInstance will call this method with // |url_info| set to GetDefaultSiteURL(), when it is creating its default // SiteInstance. void SetSite(const UrlInfo& url_info); // Similar to SetSite(), but first attempts to convert this object to a // default SiteInstance if |url_info| can be placed inside a default // SiteInstance. If conversion is not possible, then the normal SetSite() // logic is run. void ConvertToDefaultOrSetSite(const UrlInfo& url_info); // Returns whether SetSite() has been called. bool HasSite() const; // Returns whether there is currently a related SiteInstance (registered with // BrowsingInstance) for the given SiteInfo. If so, we should try to avoid // dedicating an unused SiteInstance to it (e.g., in a new tab). bool HasRelatedSiteInstance(const SiteInfo& site_info); // Returns whether this SiteInstance is compatible with and can host the given // |url_info|. If not, the browser should force a SiteInstance swap when // navigating to the URL in |url_info|. bool IsSuitableForUrlInfo(const UrlInfo& url_info); // Increase the number of active frames in this SiteInstance. This is // increased when a frame is created. void IncrementActiveFrameCount(); // Decrease the number of active frames in this SiteInstance. This is // decreased when a frame is destroyed. Decrementing this to zero will notify // observers, and may trigger deletion of proxies. void DecrementActiveFrameCount(); // Get the number of active frames which belong to this SiteInstance. If // there are no active frames left, all frames in this SiteInstance can be // safely discarded. size_t active_frame_count() { return active_frame_count_; } // Increase the number of active WebContentses using this SiteInstance. Note // that, unlike active_frame_count, this does not count pending RFHs. void IncrementRelatedActiveContentsCount(); // Decrease the number of active WebContentses using this SiteInstance. Note // that, unlike active_frame_count, this does not count pending RFHs. void DecrementRelatedActiveContentsCount(); void AddObserver(Observer* observer); void RemoveObserver(Observer* observer); // Whether GetProcess() method (when it needs to find a new process to // associate with the current SiteInstanceImpl) can return a spare process. bool CanAssociateWithSpareProcess(); // Has no effect if the SiteInstanceImpl already has a |process_|. // Otherwise, prevents GetProcess() from associating this SiteInstanceImpl // with the spare RenderProcessHost - instead GetProcess will either need to // create a new, not-yet-initialized/spawned RenderProcessHost or will need to // reuse one of existing RenderProcessHosts. // // See also: // - https://crbug.com/840409. // - WebContents::CreateParams::desired_renderer_state // - SiteInstanceImpl::CanAssociateWithSpareProcess(). void PreventAssociationWithSpareProcess(); // Returns the special site URL used by the default SiteInstance. static const GURL& GetDefaultSiteURL(); // Get the effective URL for the given actual URL. This allows the // ContentBrowserClient to override the SiteInstance's site for certain URLs. // For example, Chrome uses this to replace hosted app URLs with extension // hosts. // Only public so that we can make a consistent process swap decision in // RenderFrameHostManager. static GURL GetEffectiveURL(BrowserContext* browser_context, const GURL& url); // Return an ID of the next BrowsingInstance to be created. This ID is // guaranteed to be higher than any ID of an existing BrowsingInstance. // This is useful when process model decisions need to be scoped only to // future BrowsingInstances. In particular, this can determine the cutoff in // BrowsingInstance IDs when adding a new isolated origin dynamically. static BrowsingInstanceId NextBrowsingInstanceId(); // Return the IsolationContext associated with this SiteInstance. This // specifies context for making process model decisions, such as information // about the current BrowsingInstance. const IsolationContext& GetIsolationContext(); // If this SiteInstance doesn't require a dedicated process, this will return // the BrowsingInstance's default process. RenderProcessHost* GetDefaultProcessIfUsable(); // Returns true if this object was constructed as a default site instance. bool IsDefaultSiteInstance() const; // Returns true if |site_url| is a site url that the BrowsingInstance has // associated with its default SiteInstance. bool IsSiteInDefaultSiteInstance(const GURL& site_url) const; // Returns true if the SiteInfo for |url_info| matches the SiteInfo for this // instance (i.e. GetSiteInfo()). Otherwise returns false. bool DoesSiteInfoForURLMatch(const UrlInfo& url_info); // Adds |origin| as a non-isolated origin within this BrowsingInstance due to // an existing instance at the time of opt-in, so that future instances of it // here won't be origin isolated. void PreventOptInOriginIsolation( const url::Origin& previously_visited_origin); // Returns the current AgentSchedulingGroupHost this SiteInstance is // associated with. Since the AgentSchedulingGroupHost *must* be assigned (and // cleared) together with the RenderProcessHost, calling this method when no // AgentSchedulingGroupHost is set will trigger the creation of a new // RenderProcessHost (with a new ID). AgentSchedulingGroupHost& GetAgentSchedulingGroup(); // Returns the cross-origin isolation status of the BrowsingInstance this // SiteInstance is part of. const CoopCoepCrossOriginIsolatedInfo& GetCoopCoepCrossOriginIsolatedInfo() const; // Simple helper function that returns the is_isolated property of the // CoopCoepCrossOriginIsolatedInfo of this BrowsingInstance. bool IsCoopCoepCrossOriginIsolated() const; private: friend class BrowsingInstance; friend class SiteInstanceTestBrowserClient; FRIEND_TEST_ALL_PREFIXES(SiteInstanceTest, ProcessLockDoesNotUseEffectiveURL); // Friend tests that need direct access to IsSameSite(). friend class SiteInstanceTest; // Create a new SiteInstance. Only BrowsingInstance should call this // directly; clients should use Create() or GetRelatedSiteInstance() instead. explicit SiteInstanceImpl(BrowsingInstance* browsing_instance); ~SiteInstanceImpl() override; // RenderProcessHostObserver implementation. void RenderProcessHostDestroyed(RenderProcessHost* host) override; void RenderProcessExited(RenderProcessHost* host, const ChildProcessTerminationInfo& info) override; // Used to restrict a process' origin access rights. This method gets called // when a process gets assigned to this SiteInstance and when the // SiteInfo is explicitly set. If the SiteInfo hasn't been set yet and // the current process lock is invalid, then this method sets the process // to an "allow_any_site" lock. If the SiteInfo gets set to something that // restricts access to a specific site, then the lock will be upgraded to a // "lock_to_site" lock. void LockProcessIfNeeded(); // Returns the URL to which a process should be locked for the given UrlInfo. // This is computed similarly to the site URL (see GetSiteForURL), but // without resolving effective URLs. static GURL DetermineProcessLockURL(const IsolationContext& isolation_context, const UrlInfo& url_info); // If kProcessSharingWithStrictSiteInstances is enabled, this will check // whether both a site and a process have been assigned to this SiteInstance, // and if this doesn't require a dedicated process, will offer process_ to // BrowsingInstance as the default process for SiteInstances that don't need // a dedicated process. void MaybeSetBrowsingInstanceDefaultProcess(); // Sets the SiteInfo and other fields so that this instance becomes a // default SiteInstance. void SetSiteInfoToDefault(); // Sets |site_info_| with |site_info| and registers this object with // |browsing_instance_|. SetSite() calls this method to set the site and lock // for a user provided URL. This method should only be called by code that // need to set the site and lock directly without any "url to site URL" // transformation. void SetSiteInfoInternal(const SiteInfo& site_info); // Helper method to set the process of this SiteInstance, only in cases // where it is safe. It is not generally safe to change the process of a // SiteInstance, unless the RenderProcessHost itself is entirely destroyed and // a new one later replaces it. void SetProcessInternal(RenderProcessHost* process); // Returns true if |original_url()| is the same site as // |dest_url_info| or this object is a default SiteInstance and can be // considered the same site as |dest_url_info|. bool IsOriginalUrlSameSite(const UrlInfo& dest_url_info, bool should_compare_effective_urls); // Return whether both UrlInfos must share a process to preserve script // relationships. The decision is based on a variety of factors such as // the registered domain of the URLs (google.com, bbc.co.uk), the scheme // (https, http), and isolated origins. Note that if the destination is a // blank page, we consider that to be part of the same web site for the // purposes for process assignment. |should_compare_effective_urls| allows // comparing URLs without converting them to effective URLs first. This is // useful for avoiding OOPIFs when otherwise same-site URLs may look // cross-site via their effective URLs. // Note: This method is private because it is an internal detail of this class // and there is subtlety around how it can be called because of hosted // apps. Most code outside this class should call // RenderFrameHostImpl::IsNavigationSameSite() instead. static bool IsSameSite(const IsolationContext& isolation_context, const UrlInfo& src_url_info, const UrlInfo& dest_url_info, bool should_compare_effective_urls); // Returns the site for the given UrlInfo, which includes only the scheme and // registered domain. Returns an empty GURL if the UrlInfo has no host. // |should_use_effective_urls| specifies whether to resolve |url| to an // effective URL (via ContentBrowserClient::GetEffectiveURL()) before // determining the site. static GURL GetSiteForURLInternal(const IsolationContext& isolation_context, const UrlInfo& url, bool should_use_effective_urls); // True if |url| resolves to an effective URL that is different from |url|. // See GetEffectiveURL(). This will be true for hosted apps as well as NTP // URLs. static bool HasEffectiveURL(BrowserContext* browser_context, const GURL& url); // Returns true if |url| and its |site_url| can be placed inside a default // SiteInstance. // // Note: |url| and |site_info| must be consistent with each other. In contexts // where the caller only has |url| it can use // SiteInstanceImpl::ComputeSiteInfo() to generate |site_info|. This call is // intentionally not set as a default value to encourage the caller to reuse // a SiteInfo computation if they already have one. static bool CanBePlacedInDefaultSiteInstance( const IsolationContext& isolation_context, const GURL& url, const SiteInfo& site_info); // An object used to construct RenderProcessHosts. static const RenderProcessHostFactory* g_render_process_host_factory_; // The next available SiteInstance ID. static int32_t next_site_instance_id_; // A unique ID for this SiteInstance. int32_t id_; // The number of active frames in this SiteInstance. size_t active_frame_count_; // BrowsingInstance to which this SiteInstance belongs. scoped_refptr browsing_instance_; // Current RenderProcessHost that is rendering pages for this SiteInstance, // and AgentSchedulingGroupHost (within the process) this SiteInstance belongs // to. Since AgentSchedulingGroupHost is associated with a specific // RenderProcessHost, these *must be* changed together to avoid UAF! // The |process_| pointer (and hence the |agent_scheduling_group_| pointer as // well) will only change once the RenderProcessHost is destructed. They will // still remain the same even if the process crashes, since in that scenario // the RenderProcessHost remains the same. RenderProcessHost* process_; AgentSchedulingGroupHost* agent_scheduling_group_; // Describes the desired behavior when GetProcess() method needs to find a new // process to associate with the current SiteInstanceImpl. If |false|, then // prevents the spare RenderProcessHost from being taken and stored in // |process_|. bool can_associate_with_spare_process_; // The SiteInfo that this SiteInstance is rendering pages for. SiteInfo site_info_; // Whether SetSite has been called. bool has_site_; // The URL which was used to set the |site_info_| for this SiteInstance. GURL original_url_; // The ProcessReusePolicy to use when creating a RenderProcessHost for this // SiteInstance. ProcessReusePolicy process_reuse_policy_; // Whether the SiteInstance was created for a service worker. bool is_for_service_worker_; // How |this| was last assigned to a renderer process. SiteInstanceProcessAssignment process_assignment_; base::ObserverList::Unchecked observers_; DISALLOW_COPY_AND_ASSIGN(SiteInstanceImpl); }; } // namespace content #endif // CONTENT_BROWSER_SITE_INSTANCE_IMPL_H_