/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "nsISupports.idl" #include "nsIPrincipal.idl" interface nsIURI; interface nsIChannel; interface nsIClassInfo; interface nsIDocShell; interface nsIDomainPolicy; interface nsILoadContext; %{ C++ #include "jspubtd.h" namespace mozilla { namespace dom { class DomainPolicyClone; } } %} [ptr] native JSContextPtr(JSContext); [ptr] native JSObjectPtr(JSObject); [ptr] native DomainPolicyClonePtr(mozilla::dom::DomainPolicyClone); [scriptable, uuid(51daad87-3a0c-44cc-b620-7356801c9022)] interface nsIScriptSecurityManager : nsISupports { /** * For each of these hooks returning NS_OK means 'let the action continue'. * Returning an error code means 'veto the action'. XPConnect will return * false to the js engine if the action is vetoed. The implementor of this * interface is responsible for setting a JS exception into the JSContext * if that is appropriate. */ [noscript] void canCreateWrapper(in JSContextPtr aJSContext, in nsIIDRef aIID, in nsISupports aObj, in nsIClassInfo aClassInfo); [noscript] void canCreateInstance(in JSContextPtr aJSContext, in nsCIDRef aCID); [noscript] void canGetService(in JSContextPtr aJSContext, in nsCIDRef aCID); /** * Check that the script currently running in context "cx" can load "uri". * * Will return error code NS_ERROR_DOM_BAD_URI if the load request * should be denied. * * @param cx the JSContext of the script causing the load * @param uri the URI that is being loaded */ [noscript] void checkLoadURIFromScript(in JSContextPtr cx, in nsIURI uri); /** * Default CheckLoadURI permissions */ // Default permissions const unsigned long STANDARD = 0; // Indicate that the load is a load of a new document that is not // user-triggered. Here "user-triggered" could be broadly interpreted -- // for example, scripted sets of window.location.href might be treated as // "user-triggered" in some circumstances. A typical example of a load // that is not user-triggered is a refresh load. If this flag is // set, the load will be denied if the originating principal's URI has the // nsIProtocolHandler::URI_FORBIDS_AUTOMATIC_DOCUMENT_REPLACEMENT flag set. const unsigned long LOAD_IS_AUTOMATIC_DOCUMENT_REPLACEMENT = 1 << 0; // Allow the loading of chrome URLs by non-chrome URLs. Use with great // care! This will actually allow the loading of any URI which has the // nsIProtocolHandler::URI_IS_UI_RESOURCE protocol handler flag set. Ths // probably means at least chrome: and resource:. const unsigned long ALLOW_CHROME = 1 << 1; // Don't allow URLs which would inherit the caller's principal (such as // javascript: or data:) to load. See // nsIProtocolHandler::URI_INHERITS_SECURITY_CONTEXT. const unsigned long DISALLOW_INHERIT_PRINCIPAL = 1 << 2; // Alias for DISALLOW_INHERIT_PRINCIPAL for backwards compat with // JS-implemented extensions. const unsigned long DISALLOW_SCRIPT_OR_DATA = DISALLOW_INHERIT_PRINCIPAL; // Don't allow javascript: URLs to load // WARNING: Support for this value was added in Mozilla 1.7.8 and // Firefox 1.0.4. Use in prior versions WILL BE IGNORED. // When using this, make sure that you actually want DISALLOW_SCRIPT, not // DISALLOW_INHERIT_PRINCIPAL const unsigned long DISALLOW_SCRIPT = 1 << 3; // Do not report errors if we just want to check if a principal can load // a URI to not unnecessarily spam the error console. const unsigned long DONT_REPORT_ERRORS = 1 << 4; /** * Check that content with principal aPrincipal can load "uri". * * Will return error code NS_ERROR_DOM_BAD_URI if the load request * should be denied. * * @param aPrincipal the principal identifying the actor causing the load * @param uri the URI that is being loaded * @param flags the permission set, see above */ void checkLoadURIWithPrincipal(in nsIPrincipal aPrincipal, in nsIURI uri, in unsigned long flags); /** * Similar to checkLoadURIWithPrincipal but there are two differences: * * 1) The URI is a string, not a URI object. * 2) This function assumes that the URI may still be subject to fixup (and * hence will check whether fixed-up versions of the URI are allowed to * load as well); if any of the versions of this URI is not allowed, this * function will return error code NS_ERROR_DOM_BAD_URI. */ void checkLoadURIStrWithPrincipal(in nsIPrincipal aPrincipal, in AUTF8String uri, in unsigned long flags); /** * Returns true if the URI is from a domain that is white-listed through * prefs to be allowed to use file:// URIs. * @param aUri the URI to be tested */ bool inFileURIWhitelist(in nsIURI aUri); ///////////////// Principals /////////////////////// /** * Return the all-powerful system principal. */ nsIPrincipal getSystemPrincipal(); /** * Returns a principal that has the OriginAttributes of the load context. * @param loadContext to get the OriginAttributes from. */ nsIPrincipal getLoadContextCodebasePrincipal(in nsIURI uri, in nsILoadContext loadContext); /** * Returns a principal that has the OriginAttributes of the docshell. * @param docShell to get the OriginAttributes from. */ nsIPrincipal getDocShellCodebasePrincipal(in nsIURI uri, in nsIDocShell docShell); /** * Legacy method for getting a principal with no origin attributes. * * @deprecated use createCodebasePrincipal instead. */ [deprecated] nsIPrincipal getCodebasePrincipal(in nsIURI uri); /** * Returns a principal whose origin is composed of |uri| and |originAttributes|. * See nsIPrincipal.idl for a description of origin attributes, and * ChromeUtils.webidl for a list of origin attributes and their defaults. */ [implicit_jscontext] nsIPrincipal createCodebasePrincipal(in nsIURI uri, in jsval originAttributes); /** * Returns a principal whose origin is the one we pass in. * See nsIPrincipal.idl for a description of origin attributes, and * ChromeUtils.webidl for a list of origin attributes and their defaults. */ nsIPrincipal createCodebasePrincipalFromOrigin(in ACString origin); /** * Returns a unique nonce principal with |originAttributes|. * See nsIPrincipal.idl for a description of origin attributes, and * ChromeUtils.webidl for a list of origin attributes and their defaults. */ [implicit_jscontext] nsIPrincipal createNullPrincipal(in jsval originAttributes); /** * Returns OK if aSourceURI and target have the same "origin" * (scheme, host, and port). * ReportError flag suppresses error reports for functions that * don't need reporting. */ void checkSameOriginURI(in nsIURI aSourceURI, in nsIURI aTargetURI, in boolean reportError); /** * Get the principal for the given channel. This will typically be the * channel owner if there is one, and the codebase principal for the * channel's URI otherwise. aChannel must not be null. */ nsIPrincipal getChannelResultPrincipal(in nsIChannel aChannel); /** * Temporary API until bug 1220687 is fixed. * * Returns the same value as getChannelResultPrincipal, but ignoring * sandboxing. Specifically, if sandboxing would have prevented the * channel's triggering principal from being returned by * getChannelResultPrincipal, the triggering principal will be returned * by this method. * * Note that this method only ignores sandboxing of the channel in * question, it does not ignore sandboxing of any channels further up a * document chain. The triggering principal itself may still be the null * principal due to sandboxing further up a document chain. In that regard * the ignoring of sandboxing is limited. */ [noscript, nostdcall] nsIPrincipal getChannelResultPrincipalIfNotSandboxed(in nsIChannel aChannel); /** * Get the codebase principal for the channel's URI. * aChannel must not be null. */ nsIPrincipal getChannelURIPrincipal(in nsIChannel aChannel); /** * Check whether a given principal is a system principal. This allows us * to avoid handing back the system principal to script while allowing * script to check whether a given principal is system. */ boolean isSystemPrincipal(in nsIPrincipal aPrincipal); %{C++ bool IsSystemPrincipal(nsIPrincipal* aPrincipal) { bool isSystem = false; IsSystemPrincipal(aPrincipal, &isSystem); return isSystem; } %} const unsigned long NO_APP_ID = 0; const unsigned long UNKNOWN_APP_ID = 4294967295; // UINT32_MAX const unsigned long DEFAULT_USER_CONTEXT_ID = 0; /** * Per-domain controls to enable and disable script. This system is designed * to be used by at most one consumer, and enforces this with its semantics. * * Initially, domainPolicyActive is false. When activateDomainPolicy() is * invoked, domainPolicyActive becomes true, and subsequent calls to * activateDomainPolicy() will fail until deactivate() is invoked on the * nsIDomainPolicy returned from activateDomainPolicy(). At this point, * domainPolicyActive becomes false again, and a new consumer may acquire * control of the system by invoking activateDomainPolicy(). */ nsIDomainPolicy activateDomainPolicy(); readonly attribute boolean domainPolicyActive; /** * Only the parent process can directly access domain policies, child * processes only have a read-only mirror to the one in the parent. * For child processes the mirror is updated via messages * and ContentChild will hold the DomainPolicy by calling * ActivateDomainPolicyInternal directly. New consumer to this * function should not be addded. */ [noscript] nsIDomainPolicy activateDomainPolicyInternal(); /** * This function is for internal use only. Every time a child process is spawned, we * must clone any active domain policies in the parent to the new child. */ [noscript, notxpcom] void cloneDomainPolicy(in DomainPolicyClonePtr aClone); /** * Query mechanism for the above policy. * * If domainPolicyEnabled is false, this simply returns the current value * of javascript.enabled. Otherwise, it returns the same value, but taking * the various blacklist/whitelist exceptions into account. */ bool policyAllowsScript(in nsIURI aDomain); }; %{C++ #define NS_SCRIPTSECURITYMANAGER_CONTRACTID "@mozilla.org/scriptsecuritymanager;1" %}