/* * Copyright (c) 2006-2007,2011,2013 Apple Inc. All Rights Reserved. * * @APPLE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in * compliance with the License. Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this * file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_LICENSE_HEADER_END@ */ /*! @header SecCodeHost This header provides the hosting API for Code Signing. These are calls that are (only) made by code that is hosting guests. In the context of Code Signing, a Host is code that creates and manages other codes from which it defends its own integrity. As part of that duty, it maintains state for each of its children, and answers questions about them. A Host is externally represented by a SecCodeRef (it is a SecCode object). So is a Guest. There is no specific API object to represent Hosts or Guests. Within the Hosting API, guests are identified by simple numeric handles that are unique and valid only in the context of their specific host. The functions in this API always apply to the Host making the API calls. They cannot be used to (directly) interrogate another host. */ #ifndef _H_SECCODEHOST #define _H_SECCODEHOST #include #ifdef __cplusplus extern "C" { #endif CF_ASSUME_NONNULL_BEGIN /*! @header SecCodeHost This header describes the Code Signing Hosting API. These are calls made by code that wishes to become a Host in the Code Signing Host/Guest infrastructure. Hosting allows the caller to establish separate, independent code identities (SecCodeRefs) for parts of itself, usually because it is loading and managing code in the form of scripts, plugins, etc. The Hosting API does not directly connect to the Code Signing Client APIs. Certain calls in the client API will cause internal queries to hosts about their guests. The Host side of these queries is managed through this API. The results will eventually be delivered to client API callers in appropriate form. If code never calls any of the Hosting API functions, it is deemed to not have guests and not act as a Host. This is the default and requires no action. Hosting operates in one of two modes, dynamic or proxy. Whichever mode is first engaged prevails for the lifetime of the caller. There is no way to switch between the two, and calling an API belonging to the opposite mode will fail. In dynamic hosting mode, the caller provides a Mach port that receives direct queries about its guests. Dynamic mode is engaged by calling SecHostSetHostingPort. In proxy hosting mode, the caller provides information about its guests as guests are created, removed, or change status. The system caches this information and answers queries about guests from this pool of information. The caller is not directly involved in answering such queries, and has no way to intervene. */ /*! @function SecHostCreateGuest Create a new Guest and describe its initial properties. This call activates Hosting Proxy Mode. From here on, the system will record guest information provided through SecHostCreateGuest, SecHostSetGuestStatus, and SecHostRemoveGuest, and report hosting status to callers directly. This mode is incompatible with dynamic host mode as established by a call to SecHostSetHostingPort. @param host Pass kSecNoGuest to create a guest of the process itself. To create a guest of another guest (extending the hosting chain), pass the SecGuestRef of the guest to act as the new guest's host. If host has a dedicated guest, it will be deemed to be be the actual host, recursively. @param status The Code Signing status word for the new guest. These are combinations of the kSecCodeStatus* flags in . Note that the proxy will enforce the rules for the stickiness of these bits. In particular, if you don't pass the kSecCodeStatusValid bit during creation, your new guest will be born invalid and will never have a valid identity. @param path The canonical path to the guest's code on disk. This is the path you would pass to SecStaticCodeCreateWithPath to make a static code object reference. You must use an absolute path. @param attributes An optional CFDictionaryRef containing attributes that can be used to locate this particular guest among all of the caller's guests. The "canonical" attribute is automatically added for the value of guestRef. If you pass NULL, no other attributes are established for the guest. While any key can be used in the attributes dictionary, the kSecGuestAttribute* constants (in SecCode.h) are conventionally used here. @param flags Optional flags. Pass kSecCSDefaultFlags for standard behavior, or a combination of the flags defined below for special features. @result Upon success, errSecSuccess. Upon error, an OSStatus value documented in CSCommon.h or certain other Security framework headers. @param newGuest Upon successful creation of the new guest, the new SecGuestRef that should be used to identify the new guest from here on. @constant kSecCSDedicatedHost Declares dedicated hosting for the given host. In dedicated hosting, the host has exactly one guest (the one this call is introducing), and the host will spend all of its time from here on running that guest (or on its behalf). This declaration is irreversable for the lifetime of the host. Note that this is a declaration about the given host, and is not binding upon other hosts on either side of the hosting chain, though they in turn may declare dedicated hosting if desired. It is invalid to declare dedicated hosting if other guests have already been introduced for this host, and it is invalid to introduce additional guests for this host after this call. @constant kSecCSGenerateGuestHash Ask the proxy to generate the binary identifier (hash of CodeDirectory) from the copy on disk at the path given. This is not optimal since an attacker with write access may be able to substitute a different copy just in time, but it is convenient. For optimal security, the host should calculate the hash from the loaded in-memory signature of its guest and pass the result as an attribute with key kSecGuestAttributeHash. */ CF_ENUM(uint32_t) { kSecCSDedicatedHost = 1 << 0, kSecCSGenerateGuestHash = 1 << 1, }; OSStatus SecHostCreateGuest(SecGuestRef host, uint32_t status, CFURLRef path, CFDictionaryRef __nullable attributes, SecCSFlags flags, SecGuestRef * __nonnull newGuest); /*! @function SecHostRemoveGuest Announce that the guest with the given guestRef has permanently disappeared. It removes all memory of the guest from the hosting system. You cannot remove a dedicated guest. @param host The SecGuestRef that was used to create guest. You cannot specify a proximate host (host of a host) here. However, the substitution for dedicated guests described for SecHostCreateGuest also takes place here. @param guest The handle for a Guest previously created with SecHostCreateGuest that has not previously been destroyed. This guest is to be destroyed now. @param flags Optional flags. Pass kSecCSDefaultFlags for standard behavior. @result Upon success, errSecSuccess. Upon error, an OSStatus value documented in CSCommon.h or certain other Security framework headers. */ OSStatus SecHostRemoveGuest(SecGuestRef host, SecGuestRef guest, SecCSFlags flags); /*! @function SecHostSelectGuest Tell the Code Signing host subsystem that the calling thread will now act on behalf of the given Guest. This must be a valid Guest previously created with SecHostCreateGuest. @param guestRef The handle for a Guest previously created with SecHostCreateGuest on whose behalf this thread will act from now on. This setting will be remembered until it is changed (or the thread terminates). To indicate that the thread will act on behalf of the Host itself (rather than any Guest), pass kSecNoGuest. @param flags Optional flags. Pass kSecCSDefaultFlags for standard behavior. @result Upon success, errSecSuccess. Upon error, an OSStatus value documented in CSCommon.h or certain other Security framework headers. */ OSStatus SecHostSelectGuest(SecGuestRef guestRef, SecCSFlags flags); /*! @function SecHostSelectedGuest Retrieve the handle for the Guest currently selected for the calling thread. @param flags Optional flags. Pass kSecCSDefaultFlags for standard behavior. @param guestRef Will be assigned the SecGuestRef currently in effect for the calling thread. If no Guest is active on this thread (i.e. the thread is acting for the Host), the return value is kSecNoGuest. @result Upon success, errSecSuccess. Upon error, an OSStatus value documented in CSCommon.h or certain other Security framework headers. */ OSStatus SecHostSelectedGuest(SecCSFlags flags, SecGuestRef * __nonnull guestRef); /*! @function SecHostSetGuestStatus Updates the status of a particular guest. @param guestRef The handle for a Guest previously created with SecHostCreateGuest on whose behalf this thread will act from now on. This setting will be remembered until it is changed (or the thread terminates). @param status The new Code Signing status word for the guest. The proxy enforces the restrictions on changes to guest status; in particular, the kSecCodeStatusValid bit can only be cleared, and the kSecCodeStatusHard and kSecCodeStatusKill flags can only be set. Pass the previous guest status to indicate that no change is desired. @param attributes An optional dictionary containing attributes to be used to distinguish this guest from all guests of the caller. If given, it completely replaces the attributes specified earlier. If NULL, previously established attributes are retained. @param flags Optional flags. Pass kSecCSDefaultFlags for standard behavior. @result Upon success, errSecSuccess. Upon error, an OSStatus value documented in CSCommon.h or certain other Security framework headers. */ OSStatus SecHostSetGuestStatus(SecGuestRef guestRef, uint32_t status, CFDictionaryRef __nullable attributes, SecCSFlags flags); /*! @function SecHostSetHostingPort Tells the Code Signing Hosting subsystem that the calling code will directly respond to hosting inquiries over the given port. This API should be the first hosting API call made. With it, the calling code takes direct responsibility for answering questions about its guests using the hosting IPC services. The SecHostCreateGuest, SecHostDestroyGuest and SecHostSetGuestStatus calls are not valid after this. The SecHostSelectGuest and SecHostSelectedGuest calls will still work, and will use whatever SecGuestRefs the caller has assigned in its internal data structures. This call cannot be undone; once it is made, record-and-forward facilities are disabled for the lifetime of the calling code. @param hostingPort A Mach message port with send rights. This port will be recorded and handed to parties interested in querying the host about its children. @param flags Optional flags. Pass kSecCSDefaultFlags for standard behavior. @result Upon success, errSecSuccess. Upon error, an OSStatus value documented in CSCommon.h or certain other Security framework headers. */ OSStatus SecHostSetHostingPort(mach_port_t hostingPort, SecCSFlags flags); CF_ASSUME_NONNULL_END #ifdef __cplusplus } #endif #endif //_H_SECCODEHOST