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319 lines
17 KiB
319 lines
17 KiB
9 years ago
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/*
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* Copyright (c) 2006-2014 Apple Inc. All Rights Reserved.
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*
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* @APPLE_LICENSE_HEADER_START@
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*
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* This file contains Original Code and/or Modifications of Original Code
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* as defined in and that are subject to the Apple Public Source License
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* Version 2.0 (the 'License'). You may not use this file except in
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* compliance with the License. Please obtain a copy of the License at
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* http://www.opensource.apple.com/apsl/ and read it before using this
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* file.
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*
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* The Original Code and all software distributed under the License are
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* distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
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* EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
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* INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
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* Please see the License for the specific language governing rights and
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* limitations under the License.
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*
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* @APPLE_LICENSE_HEADER_END@
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*/
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/*!
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@header CSCommon
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CSCommon is the common header of all Code Signing API headers.
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It defines types, constants, and error codes.
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*/
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#ifndef _H_CSCOMMON
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#define _H_CSCOMMON
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#ifdef __cplusplus
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extern "C" {
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#endif
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#include <stdint.h>
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#include <CoreFoundation/CoreFoundation.h>
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CF_ASSUME_NONNULL_BEGIN
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/*
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Code Signing specific OSStatus codes.
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[Assigned range 0xFFFE_FAxx].
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*/
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CF_ENUM(OSStatus) {
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errSecCSUnimplemented = -67072, /* unimplemented code signing feature */
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errSecCSInvalidObjectRef = -67071, /* invalid API object reference */
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errSecCSInvalidFlags = -67070, /* invalid or inappropriate API flag(s) specified */
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errSecCSObjectRequired = -67069, /* a required pointer argument was NULL */
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errSecCSStaticCodeNotFound = -67068, /* cannot find code object on disk */
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errSecCSUnsupportedGuestAttributes = -67067, /* cannot locate guests using this attribute set */
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errSecCSInvalidAttributeValues = -67066, /* given attribute values are invalid */
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errSecCSNoSuchCode = -67065, /* host has no guest with the requested attributes */
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errSecCSMultipleGuests = -67064, /* ambiguous guest specification (host has multiple guests with these attribute values) */
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errSecCSGuestInvalid = -67063, /* code identity has been invalidated */
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errSecCSUnsigned = -67062, /* code object is not signed at all */
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errSecCSSignatureFailed = -67061, /* invalid signature (code or signature have been modified) */
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errSecCSSignatureNotVerifiable = -67060, /* the code cannot be read by the verifier (file system permissions etc.) */
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errSecCSSignatureUnsupported = -67059, /* unsupported type or version of signature */
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errSecCSBadDictionaryFormat = -67058, /* a required plist file or resource is malformed */
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errSecCSResourcesNotSealed = -67057, /* resources are present but not sealed by signature */
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errSecCSResourcesNotFound = -67056, /* code has no resources but signature indicates they must be present */
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errSecCSResourcesInvalid = -67055, /* the sealed resource directory is invalid */
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errSecCSBadResource = -67054, /* a sealed resource is missing or invalid */
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errSecCSResourceRulesInvalid = -67053, /* invalid resource specification rule(s) */
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errSecCSReqInvalid = -67052, /* invalid or corrupted code requirement(s) */
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errSecCSReqUnsupported = -67051, /* unsupported type or version of code requirement(s) */
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errSecCSReqFailed = -67050, /* code failed to satisfy specified code requirement(s) */
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errSecCSBadObjectFormat = -67049, /* object file format unrecognized, invalid, or unsuitable */
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errSecCSInternalError = -67048, /* internal error in Code Signing subsystem */
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errSecCSHostReject = -67047, /* code rejected its host */
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errSecCSNotAHost = -67046, /* attempt to specify guest of code that is not a host */
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errSecCSSignatureInvalid = -67045, /* invalid or unsupported format for signature */
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errSecCSHostProtocolRelativePath = -67044, /* host protocol violation - absolute guest path required */
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errSecCSHostProtocolContradiction = -67043, /* host protocol violation - contradictory hosting modes */
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errSecCSHostProtocolDedicationError = -67042, /* host protocol violation - operation not allowed with/for a dedicated guest */
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errSecCSHostProtocolNotProxy = -67041, /* host protocol violation - proxy hosting not engaged */
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errSecCSHostProtocolStateError = -67040, /* host protocol violation - invalid guest state change request */
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errSecCSHostProtocolUnrelated = -67039, /* host protocol violation - the given guest is not a guest of the given host */
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/* -67038 obsolete (no longer issued) */
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errSecCSNotSupported = -67037, /* operation inapplicable or not supported for this type of code */
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errSecCSCMSTooLarge = -67036, /* signature too large to embed (size limitation of on-disk representation) */
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errSecCSHostProtocolInvalidHash = -67035, /* host protocol violation - invalid guest hash */
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errSecCSStaticCodeChanged = -67034, /* the code on disk does not match what is running */
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errSecCSDBDenied = -67033, /* permission to use a database denied */
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errSecCSDBAccess = -67032, /* cannot access a database */
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errSecCSSigDBDenied = errSecCSDBDenied,
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errSecCSSigDBAccess = errSecCSDBAccess,
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errSecCSHostProtocolInvalidAttribute = -67031, /* host returned invalid or inconsistent guest attributes */
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errSecCSInfoPlistFailed = -67030, /* invalid Info.plist (plist or signature have been modified) */
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errSecCSNoMainExecutable = -67029, /* the code has no main executable file */
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errSecCSBadBundleFormat = -67028, /* bundle format unrecognized, invalid, or unsuitable */
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errSecCSNoMatches = -67027, /* no matches for search or update operation */
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errSecCSFileHardQuarantined = -67026, /* File created by an AppSandbox, exec/open not allowed */
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errSecCSOutdated = -67025, /* presented data is out of date */
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errSecCSDbCorrupt = -67024, /* a system database or file is corrupt */
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errSecCSResourceDirectoryFailed = -67023, /* invalid resource directory (directory or signature have been modified) */
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errSecCSUnsignedNestedCode = -67022, /* nested code is unsigned */
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errSecCSBadNestedCode = -67021, /* nested code is modified or invalid */
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errSecCSBadCallbackValue = -67020, /* monitor callback returned invalid value */
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errSecCSHelperFailed = -67019, /* the codesign_allocate helper tool cannot be found or used */
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errSecCSVetoed = -67018,
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errSecCSBadLVArch = -67017, /* library validation flag cannot be used with an i386 binary */
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errSecCSResourceNotSupported = -67016, /* unsupported resource found (something not a directory, file or symlink) */
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errSecCSRegularFile = -67015, /* the main executable or Info.plist must be a regular file (no symlinks, etc.) */
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errSecCSUnsealedAppRoot = -67014, /* unsealed contents present in the bundle root */
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errSecCSWeakResourceRules = -67013, /* resource envelope is obsolete (custom omit rules) */
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errSecCSDSStoreSymlink = -67012, /* .DS_Store files cannot be a symlink */
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errSecCSAmbiguousBundleFormat = -67011, /* bundle format is ambiguous (could be app or framework) */
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errSecCSBadMainExecutable = -67010, /* main executable failed strict validation */
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errSecCSBadFrameworkVersion = -67009, /* embedded framework contains modified or invalid version */
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errSecCSUnsealedFrameworkRoot = -67008, /* unsealed contents present in the root directory of an embedded framework */
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errSecCSWeakResourceEnvelope = -67007, /* resource envelope is obsolete (version 1 signature) */
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errSecCSCancelled = -67006, /* operation was terminated by explicit cancellation */
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errSecCSInvalidPlatform = -67005, /* invalid platform identifier or platform mismatch */
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errSecCSTooBig = -67004, /* code is too big for current signing format */
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errSecCSInvalidSymlink = -67003, /* invalid destination for symbolic link in bundle */
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};
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/*
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* Code Signing specific CFError "user info" keys.
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* In calls that can return CFErrorRef indications, if a CFErrorRef is actually
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* returned, its "user info" dictionary may contain some of the following keys
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* to more closely describe the circumstances of the failure.
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* Do not rely on the presence of any particular key to categorize a problem;
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* always use the primary OSStatus return for that. The data contained under
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* these keys is always supplemental and optional.
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*/
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extern const CFStringRef kSecCFErrorArchitecture; /* CFStringRef: name of architecture causing the problem */
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extern const CFStringRef kSecCFErrorPattern; /* CFStringRef: invalid resource selection pattern encountered */
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extern const CFStringRef kSecCFErrorResourceSeal; /* CFTypeRef: invalid component in resource seal (CodeResources) */
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extern const CFStringRef kSecCFErrorResourceAdded; /* CFURLRef: unsealed resource found */
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extern const CFStringRef kSecCFErrorResourceAltered; /* CFURLRef: modified resource found */
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extern const CFStringRef kSecCFErrorResourceMissing; /* CFURLRef: sealed (non-optional) resource missing */
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extern const CFStringRef kSecCFErrorInfoPlist; /* CFTypeRef: Info.plist dictionary or component thereof found invalid */
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extern const CFStringRef kSecCFErrorGuestAttributes; /* CFTypeRef: Guest attribute set of element not accepted */
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extern const CFStringRef kSecCFErrorRequirementSyntax; /* CFStringRef: compilation error for Requirement source */
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extern const CFStringRef kSecCFErrorPath; /* CFURLRef: subcomponent containing the error */
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/*!
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@typedef SecCodeRef
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This is the type of a reference to running code.
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In many (but not all) calls, this can be passed to a SecStaticCodeRef
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argument, which performs an implicit SecCodeCopyStaticCode call and
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operates on the result.
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*/
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typedef struct CF_BRIDGED_TYPE(id) __SecCode *SecCodeRef; /* running code */
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/*!
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@typedef SecStaticCodeRef
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This is the type of a reference to static code on disk.
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*/
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typedef struct CF_BRIDGED_TYPE(id) __SecCode const *SecStaticCodeRef; /* code on disk */
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/*!
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@typedef SecRequirementRef
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This is the type of a reference to a code requirement.
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*/
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typedef struct CF_BRIDGED_TYPE(id) __SecRequirement *SecRequirementRef; /* code requirement */
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/*!
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@typedef SecGuestRef
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An abstract handle to identify a particular Guest in the context of its Host.
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Guest handles are assigned by the host at will, with kSecNoGuest (zero) being
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reserved as the null value. They can be reused for new children if desired.
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*/
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typedef u_int32_t SecGuestRef;
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CF_ENUM(SecGuestRef) {
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kSecNoGuest = 0, /* not a valid SecGuestRef */
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};
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/*!
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@typedef SecCSFlags
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This is the type of flags arguments to Code Signing API calls.
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It provides a bit mask of request and option flags. All of the bits in these
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masks are reserved to Apple; if you set any bits not defined in these headers,
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the behavior is generally undefined.
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This list describes the flags that are shared among several Code Signing API calls.
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Flags that only apply to one call are defined and documented with that call.
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Global flags are assigned from high order down (31 -> 0); call-specific flags
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are assigned from the bottom up (0 -> 31).
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@constant kSecCSDefaultFlags
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When passed to a flags argument throughout, indicates that default behavior
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is desired. Do not mix with other flags values.
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@constant kSecCSConsiderExpiration
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When passed to a call that performs code validation, requests that code signatures
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made by expired certificates be rejected. By default, expiration of participating
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certificates is not automatic grounds for rejection.
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*/
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typedef CF_OPTIONS(uint32_t, SecCSFlags) {
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kSecCSDefaultFlags = 0, /* no particular flags (default behavior) */
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kSecCSConsiderExpiration = 1 << 31, /* consider expired certificates invalid */
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kSecCSEnforceRevocationChecks = 1 << 30, /* force revocation checks regardless of preference settings */
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kSecCSNoNetworkAccess = 1 << 29, /* do not use the network, cancels "kSecCSEnforceRevocationChecks" */
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kSecCSReportProgress = 1 << 28, /* make progress report call-backs when configured */
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kSecCSCheckTrustedAnchors = 1 << 27, /* build certificate chain to system trust anchors, not to any self-signed certificate */
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};
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/*!
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@typedef SecCodeSignatureFlags
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This is the type of option flags that can be embedded in a code signature
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during signing, and that govern the use of the signature thereafter.
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Some of these flags can be set through the codesign(1) command's --options
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argument; some are set implicitly based on signing circumstances; and all
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can be set with the kSecCodeSignerFlags item of a signing information dictionary.
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@constant kSecCodeSignatureHost
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Indicates that the code may act as a host that controls and supervises guest
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code. If this flag is not set in a code signature, the code is never considered
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eligible to be a host, and any attempt to act like one will be ignored or rejected.
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@constant kSecCodeSignatureAdhoc
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The code has been sealed without a signing identity. No identity may be retrieved
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from it, and any code requirement placing restrictions on the signing identity
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will fail. This flag is set by the code signing API and cannot be set explicitly.
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@constant kSecCodeSignatureForceHard
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Implicitly set the "hard" status bit for the code when it starts running.
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This bit indicates that the code prefers to be denied access to a resource
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if gaining such access would cause its invalidation. Since the hard bit is
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sticky, setting this option bit guarantees that the code will always have
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it set.
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@constant kSecCodeSignatureForceKill
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Implicitly set the "kill" status bit for the code when it starts running.
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This bit indicates that the code wishes to be terminated with prejudice if
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it is ever invalidated. Since the kill bit is sticky, setting this option bit
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guarantees that the code will always be dynamically valid, since it will die
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immediately if it becomes invalid.
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@constant kSecCodeSignatureForceExpiration
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Forces the kSecCSConsiderExpiration flag on all validations of the code.
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*/
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typedef CF_OPTIONS(uint32_t, SecCodeSignatureFlags) {
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kSecCodeSignatureHost = 0x0001, /* may host guest code */
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kSecCodeSignatureAdhoc = 0x0002, /* must be used without signer */
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kSecCodeSignatureForceHard = 0x0100, /* always set HARD mode on launch */
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kSecCodeSignatureForceKill = 0x0200, /* always set KILL mode on launch */
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kSecCodeSignatureForceExpiration = 0x0400, /* force certificate expiration checks */
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kSecCodeSignatureRestrict = 0x0800, /* restrict dyld loading */
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kSecCodeSignatureEnforcement = 0x1000, /* enforce code signing */
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kSecCodeSignatureLibraryValidation = 0x2000, /* library validation required */
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};
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/*!
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@typedef SecCodeStatus
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The code signing system attaches a set of status flags to each running code.
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These flags are maintained by the code's host, and can be read by anyone.
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A code may change its own flags, a host may change its guests' flags,
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and root may change anyone's flags. However, these flags are sticky in that
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each can change in only one direction (and never back, for the lifetime of the code).
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Not even root can violate this restriction.
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There are other flags in SecCodeStatus that are not publicly documented.
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Do not rely on them, and do not ever attempt to explicitly set them.
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@constant kSecCodeStatusValid
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Indicates that the code is dynamically valid, i.e. it started correctly
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and has not been invalidated since then. The valid bit can only be cleared.
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Warning: This bit is not your one-stop shortcut to determining the validity of code.
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It represents the dynamic component of the full validity function; if this
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bit is unset, the code is definitely invalid, but the converse is not always true.
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In fact, code hosts may represent the outcome of some delayed static validation work in this bit,
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and thus it strictly represents a blend of (all of) dynamic and (some of) static validity,
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depending on the implementation of the particular host managing the code. You can (only)
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rely that (1) dynamic invalidation will clear this bit; and (2) the combination
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of static validation and dynamic validity (as performed by the SecCodeCheckValidity* APIs)
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will give a correct answer.
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@constant kSecCodeStatusHard
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Indicates that the code prefers to be denied access to resources if gaining access
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would invalidate it. This bit can only be set.
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It is undefined whether code that is marked hard and is already invalid will still
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be denied access to a resource that would invalidate it if it were still valid. That is,
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the code may or may not get access to such a resource while being invalid, and that choice
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may appear random.
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@constant kSecCodeStatusKill
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Indicates that the code wants to be killed (terminated) if it ever loses its validity.
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This bit can only be set. Code that has the kill flag set will never be dynamically invalid
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(and live). Note however that a change in static validity does not necessarily trigger instant
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death.
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*/
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typedef CF_OPTIONS(uint32_t, SecCodeStatus) {
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kSecCodeStatusValid = 0x0001,
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kSecCodeStatusHard = 0x0100,
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kSecCodeStatusKill = 0x0200,
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};
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/*!
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@typedef SecRequirementType
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An enumeration indicating different types of internal requirements for code.
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*/
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typedef CF_ENUM(uint32_t, SecRequirementType) {
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kSecHostRequirementType = 1, /* what hosts may run us */
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kSecGuestRequirementType = 2, /* what guests we may run */
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kSecDesignatedRequirementType = 3, /* designated requirement */
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kSecLibraryRequirementType = 4, /* what libraries we may link against */
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kSecPluginRequirementType = 5, /* what plug-ins we may load */
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kSecInvalidRequirementType, /* invalid type of Requirement (must be last) */
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kSecRequirementTypeCount = kSecInvalidRequirementType /* number of valid requirement types */
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};
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CF_ASSUME_NONNULL_END
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#ifdef __cplusplus
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}
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#endif
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#endif //_H_CSCOMMON
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