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1 /*
2 * Copyright (c) 2006-2014 Apple Inc. All Rights Reserved.
3 *
4 * @APPLE_LICENSE_HEADER_START@
5 *
6 * This file contains Original Code and/or Modifications of Original Code
7 * as defined in and that are subject to the Apple Public Source License
8 * Version 2.0 (the 'License'). You may not use this file except in
9 * compliance with the License. Please obtain a copy of the License at
10 * http://www.opensource.apple.com/apsl/ and read it before using this
11 * file.
12 *
13 * The Original Code and all software distributed under the License are
14 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
15 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
16 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
17 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
18 * Please see the License for the specific language governing rights and
19 * limitations under the License.
20 *
21 * @APPLE_LICENSE_HEADER_END@
22 */
23
24 /*!
25 @header SecCodeSigner
26 SecCodeSigner represents an object that can sign code.
27 */
28 #ifndef _H_SECCODESIGNER
29 #define _H_SECCODESIGNER
30
31 #ifdef __cplusplus
32 extern "C" {
33 #endif
34
35 #include <Security/CSCommon.h>
36
37 /*!
38 @typedef SecCodeSignerRef
39 This is the type of a reference to a code requirement.
40 */
41 typedef struct __SecCodeSigner *SecCodeSignerRef; /* code signing object */
42
43
44 /*!
45 @function SecCodeGetTypeID
46 Returns the type identifier of all SecCodeSigner instances.
47 */
48 CFTypeID SecCodeSignerGetTypeID(void);
49
50
51 /*!
52 The following CFString constants can be used as keys in the parameters argument
53 of SecCodeSignerCreate to specify various modes and options of the signing operation.
54 Passing any keys not specified here may lead to undefined behavior and is not supported.
55 The same applies to passing objects of types not explicitly allowed here.
56
57 @constant kSecCodeSignerDetached Determines where the signature is written.
58 If this key is absent, the code being signed is modified to contain the signature,
59 replacing any signature already embedded there.
60 If the value is kCFNull, the signature is written to the system-wide detached
61 signature database. (You must have root privileges to write there.)
62 If the value of this key is a CFURL, the signature is written to a file at that location,
63 replacing any data there.
64 If the value is a CFMutableData, the signature is appended to that data.
65 @constant kSecCodeSignerDryRun A boolean value. If present and true, the actual writing
66 of the signature is inhibited, and the code is not modified, but all operations
67 leading up to this are performed normally, including the cryptographic access to
68 the signing identity (if any).
69 @constant kSecCodeSignerFlags A CFNumber specifying which flags to set in the code signature.
70 Note that depending on circumstances, this value may be augmented or modified
71 as part of the signing operation.
72 @constant kSecCodeSignerIdentifier If present, a CFString that explicitly specifies
73 the unique identifier string sealed into the code signature. If absent, the identifier
74 is derived implicitly from the code being signed.
75 @constant kSecCodeSignerIdentifierPrefix If the unique identifier string of the code signature
76 is implicitly generated, and the resulting string does not contain any "." (dot)
77 characters, then the (string) value of this parameter is prepended to the identifier.
78 By convention, the prefix is usually of the form "com.yourcompany.", but any value
79 is acceptable. If the kSecCodeSignerIdentifier parameter is specified, this parameter
80 is ineffective (but still allowed).
81 @constant kSecCodeSignerIdentity A SecIdentityRef describing the signing identity
82 to use for signing code. This is a mandatory parameter for signing operations.
83 Its value must be either a SecIdentityRef specifying a cryptographic identity
84 valid for Code Signing, or the special value kCFNull to indicate ad-hoc signing.
85 @constant kSecCodeSignerOperation The type of operation to be performed. Valid values
86 are kSecCodeSignerOperationSign to sign code, and kSecCodeSignerOperationRemove
87 to remove any existing signature from code. The default operation is to sign code.
88 @constant kSecCodeSignerPageSize An integer value explicitly specifying the page size
89 used to sign the main executable. This must be a power of two. A value of zero indicates
90 infinite size (no paging).
91 Only certain page sizes are allowed in most circumstances, and specifying an inappropriate
92 size will lead to spurious verification failures. This is for expert use only.
93 @constant kSecCodeSignerRequirements Specifies the internal requirements to be sealed into
94 the code signature. Must be either a CFData containing the binary (compiled) form of
95 a requirements set (SuperBlob), or a CFString containing a valid text form to be
96 compiled into binary form. Default requirements are automatically generated if this
97 parameter is omitted, and defaults may be applied to particular requirement types
98 that are not specified; but any requirement type you specify is sealed exactly as
99 specified.
100 @constant kSecCodeSignerResourceRules A CFDictionary containing resource scanning rules
101 determining what resource files are sealed into the signature (and in what way).
102 A situation-dependent default is applied if this parameter is not specified.
103 @constant kSecCodeSignerSDKRoot A CFURLRef indicating an alterate directory root
104 where signing operations should find subcomponents (libraries, frameworks, modules, etc.).
105 The default is the host system root "/".
106 @constant kSecCodeSignerSigningTime Specifies what date and time is sealed into the
107 code signature's CMS data. Can be either a CFDate object specifying a date, or
108 the value kCFNull indicating that no date should be included in the signature.
109 If not specified, the current date is chosen and sealed.
110 Since an ad-hoc signature has no CMS data, this argument is ineffective
111 for ad-hoc signing operations.
112 @constant kSecCodeSignerRequireTimestamp A CFBoolean indicating (if kCFBooleanTrue) that
113 the code signature should be certified by a timestamp authority service. This option
114 requires access to a timestamp server (usually over the Internet). If requested and
115 the timestamp server cannot be contacted or refuses service, the signing operation fails.
116 The timestamp value is not under the caller's control.
117 If the value is kCFBooleanFalse, no timestamp service is contacted and the resulting signature
118 has no certified timestamp.
119 If this key is omitted, a default is used that may vary from release to release.
120 Note that when signing multi-architectural ("fat") programs, each architecture will
121 be signed separately, and thus each architecture will have a slightly different timestamp.
122 @constant kSecCodeSignerTimestampServer A CFURL specifying which timestamp authority service
123 to contact for timestamping if requested by the kSecCodeSignerRequireTimestamp argument.
124 If omitted (and timestamping is performed), a system-defined default value is used, referring
125 to an Apple-operated timestamp service. Note that this service may not freely serve all requests.
126 @constant kSecCodeSignerTimestampAuthentication A SecIdentityRef describing the identity
127 used to authenticate to the timestamp authority server, if the server requires client-side
128 (SSL/TLS) authentication. This will not generally be the identity used to sign the actual
129 code, depending on the requirements of the timestamp authority service used.
130 If omitted, the timestamp server is contacted using unauthenticated HTTP requests.
131 @constant kSecCodeSignerTimestampOmitCertificates A CFBoolean indicating (if kCFBooleanTrue)
132 that the timestamp embedded in the signature, if requested, not contain the full certificate chain
133 of the timestamp service used. This will make for a marginally smaller signature, but may not
134 verify correctly unless all such certificates are available (through the keychain system)
135 on the verifying system.
136 The default is to embed enough certificates to ensure proper verification of Apple-generated
137 timestamp signatures.
138 @constant kSecCodeSignerRuntimeVersion A CFString indicating the version of runtime hardening policies
139 that the process should be opted into. The string should be of the form "x", "x.x", or "x.x.x" where
140 x is a number between 0 and 255. This parameter is optional. If the signer specifies
141 kSecCodeSignatureRuntime but does not provide this parameter, the runtime version will be the SDK
142 version built into the Mach-O.
143
144 */
145 extern const CFStringRef kSecCodeSignerApplicationData;
146 extern const CFStringRef kSecCodeSignerDetached;
147 extern const CFStringRef kSecCodeSignerDigestAlgorithm;
148 extern const CFStringRef kSecCodeSignerDryRun;
149 extern const CFStringRef kSecCodeSignerEntitlements;
150 extern const CFStringRef kSecCodeSignerFlags;
151 extern const CFStringRef kSecCodeSignerIdentifier;
152 extern const CFStringRef kSecCodeSignerIdentifierPrefix;
153 extern const CFStringRef kSecCodeSignerIdentity;
154 extern const CFStringRef kSecCodeSignerPageSize;
155 extern const CFStringRef kSecCodeSignerRequirements;
156 extern const CFStringRef kSecCodeSignerResourceRules;
157 extern const CFStringRef kSecCodeSignerSDKRoot;
158 extern const CFStringRef kSecCodeSignerSigningTime;
159 extern const CFStringRef kSecCodeSignerTimestampAuthentication;
160 extern const CFStringRef kSecCodeSignerRequireTimestamp;
161 extern const CFStringRef kSecCodeSignerTimestampServer;
162 extern const CFStringRef kSecCodeSignerTimestampOmitCertificates;
163 extern const CFStringRef kSecCodeSignerPreserveMetadata;
164 extern const CFStringRef kSecCodeSignerTeamIdentifier;
165 extern const CFStringRef kSecCodeSignerPlatformIdentifier;
166 extern const CFStringRef kSecCodeSignerRuntimeVersion;
167 extern const CFStringRef kSecCodeSignerPreserveAFSC;
168 extern const CFStringRef kSecCodeSignerOmitAdhocFlag;
169 extern const CFStringRef kSecCodeSignerEditCpuType;
170 extern const CFStringRef kSecCodeSignerEditCpuSubtype;
171 extern const CFStringRef kSecCodeSignerEditCMS;
172
173 enum {
174 kSecCodeSignerPreserveIdentifier = 1 << 0, // preserve signing identifier
175 kSecCodeSignerPreserveRequirements = 1 << 1, // preserve internal requirements (including DR)
176 kSecCodeSignerPreserveEntitlements = 1 << 2, // preserve entitlements
177 kSecCodeSignerPreserveResourceRules = 1 << 3, // preserve resource rules (and thus resources)
178 kSecCodeSignerPreserveFlags = 1 << 4, // preserve signing flags
179 kSecCodeSignerPreserveTeamIdentifier = 1 << 5, // preserve team identifier flags
180 kSecCodeSignerPreserveDigestAlgorithm = 1 << 6, // preserve digest algorithms used
181 kSecCodeSignerPreservePEH = 1 << 7, // preserve pre-encryption hashes
182 kSecCodeSignerPreserveRuntime = 1 << 8, // preserve the runtime version
183 };
184
185
186 /*!
187 @function SecCodeSignerCreate
188 Create a (new) SecCodeSigner object to be used for signing code.
189
190 @param parameters An optional CFDictionary containing parameters that influence
191 signing operations with the newly created SecCodeSigner. If NULL, defaults
192 are applied to all parameters; note however that some parameters do not have
193 useful defaults, and will need to be set before signing is attempted.
194 @param flags Optional flags. Pass kSecCSDefaultFlags for standard behavior.
195 The kSecCSRemoveSignature flag requests that any existing signature be stripped
196 from the target code instead of signing. The kSecCSEditSignature flag
197 requests editing of existing signatures, which only works with a very
198 limited set of options.
199 @param staticCode On successful return, a SecStaticCode object reference representing
200 the file system origin of the given SecCode. On error, unchanged.
201 @result Upon success, errSecSuccess. Upon error, an OSStatus value documented in
202 CSCommon.h or certain other Security framework headers.
203 */
204 enum {
205 kSecCSRemoveSignature = 1 << 0, // strip existing signature
206 kSecCSSignPreserveSignature = 1 << 1, // do not (re)sign if an embedded signature is already present
207 kSecCSSignNestedCode = 1 << 2, // recursive (deep) signing
208 kSecCSSignOpaque = 1 << 3, // treat all files as resources (no nest scan, no flexibility)
209 kSecCSSignV1 = 1 << 4, // sign ONLY in V1 form
210 kSecCSSignNoV1 = 1 << 5, // do not include V1 form
211 kSecCSSignBundleRoot = 1 << 6, // include files in bundle root
212 kSecCSSignStrictPreflight = 1 << 7, // fail signing operation if signature would fail strict validation
213 kSecCSSignGeneratePEH = 1 << 8, // generate pre-encryption hashes
214 kSecCSSignGenerateEntitlementDER = 1 << 9, // generate entitlement DER
215 kSecCSEditSignature = 1 << 10, // edit existing signature
216 };
217
218
219 OSStatus SecCodeSignerCreate(CFDictionaryRef parameters, SecCSFlags flags,
220 SecCodeSignerRef *signer);
221
222
223 /*!
224 @function SecCodeSignerAddSignature
225 Create a code signature and add it to the StaticCode object being signed.
226
227 @param signer A SecCodeSigner object containing all the information required
228 to sign code.
229 @param code A valid SecStaticCode object reference representing code files
230 on disk. This code will be signed, and will ordinarily be modified to contain
231 the resulting signature data.
232 @param flags Optional flags. Pass kSecCSDefaultFlags for standard behavior.
233 @param errors An optional pointer to a CFErrorRef variable. If the call fails
234 (and something other than errSecSuccess is returned), and this argument is non-NULL,
235 a CFErrorRef is stored there further describing the nature and circumstances
236 of the failure. The caller must CFRelease() this error object when done with it.
237 @result Upon success, errSecSuccess. Upon error, an OSStatus value documented in
238 CSCommon.h or certain other Security framework headers.
239 */
240 OSStatus SecCodeSignerAddSignature(SecCodeSignerRef signer,
241 SecStaticCodeRef code, SecCSFlags flags);
242
243 OSStatus SecCodeSignerAddSignatureWithErrors(SecCodeSignerRef signer,
244 SecStaticCodeRef code, SecCSFlags flags, CFErrorRef *errors);
245
246
247 #ifdef __cplusplus
248 }
249 #endif
250
251 #endif //_H_SECCODESIGNER