.Dd June 1, 2006 .Dt CODESIGN 1 .Os .Sh NAME .Nm codesign .Nd Create and manipulate code signatures .Sh SYNOPSIS .\" sign code (-s) .Nm .Ar -s identity .Op -i identifier .Op -r requirements .Op Fl fv .Op Ar path ... .\" verify code (-v) .Nm .Ar -v .Op -R requirement .Op Fl v .Op Ar path|pid ... .\" display code signatures (-d) .Nm .Ar -d .Op Fl v .Op Ar path|pid ... .\" display hosting paths (-h) .Nm .Ar -h .Op Fl v .Op Ar pid ... .Sh DESCRIPTION The .Nm command is used to create, check, and display code signatures, as well as inquire into the dynamic status of signed code in the system. .Pp .Nm accepts single-character (classic) options, as well as GNU-style long options of the form --name and --name=value. Common options have both forms; less frequent and specialized options have only long form. .Pp .Sh OPTIONS The options are as follows: .Bl -tag -width indent .It Fl d, -display Display information about the code at the path(s) given. Increasing levels of verbosity produce more output. The format is designed to be moderately easy to parse by simple scripts while still making sense to human eyes. In addition, the -r and --file-list options can be used to retrieve additional information. .It Fl D, -detached Ar filename When signing, designates that a detached signature should be written to the specified file. The code being signed is not modified and need not be writable. When verifying, designates a file containing a detached signature to be used for verification. Any embedded signature in the code is ignored. .It Fl f, -force When signing, causes .Nm to replace any existing signature on the path(s) given. Without this option, existing signatures will not be replaced, and the signing operation fails. .It Fl i, -identifier Ar identifier During signing, explicitly specify the unique identifier string that is embedded in code signatures. If this option is omitted, the identifier is derived from either the Info.plist (if present), or the filename of the executable being signed, possibly modified by the --prefix option. .It Fl o, -options Ar flag,... During signing, specifies a set of option flag to be embedded in the code signature. The value takes the form of a comma-separated list of names (with no spaces). Alternatively, a numeric value can be used to directly specify the option mask (CodeDirectory flag word). See OPTION FLAGS below. .It Fl P, -pagesize Ar pagesize Indicates the granularity of code signing. Pagesize must be a power of two. Chunks of pagesize bytes are separately signed and can thus be independently verified as needed. As a special case, a pagesize of zero indicates that the entire code should be signed and verified as a single, possibly gigantic page. This option only applies to the main executable and has no effect on the sealing of associated data, including resources. .It Fl r, -requirements Ar requirements During signing, indicates that internal requirements should be embedded in the code path(s) as specified. See "specifying requirements" below. .br During display, indicates where to write the code's internal requirements. Use -r- to write them to standard output. .It Fl R, -test-requirement Ar requirement During verification, indicates that the path(s) given should be verified against the code requirement specified. If this option is omitted, the code is verified only for internal integrity and against its own designated requirement. .It Fl s, -sign Ar identity Sign the code at the path(s) given using this identity. See SIGNING IDENTITIES below. .It Fl v, -verbose [n] Sets (with a numeric value) or increments the verbosity level of output. Without the verbose option, no output is produced upon success, in the classic UNIX style. If no other options request a different action, the first -v encountered will be interpreted as --verify instead (and does not increase verbosity). .It Fl v, -verify Requests verification of code signatures. If other actions (sign, display, etc.) are also requested, -v is interpreted to mean --verbose. .It Fl -continue Instructs .Nm to continue processing path arguments even if processing one fails. If this option is given, exit due to operational errors is deferred until all path arguments have been considered. The exit code will then indicate the most severe failure (or, with equal severity, the first such failure encountered). .It Fl -dryrun During signing, performs almost all signing operations, but does not actually write the result anywhere. Cryptographic signatures are still generated, actually using the given signing identity and triggering any access control checks normally, though the resulting signature is then discarded. .It Fl -file-list Ar path When signing or displaying a signature, .Nm writes to the given path a list of files that may have been modified as part of the signing process. This is useful for installer or patcher programs that need to know what was changed or what files are needed to make up the "signature" of a program. The file given is appended-to, with one line per absolute path written. An argument of "-" (single dash) denotes standard output. Note that the list may be somewhat pessimistic - all files not listed are guaranteed to be unchanged by the signing process, but some of the listed files may not actually have changed. Also note that modification may have been made to extended attributes of these files. .It Fl -ignore-resources During static validation, do not validate the contents of the code's resources. In effect, this will pass validation on code whose resources have been corrupted (or inappropriately signed). On large programs, it will also substantially speed up static validation, since all the resources will not be read into memory. Obviously, the outcome of such a validation should be considered on its merits. .It Fl -keychain Ar filename During signing, only search for the signing identity in the keychain file specified. This can be used to break any matching ties if you have multiple similarly-named identities in several keychains on the user's search list. Note that the standard keychain search path is still consulted while constructing the certificate chain being embedded in the signature. .It Fl -prefix Ar string If no explicit unique identifier is specified (using the -i option), and if the implicitly generated identifier does not contain any dot (.) characters, then the given string is prefixed to the identifier before use. If the implicit identifier contains a dot, it is used as-is. Typically, this is used to deal with command tools without Info.plists, whose default identifier is simply the command's filename; the conventional prefix used is com.domain. (note that the final dot needs to be explicit). .It Fl -resource-rules=filename During signing, this option overrides the default rules for collecting bundle resources to be sealed into the signature. The argument is the path to a property list (plist) file containing resource scanning instructions. .El .Pp .Sh OPERATION .\" Signing .\" ============================================================================= In the first synopsis form, .Nm attempts to sign the code objects at the .Ar path(s) given, using the .Ar identity provided. Internal .Ar requirements are embedded if requested; if no -r option is given, there are no internal requirements. If an .Ar identifier is explicitly given, it is sealed into all .Ar path(s) . Otherwise, each path derives its .Ar identifier independently from its Info.plist or pathname. The .Ar pagesize can be used to control the granularity of the code hash table. Usually, only specific sizes are acceptable to the verifying agents; this option should be used only in special cases. .Pp .\" Verification .\" ============================================================================= In the second synopsis form, .Nm verifies the code signatures on all the .Ar path(s) given. The verification confirms that the code at those .Ar path(s) is signed, that the signature is valid, and that all sealed components are unaltered. If a .Ar requirement is given, each .Ar path is also checked against this requirement (but see DIAGNOSTICS below). .br If a .Ar path begins with a decimal digit, it is interpreted as the process id of a running process in the system, and dynamic validation is performed on that process instead. This includes verifying the process's source on disk, but also extends to that particular process's dynamic validity state. .Pp .\" Display/dump .\" ============================================================================= In the third synopsis form, .Nm displays the contents of the signatures on the .Ar path(s) given. More information is displayed as the verbosity level increases. This form may not completely verify the signatures on the .Ar path(s) ; though it may perform some verification steps in the process of obtaining information about the .Ar path(s) . If the .Ar -r path option is given, internal requirements will be extracted from the .Ar path(s) and written to .Ar path ; specify a dash "-" to write to standard output. If the code does not contain an explicit designated requirement, the implied one will be retrieved and written out as a source comment. .Pp .\" Hosting chain .\" ============================================================================= In the fourth synopsis form, .Nm constructs the hosting path for each .Ar pid given and writes it, one host per line, to standard output. The hosting path is the chain of code signing hosts starting with the most specific code known to be running, and ending with the root of trust (the kernel). If the .Ar --verbose option is given, the dynamic validity status of each host is also displayed, separated from the path by a tab character. Note that hosting chains can at times be constructed for invalid or even unsigned code, and the output of this form of the .Nm command should not be taken as a statement of formal code validity. Only .Nm .Ar --verify can do that. .Sh SIGNING IDENTITIES To be used for code signing, a digital identity must be stored in a keychain that is on the calling user's keychain search list. The identity is located by searching all such keychains for a certificate whose subject contains the .Ar identity string given. If there are multiple matches, the invocation fails and no signing is performed. .br If the --keychain argument is used, the identity is only looked-for in the specific keychain given. Even in that case, the keychain search list is still consulted for additional certificates needed to complete the signature. .br .Nm will attempt to embed the entire certificate chain documenting the signing identity in the code signature it generates, including any intermediate certificates and the anchor certificate. It looks for those in the keychain search list of the user performing the signing operation. If it cannot generate the entire certificate chain, signing may still succeed, but verification may fail if the verifying code does not have an independent source for the missing certificates. .br All keychain sources are supported if properly configured. In particular, it is possible to sign code with an identity stored on a supported smart card. If your signing identity is stored in a different form, you need to import it into a keychain to use it with this program. .Sh SPECIFYING REQUIREMENTS The .Ar requirement(s) arguments (-r and -R) can be given in various forms. A plain text argument is taken to be a path to a file containing the requirement(s). .Nm will accept both binary files containing properly compiled requirements code, and source files that are automatically compiled before use. An argument of "-" requests that the requirement(s) are read from standard input. Finally, an argument that begins with an equal sign "=" is taken as a literal requirements source text, and is compiled accordingly for use. .Sh OPTION FLAGS When signing, a set of option flags can be specified to change the behavior of the system when using the signed code. The following flags are recognized by .Nm ; other flags may exist at the API level. Note that you can specify any valid flags by giving a (single) numeric value instead of a list of option names. .Bl -tag -width expires .It kill Forces the signed code's kill flag to be set when the code begins execution. Code with the kill flag set will die when it loses its identity. It is therefore safe to assume that code marked this way will have a valid identity while alive. .It hard Forces the signed code's hard flag to be set when the code begins execution. The hard flag is a hint to the system that the code prefers to be denied access to resources if gaining such access would invalidate its identity. .It host Marks the code as capable of hosting guest code. You must set this option if you want the code to act as a code signing host, controlling subsidiary ("guest") code. This flag is automatically set if the code's internal requirement (-r option) contains a guest requirement. .It expires Forces any validation of the code to consider expiration of the certificates involved. Code signatures generated with this flag will fail to verify once any of the certificates in the chain has expired, regardless of the intentions of the verifier. Note that this flag does not affect any other checks that may cause signature validation to fail, including checks for certificate revocation. .El .Pp Note that code can set the hard and kill flags on itself at any time. The signing options only affect their initial state. Once set by any means, these flags cannot be cleared for the lifetime of the code. .Pp If the code being signed has an Info.plist that contains a key named CSFlags, the value of that key is taken as the default value for the options. The value of CSFlags can be a string in the same form as the --options option, or an integer number specifying the absolute numeric value. .\".Sh FILES .\".Bl -tag -width /Library/Keychains/System.keychain -compact .\".It Pa /Library/Keychains/System.keychain .Sh EXAMPLES To sign application Terminal.app with a signing identity named "authority": .Dl codesign -s authority Terminal.app .Pp To sign the command-line tool "helper" with the same identity, overwriting any existing signature, using the signing identifier "com.mycorp.helper", and embedding a custom designated requirement .Dl codesign -f -s authority --prefix=com.mycorp. -r="designated => anchor /tmp/foo" helper .Pp To verify the signature on Terminal.app and produce some verbose output: .Dl codesign -vv Terminal.app .Pp To verify the dynamic validity of process 666: .Dl codesign -v 666 .Pp To display all information about Terminal.app's code signature: .Dl codesign -dvvvv Terminal.app .Pp To extract the internal requirements from Terminal.app to standard output: .Dl codesign -d -r- Terminal.app .Sh DIAGNOSTICS .Nm exits 0 if all operations succeed. This indicates that all codes were signed, or all codes verified properly as requested. If a signing or verification operation fails, the exit code is 1. Exit code 2 indicates invalid arguments or parameters. Exit code 3 indicates that during verification, all path(s) were properly signed but at least one of them failed to satisfy the requirement specified with the .Ar -R option. .Pp For verification, all path arguments are always investigated before the program exits. For all other operations, the program exits upon the first error encountered, and any further path arguments are ignored, unless the --continue option was specified, in which case .Nm will defer the failure exit until after it has attempted to process all path arguments in turn. .Sh SIGNING ATOMICITY When a signing operation fails for a particular code, the code may already have been modified in certain ways by adding requisite signature data. Such information will not change the operation of the code, and the code will not be considered signed even with these pieces in place. You may repeat the signing operation without difficulty. Note however that a previous valid signature may have been effectively destroyed if you specified the -f option. .br If you require atomicity of signing stricter than provided by .Nm , you need to make an explicit copy of your code and sign that. .Sh SEE ALSO .Xr csreq 1 .Sh HISTORY The .Nm command first appeared in Mac OS 10.5.0 (Leopard). .Sh NOTES .Nm has several options that are purposely left undocumented in this manual page because they are either experimental (and subject to change at any time), or unadvised to the unwary.