gpgsm

NAME

gpgsm - CMS encryption and signing tool

SYNOPSIS

gpgsm [--homedir dir] [--options file] [options] command [args]

DESCRIPTION

gpgsm is a tool similar to gpg to provide digital encryption and signing services on X.509 certificates and the CMS protocol. It is mainly used as a backend for S/MIME mail processing. gpgsm includes a full features certificate management and complies with all rules defined for the German Sphinx project.

COMMANDS

Commands are not distinguished from options except for the fact that only one command is allowed.

Commands not specific to the function

 
--version
Print the program version and licensing information. Note that you cannot abbreviate this command.
--help, -h
Print a usage message summarizing the most useful command-line options. Note that you cannot abbreviate this command.
--warranty
Print warranty information. Note that you cannot abbreviate this command.
--dump-options
Print a list of all available options and commands. Note that you cannot abbreviate this command.

Commands to select the type of operation

 
--encrypt
Perform an encryption. The keys the data is encrypted too must be set using the option --recipient.
--decrypt
Perform a decryption; the type of input is automatically determined. It may either be in binary form or PEM encoded; automatic determination of base-64 encoding is not done.
--sign
Create a digital signature. The key used is either the fist one found in the keybox or those set with the --local-user option.
--verify
Check a signature file for validity. Depending on the arguments a detached signature may also be checked.
 
--server
Run in server mode and wait for commands on the stdin.
--call-dirmngr command [args]
Behave as a Dirmngr client issuing the request command with the optional list of args. The output of the Dirmngr is printed stdout. Please note that file names given as arguments should have an absolute file name (i.e. commencing with / because they are passed verbatim to the Dirmngr and the working directory of the Dirmngr might not be the same as the one of this client. Currently it is not possible to pass data via stdin to the Dirmngr. command should not contain spaces.

This is command is required for certain maintaining tasks of the dirmngr where a dirmngr must be able to call back to gpgsm. See the Dirmngr manual for details.

--call-protect-tool arguments
Certain maintenance operations are done by an external program call gpg-protect-tool; this is usually not installed in a directory listed in the PATH variable. This command provides a simple wrapper to access this tool. arguments are passed verbatim to this command; use aq--helpaq to get a list of supported operations.

How to manage the certificates and keys

 
--gen-key
This command allows the creation of a certificate signing request. It is commonly used along with the --output option to save the created CSR into a file. If used with the --batch a parameter file is used to create the CSR.
--list-keys
-k
List all available certificates stored in the local key database. Note that the displayed data might be reformatted for better human readability and illegal characters are replaced by safe substitutes.
--list-secret-keys
-K
List all available certificates for which a corresponding a secret key is available.
--list-external-keys pattern
List certificates matching pattern using an external server. This utilizes the dirmngr service.
--list-chain
Same as --list-keys but also prints all keys making up the chain.
--dump-cert
--dump-keys
List all available certificates stored in the local key database using a format useful mainly for debugging.
--dump-chain
Same as --dump-keys but also prints all keys making up the chain.
--dump-secret-keys
List all available certificates for which a corresponding a secret key is available using a format useful mainly for debugging.
--dump-external-keys pattern
List certificates matching pattern using an external server. This utilizes the dirmngr service. It uses a format useful mainly for debugging.
--keydb-clear-some-cert-flags
This is a debugging aid to reset certain flags in the key database which are used to cache certain certificate stati. It is especially useful if a bad CRL or a weird running OCSP responder did accidentally revoke certificate. There is no security issue with this command because gpgsm always make sure that the validity of a certificate is checked right before it is used.
--delete-keys pattern
Delete the keys matching pattern. Note that there is no command to delete the secret part of the key directly. In case you need to do this, you should run the command gpgsm --dump-secret-keys KEYID before you delete the key, copy the string of hex-digits in the ``keygrip'' line and delete the file consisting of these hex-digits and the suffix .key from the oqprivate-keys-v1.dcq directory below our GnuPG home directory (usually oq~/.gnupgcq).
--export [pattern]
Export all certificates stored in the Keybox or those specified by the optional pattern. Those pattern consist of a list of user ids (see: [how-to-specify-a-user-id]). When used along with the --armor option a few informational lines are prepended before each block. There is one limitation: As there is no commonly agreed upon way to pack more than one certificate into an ASN.1 structure, the binary export (i.e. without using armor) works only for the export of one certificate. Thus it is required to specify a pattern which yields exactly one certificate. Ephemeral certificate are only exported if all pattern are given as fingerprints or keygrips.
--export-secret-key-p12 key-id
Export the private key and the certificate identified by key-id in a PKCS#12 format. When using along with the --armor option a few informational lines are prepended to the output. Note, that the PKCS#12 format is not very secure and this command is only provided if there is no other way to exchange the private key. (see: [option --p12-charset])
--import [files]
Import the certificates from the PEM or binary encoded files as well as from signed-only messages. This command may also be used to import a secret key from a PKCS#12 file.
--learn-card
Read information about the private keys from the smartcard and import the certificates from there. This command utilizes the gpg-agent and in turn the scdaemon.
--passwd user_id
Change the passphrase of the private key belonging to the certificate specified as user_id. Note, that changing the passphrase/PIN of a smartcard is not yet supported.

OPTIONS

GPGSM comes features a bunch of options to control the exact behaviour and to change the default configuration.

How to change the configuration

 

These options are used to change the configuration and are usually found in the option file.

--options file
Reads configuration from file instead of from the default per-user configuration file. The default configuration file is named oqgpgsm.confcq and expected in the oq.gnupgcq directory directly below the home directory of the user.
--homedir dir
Set the name of the home directory to dir. If this option is not used, the home directory defaults to oq~/.gnupgcq. It is only recognized when given on the command line. It also overrides any home directory stated through the environment variable oqGNUPGHOMEcq or (on W32 systems) by means of the Registry entry HKCU\Software\GNU\GnuPG:HomeDir.
-v
--verbose
Outputs additional information while running. You can increase the verbosity by giving several verbose commands to gpgsm, such as aq-vvaq.
--policy-file filename
Change the default name of the policy file to filename.
--agent-program file
Specify an agent program to be used for secret key operations. The default value is the oq/usr/local/bin/gpg-agentcq. This is only used as a fallback when the environment variable GPG_AGENT_INFO is not set or a running agent can't be connected.
  
--dirmngr-program file
Specify a dirmngr program to be used for CRL checks. The default value is oq/usr/sbin/dirmngrcq. This is only used as a fallback when the environment variable DIRMNGR_INFO is not set or a running dirmngr can't be connected.
--prefer-system-dirmngr
If a system wide dirmngr is running in daemon mode, first try to connect to this one. Fallback to a pipe based server if this does not work. Under Windows this option is ignored because the system dirmngr is always used.
--disable-dirmngr
Entirely disable the use of the Dirmngr.
--no-secmem-warning
Don't print a warning when the so called "secure memory" can't be used.
--log-file file
When running in server mode, append all logging output to file.
 
--enable-policy-checks
--disable-policy-checks
By default policy checks are enabled. These options may be used to change it.
--enable-crl-checks
--disable-crl-checks
By default the CRL checks are enabled and the DirMngr is used to check for revoked certificates. The disable option is most useful with an off-line network connection to suppress this check.
--enable-trusted-cert-crl-check
--disable-trusted-cert-crl-check
By default the CRL for trusted root certificates are checked like for any other certificates. This allows a CA to revoke its own certificates voluntary without the need of putting all ever issued certificates into a CRL. The disable option may be used to switch this extra check off. Due to the caching done by the Dirmngr, there won't be any noticeable performance gain. Note, that this also disables possible OCSP checks for trusted root certificates. A more specific way of disabling this check is by adding the ``relax'' keyword to the root CA line of the oqtrustlist.txtcq
--force-crl-refresh
Tell the dirmngr to reload the CRL for each request. For better performance, the dirmngr will actually optimize this by suppressing the loading for short time intervals (e.g. 30 minutes). This option is useful to make sure that a fresh CRL is available for certificates hold in the keybox. The suggested way of doing this is by using it along with the option --with-validation for a key listing command. This option should not be used in a configuration file.
--enable-ocsp
--disable-ocsp
Be default OCSP checks are disabled. The enable option may be used to enable OCSP checks via Dirmngr. If CRL checks are also enabled, CRLs will be used as a fallback if for some reason an OCSP request won't succeed. Note, that you have to allow OCSP requests in Dirmngr's configuration too (option --allow-ocsp and configure dirmngr properly. If you don't do so you will get the error code aqNot supportedaq.
--auto-issuer-key-retrieve
If a required certificate is missing while validating the chain of certificates, try to load that certificate from an external location. This usually means that Dirmngr is employed to search for the certificate. Note that this option makes a "web bug" like behavior possible. LDAP server operators can see which keys you request, so by sending you a message signed by a brand new key (which you naturally will not have on your local keybox), the operator can tell both your IP address and the time when you verified the signature.
--validation-model name
This option changes the default validation model. The only possible values are "shell" (which is the default) and "chain" which forces the use of the chain model. The chain model is also used if an option in the oqtrustlist.txtcq or an attribute of the certificate requests it. However the standard model (shell) is in that case always tried first.
--ignore-cert-extension oid
Add oid to the list of ignored certificate extensions. The oid is expected to be in dotted decimal form, like 2.5.29.3. This option may used more than once. Critical flagged certificate extensions matching one of the OIDs in the list are treated as if they are actually handled and thus the certificate won't be rejected due to an unknown critical extension. Use this option with care because extensions are usually flagged as critical for a reason.

Input and Output

 
--armor
-a
Create PEM encoded output. Default is binary output.
--base64
Create Base-64 encoded output; i.e. PEM without the header lines.
--assume-armor
Assume the input data is PEM encoded. Default is to autodetect the encoding but this is may fail.
--assume-base64
Assume the input data is plain base-64 encoded.
--assume-binary
Assume the input data is binary encoded.
--p12-charset name
gpgsm uses the UTF-8 encoding when encoding passphrases for PKCS#12 files. This option may be used to force the passphrase to be encoded in the specified encoding name. This is useful if the application used to import the key uses a different encoding and thus won't be able to import a file generated by gpgsm. Commonly used values for name are Latin1 and CP850. Note that gpgsm itself automagically imports any file with a passphrase encoded to the most commonly used encodings.
--default-key user_id
Use user_id as the standard key for signing. This key is used if no other key has been defined as a signing key. Note, that the first --local-users option also sets this key if it has not yet been set; however --default-key always overrides this.
--local-user user_id
-u user_id
Set the user(s) to be used for signing. The default is the first secret key found in the database.
--recipient name
-r
Encrypt to the user id name. There are several ways a user id may be given (see: [how-to-specify-a-user-id]).
--output file
-o file
Write output to file. The default is to write it to stdout.
--with-key-data
Displays extra information with the --list-keys commands. Especially a line tagged grp is printed which tells you the keygrip of a key. This string is for example used as the file name of the secret key.
--with-validation
When doing a key listing, do a full validation check for each key and print the result. This is usually a slow operation because it requires a CRL lookup and other operations.

When used along with --import, a validation of the certificate to import is done and only imported if it succeeds the test. Note that this does not affect an already available certificate in the DB. This option is therefore useful to simply verify a certificate.

--with-md5-fingerprint
For standard key listings, also print the MD5 fingerprint of the certificate.

How to change how the CMS is created.

 
--include-certs n
Using n of -2 includes all certificate except for the root cert, -1 includes all certs, 0 does not include any certs, 1 includes only the signers cert (this is the default) and all other positive values include up to n certificates starting with the signer cert. The default is -2.
--cipher-algo oid
Use the cipher algorithm with the ASN.1 object identifier oid for encryption. For convenience the strings 3DES, AES and AES256 may be used instead of their OIDs. The default is 3DES (1.2.840.113549.3.7).
  
--digest-algo name
Use name as the message digest algorithm. Usually this algorithm is deduced from the respective signing certificate. This option forces the use of the given algorithm and may lead to severe interoperability problems.

Doing things one usually don't want to do.

 
--extra-digest-algo name
Sometimes signatures are broken in that they announce a different digest algorithm than actually used. gpgsm uses a one-pass data processing model and thus needs to rely on the announced digest algorithms to properly hash the data. As a workaround this option may be used to tell gpg to also hash the data using the algorithm name; this slows processing down a little bit but allows to verify such broken signatures. If gpgsm prints an error like ``digest algo 8 has not been enabled'' you may want to try this option, with aqSHA256aq for name.
--faked-system-time epoch
This option is only useful for testing; it sets the system time back or forth to epoch which is the number of seconds elapsed since the year 1970. Alternatively epoch may be given as a full ISO time string (e.g. "20070924T154812").
--with-ephemeral-keys
Include ephemeral flagged keys in the output of key listings. Note that they are included anyway if the key specification for a listing is given as fingerprint or keygrip.
--debug-level level
Select the debug level for investigating problems. level may be a numeric value or by a keyword:
none
No debugging at all. A value of less than 1 may be used instead of the keyword.
basic
Some basic debug messages. A value between 1 and 2 may be used instead of the keyword.
advanced
More verbose debug messages. A value between 3 and 5 may be used instead of the keyword.
expert
Even more detailed messages. A value between 6 and 8 may be used instead of the keyword.
guru
All of the debug messages you can get. A value greater than 8 may be used instead of the keyword. The creation of hash tracing files is only enabled if the keyword is used.

How these messages are mapped to the actual debugging flags is not specified and may change with newer releases of this program. They are however carefully selected to best aid in debugging.

--debug flags
This option is only useful for debugging and the behaviour may change at any time without notice; using --debug-levels is the preferred method to select the debug verbosity. FLAGS are bit encoded and may be given in usual C-Syntax. The currently defined bits are:
0 (1)
X.509 or OpenPGP protocol related data
1 (2)
values of big number integers
2 (4)
low level crypto operations
5 (32)
memory allocation
6 (64)
caching
7 (128)
show memory statistics.
9 (512)
write hashed data to files named dbgmd-000*
10 (1024)
trace Assuan protocol

Note, that all flags set using this option may get overridden by --debug-level.

--debug-all
Same as --debug=0xffffffff
--debug-allow-core-dump
Usually gpgsm tries to avoid dumping core by well written code and by disabling core dumps for security reasons. However, bugs are pretty durable beasts and to squash them it is sometimes useful to have a core dump. This option enables core dumps unless the Bad Thing happened before the option parsing.
--debug-no-chain-validation
This is actually not a debugging option but only useful as such. It lets gpgsm bypass all certificate chain validation checks.
--debug-ignore-expiration
This is actually not a debugging option but only useful as such. It lets gpgsm ignore all notAfter dates, this is used by the regression tests.
--fixed-passphrase string
Supply the passphrase string to the gpg-protect-tool. This option is only useful for the regression tests included with this package and may be revised or removed at any time without notice.
--no-common-certs-import
Suppress the import of common certificates on keybox creation.

All the long options may also be given in the configuration file after stripping off the two leading dashes.

HOW TO SPECIFY A USER ID

There are different ways to specify a user ID to GnuPG. Some of them are only valid for gpg others are only good for gpgsm. Here is the entire list of ways to specify a key:

By key Id.
This format is deduced from the length of the string and its content or 0x prefix. The key Id of an X.509 certificate are the low 64 bits of its SHA-1 fingerprint. The use of key Ids is just a shortcut, for all automated processing the fingerprint should be used.

When using gpg an exclamation mark (!) may be appended to force using the specified primary or secondary key and not to try and calculate which primary or secondary key to use.

The last four lines of the example give the key ID in their long form as internally used by the OpenPGP protocol. You can see the long key ID using the option --with-colons.

 234567C4
 0F34E556E
 01347A56A
 0xAB123456
 
 234AABBCC34567C4
 0F323456784E56EAB
 01AB3FED1347A5612
 0x234AABBCC34567C4
 
By fingerprint.
This format is deduced from the length of the string and its content or the 0x prefix. Note, that only the 20 byte version fingerprint is available with gpgsm (i.e. the SHA-1 hash of the certificate).

When using gpg an exclamation mark (!) may be appended to force using the specified primary or secondary key and not to try and calculate which primary or secondary key to use.

The best way to specify a key Id is by using the fingerprint. This avoids any ambiguities in case that there are duplicated key IDs.

 1234343434343434C434343434343434
 123434343434343C3434343434343734349A3434
 0E12343434343434343434EAB3484343434343434
 0xE12343434343434343434EAB3484343434343434
 

(gpgsm also accepts colons between each pair of hexadecimal digits because this is the de-facto standard on how to present X.509 fingerprints.)

By exact match on OpenPGP user ID.
This is denoted by a leading equal sign. It does not make sense for X.509 certificates.
 =Heinrich Heine <heinrichh@uni-duesseldorf.de>
 
By exact match on an email address.
This is indicated by enclosing the email address in the usual way with left and right angles.
 <heinrichh@uni-duesseldorf.de>
 
By word match.
All words must match exactly (not case sensitive) but can appear in any order in the user ID or a subjects name. Words are any sequences of letters, digits, the underscore and all characters with bit 7 set.
 +Heinrich Heine duesseldorf
 
By exact match on the subject's DN.
This is indicated by a leading slash, directly followed by the RFC-2253 encoded DN of the subject. Note that you can't use the string printed by "gpgsm --list-keys" because that one as been reordered and modified for better readability; use --with-colons to print the raw (but standard escaped) RFC-2253 string
 /CN=Heinrich Heine,O=Poets,L=Paris,C=FR
 
By exact match on the issuer's DN.
This is indicated by a leading hash mark, directly followed by a slash and then directly followed by the rfc2253 encoded DN of the issuer. This should return the Root cert of the issuer. See note above.
 #/CN=Root Cert,O=Poets,L=Paris,C=FR
 
By exact match on serial number and issuer's DN.
This is indicated by a hash mark, followed by the hexadecimal representation of the serial number, then followed by a slash and the RFC-2253 encoded DN of the issuer. See note above.
 #4F03/CN=Root Cert,O=Poets,L=Paris,C=FR
 
By keygrip
This is indicated by an ampersand followed by the 40 hex digits of a keygrip. gpgsm prints the keygrip when using the command --dump-cert. It does not yet work for OpenPGP keys.
 &D75F22C3F86E355877348498CDC92BD21010A480
 
By substring match.
This is the default mode but applications may want to explicitly indicate this by putting the asterisk in front. Match is not case sensitive.
 Heine
 *Heine
 

Please note that we have reused the hash mark identifier which was used in old GnuPG versions to indicate the so called local-id. It is not anymore used and there should be no conflict when used with X.509 stuff.

Using the RFC-2253 format of DNs has the drawback that it is not possible to map them back to the original encoding, however we don't have to do this because our key database stores this encoding as meta data.

EXAMPLES

 $ gpgsm -er goo@bar.net <plaintext >ciphertext
 

gpgsm is often used as a backend engine by other software. To help with this a machine interface has been defined to have an unambiguous way to do this. This is most likely used with the --server command but may also be used in the standard operation mode by using the --status-fd option.

It is very important to understand the semantics used with signature verification. Checking a signature is not as simple as it may sound and so the operation is a bit complicated. In most cases it is required to look at several status lines. Here is a table of all cases a signed message may have:

The signature is valid
This does mean that the signature has been successfully verified, the certificates are all sane. However there are two subcases with important information: One of the certificates may have expired or a signature of a message itself as expired. It is a sound practise to consider such a signature still as valid but additional information should be displayed. Depending on the subcase gpgsm will issue these status codes:
  .RS
  .TP signature valid and nothing did expire
  GOODSIGVALIDSIGTRUST_FULLY
  .TP signature valid but at least one certificate has expired
  EXPKEYSIGVALIDSIGTRUST_FULLY
  .TP signature valid but expired
  EXPSIGVALIDSIGTRUST_FULLY
  Note, that this case is currently not implemented.
  .RE
The signature is invalid
This means that the signature verification failed (this is an indication of af a transfer error, a program error or tampering with the message). gpgsm issues one of these status codes sequences:
  .RS
  .TP BADSIG
  .TP GOODSIG, VALIDSIG TRUST_NEVER
  .RE
Error verifying a signature
For some reason the signature could not be verified, i.e. it can't be decided whether the signature is valid or invalid. A common reason for this is a missing certificate.

FILES

There are a few configuration files to control certain aspects of gpgsm's operation. Unless noted, they are expected in the current home directory (see: [option --homedir]).

gpgsm.conf
This is the standard configuration file read by gpgsm on startup. It may contain any valid long option; the leading two dashes may not be entered and the option may not be abbreviated. This default name may be changed on the command line (see: [option
  --options]).  You should backup this file.
policies.txt
This is a list of allowed CA policies. This file should list the object identifiers of the policies line by line. Empty lines and lines starting with a hash mark are ignored. Policies missing in this file and not marked as critical in the certificate will print only a warning; certificates with policies marked as critical and not listed in this file will fail the signature verification. You should backup this file.

For example, to allow only the policy 2.289.9.9, the file should look like this:

 # Allowed policies
 2.289.9.9  
 
qualified.txt
This is the list of root certificates used for qualified certificates. They are defined as certificates capable of creating legally binding signatures in the same way as handwritten signatures are. Comments start with a hash mark and empty lines are ignored. Lines do have a length limit but this is not a serious limitation as the format of the entries is fixed and checked by gpgsm: A non-comment line starts with optional whitespace, followed by exactly 40 hex character, white space and a lowercased 2 letter country code. Additional data delimited with by a white space is current ignored but might late be used for other purposes.

Note that even if a certificate is listed in this file, this does not mean that the certificate is trusted; in general the certificates listed in this file need to be listed also in oqtrustlist.txtcq.

This is a global file an installed in the data directory (e.g. oq/usr/share/gnupg/qualified.txtcq). GnuPG installs a suitable file with root certificates as used in Germany. As new Root-CA certificates may be issued over time, these entries may need to be updated; new distributions of this software should come with an updated list but it is still the responsibility of the Administrator to check that this list is correct.

Everytime gpgsm uses a certificate for signing or verification this file will be consulted to check whether the certificate under question has ultimately been issued by one of these CAs. If this is the case the user will be informed that the verified signature represents a legally binding (``qualified'') signature. When creating a signature using such a certificate an extra prompt will be issued to let the user confirm that such a legally binding signature shall really be created.

Because this software has not yet been approved for use with such certificates, appropriate notices will be shown to indicate this fact.

help.txt
This is plain text file with a few help entries used with pinentry as well as a large list of help items for gpg and gpgsm. The standard file has English help texts; to install localized versions use filenames like oqhelp.LL.txtcq with LL denoting the locale. GnuPG comes with a set of predefined help files in the data directory (e.g. oq/usr/share/gnupg/help.de.txtcq) and allows overriding of any help item by help files stored in the system configuration directory (e.g. oq/etc/gnupg/help.de.txtcq). For a reference of the help file's syntax, please see the installed oqhelp.txtcq file.
com-certs.pem
This file is a collection of common certificates used to populated a newly created oqpubring.kbxcq. An administrator may replace this file with a custom one. The format is a concatenation of PEM encoded X.509 certificates. This global file is installed in the data directory (e.g. oq/usr/share/gnupg/qualified.txtcq).

Note that on larger installations, it is useful to put predefined files into the directory oq/etc/skel/.gnupg/cq so that newly created users start up with a working configuration. For existing users a small helper script is provided to create these files (see: [addgnupghome]).

For internal purposes gpgsm creates and maintains a few other files; they all live in in the current home directory (see: [option --homedir]). Only gpgsm may modify these files.

pubring.kbx
This a database file storing the certificates as well as meta information. For debugging purposes the tool kbxutil may be used to show the internal structure of this file. You should backup this file.
random_seed
This content of this file is used to maintain the internal state of the random number generator across invocations. The same file is used by other programs of this software too.
S.gpg-agent
If this file exists and the environment variable oqGPG_AGENT_INFOcq is not set, gpgsm will first try to connect to this socket for accessing gpg-agent before starting a new gpg-agent instance. Under Windows this socket (which in reality be a plain file describing a regular TCP listening port) is the standard way of connecting the gpg-agent.

SEE ALSO

gpg2(1), gpg-agent(1)

The full documentation for this tool is maintained as a Texinfo manual. If GnuPG and the info program are properly installed at your site, the command

 info gnupg
 

should give you access to the complete manual including a menu structure and an index.