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GPG(1)			     GNU Privacy Guard 2.6			GPG(1)

NAME
       gpg - OpenPGP encryption	and signing tool

SYNOPSIS
       gpg [--homedir dir] [--options file] [options] command [args]

DESCRIPTION
       gpg  is the OpenPGP part	of the GNU Privacy Guard (GnuPG). It is	a tool
       to provide digital encryption and signing services  using  the  OpenPGP
       standard.  gpg  features	 complete key management and all the bells and
       whistles	you would expect from a	full OpenPGP implementation.

       There are two main versions of GnuPG: GnuPG 1.x and GnuPG  2.x.	 GnuPG
       2.x  supports modern encryption algorithms and thus should be preferred
       over GnuPG 1.x.	You only need  to  use	GnuPG  1.x  if	your  platform
       doesn't	support	 GnuPG 2.x, or you need	support	for some features that
       GnuPG 2.x has deprecated	for security reasons,  e.g.,  decrypting  data
       created with PGP-2 keys.

       If  you	are  looking for version 1 of GnuPG, you may find that version
       installed under the name	gpg1.

RETURN VALUE
       The program returns 0 if	there are no severe errors, 1 if  at  least  a
       signature was bad, and other error codes	for fatal errors.

       Note  that  signature verification requires exact knowledge of what has
       been signed and by whom it has been signed.  Using only the return code
       is thus not an appropriate way to verify	a signature by a script.   Ei-
       ther make proper	use or the status codes	or use the gpgv	tool which has
       been designed to	make signature verification easy for scripts.

WARNINGS
       Use  a good password for	your user account and make sure	that all secu-
       rity issues are always fixed on your  machine.	Also  employ  diligent
       physical	protection to your machine.  Consider to use a good passphrase
       as a last resort	protection to your secret key in the case your machine
       gets  stolen.   It  is  important that your secret key is never leaked.
       Using an	easy to	carry around token or smartcard	with the secret	key is
       often a advisable.

       If you are going	to verify detached signatures, make sure that the pro-
       gram knows about	it; either give	both filenames on the command line  or
       use `-' to specify STDIN.

       For  scripted  or  other	unattended use of gpg make sure	to use the ma-
       chine-parseable interface and not the default interface	which  is  in-
       tended  for direct use by humans.  The machine-parseable	interface pro-
       vides a stable and well documented API independent of the locale	or fu-
       ture changes  of	 gpg.	To  enable  this  interface  use  the  options
       --with-colons  and  --status-fd.	  For  certain	operations  the	option
       --command-fd may	come handy too.	 See this man page and the  file  `DE-
       TAILS'  for  the	 specification	of the interface.  Note	that the GnuPG
       ``info''	pages as well as the PDF version of the	GnuPG manual  features
       a  chapter  on  unattended use of GnuPG.	 As an alternative the library
       GPGME can be used as a high-level abstraction on	top of that interface.

INTEROPERABILITY
       GnuPG tries to be a very	flexible implementation	of the	OpenPGP	 stan-
       dard. In	particular, GnuPG implements many of the optional parts	of the
       standard,  such as the SHA-512 hash, and	the ZLIB and BZIP2 compression
       algorithms. It is important to be aware that not	all  OpenPGP  programs
       implement  these	 optional algorithms and that by forcing their use via
       the  --cipher-algo,  --digest-algo,   --cert-digest-algo,   or	--com-
       press-algo options in GnuPG, it is possible to create a perfectly valid
       OpenPGP message,	but one	that cannot be read by the intended recipient.

       There  are dozens of variations of OpenPGP programs available, and each
       supports	a slightly different subset of these optional algorithms.  For
       example,	until recently,	no (unhacked) version  of  PGP	supported  the
       BLOWFISH	cipher algorithm. A message using BLOWFISH simply could	not be
       read by a PGP user. By default, GnuPG uses the standard OpenPGP prefer-
       ences  system  that  will always	do the right thing and create messages
       that are	usable by all recipients, regardless of	which OpenPGP  program
       they  use.  Only	override this safe default if you really know what you
       are doing.

       If you absolutely must override the safe	default, or if the preferences
       on a given key are invalid for some reason, you are far better off  us-
       ing  the	 --pgp6,  --pgp7, or --pgp8 options. These options are safe as
       they do not force any particular	algorithms in  violation  of  OpenPGP,
       but rather reduce the available algorithms to a "PGP-safe" list.

COMMANDS
       Commands	 are  not  distinguished from options except for the fact that
       only one	command	is allowed.  Generally	speaking,  irrelevant  options
       are silently ignored, and may not be checked for	correctness.

       gpg  may	 be run	with no	commands. In this case it will print a warning
       perform a reasonable action depending on	the type of file it  is	 given
       as input	(an encrypted message is decrypted, a signature	is verified, a
       file containing keys is listed, etc.).

       If  you	run  into any problems,	please add the option --verbose	to the
       invocation to see more diagnostics.

   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 arbitrarily abbreviate this  com-
	      mand (though you can use its short form -h).

       --warranty
	      Print warranty information.

       --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

       --sign
       -s     Sign a message. This command may be combined with	--encrypt  (to
	      sign  and	encrypt	a message), --symmetric	(to sign and symmetri-
	      cally encrypt a message),	or both	--encrypt and --symmetric  (to
	      sign  and	encrypt	a message that can be decrypted	using a	secret
	      key or a passphrase).  The signing key is	chosen by  default  or
	      can  be  set explicitly using the	--local-user and --default-key
	      options.

       --clear-sign
       --clearsign
	      Make a cleartext signature.  The content in a  cleartext	signa-
	      ture  is readable	without	any special software. OpenPGP software
	      is only needed to	verify the  signature.	 cleartext  signatures
	      may  modify end-of-line whitespace for platform independence and
	      are not intended to be reversible.  The signing key is chosen by
	      default or can be	set  explicitly	 using	the  --local-user  and
	      --default-key options.

       --detach-sign
       -b     Make a detached signature.

       --encrypt
       -e     Encrypt  data  to	 one  or more public keys. This	command	may be
	      combined with --sign (to sign and	encrypt	a message),  --symmet-
	      ric  (to	encrypt	a message that can be decrypted	using a	secret
	      key or a passphrase), or --sign and --symmetric together (for  a
	      signed  message  that  can  be decrypted using a secret key or a
	      passphrase).  --recipient	and related options specify which pub-
	      lic keys to use for encryption.

       --symmetric
       -c     Encrypt with a symmetric cipher using a passphrase. The  default
	      symmetric	 cipher	 used  is  AES-256, but	may be chosen with the
	      --cipher-algo option. This command may be	combined  with	--sign
	      (for  a  signed  and symmetrically encrypted message), --encrypt
	      (for a message that may be decrypted  via	 a  secret  key	 or  a
	      passphrase), or --sign and --encrypt together (for a signed mes-
	      sage  that  may  be decrypted via	a secret key or	a passphrase).
	      gpg caches the passphrase	used for symmetric encryption so  that
	      a	decrypt	operation may not require that the user	needs to enter
	      the  passphrase.	 The  option  --no-symkey-cache	can be used to
	      disable this feature.

       --store
	      Store only (make a simple	literal	data packet).

       --add-recipients
       --change-recipients
	      These two	commands can be	used to	change the  recipients	of  an
	      encrypted	 file or to add	more recipients	without	fully decrypt-
	      ing the file.  This command works	by  decrypting	just  the  en-
	      crypted  session key and then encrypt the	session	key to the new
	      recipients given with the	--recipient options.   The  output  is
	      the entire file with the recipients added.  The advantage	over a
	      simple  decrypt  and encrypt is that any inner signature is kept
	      intact and that gpg does not need	to actually decrypt  the  bulk
	      of   the	data.	If  --change-recipients	 is  used  instead  of
	      --add-recipients all existing recipients are  removed  from  the
	      output file so than only the newly specified recipients are able
	      to  decrypt  the	new  file.  Note also that symmetric encrypted
	      session keys are removed from the	output for  both  variants  of
	      the command.

       --decrypt
       -d     Decrypt  the file	given on the command line (or STDIN if no file
	      is specified) and	write it to STDOUT (or the file	specified with
	      --output). If the	decrypted file is  signed,  the	 signature  is
	      also  verified. This command differs from	the default operation,
	      as it never writes to the	filename which is included in the file
	      and it rejects files that	don't begin with an encrypted message.

       --verify
	      Assume that the first argument is	a signed file  and  verify  it
	      without generating any output.  With no arguments, the signature
	      packet  is  read from STDIN.  If only one	argument is given, the
	      specified	file is	expected to include a complete signature.

	      With more	than one argument, the first argument should specify a
	      file with	a detached signature and the  remaining	 files	should
	      contain the signed data. To read the signed data from STDIN, use
	      `-'  as  the  second filename.  For security reasons, a detached
	      signature	will not read the signed material from	STDIN  if  not
	      explicitly specified.

	      Note:  If	 the option --batch is not used, gpg may assume	that a
	      single argument is a file	with a detached	signature, and it will
	      try to find a matching data file by stripping certain  suffixes.
	      Using  this historical feature to	verify a detached signature is
	      strongly discouraged; you	should always specify  the  data  file
	      explicitly.

	      Note:  When  verifying  a	cleartext signature, gpg verifies only
	      what makes up the	cleartext signed data and not any  extra  data
	      outside  of the cleartext	signature or the header	lines directly
	      following	the dash marker	line.  The option --output may be used
	      to write out the actual signed data, but there  are  other  pit-
	      falls with this format as	well.  It is suggested to avoid	clear-
	      text signatures in favor of detached signatures.

	      Note: With option	--batch	he verification	of signatures stops at
	      the  first bad signature.	 This is a safe	default	for unattended
	      processing but sometimes a status	for all	signatures is  needed.
	      To override this early bailout use the option --proc-all-sigs.

	      Note:  To	 check	whether	a file was signed by a certain key the
	      option --assert-signer can be used.  As an alternative the  gpgv
	      tool  can	 be  used.   gpgv  is  designed	to compare signed data
	      against a	list of	trusted	keys and returns with success only for
	      a	good signature.	 It has	its own	manual page.

       --multifile
	      This modifies certain other commands to  accept  multiple	 files
	      for  processing on the command line or read from STDIN with each
	      filename on a separate line. This	allows for many	 files	to  be
	      processed	 at once. --multifile may currently be used along with
	      --verify,	--encrypt, and --decrypt. Note that --multifile	--ver-
	      ify may not be used with detached	signatures.

       --verify-files
	      Identical	to --multifile --verify.

       --encrypt-files
	      Identical	to --multifile --encrypt.

       --decrypt-files
	      Identical	to --multifile --decrypt.

       --list-keys
       -k
       --list-public-keys
	      List the specified keys.	If no keys  are	 specified,  then  all
	      keys from	the configured public keyrings are listed.

	      Never  use  the  output of this command in scripts or other pro-
	      grams.  The output is intended only for humans and its format is
	      likely to	change.	 The --with-colons option emits	the output  in
	      a	stable,	machine-parseable format, which	is intended for	use by
	      scripts and other	programs.

       --list-secret-keys
       -K     List  the	specified secret keys.	If no keys are specified, then
	      all known	secret keys are	listed.	 A # after  the	 initial  tags
	      sec  or ssb means	that the secret	key or subkey is currently not
	      usable.  We also say that	this key has been taken	 offline  (for
	      example, a primary key can be taken offline by exporting the key
	      using  the  command  --export-secret-subkeys).   A > after these
	      tags indicate that the key is stored on a	smartcard.   See  also
	      --list-keys.

       --check-signatures
       --check-sigs
	      Same  as	--list-keys,  but  the key signatures are verified and
	      listed too.  Note	that for performance  reasons  the  revocation
	      status of	a signing key is not shown.  This command has the same
	      effect as	using --list-keys with --with-sig-check.

	      The  status  of the verification is indicated by a flag directly
	      following	the "sig" tag (and thus	before the flags described be-
	      low.  A "!" indicates that the signature has  been  successfully
	      verified,	 a "-" denotes a bad signature and a "%" is used if an
	      error occurred while checking the	signature (e.g.,  a  non  sup-
	      ported  algorithm).   Signatures	where  the  public  key	is not
	      available	are not	 listed;  to  see  their  keyids  the  command
	      --list-sigs can be used.

	      For  each	 signature  listed, there are several flags in between
	      the signature status flag	and keyid.   These  flags  give	 addi-
	      tional  information  about  each	key  signature.	  From left to
	      right, they are the numbers 1--3	for  certificate  check	 level
	      (see --ask-cert-level), "L" for a	local or non-exportable	signa-
	      ture  (see  --lsign-key),	 "R" for a nonRevocable	signature (see
	      the --edit-key command "nrsign"),	"P" for	a signature that  con-
	      tains  a policy URL (see --cert-policy-url), "N" for a signature
	      that contains a notation (see --cert-notation), "X" for  an  eX-
	      pired signature (see --ask-cert-expire), and the numbers 1--9 or
	      "T" for 10 and above to indicate trust signature levels (see the
	      --edit-key command "tsign").

       --locate-keys
       --locate-external-keys
	      Locate the keys given as arguments.  This	command	basically uses
	      the same algorithm as used when locating keys for	encryption and
	      may  thus	be used	to see what keys gpg might use.	 In particular
	      external methods as defined by --auto-key-locate are used	to lo-
	      cate a key if the	arguments comain valid mail  addresses.	  Only
	      public keys are listed.

	      The  variant  --locate-external-keys does	not consider a locally
	      existing key and can thus	be used	to force the refresh of	a  key
	      via the defined external methods.	 If a fingerprint is given and
	      and   the	 methods  defined  by  --auto-key-locate  define  LDAP
	      servers, the key is fetched from these resources;	 defined  non-
	      LDAP keyservers are skipped.

       --show-keys
	      This commands takes OpenPGP keys as input	and prints information
	      about  them in the same way the command --list-keys does for lo-
	      cally stored key.	  In  addition	the  list  options  show-unus-
	      able-uids,  show-unusable-subkeys,  show-notations and show-pol-
	      icy-urls are also	enabled.  As usual for	automated  processing,
	      this command should be combined with the option --with-colons.

       --fingerprint
	      List  all	 keys (or the specified	ones) along with their finger-
	      prints. This is the same output as --list-keys but with the  ad-
	      ditional output of a line	with the fingerprint. May also be com-
	      bined  with --check-signatures.  If this command is given	twice,
	      the fingerprints of all secondary	keys  are  listed  too.	  This
	      command also forces pretty printing of fingerprints if the keyid
	      format has been set to "none".

       --list-packets
	      List  only the sequence of packets.  This	command	is only	useful
	      for debugging.  When used	with option --verbose the  actual  MPI
	      values  are  dumped  and	not only their lengths.	 Note that the
	      output of	this command may change	with new releases.

       --edit-card
       --card-edit
	      Present a	menu to	work with a smartcard. The  subcommand	"help"
	      provides	an  overview on	available commands. For	a detailed de-
	      scription, please	see the	Card HOWTO at  https://gnupg.org/docu-
	      mentation/howtos.html#GnuPG-cardHOWTO  .	 Please	 note that the
	      command "openpgp"	can be used to switch to the OpenPGP  applica-
	      tion  of	cards which by default are presenting another applica-
	      tion (e.g., PIV).

       --card-status
	      Show the content of the smart card.

       --change-pin
	      Present a	menu to	allow changing the PIN of  a  smartcard.  This
	      functionality  is	also available as the subcommand "passwd" with
	      the --edit-card command.

       --delete-keys name
	      Remove key from the public keyring. In batch mode	 either	 --yes
	      is required or the key must be specified by fingerprint. This is
	      a	 safeguard  against  accidental	deletion of multiple keys.  If
	      the exclamation mark syntax is used with the  fingerprint	 of  a
	      subkey  only  that subkey	is deleted; if the exclamation mark is
	      used with	the fingerprint	of the primary key the	entire	public
	      key is deleted.

       --delete-secret-keys name
	      Remove  key  from	the secret keyring. In batch mode the key must
	      be specified by fingerprint.  The	option --yes can  be  used  to
	      advise gpg-agent not to request a	confirmation.  This extra pre-
	      caution  is  done	 because gpg can't be sure that	the secret key
	      (as controlled by	gpg-agent) is only used	for the	given  OpenPGP
	      public  key.   If	 the  exclamation mark syntax is used with the
	      fingerprint of a subkey only the secret part of that  subkey  is
	      deleted; if the exclamation mark is used with the	fingerprint of
	      the  primary  key	 only  the  secret  part of the	primary	key is
	      deleted.

       --delete-secret-and-public-key name
	      Same as --delete-key, but	if a secret key	exists,	it will	be re-
	      moved first. In batch mode the key must be specified by  finger-
	      print.   The option --yes	can be used to advise gpg-agent	not to
	      request a	confirmation.

       --export
	      Either export all	keys from all keyrings	(default  keyring  and
	      those  registered	via option --keyring), or if at	least one name
	      is given,	those of the given name. The exported keys are written
	      to STDOUT	or to the file given with option  --output.   Use  to-
	      gether with --armor to mail those	keys.

       --send-keys keyIDs
	      Similar  to --export but sends the keys to a keyserver.  Finger-
	      prints may be used instead of key	IDs.  Don't send your complete
	      keyring to a keyserver --- select	only those keys	which are  new
	      or changed by you.  If no	keyIDs are given, gpg does nothing.

	      Take  care: Keyservers are by design write only systems and thus
	      it is not	possible to ever delete	keys once they have been  send
	      to a keyserver.

       --export-secret-keys
       --export-secret-subkeys
	      Same  as --export, but exports the secret	keys instead.  The ex-
	      ported keys are written to STDOUT	or to the file given with  op-
	      tion --output.  This command is often used along with the	option
	      --armor  to allow	for easy printing of the key for paper backup;
	      however the external tool	paperkey does a	better job of creating
	      backups on paper.	 Note that exporting a secret key can be a se-
	      curity risk if the exported keys are sent	over an	insecure chan-
	      nel.

	      The second form of the command has the special property to  ren-
	      der  the	secret	part of	the primary key	useless; this is a GNU
	      extension	to OpenPGP and other implementations can  not  be  ex-
	      pected  to  successfully import such a key.  Its intended	use is
	      in generating a full key with an additional signing subkey on  a
	      dedicated	 machine.   This  command then exports the key without
	      the primary key to the main machine.

	      GnuPG may	ask you	to enter the passphrase	for the	key.  This  is
	      required,	 because  the internal protection method of the	secret
	      key is different from the	one specified by the OpenPGP protocol.

	      To support Kyber keys, which are implemented as a	composite  key
	      along with an ECC	key (aka PQ/T hybrid key), a GNU specific pro-
	      tocol extension is used.	This allows the	use of a smartcard for
	      just  one	 part  of such a composite key.	 A re-encryption to an
	      internal format is not needed as the keys	restored in  the  very
	      same  way	 as  GnuPG  stores  them.   This extension may also be
	      forced  for  all	key  types  using  the	 option	  --export-op-
	      tions=mode1003.

       --export-ssh-key
	      This  command  is	used to	export a key in	the OpenSSH public key
	      format.  It requires the specification of	one key	by  the	 usual
	      means and	exports	the latest valid subkey	which has an authenti-
	      cation  capability  to  STDOUT  or to the	file given with	option
	      --output.	 That output can directly be added  to	ssh's  `autho-
	      rized_key' file.

	      By  specifying the key to	export using a key ID or a fingerprint
	      suffixed with an exclamation mark	(!), a specific	subkey or  the
	      primary  key  can	 be exported.  This does not even require that
	      the key has the authentication capability	flag set.

       --import
       --fast-import
	      Import/merge keys. This adds the given keys to the keyring.  The
	      fast version is currently	just a synonym.

	      There  are  a  few  other	options	which control how this command
	      works.  Most notable here	is the --import-options	merge-only op-
	      tion which does not insert new keys but does only	the merging of
	      new signatures, user-IDs and subkeys.

       --receive-keys keyIDs
       --recv-keys keyIDs
	      Import the keys with the given keyIDs from a keyserver.

       --refresh-keys
	      Request updates from a keyserver for keys	that already exist  on
	      the  local  keyring.  This is useful for updating	a key with the
	      latest signatures, user IDs, etc.	Calling	this with no arguments
	      will refresh the entire keyring.

       --search-keys names
	      Search the keyserver for the given names.	Multiple  names	 given
	      here will	be joined together to create the search	string for the
	      keyserver.  Note that keyservers search for names	in a different
	      and simpler way than gpg does.  The best choice is to use	a mail
	      address.	 Due  to  data privacy reasons keyservers may even not
	      even allow searching by user id or mail  address	and  thus  may
	      only  return results when	being used with	the --recv-key command
	      to search	by key fingerprint or keyid.

       --fetch-keys URIs
	      Retrieve keys located at the specified URIs. Note	that different
	      installations of GnuPG may support  different  protocols	(HTTP,
	      FTP,  LDAP,  etc.).   When  using	HTTPS the system provided root
	      certificates are used by this command.

       --update-trustdb
	      Do trust database	maintenance. This command  iterates  over  all
	      keys and builds the Web of Trust.	This is	an interactive command
	      because it may have to ask for the "ownertrust" values for keys.
	      The  user	 has  to  give an estimation of	how far	she trusts the
	      owner of the displayed key to  correctly	certify	 (sign)	 other
	      keys. GnuPG only asks for	the ownertrust value if	it has not yet
	      been  assigned to	a key. Using the --edit-key menu, the assigned
	      value can	be changed at any time.

       --check-trustdb
	      Do trust database	maintenance  without  user  interaction.  From
	      time  to time the	trust database must be updated so that expired
	      keys or signatures and the resulting changes in the Web of Trust
	      can be tracked. Normally,	GnuPG will calculate when this is  re-
	      quired and do it automatically unless --no-auto-check-trustdb is
	      set. This	command	can be used to force a trust database check at
	      any   time.  The	processing  is	identical  to  that  of	 --up-
	      date-trustdb but it skips	keys with  a  not  yet	defined	 "own-
	      ertrust".

	      For  use	with cron jobs,	this command can be used together with
	      --batch in which case the	trust database check is	done only if a
	      check is needed. To force	a run even in batch mode add  the  op-
	      tion --yes.

       --export-ownertrust
	      Send  the	ownertrust values to STDOUT. This is useful for	backup
	      purposes as these	values are the only ones which	can't  be  re-
	      created from a corrupted trustdb.	 Example:
		  gpg --export-ownertrust > otrust.txt

       --import-ownertrust
	      Update  the  trustdb  with the ownertrust	values stored in files
	      (or STDIN	if not given); existing	values	will  be  overwritten.
	      In  case	of a severely damaged trustdb and if you have a	recent
	      backup  of  the	ownertrust   values   (e.g.,   in   the	  file
	      `otrust.txt'),  you  may	re-create the trustdb using these com-
	      mands:
		  cd ~/.gnupg
		  rm trustdb.gpg
		  gpg --import-ownertrust < otrust.txt

       --rebuild-keydb-caches
	      When updating from version 1.0.6 to 1.0.7	this command should be
	      used to create signature caches in  the  keyring.	 It  might  be
	      handy in other situations	too.

       --print-md algo
       --print-mds
	      Print  message  digest  of algorithm algo	for all	given files or
	      STDIN.  With the second form (or a deprecated "*"	for algo)  di-
	      gests for	all available algorithms are printed.

       --gen-random 0|1|2|16|30	count
	      Emit count random	bytes of the given quality level 0, 1 or 2. If
	      count  is	not given or zero, an endless sequence of random bytes
	      will be emitted.	If used	with --armor the output	will be	base64
	      encoded.	The special level 16 uses a quality  level  of	1  and
	      outputs  an  endless  stream of hex-encoded octets.  The special
	      level 30 outputs random as 30 zBase-32 characters.

       --gen-prime mode	bits
	      Use the source, Luke :-).	The output format is subject to	change
	      with any release.

       --enarmor
       --dearmor
	      Pack or unpack an	arbitrary input	into/from an OpenPGP ASCII ar-
	      mor.  This is a GnuPG extension to OpenPGP and  in  general  not
	      very  useful.  The --dearmor command can also be used to dearmor
	      PEM armors.

       --unwrap
	      This option modifies the command --decrypt to output the	origi-
	      nal  message with	the encryption layer removed.  Thus the	output
	      will be an OpenPGP data structure	which  often  means  a	signed
	      OpenPGP  message.	 Note that this	option may or may not remove a
	      compression layer	which is often found  beneath  the  encryption
	      layer.

       --tofu-policy {auto|good|unknown|bad|ask} keys
	      Set  the	TOFU  policy  for all the bindings associated with the
	      specified	keys.  For more	information about the meaning  of  the
	      policies,	 see:  [trust-model-tofu].   The keys may be specified
	      either by	their fingerprint (preferred) or their keyid.

   How to manage your keys

       This section explains the main commands for key management.

       --quick-generate-key user-id [algo [usage [expire]]]
       --quick-gen-key
	      This is a	simple command to generate a  standard	key  with  one
	      user id.	In contrast to --generate-key the key is generated di-
	      rectly  without  the  need to answer a bunch of prompts.	Unless
	      the option --yes is given, the key creation will be canceled  if
	      the given	user id	already	exists in the keyring.

	      If  invoked  directly on the console without any special options
	      an answer	to a ``Continue?'' style confirmation  prompt  is  re-
	      quired.	In  case  the  user id already exists in the keyring a
	      second prompt to force the creation of the key will show up.

	      If algo or usage are given, only the primary key is created  and
	      no  prompts  are shown.  To specify an expiration	date but still
	      create a primary and  a  subkey  use  ``default'',  ``future-de-
	      fault'',	or  ``pqc'' for	algo and ``default'' for usage.	 For a
	      description  of  these  optional	arguments  see	 the   command
	      --quick-add-key;	the value ``pqc'' create a key with a quantum-
	      resistant	encryption encryption subkey.  The usage accepts  also
	      the  value  ``cert'' which can be	used to	create a certification
	      only primary key;	the default is to a create  certification  and
	      signing key.

	      The  expire  argument  can be used to specify an expiration date
	      for the key.  Several formats are	supported;  commonly  the  ISO
	      formats ``YYYY-MM-DD'' or	``YYYYMMDDThhmmss'' are	used.  To make
	      the  key	expire	in  N seconds, N days, N weeks,	N months, or N
	      years use	``seconds=N'', ``Nd'', ``Nw'', ``Nm'', or  ``Ny''  re-
	      spectively.  Not specifying a value, or using ``-'' results in a
	      key  expiring  in	 a  reasonable	default	 interval.  The	values
	      ``never'', ``none'' can be used for no expiration	date.

	      If this command is used with --batch, --pinentry-mode  has  been
	      set   to	 loopback,   and   one	 of   the  passphrase  options
	      (--passphrase, --passphrase-fd, or --passphrase-file)  is	 used,
	      the  supplied  passphrase	 is used for the new key and the agent
	      does not ask for it.  To create a	 key  without  any  protection
	      --passphrase '' may be used.

	      To  create  an  OpenPGP  key from	the keys available on the cur-
	      rently inserted smartcard, the special string  ``card''  can  be
	      used for algo.  If the card features an encryption and a signing
	      key,  gpg	 will  figure them out and creates an OpenPGP key con-
	      sisting of the usual primary key and  one	 subkey.   This	 works
	      only   with  certain  smartcards.	  Note	that  the  interactive
	      --full-gen-key command allows  one  to  do  the  same  but  with
	      greater flexibility in the selection of the smartcard keys.

	      Note  that  it  is possible to create a primary key and a	subkey
	      using non-default	algorithms by using ``default''	 and  changing
	      the default parameters using the option --default-new-key-algo.

       --quick-set-expire fpr expire [*|subfprs]
	      With  two	 arguments  given, directly set	the expiration time of
	      the primary key identified by fpr	to expire.  To remove the  ex-
	      piration time 0 can be used.  With three arguments and the third
	      given as an asterisk, the	expiration time	of all non-revoked and
	      not  yet	expired	subkeys	are set	to expire.  With more than two
	      arguments	and a list of fingerprints given for subfprs, all non-
	      revoked subkeys matching these fingerprints are set to expire.

       --quick-add-key fpr [algo [usage	[expire]]]
	      Directly add a subkey to the key identified by  the  fingerprint
	      fpr.   Without  the  optional  arguments an encryption subkey is
	      added.  If any of	the arguments are given	a more specific	subkey
	      is added.

	      algo may be any of the supported algorithms or curve names given
	      in the format as used by key listings.  To use the default algo-
	      rithm the	string ``default'' or ``-'' can	 be  used.   Supported
	      algorithms   are	 ``rsa'',   ``dsa'',   ``elg'',	  ``ed25519'',
	      ``cv25519'', and other  ECC  curves.   For  example  the	string
	      ``rsa''  adds  an	 RSA key with the default key length; a	string
	      ``rsa4096'' requests that	the key	 length	 is  4096  bits.   The
	      string  ``future-default''  is  an alias for the algorithm which
	      will likely be used as default algorithm in future  versions  of
	      gpg.    To  list	the  supported	ECC  curves  the  command  gpg
	      --with-colons --list-config curve	can be used.

	      Depending	on the given algo the subkey may either	be an  encryp-
	      tion  subkey or a	signing	subkey.	 If an algorithm is capable of
	      signing and encryption and such a	subkey	is  desired,  a	 usage
	      string  must  be	given.	 This  string is either	``default'' or
	      ``-'' to keep the	default	or a comma delimited  list  (or	 space
	      delimited	 list)	of  keywords:  ``sign''	 for a signing subkey,
	      ``auth'' for an authentication subkey, and ``encr'' for  an  en-
	      cryption subkey (``encrypt'' can be used as alias	for ``encr'').
	      The valid	combinations depend on the algorithm.

	      The  expire  argument  can be used to specify an expiration date
	      for the key.  Several formats are	supported;  commonly  the  ISO
	      formats ``YYYY-MM-DD'' or	``YYYYMMDDThhmmss'' are	used.  To make
	      the  key	expire	in  N seconds, N days, N weeks,	N months, or N
	      years use	``seconds=N'', ``Nd'', ``Nw'', ``Nm'', or  ``Ny''  re-
	      spectively.  Not specifying a value, or using ``-'' results in a
	      key  expiring  in	 a  reasonable	default	 interval.  The	values
	      ``never'', ``none'' can be used for no expiration	date.

       --quick-add-adsk	fpr adskfpr
	      Directly add an Additional Decryption Subkey to the key  identi-
	      fied  by the fingerprint fpr.  adskfpr is	the fingerprint	of an-
	      other key's encryption subkey.  A	subkey is commonly  used  here
	      because  by  default a primary key has no	encryption capability.
	      Use the option --with-subkey-fingerprint with a list command  to
	      display  the  subkey  fingerprints.   If the string "default" is
	      used  for	 adskfpr  all  missing	ADSKs  configured  with	 --de-
	      fault-new-key-adsk are added.

       --generate-key
       --gen-key
	      Generate	a  new	key pair using the current default parameters.
	      This is the standard command to create a new key.	  In  addition
	      to the key a revocation certificate is created and stored	in the
	      `openpgp-revocs.d' directory below the GnuPG home	directory.

       --full-generate-key
       --full-gen-key
	      Generate	a  new key pair	with dialogs for all options.  This is
	      an extended version of --generate-key.

	      There is also a feature which allows you to create keys in batch
	      mode. See	the manual section ``Unattended	 key  generation''  on
	      how to use this.

       --generate-revocation name
       --gen-revoke name
	      Generate a revocation certificate	for the	complete key.  To only
	      revoke a subkey or a key signature, use the --edit command.

	      This  command  merely creates the	revocation certificate so that
	      it can be	used to	revoke the key if that is ever needed.	To ac-
	      tually revoke a key the created revocation certificate needs  to
	      be merged	with the key to	revoke.	 This is done by importing the
	      revocation certificate using the --import	command.  Then the re-
	      voked  key  needs	to be published, which is best done by sending
	      the key to a keyserver (command  --send-key)  and	 by  exporting
	      (--export)  it to	a file which is	then send to frequent communi-
	      cation partners.

       --generate-designated-revocation	name
       --desig-revoke name
	      Generate a designated revocation certificate for a key. This al-
	      lows a user (with	the permission of  the	keyholder)  to	revoke
	      someone else's key.

       --edit-key
	      Present  a  menu which enables you to do most of the key manage-
	      ment related tasks.  It expects the specification	of  a  key  on
	      the command line.

	      uid n  Toggle  selection of user ID or photographic user ID with
		     index n.  Use * to	select all and 0 to deselect all.

	      key n  Toggle selection of subkey	with index n or	key ID n.  Use
		     * to select all and 0 to deselect all.

	      sign   Make a signature on key of	user name. If the key  is  not
		     yet  signed  by the default user (or the users given with
		     -u), the program displays	the  information  of  the  key
		     again,  together with its fingerprint and asks whether it
		     should be signed. This question is	repeated for all users
		     specified with -u.

	      lsign  Same as "sign" but	the signature  is  marked  as  non-ex-
		     portable and will therefore never be used by others. This
		     may be used to make keys valid only in the	local environ-
		     ment.

	      nrsign Same as "sign" but	the signature is marked	as non-revoca-
		     ble and can therefore never be revoked.

	      tsign  Make a trust signature. This is a signature that combines
		     the  notions of certification (like a regular signature),
		     and trust (like the "trust"  command).  It	 is  generally
		     useful in distinct	communities or groups to implement the
		     concept  of  a  Trusted Introducer.  For more information
		     please read the sections ``Trust Signature'' and  ``Regu-
		     lar Expression'' in RFC-4880.

	      Note  that "l" (for local	/ non-exportable), "nr"	(for non-revo-
	      cable, and "t" (for trust) may be	freely mixed and  prefixed  to
	      "sign" to	create a signature of any type desired.

       If  the	option	--only-sign-text-ids  is  specified, then any non-text
       based user ids (e.g., photo IDs)	will not be selected for signing.

	      delsig Delete a signature. Note that it is not possible  to  re-
		     tract  a  signature,  once	it has been send to the	public
		     (i.e., to a keyserver).  In  that	case  you  better  use
		     revsig.

	      revsig Revoke  a	signature.  For	every signature	which has been
		     generated by one of the secret keys, GnuPG	asks whether a
		     revocation	certificate should be generated.

	      check  Check the signatures on all selected user IDs.  With  the
		     extra option selfsig only self-signatures are shown.

	      adduid Create an additional user ID.

	      addphoto
		     Create  a	photographic  user  ID.	This will prompt for a
		     JPEG file that will be embedded into the  user  ID.  Note
		     that  a  very  large JPEG will make for a very large key.
		     Also note that some programs will display your  JPEG  un-
		     changed  (GnuPG),	and some programs will scale it	to fit
		     in	a dialog box (PGP).

	      showphoto
		     Display the selected photographic user ID.

	      deluid Delete a user ID or photographic user ID.	Note  that  it
		     is	 not  possible	to retract a user id, once it has been
		     send to the public	(i.e., to a keyserver).	 In that  case
		     you better	use revuid.

	      revuid Revoke a user ID or photographic user ID.

	      primary
		     Flag  the current user id as the primary one, removes the
		     primary user id flag from all other user ids and sets the
		     timestamp of  all	affected  self-signatures  one	second
		     ahead. Note that setting a	photo user ID as primary makes
		     it	primary	over other photo user IDs, and setting a regu-
		     lar  user ID as primary makes it primary over other regu-
		     lar user IDs.

	      keyserver
		     Set a preferred keyserver for the specified  user	ID(s).
		     This allows other users to	know where you prefer they get
		     your   key	  from.	  See  --keyserver-options  honor-key-
		     server-url	for more on how	this works.  Setting  a	 value
		     of	"none" removes an existing preferred keyserver.

	      notation
		     Set  a  name=value	notation for the specified user	ID(s).
		     See --cert-notation for more on how this works. Setting a
		     value of "none" removes all notations, setting a notation
		     prefixed with a minus sign	(-) removes that notation, and
		     setting a notation	name  (without	the  =value)  prefixed
		     with a minus sign removes all notations with that name.

	      pref   List  preferences	from  the selected user	ID. This shows
		     the actual	preferences,  without  including  any  implied
		     preferences.

	      showpref
		     More  verbose  preferences	 listing for the selected user
		     ID. This shows the	preferences in effect by including the
		     implied preferences of 3DES (cipher), SHA-1 (digest), and
		     Uncompressed (compression)	if they	are  not  already  in-
		     cluded in the preference list. In addition, the preferred
		     keyserver and signature notations (if any)	are shown.

	      setpref string
		     Set the list of user ID preferences to string for all (or
		     just  the selected) user IDs. Calling setpref with	no ar-
		     guments sets the preference list to the  default  (either
		     built-in or set via --default-preference-list), and call-
		     ing  setpref  with	 "none"	 as the	argument sets an empty
		     preference	list. Use gpg  --version  to  get  a  list  of
		     available	algorithms. Note that while you	can change the
		     preferences on an attribute user  ID  (aka	 "photo	 ID"),
		     GnuPG  does  not  select  keys  via attribute user	IDs so
		     these preferences will not	be used	by GnuPG.   Note  that
		     an	 unattended  version  of  this command is available as
		     --quick-update-pref.

		     When setting preferences, you should list the  algorithms
		     in	the order which	you'd like to see them used by someone
		     else when encrypting a message to your key.  If you don't
		     include  3DES, it will be automatically added at the end.
		     Note that there are many factors that go into choosing an
		     algorithm (for example, your key may not be the only  re-
		     cipient),	and  so	 the  remote OpenPGP application being
		     used to send to you may or	may not	follow your exact cho-
		     sen order for a given message.  It	 will,	however,  only
		     choose  an	 algorithm  that  is present on	the preference
		     list of every recipient key.  See also the	INTEROPERABIL-
		     ITY WITH OTHER OPENPGP PROGRAMS section below.

	      addkey Add a subkey to this key.

	      addcardkey
		     Generate a	subkey on a card and add it to this key.

	      keytocard
		     Transfer the selected secret subkey (or the  primary  key
		     if	 no  subkey has	been selected) to a smartcard. The se-
		     cret key in the keyring will be replaced by a stub	if the
		     key could be stored successfully on the card and you  use
		     the  save	command	 later.	 Only certain key types	may be
		     transferred to the	card. A	sub menu allows	you to	select
		     on	what card to store the key. Note that it is not	possi-
		     ble  to  get  that	key back from the card --- if the card
		     gets broken your secret key will be lost unless you  have
		     a backup somewhere.

	      bkuptocard file
		     Restore  the  given  file	to a card. This	command	may be
		     used to restore a backup key (as  generated  during  card
		     initialization)  to  a new	card. In almost	all cases this
		     will be the encryption key. You should use	 this  command
		     only with the corresponding public	key and	make sure that
		     the  file	given  as argument is indeed the backup	to re-
		     store. You	should then select 2 to	restore	as  encryption
		     key.   You	will first be asked to enter the passphrase of
		     the backup	key and	then for the Admin PIN of the card.

	      keytotpm
		     Transfer the selected secret subkey (or the  primary  key
		     if	 no subkey has been selected) to TPM form.  The	secret
		     key in the	keyring	will be	replaced by the	TPM  represen-
		     tation of that key, which can only	be read	by the partic-
		     ular  TPM	that  created  it  (so the keyfile now becomes
		     locked to the laptop containing the TPM).	 Only  certain
		     key types may be transferred to the TPM (all TPM 2.0 sys-
		     tems  are mandated	to have	the rsa2048 and	nistp256 algo-
		     rithms but	newer TPMs may have more). Note	that  the  key
		     itself  is	not transferred	into the TPM, merely encrypted
		     by	the TPM	in-place, so if	the keyfile  is	 deleted,  the
		     key  will	be  lost.  Once	transferred to TPM representa-
		     tion, the key file	can never be converted back to non-TPM
		     form and the key will die	when  the  TPM	does,  so  you
		     should  first  have a backup on secure offline storage of
		     the actual	secret key file	before conversion.  It is  es-
		     sential  to  use the physical system TPM that you have rw
		     permission	  on   the   TPM   resource   manager	device
		     (/dev/tpmrm0).   Usually  this means you must be a	member
		     of	the tss	group.

	      delkey Remove a subkey (secondary	key). Note that	it is not pos-
		     sible to retract a	subkey,	once it	has been send  to  the
		     public  (i.e.,  to	a keyserver).  In that case you	better
		     use revkey.  Also note that this only deletes the	public
		     part of a key.

	      revkey Revoke a subkey.

	      expire Change  the key or	subkey expiration time.	If a subkey is
		     selected, the expiration time  of	this  subkey  will  be
		     changed.  With  no	 selection,  the key expiration	of the
		     primary key is changed.

	      trust  Change the	owner trust value for the  key.	 This  updates
		     the trust-db immediately and no save is required.

	      disable
	      enable Disable  or  enable an entire key.	A disabled key can not
		     normally be used for encryption.

	      addrevoker
		     Add a designated revoker to the key. This takes  one  op-
		     tional  argument: "sensitive". If a designated revoker is
		     marked as sensitive, it will not be exported  by  default
		     (see export-options).

	      addadsk
		     Add  an  Additional Decryption Subkey.  The user is asked
		     to	enter the fingerprint of  another  encryption  subkey.
		     Note  that	the exact fingerprint of another key's encryp-
		     tion subkey needs to be entered.  This  is	 because  com-
		     monly  the	primary	key has	no encryption capability.  Use
		     the option	--with-subkey-fingerprint with a list  command
		     to	display	the subkey fingerprints.

	      passwd Change the	passphrase of the secret key.

	      toggle This is dummy command which exists	only for backward com-
		     patibility.

	      clean  Compact  (by  removing all	signatures except the selfsig)
		     any user ID that is no longer usable (e.g.,  revoked,  or
		     expired). Then, remove any	signatures that	are not	usable
		     by	 the  trust  calculations.  Specifically, this removes
		     any signature that	does not validate, any signature  that
		     is	 superseded  by	a later	signature, revoked signatures,
		     and signatures issued by keys that	are not	present	on the
		     keyring.

	      minimize
		     Make the key as small as possible.	This removes all  sig-
		     natures  from  each  user	ID  except for the most	recent
		     self-signature.

	      change-usage
		     Change the	usage flags (capabilities) of the primary  key
		     or	 of  subkeys.  These usage flags (e.g.,	Certify, Sign,
		     Authenticate,  Encrypt)  are  set	during	key  creation.
		     Sometimes	it is useful to	have the opportunity to	change
		     them (for example to add Authenticate)  after  they  have
		     been  created.  Please take care when doing this; the al-
		     lowed usage flags depend on the key algorithm.

	      cross-certify
		     Add cross-certification  signatures  to  signing  subkeys
		     that  may	not  currently	have them. Cross-certification
		     signatures	protect	against	a subtle attack	against	 sign-
		     ing  subkeys. See --require-cross-certification.  All new
		     keys generated have this signature	by  default,  so  this
		     command is	only useful to bring older keys	up to date.

	      save   Save all changes to the keyring and quit.

	      quit   Quit the program without updating the keyring.

	      The  listing  shows  you the key with its	secondary keys and all
	      user IDs.	 The primary user ID is	indicated by a	dot,  and  se-
	      lected keys or user IDs are indicated by an asterisk.  The trust
	      value is displayed with the primary key: "trust" is the assigned
	      owner  trust  and	 "validity"  is	the calculated validity	of the
	      key.  Validity values are	also displayed for all user IDs.   For
	      possible values of trust,	see: [trust-values].

       --sign-key name
	      Signs a public key with your secret key. This is a shortcut ver-
	      sion of the subcommand "sign" from --edit-key.

       --lsign-key name
	      Signs  a public key with your secret key but marks it as non-ex-
	      portable.	This is	a shortcut version of the  subcommand  "lsign"
	      from --edit-key.

       --quick-sign-key	fpr [names]
       --quick-lsign-key fpr [names]
       --quick-tsign-key fpr trustspec [names]
	      Directly sign a key from the passphrase without any further user
	      interaction.   The  fpr must be the verified primary fingerprint
	      of a key in the local keyring. If	no names are given, all	useful
	      user ids are signed; with	given [names]  only  useful  user  ids
	      matching	one  of	 these	names are signed.  By default, or if a
	      name is prefixed with a '*', a case insensitive substring	 match
	      is  used.	 If a name is prefixed with a '=' a case sensitive ex-
	      act match	is done.

	      The command --quick-lsign-key marks the  signatures  as  non-ex-
	      portable.	 If such a non-exportable signature already exists the
	      --quick-sign-key	turns  it into a exportable signature.	If you
	      need to update an	existing signature,  for  example  to  add  or
	      change   notation	  data,	  you	need   to   use	  the	option
	      --force-sign-key.

	      The command --quick-tsign-key creates a  trust  signature	 using
	      the  information	from the trustspec string.  The	trustspec uses
	      the format [T=]dept,value[,domain].  depth is the	length of  the
	      trust  chain  in the range 0 (identical to a standard key	signa-
	      ture) to 255 (ridiculous long  trust  chain);  the  most	common
	      lengths  for  trust signatures are 1 and 2.  value is either "f"
	      or "full"	which are mapped to a value of 120  or	"m"  or	 "mar-
	      ginal"  which are	mapped to a value of 60.  The allowed range is
	      0	to 255 but it is highly	suggested to use only 60 or 120.   do-
	      main is optional and a plain domain name like "example.org".

	      This  command uses reasonable defaults and thus does not provide
	      the full flexibility of the "sign" subcommand  from  --edit-key.
	      Its  intended use	is to help unattended key signing by utilizing
	      a	list of	verified fingerprints.

       --quick-add-uid user-id new-user-id
	      This command adds	a new user id to an existing key.  In contrast
	      to the interactive sub-command adduid  of	 --edit-key  the  new-
	      user-id  is  added verbatim with only leading and	trailing white
	      space removed, it	is expected to be UTF-8	encoded, and no	checks
	      on its form are applied.

       --quick-revoke-uid user-id user-id-to-revoke
	      This command revokes a user ID on	an existing key.  It cannot be
	      used to revoke the last user ID on key (some non-revoked user ID
	      must remain), with revocation reason  ``User  ID	is  no	longer
	      valid''.	 If you	want to	specify	a different revocation reason,
	      or to supply supplementary revocation text, you should  use  the
	      interactive sub-command revuid of	--edit-key.

       --quick-revoke-sig fpr signing-fpr [names]
	      This command revokes the key signatures made by signing-fpr from
	      the key specified	by the fingerprint fpr.	 With names given only
	      the  signatures on user ids of the key matching any of the given
	      names are	affected (see --quick-sign-key).  If a revocation  al-
	      ready exists a notice is printed instead of creating a new revo-
	      cation; no error is returned in this case.  Note that key	signa-
	      ture  revocations	may be superseded by a newer key signature and
	      in turn again revoked.

       --quick-set-primary-uid user-id primary-user-id
	      This command sets	or updates the primary user ID flag on an  ex-
	      isting  key.   user-id specifies the key and primary-user-id the
	      user ID which shall be flagged as	the primary user ID.  The pri-
	      mary user	ID flag	is removed from	all other  user	 ids  and  the
	      timestamp	 of  all  affected  self-signatures  is	set one	second
	      ahead.

       --quick-update-pref user-id
	      This command updates the preference list of the key to the  cur-
	      rent default value (either built-in or set via --default-prefer-
	      ence-list).   This  is the unattended version of using "setpref"
	      in the --key-edit	menu without giving a list.  Note that you can
	      show the preferences in a	key listing  by	 using	--list-options
	      show-pref	 or --list-options show-pref-verbose.  You should also
	      re-distribute updated keys to your peers.

       --quick-set-ownertrust user-id value
	      This command sets	the ownertrust of a key	and can	also  be  used
	      to  set  the disable flag	of a key.  This	is the unattended ver-
	      sion of using "trust", "disable",	or "enable" in the  --key-edit
	      menu.

       --change-passphrase user-id
       --passwd	user-id
	      Change  the  passphrase  of the secret key belonging to the cer-
	      tificate specified as user-id.  This is a	shortcut for the  sub-
	      command passwd of	the --edit-key menu.  When using together with
	      the   option   --dry-run	this  will  not	 actually  change  the
	      passphrase but check that	the current passphrase is correct.

OPTIONS
       gpg features a bunch of options to control the exact behaviour  and  to
       change the default configuration.

       Long    options	  can	be   put   in	an   options   file   (default
       "~/.gnupg/gpg.conf"). Short option names	will not work --- for example,
       "armor" is a valid option for the options file, while "a"  is  not.  Do
       not  write  the 2 dashes, but simply the	name of	the option and any re-
       quired arguments. Lines with a hash ('#') as the	first  non-white-space
       character  are  ignored.	Commands may be	put in this file too, but that
       is not generally	useful as the command will execute automatically  with
       every execution of gpg.

       Please  remember	 that  option parsing stops as soon as a non-option is
       encountered, you	can explicitly stop parsing by using the  special  op-
       tion --.

   How to change the configuration

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

       --default-key name
	      Use  name	 as  the default key to	sign with.  It is suggested to
	      use a fingerprint	or at least a long keyID for  name.   If  this
	      option  is  not  used, the default key is	the first key found in
	      the secret keyring.  Note	that -u	or --local-user	overrides this
	      option.  This option may be given	multiple times.	 In this case,
	      the last key for which a secret key is available	is  used.   If
	      there  is	 no secret key available for any of the	specified val-
	      ues, GnuPG will not emit an error	message	 but  continue	as  if
	      this option wasn't given.

       --default-recipient name
	      Use  name	as default recipient if	option --recipient is not used
	      and don't	ask if this is a valid one. name must be non-empty and
	      it is suggested to use a fingerprint for name.

       --default-recipient-self
	      Use the default key as default recipient if  option  --recipient
	      is  not  used  and don't ask if this is a	valid one. The default
	      key is the first one from	the secret keyring or the one set with
	      --default-key.

       --no-default-recipient
	      Reset --default-recipient	and --default-recipient-self.	Should
	      not be used in an	option file.

       -v, --verbose
	      Give  more information during processing.	If used	twice, the in-
	      put data is listed in detail.

       --no-verbose
	      Reset verbose level to 0.	 Should	not be used in an option file.

       -q, --quiet
	      Try to be	as quiet as possible.  Should not be used in an	option
	      file.

       --batch
       --no-batch
	      Use batch	mode.  Never ask, do not allow	interactive  commands.
	      --no-batch disables this option.	Note that even with a filename
	      given  on	 the  command  line, gpg might still need to read from
	      STDIN (in	particular if gpg figures that the input is a detached
	      signature	and no data file has been specified).  Thus if you  do
	      not  want	 to  feed  data	via STDIN, you should connect STDIN to
	      `/dev/null'.

	      It is highly recommended to use this option along	with  the  op-
	      tions  --status-fd  and  --with-colons for any unattended	use of
	      gpg.  Should not be used in an option file.

       --no-tty
	      Make sure	that the TTY (terminal)	is never used for any  output.
	      This  option  is	needed	in  some cases because GnuPG sometimes
	      prints warnings to the TTY even if --batch is used.

       --yes  Assume "yes" on most questions.  Should not be used in an	option
	      file.

       --no   Assume "no" on most questions.  Should not be used in an	option
	      file.

       --proc-all-sigs
	      This  option  overrides  the  behaviour of the --batch option to
	      stop signature verification at the first bad signatures.

       --list-filter {select=expr}
	      A	list filter can	be used	to output only certain keys during key
	      listing commands.	For the	available property names, see the  de-
	      scription	of --import-filter.

       --list-options parameters
	      This  is	a  space  or comma delimited string that gives options
	      used when	listing	keys and  signatures  (that  is,  --list-keys,
	      --check-signatures,  --list-public-keys, --list-secret-keys, and
	      the --edit-key functions).  Options can be prepended with	a  no-
	      (after  the  two	dashes)	to give	the opposite meaning.  The op-
	      tions are:

	      show-photos
		     Causes   --list-keys,   --check-signatures,   --list-pub-
		     lic-keys, and --list-secret-keys to display any photo IDs
		     attached	to   the   key.	  Defaults  to	no.  See  also
		     --photo-viewer.  Does not work  with  --with-colons:  see
		     --attribute-fd  for the appropriate way to	get photo data
		     for scripts and other frontends.

	      show-usage
		     Show usage	information for	keys and subkeys in the	 stan-
		     dard  key	listing.  This is a list of letters indicating
		     the allowed usage for  a  key  (E=encryption,  S=signing,
		     C=certification, A=authentication).  Defaults to yes.

	      show-ownertrust
		     Show  the	ownertrust value for keys also in the standard
		     key listing.  Defaults to no.

	      show-trustsig
		     Show information about trust signatures also  in  a  non-
		     colon mode.  The information is printed in	brackets after
		     the     signer's	  user	   ID	  in	 the	format
		     T=dept,value[,[R]"string"].  With the "R"	prefix	string
		     gives  the	 raw  regular  expression  escaped in C-style;
		     without the prefix	the domain name	is  printed  verbatim.
		     Defaults to no.

	      show-policy-urls
		     Show  policy  URLs	 in  the  --check-signatures listings.
		     Defaults to no.

	      show-notations
	      show-std-notations
	      show-user-notations
	      show-hidden-notations
		     Show all, IETF standard, or user-defined signature	 nota-
		     tions in the --check-sigs listings.  Hidden notations are
		     those  which are automatically inserted by	an implementa-
		     tion and not worthy to mention. Defaults to no.

	      show-x509-notations
		     Print X.509 certificates embedded in  key	signatures  as
		     PEM  data.	 This is intended for debugging	and the	output
		     format may	change without notice.

	      store-x509-notations
		     Store X.509 certificates embedded in  key	signatures  as
		     PEM  data files.  The filename consists the 4 byte	key ID
		     of	the certificate, a dash, the fingerprint of the	key or
		     subkey, and the suffix ".pem".

	      show-keyserver-urls
		     Show any preferred	keyserver URL  in  the	--check-signa-
		     tures listings. Defaults to no.

	      show-uid-validity
		     Display  the  calculated  validity	of user	IDs during key
		     listings.	Defaults to yes.

	      show-unusable-uids
		     Show revoked and expired user IDs in  key	listings.  De-
		     faults to no.

	      show-unusable-subkeys
		     Show  revoked  and	 expired  subkeys in key listings. De-
		     faults to no.

	      show-unusable-sigs
		     Show key signature	made using weak	or  unsupported	 algo-
		     rithms.

	      show-keyring
		     Display  the  keyring name	at the head of key listings to
		     show which	keyring	a given	key resides  on.  Defaults  to
		     no.

	      show-sig-expire
		     Show   signature	expiration   dates   (if  any)	during
		     --check-signatures	listings. Defaults to no.

	      show-sig-subpackets
		     Include signature subpackets in the key listing. This op-
		     tion can take an optional argument	list of	the subpackets
		     to	list. If no argument is	passed,	list  all  subpackets.
		     Defaults to no. This option is only meaningful when using
		     --with-colons along with --check-signatures.

	      show-only-fpr-mbox
		     For  each	user-id	 which	has a valid mail address print
		     only the fingerprint followed by the mail address.

	      sort-sigs
		     With --list-sigs and --check-sigs sort the	signatures  by
		     keyID  and	 creation  time	 to make it easier to view the
		     history of	these signatures.  The self-signature is  also
		     listed  before  other  signatures.	Defaults to yes.  This
		     option has	no effect in -with-colons mode.

       --verify-options	parameters
	      This is a	space or comma delimited  string  that	gives  options
	      used  when verifying signatures. Options can be prepended	with a
	      `no-' to give the	opposite meaning. The options are:

	      show-photos
		     Display any photo IDs present on the key that issued  the
		     signature.	 Defaults to no. See also --photo-viewer.

	      show-policy-urls
		     Show  policy  URLs	 in  the signature being verified. De-
		     faults to yes.

	      show-notations
	      show-std-notations
	      show-user-notations
	      show-hidden-notations
		     Show all, IETF standard, or user-defined signature	 nota-
		     tions  in the signature being verified.  Hidden notations
		     are those which are automatically inserted	by  an	imple-
		     mentation	and  not  worthy to mention.  Defaults to IETF
		     standard.

	      show-keyserver-urls
		     Show any preferred	keyserver URL in the  signature	 being
		     verified.	Defaults to yes.

	      show-uid-validity
		     Display  the  calculated  validity	of the user IDs	on the
		     key that issued the signature. Defaults to	yes.

	      show-unusable-uids
		     Show revoked and expired user IDs during signature	 veri-
		     fication.	Defaults to no.

	      show-primary-uid-only
		     Show  only	the primary user ID during signature verifica-
		     tion.  That is all	the AKA	lines as well as photo Ids are
		     not shown with the	signature verification status.

       --enable-large-rsa
       --disable-large-rsa
	      With --generate-key and --batch, enable the creation of RSA  se-
	      cret  keys as large as 8192 bit.	Note: 8192 bit is more than is
	      generally	recommended.  These large keys don't significantly im-
	      prove security, but they are more	expensive to  use,  and	 their
	      signatures  and  certifications are larger.  This	option is only
	      available	if the binary was build	with large-secmem support.

       --enable-dsa2
       --disable-dsa2
	      Enable hash truncation for all DSA keys even for old DSA Keys up
	      to 1024 bit.  This is also the  default  with  --openpgp.	  Note
	      that  older  versions  of	GnuPG also required this flag to allow
	      the generation of	DSA larger than	1024 bit.

       --photo-viewer string
	      This is the command line that should be run to view a photo  ID.
	      "%i"  will  be expanded to a filename containing the photo. "%I"
	      does the same, except the	file will  not	be  deleted  once  the
	      viewer exits.  Other flags are "%k" for the key ID, "%K" for the
	      long  key	 ID, "%f" for the key fingerprint, "%t"	for the	exten-
	      sion of the image	type (e.g., "jpg"), "%T" for the MIME type  of
	      the  image  (e.g.,  "image/jpeg"), "%v" for the single-character
	      calculated validity of the image being viewed (e.g., "f"),  "%V"
	      for the calculated validity as a string (e.g., "full"), "%U" for
	      a	 base32	 encoded  hash	of the user ID,	and "%%" for an	actual
	      percent sign. If neither %i or %I	are present,  then  the	 photo
	      will be supplied to the viewer on	standard input.

	      On  Unix	the  default  viewer is	xloadimage -fork -quiet	-title
	      'KeyID 0x%k' STDIN with a	 fallback  to  display	-title	'KeyID
	      0x%k'  %i	 and finally to	xdg-open %i.  On Windows !ShellExecute
	      400 %i is	used; here the command is a meta command to  use  that
	      API  call	 followed by a wait time in milliseconds which is used
	      to give the viewer time to read the temporary image file	before
	      gpg deletes it again.  Note that if your image viewer program is
	      not secure, then executing it from gpg does not make it secure.

       --exec-path string
	      Sets  a  list  of	directories to search for photo	viewers	If not
	      provided photo viewers use the PATH environment variable.

       --keyring file
	      Add file to the current list of keyrings.	If file	begins with  a
	      tilde and	a slash, these are replaced by the $HOME directory. If
	      the  filename  does  not contain a slash,	it is assumed to be in
	      the  GnuPG  home	directory  ("~/.gnupg"	unless	--homedir   or
	      $GNUPGHOME is used).

	      Note that	this adds a keyring to the current list. If the	intent
	      is  to use the specified keyring alone, use --keyring along with
	      --no-default-keyring.

	      If the option --no-keyring has been used	no  keyrings  will  be
	      used at all.

	      Note that	if the option use-keyboxd is enabled in	`common.conf',
	      no  keyrings  are	used at	all and	keys are all maintained	by the
	      keyboxd process in its own database.

       --primary-keyring file
	      This is a	variant	of --keyring and designates file as  the  pri-
	      mary  public  keyring.  This means that newly imported keys (via
	      --import or keyserver --recv-from) will go to this keyring.

       --secret-keyring	file
	      This is an obsolete option and ignored.	All  secret  keys  are
	      stored in	the `private-keys-v1.d'	directory below	the GnuPG home
	      directory.

       --trustdb-name file
	      Use  file	 instead of the	default	trustdb. If file begins	with a
	      tilde and	a slash, these are replaced by the $HOME directory. If
	      the filename does	not contain a slash, it	is assumed  to	be  in
	      the  GnuPG home directory	(`~/.gnupg' if --homedir or $GNUPGHOME
	      is not used).

       --homedir dir
	      Set the name of the home directory to dir. If this option	is not
	      used, the	home directory defaults	to  `~/.gnupg'.	  It  is  only
	      recognized  when	given  on the command line.  It	also overrides
	      any home	directory  stated  through  the	 environment  variable
	      `GNUPGHOME' or (on Windows systems) by means of the Registry en-
	      try HKCU\Software\GNU\GnuPG:HomeDir.

	      On Windows systems it is possible	to install GnuPG as a portable
	      application.  In this case only this command line	option is con-
	      sidered, all other ways to set a home directory are ignored.

       --display-charset name
	      Set  the	name of	the native character set. This is used to con-
	      vert some	informational strings like  user  IDs  to  the	proper
	      UTF-8 encoding.  Note that this has nothing to do	with the char-
	      acter  set of data to be encrypted or signed; GnuPG does not re-
	      code user-supplied data. If this option is not used, the default
	      character	set is determined from the current locale. A verbosity
	      level of 3 shows the chosen set.	This option should not be used
	      on Windows.  Valid values	for name are:

	      iso-8859-1
		     This is the Latin 1 set.

	      iso-8859-2
		     The Latin 2 set.

	      iso-8859-15
		     This is currently an alias	for the	Latin 1	set.

	      koi8-r The usual Russian set (RFC-1489).

	      utf-8  Bypass all	translations and assume	that the OS  uses  na-
		     tive UTF-8	encoding.

       --utf8-strings
       --no-utf8-strings
	      Assume  that  command line arguments are given as	UTF-8 strings.
	      The default (--no-utf8-strings) is to assume that	arguments  are
	      encoded  in the character	set as specified by --display-charset.
	      These options affect all following arguments. Both  options  may
	      be  used	multiple  times.  This option should not be used in an
	      option file.

	      This option has no effect	on Windows.  There the	internal  used
	      UTF-8  encoding is translated for	console	input and output.  The
	      command line arguments are expected as Unicode and translated to
	      UTF-8.  Thus when	calling	this program from another,  make  sure
	      to use the Unicode version of CreateProcess.

       --options file
	      Read  options from file and do not try to	read them from the de-
	      fault options file in the	homedir	(see --homedir).  This	option
	      is ignored if used in an options file.

       --no-options
	      Shortcut for --options /dev/null.	This option is detected	before
	      an  attempt to open an option file.  Using this option will also
	      prevent the creation of a	`~/.gnupg' homedir.

       -z n
       --compress-level	n
       --bzip2-compress-level n
       --no-compress
	      Set compression level to n for the ZIP and ZLIB compression  al-
	      gorithms.	The default is to use the default compression level of
	      zlib  (normally  6). --bzip2-compress-level sets the compression
	      level for	the BZIP2 compression algorithm	(defaulting  to	 6  as
	      well).  This  is	a different option from	--compress-level since
	      BZIP2 uses a significant amount of memory	 for  each  additional
	      compression level.

	      Option -z	sets both. A value of 0	for n disables compression.  A
	      value  of	-1 forces compression using the	default	level.	Option
	      --no-compress is identical to -z0.

	      Except for the --store command compression is always used	unless
	      gpg detects that the input is already  compressed.   To  inhibit
	      the  use	of compression use -z0 or --no-compress; to force com-
	      pression use -z-1	or option z  with  another  compression	 level
	      than  the	default	as indicated by	-1.  Note that this overriding
	      of the default deection works only with z	and not	with the  long
	      variant of this option.

       --bzip2-decompress-lowmem
	      Use a different decompression method for BZIP2 compressed	files.
	      This  alternate method uses a bit	more than half the memory, but
	      also runs	at half	the speed. This	is useful  under  extreme  low
	      memory  circumstances when the file was originally compressed at
	      a	high --bzip2-compress-level.

       --mangle-dos-filenames
       --no-mangle-dos-filenames
	      Older version of Windows cannot handle filenames with more  than
	      one  dot.	--mangle-dos-filenames causes GnuPG to replace (rather
	      than add to) the extension of an output filename to  avoid  this
	      problem. This option is off by default and has no	effect on non-
	      Windows platforms.

       --ask-cert-level
       --no-ask-cert-level
	      When  making  a key signature, prompt for	a certification	level.
	      If this option is	not specified, the certification level used is
	      set via --default-cert-level. See	--default-cert-level  for  in-
	      formation	 on  the  specific  levels  and	 how  they  are	 used.
	      --no-ask-cert-level disables this	option.	This  option  defaults
	      to no.

       --default-cert-level n
	      The default to use for the check level when signing a key.

	      0	 means	you  make  no particular claim as to how carefully you
	      verified the key.

	      1	means you believe the key is owned by the person who claims to
	      own it but you could not,	or did not verify the key at all. This
	      is useful	for a "persona"	verification, where you	sign  the  key
	      of a pseudonymous	user.

	      2	 means	you  did  casual verification of the key. For example,
	      this could mean  that  you  verified  the	 key  fingerprint  and
	      checked the user ID on the key against a photo ID.

	      3	 means you did extensive verification of the key. For example,
	      this could mean that you verified	the key	fingerprint  with  the
	      owner  of	the key	in person, and that you	checked, by means of a
	      hard to forge document with a photo ID (such as a	passport) that
	      the name of the key owner	matches	the name in the	user ID	on the
	      key, and finally that you	verified (by exchange of  email)  that
	      the email	address	on the key belongs to the key owner.

	      Note  that  the examples given above for levels 2	and 3 are just
	      that: examples. In the end, it is	up to you to decide just  what
	      "casual" and "extensive" mean to you.

	      This option defaults to 0	(no particular claim).

       --min-cert-level
	      When  building  the  trust database, treat any signatures	with a
	      certification level below	this as	invalid. Defaults to 2,	 which
	      disregards  level	1 signatures. Note that	level 0	"no particular
	      claim" signatures	are always accepted.

       --trusted-key long key ID or fingerprint
	      Assume that the specified	key (which should be given as  finger-
	      print)  is  as  trustworthy as one of your own secret keys. This
	      option is	useful if you don't want to keep your secret keys  (or
	      one  of  them) online but	still want to be able to check the va-
	      lidity of	a given	recipient's or signator's key.	If  the	 given
	      key is not locally available but an LDAP keyserver is configured
	      the  missing key is imported from	that server.  The value	"none"
	      is explicitly allowed to distinguish  between  the  use  of  any
	      trusted-key option and no	use of this option at all (e.g.	due to
	      the --no-options option).

       --add-desig-revoker [sensitive:]fingerprint
	      Add  the key specified by	fingerprint as a designated revoker to
	      newly created keys.  If the fingerprint  is  prefixed  with  the
	      keyword  ``sensitive:''  that info is normally not exported with
	      the key.	This option may	be given several  times	 to  add  more
	      than  one	 designated revoker.  If the keyword ``clear'' is used
	      instead of a fingerprint,	all previously fiven fingerprints  are
	      discarded.  Designated revokers are marked on the	key as non-re-
	      vocable.	Note that a designated revoker specified using a para-
	      meter file will also be added to the key.

       --default-new-key-adsk fingerprint
	      Add the subkey specified by fingerprint as an Additional Decryp-
	      tion  Subkey  (ADSK)  to newly created keys.  This option	may be
	      given several time to add	more than one ADSK.  It	is also	possi-
	      ble to give several fingerprints delimited by space or comma  as
	      value  to	this option.  If the keyword ``clear'' is used instead
	      of a fingerprint,	all previously specified fingerprints are dis-
	      carded (useful to	override options given in a config file).  The
	      fingerprint is expected to specify a subkey and it does not need
	      an exclamation mark as suffix; it	must be	given in cmpact	format
	      (40 or 64	hex-digits without any spaces).

       --trust-model {pgp|classic|tofu|tofu+pgp|direct|always|auto}
	      Set what trust model GnuPG should	follow.	The models are:

	      pgp    This is the Web of	Trust combined with  trust  signatures
		     as	 used  in PGP 5.x and later. This is the default trust
		     model when	creating a new trust database.

	      classic
		     This is the standard Web of Trust as introduced by	PGP 2.

	      tofu

		     TOFU stands for Trust On First Use.  In this experimental
		     trust model, the first time a key is seen,	 it  is	 memo-
		     rized.  If	later another key with a user id with the same
		     email  address  is	seen, both keys	are marked as suspect.
		     In	that case, the next time either	is used, a warning  is
		     displayed	describing the conflict, why it	might have oc-
		     curred (either the	user generated a new key and failed to
		     cross sign	the old	and new	keys, the key is forgery, or a
		     man-in-the-middle attack is  being	 attempted),  and  the
		     user  is prompted to manually confirm the validity	of the
		     key in question.

		     Because a potential attacker is able to control the email
		     address and thereby circumvent the	conflict detection al-
		     gorithm by	using an email address that is similar in  ap-
		     pearance  to  a trusted email address, whenever a message
		     is	verified, statistics  about  the  number  of  messages
		     signed  with  the key are shown.  In this way, a user can
		     easily identify attacks using fake	keys for regular  cor-
		     respondents.

		     When compared with	the Web	of Trust, TOFU offers signifi-
		     cantly  weaker  security guarantees.  In particular, TOFU
		     only helps	ensure consistency (that is, that the  binding
		     between a key and email address doesn't change).  A major
		     advantage	of TOFU	is that	it requires little maintenance
		     to	use correctly.	To use the web of trust	properly,  you
		     need  to actively sign keys and mark users	as trusted in-
		     troducers.	 This is a time-consuming process and  anecdo-
		     tal  evidence suggests that even security-conscious users
		     rarely take the time to do	this  thoroughly  and  instead
		     rely on an	ad-hoc TOFU process.

		     In	 the TOFU model, policies are associated with bindings
		     between keys and email  addresses	(which	are  extracted
		     from  user	ids and	normalized).  There are	five policies,
		     which can be set manually using the --tofu-policy option.
		     The default  policy  can  be  set	using  the  --tofu-de-
		     fault-policy option.

		     The  TOFU policies	are: auto, good, unknown, bad and ask.
		     The auto policy is	used by	default	(unless	overridden  by
		     --tofu-default-policy)  and marks a binding as marginally
		     trusted.  The good, unknown and bad policies mark a bind-
		     ing as fully trusted, as having unknown trust or as  hav-
		     ing  trust	 never,	 respectively.	 The unknown policy is
		     useful for	just using TOFU	to detect  conflicts,  but  to
		     never assign positive trust to a binding.	The final pol-
		     icy,  ask	prompts	 the  user  to	indicate the binding's
		     trust.  If	batch mode is enabled (or input	is inappropri-
		     ate in the	context), then the user	is  not	 prompted  and
		     the undefined trust level is returned.

	      tofu+pgp
		     This  experimental	trust model combines TOFU with the Web
		     of	Trust.	This is	done by	computing the trust level  for
		     each  model and then taking the maximum trust level where
		     the trust levels are ordered as follows: unknown <	 unde-
		     fined < marginal <	fully <	ultimate < expired < never.

		     By	 setting --tofu-default-policy=unknown,	this model can
		     be	used to	implement the web of trust  with  TOFU's  con-
		     flict  detection algorithm, but without its assignment of
		     positive  trust  values,  which  some  security-conscious
		     users don't like.

	      direct Key  validity  is set directly by the user	and not	calcu-
		     lated via the Web of Trust.  This model is	 solely	 based
		     on	 the key and does not distinguish user IDs.  Note that
		     when changing to another trust model the trust values as-
		     signed to a key are transformed into  ownertrust  values,
		     which also	indicate how you trust the owner of the	key to
		     sign other	keys.

	      always Skip  key validation and assume that used keys are	always
		     fully valid. You generally	won't use this unless you  are
		     using  some  external validation scheme. This option also
		     suppresses	the "[uncertain]" tag printed  with  signature
		     checks  when  there  is  no  evidence that	the user ID is
		     bound to the key.	Note that this trust model still  does
		     not allow the use of expired, revoked, or disabled	keys.

	      auto   Select the	trust model depending on whatever the internal
		     trust  database says. This	is the default model if	such a
		     database already exists.  Note that a tofu	trust model is
		     not considered here and must be enabled explicitly.

       --always-trust
	      Identical	to --trust-model always.

       --assert-signer fpr_or_file
	      This option checks whether at least one  valid  signature	 on  a
	      file  has	 been  made with the specified key.  The key is	either
	      specified	as a fingerprint or a file listing fingerprints.   The
	      fingerprint must be given	or listed in compact format (no	colons
	      or  spaces in between).  This option can be given	multiple times
	      and each fingerprint is checked against the signing key as  well
	      as  the  corresponding  primary key.  If fpr_or_file specifies a
	      file, empty lines	are ignored as well as all lines starting with
	      a	hash sign.  With this option gpg is guaranteed to return  with
	      an  exit	code  of 0 if and only if a signature has been encoun-
	      tered, is	valid, and the key matches  one	 of  the  fingerprints
	      given by this option.

       --assert-pubkey-algo algolist
	      During  data  signature verification this	options	checks whether
	      the used public key algorithm matches the	 algorithms  given  by
	      algolist.	  This	option can be given multiple times to concate-
	      nate more	algorithms to the list;	the delimiter of the list  are
	      either commas or spaces.

	      The  algorithm  names  given  in the list	may either be verbatim
	      names like "ed25519" with	an optional leading single equal sign,
	      or being prefixed	with ">", ">=",	"<=", or "<".  That prefix op-
	      erator is	applied	to the number part of the algorithm name;  for
	      example  2048  in	"rsa2048" or 384 in "brainpoolP384r1".	If the
	      the leading non-digits in	the name matches, the prefix  operator
	      is used to compare the number part, a trailing suffix is ignored
	      in this case.  For example an algorithm list ">rsa3000, >=brain-
	      pool384r1,  =ed25519"  allows RSA	signatures with	more that 3000
	      bits, Brainpool curves 384 and 512, and the ed25519 algorithm.

	      With this	option gpg (and	also gpgv)  is	guaranteed  to	return
	      with  an	exit  code of 0	if and only if all valid signatures on
	      data are made using a matching algorithm from the	given list.

       --auto-key-locate mechanisms
       --no-auto-key-locate
	      GnuPG can	automatically locate and retrieve keys as needed using
	      this option.  This happens when encrypting to an	email  address
	      (in  the	"user@example.com" form), and there are	no "user@exam-
	      ple.com" keys on the local keyring.  This	option takes any  num-
	      ber  of the mechanisms listed below, in the order	they are to be
	      tried.  Instead of listing the mechanisms	as comma delimited ar-
	      guments, the option may also be given several times to add  more
	      mechanism.   The	option	--no-auto-key-locate  or the mechanism
	      "clear" resets the list.	The default is "local,wkd".

	      cert   Locate a key using	DNS CERT, as specified in RFC-4398.

	      dane   Locate a key using	DANE, as specified in draft-ietf-dane-
		     openpgpkey-05.txt.

	      wkd    Locate a key using	the Web	Key Directory protocol.

	      ldap   Locate the	key using the configured LDAP  servers.	  This
		     method  is	 similar to the	keyserver mechanism but	always
		     uses only LDAP servers.

	      ntds   Locate the	key using the Active Directory (Windows	only).
		     This method also allows one to search by fingerprint  us-
		     ing  the  command	--locate-external-key.	Note that this
		     mechanism is actually a shortcut for the mechanism	`ldap'
		     using only	"ldap:///" as the keyserver.

	      keyserver
		     Locate a key using	a keyserver.  This method also	allows
		     one  to  search  by  fingerprint  using the command --lo-
		     cate-external-key if any of the configured	keyservers  is
		     an	LDAP server.

	      keyserver-URL
		     In	 addition, a keyserver URL as used in the dirmngr con-
		     figuration	may be used here to query that particular key-
		     server.  This method also allows one to search by finger-
		     print using the command --locate-external-key if the  URL
		     specifies an LDAP server.

	      local  Locate  the key using the local keyrings.	This mechanism
		     allows the	user to	select the order a local key lookup is
		     done.  Thus using `--auto-key-locate local' is  identical
		     to	--no-auto-key-locate.

	      nodefault
		     This  flag	 disables  the standard	local key lookup, done
		     before   any   of	 the   mechanisms   defined   by   the
		     --auto-key-locate are tried.  The position	of this	mecha-
		     nism  in the list does not	matter.	 It is not required if
		     local is also used.

	      clear  Clear all defined mechanisms.  This is useful to override
		     mechanisms	given in a config file.	 Note that a nodefault
		     in	mechanisms will	also be	cleared	unless it is given af-
		     ter the clear.

       --auto-key-import
       --no-auto-key-import
	      This is an offline mechanism to get a missing key	for  signature
	      verification  and	for later encryption to	this key.  If this op-
	      tion is enabled and a signature includes an embedded  key,  that
	      key  is used to verify the signature and on verification success
	      the key is imported. The default is --no-auto-key-import.

	      On the sender  (signing)	site  the  option  --include-key-block
	      needs  to	 be  used to put the public part of the	signing	key as
	      Key Block	subpacket into the signature.

       --auto-key-retrieve
       --no-auto-key-retrieve
	      These options enable or disable the automatic retrieving of keys
	      from a keyserver when verifying signatures made by keys that are
	      not on the local	keyring.   The	default	 is  --no-auto-key-re-
	      trieve.

	      The order	of methods tried to lookup the key is:

	      1. If the	option --auto-key-import is set	and the	signatures in-
	      cludes an	embedded key, that key is used to verify the signature
	      and on verification success that key is imported.

	      2.  If  a	 preferred keyserver is	specified in the signature and
	      the option honor-keyserver-url is	active (which is not  the  de-
	      fault),  that  keyserver is tried.  Note that the	creator	of the
	      signature	uses the option	 --sig-keyserver-url  to  specify  the
	      preferred	keyserver for data signatures.

	      3.  If  the  signature  has  the	Signer's  UID set (e.g., using
	      --sender while creating the signature) a Web Key Directory (WKD)
	      lookup is	done.  This is the default configuration  but  can  be
	      disabled by removing WKD from the	auto-key-locate	list or	by us-
	      ing the option --disable-signer-uid.

	      4.  If any keyserver is configured and the Issuer	Fingerprint is
	      part of the signature (since GnuPG 2.1.16), the configured  key-
	      servers are tried.

	      Note  that this option makes a "web bug" like behavior possible.
	      Keyserver	or Web Key Directory 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	keyring),  the
	      operator	can  tell  both	 your IP address and the time when you
	      verified the signature.

       --auto-key-upload
       --no-auto-key-upload
	      If an LDAP keyserver is configured (in dirmngr) upload  a	 newly
	      created key directly to that server.  Also upload	publicly visi-
	      ble  changes  to	a key to such a	server.	 The no	variant	can be
	      used to disable it in case it has	been enabled in	 a  configura-
	      tion file.

       --keyid-format {none|short|0xshort|long|0xlong}
	      Select  how to display key IDs.  "none" does not show the	key ID
	      at all but shows the fingerprint in a separate line.  "short" is
	      the traditional 8-character key ID.  "long" is the more accurate
	      (but less	convenient) 16-character key ID.  Add an "0x"  to  ei-
	      ther  to	include	 an "0x" at the	beginning of the key ID, as in
	      0x99242560.  Note	that this option  is  ignored  if  the	option
	      --with-colons is used.

       --keyserver name
	      This  option  is	deprecated  ---	 please	use the	--keyserver in
	      `dirmngr.conf' instead.

	      Use name as your	keyserver.  This  is  the  server  that	 --re-
	      ceive-keys, --send-keys, and --search-keys will communicate with
	      to  receive keys from, send keys to, and search for keys on. The
	      format of	the name is a  URI:  `scheme:[//]keyservername[:port]'
	      The  scheme  is the type of keyserver: "hkp"/"hkps" for the HTTP
	      (or compatible) keyservers or "ldap"/"ldaps" for the  LDAP  key-
	      servers.	 Note  that  your particular installation of GnuPG may
	      have other keyserver types available as well. Keyserver  schemes
	      are case-insensitive.

	      Most  keyservers synchronize with	each other, so there is	gener-
	      ally no need to send keys	to more	than one server. The keyserver
	      hkp://keys.gnupg.net uses	round robin DNS	to  give  a  different
	      keyserver	each time you use it.

       --keyserver-options {name=value}
	      This is a	space or comma delimited string	that gives options for
	      the  keyserver. Options can be prefixed with a `no-' to give the
	      opposite meaning.	Valid import-options or	export-options may  be
	      used  here as well to apply to importing (--recv-key) or export-
	      ing (--send-key) a key from a keyserver. While not  all  options
	      are available for	all keyserver types, some common options are:

	      include-revoked
		     When searching for	a key with --search-keys, include keys
		     that  are	marked	on the keyserver as revoked. Note that
		     not all keyservers	differentiate between revoked and  un-
		     revoked  keys,  and  for  such  keyservers	this option is
		     meaningless. Note also that most keyservers do  not  have
		     cryptographic  verification  of  key  revocations,	and so
		     turning this option off may result	in skipping keys  that
		     are incorrectly marked as revoked.

	      include-disabled
		     When searching for	a key with --search-keys, include keys
		     that  are	marked on the keyserver	as disabled. Note that
		     this option is not	used with HKP keyservers.

	      honor-keyserver-url
		     When using	--refresh-keys,	if the key in question	has  a
		     preferred	keyserver  URL,	 then  use that	preferred key-
		     server to refresh the key from. In	addition, if auto-key-
		     retrieve is set, and the signature	being verified	has  a
		     preferred	keyserver  URL,	 then  use that	preferred key-
		     server to fetch the key from. Note	that this  option  in-
		     troduces a	"web bug": The creator of the key can see when
		     the  keys	is refreshed.  Thus this option	is not enabled
		     by	default.

	      include-subkeys
		     When receiving a key, include subkeys as  potential  tar-
		     gets.  Note  that	this  option is	not used with HKP key-
		     servers, as they do not support retrieving	keys by	subkey
		     id.

	      only-pubkeys
		     Do	not import secret keys.

	      update-before-send
		     Before sending a key to an	LDAP server  try  to  retrieve
		     and  merge	 that key first.  This is only done if the key
		     is	specified by fingerprint.  This	is enabled by default.

	      auto-key-retrieve
		     This is an	obsolete alias	for  the  option  auto-key-re-
		     trieve.   Please do not use it; it	will be	removed	in fu-
		     ture versions.

	      timeout
	      http-proxy=value
	      verbose
	      debug
	      check-cert

	      ca-cert-file
		     These options have	no more	function since GnuPG 2.1.  Use
		     the dirmngr configuration options instead.

       The default list	of options is: "self-sigs-only,	import-clean,  repair-
       keys,  repair-pks-subkey-bug,  export-attributes,  update-before-send".
       However,	if the actual used source is  an  LDAP	server	"no-self-sigs-
       only"  is  assumed  unless "self-sigs-only" has been explicitly config-
       ured.

       --completes-needed n
	      Number of	completely trusted users to introduce a	new key	signer
	      (defaults	to 1).

       --marginals-needed n
	      Number of	marginally trusted users to introduce a	new key	signer
	      (defaults	to 3)

       --tofu-default-policy {auto|good|unknown|bad|ask}
	      The default TOFU policy (defaults	to auto).  For	more  informa-
	      tion about the meaning of	this option, see: [trust-model-tofu].

       --max-cert-depth	n
	      Maximum depth of a certification chain (default is 5).

       --no-sig-cache
	      Do not cache the verification status of key signatures.  Caching
	      gives a much better performance in key listings. However,	if you
	      suspect that your	public keyring is not safe against write modi-
	      fications,  you  can  use	this option to disable the caching. It
	      probably does not	make sense to disable it because all  kind  of
	      damage can be done if someone else has write access to your pub-
	      lic keyring.

       --auto-check-trustdb
       --no-auto-check-trustdb
	      If  GnuPG	 feels that its	information about the Web of Trust has
	      to be updated, it	automatically runs the --check-trustdb command
	      internally.    This   may	  be   a   time	  consuming   process.
	      --no-auto-check-trustdb disables this option.

       --use-agent
       --no-use-agent
	      This is dummy option. gpg	always requires	the agent.

       --gpg-agent-info
	      This is dummy option. It has no effect when used with gpg.

       --agent-program file
	      Specify  an  agent program to be used for	secret key operations.
	      The default value	is determined by running gpgconf with the  op-
	      tion  --list-dirs.   Note	that the pipe symbol (|) is used for a
	      regression test suite hack and may thus not be used in the  file
	      name.

       --dirmngr-program file
	      Specify  a dirmngr program to be used for	keyserver access.  The
	      default value is `/usr/local/bin/dirmngr'.

       --disable-dirmngr
	      Entirely disable the use of the Dirmngr.

       --no-autostart
	      Do not start the gpg-agent or the	dirmngr	if it has not yet been
	      started and its service is required.  This option	is mostly use-
	      ful on machines where the	connection to gpg-agent	has been redi-
	      rected to	another	machines.  If dirmngr is required on  the  re-
	      mote  machine, it	may be started manually	using gpgconf --launch
	      dirmngr.

       --lock-once
	      Lock the databases the first time	a lock is requested and	do not
	      release the lock until the process terminates.

       --lock-multiple
	      Release the locks	every time a lock is  no  longer  needed.  Use
	      this to override a previous --lock-once from a config file.

       --lock-never
	      Disable  locking	entirely.  This	 option	should be used only in
	      very special environments, where it can be assured that only one
	      process is accessing those  files.  A  bootable  floppy  with  a
	      stand-alone  encryption  system will probably use	this. Improper
	      usage of this option may lead to data and	key corruption.

       --exit-on-status-write-error
	      This option will cause write errors on the status	FD to  immedi-
	      ately  terminate the process. That should	in fact	be the default
	      but it never worked this way and thus we need an option  to  en-
	      able  this,  so  that  the change	won't break applications which
	      close their end of a status fd connected pipe too	 early.	 Using
	      this  option  along with --enable-progress-filter	may be used to
	      cleanly cancel long running gpg operations.

       --limit-card-insert-tries n
	      With n greater than 0 the	number of prompts asking to  insert  a
	      smartcard	 gets limited to N-1. Thus with	a value	of 1 gpg won't
	      at all ask to insert  a  card  if	 none  has  been  inserted  at
	      startup. This option is useful in	the configuration file in case
	      an  application  does  not  know about the smartcard support and
	      waits ad infinitum for an	inserted card.

       --no-random-seed-file
	      GnuPG uses a file	to store its internal random pool over invoca-
	      tions.  This makes random	generation faster;  however  sometimes
	      write  operations	 are  not  desired. This option	can be used to
	      achieve that with	the cost of slower random generation.

       --no-greeting
	      Suppress the initial copyright message.

       --no-secmem-warning
	      Suppress the warning about "using	insecure memory".

       --no-permission-warning
	      Suppress the  warning  about  unsafe  file  and  home  directory
	      (--homedir)  permissions.	 Note  that the	permission checks that
	      GnuPG performs are not intended to be authoritative, but	rather
	      they  simply  warn  about	certain	common permission problems. Do
	      not assume that the lack of a warning means that your system  is
	      secure.

	      Note that	the warning for	unsafe --homedir permissions cannot be
	      suppressed in the	gpg.conf file, as this would allow an attacker
	      to  place	an unsafe gpg.conf file	in place, and use this file to
	      suppress warnings	about itself. The --homedir permissions	 warn-
	      ing may only be suppressed on the	command	line.

       --require-secmem
       --no-require-secmem
	      Refuse  to run if	GnuPG cannot get secure	memory.	Defaults to no
	      (i.e., run, but give a warning).

       --require-cross-certification
       --no-require-cross-certification
	      When verifying a signature made from a subkey, ensure  that  the
	      cross  certification  "back  signature" on the subkey is present
	      and valid.  This protects	against	a subtle attack	 against  sub-
	      keys  that  can sign.  Defaults to --require-cross-certification
	      for gpg.

       --expert
       --no-expert
	      Allow the	user to	do certain nonsensical or "silly" things  like
	      signing an expired or revoked key, or certain potentially	incom-
	      patible things like generating unusual key types.	This also dis-
	      ables  certain  warning  messages	about potentially incompatible
	      actions. As the name implies, this option	is for	experts	 only.
	      If you don't fully understand the	implications of	what it	allows
	      you to do, leave this off. --no-expert disables this option.

   Key related options

       --recipient name
       -r     Encrypt  for  user id name. If this option or --hidden-recipient
	      is not specified,	 GnuPG	asks  for  the	user-id	 unless	 --de-
	      fault-recipient is given.

       --hidden-recipient name
       -R     Encrypt  for  user  ID  name, but	hide the key ID	of this	user's
	      key. This	option helps to	hide the receiver of the  message  and
	      is  a  limited  countermeasure against traffic analysis. If this
	      option or	--recipient is not specified, GnuPG asks for the  user
	      ID unless	--default-recipient is given.

       --recipient-file	file
       -f     This option is similar to	--recipient except that	it encrypts to
	      a	key stored in the given	file.  file must be the	name of	a file
	      containing  exactly  one	key.  gpg assumes that the key in this
	      file is fully valid.

       --hidden-recipient-file file
       -F     This option is similar to	--hidden-recipient except that it  en-
	      crypts to	a key stored in	the given file.	 file must be the name
	      of  a file containing exactly one	key.  gpg assumes that the key
	      in this file is fully valid.

       --encrypt-to name
	      Same as --recipient but this one is intended for use in the  op-
	      tions file and may be used with your own user-id as an "encrypt-
	      to-self".	  It  is  suggested to use a fingerprint or at least a
	      long keyID for name.  These keys are only	used  when  there  are
	      other  recipients	 given	either by use of --recipient or	by the
	      asked user id.  No trust checking	is performed  for  these  user
	      ids and even disabled keys can be	used.

       --hidden-encrypt-to name
	      Same  as	--hidden-recipient but this one	is intended for	use in
	      the options file and may be used with your own user-id as	a hid-
	      den "encrypt-to-self".  It is suggested to use a fingerprint  or
	      at  least	 a long	keyID for name.	 These keys are	only used when
	      there are	other recipients given either by use of	--recipient or
	      by the asked user	id.  No	trust checking is performed for	 these
	      user ids and even	disabled keys can be used.

       --no-encrypt-to
	      Disable  the  use	 of  all  --encrypt-to and --hidden-encrypt-to
	      keys.

       --group {name=value}
	      Sets up a	named group, which is similar to aliases in email pro-
	      grams.  Any time the group name is a recipient (-r or  --recipi-
	      ent),  it	 will  be  expanded  to	the values specified. Multiple
	      groups with the same name	are automatically merged into a	single
	      group.

	      The values are key IDs or	fingerprints, but any key  description
	      is accepted. Note	that a value with spaces in it will be treated
	      as  two  different  values. Note also there is only one level of
	      expansion	--- you	cannot make an group that  points  to  another
	      group.  When  used from the command line,	it may be necessary to
	      quote the	argument to this option	 to  prevent  the  shell  from
	      treating it as multiple arguments.

       --ungroup name
	      Remove a given entry from	the --group list.

       --no-groups
	      Remove all entries from the --group list.

       --local-user name
       -u     Use  name	 as  the key to	sign with. Note	that this option over-
	      rides --default-key.

       --sender	mbox
	      This option has two purposes.  mbox must either  be  a  complete
	      user  ID	containing  a proper mail address or just a plain mail
	      address.	The option can be given	multiple times.

	      When creating a signature	this  option  tells  gpg  the  signing
	      key's user id used to make the signature and embeds that user ID
	      into the created signature (using	OpenPGP's ``Signer's User ID''
	      subpacket).   If	the  option is given multiple times a suitable
	      user ID is picked.  However, if the signing  key	was  specified
	      directly	by  using a mail address (i.e.,	not by using a finger-
	      print or key ID) this option is used and the mail	address	is em-
	      bedded in	the created signature.

	      When verifying a signature mbox is used to restrict the informa-
	      tion printed by the TOFU code to matching	user IDs.  If the  op-
	      tion  is	used and the signature contains	a ``Signer's User ID''
	      subpacket	that information is  is	 also  used  to	 restrict  the
	      printed  information.   Note  that GnuPG considers only the mail
	      address part of a	User ID.

	      If this option or	the said  subpacket  is	 available  the	 TRUST
	      lines  as	 printed  by option status-fd correspond to the	corre-
	      sponding User ID;	if no User ID is known	the  TRUST  lines  are
	      computed	directly  on  the  key and do not give any information
	      about the	User ID.  In the latter	case it	his highly recommended
	      to scripts and other frontends to	evaluate  the  VALIDSIG	 line,
	      retrieve	the key	and print all User IDs along with their	valid-
	      ity (trust) information.

       --try-secret-key	name
	      For hidden recipients GPG	needs to know  the  keys  to  use  for
	      trial  decryption.   The	key  set  with --default-key is	always
	      tried first, but this is often not sufficient.  This option  al-
	      lows  setting  more  keys	 to be used for	trial decryption.  Al-
	      though any valid user-id specification may be used for  name  it
	      makes sense to use at least the long keyid to avoid ambiguities.
	      Note that	gpg-agent might	pop up a pinentry for a	lot keys to do
	      the trial	decryption.  If	you want to stop all further trial de-
	      cryption	you  may use close-window button instead of the	cancel
	      button.

       --try-all-secrets
	      Don't look at the	key ID as stored in the	message	 but  try  all
	      secret  keys  in turn to find the	right decryption key. This op-
	      tion forces the behaviour	as used	by anonymous recipients	 (cre-
	      ated  by	using  --throw-keyids or --hidden-recipient) and might
	      come handy in case where an encrypted message contains  a	 bogus
	      key ID.

       --skip-hidden-recipients
       --no-skip-hidden-recipients
	      During  decryption  skip	all anonymous recipients.  This	option
	      helps in the case	that people use	the hidden recipients  feature
	      to  hide	their own encrypt-to key from others.  If one has many
	      secret keys this may lead	to a major annoyance because all  keys
	      are  tried in turn to decrypt something which was	not really in-
	      tended for it.  The drawback of this option is that it  is  cur-
	      rently  not  possible  to	 decrypt a message which includes real
	      anonymous	recipients.

   Input and Output

       --armor
       -a     Create ASCII armored output.  The	default	is to create  the  bi-
	      nary OpenPGP format.

       --no-armor
	      Assume the input data is not in ASCII armored format.

       --output	file
       -o file
	      Write output to file.  To	write to stdout	use - as the filename.

       --max-output n
	      This  option  sets  a  limit on the number of bytes that will be
	      generated	when processing	a file.	Since OpenPGP supports various
	      levels of	compression, it	is possible that the  plaintext	 of  a
	      given  message  may  be  significantly  larger than the original
	      OpenPGP message. While GnuPG works properly with such  messages,
	      there  is	often a	desire to set a	maximum	file size that will be
	      generated	before processing is forced to stop by the OS  limits.
	      Defaults to 0, which means "no limit".

       --chunk-size n
	      The  AEAD	 encryption mode encrypts the data in chunks so	that a
	      receiving	side can check for transmission	errors or tampering at
	      the end of each chunk and	does not need to delay this until  all
	      data  has	 been received.	 The used chunk	size is	2^n byte.  The
	      lowest allowed value for n is 6 (64 byte)	and the	largest	is the
	      default of 22 which creates chunks not larger than 4 MiB.

       --input-size-hint n
	      This option can be used to tell GPG the size of the  input  data
	      in  bytes.  n must be a positive base-10 number.	This option is
	      only useful if the input is not taken from a file.  GPG may  use
	      this  hint  to  optimize	its buffer allocation strategy.	 It is
	      also used	by the --status-fd  line  ``PROGRESS''	to  provide  a
	      value for	``total'' if that is not available by other means.

       --key-origin string[,url]
	      gpg  can	track the origin of a key. Certain origins are implic-
	      itly known (e.g.,	keyserver, web key directory) and set.	For  a
	      standard	import the origin of the keys imported can be set with
	      this option.  To list the	possible values	use "help" for string.
	      Some origins can store an	optional url argument; such an URL can
	      be appended to string delimited by a comma.

       --import-options	parameters
	      This is a	space or comma delimited string	that gives options for
	      importing	keys. Options can be prepended with a  `no-'  to  give
	      the opposite meaning. The	options	are:

	      import-local-sigs
		     Allow importing key signatures marked as "local". This is
		     not  generally  useful  unless a shared keyring scheme is
		     being used.  Defaults to no.

	      keep-ownertrust
		     Normally possible still existing ownertrust values	 of  a
		     key are cleared if	a key is imported.  This is in general
		     desirable	so  that a formerly deleted key	does not auto-
		     matically gain an ownertrust values merely	due to import.
		     On	the other hand it is sometimes necessary to  re-import
		     a	trusted	set of keys again but keeping already assigned
		     ownertrust	values.	 This can be achieved  by  using  this
		     option.

	      repair-pks-subkey-bug
		     During import, attempt to repair the damage caused	by the
		     PKS  keyserver  bug (pre version 0.9.6) that mangles keys
		     with multiple subkeys. Note that this  cannot  completely
		     repair the	damaged	key as some crucial data is removed by
		     the  keyserver,  but  it  does at least give you back one
		     subkey. Defaults to no for	regular	--import  and  to  yes
		     for keyserver --receive-keys.

	      import-show
	      show-only
		     Show  a listing of	the key	as imported right before it is
		     stored.  This can be combined with	the  option  --dry-run
		     to	 only look at keys; the	option show-only is a shortcut
		     for this combination.  The	command	--show-keys is another
		     shortcut for this.	 Note that suffixes like '#' for "sec"
		     and "sbb" lines may or may	not be printed.

	      import-export
		     Run the entire import code	but instead of storing the key
		     to	the local keyring write	it to the output.  The	export
		     option  export-dane  affect  the output.  This option can
		     for example be used to remove all invalid	parts  from  a
		     key without the need to store it.

	      merge-only
		     During import, allow key updates to existing keys,	but do
		     not allow any new keys to be imported. Defaults to	no.

	      import-clean
		     After  import,  compact (remove all signatures except the
		     self-signature) any user IDs from the new	key  that  are
		     not usable.  Then,	remove any signatures from the new key
		     that  are not usable.  This includes signatures that were
		     issued by keys that are not present on the	keyring.  This
		     option  is	 the  same  as	running	the --edit-key command
		     "clean" after import. Defaults to no.

	      self-sigs-only
		     Accept only self-signatures while importing a  key.   All
		     other  key	 signatures  are  skipped  at  an early	import
		     stage.  This option can be	used with keyserver-options to
		     mitigate attempts to flood	a key  with  bogus  signatures
		     from  a  keyserver.  The drawback is that all other valid
		     key signatures, as	required by the	Web of Trust are  also
		     not  imported.   Note  that  when using this option along
		     with import-clean it suppresses the final clean step  af-
		     ter merging the imported key into the existing key.

	      ignore-attributes
		     Ignore  all attribute user	IDs (photo IDs)	and their sig-
		     natures while importing a key.

	      repair-keys
		     After import, fix various problems	with  the  keys.   For
		     example,  this  reorders signatures, and strips duplicate
		     signatures.  Defaults to yes.

	      bulk-import
		     When  used	 the  keyboxd  (option	use-keyboxd  in	 `com-
		     mon.conf')	does the import	within a single	transaction.

	      import-minimal
		     Import the	smallest key possible. This removes all	signa-
		     tures  except the most recent self-signature on each user
		     ID. This option is	the same  as  running  the  --edit-key
		     command "minimize"	after import.  Defaults	to no.

	      restore
	      import-restore
		     Import  in	key restore mode.  This	imports	all data which
		     is	usually	skipped	during	import;	 including  all	 GnuPG
		     specific data.  All other contradicting options are over-
		     ridden.

       --import-filter {name=expr}
       --export-filter {name=expr}
	      These  options  define an	import/export filter which are applied
	      to the  imported/exported	 keyblock  right  before  it  will  be
	      stored/written.	name  defines  the type	of filter to use, expr
	      the expression to	evaluate.  The	option	can  be	 used  several
	      times which then appends more expression to the same name.

	      The available filter types are:

	      keep-uid
		     This  filter will keep a user id packet and its dependent
		     packets in	the keyblock if	the  expression	 evaluates  to
		     true.

	      drop-subkey
		     This  filter  drops the selected subkeys.	Currently only
		     implemented for --export-filter.

	      drop-sig
		     This filter drops the selected  key  signatures  on  user
		     ids.  Self-signatures are not considered.	Currently only
		     implemented for --import-filter.

	      select This  filter  is  only implemented	by --list-filter.  All
		     property names may	be used.

       For the syntax of the expression	see the	chapter	"FILTER	 EXPRESSIONS".
       The property names for the expressions depend on	the actual filter type
       and are indicated in the	following table.  Note that all	property names
       may also	be used	by --list-filter.

       Property	 names may be prefix with a scope delimited by a slash.	 Valid
       scopes are "pub"	for public and secret primary keys, "sub"  for	public
       and secret subkeys, "uid" for for user-ID packets, and "sig" for	signa-
       ture packets.  Invalid scopes are currently ignored.

       The available properties	are:

	      uid    A string with the user id.	 (keep-uid)

	      mbox   The addr-spec part	of a user id with mailbox or the empty
		     string.  (keep-uid)

	      algostr
		     A string with the key algorithm description.  For example
		     "rsa3072" or "ed25519".

	      key_algo
		     A number with the public key algorithm of a key or	subkey
		     packet.  (drop-subkey)

	      key_size
		     A	number	with the effective key size of a key or	subkey
		     packet.  (drop-subkey)

	      key_created
	      key_created_d
		     The first is the timestamp	a public key or	subkey	packet
		     was  created.  The	second is the same but given as	an ISO
		     string, e.g., "2016-08-17". (drop-subkey)

	      key_expires
	      key_expires_d
		     The expiration time of a public key or subkey or 0	if  it
		     does  not expire.	The second is the same but given as an
		     ISO date string or	an empty string	e.g., "2038-01-19".

	      fpr    The hexified fingerprint of the current subkey or primary
		     key.  (drop-subkey)

	      primary
		     Boolean indicating	whether	the user  id  is  the  primary
		     one.  (keep-uid)

	      expired
		     Boolean  indicating  whether  a user id (keep-uid), a key
		     (drop-subkey), or a signature (drop-sig) expired.

	      revoked
		     Boolean indicating	whether	a user id (keep-uid) or	a  key
		     (drop-subkey) has been revoked.

	      disabled
		     Boolean indicating	whether	a primary key is disabled.

	      secret Boolean  indicating  whether  a key or subkey is a	secret
		     one.  (drop-subkey)

	      usage  A string indicating the usage flags for the subkey,  from
		     the sequence ``ecsa?''.  For example, a subkey capable of
		     just  signing  and	authentication would be	an exact match
		     for ``sa''. (drop-subkey)

	      sig_created
	      sig_created_d
		     The first is the timestamp	a signature  packet  was  cre-
		     ated.   The  second  is the same but given	as an ISO date
		     string, e.g., "2016-08-17". (drop-sig)

	      sig_expires
	      sig_expires_d
		     The expiration time of a signature	packet or 0 if it does
		     not expire.  The second is	the same but given as  an  ISO
		     date string or an empty string e.g. "2038-01-19".

	      sig_algo
		     A	number	with  the  public key algorithm	of a signature
		     packet. (drop-sig)

	      sig_digest_algo
		     A number with the digest algorithm	of a signature packet.
		     (drop-sig)

	      origin A string with the key origin or a question	mark.  For ex-
		     ample the string ``wkd'' is used if a key originated from
		     a Web Key Directory lookup.

	      lastupd
		     The timestamp the key was last updated from  a  keyserver
		     or	the Web	Key Directory.

	      url    A	string	with  the the URL associated with the last key
		     lookup.

       --export-options	parameters
	      This is a	space or comma delimited string	that gives options for
	      exporting	keys.  Options can be prepended	with a `no-'  to  give
	      the opposite meaning.  The options are:

	      export-local-sigs
		     Allow exporting key signatures marked as "local". This is
		     not  generally  useful  unless a shared keyring scheme is
		     being used.  Defaults to no.

	      export-attributes
		     Include attribute user IDs	(photo IDs)  while  exporting.
		     Not including attribute user IDs is useful	to export keys
		     that are going to be used by an OpenPGP program that does
		     not accept	attribute user IDs.  Defaults to yes.

	      export-sensitive-revkeys
		     Include designated	revoker	information that was marked as
		     "sensitive". Defaults to no.

	      backup
	      export-backup
		     Export  for  use as a backup.  The	exported data includes
		     all data which is needed to restore the key or keys later
		     with GnuPG.  The format is	basically the  OpenPGP	format
		     but enhanced with GnuPG specific data.  All other contra-
		     dicting options are overridden.

	      export-clean
		     Compact  (remove all signatures from) user	IDs on the key
		     being exported if the user	IDs are	not usable.  Also,  do
		     not  export  any signatures that are not usable. This in-
		     cludes signatures that were issued	by keys	that  are  not
		     present  on  the keyring. This option is the same as run-
		     ning the --edit-key command "clean" before	export	except
		     that  the local copy of the key is	not modified. Defaults
		     to	no.

	      export-minimal
		     Export the	smallest key possible. This removes all	signa-
		     tures except the most recent self-signature on each  user
		     ID.  This	option	is  the	same as	running	the --edit-key
		     command "minimize"	before export except  that  the	 local
		     copy of the key is	not modified. Defaults to no.

	      keep-expired-subkeys
		     Keep expired subkeys even with export-minimal used.

	      export-revocs
		     Export  only  standalone  revocation  certificates	of the
		     key.  This	option does  not  export  revocations  of  3rd
		     party certificate revocations.

	      export-dane
		     Instead  of  outputting  the  key material	output OpenPGP
		     DANE records suitable to put into	DNS  zone  files.   An
		     ORIGIN  line  is  printed before each record to allow di-
		     verting the records to the	corresponding zone file.

	      mode1003
		     Enable the	use of a new secret key	export	format.	  This
		     format avoids the re-encryption as	required with the cur-
		     rent OpenPGP format and also improves the security	of the
		     secret  key  if  it has been protected with a passphrase.
		     Note that an unprotected key is exported as-is  and  thus
		     not  secure; the general rule to convey secret keys in an
		     OpenPGP encrypted file  still  applies  with  this	 mode.
		     Versions  of  GnuPG  before  2.4.0	are not	able to	import
		     such a secret file.

       --with-colons
	      Print key	listings delimited by colons.  Note  that  the	output
	      will  be	encoded	 in  UTF-8 regardless of any --display-charset
	      setting. This format is useful when GnuPG	is called from scripts
	      and other	programs as it is easily machine parsed.  The  details
	      of  this	format are documented in the file `doc/DETAILS', which
	      is included in the GnuPG source distribution.

       --fixed-list-mode
	      Do not merge primary user	ID and	primary	 key  in  --with-colon
	      listing	mode   and  print  all	timestamps  as	seconds	 since
	      1970-01-01.  Since GnuPG 2.0.10, this mode is  always  used  and
	      thus this	option is obsolete; it does not	harm to	use it though.

       --legacy-list-mode
	      Revert  to  the pre-2.1 public key list mode.  This only affects
	      the human	readable output	and not	the machine  interface	(i.e.,
	      --with-colons).	Note  that  the	 legacy	format does not	convey
	      suitable information for elliptic	curves.

       --with-fingerprint
	      Same as the command --fingerprint	but changes only the format of
	      the output and may be used together with another command.

       --with-subkey-fingerprint
       --without-subkey-fingerprint
	      If a fingerprint is printed for the  primary  key,  this	option
	      forces  printing of the fingerprint for all subkeys.  This could
	      also be achieved by using	the --with-fingerprint	twice  but  by
	      using  this  option along	with the default keyid-format "none" a
	      compact fingerprint is printed.  Since version 2.6.0 this	option
	      is active	by default; use	the ``without''	variant	to disable it.

       --with-v5-fingerprint
	      In a colon mode listing emit "fp2" lines for version  4  OpenPGP
	      keys having a v5 style fingerprint of the	key.

       --with-icao-spelling
	      Print  the  ICAO	spelling of the	fingerprint in addition	to the
	      hex digits.

       --with-keygrip
	      Include the keygrip in the key listings.	In --with-colons  mode
	      this is implicitly enable	for secret keys.

       --with-key-origin
	      Include  the locally held	information on the origin and last up-
	      date of a	key in a key listing.  In --with-colons	mode  this  is
	      always  printed.	 This data is currently	experimental and shall
	      not be considered	part of	the stable API.

       --with-wkd-hash
	      Print a Web Key Directory	identifier along with each user	ID  in
	      key listings.  This is an	experimental feature and semantics may
	      change.

       --with-secret
	      Include  info  about  the	presence of a secret key in public key
	      listings done with --with-colons.

   OpenPGP protocol specific options

       --force-ocb
       --force-aead
	      Force the	use of AEAD encryption over MDC	encryption.  AEAD is a
	      modern and faster	way to do authenticated	 encryption  than  the
	      old  MDC	method.	 --force-aead is an alias and deprecated.  See
	      also option --chunk-size.

       --force-mdc
       --disable-mdc
	      These options are	obsolete and have no effect since GnuPG	2.2.8.
	      The MDC is always	used unless the	keys indicate that an AEAD al-
	      gorithm can be used in which case	AEAD is	used.	But  note:  If
	      the  creation  of	 a legacy non-MDC message is exceptionally re-
	      quired, the option --rfc2440 allows for this.

       --disable-signer-uid
	      By default the user ID of	the signing key	 is  embedded  in  the
	      data  signature.	As of now this is only done if the signing key
	      has been specified with local-user using a mail address, or with
	      sender.  This information	can be helpful for verifier to	locate
	      the key; see option --auto-key-retrieve.

       --include-key-block
       --no-include-key-block
	      This  option is used to embed the	actual signing key into	a data
	      signature.  The embedded key is stripped down to a  single  user
	      id  and includes only the	signing	subkey used to create the sig-
	      nature as	well as	as valid encryption subkeys.  All  other  info
	      is removed from the key to keep it and thus the signature	small.
	      This option is the OpenPGP counterpart to	the gpgsm option --in-
	      clude-certs  and allows the recipient of a signed	message	to re-
	      ply encrypted to the sender without using	any online directories
	      to lookup	the key.  The default is --no-include-key-block.   See
	      also the option --auto-key-import.

       --personal-cipher-preferences string
	      Set  the list of personal	cipher preferences to string.  Use gpg
	      --version	to get a list of available algorithms, and use none to
	      set no preference	at all.	 This allows the user to safely	 over-
	      ride  the	 algorithm chosen by the recipient key preferences, as
	      GPG will only select an algorithm	that is	usable by all  recipi-
	      ents.   The  most	highly ranked cipher in	this list is also used
	      for the --symmetric encryption command.

       --personal-digest-preferences string
	      Set the list of personal digest preferences to string.  Use  gpg
	      --version	to get a list of available algorithms, and use none to
	      set  no preference at all.  This allows the user to safely over-
	      ride the algorithm chosen	by the recipient key  preferences,  as
	      GPG  will	only select an algorithm that is usable	by all recipi-
	      ents.  The most highly ranked digest algorithm in	this  list  is
	      also used	when signing without encryption	(e.g., --clear-sign or
	      --sign).

       --personal-compress-preferences string
	      Set the list of personal compression preferences to string.  Use
	      gpg  --version  to  get  a list of available algorithms, and use
	      none to set no preference	at  all.   This	 allows	 the  user  to
	      safely  override the algorithm chosen by the recipient key pref-
	      erences, as GPG will only	select an algorithm that is usable  by
	      all recipients.  The most	highly ranked compression algorithm in
	      this  list is also used when there are no	recipient keys to con-
	      sider (e.g., --symmetric).

       --s2k-cipher-algo name
	      Use name as the cipher algorithm for symmetric encryption	with a
	      passphrase if  --personal-cipher-preferences  and	 --cipher-algo
	      are not given.  The default is AES-256.

       --s2k-digest-algo name
	      Use  name	as the digest algorithm	used to	mangle the passphrases
	      for symmetric encryption.	 The default is	SHA-1.

       --s2k-mode n
	      Selects how passphrases for symmetric encryption are mangled. If
	      n	is 0 a plain passphrase	(which is in general not  recommended)
	      will  be used, a 1 adds a	salt (which should not be used)	to the
	      passphrase and a 3 (the default) iterates	the  whole  process  a
	      number of	times (see --s2k-count).

       --s2k-count n
	      Specify  how  many  times	the passphrases	mangling for symmetric
	      encryption is repeated.  This value may range between  1024  and
	      65011712	inclusive.   The  default  is inquired from gpg-agent.
	      Note that	not all	values in the 1024--65011712 range  are	 legal
	      and  if an illegal value is selected, GnuPG will round up	to the
	      nearest  legal  value.   This  option  is	 only  meaningful   if
	      --s2k-mode is set	to the default of 3.

   Compliance options

       These options control what GnuPG	is compliant to. Only one of these op-
       tions  may be active at a time. If multiple options are given, the last
       one supersedes all the others.  Note that the default setting  of  this
       is  nearly  always the correct one. See the INTEROPERABILITY WITH OTHER
       OPENPGP PROGRAMS	section	below before using one of these	options.

       --gnupg
	      Use standard GnuPG behavior. This	is essentially OpenPGP	behav-
	      ior (see --openpgp), but with extension from the proposed	update
	      to  OpenPGP and with some	additional workarounds for common com-
	      patibility problems in different versions	of PGP.	 This  is  the
	      default  option,	so  it	is not generally needed, but it	may be
	      useful to	override a different compliance	option in the gpg.conf
	      file.

       --openpgp
	      Reset all	packet,	cipher and digest options  to  strict  OpenPGP
	      behavior.	  This	option	implies	--allow-old-cipher-algos.  Use
	      this option to reset all previous	options	 like  --s2k-*,	 --ci-
	      pher-algo,  --digest-algo	and --compress-algo to OpenPGP compli-
	      ant values. All PGP workarounds are disabled.

       --rfc4880
	      Reset all	packet,	cipher and digest options to  strict  RFC-4880
	      behavior.	  This	option implies --allow-old-cipher-algos.  Note
	      that this	is currently the same thing as --openpgp.

       --rfc4880bis
	      Reset all	packet,	cipher and digest options to strict  according
	      to the proposed updates of RFC-4880.

       --rfc2440
	      Reset  all  packet, cipher and digest options to strict RFC-2440
	      behavior.	 Note that by using this option	encryption packets are
	      created in a legacy mode without MDC protection.	This  is  dan-
	      gerous  and  should thus only be used for	experiments.  This op-
	      tion implies --allow-old-cipher-algos.  See  also	 option	 --ig-
	      nore-mdc-error.

       --pgp6 This option is obsolete; it is handled as	an alias for --pgp7

       --pgp7 Set  up  all  options to be as PGP 7 compliant as	possible. This
	      allowed the ciphers IDEA,	3DES, CAST5, AES128,  AES192,  AES256,
	      and  TWOFISH.,  the hashes MD5, SHA1 and RIPEMD160, and the com-
	      pression algorithms none and ZIP.	  This	option	implies	 --es-
	      cape-from-lines and disables --throw-keyids,

       --pgp8 Set  up  all options to be as PGP	8 compliant as possible. PGP 8
	      is a lot closer to the OpenPGP standard than  previous  versions
	      of PGP, so all this does is disable --throw-keyids and set --es-
	      cape-from-lines.	 All  algorithms  are  allowed	except for the
	      SHA224, SHA384, and SHA512 digests.

       --compliance string
	      This option can be used instead of one  of  the  options	above.
	      Valid  values for	string are the above option names (without the
	      double dash) and possibly	others as shown	when using "help"  for
	      string.

       --min-rsa-length	n
	      This option adjusts the compliance mode "de-vs" for stricter key
	      size  requirements.   For	example, a value of 3000 turns rsa2048
	      and dsa2048 keys into non-VS-NfD compliant keys.

       --require-pqc-encryption
	      This option forces the use of quantum-resistant encryption algo-
	      rithms.  If not all public keys are  quantum-resistant  the  en-
	      cryption	will  fail.  The use of	the symmetric encryption algo-
	      rithm AES-256 is also enforced by	this option.  On decryption  a
	      warning  is  printed  for	all non-quantum-resistant keys.	 As of
	      now the Kyber (ML-KEM768 and ML-KEM1024) algorithms and  AES-256
	      are considered quantum-resistant;	Kyber is always	used in	a com-
	      posite scheme along with a classic ECC algorithm.

       --disable-pqc-encryption
	      This  option  disables  the use of quantum-resistant subkeys and
	      uses a subkey with a non-quantum-resistant algorithm  if	avail-
	      able  or	throw  an  error  otherwise.  The option is ignored if
	      --require-pqc-encryption is active.

       --require-compliance
	      To check that data has been encrypted according to the rules  of
	      the  current  compliance	mode, a	gpg user needs to evaluate the
	      status lines.  This is allows  frontends	to  handle  compliance
	      check in a more flexible way.  However, for scripted use the re-
	      quired evaluation	of the status-line requires quite some effort;
	      this  option  can	 be  used  instead  to	make sure that the gpg
	      process exits with a failure if the  compliance  rules  are  not
	      fulfilled.   Note	 that this option has currently	an effect only
	      in "de-vs" mode.

   Doing things	one usually doesn't want to do

       -n
       --dry-run
	      Don't make any changes (this is not completely implemented).

       --list-only
	      Changes the behaviour of some commands. This is  like  --dry-run
	      but  different in	some cases. The	semantic of this option	may be
	      extended in the future. Currently	it only	skips the  actual  de-
	      cryption	pass  and  therefore enables a fast listing of the en-
	      cryption keys.

       -i
       --interactive
	      Prompt before overwriting	any files.

       --compatibility-flags flags
	      Set compatibility	flags to work around problems due to  non-com-
	      pliant  keys  or data.  The flags	are given as a comma separated
	      list of flag names and are OR-ed	together.   The	 special  flag
	      "none"  clears  the  list	 and  allows one to start over with an
	      empty list.  To get a list of  available	flags  the  sole  word
	      "help" can be used.

       --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
	      Set  debug flags.	 All flags are or-ed and flags may be given in
	      C	syntax (e.g., 0x0042) or as a comma  separated	list  of  flag
	      names.   To  get	a  list	of all supported flags the single word
	      "help" can be used. This option is only useful for debugging and
	      the behavior may change at any time without notice.

       --debug-all
	      Set all useful debugging flags.

       --debug-iolbf
	      Set stdout into line buffered mode.  This	option is only honored
	      when given on the	command	line.

       --debug-set-iobuf-size n
	      Change the buffer	size of	the IOBUFs to  n  kilobyte.   Using  0
	      prints  the  current size.  Note well: This is a maintainer only
	      option and may thus be changed or	removed	at  any	 time  without
	      notice.

       --debug-allow-large-chunks
	      To  facilitate software tests and	experiments this option	allows
	      one to specify a limit of	up to 4	EiB (--chunk-size 62).

       --debug-ignore-expiration
	      This option tries	to override certain key	expiration dates.   It
	      is only useful for certain regression tests.

       --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").

	      If  you  suffix  epoch  with an exclamation mark (!), the	system
	      time will	appear to be frozen at the specified time.

       --full-timestrings
	      Change the format	of printed creation and	expiration times  from
	      just the date to the date	and time.  This	is in general not use-
	      ful   and	  the	same   information   is	 anyway	 available  in
	      --with-colons mode.  These longer	 strings  are  also  not  well
	      aligned with other printed data.

       --enable-progress-filter
	      Enable certain PROGRESS status outputs. This option allows fron-
	      tends  to	 display  a progress indicator while gpg is processing
	      larger files.  There is a	slight performance overhead using it.

       --status-fd n
	      Write special status strings to the file descriptor n.  See  the
	      file DETAILS in the documentation	for a listing of them.

       --status-file file
	      Same  as	--status-fd, except the	status data is written to file
	      file.

       --logger-fd n
	      Write log	output to file descriptor n and	not to STDERR.

       --log-file file
       --logger-file file
	      Same as --logger-fd, except the logger data is written  to  file
	      file.  Use `socket://' to	log to s socket.

       --log-time
	      Prefix  all  log	output with a timestamp	even if	no log file is
	      used.

       --attribute-fd n
	      Write attribute subpackets to the	file  descriptor  n.  This  is
	      most  useful for use with	--status-fd, since the status messages
	      are needed to separate  out  the	various	 subpackets  from  the
	      stream delivered to the file descriptor.

       --attribute-file	file
	      Same  as --attribute-fd, except the attribute data is written to
	      file file.

       --comment string
       --no-comments
	      Use string as a comment string in	cleartext signatures and ASCII
	      armored messages or keys (see --armor). The default behavior  is
	      not  to use a comment string. --comment may be repeated multiple
	      times to get multiple comment strings. --no-comments removes all
	      comments.	 It is a good idea to keep the length of a single com-
	      ment below 60 characters to avoid	problems  with	mail  programs
	      wrapping	such  lines.   Note that comment lines,	like all other
	      header lines, are	not protected by the signature.

       --emit-version
       --no-emit-version
	      Force inclusion of the version string in ASCII  armored  output.
	      If  given	once only the name of the program and the major	number
	      is emitted, given	twice the minor	is also	emitted, given	thrice
	      the  micro  is  added,  and given	four times an operating	system
	      identification is	 also  emitted.	  --no-emit-version  (default)
	      disables	the  version line.  Note that unless the --compatibil-
	      ity-flags	have a "no-manu" flag set, the GnuPG and Libgcrypt ma-
	      jor and minor version (e.g. "2.6+1.11") is included in signature
	      packets and keys.

       --sig-notation {name=value}
       --cert-notation {name=value}
       -N, --set-notation {name=value}
	      Put the name value pair into the	signature  as  notation	 data.
	      name  must  consist  only	of printable characters	or spaces, and
	      must contain a '@' character in  the  form  keyname@domain.exam-
	      ple.com  (substituting  the appropriate keyname and domain name,
	      of course).  This	is to help prevent pollution of	the  IETF  re-
	      served  notation	namespace. The --expert	flag overrides the '@'
	      check. value may be any printable	string;	it will	be encoded  in
	      UTF-8,  so  you  should check that your --display-charset	is set
	      correctly. If you	prefix name with an exclamation	mark (!),  the
	      notation	data  will  be flagged as critical (rfc4880:5.2.3.16).
	      --sig-notation sets a notation for data signatures. --cert-nota-
	      tion  sets  a  notation  for  key	 signatures  (certifications).
	      --set-notation sets both.

	      There are	special	codes that may be used in notation names. "%k"
	      will  be	expanded into the key ID of the	key being signed, "%K"
	      into the long key	ID of the key being signed, "%f" into the fin-
	      gerprint of the key being	signed,	"%s" into the key  ID  of  the
	      key  making  the signature, "%S" into the	long key ID of the key
	      making the signature, "%g" into the fingerprint of the key  mak-
	      ing  the signature (which	might be a subkey), "%p" into the fin-
	      gerprint of the primary key of the  key  making  the  signature,
	      "%c"  into  the  signature count from the	OpenPGP	smartcard, and
	      "%%" results in a	single "%". %k,	%K, and	%f are only meaningful
	      when making a key	signature  (certification),  and  %c  is  only
	      meaningful when using the	OpenPGP	smartcard.

       --known-notation	name
	      Adds  name to a list of known critical signature notations.  The
	      effect of	this is	that gpg will not  mark	 a  signature  with  a
	      critical	signature notation of that name	as bad.	 Note that gpg
	      already knows by default about a few critical  signatures	 nota-
	      tion names.

       --sig-policy-url	string
       --cert-policy-url string
       --set-policy-url	string
	      Use  string  as  a Policy	URL for	signatures (rfc4880:5.2.3.20).
	      If you prefix it with an exclamation mark	(!),  the  policy  URL
	      packet will be flagged as	critical. --sig-policy-url sets	a pol-
	      icy url for data signatures. --cert-policy-url sets a policy url
	      for key signatures (certifications). --set-policy-url sets both.

	      The same %-expandos used for notation data are available here as
	      well.

       --sig-keyserver-url string
	      Use  string as a preferred keyserver URL for data	signatures. If
	      you prefix it with an exclamation	mark (!),  the	keyserver  URL
	      packet will be flagged as	critical.

	      The same %-expandos used for notation data are available here as
	      well.

       --set-filename string
	      Use  string  as  the  filename  which is stored inside messages.
	      This overrides the default, which	is to use the actual  filename
	      of  the file being encrypted.  Using the empty string for	string
	      effectively removes the filename from the	output.

       --for-your-eyes-only
       --no-for-your-eyes-only
	      Set the `for your	eyes only' flag	in the	message.  This	causes
	      GnuPG  to	 refuse	to save	the file unless	the --output option is
	      given, and PGP to	use a "secure viewer" with a claimed  Tempest-
	      resistant	 font  to  display  the	message. This option overrides
	      --set-filename.  --no-for-your-eyes-only disables	this option.

       --use-embedded-filename
       --no-use-embedded-filename
	      Try to create a file with	a name as embedded in the  data.  This
	      can  be  a  dangerous  option as it enables overwriting files by
	      giving the sender	control	on how to store	 files.	  Defaults  to
	      no.  Note	that the option	--output overrides this	option.

	      A	better approach	than using this	option is to decrypt to	a tem-
	      porary  filename	and then rename	that file to the embedded file
	      name after checking that	the  embedded  filename	 is  harmless.
	      When using the --status-fd option	gpg tells the filename as part
	      of  the PLAINTEXT	status message.	 If the	filename is important,
	      the use of gpgtar	is another option because  gpgtar  will	 never
	      overwrite	a file but decrypt the files to	a new directory.

	      Note  also  that unless a	modern version 5 signature is used the
	      embedded filename	is not part of the signed data.

       --cipher-algo name
	      Use name as cipher algorithm. Running the	program	with the  com-
	      mand --version yields a list of supported	algorithms. If this is
	      not  used	 the cipher algorithm is selected from the preferences
	      stored with the key. In general, you do not want to use this op-
	      tion as it allows	you to violate the OpenPGP standard.  The  op-
	      tion --personal-cipher-preferences is the	safe way to accomplish
	      the same thing.

       --digest-algo name
	      Use  name	 as  the message digest	algorithm. Running the program
	      with the command --version yields	 a  list  of  supported	 algo-
	      rithms. In general, you do not want to use this option as	it al-
	      lows  you	 to  violate  the OpenPGP standard.  The option	--per-
	      sonal-digest-preferences is the safe way to accomplish the  same
	      thing.

       --compress-algo name
	      Use compression algorithm	name. "zlib" is	RFC-1950 ZLIB compres-
	      sion.  "zip"  is	RFC-1951 ZIP compression which is used by PGP.
	      "bzip2" is a more	modern compression scheme  that	 can  compress
	      some  things  better  than  zip or zlib, but at the cost of more
	      memory used during compression and decompression.	"uncompressed"
	      or "none"	disables compression. If this option is	not used,  the
	      default  behavior	is to examine the recipient key	preferences to
	      see which	algorithms the recipient supports. If all else	fails,
	      ZIP is used for maximum compatibility.

	      ZLIB  may	 give better compression results than ZIP, as the com-
	      pression window size is not limited to 8k. BZIP2 may  give  even
	      better  compression  results  than that, but will	use a signifi-
	      cantly larger amount of memory while compressing and decompress-
	      ing. This	may be significant in  low  memory  situations.	 Note,
	      however,	that PGP (all versions)	only supports ZIP compression.
	      Using any	algorithm other	than ZIP or "none" will	make the  mes-
	      sage  unreadable	with  PGP.  In general,	you do not want	to use
	      this option as it	allows you to violate  the  OpenPGP  standard.
	      The  option  --personal-compress-preferences  is the safe	way to
	      accomplish the same thing.

       --cert-digest-algo name
	      Use name as the message digest algorithm	used  when  signing  a
	      key.  Running  the  program  with	the command --version yields a
	      list of supported	algorithms.  Be	aware that if  you  choose  an
	      algorithm	 that GnuPG supports but other OpenPGP implementations
	      do not, then some	users will not be able to use the  key	signa-
	      tures  you  make,	 or quite possibly your	entire key.  Note also
	      that a public key	algorithm must be compatible with  the	speci-
	      fied  digest algorithm; thus selecting an	arbitrary digest algo-
	      rithm may	result in error	messages from lower crypto  layers  or
	      lead to security flaws.

       --disable-cipher-algo name
	      Never allow the use of name as cipher algorithm.	The given name
	      will  not	be checked so that a later loaded algorithm will still
	      get disabled.

       --disable-pubkey-algo name
	      Never allow the use of name as public key	algorithm.  The	 given
	      name  will  not be checked so that a later loaded	algorithm will
	      still get	disabled.

       --throw-keyids
       --no-throw-keyids
	      Do not put the recipient key IDs into encrypted  messages.  This
	      helps  to	 hide  the  receivers  of the message and is a limited
	      countermeasure against traffic analysis. ([Using a little	social
	      engineering anyone who is	able to	decrypt	the message can	 check
	      whether  one  of	the other recipients is	the one	he suspects.])
	      On the receiving side, it	may slow down the  decryption  process
	      because	 all	available   secret   keys   must   be	tried.
	      --no-throw-keyids	disables this option. This  option  is	essen-
	      tially the same as using --hidden-recipient for all recipients.

       --escape-from-lines
       --no-escape-from-lines
	      Because  some  mailers  change  lines  starting  with "From " to
	      ">From " it is good to handle such lines in a special  way  when
	      creating	cleartext  signatures  to prevent the mail system from
	      breaking the signature. Note that	all other PGP versions	do  it
	      this  way	 too.  Enabled by default. --no-escape-from-lines dis-
	      ables this option.

       --passphrase-repeat n
	      Specify how many times gpg will request a	new passphrase be  re-
	      peated.	This is	useful for helping memorize a passphrase.  De-
	      faults to	 1  repetition;	 can  be  set  to  0  to  disable  any
	      passphrase repetition.  Note that	a n greater than 1 will	pop up
	      the pinentry window n+1 times even if a modern pinentry with two
	      entry fields is used.

       --passphrase-fd n
	      Read  the	passphrase from	file descriptor	n. Only	the first line
	      will be read from	file descriptor	n. If you use  0  for  n,  the
	      passphrase  will	be  read  from STDIN. This can only be used if
	      only one passphrase is supplied.

	      Note that	since Version 2.0 this passphrase is only used if  the
	      option  --batch  has  also  been	given.	Since  Version 2.1 the
	      --pinentry-mode also needs to be set to loopback.

       --passphrase-file file
	      Read the passphrase from file file. Only the first line will  be
	      read  from  file	file.  This  can  only	be  used  if  only one
	      passphrase is supplied. Obviously, a passphrase stored in	a file
	      is of questionable security if other users can read  this	 file.
	      Don't use	this option if you can avoid it.

	      Note  that since Version 2.0 this	passphrase is only used	if the
	      option --batch has  also	been  given.  Since  Version  2.1  the
	      --pinentry-mode also needs to be set to loopback.

       --passphrase string
	      Use  string as the passphrase. This can only be used if only one
	      passphrase is supplied. Obviously, this is of very  questionable
	      security	on  a  multi-user system. Don't	use this option	if you
	      can avoid	it.

	      Note that	since Version 2.0 this passphrase is only used if  the
	      option  --batch  has  also  been	given.	Since  Version 2.1 the
	      --pinentry-mode also needs to be set to loopback.

       --pinentry-mode mode
	      Set the pinentry mode to mode.  Allowed values for mode are:

	      default
		     Use the default of	the agent, which is ask.

	      ask    Force the use of the Pinentry.

	      cancel Emulate use of Pinentry's cancel button.

	      error  Return a Pinentry error (``No Pinentry'').

	      loopback
		     Redirect Pinentry queries to the caller.	Note  that  in
		     contrast to Pinentry the user is not prompted again if he
		     enters a bad password.

       --no-symkey-cache
	      Disable  the  passphrase	cache used for symmetrical en- and de-
	      cryption.	 This cache is based  on  the  message	specific  salt
	      value (cf. --s2k-mode).

       --request-origin	origin
	      Tell  gpg	 to assume that	the operation ultimately originated at
	      origin.  Depending on the	origin certain	restrictions  are  ap-
	      plied  and the Pinentry may include an extra note	on the origin.
	      Supported	values for origin are: local which is the default, re-
	      mote to indicate a remote	origin or browser for an operation re-
	      quested by a web browser.

       --command-fd n
	      This is a	replacement for	the deprecated shared-memory IPC mode.
	      If this option is	enabled, user input on questions  is  not  ex-
	      pected  from  the	 TTY  but  from	 the given file	descriptor. It
	      should be	used together with --status-fd.	See the	 file  doc/DE-
	      TAILS in the source distribution for details on how to use it.

       --command-file file
	      Same  as	--command-fd, except the commands are read out of file
	      file

       --allow-non-selfsigned-uid
       --no-allow-non-selfsigned-uid
	      Allow the	import and use of keys with user  IDs  which  are  not
	      self-signed.  This is not	recommended, as	a non self-signed user
	      ID is trivial to forge. --no-allow-non-selfsigned-uid disables.

       --allow-freeform-uid
	      Disable all checks on the	form of	the user ID while generating a
	      new one. This option should only be used in very	special	 envi-
	      ronments	as  it does not	ensure the de-facto standard format of
	      user IDs.

       --ignore-time-conflict
	      GnuPG normally checks that the timestamps	associated  with  keys
	      and  signatures have plausible values. However, sometimes	a sig-
	      nature seems to be older than the	key  due  to  clock  problems.
	      This  option  makes  these checks	just a warning.	See also --ig-
	      nore-valid-from for timestamp issues on subkeys.

       --ignore-valid-from
	      GnuPG normally does not select and use subkeys  created  in  the
	      future.	This  option  allows the use of	such keys and thus ex-
	      hibits the pre-1.0.7 behaviour. You should not use  this	option
	      unless  there is some clock problem. See also --ignore-time-con-
	      flict for	timestamp issues with signatures.

       --ignore-crc-error
	      The ASCII	armor used by OpenPGP is protected by a	 CRC  checksum
	      against  transmission  errors. Occasionally the CRC gets mangled
	      somewhere	on the transmission channel  but  the  actual  content
	      (which  is  protected  by	 the OpenPGP protocol anyway) is still
	      okay. This option	allows GnuPG to	ignore CRC errors.

       --ignore-mdc-error
	      This option changes a MDC	integrity protection  failure  into  a
	      warning.	 It  is	required to decrypt old	messages which did not
	      use an MDC.  It may also be useful if  a	message	 is  partially
	      garbled, but it is necessary to get as much data as possible out
	      of  that garbled message.	 Be aware that a missing or failed MDC
	      can be an	indication of an attack.  Use with great caution;  see
	      also option --rfc2440.

       --allow-old-cipher-algos
	      Old cipher algorithms like 3DES, IDEA, or	CAST5 encrypt data us-
	      ing  blocks  of 64 bits; modern algorithms use blocks of 128 bit
	      instead.	To avoid certain attack	on these old algorithms	it  is
	      suggested	 not  to  encrypt  more	than 150 MiByte	using the same
	      key.  For	this reason gpg	does not allow the use of 64 bit block
	      size algorithms for encryption unless this option	is  specified.
	      Some  compliance	modes  already set or clear this flag and thus
	      this flags should	be used	after a	compliance mode	setting.

       --allow-weak-digest-algos
	      Signatures made with known-weak digest algorithms	 are  normally
	      rejected with an ``invalid digest	algorithm'' message.  This op-
	      tion  allows  the	verification of	signatures made	with such weak
	      algorithms.  MD5 is the only digest algorithm considered weak by
	      default.	See also --weak-digest to reject  other	 digest	 algo-
	      rithms.

       --weak-digest name
	      Treat  the  specified digest algorithm as	weak.  Signatures made
	      over weak	digests	algorithms are normally	rejected. This	option
	      can  be supplied multiple	times if multiple algorithms should be
	      considered weak.	See also --allow-weak-digest-algos to  disable
	      rejection	 of  weak digests.  MD5	is always considered weak, and
	      does not need to be listed explicitly.

       --allow-weak-key-signatures
	      To avoid a minor risk of collision attacks  on  third-party  key
	      signatures made using SHA-1, those key signatures	are considered
	      invalid.	This options allows one	to override this restriction.

       --override-compliance-check
	      This was a temporary introduced option and has no	more effect.

       --no-default-keyring
	      Do  not  add  the	 default keyring to the	list of	keyrings. Note
	      that GnuPG needs for almost all operations a  keyring.  Thus  if
	      you  use	this  option and do not	provide	alternate keyrings via
	      --keyring, then GnuPG will still use the default keyring.

	      Note that	if the option use-keyboxd is enabled in	`common.conf',
	      no keyrings are used at all and keys are all maintained  by  the
	      keyboxd process in its own database.

       --no-keyring
	      Do  not  use any keyring at all.	This overrides the default and
	      all options which	specify	keyrings.

       --skip-verify
	      Skip the signature verification step. This may be	used  to  make
	      the  decryption  faster  if  the	signature  verification	is not
	      needed.

       --with-key-data
	      Print key	listings delimited by colons (like --with-colons)  and
	      print the	public key data.

       --list-signatures
       --list-sigs
	      Same  as	--list-keys,  but the signatures are listed too.  This
	      command  has  the	 same  effect  as   using   --list-keys	  with
	      --with-sig-list.	 Note  that  in	contrast to --check-signatures
	      the key signatures are not verified.  This command can  be  used
	      to  create  a list of signing keys missing in the	local keyring;
	      for example:

	       gpg --list-sigs --with-colons USERID | \
		 awk -F: '$1=="sig" && $2=="?" {if($13){print $13}else{print $5}}'

       --fast-list-mode
	      Changes the output of the	list commands to work faster; this  is
	      achieved	by  leaving  some parts	empty. Some applications don't
	      need the user ID and the trust information given	in  the	 list-
	      ings.  By	 using this options they can get a faster listing. The
	      exact behaviour of this option may change	 in  future  versions.
	      If you are missing some information, don't use this option.

       --no-literal
	      This  is	not  for normal	use. Use the source to see for what it
	      might be useful.

       --set-filesize
	      This is not for normal use. Use the source to see	 for  what  it
	      might be useful.

       --show-session-key
       --show-only-session-key
	      Display  the  session  key  used	for  one  message. See --over-
	      ride-session-key for the counterpart of this option.  The	 vari-
	      ant  --show-only-session-key  does  not actually use the session
	      key but stops processing after having printed the	session	key.

	      We think that Key	Escrow is a Bad	Thing; however the user	should
	      have the freedom to decide whether to go to prison or to	reveal
	      the  content  of	one  specific message without compromising all
	      messages ever encrypted for one secret key.

	      You can also use this option if you receive an encrypted message
	      which is abusive or offensive, to	prove to the administrators of
	      the messaging system that	the ciphertext transmitted corresponds
	      to an inappropriate plaintext so they can	 take  action  against
	      the offending user.

       --override-session-key string
       --override-session-key-fd fd
	      Don't  use  the public key but the session key string respective
	      the session key taken from the first line	 read  from  file  de-
	      scriptor	fd.   The format of this string	is the same as the one
	      printed by --show-session-key. This option is normally not  used
	      but comes	handy in case someone forces you to reveal the content
	      of an encrypted message; using this option you can do this with-
	      out handing out the secret key.  Note that using --override-ses-
	      sion-key	may  reveal the	session	key to all local users via the
	      global process table.  Often it is useful	to combine this	option
	      with --no-keyring.

       --ask-sig-expire
       --no-ask-sig-expire
	      When making a data signature, prompt for an expiration time.  If
	      this  option is not specified, the expiration time set via --de-
	      fault-sig-expire is used.	--no-ask-sig-expire disables this  op-
	      tion.

       --default-sig-expire value
	      The  default  expiration	time  to use for signature expiration.
	      Valid values are "0" for no expiration, a	number followed	by the
	      letter d (for days), w (for weeks), m (for months),  or  y  (for
	      years)  (for  example  "2m"  for	two  months,  or "5y" for five
	      years), or an absolute date in the form YYYY-MM-DD. Defaults  to
	      "0".

       --ask-cert-expire
       --no-ask-cert-expire
	      When  making  a key signature, prompt for	an expiration time. If
	      this option is not specified, the	expiration time	set via	 --de-
	      fault-cert-expire	 is  used.  --no-ask-cert-expire disables this
	      option.

       --default-cert-expire value
	      The default expiration time to use for key signature expiration.
	      Valid values are "0" for no expiration, a	number followed	by the
	      letter d (for days), w (for weeks), m (for months),  or  y  (for
	      years)  (for  example  "2m"  for	two  months,  or "5y" for five
	      years), or an absolute date in the form YYYY-MM-DD. Defaults  to
	      "0".

       --default-new-key-algo string
	      This option can be used to change	the default algorithms for key
	      generation.  The string is similar to the	arguments required for
	      the command --quick-add-key but slightly different.  For example
	      the  current  default  of	 "rsa2048/cert,sign+rsa2048/encr"  (or
	      "rsa3072") can be	changed	to the value of	what we	currently call
	      future  default, which is	"ed25519/cert,sign+cv25519/encr".  You
	      need to consult the source code to learn the details.  Note that
	      the advanced key generation commands can always be used to spec-
	      ify a key	algorithm directly.

       --no-auto-trust-new-key
	      When creating a new key the ownertrust of	the new	key is set  to
	      ultimate.	 This option disables this and the user	needs to manu-
	      ally assign an ownertrust	value.

       --force-sign-key
	      This   option   modifies	 the   behaviour   of	the   commands
	      --quick-sign-key,	--quick-lsign-key, and the "sign" sub-commands
	      of --edit-key by forcing the creation of a key  signature,  even
	      if one already exists.

       --forbid-gen-key
	      This  option  is	intended  for use in the global	config file to
	      disallow the use of generate key commands.  Those	commands  will
	      then fail	with the error code for	Not Enabled.

       --allow-secret-key-import
	      This is an obsolete option and is	not used anywhere.

       --allow-multiple-messages

       --no-allow-multiple-messages
	      These are	obsolete options; they have no more effect since GnuPG
	      2.2.8.

       --enable-special-filenames
	      This option enables a mode in which filenames of the form	`-&n',
	      where  n is a non-negative decimal number, refer to the file de-
	      scriptor n and not to a file with	that name.

       --disable-fd-translation
	      This option changes the behaviour	for all	following  options  to
	      expect  libc  file  descriptors  instead of HANDLE values	on the
	      command line.  The option	has an effect only on Windows.

       --no-expensive-trust-checks
	      Experimental use only.

       --preserve-permissions
	      Don't change the permissions of a	secret keyring	back  to  user
	      read/write  only.	 Use  this option only if you really know what
	      you are doing.

       --default-preference-list string
	      Set the list of default preferences to string.  This  preference
	      list  is used for	new keys and becomes the default for "setpref"
	      in the --edit-key	menu.

       --default-keyserver-url name
	      Set the default keyserver	URL to name. This  keyserver  will  be
	      used as the keyserver URL	when writing a new self-signature on a
	      key, which includes key generation and changing preferences.

       --list-config
	      Display various internal configuration parameters	of GnuPG. This
	      option is	intended for external programs that call GnuPG to per-
	      form  tasks,  and	 is  thus  not	generally useful. See the file
	      `doc/DETAILS' in the source  distribution	 for  the  details  of
	      which  configuration  items may be listed. --list-config is only
	      usable with --with-colons	set.

       --list-gcrypt-config
	      Display various internal configuration parameters	of Libgcrypt.

       --gpgconf-list
	      This command is similar to --list-config but in general only in-
	      ternally used by the gpgconf tool.

       --gpgconf-test
	      This is more or less dummy action.  However it parses  the  con-
	      figuration  file	and  returns with failure if the configuration
	      file would prevent gpg from startup.  Thus it may	be used	to run
	      a	syntax check on	the configuration file.

       --chuid uid
	      Change the current user to uid which may either be a number or a
	      name.  This can be used from the root account to run gpg for an-
	      other user.  If uid is not the current UID a  standard  PATH  is
	      set  and	the envvar GNUPGHOME is	unset.	To override the	latter
	      the option --homedir can be used.	 This option has only  an  ef-
	      fect  when  used on the command line.  This option has currently
	      no effect	at all on Windows.

   Deprecated options

       -t, --textmode
       --no-textmode
	      Treat input files	as text	and store them in the OpenPGP  canoni-
	      cal  text	form with standard "CRLF" line endings.	This also sets
	      the necessary flags to inform the	recipient that	the  encrypted
	      or  signed  data is text and may need its	line endings converted
	      back to whatever the local system	uses. This option  was	useful
	      when  communicating  between  two	 platforms with	different line
	      ending conventions (UNIX-like to	Mac,  Mac  to  Windows,	 etc).
	      --no-textmode  disables  this  option, and is the	default.  Note
	      that this	is a legacy option which should	not anymore be used by
	      any modern software.

       --force-v3-sigs
       --no-force-v3-sigs

       --force-v4-certs
       --no-force-v4-certs
	      These options are	obsolete and have no effect since GnuPG	2.1.

       --show-photos
       --no-show-photos
	      Causes   --list-keys,   --list-signatures,   --list-public-keys,
	      --list-secret-keys,  and	verifying  a signature to also display
	      the  photo  ID  attached	to  the	 key,	if   any.   See	  also
	      --photo-viewer. These options are	deprecated. Use	--list-options
	      [no-]show-photos	and/or	--verify-options  [no-]show-photos in-
	      stead.

       --show-keyring
	      Display the keyring name at the head of  key  listings  to  show
	      which keyring a given key	resides	on. This option	is deprecated:
	      use --list-options [no-]show-keyring instead.

       --show-notation
       --no-show-notation
	      Show   signature	 notations   in	  the	--list-signatures   or
	      --check-signatures listings as well as when verifying  a	signa-
	      ture  with  a  notation in it. These options are deprecated. Use
	      --list-options   [no-]show-notation   and/or    --verify-options
	      [no-]show-notation instead.

       --show-policy-url
       --no-show-policy-url
	      Show  policy URLs	in the --list-signatures or --check-signatures
	      listings as well as when verifying a signature with a policy URL
	      in  it.  These  options  are  deprecated.	  Use	--list-options
	      [no-]show-policy-url   and/or   --verify-options	[no-]show-pol-
	      icy-url instead.

       --personal-aead-preferences string
	      This option is deprecated	and has	no more	effect	since  version
	      2.3.9.

       --aead-algo name
	      This  option  is deprecated and has no more effect since version
	      2.3.9.

       --not-dash-escaped
	      This option is deprecated	since version 2.5.15 and has  actually
	      been obsolete for	many more years.  The verification code	in gpg
	      also  ignores  this special mode unless a	compatibility flag has
	      been used.  This option was  used	 to  change  the  behavior  of
	      cleartext	 signatures  so	that they can be used for patch	files.
	      You should not send such an armored file via email  because  all
	      spaces and line endings are hashed too. You can not use this op-
	      tion  for	 data  which  has 5 dashes at the beginning of a line,
	      patch files don't	have this. A special armor header  line	 tells
	      GnuPG about this cleartext signature option.

EXAMPLES
       gpg -se -r Bob file
	      sign and encrypt for user	Bob

       gpg --clear-sign	file
	      make a cleartext signature

       gpg -sb file
	      make a detached signature

       gpg -u 0x12345678 -sb file
	      make a detached signature	with the key 0x12345678

       gpg --list-keys user_ID
	      show keys

       gpg --fingerprint user_ID
	      show fingerprint

       gpg --verify pgpfile
       gpg --verify sigfile [datafile]
	      Verify  the signature of the file	but do not output the data un-
	      less requested.  The second form is  used	 for  detached	signa-
	      tures, where sigfile is the detached signature (either ASCII ar-
	      mored  or	 binary)  and datafile are the signed data; if this is
	      not given, the name of the file holding the signed data is  con-
	      structed by cutting off the extension (".asc" or ".sig") of sig-
	      file  or	by  asking  the	 user for the filename.	 If the	option
	      --output is also used the	signed data is	written	 to  the  file
	      specified	by that	option;	use - to write the signed data to std-
	      out.

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 en-
       tire 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 be-
       cause this is the de-facto standard on how  to  present	X.509  finger-
       prints.	 gpg  also allows the use of the space separated SHA-1 finger-
       print as	printed	by the key listing commands.

       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 partial match	on an email address.
	      This is indicated	by prefixing the  search  string  with	an  @.
	      This uses	a substring search but considers only the mail address
	      (i.e., inside the	angle brackets).

	 @heinrichh

       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  has  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	RFC-2253 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.

	 &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

       . and + prefixes
	      These prefixes are reserved for looking up mails anchored	at the
	      end and for a word search	mode.  They are	 not  yet  implemented
	      and using	them is	undefined.

	      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  en-
	      coding as	meta data.

FILTER EXPRESSIONS
       The  options  --import-filter  and --export-filter use expressions with
       this syntax (square brackets indicate an	optional part and curly	braces
       a repetition, white space between the elements are allowed):

		  [lc] {[{flag}] PROPNAME op VALUE [lc]}

       The name	of a property (PROPNAME) may only consist of  letters,	digits
       and  underscores.   The description for the filter type describes which
       properties are defined.	If an undefined	property is used it  evaluates
       to  the empty string.  Unless otherwise noted, the VALUE	must always be
       given and may not be the	empty string.  No quoting is defined  for  the
       value,  thus  the value may not contain the strings && or ||, which are
       used as logical connection operators.  The flag -- can be used  to  re-
       move this restriction.

       Numerical values	are computed as	long int; standard C notation applies.
       lc  is  the logical connection operator;	either && for a	conjunction or
       || for a	disjunction.  A	conjunction is assumed at the begin of an  ex-
       pression.   Conjunctions	 have higher precedence	than disjunctions.  If
       VALUE starts with one of	the characters used in any op  a  space	 after
       the op is required.

       The supported operators (op) are:

       =~     Substring	must match.

       !~     Substring	must not match.

       =      The full string must match.

       <>     The full string must not match.

       ==     The numerical value must match.

       !=     The numerical value must not match.

       <=     The numerical value of the field must be LE than the value.

       <      The numerical value of the field must be LT than the value.

       >      The numerical value of the field must be GT than the value.

       >=     The numerical value of the field must be GE than the value.

       -le    The  string  value  of  the field	must be	less or	equal than the
	      value.

       -lt    The string value of the field must be less than the value.

       -gt    The string value of the field must be greater than the value.

       -ge    The string value of the field must be greater or equal than  the
	      value.

       -n     True if value is not empty (no value allowed).

       -z     True if value is empty (no value allowed).

       -t     Alias for	"PROPNAME != 0"	(no value allowed).

       -f     Alias for	"PROPNAME == 0"	(no value allowed).

       Values for flag must be space separated.	 The supported flags are:

       --     VALUE spans to the end of	the expression.

       -^     The substring match is left anchored.

       -c     The string match in this part is done case-sensitive.

       -t     Leading and trailing spaces are not removed from VALUE.  The op-
	      tional single space after	op is here required.

       The  filter  options concatenate	several	specifications for a filter of
       the same	type.  For example the four options in this example:

		 --import-filter keep-uid="uid =~ Alfa"
		 --import-filter keep-uid="&& uid !~ Test"
		 --import-filter keep-uid="|| uid =~ Alpha"
		 --import-filter keep-uid="uid !~ Test"

       which is	equivalent to

		 --import-filter \
		  keep-uid="uid	=~ Alfa" && uid	!~ Test" || uid	=~ Alpha" && "uid !~ Test"

       imports only the	user ids of a key containing  the  strings  "Alfa"  or
       "Alpha" but not the string "test".

TRUST VALUES
       Trust  values  are used to indicate ownertrust and validity of keys and
       user IDs.  They are displayed with letters or strings:

       -
       unknown
	      No ownertrust assigned / not yet calculated.

       e
       expired

	      Trust calculation	has failed; probably due to an expired key.

       q
       undefined, undef
	      Not enough information for calculation.

       n
       never  Never trust this key.

       m
       marginal
	      Marginally trusted.

       f
       full   Fully trusted.

       u
       ultimate
	      Ultimately trusted.

       r
       revoked
	      For validity only: the key or the	user ID	has been revoked.

       ?
       err    The program encountered an unknown trust value.

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

       gpg.conf
	      This  is the standard configuration file read by gpg 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  de-
	      fault  name may be changed on the	command	line (see: [gpg-option
	      --options]).  You	should backup this file.

       common.conf
	      This is an optional configuration	file read by gpg  on  startup.
	      It  may  contain	options	pertaining to all components of	GnuPG.
	      Its current main use is for the "use-keyboxd"  option.   If  the
	      default  home directory `~/.gnupg' does not exist, GnuPG creates
	      this directory and a `common.conf' file with "use-keyboxd".

       Note that on larger installations, it is	useful to put predefined files
       into the	directory `/usr/local/etc/skel/.gnupg' 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:  [ad-
       dgnupghome]).

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

       ~/.gnupg
	      This  is the default home	directory which	is used	if neither the
	      environment variable  GNUPGHOME  nor  the	 option	 --homedir  is
	      given.

       ~/.gnupg/pubring.gpg
	      The  public  keyring  using  a legacy format.  You should	backup
	      this file.

	      If this file is not available, gpg defaults to  the  new	keybox
	      format and creates a file	`pubring.kbx' unless that file already
	      exists  in  which	 case  that file will also be used for OpenPGP
	      keys.

	      Note that	in the case that both files, `pubring.gpg'  and	 `pub-
	      ring.kbx'	 exists	but the	latter has no OpenPGP keys, the	legacy
	      file `pubring.gpg' will be used.	Take care: GnuPG versions  be-
	      fore  2.1	will always use	the file `pubring.gpg' because they do
	      not know about the new keybox format. In the case	that you  have
	      to  use  GnuPG 1.4 to decrypt archived data you should keep this
	      file.

       ~/.gnupg/pubring.gpg.lock
	      The lock file for	the public keyring.

       ~/.gnupg/pubring.kbx
	      The public keyring using the new keybox format.	This  file  is
	      shared  with gpgsm.  You should backup this file.	 See above for
	      the relation between this	file and it predecessor.

	      To convert an existing `pubring.gpg' file	to the keybox  format,
	      you  first  backup  the  ownertrust  values,  then  rename `pub-
	      ring.gpg'	to `publickeys.backup',	so it wont  be	recognized  by
	      any  GnuPG  version,  run	 import,  and finally restore the own-
	      ertrust values:

	 $ cd ~/.gnupg
	 $ gpg --export-ownertrust >otrust.lst
	 $ mv pubring.gpg publickeys.backup
	 $ gpg --import-options	restore	--import publickeys.backup
	 $ gpg --import-ownertrust otrust.lst

       ~/.gnupg/pubring.kbx.lock
	      The lock file for	`pubring.kbx'.

       ~/.gnupg/secring.gpg
	      The legacy secret	keyring	as used	by GnuPG versions before  2.1.
	      It  is not used by GnuPG 2.1 and later.  You may want to keep it
	      in case you have to use GnuPG 1.4	to decrypt archived data.

       ~/.gnupg/secring.gpg.lock
	      The lock file for	the legacy secret keyring.

       ~/.gnupg/.gpg-v21-migrated
	      File indicating that a migration to GnuPG	2.1 has	been done.

       ~/.gnupg/trustdb.gpg
	      The trust	database.  There is no need to backup this file; it is
	      better to	backup the ownertrust values (see:  [option  --export-
	      ownertrust]).

       ~/.gnupg/trustdb.gpg.lock
	      The lock file for	the trust database.

       ~/.gnupg/random_seed
	      A	file used to preserve the state	of the internal	random pool.

       ~/.gnupg/openpgp-revocs.d/
	      This  is the directory where gpg stores pre-generated revocation
	      certificates.  The file name corresponds to the OpenPGP  finger-
	      print  of	 the  respective key.  It is suggested to backup those
	      certificates and if the primary private key is not stored	on the
	      disk to move them	to an external storage device.	Anyone who can
	      access these files is able to revoke the corresponding key.  You
	      may want to print	them out.  You should backup all files in this
	      directory	and take care to keep this backup closed away.

       Operation is further controlled by a few	environment variables:

       HOME   Used to locate the default home directory.

       GNUPGHOME
	      If set directory used instead of "~/.gnupg".

       GPG_AGENT_INFO
	      This variable is obsolete; it was	used by	GnuPG versions	before
	      2.1.

       PINENTRY_USER_DATA
	      This value is passed via gpg-agent to pinentry.  It is useful to
	      convey extra information to a custom pinentry.

       COLUMNS
       LINES  Used to size some	displays to the	full size of the screen.

       LANGUAGE
	      Apart  from  its	use  by	 GNU, it is used in the	W32 version to
	      override the language selection done through the	Registry.   If
	      used  and	 set  to a valid and available language	name (langid),
	      the   file    with    the	   translation	  is	loaded	  from
	      gpgdir/gnupg.nls/langid.mo.  Here	gpgdir is the directory	out of
	      which the	gpg binary has been loaded.  If	it can't be loaded the
	      Registry	is  tried and as last resort the native	Windows	locale
	      system is	used.

       GNUPG_BUILD_ROOT
	      This variable is only used by the	regression  test  suite	 as  a
	      helper  under operating systems without proper support to	figure
	      out the name of a	process' text file.

       GNUPG_EXEC_DEBUG_FLAGS
	      This variable allows one to enable diagnostics for process  man-
	      agement.	 A  numeric  decimal value is expected.	 Bit 0 enables
	      general diagnostics, bit 1 enables certain warnings on Windows.

       GNUPG_ASSUME_COMPLIANCE
	      Debug helper to set the system into an assume compliance	state.
	      For  example  in	de-vs mode this	will return 2023 as identifier
	      instead of 23.

       When calling the	gpg-agent component gpg	sends  a  set  of  environment
       variables to gpg-agent.	The names of these variables can be listed us-
       ing the command:

	   gpg-connect-agent 'getinfo std_env_names' /bye | awk	'$1=="D" {print	$2}'

NOTES
       gpg  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.	 The options --status-fd and --batch  are  almost  always  re-
       quired for this.

   Programmatic	use of GnuPG

       Please consider using GPGME instead of calling gpg directly.  GPGME of-
       fers a stable, backend-independent interface for	many cryptographic op-
       erations.   It supports OpenPGP and S/MIME, and also allows interaction
       with various GnuPG components.

       GPGME provides a	C-API, and  comes  with	 bindings  for	C++,  Qt,  and
       Python.	Bindings for other languages are available.

       If  for	some reasons you cannot	use GPGME, please make sure to use the
       --status-fd and --with-colons options  to  clearly  obtain  information
       from  GnuPG  rather than	parsing	stdout which is	subject	to change, lo-
       calization, and is otherwise intermingled with status output.

   Ephemeral home directories

       Sometimes you want to contain effects of	some  operation,  for  example
       you want	to import a key	to inspect it, but you do not want this	key to
       be  added to your keyring.  In earlier versions of GnuPG, it was	possi-
       ble to specify alternate	keyring	files for both public and secret keys.
       In modern GnuPG versions, however,  we  changed	how  secret  keys  are
       stored  in  order to better protect secret key material,	and it was not
       possible	to preserve this interface.

       The preferred way to do this is	to  use	 ephemeral  home  directories.
       This technique works across all versions	of GnuPG.

       Create  a  temporary  directory,	 create	(or copy) a configuration that
       meets your needs, make gpg use this directory either using the environ-
       ment variable GNUPGHOME,	or the option --homedir.  GPGME	supports  this
       too  on	a per-context basis, by	modifying the engine info of contexts.
       Now execute whatever operation you like,	import and export key material
       as necessary.  Once finished, you can delete the	directory.  All	 GnuPG
       backend services	that were started will detect this and shut down.

   The quick key manipulation interface

       Recent  versions	 of GnuPG have an interface to manipulate keys without
       using the interactive command --edit-key.   This	 interface  was	 added
       mainly  for  the	benefit	of GPGME (please consider using	GPGME, see the
       manual subsection ``Programmatic	use of GnuPG'').   This	 interface  is
       described in the	subsection ``How to manage your	keys''.

   Unattended key generation

       The  command  --generate-key  may be used along with the	option --batch
       for unattended key generation.  This is the legacy  way	of  generating
       key.  New applications should consider the use of the quick key manipu-
       lation  interface  described in the previous subsection ``The quick key
       manipulation interface''.

       The parameters for the key are either read from stdin  or  given	 as  a
       file  on	the command line.  The format of the parameter file is as fol-
       lows: Text only,	line length  is	 limited  to  about  1000  characters.
       UTF-8  encoding	must  be  used to specify non-ASCII characters.	 Empty
       lines are ignored.  Leading and trailing	white  space  is  ignored.   A
       hash  sign  as  the first non white space character indicates a comment
       line.  Control statements are indicated	by  a  leading	percent	 sign,
       their arguments are separated by	white space from the keyword.  Parame-
       ters  are  specified  by	 a keyword, followed by	a colon; arguments are
       separated by white space.  The first parameter must be  `Key-Type'  but
       control statements may be placed	anywhere.  The order of	the parameters
       does  not  matter  except for `Key-Type'.  The parameters are only used
       for the generated keyblock (primary and subkeys); parameters from  pre-
       vious  sets  are	 not  used.  Some syntax checks	may be performed.  Key
       commences when either the end of	the parameter  file  is	 reached,  the
       next  `Key-Type'	 parameter  is	encountered,  or the control statement
       `%commit' is encountered.

       Control statements:

       %echo text
	      Print text as diagnostic.

       %dry-run
	      Suppress actual key generation (useful for syntax	checking).

       %commit
	      Perform the key generation.  Note	that  an  implicit  commit  is
	      done at the next	parameter.

       %pubring	filename
	      Do not write the key to the default or commandline given keyring
	      but  to filename.	 This must be given before the first commit to
	      take place, duplicate specification of the same filename is  ig-
	      nored,  the last filename	before a commit	is used.  The filename
	      is used until a new filename is used (at commit points) and  all
	      keys  are	written	to that	file. If a new filename	is given, this
	      file is created (and overwrites an existing one).

	      See the previous subsection ``Ephemeral home directories'' for a
	      more robust way to contain side-effects.

       %secring	filename
	      This option is a no-op for GnuPG 2.1 and later.

	      See the previous subsection ``Ephemeral home directories''.

       %ask-passphrase
       %no-ask-passphrase
	      This option is a no-op since GnuPG version 2.1.

       %no-protection
	      Using this option	 allows	 the  creation	of  keys  without  any
	      passphrase  protection.	This option is mainly intended for re-
	      gression tests.

       %transient-key
	      If given the keys	are created using a faster and a somewhat less
	      secure random number generator.  This option  may	 be  used  for
	      keys  which  are	only  used for a short time and	do not require
	      full cryptographic strength.  It takes only effect if  used  to-
	      gether with the control statement	`%no-protection'.

       General Parameters:

       Key-Type: algo
	      Starts  a	 new parameter block by	giving the type	of the primary
	      key. The algorithm must be capable of signing.  This  is	a  re-
	      quired  parameter.  algo may either be an	OpenPGP	algorithm num-
	      ber or a string with the algorithm name.	The special value `de-
	      fault' may be used for algo to create the	default	key  type;  in
	      this case	a `Key-Usage' shall not	be given and `default' also be
	      used for `Subkey-Type'.

       Key-Length: nbits
	      The  requested length of the generated key in bits.  The default
	      is returned by running the command  `gpg	--gpgconf-list'.   For
	      ECC keys this parameter is ignored.

       Key-Curve: curve
	      The  requested  elliptic	curve of the generated key.  This is a
	      required parameter for ECC keys.	 It  is	 ignored  for  non-ECC
	      keys.

       Key-Grip: hexstring
	      This  is	optional and used to generate a	CSR or certificate for
	      an already existing key.	Key-Length will	be ignored when	given.

       Key-Usage: usage-list
	      Space or comma delimited list of key usages.  Allowed values are
	      `encrypt', `sign', and `auth'.  This is used to generate the key
	      flags.  Please make sure that the	algorithm is capable  of  this
	      usage.  Note that	OpenPGP	requires that all primary keys are ca-
	      pable  of	 certification,	so no matter what usage	is given here,
	      the `cert' flag will be on.  If no `Key-Usage' is	specified  and
	      the  `Key-Type'  is  not	`default', all allowed usages for that
	      particular algorithm are used; if	it is not given	but  `default'
	      is used the usage	will be	`sign'.

       Subkey-Type: algo
	      This  generates  a  secondary  key (subkey).  Currently only one
	      subkey can be handled.  See also `Key-Type' above.

       Subkey-Length: nbits
	      Length of	the secondary key (subkey) in bits.   The  default  is
	      returned by running the command `gpg --gpgconf-list'.

       Subkey-Curve: curve
	      Key curve	for a subkey; similar to `Key-Curve'.

       Subkey-Usage: usage-list
	      Key usage	lists for a subkey; similar to `Key-Usage'.

       Passphrase: string
	      If you want to specify a passphrase for the secret key, enter it
	      here.   Default  is  to  use  the	 Pinentry  dialog to ask for a
	      passphrase.

       Name-Real: name
       Name-Comment: comment
       Name-Email: email
       User-Id:	full-user-id
	      The three	parts of a user	name.  Remember	to use UTF-8  encoding
	      here.   As  an  alternative "User-Id" can	be used	to specify the
	      entire user-id with a single UTF-8 string.

       Expire-Date: iso-date|(number[d|w|m|y])
	      Set the expiration date for the key (and the  subkey).   It  may
	      either  be  entered in ISO date format (e.g., "20000815T145012")
	      or as number of days, weeks, month or years after	 the  creation
	      date.  The special notation "seconds=N" is also allowed to spec-
	      ify  a  number of	seconds	since creation.	 Without a letter days
	      are assumed.  Note that there is no check	done on	 the  overflow
	      of  the  type  used  by OpenPGP for timestamps.  Thus you	better
	      make sure	that the given value  make  sense.   Although  OpenPGP
	      works  with  time	intervals, GnuPG uses an absolute value	inter-
	      nally and	thus the last year we can represent is 2105.

       Creation-Date: iso-date
	      Set the creation date of the key as stored in the	 key  informa-
	      tion and which is	also part of the fingerprint calculation.  Ei-
	      ther   a	date  like  "1986-04-26"  or  a	 full  timestamp  like
	      "19860426T042640"	may be used.  The time	is  considered	to  be
	      UTC.   The  special notation "seconds=N" may be used to directly
	      specify a	the number of seconds since Epoch (Unix	time).	If  it
	      is not given the current time is used.

       Preferences: string
	      Set the cipher, hash, and	compression preference values for this
	      key.   This  expects  the	same type of string as the sub-command
	      `setpref'	in the --edit-key menu.

       Revoker:	algo:fpr [sensitive]
	      Add a designated revoker to the generated	key.  Algo is the pub-
	      lic key algorithm	of the designated revoker (i.e.	RSA=1, DSA=17,
	      etc.)  fpr is the	fingerprint of the  designated	revoker.   fpr
	      may not contain spaces or	colons.	 The optional `sensitive' flag
	      marks  the designated revoker as sensitive information.  Only v4
	      and v5 keys may be designated revokers.

       Keyserver: string
	      This is an optional parameter that specifies the preferred  key-
	      server URL for the key.

       Handle: string
	      This  is	an  optional parameter only used with the status lines
	      KEY_CREATED and KEY_NOT_CREATED.	string may be up to 100	 char-
	      acters  and  should  not contain spaces.	It is useful for batch
	      key generation to	associate a key	parameter block	with a	status
	      line.

       Here  is	 an example on how to create a key in an ephemeral home	direc-
       tory:
	 $ export GNUPGHOME="$(mktemp -d)"
	 $ cat >foo <<EOF
	      %echo Generating a basic OpenPGP key
	      Key-Type:	DSA
	      Key-Length: 1024
	      Subkey-Type: ELG-E
	      Subkey-Length: 1024
	      Name-Real: Joe Tester
	      Name-Comment: with stupid	passphrase
	      Name-Email: joe@foo.bar
	      Expire-Date: 0
	      Passphrase: abc
	      #	Do a commit here, so that we can later print "done" :-)
	      %commit
	      %echo done
	 EOF
	 $ gpg --batch --generate-key foo
	  [...]
	 $ gpg --list-secret-keys
	 /tmp/tmp.0NQxB74PEf/pubring.kbx
	 -------------------------------
	 sec   dsa1024 2016-12-16 [SCA]
	       768E895903FC1C44045C8CB95EEBDB71E9E849D0
	 uid	       [ultimate] Joe Tester (with stupid passphrase) <joe@foo.bar>
	 ssb   elg1024 2016-12-16 [E]

       If you want to create a key with	the default algorithms you  would  use
       these parameters:
	      %echo Generating a default key
	      Key-Type:	default
	      Subkey-Type: default
	      Name-Real: Joe Tester
	      Name-Comment: with stupid	passphrase
	      Name-Email: joe@foo.bar
	      Expire-Date: 0
	      Passphrase: abc
	      #	Do a commit here, so that we can later print "done" :-)
	      %commit
	      %echo done

BUGS
       On older	systems	this program should be installed as setuid(root). This
       is  necessary  to  lock memory pages. Locking memory pages prevents the
       operating  system  from	writing	 memory	 pages	(which	 may   contain
       passphrases or other sensitive material)	to disk. If you	get no warning
       message	about  insecure	 memory	your operating system supports locking
       without being root. The program drops root privileges as	soon as	locked
       memory is allocated.

       Note also that some systems (especially laptops)	have  the  ability  to
       ``suspend  to  disk''  (also known as ``safe sleep'' or ``hibernate'').
       This writes all memory to disk before going into	a low  power  or  even
       powered off mode.  Unless measures are taken in the operating system to
       protect	the  saved memory, passphrases or other	sensitive material may
       be recoverable from it later.

       Before you report a bug	you  should  first  search  the	 mailing  list
       archives	 for  similar problems and second check	whether	such a bug has
       already been reported to	our bug	tracker	at https://bugs.gnupg.org.

SEE ALSO
       gpgv(1),	gpgsm(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	struc-
       ture and	an index.

GnuPG 2.5.18			  2026-06-12				GPG(1)

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