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933 lines
39 KiB
Plaintext
933 lines
39 KiB
Plaintext
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[$htmltitle=GnuPG FAQ]
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[$sfaqheader=The GnuPG FAQ says:]
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[$sfaqfooter=
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The most recent version of the FAQ is available from
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<http://www.gnupg.org/>
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]
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[$usenetheader=
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]
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[$maintainer=Douglas Calvert, <faq 'at' gnupg.org> ]
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[$hGPG=http://www.gnupg.org]
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[H body bgcolor=#ffffff text=#000000 link=#1f00ff alink=#ff0000 vlink=#9900dd]
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[H H1]GNUPG FREQUENTLY ASKED QUESTIONS[H /H1]
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Version: 1.5.6[H p]
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Last-Modified: Sep 14, 2001[H p]
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Maintained-by: [$maintainer]
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This is the GnuPG FAQ. The latest HTML version is available
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[H a href=[$hGPG]/faq.html] here[H/a].
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The index is generated automatically, so there may be errors here. Not
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all questions may be in the section they belong to. Suggestions about
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how to improve the structure of this FAQ are welcome.
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Please send additions and corrections to the maintainer. It would be
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most convenient if you could provide the answer to be included
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here. Your help is very much appreciated.
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Please, don't send message like "This should be a FAQ - what's the
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answer?". If it hasn't been asked before, it isn't a FAQ. In that case
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you could search in the mailing list archive.
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[H HR]
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<C>
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[H HR]
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<S> GENERAL
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<Q> What is GnuPG?
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[H a href=[$hGPG]]GnuPG[H /a] stands for GNU Privacy Guard and
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is GNU's tool for secure communication and data storage.
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It can be used to encrypt data and to create digital signatures.
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It includes an advanced key management facility and is compliant
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with the proposed OpenPGP Internet standard as described in
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[H a href=http://www.gnupg.org/rfc2440.html]RFC 2440[H/a]. As
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such, it is aimed to be compatible with PGP from NAI Inc.
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<Q> Is GnuPG compatible with PGP?
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In general, yes. GnuPG and newer PGP releases should be implementing
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the OpenPGP standard. But there are some interoperability
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problems. See questions <Rcompat>ff. for details.
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<S> SOURCES of INFORMATION
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<Q> Where can I find more information?
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Here's a list of on-line resources: [H UL]
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[H LI] [H a href=[$hGPG]/docs.html]<[$hGPG]/docs.html>[H/a] is the
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documentation page. Have a look at the HOWTOs and the GNU Privacy
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Handbook (GPH, available in English, Spanish and Russian). The
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latter provides a detailed user's guide to GnuPG. You'll also find a
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document about how to convert from PGP 2.x to GnuPG.
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[H LI] On [H a href=http://lists.gnupg.org]<http://lists.gnupg.org>[H/a]
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you'll find an online archive of the GnuPG mailing lists. Most
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interesting should be gnupg-users for all user-related issues and
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gnupg-devel if you want to get in touch with the developers.
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In addition, searchable archives can be found on MARC, e.g.:
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GnuPG-users: [H a href=http://marc.theaimsgroup.com/?l=gnupg-users&r=1&w=2]<http://marc.theaimsgroup.com/?l=gnupg-users&r=1&w=2>[H/a],
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GnuPG-devel: [H a href=http://marc.theaimsgroup.com/?l=gnupg-devel&r=1&w=2]<http://marc.theaimsgroup.com/?l=gnupg-devel&r=1&w=2>[H/a].
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[H B]PLEASE:[H/B]
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Before posting to a list, read this FAQ and the available
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documentation. In addition, search the list archive - maybe your
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question has already been discussed. This way you help people focus
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on topics that have not yet been resolved.
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[H LI] The GnuPG source distribution contains a subdirectory
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[H PRE]./doc[H /PRE] where some additional documentation is located
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(mainly interesting for hackers, not the casual user).
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[H /UL]
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<Q> Where do I get GnuPG?
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You can download the GNU Privacy Guard from its primary FTP server
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[H a href=ftp://ftp.gnupg.org/pub/gcrypt]ftp.gnupg.org[H /a] or from
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one of the mirrors: [H a href=[$hGPG]/mirrors.html]<[$hGPG]/mirror.html>[H /a]
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The current version is 1.0.4, please upgrade to this version as it
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fixes a security bug regarding the verification of multiple signatures.
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<S> INSTALLATION
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<Q> Which OSes does GnuPG run on?
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It should run on most Unices as well as Windows 95 and Windows NT. A
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list of OSes reported to be OK is presented at
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[H a href=http://www.gnupg.org/backend.html#supsys]
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http://www.gnupg.org/gnupg.html#supsys [H /a].
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<Q> Which random gatherer should I use?
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"Good" random numbers are crucial for the security of your
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encryption. Different operating systems provide a variety of more or
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less quality random data. Linux and *BSD provide kernel generated
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random data through /dev/random - this should be the preferred
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choice on these systems. Also Solaris users with the SUNWski package
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installed have a /dev/random. In these cases, use the configure
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option [H pre]--enable-static-rnd=linux[H/pre]. In addition, there's
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also the kernel random device by Andi Maier [H a href= http://www.cosy.sbg.ac.at/~andi]
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<http://www.cosy.sbg.ac.at/~andi>[H /a], but it's still beta. Use at
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own risk!
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On other systems, the Entropy Gathering Daemon (EGD) is a good
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choice. It is a perl-daemon that monitors system activity and hashes
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it into random data. See the download page [H a href=http://www.gnupg.org/download.html]<http://www.gnupg.org/download.html>[H /a]
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how to obtain egd. Use [H pre]--enable-static-rnd=egd[H/pre] here.
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If the above options do not work, you can use the random number
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generator "unix". This is [H B]very[H /B] slow and should be
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avoided. The random quality isn't very good so don't use it on
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sensitive data.
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<Didea>
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<Q> How do I include support for RSA and IDEA?
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RSA is included as of GnuPG 1.0.3.
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The official GnuPG distribution does not contain IDEA due to a
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patent restriction. The patent does not expire before 2007 so don't
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expect official support before then.
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However, there is an unofficial module to include it even
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in earlier version of GnuPG. It's available from [H a href=ftp://ftp.gnupg.org/pub/gcrypt/contrib/]
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<ftp://ftp.gnupg.org/pub/gcrypt/contrib/>[H /a]. Look for [H pre]idea.c[H /pre].
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Compilation directives are in the headers of these files. Then add
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the following line to your ~/.gnupg/options:
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[H pre]
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load-extension idea
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[H /pre]
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<S> USAGE
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<Q> What is the recommended key size?
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1024 bit for DSA signatures; even for plain ElGamal
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signatures this is sufficient as the size of the hash
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is probably the weakest link if the key size is larger
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than 1024 bits. Encryption keys may have greater sizes,
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but you should then check the fingerprint of this key:
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"gpg --fingerprint <user ID>".
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As for the key algorithms, you should stick with the default (i.e.,
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DSA signature and ElGamal encryption). A ElGamal signing key has the
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following disadvantages: the signature is larger, it is hard to
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create such a key useful for signatures which can withstand some
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real world attacks, you don't get any extra security compared to
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DSA, there might be compatibility problems with certain PGP
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versions. It has only been introduced because at the time it was
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not clear whether there was a patent on DSA.
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<Q> Why does it sometimes take so long to create keys?
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The problem here is that we need a lot of random bytes and for that
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we (on Linux the /dev/random device) must collect some random data.
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It is really not easy to fill the Linux internal entropy buffer; I
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talked to Ted Ts'o and he commented that the best way to fill the
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buffer is to play with your keyboard. Good security has its price.
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What I do is to hit several times on the shift, control, alternate,
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and caps lock keys, because these keys do not produce output to the
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screen. This way you get your keys really fast (it's the same thing
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PGP2 does).
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Another problem might be another program which eats up your random
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bytes (a program (look at your daemons) that reads from
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/dev/[u]random).
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<Q> And it really takes long when I work on a remote system. Why?
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Don't do this at all! You should never create keys or even use GnuPG
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on a remote system because you normally have no physical control
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over your secret key ring (which is in most cases vulnerable to
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advanced dictionary attacks) - I strongly encourage everyone to only
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create keys on a local computer (a disconnected laptop is probably
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the best choice) and if you need it on your connected box (I know:
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We all do this) be sure to have a strong password for your account
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and for your secret key and that you can trust your system
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administrator.
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When I check GnuPG on a remote system via ssh (I have no Alpha here
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;-) I have the same problem. It takes a *very* long time to create
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the keys, so I use a special option, --quick-random, to generate
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insecure keys which are only good for some tests.
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<Q> What is the difference between options and commands?
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If you do a 'gpg --help', you will get two separate lists. The first
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is a list of commands. The second is a list of options. Whenever you
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run GPG, you [H B]must[H /B] pick exactly one command (with one
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exception, see below). You [H B]may[H /B] pick one or more options.
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The command should, just by convention, come at the end of the
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argument list, after all the options. If the command takes a file
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(all the basic ones do), the filename comes at the very end. So the
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basic way to run gpg is:
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[H pre]
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gpg [--option something] [--option2] [--option3 something] --command file
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[H/pre]
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Some options take arguments, for example the --output option (which
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can be abbreviated -o) is an option that takes a filename. The
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option's argument must follow immediately after the option itself,
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otherwise gpg doesn't know which option the argument is supposed to
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go with. As an option, --output and its filename must come before
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the command. The --recipient (-r) option takes a name or keyid to
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encrypt the message to, which must come right after the -r argument.
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The --encrypt (or -e) command comes after all the options followed
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by the file you wish to encrypt. So use
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[H pre]
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gpg -r alice -o secret.txt -e test.txt
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[H/pre]
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If you write the options out in full, it is easier to read
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[H pre]
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gpg --recipient alice --output secret.txt --encrypt test.txt
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[H/pre]
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If you're saving it in a file called ".txt" then you'd probably
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expect to see ASCII-armored text in there, so you need to add the
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--armor (-a) option, which doesn't take any arguments.
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[H pre]
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gpg --armor --recipient alice --output secret.txt --encrypt test.txt
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[H/pre]
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If you imagine square brackets around the optional parts, it becomes
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a bit clearer:
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[H pre]
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gpg [--armor] [--recipient alice] [--output secret.txt] --encrypt test.txt
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[H/pre]
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The optional parts can be rearranged any way you want.
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[H pre]
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gpg --output secret.txt --recipient alice --armor --encrypt test.txt
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[H/pre]
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If your filename begins with a hyphen (e.g. "-a.txt"), gnupg assumes
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this is an option and may complain. To avoid this you have either
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to use "./-a.txt" or stop the option and command processing with two
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hyphens: "-- -a.txt".
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[H B]The exception:[H /B] signing and encrypting at the same time. Use
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[H pre] gpg [--options] --sign --encrypt foo.txt [H/pre]
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<Q> I can't delete a user id because it is already deleted on my public
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keyring?
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Because you can only select from the public key ring, there is no
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direct way to do this. However it is not very complicated to do it
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anyway. Create a new user id with exactly the same name and you
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will see that there are now two identical user ids on the secret
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ring. Now select this user id and delete it. Both user ids will be
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removed from the secret ring.
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<Q> I can't delete the secret key because my public key disappeared?
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To select a key a search is always done on the public keyring,
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therefore it is not possible to select an secret key without
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having the public key. Normally it shoud never happen that the
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public key got lost but the secret key is still available. The
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reality is different, so we GnuPG implements a special way to do
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deal with it: Simply use the long keyid which you can figure out
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by using the --with-colons options (it is the fifth field in the
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lines beginning with "sec").
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<Q> What are trust, validity and ownertrust?
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"ownertrust" is used instead of "trust" to make clear that this is
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the value you have assigned to a key to express how much you trust
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the owner of this key to correctly sign (and so introduce) other
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keys. "validity", or calculated trust, is a value which says how
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much GnuPG thinks a key is valid (that it really belongs to the one
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who claims to be the owner of the key). For more see the chapter
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"The Web of Trust" in the Manual.
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<Q> How do I sign a patch file?
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Use "gpg --clearsign --not-dash-escaped ...". The problem with
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--clearsign is that all lines starting with a dash are quoted with
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"- "; obviously diff produces many of lines starting with a dash and
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these are then quoted and that is not good for patch ;-). To use a
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patch file without removing the cleartext signature, the special
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option --not-dash-escaped may be used to suppress generation of
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these escape sequences. You should not mail such a patch because
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spaces and line endings are also subject to the signature and a
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mailer may not preserve these. If you want to mail a file you can
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simply sign it using your MUA.
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<Q> Where is the "encrypt-to-self" option?
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Use "--encrypt-to your_keyid". You can use more than one of these
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options. To temporary override the use of this additional keys, you
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can use the option "--no-encrypt-to".
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<Q> How can I get rid of the Version and Comment headers in armored
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messages?
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Use "--no-version --comment ''". Note that the left over blank line
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is required by the protocol.
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<Q> What does the "You are using the xxxx character set." mean?
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This note is printed when UTF8 mapping has to be done. Make sure
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that the displayed charset is the one you have activated on your
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system "iso-8859-1" is the most used one, so this is the default.
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You can change the charset with the option "--charset". It is
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important that you active character set matches the one displayed -
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if not, restrict yourself to plain 7 bit ASCII and no mapping has to
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be done.
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<Q> How can a get list of key IDs used to encrypt a message?
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[H pre] gpg --batch --decrypt --list-only --status-fd 1 2>/dev/null | \
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awk '/^\[GNUPG:\] ENC_TO / { print $3 }' [H /pre]
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<Q> I can't decrypt my symmetrical only (-c) encrypted message with
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a new version of GnuPG.
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There used to be a bug in GnuPG < 1.0.1 which happens only if 3DES
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or Twofish has been used for symmetric only encryption (this has
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never been the default). The bug has been fixed but to enable you
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to decrypt old messages, you should run gpg with the option
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"--emulate-3des-s2k-bug", decrypt the message and encrypt it again
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without this option. The option will be removed in 1.1, so better
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re-encrypt your message now.
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<Q> How can I use GnuPG in an automated environment?
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You should use the option --batch and don't use pass phrases as
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there is usually no way to store it more secure than the secret
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keyring itself. The suggested way to create the keys for the
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automated environment is:
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On a secure machine:
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[H OL] [H LI] If you want to do automatic signing, create a signing
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subkey for your key (edit menu, choose "addkey" and the DSA). [H
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LI] Make sure that you use a passphrase (Needed by the current
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implementation) [H LI] gpg --export-secret-subkeys --no-comment foo
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>secring.auto [H LI] Copy secring.auto and the public keyring to a
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test directory. [H LI] Cd to this directory. [H LI] gpg --homedir
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. --edit foo and use "passwd" to remove the pass-phrase from the
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subkeys. You may also want to remove all unused subkeys. [H LI]
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copy secring.auto to a floppy and carry it to the target box [H /OL]
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On the target machine: [H OL] [H LI] Install secring.auto as secret
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keyring. [H LI] Now you can start your new service. It is a good
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idea to install some intrusion detection system so that you
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hopefully get a notice of an successful intrusion, so that you in
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turn can revoke all the subkeys installed on that machine and
|
||
|
install new subkeys. [H /OL]
|
||
|
|
||
|
<Q> Which email-client can I use with GnuPG?
|
||
|
|
||
|
Using GnuPG to encrypt email is one of the most popular
|
||
|
uses. Several mail clients or mail user-agents (MUA) support GnuPG
|
||
|
at varying degrees. Simplifying a bit, there are two ways a mail can
|
||
|
be encrypted with GnuPG: the "old style" ASCII armor, i.e. plain
|
||
|
text encryption, and RFC2015 style (previously PGP/MIME, now
|
||
|
OpenPGP). The latter has full MIME support. Some MUAs support only
|
||
|
one of them, so whichever you actually use depends on your needs as
|
||
|
well as the capabilities of your addressee.
|
||
|
|
||
|
The following list is probably not exhaustive:
|
||
|
|
||
|
OpenPGP: Mutt (Unix), Emacs/Mew, Becky2 (Windows, with plugin),
|
||
|
TkRat (Unix). There is effort for a Mozilla plugin and
|
||
|
Emacs/GNUS has support in the current CVS.
|
||
|
|
||
|
ASCII: Emacs/{VM,GNUS}/MailCrypt, Mutt(Unix), Pine(Unix), and
|
||
|
probably many more.
|
||
|
|
||
|
Good overviews of OpenPGP-support can be found at
|
||
|
[H a href=http://cryptorights.org/pgp-users/pgp-mail-clients.html]http://cryptorights.org/pgp-users/pgp-mail-clients.html[H /a].
|
||
|
and [H a href=http://www.geocities.com/openpgp/courrier_en.html]http://www.geocities.com/openpgp/courrier_en.html[H /a].
|
||
|
|
||
|
|
||
|
<Q> Can't we have a gpg library?
|
||
|
|
||
|
This has been frequently requested. However, the current viewpoint
|
||
|
of the GnuPG maintainers is that this would lead to several security
|
||
|
issues and will therefore not be implemented in the foreseeable
|
||
|
future. However, for some areas of areas of application gpgme could
|
||
|
do the trick. You'll find it at
|
||
|
[H a href=ftp://ftp.guug.de/pub/gcrypt/alpha/gpgme]ftp://ftp.guug.de/pub/gcrypt/alpha/gpgme[H /a]
|
||
|
|
||
|
|
||
|
<Q> I have successfully generated a revocation certificate, but I don't
|
||
|
understand how to send it to the key servers.
|
||
|
|
||
|
Most keyservers don't accept a 'bare' revocation certificate. You
|
||
|
have to import the certificate into gpg first:
|
||
|
[H pre]
|
||
|
gpg --import my-revocation.asc
|
||
|
[H /pre]
|
||
|
then send the revoked key to the keyservers:
|
||
|
[H pre]
|
||
|
gpg --keyserver certserver.pgp.com --send-keys mykeyid
|
||
|
[H /pre]
|
||
|
(or use a keyserver web interface for this).
|
||
|
|
||
|
|
||
|
<Q> How do I put my keyring in a different directory?
|
||
|
|
||
|
GnuPG keeps several files in a special homedir directory. These
|
||
|
include the options file, pubring.gpg, secring.gpg, the trustdb, and
|
||
|
others. Gnupg will always create and use these files. On unices,
|
||
|
the homedir is usually ~/.gnupg; on Windows "C:\gnupg\".
|
||
|
|
||
|
If you want to put your keyrings somewhere else, use
|
||
|
[H pre]--homedir /my/path/[H /pre] to make gnupg create all its
|
||
|
files in that directory. Your keyring will be
|
||
|
"/my/path/pubring.gpg". This way you can store your secrets on a
|
||
|
floppy disk. Don't use "--keyring" as its purpose is to specify
|
||
|
additional keyring files.
|
||
|
|
||
|
|
||
|
<S> COMPATIBILITY ISSUES
|
||
|
|
||
|
<Dcompat>
|
||
|
|
||
|
<Q> How can I encrypt a message with GnuPG so that PGP is able to decrypt it?
|
||
|
|
||
|
It depends on the PGP version.[H UL]
|
||
|
|
||
|
[H LI] PGP 2.x
|
||
|
|
||
|
You can't do that because PGP 2.x normally uses IDEA which is not
|
||
|
supported by GnuPG as it is patented (see <Ridea>), but if you
|
||
|
have a modified version of PGP you can try this:
|
||
|
|
||
|
[H pre] gpg --rfc1991 --cipher-algo 3des ... [H/pre]
|
||
|
|
||
|
Please don't pipe the data to encrypt to gpg but provide it using a
|
||
|
filename; otherwise, PGP 2 will not be able to handle it.
|
||
|
|
||
|
As for conventional encryption, you can't do this for PGP 2.
|
||
|
|
||
|
|
||
|
[H LI] PGP 5.x and higher
|
||
|
|
||
|
You need to provide two additional options:
|
||
|
[H pre]--compress-algo 1 --cipher-algo cast5 [H/pre]
|
||
|
|
||
|
You may also use "3des" instead of "cast5", "blowfish" does not
|
||
|
work with all versions of pgp5. You may also want to put [H pre]
|
||
|
compress-algo 1 [H/pre] into your ~/.gnupg/options file - this does
|
||
|
not affect normal gnupg operation.
|
||
|
|
||
|
This applies to conventional encryption as well.
|
||
|
[H /UL]
|
||
|
|
||
|
<Q> How do I migrate from PGP 2.x to GnuPG?
|
||
|
|
||
|
PGP 2 uses the RSA and IDEA encryption algorithms. Whereas the RSA
|
||
|
patent has expired and RSA is included as of GnuPG 1.0.3, the IDEA
|
||
|
algorithm is still patented until 2007. Under certain conditions you
|
||
|
may use IDEA even today. In that case, you may refer to Question
|
||
|
<Ridea> about how to add IDEA support to GnuPG and read
|
||
|
[H a href=http://www.gnupg.org/gph/en/pgp2x.html]http://www.gnupg.org/gph/en/pgp2x.html[H /a]
|
||
|
to perform the migration.
|
||
|
|
||
|
|
||
|
<Q> (removed)
|
||
|
|
||
|
(empty)
|
||
|
|
||
|
<Q> Why is PGP 5.x not able to encrypt messages with some keys?
|
||
|
|
||
|
PGP Inc refuses to accept ElGamal keys of type 20 even for
|
||
|
encryption. They only support type 16 (which is identical at least
|
||
|
for decryption). To be more inter-operable, GnuPG (starting with
|
||
|
version 0.3.3) now also uses type 16 for the ElGamal subkey which is
|
||
|
created if the default key algorithm is chosen. You may add an type
|
||
|
16 ElGamal key to your public key which is easy as your key
|
||
|
signatures are still valid.
|
||
|
|
||
|
<Q> Why is PGP 5.x not able to verify my messages?
|
||
|
|
||
|
PGP 5.x does not accept V4 signatures for data material but OpenPGP
|
||
|
requests generation of V4 signatures for all kind of data, that's why
|
||
|
GnuPG defaults to them. Use the option "--force-v3-sigs" to generate
|
||
|
V3 signatures for data.
|
||
|
|
||
|
<Q> How do I transfer owner trust values from PGP to GnuPG?
|
||
|
|
||
|
There is a script in the tools directory to help you: After you have
|
||
|
imported the PGP keyring you can give this command:
|
||
|
|
||
|
[H pre]
|
||
|
$ lspgpot pgpkeyring | gpg --import-ownertrust
|
||
|
[H /pre]
|
||
|
|
||
|
where pgpkeyring is the original keyring and not the GnuPG one you
|
||
|
might have created in the first step.
|
||
|
|
||
|
<Q> PGP does not like my secret key.
|
||
|
|
||
|
Older PGPs probably bail out on some private comment packets used by
|
||
|
GnuPG. These packets are fully in compliance with OpenPGP; however
|
||
|
PGP is not really OpenPGP aware. A workaround is to export the
|
||
|
secret keys with this command:
|
||
|
[H pre] $ gpg --export-secret-keys --no-comment -a your-key-id [H /pre]
|
||
|
|
||
|
Another possibility is this: by default, GnuPG encrypts your secret
|
||
|
key using the Blowfish symmetric algorithm. Older PGPs will only
|
||
|
understand 3DES, CAST5, or IDEA symmetric algorithms. Using the
|
||
|
following method you can re-encrypt your secret gpg key with a
|
||
|
different algo:
|
||
|
|
||
|
[H pre]
|
||
|
$ gpg --s2k-cipher-algo=CAST5 --s2k-digest-algo=SHA1 \
|
||
|
--compress-algo=1 --edit-key <username>
|
||
|
[H /pre]
|
||
|
|
||
|
Then use passwd to change the password (just change it to the same
|
||
|
thing, but it will encrypt the key with CAST5 this time).
|
||
|
|
||
|
Now you can export it and PGP should be able to handle it.
|
||
|
|
||
|
For PGP 6.x the following options work to export a key:
|
||
|
[H pre]
|
||
|
$ gpg --s2k-cipher-algo 3des --compress-algo 1 --rfc1991 \
|
||
|
--export-secret-keys <Key-ID>
|
||
|
[H /pre]
|
||
|
|
||
|
<S> PROBLEMS and ERROR MESSAGES
|
||
|
|
||
|
<Q> Why do I get "gpg: Warning: using insecure memory!"
|
||
|
|
||
|
On many 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 them
|
||
|
to disk and thereby keeping your secret keys really secret. 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.
|
||
|
|
||
|
On UnixWare 2.x and 7.x you should install GnuPG with the
|
||
|
'plock' privilege to get the same effect:
|
||
|
[H pre]
|
||
|
filepriv -f plock /path/to/gpg
|
||
|
[H /pre]
|
||
|
|
||
|
If you can't or don't want to install GnuPG setuid(root), you can
|
||
|
use the option "--no-secmem-warning" or put [H pre]
|
||
|
no-secmem-warning [H /pre] in your ~/.gnupg/options file (this
|
||
|
disables the warning).
|
||
|
|
||
|
On some systems (e.g., Windows) GnuPG does not lock memory pages
|
||
|
and older GnuPG versions (<=1.0.4) issue the warning
|
||
|
[H pre]
|
||
|
gpg: Please note that you don't have secure memory
|
||
|
[H /pre]
|
||
|
This warning can't be switched off by the above option because it
|
||
|
was thought to be a too serious issue. However, it confused users
|
||
|
too much so the warning was eventually removed.
|
||
|
|
||
|
<Q> Large File Support doesn't work ..
|
||
|
|
||
|
LFS is correctly working in post-1.0.4 CVS. If configure doesn't
|
||
|
detect it correctly, try a different (i.e., better) compiler. egcs
|
||
|
1.1.2 works fine, other gccs sometimes don't. BTW, several
|
||
|
compilation problems of GnuPG 1.0.3 and 1.0.4 on HP-UX and Solaris
|
||
|
were due to broken LFS support.
|
||
|
|
||
|
<Q> In the edit menu the trust values is not displayed correctly after
|
||
|
signing uids - why?
|
||
|
|
||
|
This happens because the some informations are stored immediately in
|
||
|
the trustdb, but the actual trust calculation can be done after the
|
||
|
save command. This is a not easy to fix design bug which will be
|
||
|
addressed in some future release.
|
||
|
|
||
|
<Q> What does "skipping pubkey 1: already loaded" mean?
|
||
|
|
||
|
As of GnuPG 1.0.3, the RSA algorithm is included. If you still have
|
||
|
a "load-extension rsa" in your .options files, the above message
|
||
|
occurs. Just remove the load command from the .options file.
|
||
|
|
||
|
<Q> GnuPG 1.0.4 doesn't create ~/.gnupg ...
|
||
|
|
||
|
That's a known bug, already fixed in newer versions.
|
||
|
|
||
|
<Q> An ElGamal signature does not verify anymore since version 1.0.2 ...
|
||
|
|
||
|
Use the option --emulate-md-encode-bug.
|
||
|
|
||
|
<Q> Old versions of GnuPG can't verify ElGamal signatures
|
||
|
|
||
|
Update to GnuPG 1.0.2 or newer.
|
||
|
|
||
|
|
||
|
<Q> When I use --clearsign, the plain text has sometimes extra dashes
|
||
|
in it - why?
|
||
|
|
||
|
This is called dash-escaped text and required by OpenPGP.
|
||
|
It always happens when a line starts with a dash ("-") and is needed
|
||
|
to make the lines that structure signature and text
|
||
|
(i.e., "-----BEGIN PGP SIGNATURE-----") to be the only lines that
|
||
|
start with two dashes.
|
||
|
|
||
|
If you use GnuPG to process those messages, the extra dashes are removed.
|
||
|
Good mail clients remove those extra dashes when displaying such a
|
||
|
message.
|
||
|
|
||
|
<Q> What is the thing with "can't handle multiple signatures"?
|
||
|
|
||
|
Due to different message formats GnuPG is not always able to split a
|
||
|
file with multiple signatures unambiguously into its parts. This
|
||
|
error message informs you that there is something wrong with the input.
|
||
|
|
||
|
The only way to have multiple signatures in a file is by using the
|
||
|
OpenPGP format with one-pass-signature packets (which is GnuPG's
|
||
|
default) or the cleartext signed format.
|
||
|
|
||
|
<Q> If I submit a key to a keyserver, nothing happens ...
|
||
|
|
||
|
You are most likely using GnuPG on Windows 1.0.2 or older. That's
|
||
|
feature isn't yet implemented, but it's a bug not to say it. Newer
|
||
|
versions issue a warning. Upgrade to 1.0.4 or newer.
|
||
|
|
||
|
<Q> I get "gpg: waiting for lock ..."
|
||
|
|
||
|
A previous gpg has most likely exited abnormally and left a lock
|
||
|
file. Go to ~/.gnupg and look for .*.lock files and remove them.
|
||
|
|
||
|
<Q> Older gpg's (e.g., 1.0) have problems with keys from newer gpgs ...
|
||
|
|
||
|
As of 1.0.3, keys generated with gpg are created with preferences to
|
||
|
TWOFISH (and AES since 1.0.4) and that also means that they have the
|
||
|
capability to use the new MDC encryption method. This will go into
|
||
|
OpenPGP soon and is also suppoted by PGP 7. This new method avoids
|
||
|
a (not so new) attack on all email encryption systems.
|
||
|
|
||
|
This in turn means that pre-1.0.3 gpg's have problems with newer
|
||
|
key. Because of security fixes, you should keep your gpg
|
||
|
installation in a recent state anyway. As a workaround, you can
|
||
|
force gpg to use a previous default cipher algo by putting
|
||
|
[H pre]cipher-algo cast5[H /pre] into your options file.
|
||
|
|
||
|
<Q> With 1.0.4, I get "this cipher algorithm is deprecated ..."
|
||
|
|
||
|
If you just generated a new key and get this message while
|
||
|
encrypting, you've witnessed a bug in 1.0.4. It uses the new AES
|
||
|
cipher Rijndael that is incorrectly being referred as
|
||
|
"deprecated". Ignore this warning, more recent versions of gpg are
|
||
|
corrected.
|
||
|
|
||
|
<Q> Some dates are displayed as ????-??-??, why?
|
||
|
|
||
|
Due to constraints in most libc implementations, dates beyond
|
||
|
2038-01-19 can't be displayed correctly. 64 bit OSes are not
|
||
|
affected by this problem. To avoid printing wrong dates, GnuPG
|
||
|
instead prints some question marks. To see the correct value, you
|
||
|
can use the options --with-colons and --fixed-list-mode.
|
||
|
|
||
|
<Q> I still have a problem. How do I report a bug?
|
||
|
|
||
|
Are you sure that it's not been mentioned somewhere on the mailing
|
||
|
lists? Did you have a look at the bug list (You'll find a link to
|
||
|
the list of reported bugs on the documentation page). If you're not
|
||
|
sure about it being a bug, you can send mail to the gnupg-devel
|
||
|
list. Otherwise, use the GUUG bug tracking system
|
||
|
[H a href=http://bugs.guug.de/Reporting.html]
|
||
|
http://bugs.guug.de/Reporting.html[H /a].
|
||
|
|
||
|
<Q> Why doesn't GnuPG support X509 certificates?
|
||
|
|
||
|
GnuPG, first and foremost, is an implementation of the OpenPGP
|
||
|
standard (RFC 2440), which is a competing infrastructure, different
|
||
|
from X509.
|
||
|
|
||
|
They are both public-key cryptosystems, but how the public keys are
|
||
|
actually handled is different.
|
||
|
|
||
|
|
||
|
<Q> Why do national characters in my user ID look funny?
|
||
|
|
||
|
According to OpenPGP, GnuPG encodes user id strings (and other
|
||
|
things) using UTF-8. In this encoding of Unicode, most national
|
||
|
characters get encoded as two- or three-byte sequences. For
|
||
|
example, å (0xE5 in ISO-8859-1) becomes Ã¥ (0xC3,
|
||
|
0xA5). This might also be the reason why keyservers can't find
|
||
|
your key.
|
||
|
|
||
|
<Q> I get 'sed' errors when running ./configure on Mac OS X ...
|
||
|
|
||
|
This will be fixed after GnuPG has been upgraded to
|
||
|
autoconf-2.50. Until then, find the line setting CDPATH in the
|
||
|
configure script and place a [H pre]unset CDPATH[H /pre] statement
|
||
|
below it.
|
||
|
|
||
|
<Q> Why does GnuPG 1.0.6 bail out on keyrings used with 1.0.7?
|
||
|
|
||
|
There is a small bug in 1.0.6 which didn't parse trust packets
|
||
|
currectly. You may want to apply this patch if you can't upgrade:
|
||
|
http://www.gnupg.org/developer/gpg-woody-fix.txt
|
||
|
|
||
|
|
||
|
|
||
|
<S> ADVANCED TOPICS
|
||
|
|
||
|
<Q> How does this whole thing work?
|
||
|
|
||
|
To generate a secret/public keypair, run [H pre] gpg --gen-key
|
||
|
[H/pre] and choose the default values.
|
||
|
|
||
|
Data that is encrypted with a public key can only be decrypted by
|
||
|
the matching secret key. The secret key is protected by a password,
|
||
|
the public key is not.
|
||
|
|
||
|
So to send your friend a message, you would encrypt your message
|
||
|
with his public key, and he would only be able to decrypt it by
|
||
|
having the secret key and putting in the password to use his secret
|
||
|
key.
|
||
|
|
||
|
GnuPG is also useful for signing things. Things that are encrypted
|
||
|
with the secret key can be decrypted with the public key. To sign
|
||
|
something, a hash is taken of the data, and then the hash is in some
|
||
|
form encoded with the secret key. If someone has your public key, they
|
||
|
can verify that it is from you and that it hasn't changed by checking
|
||
|
the encoded form of the hash with the public key.
|
||
|
|
||
|
A keyring is just a large file that stores keys. You have a public
|
||
|
keyring where you store yours and your friend's public keys. You have
|
||
|
a secret keyring that you keep your secret key on, and be very careful
|
||
|
with this secret keyring: Never ever give anyone else access to it and
|
||
|
use a *good* passphrase to protect the data in it.
|
||
|
|
||
|
You can 'conventionally' encrypt something by using the option 'gpg
|
||
|
-c'. It is encrypted using a passphrase, and does not use public and
|
||
|
secret keys. If the person you send the data to knows that
|
||
|
passphrase, they can decrypt it. This is usually most useful for
|
||
|
encrypting things to yourself, although you can encrypt things to your
|
||
|
own public key in the same way. It should be used for communication
|
||
|
with partners you know and where it is easy to exchange the
|
||
|
passphrases (e.g. with your boy friend or your wife). The advantage
|
||
|
is that you can change the passphrase from time to time and decrease
|
||
|
the risk, that many old messages may be decrypted by people who
|
||
|
accidently got your passphrase.
|
||
|
|
||
|
You can add and copy keys to and from your keyring with the 'gpg
|
||
|
--import' and 'gpg --export' option. 'gpg --export-secret-keys' will
|
||
|
export secret keys. This is normally not useful, but you can generate
|
||
|
the key on one machine then move it to another machine.
|
||
|
|
||
|
Keys can be signed under the 'gpg --edit-key' option. When you sign a
|
||
|
key, you are saying that you are certain that the key belongs to the
|
||
|
person it says it comes from. You should be very sure that is really
|
||
|
that person: You should verify the key fingerprint
|
||
|
[H pre]
|
||
|
gpg --fingerprint user-id
|
||
|
[H/pre]
|
||
|
over phone (if you really know the voice of the other person) or at a
|
||
|
key signing party (which are often held at computer conferences) or at
|
||
|
a meeting of your local GNU/Linux User Group.
|
||
|
|
||
|
Hmm, what else. You may use the option "-o filename" to force output
|
||
|
to this filename (use "-" to force output to stdout). "-r" just lets
|
||
|
you specify the recipient (which public key you encrypt with) on the
|
||
|
command line instead of typing it interactively.
|
||
|
|
||
|
Oh yeah, this is important. By default all data is encrypted in some
|
||
|
weird binary format. If you want to have things appear in ASCII text
|
||
|
that is readable, just add the '-a' option. But the preferred method
|
||
|
is to use a MIME aware mail reader (Mutt, Pine and many more).
|
||
|
|
||
|
There is a small security glitch in the OpenPGP (and therefore GnuPG)
|
||
|
system; to avoid this you should always sign and encrypt a message
|
||
|
instead of only encrypting it.
|
||
|
|
||
|
|
||
|
<Q> Why are some signatures with an ELG-E key valid?
|
||
|
|
||
|
These are ElGamal Key generated by GnuPG in v3 (rfc1991) packets.
|
||
|
The OpenPGP draft later changed the algorithm identifier for ElGamal
|
||
|
keys which are usable for signatures and encryption from 16 to 20.
|
||
|
GnuPG now uses 20 when it generates new ElGamal keys but still
|
||
|
accept 16 (which is according to OpenPGP "encryption only") if this
|
||
|
key is in a v3 packet. GnuPG is the only program which had used
|
||
|
these v3 ElGamal keys - so this assumption is quite safe.
|
||
|
|
||
|
|
||
|
<Q> How does the whole trust thing work?
|
||
|
|
||
|
It works more or less like PGP. The difference is that the trust is
|
||
|
computed at the time it is needed. This is one of the reasons for
|
||
|
the trustdb which holds a list of valid key signatures. If you are
|
||
|
not running in batch mode you will be asked to assign a trust
|
||
|
parameter (ownertrust) to a key.
|
||
|
|
||
|
|
||
|
|
||
|
You can see the validity (calculated trust value) using this
|
||
|
command.
|
||
|
[H pre] gpg --list-keys --with-colons [H/pre]
|
||
|
|
||
|
If the first field is "pub" or "uid", the second field shows you the
|
||
|
trust:
|
||
|
|
||
|
[H pre]
|
||
|
o = Unknown (this key is new to the system)
|
||
|
e = The key has expired
|
||
|
q = Undefined (no value assigned)
|
||
|
n = Don't trust this key at all
|
||
|
m = There is marginal trust in this key
|
||
|
f = The key is full trusted
|
||
|
u = The key is ultimately trusted; this is only used
|
||
|
for keys for which the secret key is also available.
|
||
|
r = The key has been revoked
|
||
|
d = The key has been disabled
|
||
|
[H/pre]
|
||
|
|
||
|
The value in the "pub" record is the best one of all "uid" records.
|
||
|
|
||
|
You can get a list of the assigned trust values (how much you trust
|
||
|
the owner to correctly sign another person's key)
|
||
|
|
||
|
[H pre] gpg --list-ownertrust [H/pre] The first field is the
|
||
|
fingerprint of the primary key, the second field is the assigned
|
||
|
value:
|
||
|
|
||
|
[H pre]
|
||
|
- = No Ownertrust value yet assigned.
|
||
|
n = Never trust this keyholder to correctly verify others signatures.
|
||
|
m = Have marginal trust in the keyholders capability to sign other
|
||
|
keys.
|
||
|
f = Assume that the key holder really knows how to sign keys.
|
||
|
u = No need to trust ourself because we have the secret key.
|
||
|
[H/pre]
|
||
|
|
||
|
Keep these values confidential because they express your opinions
|
||
|
about others. PGP stores this information with the keyring thus it
|
||
|
is not a good idea to publish a PGP keyring instead of exporting the
|
||
|
keyring. gnupg stores the trust in the trust-DB so it is okay to
|
||
|
give a gpg keyring away (but we have a --export command too).
|
||
|
|
||
|
<Q> What kind of output is this: "key C26EE891.298, uid 09FB: ...."?
|
||
|
|
||
|
This is the internal representation of a user id in the trustdb.
|
||
|
"C26EE891" is the keyid, "298" is the local id (a record number in
|
||
|
the trustdb) and "09FB" is the last two bytes of a ripe-md-160 hash
|
||
|
of the user id for this key.
|
||
|
|
||
|
<Q> How do I interpret some of the informational outputs?
|
||
|
|
||
|
While checking the validity of a key, GnuPG sometimes prints some
|
||
|
information which is prefixed with information about the checked
|
||
|
item. [H pre] "key 12345678.3456" [H/pre] This is about the key
|
||
|
with key ID 12345678 and the internal number 3456, which is the
|
||
|
record number of the so called directory record in the trustdb.
|
||
|
[H pre] "uid 12345678.3456/ACDE" [H/pre] This is about the user ID for
|
||
|
the same key. To identify the user ID the last two bytes of a
|
||
|
ripe-md-160 over the user ID ring is printed. [H pre] "sig
|
||
|
12345678.3456/ACDE/9A8B7C6D" [H/pre] This is about the signature
|
||
|
with key ID 9A8B7C6D for the above key and user ID, if it is a
|
||
|
signature which is direct on a key, the user ID part is empty
|
||
|
(..//..).
|
||
|
|
||
|
<Q> Are the header lines of a cleartext signature part of the signed
|
||
|
material?
|
||
|
|
||
|
No. For example you can add or remove "Comment:" lines. They have
|
||
|
a purpose like the mail header lines. However a "Hash:" line is
|
||
|
needed for OpenPGP signatures to tell the parser which hash
|
||
|
algorithm to use.
|
||
|
|
||
|
|
||
|
<Q> What is the list of preferred algorithms?
|
||
|
|
||
|
The list of preferred algorithms is a list of cipher, hash and
|
||
|
compression algorithms stored in the self-signature of a key during
|
||
|
key generation. When you encrypt a document, GnuPG uses this list
|
||
|
(which is then part of a public key) to determine which algorithms
|
||
|
to use. Basically it tells other people what algorithms the
|
||
|
recipient is able to handle and provides an order of preference.
|
||
|
|
||
|
<Q> How do I change the list of preferred algorithms?
|
||
|
|
||
|
Use the edit menu and set the new list of preference using the
|
||
|
command "setpref"; the format of this command resembles the output
|
||
|
of the command "pref". The preference are not changes immediately
|
||
|
but the set preference will be used when a new user ID is
|
||
|
created. If you want to update the preferences for existing user
|
||
|
IDs, select those user IDs (or select none to update all) and
|
||
|
enter the command "updpref". Note that the timestamp of the
|
||
|
self-signatures is increaded by one second when running this
|
||
|
command.
|
||
|
|
||
|
|
||
|
<S> ACKNOWLEDGEMENTS
|
||
|
|
||
|
Many thanks to Nils Ellmenreich for maintaining this FAQ file for
|
||
|
a long time and to all posters to gnupg-users and gnupg-devel. They
|
||
|
all provided most of the answers.
|
||
|
|
||
|
Also thanks to Casper Dik for providing me with a script to generate
|
||
|
this FAQ (he uses it for the excellent Solaris2 FAQ).
|
||
|
|
||
|
[H HR]
|
||
|
|
||
|
Copyright (C) 2000, 2002 Free Software Foundation, Inc. ,
|
||
|
59 Temple Place - Suite 330, Boston, MA 02111, USA
|
||
|
|
||
|
Verbatim copying and distribution of this entire article is permitted in
|
||
|
any medium, provided this notice is preserved.
|