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gnupg/doc/debugging.texi
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@c Copyright (C) 2004 Free Software Foundation, Inc.
@c This is part of the GnuPG manual.
@c For copying conditions, see the file gnupg.texi.
@node Debugging
@chapter How to solve problems
Everyone knows that software often does not do what it should do and thus
there is a need to track down problems. We call this debugging in a
reminiscent to the moth jamming a relay in a Mark II box back in 1947.
Most of the problems a merely configuration and user problems but
nevertheless there are the most annoying ones and responsible for many
gray hairs. We try to give some guidelines here on how to identify and
solve the problem at hand.
@menu
* Debugging Tools:: Description of some useful tools.
* Debugging Hints:: Various hints on debugging.
* Common Problems:: Commonly seen problems.
* Architecture Details:: How the whole thing works internally.
@end menu
@node Debugging Tools
@section Debugging Tools
The GnuPG distribution comes with a couple of tools, useful to help find
and solving problems.
@menu
* kbxutil:: Scrutinizing a keybox file.
@end menu
@node kbxutil
@subsection Scrutinizing a keybox file
A keybox is a file format used to store public keys along with meta
information and indices. The commonly used one is the file
@file{pubring.kbx} in the @file{.gnupg} directory. It contains all
X.509 certificates as well as OpenPGP keys@footnote{Well, OpenPGP keys
are not implemented, @command{gpg} still used the keyring file
@file{pubring.gpg}} .
@noindent
When called the standard way, e.g.:
@samp{kbxutil ~/.gnupg/pubring.kbx}
@noindent
it lists all records (called @acronym{blobs}) with there meta-information
in a human readable format.
@noindent
To see statistics on the keybox in question, run it using
@samp{kbxutil --stats ~/.gnupg/pubring.kbx}
@noindent
and you get an output like:
@example
Total number of blobs: 99
header: 1
empty: 0
openpgp: 0
x509: 98
non flagged: 81
secret flagged: 0
ephemeral flagged: 17
@end example
In this example you see that the keybox does not have any OpenPGP keys
but contains 98 X.509 certificates and a total of 17 keys or certificates
are flagged as ephemeral, meaning that they are only temporary stored
(cached) in the keybox and won't get listed using the usual commands
provided by @command{gpgsm} or @command{gpg}. 81 certificates are stored
in a standard way and directly available from @command{gpgsm}.
@noindent
To find duplicated certificates and keyblocks in a keybox file (this
should not occur but sometimes things go wrong), run it using
@samp{kbxutil --find-dups ~/.gnupg/pubring.kbx}
@node Debugging Hints
@section Various hints on debugging.
@itemize @bullet
@item How to find the IP address of a keyserver
If a round robin URL of is used for a keyserver
(e.g. subkeys.gnupg.org); it is not easy to see what server is actually
used. Using the keyserver debug option as in
@smallexample
gpg --keyserver-options debug=1 -v --refresh-key 1E42B367
@end smallexample
is thus often helpful. Note that the actual output depends on the
backend and may change from release to release.
@end itemize
@node Common Problems
@section Commonly Seen Problems
@itemize @bullet
@item Error code @samp{Not supported} from Dirmngr
Most likely the option @option{enable-ocsp} is active for gpgsm
but Dirmngr's OCSP feature has not been enabled using
@option{allow-ocsp} in @file{dirmngr.conf}.
@item The Curses based Pinentry does not work
The far most common reason for this is that the environment variable
@code{GPG_TTY} has not been set correctly. Make sure that it has been
set to a real tty devce and not just to @samp{/dev/tty};
i.e. @samp{GPG_TTY=tty} is plainly wrong; what you want is
@samp{GPG_TTY=`tty`} --- note the back ticks. Also make sure that
this environment variable gets exported, that is you should follow up
the setting with an @samp{export GPG_TTY} (assuming a Bourne style
shell). Even for GUI based Pinentries; you should have set
@code{GPG_TTY}. See the section on installing the @command{gpg-agent}
on how to do it.
@item SSH hangs while a popping up pinentry was expected
SSH has no way to tell the gpg-agent what terminal or X display it is
running on. So when remotely logging into a box where a gpg-agent with
SSH support is running, the pinentry will get popped up on whatever
display the gpg-agent has been started. To solve this problem you may
issue the command
@smallexample
echo UPDATESTARTUPTTY | gpg-connect-agent
@end smallexample
and the next pinentry will pop up on your display or screen. However,
you need to kill the running pinentry first because only one pinentry
may be running at once. If you plan to use ssh on a new display you
should issue the above command before invoking ssh or any other service
making use of ssh.
@item Exporting a secret key without a certificate
I may happen that you have created a certificate request using
@command{gpgsm} but not yet received and imported the certificate from
the CA. However, you want to export the secret key to another machine
right now to import the certificate over there then. You can do this
with a little trick but it requires that you know the approximate time
you created the signing request. By running the command
@smallexample
ls -ltr ~/.gnupg/private-keys-v1.d
@end smallexample
you get a listing of all private keys under control of @command{gpg-agent}.
Pick the key which best matches the creation time and run the command
@smallexample
/usr/local/libexec/gpg-protect-tool --p12-export ~/.gnupg/private-keys-v1.d/@var{foo} >@var{foo}.p12
@end smallexample
(Please adjust the path to @command{gpg-protect-tool} to the appropriate
location). @var{foo} is the name of the key file you picked (it should
have the suffix @file{.key}). A Pinentry box will pop up and ask you
for the current passphrase of the key and a new passphrase to protect it
in the pkcs#12 file.
To import the created file on the machine you use this command:
@smallexample
/usr/local/libexec/gpg-protect-tool --p12-import --store @var{foo}.p12
@end smallexample
You will be asked for the pkcs#12 passphrase and a new passphrase to
protect the imported private key at its new location.
Note that there is no easy way to match existing certificates with
stored private keys because some private keys are used for Secure Shell
or other purposes and don't have a corresponding certificate.
@item A root certificate does not verify
A common problem is that the root certificate misses the required
basicConstrains attribute and thus @command{gpgsm} rejects this
certificate. An error message indicating ``no value'' is a sign for
such a certificate. You may use the @code{relax} flag in
@file{trustlist.txt} to accept the certificate anyway. Note that the
fingerprint and this flag may only be added manually to
@file{trustlist.txt}.
@item Error message: ``digest algorithm N has not been enabled''
The signature is broken. You may try the option
@option{--extra-digest-algo SHA256} to workaround the problem. The
number N is the internal algorithm identifier; for example 8 refers to
SHA-256.
@item The Windows version does not work under Wine
When running the W32 version of @command{gpg} under Wine you may get
an error messages like:
@smallexample
gpg: fatal: WriteConsole failed: Access denied
@end smallexample
@noindent
The solution is to use the command @command{wineconsole}.
Some operations like gen-key really want to talk to the console directly
for increased security (for example to prevent the passphrase from
appearing on the screen). So, you should use @command{wineconsole}
instead of @command{wine}, which will launch a windows console that
implements those additional features.
@item Why does GPG's --search-key list weird keys?
For performance reasons the keyservers do not check the keys the same
way @command{gpg} does. It may happen that the listing of keys
available on the keyservers shows keys with wrong user IDs or with user
Ids from other keys. If you try to import this key, the bad keys or bad
user ids won't get imported, though. This is a bit unfortunate but we
can't do anything about it without actually downloading the keys.
@end itemize
@c ********************************************
@c *** Architecture Details *****************
@c ********************************************
@node Architecture Details
@section How the whole thing works internally.
@menu
* GnuPG-1 and GnuPG-2:: Relationship between the two branches.
@end menu
@node GnuPG-1 and GnuPG-2
@subsection Relationship between the two branches.
Here is a little picture showing how the components work together:
@image{gnupg-card-architecture, 10cm}
@noindent
Lets try to explain it:
TO BE DONE.