* configure.ac: Remove GNUPG_DATADIR for non-W32 systems.
g10/
* Makefile.am (AM_CPPFLAGS): Define GNUPG_DATADIR.
* openfile.c (copy_options_file): Use log_info and not log_error
to avoid error returns in case of a missing skeleton file.
and one being DSA2 and encrypting at the same time, if the recipient
preferences give a hash that can work with the DSA2 key, then allow the
DSA1 key to be promoted rather than giving up and using hash_for().
keygen_add_std_prefs, proc_parameter_file): Add --default-keyserver-url to
specify a keyserver URL at key generation time, and "Keyserver:" keyword
for doing the same through a batch file.
(not a copy) of the stub secret key for the secret key we just
generated on the card. (generate_card_subkeypair): Use it here so
that the signing key on the card can use the card to generate the 0x19
backsig on the primary key. Noted by Janko Heilgeist and Jonas Oberg.
This prevents a memory allocation attack with a very large user ID. A
very large packet length could even cause the allocation (a u32) to wrap
around to a small number. Noted by Evgeny Legerov on full-disclosure.
1024 when --enable-dsa2 is set). The size of q is set automatically based
on the key size. (ask_keysize, generate_keypair): Ask for DSA size when
--enable-dsa2 is set.
called with them closed. This is to protect our keyring/trustdb files
from corruption if they get attached to one of the standard fds. Print a
warning if possible that this has happened, and fail completely if we
cannot reopen (should never happen). (main): Call it here.
(build_sig_subpkt_from_sig), getkey.c (fixup_uidnode,
merge_selfsigs_main, merge_selfsigs_subkey), keygen.c
(keygen_add_key_expire): Fix meaning of key expiration and sig
expiration subpackets - zero means "never expire" according to 2440,
not "expire instantly".
to disable.
* pkclist.c (algo_available): If --enable-dsa2 is set, we're allowed to
truncate hashes to fit DSA keys.
* sign.c (match_dsa_hash): New. Return the best match hash for a given q
size. (do_sign, hash_for, sign_file): When signing with a DSA key, if it
has q==160, assume it is an old DSA key and don't allow truncation unless
--enable-dsa2 is also set. q!=160 always allows truncation since they
must be DSA2 keys. (make_keysig_packet): If the user doesn't specify a
--cert-digest-algo, use match_dsa_hash to pick the best hash for key
signatures.
SHA-224.
* sign.c (write_plaintext_packet), encode.c (encode_simple): Factor
common literal packet setup code from here, to...
* main.h, plaintext.c (setup_plaintext_name): Here. New. Make sure the
literal packet filename field is UTF-8 encoded.
* options.h, gpg.c (main): Make sure --set-filename is UTF-8 encoded
and note when filenames are already UTF-8.
* keyedit.c (menu_backsign): Allow backsigning even if the secret
subkey doesn't have a binding signature.
* armor.c (radix64_read): Don't report EOF when reading only a pad (=)
character. The EOF actually starts after the pad.
* gpg.c (main): Make --export, --send-keys, --recv-keys,
--refresh-keys, and --fetch-keys follow their arguments from left to
right. Suggested by Peter Palfrader.
than 160 bits as per DSA2. This will allow us to verify and issue DSA2
signatures for some backwards compatibility once we start generating DSA2
keys.
* sign.c (do_sign), sig-check.c (do_check): Change all callers.
* sign.c (do_sign): Enforce the 160-bit check for new signatures here
since encode_md_value can handle non-160-bit digests now. This will need
to come out once the standard for DSA2 is firmed up.
same API as the other auto-key-locate fetchers.
* getkey.c (get_pubkey_byname): Use the fingerprint of the key that we
actually fetched. This helps prevent problems where the key that we
fetched doesn't have the same name that we used to fetch it. In the
case of CERT and PKA, this is an actual security requirement as the
URL might point to a key put in by an attacker. By forcing the use of
the fingerprint, we won't use the attacker's key here.
is no backsig present. Give a URL for more information.
* keyedit.c (menu_backsign): Small tweak to work properly with keys
originally generated with older GnuPGs that included comments in the
secret keys.
to be deleted with a '-' prefix.
* keyedit.c (menu_set_notation): Use it here to allow deleting a notation
marked with '-'. This works with either "-notation" or "-notation=value".
Use it here for the various notation commands.
* packet.h, main.h, keygen.c (keygen_add_notations), build-packet.c
(string_to_notation, sig_to_notation) (free_notation): New "one stop
shopping" functions to handle notations and start removing some code
duplication.
pka-lookups, not pka-lookup.
* options.h, gpg.c (main), keyedit.c [cmds], sig-check.c
(signature_check2): Rename "backsign" to "cross-certify" as a more
accurate name.
(check_signatures_trust), mainproc.c (check_sig_and_print,
pka_uri_from_sig), trustdb.c (init_trustdb): Some tweaks to PKA so that it
is a verify-option now.
"pka" when those features are disabled.
* misc.c (has_invalid_email_chars): Fix some C syntax that broke the
compilers on SGI IRIX MIPS and Compaq/DEC OSF/1 Alpha. Noted by Nelson H.
F. Beebe.
--no-auto-key-locate.
* options.h, gpg.c (main): Keep track of each keyserver registered so
we can match on them later.
* keyserver-internal.h, keyserver.c (cmp_keyserver_spec,
keyserver_match), gpgv.c: New. Find a keyserver that matches ours and
return its spec.
* getkey.c (get_pubkey_byname): Use it here to get the per-keyserver
options from an earlier keyserver.
(parse_keyserver_options): Moved from here. (parse_keyserver_uri): Use it
here so each keyserver can have some private options in addition to the
main keyserver-options (e.g. per-keyserver auth).
importing at -r time. The URL in the PKA record may point to a key put in
by an attacker. Fix is to use the fingerprint from the PKA record as the
recipient. This ensures that the PKA record is followed.
* keyserver-internal.h, keyserver.c (keyserver_import_pka): Return the
fingerprint we requested.
passphrase as if it was used (move from next_pw to last_pw).
* pubkey-enc.c (get_session_key): Use it here to handle the case where a
passphrase happens to be correct for a secret key, but yet that key isn't
the anonymous recipient (i.e. the secret key could be decrypted, but not
the session key). This also handles the case where a secret key is
located on a card and a secret key with no passphrase. Note this does not
fix bug 594 (anonymous recipients on smartcard do not work) - it just
prevents the anonymous search from stopping when the card is encountered.
(keyserver_import_pka), card-util.c (fetch_url): Always require a
scheme:// for keyserver URLs except when used as part of the
--keyserver command for backwards compatibility.
card. If it does, only allow 160-bit hashes, a la DSA. This involves
passing the *sk in, so change all callers. This is correct for today,
given the current 160-bit q in DSA, and the current SHA-1/RIPEMD160
support in the openpgp card. It will almost certainly need changing
down the road.
* app-openpgp.c (do_sign): Give user error if hash algorithm is not
supported by the card.
getkey.c:get_pubkey_byname which was getting crowded.
* keyserver.c (keyserver_import_cert): Import a key found in DNS via CERT
records. Can handle both the PGP (actual key) and IPGP (URL) CERT types.
* getkey.c (get_pubkey_byname): Call them both here.
* options.h, keyserver.c (parse_keyserver_options): Add
"auto-cert-retrieve" option with optional max size argument.