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4f061d3710
* gpg.sgml: Clarify include-revoked a bit to note that keyservers might not be accurate.
1092 lines
40 KiB
Plaintext
1092 lines
40 KiB
Plaintext
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Format of colon listings
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========================
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First an example:
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$ gpg --fixed-list-mode --with-colons --list-keys \
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--with-fingerprint --with-fingerprint wk@gnupg.org
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pub:f:1024:17:6C7EE1B8621CC013:899817715:1055898235::m:::scESC:
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fpr:::::::::ECAF7590EB3443B5C7CF3ACB6C7EE1B8621CC013:
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uid:f::::::::Werner Koch <wk@g10code.com>:
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uid:f::::::::Werner Koch <wk@gnupg.org>:
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sub:f:1536:16:06AD222CADF6A6E1:919537416:1036177416:::::e:
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fpr:::::::::CF8BCC4B18DE08FCD8A1615906AD222CADF6A6E1:
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sub:r:1536:20:5CE086B5B5A18FF4:899817788:1025961788:::::esc:
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fpr:::::::::AB059359A3B81F410FCFF97F5CE086B5B5A18FF4:
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The double --with-fingerprint prints the fingerprint for the subkeys
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too, --fixed-list-mode is themodern listing way printing dates in
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seconds since Epoch and does not merge the first userID with the pub
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record.
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1. Field: Type of record
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pub = public key
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crt = X.509 certificate
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crs = X.509 certificate and private key available
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sub = subkey (secondary key)
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sec = secret key
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ssb = secret subkey (secondary key)
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uid = user id (only field 10 is used).
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uat = user attribute (same as user id except for field 10).
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sig = signature
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rev = revocation signature
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fpr = fingerprint: (fingerprint is in field 10)
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pkd = public key data (special field format, see below)
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grp = reserved for gpgsm
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rvk = revocation key
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tru = trust database information
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2. Field: A letter describing the calculated trust. This is a single
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letter, but be prepared that additional information may follow
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in some future versions. (not used for secret keys)
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o = Unknown (this key is new to the system)
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i = The key is invalid (e.g. due to a missing self-signature)
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d = The key has been disabled
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(deprecated - use the 'D' in field 12 instead)
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r = The key has been revoked
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e = The key has expired
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- = Unknown trust (i.e. no value assigned)
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q = Undefined trust
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'-' and 'q' may safely be treated as the same
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value for most purposes
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n = Don't trust this key at all
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m = There is marginal trust in this key
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f = The key is fully trusted
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u = The key is ultimately trusted. This often means
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that the secret key is available, but any key may
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be marked as ultimately trusted.
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3. Field: length of key in bits.
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4. Field: Algorithm: 1 = RSA
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16 = Elgamal (encrypt only)
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17 = DSA (sometimes called DH, sign only)
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20 = Elgamal (sign and encrypt)
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(for other id's see include/cipher.h)
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5. Field: KeyID either of
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6. Field: Creation Date (in UTC)
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7. Field: Key expiration date or empty if none.
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8. Field: Used for serial number in crt records (used to be the Local-ID)
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9. Field: Ownertrust (primary public keys only)
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This is a single letter, but be prepared that additional
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information may follow in some future versions.
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10. Field: User-ID. The value is quoted like a C string to avoid
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control characters (the colon is quoted "\x3a").
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This is not used with --fixed-list-mode in gpg.
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A UAT record puts the attribute subpacket count here, a
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space, and then the total attribute subpacket size.
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In gpgsm the issuer name comes here
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An FPR record stores the fingerprint here.
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The fingerprint of an revocation key is stored here.
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11. Field: Signature class. This is a 2 digit hexnumber followed by
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either the letter 'x' for an exportable signature or the
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letter 'l' for a local-only signature.
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The class byte of an revocation key is also given here,
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'x' and 'l' ist used the same way.
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12. Field: Key capabilities:
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e = encrypt
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s = sign
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c = certify
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A key may have any combination of them in any order. In
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addition to these letters, the primary key has uppercase
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versions of the letters to denote the _usable_
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capabilities of the entire key, and a potential letter 'D'
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to indicate a disabled key.
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13. Field: Used in FPR records for S/MIME keys to store the fingerprint of
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the issuer certificate. This is useful to build the
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certificate path based on certificates stored in the local
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keyDB; it is only filled if the issue certificate is
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available. The advantage of using this value is that it is
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guaranteed to have been been build by the same lookup
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algorithm as gpgsm uses.
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For "uid" recods this lists the preferences n the sameway the
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-edit menu does.
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14. Field Flag field used in the --edit menu output:
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All dates are displayed in the format yyyy-mm-dd unless you use the
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option --fixed-list-mode in which case they are displayed as seconds
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since Epoch. More fields may be added later, so parsers should be
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prepared for this. When parsing a number the parser should stop at the
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first non-number character so that additional information can later be
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added.
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If field 1 has the tag "pkd", a listing looks like this:
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pkd:0:1024:B665B1435F4C2 .... FF26ABB:
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! ! !-- the value
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! !------ for information number of bits in the value
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!--------- index (eg. DSA goes from 0 to 3: p,q,g,y)
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The "tru" trust database records have the fields:
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1: Reason for staleness of trust. If this field is empty, then the
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trustdb is not stale. This field may have multiple flags in it:
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o: Trustdb is old
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t: Trustdb was built with a different trust model than the one we
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are using now.
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2: Trust model. This is always zero (i.e. "Classic") in this version
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of GnuPG.
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3: Date trustdb was created in seconds since 1/1/1970.
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4: Date trustdb will expire in seconds since 1/1/1970.
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Format of the "--status-fd" output
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==================================
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Every line is prefixed with "[GNUPG:] ", followed by a keyword with
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the type of the status line and a some arguments depending on the
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type (maybe none); an application should always be prepared to see
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more arguments in future versions.
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GOODSIG <long keyid> <username>
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The signature with the keyid is good. For each signature only
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one of the three codes GOODSIG, BADSIG or ERRSIG will be
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emitted and they may be used as a marker for a new signature.
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The username is the primary one encoded in UTF-8 and %XX
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escaped.
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EXPSIG <long keyid> <username>
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The signature with the keyid is good, but the signature is
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expired. The username is the primary one encoded in UTF-8 and
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%XX escaped.
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EXPKEYSIG <long keyid> <username>
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The signature with the keyid is good, but the signature was
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made by an expired key. The username is the primary one
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encoded in UTF-8 and %XX escaped.
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REVKEYSIG <long keyid> <username>
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The signature with the keyid is good, but the signature was
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made by a revoked key. The username is the primary one
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encoded in UTF-8 and %XX escaped.
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BADSIG <long keyid> <username>
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The signature with the keyid has not been verified okay.
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The username is the primary one encoded in UTF-8 and %XX
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escaped.
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ERRSIG <long keyid> <pubkey_algo> <hash_algo> \
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<sig_class> <timestamp> <rc>
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It was not possible to check the signature. This may be
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caused by a missing public key or an unsupported algorithm.
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A RC of 4 indicates unknown algorithm, a 9 indicates a missing
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public key. The other fields give more information about
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this signature. sig_class is a 2 byte hex-value.
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VALIDSIG <fingerprint in hex> <sig_creation_date> <sig-timestamp>
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<expire-timestamp> <sig-version> <reserved> <pubkey-algo>
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<hash-algo> <sig-class> <primary-key-fpr>
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The signature with the keyid is good. This is the same as
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GOODSIG but has the fingerprint as the argument. Both status
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lines are emitted for a good signature. All arguments here
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are on one long line. sig-timestamp is the signature creation
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time in seconds after the epoch. expire-timestamp is the
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signature expiration time in seconds after the epoch (zero
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means "does not expire"). sig-version, pubkey-algo, hash-algo,
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and sig-class (a 2-byte hex value) are all straight from the
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signature packet. PRIMARY-KEY-FPR is the fingerprint of the
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primary key or identical to the first argument. This is
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useful to get back to the primary key without running gpg
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again for this purpose.
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SIG_ID <radix64_string> <sig_creation_date> <sig-timestamp>
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This is emitted only for signatures of class 0 or 1 which
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have been verified okay. The string is a signature id
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and may be used in applications to detect replay attacks
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of signed messages. Note that only DLP algorithms give
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unique ids - others may yield duplicated ones when they
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have been created in the same second.
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ENC_TO <long keyid> <keytype> <keylength>
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The message is encrypted to this keyid.
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keytype is the numerical value of the public key algorithm,
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keylength is the length of the key or 0 if it is not known
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(which is currently always the case).
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NODATA <what>
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No data has been found. Codes for what are:
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1 - No armored data.
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2 - Expected a packet but did not found one.
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3 - Invalid packet found, this may indicate a non OpenPGP message.
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You may see more than one of these status lines.
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UNEXPECTED <what>
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Unexpected data has been encountered
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0 - not further specified 1
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TRUST_UNDEFINED <error token>
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TRUST_NEVER <error token>
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TRUST_MARGINAL
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TRUST_FULLY
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TRUST_ULTIMATE
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For good signatures one of these status lines are emitted
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to indicate how trustworthy the signature is. The error token
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values are currently only emiited by gpgsm.
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SIGEXPIRED
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This is deprecated in favor of KEYEXPIRED.
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KEYEXPIRED <expire-timestamp>
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The key has expired. expire-timestamp is the expiration time
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in seconds after the epoch.
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KEYREVOKED
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The used key has been revoked by its owner. No arguments yet.
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BADARMOR
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The ASCII armor is corrupted. No arguments yet.
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RSA_OR_IDEA
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The IDEA algorithms has been used in the data. A
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program might want to fallback to another program to handle
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the data if GnuPG failed. This status message used to be emitted
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also for RSA but this has been dropped after the RSA patent expired.
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However we can't change the name of the message.
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SHM_INFO
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SHM_GET
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SHM_GET_BOOL
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SHM_GET_HIDDEN
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GET_BOOL
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GET_LINE
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GET_HIDDEN
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GOT_IT
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NEED_PASSPHRASE <long main keyid> <long keyid> <keytype> <keylength>
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Issued whenever a passphrase is needed.
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keytype is the numerical value of the public key algorithm
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or 0 if this is not applicable, keylength is the length
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of the key or 0 if it is not known (this is currently always the case).
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NEED_PASSPHRASE_SYM <cipher_algo> <s2k_mode> <s2k_hash>
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Issued whenever a passphrase for symmetric encryption is needed.
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MISSING_PASSPHRASE
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No passphrase was supplied. An application which encounters this
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message may want to stop parsing immediately because the next message
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will probably be a BAD_PASSPHRASE. However, if the application
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is a wrapper around the key edit menu functionality it might not
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make sense to stop parsing but simply ignoring the following
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BAD_PASSPHRASE.
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BAD_PASSPHRASE <long keyid>
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The supplied passphrase was wrong or not given. In the latter case
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you may have seen a MISSING_PASSPHRASE.
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GOOD_PASSPHRASE
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The supplied passphrase was good and the secret key material
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is therefore usable.
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DECRYPTION_FAILED
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The symmetric decryption failed - one reason could be a wrong
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passphrase for a symmetrical encrypted message.
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DECRYPTION_OKAY
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The decryption process succeeded. This means, that either the
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correct secret key has been used or the correct passphrase
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for a conventional encrypted message was given. The program
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itself may return an errorcode because it may not be possible to
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verify a signature for some reasons.
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NO_PUBKEY <long keyid>
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NO_SECKEY <long keyid>
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The key is not available
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IMPORTED <long keyid> <username>
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The keyid and name of the signature just imported
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IMPORT_OK <reason> [<fingerprint>]
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The key with the primary key's FINGERPRINT has been imported.
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Reason flags:
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0 := Not actually changed
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1 := Entirely new key.
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2 := New user IDs
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4 := New signatures
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8 := New subkeys
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16 := Contains private key.
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The flags may be ORed.
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IMPORT_PROBLEM <reason> [<fingerprint>]
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Issued for each import failure. Reason codes are:
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0 := "No specific reason given".
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1 := "Invalid Certificate".
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2 := "Issuer Certificate missing".
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3 := "Certificate Chain too long".
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4 := "Error storing certificate".
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IMPORT_RES <count> <no_user_id> <imported> <imported_rsa> <unchanged>
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<n_uids> <n_subk> <n_sigs> <n_revoc> <sec_read> <sec_imported> <sec_dups> <not_imported>
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Final statistics on import process (this is one long line)
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FILE_START <what> <filename>
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Start processing a file <filename>. <what> indicates the performed
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operation:
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1 - verify
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2 - encrypt
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3 - decrypt
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FILE_DONE
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Marks the end of a file processing which has been started
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by FILE_START.
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BEGIN_DECRYPTION
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END_DECRYPTION
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Mark the start and end of the actual decryption process. These
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are also emitted when in --list-only mode.
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BEGIN_ENCRYPTION <mdc_method> <sym_algo>
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END_ENCRYPTION
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Mark the start and end of the actual encryption process.
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DELETE_PROBLEM reason_code
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Deleting a key failed. Reason codes are:
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1 - No such key
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2 - Must delete secret key first
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3 - Ambigious specification
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PROGRESS what char cur total
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Used by the primegen and Public key functions to indicate progress.
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"char" is the character displayed with no --status-fd enabled, with
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the linefeed replaced by an 'X'. "cur" is the current amount
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done and "total" is amount to be done; a "total" of 0 indicates that
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the total amount is not known. 100/100 may be used to detect the
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end of operation.
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SIG_CREATED <type> <pubkey algo> <hash algo> <class> <timestamp> <key fpr>
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A signature has been created using these parameters.
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type: 'D' = detached
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'C' = cleartext
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'S' = standard
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(only the first character should be checked)
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class: 2 hex digits with the signature class
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KEY_CREATED <type> <fingerprint>
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A key has been created
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type: 'B' = primary and subkey
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'P' = primary
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'S' = subkey
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The fingerprint is one of the primary key for type B and P and
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the one of the subkey for S.
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SESSION_KEY <algo>:<hexdigits>
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The session key used to decrypt the message. This message will
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only be emmited when the special option --show-session-key
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is used. The format is suitable to be passed to the option
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--override-session-key
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NOTATION_NAME <name>
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NOTATION_DATA <string>
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name and string are %XX escaped; the data may be splitted
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among several notation_data lines.
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USERID_HINT <long main keyid> <string>
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Give a hint about the user ID for a certain keyID.
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POLICY_URL <string>
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string is %XX escaped
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BEGIN_STREAM
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END_STREAM
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Issued by pipemode.
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INV_RECP <reason> <requested_recipient>
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Issued for each unusable recipient. The reasons codes
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currently in use are:
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0 := "No specific reason given".
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1 := "Not Found"
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2 := "Ambigious specification"
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3 := "Wrong key usage"
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4 := "Key revoked"
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5 := "Key expired"
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6 := "No CRL known"
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7 := "CRL too old"
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8 := "Policy mismatch"
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9 := "Not a secret key"
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10 := "Key not trusted"
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Note that this status is also used for gpgsm's SIGNER command
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where it relates to signer's of course.
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NO_RECP <reserved>
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Issued when no recipients are usable.
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ALREADY_SIGNED <long-keyid>
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Warning: This is experimental and might be removed at any time.
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TRUNCATED <maxno>
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The output was truncated to MAXNO items. This status code is issued
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for certain external requests
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ERROR <error location> <error code>
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This is a generic error status message, it might be followed
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by error location specific data. <error token> and
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<error_location> should not contain a space.
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ATTRIBUTE <fpr> <octets> <type> <index> <count>
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<timestamp> <expiredate> <flags>
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This is one long line issued for each attribute subpacket when
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an attribute packet is seen during key listing. <fpr> is the
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fingerprint of the key. <octets> is the length of the
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attribute subpacket. <type> is the attribute type
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(1==image). <index>/<count> indicates that this is the Nth
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indexed subpacket of count total subpackets in this attribute
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packet. <timestamp> and <expiredate> are from the
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self-signature on the attribute packet. If the attribute
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packet does not have a valid self-signature, then the
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timestamp is 0. <flags> are a bitwise OR of:
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0x01 = this attribute packet is a primary uid
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0x02 = this attribute packet is revoked
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0x04 = this attribute packet is expired
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PLAINTEXT <format> <timestamp>
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This indicates the format of the plaintext that is about to be
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written. The format is a 1 byte hex code that shows the
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format of the plaintext: 62 ('b') is binary data, 74 ('t') is
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text data with no character set specified, and 75 ('u') is
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text data encoded in the UTF-8 character set. The timestamp
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is in seconds since the epoch.
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PLAINTEXT_LENGTH <length>
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This indicates the length of the plaintext that is about to be
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written. Note that if the plaintext packet has partial length
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encoding it is not possible to know the length ahead of time.
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In that case, this status tag does not appear.
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Format of the "--attribute-fd" output
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=====================================
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When --attribute-fd is set, during key listings (--list-keys,
|
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--list-secret-keys) GnuPG dumps each attribute packet to the file
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descriptor specified. --attribute-fd is intended for use with
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|
--status-fd as part of the required information is carried on the
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ATTRIBUTE status tag (see above).
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The contents of the attribute data is specified by 2440bis, but for
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|
convenience, here is the Photo ID format, as it is currently the only
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attribute defined:
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Byte 0-1: The length of the image header. Due to a historical
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accident (i.e. oops!) back in the NAI PGP days, this is
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|
a little-endian number. Currently 16 (0x10 0x00).
|
|
|
|
Byte 2: The image header version. Currently 0x01.
|
|
|
|
Byte 3: Encoding format. 0x01 == JPEG.
|
|
|
|
Byte 4-15: Reserved, and currently unused.
|
|
|
|
All other data after this header is raw image (JPEG) data.
|
|
|
|
|
|
Format of the "--list-config" output
|
|
====================================
|
|
|
|
--list-config outputs information about the GnuPG configuration for
|
|
the benefit of frontends or other programs that call GnuPG. There are
|
|
several list-config items, all colon delimited like the rest of the
|
|
--with-colons output. The first field is always "cfg" to indicate
|
|
configuration information. The second field is one of (with
|
|
examples):
|
|
|
|
version: the third field contains the version of GnuPG.
|
|
|
|
cfg:version:1.3.5
|
|
|
|
pubkey: the third field contains the public key algorithmdcaiphers
|
|
this version of GnuPG supports, separated by semicolons. The
|
|
algorithm numbers are as specified in RFC-2440.
|
|
|
|
cfg:pubkey:1;2;3;16;17
|
|
|
|
cipher: the third field contains the symmetric ciphers this version of
|
|
GnuPG supports, separated by semicolons. The cipher numbers
|
|
are as specified in RFC-2440.
|
|
|
|
cfg:cipher:2;3;4;7;8;9;10
|
|
|
|
digest: the third field contains the digest (hash) algorithms this
|
|
version of GnuPG supports, separated by semicolons. The
|
|
digest numbers are as specified in RFC-2440.
|
|
|
|
cfg:digest:1;2;3;8;9;10
|
|
|
|
compress: the third field contains the compression algorithms this
|
|
version of GnuPG supports, separated by semicolons. The
|
|
algorithm numbers are as specified in RFC-2440.
|
|
|
|
cfg:compress:0;1;2;3
|
|
|
|
group: the third field contains the name of the group, and the fourth
|
|
field contains the values that the group expands to, separated
|
|
by semicolons.
|
|
|
|
For example, a group of:
|
|
group mynames = paige 0x12345678 joe patti
|
|
|
|
would result in:
|
|
cfg:group:mynames:patti;joe;0x12345678;paige
|
|
|
|
|
|
Key generation
|
|
==============
|
|
Key generation shows progress by printing different characters to
|
|
stderr:
|
|
"." Last 10 Miller-Rabin tests failed
|
|
"+" Miller-Rabin test succeeded
|
|
"!" Reloading the pool with fresh prime numbers
|
|
"^" Checking a new value for the generator
|
|
"<" Size of one factor decreased
|
|
">" Size of one factor increased
|
|
|
|
The prime number for Elgamal is generated this way:
|
|
|
|
1) Make a prime number q of 160, 200, 240 bits (depending on the keysize)
|
|
2) Select the length of the other prime factors to be at least the size
|
|
of q and calculate the number of prime factors needed
|
|
3) Make a pool of prime numbers, each of the length determined in step 2
|
|
4) Get a new permutation out of the pool or continue with step 3
|
|
if we have tested all permutations.
|
|
5) Calculate a candidate prime p = 2 * q * p[1] * ... * p[n] + 1
|
|
6) Check that this prime has the correct length (this may change q if
|
|
it seems not to be possible to make a prime of the desired length)
|
|
7) Check whether this is a prime using trial divisions and the
|
|
Miller-Rabin test.
|
|
8) Continue with step 4 if we did not find a prime in step 7.
|
|
9) Find a generator for that prime.
|
|
|
|
This algorithm is based on Lim and Lee's suggestion from the
|
|
Crypto '97 proceedings p. 260.
|
|
|
|
|
|
Unattended key generation
|
|
=========================
|
|
This feature allows unattended generation of keys controlled by a
|
|
parameter file. To use this feature, you use --gen-key together with
|
|
--batch and feed the parameters either from stdin or from a file given
|
|
on the commandline.
|
|
|
|
The format of this file is as follows:
|
|
o Text only, line length is limited to about 1000 chars.
|
|
o You must use UTF-8 encoding to specify non-ascii characters.
|
|
o Empty lines are ignored.
|
|
o Leading and trailing spaces are ignored.
|
|
o A hash sign as the first non white space character indicates a comment line.
|
|
o Control statements are indicated by a leading percent sign, the
|
|
arguments are separated by white space from the keyword.
|
|
o Parameters are specified by a keyword, followed by a colon. Arguments
|
|
are separated by white space.
|
|
o The first parameter must be "Key-Type", control statements
|
|
may be placed anywhere.
|
|
o Key generation takes place when either the end of the parameter file
|
|
is reached, the next "Key-Type" parameter is encountered or at the
|
|
control statement "%commit"
|
|
o Control statements:
|
|
%echo <text>
|
|
Print <text>.
|
|
%dry-run
|
|
Suppress actual key generation (useful for syntax checking).
|
|
%commit
|
|
Perform the key generation. An implicit commit is done
|
|
at the next "Key-Type" parameter.
|
|
%pubring <filename>
|
|
%secring <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 ignored, 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).
|
|
Both control statements must be given.
|
|
o The order of the parameters does not matter except for "Key-Type"
|
|
which must be the first parameter. The parameters are only for the
|
|
generated keyblock and parameters from previous key generations are not
|
|
used. Some syntactically checks may be performed.
|
|
The currently defined parameters are:
|
|
Key-Type: <algo-number>|<algo-string>
|
|
Starts a new parameter block by giving the type of the
|
|
primary key. The algorithm must be capable of signing.
|
|
This is a required parameter.
|
|
Key-Length: <length-in-bits>
|
|
Length of the key in bits. Default is 1024.
|
|
Key-Usage: <usage-list>
|
|
Space or comma delimited list of key usage, allowed values are
|
|
"encrypt" and "sign". This is used to generate the key flags.
|
|
Please make sure that the algorithm is capable of this usage.
|
|
Subkey-Type: <algo-number>|<algo-string>
|
|
This generates a secondary key. Currently only one subkey
|
|
can be handled.
|
|
Subkey-Length: <length-in-bits>
|
|
Length of the subkey in bits. Default is 1024.
|
|
Subkey-Usage: <usage-list>
|
|
Similar to Key-Usage.
|
|
Passphrase: <string>
|
|
If you want to specify a passphrase for the secret key,
|
|
enter it here. Default is not to use any passphrase.
|
|
Name-Real: <string>
|
|
Name-Comment: <string>
|
|
Name-Email: <string>
|
|
The 3 parts of a key. Remember to use UTF-8 here.
|
|
If you don't give any of them, no user ID is created.
|
|
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 (2000-08-15) or as
|
|
number of days, weeks, month or years. Without a letter days
|
|
are assumed.
|
|
Preferences: <string>
|
|
Set the cipher, hash, and compression preference values for
|
|
this key. This expects the same type of string as "setpref"
|
|
in the --edit menu.
|
|
Revoker: <algo>:<fpr> [sensitive]
|
|
Add a designated revoker to the generated key. Algo is the
|
|
public key algorithm of the designated revoker (i.e. RSA=1,
|
|
DSA=17, etc.) Fpr is the fingerprint of the designated
|
|
revoker. The optional "sensitive" flag marks the designated
|
|
revoker as sensitive information. Only v4 keys may be
|
|
designated revokers.
|
|
|
|
Here is an example:
|
|
$ cat >foo <<EOF
|
|
%echo Generating a standard 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
|
|
%pubring foo.pub
|
|
%secring foo.sec
|
|
# Do a commit here, so that we can later print "done" :-)
|
|
%commit
|
|
%echo done
|
|
EOF
|
|
$ gpg --batch --gen-key foo
|
|
[...]
|
|
$ gpg --no-default-keyring --secret-keyring ./foo.sec \
|
|
--keyring ./foo.pub --list-secret-keys
|
|
/home/wk/work/gnupg-stable/scratch/foo.sec
|
|
------------------------------------------
|
|
sec 1024D/915A878D 2000-03-09 Joe Tester (with stupid passphrase) <joe@foo.bar>
|
|
ssb 1024g/8F70E2C0 2000-03-09
|
|
|
|
|
|
|
|
Layout of the TrustDB
|
|
=====================
|
|
The TrustDB is built from fixed length records, where the first byte
|
|
describes the record type. All numeric values are stored in network
|
|
byte order. The length of each record is 40 bytes. The first record of
|
|
the DB is always of type 1 and this is the only record of this type.
|
|
|
|
FIXME: The layout changed, document it here.
|
|
|
|
Record type 0:
|
|
--------------
|
|
Unused record, can be reused for any purpose.
|
|
|
|
Record type 1:
|
|
--------------
|
|
Version information for this TrustDB. This is always the first
|
|
record of the DB and the only one with type 1.
|
|
1 byte value 1
|
|
3 bytes 'gpg' magic value
|
|
1 byte Version of the TrustDB (2)
|
|
1 byte marginals needed
|
|
1 byte completes needed
|
|
1 byte max_cert_depth
|
|
The three items are used to check whether the cached
|
|
validity value from the dir record can be used.
|
|
1 u32 locked flags
|
|
1 u32 timestamp of trustdb creation
|
|
1 u32 timestamp of last modification which may affect the validity
|
|
of keys in the trustdb. This value is checked against the
|
|
validity timestamp in the dir records.
|
|
1 u32 timestamp of last validation
|
|
(Used to keep track of the time, when this TrustDB was checked
|
|
against the pubring)
|
|
1 u32 record number of keyhashtable
|
|
1 u32 first free record
|
|
1 u32 record number of shadow directory hash table
|
|
It does not make sense to combine this table with the key table
|
|
because the keyid is not in every case a part of the fingerprint.
|
|
1 u32 record number of the trusthashtbale
|
|
|
|
|
|
Record type 2: (directory record)
|
|
--------------
|
|
Informations about a public key certificate.
|
|
These are static values which are never changed without user interaction.
|
|
|
|
1 byte value 2
|
|
1 byte reserved
|
|
1 u32 LID . (This is simply the record number of this record.)
|
|
1 u32 List of key-records (the first one is the primary key)
|
|
1 u32 List of uid-records
|
|
1 u32 cache record
|
|
1 byte ownertrust
|
|
1 byte dirflag
|
|
1 byte maximum validity of all the user ids
|
|
1 u32 time of last validity check.
|
|
1 u32 Must check when this time has been reached.
|
|
(0 = no check required)
|
|
|
|
|
|
Record type 3: (key record)
|
|
--------------
|
|
Informations about a primary public key.
|
|
(This is mainly used to lookup a trust record)
|
|
|
|
1 byte value 3
|
|
1 byte reserved
|
|
1 u32 LID
|
|
1 u32 next - next key record
|
|
7 bytes reserved
|
|
1 byte keyflags
|
|
1 byte pubkey algorithm
|
|
1 byte length of the fingerprint (in bytes)
|
|
20 bytes fingerprint of the public key
|
|
(This is the value we use to identify a key)
|
|
|
|
Record type 4: (uid record)
|
|
--------------
|
|
Informations about a userid
|
|
We do not store the userid but the hash value of the userid because that
|
|
is sufficient.
|
|
|
|
1 byte value 4
|
|
1 byte reserved
|
|
1 u32 LID points to the directory record.
|
|
1 u32 next next userid
|
|
1 u32 pointer to preference record
|
|
1 u32 siglist list of valid signatures
|
|
1 byte uidflags
|
|
1 byte validity of the key calculated over this user id
|
|
20 bytes ripemd160 hash of the username.
|
|
|
|
|
|
Record type 5: (pref record)
|
|
--------------
|
|
This record type is not anymore used.
|
|
|
|
1 byte value 5
|
|
1 byte reserved
|
|
1 u32 LID; points to the directory record (and not to the uid record!).
|
|
(or 0 for standard preference record)
|
|
1 u32 next
|
|
30 byte preference data
|
|
|
|
Record type 6 (sigrec)
|
|
-------------
|
|
Used to keep track of key signatures. Self-signatures are not
|
|
stored. If a public key is not in the DB, the signature points to
|
|
a shadow dir record, which in turn has a list of records which
|
|
might be interested in this key (and the signature record here
|
|
is one).
|
|
|
|
1 byte value 6
|
|
1 byte reserved
|
|
1 u32 LID points back to the dir record
|
|
1 u32 next next sigrec of this uid or 0 to indicate the
|
|
last sigrec.
|
|
6 times
|
|
1 u32 Local_id of signatures dir or shadow dir record
|
|
1 byte Flag: Bit 0 = checked: Bit 1 is valid (we have a real
|
|
directory record for this)
|
|
1 = valid is set (but may be revoked)
|
|
|
|
|
|
|
|
Record type 8: (shadow directory record)
|
|
--------------
|
|
This record is used to reserve a LID for a public key. We
|
|
need this to create the sig records of other keys, even if we
|
|
do not yet have the public key of the signature.
|
|
This record (the record number to be more precise) will be reused
|
|
as the dir record when we import the real public key.
|
|
|
|
1 byte value 8
|
|
1 byte reserved
|
|
1 u32 LID (This is simply the record number of this record.)
|
|
2 u32 keyid
|
|
1 byte pubkey algorithm
|
|
3 byte reserved
|
|
1 u32 hintlist A list of records which have references to
|
|
this key. This is used for fast access to
|
|
signature records which are not yet checked.
|
|
Note, that this is only a hint and the actual records
|
|
may not anymore hold signature records for that key
|
|
but that the code cares about this.
|
|
18 byte reserved
|
|
|
|
|
|
|
|
Record Type 10 (hash table)
|
|
--------------
|
|
Due to the fact that we use fingerprints to lookup keys, we can
|
|
implement quick access by some simple hash methods, and avoid
|
|
the overhead of gdbm. A property of fingerprints is that they can be
|
|
used directly as hash values. (They can be considered as strong
|
|
random numbers.)
|
|
What we use is a dynamic multilevel architecture, which combines
|
|
hashtables, record lists, and linked lists.
|
|
|
|
This record is a hashtable of 256 entries; a special property
|
|
is that all these records are stored consecutively to make one
|
|
big table. The hash value is simple the 1st, 2nd, ... byte of
|
|
the fingerprint (depending on the indirection level).
|
|
|
|
When used to hash shadow directory records, a different table is used
|
|
and indexed by the keyid.
|
|
|
|
1 byte value 10
|
|
1 byte reserved
|
|
n u32 recnum; n depends on the record length:
|
|
n = (reclen-2)/4 which yields 9 for the current record length
|
|
of 40 bytes.
|
|
|
|
the total number of such record which makes up the table is:
|
|
m = (256+n-1) / n
|
|
which is 29 for a record length of 40.
|
|
|
|
To look up a key we use the first byte of the fingerprint to get
|
|
the recnum from this hashtable and look up the addressed record:
|
|
- If this record is another hashtable, we use 2nd byte
|
|
to index this hash table and so on.
|
|
- if this record is a hashlist, we walk all entries
|
|
until we found one a matching one.
|
|
- if this record is a key record, we compare the
|
|
fingerprint and to decide whether it is the requested key;
|
|
|
|
|
|
Record type 11 (hash list)
|
|
--------------
|
|
see hash table for an explanation.
|
|
This is also used for other purposes.
|
|
|
|
1 byte value 11
|
|
1 byte reserved
|
|
1 u32 next next hash list record
|
|
n times n = (reclen-5)/5
|
|
1 u32 recnum
|
|
|
|
For the current record length of 40, n is 7
|
|
|
|
|
|
|
|
Record type 254 (free record)
|
|
---------------
|
|
All these records form a linked list of unused records.
|
|
1 byte value 254
|
|
1 byte reserved (0)
|
|
1 u32 next_free
|
|
|
|
|
|
|
|
Packet Headers
|
|
===============
|
|
|
|
GNUPG uses PGP 2 packet headers and also understands OpenPGP packet header.
|
|
There is one enhancement used with the old style packet headers:
|
|
|
|
CTB bits 10, the "packet-length length bits", have values listed in
|
|
the following table:
|
|
|
|
00 - 1-byte packet-length field
|
|
01 - 2-byte packet-length field
|
|
10 - 4-byte packet-length field
|
|
11 - no packet length supplied, unknown packet length
|
|
|
|
As indicated in this table, depending on the packet-length length
|
|
bits, the remaining 1, 2, 4, or 0 bytes of the packet structure field
|
|
are a "packet-length field". The packet-length field is a whole
|
|
number field. The value of the packet-length field is defined to be
|
|
the value of the whole number field.
|
|
|
|
A value of 11 is currently used in one place: on compressed data.
|
|
That is, a compressed data block currently looks like <A3 01 . . .>,
|
|
where <A3>, binary 10 1000 11, is an indefinite-length packet. The
|
|
proper interpretation is "until the end of the enclosing structure",
|
|
although it should never appear outermost (where the enclosing
|
|
structure is a file).
|
|
|
|
+ This will be changed with another version, where the new meaning of
|
|
+ the value 11 (see below) will also take place.
|
|
+
|
|
+ A value of 11 for other packets enables a special length encoding,
|
|
+ which is used in case, where the length of the following packet can
|
|
+ not be determined prior to writing the packet; especially this will
|
|
+ be used if large amounts of data are processed in filter mode.
|
|
+
|
|
+ It works like this: After the CTB (with a length field of 11) a
|
|
+ marker field is used, which gives the length of the following datablock.
|
|
+ This is a simple 2 byte field (MSB first) containing the amount of data
|
|
+ following this field, not including this length field. After this datablock
|
|
+ another length field follows, which gives the size of the next datablock.
|
|
+ A value of 0 indicates the end of the packet. The maximum size of a
|
|
+ data block is limited to 65534, thereby reserving a value of 0xffff for
|
|
+ future extensions. These length markers must be inserted into the data
|
|
+ stream just before writing the data out.
|
|
+
|
|
+ This 2 byte field is large enough, because the application must buffer
|
|
+ this amount of data to prepend the length marker before writing it out.
|
|
+ Data block sizes larger than about 32k doesn't make any sense. Note
|
|
+ that this may also be used for compressed data streams, but we must use
|
|
+ another packet version to tell the application that it can not assume,
|
|
+ that this is the last packet.
|
|
|
|
|
|
GNU extensions to the S2K algorithm
|
|
===================================
|
|
S2K mode 101 is used to identify these extensions.
|
|
After the hash algorithm the 3 bytes "GNU" are used to make
|
|
clear that these are extensions for GNU, the next bytes gives the
|
|
GNU protection mode - 1000. Defined modes are:
|
|
1001 - do not store the secret part at all
|
|
1002 - a stub to access smartcards (not used in 1.2.x)
|
|
|
|
|
|
Pipemode
|
|
========
|
|
NOTE: This is deprecated and will be removed in future versions.
|
|
|
|
This mode can be used to perform multiple operations with one call to
|
|
gpg. It comes handy in cases where you have to verify a lot of
|
|
signatures. Currently we support only detached signatures. This mode
|
|
is a kludge to avoid running gpg n daemon mode and using Unix Domain
|
|
Sockets to pass the data to it. There is no easy portable way to do
|
|
this under Windows, so we use plain old pipes which do work well under
|
|
Windows. Because there is no way to signal multiple EOFs in a pipe we
|
|
have to embed control commands in the data stream: We distinguish
|
|
between a data state and a control state. Initially the system is in
|
|
data state but it won't accept any data. Instead it waits for
|
|
transition to control state which is done by sending a single '@'
|
|
character. While in control state the control command os expected and
|
|
this command is just a single byte after which the system falls back
|
|
to data state (but does not necesary accept data now). The simplest
|
|
control command is a '@' which just inserts this character into the
|
|
data stream.
|
|
|
|
Here is the format we use for detached signatures:
|
|
"@<" - Begin of new stream
|
|
"@B" - Detached signature follows.
|
|
This emits a control packet (1,'B')
|
|
<detached_signature>
|
|
"@t" - Signed text follows.
|
|
This emits the control packet (2, 'B')
|
|
<signed_text>
|
|
"@." - End of operation. The final control packet forces signature
|
|
verification
|
|
"@>" - End of stream
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Other Notes
|
|
===========
|
|
* For packet version 3 we calculate the keyids this way:
|
|
RSA := low 64 bits of n
|
|
ELGAMAL := build a v3 pubkey packet (with CTB 0x99) and calculate
|
|
a rmd160 hash value from it. This is used as the
|
|
fingerprint and the low 64 bits are the keyid.
|
|
|
|
* Revocation certificates consist only of the signature packet;
|
|
"import" knows how to handle this. The rationale behind it is
|
|
to keep them small.
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Keyserver Message Format
|
|
=========================
|
|
|
|
The keyserver may be contacted by a Unix Domain socket or via TCP.
|
|
|
|
The format of a request is:
|
|
|
|
====
|
|
command-tag
|
|
"Content-length:" digits
|
|
CRLF
|
|
=======
|
|
|
|
Where command-tag is
|
|
|
|
NOOP
|
|
GET <user-name>
|
|
PUT
|
|
DELETE <user-name>
|
|
|
|
|
|
The format of a response is:
|
|
|
|
======
|
|
"GNUPG/1.0" status-code status-text
|
|
"Content-length:" digits
|
|
CRLF
|
|
============
|
|
followed by <digits> bytes of data
|
|
|
|
|
|
Status codes are:
|
|
|
|
o 1xx: Informational - Request received, continuing process
|
|
|
|
o 2xx: Success - The action was successfully received, understood,
|
|
and accepted
|
|
|
|
o 4xx: Client Error - The request contains bad syntax or cannot be
|
|
fulfilled
|
|
|
|
o 5xx: Server Error - The server failed to fulfill an apparently
|
|
valid request
|
|
|
|
|
|
|
|
Documentation on HKP (the http keyserver protocol):
|
|
|
|
A minimalistic HTTP server on port 11371 recognizes a GET for /pks/lookup.
|
|
The standard http URL encoded query parameters are this (always key=value):
|
|
|
|
- op=index (like pgp -kv), op=vindex (like pgp -kvv) and op=get (like
|
|
pgp -kxa)
|
|
|
|
- search=<stringlist>. This is a list of words that must occur in the key.
|
|
The words are delimited with space, points, @ and so on. The delimiters
|
|
are not searched for and the order of the words doesn't matter (but see
|
|
next option).
|
|
|
|
- exact=on. This switch tells the hkp server to only report exact matching
|
|
keys back. In this case the order and the "delimiters" are important.
|
|
|
|
- fingerprint=on. Also reports the fingerprints when used with 'index' or
|
|
'vindex'
|
|
|
|
The keyserver also recognizes http-POSTs to /pks/add. Use this to upload
|
|
keys.
|
|
|
|
|
|
A better way to do this would be a request like:
|
|
|
|
/pks/lookup/<gnupg_formatierte_user_id>?op=<operation>
|
|
|
|
This can be implemented using Hurd's translator mechanism.
|
|
However, I think the whole key server stuff has to be re-thought;
|
|
I have some ideas and probably create a white paper.
|
|
|