.RB ` : '
and the actual key data. The attributes are as follows.
.TP
-.BR "binary" ", " "mp" ", " "struct" ", " "encrypt" ", " "string" ", " "ec"
+.BR "binary" ", " "integer" ", " "struct" ", " "encrypt" ", " "string" ", " "ec"
The key encoding type. This describes the format of the actual key
data.
.TP
-.B "symmetric" ", " "private" ", " "public" ", " "shared"
+.BR "symmetric" ", " "private" ", " "public" ", " "shared"
The kind of key this is. This field can be used to filter public keys
from private ones.
.TP
.B "binary"
The binary data is base64 encoded (RFC2045).
.TP
-.B "mp"
+.B "integer"
The integer is a string of decimal digits.
.TP
.B "struct"
.IR K ;
let
.I K\*(usE\*(ue
-be the half and
+be the first half and
.I K\*(usT\*(ue
be the second.
Encrypt the message
.B "binary"
The key data is stored as-is.
.TP
-.B "mp"
+.B "integer"
The integer is stored, base-256, one digit per octet, in big-endian
order, using as few octets as possible. The value 0 has length zero.
.TP
and
.IR y -coordinates
expressed as integers in the obvious way and encoded as for
-.B mp
+.B integer
keys, each preceded by a two-octet length. There is no padding between
the two coordinates.
.TP