Suggested by Manfred Kaiser, who also wrote most of this patch
(although outlying parts, like documentation and SSH-1 support, are by
me).
This is a second line of defence against the kind of spoofing attacks
in which a malicious or compromised SSH server rushes the client
through the userauth phase of SSH without actually requiring any auth
inputs (passwords or signatures or whatever), and then at the start of
the connection phase it presents something like a spoof prompt,
intended to be taken for part of userauth by the user but in fact with
some more sinister purpose.
Our existing line of defence against this is the trust sigil system,
and as far as I know, that's still working. This option allows a bit of
extra defence in depth: if you don't expect your SSH server to
trivially accept authentication in the first place, then enabling this
option will cause PuTTY to disconnect if it unexpectedly does so,
without the user having to spot the presence or absence of a fiddly
little sigil anywhere.
Several types of authentication count as 'trivial'. The obvious one is
the SSH-2 "none" method, which clients always try first so that the
failure message will tell them what else they can try, and which a
server can instead accept in order to authenticate you unconditionally.
But there are two other ways to do it that we know of: one is to run
keyboard-interactive authentication and send an empty INFO_REQUEST
packet containing no actual prompts for the user, and another even
weirder one is to send USERAUTH_SUCCESS in response to the user's
preliminary *offer* of a public key (instead of sending the usual PK_OK
to request an actual signature from the key).
This new option detects all of those, by clearing the 'is_trivial_auth'
flag only when we send some kind of substantive authentication response
(be it a password, a k-i prompt response, a signature, or a GSSAPI
token). So even if there's a further path through the userauth maze we
haven't spotted, that somehow avoids sending anything substantive, this
strategy should still pick it up.
This notifies the Seat that the entire backend session has finished
and closed its network connection - or rather, that it _might_ have
done, and that the frontend should check backend_connected() if it
wasn't planning to do so already.
The existing Seat implementations haven't needed this: the GUI ones
don't actually need to do anything specific when the network
connection goes away, and the CLI ones deal with it by being in charge
of their own event loop so that they can easily check
backend_connected() at every possible opportunity in any case. But I'm
about to introduce a new Seat implementation that does need to know
this, and doesn't have any other way to get notified of it.
This flag is set in backends which can be used programmatically to
proxy a network connection in place of running a shell session. That
is true of both SSH proper, and the psusan ssh-connection protocol.
Nothing yet uses this flag, but something is about to.
This code base has always been a bit confused about which spelling it
likes to use to refer to that signature algorithm. The SSH protocol id
is "ssh-dss". But everyone I know refers to it as the Digital
Signature _Algorithm_, not the Digital Signature _Standard_.
When I moved everything down into the crypto subdir, I took the
opportunity to rename sshdss.c to dsa.c. Now I'm doing the rest of the
job: all internal identifiers and code comments refer to DSA, and the
spelling "dss" only survives in externally visible identifiers that
have to remain constant.
(Such identifiers include the SSH protocol id, and also the string id
used to identify the key type in PuTTY's own host key cache. We can't
change the latter without causing everyone a backwards-compatibility
headache, and if we _did_ ever decide to do that, we'd surely want to
do a much more thorough job of making the cache format more sensible!)
This clears up another large pile of clutter at the top level, and in
the process, allows me to rename source files to things that don't all
have that annoying 'ssh' prefix at the top.
