In fact, those functions don't even exist any more. The only way to
get data into a primitive hash state is via the new put_* system. Of
course, that means put_data() is a viable replacement for every
previous call to one of the per-hash update functions - but just
mechanically doing that would have missed the opportunity to simplify
a lot of the call sites.
I've finally got tired of all the code throughout PuTTY that repeats
the same logic about how to format the SSH binary primitives like
uint32, string, mpint. We've got reasonably organised code in ssh.c
that appends things like that to 'struct Packet'; something similar in
sftp.c which repeats a lot of the work; utility functions in various
places to format an mpint to feed to one or another hash function; and
no end of totally ad-hoc stuff in functions like public key blob
formatters which actually have to _count up_ the size of data
painstakingly, then malloc exactly that much and mess about with
PUT_32BIT.
It's time to bring all of that into one place, and stop repeating
myself in error-prone ways everywhere. The new marshal.h defines a
system in which I centralise all the actual marshalling functions, and
then layer a touch of C macro trickery on top to allow me to (look as
if I) pass a wide range of different types to those functions, as long
as the target type has been set up in the right way to have a write()
function.
This commit adds the new header and source file, and sets up some
general centralised types (strbuf and the various hash-function
contexts like SHA_State), but doesn't use the new calls for anything
yet.
(I've also renamed some internal functions in import.c which were
using the same names that I've just defined macros over. That won't
last long - those functions are going to go away soon, so the changed
names are strictly temporary.)
The key derivation code has been assuming (though non-critically, as
it happens) that the size of the MAC output is the same as the size of
the MAC key. That isn't even a good assumption for the HMAC family,
due to HMAC-SHA1-96 and also the bug-compatible versions of HMAC-SHA1
that only use 16 bytes of key material; so now we have an explicit
key-length field separate from the MAC-length field.
Now that we have modes in which the MAC verification happens before
any other crypto operation and hence will be the only thing seen by an
attacker, it seems like about time we got round to doing it in a
cautious way that tries to prevent the attacker from using our memcmp
as a timing oracle.
So, here's an smemeq() function which has the semantics of !memcmp but
attempts to run in time dependent only on the length parameter. All
the MAC implementations now use this in place of !memcmp to verify the
MAC on input data.
This causes the initial length field of the SSH-2 binary packet to be
unencrypted (with the knock-on effect that now the packet length not
including MAC must be congruent to 4 rather than 0 mod the cipher
block size), and then the MAC is applied over the unencrypted length
field and encrypted ciphertext (prefixed by the sequence number as
usual). At the cost of exposing some information about the packet
lengths to an attacker (but rarely anything they couldn't have
inferred from the TCP headers anyway), this closes down any
possibility of a MITM using the client as a decryption oracle, unless
they can _first_ fake a correct MAC.
ETM mode is enabled by means of selecting a different MAC identifier,
all the current ones of which are constructed by appending
"-etm@openssh.com" to the name of a MAC that already existed.
We currently prefer the original SSH-2 binary packet protocol (i.e. we
list all the ETM-mode MACs last in our KEXINIT), on the grounds that
it's better tested and more analysed, so at the moment the new mode is
only activated if a server refuses to speak anything else.
zero but does it in such a way that over-clever compilers hopefully
won't helpfully optimise the call away if you do it just before
freeing something or letting it go out of scope. Use this for
(hopefully) every memset whose job is to destroy sensitive data that
might otherwise be left lying around in the process's memory.
[originally from svn r9586]
under SSH-2, don't risk looking at the length field of an incoming packet
until we've successfully MAC'ed the packet.
This requires a change to the MAC mechanics so that we can calculate MACs
incrementally, and output a MAC for the packet so far while still being
able to add more data to the packet later.
[originally from svn r8334]
when talking to SOCKS 5 proxies. Configures itself transparently (if
the proxy offers CHAP it will use it, otherwise it falls back to
ordinary cleartext passwords).
[originally from svn r4517]
malloc functions, which automatically cast to the same type they're
allocating the size of. Should prevent any future errors involving
mallocing the size of the wrong structure type, and will also make
life easier if we ever need to turn the PuTTY core code from real C
into C++-friendly C. I haven't touched the Mac frontend in this
checkin because I couldn't compile or test it.
[originally from svn r3014]
error messages are currently wrong, and Pageant doesn't yet support
the new key type, and I haven't thoroughly tested that falling back
to password authentication and trying invalid keys etc all work. But
what I have here has successfully performed a public key
authentication, so it's working to at least some extent.
[originally from svn r973]
