This gives families of public key and kex functions (by which I mean
those sharing a set of methods) a place to store parameters that allow
the methods to vary depending on which exact algorithm is in use.
The ssh_kex structure already had a set of parameters specific to
Diffie-Hellman key exchange; I've moved those into sshdh.c and made
them part of the 'extra' structure for that family only, so that
unrelated kex methods don't have to faff about saying NULL,NULL,0,0.
(This required me to write an extra accessor function for ssh.c to ask
whether a DH method was group-exchange style or fixed-group style, but
that doesn't seem too silly.)
Not all of them, but the ones that don't get a 'void *key' parameter.
This means I can share methods between multiple ssh_signkey
structures, and still give those methods an easy way to find out which
public key method they're dealing with, by loading parameters from a
larger structure in which the ssh_signkey is the first element.
(In OO terms, I'm arranging that all static methods of my public key
classes get a pointer to the class vtable, to make up for not having a
pointer to the class instance.)
I haven't actually done anything with the new facility in this commit,
but it will shortly allow me to clean up the constant lookups by curve
name in the ECDSA code.
There were ad-hoc functions for fingerprinting a bare key blob in both
cmdgen.c and pageant.c, not quite doing the same thing. Also, every
SSH-2 public key algorithm in the code base included a dedicated
fingerprint() method, which is completely pointless since SSH-2 key
fingerprints are computed in an algorithm-independent way (just hash
the standard-format public key blob), so each of those methods was
just duplicating the work of the public_blob() method with a less
general output mechanism.
Now sshpubk.c centrally provides an ssh2_fingerprint_blob() function
that does all the real work, plus an ssh2_fingerprint() function that
wraps it and deals with calling public_blob() to get something to
fingerprint. And the fingerprint() method has been completely removed
from ssh_signkey and all its implementations, and good riddance.
Several of the functions in ssh2_signkey, and one or two SSH-1 key
functions too, were still taking assorted non-const buffer parameters
that had never been properly constified. Sort them all out.
This is better than listing all the algorithm names in yet another
place that will then need updating when a new key format is added.
However, that also means I need to find a new place to put the
'npieces' value I was previously setting up differently per key type;
since that's a fundamental property of the key format, I've moved it
to a constant field in the ssh_signkey structure, and filled that
field in for all the existing key types with the values from the
replaced code in openssh_read_new().
It's now a separate function, which you call with an identifying
string to be hashed into the generation of x. The idea is that other
DSA-like signature algorithms can reuse the same function, with a
different id string.
As a minor refinement, we now also never return k=1.
of the GET_32BIT macros and then used as length fields. Missing bounds
checks against zero have been added, and also I've introduced a helper
function toint() which casts from unsigned to int in such a way as to
avoid C undefined behaviour, since I'm not sure I trust compilers any
more to do the obviously sensible thing.
[originally from svn r9918]
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]
on Linux, but the (very few) platform-specific bits are already
abstracted out of the main code, so it should port to other
platforms with a minimum of fuss.
[originally from svn r3762]
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]
now a passphrase-keyed MAC covering _all_ important data in the
file, including the public blob and the key comment. Should
conclusively scupper any attacks based on nobbling the key file in
an attempt to sucker the machine that decrypts it. MACing the
comment field also protects against a key-substitution attack (if
someone's worked out a way past our DSA protections and can extract
the private key from a signature, swapping key files and
substituting comments might just enable them to get the signature
they need to do this. Paranoid, but might as well).
[originally from svn r1413]
spawn another command after starting Pageant. Also, if Pageant is
already running, `pageant keyfile' and `pageant -c command' will do
the Right Thing, that is, add the key to the _first_ Pageant and/or
run a command and then exit. The only time you now get the `Pageant
is already running' error is if you try to start the second copy
with no arguments.
NB the affected files in this checkin are rather wide-ranging
because I renamed the not really SSH1-specific
`ssh1_bignum_bitcount' function to just `bignum_bitcount'.
[originally from svn r1044]
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]
smalloc() macros and thence to the safemalloc() functions in misc.c.
This should allow me to plug in a debugging allocator and track
memory leaks and segfaults and things.
[originally from svn r818]
abstraction, so as to be able to re-use the same abstraction for
user authentication keys and probably in the SSH2 agent (when that
happens) as well.
[originally from svn r815]
