In commit 884a7df94 I claimed that all my trait-like vtable systems
now had the generic object type being a struct rather than a bare
vtable pointer (e.g. instead of 'Socket' being a typedef for a pointer
to a const Socket_vtable, it's a typedef for a struct _containing_ a
vtable pointer).
In fact, I missed a few. This commit converts ssh_key, ssh2_cipher and
ssh1_cipher into the same form as the rest.
Ian Jackson points out that the Linux kernel has a macro of this name
with the same purpose, and suggests that it's a good idea to use the
same name as they do, so that at least some people reading one code
base might recognise it from the other.
I never really thought very hard about what order FROMFIELD's
parameters should go in, and therefore I'm pleasantly surprised to
find that my order agrees with the kernel's, so I don't have to
permute every call site as part of making this change :-)
This is more or less the same job as the SSH-1 case, only more
extensive, because we have a wider range of ciphers.
I'm a bit disappointed about the AES case, in particular, because I
feel as if it ought to have been possible to arrange to combine this
layer of vtable dispatch with the subsidiary one that selects between
hardware and software implementations of the underlying cipher. I may
come back later and have another try at that, in fact.
This is a cleanup I started to notice a need for during the BinarySink
work. It removes a lot of faffing about casting things to char * or
unsigned char * so that some API will accept them, even though lots of
such APIs really take a plain 'block of raw binary data' argument and
don't care what C thinks the signedness of that data might be - they
may well reinterpret it back and forth internally.
So I've tried to arrange for all the function call APIs that ought to
have a void * (or const void *) to have one, and those that need to do
pointer arithmetic on the parameter internally can cast it back at the
top of the function. That saves endless ad-hoc casts at the call
sites.
The revamp of key generation in commit e460f3083 made the assumption
that you could decide how many bytes of key material to generate by
converting cipher->keylen from bits to bytes. This is a good
assumption for all ciphers except DES/3DES: since the SSH DES key
setup ignores one bit in every byte of key material it's given, you
need more bytes than its keylen field would have you believe. So
currently the DES ciphers aren't being keyed correctly.
The original keylen field is used for deciding how big a DH group to
request, and on that basis I think it still makes sense to keep it
reflecting the true entropy of a cipher key. So it turns out we need
two _separate_ key length fields per cipher - one for the real
entropy, and one for the much more obvious purpose of knowing how much
data to ask for from ssh2_mkkey.
A compensatory advantage, though, is that we can now measure the
latter directly in bytes rather than bits, so we no longer have to
faff about with dividing by 8 and rounding up.
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]
default preferred cipher), add code to inject SSH_MSG_IGNOREs to randomise
the IV when using CBC-mode ciphers. Each cipher has a flag to indicate
whether it needs this workaround, and the SSH packet output maze has gained
some extra complexity to implement it.
[originally from svn r5659]
Simon Tatham
Chris Staite
Ben Harris