pageant.c and sshshare.c each had an extra copy of crBegin and
crFinishV, dating from when the main versions were kept in ssh.c where
they couldn't be conveniently #included by other modules. Now they're
in sshcr.h, where they can be, so there's no need to have extra copies
of them anywhere.
(But I've left the crGetChar macro in each of those files, because
those really are specific to the particular context, referring to an
extra variable that clients of the more general sshcr.h macros won't
all have.)
The ssh_signkey vtable has grown a new method ssh_key_invalid(), which
checks whether the key is going to be usable for constructing a
signature at all. Currently the only way this can fail is if it's an
RSA key so short that there isn't room to put all the PKCS#1
formatting in the signature preimage integer, but the return value is
an arbitrary error message just in case more reasons are needed later.
This is tested separately rather than at key-creation time because of
the signature flags system: an RSA key of intermediate length could be
valid for SHA-1 signing but not for SHA-512. So really this method
should be called at the point where you've decided what sig flags you
want to use, and you're checking if _those flags_ are OK.
On the verification side, there's no need for a separate check. If
someone presents us with an RSA key so short that it's impossible to
encode a valid signature using it, then we simply regard all
signatures as invalid.
The local put_mp_*_from_string functions in import.c now take ptrlen
(which simplifies essentially all their call sites); so does the local
function logwrite() in logging.c, and so does ssh2_fingerprint_blob.
This is a general cleanup which has been overdue for some time: lots
of length fields are now the machine word type rather than the (in
practice) fixed 'int'.
Those were a reasonable abbreviation when the code almost never had to
deal with little-endian numbers, but they've crept into enough places
now (e.g. the ECC formatting) that I think I'd now prefer that every
use of the integer read/write macros was clearly marked with its
endianness.
So all uses of GET_??BIT and PUT_??BIT are now qualified. The special
versions in x11fwd.c, which used variable endianness because so does
the X11 protocol, are suffixed _X11 to make that clear, and where that
pushed line lengths over 80 characters I've taken the opportunity to
name a local variable to remind me of what that extra parameter
actually does.
This is in preparation for a PRNG revamp which will want to have a
well defined boundary for any given request-for-randomness, so that it
can destroy the evidence afterwards. So no more looping round calling
random_byte() and then stopping when we feel like it: now you say up
front how many random bytes you want, and call random_read() which
gives you that many in one go.
Most of the call sites that had to be fixed are fairly mechanical, and
quite a few ended up more concise afterwards. A few became more
cumbersome, such as mp_random_bits, in which the new API doesn't let
me load the random bytes directly into the target integer without
triggering undefined behaviour, so instead I have to allocate a
separate temporary buffer.
The _most_ interesting call site was in the PKCS#1 v1.5 padding code
in sshrsa.c (used in SSH-1), in which you need a stream of _nonzero_
random bytes. The previous code just looped on random_byte, retrying
if it got a zero. Now I'm doing a much more interesting thing with an
mpint, essentially scaling a binary fraction repeatedly to extract a
number in the range [0,255) and then adding 1 to it.
All the hash-specific state structures, and the functions that
directly accessed them, are now local to the source files implementing
the hashes themselves. Everywhere we previously used those types or
functions, we're now using the standard ssh_hash or ssh2_mac API.
The 'simple' functions (hmacmd5_simple, SHA_Simple etc) are now a pair
of wrappers in sshauxcrypt.c, each of which takes an algorithm
structure and can do the same conceptual thing regardless of what it
is.
This is the commit that f3295e0fb _should_ have been. Yesterday I just
added some typedefs so that I didn't have to wear out my fingers
typing 'struct' in new code, but what I ought to have done is to move
all the typedefs into defs.h with the rest, and then go through
cleaning up the legacy 'struct's all through the existing code.
But I was mostly trying to concentrate on getting the test suite
finished, so I just did the minimum. Now it's time to come back and do
it better.
The abstract method ssh_key_sign(), and the concrete functions
ssh_rsakex_newkey() and rsa_ssh1_public_blob_len(), now each take a
ptrlen argument in place of a separate pointer and length pair.
Partly that's because I'm generally preferring ptrlens these days and
it keeps argument lists short and tidy-looking, but mostly it's
because it will make those functions easier to wrap in my upcoming
test system.
Just like put_data(), but takes a ptrlen rather than separate ptr and
len arguments, so it saves a bit of repetition at call sites. I
probably should have written this ages ago, but better late than
never; I've also converted every call site I can find that needed it.
The old 'Bignum' data type is gone completely, and so is sshbn.c. In
its place is a new thing called 'mp_int', handled by an entirely new
library module mpint.c, with API differences both large and small.
The main aim of this change is that the new library should be free of
timing- and cache-related side channels. I've written the code so that
it _should_ - assuming I haven't made any mistakes - do all of its
work without either control flow or memory addressing depending on the
data words of the input numbers. (Though, being an _arbitrary_
precision library, it does have to at least depend on the sizes of the
numbers - but there's a 'formal' size that can vary separately from
the actual magnitude of the represented integer, so if you want to
keep it secret that your number is actually small, it should work fine
to have a very long mp_int and just happen to store 23 in it.) So I've
done all my conditionalisation by means of computing both answers and
doing bit-masking to swap the right one into place, and all loops over
the words of an mp_int go up to the formal size rather than the actual
size.
I haven't actually tested the constant-time property in any rigorous
way yet (I'm still considering the best way to do it). But this code
is surely at the very least a big improvement on the old version, even
if I later find a few more things to fix.
I've also completely rewritten the low-level elliptic curve arithmetic
from sshecc.c; the new ecc.c is closer to being an adjunct of mpint.c
than it is to the SSH end of the code. The new elliptic curve code
keeps all coordinates in Montgomery-multiplication transformed form to
speed up all the multiplications mod the same prime, and only converts
them back when you ask for the affine coordinates. Also, I adopted
extended coordinates for the Edwards curve implementation.
sshecc.c has also had a near-total rewrite in the course of switching
it over to the new system. While I was there, I've separated ECDSA and
EdDSA more completely - they now have separate vtables, instead of a
single vtable in which nearly every function had a big if statement in
it - and also made the externally exposed types for an ECDSA key and
an ECDH context different.
A minor new feature: since the new arithmetic code includes a modular
square root function, we can now support the compressed point
representation for the NIST curves. We seem to have been getting along
fine without that so far, but it seemed a shame not to put it in,
since it was suddenly easy.
In sshrsa.c, one major change is that I've removed the RSA blinding
step in rsa_privkey_op, in which we randomise the ciphertext before
doing the decryption. The purpose of that was to avoid timing leaks
giving away the plaintext - but the new arithmetic code should take
that in its stride in the course of also being careful enough to avoid
leaking the _private key_, which RSA blinding had no way to do
anything about in any case.
Apart from those specific points, most of the rest of the changes are
more or less mechanical, just changing type names and translating code
into the new API.
Several pieces of old code were disposing of pieces of an RSAKey by
manually freeing them one at a time. We have a centralised
freersakey(), so we should use that instead wherever possible.
Where it wasn't possible to switch over to that, it was because we
were only freeing the private fields of the key - so I've fixed that
by cutting freersakey() down the middle and exposing the private-only
half as freersapriv().
When I added a use of PRIx32 to one of Pageant's debugging messages a
couple of days ago, I forgot that one of my build setups can't cope
with inclusion of <inttypes.h>, and somehow also forgot the
precautionary pre-push full build that would have reminded me.
Now each public-key algorithm gets to indicate what flags it supports,
and the ones it specifies support for may turn up in a call to its
sign() method.
We still don't actually support any flags yet, though.
A couple of people have mentioned to me recently that these days
OpenSSH is appending a uint32 flags word to the agent sign request,
with flags that ask for an RSA signature to be over a SHA-256 or
SHA-512 hash instead of the SHA-1 standardised in ssh-rsa.
This commit adds support for the mandatory part of this protocol: we
notice the flags word at all (previously we stopped parsing the packet
before even finding it there), and return failure to the signing
request if it has any flag set that we don't support, which currently
means if it has any flag set whatsoever.
While I'm here, I've also added an error check for an undecodable sign
request. (It seemed silly to be checking get_err(msg) _after_ trying
to read the flags word without also having checked it before.)
My normal habit these days, in new code, is to treat int and bool as
_almost_ completely separate types. I'm still willing to use C's
implicit test for zero on an integer (e.g. 'if (!blob.len)' is fine,
no need to spell it out as blob.len != 0), but generally, if a
variable is going to be conceptually a boolean, I like to declare it
bool and assign to it using 'true' or 'false' rather than 0 or 1.
PuTTY is an exception, because it predates the C99 bool, and I've
stuck to its existing coding style even when adding new code to it.
But it's been annoying me more and more, so now that I've decided C99
bool is an acceptable thing to require from our toolchain in the first
place, here's a quite thorough trawl through the source doing
'boolification'. Many variables and function parameters are now typed
as bool rather than int; many assignments of 0 or 1 to those variables
are now spelled 'true' or 'false'.
I managed this thorough conversion with the help of a custom clang
plugin that I wrote to trawl the AST and apply heuristics to point out
where things might want changing. So I've even managed to do a decent
job on parts of the code I haven't looked at in years!
To make the plugin's work easier, I pushed platform front ends
generally in the direction of using standard 'bool' in preference to
platform-specific boolean types like Windows BOOL or GTK's gboolean;
I've left the platform booleans in places they _have_ to be for the
platform APIs to work right, but variables only used by my own code
have been converted wherever I found them.
In a few places there are int values that look very like booleans in
_most_ of the places they're used, but have a rarely-used third value,
or a distinction between different nonzero values that most users
don't care about. In these cases, I've _removed_ uses of 'true' and
'false' for the return values, to emphasise that there's something
more subtle going on than a simple boolean answer:
- the 'multisel' field in dialog.h's list box structure, for which
the GTK front end in particular recognises a difference between 1
and 2 but nearly everything else treats as boolean
- the 'urgent' parameter to plug_receive, where 1 vs 2 tells you
something about the specific location of the urgent pointer, but
most clients only care about 0 vs 'something nonzero'
- the return value of wc_match, where -1 indicates a syntax error in
the wildcard.
- the return values from SSH-1 RSA-key loading functions, which use
-1 for 'wrong passphrase' and 0 for all other failures (so any
caller which already knows it's not loading an _encrypted private_
key can treat them as boolean)
- term->esc_query, and the 'query' parameter in toggle_mode in
terminal.c, which _usually_ hold 0 for ESC[123h or 1 for ESC[?123h,
but can also hold -1 for some other intervening character that we
don't support.
In a few places there's an integer that I haven't turned into a bool
even though it really _can_ only take values 0 or 1 (and, as above,
tried to make the call sites consistent in not calling those values
true and false), on the grounds that I thought it would make it more
confusing to imply that the 0 value was in some sense 'negative' or
bad and the 1 positive or good:
- the return value of plug_accepting uses the POSIXish convention of
0=success and nonzero=error; I think if I made it bool then I'd
also want to reverse its sense, and that's a job for a separate
piece of work.
- the 'screen' parameter to lineptr() in terminal.c, where 0 and 1
represent the default and alternate screens. There's no obvious
reason why one of those should be considered 'true' or 'positive'
or 'success' - they're just indices - so I've left it as int.
ssh_scp_recv had particularly confusing semantics for its previous int
return value: its call sites used '<= 0' to check for error, but it
never actually returned a negative number, just 0 or 1. Now the
function and its call sites agree that it's a bool.
In a couple of places I've renamed variables called 'ret', because I
don't like that name any more - it's unclear whether it means the
return value (in preparation) for the _containing_ function or the
return value received from a subroutine call, and occasionally I've
accidentally used the same variable for both and introduced a bug. So
where one of those got in my way, I've renamed it to 'toret' or 'retd'
(the latter short for 'returned') in line with my usual modern
practice, but I haven't done a thorough job of finding all of them.
Finally, one amusing side effect of doing this is that I've had to
separate quite a few chained assignments. It used to be perfectly fine
to write 'a = b = c = TRUE' when a,b,c were int and TRUE was just a
the 'true' defined by stdbool.h, that idiom provokes a warning from
gcc: 'suggest parentheses around assignment used as truth value'!
This commit includes <stdbool.h> from defs.h and deletes my
traditional definitions of TRUE and FALSE, but other than that, it's a
100% mechanical search-and-replace transforming all uses of TRUE and
FALSE into the C99-standardised lowercase spellings.
No actual types are changed in this commit; that will come next. This
is just getting the noise out of the way, so that subsequent commits
can have a higher proportion of signal.
Previously, it returned a human-readable string suitable for log
files, which tried to say something useful about the remote end of a
socket. Now it returns a whole SocketPeerInfo structure, of which that
human-friendly log string is just one field, but also some of the same
information - remote IP address and port, in particular - is provided
in machine-readable form where it's available.
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 :-)
I think that means that _every_ one of my traitoids is now a struct
containing a vtable pointer as one of its fields (albeit sometimes the
only field), and never just a bare pointer.
All the main backend structures - Ssh, Telnet, Pty, Serial etc - now
describe structure types themselves rather than pointers to them. The
same goes for the codebase-wide trait types Socket and Plug, and the
supporting types SockAddr and Pinger.
All those things that were typedefed as pointers are older types; the
newer ones have the explicit * at the point of use, because that's
what I now seem to be preferring. But whichever one of those is
better, inconsistently using a mixture of the two styles is worse, so
let's make everything consistent.
A few types are still implicitly pointers, such as Bignum and some of
the GSSAPI types; generally this is either because they have to be
void *, or because they're typedefed differently on different
platforms and aren't always pointers at all. Can't be helped. But I've
got rid of the main ones, at least.
I heard recently that at least one third-party client of Pageant
exists, and that it's used to generate signatures to use with TLS
client certificates. Apparently the signature scheme is compatible,
but TLS tends to need signatures over more data than will fit in
AGENT_MAX_MSGLEN.
Before the BinarySink refactor in commit b6cbad89f, this was OK
because the Windows Pageant IPC didn't check the size of the _input_
message against AGENT_MAX_MSGLEN, only the output one. But then we
started checking both, so that third-party TLS client started failing.
Now we use VirtualQuery to find out the actual size of the file
mapping we've been passed, and our only requirement is that the input
and output messages should both fit in _that_. So TLS should work
again, and also, other clients should be able to retrieve longer lists
of public keys if they pass a larger file mapping.
One side effect of this change is that Pageant's reply message is now
written directly into the shared-memory region. Previously, it was
written into a separate buffer and then memcpy()ed over after
pageant_handle_msg returned, but now the buffer is variable-size, it
seems to me to make more sense to avoid that extra not-entirely
controlled malloc. So I've done one very small reordering of
statements in the cross-platform pageant_handle_msg(), which fixes the
only case I could find where that function started writing its output
before it had finished using the contents of the input buffer.
After Pavel Kryukov pointed out that I have to put _something_ in the
'ssh_key' structure, I thought of an actually useful thing to put
there: why not make it store a pointer to the ssh_keyalg structure?
Then ssh_key becomes a classoid - or perhaps 'traitoid' is a closer
analogy - in the same style as Socket and Plug. And just like Socket
and Plug, I've also arranged a system of wrapper macros that avoid the
need to mention the 'object' whose method you're invoking twice at
each call site.
The new vtable pointer directly replaces an existing field of struct
ec_key (which was usable by several different ssh_keyalgs, so it
already had to store a pointer to the currently active one), and also
replaces the 'alg' field of the ssh2_userkey structure that wraps up a
cryptographic key with its comment field.
I've also taken the opportunity to clean things up a bit in general:
most of the methods now have new and clearer names (e.g. you'd never
know that 'newkey' made a public-only key while 'createkey' made a
public+private key pair unless you went and looked it up, but now
they're called 'new_pub' and 'new_priv' you might be in with a
chance), and I've completely removed the openssh_private_npieces field
after realising that it was duplicating information that is actually
_more_ conveniently obtained by calling the new_priv_openssh method
(formerly openssh_createkey) and throwing away the result.
This parameter returned a substring of the input, which was used for
two purposes. Firstly, it was used to hash the host and server keys
during the initial SSH-1 key setup phase; secondly, it was used to
check the keys in Pageant against the public key blob of a key
specified on the command line.
Unfortunately, those two purposes didn't agree! The first one needs
just the bare key modulus bytes (without even the SSH-1 mpint length
header); the second needs the entire key blob. So, actually, it seems
to have never worked in SSH-1 to say 'putty -i keyfile' and have PuTTY
find that key in Pageant and not have to ask for the passphrase to
decrypt the version on disk.
Fixed by removing that parameter completely, which simplifies all the
_other_ call sites, and replacing it by custom code in those two
places that each does the actually right thing.
It's an SSH-1 specific function, so it should have a name reflecting
that, and it didn't. Also it had one of those outdated APIs involving
passing it a client-allocated buffer and size. Now it has a sensible
name, and internally it constructs the output string using a strbuf
and returns it dynamically allocated.
Quite a few of the function pointers in the ssh_keyalg vtable now take
ptrlen arguments in place of separate pointer and length pairs.
Meanwhile, the various key types' implementations of those functions
now work by initialising a BinarySource with the input ptrlen and
using the new decode functions to walk along it.
One exception is the openssh_createkey method which reads a private
key in the wire format used by OpenSSH's SSH-2 agent protocol, which
has to consume a prefix of a larger data stream, and tell the caller
how much of that data was the private key. That function now takes an
actual BinarySource, and passes that directly to the decode functions,
so that on return the caller finds that the BinarySource's read
pointer has been advanced exactly past the private key.
This let me throw away _several_ reimplementations of mpint-reading
functions, one in each of sshrsa, sshdss.c and sshecc.c. Worse still,
they didn't all have exactly the SSH-2 semantics, because the thing in
sshrsa.c whose name suggested it was an mpint-reading function
actually tolerated the wrong number of leading zero bytes, which it
had to be able to do to cope with the "ssh-rsa" signature format which
contains a thing that isn't quite an SSH-2 mpint. Now that deviation
is clearly commented!
pageant_handle_msg was _particularly_ full of painful manual packet
decoding with error checks at every stage, so it's a great relief to
throw it all away and replace it with short sequences of calls to the
shiny new API!
This wraps up a (pointer, length) pair into a convenient struct that
lets me return it by value from a function, and also pass it through
to other functions in one go.
Ideally quite a lot of this code base could be switched over to using
ptrlen in place of separate pointer and length variables or function
parameters. (In fact, in my personal ideal conception of C, the usual
string type would be of this form, and all the string.h functions
would operate on ptrlens instead of zero-terminated 'char *'.)
For the moment, I'm just introducing it to make some upcoming
refactoring less inconvenient. Bulk migration of existing code to
ptrlen is a project for another time.
Along with the type itself, I've provided a convenient system of
including the contents of a ptrlen in a printf; a constructor function
that wraps up a pointer and length so you can make a ptrlen on the fly
in mid-expression; a function to compare a ptrlen against an ordinary
C string (which I mostly expect to use with string literals); and a
function 'mkstr' to make a dynamically allocated C string out of one.
That last function replaces a function of the same name in sftp.c,
which I'm promoting to a whole-codebase facility and adjusting its
API.
It wasn't freeing the key comment along with the key data, probably
because I originally based the code on the SSH-1 analogue and forgot
that freersakey() *does* free the comment.
Now I've got FROMFIELD, I can rework it so that structures providing
an implementation of the Socket or Plug trait no longer have to have
the vtable pointer as the very first thing in the structure. In
particular, this means that the ProxySocket structure can now directly
implement _both_ the Socket and Plug traits, which is always
_logically_ how it's worked, but previously it had to be implemented
via two separate structs linked to each other.
In Friday's testing of the BinarySink work, I noticed that if you
accidentally add a mathematically invalid RSA1 key to Pageant, it will
accept it, getting into a state where it can fail assertions when
asked to use the key later. Added a call to rsa_verify(), triggering
an SSH_AGENT_FAILURE response if it doesn't agree the key is good.
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.
This gets rid of yet another huge pile of beating around the bush with
length-counting. Also, this time, the BinarySink in question is a
little more interesting than just being a strbuf every time: on
Windows, where the shared-memory Pageant IPC system imposes a hard
limit on the size of message we can return, I've written a custom
BinarySink implementation that collects up to that much data and then
gives up and sets an overflow flag rather than continue to allocate
memory.
So the main Pageant code no longer has to worry about checking
AGENT_MAX_MSGLEN all the time - and better still, the Unix version of
Pageant is no longer _limited_ by AGENT_MAX_MSGLEN in its outgoing
messages, i.e. it could store a really extra large number of keys if
it needed to. That limitation is now a local feature of Windows
Pageant rather than intrinsic to the whole code base.
(AGENT_MAX_MSGLEN is still used to check incoming agent messages for
sanity, however. Mostly that's because I feel I ought to check them
against _some_ limit, and this one seems sensible enough. Incoming
agent messages are more bounded anyway - they generally don't hold
more than _one_ private key.)
This simplifies the client code both in ssh.c and in the client side
of Pageant.
I've cheated a tiny bit by preparing agent requests in a strbuf that
has space reserved at the front for the packet frame, which makes life
easier for the code that sends them off.
This affects all the functions that generate public and private key
and signature blobs of all kinds, plus ssh_ecdhkex_getpublic. Instead
of returning a bare block of memory and taking an extra 'int *length'
parameter, all these functions now write to a BinarySink, and it's the
caller's job to have prepared an appropriate one where they want the
output to go (usually a strbuf).
The main value of this change is that those blob-generation functions
were chock full of ad-hoc length-counting and data marshalling. You
have only to look at rsa2_{public,private}_blob, for example, to see
the kind of thing I was keen to get rid of!
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.
In the SSH1_AGENTC_ADD_RSA_IDENTITY message, the multiplicative
inverse integer is the inverse of the first prime mod the second one.
In our notation, that means we should send iqmp, then q, then p, which
is also how the Pageant server side expects to receive them.
Unfortunately, we were sending iqmp, p, q instead, which I think must
be a confusion resulting from the SSH 1.5 document naming the primes
the other way round (and talking about the auxiliary value 'inverse of
p mod q').
I never noticed before because it only comes up in the case of an
agent sending back one particular kind of corrupt data, but if the
last-minute check that there's no trailing junk on the end of the
agent's SSH-2 key list fails, it prints an error message erroneously
mentioning SSH-1.
Lots of functions had really generic names (like 'makekey'), or names
that missed out an important concept (like 'rsakey_pubblob', which
loads a public blob from a _file_ and doesn't generate it from an
in-memory representation at all). Also, the opaque 'int order' that
distinguishes the two formats of public key blob is now a mnemonic
enumeration, and while I'm at it, rsa_ssh1_public_blob takes one of
those as an extra argument.
When we're going through the response from an SSH agent we asked for a
list of keys, and processing the string lengths in the SSH-2 sequence
of (public blob, comment) pairs, we were adding 4 to each string
length, and although we checked if the result came out to a negative
value (if interpreted as a signed integer) or a positive one going
beyond the end of the response buffer, we didn't check if it wrapped
round to a positive value less than 4. As a result, if an agent
returned malformed data sent a length field of 0xFFFFFFFC, the pointer
would advance no distance at all through the buffer, and the next
iteration of the loop would check the same length field again.
(However, this would only consume CPU pointlessly for a limited time,
because the outer loop up to 'nkeys' would still terminate sooner or
later. Also, I don't think this can sensibly be classed as a serious
security hazard - it's arguably a borderline DoS, but it requires a
hostile SSH _agent_ if data of that type is to be sent on purpose, and
an untrusted SSH agent is not part of the normal security model!)
Now, instead of returning a boolean indicating whether the query has
completed or is still pending, agent_query() returns NULL to indicate
that the query _has_ completed, and if it hasn't, it returns a pointer
to a context structure representing the pending query, so that the
latter can be used to cancel the query if (for example) you later
decide you need to free the thing its callback was using as a context.
This should fix a potential race-condition segfault if you overload an
agent forwarding channel and then close it abruptly. (Which nobody
will be doing for sensible purposes, of course! But I ran across this
while stress-testing other aspects of agent forwarding.)