xfer_download_data could return actuallen as either 0 or -1 to
indicate EOF. Now it's always 0, and scp_recv_filedata actually checks
for that case and reports an error.
When called with -V to ask for our version, return 0 rather than 1.
This is the usual behaviour observed by ssh(1) and other Unix commands.
Also use exit() rather than cleanup_exit() in pscp.c and psftp.c ; at
this point we have nothing to cleanup!
It's obvious to the trained eye whether GTK PuTTY was compiled against
GTK2 or GTK3, but the untrained eye would probably appreciate a little
help, and even the trained eye probably can't tell GTK 3.18 from 3.19
at a glance :-)
Firstly, I had asserted that data would never arrive on a handle
socket in state FREEZING, which is just an error, because FREEZING is
precisely the state of not being quite frozen _yet_ because one last
read is still expected to arrive from the winhandl.c reading subthread
which it's too late to cancel. I meant to assert that it wasn't
FROZEN.
Secondly, when the handle socket was in state FREEZING, I failed to
actually _set_ it to FROZEN.
And thirdly, when the handle socket starts thawing again (i.e. there's
now outgoing buffer space so we can start sending our backlogged
data), I forgot to ever call bufchain_consume, so that the same block
of data would get sent repeatedly.
I can only assume that nothing I've ever done has actually exercised
this code!
If we try to interpret a string argument as the name of a key file,
sometimes we it's in circumstances where we _know_ it's a key file, so
we must print an error message and return failure if the file can't be
loaded. Other times it's not, and we just fall back to interpreting
the argument in some other way (e.g. as a pattern match against the
comment or fingerprint of a key already in the agent).
My code dealing with failure returns from the public-key loading
functions were mishandling the latter case, if they identified a file
as existing and looking more or less like some kind of key file but
then it turned out to have a format error; they would try to copy and
return a public key that they didn't actually have. Even if
pageant_pubkey_copy avoided crashing as a result, this would still
inhibit the fallback to treating the input string as some other kind
of pattern match.
I think all of the cases in this switch must have originally said
(shift_state ? 'this' : 'that'), and in all but the VK_NUMPAD5 case
the two options were different, and I left VK_NUMPAD5 containing a
redundant ?: just to make it line up in a nice table with the others.
But now the others all have more options than that because I had to
support Ctrl as well as Shift modifiers, so there's no reason to have
that silly ?: lingering around (and it annoys Coverity).
Avoided referring to some functions and header files that aren't there
in the winelib world (_vsnprintf, _stricmp, SecureZeroMemory,
multimon.h), and worked around a really amazingly annoying issue in
which Winelib objects to you using the type 'fd_set' unless you
included winsock2.h before stdlib.h.
I think an agent sending a string length exceeding the buffer bounds
by less than 4 could have made PuTTY read beyond its own buffer end.
Not that I really think a hostile SSH agent is likely to be attacking
PuTTY, but it's as well to fix these things anyway!
The loops that were supposed to count up the number of buttons in the
variadic argument list forgot to increment the counter.
On the other hand, these functions aren't actually _used_ anywhere in
the current code - looks as if commit 616c837cf was the last time they
were seen - but manual dialog stuff like PuTTYgen might yet find a use
for them in future.
I think these were not strictly necessary, since passing a null
pointer to access(2) would have resulted in EINVAL rather than a
segfault. But it's clearer to put them in (and keeps static checkers a
bit happier).
Coverity observes that sometimes 'struct tm' can have other fields
(e.g. glibc's tm_gmtoff), so it's as well to make sure we initialise
the whole thing to zero.
Thanks, Coverity - I must have been lucky that Unix Pageant in client
mode hasn't so far happened to have this field come out non-NULL, or
else pageant_pubkey_copy would have tried to dupstr a garbage pointer.
This makes it clearer that it doesn't persist beyond this block, and
would have made it much more obvious that the assignment to it removed
in the previous commit was pointless.
Assignments that are overwritten shortly afterwards and never used,
and a completely unused variable. Also, the bogus array access in
testbn.c could have actually accessed one beyond the array limit
(though of course it's only in a test harness).
Now it's always freed in the cleanup epilogue (unless we're returning
it), rather than ad-hoc earlier in the code. That should make it more
reliably freed on error paths.
Bring it into line with the other PuTTY tools: --help goes to stdout,
has a one-line purpose and brief version information, --version ends
with a newline.
(Also, tweak text bring the help message under 80 columns.)
Partly to reassure the user that they got what they asked for, and
partly so that's a clue for us in the logs when we get bug reports.
This involved repurposing platform_psftp_post_option_setup() (no longer
used since e22120fe) as platform_psftp_pre_conn_setup(), and moving it
to after logging is set up.
These must have been absent-mindedly copied from function declarations
of the form 'const type *fn(args)', where the 'const' is meaningful
and describes the data pointed to by the returned pointer, to
functions of the form 'const type fn(args)' where the 'const' is
completely pointless.
These are benign, I think. clang warns about casting non-pointer-sized
integers to pointers, but the Windows API actually does sometimes
involve values that are either pointers or _small_ integers, so in the
two cases involved I just cast through ULONG_PTR to silence the
warning. And clang insists that the integer whose address I give to
sk_getxdmdata is still uninitialised afterwards, which is just a lie.
clang-cl generates warnings saying they're deprecated, in favour of
the same names but prefixed with an underscore. The warnings are
coming from the standard MS headers, and I'm already #defining those
names differently on Unix, so I'll honour them.
When I added some extra braces in commit 095072fa4 to suppress this
warning, I think in fact I did the wrong thing, because the
declaration syntax I was originally using is the Microsoft-recommended
one in spite of clang not liking it - I think MS would be within their
rights (should they feel like it) to add those missing braces in a
later version of the WinSock headers, which would make the current
warning-clean code stop compiling. So it's better to put the code back
as it was, and avoid the clang warning by using clang's
warning-suppression pragmas for just those declarations.
I've also done the same thing in winnet.c, for two initialisers of
IPv6 well-known addresses which had the same problem (but which I
didn't notice yesterday because a misjudged set of Windows version
macros had prevented me from compiling that file successfully at all).
This was very strange to write, because it's a bizarre combination of
the GNU-make-isms and rc commands of Makefile.mgw with the cl and link
commands of Makefile.vc (but also the latter thankfully doesn't need
those horrible response files).
I've added a big comment in mkfiles.pl about what the build
requirements for this makefile actually are, which _hopefully_ will be
usable by people other than me.
We used to offer to clean up saved sessions, so we should mention that
we don't for the benefit of users of old versions, who might have been
relying on it.
This change applies to every situation when GUI PuTTY knowingly spawns
another GUI PuTTY, to wit, the System menu options 'New Session',
'Duplicate Session' and the 'Saved Sessions' submenu.
(Literally speaking, what we actually pass through to the sub-PuTTY's
command line is not the "-restrict-acl" option itself, but a special
prefix "&R", which has the same meaning but which lives in the special
pre-argv-splitting command-line namespace like the magic options used
for Duplicate Session and the old '@sessionname' prefix which the
Saved Sessions submenu still uses. Otherwise, by the time we split up
argv and recognised -restrict-acl, it would be too late to parse those
other options.)
One case in which PuTTY spawns a subprocess and this change _doesn't_
apply is when the subprocess is a proxy command which happens to be a
Plink. Recognising Plink commands in that situation would be fragile
and unreliable, and in any case if the user wants a proxy Plink to be
ACL-restricted, they are in control of its exact command line so they
can add -restrict-acl themselves.
These ones are stylistic rather than potential bugs: mostly signedness
of char pointers in cases where they clearly aren't going to cause the
wrong thing to actually happen, and one thing in winsecur.c where
clang would have preferred an extra pair of braces around some
initialisers but it's legal with or without. But since some of clang's
warnings turn out to be quite useful, it seems worth silencing these
harmless ones so as to be able to see the rest.
It's a function that exists on all platforms, not just on Unix - it's
used in ldisc.c - so it shouldn't have been declared only in unix.h.
Score another for clang's warnings.
I was having a play with clang's MSVC compatibility mode, just to see
how much of PuTTY it could compile, and one of its warnings pointed
out this error which must have crept in when I was changing the EOF
flags in winhandl.c from booleans to three-state enums - I left the !
on the front of what was previously an if (!thing) and needed to turn
into if (thing == EOF_NO).
Several functions were passing a 'char *error' and assigning error
messages directly into 'error', where they should have been passing
'char **error' and assigning error messages into '*error' if the error
message is to be returned to the caller. This would have led to
incomplete error messages.
Mostly so that we don't have to malloc contiguous space for them
inside PuTTY; since we've already got a handy constant saying how big
is too big, we might as well use it to sanity-check the contents of
our agent forwarding channels.
