Most of the previous large sk_newlistener function is now an inner
function whose address-family parameter is a platform AF_FOO constant
rather than one of our own ADDRTYPE_FOO. sk_newlistener itself is a
trivial wrapper on that, which just does the initial translation from
the input ADDRTYPE_FOO into an AF_FOO.
This will make it possible to drop in alternative wrapper functions
which won't have to make up a pointless ADDRTYPE.
This macro is now an inline function, and as in the previous commit,
each possible value for the main discriminator is now a case in a
switch statement instead of tested in an interlocking set of ?:.
The code that diverges based on the address family is now in the form
of a switch statement, rather than an unwieldy series of chained ifs.
And the final call to bind() has all its arguments worked out in the
previous switch, rather than computing them at the last minute with an
equally unwieldy set of ?: operators that repeat the previous test.
This will make it easier to add more cases, and also, to keep each
case under its own ifdef without losing too much legibility.
This replaces two previous boolean fields 'resolved' and 'namedpipe',
converting them into a single three-valued enum which avoids being
able to represent the meaningless fourth possibility at all. Also, it
provides an open-ended place to add further possibilities.
The new field is very similar to the one in unix/network.c, except
that the UNIX entry for AF_UNIX sockets is missing, and in its place
is the NAMEDPIPE entry for storing the pathnames of Windows named
pipes.
When the window can't be resized for any reason, there will be extra
space inside the drawing area that's not part of our standard
width*font_width+2*window_border. We should include that in the
backing surface and make sure we erase it to the background colour,
otherwise it can end up containing unwanted visual junk.
An example is the same case described in the previous commit: maximise
the window and then start playing about with the font size. If you do
this while running a full-screen application that displays text in the
bottom line, it's easy to see that part of the previous display is
left over and not cleared when the new font size leaves more space at
the bottom than the old one.
If you maximise the terminal window and then press Ctrl-> or Ctrl-< to
change the font size, then the maximised window can't change size, so
what _should_ happen instead is that the terminal adjusts the number
of character cells to whatever the new font size will now permit in
the same size of window as before.
But in fact, the terminal size wasn't changing at all, because the
call to gtkwin_request_resize (called from change_font_size) detected
the maximised window and went straight to gtkwin_deny_term_resize,
which immediately called term_size() to tell the terminal it still had
the same size as before.
This commit switches gtkwin_deny_term_resize so that instead it calls
drawing_area_setup_simple(), which re-runs drawing_area_setup with the
same size the drawing area already had. This should work out the same
in the case where we're _not_ changing the font size, but now also
does the right thing when we are.
Visual Studio 2022 is out, and 2019 has added a couple more version
numbers while I wasn't looking.
Also, the main web page that lists the version number mappings now
documents the wrinkle where you sometimes have to disambiguate via
_MSC_FULL_VER (and indeed has added another such case for 16.11), so I
no longer have to link to some unofficial blog post in the comment
explaining that.
(*Also*, if _MSC_FULL_VER is worth checking, then it's worth putting
in the build info!)
If term_get_userpass_input is called with term->ldisc not yet set up,
then we had a special-case handler that returns an error message - but
it does it via the same subroutine that returns normal results, which
also turns off the prompt callback in term->ldisc! Need an extra NULL
check in that subroutine. Thanks Coverity.
Spotted by Coverity: if you _just_ gave a filename to bidi_test,
without any previous argument that set testfn to something other than
NULL, the program would crash rather than giving an error message.
(It's only a test program, but test programs you only run once in a
blue moon are the ones that _most_ need to explain their command-line
syntax to you carefully, because you've forgotten it since last time
you used them!)
Also, conditionalised a memcpy on the size not being 0, because it's
illegal to pass a null pointer to memcpy _even_ if size==0. (That
would only happen with a test case containing a zero-length string,
but whatever.)
If you try to use a saved session for SSH proxying which specifies a
protocol that is not SSH or bare-SSH-connection, you get a clean error
return from the proxy setup code - *provided* it's at least a protocol
known to this particular build of PuTTY. If it's one so outlandish
that backend_vt_from_proto returns NULL, there'd have been a crash.
I don't think any such protocol currently exists, but if in the next
version of PuTTY some additional protocol becomes supported, it will
trip this error in the current version.
Spotted by Coverity.
When the textlen parameter became a size_t, it became unsigned, so it
stopped being useful to assert() its non-negativity.
Spotted by Coverity. Harmless, but ordinary compilers have been known
to emit annoying warnings about that kind of thing too, so it's worth
fixing just to avoid noise.
Unix Pageant is in a tricky position as a hybrid CLI/GUI application.
It has uses even in a purely CLI environment, but it won't build
without libgtk-3-dev and friends.
The solution, of course - enabled by the migration to cmake - is to
allow it to build without GTK, leaving out just the GTK askpass
functionality. That way you can still use it in any of its CLI modes,
either as a non-graphical SSH agent or as a client for an agent
elsewhere.
(You can still even use it in X lifetime mode, because its connection
to the X server is done using PuTTY's built-in X authentication and
connection setup code. It's only putting up the password prompt window
that you lose in this configuration - so you're still fine as long as
you don't try to add any encrypted keys.)
I tried setting this up on a different Windows machine today and had
some slightly different experiences. I found that in at least some
situations the command 'Include c:\...\pageant.conf' will cause
OpenSSH to emit a log message saying it's trying to open the file
'~/.ssh/c:\...\pageant.conf', which it then doesn't find. But 'Include
pageant.conf' works, because that's interpreted relative to the .ssh
directory that it's already found.
(I don't know why this happened on one Windows machine and not
another, since I only have a sample size of two. But an obvious guess
would be a bug fix in the Windows OpenSSH port, present in the version
on one of the machines I tried, and not in the other. Certainly that
failure mode looks to me like 'apply Unix instead of Windows rules to
decide what's an absolute pathname'.)
Also, clarified that all of this only works with the version of
OpenSSH that's available as a Windows optional feature, and not with
the MSYS-based one that ships with Windows git.
When I was writing the documentation for the new command-line options,
I wondered why there was an existing section for the corresponding GUI
setting for each option I'd added except strong primes. Now I've found
it: strong primes are discussed in the same section as prime-
generation methods. So I can replace the second explanation with a
cross-reference.
Those were forbidden so that we could still compile on pre-C99 C
compilers. But now we expect C99 everywhere (or at least most of it,
excluding the parts that MSVC never implemented and C11 made
optional), so // comments aren't forbidden any more.
Most of the comments in this code base are still old-style, but that's
now a matter of stylistic consistency rather than hard requirement.
Correcting a source file name in the docs just now reminded me that
I've seen a lot of outdated source file names elsewhere in the code,
due to all the reorganisation since we moved to cmake. Here's a giant
pass of trying to make them all accurate again.
This was needed at the time it was introduced in commit
c99338b750, because uxputty.c (as was) handled its non-option
arguments directly (that was how Unix PuTTY and pterm arranged to have
different sets of them), and sometimes did it by converting them into
option arguments and feeding them to cmdline.c, so it still needed to
not fail to link when not linked against cmdline.c (for the
GtkApplication based front end).
But now the non-option argument handling is centralised into cmdline.c
itself, with a system of flags indicating which arguments a particular
tool expects. So that stub is no longer needed.
It's been so long since Windows Plink kept its stdio subthreads in its
own main source file that I'd forgotten it had ever done so! They've
lived in a separate module for managing Windows HANDLE-based I/O for
ages. That module has recently changed its filename, but this piece of
documentation was so out of date that the old filename wasn't in there
- it was still mentioning the filename _before_ that.
Jacob reported that on Debian buster, the command sequence
cmake $srcdir
cmake --build .
cmake --build . --target doc
would fail at the third step, with the make error "No rule to make
target 'doc/cmake_version.but', needed by 'doc/html/index.html'".
That seems odd, because the file ${VERSION_BUT} _was_ declared as a
dependency of the rule that builds doc/html/*.html, and _cmake_ knew
what rule built it (namely the custom target 'cmake_version_but'). I
suspect this is a bug in cmake 3.13, because the same command sequence
works fine with cmake 3.20.
However, it's possible to work around, by means of adding the cmake
_target name_ to the dependencies for any rule that uses that file,
instead of relying on it to map the output _file_ name to that target.
While I'm at it, I've transformed the rules that build copy.but and
licence.but in the same way, turning those too into custom targets
instead of custom commands (I've found that the former are more
generally reliable across a range of cmake versions), and including
the target names themselves as dependencies.
After a discussion with a user recently, I investigated the Windows
native ssh.exe, and found it uses a Windows named pipe to talk to its
ssh-agent, in exactly the same way Pageant does. So if you tell
ssh.exe where to find Pageant's pipe, it can talk directly to Pageant,
and then you can have just one SSH agent.
The slight problem is that Pageant's pipe name is not stable. It's
generated using the same system as connection-sharing pipe names, and
contains a hex hash value whose preimage was fed through
CryptProtectData. And the problem with _that_ is that CryptProtectData
apparently reinitialises its seed between login sessions (though it's
stable within a login session), which I hadn't fully realised when I
reused the same pipe-name construction code.
One possibility, of course, would be to change Pageant so that it uses
a fixed pipe name. But after a bit of thought, I think I actually like
this feature, because the Windows named pipe namespace isn't
segregated into areas writable by only particular users, so anyone
using that namespace on a multiuser Windows box is potentially
vulnerable to someone else squatting on the name you wanted to use.
Using this system makes that harder, because the squatter won't be
able to predict what the name is going to be! (Unless you shut down
Pageant and start it up again within one login session - but there's
only so much we can do. And squatting is at most a DoS, because
PuTTY's named-pipe client code checks ownership of the other end of
the pipe in all cases.)
So instead I've gone for a different approach. Windows Pageant now
supports an extra command-line option to write out a snippet of
OpenSSH config file format on startup, containing an 'IdentityAgent'
directive which points at the location of its named pipe. So you can
use the 'Include' directive in your main .ssh/config to include this
extra snippet, and then ssh.exe invocations will be able to find
wherever the current Pageant has put its pipe.
This imports the following options from command-line PuTTYgen, which
all correspond to controls in Windows PuTTYgen's GUI, and let you set
the GUI controls to initial values of your choice:
-t <key type>
-b <bits>
-E <fingerprint type>
--primes <prime gen policy>
--strong-rsa
--ppk-param <KDF parameters or PPK version etc>
The idea is that if someone generates a lot of keys and has standard
non-default preferences, they can make a shortcut that passes those
preferences on the command line.
These two tools had ad-hoc command loops with similar options, and I
want to extend both (in particular, in a way that introduces options
with arguments). So I've started by throwing together some common code
to do all the tedious bits like finding option arguments wherever they
might be, throwing errors, handling "--" and so on.
Should be no functional change to the existing command-line syntax,
except that now all long options are recognised in both "-foo" and
"--foo" form.
It looks as if I broke this some time around commit cfc9023616,
when I stopped proactively calling term_size() in advance of resizing
the window. A side effect was that I also stopped calling it at all in
the case where we're _not_ resizing the window (because changing the
size of the terminal means adapting the font size to fit a different
amount of stuff in the existing window).
Fixed by moving all the new machinery inside the 'actually resize the
window' branch of the if statement, and restoring the previous
behaviour in the other branch, this time with a comment that will
hopefully stop me making the same mistake again.
Some pointing devices (e.g. gaming mice) can be set to send
mouse-movement events at an extremely high sample rate like 1kHz. This
apparently translates into Windows genuinely sending WM_MOUSEMOVE
messages at that rate. So if you're using one of those mice, then
PuTTYgen's mouse-based entropy collection system will fill its buffer
almost immediately, and give you no perceptible time to actually wave
the mouse around.
I think that in that situation, there's also likely to be a strong
correlation between the contents of successive movement events,
because human-controlled mouse movements aren't fractals - the more
you zoom in on a little piece of one, the more it starts to look more
and more like something moving in a straight line at constant speed,
because the deviations from that happen on a larger time scale than
you're seeing.
So this commit adds a rate limit, not on the _collection_ of the data
(we'll still take all the bits we can get, thanks!), but on the rate
at which we increment the _counter_ for how much entropy we think
we've collected so far. That way, the user still has to spend time
wiggling the mouse back and forth in a way that varies with muscle
motions and introduces randomness.
There's no point having a separate boolean flag. All we have to do is
remember to NULL out the strbuf point state->entropy when we free the
strbuf (which is a good idea in any case!), and then we can use the
non-NULL-ness of that pointer as the indicator that we're currently
collecting entropy.
This offloads the memory management into centralised code which is
better at it than the ad-hoc code here. Now I don't have to predict in
advance how much memory the entropy will consume, and can change that
decision on the fly.
