Apparently I haven't tried a GTK2 build since the most recent set of
GTK-related code reorganisation. Some functions that were ifdef'ed out
in GTK3 builds were now unused even in GTK2 builds (and, because they
were also declared static, caused a -Werror build failure); and the
pointless stub version of gtkapp.c was missing a stub version of a
recently added function referred to from another module.
gtk_application_set_accels_for_action() is new in Gtk 3.12, but (e.g.)
Ubuntu 14.04 LTS still ships with Gtk 3.10.
On the other hand, the function I've used instead,
gtk_application_add_accelerator(), is deprecated from Gtk 3.14 onwards,
indicating that it will disappear in some future version, so I've left
the newer code in against that day.
It actually doesn't seem to be necessary: running 'otool -L' on the
real binary in the application bundle (Pterm-bin or PuTTY-bin) lists a
lot of paths starting with "@executable_path/../Resources/", which I
take to mean that the application is already set up to automatically
load the GTK shared libraries out of its own bundle directory, without
me having to give it the extra hint of DYLD_LIBRARY_PATH.
Moreover, I just got round to upgrading my Mac to High Sierra, and now
the version of osxlaunch _with_ DYLD_LIBRARY_PATH is causing a crash
at program load time, when the libpng in the MacOS system library
directory tries to use the libz in the application bundle and finds
that it doesn't provide an entry point it was expecting
('inflateValidate'). I could try to fix that by updating the libz
version in my OS X PuTTY build environment, but that seems to me to
set a precedent of running to keep up with any further dependencies
the system libraries happen to acquire in later releases. Better to
reset DYLD_LIBRARY_PATH so that the system libpng will load the system
libz and not get confused in the first place.
I've been having intermittent segfaults in this launcher program, and
by means of the new TEST_COMPILE_ON_LINUX facility introduced by
commit eef8cac28, I ran it under valgrind which helpfully pointed out
several pointers between linked-list nodes which I'd been relying on
OS memory allocation to happen to have zeroed for me.
By default, the program still builds on Linux to a stub that just
prints 'nothing to see here'. But if you compile with
-DTEST_COMPILE_ON_LINUX, it compiles to a program that still doesn't
do anything _actually_ useful, but goes through all the same motions
that real osxlaunch would go through, until the final execv(2) fails
because of course it's not _really_ living in an application bundle
directory of the right shape.
That allows me to run all the setup code under the debugging tools I'm
most used to, in my preferred environment. (Same rationale as having
puttyapp / ptermapp build for Linux too.)
I've filled in the results of some not-entirely-conclusive
investigation into the trackpad scrolling issue, some thoughts on
resizing, and reordered the items into what currently seems the most
sensible order to me.
This still isn't complete: I also need to add the variable collections
of things like mid-session special commands and saved session names,
and also I need to try to grey out menu items when they're not
applicable. But it's a start.
Just to avoid an endless proliferation of functions too small to see,
I've arranged an enumeration of action ids and a single
app_menu_action function on the receiving end, and in gtkapp.c, a list
macro that means I at least don't have to define the tiny callback
functions and the GActionEntry records by hand and keep them in sync.
This fixes the problem I'd previously noticed, that if you don't
configure the "Command key acts as Meta" setting, then keystrokes like
Command-Q which _ought_ to function as accelerators for the
application menu bar don't.
Turns out that this was for the totally obvious reason: the keyboard
event was still being processed by gtkwin.c's key_event() and
translated via the GTK IM into ordinary keyboard input. If instead I
return FALSE from key_event on detecting that a key event has a
non-Meta-configured Command modifier, then it will go to the next-
level key-event handler inside GTK itself which implements the menu
accelerator behaviour. Another problem ticked off the OS X checklist.
That's what I get for not testing on all platforms before I push.
Forgot that, since OS X GTK mimics X11 GTK closely enough to still use
the name "CLIPBOARD" for the unique system clipboard, I had left this
code base's internal name for it as CLIP_CLIPBOARD and not the
CLIP_SYSTEM I used on Windows.
The gtkapp.c menu now has a Copy as well as Paste option; those menu
items, as well as the corresponding ones on the context menu and Copy
All, now address sets of clipboards parametrised between OS X and
ordinary GTK in unix.h. Also I've tweaked the wording of the
context-menu items to not use the X-specific terminology "CLIPBOARD"
on OS X.
I had a segfault on OS X today at Pterm.app shutdown. I wasn't able to
reproduce it in a debugger, but the cause seemed to be that
clipboard_clear called term_deselect (this was from before the patch
series that renamed that function) when inst->term was already NULL.
This must be because a clipboard_data_instance outlived its associated
inst->term, and quite likely its associated inst as well. But we can't
free those structures when a gui_data is freed, because GTK callbacks
will still depend on them; so instead we must have each gui_data keep
a list of active cdis pointing at it, and then at destruction time,
walk along the list nulling out each one's pointer to part of itself.
I've done the general clipboard revamp, and also, since I added
Ctrl-Shift-{C,V} as a new pair of UI actions for copy and paste, I've
also fulfilled the requirement that there should be some method of
non-menu-based pasting that doesn't depend on a middle mouse button or
an Ins key.
I think the list of OS X missing features is now down to details of
the OS X GTK port _itself_, as opposed to structural issues in the
general code base.
On all platforms, you can now configure which clipboard the mouse
pastes from, which clipboard Ctrl-Ins and Shift-Ins access, and which
Ctrl-Shift-C and Ctrl-Shift-V access. In each case, the options are:
- nothing at all
- a clipboard which is implicitly written by the act of mouse
selection (the PRIMARY selection on X, CLIP_LOCAL everywhere else)
- the standard clipboard written by explicit copy/paste UI actions
(CLIPBOARD on X, the unique system clipboard elsewhere).
Also, you can control whether selecting text with the mouse _also_
writes to the explicitly accessed clipboard.
The wording of the various messages changes between platforms, but the
basic UI shape is the same everywhere.
All the data fields referring to the selection in 'struct gui_data'
have been pulled out into a separate structure of which there are now
multiple instances, and I've plumbed through what should be the right
pointers and integer ids to everywhere they should go. So now the GTK
front end defines CLIP_PRIMARY and CLIP_CLIPBOARD in place of the
temporary cop-out CLIP_SYSTEM from the previous commit, and copying
and pasting can be done via either one.
The defaults should be the same as before, except that now the non-Mac
versions of the GtkApplication front ends will access CLIP_PRIMARY in
response to most actions but the 'Paste' menu item will paste from
CLIP_CLIPBOARD. (That's mostly just as a demonstration that accessing
multiple clipboards even works.)
This lays some groundwork for making PuTTY's cut and paste handling
more flexible in the area of which clipboard(s) it reads and writes,
if more than one is available on the system.
I've introduced a system of list macros which define an enumeration of
integer clipboard ids, some defined centrally in putty.h (at present
just a CLIP_NULL which never has any text in it, because that seems
like the sort of thing that will come in useful for configuring a
given copy or paste UI action to be ignored) and some defined per
platform. All the front end functions that copy and paste take a
clipboard id, and the Terminal structure is now configured at startup
to tell it which clipboard id it should paste from on a mouse click,
and which it should copy from on a selection.
However, I haven't actually added _real_ support for multiple X11
clipboards, in that the Unix front end supports a single CLIP_SYSTEM
regardless of whether it's in OS X or GTK mode. So this is currently a
NFC refactoring which does nothing but prepare the way for real
changes to come.
Previously, both the Unix and Windows front ends would respond to a
paste action by retrieving data from the system clipboard, converting
it appropriately, _storing_ it in a persistent dynamic data block
inside the front end, and then calling term_do_paste(term), which in
turn would call back to the front end via get_clip() to retrieve the
current contents of that stored data block.
But, as far as I can tell, this was a completely pointless mechanism,
because after a data block was written into this storage area, it
would be immediately used for exactly one paste, and then never
accessed again until the next paste action caused it to be freed and
replaced with a new chunk of pasted data.
So why on earth was it stored persistently at all, and why that
callback mechanism from frontend to terminal back to frontend to
retrieve it for the actual paste action? I have no idea. This change
removes the entire system and replaces it with the completely obvious
alternative: the character-set-converted version of paste data is
allocated in a _local_ variable in the frontend paste functions,
passed directly to term_do_paste which now takes (buffer,length)
parameters, and freed immediately afterwards. get_clip() is gone.
When testing the previous commit, I went to great lengths to check all
the tricky corner cases of the detailed command-line argument handling
in Plink and PuTTY, on Windows and Unix. And did I also double-check
that I had not completely broken the very simplest possible invocation
of pterm? I did not.
The call to cmdline_host_ok() in gtkmain.c was failing an assertion in
pterm, because that function only expects to have been called by a
program that has the TOOLTYPE_HOST_ARG flag set - if that flag isn't
set, the program is expected to come up with its own answer to the
question (because I wasn't sure what the right fallback answer would
be). And I forgot to conditionalise the call between PuTTY and pterm.
This is another piece of long-overdue refactoring similar to the
recent commit e3796cb77. But where that one dealt with normalisation
of stuff already stored _in_ a Conf by whatever means (including, in
particular, handling a user typing 'username@host.name' into the
Hostname box of the GUI session dialog box), this one deals with
handling argv entries and putting them into the Conf.
This isn't exactly a pure no-functional-change-at-all refactoring. On
the other hand, it isn't a full-on cleanup that completely
rationalises all the user-visible behaviour as well as the code
structure. It's somewhere in between: I've preserved all the behaviour
quirks that I could imagine a reason for having intended, but taken
the opportunity to _not_ faithfully replicate anything I thought was
clearly just a bug.
So, for example, the following inconsistency is carefully preserved:
the command 'plink -load session nextword' treats 'nextword' as a host
name if the loaded session hasn't provided a hostname already, and
otherwise treats 'nextword' as the remote command to execute on the
already-specified remote host, but the same combination of arguments
to GUI PuTTY will _always_ treat 'nextword' as a hostname, overriding
a hostname (if any) in the saved session. That makes some sense to me
because of the different shapes of the overall command lines.
On the other hand, there are two behaviour changes I know of as a
result of this commit: a third argument to GUI PuTTY (after a hostname
and port) now provokes an error message instead of being silently
ignored, and in Plink, if you combine a -P option (specifying a port
number) with the historical comma-separated protocol selection prefix
on the hostname argument (which I'd completely forgotten even existed
until this piece of work), then the -P will now override the selected
protocol's default port number, whereas previously the default port
would win. For example, 'plink -P 12345 telnet,hostname' will now
connect via Telnet to port 12345 instead of to port 23.
There may be scope for removing or rethinking some of the command-
line syntax quirks in the wake of this change. If we do decide to do
anything like that, then hopefully having it all in one place will
make it easier to remove or change things consistently across the
tools.
Now 'putty user@host' will do what you wanted on Unix the same way it
always has on Windows.
(Thanks to Geoff Winkless for pointing out this inconsistency. I've
redone his actual patch my way, but he should still be credited for
the inspiration!)
A more or less identical piece of code to sanitise the CONF_host
string prior to session launch existed in Windows PuTTY and both
Windows and Unix Plink. It's long past time it was centralised.
While I'm here, I've added a couple of extra comments in the
centralised version, including one that - unfortunately - tries _but
fails_ to explain why a string of the form "host.name:1234" doesn't
get the suffix moved into CONF_port the way "user@host" moves the
prefix into CONF_username. Commit c1c1bc471 is the one I'm referring
to in the comment, and unfortunately it has an unexplained one-liner
log message from before I got into the habit of being usefully
verbose.
Stopping dialog boxes from being modal is now done; post_main() is
defunct; nothing left in gtkwin.c does an inappropriate whole-process
termination in response to a window-level error or closure condition.
(There is still modalfatalbox(), but that's not an _inappropriate_
process termination.)
This one's in frontend_keypress(), which is supposed to close the
window on the first keypress after the session inside it terminates
(that is, if your close-on-exit settings haven't made it close already
at that point).
It looks to me as if that behaviour doesn't currently _work_, and
hasn't worked for quite a while (certainly it was broken as of 0.70,
well before I started on this weekend's refactoring), because when the
session terminates we delete inst->ldisc and that's what would
otherwise be calling frontend_keypress. I should probably decide what
to do about that at some point. But for the moment, I'm satisfied to
simply not break this functionality any worse by making it not a
process-global exit :-)
For gtkapp-based tools that will have to stop being a program-fatal
error, so I've turned it into a function called window_setup_error
(which I could in principle reuse for other problems in the long and
tortuous progress of new_session_window), and kept the original
handling in gtkmain.c's implementation of that function while gtkapp.c
does something more sensible with a message box.
Not all gtkwin-based tools use it. Only the ones with one session per
process, which parse a command line describing that session and might
reasonably want to report errors in that command line by writing to
standard error and exiting the program.
In other words, precisely the ones that link in gtkmain.c and not
gtkapp.c. So gtkmain.c is a more sensible place to put that
error-reporting function.
This was one of a handful of remaining places in gtkwin.c where exit()
is called incautiously. Of course, a failure to set up one SSH
connection should only be fatal to that connection, not the whole
process, so really we should be feeding into the connection_fatal
system.
This existed in order to avoid the various confusions that could
happen if a toplevel callback ran in the context of a subsidiary
instance of gtk_main(). Now there aren't any subsidiary gtk_main
instances any more, this mechanism is no longer needed, and I can
throw it out. It was horrible anyway.
I think these began to appear as a consequencce of replacing
fatalbox() calls with more sensible error reports: the more specific a
direction I send a report in, the greater the annoying possibility of
re-entrance when the resulting error handler starts closing stuff.
This change requires me to break up the general cleanups in
delete_inst() into two halves: one runs when the error message box is
created, and cleans up the network connection and all the stuff
associated with it, and the other runs when the error message is
dismissed and the window can actually close.
It's an incoherent concept! There should not be any such thing as an
error box that terminates the entire program but is not modal. If it's
bad enough to terminate the whole program, i.e. _all_ currently live
connections, then there's no point in permitting progress to continue
in windows other than the affected one, because all windows are
affected anyway.
So all previous uses of fatalbox() have become modalfatalbox(), except
those which looked to me as if they shouldn't have been fatal in the
first place, e.g. lingering pieces of error handling in winnet.c which
ought to have had the severity of 'give up on this particular Socket
and close it' rather than 'give up on the ENTIRE UNIVERSE'.
I've also moved it out into gtkwin.c, because it seemed easier to do
the 'find existing instance of this dialog and raise it' dance there
than to split it across source files pointlessly.
Apart from the specific benefit of non-modality, this also makes it a
lot simpler compared to the previous code! I'm not completely sure why
I wasn't using the standard gtkdlg.c message box system all along.
This fits into a new dialog-box slot (because it might have to come up
at the same time as a network prompt), and makes use of the existing
callback system in logging.c which buffers the logging data until the
user says what they want done with it.
Now it has several 'slots', each named for a particular class of
subsidiary dialog box that a session window can have at most one of,
and register_network_prompt_dialog has a more general name and takes
an enum-typed argument identifying a slot. This lets me avoid writing
a zillion annoyingly similar function pairs and corresponding snippets
of cleanup code in delete_inst.
If you close a session window with an associated SSH back end, the
back end may call back to notify_remote_exit() from ssh_free(), which
queues a new top-level callback citing the inst structure we were
about to delete.
We could fix this by introducing a special 'moribund' flag which
inhibits notify_remote_exit from queueing a callback, but far easier
is to move the delete_callbacks_for_context() call to _after_ all
subsidiary things have been cleaned up, so that any last-minute
callbacks they might schedule will be promptly unscheduled again
before they do any damage.
This follows exactly the same pattern as for verify_ssh_host_key, but
the results of the dialog box are simpler (a plain yes-no response),
so the two dialog types can share a callback.
I've switched it to using the new non-modal create_message_box, and
provided a callback function which handles the cleanup afterwards.
I had expected this to be a lot more work, because I'd imagined that
I'd have to contort the coroutines in ssh.c to give them the ability
to wait for an asynchronously delivered result from that user prompt.
But in fact that wasn't necessary, because just such a mechanism has
been sitting there unused since commit 8574822b9 in 2005, when I added
it as part of my _previous_ attempt to write an OS X front end! (The
abandoned one written in native ObjC + Cocoa.)
When I switch verify_ssh_host_key() and friends over to creating
non-modal message boxes and returning to the main loop, there will be
a risk that their parent window will need to close for some other
reason while the user hasn't answered the pending question yet. (E.g.
if the user presses the main session window's close button, which will
no longer be a prohibited UI action once the transient dialog is not
modal.)
At that point we need to get rid of the pending dialog box, both for
UI purposes (it would look silly and be confusing to leave it lying
around) and for memory management (if the user subsequently clicks OK
in such a dialog it would probably try to leave its result somewhere
stale).
So now there's a mechanism for gtkwin.c remembering what the current
'network prompt dialog' is, if any (in which category I intend to
include everything triggered from ssh.c's various reasons for asking
crypto-related questions), and cleaning it up when the struct gui_data
it belongs to goes away.
If a dialog box is destroyed by the program before the user has
pressed one of the result-delivering buttons - e.g. because the parent
window closes so the dialog is no longer relevant to anything anyway -
then dlgparam_destroy would never call the client code's provided
callback. That makes sense in terms of the callback wanting to _take
action_ based on the result of the dialog box, but it ignores the
possibility that the callback may simply need to free its own context
structure.
So now dlgparam_destroy always calls the client's callback, even if
the result it passes is negative (meaning 'the user never got round to
pressing any of the dialog-ending buttons'), and all the existing
client callbacks handle the negative-result case by doing nothing
except freeing any allocated memory they might have.
This does the bulk of the work previously done by message_box()
proper, but takes a pointer to a result-reporting callback function
identical to the one we pass to create_config_box().
The modal version of message_box() still exists and is a small wrapper
on this function, running its own subsidiary gtk_main() loop which the
result callback terminates. But now I can start switching over
individual uses of message_box() to the non-modal version, and when
that's done, remove the modal function completely.
Now, in place of a variadic argument list with four parameters per
button and a terminating NULL, it takes a pointer to a struct which in
turn contains an (array,length) pair of small per-button structures.
In the process I've renamed the function from messagebox() to
message_box(). Partly that was just because it gave me a convenient
way to search the source for calls I hadn't converted yet, but also
I've thought for a while that that missing underscore didn't really
match the rest of my naming.
NFCI. Partly this minor refactor has the virtue that we can reuse the
more common button layouts without having to type them in at multiple
places in the code (and, indeed, I've provided buttons_yn and
buttons_ok for easy reuse, and could easily provide other things like
yesnocancel any time I need them). But mostly it's because I'm about
to split up message_box into multiple functions, and this saves me the
hassle of deciding which ones to make variadic and which to pass an
actual va_list to - particularly since messagebox() used to go over
its variadic argument list twice, which always makes delegating it to
another function that much more annoying.
The last few changes between them have fixed the problem of windows
not closing properly when their sessions terminated. The problem was
really more than one problem - pterm session termination wasn't even
detected due to the missing SIGCHLD handler, window-closing wasn't
done explicitly due to exit_callback() just calling gtk_main_quit
instead of a proper gtk_widget_destroy(), and that in turn wouldn't do
quite the right thing without the g_application_{hold,release} system
which I added in gtkapp.c as part of the non-model config box rework.
Now that all of those are fixed, things seem to be working sensibly;
the OS X Pterm.app and PuTTY.app, and the ordinary X GTK ptermapp and
puttyapp too, now allow windows to be closed independently of each
other, close them automatically in the right way, and automatically
terminate the whole application when the last window is gone.
So I can clean up that TODO item, including its handwavy 'need to work
out some kind of mechanism'. Some kind of mechanism has now been
worked out, and given that there turned out to be a whole cluster of
interacting structural issues, no wonder I wasn't _quite_ sure what it
ought to be!
Now every call to do_config_box is replaced with a call to
create_config_box, which returns immediately having constructed the
new GTK window object, and is passed a callback function which it will
arrange to be called when the dialog terminates (whether by OK or by
Cancel). That callback is now what triggers the construction of a
session window after 'Open' is pressed in the initial config box, or
the actual mid-session reconfiguration action after 'Apply' is pressed
in a Change Settings box.
We were already prepared to ignore the re-selection of 'Change
Settings' from the context menu of a window that already had a Change
Settings box open (and not accidentally create a second config box for
the same window); but now we do slightly better, by finding the
existing config box and un-minimising and raising it, in case the user
had forgotten it was there.
That's a useful featurelet, but not the main purpose of this change.
The mani point, of course, is that now the multi-window GtkApplication
based front ends now don't do anything confusing to the nesting of
gtk_main() when config boxes are involved. Whether you're changing the
settings of one (or more than one) of your already-running sessions,
preparing to start up a new PuTTY connection, or both at once, we stay
in the same top-level instance of gtk_main() and all sessions' top-
level callbacks continue to run sensibly.
This has been logically necessary in principle for ages, but we got
away without it because we just exited the program. But in the multi-
window GtkApplication front ends, we can't get away with that for
ever; we need to be able to free _one_ of our 'struct gui_data'
instances and everything dangling off it (or, at least, everything
that GTK's reference counting system doesn't clean up for us), without
also doing anything global to the process in which that gui_data is
contained.
Apparently I copied that rather too literally from osxlaunch.c, where
the text about OS X and 'launcher' made more sense. The stub main in
gtkapp.c has nothing to do with launchers and OS X, so I've corrected
the wording to say that a completely different thing won't work in
completely different circumstances :-)
People who use a packaging system other than jhbuild still ought to be
able to run the OS X GTK3 build, so now the gtk-mac-bundler command
finds out the locations of things by a more portable method.
(I've had this change lurking around uncommitted in a working tree for
a while, and only just found it in the course of doing other OS X-
related work. Oops.)
Without this, the Conf objects in a session and its duplicate were
aliases of each other, which could lead to confusing semantic effects
if one of the sessions was reconfigured in mid-run, and worse still, a
crash if one session got cleaned up and called conf_free on a Conf
that the other was still using.
None of that was intentional; it was just a matter of forgetting to
clone the Conf for the duplicated session. Now we do.
Detecting that the child process in a pterm has terminated is
important for _any_ kind of pterm, so it's a mistake to put the signal
handler setup _solely_ inside the optional pty_pre_init function which
does the privileged setup and forks off a utmp watchdog process. Now
the signal handler is installed even in the GtkApplication-based
multi-window front end to pterm, meaning it will exist even on OS X.
ignore_sbar is a flag that we set while manually changing the
scrollbar settings, so that when those half-finished changes trigger
GTK event callbacks, we know to ignore them, and wait until we've
finished setting everything up before actually updating the window.
But somehow I had managed to leave the functions that actually _have
the effect_ (at least in GTK1) outside the pair of statements that set
and unset the ignore flag.
The effect was that compiling pterm for GTK1, starting it up, and
issuing a command like 'ls -l' that scrolls off the bottom of the
window would lead to the _top_ half of the ls output being visible,
and the scrollbar at the top of the scrollback rather than the bottom.
Apparently I haven't tested this compile mode in a while: I had a
couple of compile errors due to new code not properly #ifdeffed (the
true-colour mode has to be effectively disabled in the palette-based
GTK1 graphics model) and one for an unused static function
(get_monitor_geometry is only used in GTK2 and above, and with -Werror
that means I mustn't even _define_ it in GTK1).
With these changes, I still didn't get a clean compile unless I also
configured CFLAGS=-std=gnu89, due to the GTK1 headers having an
outdated set of ifdefs to figure out the compiler's semantics of
'inline'. (They seem to expect old-style gcc, which inconveniently
treats 'inline' and 'extern inline' more or less the opposite way
round from the version standardised by C99.)
My custom GTK layout class 'Columns' includes a linked list of
dynamically allocated data, and apparently I forgot to write a
destructor that frees it all when the class is deallocated, and have
never noticed until now.
While debugging some new code, I ran valgrind in leak-checking mode
and it pointed out a handful of existing memory leaks, which got in the
way of spotting any _new_ leaks I might be introducing :-)
This was one: in the case where an asynchronous agent query on Unix is
aborted, the dynamically allocated buffer holding the response was not
freed.
ATTR_REVERSE was being handled in the front ends, and was causing the
foreground and background colours to be switched. (I'm not completely
sure why I made that design decision; it might be purely historical,
but then again, it might also be because reverse video is one effect
on the fg and bg colours that must still be performed even in unusual
frontend-specific situations like display-driven monochrome mode.)
This affected both explicit reverse video enabled using SGR 7, and
also the transient reverse video arising from mouse selection. Thanks
to Markus Gans for reporting the bug in the latter, which when I
investigated it turned out to affect the former as well.
I've done this on a 'where possible' basis: in Windows paletted mode
(in case anyone is still using an old enough graphics card to need
that!) I simply haven't bothered, and will completely ignore the dim
flag.
Markus Gans points out that some applications which (not at all
unreasonably) don't trust $TERM to tell them the full capabilities of
their terminal will use the sequence "OSC 4 ; nn ; ? BEL" to ask for
the colour-palette value in position nn, and they may not particularly
care _what_ the results are but they will use them to decide whether
the right number of colour palette entries even exist.
Otherwise, moving the cursor (at least in active, filled-cell mode) on
to a true-coloured character cell causes it to vanish completely
because the cell's colours override the thing that differentiates the
cursor.
I'm not sure if any X11 monochrome visuals or Windows paletted display
modes are still around, but just in case they are, we shouldn't
attempt true colour on either kind of display.
This is a heavily rewritten version of a patch originally by Lorenz
Diener; it was tidied up somewhat by Christian Brabandt, and then
tidied up more by me. The basic idea is to add to the termchar
structure a pair of small structs encoding 24-bit RGB values, each
with a flag indicating whether it's turned on; if it is, it overrides
any other specification of fg or bg colour for that character cell.
I've added a test line to colours.txt containing a few example colours
from /usr/share/X11/rgb.txt. In fact it makes quite a good demo to run
the whole of rgb.txt through this treatment, with a command such as
perl -pe 's!^\s*(\d+)\s+(\d+)\s+(\d+).*$!\e[38;2;$1;$2;$3m$&\e[m!' rgb.txt
[unix/osxlaunch.c:133] -> [unix/osxlaunch.c:134]: (warning) Either the condition '!qhead' is redundant or there is possible null pointer dereference: qhead.
Alamy Liu points out that asking for CONF_host will display the wrong
part of the configuration in the case where serial port setup fails.
The Windows front end's analogous message already got this right, but
I must have forgotten to change this one too when I introduced
conf_dest.
This seems to work around a GTK 3.22 display bug that Colin Watson and
I have both observed on Ubuntu (though I found that proxying the X
server, e.g. by SSH X forwarding or xtruss, inhibited the bug). The
effect of the bug was that the terminal window would appear completely
black and nothing would ever be displayed in it, though the terminal
session was still actually running and keystrokes would be sent to it.
But changing the call to cairo_set_source_surface() to some other
cairo_set_source_foo caused successful drawing of whatever other
source I selected; the problem seemed specific to the image surface.
Also, when I popped up the Ctrl-right-click menu over the terminal
window, the menu didn't disappear when dismissed, i.e. the drawing
area's redraw operation was not drawing in black, but failing to draw
_anything_.
That led me to hypothesise that the draw event handler for the
terminal drawing area might somehow be accidentally inventing 0 rather
than 255 for the implicit alpha channel when using our RGB-type image
surface as a source; so I tried setting the surface type to one with
an explicit alpha channel in the hope that there would no longer be a
need to make up any alpha value at all. And indeed, that seems to
solve the problem for me, so I might as well commit it.
However, I don't know the full details of what the previous problem
was, so this is only an empirical workaround. If it turns out I was
making some other mistake without which a RGB source surface would
have worked for me, then I should probably revert this and do whatever
other fix turns out to be a better plan.
Calling gtk_widget_realize to enforce the existence of an underlying
GdkWindow, followed by gdk_window_ensure_native to enforce an
underlying X window in turn, allows me to get hold of an X window id
on which I can call the Xlib function for setting WM_CLASS, still
before the window is mapped.
With this change, plus Colin's preceding patches, the whole code base
_actually_ compiles and links against GTK 3.22 without any deprecation
warnings. (My claim in commit 8ce237234 that it previously did appears
to have been completely wrong - my guess is that I'd forgotten to
'make clean' before testing against 3.22 and so some source files had
already been compiled against earlier GTK headers.)
GTK+ 3.22 deprecates gdk_screen_{width,height} on the grounds that the
"screen" here actually refers to a virtual screen that may span multiple
monitors, and applications should generally be considering the width and
height of individual monitors. It's not entirely clear to me how this
fits with X geometry specifications, but I've gone with trying to get
hold of the geometry of the monitor that the window in question is on.
gdk_window_set_background was already deprecated, but with GTK+ 3.22
even gdk_window_set_background_rgba is deprecated, so we need a better
approach. The best seems to be to go with the flow and inject a custom
CSS style for the appropriate widgets.
GTK+ 3.22 deprecates gtk_menu_popup in favour of various
gtk_menu_popup_at_* functions. gtk_menu_popup_at_pointer seems most
appropriate, but that requires being able to pass it a GdkEvent rather
than just some elements of it. In order to achieve that, I've
rearranged the scroll_event shim to construct a real GdkEventButton and
pass that down to button_internal.
Minimal version of gtk+ 2.24 required to compile PuTTY
after GTK3 prep commits. Provide more compatibility macroses
to allow build against gtk+ 2.20.
Signed-off-by: Leonid Lisovskiy <lly.dev@gmail.com>
Unix PSCP, PSFTP, Plink and PuTTYgen now just report their build
platform as '64-bit Unix' or '32-bit Unix', without mentioning
irrelevant details of what flavour of GTK the other tools in the suite
might have been built against.
(In particular, they now won't imply anything outright untrue if there
was no GTK present at build time at all!)
Jacob pointed out the other day that the call to logevent with NULL
frontend handle can't possibly work, and the comment next to it saying
that it can is an outright lie (probably thoughtlessly copied from
some part of the Windows front end, where it actually would be true).
Furthermore, even if that logevent call didn't dereference NULL and
segfault, the followup call to fatalbox() would be inappropriate,
since proxied connections need not be the primary network connection
of the whole process.
Rewritten as a call to plug_closing, which is the proper channel
through which to report errors on an individual socket or equivalent.
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 :-)
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 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).
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.
