I don't actually know why this was ever here; it appeared in the very
first commit that invented Plug in the first place (7b0e08270) without
explanation. Perhaps Dave's original idea was that sometimes you'd
need those macros _not_ to be defined so that the same names could be
reused as the methods for a particular Plug instance? But I don't
think that ever actually happened, and the code base builds just fine
with those macros defined unconditionally just like all the other sets
of method macros we now have, so let's get rid of this piece of cruft
that was apparently unnecessary all along.
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.
Originally, it controlled whether ssh.c should send terminal messages
(such as login and password prompts) to terminal.c or to stderr. But
we've had the from_backend() abstraction for ages now, which even has
an existing flag to indicate that the data is stderr rather than
stdout data; applications which set FLAG_STDERR are precisely those
that link against uxcons or wincons, so from_backend will do the
expected thing anyway with data sent to it with that flag set. So
there's no reason ssh.c can't just unconditionally pass everything
through that, and remove the special case.
FLAG_STDERR was also used by winproxy and uxproxy to decide whether to
capture standard error from a local proxy command, or whether to let
the proxy command send its diagnostics directly to the usual standard
error. On reflection, I think it's better to unconditionally capture
the proxy's stderr, for three reasons. Firstly, it means proxy
diagnostics are prefixed with 'proxy:' so that you can tell them apart
from any other stderr spew (which used to be particularly confusing if
both the main application and the proxy command were instances of
Plink); secondly, proxy diagnostics are now reliably copied to packet
log files along with all the other Event Log entries, even by
command-line tools; and thirdly, this means the option to suppress
proxy command diagnostics after the main session starts will actually
_work_ in the command-line tools, which it previously couldn't.
A more minor structure change is that copying of Event Log messages to
stderr in verbose mode is now done by wincons/uxcons, instead of
centrally in logging.c (since logging.c can now no longer check
FLAG_STDERR to decide whether to do it). The total amount of code to
do this is considerably smaller than the defensive-sounding comment in
logevent.c explaining why I did it the other way instead :-)
Thanks to Colin Harrison for spotting it very quickly. No thanks to
Visual Studio for only giving me a _warning_ when I prototyped a
function with four parameters and called it with five!
On both Unix and Windows, we now redirect the local proxy command's
standard error into a third pipe; data received from that pipe is
broken up at newlines and logged in the Event Log. So if the proxy
command emits any error messages in the course of failing to connect
to something, you now have a fighting chance of finding out what went
wrong.
This feature is disabled in command-line tools like PSFTP and Plink,
on the basis that in that situation it seems more likely that the user
would expect standard-error output to go to the ordinary standard
error in the ordinary way. Only GUI PuTTY catches it and logs it like
this, because it either doesn't have a standard error at all (on
Windows) or is likely to be pointing it at some completely unhelpful
session log file (under X).
I've defined a new value for the 'int type' parameter passed to
plug_log(), which proxy sockets will use to pass their backend
information on how the setup of their proxied connections are going.
I've implemented support for the new type code in all _nontrivial_
plug log functions (which, conveniently, are precisely the ones I just
refactored into backend_socket_log); the ones which just throw all
their log data away anyway will do that to the new code as well.
We use the new type code to log the DNS lookup and connection setup
for connecting to a networked proxy, and also to log the exact command
string sent down Telnet proxy connections (so the user can easily
debug mistakes in the configured format string) and the exact command
executed when spawning a local proxy process. (The latter was already
supported on Windows by a bodgy logging call taking advantage of
Windows in particular having no front end pointer; I've converted that
into a sensible use of the new plug_log facility, and done the same
thing on Unix.)
Having found a lot of unfixed constness issues in recent development,
I thought perhaps it was time to get proactive, so I compiled the
whole codebase with -Wwrite-strings. That turned up a huge load of
const problems, which I've fixed in this commit: the Unix build now
goes cleanly through with -Wwrite-strings, and the Windows build is as
close as I could get it (there are some lingering issues due to
occasional Windows API functions like AcquireCredentialsHandle not
having the right constness).
Notable fallout beyond the purely mechanical changing of types:
- the stuff saved by cmdline_save_param() is now explicitly
dupstr()ed, and freed in cmdline_run_saved.
- I couldn't make both string arguments to cmdline_process_param()
const, because it intentionally writes to one of them in the case
where it's the argument to -pw (in the vain hope of being at least
slightly friendly to 'ps'), so elsewhere I had to temporarily
dupstr() something for the sake of passing it to that function
- I had to invent a silly parallel version of const_cmp() so I could
pass const string literals in to lookup functions.
- stripslashes() in pscp.c and psftp.c has the annoying strchr nature
It's now kept in a separate module, where it can be reused
conveniently for other kinds of Windows HANDLE that I want to wrap in
the PuTTY Socket abstraction - for example, the named pipes that I
shortly plan to use for the Windows side of connection-sharing IPC.
[originally from svn r10066]
The most interesting one is printer_add_enum, which I've modified to
take a char ** rather than a char * so that it can both realloc its
input buffer _and_ return NULL to indicate error.
[originally from svn r9959]
data channels. Should comprehensively fix 'half-closed', in principle,
though it's a big and complicated change and so there's a good chance
I've made at least one mistake somewhere.
All connections should now be rigorous about propagating end-of-file
(or end-of-data-stream, or socket shutdown, or whatever) independently
in both directions, except in frontends with no mechanism for sending
explicit EOF (e.g. interactive terminal windows) or backends which are
basically always used for interactive sessions so it's unlikely that
an application would be depending on independent EOF (telnet, rlogin).
EOF should now never accidentally be sent while there's still buffered
data to go out before it. (May help fix 'portfwd-corrupt', and also I
noticed recently that the ssh main session channel can accidentally
have MSG_EOF sent before the output bufchain is clear, leading to
embarrassment when it subsequently does send the output).
[originally from svn r9279]
'Config' in putty.h, which stores all PuTTY's settings and includes an
arbitrary length limit on every single one of those settings which is
stored in string form. In place of it is 'Conf', an opaque data type
everywhere outside the new file conf.c, which stores a list of (key,
value) pairs in which every key contains an integer identifying a
configuration setting, and for some of those integers the key also
contains extra parts (so that, for instance, CONF_environmt is a
string-to-string mapping). Everywhere that a Config was previously
used, a Conf is now; everywhere there was a Config structure copy,
conf_copy() is called; every lookup, adjustment, load and save
operation on a Config has been rewritten; and there's a mechanism for
serialising a Conf into a binary blob and back for use with Duplicate
Session.
User-visible effects of this change _should_ be minimal, though I
don't doubt I've introduced one or two bugs here and there which will
eventually be found. The _intended_ visible effects of this change are
that all arbitrary limits on configuration strings and lists (e.g.
limit on number of port forwardings) should now disappear; that list
boxes in the configuration will now be displayed in a sorted order
rather than the arbitrary order in which they were added to the list
(since the underlying data structure is now a sorted tree234 rather
than an ad-hoc comma-separated string); and one more specific change,
which is that local and dynamic port forwardings on the same port
number are now mutually exclusive in the configuration (putting 'D' in
the key rather than the value was a mistake in the first place).
One other reorganisation as a result of this is that I've moved all
the dialog.c standard handlers (dlg_stdeditbox_handler and friends)
out into config.c, because I can't really justify calling them generic
any more. When they took a pointer to an arbitrary structure type and
the offset of a field within that structure, they were independent of
whether that structure was a Config or something completely different,
but now they really do expect to talk to a Conf, which can _only_ be
used for PuTTY configuration, so I've renamed them all things like
conf_editbox_handler and moved them out of the nominally independent
dialog-box management module into the PuTTY-specific config.c.
[originally from svn r9214]
ago, I apparently caused all data received from local proxies to be
unconditionally tagged as TCP Urgent. Most network backends ignore
this, but it's critical to the Telnet backend, which will ignore all
Urgent-marked data in the assumption that there's a SYNCH on its way
that it should wait for. Nobody has noticed in two years, presumably
meaning that nobody has ever tried to do Telnet over a local proxy
in that time.
[originally from svn r8158]
a serial port backend:
- In order to do simultaneous reading and writing on the same
HANDLE, you must enable overlapped access and pass an OVERLAPPED
structure to each ReadFile and WriteFile call. This would make
sense if it were an optional thing I could do if I wanted to do
the reading and writing in the same thread, but making it
mandatory even if I'm doing them in _different_ threads is just
annoying and arbitrary.
- Serial ports occasionally return length 0 from ReadFile, for no
particularly good reason. Fortunately serial ports also don't
have a real EOF condition to speak of, so ignoring EOFs is
actually a viable response in spite of sounding utterly gross.
Hence, handle_{input,output}_new() now accept a flags parameter,
which includes a flag to enable the OVERLAPPED bureaucracy and a
flag to cause EOFs to be ignored on input handles. The current
clients of winhandl.c do not use either of these.
[originally from svn r6813]
inherit _our_ ends of its I/O pipes! Otherwise, closing our copy of
those handles does not cause it to see EOF on its stdin, because
it's holding the pipe open itself.
[originally from svn r6808]
