In the previous few commits I noticed some repeated work in the form
of pointless empty implementations of Plug's log method, plus some
existing (and some new) empty cases of Socket's endpoint_info. As a
cleanup, I'm replacing as many as I can find with uses of a central
null implementation in the stubs directory.
This enables plug_log to run query methods on the socket in order to
find out useful information to log. I don't expect it's sensible to do
anything else with it.
The peer_info method in the Socket vtable is replaced with
endpoint_info, which takes a boolean indicating which end you're
asking about.
sk_peer_info still exists, as a wrapper on the new sk_endpoint_info.
We already have the ability to start a subprocess and hook it up to a
Socket, for running local proxy commands. Now the same facility is
available as an auxiliary feature, so that a backend can start another
subcommand for a different purpose, and make a separate Socket to
communicate with it.
Just like the local proxy system, this facility captures the
subprocess's stderr, and passes it back to the caller via plug_log. To
make that not look silly, I had to add a system where the "proxy:"
prefix on the usual plug_log messages is reconfigurable, and when you
call platform_start_subprocess(), you get to pass the prefix you want
to use in this case.
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I've seen a lot of outdated source file names elsewhere in the code,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.
Previously, a setup function returning one of these socket types (such
as platform_new_connection) had to do all its setup synchronously,
because if it was going to call make_fd_socket or make_handle_socket,
it had to have the actual fds or HANDLEs ready-made. If some kind of
asynchronous operation were needed before those fds become available,
there would be no way the function could achieve it, except by
becoming a whole extra permanent Socket wrapper layer.
Now there is, because you can make an FdSocket when you don't yet have
the fds, or a HandleSocket without the HANDLEs. Instead, you provide
an instance of the new trait 'DeferredSocketOpener', which is
responsible for setting in motion whatever asynchronous setup
procedure it needs, and when that finishes, calling back to
setup_fd_socket / setup_handle_socket to provide the missing pieces.
In the meantime, the FdSocket or HandleSocket will sit there inertly,
buffering any data the client might eagerly hand it via sk_write(),
and waiting for its setup to finish. When it does finish, buffered
data will be released.
In FdSocket, this is easy enough, because we were doing our own
buffering anyway - we called the uxsel system to find out when the fds
were readable/writable, and then wrote to them from our own bufchain.
So more or less all I had to do was make the try_send function do
nothing if the setup phase wasn't finished yet.
In HandleSocket, on the other hand, we're passing all our data to the
underlying handle-io.c system, and making _that_ deferrable in the
same way would be much more painful, because that's the place where
the scary threads live. So instead I've arranged it by replacing the
whole vtable, so that a deferred HandleSocket and a normal
HandleSocket are effectively separate trait implementations that can
share their state structure. And in fact that state struct itself now
contains a big anonymous union, containing one branch to go with each
vtable.
Nothing yet uses this system, but the next commit will do so.
Having a single plug_closing() function covering various kinds of
closure is reasonably convenient from the point of view of Plug
implementations, but it's annoying for callers, who all have to fill
in pointless NULL and 0 parameters in the cases where they're not
used.
Added some inline helper functions in network.h alongside the main
plug_closing() dispatch wrappers, so that each kind of connection
closure can present a separate API for the Socket side of the
interface, without complicating the vtable for the Plug side.
Also, added OS-specific extra helpers in the Unix and Windows
directories, which centralise the job of taking an OS error code (of
whatever kind) and translating it into its error message.
In passing, this removes the horrible ad-hoc made-up error codes in
proxy.h, which is OK, because nothing checked for them anyway, and
also I'm about to do an API change to plug_closing proper that removes
the need for them.
It was totally unused. No implementation of the 'closing' method in a
Plug vtable was checking it for any reason at all, except for
ProxySocket which captured it from its client in order to pass on to
its server (which, perhaps after further iterations of ProxySocket,
would have ended up ignoring it similarly). And every caller of
plug_closing set it to 0 (aka false), except for the one in sshproxy.c
which passed true (but it would have made no difference to anyone).
The comment in network.h refers to a FIXME comment which was in
try_send() when that code was written (see winnet.c in commit
7b0e082700). That FIXME is long gone, replaced by a use of a
toplevel callback. So I think the aim must have been to avoid
re-entrancy when sk_write called try_send which encountered a socket
error and called back to plug_closing - but that's long since fixed by
other means now.
In the case where these socket types are constructed because of a
local proxy command, we do actually have a SockAddr representing the
logical host we were trying to make a connection to. So we might as
well store it in the socket implementation, and then we can include it
in the PLUGLOG_CONNECT_SUCCESS call to make the log message more
informative.
Now the non-SSH backends critically depend on it, it's important not
to forget to send it, for any socket type that's going to be used for
any of those backends. But ProxySocket, and the Unix and Windows
'socket' types wrapping pipes to local subprocesses, were not doing
so.
Some of these socket types don't have a SockAddr available to
represent the destination host. (Sometimes the concept isn't even
meaningful). Therefore, I've also expanded the semantics of
PLUGLOG_CONNECT_SUCCESS so that the addr parameter is allowed to be
NULL, and invented a noncommittal fallback version of the log message
in that situation.
The call to plug_closing very likely destroys the FdSocket entirely,
so we shouldn't wait until after that to clean up its input fd via
lots of dereferences.
This gets rid of all those annoying 'win', 'ux' and 'gtk' prefixes
which made filenames annoying to type and to tab-complete. Also, as
with my other recent renaming sprees, I've taken the opportunity to
expand and clarify some of the names so that they're not such cryptic
abbreviations.
