Include gmid.h as first header in every file, as it then includes
config.h (that defines _GNU_SOURCE for instance).
Fix also a warning about unsigned vs signed const char pointers in
openssl.
Using BUFSIZ in sbuf is not OK. It's variable, and in various places
we assume that sbuf is 1024 (like handle_cgi_reply). We could patch
those, but we aren't sure BUFSIZ is >= 1024! Let's keep the hardcoded
number.
(found by debugging on arch on amd64, where BUFSIZ is bigger)
Before we mmap(2) file for reading, and use a buffer to handle CGI
scripts. Turns out, for sequential access over the whole mmap isn't
better than our loop on read. This has also the additional advantage
that we can use handle_cgi (now handle_copy) for both files and CGI,
which is pretty cool.
This also fixes a nasty bug where we could hang a connection forever,
because we scheduled the wrong type of event (read on POLLOUT and
write on POLLIN, it's the other way around!)
keep mark_nonblock in utils.c, as otherwise the build for the regress
suite will fail (mark_nonblock needs fatal which is in gmid.c, and
we can't link gmid.o with the regress suite...)
Now that I got rid of the enum+switch, adding more state is easier.
Before, we used an hack to remember if we had read the CGI reply or
not (c->code = -1).
This introduces a new state, handle_cgi_reply that reads the CGI
script reply, logs it, and only then switches to handle_cgi.
handle_cgi itself is cleaner, now it only reads into c->sbuf and send
what it had red.
We even get, almost for free, the 42 error. If read exists with -1 or
0 from in handle_cgi_reply, we return a proper error to the client.
We can extend this further in the future and also try to validate the
CGI reply (for now we're only looking for a \n).
instead of having a flag to discern between two different behaviours
in S_SENDING, split that state into S_SENDING_FILE and S_SENDING_CGI
(this will also make it easier in the future to add other sending
states). While there, also get rid of `goodbye' and make start_reply
advance the state machine by itself.