There are a lot of reports about this issue, but no thorough analysis.

Short Timeouts

elinks

IRC, unknown channel, unknown date:

<paakku> This is related to ELinks... I've looked at the select()
  implementation for the Hurd in glibc and it seems that giving it a short
  timeout could cause it not to report that file descriptors are ready.
<paakku> It sends a request to the Mach port of each file descriptor and
  then waits for responses from the servers.
<paakku> Even if the file descriptors have data for reading or are ready
  for writing, the server processes might not respond immediately.
<paakku> So if I want ELinks to check which file descriptors are ready, how
  long should the timeout be in order to ensure that all servers can
  respond in time?
<paakku> Or do I just imagine this problem?

dbus

IRC

IRC, freenode, #hurd, 2012-01-31

<braunr> don't you find vim extremely slow lately ?
<braunr> (and not because of cpu usage but rather unnecessary sleeps)
<jkoenig> yes.
<braunr> wasn't there a discussion to add a minimum timeout to mach_msg for
  select() or something like that during the past months ?
<youpi> there was, and it was added
<youpi> that could be it
<youpi> I don't want to drop it though, some app really need it
<braunr> as a debian patch only iirc ?
<youpi> yes
<braunr> ok
<braunr> if i'm right, the proper solution was to fix remote servers
  instead of client calls
<youpi> (no drop, unless the actual bug gets fixed of course)
<braunr> so i'm guessing it's just a hack in between
<youpi> not only
<youpi> with a timeout of zero, mach will just give *no* time for the
  servers to give an answer
<braunr> that's because the timeout is part of the client call
<youpi> so the protocol has to be rethought, both server/client side
<braunr> a suggested solution was to make it a parameter
<braunr> i mean, part of the message
<braunr> not a mach_msg parameter
<jkoenig> OTOH the servers should probably not be trusted to enforce the
  timeout.
<braunr> why ?
<jkoenig> they're not necessarily trusted. (but then again, that's not the
  only circumstances where that's a problem)
<braunr> there is a proposed solution for that too (trust root and self
  servers only by default)
<jkoenig> I'm not sure they're particularily easy to identify in the
  general case
<braunr> "they" ? the solutions you mean ?
<braunr> or the servers ?
<youpi> jkoenig: you can't trust the servers in general to provide an
  answer, timeout or not
<jkoenig> yes the root/self servers.
<braunr> ah
<youpi> jkoenig: you can stat the actual node before dereferencing the
  translator
<jkoenig> could they not report FD activity asynchronously to the message
  port? libc would cache the state
<youpi> I don't understand what you mean
<youpi> anyway, really making the timeout part of the message is not a
  problem
<braunr> 10:10 < youpi> jkoenig: you can't trust the servers in general to
  provide an answer, timeout or not
<youpi> we already trust everything (e.g. read() ) into providing an answer
  immediately
<braunr> i don't see why
<youpi> braunr: put sleep(1) in S_io_read()
<youpi> it'll not give you an immediate answer, O_NODELAY being set or not
<braunr> well sleep is evil, but let's just say the server thread blocks
<braunr> ok
<braunr> well fix the server
<youpi> so we agree
<braunr> ?
<youpi> in the current security model, we trust the server into achieve the
  timeout
<braunr> yes
<youpi> and jkoenig's remark is more global than just select()
<braunr> taht's why we must make sure we're contacting trusted servers by
  default
<youpi> it affects read() too
<braunr> sure
<youpi> so there's no reason not to fix select()
<youpi> that's the important point
<braunr> but this doesn't mean we shouldn't pass the timeout to the server
  and expect it to handle it correctly
<youpi> we keep raising issues with things, and not achieve anything, in
  the Hurd
<braunr> if it doesn't, then it's a bug, like in any other kernel type
<youpi> I'm not the one to convince :)
<braunr> eh, some would say it's one of the goals :)
<braunr> who's to be convinced then ?
<youpi> jkoenig: 
<youpi> who raised the issue
<braunr> ah
<youpi> well, see the irc log :)
<jkoenig> not that I'm objecting to any patch, mind you :-)
<braunr> i didn't understand it that way
<braunr> if you can't trust the servers to act properly, it's similar to
  not trusting linux fs code
<youpi> no, the difference is that servers can be non-root
<youpi> while on linux they can't
<braunr> again, trust root and self
<youpi> non-root fuse mounts are not followed by default
<braunr> as with fuse
<youpi> that's still to be written
<braunr> yes
<youpi> and as I said, you can stat the actual  node and then dereference
  the translator afterwards
<braunr> but before writing anything, we'd better agree on the solution :)
<youpi> which, again, "just" needs to be written
<antrik> err... adding a timeout to mach_msg()? that's just wrong
<antrik> (unless I completely misunderstood what this discussion was
  about...)

IRC, freenode, #hurd, 2012-02-04

<youpi> this is confirmed: the select hack patch hurts vim performance a
  lot
<youpi> I'll use program_invocation_short_name to make the patch even more
  ugly
<youpi> (of course, we really need to fix select somehow)
<pinotree> could it (also) be that vim uses select() somehow "badly"?
<youpi> fsvo "badly", possibly, but still
<gnu_srs1> Could that the select() stuff be the reason for a ten times
  slower ethernet too, e.g. scp and apt-get?
<pinotree> i didn't find myself neither scp nor apt-get slower, unlike vim
<youpi> see strace: scp does not use select
<youpi> (I haven't checked  apt yet)

IRC, freenode, #hurd, 2012-02-14

<braunr> on another subject, I'm wondering how to correctly implement
  select/poll with a timeout on a multiserver system :/
<braunr> i guess a timeout of 0 should imply a non blocking round-trip to
  servers only
<braunr> oh good, the timeout is already part of the io_select call

IRC, freenode, #hurdfr, 2012-02-22

<braunr> le gros souci de notre implé, c'est que le timeout de select est
  un paramètre client
<braunr> un paramètre passé directement à mach_msg
<braunr> donc si tu mets un timeout à 0, y a de fortes chances que mach_msg
  retourne avant même qu'un RPC puisse se faire entièrement (round-trip
  client-serveur donc)
<braunr> et donc quand le timeout est à 0 pour du non bloquant, ben tu
  bloques pas, mais t'as pas tes évènements ..
<abique|work> peut-être que passer le timeout de 10ms à 10 us améliorerait
  la situation.
<abique|work> car 10ms c'est un peut beaucoup :)
<braunr> c'est l'interval timer système historique unix
<braunr> et mach n'est pas préemptible
<braunr> donc c'est pas envisageable en l'état
<braunr> ceci dit c'est pas complètement lié
<braunr> enfin si, il nous faudrait qqchose de similaire aux high res
  timers de linux
<braunr> enfin soit des timer haute résolution, soit un timer programmable
  facilement
<braunr> actuellement il n'y a que le 8254 qui est programmé, et pour
  assurer un scheduling à peu près correct, il est programmé une fois, à
  10ms, et basta
<braunr> donc oui, préciser 1ms ou 1us, ça changera rien à l'interval
  nécessaire pour déterminer que le timer a expiré

IRC, freenode, #hurd, 2012-02-27

<youpi> braunr: extremely dirty hack
<youpi> I don't even want to detail :)
<braunr> oh
<braunr> does it affect vim only ?
<braunr> or all select users ?
<youpi> we've mostly seen it with vim
<youpi> but possibly fakeroot has some issues too
<youpi> it's very little probable that only vim has the issue :)
<braunr> i mean, is it that dirty to switch behaviour depending on the
  calling program ?
<youpi> not all select users
<braunr> ew :)
<youpi> just those which do select({0,0})
<braunr> well sure
<youpi> braunr: you guessed right :)
<braunr> thanks anyway
<braunr> it's probably a good thing to do currently
<braunr> vim was getting me so mad i was using sshfs lately
<youpi> it's better than nothing yes

IRC, freenode, #hurd, 2012-07-21

<braunr> damn, select is actually completely misdesigned :/
<braunr> iiuc, it makes servers *block*, in turn :/
<braunr> can't be right
<braunr> ok i understand it better
<braunr> yes, timeouts should be passed along with the other parameters to
  correctly implement non blocking select
<braunr> (or the round-trip io_select should only ask for notification
  requests instead of making a server thread block, but this would require
  even more work)
<braunr> adding the timeout in the io_select call should be easy enough for
  whoever wants to take over a not-too-complicated-but-not-one-liner-either
  task :)
<antrik> braunr: why is a blocking server thread a problem?
<braunr> antrik: handling the timeout at client side while server threads
  block is the problem
<braunr> the timeout must be handled along with blocking obviously
<braunr> so you either do it at server side when async ipc is available,
  which is the case here
<braunr> or request notifications (synchronously) and block at client side,
  waiting forthose notifications
<antrik> braunr: are you saying the client has a receive timeout, but when
  it elapses, the server thread keeps on blocking?...
<braunr> antrik: no i'm referring to the non-blocking select issue we have
<braunr> antrik: the client doesn't block in this case, whereas the servers
  do
<braunr> which obviously doesn't work ..
<braunr> see http://bugs.debian.org/cgi-bin/bugreport.cgi?bug=79358
<braunr> this is the reason why vim (and probably others) are slow on the
  hurd, while not consuming any cpu
<braunr> the current work around is that whenevever a non-blocking select
  is done, it's transformed into a blocking select with the smallest
  possible timeout
<braunr> whenever*
<antrik> braunr: well, note that the issue only began after fixing some
  other select issue... it was fine before
<braunr> apparently, the issue was raised in 2000
<braunr> also, note that there is a delay between sending the io_select
  requests and blocking on the replies
<braunr> when machines were slow, this delay could almost guarantee a
  preemption between these steps, making the servers reply soon enough even
  for a non blocking select
<braunr> the problem occurs when sending all the requests and checking for
  replies is done before servers have a chance the send the reply
<antrik> braunr: I don't know what issue was raised in 2000, but I do know
  that vim worked perfectly fine until last year or so. then some select
  fix was introduced, which in turn broke vim
<braunr> antrik: could be the timeout rounding, Aug 2 2010
<braunr> hum but, the problem wasn't with vim
<braunr> vim does still work fine (in fact, glibc is patched to check some
  well known process names and selectively fix the timeout)
<braunr> which is why vim is fast and view isn't
<braunr> the problem was with other services apparently
<braunr> and in order to fix them, that workaround had to be introduced
<braunr> i think it has nothing to do with the timeout rounding
<braunr> it must be the time when youpi added the patch to the debian
  package
<antrik> braunr: the problem is that with the patch changing the timeout
  rounding, vim got extremely slow. this is why the ugly hacky exception
  was added later...
<antrik> after reading the report, I agree that the timeout needs to be
  handled by the server. at least the timeout=0 case.
<pinotree> vim uses often 0-time selects to check whether there's input
<antrik> client-side handling might still be OK for other timeout settings
  I guess
<antrik> I'm a bit ambivalent about that
<antrik> I tend to agree with Neal though: it really doesn't make much
  sense to have a client-side watchdog timer for this specific call, while
  for all other ones we trust the servers not to block...
<antrik> or perhaps not. for standard sync I/O, clients should expect that
  an operation could take long (though not forever); but they might use
  select() precisely to avoid long delays in I/O... so it makes some sense
  to make sure that select() really doesn't delay because of a busy server
<antrik> OTOH, unless the server is actually broken (in which anything
  could happen), a 0-time select should never actually block for an
  extended period of time... I guess it's not wrong to trust the servers on
  that
<antrik> pinotree: hm... that might explain a certain issue I *was*
  observing with Vim on Hurd -- though I never really thought about it
  being an actual bug, as opposed to just general Hurd sluggishness...
<antrik> but it makes sense now
<pinotree> antrik:
  http://patch-tracker.debian.org/patch/series/view/eglibc/2.13-34/hurd-i386/local-select.diff
<antrik> so I guess we all agree that moving the select timeout to the
  server is probably the most reasonably approach...
<antrik> braunr: BTW, I wouldn't really consider the sync vs. async IPC
  cases any different. the client blocks waiting for the server to reply
  either way...
<antrik> the only difference is that in the sync IPC case, the server might
  want to take some special precaution so it doesn't have to block until
  the client is ready to receive the reply
<antrik> but that's optional and not really select-specific I'd say
<antrik> (I'd say the only sane approach with sync IPC is probably for the
  server never to wait -- if the client fails to set up for receiving the
  reply in time, it looses...)
<antrik> and with the receive buffer approach in Viengoos, this can be done
  really easy and nice :-)

IRC, freenode, #hurd, 2012-07-22

<braunr> antrik: you can't block in servers with sync ipc
<braunr> so in this case, "select" becomes a request for notifications
<braunr> whereas with async ipc, you can, so it's less efficient to make a
  full round trip just to ask for requests when you can just do async
  requests (doing the actual blocking) and wait for any reply after
<antrik> braunr: I don't understand. why can't you block in servers with
  async IPC?
<antrik> braunr: err... with sync IPC I mean
<braunr> antrik: because select operates on more than one fd
<antrik> braunr: and what does that got to do with sync vs. async IPC?...
<antrik> maybe you are thinking of endpoints here, which is a whole
  different story
<antrik> traditional L4 has IPC ports bound to specific threads; so
  implementing select requires a separate client thread for each
  server. but that's not mandatory for sync IPC. Viengoos has endpoints not
  bound to threads
<braunr> antrik: i don't know what "endpoint" means here
<braunr> but, you can't use sync IPC to implement select on multiple fds
  (and thus possibly multiple servers) by blocking in the servers
<braunr> you'd block in the first and completely miss the others
<antrik> braunr: I still don't see why... or why async IPC would change
  anything in that regard
<braunr> antrik: well, you call select on 3 fds, each implemented by
  different servers
<braunr> antrik: you call a sync select on the first fd, obviously you'll
  block there
<braunr> antrik: if it's async, you don't block, you just send the
  requests, and wait for any reply
<braunr> like we do
<antrik> braunr: I think you might be confused about the meaning of sync
  IPC. it doesn't in any way imply that after sending an RPC request you
  have to block on some particular reply...
<youpi> antrik: what does sync mean then?
<antrik> braunr: you can have any number of threads listening for replies
  from the various servers (if using an L4-like model); or even a single
  thread, if you have endpoints that can listen on replies from different
  sources (which was pretty much the central concern in the Viengoos IPC
  design AIUI)
<youpi> antrik: I agree with your "so it makes some sense to make sure that
  select() really doesn't delay because of a busy server" (for blocking
  select) and "OTOH, unless the server is actually broken (in which
  anything could happen), a 0-time select should never actually block" (for
  non-blocking select)
<antrik> youpi: regarding the select, I was thinking out loud; the former
  statement was mostly cancelled by my later conclusions...
<antrik> and I'm not sure the latter statement was quite clear
<youpi> do you know when it was?
<antrik> after rethinking it, I finally concluded that it's probably *not*
  a problem to rely on the server to observe the timout. if it's really
  busy, it might take longer than the designated timeout (especially if
  timeout is 0, hehe) -- but I don't think this is a problem
<antrik> and if it doens't observe the timout because it's
  broken/malicious, that's not more problematic that any other RPC the
  server doesn't handle as expected
<youpi> ok
<youpi> did somebody wrote down the conclusion "let's make select timeout
  handled at server side" somewhere?
<antrik> youpi: well, neal already said that in a followup to the select
  issue Debian bug... and after some consideration, I completely agree with
  his reasoning (as does braunr)

IRC, freenode, #hurd, 2012-07-23

<braunr> antrik: i was meaning sync in the most common meaning, yes, the
  client blocking on the reply
<antrik> braunr: I think you are confusing sync IPC with sync I/O ;-)
<antrik> braunr: by that definition, the vast majority of Hurd IPC would be
  sync... but that's obviously not the case
<antrik> synchronous IPC means that send and receive happen at the same
  time -- nothing more, nothing less. that's why it's called synchronous
<braunr> antrik: yes
<braunr> antrik: so it means the client can't continue unless he actually
  receives
<antrik> in a pure sync model such as L4 or EROS, this means either the
  sender or the receiver has to block, so synchronisation can happen. which
  one is server and which one is client is completely irrelevant here --
  this is about individual message transfer, not any RPC model on top of it
<braunr> i the case of select, i assume sender == client
<antrik> in Viengoos, the IPC is synchronous in the sense that transfer
  from the send buffer to the receive buffer happens at the same time; but
  it's asynchronous in the sense that the receiver doesn't necessarily have
  to be actively waiting for the incoming message
<braunr> ok, i was talking about a pure sync model
<antrik> (though it most cases it will still do so...)
<antrik> braunr: BTW, in the case of select, the sender is *not* the
  client. the reply is relevant here, not the request -- so the client is
  the receiver
<antrik> (the select request is boring)
<braunr> sorry, i don't understand, you seem to dismiss the select request
  for no valid reason
<antrik> I still don't see how sync vs. async affects the select reply
  receive though... blocking seems the right approach in either case
<braunr> blocking is required
<braunr> but you either block in the servers, or in the client
<braunr> (and if blocking in the servers, the client also blocks)
<braunr> i'll explain how i see it again
<braunr> there are two approaches to implementing select
<braunr> 1/ send requests to all servers, wait for any reply, this is what
  the hurd does
<braunr> but it's possible because you can send all the requests without
  waiting for the replies
<braunr> 2/ send notification requests, wait for a notification
<braunr> this doesn't require blocking in the servers (so if you have many
  clients, you don't need as many threads)
<braunr> i was wondering which approach was used by the hurd, and if it
  made sense to change
<antrik> TBH I don't see the difference between 1) and 2)... whether the
  message from the server is called an RPC reply or a notification is just
  a matter of definition
<antrik> I think I see though what you are getting at
<antrik> with sync IPC, if the client sent all requests and only afterwards
  started to listen for replies, the servers might need to block while
  trying to deliver the reply because the client is not ready yet
<braunr> that's one thing yes
<antrik> but even in the sync case, the client can immediately wait for
  replies to each individual request -- it might just be more complicated,
  depending on the specifics of the IPC design
<braunr> what i mean by "send notification requests" is actually more than
  just sending, it's a complete RPC
<braunr> and notifications are non-blocking, yes
<antrik> (with L4, it would require a separate client thread for each
  server contacted... which is precisely why a different mechanism was
  designed for Viengoos)
<braunr> seems weird though
<braunr> don't they have a portset like abstraction ?
<antrik> braunr: well, having an immediate reply to the request and a
  separate notification later is just a waste of resources... the immediate
  reply would have no information value
<antrik> no, in original L4 IPC is always directed to specific threads
<braunr> antrik: some could see the waste of resource as being the
  duplication of the number of client threads in the server
<antrik> you could have one thread listening to replies from several
  servers -- but then, replies can get lost
<braunr> i see
<antrik> (or the servers have to block on the reply)
<braunr> so, there are really no capabilities in the original l4 design ?
<antrik> though I guess in the case of select() it wouldn't really matter
  if replies get lost, as long as at least one is handled... would just
  require the listener thread by separate from the thread sending the
  requests
<antrik> braunr: right. no capabilities of any kind
<braunr> that was my initial understanding too
<braunr> thanks
<antrik> so I partially agree: in a purely sync IPC design, it would be
  more complicated (but not impossible) to make sure the client gets the
  replies without the server having to block while sending replies

<braunr> arg, we need hurd_condition_timedwait (and possible
  condition_timedwait) to cleanly fix io_select
<braunr> luckily, i still have my old patch for condition_timedwait :>
<braunr> bddebian: in order to implement timeouts in select calls, servers
  now have to use a hurd_condition_timedwait function
<braunr> is it possible that a thread both gets canceled and timeout on a
  wait ?
<braunr> looks unlikely to me

<braunr> hm, i guess the same kind of compatibility constraints exist for
  hurd interfaces
<braunr> so, should we have an io_select1 ?
<antrik> braunr: I would use a more descriptive name: io_select_timeout()
<braunr> antrik: ah yes
<braunr> well, i don't really like the idea of having 2 interfaces for the
  same call :)
<braunr> because all select should be select_timeout :)
<braunr> but ok
<braunr> antrik: actually, having two select calls may be better
<braunr> oh it's really minor, we do'nt care actually
<antrik> braunr: two select calls?
<braunr> antrik: one with a timeout and one without
<braunr> the glibc would choose at runtime
<antrik> right. that was the idea. like with most transitions, that's
  probably the best option
<braunr> there is no need to pass the timeout value if it's not needed, and
  it's easier to pass NULL this way
<antrik> oh
<antrik> nah, that would make the transition more complicated I think
<braunr> ?
<braunr> ok
<braunr> :)
<braunr> this way, it becomes very easy
<braunr> the existing io_select call moves into a select_common() function
<antrik> the old variant doesn't know that the server has to return
  immediately; changing that would be tricky. better just use the new
  variant for the new behaviour, and deprecate the old one
<braunr> and the entry points just call this common function with either
  NULL or the given timeout
<braunr> no need to deprecate the old one
<braunr> that's what i'm saying
<braunr> and i don't understand "the old variant doesn't know that the
  server has to return immediately"
<antrik> won't the old variant block indefinitely in the server if there
  are no ready fds?
<braunr> yes it will
<antrik> oh, you mean using the old variant if there is no timeout value?
<braunr> yes
<antrik> well, I guess this would work
<braunr> well of course, the question is rather if we want this or not :)
<antrik> hm... not sure
<braunr> we need something to improve the process of changing our
  interfaces
<braunr> it's really painful currnelty
<antrik> inside the servers, we probably want to use common code
  anyways... so in the long run, I think it simplifies the code when we can
  just drop the old variant at some point
<braunr> a lot of the work we need to do involves changing interfaces, and
  we very often get to the point where we don't know how to do that and
  hardly agree on a final version :
<braunr> :/
<braunr> ok but
<braunr> how do you tell the server you don't want a timeout ?
<braunr> a special value ? like { -1; -1 } ?
<antrik> hm... good point
<braunr> i'll do it that way for now
<braunr> it's the best way to test it
<antrik> which way you mean now?
<braunr> keeping io_select as it is, add io_select_timeout
<antrik> yeah, I thought we agreed on that part... the question is just
  whether io_select_timeout should also handle the no-timeout variant going
  forward, or keep io_select for that. I'm really not sure
<antrik> maybe I'll form an opinion over time :-)
<antrik> but right now I'm undecided
<braunr> i say we keep io_select
<braunr> anyway it won't change much
<braunr> we can just change that at the end if we decide otherwise
<antrik> right
<braunr> even passing special values is ok
<braunr> with a carefully written hurd_condition_timedwait, it's very easy
  to add the timeouts :)
<youpi> antrik, braunr: I'm wondering, another solution is to add an
  io_probe, i.e. the server has to return an immediate result, and the
  client then just waits for all results, without timeout
<youpi> that'd be a mere addition in the glibc select() call: when timeout
  is 0, use that, and otherwise use the previous code
<youpi> the good point is that it looks nicer in fs.defs
<youpi> are there bad points?
<youpi> (I don't have the whole issues in the mind now, so I'm probably
  missing things)
<braunr> youpi: the bad point is duplicating the implementation maybe
<youpi> what duplication ?
<youpi> ah you mean for the select case
<braunr> yes
<braunr> although it would be pretty much the same
<braunr> that is, if probe only, don't enter the wait loop
<youpi> could that be just some ifs here and there?
<youpi> (though not making the code easier to read...)
<braunr> hm i'm not sure it's fine
<youpi> in that case oi_select_timeout looks ncier ideed :)
<braunr> my problem with the current implementation is having the timeout
  at the client side whereas the server side is doing the blocking
<youpi> I wonder how expensive a notification is, compared to blocking
<youpi> a blocking indeed needs a thread stack
<youpi> (and kernel thread stuff)
<braunr> with the kind of async ipc we have, it's still better to do it
  that way
<braunr> and all the code already exists
<braunr> having the timeout at the client side also have its advantage
<braunr> has*
<braunr> latency is more precise
<braunr> so the real problem is indeed the non blocking case only
<youpi> isn't it bound to kernel ticks anyway ?
<braunr> uh, not if your server sucks
<braunr> or is loaded for whatever reason
<youpi> ok, that's not what I understood by "precision" :)
<youpi> I'd rather call it robustness :)
<braunr> hm
<braunr> right
<braunr> there are several ways to do this, but the io_select_timeout one
  looks fine to me
<braunr> and is already well on its way
<braunr> and it's reliable
<braunr> (whereas i'm not sure about reliability if we keep the timeout at
  client side)
<youpi> btw make the timeout nanoseconds
<braunr> ??
<youpi> pselect uses timespec, not timeval
<braunr> do we want pselect ?
<youpi> err, that's the only safe way with signals
<braunr> not only, no
<youpi> and poll is timespec also
<youpi> not only??
<braunr> you mean ppol
<braunr> ppoll
<youpi> no, poll too
<youpi> by "the only safe way", I mean for select calls
<braunr> i understand the race issue
<youpi> ppoll is a gnu extension
<braunr> int poll(struct pollfd *fds, nfds_t nfds, int timeout);
<youpi> ah, right, I was also looking at ppoll
<youpi> any
<youpi> way
<youpi> we can use nanosecs
<braunr> most event loops use a pipe or a socketpair
<youpi> there's no reason not to
<antrik> youpi: I briefly considered special-casisg 0 timeouts last time we
  discussed this; but I concluded that it's probably better to handle all
  timeouts server-side
<youpi> I don't see why we should even discuss that
<braunr> and translate signals to writes into the pipe/socketpair
<youpi> antrik: ok
<antrik> you can't count on select() timout precision anyways
<antrik> a few ms more shouldn't hurt any sanely written program
<youpi> braunr: "most" doesn't mean "all"
<youpi> there *are* applications which use pselect
<braunr> well mach only handles millisedonds
<braunr> seconds
<youpi> and it's not going out of the standard
<youpi> mach is not the hurd
<youpi> if we change mach, we can still keep the hurd ipcs
<youpi> anyway
<youpi> agagin
<youpi> I reallyt don't see the point of the discussion
<youpi> is there anything *against* using nanoseconds?
<braunr> i chose the types specifically because of that :p
<braunr> but ok i can change again
<youpi> becaus what??
<braunr> i chose to use mach's native time_value_t
<braunr> because it matches timeval nicely
<youpi> but it doesn't match timespec nicely
<braunr> no it doesn't
<braunr> should i add a hurd specific time_spec_t then ?
<youpi> "how do you tell the server you don't want a timeout ? a special
  value ? like { -1; -1 } ?"
<youpi> you meant infinite blocking?
<braunr> youpi: yes
<braunr> oh right, pselect is posix
<youpi> actually posix says that there can be limitations on the maximum
  timeout supported, which should be at least 31 days
<youpi> -1;-1 is thus fine
<braunr> yes
<braunr> which is why i could choose time_value_t (a struct of 2 integer_t)
<youpi> well, I'd say gnumach could grow a nanosecond-precision time value
<youpi> e.g. for clock_gettime precision and such

clock gettime.

<braunr> so you would prefer me adding the time_spec_t time to gnumach
  rather than the hurd ?
<youpi> well, if hurd RPCs are using mach types and there's no mach type
  for nanoseconds, it m akes sense to add one
<youpi> I don't know about the first part
<braunr> yes some hurd itnerfaces also use time_value_t
<antrik> in general, I don't think Hurd interfaces should rely on a Mach
  timevalue. it's really only meaningful when Mach is involved...
<antrik> we could even pass the time value as an opaque struct. don't
  really need an explicit MIG type for that.
<braunr> opaque ?
<youpi> an opaque type would be a step backward from multi-machine support
  ;)
<antrik> youpi: that's a sham anyways ;-)
<youpi> what?
<youpi> ah, using an opaque type, yes :)
<braunr> probably why my head bugged while reading that
<antrik> it wouldn't be fully opaque either. it would be two ints, right?
  even if Mach doesn't know what these two ints mean, it still could to
  byte order conversion, if we ever actually supported setups where it
  matters...
<braunr> so uh, should this new time_spec_t be added in gnumach or the hurd
  ?
<braunr> youpi: you're the maintainer, you decide :p
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<youpi> well, I don't like deciding when I didn't even have read fs.defs :)
<youpi> but I'd say the way forward is defining it in the hurd
<youpi> and put a comment "should be our own type" above use of the mach
  type
<braunr> ok
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<braunr> and, by the way, is using integer_t fine wrt the 64-bits port ?
<youpi> I believe we settled on keeping integer_t a 32bit integer, like xnu
  does
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<braunr> ok so it's not
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<braunr> uh well
<youpi> why "not" ?
<braunr> keeping it 32-bits for the 32-bits userspace hurd
<braunr> but i'm talking about a true 64-bits version
<braunr> wouldn't integer_t get 64-bits then ?
<youpi> I meant we settled on a no
<youpi> like xnu does
<braunr> xnu uses 32-bits integer_t even when userspace runs in 64-bits
  mode ?
<youpi> because things for which we'd need 64bits then are offset_t,
  vm_size_t, and such
<youpi> yes
<braunr> ok
<braunr> youpi: but then what is the type to use for long integers ?
<braunr> or uintptr_t
<youpi> braunr: uintptr_t
<braunr> the mig type i mean
<youpi> type memory_object_offset_t     = uint64_t;
<youpi> (and size)
<braunr> well that's a 64-bits type
<youpi> well, yes
<braunr> natural_t and integer_t were supposed to have the processor word
  size
<youpi> probably I didn't understand your question
<braunr> if we remove that property, what else has it ?
<youpi> yes, but see rolands comment on this
<braunr> ah ?
<youpi> ah, no, he just says the same
<antrik> braunr: well, it's debatable whether the processor word size is
  really 64 bit on x86_64...
<antrik> all known compilers still consider int to be 32 bit
<antrik> (and int is the default word size)
<braunr> not really
<youpi> as in?
<braunr> the word size really is 64-bits
<braunr> the question concerns the data model
<braunr> with ILP32 and LP64, int is always 32-bits, and long gets the
  processor word size
<braunr> and those are the only ones current unices support
<braunr> (which is why long is used everywhere for this purpose instead of
  uintptr_t in linux)
<antrik> I don't think int is 32 bit on alpha?
<antrik> (and probably some other 64 bit arches)
<braunr> also, assuming we want to maintain the ability to support single
  system images, do we really want RPC with variable size types ?
<youpi> antrik: linux alpha's int is 32bit
<braunr> sparc64 too
<youpi> I don't know any 64bit port with 64bit int
<braunr> i wonder how posix will solve the year 2038 problem ;p
<youpi> time_t is a long
<youpi> the hope is that there'll be no 32bit systems by 2038 :)
<braunr> :)
<youpi> but yes, that matters to us
<youpi> number of seconds should not be just an int
<braunr> we can force a 64-bits type then
<braunr> i tend to think we should have no variable size type in any mig
  interface
<braunr> youpi: so, new hurd type, named time_spec_t, composed of two
  64-bits signed integers
<pinotree> braunr: i added that in my prototype of monotonic clock patch
  for gnumach
<braunr> oh
<youpi> braunr: well, 64bit is not needed for the nanosecond part
<braunr> right
<braunr> it will be aligned anyway :p
<youpi> I know
<youpi> uh, actually linux uses long there
<braunr> pinotree: i guess your patch is still in debian ?
<braunr> youpi: well yes
<braunr> youpi: why wouldn't it ? :)
<pinotree> no, never applied
<youpi> braunr: because 64bit is not needed
<braunr> ah, i see what you mean
<youpi> oh, posix says longa ctually
<youpi> *exactly* long
<braunr> i'll use the same sizes
<braunr> so it fits nicely with timespec
<braunr> hm
<braunr> but timespec is only used at the client side
<braunr> glibc would simply move the timespec values into our hurd specific
  type (which can use 32-bits nanosecs) and servers would only use that
  type
<braunr> all right, i'll do it that way, unless there are additional
  comments next morning :)
<antrik> braunr: we never supported federations, and I'm pretty sure we
  never will. the remnants of network IPC code were ripped out some years
  ago. some of the Hurd interfaces use opaque structs too, so it wouldn't
  even work if it existed. as I said earlier, it's really all a sham
<antrik> as for the timespec type, I think it's easier to stick with the
  API definition at RPC level too

IRC, freenode, #hurd, 2012-07-24

<braunr> youpi: antrik: is vm_size_t an appropriate type for a c long ?
<braunr> (appropriate mig type)
<antrik> I wouldn't say so. while technically they are pretty much
  guaranteed to be the same, conceptually they are entirely different
  things -- it would be confusing at least to do it that way...
<braunr> antrik: well which one then ? :(
<antrik> braunr: no idea TBH
<braunr> antrik_: that should have been natural_t and integer_t
<braunr> so maybe we should new types to replace them
<antrik_> braunr: actually, RPCs should never have nay machine-specific
  types... which makes me realise that a 1:1 translation to the POSIX
  definition is actually not possible if we want to follow the Mach ideals
<braunr> i agree
<braunr> (well, the original mach authors used natural_t in quite a bunch
  of places ..)
<braunr> the mig interfaces look extremely messy to me because of this type
  issue
<braunr> and i just want to move forward with my work now
<braunr> i could just use 2 integer_t, that would get converted in the
  massive future revamp of the interfaces for the 64-bits userspace
<braunr> or 2 64-bits types
<braunr> i'd like us to agree on one of the two not too late so i can
  continue

IRC, freenode, #hurd, 2012-07-25

<antrik_> braunr: well, for actual kernel calls, machine-specific types are
  probably hard to avoid... the problem is when they are used in other RPCs
<braunr> antrik: i opted for a hurd specific time_data_t = struct[2] of
  int64
<braunr> and going on with this for now
<braunr> once it works we'll finalize the types if needed
<antrik> I'm really not sure how to best handle such 32 vs. 64 bit issues
  in Hurd interfaces...
<braunr> you *could* consider time_t and long to be machine specific types
<antrik> well, they clearly are
<braunr> long is
<braunr> time_t isn't really
<antrik> didn't you say POSIX demands it to be longs?
<braunr> we could decide to make it 64 bits in all versions of the hurd
<braunr> no
<braunr> posix requires the nanoseconds field of timespec to be long
<braunr> the way i see it, i don't see any problem (other than a little bit
  of storage and performance) using 64-bits types here
<antrik> well, do we really want to use a machine-independent time format,
  if the POSIX interfaces we are mapping do not?...
<antrik> (perhaps we should; I'm just uncertain what's better in this case)
<braunr> this would require creating new types for that
<braunr> probably mach types for consistency
<braunr> to replace natural_t and integer_t
<braunr> now this concerns a totally different issue than select
<braunr> which is how we're gonna handle the 64-bits port
<braunr> because natural_t and integer_t are used almost everywhere
<antrik> indeed
<braunr> and we must think of 2 ports
<braunr> the 32-bits over 64-bits gnumach, and the complete 64-bits one
<antrik> what do we do for the interfaces that are explicitly 64 bit?
<braunr> what do you mean ?
<braunr> i'm not sure there is anything to do
<antrik> I mean what is done in the existing ones?
<braunr> like off64_t ?
<antrik> yeah
<braunr> they use int64 and unsigned64
<antrik> OK. so we shouldn't have any trouble with that at least...
<pinotree> braunr: were you adding a time_value_t in mach, but for
  nanoseconds?
<braunr> no i'm adding a time_data_t to the hurd
<braunr> for nanoseconds yes
<pinotree> ah ok
<pinotree> (maybe sure it is available in hurd/hurd_types.defs)
<braunr> yes it's there
<pinotree> \o/
<braunr> i mean, i didn't forget to add it there
<braunr> for now it's a struct[2] of int64
<braunr> but we're not completely sure of that
<braunr> currently i'm teaching the hurd how to use timeouts
<pinotree> cool
<braunr> which basically involves adding a time_data_t *timeout parameter
  to many functions
<braunr> and replacing hurd_condition_wait with hurd_condition_timedwait
<braunr> and making sure a timeout isn't an error on the return path
* pinotree has a simplier idea for time_data_t: add a file_utimesns to
    fs.defs
<braunr> hmm, some functions have a nonblocking parameter
<braunr> i'm not sure if it's better to replace them with the timeout, or add the timeout parameter
<braunr> considering the functions involved may return EWOULDBLOCK
<braunr> for now i'll add a timeout parameter, so that the code requires as little modification as possible
<braunr> tell me your opinion on that please
<antrik> braunr: what functions?
<braunr> connq_listen in pflocal for example
<antrik> braunr: I don't really understand what you are talking about :-(
<braunr> some servers implement select this way :
<braunr> 1/ call a function in non-blocking mode, if it indicates data is available, return immediately
<braunr> 2/ call the same function, in blocking mode
<braunr> normally, with the new timeout parameter, non-blocking could be passed in the timeout parameter (with a timeout of 0)
<braunr> operating in non-blocking mode, i mean
<braunr> antrik: is it clear now ? :)
<braunr> i wonder how the hurd managed to grow so much code without a cond_timedwait function :/
<braunr> i think i have finished my io_select_timeout patch on the hurd side
<braunr> :)
<braunr> a small step for the hurd, but a big one against vim latencies !!
<braunr> (which is the true reason i'm working on this haha)
<braunr> new hurd rbraun/io_select_timeout branch for those interested
<braunr> hm, my changes clashes hard with the debian pflocal patch by neal :/
<braunr> clash*
<antrik> braunr: replace I'd say. no need to introduce redundancy; and code changes not affecting interfaces are cheap
<antrik> (in general, I'm always in favour of refactoring)
<braunr> antrik: replace what ?
<antrik> braunr: wow, didn't think moving the timeouts to server would be such a quick task :-)
<braunr> antrik: :)
<antrik> 16:57 < braunr> hmm, some functions have a nonblocking parameter
<antrik> 16:58 < braunr> i'm not sure if it's better to replace them with the timeout, or add the timeout parameter
<braunr> antrik: ah about that, ok

IRC, freenode, #hurd, 2012-07-26

<pinotree> braunr: wrt your select_timeout branch, why not push only the
  time_data stuff to master?
<braunr> pinotree: we didn't agree on that yet

<braunr> ah better, with the correct ordering of io routines, my hurd boots
  :)
<pinotree> and works too? :p
<braunr> so far yes
<braunr> i've spotted some issues in libpipe but nothing major
<braunr> i "only" have to adjust the client side select implementation now

IRC, freenode, #hurd, 2012-07-27

<braunr> io_select should remain a routine (i.e. synchronous) for server
  side stub code
<braunr> but should be asynchronous (send only) for client side stub code
<braunr> (since _hurs_select manually handles replies through a port set)
IRC, freenode, #hurd, 2013-02-09
<braunr> io_select becomes a simpleroutine, except inside the hurd, where
  it's a routine to keep the receive and reply mig stub code
<braunr> (the server side)

IRC, freenode, #hurd, 2012-07-28

<braunr> why are there both REPLY_PORTS and IO_SELECT_REPLY_PORT macros in
  the hurd ..
<braunr> and for the select call only :(
<braunr> and doing the exact same thing unless i'm mistaken
<braunr> the reply port is required for select anyway ..
<braunr> i just want to squeeze them into a new IO_SELECT_SERVER macro
<braunr> i don't think i can maintain the use the existing io_select call
  as it is
<braunr> grr, the io_request/io_reply files aren't synced with the io.defs
  file
<braunr> calls like io_sigio_request seem totally unused
<antrik> yeah, that's a major shortcoming of MIG -- we shouldn't need to
  have separate request/reply defs
<braunr> they're not even used :/
<braunr> i did something a bit ugly but it seems to do what i wanted

IRC, freenode, #hurd, 2012-07-29

<braunr> good, i have a working client-side select
<braunr> now i need to fix the servers a bit :x
<braunr> arg, my test cases work, but vim doesn't :((
<braunr> i hate select :p
<braunr> ah good, my problems are caused by a deadlock because of my glibc
  changes
<braunr> ah yes, found my locking problem
<braunr> building my final libc now
* braunr crosses fingers
<braunr> (the deadlock issue was of course a one liner)
<braunr> grr deadlocks again
<braunr> grmbl, my deadlock is in pfinet :/
<braunr> my select_timeout code makes servers deadlock on the libports
  global lock :/
<braunr> wtf..
<braunr> youpi: it may be related to the failed asserttion
<braunr> deadlocking on mutex_unlock oO
<braunr> grr
<braunr> actually, mutex_unlock sends a message to notify other threads
  that the lock is ready
<braunr> and that's what is blocking ..
<braunr> i'm not sure it's a fundamental problem here
<braunr> it may simply be a corruption
<braunr> i have several (but not that many) threads blocked in mutex_unlock
  and one blocked in mutex_lcok
<braunr> i fail to see how my changes can create such a behaviour
<braunr> the weird thing is that i can't reproduce this with my test cases
  :/
<braunr> only vim makes things crazy
<braunr> and i suppose it's related to the terminal
<braunr> (don't terminals relay select requests ?)
<braunr> when starting vim through ssh, pfinet deadlocks, and when starting
  it on the mach console, the console term deadlocks
<pinotree> no help/hints when started with rpctrace?
<braunr> i only get assertions with rpctrace
<braunr> it's completely unusable for me
<braunr> gdb tells vim is indeed blocked in a select request
<braunr> and i can't see any in the remote servers :/
<braunr> this is so weird ..
<braunr> when using vim with the unmodified c library, i clearly see the
  select call, and everything works fine ....
<braunr>     2e27:       a1 c4 d2 b7 f7          mov    0xf7b7d2c4,%eax
<braunr>     2e2c:       62                      (bad)  
<braunr>     2e2d:       f6 47 b6 69             testb  $0x69,-0x4a(%edi)
<braunr> what's the "bad" line ??
<braunr> ew, i think i understand my problem now
<braunr> the timeout makes blocking threads wake prematurely
<braunr> but on an mutex unlock, or a condition signal/broadcast, a message
  is still sent, as it is expected a thread is still waiting
<braunr> but the receiving thread, having returned sooner than expected
  from mach_msg, doesn't dequeue the message
<braunr> as vim does a lot of non blocking selects, this fills the message
  queue ...

IRC, freenode, #hurd, 2012-07-30

<braunr> hm nice, the problem i have with my hurd_condition_timedwait seems
  to also exist in libpthread

open issue libpthread.

<braunr> although at a lesser degree (the implementation already correctly
  removes a thread that timed out from a condition queue, and there is a
  nice FIXME comment asking what to do with any stale wakeup message)
<braunr> and the only solution i can think of for now is to drain the
  message queue
<braunr> ah yes, i know have vim running with my io_select_timeout code :>
<braunr> but hum
<braunr> eating all cpu
<braunr> ah nice, an infinite loop in _hurd_critical_section_unlock
<braunr> grmbl
<tschwinge> braunr: But not this one?
  http://www.gnu.org/software/hurd/open_issues/fork_deadlock.html
<braunr> it looks similar, yes
<braunr> let me try again to compare in detail
<braunr> pretty much the same yes
<braunr> there is only one difference but i really don't think it matters
<braunr> (#3  _hurd_sigstate_lock (ss=0x2dff718) at hurdsig.c:173
<braunr> instead of
<braunr> #3  _hurd_sigstate_lock (ss=0x1235008) at hurdsig.c:172)
<braunr> ok so we need to review jeremie's work
<braunr> tschwinge: thanks for pointing me at this
<braunr> the good thing with my patch is that i can reproduce in a few
  seconds
<braunr> consistently
<tschwinge> braunr: You're welcome.  Great -- a reproducer!
<tschwinge> You might also build a glibc without his patches as a
  cross-test to see the issues goes away?
<braunr> right
<braunr> i hope they're easy to find :)
<tschwinge> Hmm, have you already done changes to glibc?  Otherwise you
  might also simply use a Debian package from before?
<braunr> yes i have local changes to _hurd_select
<tschwinge> OK, too bad.
<tschwinge> braunr: debian/patches/hurd-i386/tg-hurdsig-*, I think.
<braunr> ok
<braunr> hmmmmm
<braunr> it may be related to my last patch on the select_timeout branch
<braunr> (i mean, this may be caused by what i mentioned earlier this
  morning)
<braunr> damn i can't build glibc without the signal disposition patches :(
<braunr> libpthread_sigmask.diff depends on it
<braunr> tschwinge: doesn't libpthread (as implemented in the debian glibc
  patches) depend on global signal dispositions ?
<braunr> i think i'll use an older glibc for now
<braunr> but hmm which one ..
<braunr> oh whatever, let's fix the deadlock, it's simpler
<braunr> and more productive anyway
<tschwinge> braunr: May be that you need to revert some libpthread patch,
  too.  Or even take out the libpthread build completely (you don't need it
  for you current work, I think).
<tschwinge> braunr: Or, of course, you locate the deadlock.  :-)
<braunr> hum, now why would __io_select_timeout return
  EMACH_SEND_INVALID_DEST :(
<braunr> the current glibc code just transparently reports any such error
  as a false positive oO
<braunr> hm nice, segfault through recursion
<braunr> "task foo destroying an invalid port bar" everywhere :((
<braunr> i still have problems at the server side ..
<braunr> ok i think i have a solution for the "synchronization problem"
<braunr> (by this name, i refer to the way mutex and condition variables
  are implemented"
<braunr> (the problem being that, when a thread unblocks early, because of
  a timeout, another may still send a message to attempt it, which may fill
  up the message queue and make the sender block, causing a deadlock)
<braunr> s/attempt/attempt to wake/
<bddebian> Attempts to wake a dead thread?
<braunr> no
<braunr> attempt to wake an already active thread
<braunr> which won't dequeue the message because it's doing something else
<braunr> bddebian: i'm mentioning this because the problem potentially also
  exists in libpthread

open issue libpthread.

<braunr> since the underlying algorithms are exactly the same
<youpi> (fortunately the time-out versions are not often used)
<braunr> for now :)
<braunr> for reference, my idea is to make the wake call truely non
  blocking, by setting a timeout of 0
<braunr> i also limit the message queue size to 1, to limit the amount of
  spurious wakeups
<braunr> i'll be able to test that in 30 mins or so
<braunr> hum
<braunr> how can mach_msg block with a timeout of 0 ??
<braunr> never mind :p
<braunr> unfortunately, my idea alone isn't enough
<braunr> for those interested in the problem, i've updated the analysis in
  my last commit
  (https://git.savannah.gnu.org/cgit/hurd/hurd.git/commit/?h=rbraun/select_timeout&id=40fe717ba9093c0c893d9ea44673e46a6f9e0c7d)

IRC, freenode, #hurd, 2012-08-01

<braunr> damn, i can't manage to make threads calling condition_wait to
  dequeue themselves from the condition queue :(
<braunr> (instead of the one sending the signal/broadcast)
<braunr> my changes on cthreads introduce 2 intrusive changes
<braunr> the first is that the wakeup port is limited to 1 port, and the
  wakeup operation is totally non blocking
<braunr> which is something we should probably add in any case
<braunr> the second is that condition_wait dequeues itself after blocking,
  instead of condition_signal/broadcast
<braunr> and this second change seems to introduce deadlocks, for reasons
  completely unknown to me :((
<braunr> limited to 1 message*
<braunr> if anyone has an idea about why it is bad for a thread to remove
  itself from a condition/mutex queue, i'm all ears
<braunr> i'm hitting a wall :(
<braunr> antrik: if you have some motivation, can you review this please ?
  http://www.sceen.net/~rbraun/0001-Rework-condition-signal-broadcast.patch
<braunr> with this patch, i get threads blocked in condition_wait,
  apparently waiting for a wakeup that never comes (or was already
  consumed)
<braunr> and i don't understand why :
<braunr> :(
<bddebian> braunr: The condition never happens?
<braunr> bddebian: it works without the patch, so i guess that's not the
  problem
<braunr> bddebian: hm, you could be right actually :p
<bddebian> braunr: About what? :)
<braunr> 17:50 < bddebian> braunr: The condition never happens?
<braunr> although i doubt it again
<braunr> this problem is getting very very frustrating
<bddebian> :(
<braunr> it frightens me because i don't see any flaw in the logic :(

IRC, freenode, #hurd, 2012-08-02

<braunr> ah, seems i found a reliable workaround to my deadlock issue, and
  more than a workaround, it should increase efficiency by reducing
  messaging
* braunr happy
<kilobug> congrats :)
<braunr> the downside is that we may have a problem with non blocking send
  calls :/
<braunr> which are used for signals
<braunr> i mean, this could be a mach bug
<braunr> let's try running a complete hurd with the change
<braunr> arg, the boot doesn't complete with the patch .. :(
<braunr> grmbl, by changing only a few bits in crtheads, the boot process
  freezes in an infinite loop in somethign started after auth
  (/etc/hurd/runsystem i assume)

IRC, freenode, #hurd, 2012-08-03

<braunr> glibc actually makes some direct use of cthreads condition
  variables
<braunr> and my patch seems to work with servers in an already working
  hurd, but don't allow it to boot
<braunr> and the hang happens on bash, the first thing that doesn't come
  from the hurd package
<braunr> (i mean, during the boot sequence)
<braunr> which means we can't change cthreads headers (as some primitives
  are macros)
<braunr> *sigh*
<braunr> the thing is, i can't fix select until i have a
  condition_timedwait primitive
<braunr> and i can't add this primitive until either 1/ cthreads are fixed
  not to allow the inlining of its primitives, or 2/ the switch to pthreads
  is done
<braunr> which might take a loong time :p
<braunr> i'll have to rebuild a whole libc package with a fixed cthreads
  version
<braunr> let's do this
<braunr> pinotree: i see two __condition_wait calls in glibc, how is the
  double underscore handled ?
<pinotree> where do you see it?
<braunr> sysdeps/mach/hurd/setpgid.c and sysdeps/mach/hurd/setsid.c
<braunr> i wonder if it's even used
<braunr> looks like we use posix/setsid.c now
<pinotree> #ifdef noteven
<braunr> ?
<pinotree> the two __condition_wait calls you pointed out are in such
  preprocessor block
<pinotree> s
<braunr> but what does it mean ?
<pinotree> no idea
<braunr> ok
<pinotree> these two files should be definitely be used, they are found
  earlier in the vpath
<braunr> hum, posix/setsid.c is a nop stub
<pinotree> i don't see anything defining "noteven" in glibc itself nor in
  hurd
<braunr> :(
<pinotree> yes, most of the stuff in posix/, misc/, signal/, time/ are
  ENOSYS stubs, to be reimplemented in a sysdep
<braunr> hm, i may have made a small mistake in cthreads itself actually
<braunr> right
<braunr> when i try to debug using a subhurd, gdb tells me the blocked
  process is spinning in ld ..
<braunr> i mean ld.so
<braunr> and i can't see any debugging symbol
<braunr> some progress, it hangs at process_envvars
<braunr> eh
<braunr> i've partially traced my problem
<braunr> when a "normal" program starts, libc creates the signal thread
  early
<braunr> the main thread waits for the creation of this thread by polling
  its address
<braunr> (i.e. while (signal_thread == 0); )
<braunr> for some reason, it is stuck in this loop
<braunr> cthread creation being actually governed by
  condition_wait/broadcast, it makes some sense
<bddebian> braunr: When you say the "main" thread, do you mean the main
  thread of the program?
<braunr> bddebian: yes
<braunr> i think i've determined my mistake
<braunr> glibc has its own variants of the mutex primitives
<braunr> and i changed one :/
<bddebian> Ah
<braunr> it's good news for me :)
<braunr> hum no, that's not exactly what i described
<braunr> glibc has some stubs, but it's not the problem, the problem is
  that mutex_lock/unlock are macros, and i changed one of them
<braunr> so everything that used that macro inside glibc wasn't changed
<braunr> yes!
<braunr> my patched hurd now boots :)
* braunr relieved
<braunr> this experience at least taught me that it's not possible to
  easily change the singly linked queues of thread (waiting for a mutex or
  a condition variable) :(
<braunr> for now, i'm using a linear search from the start
<braunr> so, not only does this patched hurd boot, but i was able to use
  aptitude, git, build a whole hurd, copy the whole thing, and remove
  everything, and it still runs fine (whereas usually it would fail very
  early)
* braunr happy
<antrik> and vim works fine now?
<braunr> err, wait
<braunr> this patch does only one thing
<braunr> it alters the way condition_signal/broadcast and
  {hurd_,}condition_wait operate
<braunr> currently, condition_signal/broadcast dequeues threads from a
  condition queue and wake them
<braunr> my patch makes these functions only wake the target threads
<braunr> which dequeue themselves
<braunr> (a necessary requirement to allow clean timeout handling)
<braunr> the next step is to fix my hurd_condition_wait patch
<braunr> and reapply the whole hurd patch indotrucing io_select_timeout
<braunr> introducing*
<braunr> then i'll be able to tell you
<braunr> one side effect of my current changes is that the linear search
  required when a thread dequeues itself is ugly
<braunr> so it'll be an additional reason to help the pthreads porting
  effort
<braunr> (pthreads have the same sort of issues wrt to timeout handling,
  but threads are a doubly-linked lists, making it way easier to adjust)
<braunr> +on
<braunr> damn i'm happy
<braunr> 3 days on this stupid bug
<braunr> (which is actually responsible for what i initially feared to be a
  mach bug on non blocking sends)
<braunr> (and because of that, i worked on the code to make it sure that 1/
  waking is truely non blocking and 2/ only one message is required for
  wakeups
<braunr> )
<braunr> a simple flag is tested instead of sending in a non blocking way
  :)
<braunr> these improvments should be ported to pthreads some day

open issue libpthread

<braunr> ahah !
<braunr> view is now FAST !
<mel-> braunr: what do you mean by 'view'?
<braunr> mel-: i mean the read-only version of vim
<mel-> aah
<braunr> i still have a few port leaks to fix
<braunr> and some polishing
<braunr> but basically, the non-blocking select issue seems fixed
<braunr> and with some luck, we should get unexpected speedups here and
  there
<mel-> so vim was considerable slow on the Hurd before? didn't know that.
<braunr> not exactly
<braunr> at first, it wasn't, but the non blocking select/poll calls
  misbehaved
<braunr> so a patch was introduced to make these block at least 1 ms
<braunr> then vim became slow, because it does a lot of non blocking select
<braunr> so another patch was introduced, not to set the 1ms timeout for a
  few programs
<braunr> youpi: darnassus is already running the patched hurd, which shows
  (as expected) that it can safely be used with an older libc
<youpi> i.e. servers with the additional io_select?
<braunr> yes
<youpi> k
<youpi> good :)
<braunr> and the modified cthreads
<braunr> which is the most intrusive change
<braunr> port leaks fixed
<gnu_srs> braunr: Congrats:-D
<braunr> thanks
<braunr> it's not over yet :p
<braunr> tests, reviews, more tests, polishing, commits, packaging

IRC, freenode, #hurd, 2012-08-04

<braunr> grmbl, apt-get fails on select in my subhurd with the updated
  glibc
<braunr> otherwise it boots and runs fine
<braunr> fixed :)
<braunr> grmbl, there is a deadlock in pfinet with my patch
<braunr> deadlock fixed
<braunr> the sigstate and the condition locks must be taken at the same
  time, for some obscure reason explained in the cthreads code
<braunr> but when a thread awakes and dequeues itself from the condition
  queue, it only took the condition lock
<braunr> i noted in my todo list that this could create problems, but
  wanted to leave it as it is to really see it happen
<braunr> well, i saw :)
<braunr> the last commit of my hurd branch includes the 3 line fix
<braunr> these fixes will be required for libpthreads
  (pthread_mutex_timedlock and pthread_cond_timedwait) some day
<braunr> after the select bug is fixed, i'll probably work on that with you
  and thomas d

IRC, freenode, #hurd, 2012-08-05

<braunr> eh, i made dpkg-buildpackage use the patched c library, and it
  finished the build oO
<gnu_srs> braunr: :)
<braunr> faked-tcp was blocked in a select call :/
<braunr> (with the old libc i mean)
<braunr> with mine i just worked at the first attempt
<braunr> i'm not sure what it means
<braunr> it could mean that the patched hurd servers are not completely
  compatible with the current libc, for some weird corner cases
<braunr> the slowness of faked-tcp is apparently inherent to its
  implementation
<braunr> all right, let's put all these packages online
<braunr> eh, right when i upload them, i get a deadlock
<braunr> this one seems specific to pfinet
<braunr> only one deadlock so far, and the libc wasn't in sync with the
  hurd
<braunr> :/
<braunr> damn, another deadlock as soon as i send a mail on bug-hurd :(
<braunr> grr
<pinotree> thou shall not email
<braunr> aptitude seems to be a heavy user of select
<braunr> oh, it may be due to my script regularly chaning the system time
<braunr> or it may not be a deadlock, but simply the linear queue getting
  extremely large

IRC, freenode, #hurd, 2012-08-06

<braunr> i have bad news :( it seems there can be memory corruptions with
  my io_select patch
<braunr> i've just seen an auth server (!) spinning on a condition lock
  (the internal spin lock), probably because the condition was corrupted ..
<braunr> i guess it's simply because conditions embedded in dynamically
  allocated structures can be freed while there are still threads waiting
  ...
<braunr> so, yes the solution to my problem is simply to dequeue threads
  from both the waker when there is one, and the waiter when no wakeup
  message was received
<braunr> simple
<braunr> it's so obvious i wonder how i didn't think of it earlier :(-
<antrik> braunr: an elegant solution always seems obvious afterwards... ;-)
<braunr> antrik: let's hope this time, it's completely right
<braunr> good, my latest hurd packages seem fixed finally
<braunr> looks like i got another deadlock
* braunr hangs himselg
<braunr> that, or again, condition queues can get very large (e.g. on
  thread storms)
<braunr> looks like this is the case yes
<braunr> after some time the system recovered :(
<braunr> which means a doubly linked list is required to avoid pathological
  behaviours
<braunr> arg
<braunr> it won't be easy at all to add a doubly linked list to condition
  variables :(
<braunr> actually, just a bit messy
<braunr> youpi: other than this linear search on dequeue, darnassus has
  been working fine so far
<youpi> k
<youpi> Mmm, you'd need to bump the abi soname if changing the condition
  structure layout
<braunr> :(
<braunr> youpi: how are we going to solve that ?
<youpi> well, either bump soname, or finish transition to libpthread :)
<braunr> it looks better to work on pthread now
<braunr> to avoid too many abi changes

libpthread.

IRC, freenode, #hurd, 2012-08-07

<rbraun_hurd> anyone knows of applications extensively using non-blocking
  networking functions ?
<rbraun_hurd> (well, networking functions in a non-blocking way)
<antrik> rbraun_hurd: X perhaps?
<antrik> it's single-threaded, so I guess it must be pretty async ;-)
<antrik> thinking about it, perhaps it's the reason it works so poorly on
  Hurd...
<braunr> it does ?
<rbraun_hurd> ah maybe at the client side, right
<rbraun_hurd> hm no, the client side is synchronous
<rbraun_hurd> oh by the way, i can use gitk on darnassys
<rbraun_hurd> i wonder if it's because of the select fix
<tschwinge> rbraun_hurd: If you want, you could also have a look if there's
  any improvement for these:
  http://www.gnu.org/software/hurd/open_issues/select.html (elinks),
  http://www.gnu.org/software/hurd/open_issues/dbus.html,
  http://www.gnu.org/software/hurd/open_issues/runit.html
<tschwinge> rbraun_hurd: And congratulations, again!  :-)
<rbraun_hurd> tschwinge: too bad it can't be merged before the pthread port
  :(
<antrik> rbraun_hurd: I was talking about server. most clients are probably
  sync.
<rbraun_hurd> antrik: i guessed :)
<antrik> (thought certainly not all... multithreaded clients are not really
  supported with xlib IIRC)
<rbraun_hurd> but i didn't have much trouble with X 
<antrik> tried something pushing a lot of data? like, say, glxgears? :-)
<rbraun_hurd> why not
<rbraun_hurd> the problem with tests involving "a lot of data" is that it
  can easily degenerate into a livelock
<antrik> yeah, sounds about right
<rbraun_hurd> (with the current patch i mean)
<antrik> the symptoms I got were general jerkiness, with occasional long
  hangs
<rbraun_hurd> that applies to about everything on the hurd
<rbraun_hurd> so it didn't alarm me
<antrik> another interesting testcase is freeciv-gtk... it reporducibly
  caused a thread explosion after idling for some time -- though I don't
  remember the details; and never managed to come up with a way to track
  down how this happens...
<rbraun_hurd> dbus is more worthwhile
<rbraun_hurd> pinotree: hwo do i test that ?
<pinotree> eh?
<rbraun_hurd> pinotree: you once mentioned dbus had trouble with non
  blocking selects
<pinotree> it does a poll() with a 0s timeout
<rbraun_hurd> that's the non blocking select part, yes
<pinotree> you'll need also fixes for the socket credentials though,
  otherwise it won't work ootb
<rbraun_hurd> right but, isn't it already used somehow ?
<antrik> rbraun_hurd: uhm... none of the non-X applications I use expose a
  visible jerkiness/long hangs pattern... though that may well be a result
  of general load patterns rather than X I guess
<rbraun_hurd> antrik: that's my feeling
<rbraun_hurd> antrik: heavy communication channels, unoptimal scheduling,
  lack of scalability, they're clearly responsible for the generally
  perceived "jerkiness" of the system
<antrik> again, I can't say I observe "general jerkiness". apart from slow
  I/O the system behaves rather normally for the things I do
<antrik> I'm pretty sure the X jerkiness *is* caused by the socket
  communication
<antrik> which of course might be a scheduling issue
<antrik> but it seems perfectly possible that it *is* related to the select
  implementation
<antrik> at least worth a try I'd say
<rbraun_hurd> sure
<rbraun_hurd> there is still some work to do on it though
<rbraun_hurd> the client side changes i did could be optimized a bit more
<rbraun_hurd> (but i'm afraid it would lead to ugly things like 2 timeout
  parameters in the io_select_timeout call, one for the client side, the
  other for the servers, eh)

IRC, freenode, #hurd, 2012-08-07

<braunr> when running gitk on [darnassus], yesterday, i could push the CPU
  to 100% by simply moving the mouse in the window :p
<braunr> (but it may also be caused by the select fix)
<antrik> braunr: that cursor might be "normal"
<rbraunrh> antrik: what do you mean ?
<antrik> the 100% CPU
<rbraunh> antrik: yes i got that, but what would make it normal ?
<rbraunh> antrik: right i get similar behaviour on linux actually
<rbraunh> (not 100% because two threads are spread on different cores, but
  their cpu usage add up to 100%)
<rbraunh> antrik: so you think as long as there are events to process, the
  x client is running
<rbraunh> thath would mean latencies are small enough to allow that, which
  is actually a very good thing
<antrik> hehe... sound kinda funny :-)
<rbraunh> this linear search on dequeue is a real pain :/

IRC, freenode, #hurd, 2012-08-09

screen doesn't close a window/hangs after exiting the shell.

<rbraunh> the screen issue seems linked to select :p
<rbraunh> tschwinge: the term server may not correctly implement it
<rbraunh> tschwinge: the problem looks related to the term consoles not
  dying
<rbraunh> http://www.gnu.org/software/hurd/open_issues/term_blocking.html

Term blocking.

IRC, freenode, #hurd, 2012-12-05

<braunr> well if i'm unable to build my own packages, i'll send you the one
  line patch i wrote that fixes select/poll for the case where there is
  only one descriptor
<braunr> (the current code calls mach_msg twice, each time with the same
  timeout, doubling the total wait time when there is no event)

IRC, freenode, #hurd, 2012-12-06

<braunr> damn, my eglibc patch breaks select :x
<braunr> i guess i'll just simplify the code by using the same path for
  both single fd and multiple fd calls
<braunr> at least, the patch does fix the case i wanted it to .. :)
<braunr> htop and ping act at the right regular interval
<braunr> my select patch is :
<braunr>    /* Now wait for reply messages.  */
<braunr> -  if (!err && got == 0)
<braunr> +  if (!err && got == 0 && firstfd != -1 && firstfd != lastfd)
<braunr> basically, when there is a single fd, the code calls io_select
  with a timeout
<braunr> and later calls mach_msg with the same timeout
<braunr> effectively making the maximum wait time twice what it should be
<pinotree> ouch
<braunr> which is why htop and ping are "laggy"
<braunr> and perhaps also why fakeroot is when building libc
<braunr> well
<braunr> when building packages
<braunr> my patch avoids entering the mach_msg call if there is only one fd
<braunr> (my failed attempt didn't have the firstfd != -1 check, leading to
  the 0 fd case skipping mach_msg too, which is wrong since in that case
  there is just no wait, making applications use select/poll for sleeping
  consume all cpu)

<braunr> the second is a fix in select (yet another) for the case where a
  single fd is passed
<braunr> in which case there is one timeout directly passed in the
  io_select call, but then yet another in the mach_msg call that waits for
  replies
<braunr> this can account for the slowness of a bunch of select/poll users

IRC, freenode, #hurd, 2012-12-07

<braunr> finally, my select patch works :)

IRC, freenode, #hurd, 2012-12-08

<braunr> for those interested, i pushed my eglibc packages that include
  this little select/poll timeout fix on my debian repository
<braunr> deb http://ftp.sceen.net/debian-hurd experimental/
<braunr> reports are welcome, i'm especially interested in potential
  regressions

IRC, freenode, #hurd, 2012-12-10

<gnu_srs> I have verified your double timeout bug in hurdselect.c.
<gnu_srs>  Since I'm also working on hurdselect I have a few questions
  about where the timeouts in mach_msg and io_select are implemented.
<gnu_srs> Have a big problem to trace them down to actual code: mig magic
  again?
<braunr> yes
<braunr> see hurd/io.defs, io_select includes a waittime timeout:
  natural_t; parameter
<braunr> waittime is mig magic that tells the client side not to wait more
  than the timeout
<braunr> and in _hurd_select, you can see these lines :
<braunr>             err = __io_select (d[i].io_port, d[i].reply_port,
<braunr>                                /* Poll only if there's a single
  descriptor.  */
<braunr>                                (firstfd == lastfd) ? to : 0,
<braunr> to being the timeout previously computed
<braunr> "to"
<braunr> and later, when waiting for replies :
<braunr>       while ((msgerr = __mach_msg (&msg.head,
<braunr>                                    MACH_RCV_MSG | options,
<braunr>                                    0, sizeof msg, portset, to,
<braunr>                                    MACH_PORT_NULL)) ==
  MACH_MSG_SUCCESS)
<braunr> the same timeout is used
<braunr> hope it helps
<gnu_srs> Additional stuff on io-select question is at
  http://paste.debian.net/215401/
<gnu_srs> Sorry, should have posted it before you comment, but was
  disturbed.
<braunr> 14:13 < braunr> waittime is mig magic that tells the client side
  not to wait more than the timeout
<braunr> the waittime argument is a client argument only
<braunr> that's one of the main source of problems with select/poll, and
  the one i fixed 6 months ago
<gnu_srs> so there is no relation to the third argument of the client call
  and the third argument of the server code?
<braunr> no
<braunr> the 3rd argument at server side is undoubtedly the 4th at client
  side here
<gnu_srs> but for the fourth argument there is?
<braunr> i think i've just answered that
<braunr> when in doubt, check the code generated by mig when building glibc
<gnu_srs> as I said before, I have verified the timeout bug you solved.
<gnu_srs> which code to look for RPC_*?
<braunr> should be easy to guess
<gnu_srs> is it the same with mach_msg()? No explicit usage of the timeout
  there either.
<gnu_srs> in the code for the function I mean.
<braunr> gnu_srs: mach_msg is a low level system call
<braunr> see
  http://www.gnu.org/software/hurd/gnumach-doc/Mach-Message-Call.html#Mach-Message-Call
<gnu_srs> found the definition of __io_select in: RPC_io_select.c, thanks.
<gnu_srs> so the client code to look for wrt RPC_ is in hurd/*.defs? what
  about the gnumach/*/include/*.defs?
<gnu_srs> a final question: why use a timeout if there is a single FD for
  the __io_select call, not when there are more than one?
<braunr> well, the code is obviously buggy, so don't expect me to justify
  wrong code
<braunr> but i suppose the idea was : if there is only one fd, perform a
  classical synchronous RPC, whereas if there are more use a heavyweight
  portset and additional code to receive replies

<youpi> exim4 didn't get fixed by the libc patch, unfortunately
<braunr> yes i noticed
<braunr> gdb can't attach correctly to exim, so it's probably something
  completely different
<braunr> i'll try the non intrusive mode
IRC, freenode, #hurd, 2013-01-26
<braunr> ah great, one of the recent fixes (probably select-eintr or
  setitimer) fixed exim4 :)

IRC, freenode, #hurd, 2012-12-11

<gnu_srs1> braunr: What is the technical difference of having the delay at
  io_select compared to mach_msg for one FD?
<braunr> gnu_srs1: it's a slight optimization
<braunr> instead of doing a send and a receive, the same mach_msg call is
  used for both
<braunr> (for L4 guys it wouldn't be considered a slight optimization :))

IRC, freenode, #hurd, 2012-12-17

<braunr> tschwinge:
  https://git.savannah.gnu.org/cgit/hurd/glibc.git/log/?h=rbraun/select_timeout_for_one_fd
<braunr> gnu_srs: talking about that, can you explain :
<braunr> "- The pure delay case is much faster now, making it necessary to                                                                                                                                                    
<braunr> introduce a delay of 1 msec when the timeout parameter is set to
  zero.                                                                                                                                              
<braunr> "
<gnu_srs> I meant poll with zero delay needs a delay to make sure the file
  descriptors are ready. Testing it now.
<braunr> for me, the "pure delay" case is the case where there is no file
  descriptor
<braunr> when the timeout is 0 is the non-blocking case
<braunr> and yes, you need 1ms for the non-blocking case when there are
  file descriptors
<gnu_srs> sorry bad wording (again)
<braunr> (note however that this last "requirement" is very hurd specific,
  and due to a design issue)
<braunr> the work i did six months ago fixes it, but depends on pthreads
  for correct performances (or rather, a thread library change, but
  changing cthreads was both difficult and pointless)
<braunr> also, i intend to work on io_poll as a replacement for io_select,
  that fixes the "message storm" (i love these names) caused by dead-name
  notifications resulting from the way io_select works

IRC, freenode, #hurd, 2012-12-19

<braunr> tschwinge: i've tested the glibc rbraun/select_timeout_for_one_fd
  branch for a few days on darnassus now, and nothing wrong to report

IRC, freenode, #hurd, 2012-12-20

<youpi> braunr: so, shall I commit the single hurd select timeout fix to
  the debian package?
<braunr> youpi: i'd say so yes

IRC, freenode, #hurd, 2013-01-03

<braunr> gnu_srs: sorry, i don't understand your poll_timeout patch
<braunr> it basically reverts mine for poll only
<braunr> but why ?
<gnu_srs> braunr: It does not revert your select patch, if there is one FD
  the timeout is at io_select, if not one the timeout is at mach_msg
<braunr> but why does it only concern poll ?
<braunr> (and why didn't i do it this way in the first place ?)
<braunr> (or maybe i did ?)
<gnu_srs> there are problems with a timeout of zero for poll, depending on
  the implementation the FDs can result in not being ready.
<braunr> but that's also true with select
<gnu_srs> the cases I've tested only have problems for poll, not select
<braunr> we'll have to create test cases for both
<braunr> but your solution doesn't hold anyway
<braunr> our current workaround for this class of problems is to set a
  lower bound on the timeout to 1
<braunr> (which comes from a debian specific patch)
<gnu_srs> see the test code i sent,
  http://lists.gnu.org/archive/html/bug-hurd/2012-12/msg00043.html,
  test_poll+select.c
<braunr> the patch might be incomplete though
<braunr> i know, but your solution is still wrong
<braunr> see debian/patches/hurd-i386/local-select.diff in the debian
  eglibc package
<gnu_srs> and in that message I have introduced a minimum timeout for poll
  of 1ms.
<braunr> yes but you shouldn't
<braunr> this is a *known* bug, and for now we have a distribution-specific
  patch
<braunr> in other words, we can't commit that crap upstream
<gnu_srs> well, according to youpi there is a need for a communication to
  flag when the FDs are ready, not yet implemented.
<braunr> i'm not sure what you mean by that
<youpi> I don't understand what you refer to
<braunr> there is a need for a full round-trip even in the non blocking
  case
<braunr> which is implemented in one of my hurd branches, but awaits
  pthreads integration for decent scalability
<youpi> the only difference between poll and select is that select can stop
  the loop on error, while poll needs to continue
<braunr> youpi: don't you think the glibc select patch is incomplete ?
<youpi> incomplete in what direction?
<youpi> the minimum 1ms delay is a completely bogus workaround
<gnu_srs> youpi:
  http://lists.gnu.org/archive/html/bug-hurd/2012-11/msg00001.html
<youpi> so I wouldn't say it's even completing anything :)
<braunr> hm no never mind, it's not
<braunr> i thought it missed some cases where the delay made sense, but no
<braunr> the timeout can only be 0 if the timeout parameter is non NULL
<braunr> gnu_srs: during your tests, do you run with the debian eglibc
  package (including your changes), or from the git glibc ?
<gnu_srs> I run with -37, -38, with my minimum poll changes, my 3 cases,
  and 3 case-poll updates.
<braunr> so you do have the debian patches
<braunr> so you normally have this 1ms hack
<braunr> which means you shouldn't need to make the poll case special
<gnu_srs> A admit the 1ms patch is not possible to submit upstream, but it
  makes things work (and youpi use it for vim)
<braunr> i'll try to reproduce your ntpdate problem with -38 when i have
  some time
<braunr> uh, no, vim actually doesn't use the hack :p
<youpi> gnu_srs: it's the contrary: we have to avoid it for vim
<gnu_srs>  if (strcmp(program_invocation_short_name, "vi") &&
  strcmp(program_invocation_short_name, "vim") &&
  strcmp(program_invocation_short_name, "vimdiff") && !to)
<gnu_srs>         to = 1;
<youpi> that does what we are saying
<braunr> strcmp returns 0 on equality
<gnu_srs> aha, OK then
<gnu_srs> I don't have that hack in my code. I have tested vim a little,
  but cannot judge, since I'm not a vi user.
<braunr> you don't ?
<braunr> you should have it if the package patches were correctly applied
<gnu_srs> Maybe somebody else could compile a libc with the 3-split code to
  test it out?
<braunr> that's another issue
<gnu_srs> I mean the patch I sent to the list, there the vi{m} hack is not
  present.
<braunr> well obviously
<braunr> but i'm asking about the poll_timeout one
<gnu_srs> A, OK, it's very easy to test that version too but currently -38
  maybe has a regression due to some other patch.
<braunr> that's another thing we're interested in
<gnu_srs> Unfortunately it takes a _long_ time to build a new version of
  libc (several hours...)
<braunr> -38 is already built
<gnu_srs> yes, but removing patches one by one and rebuilding.
<braunr> but then, the "regression" you mention concerns a package that
  wasn't really working before
<braunr> removing ?
<braunr> ah, to identify the trouble carrying one
<gnu_srs> ntpdate works with -37, no problem...
<gnu_srs> but not with -38
<braunr> again, trace it with -38
<braunr> to see on what it blocks
<gnu_srs> as I wrote yesterday gdb hangs the box hard and rpctrace bugs
  out, any ideas?
<youpi> printf
<braunr> gdb from a subhurd
<gnu_srs> I'm suspecting the setitimer patch: Without it gdb ntpdate does
  not freeze hard any longer, bt full: http://paste.debian.net/221491/
Program received signal SIGINT, Interrupt.
0x010477cc in mach_msg_trap ()
    at /usr/src/kernels/eglibc/eglibc-2.13/build-tree/hurd-i386-libc/mach/mach_msg_trap.S:2
2       kernel_trap (__mach_msg_trap,-25,7)
(gdb) thread apply all bt full

Thread 6 (Thread 3158.6):
#0  0x010477cc in mach_msg_trap ()
    at /usr/src/kernels/eglibc/eglibc-2.13/build-tree/hurd-i386-libc/mach/mach_msg_trap.S:2
No locals.
#1  0x01047fc9 in __mach_msg (msg=0x52fd4, option=1282, send_size=0, 
    rcv_size=0, rcv_name=132, timeout=100, notify=0) at msg.c:110
        ret = <optimized out>
#2  0x010ec3a8 in timer_thread () at ../sysdeps/mach/hurd/setitimer.c:90
        err = <optimized out>
        msg = {header = {msgh_bits = 4608, msgh_size = 32, 
            msgh_remote_port = 0, msgh_local_port = 132, msgh_seqno = 78, 
            msgh_id = 23100}, return_code = 17744699}

setitimer.c:90
      err = __mach_msg (&msg.header,
                        MACH_RCV_MSG|MACH_RCV_TIMEOUT|MACH_RCV_INTERRUPT,
                        0, 0, _hurd_itimer_port,
                        _hurd_itimerval.it_value.tv_sec * 1000 +
                        _hurd_itimerval.it_value.tv_usec / 1000,
                        MACH_PORT_NULL);

alarm setitimer.

<braunr> gdb ?
<braunr> i thought ntpdate was the program freezing
<gnu_srs> the freeze is due to -38
<braunr> yes we know that
<braunr> but why do you say "gdb ntpdate" instead of "ntpdate" ?
<gnu_srs> yes, ntpdate freezes: without gdb kill -9 is OK, with gdb it
  freezes hard (with setitimer pacth).
<braunr> we don't care much about the kill behaviour
<braunr> ntpdate does indeed makes direct calls to setitimer
<gnu_srs> without the setitimer patch: without gdb ntpdate freezes (C-c is
  OK), with gdb C-c gives the paste above
<braunr> sorry i don't understand
<braunr> *what* is the problem ?
<youpi> there are two of them
<youpi> ntpdate freezing
<youpi> gdb freezing
<braunr> ok
<youpi> he's saying gdb freezing is due to the setitimer patch
<braunr> yes that's what i understand now
<braunr> what he said earlier made me think ntpdate was freezing with -38
<gnu_srs> better: ntpdate hangs, gdb ntpdate freezes (with the setitimer
  patch)
<braunr> what's the behaviour in -37, and then what is the behaviour with
  -38 ?
<braunr> (of both actions, so your answer should give us four behaviours)
<youpi> gnu_srs: what is the difference between "hangs" and "freezes" ?
<gnu_srs> -37 no problem, both with and without gdb.
<braunr> you mean ntpdate doesn't freeze with -37, and does with -38 ?
<gnu_srs> hangs: kill -9 is sufficient, freezes: reboot, checking file
  system etc
<braunr> and i really mean ntpdate, not gdb whatever
<gnu_srs> the ntpdate hang (without the setitimer patch) in -38 can be due
  to the poll stuff: Have to check further with my poll patch...

IRC, freenode, #hurd, 2013-01-04

<gnu_srs> Summary of the eglibc-2.13-38 issues: without the
  unsubmitted-setitimer_fix.diff patch and with
<gnu_srs> my poll_timeout.patch fix in
  http://lists.gnu.org/archive/html/bug-hurd/2012-12/msg00042.html
<gnu_srs> ntpdate works again :)
<gnu_srs> please consider reworking the setitimer patch and add a poll case
  in hurdselect.c:-D 
<gnu_srs> Additional info: vim prefers to use select before poll,. With the
  proposed changes (small,3-split),
<gnu_srs> only poll is affected by the 1ms default timeout, i.e. the
  current vi hack is no longer needed.
<braunr> gnu_srs: the setitimer patch looks fine, and has real grounds
<braunr> gnu_srs: your poll_timeout doesn't
<braunr> so unless you can explain where the problem comes from, we
  shouldn't remove the setitimer patch and add yours
<braunr> in addition
<braunr> 09:30 < gnu_srs> only poll is affected by the 1ms default timeout,
  i.e. the current vi hack is no longer needed.
<braunr> that sentence is complete nonsense
<braunr> poll and select are implemented using the same rpc, which means
  they're both broken
<braunr> if the vi hack isn't needed, it means you broke every poll user
<braunr> btw, i think your ntpdate issue is very similar to the gitk one
<braunr> gitk currently doesn't work because of select/poll
<braunr> it does work fine with my hurd select branch though
<braunr> which clearly shows a more thorough change is required, and your
  hacks won't do any good (you may "fix" ntpdate, and break many other
  things)
<gnu_srs> braunr: Why don't you try ntpdate yourself on -38 (none of my
  patches applied)
<braunr> you're missing the point
<braunr> the real problem is the way select/poll is implemented, both at
  client *and* server sides
<gnu_srs> 09:30 etc: The current implementation is slower than the 3-way
  patch. Therefore it in not needed in the current implementation (I didn't
  propose that either)
<braunr> hacks at the client side only are pointless, whatever you do
<braunr> slower ?
<braunr> it's not about performance but correctness
<braunr> your hack *can't* solve the select/poll correctness issue
<gnu_srs> yes, slower on my kvm boxes...
<braunr> so it's normal that ntpdate and other applications such as gitk
  are broken
<braunr> if you try to fix it by playing with the timeout, you'll just
  break the applications that were fixed in the past by playing with the
  timeout another way
<braunr> can you understand that ?
<gnu_srs> forget the timeout default, it's a side issue.
<braunr> the *real* select/poll issue is that non blocking calls
  (timeout=0) don't have the time to make a full round trip at the server
<braunr> no it's not, it's the whole problem
<braunr> some applications work with a higher timeout, some like gitk don't
<braunr> ntpdate might act just the same
<gnu_srs> yes of course, and I have not addressed this problem either, I'm
  mostly interested in the 3-way split.
<braunr> well, it looks like you're trying to ..
<gnu_srs> to be able to submit my poll patches (not yet published)
<braunr> i suggest you postpone these changes until the underlying
  implementation works
<braunr> i strongly suspect the split to be useless
<braunr> we shouldn't need completely different paths just for this
  conformance issue
<braunr> so wait until select/poll is fixed, then test again
<gnu_srs> Read the POSIX stuff: poll and select are different.
<braunr> i know
<braunr> their expected behaviour is
<braunr> that's what needs to be addressed
<braunr> but you can't do that now, because there are other bugs in the way
<braunr> so you'll have a hard time making sure your changes do fix your
  issues, because the problems might be cause by the other problems
<gnu_srs> since you are the one who knows best, why don't you implement
  everything yourself.
<braunr> well, i did
<braunr> and i'm just waiting for the pthreads hurd to spread before
  adapting my select branch

libpthread.

<braunr> it won't fix the conformance issue, but it will fix the underlying
  implementation (the rpc)
<braunr> and then you'll have reliable results for the tests you're
  currently doing
<gnu_srs> why not even trying out the cases I found to have problems??
<braunr> because i now know why you're observing what you're observing
<braunr> i don't need my eyes to see it to actually imagine it clerly
<braunr> when i start gitk and it's hanging, i'm not thinking 'oh my, i
  need to hack glibc select/poll !!!'
<braunr> because i know the problem
<braunr> i know what needs to be done, i know how to do it, it will be done
  in time
<braunr> please try to think the same way ..
<braunr> you're fixing problems by pure guessing, without understanding
  what's really happenning
<gnu_srs> (10:59:17 AM) braunr: your hack *can't* solve the select/poll
  correctness issue: which hack?
<braunr> "please consider removing setitimer because it blocks my ntpdate"
<braunr> gnu_srs: all your select related patches
<braunr> the poll_timeout, the 3-way split, they just can't
<braunr> changes need to be made at the server side too
<braunr> you *may* have fixed the conformance issue related to what is
  returned, but since it get mixed with the underlying implementation
  problems, your tests aren't reliable
<gnu_srs> well some of the test code is from gnulib, their code is not
  reliable?
<braunr> their results aren't
<braunr> why is that so hard to understand for you ?
<gnu_srs> (11:08:05 AM) braunr: "please consider removing setitimer because
  it blocks my ntpdate": It's not my ntpdate, it's a program that fails to
  run on -38, but does on -37!
<braunr> it doesn't mean glibc -37 is right
<braunr> it just means the ntpdate case seems to be handled correctly
<braunr> a correct implementation is *ALWAYS* correct
<braunr> if there is one wrong case, it's not, and we know our select/poll
  implementation is wrong
<gnu_srs> no of course not, and the ntpdate implementation is not correct?
  file a bug upstream then.
<braunr> you're starting to say stupid things again
<braunr> ntpdate and gnulib tests can't be right if they use code that
  isn't right
<braunr> it doesn't mean they'll always fail either, the programs that fail
  are those for which select/poll behaves wrong
<braunr> same thing for setitimer btw
<braunr> we know it was wrong, and i think it was never working actually
<gnu_srs> where are the missing test cases then? maybe you should publish
  correct code so we can try it out?
<braunr> i have, but there are dependencies that prevent using it right now
<braunr> which is why i'm waiting for pthreads hurd to spread
<braunr> pthreads provide the necessary requirements for select to be
  correctly implemented at server side
<gnu_srs> well conformance with your code could be tested on Linux,
  kFreeBSD, etc
<braunr> ?
<braunr> i'm not writing test units
<gnu_srs> /code/test code/
<braunr> the problem is *NOT* the test code
<braunr> the problem is some of our system calls
<braunr> it's the same for ntpdate and gitk and all other users
<gnu_srs> then the gnulib, ntpdate, gitk code is _not_ wrong
<braunr> no, but their execution is, and thus their results
<braunr> which is ok, they're tests
<braunr> they're here precisely to tell us if one case works
<braunr> they must all pass to hope their subject is right
<braunr> so, again, since there are several problems with our low level
  calls, you may have fixed one, but still suffer from others
<braunr> so even if you did fix something, you may not consider the test
  failure as an indication that your fix is wrong
<braunr> but if you try to make your changes fix everything just to have
  results that look valid, it's certain to fail, since you only fix the
  client side, and it's *known* the server side must be changed too
<gnu_srs> do you consider unsubmitted-single-hurdselect-timeout.diff and
  local-select.diff a hack or not?
<braunr> the first isn't, since it fixes the correctness of the call for
  one case, at the cost of some performance
<braunr> the second clearly is
<braunr> which is the difference between unsubmitted-* and local-*
<gnu_srs> and my proposal to modify the first is a hack?
<braunr> yes
<braunr> it reverts a valid change to "make things work" whereas we know
  the previous behaviour was wrong
<braunr> that's close to the definition of a hack
<gnu_srs> "make things work" meaning breaking some applications?
<braunr> yes
<braunr> in this case, those using poll with one file descriptor and
  expecting a timeout, not twice the timeout
<braunr> well, your change isn't really a revert
<braunr> hum yes actually it is
<gnu_srs> the timeout is correct
<braunr> no, it looks correct
<braunr> how did you test it ?
<braunr> and same question as yesterday: why only poll ?
<gnu_srs> see the code I mentioned before
<braunr> no i won't look
<braunr> it doesn't explain anything
<gnu_srs> I have not found any problems with select, only poll (yes, this
  is a user perspective)
<braunr> that's what i call "pure guessing"
<braunr> you just can't explain why it fixes things
<braunr> because you don't know
<braunr> you don't understand what's really happening in the system
<braunr> there is a good idea in your change
<braunr> but merely for performance, not correctness
<braunr> (your change makes it possible to save the mach_msg receive if the
  io_select blocked, which is good, but not required)

See also alarm setitimer.

IRC, freenode, #hurd, 2013-01-22

<gnu_srs> youpi: Maybe it's overkill to have a separate case for DELAY; but
  it enhances readability (and simplifies a lot too)
<youpi> but it reduces factorization
<youpi> if select is already supposed to behave the same way as delay,
  there is no need for a separate code
<gnu_srs> OK; I'll make a two-way split then. What about POLL and nfds=0,
  timeout !=0?
<braunr> gnu_srs: handle nfds=0 as a pure timeout as the linux man page
  describes
<braunr> it makes sense, and as other popular systems do it, it's better to
  do it the same way
<braunr> and i disagree with you, factorization doesn't imply less
  readability
<gnu_srs> So you agree with me to have a special case for DELAY?
<gnu_srs> Coding style is a matter of taste: for me case a: case b: etc is
  more readable than "if then elseif then else ..."
<braunr> it's not coding style
<braunr> avoiding duplication is almost always best
<braunr> whatever the style
<braunr> i don't see the need for a special delay case
<braunr> it's the same mach_msg call
<braunr> (for now)
<braunr> gnu_srs: i'd say the only reason to duplicate is when you can't do
  otherwise
<gnu_srs> ways of coding then... And I agree with the idea of avoiding code
  duplication, ever heard of Literate Programming
<braunr> we'll need a "special case" when the timeout is handled at the
  server side, but it's like two lines ..

IRC, freenode, #hurd, 2013-02-11

<youpi> braunr: the libpthread hurd_cond_timedwait_np looks good to me
IRC, freenode, #hurd, 2013-02-15
<youpi> braunr: does cond_timedwait_np depend on the cancellation fix?
<braunr> yes
<youpi> ok
<braunr> the timeout fix
<youpi> so I also have to pull that into my glibc build
<braunr> (i fixed cancellation too because the cleanup routine had to be
  adjusted anyway
<braunr> )
<youpi> ah, and I need the patches hurd package too
<braunr> if unsure, you can check my packages
<youpi> ok, not for tonight then
<braunr> i listed the additional patches in the changelog
<youpi> yep, I'll probably use them

IRC, freenode, #hurd, 2013-02-11

<youpi> braunr: I don't understand one change in glibc:
<youpi> - err = __io_select (d[i].io_port, d[i].reply_port, 0, &type);
<youpi> + err = __io_select (d[i].io_port, d[i].reply_port, type);
<braunr> youpi: the waittime parameter ahs been removed
<braunr> has*
<youpi> where? when?
<braunr> in the hurd branch
<youpi> in the defs?
<braunr> yes
<youpi> I don't see this change
<youpi> only the addition of io_select_timeout
<braunr> hum
<youpi> also, io_select_timeout should be documented along io_select in
  hurd.texi
<braunr> be6e5b86bdb9055b01ab929cb6b6eec49521ef93
<braunr>     Selectively compile io_select{,_timeout} as a routine
<braunr>     * hurd/io.defs (io_select_timeout): Declare as a routine if
<braunr>     _HURD_IO_SELECT_ROUTINE is defined, or a simpleroutine
  otherwise.
<braunr>     (io_select): Likewise. In addition, remove the waittime
  timeout parameter.
<youpi> ah, it's in another commit
<braunr> yes, perhaps misplaced
<braunr> that's the kind of thing i want to polish
<braunr> my main issue currently is that time_data_t is passed by value
<braunr> i'm trying to pass it by address
<youpi> I don't know the details of routine vs simpleroutine
<braunr> it made sense for me to remove the waittime parameter at the same
  time as adding the _HURD_IO_SELECT_ROUTINE macro, since waittime is what
  allows glibc to use a synchronous RPC in an asynchronous way
<youpi> is it only a matter of timeout parameter?
<braunr> simpleroutine sends a message
<braunr> routine sends and receives
<braunr> by having a waittime parameter, _hurd_select could make io_select
  send a message and return before having a reply
<youpi> ah, that's why in glibc you replaced MACH_RCV_TIMED_OUT by 0
<braunr> yes
<youpi> it seems a bit odd to have a two-face call
<braunr> it is
<youpi> can't we just keep it as such?
<braunr> no
<youpi> damn
<braunr> well we could, but it really wouldn't make any sense
<youpi> why not?
<braunr> because the way select is implemented implies io_select doesn't
  expect a reply
<braunr> (except for the single df case but that's an optimization)
<braunr> fd*
<youpi> that's how it is already, yes?
<braunr> yes
<braunr> well yes and no
<braunr> that's complicated :)
<braunr> there are two passes
<braunr> let me check before saying anything ;p
<youpi> :)
<youpi> in the io_select(timeout=0) case, can it ever happen that we
  receive an answer?
<braunr> i don't think it is
<braunr> you mean non blocking right ?
<braunr> not infinite timeout
<youpi> I mean calling io_select with the timeout parameter being set to 0
<braunr> so yes, non blocking
<braunr> no, i think we always get MACH_RCV_TIMED_OUT
<youpi> for me non-blocking can mean a lot of things :)
<braunr> ok
<braunr> i was thinking mach_msg here
<braunr> ok so, let's not consider the single fd case
<braunr> the first pass simply calls io_select with a timeout 0 to send
  messages
<youpi> I don't think it's useful to try to optimize it
<youpi> it'd only lead to bugs :)
<braunr> me neither
<braunr> yes
<youpi> (as was shown :) )
<braunr> what seems useful to me however is to optimize the io_select call
<braunr> with a waittime parameter, the generated code is an RPC (send |
  receive)
<braunr> whereas, as a simpleroutine, it becomes a simple send
<youpi> ok
<youpi> my concern is that, as you change it, you change the API of the
  __io_select() function
<youpi> (from libhurduser)
<braunr> yes but glibc is the only user
<braunr> and actually no
<braunr> i mean
<braunr> i change the api at the client side only
<youpi> that's what I mean
<braunr> remember that io.Defs is almost full
<youpi> "full" ?
<braunr> i'm almost certain it becomes full with io_select_timeout
<braunr> there is a practical limit of 100 calls per interface iirc
<braunr> since the reply identifiers are request + 100
<youpi> are we at it already?
<braunr> i remember i had problems with it so probably
<youpi> but anyway, I'm not thinking about introducing yet another RPC
<youpi> but get a reasonable state of io_select
<braunr> i'l have to check that limit
<braunr> it looks wrong now
<braunr> or was it 50
<braunr> i don't remember :/
<braunr> i understand
<braunr> but what i can guarantee is that, while the api changes at the
  client side, it doesn't at the server side
<youpi> ideally, the client api of io_select could be left as it is, and
  libc use it as a simpleroutine
<youpi> sure, I understand that
<braunr> which means glibc, whether patched or not, still works fine with
  that call
<braunr> yes it could
<braunr> that's merely a performance optimization
<youpi> my concern is that an API depends on the presence of
  _HURD_IO_SELECT_ROUTINE, and backward compatibility being brought by
  defining it! :)
<braunr> yes
<braunr> i personally don't mind much
<youpi> I'd rather avoid the clutter
<braunr> what do you mean ?
<youpi> anything that avoids this situation
<youpi> like just using timeout = 0
<braunr> well, in that case, we'll have both a useless timeout at the
  client side
<braunr> and another call for truely passing a timeout
<braunr> that's also weird
<youpi> how so a useless timeout at the client side?
<braunr> 22:39 < youpi> - err = __io_select (d[i].io_port, d[i].reply_port,
  0, &type);
<braunr> 0 here is the waittime parameter
<youpi> that's a 0-timeout
<braunr> and it will have to be 0
<youpi> yes
<braunr> that's confusing
<youpi> ah, you mean the two io_select calls?
<braunr> yes
<youpi> but isn't that necessary for the several-fd case, anyway?
<braunr> ?
<braunr> if the io_select calls are simple routines, this useless waittime
  parameter can just be omitted like i did
<youpi> don't we *have* to make several calls when we select on several
  fds?
<braunr> suure but i don't see how it's related
<youpi> well then I don't see what optimization you are doing then
<youpi> except dropping a parameter
<youpi> which does not bring much to my standard :)
<braunr> a simpleroutine makes mach_msg take a much shorter path
<youpi> that the 0-timeout doesn't take?
<braunr> yes
<braunr> it's a send | receive
<youpi> ok, but that's why I asked before
<braunr> so there are a bunch of additional checks until the timeout is
  handled
<youpi> whether timeout=0 means we can't get a receive
<youpi> and thus the kernel could optimize
<braunr> that's not the same thing :)
<youpi> ok
<braunr> it's a longer path to the same result
<youpi> I'd really rather see glibc building its own private simpleroutine
  version of io_select
<youpi> iirc we already have such kind of thing
<braunr> ok
<braunr> well there are io_request and io_reply defs
<braunr> but i haven't seen them used anywhere
<braunr> but agreed, we should do that
<youpi> braunr: the prototype for io_select seems bogus in the io_request,
  id_tag is no more since ages :)
<braunr> youpi: yes
<braunr> youpi: i'll recreate my hurd branch with only one commit
<braunr> without the routine/simpleroutine hack
<braunr> and with time_data_t passed by address
<braunr> and perhaps other very minor changes
<youpi> braunr: the firstfd == -1 test needs a comment
<braunr> or better, i'll create a v2 branch to make it easy to compare them
<braunr> ok
<youpi> braunr: actually it's also the other branch of the if which needs a
  comment: "we rely on servers implementing the timeout"
<braunr> youpi: ok
<youpi> -                 (msg.success.result & SELECT_ALL) == 0)
<youpi> why removing that test?
<youpi> you also need to document the difference between got and ready
<braunr> hm i'll have to remember
<braunr> i wrote this code like a year ago :)
<braunr> almost
<youpi> AIUI, got is the number of replies
<braunr> but i think it has to do with error handling
<braunr> and
<braunr> +                       if (d[i].type)
<braunr> +                         ++ready;
<youpi> while ready is the number of successful replies
<braunr> is what replaces it
<braunr> youpi: yes
<braunr> the poll wrapper already normalizes the timeout parameter to
  _hurd_select
<braunr> no you probably don't
<braunr> the whole point of the patch is to remove this ugly hack
<braunr> youpi: ok so
<braunr> 23:24 < youpi> -                 (msg.success.result & SELECT_ALL)
  == 0)
<braunr> when a request times out
<youpi> ah, right
<braunr> we could get a result with no event
<braunr> and no error
<braunr> and this is what makes got != ready
<youpi> tell that to the source, not me :)
<braunr> sure :)
<braunr> i'm also saying it to myself
<braunr> ... :)
<youpi> right, using io_select_request() is only an optimization, which we
  can do later
<braunr> what i currently do is remove the waittime parameter from
  io_select
<braunr> what we'll do instead (soon) is let the parameter there to keep
  the API unchancged
<braunr> but always use a waittime of 0
<braunr> to make the mach_msg call non blocking
<braunr> then we'll try to get the io_request/io_reply definitions back so
  we can have simpleroutines (send only) version of the io RPCs
<braunr> and we'll use io_select_request (without a waittime)
<braunr> youpi: is that what you understood too ?
<youpi> yes
<youpi> (and we can do that later)
<braunr> gnu_srs: does it make more sense for you ?
<braunr> this change is quite sparsed so it's not easy to get the big
  picture
<braunr> sparse*
<braunr> it requires changes in libpthread, the hurd, and glibc
<youpi> the libpthread change can be almost forgotten
<youpi> it's just yet another cond_foo function :)
<braunr> well not if he's building his own packages
<youpi> right
<youpi> ok, apart from the io_select_request() and documenting the newer
  io_select_timeout(), the changes seem good to me
<braunr> youpi: actually, a send | timeout takes the slow path in mach_msg
<braunr> and i actually wonder if send | receive | timeout = 0 can get a
  valid reply from the server
<braunr> but the select code already handles that so it shouldn't be much
  of a problem
<youpi> k
IRC, freenode, #hurd, 2013-02-12
<braunr> hum
<braunr> io_select_timeout actually has to be a simpleroutine at the client
  side :/
<braunr> grmbl
<youpi> ah?
<braunr> otherwise it blocks
<youpi> how so?
<braunr> routines wait for replies
<youpi> even with timeout 0?
<braunr> there is no waittime for io_select_timeout
<braunr> adding one would be really weird
<youpi> oh, sorry, I thought you were talking about io_select
<braunr> it would be more interesting to directly use
  io_select_timeout_request
<braunr> but this means additional and separate work to make the
  request/reply defs up to date
<braunr> and used
<braunr> personally i don't mind, but it matters for wheezy
<braunr> youpi: i suppose it's not difficult to add .defs to glibc, is it ?
<braunr> i mean, make glibc build the stub code
<youpi> it's probably not difficult indeed
<braunr> ok then it's better to do that first
<youpi> yes
<youpi> there's faultexec for instance in hurd/Makefile
<braunr> ok
<youpi> or rather, apparently it'd be simply user-interfaces
<youpi> it'll probably be linked into libhurduser
<youpi> but with an odd-enough name it shouldn't matter
<braunr> youpi: adding io_request to the list does indeed build the RPCs :)
<braunr> i'll write a patch to sync io/io_reply/io_request
<braunr> youpi: oh by the way, i'm having a small issue with the
  io_{reply,request} interfaces
<braunr> the generated headers both share the same enclosing macro
  (_io_user)
<braunr> so i'm getting compiler warning
<braunr> s
<youpi> we could fix that quickly in mig, couldn't we?
<braunr> youpi: i suppose, yes, just mentioning
IRC, freenode, #hurd, 2013-02-19
<youpi> in the hurdselect.c code, I'd rather see it td[0]. rather than
  td->
<braunr> ok
<youpi> otherwise it's frownprone
<youpi> (it has just made me frown :) )
<braunr> yes, that looked odd to me too, but at the same time, i didn't
  want it to seem to contain several elements
<youpi> I prefer it to look like there could be several elements (and then
  the reader has to find out how many, i.e. 1), rather than it to look like
  the pointer is not initialized
<braunr> right
<youpi> I'll also rather move that code further
<youpi> so the preparation can set timeout to 0
<youpi> (needed for poll)
<youpi> how about turning your branch into a tg branch?
<braunr> feel free to add your modifications on top of it
<braunr> sure
<youpi> ok
<youpi> I'll handle these then
<braunr> youpi: i made an updated changelog entry in the
  io_select_timeout_v3 branch
<youpi> could you rather commit that to the t/io_select_timeout branch I've
  just created?
<braunr> i mean, i did that a few days ago
<youpi> (in the .topmsg file)
<youpi> ah
<youpi> k
IRC, freenode, #hurd, 2013-02-26
<braunr> youpi: i've just pushed a rbraun/select_timeout_pthread_v4 branch
  in the hurd repository that includes the changes we discussed yesterday
<braunr> untested, but easy to compare with the previous version
IRC, freenode, #hurd, 2013-02-27
<youpi> braunr: io_select_timeout seems to be working fine here
<youpi> braunr: I feel like uploading them to debian-ports, what do you
  think?
<braunr> youpi: the packages i rebuild last night work fine too

See Also

See also select bogus fd and select vs signals.