Re: cpuisol: CPU isolation extensions (take 2)
CC'ing linux-rt-users because I think my explanation below may be interesting for the RT folks. Mark Hounschell wrote: Max Krasnyanskiy wrote: With CPU isolation it's very easy to achieve single digit usec worst case and around 200 nsec average response times on off-the-shelf multi- processor/core systems (vanilla kernel plus these patches) even under exteme system load. Hi Max, could you elaborate on what sort events your response times are from? Sure. As I mentioned before I'm working with our legal team on releasing hard RT engine that uses isolated CPUs. You can think of that engine as a giant SW PLL. It requires a time source that it locks on to. For example the time source can be the kernel clock (gtod), some kind of memory mapped counter, or some external event. In my case the HW sends me an Ethernet packet every 24 millisecond. Once the PLL locks onto the timesource the engine executes a predefined "timeline". The timeline basically specifies tasks with offsets in nanoseconds from the start of the cycle (ie "at 100 nsec run task1", "at 15000 run task2", etc). The tasks are just callbacks. The jitter in running those tasks is what I meant by "response time". Essentially it's a polling design where SW knows precisely when to expect an event. It's not a general purpose solution but works beautifully for things like wireless PHY/MAC layers were the framing structure is very deterministic and must be strictly enforced. It works for other applications as well once you get your head wrapped around the idea :). ie That you do not get interrupts for every single event, the SW already knows when that even will come. btw The engine also enforces the deadlines. For example it knows right away if a task is late and it knows exactly how late. That helps in debugging, a lot :). The other option is to run normal pthreads on the isolated CPUs. As long as the threads are carefully designed not to do certain things you can get very decent worst case latencies (10-12 usec on Opterons and Core2) even with vanilla kernels (patched with the isolation patches of course) because all the latency sources have been removed from those CPUs. Max -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: cpuisol: CPU isolation extensions (take 2)
Max Krasnyanskiy wrote: > With CPU isolation > it's very easy to achieve single digit usec worst case and around 200 > nsec average response times on off-the-shelf > multi- processor/core systems (vanilla kernel plus these patches) even > under exteme system load. Hi Max, could you elaborate on what sort events your response times are from? Regards Mark -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: Integrating cpusets and cpu isolation [was Re: [CPUISOL] CPU isolation extensions]
Paul Jackson wrote: > Max K wrote: >>> And for another thing, we already declare externs in cpumask.h for >>> the other, more widely used, cpu_*_map variables cpu_possible_map, >>> cpu_online_map, and cpu_present_map. >> Well, to address #2 and #3 isolated map will need to be exported as well. >> Those other maps do not really have much to do with the scheduler code. >> That's why I think either kernel/cpumask.c or kernel/cpu.c is a better place >> for them. > > Well, if you have need it to be exported for #2 or #3, then that's ok > by me - export it. > > I'm unaware of any kernel/cpumask.c. If you meant lib/cpumask.c, then > I'd prefer you not put it there, as lib/cpumask.c just contains the > implementation details of the abstract data type cpumask_t, not any of > its uses. If you mean kernel/cpuset.c, then that's not a good choice > either, as that just contains the implementation details of the cpuset > subsystem. You should usually define such things in one of the files > using it, and unless there is clearly a -better- place to move the > definition, it's usually better to just leave it where it is. I was thinking of creating the new file kernel/cpumask.c. But it probably does not make sense just for the masks. I'm now thinking kernel/cpu.c is the best place for it. It contains all the cpu hotplug logic that deals with those maps at the very top it has stuff like /* Serializes the updates to cpu_online_map, cpu_present_map */ static DEFINE_MUTEX(cpu_add_remove_lock); So it seems to make sense to keep the maps in there. Max -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: Integrating cpusets and cpu isolation [was Re: [CPUISOL] CPU isolation extensions]
Max K wrote: > > And for another thing, we already declare externs in cpumask.h for > > the other, more widely used, cpu_*_map variables cpu_possible_map, > > cpu_online_map, and cpu_present_map. > Well, to address #2 and #3 isolated map will need to be exported as well. > Those other maps do not really have much to do with the scheduler code. > That's why I think either kernel/cpumask.c or kernel/cpu.c is a better place > for them. Well, if you have need it to be exported for #2 or #3, then that's ok by me - export it. I'm unaware of any kernel/cpumask.c. If you meant lib/cpumask.c, then I'd prefer you not put it there, as lib/cpumask.c just contains the implementation details of the abstract data type cpumask_t, not any of its uses. If you mean kernel/cpuset.c, then that's not a good choice either, as that just contains the implementation details of the cpuset subsystem. You should usually define such things in one of the files using it, and unless there is clearly a -better- place to move the definition, it's usually better to just leave it where it is. -- I won't rest till it's the best ... Programmer, Linux Scalability Paul Jackson <[EMAIL PROTECTED]> 1.940.382.4214 -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
CPU isolation and workqueues [was Re: [CPUISOL] CPU isolation extensions]
Peter Zijlstra wrote: On Mon, 2008-01-28 at 14:00 -0500, Steven Rostedt wrote: On Mon, 28 Jan 2008, Max Krasnyanskiy wrote: [PATCH] [CPUISOL] Support for workqueue isolation The thing about workqueues is that they should only be woken on a CPU if something on that CPU accessed them. IOW, the workqueue on a CPU handles work that was called by something on that CPU. Which means that something that high prio task did triggered a workqueue to do some work. But this can also be triggered by interrupts, so by keeping interrupts off the CPU no workqueue should be activated. No no no. That's what I though too ;-). The problem is that things like NFS and friends expect _all_ their workqueue threads to report back when they do certain things like flushing buffers and stuff. The reason I added this is because my machines were getting stuck because CPU0 was waiting for CPU1 to run NFS work queue threads even though no IRQs or other things are running on it. This sounds more like we should fix NFS than add this for all workqueues. Again, we want workqueues to run on the behalf of whatever is running on that CPU, including those tasks that are running on an isolcpu. agreed, by looking at my top output (and not the nfs code) it looks like it just spawns a configurable number of active kernel threads which are not cpu bound by in any way. I think just removing the isolated cpus from their runnable mask should take care of them. Peter, Steven, I think I convinced you guys last time but I did not have a convincing example. So here is some more info on why workqueues need to be aware of isolated cpus. Here is how a work queue gets flushed. static int flush_cpu_workqueue(struct cpu_workqueue_struct *cwq) { int active; if (cwq->thread == current) { /* * Probably keventd trying to flush its own queue. So simply run * it by hand rather than deadlocking. */ run_workqueue(cwq); active = 1; } else { struct wq_barrier barr; active = 0; spin_lock_irq(&cwq->lock); if (!list_empty(&cwq->worklist) || cwq->current_work != NULL) { insert_wq_barrier(cwq, &barr, 1); active = 1; } spin_unlock_irq(&cwq->lock); if (active) wait_for_completion(&barr.done); } return active; } void fastcall flush_workqueue(struct workqueue_struct *wq) { const cpumask_t *cpu_map = wq_cpu_map(wq); int cpu; might_sleep(); lock_acquire(&wq->lockdep_map, 0, 0, 0, 2, _THIS_IP_); lock_release(&wq->lockdep_map, 1, _THIS_IP_); for_each_cpu_mask(cpu, *cpu_map) flush_cpu_workqueue(per_cpu_ptr(wq->cpu_wq, cpu)); } In other words it schedules some work on each cpu and expects workqueue thread to run and trigger the completion. This is what I meant that _all_ threads are expected to report back even if there is nothing running on that CPU. So my patch simply makes sure that isolated CPUs are ignored (if work queue isolation is enabled) that work queue threads are not started on isolated in the CPUs that are isolated. Max -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: Integrating cpusets and cpu isolation [was Re: [CPUISOL] CPU isolation extensions]
Paul Jackson wrote: Max wrote: Looks like I failed to explain what I'm trying to achieve. So let me try again. Well done. I read through that, expecting to disagree or at least to not understand at some point, and got all the way through nodding my head in agreement. Good. Whether the earlier confusions were lack of clarity in the presentation, or lack of competence in my brain ... well guess I don't want to ask that question ;). :) Well ... just one minor point: Max wrote in reply to pj: The cpu_isolated_map is a file static variable known only within the kernel/sched.c file; this should not change. I completely disagree. In fact I think all the cpu_xxx_map (online, present, isolated) variables do not belong in the scheduler code. I'm thinking of submitting a patch that factors them out into kernel/cpumask.c We already have cpumask.h. Huh? Why would you want to do that? For one thing, the map being discussed here, cpu_isolated_map, is only used in sched.c, so why publish it wider? And for another thing, we already declare externs in cpumask.h for the other, more widely used, cpu_*_map variables cpu_possible_map, cpu_online_map, and cpu_present_map. Well, to address #2 and #3 isolated map will need to be exported as well. Those other maps do not really have much to do with the scheduler code. That's why I think either kernel/cpumask.c or kernel/cpu.c is a better place for them. Other than that detail, we seem to be communicating and in agreement on your first item, isolating CPU scheduler load balancing. Good. On your other two items, irq and workqueue isolation, which I had suggested doing via cpuset sched_load_balance, I now agree that that wasn't a good idea. I am still a little surprised at using isolation extensions to disable irqs on select CPUs; but others have thought far more about irqs than I have, so I'll be quiet. Please note that we're not talking about completely disabling IRQs. We're talking about not routing them to the isolated CPUs by default. It's still possible to explicitly reroute an IRQ to the isolated CPU. Why is this needed ? It is actually very easy to explain. IRQs are the major source of latency and overhead. IRQ handlers themselves are mostly ok but they typically schedule soft irqs, work queues and timers on the same CPU where an IRQ is handled. In other words if an isolated CPU is receiving IRQs it's not really isolated, because it's running a whole bunch of different kernel code (ie we're talking latencies, cache usage, etc). If course some folks may want to explicitly route certain IRQs to the isolated CPUs. For example if an app depends on the network stack it may make sense to route an IRQ from the NIC to the same CPU the app is running on. Max -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: Integrating cpusets and cpu isolation [was Re: [CPUISOL] CPU isolation extensions]
Max wrote: > Looks like I failed to explain what I'm trying to achieve. So let me try > again. Well done. I read through that, expecting to disagree or at least to not understand at some point, and got all the way through nodding my head in agreement. Good. Whether the earlier confusions were lack of clarity in the presentation, or lack of competence in my brain ... well guess I don't want to ask that question ;). Well ... just one minor point: Max wrote in reply to pj: > > The cpu_isolated_map is a file static variable known only within > > the kernel/sched.c file; this should not change. > I completely disagree. In fact I think all the cpu_xxx_map (online, present, > isolated) > variables do not belong in the scheduler code. I'm thinking of submitting a > patch that > factors them out into kernel/cpumask.c We already have cpumask.h. Huh? Why would you want to do that? For one thing, the map being discussed here, cpu_isolated_map, is only used in sched.c, so why publish it wider? And for another thing, we already declare externs in cpumask.h for the other, more widely used, cpu_*_map variables cpu_possible_map, cpu_online_map, and cpu_present_map. Other than that detail, we seem to be communicating and in agreement on your first item, isolating CPU scheduler load balancing. Good. On your other two items, irq and workqueue isolation, which I had suggested doing via cpuset sched_load_balance, I now agree that that wasn't a good idea. I am still a little surprised at using isolation extensions to disable irqs on select CPUs; but others have thought far more about irqs than I have, so I'll be quiet. -- I won't rest till it's the best ... Programmer, Linux Scalability Paul Jackson <[EMAIL PROTECTED]> 1.940.382.4214 -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
Hi Daniel, Sorry for not replying right away. Daniel Walker wrote: > On Mon, 2008-01-28 at 16:12 -0800, Max Krasnyanskiy wrote: > >> Not accurate enough and way too much overhead for what I need. I know at >> this point it probably >> sounds like I'm talking BS :). I wish I've released the engine and examples >> by now. Anyway let >> me just say that SW MAC has crazy tight deadlines with lots of small tasks. >> Using nanosleep() & >> gettimeofday() is simply not practical. So it's all TSC based with clever >> time sync logic between >> HW and SW. > > I don't know if it's BS or not, you clearly fixed your own problem which > is good .. Although when you say "RT patches cannot achieve what I > needed. Even RTAI/Xenomai can't do that." , and HRT is "Not accurate > enough and way too much overhead" .. Given the hardware your using, > that's all difficult to believe.. You also said this code has been > running on production systems for two year, which means it's at least > two years old .. There's been some good sized leaps in real time linux > in the past two years .. I've been actually tracking RT patches fairly closely. I can't say I tried all of them but I do try them from time to time. I just got latest 2.6.24-rt1 running on HP xw9300. Looks like it does not handle CPU hotplug very well, I manged to kill it by bringing cpu 1 off-line. So I cannot run any tests right now will run some tomorrow. For now let me mention that I have a simple tests that sleeps for a millisecond, then does some bitbanging for 200 usec. It measures jitter caused by the periodic scheduler tick, IPIs and other kernel activities. With high-res timers disabled on most of the machines I mentioned before it shows around 1-1.2usec worst case. With high-res timers enabled it shows 5-6usec. This is with 2.6.24 running on an isolated CPU. Forget about using a user-space timer (nanosleep(), etc). Even scheduler tick itself is fairly heavy. gettimeofday() call on that machine takes on average 2-3usec (not a vsyscall) and SW MAC is all about precise timing. That's why I said that it's not practical to use that stuff for me. I do not see anything in -rt kernel that would improve this. This is btw not to say that -rt kernel is not useful for my app in general. We have a bunch of soft-RT threads that talk to the MAC thread. Those would definitely benefit. I think cpu isolation + -rt would work beautifully for wireless basestations. Max -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: Integrating cpusets and cpu isolation [was Re: [CPUISOL] CPU isolation extensions]
Paul Jackson wrote: > Max wrote: >> Paul, I actually mentioned at the beginning of my email that I did read that >> thread >> started by Peter. I did learn quite a bit from it :) > > Ah - sorry - I missed that part. However, I'm still getting the feeling > that there were some key points in that thread that we have not managed > to communicate successfully. I think you are assuming that I only need to deal with RT scheduler and scheduler domains which is not correct. See below. >> Sounds like at this point we're in agreement that sched_load_balance is not >> suitable >> for what I'd like to achieve. > > I don't think we're in agreement; I think we're in confusion ;) Yeah. I don't believe I'm the confused side though ;-) > Yes, sched_load_balance does not *directly* have anything to do with this. > > But indirectly it is a critical element in what I think you'd like to > achieve. It affects how the cpuset code sets up sched_domains, and > if I understand correctly, you require either (1) some sched_domains to > only contain RT tasks, or (2) some CPUs to be in no sched_domain at all. > > Proper configuration of the cpuset hierarchy, including the setting of > the per-cpuset sched_load_balance flag, can provide either of these > sched_domain partitions, as desired. Again you're assuming that scheduling domain partitioning satisfies my requirements or addresses my use case. It does not. See below for more details. >> But how about making cpusets aware of the cpu_isolated_map ? > > No. That's confusing cpusets and the scheduler again. > > The cpu_isolated_map is a file static variable known only within > the kernel/sched.c file; this should not change. I completely disagree. In fact I think all the cpu_xxx_map (online, present, isolated) variables do not belong in the scheduler code. I'm thinking of submitting a patch that factors them out into kernel/cpumask.c We already have cpumask.h. > Presently, the boot parameter isolcpus= is just used to initialize > what CPUs are isolated at boot, and then the sched_domain partitioning, > as done in kernel/sched.c:partition_sched_domains() (the hook into > the sched code that cpusets uses) determines which CPUs are isolated > from that point forward. I doubt that this should change either. Sure, I did not even touch that part. I just proposed to extend the meaning of the 'isolated' bit. > In that thread referenced above, did you see the part where RT is > achieved not by isolating CPUs from any scheduler, but rather by > polymorphically having several schedulers available to operate on each > sched_domain, and having RT threads self-select the RT scheduler? Absolutely. Yes that is. I saw that part. But it has nothing to do with my use case. Looks like I failed to explain what I'm trying to achieve. So let me try again. I'd like to be able to run a CPU intensive (%100) RT task on one of the processors without adversely affecting or being affected by the other system activities. System activities here include _kernel_ activities as well. Hence the proposal is to extend current CPU isolation feature. The new definition of the CPU isolation would be: --- 1. Isolated CPU(s) must not be subject to scheduler load balancing Users must explicitly bind threads in order to run on those CPU(s). 2. By default interrupts must not be routed to the isolated CPU(s) User must route interrupts (if any) explicitly. 3. In general kernel subsystems must avoid activity on the isolated CPU(s) as much as possible Includes workqueues, per CPU threads, etc. This feature is configurable and is disabled by default. --- #1 affects scheduler and scheduler domains. It's already supported either by using isolcpus= boot option or by setting "sched_load_balance" in cpusets. I'm totally happy with the current behavior and my original patch did not mess with this functionality in any way. #2 and #3 have _nothing_ to do with the scheduler or scheduler domains. I've been trying to explain that for a few days now ;-). When you saw my patches for #2 and #3 you told me that you'd be interested to see them implemented on top of the "sched_load_balance" flag. Here is your original reply http://marc.info/?l=linux-kernel&m=120153260217699&w=2 So I looked into that and provided an explanation why it would not work or would work but would add lots of complexity (access to internal cpuset structures, locking, etc). My email on that is here: http://marc.info/?l=linux-kernel&m=120180692331461&w=2 Now, I felt from the beginning that cpusets is not the right mechanism to address number #2 and #3. The best mechanism IMO is to simply provide an access to the cpu_isolated_map to the rest of the kernel. Again the fact that cpu_isolated_map currently lives in the scheduler code does not change anything here because as I explained I'm proposing to extend the meaning of the "CPU isolation". I provided dynamic access to the "isolated" bit only fo
Re: Integrating cpusets and cpu isolation [was Re: [CPUISOL] CPU isolation extensions]
Max wrote: > Paul, I actually mentioned at the beginning of my email that I did read that > thread > started by Peter. I did learn quite a bit from it :) Ah - sorry - I missed that part. However, I'm still getting the feeling that there were some key points in that thread that we have not managed to communicate successfully. > Sounds like at this point we're in agreement that sched_load_balance is not > suitable > for what I'd like to achieve. I don't think we're in agreement; I think we're in confusion ;) Yes, sched_load_balance does not *directly* have anything to do with this. But indirectly it is a critical element in what I think you'd like to achieve. It affects how the cpuset code sets up sched_domains, and if I understand correctly, you require either (1) some sched_domains to only contain RT tasks, or (2) some CPUs to be in no sched_domain at all. Proper configuration of the cpuset hierarchy, including the setting of the per-cpuset sched_load_balance flag, can provide either of these sched_domain partitions, as desired. > But how about making cpusets aware of the cpu_isolated_map ? No. That's confusing cpusets and the scheduler again. The cpu_isolated_map is a file static variable known only within the kernel/sched.c file; this should not change. Presently, the boot parameter isolcpus= is just used to initialize what CPUs are isolated at boot, and then the sched_domain partitioning, as done in kernel/sched.c:partition_sched_domains() (the hook into the sched code that cpusets uses) determines which CPUs are isolated from that point forward. I doubt that this should change either. In that thread referenced above, did you see the part where RT is achieved not by isolating CPUs from any scheduler, but rather by polymorphically having several schedulers available to operate on each sched_domain, and having RT threads self-select the RT scheduler? -- I won't rest till it's the best ... Programmer, Linux Scalability Paul Jackson <[EMAIL PROTECTED]> 1.940.382.4214 -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: Integrating cpusets and cpu isolation [was Re: [CPUISOL] CPU isolation extensions]
Paul Jackson wrote: > Max wrote: >> Here is the list of things of issues with sched_load_balance flag from CPU >> isolation >> perspective: > > A separate thread happened to start up on lkml.org, shortly after > yours, that went into this in considerable detail. > > For example, the interaction of cpusets, sched_load_balance, > sched_domains and real time scheduling is examined in some detail on > this thread. Everyone participating on that thread learned something > (we all came into it with less than a full picture of what's there.) > > I would encourage you to read it closely. For example, the scheduler > code should not be trying to access per-cpuset attributes such as > the sched_load_balance flag (you are correct that this would be > difficult to do because of the locking; however by design, that is > not to be done.) > > This thread begins at: > > scheduler scalability - cgroups, cpusets and load-balancing > http://lkml.org/lkml/2008/1/29/60 > > Too bad we didn't think to include you in the CC list of that > thread from the beginning. Paul, I actually mentioned at the beginning of my email that I did read that thread started by Peter. I did learn quite a bit from it :) You guys did not discuss isolation stuff though. The thread was only about scheduling and my cpu isolation extension patches deal with other aspects. Sounds like at this point we're in agreement that sched_load_balance is not suitable for what I'd like to achieve. But how about making cpusets aware of the cpu_isolated_map ? Even without my patches it's somewhat of an issue right now. I mean of you use isolcpus= boot option to put cpus into null domain, cpusets will not be aware of it. The result maybe a bit confusing if an isolated cpu is added to some cpuset. Max -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: Integrating cpusets and cpu isolation [was Re: [CPUISOL] CPU isolation extensions]
Max wrote: > Here is the list of things of issues with sched_load_balance flag from CPU > isolation > perspective: A separate thread happened to start up on lkml.org, shortly after yours, that went into this in considerable detail. For example, the interaction of cpusets, sched_load_balance, sched_domains and real time scheduling is examined in some detail on this thread. Everyone participating on that thread learned something (we all came into it with less than a full picture of what's there.) I would encourage you to read it closely. For example, the scheduler code should not be trying to access per-cpuset attributes such as the sched_load_balance flag (you are correct that this would be difficult to do because of the locking; however by design, that is not to be done.) This thread begins at: scheduler scalability - cgroups, cpusets and load-balancing http://lkml.org/lkml/2008/1/29/60 Too bad we didn't think to include you in the CC list of that thread from the beginning. -- I won't rest till it's the best ... Programmer, Linux Scalability Paul Jackson <[EMAIL PROTECTED]> 1.940.382.4214 -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
Hi Mark, [EMAIL PROTECTED] wrote: Following patch series extends CPU isolation support. Yes, most people want to virtuallize CPUs these days and I want to isolate them :). The primary idea here is to be able to use some CPU cores as dedicated engines for running user-space code with minimal kernel overhead/intervention, think of it as an SPE in the Cell processor. We've had scheduler support for CPU isolation ever since O(1) scheduler went it. I'd like to extend it further to avoid kernel activity on those CPUs as much as possible. In fact that the primary distinction that I'm making between say "CPU sets" and "CPU isolation". "CPU sets" let you manage user-space load while "CPU isolation" provides a way to isolate a CPU as much as possible (including kernel activities). I'm personally using this for hard realtime purposes. With CPU isolation it's very easy to achieve single digit usec worst case and around 200 nsec average response times on off-the-shelf multi- processor/core systems under exteme system load. I'm working with legal folks on releasing hard RT user-space framework for that. I can also see other application like simulators and stuff that can benefit from this. I've been maintaining this stuff since around 2.6.18 and it's been running in production environment for a couple of years now. It's been tested on all kinds of machines, from NUMA boxes like HP xw9300/9400 to tiny uTCA boards like Mercury AXA110. The messiest part used to be SLAB garbage collector changes. With the new SLUB all that mess goes away (ie no changes necessary). Also CFS seems to handle CPU hotplug much better than O(1) did (ie domains are recomputed dynamically) so that isolation can be done at any time (via sysfs). So this seems like a good time to merge. Anyway. The patchset consist of 5 patches. First three are very simple and non-controversial. They simply make "CPU isolation" a configurable feature, export cpu_isolated_map and provide some helper functions to access it (just like cpu_online() and friends). Last two patches add support for isolating CPUs from running workqueus and stop machine. More details in the individual patch descriptions. Ideally I'd like all of this to go in during this merge window. If people think it's acceptable Linus or Andrew (or whoever is more appropriate Ingo maybe) can pull this patch set from git://git.kernel.org/pub/scm/linux/kernel/git/maxk/cpuisol-2.6.git It's good to see hear from someone else that thinks a multi-processor box _should_ be able to run a CPU intensive (%100) RT app on one of the processors without adversely affecting or being affected by the others. I have had issues that were _traced_ back to the fact that I am doing just that. All I got was, you can't do that or we don't support that kind of thing in the Linux kernel. One example, Andrew Mortons feedback to the LKML thread "floppy.c soft lockup" Good luck with this. I hope this gets someones attention. Thanks for the support. I do the best I can because just like you I believe that it's a perfectly valid workload and there a lot of interesting applications that will benefit from mainline support. BTW, I have tried your patches against a vanilla 2.6.24 kernel but am not successful. # echo '1' > /sys/devices/system/cpu/cpu1/isolated bash: echo: write error: Device or resource busy You have to bring it offline first. In other words: echo 0 > /sys/devices/system/cpu/cpu1/online echo 1 > /sys/devices/system/cpu/cpu1/isolated echo 1 > /sys/devices/system/cpu/cpu1/online The cpuisol=1 cmdline option yields: harley:# cat /sys/devices/system/cpu/cpu1/isolated 0 harley:# cat /proc/cmdline root=/dev/sda3 vga=normal apm=off selinux=0 noresume splash=silent kmalloc=192M cpuisol=1 Sorry my bad. I had a typo in the patch description the option is "isolcpus=N". We've had that option for awhile now. I mean it's not even part of my patch. Thanx Max -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Integrating cpusets and cpu isolation [was Re: [CPUISOL] CPU isolation extensions]
Paul Jackson wrote: Max wrote: So far it seems that extending cpu_isolated_map is more natural way of propagating this notion to the rest of the kernel. Since it's very similar to the cpu_online_map concept and it's easy to integrated with the code that already uses it. If it were just realtime support, then I suspect I'd agree that extending cpu_isolated_map makes more sense. But some people use realtime on systems that are also heavily managed using cpusets. The two have to work together. I have customers with systems running realtime on a few CPUs, at the same time that they have a large batch scheduler (which is layered on top of cpusets) managing jobs on a few hundred other CPUs. Hence with the cpuset 'sched_load_balance' flag I think I've already done what I think is one part of what your patches achieve by extending the cpu_isolated_map. This is a common situation with "resource management" mechanisms such as cpusets (and more recently cgroups and the subsystem modules it supports.) They cut across existing core kernel code that manages such key resources as CPUs and memory. As best we can, they have to work with each other. Hi Paul, I thought some more about your proposal to use sched_load_balance flag in cpusets instead of extending cpu_isolated_map. I looked at the cpusets, cgroups, latest thread started by Peter (about sched domains and stuff) and here are my thoughts on this. Here is the list of things of issues with sched_load_balance flag from CPU isolation perspective: -- (1) Boot time isolation is not possible. There is currently no way to setup a cpuset at boot time. For example we won't be able to isolate cpus from irqs and workqueues at boot. Not a major issue but still an inconvenience. -- (2) There is currently no easy way to figure out what cpuset a cpu belongs to in order to query it's sched_load_balance flag. In order to do that we need a method that iterates all active cpusets and checks their cpus_allowed masks. This implies holding cgroup and cpuset mutexes. It's not clear whether it's ok to do that from the the contexts CPU isolation happens in (apic, sched, workqueue). It seems that cgroup/cpuset api is designed from top down access. ie adding a cpu to a set and then recomputing domains. Which makes perfect sense for the common cpuset usecase but is not what cpu isolation needs. In other words I think it's much simpler and cleaner to use the cpu_isolated_map for isolation purposes. -- (3) cpusets are a bit too dynamic :). What I mean by this is that sched_load_balance flag can be changed at any time without bringing a CPU offline. What that means is that we'll need some notifier mechanisms for killing and restarting workqueue threads when that flag changes. Also we'd need some logic that makes sure that a user does not disable load balancing on all cpus because that effectively will kill workqueues on all the cpus. This particular case is already handled very nicely in my patches. Isolated bit can be set only when cpu is offline and it cannot be set on the first online cpu. Workqueus and other subsystems already handle cpu hotplug events nicely and can easily ignore isolated cpus when they come online. - #1 is probably unfixable. #2 and #3 can be fixed but at the expense of extra complexity across the board. I seriously doubt that I'll be able to push that through the reviews ;-). Also personally I still think cpusets and cpu isolation attack two different problems. cpusets is about partitioning cpus and memory nodes, and managing tasks. Most of the cgroups/cpuset APIs are designed to deal with tasks. CPU isolation is much simpler and is at the lower layer. It deals with IRQs, kernel per cpu threads, etc. The only intersection I see is that both features affect scheduling domains (cpu isolation is again simple here it just puts cpus into null domains and that's an existing logic in sched.c nothing new here). So here are some proposal on how we can make them play nicely with each other. -- (A) Make cpusets aware of isolated cpus. All we have to do here is to change guarantee_online_cpus() common_cpu_mem_hotplug_unplug() to exclude cpu_isolated_map from cpu_online_map before using it. And we'd need to change update_cpumasks() to simply ignore isolated cpus. That way if a cpu is isolated it'll be ignored by the cpusets logic. Which I believe would be correct behavior. We're talking trivial ~5 liner patch which will be noop if cpu isolation is disabled. (B) Ignore isolated map in cpuset. That's the current state of affairs with my patches applied. Looks like your customers are happy with what they have now so they will probably not enable cpu isolation anyway :). (C) Introduce cpu_usable_map. That map will be recomputed on hotplug events. Essentially it'd be cpu_online_map AND ~cpu_isolated_map. Convert things like cpusets to use that map instead of online map. We can probably come up with other opti
Re: [CPUISOL] CPU isolation extensions
[EMAIL PROTECTED] wrote: > Following patch series extends CPU isolation support. Yes, most people want > to virtuallize > CPUs these days and I want to isolate them :). > The primary idea here is to be able to use some CPU cores as dedicated > engines for running > user-space code with minimal kernel overhead/intervention, think of it as an > SPE in the > Cell processor. > > We've had scheduler support for CPU isolation ever since O(1) scheduler went > it. > I'd like to extend it further to avoid kernel activity on those CPUs as much > as possible. > In fact that the primary distinction that I'm making between say "CPU sets" > and > "CPU isolation". "CPU sets" let you manage user-space load while "CPU > isolation" provides > a way to isolate a CPU as much as possible (including kernel activities). > > I'm personally using this for hard realtime purposes. With CPU isolation it's > very easy to > achieve single digit usec worst case and around 200 nsec average response > times on off-the-shelf > multi- processor/core systems under exteme system load. I'm working with > legal folks on releasing > hard RT user-space framework for that. > I can also see other application like simulators and stuff that can benefit > from this. > > I've been maintaining this stuff since around 2.6.18 and it's been running in > production > environment for a couple of years now. It's been tested on all kinds of > machines, from NUMA > boxes like HP xw9300/9400 to tiny uTCA boards like Mercury AXA110. > The messiest part used to be SLAB garbage collector changes. With the new > SLUB all that mess > goes away (ie no changes necessary). Also CFS seems to handle CPU hotplug > much better than O(1) > did (ie domains are recomputed dynamically) so that isolation can be done at > any time (via sysfs). > So this seems like a good time to merge. > > Anyway. The patchset consist of 5 patches. First three are very simple and > non-controversial. > They simply make "CPU isolation" a configurable feature, export > cpu_isolated_map and provide > some helper functions to access it (just like cpu_online() and friends). > Last two patches add support for isolating CPUs from running workqueus and > stop machine. > More details in the individual patch descriptions. > > Ideally I'd like all of this to go in during this merge window. If people > think it's acceptable > Linus or Andrew (or whoever is more appropriate Ingo maybe) can pull this > patch set from > git://git.kernel.org/pub/scm/linux/kernel/git/maxk/cpuisol-2.6.git > It's good to see hear from someone else that thinks a multi-processor box _should_ be able to run a CPU intensive (%100) RT app on one of the processors without adversely affecting or being affected by the others. I have had issues that were _traced_ back to the fact that I am doing just that. All I got was, you can't do that or we don't support that kind of thing in the Linux kernel. One example, Andrew Mortons feedback to the LKML thread "floppy.c soft lockup" Good luck with this. I hope this gets someones attention. BTW, I have tried your patches against a vanilla 2.6.24 kernel but am not successful. # echo '1' > /sys/devices/system/cpu/cpu1/isolated bash: echo: write error: Device or resource busy The cpuisol=1 cmdline option yields: harley:# cat /sys/devices/system/cpu/cpu1/isolated 0 harley:# cat /proc/cmdline root=/dev/sda3 vga=normal apm=off selinux=0 noresume splash=silent kmalloc=192M cpuisol=1 Regards Mark -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
On Mon, 2008-01-28 at 16:12 -0800, Max Krasnyanskiy wrote: > Not accurate enough and way too much overhead for what I need. I know at this > point it probably > sounds like I'm talking BS :). I wish I've released the engine and examples > by now. Anyway let > me just say that SW MAC has crazy tight deadlines with lots of small tasks. > Using nanosleep() & > gettimeofday() is simply not practical. So it's all TSC based with clever > time sync logic between > HW and SW. I don't know if it's BS or not, you clearly fixed your own problem which is good .. Although when you say "RT patches cannot achieve what I needed. Even RTAI/Xenomai can't do that." , and HRT is "Not accurate enough and way too much overhead" .. Given the hardware your using, that's all difficult to believe.. You also said this code has been running on production systems for two year, which means it's at least two years old .. There's been some good sized leaps in real time linux in the past two years .. Daniel -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
Daniel Walker wrote: On Mon, 2008-01-28 at 10:32 -0800, Max Krasnyanskiy wrote: Just this patches. RT patches cannot achieve what I needed. Even RTAI/Xenomai can't do that. For example I have separate tasks with hard deadlines that must be enforced in 50usec kind of range and basically no idle time whatsoever. Just to give more background it's a wireless basestation with SW MAC/Scheduler. Another requirement is for the SW to know precise timing because SW. For example there is no way we can do predictable 1-2 usec sleeps. So I wrote a user-space engine that does all this, it requires full control of the CPU ie minimal overhead from the kernel, just IPIs for memory management and that's basically it. When my legal department lets me I'll do a presentation on this stuff at Linux RT conference or something. What kind of hardware are you doing this on? All kinds of HW. I mentioned it in the intro email. Here are the highlights HP XW9300 (Dual Opteron NUMA box) and XW9400 (Dual Core Opteron) HP DL145 G2 (Dual Opteron) and G3 (Dual Core Opteron) Dell Precision workstations (Core2 Duo and Quad) Various Core2 Duo based systems uTCA boards Mercury AXA110 (1.5Ghz) Concurrent Tech AM110 (2.1Ghz) This scheme should work on anything that lets you disable SMI on the isolated core(s). Also I should note there is HRT (High resolution timers) which provided microsecond level granularity .. Not accurate enough and way too much overhead for what I need. I know at this point it probably sounds like I'm talking BS :). I wish I've released the engine and examples by now. Anyway let me just say that SW MAC has crazy tight deadlines with lots of small tasks. Using nanosleep() & gettimeofday() is simply not practical. So it's all TSC based with clever time sync logic between HW and SW. Max -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
On Mon, 2008-01-28 at 10:32 -0800, Max Krasnyanskiy wrote: > Just this patches. RT patches cannot achieve what I needed. Even RTAI/Xenomai > can't do that. > For example I have separate tasks with hard deadlines that must be enforced > in 50usec kind > of range and basically no idle time whatsoever. Just to give more background > it's a wireless > basestation with SW MAC/Scheduler. Another requirement is for the SW to know > precise timing > because SW. For example there is no way we can do predictable 1-2 usec > sleeps. > So I wrote a user-space engine that does all this, it requires full control > of the CPU ie minimal > overhead from the kernel, just IPIs for memory management and that's > basically it. When my legal > department lets me I'll do a presentation on this stuff at Linux RT > conference or something. What kind of hardware are you doing this on? Also I should note there is HRT (High resolution timers) which provided microsecond level granularity .. Daniel -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
Paul Jackson wrote: Max wrote: So far it seems that extending cpu_isolated_map is more natural way of propagating this notion to the rest of the kernel. Since it's very similar to the cpu_online_map concept and it's easy to integrated with the code that already uses it. If it were just realtime support, then I suspect I'd agree that extending cpu_isolated_map makes more sense. But some people use realtime on systems that are also heavily managed using cpusets. The two have to work together. I have customers with systems running realtime on a few CPUs, at the same time that they have a large batch scheduler (which is layered on top of cpusets) managing jobs on a few hundred other CPUs. Hence with the cpuset 'sched_load_balance' flag I think I've already done what I think is one part of what your patches achieve by extending the cpu_isolated_map. This is a common situation with "resource management" mechanisms such as cpusets (and more recently cgroups and the subsystem modules it supports.) They cut across existing core kernel code that manages such key resources as CPUs and memory. As best we can, they have to work with each other. Thanks for the info Paul. I'll definitely look into using this flag instead and reply with pros and cons (if any). Max -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
Peter Zijlstra wrote: On Mon, 2008-01-28 at 14:00 -0500, Steven Rostedt wrote: On Mon, 28 Jan 2008, Max Krasnyanskiy wrote: [PATCH] [CPUISOL] Support for workqueue isolation The thing about workqueues is that they should only be woken on a CPU if something on that CPU accessed them. IOW, the workqueue on a CPU handles work that was called by something on that CPU. Which means that something that high prio task did triggered a workqueue to do some work. But this can also be triggered by interrupts, so by keeping interrupts off the CPU no workqueue should be activated. No no no. That's what I though too ;-). The problem is that things like NFS and friends expect _all_ their workqueue threads to report back when they do certain things like flushing buffers and stuff. The reason I added this is because my machines were getting stuck because CPU0 was waiting for CPU1 to run NFS work queue threads even though no IRQs or other things are running on it. This sounds more like we should fix NFS than add this for all workqueues. Again, we want workqueues to run on the behalf of whatever is running on that CPU, including those tasks that are running on an isolcpu. agreed, by looking at my top output (and not the nfs code) it looks like it just spawns a configurable number of active kernel threads which are not cpu bound by in any way. I think just removing the isolated cpus from their runnable mask should take care of them. Actually NFS was just one example. I cannot remember of a top of my head what else was there but there are definitely other users of work queues that expect all the threads to run at some point in time. Also if you think about it. The patch does _exactly_ what you propose. It removes workqueue threads from isolated CPUs. But instead of doing just for NFS and/or other subsystems separately it just does it in a generic way by simply not starting those threads in first place. [PATCH] [CPUISOL] Isolated CPUs should be ignored by the "stop machine" This I find very dangerous. We are making an assumption that tasks on an isolated CPU wont be doing things that stopmachine requires. What stops a task on an isolated CPU from calling something into the kernel that stop_machine requires to halt? I agree in general. The thing is though that stop machine just kills any kind of latency guaranties. Without the patch the machine just hangs waiting for the stop-machine to run when module is inserted/removed. And running without dynamic module loading is not very practical on general purpose machines. So I'd rather have an option with a big red warning than no option at all :). Well, that's something one of the greater powers (Linus, Andrew, Ingo) must decide. ;-) I'm in favour of better engineered method, that is, we really should try to solve these problems in a proper way. Hacks like this might be fine for custom kernels, but I think we should have a higher standard when it comes to upstream - we all have to live many years with whatever we put in there, we'd better think well about it. 100% agree. That's why I said mentioned that this patches is controversial in the first place. Right now those short from rewriting module loading to not use stop machine there is no other option. I'll think some more about it. If you guys have other ideas please drop me a note. Thanx Max -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
On Mon, 2008-01-28 at 14:00 -0500, Steven Rostedt wrote: > > On Mon, 28 Jan 2008, Max Krasnyanskiy wrote: > > >> [PATCH] [CPUISOL] Support for workqueue isolation > > > > > > The thing about workqueues is that they should only be woken on a CPU if > > > something on that CPU accessed them. IOW, the workqueue on a CPU handles > > > work that was called by something on that CPU. Which means that > > > something that high prio task did triggered a workqueue to do some work. > > > But this can also be triggered by interrupts, so by keeping interrupts > > > off the CPU no workqueue should be activated. > > > No no no. That's what I though too ;-). The problem is that things like NFS > > and friends > > expect _all_ their workqueue threads to report back when they do certain > > things like > > flushing buffers and stuff. The reason I added this is because my machines > > were getting > > stuck because CPU0 was waiting for CPU1 to run NFS work queue threads even > > though no IRQs > > or other things are running on it. > > This sounds more like we should fix NFS than add this for all workqueues. > Again, we want workqueues to run on the behalf of whatever is running on > that CPU, including those tasks that are running on an isolcpu. agreed, by looking at my top output (and not the nfs code) it looks like it just spawns a configurable number of active kernel threads which are not cpu bound by in any way. I think just removing the isolated cpus from their runnable mask should take care of them. > > > > > >> [PATCH] [CPUISOL] Isolated CPUs should be ignored by the "stop machine" > > > > > > This I find very dangerous. We are making an assumption that tasks on an > > > isolated CPU wont be doing things that stopmachine requires. What stops > > > a task on an isolated CPU from calling something into the kernel that > > > stop_machine requires to halt? > > > I agree in general. The thing is though that stop machine just kills any > > kind of latency > > guaranties. Without the patch the machine just hangs waiting for the > > stop-machine to run > > when module is inserted/removed. And running without dynamic module loading > > is not very > > practical on general purpose machines. So I'd rather have an option with a > > big red warning > > than no option at all :). > > Well, that's something one of the greater powers (Linus, Andrew, Ingo) > must decide. ;-) I'm in favour of better engineered method, that is, we really should try to solve these problems in a proper way. Hacks like this might be fine for custom kernels, but I think we should have a higher standard when it comes to upstream - we all have to live many years with whatever we put in there, we'd better think well about it. -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
Max wrote: > Also "CPU sets" seem to mostly deal with the scheduler domains. True - though "cpusets" (no space ;) sched_load_balance flag can be used to see that some CPUs are not in any scheduler domain, which is equivalent to not having the scheduler run on them. -- I won't rest till it's the best ... Programmer, Linux Scalability Paul Jackson <[EMAIL PROTECTED]> 1.940.382.4214 -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
Max wrote: > So far it seems that extending cpu_isolated_map > is more natural way of propagating this notion to the rest of the kernel. > Since it's very similar to the cpu_online_map concept and it's easy to > integrated > with the code that already uses it. If it were just realtime support, then I suspect I'd agree that extending cpu_isolated_map makes more sense. But some people use realtime on systems that are also heavily managed using cpusets. The two have to work together. I have customers with systems running realtime on a few CPUs, at the same time that they have a large batch scheduler (which is layered on top of cpusets) managing jobs on a few hundred other CPUs. Hence with the cpuset 'sched_load_balance' flag I think I've already done what I think is one part of what your patches achieve by extending the cpu_isolated_map. This is a common situation with "resource management" mechanisms such as cpusets (and more recently cgroups and the subsystem modules it supports.) They cut across existing core kernel code that manages such key resources as CPUs and memory. As best we can, they have to work with each other. -- I won't rest till it's the best ... Programmer, Linux Scalability Paul Jackson <[EMAIL PROTECTED]> 1.940.382.4214 -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
On Mon, 28 Jan 2008, Max Krasnyanskiy wrote: > >> [PATCH] [CPUISOL] Support for workqueue isolation > > > > The thing about workqueues is that they should only be woken on a CPU if > > something on that CPU accessed them. IOW, the workqueue on a CPU handles > > work that was called by something on that CPU. Which means that > > something that high prio task did triggered a workqueue to do some work. > > But this can also be triggered by interrupts, so by keeping interrupts > > off the CPU no workqueue should be activated. > No no no. That's what I though too ;-). The problem is that things like NFS > and friends > expect _all_ their workqueue threads to report back when they do certain > things like > flushing buffers and stuff. The reason I added this is because my machines > were getting > stuck because CPU0 was waiting for CPU1 to run NFS work queue threads even > though no IRQs > or other things are running on it. This sounds more like we should fix NFS than add this for all workqueues. Again, we want workqueues to run on the behalf of whatever is running on that CPU, including those tasks that are running on an isolcpu. > > >> [PATCH] [CPUISOL] Isolated CPUs should be ignored by the "stop machine" > > > > This I find very dangerous. We are making an assumption that tasks on an > > isolated CPU wont be doing things that stopmachine requires. What stops > > a task on an isolated CPU from calling something into the kernel that > > stop_machine requires to halt? > I agree in general. The thing is though that stop machine just kills any kind > of latency > guaranties. Without the patch the machine just hangs waiting for the > stop-machine to run > when module is inserted/removed. And running without dynamic module loading > is not very > practical on general purpose machines. So I'd rather have an option with a > big red warning > than no option at all :). Well, that's something one of the greater powers (Linus, Andrew, Ingo) must decide. ;-) -- Steve -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
Peter Zijlstra wrote: On Mon, 2008-01-28 at 11:34 -0500, Steven Rostedt wrote: On Mon, Jan 28, 2008 at 08:59:10AM -0600, Paul Jackson wrote: Thanks for the CC, Peter. Thanks from me too. Max wrote: We've had scheduler support for CPU isolation ever since O(1) scheduler went it. I'd like to extend it further to avoid kernel activity on those CPUs as much as possible. I recently added the per-cpuset flag 'sched_load_balance' for some other realtime folks, so that they can disable the kernel scheduler load balancing on isolated CPUs. It essentially allows for dynamic control of which CPUs are isolated by the scheduler, using the cpuset hierarchy, rather than enhancing the 'isolated_cpus' mask. That 'isolated_cpus' mask remained a minimal kernel boottime parameter. I believe this went to Linus's tree about Oct 2007. It looks like you have three additional tweaks for realtime in this patch set, with your patches: [PATCH] [CPUISOL] Do not route IRQs to the CPUs isolated at boot I didn't know we still routed IRQs to isolated CPUs. I guess I need to look deeper into the code on this one. But I agree that isolated CPUs should not have IRQs routed to them. While I agree with this in principle, I'm not sure flat out denying all IRQs to these cpus is a good option. What about the case where we want to service just this one specific IRQ on this CPU and no others? Can't this be done by userspace irq routing as used by irqbalanced? Peter, I think you missed the point of this patch. It's just a convenience feature. It simply excludes isolated CPUs from IRQ smp affinity masks. That's all. What did you mean by "flat out denying all IRQs to these cpus" ? IRQs can still be routed to them by writing to /proc/irq/N/smp_affinity. Also, this happens naturally when we bring a CPU off-line and then bring it back online. ie When CPU comes back online it's excluded from the IRQ smp_affinity masks even without my patch. [PATCH] [CPUISOL] Support for workqueue isolation The thing about workqueues is that they should only be woken on a CPU if something on that CPU accessed them. IOW, the workqueue on a CPU handles work that was called by something on that CPU. Which means that something that high prio task did triggered a workqueue to do some work. But this can also be triggered by interrupts, so by keeping interrupts off the CPU no workqueue should be activated. Quite so, if nobody uses it, there is no harm in having them around. If they are used, its by someone already allowed on the cpu. No no no. I just replied to Steven about that. The problem is that things like NFS and friends expect _all_ their workqueue threads to report back when they do certain things like flushing buffers and stuff. The reason I added this is because my machines were getting stuck because CPU0 was waiting for CPU1 to run NFS work queue threads even though no IRQs, softirqs or other things are running on it. [PATCH] [CPUISOL] Isolated CPUs should be ignored by the "stop machine" This I find very dangerous. We are making an assumption that tasks on an isolated CPU wont be doing things that stopmachine requires. What stops a task on an isolated CPU from calling something into the kernel that stop_machine requires to halt? Very dangerous indeed! Please see my reply to Steven. I agree it's somewhat dangerous. What we could do is make it configurable with a big fat warning. In other words I'd rather have an option than just says "do not use dynamic module loading" on those systems. Max -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
Steven Rostedt wrote: On Mon, Jan 28, 2008 at 08:59:10AM -0600, Paul Jackson wrote: Thanks for the CC, Peter. Thanks from me too. Max wrote: We've had scheduler support for CPU isolation ever since O(1) scheduler went it. I'd like to extend it further to avoid kernel activity on those CPUs as much as possible. I recently added the per-cpuset flag 'sched_load_balance' for some other realtime folks, so that they can disable the kernel scheduler load balancing on isolated CPUs. It essentially allows for dynamic control of which CPUs are isolated by the scheduler, using the cpuset hierarchy, rather than enhancing the 'isolated_cpus' mask. That 'isolated_cpus' mask remained a minimal kernel boottime parameter. I believe this went to Linus's tree about Oct 2007. It looks like you have three additional tweaks for realtime in this patch set, with your patches: [PATCH] [CPUISOL] Do not route IRQs to the CPUs isolated at boot I didn't know we still routed IRQs to isolated CPUs. I guess I need to look deeper into the code on this one. But I agree that isolated CPUs should not have IRQs routed to them. Also note that it's just a convenience feature. In other words it's not that with this patch we'll never route IRQs to those CPUs. They can still be explicitly routed by writing to irq/N/smp_affitnity. [PATCH] [CPUISOL] Support for workqueue isolation The thing about workqueues is that they should only be woken on a CPU if something on that CPU accessed them. IOW, the workqueue on a CPU handles work that was called by something on that CPU. Which means that something that high prio task did triggered a workqueue to do some work. But this can also be triggered by interrupts, so by keeping interrupts off the CPU no workqueue should be activated. No no no. That's what I though too ;-). The problem is that things like NFS and friends expect _all_ their workqueue threads to report back when they do certain things like flushing buffers and stuff. The reason I added this is because my machines were getting stuck because CPU0 was waiting for CPU1 to run NFS work queue threads even though no IRQs or other things are running on it. [PATCH] [CPUISOL] Isolated CPUs should be ignored by the "stop machine" This I find very dangerous. We are making an assumption that tasks on an isolated CPU wont be doing things that stopmachine requires. What stops a task on an isolated CPU from calling something into the kernel that stop_machine requires to halt? I agree in general. The thing is though that stop machine just kills any kind of latency guaranties. Without the patch the machine just hangs waiting for the stop-machine to run when module is inserted/removed. And running without dynamic module loading is not very practical on general purpose machines. So I'd rather have an option with a big red warning than no option at all :). Thanx Max -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
Paul Jackson wrote: Thanks for the CC, Peter. Ingo - see question at end of message. Max wrote: We've had scheduler support for CPU isolation ever since O(1) scheduler went it. I'd like to extend it further to avoid kernel activity on those CPUs as much as possible. I recently added the per-cpuset flag 'sched_load_balance' for some other realtime folks, so that they can disable the kernel scheduler load balancing on isolated CPUs. It essentially allows for dynamic control of which CPUs are isolated by the scheduler, using the cpuset hierarchy, rather than enhancing the 'isolated_cpus' mask. That 'isolated_cpus' mask remained a minimal kernel boottime parameter. I believe this went to Linus's tree about Oct 2007. It looks like you have three additional tweaks for realtime in this patch set, with your patches: [PATCH] [CPUISOL] Do not route IRQs to the CPUs isolated at boot [PATCH] [CPUISOL] Support for workqueue isolation [PATCH] [CPUISOL] Isolated CPUs should be ignored by the "stop machine" It would be interesting to see a patchset with the above three realtime tweaks, layered on this new cpuset 'sched_load_balance' apparatus, rather than layered on changes to make 'isolated_cpus' more dynamic. Some of us run realtime and cpuset-intensive loads on the same system, so like to have those two capabilities co-operate with each other. I'll definitely take a look. So far it seems that extending cpu_isolated_map is more natural way of propagating this notion to the rest of the kernel. Since it's very similar to the cpu_online_map concept and it's easy to integrated with the code that already uses it. Anyway. I'll take a look at the cpuset flag that you mentioned and report back. Thanx Max -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
Hi Peter, Peter Zijlstra wrote: [ You really ought to CC people :-) ] I was not sure who though :) Do we have a mailing list for scheduler development btw ? Or it's just folks that you included in CC ? Some of the latest scheduler patches brake things that I'm doing and I'd like to make them configurable (RT watchdog, etc). On Sun, 2008-01-27 at 20:09 -0800, [EMAIL PROTECTED] wrote: Following patch series extends CPU isolation support. Yes, most people want to virtuallize CPUs these days and I want to isolate them :). The primary idea here is to be able to use some CPU cores as dedicated engines for running user-space code with minimal kernel overhead/intervention, think of it as an SPE in the Cell processor. We've had scheduler support for CPU isolation ever since O(1) scheduler went it. I'd like to extend it further to avoid kernel activity on those CPUs as much as possible. In fact that the primary distinction that I'm making between say "CPU sets" and "CPU isolation". "CPU sets" let you manage user-space load while "CPU isolation" provides a way to isolate a CPU as much as possible (including kernel activities). Ok, so you're aware of CPU sets, miss a feature, but instead of extending it to cover your needs you build something new entirely? It's not really new. CPU isolation bits just has not been exported before that's all. Also "CPU sets" seem to mostly deal with the scheduler domains. I'll reply to Paul's proposal to use that instead. I'm personally using this for hard realtime purposes. With CPU isolation it's very easy to achieve single digit usec worst case and around 200 nsec average response times on off-the-shelf multi- processor/core systems under exteme system load. I'm working with legal folks on releasing hard RT user-space framework for that. I can also see other application like simulators and stuff that can benefit from this. have you been using just this, or in combination with the -rt effort? Just this patches. RT patches cannot achieve what I needed. Even RTAI/Xenomai can't do that. For example I have separate tasks with hard deadlines that must be enforced in 50usec kind of range and basically no idle time whatsoever. Just to give more background it's a wireless basestation with SW MAC/Scheduler. Another requirement is for the SW to know precise timing because SW. For example there is no way we can do predictable 1-2 usec sleeps. So I wrote a user-space engine that does all this, it requires full control of the CPU ie minimal overhead from the kernel, just IPIs for memory management and that's basically it. When my legal department lets me I'll do a presentation on this stuff at Linux RT conference or something. Max -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
On Mon, 2008-01-28 at 11:34 -0500, Steven Rostedt wrote: > On Mon, Jan 28, 2008 at 08:59:10AM -0600, Paul Jackson wrote: > > Thanks for the CC, Peter. > > Thanks from me too. > > > Max wrote: > > > We've had scheduler support for CPU isolation ever since O(1) scheduler > > > went it. > > > I'd like to extend it further to avoid kernel activity on those CPUs as > > > much as possible. > > > > I recently added the per-cpuset flag 'sched_load_balance' for some > > other realtime folks, so that they can disable the kernel scheduler > > load balancing on isolated CPUs. It essentially allows for dynamic > > control of which CPUs are isolated by the scheduler, using the cpuset > > hierarchy, rather than enhancing the 'isolated_cpus' mask. That > > 'isolated_cpus' mask remained a minimal kernel boottime parameter. > > I believe this went to Linus's tree about Oct 2007. > > > > It looks like you have three additional tweaks for realtime in this > > patch set, with your patches: > > > > [PATCH] [CPUISOL] Do not route IRQs to the CPUs isolated at boot > > I didn't know we still routed IRQs to isolated CPUs. I guess I need to > look deeper into the code on this one. But I agree that isolated CPUs > should not have IRQs routed to them. While I agree with this in principle, I'm not sure flat out denying all IRQs to these cpus is a good option. What about the case where we want to service just this one specific IRQ on this CPU and no others? Can't this be done by userspace irq routing as used by irqbalanced? > > [PATCH] [CPUISOL] Support for workqueue isolation > > The thing about workqueues is that they should only be woken on a CPU if > something on that CPU accessed them. IOW, the workqueue on a CPU handles > work that was called by something on that CPU. Which means that > something that high prio task did triggered a workqueue to do some work. > But this can also be triggered by interrupts, so by keeping interrupts > off the CPU no workqueue should be activated. Quite so, if nobody uses it, there is no harm in having them around. If they are used, its by someone already allowed on the cpu. > > [PATCH] [CPUISOL] Isolated CPUs should be ignored by the "stop machine" > > This I find very dangerous. We are making an assumption that tasks on an > isolated CPU wont be doing things that stopmachine requires. What stops > a task on an isolated CPU from calling something into the kernel that > stop_machine requires to halt? Very dangerous indeed! -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
On Mon, Jan 28, 2008 at 08:59:10AM -0600, Paul Jackson wrote: > Thanks for the CC, Peter. Thanks from me too. > Max wrote: > > We've had scheduler support for CPU isolation ever since O(1) scheduler > > went it. > > I'd like to extend it further to avoid kernel activity on those CPUs as > > much as possible. > > I recently added the per-cpuset flag 'sched_load_balance' for some > other realtime folks, so that they can disable the kernel scheduler > load balancing on isolated CPUs. It essentially allows for dynamic > control of which CPUs are isolated by the scheduler, using the cpuset > hierarchy, rather than enhancing the 'isolated_cpus' mask. That > 'isolated_cpus' mask remained a minimal kernel boottime parameter. > I believe this went to Linus's tree about Oct 2007. > > It looks like you have three additional tweaks for realtime in this > patch set, with your patches: > > [PATCH] [CPUISOL] Do not route IRQs to the CPUs isolated at boot I didn't know we still routed IRQs to isolated CPUs. I guess I need to look deeper into the code on this one. But I agree that isolated CPUs should not have IRQs routed to them. > [PATCH] [CPUISOL] Support for workqueue isolation The thing about workqueues is that they should only be woken on a CPU if something on that CPU accessed them. IOW, the workqueue on a CPU handles work that was called by something on that CPU. Which means that something that high prio task did triggered a workqueue to do some work. But this can also be triggered by interrupts, so by keeping interrupts off the CPU no workqueue should be activated. > [PATCH] [CPUISOL] Isolated CPUs should be ignored by the "stop machine" This I find very dangerous. We are making an assumption that tasks on an isolated CPU wont be doing things that stopmachine requires. What stops a task on an isolated CPU from calling something into the kernel that stop_machine requires to halt? -- Steve > > It would be interesting to see a patchset with the above three realtime > tweaks, layered on this new cpuset 'sched_load_balance' apparatus, rather > than layered on changes to make 'isolated_cpus' more dynamic. Some of us > run realtime and cpuset-intensive loads on the same system, so like to > have those two capabilities co-operate with each other. > > Ingo - what's your sense of the value of the above three realtime tweaks >(the last three patches in Max's patch set)? > -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
Thanks for the CC, Peter. Ingo - see question at end of message. Max wrote: > We've had scheduler support for CPU isolation ever since O(1) scheduler went > it. > I'd like to extend it further to avoid kernel activity on those CPUs as much > as possible. I recently added the per-cpuset flag 'sched_load_balance' for some other realtime folks, so that they can disable the kernel scheduler load balancing on isolated CPUs. It essentially allows for dynamic control of which CPUs are isolated by the scheduler, using the cpuset hierarchy, rather than enhancing the 'isolated_cpus' mask. That 'isolated_cpus' mask remained a minimal kernel boottime parameter. I believe this went to Linus's tree about Oct 2007. It looks like you have three additional tweaks for realtime in this patch set, with your patches: [PATCH] [CPUISOL] Do not route IRQs to the CPUs isolated at boot [PATCH] [CPUISOL] Support for workqueue isolation [PATCH] [CPUISOL] Isolated CPUs should be ignored by the "stop machine" It would be interesting to see a patchset with the above three realtime tweaks, layered on this new cpuset 'sched_load_balance' apparatus, rather than layered on changes to make 'isolated_cpus' more dynamic. Some of us run realtime and cpuset-intensive loads on the same system, so like to have those two capabilities co-operate with each other. Ingo - what's your sense of the value of the above three realtime tweaks (the last three patches in Max's patch set)? -- I won't rest till it's the best ... Programmer, Linux Scalability Paul Jackson <[EMAIL PROTECTED]> 1.940.382.4214 -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
Re: [CPUISOL] CPU isolation extensions
[ You really ought to CC people :-) ] On Sun, 2008-01-27 at 20:09 -0800, [EMAIL PROTECTED] wrote: > Following patch series extends CPU isolation support. Yes, most people want > to virtuallize > CPUs these days and I want to isolate them :). > The primary idea here is to be able to use some CPU cores as dedicated > engines for running > user-space code with minimal kernel overhead/intervention, think of it as an > SPE in the > Cell processor. > > We've had scheduler support for CPU isolation ever since O(1) scheduler went > it. > I'd like to extend it further to avoid kernel activity on those CPUs as much > as possible. > In fact that the primary distinction that I'm making between say "CPU sets" > and > "CPU isolation". "CPU sets" let you manage user-space load while "CPU > isolation" provides > a way to isolate a CPU as much as possible (including kernel activities). Ok, so you're aware of CPU sets, miss a feature, but instead of extending it to cover your needs you build something new entirely? > I'm personally using this for hard realtime purposes. With CPU isolation it's > very easy to > achieve single digit usec worst case and around 200 nsec average response > times on off-the-shelf > multi- processor/core systems under exteme system load. I'm working with > legal folks on releasing > hard RT user-space framework for that. > I can also see other application like simulators and stuff that can benefit > from this. have you been using just this, or in combination with the -rt effort? -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to [EMAIL PROTECTED] More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/