Message ID | 20230524213620.3509138-3-mcgrof@kernel.org (mailing list archive) |
---|---|
State | New, archived |
Headers | show |
Series | module: avoid all memory pressure due to duplicates | expand |
On 5/24/23 23:36, Luis Chamberlain wrote: > Add support to use the new kread_uniq_fd() to avoid duplicate kernel > reads on modules. At the cost of about ~945 bytes to your kernel size, > enabling this on a 255 CPU x86_64 qemu guest this saves about ~1.8 GiB > of memory during boot which would otherwise be free'd, and reduces boot > time by about ~11 seconds. > > Userspace loads modules through finit_module(), this in turn will > use vmalloc space up to 3 times: > > a) The kernel_read_file() call > b) Optional module decompression > c) Our final copy of the module > > Commit 064f4536d139 ("module: avoid allocation if module is already > present and ready") shows a graph of the amount of vmalloc space > observed allocated but freed for duplicate module request which end > up in the trash bin. Since there is a linear relationship with the > number of CPUs eventually this will bite us and you end up not being > able to boot. That commit put a stop gap for c) but to avoid the > vmalloc() space wasted on a) and b) we need to detect duplicates > earlier. > > We could just have userspace fix this, but as reviewed at LSFMM 2023 > this year in Vancouver, fixing this in userspace can be complex and we > also can't know when userpace is fixed. Fixing this in kernel turned > out to be easy with the inode and with a simple kconfig option we can > let users / distros decide if this full stop gap is worthy to enable. kmod normally uses finit_module() only if a module is not compressed, otherwise it decompresses it first and then invokes init_module(). Looking at Fedora and openSUSE Tumbleweed, they compress kernel modules with xz and zstd, respectively. They also have their kernels built without any CONFIG_MODULE_COMPRESS_{GZIP,XZ,ZSTD} options. It means that these and similarly organized distributions end up using init_module(), and adding complexity to optimize finit_module() wouldn't actually help in their case. -- Petr
On Thu, May 25, 2023 at 4:40 AM Petr Pavlu <petr.pavlu@suse.com> wrote: > > kmod normally uses finit_module() only if a module is not compressed, > otherwise it decompresses it first and then invokes init_module(). Note that it would probably be good to teach Fedora and SuSE to use the kernel-side decompression, if only because we have it and would like to try to avoid using the old "load contents from user memory". Mainly because it allows security modules to actively check for tampering (ie things like verity etc). Long-term, it would be good to just deprecate the old init_module() entirely. But yes: > It means that these and similarly organized distributions end up using > init_module(), and adding complexity to optimize finit_module() wouldn't > actually help in their case. Yeah, I think the real bug is absolutely in udev, and trying to load the same module hundreds of times is very very wrong. So I think the "mitigate it in the kernel" is at most a quick hack to fix user-space brokenness. And I don't think 1/2 is acceptable as that "quick hack". Not at all. It also seems fundamentally buggy, as it uses purely the inode number as the file identity, which means that it does bad things across filesystem limits. That said, I posted an alternate patch that I think _is_ valid as that quick hack. I don't love it, but it sure is simpler (and avoids the i_ino bug): https://lore.kernel.org/lkml/CAHk-=wgKu=tJf1bm_dtme4Hde4zTB=_7EdgR8avsDRK4_jD+uA@mail.gmail.com/ that patch hasn't seen any testing, and for all I know it won't even boot because of some thinko, but I think it would be acceptable as a workaround if it does work. But no, it's not some kind of "fix" for the bug, and yes, using init_module() rather than finit_module() will circumvent the quick hack. The true fix would be for udev to do proper handling of its data structures instead of randomly spraying duplicate module loading events. I don't know why udev does what it does. From what Luis told me, apparently it's just forking stuff and keeping all its data structures in memory, and has no actual consistency or locking or memory of what it has done. Luis pointed me at https://lore.kernel.org/all/23bd0ce6-ef78-1cd8-1f21-0e706a00424a@suse.com/T/#u for some udev background. It's been about a decade since I looked at udev sources, and none of this encourages me to take a second look, so all of the above may be me misunderstanding just exactly what the udev problem is. But for that 'finit' case, we *could* try that simple hack of mine. I say "hack", but the patch really is pretty simple, and the concept of "exclusive special access" certainly is not some hack in itself. It's just not anything we've ever done before. So the hackishness from that exclusive_deny_write_access() thing in my patch is mainly that it shouldn't be needed at all (and that the exclusivity should probably be set some other way). Comments welcome. Linus
On Thu, May 25, 2023 at 09:07:23AM -0700, Linus Torvalds wrote: > > It means that these and similarly organized distributions end up using > > init_module(), and adding complexity to optimize finit_module() wouldn't > > actually help in their case. > > Yeah, I think the real bug is absolutely in udev, and trying to load > the same module hundreds of times is very very wrong. So I think the > "mitigate it in the kernel" is at most a quick hack to fix user-space > brokenness. I totally agree. I also agree that this doesn't really seem to be any sort of "bug" in that no memory leaks, and when userspace calms down, all goes back to normal. So hacks in the vfs layer for this is not good, let's not paper over userspace code that we have control over with kernel changes. Luis, I asked last time what modules are being asked by the kernel to be loaded thousands of times at boot and can't seem to find an answer anywhere, did I miss that? This should be very easy to handle in userspace if systems need it, so that begs the questions, what types of systems need this? We have handled booting with tens of thousands of devices attached for decades now with no reports of boot/udev/kmod issues before, what has recently changed to cause issues? thanks, greg k-h
On Thu, May 25, 2023 at 01:40:32PM +0200, Petr Pavlu wrote: >On 5/24/23 23:36, Luis Chamberlain wrote: >> Add support to use the new kread_uniq_fd() to avoid duplicate kernel >> reads on modules. At the cost of about ~945 bytes to your kernel size, >> enabling this on a 255 CPU x86_64 qemu guest this saves about ~1.8 GiB >> of memory during boot which would otherwise be free'd, and reduces boot >> time by about ~11 seconds. >> >> Userspace loads modules through finit_module(), this in turn will >> use vmalloc space up to 3 times: >> >> a) The kernel_read_file() call >> b) Optional module decompression >> c) Our final copy of the module >> >> Commit 064f4536d139 ("module: avoid allocation if module is already >> present and ready") shows a graph of the amount of vmalloc space >> observed allocated but freed for duplicate module request which end >> up in the trash bin. Since there is a linear relationship with the >> number of CPUs eventually this will bite us and you end up not being >> able to boot. That commit put a stop gap for c) but to avoid the >> vmalloc() space wasted on a) and b) we need to detect duplicates >> earlier. >> >> We could just have userspace fix this, but as reviewed at LSFMM 2023 >> this year in Vancouver, fixing this in userspace can be complex and we >> also can't know when userpace is fixed. Fixing this in kernel turned >> out to be easy with the inode and with a simple kconfig option we can >> let users / distros decide if this full stop gap is worthy to enable. > >kmod normally uses finit_module() only if a module is not compressed, >otherwise it decompresses it first and then invokes init_module(). that is for historical reasons, because the kernel didn't support to uncompress the module by itself. > >Looking at Fedora and openSUSE Tumbleweed, they compress kernel modules >with xz and zstd, respectively. They also have their kernels built >without any CONFIG_MODULE_COMPRESS_{GZIP,XZ,ZSTD} options. > >It means that these and similarly organized distributions end up using >init_module(), and adding complexity to optimize finit_module() wouldn't >actually help in their case. true, but the change in kmod should be trivial now that the kernel has the proper support in place and the algorithms support match the ones kmod has. I will take a look at switching the logic around to just pass the fd to the kernel so it can also deduplicate the requests. thanks for the reminder, Lucas De Marchi > >-- Petr
On Thu, May 25, 2023 at 9:07 AM Linus Torvalds <torvalds@linux-foundation.org> wrote: > > That said, I posted an alternate patch that I think _is_ valid as that > quick hack. I don't love it, but it sure is simpler (and avoids the > i_ino bug): > > https://lore.kernel.org/lkml/CAHk-=wgKu=tJf1bm_dtme4Hde4zTB=_7EdgR8avsDRK4_jD+uA@mail.gmail.com/ > > that patch hasn't seen any testing, and for all I know it won't even > boot because of some thinko, but I think it would be acceptable as a > workaround if it does work. Well, it boots here, so it must be perfect. That said, I didn't add any debugging code, and I didn't test it on any odd setups, and I've never had any problems before. So I don't actually know if the patch *does* anything. But it did boot.. Linus
On Thu, May 25, 2023 at 05:42:10PM +0100, Greg KH wrote: > Luis, I asked last time what modules are being asked by the kernel to be > loaded thousands of times at boot and can't seem to find an answer > anywhere, did I miss that? Yes you missed it, I had explained it: https://lore.kernel.org/all/ZEGopJ8VAYnE7LQ2@bombadil.infradead.org/ "My best assessment of the situation is that each CPU in udev ends up triggering a load of duplicate set of modules, not just one, but *a lot*. Not sure what heuristics udev uses to load a set of modules per CPU." Petr Pavlu then finishes the assessment: https://lore.kernel.org/all/23bd0ce6-ef78-1cd8-1f21-0e706a00424a@suse.com/ But let me quote it, so it is not missed: "My understanding is that udev workers are forked. An initial kmod context is created by the main udevd process but no sharing happens after the fork. It means that the mentioned memory pool logic doesn't really kick in. Multiple parallel load requests come from multiple udev workers, for instance, each handling an udev event for one CPU device and making the exactly same requests as all others are doing at the same time. The optimization idea would be to recognize these duplicate requests at the udevd/kmod level and converge them." > This should be very easy to handle in > userspace if systems need it, so that begs the questions, what types of > systems need this? I had explained, this has existed for a long time. > We have handled booting with tens of thousands of > devices attached for decades now with no reports of boot/udev/kmod > issues before, what has recently changed to cause issues? Doesn't mean this didn't happen before, just because memory is freed due to duplicates does not mean that the memory pressure induced by them is not stupid. It is stupid, but hasn't come up as a possible real issue nowadays where systems require more vmalloc space used during boot with new features. I had explained also the context where this came from. David Hildenbrand had reported failure to boot on many CPUs. If you induce more vmap memory pressure on boot with multiple CPUs eventually you can't boot. Enabling KASAN will make this worse today. Luis
On Thu, May 25, 2023 at 09:07:23AM -0700, Linus Torvalds wrote: >On Thu, May 25, 2023 at 4:40 AM Petr Pavlu <petr.pavlu@suse.com> wrote: >> >> kmod normally uses finit_module() only if a module is not compressed, >> otherwise it decompresses it first and then invokes init_module(). > >Note that it would probably be good to teach Fedora and SuSE to use >the kernel-side decompression, if only because we have it and would >like to try to avoid using the old "load contents from user memory". > >Mainly because it allows security modules to actively check for >tampering (ie things like verity etc). Long-term, it would be good to >just deprecate the old init_module() entirely. Right... I was trying to remember why that wasn't done yet since I thought it was. The in-kernel decompression is much more recent than the finit_module. Commit b1ae6dc41eaa ("module: add in-kernel support for decompressing") was actually the one allowing to decompress on the kernel side and commit 169a58ad824d ("module/decompress: Support zstd in-kernel decompression") brought the algo support on the kernel and userspace side to parity. I will teach kmod to take the proper path considering the in-kernel decompression availability. > >But yes: > >> It means that these and similarly organized distributions end up using >> init_module(), and adding complexity to optimize finit_module() wouldn't >> actually help in their case. > >Yeah, I think the real bug is absolutely in udev, and trying to load >the same module hundreds of times is very very wrong. So I think the >"mitigate it in the kernel" is at most a quick hack to fix user-space >brokenness. > >And I don't think 1/2 is acceptable as that "quick hack". Not at all. >It also seems fundamentally buggy, as it uses purely the inode number >as the file identity, which means that it does bad things across >filesystem limits. > >That said, I posted an alternate patch that I think _is_ valid as that >quick hack. I don't love it, but it sure is simpler (and avoids the >i_ino bug): > > https://lore.kernel.org/lkml/CAHk-=wgKu=tJf1bm_dtme4Hde4zTB=_7EdgR8avsDRK4_jD+uA@mail.gmail.com/ > >that patch hasn't seen any testing, and for all I know it won't even >boot because of some thinko, but I think it would be acceptable as a >workaround if it does work. > >But no, it's not some kind of "fix" for the bug, and yes, using >init_module() rather than finit_module() will circumvent the quick >hack. The true fix would be for udev to do proper handling of its data >structures instead of randomly spraying duplicate module loading >events. > >I don't know why udev does what it does. From what Luis told me, >apparently it's just forking stuff and keeping all its data structures >in memory, and has no actual consistency or locking or memory of what >it has done. Luis pointed me at It's a long time I don't touch that udev code, but my understanding is that it first creates the kmod context and then starts to fork workers (up to a limit) as the events arrive and there are no idle workers available. At this point each of them have a separate kmod context derived from the initial context. I was told the workers are needed because a) they must be resilient to crashing without catastrophic consequences and b) the kernel floods udev with thousands of netlink events during boot. c) unrelated netlink events can't wait a module to be loaded, for example. If the above is true (need confirmation from udev devs), then what could be done on the userspace side would be: 1) do the modalias lookup first, before delegating the module load part to the workers. That will translate the modalias to the module name, 2) hand over to the worker the module loading part by name, not by alias, iff there isn't one being done for that already by other workers - workers need to share some state with the main process. With this the dedup can happen based on the *module name*. I was told a dedup based on the aliases is not effective as there are slight changes on the modaliases being sent on boot leading to the same module. > https://lore.kernel.org/all/23bd0ce6-ef78-1cd8-1f21-0e706a00424a@suse.com/T/#u > >for some udev background. the synchronization point in the kernel side rather than on userspace used to be cheap and the race window smaller. About the race: libkmod already checks if there's a module being loaded before actually loading it, however there is a race between the initstate file being created by the kernel side and new requests arriving to load the same module. > >It's been about a decade since I looked at udev sources, and none of >this encourages me to take a second look, so all of the above may be >me misunderstanding just exactly what the udev problem is. But for >that 'finit' case, we *could* try that simple hack of mine. > >I say "hack", but the patch really is pretty simple, and the concept >of "exclusive special access" certainly is not some hack in itself. >It's just not anything we've ever done before. So the hackishness from >that exclusive_deny_write_access() thing in my patch is mainly that it >shouldn't be needed at all (and that the exclusivity should probably >be set some other way). > >Comments welcome. Thinking only on the finit_module case and given libkmod will be changed to prefer that path, it's not clear if it's preferred to dedup on module name (userspace) or inode (kernel). Also worth mentioning that both of them only protect against the window of calling finit_module() and having a initstate file created by the kernel: if the file exists in the coming or live states, libkmod will already do the shortcut. Are you willig to merge (a possibly improved version of) your patch or the userspace change is still something that would be desired? Doing that on the kernel has the small advantage that it also synchronizes requests from sources other than udev, but I don't think we would have many to justify. Lucas De Marchi > > Linus
On Thu, May 25, 2023 at 11:45 AM Lucas De Marchi <lucas.demarchi@intel.com> wrote: > > Are you willig to merge (a possibly improved version of) your patch > or the userspace change is still something that would be desired? I think a user space change should still be something that people should look at, particularly as the kernel side patch I'm willing to accept doesn't catch the "completely serial" cases, only the "trying to load at the same time that the same module is literally busy being loaded". But I've cleaned up my patch a bit, and while the cleaned-up version is rather larger as a patch (mainly because of just also re-organizing the finit_module() code to do all the 'struct file' prep), I'm actually pretty happy with this attached patch conceptually. In this form, it actually "makes sense" to me, rather than being just clearly a workaround. Also, unlike the previous patch, this doesn't actually make any changes to the basic kernel_read_file() set of functions, it's all done by the module loading code itself. Luis, would you mind testing this version on your load? It still won't actually handle the purely serial case, so there *will* be those spurious double module reads from different CPU's just doing the things serially, but the exclusive file access region has been extended to not just cover the actual file content reading, but to cover the whole "turn it into a a real module" part too. Also, this does *not* update some of the comments in the module loading. I changed finit_module to use "kernel_read_file()" instead of "kernel_read_file_from_fd()", since it actually now has to look up the file descriptor anyway. But the comments still talk about that "from_fd" thing. Anyway, this is back to "ENTIRELY UNTESTED" territory, in that I've compiled this, but haven't booted it. The changes look obvious, but hey, mistakes happen. And the commit message is just a place-holder. Obviously. I won't sign off on this or write more of a commit message until it has had some real testing. Linus
On Thu, May 25, 2023 at 02:12:49PM -0700, Linus Torvalds wrote: > On Thu, May 25, 2023 at 11:45 AM Lucas De Marchi > <lucas.demarchi@intel.com> wrote: > > > > Are you willig to merge (a possibly improved version of) your patch > > or the userspace change is still something that would be desired? > > I think a user space change should still be something that people > should look at, particularly as the kernel side patch I'm willing to > accept doesn't catch the "completely serial" cases, only the "trying > to load at the same time that the same module is literally busy being > loaded". > > But I've cleaned up my patch a bit, and while the cleaned-up version > is rather larger as a patch (mainly because of just also re-organizing > the finit_module() code to do all the 'struct file' prep), I'm > actually pretty happy with this attached patch conceptually. > > In this form, it actually "makes sense" to me, rather than being just > clearly a workaround. Also, unlike the previous patch, this doesn't > actually make any changes to the basic kernel_read_file() set of > functions, it's all done by the module loading code itself. > > Luis, would you mind testing this version on your load? It still won't > actually handle the purely serial case, so there *will* be those > spurious double module reads from different CPU's just doing the > things serially, but the exclusive file access region has been > extended to not just cover the actual file content reading, but to > cover the whole "turn it into a a real module" part too. > > Also, this does *not* update some of the comments in the module > loading. I changed finit_module to use "kernel_read_file()" instead of > "kernel_read_file_from_fd()", since it actually now has to look up the > file descriptor anyway. But the comments still talk about that > "from_fd" thing. > > Anyway, this is back to "ENTIRELY UNTESTED" territory, in that I've > compiled this, but haven't booted it. The changes look obvious, but > hey, mistakes happen. > > And the commit message is just a place-holder. Obviously. I won't sign > off on this or write more of a commit message until it has had some > real testing. With 255 vcpus: Before: vagrant@kmod ~ $ sudo systemd-analyze Startup finished in 41.653s (kernel) + 44.305s (userspace) = 1min 25.958s graphical.target reached after 44.178s in userspace. root@kmod ~ # grep "Virtual mem wasted bytes" /sys/kernel/debug/modules/stats Virtual mem wasted bytes 1949006968 So ~1.8 GiB. After: root@kmod ~ # systemd-analyze Startup finished in 35.872s (kernel) + 41.715s (userspace) = 1min 17.588s graphical.target reached after 41.594s in userspace. root@kmod ~ # cat /sys/kernel/debug/modules/stats Mods ever loaded 66 Mods failed on kread 0 Mods failed on decompress 0 Mods failed on becoming 1 Mods failed on load 0 Total module size 11268096 Total mod text size 4149248 Failed kread bytes 0 Failed decompress bytes 0 Failed becoming bytes 474688 Failed kmod bytes 0 Virtual mem wasted bytes 474688 Average mod size 170729 Average mod text size 62868 Avg fail becoming bytes 474688 Duplicate failed modules: Module-name How-many-times Reason cryptd 1 Becoming root@kmod ~ # du -b /lib/modules/6.3.0-next-20230505+/kernel/crypto/cryptd.ko 475409 /lib/modules/6.3.0-next-20230505+/kernel/crypto/cryptd.ko So yeah definitely a pretty good improvement. Sometimes the system boots without any duplicates at all, for some reason Vs the previous attempt. Tested-by: Luis Chamberlain <mcgrof@kernel.org> Luis
On Thu, May 25, 2023 at 3:02 PM Luis Chamberlain <mcgrof@kernel.org> wrote: > > So yeah definitely a pretty good improvement. Sometimes the system boots > without any duplicates at all, for some reason Vs the previous attempt. > > Tested-by: Luis Chamberlain <mcgrof@kernel.org> Ok, I decided to just move it from my experimental tree to my main tree. I think I used about three times the time and effort (and lines of text) on writing the commit message compared to what I did on the patch itself. I tried to lay out the background and the implications of the change - it may be pretty darn simple, but it does have some subtle issues. Anyway: I've committed it to my tree. This is not necessarily the best time to do that, but let's get this behind us, and in particular, let's get it out and into wider testing asap. If it causes any problems what-so-ever, I'll just revert it very aggressively (unless the problem is trivially and obviously fixable). It is, after all, not a fix for a _kernel_ bug per se, and whil eI think the patch is very benign, it does change user-visible behavior. Very intentionally so, but still.. Linus
On Thu, May 25, 2023 at 06:39:52PM -0700, Linus Torvalds wrote: > Ok, I decided to just move it from my experimental tree to my main tree. > > I think I used about three times the time and effort (and lines of > text) on writing the commit message compared to what I did on the > patch itself. > > I tried to lay out the background and the implications of the change - > it may be pretty darn simple, but it does have some subtle issues. > > Anyway: I've committed it to my tree. This is not necessarily the best > time to do that, but let's get this behind us, and in particular, > let's get it out and into wider testing asap. > > If it causes any problems what-so-ever, I'll just revert it very > aggressively (unless the problem is trivially and obviously fixable). > It is, after all, not a fix for a _kernel_ bug per se, and whil eI > think the patch is very benign, it does change user-visible behavior. > Very intentionally so, but still.. This change breaks module loading during boot on the Lenovo Thinkpad X13s (aarch64). Specifically it results in indefinite probe deferral of the display and USB (ethernet) which makes it a pain to debug. Typing in the dark to acquire some logs reveals that other modules are missing as well. Fortunately commit 9828ed3f695a ("module: error out early on concurrent load of the same module file") stood out when skimming the changes that went into -rc4, and reverting it make all the expected modules be loaded again. I have not tried to figure out exactly why things break, but it does seem like this one should be reverted. Johan
On Mon, May 29, 2023 at 4:58 AM Johan Hovold <johan@kernel.org> wrote: > > I have not tried to figure out exactly why things break, but it does > seem like this one should be reverted. Yes, I have done so. However, can I ask you to just verify that it was purely the exclusive open part, and it wasn't that I messed up something else. IOW, can you replace the return exclusive_deny_write_access(file); in prepare_file_for_module_load() with just a "return 0", and remove the allow_write_access(f.file); line in finit_module()? That's obviously _instead_ of the revert that I already pushed out, just to verify that "yup, it's that part, not something silly elsewhere" I do wonder what it is that is different in your setup, and maybe you could also enable the pr_debug("finit_module: fd=%d, uargs=%p, flags=%i\n", fd, uargs, flags); in finit_module() while you are at it? Since you'd be editing that file anyway for the test, just change the pr_debug() to a printk() and then do dmesg | grep finit_module to see what it all results in (on a working kernel, of course). Linus
On Mon, May 29, 2023 at 07:00:05AM -0400, Linus Torvalds wrote: > However, can I ask you to just verify that it was purely the exclusive > open part, and it wasn't that I messed up something else. IOW, can you > replace the > > return exclusive_deny_write_access(file); > > in prepare_file_for_module_load() with just a "return 0", and remove the > > allow_write_access(f.file); > > line in finit_module()? > > That's obviously _instead_ of the revert that I already pushed out, > just to verify that "yup, it's that part, not something silly > elsewhere" Yes, those two changes are enough to make the problem go away. > I do wonder what it is that is different in your setup, and maybe you > could also enable the > > pr_debug("finit_module: fd=%d, uargs=%p, flags=%i\n", fd, uargs, flags); Below is the corresponding output with a working kernel: 174 requests for the 131 modules that end up being loaded (without the revert there is only around 110 modules loaded). There is some probe deferral and async probing going on during normal boot which may be part of the explanation. Johan [ 0.669112] finit_module: fd=3, uargs=00000000b461506c, flags=0 [ 0.674144] finit_module: fd=4, uargs=00000000b461506c, flags=0 [ 0.676783] finit_module: fd=5, uargs=00000000b461506c, flags=0 [ 0.678920] finit_module: fd=3, uargs=00000000b461506c, flags=0 [ 0.837967] finit_module: fd=5, uargs=0000000000157d9f, flags=0 [ 0.839414] finit_module: fd=3, uargs=00000000b461506c, flags=0 [ 0.844129] finit_module: fd=4, uargs=00000000b461506c, flags=0 [ 0.845016] finit_module: fd=3, uargs=00000000b461506c, flags=0 [ 0.849132] finit_module: fd=3, uargs=00000000b461506c, flags=0 [ 0.849460] finit_module: fd=4, uargs=00000000b461506c, flags=0 [ 3.345004] finit_module: fd=4, uargs=00000000e3e6c6d2, flags=0 [ 3.364302] finit_module: fd=4, uargs=0000000095136ea7, flags=0 [ 3.371928] finit_module: fd=5, uargs=0000000095136ea7, flags=0 [ 4.099183] finit_module: fd=3, uargs=00000000ce2d6f3e, flags=0 [ 4.103156] finit_module: fd=3, uargs=000000004e3e14c2, flags=0 [ 4.713558] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.715608] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.717620] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.717910] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.719517] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.725862] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.726730] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.727018] finit_module: fd=14, uargs=00000000262da138, flags=0 [ 4.730525] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.749602] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 4.749675] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 4.749678] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.774117] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.795307] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.797327] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.798405] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.799140] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.800850] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.807306] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.807313] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.807321] finit_module: fd=16, uargs=00000000262da138, flags=0 [ 4.807394] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.807463] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.807525] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.807530] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.807590] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.811469] finit_module: fd=0, uargs=0000000080fab15b, flags=0 [ 4.845851] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 4.845875] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.846282] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.846363] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.846363] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.846669] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.846994] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.847005] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.847194] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.847356] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 4.847448] finit_module: fd=17, uargs=00000000262da138, flags=0 [ 4.847556] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.847651] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.848175] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.850005] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 4.850485] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.866031] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 4.866032] finit_module: fd=16, uargs=00000000262da138, flags=0 [ 4.866381] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.866711] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.867757] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.868360] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.886043] finit_module: fd=16, uargs=00000000262da138, flags=0 [ 4.886046] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.886046] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.886060] finit_module: fd=17, uargs=00000000262da138, flags=0 [ 4.886114] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.886140] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.886326] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 4.886716] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.887210] finit_module: fd=16, uargs=00000000262da138, flags=0 [ 4.887451] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.887811] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.887963] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 4.892066] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.896048] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.896070] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.896092] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 4.896157] finit_module: fd=18, uargs=00000000262da138, flags=0 [ 4.896193] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.896211] finit_module: fd=18, uargs=00000000262da138, flags=0 [ 4.896737] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.896751] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 4.897174] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 4.897343] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.897388] finit_module: fd=19, uargs=00000000262da138, flags=0 [ 4.897555] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.897592] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.899657] finit_module: fd=16, uargs=00000000262da138, flags=0 [ 4.899973] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 4.900316] finit_module: fd=17, uargs=00000000262da138, flags=0 [ 4.901188] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.901668] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.901708] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.902030] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 4.903964] finit_module: fd=14, uargs=00000000262da138, flags=0 [ 4.905243] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.907083] finit_module: fd=17, uargs=00000000262da138, flags=0 [ 4.907480] finit_module: fd=16, uargs=00000000262da138, flags=0 [ 4.907519] finit_module: fd=16, uargs=00000000262da138, flags=0 [ 4.909481] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 4.911705] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 4.912056] finit_module: fd=18, uargs=00000000262da138, flags=0 [ 4.912079] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 4.915340] finit_module: fd=19, uargs=00000000262da138, flags=0 [ 4.933199] finit_module: fd=16, uargs=00000000262da138, flags=0 [ 4.933585] finit_module: fd=18, uargs=00000000262da138, flags=0 [ 4.935169] finit_module: fd=20, uargs=00000000262da138, flags=0 [ 4.956021] finit_module: fd=19, uargs=00000000262da138, flags=0 [ 4.956797] finit_module: fd=16, uargs=00000000262da138, flags=0 [ 4.959865] finit_module: fd=17, uargs=00000000262da138, flags=0 [ 4.964171] finit_module: fd=17, uargs=00000000262da138, flags=0 [ 4.977073] finit_module: fd=18, uargs=00000000262da138, flags=0 [ 4.980167] finit_module: fd=18, uargs=00000000262da138, flags=0 [ 5.043379] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 5.053709] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 5.131232] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 5.140785] finit_module: fd=19, uargs=00000000262da138, flags=0 [ 5.186244] finit_module: fd=18, uargs=00000000262da138, flags=0 [ 5.186247] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 5.186252] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 5.186451] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 5.186507] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 5.187345] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 5.190282] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 5.195744] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 5.198242] finit_module: fd=16, uargs=00000000262da138, flags=0 [ 5.198271] finit_module: fd=20, uargs=00000000262da138, flags=0 [ 5.222394] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 5.222395] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 5.222407] finit_module: fd=16, uargs=00000000262da138, flags=0 [ 5.222430] finit_module: fd=21, uargs=00000000262da138, flags=0 [ 5.222432] finit_module: fd=16, uargs=00000000262da138, flags=0 [ 5.222443] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 5.229650] finit_module: fd=22, uargs=00000000262da138, flags=0 [ 5.257981] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 5.313560] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 6.144316] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 6.178956] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 6.178961] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 6.182057] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 6.182067] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 6.243708] finit_module: fd=0, uargs=00000000f9e4f67e, flags=0 [ 6.249397] finit_module: fd=0, uargs=000000001b26db10, flags=0 [ 6.249904] finit_module: fd=1, uargs=000000001b26db10, flags=0 [ 6.250626] finit_module: fd=2, uargs=000000001b26db10, flags=0 [ 6.251515] finit_module: fd=3, uargs=000000001b26db10, flags=0 [ 6.254112] finit_module: fd=4, uargs=000000001b26db10, flags=0 [ 6.255129] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 6.255504] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 6.259256] finit_module: fd=0, uargs=00000000e1b6cfe4, flags=0 [ 6.264136] finit_module: fd=0, uargs=000000004070418f, flags=0 [ 6.265227] finit_module: fd=1, uargs=000000004070418f, flags=0 [ 6.270175] finit_module: fd=0, uargs=0000000092757077, flags=0 [ 6.271230] finit_module: fd=1, uargs=0000000092757077, flags=0 [ 6.322960] finit_module: fd=3, uargs=00000000fb904223, flags=0 [ 6.373125] finit_module: fd=0, uargs=00000000e2cdc73f, flags=0 [ 6.380061] finit_module: fd=0, uargs=000000000591e4e9, flags=0 [ 6.392296] finit_module: fd=0, uargs=0000000088d2796a, flags=0 [ 6.464595] finit_module: fd=0, uargs=000000001aa8b42e, flags=0 [ 6.479839] finit_module: fd=0, uargs=00000000de50a030, flags=0 [ 6.488790] finit_module: fd=0, uargs=00000000cbcb6a65, flags=0 [ 6.492573] finit_module: fd=1, uargs=00000000cbcb6a65, flags=0 [ 6.514903] finit_module: fd=0, uargs=000000006f393376, flags=0 [ 7.989970] finit_module: fd=0, uargs=00000000c4594f52, flags=0 [ 11.492886] finit_module: fd=13, uargs=00000000262da138, flags=0 [ 11.639532] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 11.640048] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 11.640997] finit_module: fd=15, uargs=00000000262da138, flags=0 [ 11.641049] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 11.775051] finit_module: fd=6, uargs=00000000262da138, flags=0 [ 11.776806] finit_module: fd=6, uargs=00000000262da138, flags=0
> On Mon, May 29, 2023 at 07:00:05AM -0400, Linus Torvalds wrote: > > I do wonder what it is that is different in your setup I took a closer look at some of the modules that failed to load and noticed a pattern in that they have dependencies that are needed by more than one device. If attempts to load the drivers for two such devices are made in parallel, only one of them may be successful in loading the shared dependency which means that module loading is now aborted for the other. I took a quick look at the kmod code https://git.kernel.org/pub/scm/utils/kernel/kmod/kmod.git/tree/libkmod/libkmod-module.c#n1305 and it does seem like this could happen if we start returning errors when a module is already in the process of being loaded. Johan
On Mon, May 29, 2023 at 8:44 AM Johan Hovold <johan@kernel.org> wrote: > > Yes, those two changes are enough to make the problem go away. Ok, good. Expected, but just verifying that it wasn't some silly incidental thinko. > > I do wonder what it is that is different in your setup, and maybe you > > could also enable the > > > > pr_debug("finit_module: fd=%d, uargs=%p, flags=%i\n", fd, uargs, flags); > > Below is the corresponding output with a working kernel: 174 requests > for the 131 modules that end up being loaded (without the revert there > is only around 110 modules loaded). Ok, your setup doesn't sound *too* different from mine. I have 176 kernel modules on my laptop right now, and that exclusive open obviously worked fine for me. But it could easily be some random small difference just from different hardware, so... And yeah, that dmesg output is useless, I didn't think of the fact that it only prints out the file descriptor, not the actual path to the file. In fact, without that change in place, the module code never actually looks at the file and leaves it all to kernel_read_file_from_fd(). With my change, it woul dhave been trivial to use "%pD" and point it at the file pointer instead, and get the dentry name that way, but never mind. I think you're entirely right that it's probably due to a shared dependency module, and I just didn't happen to trigger that case. Sadly, the whole idea was to figure out the exclusion so early that we don't have the module data structures lookup up yet, so there's no really obvious thing to serialize the load on. I'll have to think about this more. Serializing on a per-inode lock would seem to be the simplest thing, but they are all for IO, and we can't just take them over the read. Linus
On Mon, May 29, 2023 at 11:18 AM Johan Hovold <johan@kernel.org> wrote: > > I took a closer look at some of the modules that failed to load and > noticed a pattern in that they have dependencies that are needed by more > than one device. Ok, this is a "maybe something like this" RFC series of two patches - one trivial one to re-organize things a bit so that we can then do the real one which uses a filter based on the inode pointer to return an "idempotent return value" for module loads that share the same inode. It's entirely untested, and since I'm on the road I'm going to not really be able to test it. It compiles for me, and the code looks fairly straightforward, but it's probably buggy. It's very loosely based on Luis' attempt, but it (a) is internal to module loading (b) uses a reliable cookie (c) doesn't leave the cookie around randomly for later (d) has seen absolutely no testing Put another way: if somebody wants to play with this, please treat it as a starting point, not the final thing. You might need to debug things, and fix silly mistakes. The idea is to just have a simple hash list of currently executing module loads, protected by a trivial spinlock. Every module loader adds itself to the right hash list, and if they were the *first* one (ie no other pending module loads for that inode), will actually do the module load. Everybody who *isn't* the first one will just wait for completion and return the same error code that the first one returned. This is technically bogus. The first one might fail due to arguments. So the cookie shouldn't be just the inode, it should be the inode and a hash of the arguments or something like that. But it is what it is, and apart from possible show-stopper bugs this is no worse than the failed "exclusive write deny" attempt. IOW - maybe worth trying? And if *that* didn't sell people on this patch series, I don't know what will. I should be in marketing! Two drink minimums, here I come! Linus
On Mon, May 29, 2023 at 09:55:15PM -0400, Linus Torvalds wrote: > On Mon, May 29, 2023 at 11:18 AM Johan Hovold <johan@kernel.org> wrote: > > > > I took a closer look at some of the modules that failed to load and > > noticed a pattern in that they have dependencies that are needed by more > > than one device. > > Ok, this is a "maybe something like this" RFC series of two patches - > one trivial one to re-organize things a bit so that we can then do the > real one which uses a filter based on the inode pointer to return an > "idempotent return value" for module loads that share the same inode. > > It's entirely untested, and since I'm on the road I'm going to not > really be able to test it. It compiles for me, and the code looks > fairly straightforward, but it's probably buggy. > > It's very loosely based on Luis' attempt, but it > (a) is internal to module loading > (b) uses a reliable cookie > (c) doesn't leave the cookie around randomly for later > (d) has seen absolutely no testing > > Put another way: if somebody wants to play with this, please treat it > as a starting point, not the final thing. You might need to debug > things, and fix silly mistakes. With the missing spinlock initialisation fixed: -static struct spinlock idem_lock; +static DEFINE_SPINLOCK(idem_lock); this passes basic smoke testing and allows the X13s to boot. It does not seem to have any significant impact on boot time, but it avoids some of the unnecessary load attempts as intended: Before: Mods ever loaded 131 Mods failed on kread 0 Mods failed on decompress 0 Mods failed on becoming 24 Mods failed on load 14 Total module size 12587008 Total mod text size 5058560 Failed kread bytes 0 Failed decompress bytes 0 Failed becoming bytes 2437992 Failed kmod bytes 1858992 Virtual mem wasted bytes 4296984 Average mod size 96085 Average mod text size 38615 Avg fail becoming bytes 101583 Average fail load bytes 132786 After: Mods ever loaded 131 Mods failed on kread 0 Mods failed on decompress 0 Mods failed on becoming 4 Mods failed on load 0 Total module size 12587008 Total mod text size 5058560 Failed kread bytes 0 Failed decompress bytes 0 Failed becoming bytes 109776 Failed kmod bytes 0 Virtual mem wasted bytes 109776 Average mod size 96085 Average mod text size 38615 Avg fail becoming bytes 27444 Johan
On Mon, May 29, 2023 at 01:47:28PM -0400, Linus Torvalds wrote: > On Mon, May 29, 2023 at 8:44 AM Johan Hovold <johan@kernel.org> wrote: > > > I do wonder what it is that is different in your setup, and maybe you > > > could also enable the > > > > > > pr_debug("finit_module: fd=%d, uargs=%p, flags=%i\n", fd, uargs, flags); > > > > Below is the corresponding output with a working kernel: 174 requests > > for the 131 modules that end up being loaded (without the revert there > > is only around 110 modules loaded). > And yeah, that dmesg output is useless, I didn't think of the fact > that it only prints out the file descriptor, not the actual path to > the file. In fact, without that change in place, the module code never > actually looks at the file and leaves it all to > kernel_read_file_from_fd(). Yeah, I added a printk with the module name to load_module() to make some sense of it. > With my change, it woul dhave been trivial to use "%pD" and point it > at the file pointer instead, and get the dentry name that way, but > never mind. I think you're entirely right that it's probably due to a > shared dependency module, and I just didn't happen to trigger that > case. For completeness, here's a corresponding log from when running with your RFC. Those duplicate requests that now wait for loading to complete would have failed, and that explains why some modules like qcom-spmi-adc5 and qcom-spmi-adc-tm5 that both depend on qcom-vadc-common would in turn fail to load. Johan [ 0.633127] init_module_from_file - i2c-core.ko [ 0.638320] init_module_from_file - i2c-hid.ko [ 0.640654] init_module_from_file - i2c-hid-of.ko [ 0.642572] init_module_from_file - i2c-qcom-geni.ko [ 0.826911] init_module_from_file - hid-multitouch.ko [ 0.827861] init_module_from_file - nvme-core.ko [ 0.833011] init_module_from_file - nvme.ko [ 0.835558] init_module_from_file - phy-qcom-qmp-pcie.ko [ 0.841050] init_module_from_file - crc8.ko [ 0.841371] init_module_from_file - pcie-qcom.ko [ 3.390182] init_module_from_file - ipv6.ko [ 3.402261] init_module_from_file - x_tables.ko [ 3.406573] init_module_from_file - ip_tables.ko [ 4.180345] init_module_from_file - dm-mod.ko [ 4.186611] init_module_from_file - drm.ko [ 4.793481] init_module_from_file - pwm_bl.ko [ 4.798935] init_module_from_file - soundwire-bus.ko [ 4.802551] init_module_from_file - qmi_helpers.ko [ 4.805664] init_module_from_file - socinfo.ko [ 4.814729] init_module_from_file - pdr_interface.ko [ 4.830809] init_module_from_file - soundcore.ko [ 4.832227] init_module_from_file - qcom-wdt.ko [ 4.832242] init_module_from_file - qcom-rng.ko [ 4.832311] init_module_from_file - icc-osm-l3.ko [ 4.867903] init_module_from_file - pmic_glink.ko [ 4.867904] init_module_from_file - snd.ko [ 4.868045] init_module_from_file - mdt_loader.ko [ 4.890274] init_module_from_file - snd.ko [ 4.893962] init_module_from_file - snd.ko [ 4.894620] init_module_from_file - snd.ko [ 4.896162] init_module_from_file - snd.ko [ 4.896797] init_module_from_file - snd.ko [ 4.896907] init_module_from_file - snd.ko [ 4.898087] init_module_from_file - snd.ko [ 4.907548] init_module_from_file - qcom_sysmon.ko [ 4.907560] init_module_from_file - qcom_sysmon.ko [ 4.918690] init_module_from_file - snd.ko - waited, ret = 0 [ 4.918692] init_module_from_file - snd.ko - waited, ret = 0 [ 4.918694] init_module_from_file - snd.ko - waited, ret = 0 [ 4.918695] init_module_from_file - snd.ko - waited, ret = 0 [ 4.918699] init_module_from_file - snd.ko - waited, ret = 0 [ 4.918700] init_module_from_file - snd.ko - waited, ret = 0 [ 4.920849] init_module_from_file - snd.ko - waited, ret = 0 [ 4.937139] init_module_from_file - qrtr.ko [ 4.937163] init_module_from_file - icc-bwmon.ko [ 4.937185] init_module_from_file - icc-bwmon.ko [ 4.938603] init_module_from_file - qcom_sysmon.ko - waited, ret = 0 [ 4.939866] init_module_from_file - snd-timer.ko [ 4.939877] init_module_from_file - snd-timer.ko [ 4.939885] init_module_from_file - snd-timer.ko [ 4.939897] init_module_from_file - snd-timer.ko [ 4.939905] init_module_from_file - snd-timer.ko [ 4.939914] init_module_from_file - snd-timer.ko [ 4.939982] init_module_from_file - snd-timer.ko [ 4.940050] init_module_from_file - snd-timer.ko [ 4.943465] init_module_from_file - pinctrl-lpass-lpi.ko [ 4.943493] init_module_from_file - phy-qcom-snps-femto-v2.ko [ 4.943512] init_module_from_file - phy-qcom-snps-femto-v2.ko [ 4.944176] init_module_from_file - qcom_q6v5.ko [ 4.944362] init_module_from_file - qcom_q6v5.ko [ 4.946140] init_module_from_file - qcom_q6v5.ko - waited, ret = 0 [ 4.946758] init_module_from_file - snd-timer.ko - waited, ret = 0 [ 4.946762] init_module_from_file - snd-timer.ko - waited, ret = 0 [ 4.946919] init_module_from_file - snd-timer.ko - waited, ret = 0 [ 4.947484] init_module_from_file - snd-timer.ko - waited, ret = 0 [ 4.947827] init_module_from_file - snd-timer.ko - waited, ret = 0 [ 4.948101] init_module_from_file - snd-timer.ko - waited, ret = 0 [ 4.948163] init_module_from_file - snd-timer.ko - waited, ret = 0 [ 4.948483] init_module_from_file - phy-qcom-snps-femto-v2.ko - waited, ret = 0 [ 4.950639] init_module_from_file - icc-bwmon.ko - waited, ret = 0 [ 4.951178] init_module_from_file - snd-pcm.ko [ 4.951279] init_module_from_file - snd-pcm.ko [ 4.951616] init_module_from_file - qcom_glink_smem.ko [ 4.952049] init_module_from_file - snd-pcm.ko [ 4.952122] init_module_from_file - snd-pcm.ko [ 4.952132] init_module_from_file - snd-pcm.ko [ 4.952185] init_module_from_file - snd-pcm.ko [ 4.952231] init_module_from_file - pinctrl-sc8280xp-lpass-lpi.ko [ 4.952238] init_module_from_file - snd-pcm.ko [ 4.952326] init_module_from_file - qcom_glink_smem.ko [ 4.957870] init_module_from_file - snd-pcm.ko [ 4.971513] init_module_from_file - typec.ko [ 4.971529] init_module_from_file - typec.ko [ 4.971544] init_module_from_file - phy-qcom-edp.ko [ 4.971619] init_module_from_file - typec.ko [ 4.971806] init_module_from_file - snd-pcm.ko [ 4.971961] init_module_from_file - qcom_common.ko [ 4.972583] init_module_from_file - qcom_common.ko [ 4.972676] init_module_from_file - rfkill.ko [ 4.972898] init_module_from_file - qcom_stats.ko [ 4.973031] init_module_from_file - typec.ko [ 4.973917] init_module_from_file - snd-pcm.ko - waited, ret = 0 [ 4.974024] init_module_from_file - snd-pcm.ko - waited, ret = 0 [ 4.974090] init_module_from_file - qcom_common.ko - waited, ret = 0 [ 4.974134] init_module_from_file - snd-pcm.ko - waited, ret = 0 [ 4.974205] init_module_from_file - snd-pcm.ko - waited, ret = 0 [ 4.974265] init_module_from_file - snd-pcm.ko - waited, ret = 0 [ 4.974307] init_module_from_file - snd-pcm.ko - waited, ret = 0 [ 4.974385] init_module_from_file - snd-pcm.ko - waited, ret = 0 [ 4.974436] init_module_from_file - snd-pcm.ko - waited, ret = 0 [ 4.979168] init_module_from_file - qcom_pil_info.ko [ 4.979352] init_module_from_file - snd-compress.ko [ 4.979399] init_module_from_file - qcom_pil_info.ko [ 4.979668] init_module_from_file - snd-compress.ko [ 4.979912] init_module_from_file - snd-compress.ko [ 4.980022] init_module_from_file - rtc-pm8xxx.ko [ 4.980107] init_module_from_file - snd-compress.ko [ 4.980216] init_module_from_file - sysimgblt.ko [ 4.980490] init_module_from_file - nvmem_qcom-spmi-sdam.ko [ 4.980593] init_module_from_file - snd-compress.ko [ 4.981109] init_module_from_file - snd-compress.ko [ 4.981136] init_module_from_file - qcom_pil_info.ko - waited, ret = 0 [ 4.981285] init_module_from_file - snd-compress.ko [ 4.981378] init_module_from_file - typec.ko - waited, ret = 0 [ 4.981382] init_module_from_file - typec.ko - waited, ret = 0 [ 4.981402] init_module_from_file - snd-compress.ko - waited, ret = 0 [ 4.981404] init_module_from_file - snd-compress.ko - waited, ret = 0 [ 4.981412] init_module_from_file - typec.ko - waited, ret = 0 [ 4.981453] init_module_from_file - snd-compress.ko - waited, ret = 0 [ 4.981482] init_module_from_file - snd-compress.ko - waited, ret = 0 [ 4.981516] init_module_from_file - snd-compress.ko - waited, ret = 0 [ 4.981620] init_module_from_file - snd-compress.ko [ 4.982970] init_module_from_file - snd-compress.ko [ 4.985063] init_module_from_file - qcom_q6v5_pas.ko [ 4.985132] init_module_from_file - qcom_q6v5_pas.ko [ 4.985200] init_module_from_file - snd-soc-core.ko [ 4.985222] init_module_from_file - qcom-vadc-common.ko [ 4.985254] init_module_from_file - sysfillrect.ko [ 4.985654] init_module_from_file - snd-soc-core.ko [ 4.985697] init_module_from_file - sysfillrect.ko [ 4.985862] init_module_from_file - snd-soc-core.ko [ 4.985883] init_module_from_file - ecc.ko [ 4.985950] init_module_from_file - reboot-mode.ko [ 4.985982] init_module_from_file - snd-soc-core.ko [ 4.986159] init_module_from_file - snd-soc-core.ko [ 4.986304] init_module_from_file - snd-soc-core.ko [ 4.986829] init_module_from_file - qcom-vadc-common.ko [ 4.987106] init_module_from_file - snd-soc-core.ko [ 4.987546] init_module_from_file - qcom-vadc-common.ko - waited, ret = 0 [ 4.987889] init_module_from_file - snd-soc-core.ko [ 4.988198] init_module_from_file - snd-soc-core.ko [ 4.989151] init_module_from_file - industrialio.ko [ 4.989220] init_module_from_file - industrialio.ko [ 4.989588] init_module_from_file - gpio-sbu-mux.ko [ 4.989651] init_module_from_file - gpio-sbu-mux.ko [ 4.990037] init_module_from_file - qcom-pon.ko [ 4.991354] init_module_from_file - mhi.ko [ 4.992889] init_module_from_file - industrialio.ko - waited, ret = 0 [ 4.993473] init_module_from_file - cfg80211.ko [ 4.994053] init_module_from_file - snd-soc-core.ko - waited, ret = 0 [ 4.994073] init_module_from_file - snd-soc-core.ko - waited, ret = 0 [ 4.994103] init_module_from_file - snd-soc-core.ko - waited, ret = 0 [ 4.994107] init_module_from_file - snd-soc-core.ko - waited, ret = 0 [ 4.994129] init_module_from_file - snd-soc-core.ko - waited, ret = 0 [ 4.994147] init_module_from_file - snd-soc-core.ko - waited, ret = 0 [ 4.994166] init_module_from_file - sysfillrect.ko [ 4.994176] init_module_from_file - snd-soc-core.ko - waited, ret = 0 [ 4.994206] init_module_from_file - snd-soc-core.ko - waited, ret = 0 [ 4.994319] init_module_from_file - qcom-spmi-adc5.ko [ 4.994621] init_module_from_file - ecdh_generic.ko [ 4.994975] init_module_from_file - snd-soc-lpass-macro-common.ko [ 4.994999] init_module_from_file - qcom-spmi-adc-tm5.ko [ 4.996797] init_module_from_file - gpio-sbu-mux.ko - waited, ret = 0 [ 4.997487] init_module_from_file - snd-soc-qcom-sdw.ko [ 4.997511] init_module_from_file - snd-soc-lpass-macro-common.ko [ 4.997546] init_module_from_file - snd-soc-wcd-mbhc.ko [ 4.997573] init_module_from_file - sysfillrect.ko - waited, ret = 0 [ 4.997754] init_module_from_file - syscopyarea.ko [ 4.997762] init_module_from_file - syscopyarea.ko [ 4.999053] init_module_from_file - sysfillrect.ko - waited, ret = 0 [ 4.999247] init_module_from_file - snd-soc-lpass-macro-common.ko [ 4.999482] init_module_from_file - snd-soc-lpass-wsa-macro.ko [ 4.999587] init_module_from_file - soundwire-qcom.ko [ 5.000338] init_module_from_file - soundwire-qcom.ko [ 5.000745] init_module_from_file - soundwire-qcom.ko [ 5.001008] init_module_from_file - syscopyarea.ko [ 5.015734] init_module_from_file - bluetooth.ko [ 5.016020] init_module_from_file - regmap-sdw.ko [ 5.016434] init_module_from_file - snd-soc-qcom-common.ko [ 5.017416] init_module_from_file - syscopyarea.ko - waited, ret = 0 [ 5.018912] init_module_from_file - snd-soc-lpass-macro-common.ko - waited, ret = 0 [ 5.018952] init_module_from_file - syscopyarea.ko - waited, ret = 0 [ 5.019196] init_module_from_file - snd-soc-lpass-macro-common.ko - waited, ret = 0 [ 5.020220] init_module_from_file - drm_kms_helper.ko [ 5.020230] init_module_from_file - snd-soc-lpass-rx-macro.ko [ 5.023262] init_module_from_file - drm_kms_helper.ko [ 5.023366] init_module_from_file - snd-soc-wcd938x-sdw.ko [ 5.023705] init_module_from_file - snd-soc-lpass-va-macro.ko [ 5.024133] init_module_from_file - drm_kms_helper.ko [ 5.024223] init_module_from_file - snd-soc-sc8280xp.ko [ 5.024814] init_module_from_file - snd-soc-lpass-tx-macro.ko [ 5.027886] init_module_from_file - drm_kms_helper.ko - waited, ret = 0 [ 5.027937] init_module_from_file - drm_kms_helper.ko - waited, ret = 0 [ 5.028550] init_module_from_file - phy-qcom-qmp-combo.ko [ 5.028828] init_module_from_file - snd-soc-wcd938x.ko [ 5.029106] init_module_from_file - drm_dp_aux_bus.ko [ 5.030265] init_module_from_file - phy-qcom-qmp-combo.ko [ 5.037773] init_module_from_file - qcom_q6v5_pas.ko - waited, ret = 0 [ 5.038034] init_module_from_file - soundwire-qcom.ko - waited, ret = 0 [ 5.038548] init_module_from_file - libarc4.ko [ 5.038551] init_module_from_file - soundwire-qcom.ko - waited, ret = 0 [ 5.042176] init_module_from_file - btqca.ko [ 5.044433] init_module_from_file - mac80211.ko [ 5.044480] init_module_from_file - drm_display_helper.ko [ 5.046672] init_module_from_file - qcom-spmi-temp-alarm.ko [ 5.048163] init_module_from_file - hci_uart.ko [ 5.056843] init_module_from_file - gpu-sched.ko [ 5.073356] init_module_from_file - led-class-multicolor.ko [ 5.087906] init_module_from_file - qcom-spmi-temp-alarm.ko [ 5.106010] init_module_from_file - ath11k.ko [ 5.106084] init_module_from_file - msm.ko [ 5.125345] init_module_from_file - leds-qcom-lpg.ko [ 5.150715] init_module_from_file - ath11k_pci.ko [ 5.157163] init_module_from_file - qcom-spmi-temp-alarm.ko - waited, ret = 0 [ 5.157894] init_module_from_file - qcom_battmgr.ko [ 5.158102] init_module_from_file - phy-qcom-qmp-combo.ko - waited, ret = 0 [ 5.159204] init_module_from_file - pmic_glink_altmode.ko [ 5.258217] init_module_from_file - qrtr-smd.ko [ 5.258238] init_module_from_file - qrtr-smd.ko [ 5.258294] init_module_from_file - rpmsg_char.ko [ 5.259157] init_module_from_file - apr.ko [ 5.259160] init_module_from_file - rpmsg_char.ko [ 5.276634] init_module_from_file - qrtr-smd.ko - waited, ret = 0 [ 5.277698] init_module_from_file - fastrpc.ko [ 5.278293] init_module_from_file - rpmsg_char.ko - waited, ret = 0 [ 5.278926] init_module_from_file - rpmsg_ctrl.ko [ 5.279642] init_module_from_file - rpmsg_ctrl.ko [ 5.281399] init_module_from_file - rpmsg_ctrl.ko - waited, ret = 0 [ 5.330747] init_module_from_file - snd-soc-hdmi-codec.ko [ 5.330826] init_module_from_file - snd-soc-hdmi-codec.ko [ 5.333130] init_module_from_file - snd-soc-hdmi-codec.ko [ 5.333201] init_module_from_file - snd-soc-hdmi-codec.ko - waited, ret = 0 [ 5.333214] init_module_from_file - snd-soc-hdmi-codec.ko - waited, ret = 0 [ 5.396803] init_module_from_file - panel-edp.ko [ 6.101509] init_module_from_file - qrtr-mhi.ko [ 6.196359] init_module_from_file - iptable_filter.ko [ 6.203333] init_module_from_file - nf_defrag_ipv4.ko [ 6.203903] init_module_from_file - nf_defrag_ipv6.ko [ 6.204628] init_module_from_file - libcrc32c.ko [ 6.204727] init_module_from_file - snd-q6apm.ko [ 6.204985] init_module_from_file - snd-q6apm.ko [ 6.205007] init_module_from_file - nf_conntrack.ko [ 6.207137] init_module_from_file - xt_conntrack.ko [ 6.211214] init_module_from_file - xt_tcpudp.ko [ 6.215535] init_module_from_file - nf_reject_ipv4.ko [ 6.216071] init_module_from_file - ipt_REJECT.ko [ 6.222201] init_module_from_file - nf_log_syslog.ko [ 6.223050] init_module_from_file - xt_LOG.ko [ 6.241544] init_module_from_file - ip6_tables.ko [ 6.286511] init_module_from_file - af_alg.ko [ 6.293272] init_module_from_file - algif_hash.ko [ 6.304773] init_module_from_file - md5.ko [ 6.333540] init_module_from_file - mii.ko [ 6.333550] init_module_from_file - mii.ko [ 6.334785] init_module_from_file - mii.ko - waited, ret = 0 [ 6.335170] init_module_from_file - r8152.ko [ 6.335282] init_module_from_file - r8152.ko [ 6.370285] init_module_from_file - algif_skcipher.ko [ 6.384424] init_module_from_file - ecb.ko [ 6.392643] init_module_from_file - libdes.ko [ 6.397046] init_module_from_file - des_generic.ko [ 6.416039] init_module_from_file - cbc.ko [ 6.643702] init_module_from_file - r8152.ko - waited, ret = 0 [ 7.940666] init_module_from_file - michael_mic.ko [ 11.233648] init_module_from_file - snd-q6apm.ko - waited, ret = 0 [ 11.234264] init_module_from_file - q6prm.ko [ 11.303802] init_module_from_file - q6apm-dai.ko [ 11.304498] init_module_from_file - snd-q6dsp-common.ko [ 11.305476] init_module_from_file - q6apm-lpass-dais.ko [ 11.309858] init_module_from_file - q6prm-clocks.ko [ 11.446919] init_module_from_file - snd-soc-wsa883x.ko [ 11.446953] init_module_from_file - snd-soc-wsa883x.ko [ 11.456469] init_module_from_file - snd-soc-wsa883x.ko - waited, ret = 0
On Mon, May 29, 2023 at 09:55:15PM -0400, Linus Torvalds wrote: > On Mon, May 29, 2023 at 11:18 AM Johan Hovold <johan@kernel.org> wrote: > > > > I took a closer look at some of the modules that failed to load and > > noticed a pattern in that they have dependencies that are needed by more > > than one device. > > Ok, this is a "maybe something like this" RFC series of two patches - > one trivial one to re-organize things a bit so that we can then do the > real one which uses a filter based on the inode pointer to return an > "idempotent return value" for module loads that share the same inode. > > It's entirely untested, and since I'm on the road I'm going to not > really be able to test it. It compiles for me, and the code looks > fairly straightforward, but it's probably buggy. > > It's very loosely based on Luis' attempt, but it > (a) is internal to module loading > (b) uses a reliable cookie > (c) doesn't leave the cookie around randomly for later > (d) has seen absolutely no testing > > Put another way: if somebody wants to play with this, please treat it > as a starting point, not the final thing. You might need to debug > things, and fix silly mistakes. > > The idea is to just have a simple hash list of currently executing > module loads, protected by a trivial spinlock. Every module loader > adds itself to the right hash list, and if they were the *first* one > (ie no other pending module loads for that inode), will actually do > the module load. > > Everybody who *isn't* the first one will just wait for completion and > return the same error code that the first one returned. That's also a hell much more snazzier MODULE_DEBUG_AUTOLOAD_DUPS if we ever wanted to do something similar there if we wanted to also join request_module() calls, instead of it hiding under debug. > This is technically bogus. The first one might fail due to arguments. For boot it's fine, as I can't think of boot wanting to support trying to load a module with different arguments but who knows. But I can't see it sensible to issue concurrent multiple requests for modules with different arguments without waiting in userspace for the first to fail. Even post-boot, doing that sounds rather insane, but it would certainly be a compromise and should probably be clearly documented. I think just a comment acknolwedging that corner case seems sensible. Because we won't be able to get the arguments until we process the module, so it would be too late for this optimization on kread. So it is why I had also stuck to the original feature being in kread, as then it provides a uniq kread call and the caller is aware of it. But indeed I had not considered the effects of arguments. Lucas, any thoughts from modules kmod userspace perspective into supporting anyone likely issuing concurrent modules requests with differing arguments? > So the cookie shouldn't be just the inode, it should be the inode and > a hash of the arguments or something like that. Personally I think it's a fine optimization without the arguments. > But it is what it is, > and apart from possible show-stopper bugs this is no worse than the > failed "exclusive write deny" attempt. IOW - maybe worth trying? The only thing I can think of is allowing threads other than the first one to complete before the one that actually loaded the module. I thought about this race for module auto-loading, see the comment in kmod_dup_request_announce(), so that just further delays the completion to other thread with a stupid queue_work(). That seems more important for module auto-loading duplicates than for boot finit_module() duplicates. But not sure if odering matters in the end due to a preemtible kernel and maybe that concern is hysteria. > And if *that* didn't sell people on this patch series, I don't know > what will. I should be in marketing! Two drink minimums, here I come! Sold: on 255 vcpus 0 duplicates found with this setup: root@kmod ~ # cat /sys/kernel/debug/modules/stats Mods ever loaded 66 Mods failed on kread 0 Mods failed on decompress 0 Mods failed on becoming 0 Mods failed on load 0 Total module size 11268096 Total mod text size 4149248 Failed kread bytes 0 Failed decompress bytes 0 Failed becoming bytes 0 Failed kmod bytes 0 Virtual mem wasted bytes 0 Average mod size 170729 Average mod text size 62868 So: Tested-by: Luis Chamberlain <mcgrof@kernel.org> In terms of bootup timing: Before: Startup finished in 41.653s (kernel) + 44.305s (userspace) = 1min 25.958s graphical.target reached after 44.178s in userspace. After: Startup finished in 23.995s (kernel) + 40.350s (userspace) = 1min 4.345s graphical.target reached after 40.226s in userspace. So other than the brain farts above, I think this is pretty sexy. Luis
On Tue, May 30, 2023 at 09:22:14AM -0700, Luis Chamberlain wrote: >On Mon, May 29, 2023 at 09:55:15PM -0400, Linus Torvalds wrote: >> On Mon, May 29, 2023 at 11:18 AM Johan Hovold <johan@kernel.org> wrote: >> > >> > I took a closer look at some of the modules that failed to load and >> > noticed a pattern in that they have dependencies that are needed by more >> > than one device. >> >> Ok, this is a "maybe something like this" RFC series of two patches - >> one trivial one to re-organize things a bit so that we can then do the >> real one which uses a filter based on the inode pointer to return an >> "idempotent return value" for module loads that share the same inode. >> >> It's entirely untested, and since I'm on the road I'm going to not >> really be able to test it. It compiles for me, and the code looks >> fairly straightforward, but it's probably buggy. >> >> It's very loosely based on Luis' attempt, but it >> (a) is internal to module loading >> (b) uses a reliable cookie >> (c) doesn't leave the cookie around randomly for later >> (d) has seen absolutely no testing >> >> Put another way: if somebody wants to play with this, please treat it >> as a starting point, not the final thing. You might need to debug >> things, and fix silly mistakes. >> >> The idea is to just have a simple hash list of currently executing >> module loads, protected by a trivial spinlock. Every module loader >> adds itself to the right hash list, and if they were the *first* one >> (ie no other pending module loads for that inode), will actually do >> the module load. >> >> Everybody who *isn't* the first one will just wait for completion and >> return the same error code that the first one returned. > >That's also a hell much more snazzier MODULE_DEBUG_AUTOLOAD_DUPS if we >ever wanted to do something similar there if we wanted to also >join request_module() calls, instead of it hiding under debug. > >> This is technically bogus. The first one might fail due to arguments. > >For boot it's fine, as I can't think of boot wanting to support trying >to load a module with different arguments but who knows. But I can't >see it sensible to issue concurrent multiple requests for modules >with different arguments without waiting in userspace for the first >to fail. > >Even post-boot, doing that sounds rather insane, but it would certainly >be a compromise and should probably be clearly documented. I think just >a comment acknolwedging that corner case seems sensible. > >Because we won't be able to get the arguments until we process the >module, so it would be too late for this optimization on kread. So it is >why I had also stuck to the original feature being in kread, as then it >provides a uniq kread call and the caller is aware of it. But indeed I >had not considered the effects of arguments. > >Lucas, any thoughts from modules kmod userspace perspective into >supporting anyone likely issuing concurrent modules requests with >differing arguments? Changing module params like that without first explicitly removing the module was never supported by kmod or module-init-tools (I'm not digging the history before 2.6 kernel) During boot, note there is already a shortcut if we have the sysfs node already in the "live" state or if the module is built-in. In that case we will return success or -EEXIST (if the KMOD_PROBE_IGNORE_LOADED flag was passed). To be 100% equivalent when covering the window between the first finit_module() and the sysfs node being created, then we could add a similar flag to finit_module() and return -EEXIST. Note however that likbmod will already clear the error when no flag is passed, which is the normal case during boot. The only scenario I can think of during boot in which the module params could change would be when a buggy initrd is created, i.e. /etc/modprobed.d/*.conf is in the rootfs but absent from initrd. So returning the same error code seems good to me. thanks Lucas De Marchi > >> So the cookie shouldn't be just the inode, it should be the inode and >> a hash of the arguments or something like that. > >Personally I think it's a fine optimization without the arguments. > >> But it is what it is, >> and apart from possible show-stopper bugs this is no worse than the >> failed "exclusive write deny" attempt. IOW - maybe worth trying? > >The only thing I can think of is allowing threads other than the >first one to complete before the one that actually loaded the >module. I thought about this race for module auto-loading, see >the comment in kmod_dup_request_announce(), so that just >further delays the completion to other thread with a stupid >queue_work(). That seems more important for module auto-loading >duplicates than for boot finit_module() duplicates. But not sure >if odering matters in the end due to a preemtible kernel and maybe >that concern is hysteria. > >> And if *that* didn't sell people on this patch series, I don't know >> what will. I should be in marketing! Two drink minimums, here I come! > >Sold: > >on 255 vcpus 0 duplicates found with this setup: > >root@kmod ~ # cat /sys/kernel/debug/modules/stats > Mods ever loaded 66 > Mods failed on kread 0 >Mods failed on decompress 0 > Mods failed on becoming 0 > Mods failed on load 0 > Total module size 11268096 > Total mod text size 4149248 > Failed kread bytes 0 > Failed decompress bytes 0 > Failed becoming bytes 0 > Failed kmod bytes 0 > Virtual mem wasted bytes 0 > Average mod size 170729 > Average mod text size 62868 > >So: > >Tested-by: Luis Chamberlain <mcgrof@kernel.org> > >In terms of bootup timing: > >Before: >Startup finished in 41.653s (kernel) + 44.305s (userspace) = 1min 25.958s >graphical.target reached after 44.178s in userspace. > >After: >Startup finished in 23.995s (kernel) + 40.350s (userspace) = 1min 4.345s >graphical.target reached after 40.226s in userspace. > >So other than the brain farts above, I think this is pretty sexy. > > Luis
On Tue, May 30, 2023 at 10:16:22AM -0700, Lucas De Marchi wrote: > On Tue, May 30, 2023 at 09:22:14AM -0700, Luis Chamberlain wrote: > > Lucas, any thoughts from modules kmod userspace perspective into > > supporting anyone likely issuing concurrent modules requests with > > differing arguments? > > Changing module params like that without first explicitly removing the > module was never supported by kmod or module-init-tools (I'm not digging > the history before 2.6 kernel) That's good enough. > During boot, note there is already a shortcut > if we have the sysfs node already in the "live" state or if the module is > built-in. In that case we will return success or -EEXIST (if the > KMOD_PROBE_IGNORE_LOADED flag was passed). Linus' code would make duplicates wait and share the same return value, ie, no new odd error code is returned. Or are you suggesting -EEXIST should be returned to duplicates if the module succeeded to load instead of 0 ? > The only scenario I can think of during boot in which the module params > could change would be when a buggy initrd is created, i.e. > /etc/modprobed.d/*.conf is in the rootfs but absent from initrd. This helps thanks. > So returning the same error code seems good to me. OK thanks! So just to confirm, it seems fine to return the same error code if duplicates wait, or do you prefer for some reason for there to be an exception and return -EEXIST if the module did succeed in the duplicate case? Luis
On Tue, May 30, 2023 at 3:41 PM Luis Chamberlain <mcgrof@kernel.org> wrote: > > OK thanks! So just to confirm, it seems fine to return the same error > code if duplicates wait, or do you prefer for some reason for there to > be an exception and return -EEXIST if the module did succeed in the > duplicate case? I think either should be fine, since either was possible before. By definition, these are module loads being done in parallel, and so any of them "could" have been the first, and returned success before. And by extension, any of them could have been not first, and returned -EEXIST if somebody else loaded the same module first. So that "somebody else did a load" code: if (idempotent(&idem, file_inode(f))) { wait_for_completion(&idem.complete); return idem.ret; } could certainly have made the return value be something like return idem.ret ? : -EEXIST; instead of that "return idem.ret". But it does seem simpler - and more in line with the conceptual "loading the same module is an idempotent operation" of the patch - to just always return the success value to all of them. After all, they all did in some sense succeed to get that module loaded, even if it was a communal effort, and some threads did more than others... As mentioned, I don't think it can matter either way, since any of the callers might as well have been the successful one, and they would basically have to act the same way regardless (ie "somebody else succeeded" and "you succeeded" are basically equivalent return values). If the module was a prerequisite for another module being loaded, either -EEXIST or 0 _is_ a success case. Linus
Linus Torvalds wrote: > On Mon, May 29, 2023 at 11:18 AM Johan Hovold <johan@kernel.org> wrote: > > > > I took a closer look at some of the modules that failed to load and > > noticed a pattern in that they have dependencies that are needed by more > > than one device. > > Ok, this is a "maybe something like this" RFC series of two patches - > one trivial one to re-organize things a bit so that we can then do the > real one which uses a filter based on the inode pointer to return an > "idempotent return value" for module loads that share the same inode. > > It's entirely untested, and since I'm on the road I'm going to not > really be able to test it. It compiles for me, and the code looks > fairly straightforward, but it's probably buggy. At least for me, these 2 patches, plus Johan's spinlock fixup, are: Tested-by: Dan Williams <dan.j.williams@intel.com> ...on the test that was previously broken on plain v6.4-rc4. I have these cherry picked on top of v6.4-rc4: Revert "module: error out early on concurrent load of the same module file" module: split up 'finit_module()' into init_module_from_file() helper modules: catch concurrent module loads, take two
On Tue, May 30, 2023 at 09:22:14AM -0700, Luis Chamberlain wrote: > The only thing I can think of is allowing threads other than the > first one to complete before the one that actually loaded the > module. I thought about this race for module auto-loading, see > the comment in kmod_dup_request_announce(), so that just > further delays the completion to other thread with a stupid > queue_work(). That seems more important for module auto-loading > duplicates than for boot finit_module() duplicates. But not sure > if odering matters in the end due to a preemtible kernel and maybe > that concern is hysteria. I think I'm OK to accept this ordering concern as hysteria for now. Luis
On Tue, May 30, 2023 at 06:17:11PM -0400, Linus Torvalds wrote: >On Tue, May 30, 2023 at 3:41 PM Luis Chamberlain <mcgrof@kernel.org> wrote: >> >> OK thanks! So just to confirm, it seems fine to return the same error >> code if duplicates wait, or do you prefer for some reason for there to >> be an exception and return -EEXIST if the module did succeed in the >> duplicate case? > >I think either should be fine, since either was possible before. > >By definition, these are module loads being done in parallel, and so >any of them "could" have been the first, and returned success before. > >And by extension, any of them could have been not first, and returned >-EEXIST if somebody else loaded the same module first. > >So that "somebody else did a load" code: > > if (idempotent(&idem, file_inode(f))) { > wait_for_completion(&idem.complete); > return idem.ret; > } > >could certainly have made the return value be something like > > return idem.ret ? : -EEXIST; yes, this is what I had in mind. > >instead of that "return idem.ret". > >But it does seem simpler - and more in line with the conceptual >"loading the same module is an idempotent operation" of the patch - >to just always return the success value to all of them. > >After all, they all did in some sense succeed to get that module >loaded, even if it was a communal effort, and some threads did more >than others... > >As mentioned, I don't think it can matter either way, since any of the >callers might as well have been the successful one, and they would >basically have to act the same way regardless (ie "somebody else >succeeded" and "you succeeded" are basically equivalent return agreed, it will just be a slightly different behavior if finit_module() is called twice and the first call is already in the process of initializing the module, i.e. complete_formation() was already called, putting the module in the MODULE_STATE_COMING state, as per kernel/module/main.c:add_unformed_module(): /* * We are here only when the same module was being loaded. Do * not try to load it again right now. It prevents long delays * caused by serialized module load failures. It might happen * when more devices of the same type trigger load of * a particular module. */ if (old && old->state == MODULE_STATE_LIVE) err = -EEXIST; else err = -EBUSY; goto out; in userspace we already deal with that in a special way and should be compatible with returning 0 for all practical purposes. thanks Lucas De Marchi >values). If the module was a prerequisite for another module being >loaded, either -EEXIST or 0 _is_ a success case. > > Linus
On 30.05.23 18:22, Luis Chamberlain wrote: > On Mon, May 29, 2023 at 09:55:15PM -0400, Linus Torvalds wrote: >> On Mon, May 29, 2023 at 11:18 AM Johan Hovold <johan@kernel.org> wrote: >>> >>> I took a closer look at some of the modules that failed to load and >>> noticed a pattern in that they have dependencies that are needed by more >>> than one device. >> >> Ok, this is a "maybe something like this" RFC series of two patches - >> one trivial one to re-organize things a bit so that we can then do the >> real one which uses a filter based on the inode pointer to return an >> "idempotent return value" for module loads that share the same inode. >> >> It's entirely untested, and since I'm on the road I'm going to not >> really be able to test it. It compiles for me, and the code looks >> fairly straightforward, but it's probably buggy. >> >> It's very loosely based on Luis' attempt, but it >> (a) is internal to module loading >> (b) uses a reliable cookie >> (c) doesn't leave the cookie around randomly for later >> (d) has seen absolutely no testing >> >> Put another way: if somebody wants to play with this, please treat it >> as a starting point, not the final thing. You might need to debug >> things, and fix silly mistakes. >> >> The idea is to just have a simple hash list of currently executing >> module loads, protected by a trivial spinlock. Every module loader >> adds itself to the right hash list, and if they were the *first* one >> (ie no other pending module loads for that inode), will actually do >> the module load. >> >> Everybody who *isn't* the first one will just wait for completion and >> return the same error code that the first one returned. > > That's also a hell much more snazzier MODULE_DEBUG_AUTOLOAD_DUPS if we > ever wanted to do something similar there if we wanted to also > join request_module() calls, instead of it hiding under debug. > >> This is technically bogus. The first one might fail due to arguments. > > For boot it's fine, as I can't think of boot wanting to support trying > to load a module with different arguments but who knows. But I can't > see it sensible to issue concurrent multiple requests for modules > with different arguments without waiting in userspace for the first > to fail. > > Even post-boot, doing that sounds rather insane, but it would certainly > be a compromise and should probably be clearly documented. I think just > a comment acknolwedging that corner case seems sensible. > > Because we won't be able to get the arguments until we process the > module, so it would be too late for this optimization on kread. So it is > why I had also stuck to the original feature being in kread, as then it > provides a uniq kread call and the caller is aware of it. But indeed I > had not considered the effects of arguments. > > Lucas, any thoughts from modules kmod userspace perspective into > supporting anyone likely issuing concurrent modules requests with > differing arguments? > >> So the cookie shouldn't be just the inode, it should be the inode and >> a hash of the arguments or something like that. > > Personally I think it's a fine optimization without the arguments. > >> But it is what it is, >> and apart from possible show-stopper bugs this is no worse than the >> failed "exclusive write deny" attempt. IOW - maybe worth trying? > > The only thing I can think of is allowing threads other than the > first one to complete before the one that actually loaded the > module. I thought about this race for module auto-loading, see > the comment in kmod_dup_request_announce(), so that just > further delays the completion to other thread with a stupid > queue_work(). That seems more important for module auto-loading > duplicates than for boot finit_module() duplicates. But not sure > if odering matters in the end due to a preemtible kernel and maybe > that concern is hysteria. > >> And if *that* didn't sell people on this patch series, I don't know >> what will. I should be in marketing! Two drink minimums, here I come! > > Sold: > > on 255 vcpus 0 duplicates found with this setup: > > root@kmod ~ # cat /sys/kernel/debug/modules/stats > Mods ever loaded 66 > Mods failed on kread 0 > Mods failed on decompress 0 > Mods failed on becoming 0 > Mods failed on load 0 > Total module size 11268096 > Total mod text size 4149248 > Failed kread bytes 0 > Failed decompress bytes 0 > Failed becoming bytes 0 > Failed kmod bytes 0 > Virtual mem wasted bytes 0 > Average mod size 170729 > Average mod text size 62868 > > So: > > Tested-by: Luis Chamberlain <mcgrof@kernel.org> > > In terms of bootup timing: > > Before: > Startup finished in 41.653s (kernel) + 44.305s (userspace) = 1min 25.958s > graphical.target reached after 44.178s in userspace. > > After: > Startup finished in 23.995s (kernel) + 40.350s (userspace) = 1min 4.345s > graphical.target reached after 40.226s in userspace. I'll try grabbing the system where we saw the KASAN-related issues [1] and give it a churn with and without the two patches. Might take a bit (~1 day), unfortunately. [1] https://lkml.kernel.org/r/20221013180518.217405-1-david@redhat.com
On Wed, May 31, 2023 at 09:51:41AM +0200, David Hildenbrand wrote: > On 30.05.23 18:22, Luis Chamberlain wrote: > > On Mon, May 29, 2023 at 09:55:15PM -0400, Linus Torvalds wrote: > > > On Mon, May 29, 2023 at 11:18 AM Johan Hovold <johan@kernel.org> wrote: > > > > > > > > I took a closer look at some of the modules that failed to load and > > > > noticed a pattern in that they have dependencies that are needed by more > > > > than one device. > > > > > > Ok, this is a "maybe something like this" RFC series of two patches - > > > one trivial one to re-organize things a bit so that we can then do the > > > real one which uses a filter based on the inode pointer to return an > > > "idempotent return value" for module loads that share the same inode. > > > > > > It's entirely untested, and since I'm on the road I'm going to not > > > really be able to test it. It compiles for me, and the code looks > > > fairly straightforward, but it's probably buggy. > > > > > > It's very loosely based on Luis' attempt, but it > > > (a) is internal to module loading > > > (b) uses a reliable cookie > > > (c) doesn't leave the cookie around randomly for later > > > (d) has seen absolutely no testing > > > > > > Put another way: if somebody wants to play with this, please treat it > > > as a starting point, not the final thing. You might need to debug > > > things, and fix silly mistakes. > > > > > > The idea is to just have a simple hash list of currently executing > > > module loads, protected by a trivial spinlock. Every module loader > > > adds itself to the right hash list, and if they were the *first* one > > > (ie no other pending module loads for that inode), will actually do > > > the module load. > > > > > > Everybody who *isn't* the first one will just wait for completion and > > > return the same error code that the first one returned. > > > > That's also a hell much more snazzier MODULE_DEBUG_AUTOLOAD_DUPS if we > > ever wanted to do something similar there if we wanted to also > > join request_module() calls, instead of it hiding under debug. > > > > > This is technically bogus. The first one might fail due to arguments. > > > > For boot it's fine, as I can't think of boot wanting to support trying > > to load a module with different arguments but who knows. But I can't > > see it sensible to issue concurrent multiple requests for modules > > with different arguments without waiting in userspace for the first > > to fail. > > > > Even post-boot, doing that sounds rather insane, but it would certainly > > be a compromise and should probably be clearly documented. I think just > > a comment acknolwedging that corner case seems sensible. > > > > Because we won't be able to get the arguments until we process the > > module, so it would be too late for this optimization on kread. So it is > > why I had also stuck to the original feature being in kread, as then it > > provides a uniq kread call and the caller is aware of it. But indeed I > > had not considered the effects of arguments. > > > > Lucas, any thoughts from modules kmod userspace perspective into > > supporting anyone likely issuing concurrent modules requests with > > differing arguments? > > > > > So the cookie shouldn't be just the inode, it should be the inode and > > > a hash of the arguments or something like that. > > > > Personally I think it's a fine optimization without the arguments. > > > > > But it is what it is, > > > and apart from possible show-stopper bugs this is no worse than the > > > failed "exclusive write deny" attempt. IOW - maybe worth trying? > > > > The only thing I can think of is allowing threads other than the > > first one to complete before the one that actually loaded the > > module. I thought about this race for module auto-loading, see > > the comment in kmod_dup_request_announce(), so that just > > further delays the completion to other thread with a stupid > > queue_work(). That seems more important for module auto-loading > > duplicates than for boot finit_module() duplicates. But not sure > > if odering matters in the end due to a preemtible kernel and maybe > > that concern is hysteria. > > > > > And if *that* didn't sell people on this patch series, I don't know > > > what will. I should be in marketing! Two drink minimums, here I come! > > > > Sold: > > > > on 255 vcpus 0 duplicates found with this setup: > > > > root@kmod ~ # cat /sys/kernel/debug/modules/stats > > Mods ever loaded 66 > > Mods failed on kread 0 > > Mods failed on decompress 0 > > Mods failed on becoming 0 > > Mods failed on load 0 > > Total module size 11268096 > > Total mod text size 4149248 > > Failed kread bytes 0 > > Failed decompress bytes 0 > > Failed becoming bytes 0 > > Failed kmod bytes 0 > > Virtual mem wasted bytes 0 > > Average mod size 170729 > > Average mod text size 62868 > > > > So: > > > > Tested-by: Luis Chamberlain <mcgrof@kernel.org> > > > > In terms of bootup timing: > > > > Before: > > Startup finished in 41.653s (kernel) + 44.305s (userspace) = 1min 25.958s > > graphical.target reached after 44.178s in userspace. > > After: > > Startup finished in 23.995s (kernel) + 40.350s (userspace) = 1min 4.345s > > graphical.target reached after 40.226s in userspace. > > I'll try grabbing the system where we saw the KASAN-related issues [1] and > give it a churn with and without the two patches. Might take a bit (~1 day), > unfortunately. > > [1] https://lkml.kernel.org/r/20221013180518.217405-1-david@redhat.com Great, don't forget: diff --git a/kernel/module/main.c b/kernel/module/main.c index 82b0dcc1fe77..222015093eeb 100644 --- a/kernel/module/main.c +++ b/kernel/module/main.c @@ -3066,7 +3066,7 @@ struct idempotent { #define IDEM_HASH_BITS 8 static struct hlist_head idem_hash[1 << IDEM_HASH_BITS]; -static struct spinlock idem_lock; +static DEFINE_SPINLOCK(idem_lock); static bool idempotent(struct idempotent *u, const void *cookie) {
On 31.05.23 18:57, Luis Chamberlain wrote: > On Wed, May 31, 2023 at 09:51:41AM +0200, David Hildenbrand wrote: >> On 30.05.23 18:22, Luis Chamberlain wrote: >>> On Mon, May 29, 2023 at 09:55:15PM -0400, Linus Torvalds wrote: >>>> On Mon, May 29, 2023 at 11:18 AM Johan Hovold <johan@kernel.org> wrote: >>>>> >>>>> I took a closer look at some of the modules that failed to load and >>>>> noticed a pattern in that they have dependencies that are needed by more >>>>> than one device. >>>> >>>> Ok, this is a "maybe something like this" RFC series of two patches - >>>> one trivial one to re-organize things a bit so that we can then do the >>>> real one which uses a filter based on the inode pointer to return an >>>> "idempotent return value" for module loads that share the same inode. >>>> >>>> It's entirely untested, and since I'm on the road I'm going to not >>>> really be able to test it. It compiles for me, and the code looks >>>> fairly straightforward, but it's probably buggy. >>>> >>>> It's very loosely based on Luis' attempt, but it >>>> (a) is internal to module loading >>>> (b) uses a reliable cookie >>>> (c) doesn't leave the cookie around randomly for later >>>> (d) has seen absolutely no testing >>>> >>>> Put another way: if somebody wants to play with this, please treat it >>>> as a starting point, not the final thing. You might need to debug >>>> things, and fix silly mistakes. >>>> >>>> The idea is to just have a simple hash list of currently executing >>>> module loads, protected by a trivial spinlock. Every module loader >>>> adds itself to the right hash list, and if they were the *first* one >>>> (ie no other pending module loads for that inode), will actually do >>>> the module load. >>>> >>>> Everybody who *isn't* the first one will just wait for completion and >>>> return the same error code that the first one returned. >>> >>> That's also a hell much more snazzier MODULE_DEBUG_AUTOLOAD_DUPS if we >>> ever wanted to do something similar there if we wanted to also >>> join request_module() calls, instead of it hiding under debug. >>> >>>> This is technically bogus. The first one might fail due to arguments. >>> >>> For boot it's fine, as I can't think of boot wanting to support trying >>> to load a module with different arguments but who knows. But I can't >>> see it sensible to issue concurrent multiple requests for modules >>> with different arguments without waiting in userspace for the first >>> to fail. >>> >>> Even post-boot, doing that sounds rather insane, but it would certainly >>> be a compromise and should probably be clearly documented. I think just >>> a comment acknolwedging that corner case seems sensible. >>> >>> Because we won't be able to get the arguments until we process the >>> module, so it would be too late for this optimization on kread. So it is >>> why I had also stuck to the original feature being in kread, as then it >>> provides a uniq kread call and the caller is aware of it. But indeed I >>> had not considered the effects of arguments. >>> >>> Lucas, any thoughts from modules kmod userspace perspective into >>> supporting anyone likely issuing concurrent modules requests with >>> differing arguments? >>> >>>> So the cookie shouldn't be just the inode, it should be the inode and >>>> a hash of the arguments or something like that. >>> >>> Personally I think it's a fine optimization without the arguments. >>> >>>> But it is what it is, >>>> and apart from possible show-stopper bugs this is no worse than the >>>> failed "exclusive write deny" attempt. IOW - maybe worth trying? >>> >>> The only thing I can think of is allowing threads other than the >>> first one to complete before the one that actually loaded the >>> module. I thought about this race for module auto-loading, see >>> the comment in kmod_dup_request_announce(), so that just >>> further delays the completion to other thread with a stupid >>> queue_work(). That seems more important for module auto-loading >>> duplicates than for boot finit_module() duplicates. But not sure >>> if odering matters in the end due to a preemtible kernel and maybe >>> that concern is hysteria. >>> >>>> And if *that* didn't sell people on this patch series, I don't know >>>> what will. I should be in marketing! Two drink minimums, here I come! >>> >>> Sold: >>> >>> on 255 vcpus 0 duplicates found with this setup: >>> >>> root@kmod ~ # cat /sys/kernel/debug/modules/stats >>> Mods ever loaded 66 >>> Mods failed on kread 0 >>> Mods failed on decompress 0 >>> Mods failed on becoming 0 >>> Mods failed on load 0 >>> Total module size 11268096 >>> Total mod text size 4149248 >>> Failed kread bytes 0 >>> Failed decompress bytes 0 >>> Failed becoming bytes 0 >>> Failed kmod bytes 0 >>> Virtual mem wasted bytes 0 >>> Average mod size 170729 >>> Average mod text size 62868 >>> >>> So: >>> >>> Tested-by: Luis Chamberlain <mcgrof@kernel.org> >>> >>> In terms of bootup timing: >>> >>> Before: >>> Startup finished in 41.653s (kernel) + 44.305s (userspace) = 1min 25.958s >>> graphical.target reached after 44.178s in userspace. >>> After: >>> Startup finished in 23.995s (kernel) + 40.350s (userspace) = 1min 4.345s >>> graphical.target reached after 40.226s in userspace. >> >> I'll try grabbing the system where we saw the KASAN-related issues [1] and >> give it a churn with and without the two patches. Might take a bit (~1 day), >> unfortunately. >> >> [1] https://lkml.kernel.org/r/20221013180518.217405-1-david@redhat.com > > Great, don't forget: > > diff --git a/kernel/module/main.c b/kernel/module/main.c > index 82b0dcc1fe77..222015093eeb 100644 > --- a/kernel/module/main.c > +++ b/kernel/module/main.c > @@ -3066,7 +3066,7 @@ struct idempotent { > > #define IDEM_HASH_BITS 8 > static struct hlist_head idem_hash[1 << IDEM_HASH_BITS]; > -static struct spinlock idem_lock; > +static DEFINE_SPINLOCK(idem_lock); > > static bool idempotent(struct idempotent *u, const void *cookie) > { > Finally was able to run it on that ThinkSystem SR950 with 8 populated sockets -> 224 cores and 448 logical CPUs. The KASAN vmap issues on that system were already no longer reproducible with your (Luis) previous work that's already in master. I tested a !debug and debug config (both based on corresponding RHEL9 configs), comparing 929ed21dfdb6 ("master") with 929ed21dfdb6 + Linus' patches ("patched"). Unfortunately, boot times vary a lot, and I did not figure out how to reduce the noise. I captured the "systemd-analyze blame" output as well. 1) !debug config (not enabling KASAN) a) master Startup finished in 32.225s (kernel) + 7.399s (initrd) + 20.378s (userspace) = 1min 3ms multi-user.target reached after 20.352s in userspace. Startup finished in 43.734s (kernel) + 7.288s (initrd) + 19.827s (userspace) = 1min 10.851s multi-user.target reached after 19.800s in userspace. Startup finished in 50.514s (kernel) + 7.171s (initrd) + 24.757s (userspace) = 1min 22.443s multi-user.target reached after 24.734s in userspace. Startup finished in 26.722s (kernel) + 7.249s (initrd) + 23.923s (userspace) = 57.895s multi-user.target reached after 23.892s in userspace. b) patched Startup finished in 36.318s (kernel) + 7.177s (initrd) + 21.383s (userspace) = 1min 4.879s multi-user.target reached after 21.355s in userspace. Startup finished in 36.318s (kernel) + 7.177s (initrd) + 21.383s (userspace) = 1min 4.879s multi-user.target reached after 21.355s in userspace. Startup finished in 1min 34.678s (kernel) + 7.239s (initrd) + 24.066s (userspace) = 2min 5.985s multi-user.target reached after 24.040s in userspace. Startup finished in 25.879s (kernel) + 7.144s (initrd) + 29.665s (userspace) = 1min 2.689s multi-user.target reached after 29.637s in userspace. 2) debug config (enabling KASAN) a) master Startup finished in 2min 12.695s (kernel) + 25.058s (initrd) + 1min 13.012s (userspace) = 3min 50.765s multi-user.target reached after 1min 12.903s in userspace. Startup finished in 1min 45.400s (kernel) + 24.294s (initrd) + 1min 8.910s (userspace) = 3min 18.606s multi-user.target reached after 1min 8.786s in userspace. Startup finished in 2min 4.857s (kernel) + 24.715s (initrd) + 1min 5.088s (userspace) = 3min 34.660s multi-user.target reached after 1min 4.967s in userspace. Startup finished in 3min 20.400s (kernel) + 24.703s (initrd) + 1min 5.469s (userspace) = 4min 50.573s multi-user.target reached after 1min 5.344s in userspace. b) patched Startup finished in 2min 5.250s (kernel) + 25.049s (initrd) + 1min 1.961s (userspace) = 3min 32.262s multi-user.target reached after 1min 1.844s in userspace. Startup finished in 1min 52.524s (kernel) + 24.897s (initrd) + 1min 5.062s (userspace) = 3min 22.484s multi-user.target reached after 1min 4.916s in userspace. Startup finished in 9min 36.817s (kernel) + 24.859s (initrd) + 1min 18.657s (userspace) = 11min 20.335s multi-user.target reached after 1min 18.455s in userspace. Startup finished in 30min 20.715s (kernel) + 24.722s (initrd) + 1min 7.039s (userspace) = 31min 52.476s multi-user.target reached after 1min 6.907s in userspace. What concerns me a bit, is that on the patched kernel we seem to hit more cases where boot takes much longer (in both kernel configs). I'll do some more runs/investigation to see if this is reproducible or just some system oddity. Staring just at the udev settle time (systemd-analyze blame), it's very similar between both kernel versions.
On Fri, Jun 02, 2023 at 05:19:58PM +0200, David Hildenbrand wrote: > On 31.05.23 18:57, Luis Chamberlain wrote: > > On Wed, May 31, 2023 at 09:51:41AM +0200, David Hildenbrand wrote: > > > On 30.05.23 18:22, Luis Chamberlain wrote: > > > > On Mon, May 29, 2023 at 09:55:15PM -0400, Linus Torvalds wrote: > > > > > On Mon, May 29, 2023 at 11:18 AM Johan Hovold <johan@kernel.org> wrote: > > > > > > > > > > > > I took a closer look at some of the modules that failed to load and > > > > > > noticed a pattern in that they have dependencies that are needed by more > > > > > > than one device. > > > > > > > > > > Ok, this is a "maybe something like this" RFC series of two patches - > > > > > one trivial one to re-organize things a bit so that we can then do the > > > > > real one which uses a filter based on the inode pointer to return an > > > > > "idempotent return value" for module loads that share the same inode. > > > > > > > > > > It's entirely untested, and since I'm on the road I'm going to not > > > > > really be able to test it. It compiles for me, and the code looks > > > > > fairly straightforward, but it's probably buggy. > > > > > > > > > > It's very loosely based on Luis' attempt, but it > > > > > (a) is internal to module loading > > > > > (b) uses a reliable cookie > > > > > (c) doesn't leave the cookie around randomly for later > > > > > (d) has seen absolutely no testing > > > > > > > > > > Put another way: if somebody wants to play with this, please treat it > > > > > as a starting point, not the final thing. You might need to debug > > > > > things, and fix silly mistakes. > > > > > > > > > > The idea is to just have a simple hash list of currently executing > > > > > module loads, protected by a trivial spinlock. Every module loader > > > > > adds itself to the right hash list, and if they were the *first* one > > > > > (ie no other pending module loads for that inode), will actually do > > > > > the module load. > > > > > > > > > > Everybody who *isn't* the first one will just wait for completion and > > > > > return the same error code that the first one returned. > > > > > > > > That's also a hell much more snazzier MODULE_DEBUG_AUTOLOAD_DUPS if we > > > > ever wanted to do something similar there if we wanted to also > > > > join request_module() calls, instead of it hiding under debug. > > > > > > > > > This is technically bogus. The first one might fail due to arguments. > > > > > > > > For boot it's fine, as I can't think of boot wanting to support trying > > > > to load a module with different arguments but who knows. But I can't > > > > see it sensible to issue concurrent multiple requests for modules > > > > with different arguments without waiting in userspace for the first > > > > to fail. > > > > > > > > Even post-boot, doing that sounds rather insane, but it would certainly > > > > be a compromise and should probably be clearly documented. I think just > > > > a comment acknolwedging that corner case seems sensible. > > > > > > > > Because we won't be able to get the arguments until we process the > > > > module, so it would be too late for this optimization on kread. So it is > > > > why I had also stuck to the original feature being in kread, as then it > > > > provides a uniq kread call and the caller is aware of it. But indeed I > > > > had not considered the effects of arguments. > > > > > > > > Lucas, any thoughts from modules kmod userspace perspective into > > > > supporting anyone likely issuing concurrent modules requests with > > > > differing arguments? > > > > > > > > > So the cookie shouldn't be just the inode, it should be the inode and > > > > > a hash of the arguments or something like that. > > > > > > > > Personally I think it's a fine optimization without the arguments. > > > > > > > > > But it is what it is, > > > > > and apart from possible show-stopper bugs this is no worse than the > > > > > failed "exclusive write deny" attempt. IOW - maybe worth trying? > > > > > > > > The only thing I can think of is allowing threads other than the > > > > first one to complete before the one that actually loaded the > > > > module. I thought about this race for module auto-loading, see > > > > the comment in kmod_dup_request_announce(), so that just > > > > further delays the completion to other thread with a stupid > > > > queue_work(). That seems more important for module auto-loading > > > > duplicates than for boot finit_module() duplicates. But not sure > > > > if odering matters in the end due to a preemtible kernel and maybe > > > > that concern is hysteria. > > > > > > > > > And if *that* didn't sell people on this patch series, I don't know > > > > > what will. I should be in marketing! Two drink minimums, here I come! > > > > > > > > Sold: > > > > > > > > on 255 vcpus 0 duplicates found with this setup: > > > > > > > > root@kmod ~ # cat /sys/kernel/debug/modules/stats > > > > Mods ever loaded 66 > > > > Mods failed on kread 0 > > > > Mods failed on decompress 0 > > > > Mods failed on becoming 0 > > > > Mods failed on load 0 > > > > Total module size 11268096 > > > > Total mod text size 4149248 > > > > Failed kread bytes 0 > > > > Failed decompress bytes 0 > > > > Failed becoming bytes 0 > > > > Failed kmod bytes 0 > > > > Virtual mem wasted bytes 0 > > > > Average mod size 170729 > > > > Average mod text size 62868 > > > > > > > > So: > > > > > > > > Tested-by: Luis Chamberlain <mcgrof@kernel.org> > > > > > > > > In terms of bootup timing: > > > > > > > > Before: > > > > Startup finished in 41.653s (kernel) + 44.305s (userspace) = 1min 25.958s > > > > graphical.target reached after 44.178s in userspace. > > > > After: > > > > Startup finished in 23.995s (kernel) + 40.350s (userspace) = 1min 4.345s > > > > graphical.target reached after 40.226s in userspace. > > > > > > I'll try grabbing the system where we saw the KASAN-related issues [1] and > > > give it a churn with and without the two patches. Might take a bit (~1 day), > > > unfortunately. > > > > > > [1] https://lkml.kernel.org/r/20221013180518.217405-1-david@redhat.com > > > > Great, don't forget: > > > > diff --git a/kernel/module/main.c b/kernel/module/main.c > > index 82b0dcc1fe77..222015093eeb 100644 > > --- a/kernel/module/main.c > > +++ b/kernel/module/main.c > > @@ -3066,7 +3066,7 @@ struct idempotent { > > #define IDEM_HASH_BITS 8 > > static struct hlist_head idem_hash[1 << IDEM_HASH_BITS]; > > -static struct spinlock idem_lock; > > +static DEFINE_SPINLOCK(idem_lock); > > static bool idempotent(struct idempotent *u, const void *cookie) > > { > > > > Finally was able to run it on that ThinkSystem SR950 with 8 populated > sockets -> 224 cores and 448 logical CPUs. > > The KASAN vmap issues on that system were already no longer reproducible with your > (Luis) previous work that's already in master. > > I tested a !debug and debug config (both based on corresponding RHEL9 configs), comparing > 929ed21dfdb6 ("master") with 929ed21dfdb6 + Linus' patches ("patched"). > > > Unfortunately, boot times vary a lot, and I did not figure out how to reduce > the noise. I captured the "systemd-analyze blame" output as well. > > > 1) !debug config (not enabling KASAN) > > a) master > > Startup finished in 32.225s (kernel) + 7.399s (initrd) + 20.378s (userspace) = 1min 3ms > multi-user.target reached after 20.352s in userspace. > Startup finished in 43.734s (kernel) + 7.288s (initrd) + 19.827s (userspace) = 1min 10.851s > multi-user.target reached after 19.800s in userspace. > Startup finished in 50.514s (kernel) + 7.171s (initrd) + 24.757s (userspace) = 1min 22.443s > multi-user.target reached after 24.734s in userspace. > Startup finished in 26.722s (kernel) + 7.249s (initrd) + 23.923s (userspace) = 57.895s > multi-user.target reached after 23.892s in userspace. > > b) patched > > Startup finished in 36.318s (kernel) + 7.177s (initrd) + 21.383s (userspace) = 1min 4.879s > multi-user.target reached after 21.355s in userspace. > Startup finished in 36.318s (kernel) + 7.177s (initrd) + 21.383s (userspace) = 1min 4.879s > multi-user.target reached after 21.355s in userspace. > Startup finished in 1min 34.678s (kernel) + 7.239s (initrd) + 24.066s (userspace) = 2min 5.985s > multi-user.target reached after 24.040s in userspace. > Startup finished in 25.879s (kernel) + 7.144s (initrd) + 29.665s (userspace) = 1min 2.689s > multi-user.target reached after 29.637s in userspace. > > > > 2) debug config (enabling KASAN) > > a) master > > Startup finished in 2min 12.695s (kernel) + 25.058s (initrd) + 1min 13.012s (userspace) = 3min 50.765s > multi-user.target reached after 1min 12.903s in userspace. > Startup finished in 1min 45.400s (kernel) + 24.294s (initrd) + 1min 8.910s (userspace) = 3min 18.606s > multi-user.target reached after 1min 8.786s in userspace. > Startup finished in 2min 4.857s (kernel) + 24.715s (initrd) + 1min 5.088s (userspace) = 3min 34.660s > multi-user.target reached after 1min 4.967s in userspace. > Startup finished in 3min 20.400s (kernel) + 24.703s (initrd) + 1min 5.469s (userspace) = 4min 50.573s > multi-user.target reached after 1min 5.344s in userspace. > > b) patched > > Startup finished in 2min 5.250s (kernel) + 25.049s (initrd) + 1min 1.961s (userspace) = 3min 32.262s > multi-user.target reached after 1min 1.844s in userspace. > Startup finished in 1min 52.524s (kernel) + 24.897s (initrd) + 1min 5.062s (userspace) = 3min 22.484s > multi-user.target reached after 1min 4.916s in userspace. > Startup finished in 9min 36.817s (kernel) + 24.859s (initrd) + 1min 18.657s (userspace) = 11min 20.335s > multi-user.target reached after 1min 18.455s in userspace. > Startup finished in 30min 20.715s (kernel) + 24.722s (initrd) + 1min 7.039s (userspace) = 31min 52.476s > multi-user.target reached after 1min 6.907s in userspace. > > > What concerns me a bit, is that on the patched kernel we seem to hit more cases where > boot takes much longer (in both kernel configs). > > I'll do some more runs/investigation to see if this is reproducible or just some system oddity. > > Staring just at the udev settle time (systemd-analyze blame), it's very similar between both kernel > versions. Thanks for these tests, having MODULE_STATS enabled + cat /sys/kernel/debug/modules/stats would be of huge value, both on master and + patched. Luis
On Fri, Jun 2, 2023 at 11:20 AM David Hildenbrand <david@redhat.com> wrote: > > What concerns me a bit, is that on the patched kernel we seem to hit more cases where > boot takes much longer (in both kernel configs). So it potentially serializes the loads to the same file more, but in the process uses much less memory (since the ones waiting will not have done any of the "load file contents and uncompress them"). So it's a bit of a trade-off. We could complicate things a bit, and let other callers return -EEXIST a bit earlier, but I'm not convinced it really matters. Honestly, taking too long because user space does something stupid and wrong is not a kernel bug. Not booting because we use too much memory - that's problematic. But booting slowly because udev does several thousand unnecessary module loads is entirely on udev. Linus
On 02.06.23 18:06, Linus Torvalds wrote: > On Fri, Jun 2, 2023 at 11:20 AM David Hildenbrand <david@redhat.com> wrote: >> >> What concerns me a bit, is that on the patched kernel we seem to hit more cases where >> boot takes much longer (in both kernel configs). > > So it potentially serializes the loads to the same file more, but in > the process uses much less memory (since the ones waiting will not > have done any of the "load file contents and uncompress them"). So > it's a bit of a trade-off. I have the feeling that -- on this system -- it's some inaccurate accounting of firmware+loader times to the kernel startup time. Combined with some other noise. Especially the firmware loading time seems to be fairly randomized. I guess what we care about regarding module loading is the initrd+userspace loading times, and they are fairly stable. But we mostly care about udev. So let's look only at "systemd-udev" services: 1) !debug a) master 5.672s systemd-udev-settle.service 505ms systemd-udev-trigger.service 272ms systemd-udevd.service 5.418s systemd-udev-settle.service 487ms systemd-udev-trigger.service 258ms systemd-udevd.service 5.707s systemd-udev-settle.service 527ms systemd-udev-trigger.service 273ms systemd-udevd.service 6.250s systemd-udev-settle.service 455ms systemd-udev-trigger.service 283ms systemd-udevd.service b) patched 4.652s systemd-udev-settle.service 461ms systemd-udev-trigger.service 302ms systemd-udevd.service 4.652s systemd-udev-settle.service 461ms systemd-udev-trigger.service 302ms systemd-udevd.service 4.634s systemd-udev-settle.service 444ms systemd-udev-trigger.service 296ms systemd-udevd.service 4.745s systemd-udev-settle.service 444ms systemd-udev-trigger.service 273ms systemd-udevd.service 2) debug a) master 32.806s systemd-udev-settle.service 9.584s systemd-udev-trigger.service 471ms systemd-udevd.service 29.901s systemd-udev-settle.service 8.914s systemd-udev-trigger.service 400ms systemd-udevd.service 28.640s systemd-udev-settle.service 9.260s systemd-udev-trigger.service 477ms systemd-udevd.service 29.498s systemd-udev-settle.service 9.073s systemd-udev-trigger.service 444ms systemd-udevd.service b) patched 28.765s systemd-udev-settle.service 8.898s systemd-udev-trigger.service 400ms systemd-udevd.service 28.292s systemd-udev-settle.service 8.903s systemd-udev-trigger.service 401ms systemd-udevd.service 34.588s systemd-udev-settle.service 8.959s systemd-udev-trigger.service 455ms systemd-udevd.service 28.641s systemd-udev-settle.service 8.953s systemd-udev-trigger.service 389ms systemd-udevd.service So except some noise, in the general case the patched version seems to be faster just looking at systemd-udev. > > We could complicate things a bit, and let other callers return -EEXIST > a bit earlier, but I'm not convinced it really matters. Looking at the numbers, agreed. > > Honestly, taking too long because user space does something stupid and > wrong is not a kernel bug. Not booting because we use too much memory > - that's problematic. But booting slowly because udev does several > thousand unnecessary module loads is entirely on udev. Yes. I'll do some more experiments, but from what I can tell Tested-by: David Hildenbrand <david@redhat.com>
On Mon, May 29, 2023 at 09:55:15PM -0400, Linus Torvalds wrote: > On Mon, May 29, 2023 at 11:18 AM Johan Hovold <johan@kernel.org> wrote: > > > > I took a closer look at some of the modules that failed to load and > > noticed a pattern in that they have dependencies that are needed by more > > than one device. > > Ok, this is a "maybe something like this" RFC series of two patches - > one trivial one to re-organize things a bit so that we can then do the > real one which uses a filter based on the inode pointer to return an > "idempotent return value" for module loads that share the same inode. > > It's entirely untested, and since I'm on the road I'm going to not > really be able to test it. It compiles for me, and the code looks > fairly straightforward, but it's probably buggy. The updated patches fix the issue experienced with 6.4-rc4 where the Intel NUC12 booted fine, but on media playback resulted in the video stuttering, then freezing - and that audio was not coming though. # diff modules-rc4 modules-rc4-patched < snd_hda_codec_hdmi 77824 0 < snd_hda_codec_realtek 159744 0 --- > snd_hda_codec_hdmi 77824 1 > snd_hda_codec_realtek 159744 1 Revert "module: error out early on concurrent load of the same module file" module: split up 'finit_module()' into init_module_from_file() helper modules: catch concurrent module loads, take two Johan's fix: -static struct spinlock idem_lock; +static DEFINE_SPINLOCK(idem_lock); Tested-by: Rudi Heitbaum <rudi@heitbaum..com>
On 02.06.23 18:04, Luis Chamberlain wrote: > On Fri, Jun 02, 2023 at 05:19:58PM +0200, David Hildenbrand wrote: >> On 31.05.23 18:57, Luis Chamberlain wrote: >>> On Wed, May 31, 2023 at 09:51:41AM +0200, David Hildenbrand wrote: >>>> On 30.05.23 18:22, Luis Chamberlain wrote: >>>>> On Mon, May 29, 2023 at 09:55:15PM -0400, Linus Torvalds wrote: >>>>>> On Mon, May 29, 2023 at 11:18 AM Johan Hovold <johan@kernel.org> wrote: >>>>>>> >>>>>>> I took a closer look at some of the modules that failed to load and >>>>>>> noticed a pattern in that they have dependencies that are needed by more >>>>>>> than one device. >>>>>> >>>>>> Ok, this is a "maybe something like this" RFC series of two patches - >>>>>> one trivial one to re-organize things a bit so that we can then do the >>>>>> real one which uses a filter based on the inode pointer to return an >>>>>> "idempotent return value" for module loads that share the same inode. >>>>>> >>>>>> It's entirely untested, and since I'm on the road I'm going to not >>>>>> really be able to test it. It compiles for me, and the code looks >>>>>> fairly straightforward, but it's probably buggy. >>>>>> >>>>>> It's very loosely based on Luis' attempt, but it >>>>>> (a) is internal to module loading >>>>>> (b) uses a reliable cookie >>>>>> (c) doesn't leave the cookie around randomly for later >>>>>> (d) has seen absolutely no testing >>>>>> >>>>>> Put another way: if somebody wants to play with this, please treat it >>>>>> as a starting point, not the final thing. You might need to debug >>>>>> things, and fix silly mistakes. >>>>>> >>>>>> The idea is to just have a simple hash list of currently executing >>>>>> module loads, protected by a trivial spinlock. Every module loader >>>>>> adds itself to the right hash list, and if they were the *first* one >>>>>> (ie no other pending module loads for that inode), will actually do >>>>>> the module load. >>>>>> >>>>>> Everybody who *isn't* the first one will just wait for completion and >>>>>> return the same error code that the first one returned. >>>>> >>>>> That's also a hell much more snazzier MODULE_DEBUG_AUTOLOAD_DUPS if we >>>>> ever wanted to do something similar there if we wanted to also >>>>> join request_module() calls, instead of it hiding under debug. >>>>> >>>>>> This is technically bogus. The first one might fail due to arguments. >>>>> >>>>> For boot it's fine, as I can't think of boot wanting to support trying >>>>> to load a module with different arguments but who knows. But I can't >>>>> see it sensible to issue concurrent multiple requests for modules >>>>> with different arguments without waiting in userspace for the first >>>>> to fail. >>>>> >>>>> Even post-boot, doing that sounds rather insane, but it would certainly >>>>> be a compromise and should probably be clearly documented. I think just >>>>> a comment acknolwedging that corner case seems sensible. >>>>> >>>>> Because we won't be able to get the arguments until we process the >>>>> module, so it would be too late for this optimization on kread. So it is >>>>> why I had also stuck to the original feature being in kread, as then it >>>>> provides a uniq kread call and the caller is aware of it. But indeed I >>>>> had not considered the effects of arguments. >>>>> >>>>> Lucas, any thoughts from modules kmod userspace perspective into >>>>> supporting anyone likely issuing concurrent modules requests with >>>>> differing arguments? >>>>> >>>>>> So the cookie shouldn't be just the inode, it should be the inode and >>>>>> a hash of the arguments or something like that. >>>>> >>>>> Personally I think it's a fine optimization without the arguments. >>>>> >>>>>> But it is what it is, >>>>>> and apart from possible show-stopper bugs this is no worse than the >>>>>> failed "exclusive write deny" attempt. IOW - maybe worth trying? >>>>> >>>>> The only thing I can think of is allowing threads other than the >>>>> first one to complete before the one that actually loaded the >>>>> module. I thought about this race for module auto-loading, see >>>>> the comment in kmod_dup_request_announce(), so that just >>>>> further delays the completion to other thread with a stupid >>>>> queue_work(). That seems more important for module auto-loading >>>>> duplicates than for boot finit_module() duplicates. But not sure >>>>> if odering matters in the end due to a preemtible kernel and maybe >>>>> that concern is hysteria. >>>>> >>>>>> And if *that* didn't sell people on this patch series, I don't know >>>>>> what will. I should be in marketing! Two drink minimums, here I come! >>>>> >>>>> Sold: >>>>> >>>>> on 255 vcpus 0 duplicates found with this setup: >>>>> >>>>> root@kmod ~ # cat /sys/kernel/debug/modules/stats >>>>> Mods ever loaded 66 >>>>> Mods failed on kread 0 >>>>> Mods failed on decompress 0 >>>>> Mods failed on becoming 0 >>>>> Mods failed on load 0 >>>>> Total module size 11268096 >>>>> Total mod text size 4149248 >>>>> Failed kread bytes 0 >>>>> Failed decompress bytes 0 >>>>> Failed becoming bytes 0 >>>>> Failed kmod bytes 0 >>>>> Virtual mem wasted bytes 0 >>>>> Average mod size 170729 >>>>> Average mod text size 62868 >>>>> >>>>> So: >>>>> >>>>> Tested-by: Luis Chamberlain <mcgrof@kernel.org> >>>>> >>>>> In terms of bootup timing: >>>>> >>>>> Before: >>>>> Startup finished in 41.653s (kernel) + 44.305s (userspace) = 1min 25.958s >>>>> graphical.target reached after 44.178s in userspace. >>>>> After: >>>>> Startup finished in 23.995s (kernel) + 40.350s (userspace) = 1min 4.345s >>>>> graphical.target reached after 40.226s in userspace. >>>> >>>> I'll try grabbing the system where we saw the KASAN-related issues [1] and >>>> give it a churn with and without the two patches. Might take a bit (~1 day), >>>> unfortunately. >>>> >>>> [1] https://lkml.kernel.org/r/20221013180518.217405-1-david@redhat.com >>> >>> Great, don't forget: >>> >>> diff --git a/kernel/module/main.c b/kernel/module/main.c >>> index 82b0dcc1fe77..222015093eeb 100644 >>> --- a/kernel/module/main.c >>> +++ b/kernel/module/main.c >>> @@ -3066,7 +3066,7 @@ struct idempotent { >>> #define IDEM_HASH_BITS 8 >>> static struct hlist_head idem_hash[1 << IDEM_HASH_BITS]; >>> -static struct spinlock idem_lock; >>> +static DEFINE_SPINLOCK(idem_lock); >>> static bool idempotent(struct idempotent *u, const void *cookie) >>> { >>> >> >> Finally was able to run it on that ThinkSystem SR950 with 8 populated >> sockets -> 224 cores and 448 logical CPUs. >> >> The KASAN vmap issues on that system were already no longer reproducible with your >> (Luis) previous work that's already in master. >> >> I tested a !debug and debug config (both based on corresponding RHEL9 configs), comparing >> 929ed21dfdb6 ("master") with 929ed21dfdb6 + Linus' patches ("patched"). >> >> >> Unfortunately, boot times vary a lot, and I did not figure out how to reduce >> the noise. I captured the "systemd-analyze blame" output as well. >> >> >> 1) !debug config (not enabling KASAN) >> >> a) master >> >> Startup finished in 32.225s (kernel) + 7.399s (initrd) + 20.378s (userspace) = 1min 3ms >> multi-user.target reached after 20.352s in userspace. >> Startup finished in 43.734s (kernel) + 7.288s (initrd) + 19.827s (userspace) = 1min 10.851s >> multi-user.target reached after 19.800s in userspace. >> Startup finished in 50.514s (kernel) + 7.171s (initrd) + 24.757s (userspace) = 1min 22.443s >> multi-user.target reached after 24.734s in userspace. >> Startup finished in 26.722s (kernel) + 7.249s (initrd) + 23.923s (userspace) = 57.895s >> multi-user.target reached after 23.892s in userspace. >> >> b) patched >> >> Startup finished in 36.318s (kernel) + 7.177s (initrd) + 21.383s (userspace) = 1min 4.879s >> multi-user.target reached after 21.355s in userspace. >> Startup finished in 36.318s (kernel) + 7.177s (initrd) + 21.383s (userspace) = 1min 4.879s >> multi-user.target reached after 21.355s in userspace. >> Startup finished in 1min 34.678s (kernel) + 7.239s (initrd) + 24.066s (userspace) = 2min 5.985s >> multi-user.target reached after 24.040s in userspace. >> Startup finished in 25.879s (kernel) + 7.144s (initrd) + 29.665s (userspace) = 1min 2.689s >> multi-user.target reached after 29.637s in userspace. >> >> >> >> 2) debug config (enabling KASAN) >> >> a) master >> >> Startup finished in 2min 12.695s (kernel) + 25.058s (initrd) + 1min 13.012s (userspace) = 3min 50.765s >> multi-user.target reached after 1min 12.903s in userspace. >> Startup finished in 1min 45.400s (kernel) + 24.294s (initrd) + 1min 8.910s (userspace) = 3min 18.606s >> multi-user.target reached after 1min 8.786s in userspace. >> Startup finished in 2min 4.857s (kernel) + 24.715s (initrd) + 1min 5.088s (userspace) = 3min 34.660s >> multi-user.target reached after 1min 4.967s in userspace. >> Startup finished in 3min 20.400s (kernel) + 24.703s (initrd) + 1min 5.469s (userspace) = 4min 50.573s >> multi-user.target reached after 1min 5.344s in userspace. >> >> b) patched >> >> Startup finished in 2min 5.250s (kernel) + 25.049s (initrd) + 1min 1.961s (userspace) = 3min 32.262s >> multi-user.target reached after 1min 1.844s in userspace. >> Startup finished in 1min 52.524s (kernel) + 24.897s (initrd) + 1min 5.062s (userspace) = 3min 22.484s >> multi-user.target reached after 1min 4.916s in userspace. >> Startup finished in 9min 36.817s (kernel) + 24.859s (initrd) + 1min 18.657s (userspace) = 11min 20.335s >> multi-user.target reached after 1min 18.455s in userspace. >> Startup finished in 30min 20.715s (kernel) + 24.722s (initrd) + 1min 7.039s (userspace) = 31min 52.476s >> multi-user.target reached after 1min 6.907s in userspace. >> >> >> What concerns me a bit, is that on the patched kernel we seem to hit more cases where >> boot takes much longer (in both kernel configs). >> >> I'll do some more runs/investigation to see if this is reproducible or just some system oddity. >> >> Staring just at the udev settle time (systemd-analyze blame), it's very similar between both kernel >> versions. > > Thanks for these tests, having MODULE_STATS enabled + > > cat /sys/kernel/debug/modules/stats > > would be of huge value, both on master and + patched. Sure! Sorry for the slight delay, had to recompile the kernels. I only did a single run on each kernel, should be good enough for the purpose here. 1) !debug config (not enabling KASAN) a) master # cat /sys/kernel/debug/modules/stats Mods ever loaded 75 Mods failed on kread 0 Mods failed on decompress 0 Mods failed on becoming 8052 Mods failed on load 531 Total module size 16343040 Total mod text size 4767744 Failed kread bytes 0 Failed decompress bytes 0 Failed becoming bytes 19185958488 Failed kmod bytes 1172591936 Virtual mem wasted bytes 20358550424 Average mod size 217908 Average mod text size 63570 Avg fail becoming bytes 2382757 Average fail load bytes 2208272 Duplicate failed modules: Module-name How-many-times Reason intel_rapl_common 447 Becoming intel_uncore_frequency 447 Becoming intel_uncore_frequency_common 445 Becoming & Load isst_if_mbox_msr 447 Becoming isst_if_common 447 Becoming & Load skx_edac 447 Becoming & Load nfit 447 Becoming libnvdimm 447 Becoming x86_pkg_temp_thermal 447 Becoming intel_powerclamp 447 Becoming coretemp 447 Becoming & Load kvm_intel 447 Becoming kvm 447 Becoming & Load irdma 3 Load ice 3 Becoming irqbypass 447 Becoming & Load rapl 393 Becoming & Load gnss 2 Becoming & Load ioatdma 63 Becoming & Load ib_uverbs 3 Becoming & Load intel_cstate 447 Becoming & Load ipmi_si 1 Load intel_uncore 447 Becoming & Load ib_core 3 Becoming & Load ipmi_devintf 1 Load ipmi_msghandler 1 Becoming dca 63 Becoming ahci 1 Becoming i40e 3 Becoming libahci 1 Becoming crct10dif_pclmul 195 Becoming crc32_pclmul 262 Becoming crc32c_intel 126 Becoming & Load libata 1 Load ghash_clmulni_intel 297 Becoming & Load fjes 11 Becoming b) patched # cat /sys/kernel/debug/modules/stats Mods ever loaded 75 Mods failed on kread 0 Mods failed on decompress 0 Mods failed on becoming 0 Mods failed on load 0 Total module size 16343040 Total mod text size 4767744 Failed kread bytes 0 Failed decompress bytes 0 Failed becoming bytes 0 Failed kmod bytes 0 Virtual mem wasted bytes 0 Average mod size 217908 Average mod text size 63570 2) debug config (enabling KASAN) a) master # cat /sys/kernel/debug/modules/stats Mods ever loaded 75 Mods failed on kread 0 Mods failed on decompress 0 Mods failed on becoming 3173 Mods failed on load 923 Total module size 32288768 Total mod text size 14819328 Failed kread bytes 0 Failed decompress bytes 0 Failed becoming bytes 4279728952 Failed kmod bytes 2174133088 Virtual mem wasted bytes 6453862040 Average mod size 430517 Average mod text size 197592 Avg fail becoming bytes 1348796 Average fail load bytes 2355508 Duplicate failed modules: Module-name How-many-times Reason ioatdma 63 Becoming & Load intel_rapl_common 313 Becoming intel_uncore_frequency 136 Becoming & Load intel_uncore_frequency_common 38 Becoming isst_if_mbox_msr 443 Becoming & Load isst_if_common 210 Becoming & Load skx_edac 257 Becoming & Load nfit 180 Becoming & Load libnvdimm 294 Becoming & Load x86_pkg_temp_thermal 321 Becoming & Load intel_powerclamp 247 Becoming & Load coretemp 55 Becoming & Load kvm_intel 2 Becoming kvm 3 Becoming & Load irqbypass 3 Becoming rapl 1 Becoming intel_cstate 444 Load intel_uncore 447 Becoming & Load ib_uverbs 1 Load ib_core 3 Becoming & Load ipmi_si 1 Becoming dca 20 Becoming & Load sg 1 Becoming i40e 3 Becoming & Load ahci 1 Becoming crct10dif_pclmul 160 Becoming & Load crc32_pclmul 151 Becoming & Load crc32c_intel 146 Becoming & Load ghash_clmulni_intel 140 Becoming libata 1 Load fjes 11 Becoming & Load b) patched # cat /sys/kernel/debug/modules/stats Mods ever loaded 75 Mods failed on kread 0 Mods failed on decompress 0 Mods failed on becoming 19 Mods failed on load 0 Total module size 32288768 Total mod text size 14819328 Failed kread bytes 0 Failed decompress bytes 0 Failed becoming bytes 6441296 Failed kmod bytes 0 Virtual mem wasted bytes 6441296 Average mod size 430517 Average mod text size 197592 Avg fail becoming bytes 339016 Duplicate failed modules: Module-name How-many-times Reason intel_rapl_common 2 Becoming intel_uncore_frequency_common 5 Becoming isst_if_common 3 Becoming intel_powerclamp 2 Becoming irqbypass 5 Becoming crct10dif_pclmul 1 Becoming crc32c_intel 1 Becoming So, with these (helpful) stats, the improvement is obvious (and explains the ~1s improvement I saw staring at the startup times of the udev services). There are still some failed module loads with the debug config (only in the becoming state), I did not dive deeply into the actual code changes (-EBUSY), just spelling it out so we can decide if this is to be expected or some corner case that shouldn't be happening. Thanks!
On Tue, May 30, 2023 at 11:40:35AM +0200, Johan Hovold wrote: > On Mon, May 29, 2023 at 09:55:15PM -0400, Linus Torvalds wrote: > > On Mon, May 29, 2023 at 11:18 AM Johan Hovold <johan@kernel.org> wrote: > > > > > > I took a closer look at some of the modules that failed to load and > > > noticed a pattern in that they have dependencies that are needed by more > > > than one device. > > > > Ok, this is a "maybe something like this" RFC series of two patches - > > one trivial one to re-organize things a bit so that we can then do the > > real one which uses a filter based on the inode pointer to return an > > "idempotent return value" for module loads that share the same inode. > > > > It's entirely untested, and since I'm on the road I'm going to not > > really be able to test it. It compiles for me, and the code looks > > fairly straightforward, but it's probably buggy. > > > > It's very loosely based on Luis' attempt, but it > > (a) is internal to module loading > > (b) uses a reliable cookie > > (c) doesn't leave the cookie around randomly for later > > (d) has seen absolutely no testing > > > > Put another way: if somebody wants to play with this, please treat it > > as a starting point, not the final thing. You might need to debug > > things, and fix silly mistakes. > > With the missing spinlock initialisation fixed: > > -static struct spinlock idem_lock; > +static DEFINE_SPINLOCK(idem_lock); > > this passes basic smoke testing and allows the X13s to boot. > > It does not seem to have any significant impact on boot time, but it > avoids some of the unnecessary load attempts as intended: Took another look at code which modulo some nits like missing spaces around a + operator and an "ourselfs" typo looks good to me. So with the spinlock initialisation fixed: Reviewed-by: Johan Hovold <johan@kernel.org> Tested-by: Johan Hovold <johan@kernel.org> Johan
On Mon, Jun 05, 2023 at 01:26:00PM +0200, David Hildenbrand wrote: > I only did a single run on each kernel, should be good enough for the purpose here. > > > 1) !debug config (not enabling KASAN) > > a) master > > # cat /sys/kernel/debug/modules/stats > Virtual mem wasted bytes 20358550424 18 GiB > Average mod size 217908 212 KiB > Average mod text size 63570 62 KiB > b) patched > > # cat /sys/kernel/debug/modules/stats > Virtual mem wasted bytes 0 > 2) debug config (enabling KASAN) > > a) master > > # cat /sys/kernel/debug/modules/stats > Virtual mem wasted bytes 6453862040 6 GiB > Average mod size 430517 420 KiB, so ballpark kasan pretty much doubles module size. > Average mod text size 197592 192 KiB, and is reflected on module .text too, in fact .text more than doubles. It would have otherwise been difficult to get some of these stats, so thanks! I make note of .text just because of the recent development work going on for a new module_alloc(). About 14 MiB required to house a big iron kasan enabled module .text, whereas about half is required for !kasan. > b) patched > > # cat /sys/kernel/debug/modules/stats > Virtual mem wasted bytes 6441296 We've gone down from ~6 GiB to ~6 MiB. > So, with these (helpful) stats, Extremely useful, yes thanks. > the improvement is obvious (and explains the ~1s > improvement I saw staring at the startup times of the udev services). > > There are still some failed module loads with the debug config (only in the > becoming state), I did not dive deeply into the actual code changes (-EBUSY), That's fine, Linus' patch does not keep the lock for the entire life of the module, it releases it right away after we're done with the kernel_read(), and because of this, there is a small race in between a thread the kernel_read() finishing and the module then being processed into the modules linked list. During that time, if a new module with the same name comes in, we'll have to allow it since the lock was released. Those extra modules end up lingering to wait for the first one that made it to the modules linked list. I don't think we need to worry about 6 MiB, this patch alone should suffice for a long time until userspace gets its act together and fixes this properly. Fixing userspace should reduce some latencies as well on bootup so someone who cares about bootup speeds on high end systems could likely be encouraged to fix that. > just spelling it out so we can decide if this is to be expected or some corner > case that shouldn't be happening. It is expected, in fact the fact that the heuristic works so well, without keeping the lock forever, and therefore keeping the code changes to a minimum is quite an amazing. Luis
On Mon, Jun 05, 2023 at 08:17:42AM -0700, Luis Chamberlain wrote:
> We've gone down from ~6 GiB to ~6 MiB.
And just to also highlight, that was just for for the KASAN enabled case, and
for !KASAN we went from ~18 GiB to 0.
Luis
On Mon, Jun 05, 2023 at 08:28:41AM -0700, Luis Chamberlain wrote: > On Mon, Jun 05, 2023 at 08:17:42AM -0700, Luis Chamberlain wrote: > > We've gone down from ~6 GiB to ~6 MiB. > > And just to also highlight, that was just for for the KASAN enabled case, and > for !KASAN we went from ~18 GiB to 0. Linus, were you thinking of including these patches in for v6.5-rc1? Luis
On Wed, 28 Jun 2023 at 11:52, Luis Chamberlain <mcgrof@kernel.org> wrote: > > Linus, were you thinking of including these patches in for v6.5-rc1? Heh, I don't even have them in my tree any more, I was assuming that if they were good they'd be sent back to me... I guess I can go fish them out from my old emails, but I actually was expecting to just get them from you. I do actually maintain my own branches for *some* things, and merge them myself, but they tend to be for areas that I feel I'm co-maintaining (ie notably vfs and mm that I still feel I'm involved in). In other areas, I may send out patches, but I don't feel like I'm a maintainer, so I then think that "the real maintainer can decide if these patches are good or not". And I would very much hope that people don't take said patches _just_ because they come from me. They should be judged on their own merits, and then occasionally people can mutter "Christ, what drugs is Linus on _today_?" and just throw my patches in the garbage. Linus
On Wed, 28 Jun 2023 at 13:14, Linus Torvalds <torvalds@linux-foundation.org> wrote: > > In other areas, I may send out patches, but I don't feel like I'm a > maintainer, so I then think that "the real maintainer can decide if > these patches are good or not". Anyway, since I clearly didn't communicate clearly that I was throwing the patch over to you, let me go and find it and just apply it myself. Linus
On Wed, 28 Jun 2023 at 15:07, Linus Torvalds <torvalds@linux-foundation.org> wrote: > > Anyway, since I clearly didn't communicate clearly that I was throwing > the patch over to you, let me go and find it and just apply it myself. Ok, I spent some time writing a better commit message for that change, tried to make sure I got everybody's comments and Tested-by's sorted out etc, and committed the end result. I also did the actual module pull and your sysctl pull. Can you please check that it all looks like you expected? Linus
On Wed, Jun 28, 2023 at 04:17:10PM -0700, Linus Torvalds wrote: > On Wed, 28 Jun 2023 at 15:07, Linus Torvalds > <torvalds@linux-foundation.org> wrote: > > > > Anyway, since I clearly didn't communicate clearly that I was throwing > > the patch over to you, let me go and find it and just apply it myself. > > Ok, I spent some time writing a better commit message for that change, > tried to make sure I got everybody's comments and Tested-by's sorted > out etc, and committed the end result. > > I also did the actual module pull and your sysctl pull. > > Can you please check that it all looks like you expected? Looks good to me, thanks for doing that. It certainly was not clear to me that you had expected me to merge your patch just because you had previously merged your own and later reverted it. But now I know in the future I may just pick up your patches, instead of expecting you to shortcut it, thanks! Luis
diff --git a/include/linux/module.h b/include/linux/module.h index 9e56763dff81..afc44df96278 100644 --- a/include/linux/module.h +++ b/include/linux/module.h @@ -557,6 +557,7 @@ struct module { unsigned int printk_index_size; struct pi_entry **printk_index_start; #endif + unsigned long i_ino; #ifdef CONFIG_MODULE_UNLOAD /* What modules depend on me? */ diff --git a/kernel/module/Kconfig b/kernel/module/Kconfig index 33a2e991f608..85a6c7c5ddc0 100644 --- a/kernel/module/Kconfig +++ b/kernel/module/Kconfig @@ -157,6 +157,26 @@ config MODULE_UNLOAD_TAINT_TRACKING page (see bad_page()), the aforementioned details are also shown. If unsure, say N. +config MODULE_KREAD_UNIQ + bool "Avoid duplicate module kernel reads" + select KREAD_UNIQ + help + Enable this option to avoid vmalloc() space for duplicate module + requests early before we can even check for the module name. This + is useful to avoid duplicate module requests which userspace or kernel + can issue. On some architectures such as x86_64 there is only 128 MiB + of virtual memory space and since in the worst case we can end up + allocating up to 3 times the module size in vmalloc space, avoiding + duplicates can save virtual memory on boot. + + Enabling this will incrase your kernel by about 945 bytes, but can + save considerable memory during bootup which would otherwise be freed + and this in turn can help speed up kernel boot time. + + Disable this if you have enabled CONFIG_MODULE_STATS and have + verified you see no duplicates or virtual memory being freed on + bootup. + config MODVERSIONS bool "Module versioning support" help diff --git a/kernel/module/internal.h b/kernel/module/internal.h index dc7b0160c480..7ea7f177f907 100644 --- a/kernel/module/internal.h +++ b/kernel/module/internal.h @@ -67,6 +67,7 @@ struct load_info { unsigned int max_pages; unsigned int used_pages; #endif + unsigned long i_ino; struct { unsigned int sym, str, mod, vers, info, pcpu; } index; diff --git a/kernel/module/main.c b/kernel/module/main.c index ea7d0c7f3e60..e35900ee616a 100644 --- a/kernel/module/main.c +++ b/kernel/module/main.c @@ -1283,6 +1283,7 @@ static void free_module(struct module *mod) kfree(mod->args); percpu_modfree(mod); + kread_uniq_fd_free(mod->i_ino); free_mod_mem(mod); } @@ -1964,12 +1965,14 @@ static int copy_module_from_user(const void __user *umod, unsigned long len, return err; } -static void free_copy(struct load_info *info, int flags) +static void free_copy(struct load_info *info, int flags, bool error) { if (flags & MODULE_INIT_COMPRESSED_FILE) module_decompress_cleanup(info); else vfree(info->hdr); + if (error) + kread_uniq_fd_free(info->i_ino); } static int rewrite_section_headers(struct load_info *info, int flags) @@ -2965,7 +2968,7 @@ static int load_module(struct load_info *info, const char __user *uargs, } /* Get rid of temporary copy. */ - free_copy(info, flags); + free_copy(info, flags, false); /* Done! */ trace_module_load(mod); @@ -3023,7 +3026,7 @@ static int load_module(struct load_info *info, const char __user *uargs, */ if (!module_allocated) mod_stat_bump_becoming(info, flags); - free_copy(info, flags); + free_copy(info, flags, true); return err; } @@ -3068,11 +3071,12 @@ SYSCALL_DEFINE3(finit_module, int, fd, const char __user *, uargs, int, flags) |MODULE_INIT_COMPRESSED_FILE)) return -EINVAL; - len = kernel_read_file_from_fd(fd, 0, &buf, INT_MAX, NULL, - READING_MODULE); + len = kread_uniq_fd(fd, 0, &buf, &info.i_ino, INT_MAX, NULL, READING_MODULE); if (len < 0) { - mod_stat_inc(&failed_kreads); - mod_stat_add_long(len, &invalid_kread_bytes); + if (len != -EBUSY) { + mod_stat_inc(&failed_kreads); + mod_stat_add_long(len, &invalid_kread_bytes); + } return len; } @@ -3082,6 +3086,7 @@ SYSCALL_DEFINE3(finit_module, int, fd, const char __user *, uargs, int, flags) if (err) { mod_stat_inc(&failed_decompress); mod_stat_add_long(len, &invalid_decompress_bytes); + kread_uniq_fd_free(info.i_ino); return err; } } else {
Add support to use the new kread_uniq_fd() to avoid duplicate kernel reads on modules. At the cost of about ~945 bytes to your kernel size, enabling this on a 255 CPU x86_64 qemu guest this saves about ~1.8 GiB of memory during boot which would otherwise be free'd, and reduces boot time by about ~11 seconds. Userspace loads modules through finit_module(), this in turn will use vmalloc space up to 3 times: a) The kernel_read_file() call b) Optional module decompression c) Our final copy of the module Commit 064f4536d139 ("module: avoid allocation if module is already present and ready") shows a graph of the amount of vmalloc space observed allocated but freed for duplicate module request which end up in the trash bin. Since there is a linear relationship with the number of CPUs eventually this will bite us and you end up not being able to boot. That commit put a stop gap for c) but to avoid the vmalloc() space wasted on a) and b) we need to detect duplicates earlier. We could just have userspace fix this, but as reviewed at LSFMM 2023 this year in Vancouver, fixing this in userspace can be complex and we also can't know when userpace is fixed. Fixing this in kernel turned out to be easy with the inode and with a simple kconfig option we can let users / distros decide if this full stop gap is worthy to enable. With this enabled I'm now able to see 0 bytes wasted on vmalloc space due to duplicates. Before: # sudo systemd-analyze Startup finished in 41.653s (kernel) + 44.305s (userspace) = 1min 25.958s graphical.target reached after 44.178s in userspace. # grep "Virtual mem wasted bytes" /sys/kernel/debug/modules/stats Virtual mem wasted bytes 1949006968 So ~1.8 GiB... of vmalloc space wasted during boot. After: # sudo systemd-analyze Startup finished in 29.883s (kernel) + 45.817s (userspace) = 1min 15.700s graphical.target reached after 45.682s in userspace. # grep "Virtual mem wasted bytes" /sys/kernel/debug/modules/stats Virtual mem wasted bytes 0 Suggested-by: Lennart Poettering <lennart@poettering.net> Signed-off-by: Luis Chamberlain <mcgrof@kernel.org> --- include/linux/module.h | 1 + kernel/module/Kconfig | 20 ++++++++++++++++++++ kernel/module/internal.h | 1 + kernel/module/main.c | 19 ++++++++++++------- 4 files changed, 34 insertions(+), 7 deletions(-)