- 06 Jul, 2003 3 commits
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Hideaki Yoshifuji authored
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Hideaki Yoshifuji authored
On-link flag == 0 in RA message does not mean that the prefix is off-link. It simply means the prefix does not talk about on-link information.
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Hideaki Yoshifuji authored
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- 05 Jul, 2003 26 commits
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Andrew Morton authored
i2o_scsi.c now needs pci.h.
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Andrew Morton authored
From: ilmari@ilmari.org (Dagfinn Ilmari Mannsaker) It turns out that net/bluetooth/rfcomm/sock.c (and net/bluetooth/hci_sock.c) had been left out when net_proto_family gained an owner field, here's a patch that fixes them both.
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Andrew Morton authored
From: junkio@cox.net Sigh. Is there a gcc option to tell it to not accept this incompatible C99 extension?
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Andrew Morton authored
From: Arvind Kandhare <arvind.kan@wipro.com> When switch_uid is called, the reference count of the new user is incremented twice. I think the increment in the switch_uid is done because of the reparent_to_init() function which does not increase the __count for root user. But if switch_uid is called from any other function, the reference count is already incremented by the caller by calling alloc_uid for the new user. Hence the count is incremented twice. The user struct will not be deleted even when there are no processes holding a reference count for it. This does not cause any problem currently because nothing is dependent on timely deletion of the user struct.
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Andrew Morton authored
From: Davide Libenzi <davidel@xmailserver.org> - Inline eventpoll_release() so that __fput() does not need to call in epoll code if the file itself is not registered inside an epoll fd - Add <linux/types.h> inclusion due __u32 and __u64 usage - Fix debug printf that would otherwise panic if enabled with the new epoll code
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Andrew Morton authored
From: Davide Libenzi <davidel@xmailserver.org> - Remove a couple of impossible debug checks (unsigneds cannot be negative!) - If __alloc_bootmem_core() fails with a goal and unaligned node_boot_start it'll loop fovever.
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Andrew Morton authored
If de_thread() fails in flush_old_exec() then we try to fail the execve(). That is a bad move, because exec_mmap() has already switched the current process over to the new mm. The new process is not yet sufficiently set up to handle the error and the kernel doublefaults and dies. exec_mmap() is the point of no return. Change flush_old_exec() to call de_thread() before running exec_mmap() so the execing program sees the error. I added fault injection to both de_thread() and exec_mmap() - everything now survives OK.
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Andrew Morton authored
From: Nick Piggin <piggin@cyberone.com.au> Add some comments to the request allocation code.
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Andrew Morton authored
- pass gfp_flags to get_io_context(): not all callers are forced to use GFP_ATOMIC(). - fix locking in get_io_context(): bump the refcount whilein the exclusive region. - don't go oops in get_io_context() if the kmalloc failed. - in as_get_io_context(): fail the whole thing if we were unable to allocate the AS-specific part. - as_remove_queued_request() cleanup
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Andrew Morton authored
From: Nick Piggin <piggin@cyberone.com.au> The following patch gets batching working how it should be. After a process is woken up, it is allowed to allocate up to 32 requests for 20ms. It does not stop other processes submitting requests if it isn't submitting though. This should allow less context switches, and allow batches of requests from each process to be sent to the io scheduler instead of 1 request from each process. tiobench sequential writes are more than tripled, random writes are nearly doubled over mm1. In earlier tests I generally saw better CPU efficiency but it doesn't show here. There is still debug to be taken out. Its also only on UP. Avg Maximum Lat% Lat% CPU Identifier Rate (CPU%) Latency Latency >2s >10s Eff ------------------- ------ --------- ---------- ------- ------ ---- -2.5.71-mm1 11.13 3.783% 46.10 24668.01 0.84 0.02 294 +2.5.71-mm1 13.21 4.489% 37.37 5691.66 0.76 0.00 294 Random Reads ------------------- ------ --------- ---------- ------- ------ ---- -2.5.71-mm1 0.97 0.582% 519.86 6444.66 11.93 0.00 167 +2.5.71-mm1 1.01 0.604% 484.59 6604.93 10.73 0.00 167 Sequential Writes ------------------- ------ --------- ---------- ------- ------ ---- -2.5.71-mm1 4.85 4.456% 77.80 99359.39 0.18 0.13 109 +2.5.71-mm1 14.11 14.19% 10.07 22805.47 0.09 0.04 99 Random Writes ------------------- ------ --------- ---------- ------- ------ ---- -2.5.71-mm1 0.46 0.371% 14.48 6173.90 0.23 0.00 125 +2.5.71-mm1 0.86 0.744% 24.08 8753.66 0.31 0.00 115 It decreases context switch rate on IBM's 8-way on ext2 tiobench 64 threads from ~2500/s to ~140/s on their regression tests.
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Andrew Morton authored
From: Nick Piggin <piggin@cyberone.com.au> Generalise the AS-specific per-process IO context so that other IO schedulers could use it.
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Andrew Morton authored
From: Nick Piggin <piggin@cyberone.com.au> This patch fixes the request batching fairness/starvation issue. Its not clear what is going on with 2.4, but it seems that its a problem around this area. Anyway, previously: * request queue fills up * process 1 calls get_request, sleeps * a couple of requests are freed * process 2 calls get_request, proceeds * a couple of requests are freed * process 2 calls get_request... Now as unlikely as it seems, it could be a problem. Its a fairness problem that process 2 can skip ahead of process 1 anyway. With the patch: * request queue fills up * any process calling get_request will sleep * once the queue gets below the batch watermark, processes start being worken, and may allocate. This patch includes Chris Mason's fix to only clear queue_full when all tasks have been woken. Previously I think starvation and unfairness could still occur. With this change to the blk-fair-batches patch, Chris is showing some much improved numbers for 2.4 - 170 ms max wait vs 2700ms without blk-fair-batches for a dbench 90 run. He didn't indicate how much difference his patch alone made, but it is an important fix I think.
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Andrew Morton authored
From: Nick Piggin <piggin@cyberone.com.au> If there are no requess in flight against the target device and get_request() fails, nothing will wake us up. Fix.
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Andrew Morton authored
From: Nick Piggin <piggin@cyberone.com.au> This patch implements a hint so that AS can tell the request allocator to allocate a request even if there are none left (the accounting is quite flexible and easily handles overallocations). elv_may_queue semantics have changed from "the elevator does _not_ want another request allocated" to "the elevator _insists_ that another request is allocated". I couldn't see any harm ;) Now in practice, AS will only allow _1_ request over the limit, because as soon as the request is sent to AS, it stops anticipating.
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Andrew Morton authored
From: Nick Piggin <piggin@cyberone.com.au> Now that we are counting requests (not requests free), this patch changes the congested & batch watermarks to be more logical. Also a minor fix to the sysfs code.
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Andrew Morton authored
From: Nick Piggin <piggin@cyberone.com.au> This gets rid of the global queue_nr_requests and usage of BLKDEV_MAX_RQ (the latter is now only used to set the queues' defaults). The queue depth becomes per-queue, controlled by a sysfs entry.
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Andrew Morton authored
Using keventd for running request_fns is risky because keventd itself can block on disk I/O. Use the new kblockd kernel threads for the generic unplugging.
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Andrew Morton authored
From: Nick Piggin <piggin@cyberone.com.au> This is the core anticipatory IO scheduler. There are nearly 100 changesets in this and five months work. I really cannot describe it fully here. Major points: - It works by recognising that reads are dependent: we don't know where the next read will occur, but it's probably close-by the previous one. So once a read has completed we leave the disk idle, anticipating that a request for a nearby read will come in. - There is read batching and write batching logic. - when we're servicing a batch of writes we will refuse to seek away for a read for some tens of milliseconds. Then the write stream is preempted. - when we're servicing a batch of reads (via anticipation) we'll do that for some tens of milliseconds, then preempt. - There are request deadlines, for latency and fairness. The oldest outstanding request is examined at regular intervals. If this request is older than a specific deadline, it will be the next one dispatched. This gives a good fairness heuristic while being simple because processes tend to have localised IO. Just about all of the rest of the complexity involves an array of fixups which prevent most of teh obvious failure modes with anticipation: trying to not leave the disk head pointlessly idle. Some of these algorithms are: - Process tracking. If the process whose read we are anticipating submits a write, abandon anticipation. - Process exit tracking. If the process whose read we are anticipating exits, abandon anticipation. - Process IO history. We accumulate statistical info on the process's recent IO patterns to aid in making decisions about how long to anticipate new reads. Currently thinktime and seek distance are tracked. Thinktime is the time between when a process's last request has completed and when it submits another one. Seek distance is simply the number of sectors between each read request. If either statistic becomes too high, the it isn't anticipated that the process will submit another read. The above all means that we need a per-process "io context". This is a fully refcounted structure. In this patch it is AS-only. later we generalise it a little so other IO schedulers could use the same framework. - Requests are grouped as synchronous and asynchronous whereas deadline scheduler groups requests as reads and writes. This can provide better sync write performance, and may give better responsiveness with journalling filesystems (although we haven't done that yet). We currently detect synchronous writes by nastily setting PF_SYNCWRITE in current->flags. The plan is to remove this later, and to propagate the sync hint from writeback_contol.sync_mode into bio->bi_flags thence into request->flags. Once that is done, direct-io needs to set the BIO sync hint as well. - There is also quite a bit of complexity gone into bashing TCQ into submission. Timing for a read batch is not started until the first read request actually completes. A read batch also does not start until all outstanding writes have completed. AS is the default IO scheduler. deadline may be chosen by booting with "elevator=deadline". There are a few reasons for retaining deadline: - AS is often slower than deadline in random IO loads with large TCQ windows. The usual real world task here is OLTP database loads. - deadline is presumably more stable. - deadline is much simpler. The tunable per-queue entries under /sys/block/*/iosched/ are all in milliseconds: * read_expire Controls how long until a request becomes "expired". It also controls the interval between which expired requests are served, so set to 50, a request might take anywhere < 100ms to be serviced _if_ it is the next on the expired list. Obviously it can't make the disk go faster. Result is basically the timeslice a reader gets in the presence of other IO. 100*((seek time / read_expire) + 1) is very roughly the % streaming read efficiency your disk should get in the presence of multiple readers. * read_batch_expire Controls how much time a batch of reads is given before pending writes are served. Higher value is more efficient. Shouldn't really be below read_expire. * write_ versions of the above * antic_expire Controls the maximum amount of time we can anticipate a good read before giving up. Many other factors may cause anticipation to be stopped early, or some processes will not be "anticipated" at all. Should be a bit higher for big seek time devices though not a linear correspondance - most processes have only a few ms thinktime.
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Andrew Morton authored
From: Nick Piggin <piggin@cyberone.com.au> Introduces an elevator_completed_req() callback with which the generic queueing layer may tell an IO scheduler that a particualr request has finished.
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Andrew Morton authored
Introduces the elv_may_queue() predicate with which the IO scheduler may tell the generic request layer that we may add another request to this queue. It is used by the CFQ elevator.
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Andrew Morton authored
keventd is inappropriate for running block request queues because keventd itself can get blocked on disk I/O. Via call_usermodehelper()'s vfork and, presumably, GFP_KERNEL allocations. So create a new gang of kernel threads whose mandate is for running low-level disk operations. It must ever block on disk IO, so any memory allocations should be GFP_NOIO. We mainly use it for running unplug operations from interrupt context.
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Andrew Morton authored
From: Nick Piggin <piggin@cyberone.com.au> The batch_requests function got lost during the merge of the dynamic request allocation patch. We need it for the anticipatory scheduler - when the number of threads exceeds the number of requests, the anticipated-upon task will undesirably sleep in get_request_wait(). And apparently some block devices which use small requests need it so they string a decent number together. Jens has acked this patch.
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Andrew Morton authored
From: "Chen, Kenneth W" <kenneth.w.chen@intel.com> This patch proposes a performance fix for the current IPC semaphore implementation. There are two shortcoming in the current implementation: try_atomic_semop() was called two times to wake up a blocked process, once from the update_queue() (executed from the process that wakes up the sleeping process) and once in the retry part of the blocked process (executed from the block process that gets woken up). A second issue is that when several sleeping processes that are eligible for wake up, they woke up in daisy chain formation and each one in turn to wake up next process in line. However, every time when a process wakes up, it start scans the wait queue from the beginning, not from where it was last scanned. This causes large number of unnecessary scanning of the wait queue under a situation of deep wait queue. Blocked processes come and go, but chances are there are still quite a few blocked processes sit at the beginning of that queue. What we are proposing here is to merge the portion of the code in the bottom part of sys_semtimedop() (code that gets executed when a sleeping process gets woken up) into update_queue() function. The benefit is two folds: (1) is to reduce redundant calls to try_atomic_semop() and (2) to increase efficiency of finding eligible processes to wake up and higher concurrency for multiple wake-ups. We have measured that this patch improves throughput for a large application significantly on a industry standard benchmark. This patch is relative to 2.5.72. Any feedback is very much appreciated. Some kernel profile data attached: Kernel profile before optimization: ----------------------------------------------- 0.05 0.14 40805/529060 sys_semop [133] 0.55 1.73 488255/529060 ia64_ret_from_syscall [2] [52] 2.5 0.59 1.88 529060 sys_semtimedop [52] 0.05 0.83 477766/817966 schedule_timeout [62] 0.34 0.46 529064/989340 update_queue [61] 0.14 0.00 1006740/6473086 try_atomic_semop [75] 0.06 0.00 529060/989336 ipcperms [149] ----------------------------------------------- 0.30 0.40 460276/989340 semctl_main [68] 0.34 0.46 529064/989340 sys_semtimedop [52] [61] 1.5 0.64 0.87 989340 update_queue [61] 0.75 0.00 5466346/6473086 try_atomic_semop [75] 0.01 0.11 477676/576698 wake_up_process [146] ----------------------------------------------- 0.14 0.00 1006740/6473086 sys_semtimedop [52] 0.75 0.00 5466346/6473086 update_queue [61] [75] 0.9 0.89 0.00 6473086 try_atomic_semop [75] ----------------------------------------------- Kernel profile with optimization: ----------------------------------------------- 0.03 0.05 26139/503178 sys_semop [155] 0.46 0.92 477039/503178 ia64_ret_from_syscall [2] [61] 1.2 0.48 0.97 503178 sys_semtimedop [61] 0.04 0.79 470724/784394 schedule_timeout [62] 0.05 0.00 503178/3301773 try_atomic_semop [109] 0.05 0.00 503178/930934 ipcperms [149] 0.00 0.03 32454/460210 update_queue [99] ----------------------------------------------- 0.00 0.03 32454/460210 sys_semtimedop [61] 0.06 0.36 427756/460210 semctl_main [75] [99] 0.4 0.06 0.39 460210 update_queue [99] 0.30 0.00 2798595/3301773 try_atomic_semop [109] 0.00 0.09 470630/614097 wake_up_process [146] ----------------------------------------------- 0.05 0.00 503178/3301773 sys_semtimedop [61] 0.30 0.00 2798595/3301773 update_queue [99] [109] 0.3 0.35 0.00 3301773 try_atomic_semop [109] -----------------------------------------------=20 Both number of function calls to try_atomic_semop() and update_queue() are reduced by 50% as a result of the merge. Execution time of sys_semtimedop is reduced because of the reduction in the low level functions.
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Andrew Morton authored
From: Matthew Wilcox <willy@debian.org> ppc64 oopses on boot because pci_scan_bus_parented() is unexpectedly returning NULL. Change pci_scan_bus_parented() to correctly handle overlapping PCI bus numbers on different domains.
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bk://ppc.bkbits.net/for-linus-ppcLinus Torvalds authored
into home.osdl.org:/home/torvalds/v2.5/linux
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Paul Mackerras authored
into samba.org:/home/paulus/kernel/for-linus-ppc
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- 04 Jul, 2003 11 commits
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Ulrich Drepper authored
If a signal is sent via kill() or tkill() the kernel fills in the wrong PID value in the siginfo_t structure (obviously only if the handler has SA_SIGINFO set). POSIX specifies the the si_pid field is filled with the process ID, and in Linux parlance that's the "thread group" ID, not the thread ID.
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Linus Torvalds authored
event (ie SIGSEGV, SIGFPE etc that happens as a result of a trap as opposed to an external event), if the signal is blocked we will not invoce a signal handler, we will just kill the thread with the signal. This is equivalent to what we do in the SIG_IGN case: you cannot ignore or block synchronous signals, and if you try, we'll just have to kill you. We don't want to handle endless recursive faults, which the old behaviour easily led to if the stack was bad, for example.
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Linus Torvalds authored
since some drivers seem to be unhappy about the 10-byte version. The subsystem configuration can override this (eg USB or ide-scsi).
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Marc Zyngier authored
- By default, do not try to probe the bus if the mainboard does not seems to support EISA (allow this behaviour to be changed through a command-line option).
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Marc Zyngier authored
- Use parent bridge device dma_mask as default for each discovered device.
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Marc Zyngier authored
- Probe the right number of EISA slots on PA-RISC. No more, no less.
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Marc Zyngier authored
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Marc Zyngier authored
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Marc Zyngier authored
- Now reserves I/O ranges according to EISA specs (four 256 bytes regions instead of a single 4KB region). - By default, do not try to probe the bus if the mainboard does not seems to support EISA (allow this behaviour to be changed through a command-line option). - Use parent bridge device dma_mask as default for each discovered device. - Allow devices to be enabled or disabled from the kernel command line (useful for non-x86 platforms where the firmware simply disable devices it doesn't know about...).
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bk://kernel.bkbits.net/jgarzik/irda-2.5Linus Torvalds authored
into home.osdl.org:/home/torvalds/v2.5/linux
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Linus Torvalds authored
trigger as per the "bk help triggers" suggestion, so that we'll see any new triggers showing up in the tree. Make it so.
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