- 26 Dec, 2002 2 commits
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Greg Kroah-Hartman authored
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Greg Kroah-Hartman authored
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- 24 Dec, 2002 1 commit
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Ganesh Varadarajan authored
The ActiveSync USB "protocol" seems to be the same for all WinCE devices seen so far. So it seems reasonable to pre-emptively support all devices which work with ActiveSync.
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- 23 Dec, 2002 3 commits
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Henning Meier-Geinitz authored
This patch removes a now unnecessary debug line taht broke compilation when debugging was enabled.
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Henning Meier-Geinitz authored
This patch allows the scanner driver to accept devices with more than one interface. That's needed by some multi-function periphals (e.g. scanner+printer).
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Vojtech Pavlik authored
Orginally from Vojtech Pavlik (16th June 2002 via email), to fix my 'broken' USB joypad, Fully tested in both 2.4.x and 2.5.52 (and 2.5.52-bk).
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- 22 Dec, 2002 9 commits
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Linus Torvalds authored
the fast case with a pushf/popf, by having the kernel debug trap set the TIF_SINGLESTEP flag and causing the return path to dtrt.
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Manfred Spraul authored
boot_cpu_data should contain the common capabilities of all cpus in the system. identify_cpu [arch/i386/kernel/cpu/common.c] tries to enforce that. But right now, the SMP trampoline code [arch/i386/kernel/head.S] overwrites boot_cpu_data when the secondary cpus are started, i.e. boot_cpu_data contains the capabilities from the last cpu that booted :-( The attached patch adds a new, __initdata variable for the asm code.
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Rusty Russell authored
Restore the accidentally dropped code to handle "init=xxx"
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Andi Kleen authored
This fixes a hang in change_page_attr() that occured with mem=nopentium. Make sure a non large page kernel mapping is handled correctly. Previously the page reference counter was handled incorrectly in this case. Also hardens change_page_attr against bogus addresses. You get an EINVAL now.
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Andi Kleen authored
"mem=nopentium" would clear the PSE bit in boot_cpu_data, but the CPU detection later would overwrite it again from CPUID. The large pages would be correctly disabled, but cpu_has_pse was lying. This patch makes sure it stays clear when the option is given. I also took the liberty to remove these obnoxious cpu capability printks who give no use information (the data can be either gotten from CPUID in user space in raw form or from /proc/cpuinfo processed)
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Manfred Spraul authored
According to Intel's recommendation, 'rep;nop; should be called before testing if the lock variable was modified (i.e. rep nop;cmp;jcc). The current implementation does it the wrong way around: first test, then wait, then branch. I've asked Asit Mallik from Intel, and he recommended to change it. It should be at least consistent: Right now, spinlock uses 'cmp;rep nop;jcc', rwlock uses 'rep nop;cmp;jcc'
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http://linux-voyager.bkbits.net/dma-generic-mapping-2.5Linus Torvalds authored
into home.transmeta.com:/home/torvalds/v2.5/linux
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James Bottomley authored
use a #include mechanism for generic implementations of the pci_ API in terms of the dma_ one
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bk://linuxusb.bkbits.net/linus-2.5Linus Torvalds authored
into home.transmeta.com:/home/torvalds/v2.5/linux
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- 21 Dec, 2002 25 commits
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Richard Henderson authored
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Greg Kroah-Hartman authored
into kroah.com:/home/linux/linux/BK/gregkh-2.5
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James Keniston authored
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Henning Meier-Geinitz authored
This patch (originally from Sergey Vlasov) adds support for scanners with only one bulk-in endpoint. It's needed by all the GT-6801 based scanners like the Artec Ultima 2000 or some of the Mustek BearPaws.
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Henning Meier-Geinitz authored
This patch adds additional vendor and product ids for Nikon, Mustek, Plustek, Genius, Epson, Canon, Umax, Hewlett-Packard, Benq, Agfa, and Minolta scanners. The entries for Benq, Genius and Plustek scanners have been updated. I've also increased the version number to 0.4.9 and brought the version numbers in scanner.c and scanner.h in sync.
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David Brownell authored
> ... usb-storage gets unhappy when > it decides (why? and unsuccessfully) to reset high speed > devices. ... I don't know if that problem is resolved, but this patch makes the question moot by handling an earlier error correctly. The patch updates an incorrect test, so a short read will now be treated as one. Please merge. This lets storage behave again. As in, "mkfs -c" then copy about 8 GB around, then 'dbench'.
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Linus Torvalds authored
device DMA now (see <linux/pci.h> for the compat wrapper).
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James Bottomley authored
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James Bottomley authored
add dma_ API to mirror pci_ DMA API but phrased to use struct device instead of struct pci_dev. See Documentation/DMA-API.txt for details
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Linus Torvalds authored
- printk is not an acceptable substitute for errors - fix indentation of mtrr_close() - fix duplicate mtrr "release" fn pointer initializer
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Andrew Morton authored
Patch from Christoph Hellwig <hch@lst.de> remove unused macro MAP_ALIGN()
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Andrew Morton authored
From hch. Nothing is using the memclass() predicate.
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Andrew Morton authored
They are 260 bytes. We can get 15 per page without cacheline alignment. But we're currently only getting ten per page on P4.
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Andrew Morton authored
An `ls' in hugetlbfs currently shows all files having zero size. So, part-cosmetic, part-informative, we here set i_size to represent the index of the highest present page in the mapping, plus one.
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Andrew Morton authored
From Rohit Seth Attached is a patch that passes the correct information back to user land for number of attachments to shared memory segment. I could have done few more changes in a way nattach is getting set for regular cases now, but just want to limit it at this point.
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Andrew Morton authored
From Rohit Seth 1) Bug fixes (mainly in the unsuccessful attempts of hugepages). i) not modifying the value of key for unsuccessful key allocation ii) Correct usage of mmap_sem in free_hugepages iii) Proper unlocking of key->lock for partial hugepage allocations 2) Include the IPC_LOCK for permission to use hugepages via the syscall interface. This brings the syscall interface into line with the hugetlbfs interface. It also adds permits users who are in the superuser group to access hugetlb resources. This is so that database servers can run without elevated permissions. 3) Increment the key_counts during forks to correctly identify the number of processes references a key.
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Andrew Morton authored
This is a forward-port from 2.4. One of Stephen's recent fixes. I managed to merge up only half of it. Here is the rest. It should fix the asserton failure reported by Robert Macaulay <robert_macaulay@dell.com> "There was a race window in buffer refiling where we could temporarily expose the journal's internal BH_JBDDirect flag as BH_Dirty, which is visible to the rest of the VFS. That doesn't affect the journaling, because we hold journal_head locks while the buffer is in this transient state, but bdflush can see the buffer and write it out unexpectedly, causing ext3 to find the buffer in an unexpected state later." The fix simply keeps the dirty bits clear during the internal buffer processing, restoring the state to the private BH_JBDDirect once refiling is complete."
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Andrew Morton authored
If ext3_add_nondir() fails it will do an iput() of the inode. But we continue to run ext3_mark_inode_dirty() against the potentially-freed inode. This oopses when slab poisoning is enabled. Fix it so that we only run ext3_mark_inode_dirty() if the inode was successfully instantiated.
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Andrew Morton authored
Renames the local variables `bh2', `i', `j', 'k', and `tmp' to something meanigful. This brings ext2_new_block() into line with ext3_new_block().
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Andrew Morton authored
The same thing, for ext2.
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Andrew Morton authored
When an ext3 (or ext2) file is first created the filesystem has to choose the initial starting block for its data allocations. In the usual (new-file) case, that initial goal block is the zeroeth block of a particular blockgroup. This is the worst possible choice. Because it _guarantees_ that this file's blocks will be pessimally intermingled with the blocks of another file which is growing within the same blockgroup. We've always had this problem with files in the same directory. With the introduction of the Orlov allocator we now have the problem with files in different directories. And it got noticed. This is the cause of the post-Orlov 50% slowdown in dbench throughput on ext3 on write-through caching SCSI on SMP. And 25% in ext2. It doesn't happen on uniprocessor because a single CPU will not exhibit sufficient concurrency in allocation against two or more files. It will happen on uniprocessor if the files are growing slowly. It has always happened if the files are in the same directory. ext2 has the same problem but it is siginficantly less damaging there because of ext2's eight-block per-inode preallocation window. The patch largely solves this problem by not always starting the allocation goal at the zeroeth block of the blockgroup. We instead chop the blockgroup into sixteen starting points and select one of those based on the lower four bits of the calling process's PID. The PID was chosen as the index because this will help to ensure that related files have the same starting goal. If one process is slowly writing two files in the same directory, we still lose. Using the PID in the heuristic is a bit weird. As an alternative I tried using the file's directory's i_ino. That fixed the dbench problem OK but caused a 15% slowdown in the fast-growth `untar a kernel tree' workload. Because this approach will cause files which are in different directories to spread out more. Suppressing that behaviour when the files are all being created by the same process is a reasonable heuristic. I changed dbench to never unlink its files, and used e2fsck to determine how many fragmented files were present after a `dbench 32' run. With this patch and the next couple, ext2's fragmentation went from 22% to 13% and ext3's from 25% to 10.4%.
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Andrew Morton authored
ext2 places non-directory objects into the same blockgroup as their directory, as long as that directory has free inodes. It does this even if there are no free blocks in that blockgroup (!). This means that if there are lots of files being created at a common point in the tree, they _all_ have the same starting blockgroup. For each file we do a big search forwards for the first block and the allocations end up getting intermingled. So this patch will avoid placing new inodes in block groups which have no free blocks. So far so good. But this means that if a lot of new files are being created under a directory (or multiple directories) which are in the same blockgroup, all the new inodes will overflow into the same blockgroup. No improvement at all. So the patch arranges for the new inode locations to be "spread out" across different blockgroups if they are not going to be placed in their directory's block group. This is done by adding parent->i_ino into the starting point for the quadratic hash. i_ino was chosen so that files which are in the same directory will tend to all land in the same new blockgroup.
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Andrew Morton authored
- Add some (much-needed) commentary to the ext2/ext3 block allocator state fields. - Remove the SEARCH_FROM_ZERO debug code. I wrote that to trigger some race and it hasn't been used in a year.
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Andrew Morton authored
The `low latency page reclaim' design works by preventing page allocators from blocking on request queues (and by preventing them from blocking against writeback of individual pages, but that is immaterial here). This has a problem under some situations. pdflush (or a write(2) caller) could be saturating the queue with highmem pages. This prevents anyone from writing back ZONE_NORMAL pages. We end up doing enormous amounts of scenning. A test case is to mmap(MAP_SHARED) almost all of a 4G machine's memory, then kill the mmapping applications. The machine instantly goes from 0% of memory dirty to 95% or more. pdflush kicks in and starts writing the least-recently-dirtied pages, which are all highmem. The queue is congested so nobody will write back ZONE_NORMAL pages. kswapd chews 50% of the CPU scanning past dirty ZONE_NORMAL pages and page reclaim efficiency (pages_reclaimed/pages_scanned) falls to 2%. So this patch changes the policy for kswapd. kswapd may use all of a request queue, and is prepared to block on request queues. What will now happen in the above scenario is: 1: The page alloctor scans some pages, fails to reclaim enough memory and takes a nap in blk_congetion_wait(). 2: kswapd() will scan the ZONE_NORMAL LRU and will start writing back pages. (These pages will be rotated to the tail of the inactive list at IO-completion interrupt time). This writeback will saturate the queue with ZONE_NORMAL pages. Conveniently, pdflush will avoid the congested queues. So we end up writing the correct pages. In this test, kswapd CPU utilisation falls from 50% to 2%, page reclaim efficiency rises from 2% to 40% and things are generally a lot happier. The downside is that kswapd may now do a lot less page reclaim, increasing page allocation latency, causing more direct reclaim, increasing lock contention in the VM, etc. But I have not been able to demonstrate that in testing. The other problem is that there is only one kswapd, and there are lots of disks. That is a generic problem - without being able to co-opt user processes we don't have enough threads to keep lots of disks saturated. One fix for this would be to add an additional "really congested" threshold in the request queues, so kswapd can still perform nonblocking writeout. This gives kswapd priority over pdflush while allowing kswapd to feed many disk queues. I doubt if this will be called for.
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Andrew Morton authored
We keep getting in a mess with the current->flags setting and unsetting. Remove current->flags:PF_NOWARN and create __GFP_NOWARN instead.
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