Hi all, This is v3.3 of the stable-page-writes patchset for ext4 and xfs. The purpose of this patchset is to prohibit processes from writing on memory pages that are currently being written to disk because certain storage setups (e.g. SCSI disks with DIF integrity checksums) will fail a write if the page contents don't match the checksum. btrfs already guarantees page stability, so it does not use these changes. The technique used is fairly simple -- whenever a page is about to become writable (either because of a write fault to a mapped page, or a buffered write is in progress), wait for the page writeback flag to be clear, indicating that the page is not being written to disk. This means that it is necessary (1) to add wait for writeback code to grab_cache_page_write_begin to take care of buffered writes, and (2) all filesystems must have a page_mkwrite that locks a page, waits for writeback, and returns the locked page. For filesystems that piggyback on the generic block_page_mkwrite, the patchset adds the writeback wait to that function; for filesystems that do not use the page_mkwrite hook at all, the patchset provides a stub page_mkwrite. I ran my write-after-checksum ("wac") reproducer program to try to create the DIF checksum errors by madly rewriting the same memory pages. In fact, I tried the following combinations against ext4, xfs, and btrfs: a. 64 write() threads + sync_file_range b. 64 mmap write threads + msync c. 32 write() threads + sync_file_range + 32 mmap write threads + msync d. Same as C, but with all threads in directio mode e. Same as A, but with all threads in directio mode f. Same as B, but with all threads in directio mode After running profiles A-F for 30 minutes each on 6 different machines, ext4 and xfs report no errors. btrfs eventually reports -ENOSPC and fails the test, though it does that even without any of the patches applied. To assess the performance impact of stable page writes, I moved to a disk that doesn't have DIF support so that I could measure just the impact of waiting for writeback. I first ran wac with 64 threads madly scribbling on a 64k file and saw about a 12 percent performance decrease. I then reran the wac program with 64 threads and a 64MB file and saw about the same performance numbers. As I suspected, the patchset only seems to impact workloads that rewrite the same memory page frequently. Per various comments regarding v3 of this patchset, I've integrated his suggestions, reworked the patch descriptions to make it clearer which ones touch all the filesystems and which ones are to fix remaining holes in specific filesystems, and expanded the scope of filesystems that got fixed. As always, questions and comments are welcome; and thank you to all the previous reviewers of this patchset. I am also soliciting people's opinions on whether or not these patches could go upstream for .40. The v3.2 iteration of the patchset focused solely on the generic changes necessary to provide stable pages. It is being sent to Al Viro (just like v3.1 was). v3.3 is a rebase against 2.6.40, or 3.0.0, or whatever the next one is called. --D -- To unsubscribe from this list: send the line "unsubscribe linux-scsi" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html