linux-fsdevel.vger.kernel.org archive mirror
 help / color / mirror / Atom feed
From: Randy Dunlap <rdunlap@infradead.org>
To: Andiry Xu <jix024@eng.ucsd.edu>,
	linux-fsdevel@vger.kernel.org, linux-kernel@vger.kernel.org,
	linux-nvdimm@lists.01.org
Cc: dan.j.williams@intel.com, andy.rudoff@intel.com,
	coughlan@redhat.com, swanson@cs.ucsd.edu, david@fromorbit.com,
	jack@suse.com, swhiteho@redhat.com, miklos@szeredi.hu,
	andiry.xu@gmail.com, Andiry Xu <jix024@cs.ucsd.edu>
Subject: Re: [RFC v2 01/83] Introduction and documentation of NOVA filesystem.
Date: Mon, 19 Mar 2018 13:43:42 -0700	[thread overview]
Message-ID: <3ca76af0-a8aa-6dec-242f-b031e6eb4710@infradead.org> (raw)
In-Reply-To: <1520705944-6723-2-git-send-email-jix024@eng.ucsd.edu>

On 03/10/2018 10:17 AM, Andiry Xu wrote:
> From: Andiry Xu <jix024@cs.ucsd.edu>
> 
> NOVA is a log-structured file system tailored for byte-addressable non-volatile memories.
> It was designed and developed at the Non-Volatile Systems Laboratory in the Computer
> Science and Engineering Department at the University of California, San Diego.
> Its primary authors are Andiry Xu <jix024@eng.ucsd.edu>, Lu Zhang
> <luzh@eng.ucsd.edu>, and Steven Swanson <swanson@eng.ucsd.edu>.
> 
> These two papers provide a detailed, high-level description of NOVA's design goals and approach:
> 
>    NOVA: A Log-structured File system for Hybrid Volatile/Non-volatile Main Memories
>    In The 14th USENIX Conference on File and Storage Technologies (FAST '16)
>    (http://cseweb.ucsd.edu/~swanson/papers/FAST2016NOVA.pdf)
> 
>    NOVA-Fortis: A Fault-Tolerant Non-Volatile Main Memory File System
>    In The 26th ACM Symposium on Operating Systems Principles (SOSP '17)
>    (http://cseweb.ucsd.edu/~swanson/papers/SOSP2017-NOVAFortis.pdf)
> 
> This patchset contains features from the FAST paper. We leave NOVA-Fortis features,
> such as snapshot, metadata and data replication and RAID parity for
> future submission.
> 
> Signed-off-by: Andiry Xu <jix024@cs.ucsd.edu>
> ---
>  Documentation/filesystems/00-INDEX |   2 +
>  Documentation/filesystems/nova.txt | 498 +++++++++++++++++++++++++++++++++++++
>  MAINTAINERS                        |   8 +
>  3 files changed, 508 insertions(+)
>  create mode 100644 Documentation/filesystems/nova.txt

> diff --git a/Documentation/filesystems/nova.txt b/Documentation/filesystems/nova.txt
> new file mode 100644
> index 0000000..4728f50
> --- /dev/null
> +++ b/Documentation/filesystems/nova.txt
> @@ -0,0 +1,498 @@
> +The NOVA Filesystem
> +===================
> +
> +NOn-Volatile memory Accelerated file system (NOVA) is a DAX file system
> +designed to provide a high performance and production-ready file system
> +tailored for byte-addressable non-volatile memories (e.g., NVDIMMs
> +and Intel's soon-to-be-released 3DXPoint DIMMs).
> +NOVA combines design elements from many other file systems
> +and adapts conventional log-structured file system techniques to
> +exploit the fast random access that NVMs provide. In particular, NOVA maintains
> +separate logs for each inode to improve concurrency, and stores file data
> +outside the log to minimize log size and reduce garbage collection costs. NOVA's
> +logs provide metadata and data atomicity and focus on simplicity and
> +reliability, keeping complex metadata structures in DRAM to accelerate lookup
> +operations.
> +
> +NOVA was developed by the Non-Volatile Systems Laboratory (NVSL) in
> +the Computer Science and Engineering Department at the University of
> +California, San Diego.
> +
> +A more thorough discussion of NOVA's design is avaialable in these two papers:

                                                  available

> +
> +NOVA: A Log-structured File System for Hybrid Volatile/Non-volatile Main Memories
> +Jian Xu and Steven Swanson
> +In The 14th USENIX Conference on File and Storage Technologies (FAST '16)
> +
> +NOVA-Fortis: A Fault-Tolerant Non-Volatile Main Memory File System
> +Jian Xu, Lu Zhang, Amirsaman Memaripour, Akshatha Gangadharaiah, Amit Borase,
> +Tamires Brito Da Silva, Andy Rudoff and Steven Swanson
> +In The 26th ACM Symposium on Operating Systems Principles (SOSP '17)
> +
> +This version of NOVA contains features from the FAST paper.
> +NOVA-Fortis features, such as snapshot, metadata and data protection and replication
> +are left for future submission.
> +
> +The main NOVA features include:
> +
> +  * POSIX semantics
> +  * Directly access (DAX) byte-addressable NVMM without page caching
> +  * Per-CPU NVMM pool to maximize concurrency
> +  * Strong consistency guarantees with 8-byte atomic stores
> +
> +
> +Filesystem Design
> +=================
> +
> +NOVA divides NVMM into several regions. NOVA's 512B superblock contains global

                                        (prefer:) 512-byte

> +file system information and the recovery inode. The recovery inode represents a
> +special file that stores recovery information (e.g., the list of unallocated
> +NVMM pages). NOVA divides its inode tables into per-CPU stripes. It also
> +provides per-CPU journals for complex file operations that involve multiple
> +inodes. The rest of the available NVMM stores logs and file data.
> +
> +NOVA is log-structured and stores a separate log for each inode to maximize
> +concurrency and provide atomicity for operations that affect a single file. The
> +logs only store metadata and comprise a linked list of 4 KB pages. Log entries
> +are small – between 32 and 64 bytes. Logs are generally non-contiguous, and log
> +pages may reside anywhere in NVMM.
> +
> +NOVA keeps copies of most file metadata in DRAM during normal
> +operations, eliminating the need to access metadata in NVMM during reads.
> +
> +NOVA supports both copy-on-write and in-place file data updates and appends
> +metadata about the write to the log. For operations that affect multiple inodes

                                                                            inodes,

> +NOVA uses lightweight, fixed-length journals –one per core.

                                                -- one per core.

> +
> +NOVA divides the allocatable NVMM into multiple regions, one region per CPU
> +core. A per-core allocator manages each of the regions, minimizing contention
> +during memory allocation.
> +
> +After a system crash, NOVA must scan all the logs to rebuild the memory
> +allocator state. Since, there are many logs, NOVA aggressively parallelizes the

                    Since there are

> +scan.
> +
> +
> +Building and using NOVA
> +=======================
> +
> +To build NOVA, build the kernel with PMEM (`CONFIG_BLK_DEV_PMEM`),
> +DAX (`CONFIG_FS_DAX`) and NOVA (`CONFIG_NOVA_FS`) support.  Install as usual.
> +
> +NOVA runs on a pmem non-volatile memory region.  You can create one of these
> +regions with the `memmap` kernel command line option.  For instance, adding
> +`memmap=16G!8G` to the kernel boot parameters will reserve 16GB memory starting
> +from address 8GB, and the kernel will create a `pmem0` block device under the
> +`/dev` directory.
> +
> +After the OS has booted, you can initialize a NOVA instance with the following commands:
> +
> +
> +# modprobe nova
> +# mount -t NOVA -o init /dev/pmem0 /mnt/nova

Hmph, unique in upper-case-ness (at least for in-tree fs-es).
Would you consider "nova" instead?

> +
> +
> +The above commands create a NOVA instance on `/dev/pmem0` and mounts it on
> +`/mnt/nova`.
> +
> +NOVA support several module command line options:

        supports

> +
> + * measure_timing: Measure the timing of file system operations for profiling (default: 0)
> +
> + * inplace_data_updates:  Update data in place rather than with COW (default: 0)
> +
> +To recover an existing NOVA instance, mount NOVA without the init option, for example:
> +
> +# mount -t NOVA /dev/pmem0 /mnt/nova
> +
> +
> +Sysfs support
> +-------------
> +
> +NOVA provides sysfs support to enable user to get/set information of 

                                  enable a user
                        or        enable users

And the line above ends with a trailing space.  Please check/remove all of those.

> +a running NOVA instance.
> +After mount, NOVA creates four entries under proc directory /proc/fs/nova/pmem#/:

Above uses lower-case "nova" in /proc/fs/nova/... but the examples below use NOVA.
nova is preferred (IMO).

> +
> +timing_stats	IO_stats	allocator	gc
> +
> +Show NOVA file operation timing statistics:
> +# cat /proc/fs/NOVA/pmem#/timing_stats
> +
> +Clear timing statistics:
> +# echo 1 > /proc/fs/NOVA/pmem#/timing_stats
> +
> +Show NOVA I/O statistics:
> +# cat /proc/fs/NOVA/pmem#/IO_stats
> +
> +Clear I/O statistics:
> +# echo 1 > /proc/fs/NOVA/pmem#/IO_stats
> +
> +Show NOVA allocator information:
> +# cat /proc/fs/NOVA/pmem#/allocator
> +
> +Manual garbage collection:
> +# echo #inode_number > /proc/fs/NOVA/pmem#/gc
> +
> +
> +Source File Structure
> +=====================
> +
> +  * nova_def.h/nova.h
> +   Defines NOVA macros and key inline functions.
> +
> +  * balloc.{h,c}
> +    NOVA's pmem allocator implementation.
> +
> +  * bbuild.c
> +    Implements recovery routines to restore the in-use inode list and the NVMM
> +    allocator information.
> +
> +  * dax.c
> +    Implements DAX read/write and mmap functions to access file data. NOVA uses
> +    copy-on-write to modify file pages by default, unless inplace data update is
> +    enabled at mount-time.
> +
> +  * dir.c
> +    Contains functions to create, update, and remove NOVA dentries.
> +
> +  * file.c
> +    Implements file-related operations such as open, fallocate, llseek, fsync,
> +    and flush.
> +
> +  * gc.c
> +    NOVA's garbage collection functions.
> +
> +  * inode.{h,c}
> +    Creates, reads, and frees NOVA inode tables and inodes.
> +
> +  * ioctl.c
> +    Implements some ioctl commands to call NOVA's internal functions.
> +
> +  * journal.{h,c}
> +    For operations that affect multiple inodes NOVA uses lightweight,
> +    fixed-length journals – one per core. This file contains functions to
> +    create and manage the lite journals.
> +
> +  * log.{h,c}
> +    Functions to manipulate NOVA inode logs, including log page allocation, log
> +    entry creation, commit, modification, and deletion.
> +
> +  * namei.c
> +    Functions to create/remove files, directories, and links. It also looks for
> +    the NOVA inode number for a given path name.
> +
> +  * rebuild.c
> +    When mounting NOVA, rebuild NOVA inodes from its logs.
> +
> +  * stats.{h,c}
> +    Provide routines to gather and print NOVA usage statistics.
> +
> +  * super.{h,c}
> +    Super block structures and NOVA FS layout and entry points for NOVA
> +    mounting and unmounting, initializing or recovering the NOVA super block
> +    and other global file system information.
> +
> +  * symlink.c
> +    Implements functions to create and read symbolic links in the filesystem.
> +
> +  * sysfs.c
> +    Implements sysfs entries to take user inputs for printing NOVA statistics.

s/sysfs/procfs/

> +
> +
> +Filesystem Layout
> +=================
> +
> +A NOVA file systems resides in single PMEM device. *****
> +NOVA divides the device into 4KB blocks.

                                4 KB  {or use 4KB way up above here}

> +
> + block
> ++---------------------------------------------------------+
> +|    0    | primary super block (struct nova_super_block) |
> ++---------------------------------------------------------+
> +|    1    | Reserved inodes                               |
> ++---------------------------------------------------------+
> +|  2 - 15 | reserved                                      |
> ++---------------------------------------------------------+
> +| 16 - 31 | Inode table pointers                          |
> ++---------------------------------------------------------+
> +| 32 - 47 | Journal pointers                              |
> ++---------------------------------------------------------+
> +| 48 - 63 | reserved                                      |
> ++---------------------------------------------------------+
> +|   ...   | log and data pages                            |
> ++---------------------------------------------------------+
> +|   n-2   | replica reserved Inodes                       |
> ++---------------------------------------------------------+
> +|   n-1   | replica super block                           |
> ++---------------------------------------------------------+
> +
> +
> +
> +Superblock and Associated Structures
> +====================================
> +
> +The beginning of the PMEM device hold the super block and its associated

                                    holds

> +tables.  These include reserved inodes, a table of pointers to the journals
> +NOVA uses for complex operations, and pointers to inodes tables.  NOVA
> +maintains replicas of the super block and reserved inodes in the last two
> +blocks of the PMEM area.
> +
> +
> +Block Allocator/Free Lists
> +==========================
> +
> +NOVA uses per-CPU allocators to manage free PMEM blocks.  On initialization,> +NOVA divides the range of blocks in the PMEM device among the CPUs, and those
> +blocks are managed solely by that CPU.  We call these ranges of "allocation regions".
> +Each allocator maintains a red-black tree of unallocated ranges (struct
> +nova_range_node).
> +
> +Allocation Functions
> +--------------------
> +
> +NOVA allocate PMEM blocks using two mechanisms:

        allocates

> +
> +1.  Static allocation as defined in super.h
> +
> +2.  Allocation for log and data pages via nova_new_log_blocks() and
> +nova_new_data_blocks().
> +
> +
> +PMEM Address Translation
> +------------------------
> +
> +In NOVA's persistent data structures, memory locations are given as offsets
> +from the beginning of the PMEM region.  nova_get_block() translates offsets to
> +PMEM addresses.  nova_get_addr_off() performs the reverse translation.
> +
> +
> +Inodes
> +======
> +
> +NOVA maintains per-CPU inode tables, and inode numbers are striped across the
> +tables (i.e., inos 0, n, 2n,... on cpu 0; inos 1, n + 1, 2n + 1, ... on cpu 1).
> +
> +The inodes themselves live in a set of linked lists (one per CPU) of 2MB
> +blocks.  The last 8 bytes of each block points to the next block.  Pointers to
> +heads of these list live in PMEM block INODE_TABLE_START.

                  lists

> +Additional space for inodes is allocated on demand.
> +
> +To allocate inodes, NOVA maintains a per-cpu "inuse_list" in DRAM holds a RB

s/cpu/CPU/g
s/a RB/an RB/

but that isn't quite a sentence. Please fix it.

> +tree that holds ranges of allocated inode numbers.
> +
> +
> +Logs
> +====
> +
> +NOVA maintains a log for each inode that records updates to the inode's
> +metadata and holds pointers to the file data.  NOVA makes updates to file data
> +and metadata atomic by atomically appending log entries to the log.
> +
> +Each inode contains pointers to head and tail of the inode's log.  When the log
> +grows past the end of the last page, nova allocates additional space.  For
> +short logs (less than 1MB) , it doubles the length.  For longer logs, it adds a
> +fixed amount of additional space (1MB).
> +
> +Log space is reclaimed during garbage collection.
> +
> +Log Entries
> +-----------
> +
> +There are four kinds of log entry, documented in log.h.  The log entries have
> +several entries in common:
> +
> +   1.  'epoch_id' gives the epoch during which the log entry was created.
> +   Creating a snapshot increments the epoch_id for the file systems.

                                                          file system.  (?)
or do multiple epochs (snapshots) => multiple fs-es?

> +   Currently disabled (always zero).
> +
> +   2.  'trans_id' is per-inode, monotone increasing, number assigned each
> +   log entry.  It provides an ordering over FS operations on a single inode.
> +
> +   3.  'invalid' is true if the effects of this entry are dead and the log
> +   entry can be garbage collected.
> +
> +   4.  'csum' is a CRC32 checksum for the entry. Currently it is disabled.
> +
> +Log structure
> +-------------
> +
> +The logs comprise a linked list of PMEM blocks.  The tail of each block
> +contains some metadata about the block and pointers to the next block and
> +block's replica (struct nova_inode_page_tail).
> +
> ++----------------+
> +| log entry      |
> ++----------------+
> +| log entry      |
> ++----------------+
> +| ...            |
> ++----------------+
> +| tail           |
> +|  metadata      |
> +|  -> next block |
> ++----------------+
> +
> +
> +Journals
> +========
> +
> +NOVA uses a lightweight journaling mechanisms to provide atomicity for

                                      mechanism

> +operations that modify more than one on inode.  The journals providing logging

end of that "sentence" (above) is confusing or missing something.

> +for two operations:
> +
> +1.  Single word updates (JOURNAL_ENTRY)
> +2.  Copying inodes (JOURNAL_INODE)
> +
> +The journals are undo logs: NOVA creates the journal entries for an operation,
> +and if the operation does not complete due to a system failure, the recovery
> +process rolls back the changes using the journal entries.
> +
> +To commit, NOVA drops the log.
> +
> +NOVA maintains one journal per CPU.  The head and tail pointers for each
> +journal live in a reserved page near the beginning of the file system.
> +
> +During recovery, NOVA scans the journals and undoes the operations described by
> +each entry.
> +
> +
> +File and Directory Access
> +=========================
> +
> +To access file data via read(), NOVA maintains a radix tree in DRAM for each
> +inode (nova_inode_info_header.tree) that maps file offsets to write log
> +entries.  For directories, the same tree maps a hash of filenames to their
> +corresponding dentry.
> +
> +In both cases, the nova populates the tree when the file or directory is opened

                  the nova fs (?)

> +by scanning its log.
> +
> +
> +MMap and DAX
> +============
> +
> +NOVA leverages the kernel's DAX mechanisms for mmap and file data access.
> +NOVA supports DAX-style mmap, i.e. mapping NVM pages directly to the
> +application's address space.
> +
> +
> +Garbage Collection
> +==================
> +
> +NOVA recovers log space with a two-phase garbage collection system.  When a log
> +reaches the end of its allocated pages, NOVA allocates more space.  Then, the
> +fast GC algorithm scans the log to remove pages that have no valid entries.
> +Then, it estimates how many pages the logs valid entries would fill.  If this
> +is less than half the number of pages in the log, the second GC phase copies
> +the valid entries to new pages.
> +
> +For example (V=valid; I=invalid):
> +
> ++---+         +---+	        +---+
> +| I |	       | I |  	      	| V |
> ++---+	       +---+  Thorough	+---+
> +| V |	       | V |  	 GC   	| V |
> ++---+	       +---+   =====> 	+---+
> +| I |	       | I |  	      	| V |
> ++---+	       +---+	        +---+
> +| V |	       | V |  	        | V |
> ++---+	       +---+            +---+
> +  |	         |
> +  V	         V
> ++---+	       +---+
> +| I |	       | V |
> ++---+	       +---+
> +| I | fast GC  | I |
> ++---+  ====>   +---+
> +| I |	       | I |
> ++---+	       +---+
> +| I |	       | V |
> ++---+	       +---+
> +  |
> +  V
> ++---+
> +| V |
> ++---+
> +| I |
> ++---+
> +| I |
> ++---+
> +| V |
> ++---+
> +
> +
> +Umount and Recovery
> +===================
> +
> +Clean umount/mount
> +------------------
> +
> +On a clean unmount, NOVA saves the contents of many of its DRAM data structures
> +to PMEM to accelerate the next mount:
> +
> +1. NOVA stores the allocator state for each of the per-cpu allocators to the
> +   log of a reserved inode (NOVA_BLOCK_NODE_INO).
> +
> +2. NOVA stores the per-CPU lists of alive inodes (the inuse_list) to the
> +   NOVA_BLOCK_INODELIST_INO reserved inode.
> +
> +After a clean unmount, the following mount restores these data and then
> +invalidates them.
> +
> +Recovery after failures
> +-----------------------
> +
> +In case of a unclean dismount (e.g., system crash), NOVA must rebuild these

           of an unclean

> +DRAM structures by scanning the inode logs.  NOVA log scanning is fast because
> +per-CPU inode tables and per-inode logs allow for parallel recovery.
> +
> +The number of live log entries in an inode log is roughly the number of extents
> +in the file.  As a result, NOVA only needs to scan a small fraction of the NVMM
> +during recovery.
> +
> +The NOVA failure recovery consists of two steps:
> +
> +First, NOVA checks its lite weight journals and rolls back any uncommitted

          should be one word: lightweight (or liteweight)

> +transactions to restore the file system to a consistent state.
> +
> +Second, NOVA starts a recovery thread on each CPU and scans the inode tables in
> +parallel, performing log scanning for every valid inode in the inode table.
> +NOVA use different recovery mechanisms for directory inodes and file inodes:

                                                               and file inodes.

> +For a directory inode, NOVA scans the log's linked list to enumerate the pages
> +it occupies, but it does not inspect the log's contents.  For a file inode,
> +NOVA reads the write entries in the log to enumerate the data pages.
> +
> +During the recovery scan NOVA builds a bitmap of occupied pages, and rebuilds
> +the allocator based on the result. After this process completes, the file
> +system is ready to accept new requests.
> +
> +During the same scan, it rebuilds the list of available inodes.
> +
> +
> +Gaps, Missing Features, and Development Status
> +==============================================
> +
> +Although NOVA is a fully-functional file system, there is still much work left
> +to be done.  In particular, (at least) the following items are currently missing:
> +
> +1.  Snapshot, metadata and data replication and protection are left for future submission.
> +2.  There is no mkfs or fsck utility (`mount` takes `-o init` to create a NOVA file system).
> +3.  NOVA only works on x86-64 kernels.
> +4.  NOVA does not currently support extended attributes or ACL.
> +5.  NOVA doesn't provide quota support.
> +6.  Moving NOVA file systems between machines with different numbers of CPUs does not work.

You could artificially limit the number of "known" CPUs so that a NOVA fs could be
moved from a 16-CPU system to an 8-CPU system by telling NOVA to use only 8 CPUs
(as an example).  Just a thought.

> +
> +None of these are fundamental limitations of NOVA's design.
> +
> +NOVA is complete and robust enough to run a range of complex applications, but
> +it is not yet ready for production use.  Our current focus is on adding a few
> +missing features from the list above and finding/fixing bugs.
> +
> +
> +Hacking and Contributing
> +========================
> +
> +If you find bugs, please report them at https://github.com/NVSL/linux-nova/issues.
> +
> +If you have other questions or suggestions you can contact the NOVA developers
> +at cse-nova-hackers@eng.ucsd.edu.


-- 
~Randy

  reply	other threads:[~2018-03-19 20:44 UTC|newest]

Thread overview: 119+ messages / expand[flat|nested]  mbox.gz  Atom feed  top
2018-03-10 18:17 [RFC v2 00/83] NOVA: a new file system for persistent memory Andiry Xu
2018-03-10 18:17 ` [RFC v2 01/83] Introduction and documentation of NOVA filesystem Andiry Xu
2018-03-19 20:43   ` Randy Dunlap [this message]
2018-03-19 23:00     ` Andiry Xu
2018-04-22  8:05   ` Pavel Machek
2018-03-10 18:17 ` [RFC v2 02/83] Add nova_def.h Andiry Xu
2018-03-10 18:17 ` [RFC v2 03/83] Add super.h Andiry Xu
2018-03-15  4:54   ` Darrick J. Wong
2018-03-15  6:11     ` Andiry Xu
2018-03-15  9:05       ` Arnd Bergmann
2018-03-15 17:51         ` Andiry Xu
2018-03-15 20:04           ` Andreas Dilger
2018-03-15 20:38           ` Arnd Bergmann
2018-03-16  2:59             ` Theodore Y. Ts'o
2018-03-16  6:17               ` Andiry Xu
2018-03-16  6:30                 ` Darrick J. Wong
2018-03-16  9:19               ` Arnd Bergmann
2018-03-10 18:17 ` [RFC v2 04/83] NOVA inode definition Andiry Xu
2018-03-15  5:06   ` Darrick J. Wong
2018-03-15  6:16     ` Andiry Xu
2018-03-10 18:17 ` [RFC v2 05/83] Add NOVA filesystem definitions and useful helper routines Andiry Xu
2018-03-11 12:00   ` Nikolay Borisov
2018-03-11 19:22     ` Eric Biggers
2018-03-11 21:45       ` Andiry Xu
2018-03-19 19:39       ` Andiry Xu
2018-03-19 20:30         ` Eric Biggers
2018-03-19 21:59           ` Andiry Xu
2018-03-10 18:17 ` [RFC v2 06/83] Add inode get/read methods Andiry Xu
2018-04-23  6:12   ` Darrick J. Wong
2018-04-23 15:55     ` Andiry Xu
2018-03-10 18:17 ` [RFC v2 07/83] Initialize inode_info and rebuild inode information in nova_iget() Andiry Xu
2018-03-10 18:17 ` [RFC v2 08/83] NOVA superblock operations Andiry Xu
2018-03-10 18:17 ` [RFC v2 09/83] Add Kconfig and Makefile Andiry Xu
2018-03-11 12:15   ` Nikolay Borisov
2018-03-11 21:32     ` Andiry Xu
2018-03-10 18:17 ` [RFC v2 10/83] Add superblock integrity check Andiry Xu
2018-03-10 18:17 ` [RFC v2 11/83] Add timing and I/O statistics for performance analysis and profiling Andiry Xu
2018-03-10 18:17 ` [RFC v2 12/83] Add timing for mount and init Andiry Xu
2018-03-10 18:17 ` [RFC v2 13/83] Add remount_fs and show_options methods Andiry Xu
2018-03-10 18:17 ` [RFC v2 14/83] Add range node kmem cache Andiry Xu
2018-03-11 11:55   ` Nikolay Borisov
2018-03-11 21:31     ` Andiry Xu
2018-03-10 18:17 ` [RFC v2 15/83] Add free list data structure Andiry Xu
2018-03-10 18:17 ` [RFC v2 16/83] Initialize block map and free lists in nova_init() Andiry Xu
2018-03-11 12:12   ` Nikolay Borisov
2018-03-11 21:30     ` Andiry Xu
2018-03-10 18:17 ` [RFC v2 17/83] Add statfs support Andiry Xu
2018-03-10 18:17 ` [RFC v2 18/83] Add freelist statistics printing Andiry Xu
2018-03-10 18:18 ` [RFC v2 19/83] Add pmem block free routines Andiry Xu
2018-03-10 18:18 ` [RFC v2 20/83] Pmem block allocation routines Andiry Xu
2018-03-10 18:18 ` [RFC v2 21/83] Add log structure Andiry Xu
2018-03-10 18:18 ` [RFC v2 22/83] Inode log pages allocation and reclaimation Andiry Xu
2018-03-10 18:18 ` [RFC v2 23/83] Save allocator to pmem in put_super Andiry Xu
2018-03-10 18:18 ` [RFC v2 24/83] Initialize and allocate inode table Andiry Xu
2018-03-10 18:18 ` [RFC v2 25/83] Support get normal inode address and inode table extentsion Andiry Xu
2018-03-10 18:18 ` [RFC v2 26/83] Add inode_map to track inuse inodes Andiry Xu
2018-03-10 18:18 ` [RFC v2 27/83] Save the inode inuse list to pmem upon umount Andiry Xu
2018-03-10 18:18 ` [RFC v2 28/83] Add NOVA address space operations Andiry Xu
2018-03-10 18:18 ` [RFC v2 29/83] Add write_inode and dirty_inode routines Andiry Xu
2018-03-10 18:18 ` [RFC v2 30/83] New NOVA inode allocation Andiry Xu
2018-03-10 18:18 ` [RFC v2 31/83] Add new vfs " Andiry Xu
2018-03-10 18:18 ` [RFC v2 32/83] Add log entry definitions Andiry Xu
2018-03-10 18:18 ` [RFC v2 33/83] Inode log and entry printing for debug purpose Andiry Xu
2018-03-10 18:18 ` [RFC v2 34/83] Journal: NOVA light weight journal definitions Andiry Xu
2018-03-10 18:18 ` [RFC v2 35/83] Journal: Lite journal helper routines Andiry Xu
2018-03-10 18:18 ` [RFC v2 36/83] Journal: Lite journal recovery Andiry Xu
2018-03-10 18:18 ` [RFC v2 37/83] Journal: Lite journal create and commit Andiry Xu
2018-03-10 18:18 ` [RFC v2 38/83] Journal: NOVA lite journal initialization Andiry Xu
2018-03-10 18:18 ` [RFC v2 39/83] Log operation: dentry append Andiry Xu
2018-03-10 18:18 ` [RFC v2 40/83] Log operation: file write entry append Andiry Xu
2018-03-10 18:18 ` [RFC v2 41/83] Log operation: setattr " Andiry Xu
2018-03-10 18:18 ` [RFC v2 42/83] Log operation: link change append Andiry Xu
2018-03-10 18:18 ` [RFC v2 43/83] Log operation: in-place update log entry Andiry Xu
2018-03-10 18:18 ` [RFC v2 44/83] Log operation: invalidate log entries Andiry Xu
2018-03-10 18:18 ` [RFC v2 45/83] Log operation: file inode log lookup and assign Andiry Xu
2018-03-10 18:18 ` [RFC v2 46/83] Dir: Add Directory radix tree insert/remove methods Andiry Xu
2018-03-10 18:18 ` [RFC v2 47/83] Dir: Add initial dentries when initializing a directory inode log Andiry Xu
2018-03-10 18:18 ` [RFC v2 48/83] Dir: Readdir operation Andiry Xu
2018-03-10 18:18 ` [RFC v2 49/83] Dir: Append create/remove dentry Andiry Xu
2018-03-10 18:18 ` [RFC v2 50/83] Inode: Add nova_evict_inode Andiry Xu
2018-03-10 18:18 ` [RFC v2 51/83] Rebuild: directory inode Andiry Xu
2018-03-10 18:18 ` [RFC v2 52/83] Rebuild: file inode Andiry Xu
2018-03-10 18:18 ` [RFC v2 53/83] Namei: lookup Andiry Xu
2018-03-10 18:18 ` [RFC v2 54/83] Namei: create and mknod Andiry Xu
2018-03-10 18:18 ` [RFC v2 55/83] Namei: mkdir Andiry Xu
2018-03-10 18:18 ` [RFC v2 56/83] Namei: link and unlink Andiry Xu
2018-03-10 18:18 ` [RFC v2 57/83] Namei: rmdir Andiry Xu
2018-03-10 18:18 ` [RFC v2 58/83] Namei: rename Andiry Xu
2018-03-10 18:18 ` [RFC v2 59/83] Namei: setattr Andiry Xu
2018-03-10 18:18 ` [RFC v2 60/83] Add special inode operations Andiry Xu
2018-03-10 18:18 ` [RFC v2 61/83] Super: Add nova_export_ops Andiry Xu
2018-03-10 18:18 ` [RFC v2 62/83] File: getattr and file inode operations Andiry Xu
2018-03-10 18:18 ` [RFC v2 63/83] File operation: llseek Andiry Xu
2018-03-10 18:18 ` [RFC v2 64/83] File operation: open, fsync, flush Andiry Xu
2018-03-10 18:18 ` [RFC v2 65/83] File operation: read Andiry Xu
2018-03-10 18:18 ` [RFC v2 66/83] Super: Add file write item cache Andiry Xu
2018-03-10 18:18 ` [RFC v2 67/83] Dax: commit list of file write items to log Andiry Xu
2018-03-10 18:18 ` [RFC v2 68/83] File operation: copy-on-write write Andiry Xu
2018-03-10 18:18 ` [RFC v2 69/83] Super: Add module param inplace_data_updates Andiry Xu
2018-03-10 18:18 ` [RFC v2 70/83] File operation: Inplace write Andiry Xu
2018-03-10 18:18 ` [RFC v2 71/83] Symlink support Andiry Xu
2018-03-10 18:18 ` [RFC v2 72/83] File operation: fallocate Andiry Xu
2018-03-10 18:18 ` [RFC v2 73/83] Dax: Add iomap operations Andiry Xu
2018-03-10 18:18 ` [RFC v2 74/83] File operation: Mmap Andiry Xu
2018-03-10 18:18 ` [RFC v2 75/83] File operation: read/write iter Andiry Xu
2018-03-10 18:18 ` [RFC v2 76/83] Ioctl support Andiry Xu
2018-03-10 18:18 ` [RFC v2 77/83] GC: Fast garbage collection Andiry Xu
2018-03-10 18:18 ` [RFC v2 78/83] GC: Thorough " Andiry Xu
2018-03-10 18:19 ` [RFC v2 79/83] Normal recovery Andiry Xu
2018-03-10 18:19 ` [RFC v2 80/83] Failure recovery: bitmap operations Andiry Xu
2018-03-10 18:19 ` [RFC v2 81/83] Failure recovery: Inode pages recovery routines Andiry Xu
2018-03-10 18:19 ` [RFC v2 82/83] Failure recovery: Per-CPU recovery Andiry Xu
2018-03-10 18:19 ` [RFC v2 83/83] Sysfs support Andiry Xu
2018-03-15  0:33   ` Randy Dunlap
2018-03-15  6:07     ` Andiry Xu
2018-03-22 15:00   ` David Sterba
2018-03-23  0:31     ` Andiry Xu
2018-03-11  2:14 ` [RFC v2 00/83] NOVA: a new file system for persistent memory Theodore Y. Ts'o
2018-03-11  4:58   ` Andiry Xu

Reply instructions:

You may reply publicly to this message via plain-text email
using any one of the following methods:

* Save the following mbox file, import it into your mail client,
  and reply-to-all from there: mbox

  Avoid top-posting and favor interleaved quoting:
  https://en.wikipedia.org/wiki/Posting_style#Interleaved_style

* Reply using the --to, --cc, and --in-reply-to
  switches of git-send-email(1):

  git send-email \
    --in-reply-to=3ca76af0-a8aa-6dec-242f-b031e6eb4710@infradead.org \
    --to=rdunlap@infradead.org \
    --cc=andiry.xu@gmail.com \
    --cc=andy.rudoff@intel.com \
    --cc=coughlan@redhat.com \
    --cc=dan.j.williams@intel.com \
    --cc=david@fromorbit.com \
    --cc=jack@suse.com \
    --cc=jix024@cs.ucsd.edu \
    --cc=jix024@eng.ucsd.edu \
    --cc=linux-fsdevel@vger.kernel.org \
    --cc=linux-kernel@vger.kernel.org \
    --cc=linux-nvdimm@lists.01.org \
    --cc=miklos@szeredi.hu \
    --cc=swanson@cs.ucsd.edu \
    --cc=swhiteho@redhat.com \
    /path/to/YOUR_REPLY

  https://kernel.org/pub/software/scm/git/docs/git-send-email.html

* If your mail client supports setting the In-Reply-To header
  via mailto: links, try the mailto: link
Be sure your reply has a Subject: header at the top and a blank line before the message body.
This is a public inbox, see mirroring instructions
for how to clone and mirror all data and code used for this inbox;
as well as URLs for NNTP newsgroup(s).