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fs: New zonefs file system
Zonefs is a very simple file system exposing each zone of a zoned block device as a file. Unlike a regular file system with native zoned block device support (e.g. f2fs or the on-going btrfs effort), zonefs does not hide the sequential write constraint of zoned block devices to the user. As a result, zonefs is not a POSIX compliant file system. Its goal is to simplify the implementation of zoned block devices support in applications by replacing raw block device file accesses with a richer file based API, avoiding relying on direct block device file ioctls which may be more obscure to developers. One example of this approach is the implementation of LSM (log-structured merge) tree structures (such as used in RocksDB and LevelDB) on zoned block devices by allowing SSTables to be stored in a zone file similarly to a regular file system rather than as a range of sectors of a zoned device. The introduction of the higher level construct "one file is one zone" can help reducing the amount of changes needed in the application while at the same time allowing the use of zoned block devices with various programming languages other than C. Zonefs IO management implementation uses the new iomap generic code. Zonefs has been successfully tested using a functional test suite (available with zonefs userland format tool on github) and a prototype implementation of LevelDB on top of zonefs. Signed-off-by: Damien Le Moal <damien.lemoal@wdc.com> -----BEGIN PGP SIGNATURE----- iHUEABYIAB0WIQSRPv8tYSvhwAzJdzjdoc3SxdoYdgUCXj1y8QAKCRDdoc3SxdoY dqozAP9J3t+Q95BgKgI5jP+XEtyYsPBTaVrvaSaViEnwtJLVoQD/ZQ1lTCZSE9OI UkvWawkuFtLGfOxTqyA3eZrZi22Ttwk= =YVvO -----END PGP SIGNATURE----- Merge tag 'zonefs-5.6-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/dlemoal/zonefs Pull new zonefs file system from Damien Le Moal: "Zonefs is a very simple file system exposing each zone of a zoned block device as a file. Unlike a regular file system with native zoned block device support (e.g. f2fs or the on-going btrfs effort), zonefs does not hide the sequential write constraint of zoned block devices to the user. As a result, zonefs is not a POSIX compliant file system. Its goal is to simplify the implementation of zoned block devices support in applications by replacing raw block device file accesses with a richer file based API, avoiding relying on direct block device file ioctls which may be more obscure to developers. One example of this approach is the implementation of LSM (log-structured merge) tree structures (such as used in RocksDB and LevelDB) on zoned block devices by allowing SSTables to be stored in a zone file similarly to a regular file system rather than as a range of sectors of a zoned device. The introduction of the higher level construct "one file is one zone" can help reducing the amount of changes needed in the application while at the same time allowing the use of zoned block devices with various programming languages other than C. Zonefs IO management implementation uses the new iomap generic code. Zonefs has been successfully tested using a functional test suite (available with zonefs userland format tool on github) and a prototype implementation of LevelDB on top of zonefs" * tag 'zonefs-5.6-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/dlemoal/zonefs: zonefs: Add documentation fs: New zonefs file system
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Documentation/filesystems/zonefs.txt
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Documentation/filesystems/zonefs.txt
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ZoneFS - Zone filesystem for Zoned block devices
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Introduction
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============
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zonefs is a very simple file system exposing each zone of a zoned block device
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as a file. Unlike a regular POSIX-compliant file system with native zoned block
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device support (e.g. f2fs), zonefs does not hide the sequential write
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constraint of zoned block devices to the user. Files representing sequential
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write zones of the device must be written sequentially starting from the end
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of the file (append only writes).
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As such, zonefs is in essence closer to a raw block device access interface
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than to a full-featured POSIX file system. The goal of zonefs is to simplify
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the implementation of zoned block device support in applications by replacing
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raw block device file accesses with a richer file API, avoiding relying on
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direct block device file ioctls which may be more obscure to developers. One
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example of this approach is the implementation of LSM (log-structured merge)
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tree structures (such as used in RocksDB and LevelDB) on zoned block devices
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by allowing SSTables to be stored in a zone file similarly to a regular file
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system rather than as a range of sectors of the entire disk. The introduction
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of the higher level construct "one file is one zone" can help reducing the
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amount of changes needed in the application as well as introducing support for
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different application programming languages.
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Zoned block devices
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-------------------
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Zoned storage devices belong to a class of storage devices with an address
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space that is divided into zones. A zone is a group of consecutive LBAs and all
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zones are contiguous (there are no LBA gaps). Zones may have different types.
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* Conventional zones: there are no access constraints to LBAs belonging to
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conventional zones. Any read or write access can be executed, similarly to a
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regular block device.
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* Sequential zones: these zones accept random reads but must be written
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sequentially. Each sequential zone has a write pointer maintained by the
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device that keeps track of the mandatory start LBA position of the next write
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to the device. As a result of this write constraint, LBAs in a sequential zone
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cannot be overwritten. Sequential zones must first be erased using a special
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command (zone reset) before rewriting.
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Zoned storage devices can be implemented using various recording and media
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technologies. The most common form of zoned storage today uses the SCSI Zoned
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Block Commands (ZBC) and Zoned ATA Commands (ZAC) interfaces on Shingled
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Magnetic Recording (SMR) HDDs.
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Solid State Disks (SSD) storage devices can also implement a zoned interface
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to, for instance, reduce internal write amplification due to garbage collection.
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The NVMe Zoned NameSpace (ZNS) is a technical proposal of the NVMe standard
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committee aiming at adding a zoned storage interface to the NVMe protocol.
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Zonefs Overview
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===============
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Zonefs exposes the zones of a zoned block device as files. The files
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representing zones are grouped by zone type, which are themselves represented
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by sub-directories. This file structure is built entirely using zone information
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provided by the device and so does not require any complex on-disk metadata
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structure.
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On-disk metadata
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----------------
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zonefs on-disk metadata is reduced to an immutable super block which
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persistently stores a magic number and optional feature flags and values. On
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mount, zonefs uses blkdev_report_zones() to obtain the device zone configuration
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and populates the mount point with a static file tree solely based on this
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information. File sizes come from the device zone type and write pointer
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position managed by the device itself.
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The super block is always written on disk at sector 0. The first zone of the
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device storing the super block is never exposed as a zone file by zonefs. If
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the zone containing the super block is a sequential zone, the mkzonefs format
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tool always "finishes" the zone, that is, it transitions the zone to a full
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state to make it read-only, preventing any data write.
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Zone type sub-directories
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-------------------------
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Files representing zones of the same type are grouped together under the same
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sub-directory automatically created on mount.
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For conventional zones, the sub-directory "cnv" is used. This directory is
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however created if and only if the device has usable conventional zones. If
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the device only has a single conventional zone at sector 0, the zone will not
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be exposed as a file as it will be used to store the zonefs super block. For
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such devices, the "cnv" sub-directory will not be created.
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For sequential write zones, the sub-directory "seq" is used.
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These two directories are the only directories that exist in zonefs. Users
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cannot create other directories and cannot rename nor delete the "cnv" and
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"seq" sub-directories.
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The size of the directories indicated by the st_size field of struct stat,
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obtained with the stat() or fstat() system calls, indicates the number of files
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existing under the directory.
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Zone files
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----------
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Zone files are named using the number of the zone they represent within the set
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of zones of a particular type. That is, both the "cnv" and "seq" directories
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contain files named "0", "1", "2", ... The file numbers also represent
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increasing zone start sector on the device.
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All read and write operations to zone files are not allowed beyond the file
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maximum size, that is, beyond the zone size. Any access exceeding the zone
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size is failed with the -EFBIG error.
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Creating, deleting, renaming or modifying any attribute of files and
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sub-directories is not allowed.
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The number of blocks of a file as reported by stat() and fstat() indicates the
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size of the file zone, or in other words, the maximum file size.
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Conventional zone files
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-----------------------
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The size of conventional zone files is fixed to the size of the zone they
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represent. Conventional zone files cannot be truncated.
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These files can be randomly read and written using any type of I/O operation:
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buffered I/Os, direct I/Os, memory mapped I/Os (mmap), etc. There are no I/O
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constraint for these files beyond the file size limit mentioned above.
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Sequential zone files
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---------------------
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The size of sequential zone files grouped in the "seq" sub-directory represents
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the file's zone write pointer position relative to the zone start sector.
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Sequential zone files can only be written sequentially, starting from the file
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end, that is, write operations can only be append writes. Zonefs makes no
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attempt at accepting random writes and will fail any write request that has a
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start offset not corresponding to the end of the file, or to the end of the last
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write issued and still in-flight (for asynchrnous I/O operations).
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Since dirty page writeback by the page cache does not guarantee a sequential
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write pattern, zonefs prevents buffered writes and writeable shared mappings
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on sequential files. Only direct I/O writes are accepted for these files.
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zonefs relies on the sequential delivery of write I/O requests to the device
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implemented by the block layer elevator. An elevator implementing the sequential
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write feature for zoned block device (ELEVATOR_F_ZBD_SEQ_WRITE elevator feature)
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must be used. This type of elevator (e.g. mq-deadline) is the set by default
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for zoned block devices on device initialization.
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There are no restrictions on the type of I/O used for read operations in
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sequential zone files. Buffered I/Os, direct I/Os and shared read mappings are
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all accepted.
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Truncating sequential zone files is allowed only down to 0, in which case, the
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zone is reset to rewind the file zone write pointer position to the start of
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the zone, or up to the zone size, in which case the file's zone is transitioned
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to the FULL state (finish zone operation).
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Format options
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--------------
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Several optional features of zonefs can be enabled at format time.
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* Conventional zone aggregation: ranges of contiguous conventional zones can be
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aggregated into a single larger file instead of the default one file per zone.
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* File ownership: The owner UID and GID of zone files is by default 0 (root)
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but can be changed to any valid UID/GID.
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* File access permissions: the default 640 access permissions can be changed.
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IO error handling
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-----------------
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Zoned block devices may fail I/O requests for reasons similar to regular block
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devices, e.g. due to bad sectors. However, in addition to such known I/O
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failure pattern, the standards governing zoned block devices behavior define
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additional conditions that result in I/O errors.
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* A zone may transition to the read-only condition (BLK_ZONE_COND_READONLY):
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While the data already written in the zone is still readable, the zone can
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no longer be written. No user action on the zone (zone management command or
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read/write access) can change the zone condition back to a normal read/write
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state. While the reasons for the device to transition a zone to read-only
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state are not defined by the standards, a typical cause for such transition
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would be a defective write head on an HDD (all zones under this head are
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changed to read-only).
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* A zone may transition to the offline condition (BLK_ZONE_COND_OFFLINE):
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An offline zone cannot be read nor written. No user action can transition an
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offline zone back to an operational good state. Similarly to zone read-only
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transitions, the reasons for a drive to transition a zone to the offline
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condition are undefined. A typical cause would be a defective read-write head
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on an HDD causing all zones on the platter under the broken head to be
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inaccessible.
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* Unaligned write errors: These errors result from the host issuing write
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requests with a start sector that does not correspond to a zone write pointer
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position when the write request is executed by the device. Even though zonefs
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enforces sequential file write for sequential zones, unaligned write errors
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may still happen in the case of a partial failure of a very large direct I/O
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operation split into multiple BIOs/requests or asynchronous I/O operations.
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If one of the write request within the set of sequential write requests
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issued to the device fails, all write requests after queued after it will
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become unaligned and fail.
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* Delayed write errors: similarly to regular block devices, if the device side
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write cache is enabled, write errors may occur in ranges of previously
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completed writes when the device write cache is flushed, e.g. on fsync().
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Similarly to the previous immediate unaligned write error case, delayed write
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errors can propagate through a stream of cached sequential data for a zone
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causing all data to be dropped after the sector that caused the error.
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All I/O errors detected by zonefs are notified to the user with an error code
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return for the system call that trigered or detected the error. The recovery
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actions taken by zonefs in response to I/O errors depend on the I/O type (read
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vs write) and on the reason for the error (bad sector, unaligned writes or zone
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condition change).
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* For read I/O errors, zonefs does not execute any particular recovery action,
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but only if the file zone is still in a good condition and there is no
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inconsistency between the file inode size and its zone write pointer position.
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If a problem is detected, I/O error recovery is executed (see below table).
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* For write I/O errors, zonefs I/O error recovery is always executed.
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* A zone condition change to read-only or offline also always triggers zonefs
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I/O error recovery.
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Zonefs minimal I/O error recovery may change a file size and a file access
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permissions.
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* File size changes:
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Immediate or delayed write errors in a sequential zone file may cause the file
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inode size to be inconsistent with the amount of data successfully written in
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the file zone. For instance, the partial failure of a multi-BIO large write
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operation will cause the zone write pointer to advance partially, even though
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the entire write operation will be reported as failed to the user. In such
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case, the file inode size must be advanced to reflect the zone write pointer
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change and eventually allow the user to restart writing at the end of the
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file.
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A file size may also be reduced to reflect a delayed write error detected on
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fsync(): in this case, the amount of data effectively written in the zone may
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be less than originally indicated by the file inode size. After such I/O
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error, zonefs always fixes a file inode size to reflect the amount of data
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persistently stored in the file zone.
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* Access permission changes:
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A zone condition change to read-only is indicated with a change in the file
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access permissions to render the file read-only. This disables changes to the
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file attributes and data modification. For offline zones, all permissions
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(read and write) to the file are disabled.
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Further action taken by zonefs I/O error recovery can be controlled by the user
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with the "errors=xxx" mount option. The table below summarizes the result of
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zonefs I/O error processing depending on the mount option and on the zone
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conditions.
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+--------------+-----------+-----------------------------------------+
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| | | Post error state |
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| "errors=xxx" | device | access permissions |
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| mount | zone | file file device zone |
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| option | condition | size read write read write |
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+--------------+-----------+-----------------------------------------+
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| | good | fixed yes no yes yes |
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| remount-ro | read-only | fixed yes no yes no |
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| (default) | offline | 0 no no no no |
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+--------------+-----------+-----------------------------------------+
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| | good | fixed yes no yes yes |
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| zone-ro | read-only | fixed yes no yes no |
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| | offline | 0 no no no no |
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+--------------+-----------+-----------------------------------------+
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| | good | 0 no no yes yes |
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| zone-offline | read-only | 0 no no yes no |
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| | offline | 0 no no no no |
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+--------------+-----------+-----------------------------------------+
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| | good | fixed yes yes yes yes |
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| repair | read-only | fixed yes no yes no |
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| | offline | 0 no no no no |
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+--------------+-----------+-----------------------------------------+
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Further notes:
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* The "errors=remount-ro" mount option is the default behavior of zonefs I/O
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error processing if no errors mount option is specified.
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* With the "errors=remount-ro" mount option, the change of the file access
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permissions to read-only applies to all files. The file system is remounted
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read-only.
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* Access permission and file size changes due to the device transitioning zones
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to the offline condition are permanent. Remounting or reformating the device
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with mkfs.zonefs (mkzonefs) will not change back offline zone files to a good
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state.
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* File access permission changes to read-only due to the device transitioning
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zones to the read-only condition are permanent. Remounting or reformating
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the device will not re-enable file write access.
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* File access permission changes implied by the remount-ro, zone-ro and
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zone-offline mount options are temporary for zones in a good condition.
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Unmounting and remounting the file system will restore the previous default
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(format time values) access rights to the files affected.
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* The repair mount option triggers only the minimal set of I/O error recovery
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actions, that is, file size fixes for zones in a good condition. Zones
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indicated as being read-only or offline by the device still imply changes to
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the zone file access permissions as noted in the table above.
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Mount options
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-------------
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zonefs define the "errors=<behavior>" mount option to allow the user to specify
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zonefs behavior in response to I/O errors, inode size inconsistencies or zone
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condition chages. The defined behaviors are as follow:
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* remount-ro (default)
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* zone-ro
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* zone-offline
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* repair
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The I/O error actions defined for each behavior is detailed in the previous
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section.
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Zonefs User Space Tools
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=======================
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The mkzonefs tool is used to format zoned block devices for use with zonefs.
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This tool is available on Github at:
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https://github.com/damien-lemoal/zonefs-tools
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zonefs-tools also includes a test suite which can be run against any zoned
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block device, including null_blk block device created with zoned mode.
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Examples
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--------
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The following formats a 15TB host-managed SMR HDD with 256 MB zones
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with the conventional zones aggregation feature enabled.
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# mkzonefs -o aggr_cnv /dev/sdX
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# mount -t zonefs /dev/sdX /mnt
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# ls -l /mnt/
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total 0
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dr-xr-xr-x 2 root root 1 Nov 25 13:23 cnv
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dr-xr-xr-x 2 root root 55356 Nov 25 13:23 seq
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The size of the zone files sub-directories indicate the number of files
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existing for each type of zones. In this example, there is only one
|
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conventional zone file (all conventional zones are aggregated under a single
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file).
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# ls -l /mnt/cnv
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total 137101312
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-rw-r----- 1 root root 140391743488 Nov 25 13:23 0
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This aggregated conventional zone file can be used as a regular file.
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# mkfs.ext4 /mnt/cnv/0
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# mount -o loop /mnt/cnv/0 /data
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||||
The "seq" sub-directory grouping files for sequential write zones has in this
|
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example 55356 zones.
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||||
# ls -lv /mnt/seq
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total 14511243264
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-rw-r----- 1 root root 0 Nov 25 13:23 0
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||||
-rw-r----- 1 root root 0 Nov 25 13:23 1
|
||||
-rw-r----- 1 root root 0 Nov 25 13:23 2
|
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...
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-rw-r----- 1 root root 0 Nov 25 13:23 55354
|
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-rw-r----- 1 root root 0 Nov 25 13:23 55355
|
||||
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For sequential write zone files, the file size changes as data is appended at
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the end of the file, similarly to any regular file system.
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||||
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||||
# dd if=/dev/zero of=/mnt/seq/0 bs=4096 count=1 conv=notrunc oflag=direct
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||||
1+0 records in
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||||
1+0 records out
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||||
4096 bytes (4.1 kB, 4.0 KiB) copied, 0.00044121 s, 9.3 MB/s
|
||||
|
||||
# ls -l /mnt/seq/0
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||||
-rw-r----- 1 root root 4096 Nov 25 13:23 /mnt/seq/0
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||||
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||||
The written file can be truncated to the zone size, preventing any further
|
||||
write operation.
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||||
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||||
# truncate -s 268435456 /mnt/seq/0
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# ls -l /mnt/seq/0
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||||
-rw-r----- 1 root root 268435456 Nov 25 13:49 /mnt/seq/0
|
||||
|
||||
Truncation to 0 size allows freeing the file zone storage space and restart
|
||||
append-writes to the file.
|
||||
|
||||
# truncate -s 0 /mnt/seq/0
|
||||
# ls -l /mnt/seq/0
|
||||
-rw-r----- 1 root root 0 Nov 25 13:49 /mnt/seq/0
|
||||
|
||||
Since files are statically mapped to zones on the disk, the number of blocks of
|
||||
a file as reported by stat() and fstat() indicates the size of the file zone.
|
||||
|
||||
# stat /mnt/seq/0
|
||||
File: /mnt/seq/0
|
||||
Size: 0 Blocks: 524288 IO Block: 4096 regular empty file
|
||||
Device: 870h/2160d Inode: 50431 Links: 1
|
||||
Access: (0640/-rw-r-----) Uid: ( 0/ root) Gid: ( 0/ root)
|
||||
Access: 2019-11-25 13:23:57.048971997 +0900
|
||||
Modify: 2019-11-25 13:52:25.553805765 +0900
|
||||
Change: 2019-11-25 13:52:25.553805765 +0900
|
||||
Birth: -
|
||||
|
||||
The number of blocks of the file ("Blocks") in units of 512B blocks gives the
|
||||
maximum file size of 524288 * 512 B = 256 MB, corresponding to the device zone
|
||||
size in this example. Of note is that the "IO block" field always indicates the
|
||||
minimum I/O size for writes and corresponds to the device physical sector size.
|
10
MAINTAINERS
10
MAINTAINERS
@ -18496,6 +18496,16 @@ L: linux-kernel@vger.kernel.org
|
||||
S: Maintained
|
||||
F: arch/x86/kernel/cpu/zhaoxin.c
|
||||
|
||||
ZONEFS FILESYSTEM
|
||||
M: Damien Le Moal <damien.lemoal@wdc.com>
|
||||
M: Naohiro Aota <naohiro.aota@wdc.com>
|
||||
R: Johannes Thumshirn <jth@kernel.org>
|
||||
L: linux-fsdevel@vger.kernel.org
|
||||
T: git git://git.kernel.org/pub/scm/linux/kernel/git/dlemoal/zonefs.git
|
||||
S: Maintained
|
||||
F: fs/zonefs/
|
||||
F: Documentation/filesystems/zonefs.txt
|
||||
|
||||
ZPOOL COMPRESSED PAGE STORAGE API
|
||||
M: Dan Streetman <ddstreet@ieee.org>
|
||||
L: linux-mm@kvack.org
|
||||
|
@ -40,6 +40,7 @@ source "fs/ocfs2/Kconfig"
|
||||
source "fs/btrfs/Kconfig"
|
||||
source "fs/nilfs2/Kconfig"
|
||||
source "fs/f2fs/Kconfig"
|
||||
source "fs/zonefs/Kconfig"
|
||||
|
||||
config FS_DAX
|
||||
bool "Direct Access (DAX) support"
|
||||
|
@ -134,3 +134,4 @@ obj-$(CONFIG_PSTORE) += pstore/
|
||||
obj-$(CONFIG_EFIVAR_FS) += efivarfs/
|
||||
obj-$(CONFIG_EROFS_FS) += erofs/
|
||||
obj-$(CONFIG_VBOXSF_FS) += vboxsf/
|
||||
obj-$(CONFIG_ZONEFS_FS) += zonefs/
|
||||
|
9
fs/zonefs/Kconfig
Normal file
9
fs/zonefs/Kconfig
Normal file
@ -0,0 +1,9 @@
|
||||
config ZONEFS_FS
|
||||
tristate "zonefs filesystem support"
|
||||
depends on BLOCK
|
||||
depends on BLK_DEV_ZONED
|
||||
help
|
||||
zonefs is a simple file system which exposes zones of a zoned block
|
||||
device (e.g. host-managed or host-aware SMR disk drives) as files.
|
||||
|
||||
If unsure, say N.
|
4
fs/zonefs/Makefile
Normal file
4
fs/zonefs/Makefile
Normal file
@ -0,0 +1,4 @@
|
||||
# SPDX-License-Identifier: GPL-2.0
|
||||
obj-$(CONFIG_ZONEFS_FS) += zonefs.o
|
||||
|
||||
zonefs-y := super.o
|
1439
fs/zonefs/super.c
Normal file
1439
fs/zonefs/super.c
Normal file
File diff suppressed because it is too large
Load Diff
189
fs/zonefs/zonefs.h
Normal file
189
fs/zonefs/zonefs.h
Normal file
@ -0,0 +1,189 @@
|
||||
/* SPDX-License-Identifier: GPL-2.0 */
|
||||
/*
|
||||
* Simple zone file system for zoned block devices.
|
||||
*
|
||||
* Copyright (C) 2019 Western Digital Corporation or its affiliates.
|
||||
*/
|
||||
#ifndef __ZONEFS_H__
|
||||
#define __ZONEFS_H__
|
||||
|
||||
#include <linux/fs.h>
|
||||
#include <linux/magic.h>
|
||||
#include <linux/uuid.h>
|
||||
#include <linux/mutex.h>
|
||||
#include <linux/rwsem.h>
|
||||
|
||||
/*
|
||||
* Maximum length of file names: this only needs to be large enough to fit
|
||||
* the zone group directory names and a decimal zone number for file names.
|
||||
* 16 characters is plenty.
|
||||
*/
|
||||
#define ZONEFS_NAME_MAX 16
|
||||
|
||||
/*
|
||||
* Zone types: ZONEFS_ZTYPE_SEQ is used for all sequential zone types
|
||||
* defined in linux/blkzoned.h, that is, BLK_ZONE_TYPE_SEQWRITE_REQ and
|
||||
* BLK_ZONE_TYPE_SEQWRITE_PREF.
|
||||
*/
|
||||
enum zonefs_ztype {
|
||||
ZONEFS_ZTYPE_CNV,
|
||||
ZONEFS_ZTYPE_SEQ,
|
||||
ZONEFS_ZTYPE_MAX,
|
||||
};
|
||||
|
||||
static inline enum zonefs_ztype zonefs_zone_type(struct blk_zone *zone)
|
||||
{
|
||||
if (zone->type == BLK_ZONE_TYPE_CONVENTIONAL)
|
||||
return ZONEFS_ZTYPE_CNV;
|
||||
return ZONEFS_ZTYPE_SEQ;
|
||||
}
|
||||
|
||||
/*
|
||||
* In-memory inode data.
|
||||
*/
|
||||
struct zonefs_inode_info {
|
||||
struct inode i_vnode;
|
||||
|
||||
/* File zone type */
|
||||
enum zonefs_ztype i_ztype;
|
||||
|
||||
/* File zone start sector (512B unit) */
|
||||
sector_t i_zsector;
|
||||
|
||||
/* File zone write pointer position (sequential zones only) */
|
||||
loff_t i_wpoffset;
|
||||
|
||||
/* File maximum size */
|
||||
loff_t i_max_size;
|
||||
|
||||
/*
|
||||
* To serialise fully against both syscall and mmap based IO and
|
||||
* sequential file truncation, two locks are used. For serializing
|
||||
* zonefs_seq_file_truncate() against zonefs_iomap_begin(), that is,
|
||||
* file truncate operations against block mapping, i_truncate_mutex is
|
||||
* used. i_truncate_mutex also protects against concurrent accesses
|
||||
* and changes to the inode private data, and in particular changes to
|
||||
* a sequential file size on completion of direct IO writes.
|
||||
* Serialization of mmap read IOs with truncate and syscall IO
|
||||
* operations is done with i_mmap_sem in addition to i_truncate_mutex.
|
||||
* Only zonefs_seq_file_truncate() takes both lock (i_mmap_sem first,
|
||||
* i_truncate_mutex second).
|
||||
*/
|
||||
struct mutex i_truncate_mutex;
|
||||
struct rw_semaphore i_mmap_sem;
|
||||
};
|
||||
|
||||
static inline struct zonefs_inode_info *ZONEFS_I(struct inode *inode)
|
||||
{
|
||||
return container_of(inode, struct zonefs_inode_info, i_vnode);
|
||||
}
|
||||
|
||||
/*
|
||||
* On-disk super block (block 0).
|
||||
*/
|
||||
#define ZONEFS_LABEL_LEN 64
|
||||
#define ZONEFS_UUID_SIZE 16
|
||||
#define ZONEFS_SUPER_SIZE 4096
|
||||
|
||||
struct zonefs_super {
|
||||
|
||||
/* Magic number */
|
||||
__le32 s_magic;
|
||||
|
||||
/* Checksum */
|
||||
__le32 s_crc;
|
||||
|
||||
/* Volume label */
|
||||
char s_label[ZONEFS_LABEL_LEN];
|
||||
|
||||
/* 128-bit uuid */
|
||||
__u8 s_uuid[ZONEFS_UUID_SIZE];
|
||||
|
||||
/* Features */
|
||||
__le64 s_features;
|
||||
|
||||
/* UID/GID to use for files */
|
||||
__le32 s_uid;
|
||||
__le32 s_gid;
|
||||
|
||||
/* File permissions */
|
||||
__le32 s_perm;
|
||||
|
||||
/* Padding to ZONEFS_SUPER_SIZE bytes */
|
||||
__u8 s_reserved[3988];
|
||||
|
||||
} __packed;
|
||||
|
||||
/*
|
||||
* Feature flags: specified in the s_features field of the on-disk super
|
||||
* block struct zonefs_super and in-memory in the s_feartures field of
|
||||
* struct zonefs_sb_info.
|
||||
*/
|
||||
enum zonefs_features {
|
||||
/*
|
||||
* Aggregate contiguous conventional zones into a single file.
|
||||
*/
|
||||
ZONEFS_F_AGGRCNV = 1ULL << 0,
|
||||
/*
|
||||
* Use super block specified UID for files instead of default 0.
|
||||
*/
|
||||
ZONEFS_F_UID = 1ULL << 1,
|
||||
/*
|
||||
* Use super block specified GID for files instead of default 0.
|
||||
*/
|
||||
ZONEFS_F_GID = 1ULL << 2,
|
||||
/*
|
||||
* Use super block specified file permissions instead of default 640.
|
||||
*/
|
||||
ZONEFS_F_PERM = 1ULL << 3,
|
||||
};
|
||||
|
||||
#define ZONEFS_F_DEFINED_FEATURES \
|
||||
(ZONEFS_F_AGGRCNV | ZONEFS_F_UID | ZONEFS_F_GID | ZONEFS_F_PERM)
|
||||
|
||||
/*
|
||||
* Mount options for zone write pointer error handling.
|
||||
*/
|
||||
#define ZONEFS_MNTOPT_ERRORS_RO (1 << 0) /* Make zone file readonly */
|
||||
#define ZONEFS_MNTOPT_ERRORS_ZRO (1 << 1) /* Make zone file offline */
|
||||
#define ZONEFS_MNTOPT_ERRORS_ZOL (1 << 2) /* Make zone file offline */
|
||||
#define ZONEFS_MNTOPT_ERRORS_REPAIR (1 << 3) /* Remount read-only */
|
||||
#define ZONEFS_MNTOPT_ERRORS_MASK \
|
||||
(ZONEFS_MNTOPT_ERRORS_RO | ZONEFS_MNTOPT_ERRORS_ZRO | \
|
||||
ZONEFS_MNTOPT_ERRORS_ZOL | ZONEFS_MNTOPT_ERRORS_REPAIR)
|
||||
|
||||
/*
|
||||
* In-memory Super block information.
|
||||
*/
|
||||
struct zonefs_sb_info {
|
||||
|
||||
unsigned long s_mount_opts;
|
||||
|
||||
spinlock_t s_lock;
|
||||
|
||||
unsigned long long s_features;
|
||||
kuid_t s_uid;
|
||||
kgid_t s_gid;
|
||||
umode_t s_perm;
|
||||
uuid_t s_uuid;
|
||||
unsigned int s_zone_sectors_shift;
|
||||
|
||||
unsigned int s_nr_files[ZONEFS_ZTYPE_MAX];
|
||||
|
||||
loff_t s_blocks;
|
||||
loff_t s_used_blocks;
|
||||
};
|
||||
|
||||
static inline struct zonefs_sb_info *ZONEFS_SB(struct super_block *sb)
|
||||
{
|
||||
return sb->s_fs_info;
|
||||
}
|
||||
|
||||
#define zonefs_info(sb, format, args...) \
|
||||
pr_info("zonefs (%s): " format, sb->s_id, ## args)
|
||||
#define zonefs_err(sb, format, args...) \
|
||||
pr_err("zonefs (%s) ERROR: " format, sb->s_id, ## args)
|
||||
#define zonefs_warn(sb, format, args...) \
|
||||
pr_warn("zonefs (%s) WARNING: " format, sb->s_id, ## args)
|
||||
|
||||
#endif
|
@ -87,6 +87,7 @@
|
||||
#define NSFS_MAGIC 0x6e736673
|
||||
#define BPF_FS_MAGIC 0xcafe4a11
|
||||
#define AAFS_MAGIC 0x5a3c69f0
|
||||
#define ZONEFS_MAGIC 0x5a4f4653
|
||||
|
||||
/* Since UDF 2.01 is ISO 13346 based... */
|
||||
#define UDF_SUPER_MAGIC 0x15013346
|
||||
|
Loading…
Reference in New Issue
Block a user