| /Linux-v6.6/Documentation/networking/ |
| D | xdp-rx-metadata.rst | 2 XDP RX Metadata
6 hardware metadata related to a packet using a set of helper functions,
7 and how it can pass that metadata on to other consumers.
12 XDP has access to a set of kfuncs to manipulate the metadata in an XDP frame.
13 Every device driver that wishes to expose additional packet metadata can
18 metadata is supported, this set will grow:
23 An XDP program can use these kfuncs to read the metadata into stack
24 variables for its own consumption. Or, to pass the metadata on to other
25 consumers, an XDP program can store it into the metadata area carried
27 metadata available in which case the driver returns ``-ENODATA``.
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| /Linux-v6.6/Documentation/filesystems/ |
| D | xfs-self-describing-metadata.rst | 5 XFS Self Describing Metadata
17 Almost all metadata on XFS is dynamically allocated. The only fixed location
18 metadata is the allocation group headers (SB, AGF, AGFL and AGI), while all
19 other metadata structures need to be discovered by walking the filesystem
32 However, if we scale the filesystem up to 1PB, we now have 10x as much metadata
40 Self Describing Metadata
43 One of the problems with the current metadata format is that apart from the
44 magic number in the metadata block, we have no other way of identifying what it
46 you can't look at a single metadata block in isolation and say "yes, it is
50 verification of metadata values, looking for values that are in range (and hence
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| D | squashfs.rst | 36 Metadata compression yes no
115 Metadata (inodes and directories) are compressed in 8Kbyte blocks. Each
120 Inodes are packed into the metadata blocks, and are not aligned to block
122 by a 48-bit number which encodes the location of the compressed metadata block
138 Like inodes, directories are packed into compressed metadata blocks, stored
146 compressed metadata block, and therefore, can share the start block.
156 in each metadata block. Directories are sorted in alphabetical order,
159 location of the metadata block the filename is in has been found.
160 The general idea of the index is to ensure only one metadata block needs to be
189 fragment lookup table is itself stored compressed into metadata blocks.
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| D | xfs-online-fsck-design.rst | 68 Metadata directly supporting these functions (e.g. files, directories, space
69 mappings) are sometimes called primary metadata.
70 Secondary metadata (e.g. reverse mapping and directory parent pointers) support
73 Summary metadata, as the name implies, condense information contained in
74 primary metadata for performance reasons.
76 The filesystem check (fsck) tool examines all the metadata in a filesystem
78 In addition to looking for obvious metadata corruptions, fsck also
79 cross-references different types of metadata records with each other to look
84 the filesystem metadata to a consistent state, not to maximize the data
91 More recent filesystem designs contain enough redundancy in their metadata that
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| /Linux-v6.6/drivers/md/ |
| D | dm-clone-metadata.h | 10 #include "persistent-data/dm-space-map-metadata.h"
15 * The metadata device is currently limited in size.
20 * A metadata device larger than 16GB triggers a warning.
26 /* dm-clone metadata */
32 * @cmd: The dm-clone metadata
43 * @cmd: The dm-clone metadata
55 * Read existing or create fresh metadata.
57 * @bdev: The device storing the metadata
61 * @returns: The dm-clone metadata
64 * If it is, it formats @bdev and creates fresh metadata. If it isn't, it
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| D | dm-zoned-target.c | 49 /* For metadata handling */
50 struct dmz_metadata *metadata; member
134 dmz_start_sect(dmz->metadata, zone) + dmz_blk2sect(chunk_block); in dmz_submit_bio()
172 struct dmz_metadata *zmd = dmz->metadata; in dmz_handle_read()
254 struct dmz_metadata *zmd = dmz->metadata; in dmz_handle_direct_write()
287 struct dmz_metadata *zmd = dmz->metadata; in dmz_handle_buffered_write()
321 struct dmz_metadata *zmd = dmz->metadata; in dmz_handle_write()
360 struct dmz_metadata *zmd = dmz->metadata; in dmz_handle_discard()
374 dmz_metadata_label(dmz->metadata), in dmz_handle_discard()
400 struct dmz_metadata *zmd = dmz->metadata; in dmz_handle_bio()
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| D | dm-thin-metadata.h | 13 #include "persistent-data/dm-space-map-metadata.h"
18 * The metadata device is currently limited in size.
23 * A metadata device larger than 16GB triggers a warning.
30 * Thin metadata superblock flags.
43 * Reopens or creates a new, empty metadata volume.
53 * specified below will prevent use of the thin metadata.
74 * Deletes a virtual device from the metadata. It _is_ safe to call this
82 * Commits _all_ metadata changes: device creation, deletion, mapping
110 * The metadata snapshot is a copy of the current superblock (minus the
113 * copy of the metadata to userland due to extra copy-on-write operations
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| /Linux-v6.6/drivers/gpu/drm/vmwgfx/ |
| D | vmwgfx_surface.c | 48 * @srf: The surface metadata.
199 return srf->metadata.num_sizes * sizeof(struct vmw_surface_dma); in vmw_surface_dma_size()
213 return sizeof(struct vmw_surface_define) + srf->metadata.num_sizes * in vmw_surface_define_size()
262 cmd_len = sizeof(cmd->body) + srf->metadata.num_sizes * in vmw_surface_define_encode()
273 cmd->body.surfaceFlags = (SVGA3dSurface1Flags)srf->metadata.flags; in vmw_surface_define_encode()
274 cmd->body.format = srf->metadata.format; in vmw_surface_define_encode()
276 cmd->body.face[i].numMipLevels = srf->metadata.mip_levels[i]; in vmw_surface_define_encode()
280 src_size = srf->metadata.sizes; in vmw_surface_define_encode()
282 for (i = 0; i < srf->metadata.num_sizes; ++i, cmd_size++, src_size++) { in vmw_surface_define_encode()
306 vmw_surface_get_desc(srf->metadata.format); in vmw_surface_dma_encode()
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| /Linux-v6.6/drivers/staging/media/atomisp/pci/runtime/isys/src/ |
| D | virtual_isys.c | 37 bool metadata,
55 bool metadata);
119 bool metadata,
124 bool metadata,
141 bool metadata,
176 isys_stream->enable_metadata = isys_stream_descr->metadata.enable; in ia_css_isys_stream_create()
192 /* create metadata channel */ in ia_css_isys_stream_create()
193 if (isys_stream_descr->metadata.enable) { in ia_css_isys_stream_create()
214 /* Destroy metadata channel only if its allocated*/ in ia_css_isys_stream_destroy()
243 /* configure metadata channel */ in ia_css_isys_stream_calculate_cfg()
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| /Linux-v6.6/Documentation/admin-guide/device-mapper/ |
| D | thin-provisioning.rst | 24 Metadata is stored on a separate device from data, giving the
27 - Improve metadata resilience by storing metadata on a mirrored volume
30 - Improve performance by storing the metadata on SSD.
43 Userspace tools for checking and repairing the metadata have been fully
59 The pool device ties together the metadata volume and the data volume.
60 It maps I/O linearly to the data volume and updates the metadata via
71 Setting up a pool device requires a valid metadata device, and a
72 data device. If you do not have an existing metadata device you can
73 make one by zeroing the first 4k to indicate empty metadata.
77 The amount of metadata you need will vary according to how many blocks
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| D | era.rst | 21 era <metadata dev> <origin dev> <block size>
24 metadata dev fast device holding the persistent metadata
45 Create a clone of the metadata, to allow a userland process to read it.
50 Drop the metadata snapshot.
55 <metadata block size> <#used metadata blocks>/<#total metadata blocks>
56 <current era> <held metadata root | '-'>
59 metadata block size Fixed block size for each metadata block in
61 #used metadata blocks Number of metadata blocks used
62 #total metadata blocks Total number of metadata blocks
64 held metadata root The location, in blocks, of the metadata root
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| D | dm-zoned.rst | 27 internally for storing metadata and performing reclaim operations.
40 metadata. It can also use a regular block device together with the zoned
48 1) Metadata zones: these are conventional zones used to store metadata.
49 Metadata zones are not reported as usable capacity to the user.
60 device being used. This allows reducing the amount of metadata needed to
63 The on-disk metadata format is as follows:
66 super block which describes the on disk amount and position of metadata
114 Metadata Protection
117 To protect metadata against corruption in case of sudden power loss or
118 system crash, 2 sets of metadata zones are used. One set, the primary
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| D | cache.rst | 20 The target reuses the metadata library used in the thin-provisioning
56 3. A small metadata device - records which blocks are in the cache,
60 e.g. as a mirror for extra robustness. This metadata device may only
75 block sizes are bad because they increase the amount of metadata (both
86 the metadata.
131 Updating on-disk metadata
134 On-disk metadata is committed every time a FLUSH or FUA bio is written.
137 cache. If power is lost you may lose some recent writes. The metadata
181 cache <metadata dev> <cache dev> <origin dev> <block size>
186 metadata dev fast device holding the persistent metadata
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| D | dm-integrity.rst | 41 Accesses to the on-disk metadata area containing checksums (aka tags) are
42 buffered using dm-bufio. When an access to any given metadata area
43 occurs, each unique metadata area gets its own buffer(s). The buffer size
44 is capped at the size of the metadata area, but may be smaller, thereby
45 requiring multiple buffers to represent the full metadata area. A smaller
47 metadata area for small reads/writes. The metadata is still read even in
86 B - bitmap mode - data and metadata are written without any
88 regions where data and metadata don't match. This mode can
111 Don't interleave the data and metadata on the device. Use a
112 separate device for metadata.
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| D | dm-clone.rst | 29 The dm-clone target reuses the metadata library used by the thin-provisioning
58 3. A small metadata device - it records which regions are already valid in the
95 only updates its metadata.
124 Updating on-disk metadata
127 On-disk metadata is committed every time a FLUSH or FUA bio is written. If no
130 power is lost you may lose some recent writes. The metadata should always be
141 clone <metadata dev> <destination dev> <source dev> <region size>
145 metadata dev Fast device holding the persistent metadata
184 <metadata block size> <#used metadata blocks>/<#total metadata blocks>
187 <clone metadata mode>
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| /Linux-v6.6/drivers/staging/media/atomisp/pci/ |
| D | ia_css_metadata.h | 20 * This file contains structure for processing sensor metadata.
27 /* Metadata configuration. This data structure contains necessary info
28 * to process sensor metadata.
53 /* @brief Allocate a metadata buffer.
54 * @param[in] metadata_info Metadata info struct, contains details on metadata buffers.
55 * @return Pointer of metadata buffer or NULL (if error)
57 * This function allocates a metadata buffer according to the properties
63 /* @brief Free a metadata buffer.
65 * @param[in] metadata Pointer of metadata buffer.
68 * This function frees a metadata buffer.
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| /Linux-v6.6/Documentation/userspace-api/media/v4l/ |
| D | dev-meta.rst | 6 Metadata Interface
9 Metadata refers to any non-image data that supplements video frames with
13 intended for transfer of metadata between the userspace and the hardware and
16 The metadata interface is implemented on video device nodes. The device can be
17 dedicated to metadata or can support both video and metadata as specified in its
23 Device nodes supporting the metadata capture interface set the
26 ioctl. That flag means the device can capture metadata to memory. Similarly,
27 device nodes supporting metadata output interface set the
30 metadata from memory.
38 The metadata device uses the :ref:`format` ioctls to select the capture format.
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| /Linux-v6.6/Documentation/block/ |
| D | data-integrity.rst | 8 Modern filesystems feature checksumming of data and metadata to
18 support for appending integrity metadata to an I/O. The integrity
19 metadata (or protection information in SCSI terminology) includes a
40 allow the operating system to interact with the integrity metadata
46 information to each sector. The data + integrity metadata is stored
53 encouraged them to allow separation of the data and integrity metadata
67 when writing and vice versa. This allows the integrity metadata to be
73 buffers and the integrity metadata. These two distinct buffers must
76 The separation of the data and integrity metadata buffers as well as
108 the kernel) is concerned, the integrity metadata is opaque information
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| /Linux-v6.6/tools/testing/kunit/ |
| D | kunit_json.py | 16 class Metadata: class
17 """Stores metadata about this run to include in get_json_result()."""
50 def get_json_result(test: Test, metadata: Metadata) -> str: argument
52 "arch": metadata.arch,
53 "defconfig": metadata.def_config,
54 "build_environment": metadata.build_dir,
|
| /Linux-v6.6/tools/perf/util/ |
| D | cs-etm.c | 79 u64 **metadata; member
114 /* RB tree for quick conversion between traceID and metadata pointers */
150 u64 *metadata; in cs_etm__get_magic() local
156 metadata = inode->priv; in cs_etm__get_magic()
157 *magic = metadata[CS_ETM_MAGIC]; in cs_etm__get_magic()
164 u64 *metadata; in cs_etm__get_cpu() local
170 metadata = inode->priv; in cs_etm__get_cpu()
171 *cpu = (int)metadata[CS_ETM_CPU]; in cs_etm__get_cpu()
191 static enum cs_etm_pid_fmt cs_etm__init_pid_fmt(u64 *metadata) in cs_etm__init_pid_fmt() argument
195 if (metadata[CS_ETM_MAGIC] == __perf_cs_etmv3_magic) { in cs_etm__init_pid_fmt()
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| /Linux-v6.6/Documentation/driver-api/dmaengine/ |
| D | client.rst | 158 **Optional: per descriptor metadata**
160 DMAengine provides two ways for metadata support.
164 The metadata buffer is allocated/provided by the client driver and it is
174 The metadata buffer is allocated/managed by the DMA driver. The client
176 the metadata and can directly update or read it.
178 Because the DMA driver manages the memory area containing the metadata,
182 metadata must not be accessed after issue_pending.
183 In other words: if the aim is to read back metadata after the transfer is
208 construct the metadata in the client's buffer
219 4. when the transfer is completed, the metadata should be available in the
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| /Linux-v6.6/fs/xfs/ |
| D | Kconfig | 31 by the V5 format, such as metadata checksumming, strengthened
32 metadata verification, and the ability to store timestamps past the
84 information as filesystem metadata and uses journaling to provide a
114 mechanism for ensuring data and metadata/log I/Os are completely
128 bool "XFS online metadata check support"
134 If you say Y here you will be able to check metadata on a
147 bool "XFS online metadata check usage data collection"
153 the online metadata check subsystem. This includes the number
164 bool "XFS online metadata repair support"
168 If you say Y here you will be able to repair metadata on a
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| /Linux-v6.6/include/linux/ |
| D | kmsan.h | 40 * Allocate and initialize KMSAN metadata for early allocations.
55 * as metadata pages.
81 * kmsan_copy_page_meta() - Copy KMSAN metadata between two pages.
85 * KMSAN copies the contents of metadata pages for @src into the metadata pages
86 * for @dst. If @dst has no associated metadata pages, nothing happens.
87 * If @src has no associated metadata pages, @dst metadata pages are unpoisoned.
97 * Depending on cache flags and GFP flags, KMSAN sets up the metadata of the
138 * vmalloc metadata address range. Returns 0 on success, callers must check
152 * KMSAN unmaps the contiguous metadata ranges created by
165 * KMSAN creates new metadata pages for the physical pages mapped into the
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| /Linux-v6.6/fs/xfs/libxfs/ |
| D | xfs_health.h | 16 * shutdowns due to corrupt metadata.
18 * The online scrub feature evaluates the health of all filesystem metadata.
19 * When scrub detects corruption in a piece of metadata it will set the
25 * "checked" field tell us if a given piece of metadata has ever been examined,
29 * - checked && sick => metadata needs repair
30 * - checked && !sick => metadata is ok
39 /* Observable health issues for metadata spanning the entire filesystem. */
45 /* Observable health issues for realtime volume metadata. */
49 /* Observable health issues for AG metadata. */
61 /* Observable health issues for inode metadata. */
|
| /Linux-v6.6/fs/nilfs2/ |
| D | alloc.c | 23 * @inode: inode of metadata file using this allocator
34 * @inode: inode of metadata file using this allocator
44 * @inode: inode of metadata file using this allocator
78 * @inode: inode of metadata file using this allocator
93 * @inode: inode of metadata file using this allocator
109 * @inode: inode of metadata file using this allocator
162 * @inode: inode of metadata file using this allocator
178 * @inode: inode of metadata file
235 * @inode: inode of metadata file using this allocator
255 * @inode: inode of metadata file using this allocator
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