xref: /linux/drivers/md/dm-vdo/indexer/geometry.h (revision c532de5a67a70f8533d495f8f2aaa9a0491c3ad0)
1 /* SPDX-License-Identifier: GPL-2.0-only */
2 /*
3  * Copyright 2023 Red Hat
4  */
5 
6 #ifndef UDS_INDEX_GEOMETRY_H
7 #define UDS_INDEX_GEOMETRY_H
8 
9 #include "indexer.h"
10 
11 /*
12  * The index_geometry records parameters that define the layout of a UDS index volume, and the size and
13  * shape of various index structures. It is created when the index is created, and is referenced by
14  * many index sub-components.
15  */
16 
17 struct index_geometry {
18 	/* Size of a chapter page, in bytes */
19 	size_t bytes_per_page;
20 	/* Number of record pages in a chapter */
21 	u32 record_pages_per_chapter;
22 	/* Total number of chapters in a volume */
23 	u32 chapters_per_volume;
24 	/* Number of sparsely-indexed chapters in a volume */
25 	u32 sparse_chapters_per_volume;
26 	/* Number of bits used to determine delta list numbers */
27 	u8 chapter_delta_list_bits;
28 	/* Virtual chapter remapped from physical chapter 0 */
29 	u64 remapped_virtual;
30 	/* New physical chapter where the remapped chapter can be found */
31 	u64 remapped_physical;
32 
33 	/*
34 	 * The following properties are derived from the ones above, but they are computed and
35 	 * recorded as fields for convenience.
36 	 */
37 	/* Total number of pages in a volume, excluding the header */
38 	u32 pages_per_volume;
39 	/* Total number of bytes in a volume, including the header */
40 	size_t bytes_per_volume;
41 	/* Number of pages in a chapter */
42 	u32 pages_per_chapter;
43 	/* Number of index pages in a chapter index */
44 	u32 index_pages_per_chapter;
45 	/* Number of records that fit on a page */
46 	u32 records_per_page;
47 	/* Number of records that fit in a chapter */
48 	u32 records_per_chapter;
49 	/* Number of records that fit in a volume */
50 	u64 records_per_volume;
51 	/* Number of delta lists per chapter index */
52 	u32 delta_lists_per_chapter;
53 	/* Mean delta for chapter indexes */
54 	u32 chapter_mean_delta;
55 	/* Number of bits needed for record page numbers */
56 	u8 chapter_payload_bits;
57 	/* Number of bits used to compute addresses for chapter delta lists */
58 	u8 chapter_address_bits;
59 	/* Number of densely-indexed chapters in a volume */
60 	u32 dense_chapters_per_volume;
61 };
62 
63 enum {
64 	/* The number of bytes in a record (name + metadata) */
65 	BYTES_PER_RECORD = (UDS_RECORD_NAME_SIZE + UDS_RECORD_DATA_SIZE),
66 
67 	/* The default length of a page in a chapter, in bytes */
68 	DEFAULT_BYTES_PER_PAGE = 1024 * BYTES_PER_RECORD,
69 
70 	/* The default maximum number of records per page */
71 	DEFAULT_RECORDS_PER_PAGE = DEFAULT_BYTES_PER_PAGE / BYTES_PER_RECORD,
72 
73 	/* The default number of record pages in a chapter */
74 	DEFAULT_RECORD_PAGES_PER_CHAPTER = 256,
75 
76 	/* The default number of record pages in a chapter for a small index */
77 	SMALL_RECORD_PAGES_PER_CHAPTER = 64,
78 
79 	/* The default number of chapters in a volume */
80 	DEFAULT_CHAPTERS_PER_VOLUME = 1024,
81 
82 	/* The default number of sparsely-indexed chapters in a volume */
83 	DEFAULT_SPARSE_CHAPTERS_PER_VOLUME = 0,
84 
85 	/* The log2 of the default mean delta */
86 	DEFAULT_CHAPTER_MEAN_DELTA_BITS = 16,
87 
88 	/* The log2 of the number of delta lists in a large chapter */
89 	DEFAULT_CHAPTER_DELTA_LIST_BITS = 12,
90 
91 	/* The log2 of the number of delta lists in a small chapter */
92 	SMALL_CHAPTER_DELTA_LIST_BITS = 10,
93 
94 	/* The number of header pages per volume */
95 	HEADER_PAGES_PER_VOLUME = 1,
96 };
97 
98 int __must_check uds_make_index_geometry(size_t bytes_per_page, u32 record_pages_per_chapter,
99 					 u32 chapters_per_volume,
100 					 u32 sparse_chapters_per_volume, u64 remapped_virtual,
101 					 u64 remapped_physical,
102 					 struct index_geometry **geometry_ptr);
103 
104 int __must_check uds_copy_index_geometry(struct index_geometry *source,
105 					 struct index_geometry **geometry_ptr);
106 
107 void uds_free_index_geometry(struct index_geometry *geometry);
108 
109 u32 __must_check uds_map_to_physical_chapter(const struct index_geometry *geometry,
110 					     u64 virtual_chapter);
111 
112 /*
113  * Check whether this geometry is reduced by a chapter. This will only be true if the volume was
114  * converted from a non-lvm volume to an lvm volume.
115  */
116 static inline bool __must_check
117 uds_is_reduced_index_geometry(const struct index_geometry *geometry)
118 {
119 	return !!(geometry->chapters_per_volume & 1);
120 }
121 
122 static inline bool __must_check
123 uds_is_sparse_index_geometry(const struct index_geometry *geometry)
124 {
125 	return geometry->sparse_chapters_per_volume > 0;
126 }
127 
128 bool __must_check uds_has_sparse_chapters(const struct index_geometry *geometry,
129 					  u64 oldest_virtual_chapter,
130 					  u64 newest_virtual_chapter);
131 
132 bool __must_check uds_is_chapter_sparse(const struct index_geometry *geometry,
133 					u64 oldest_virtual_chapter,
134 					u64 newest_virtual_chapter,
135 					u64 virtual_chapter_number);
136 
137 u32 __must_check uds_chapters_to_expire(const struct index_geometry *geometry,
138 					u64 newest_chapter);
139 
140 #endif /* UDS_INDEX_GEOMETRY_H */
141