Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Matthew Sakai | 732 | 99.32% | 2 | 50.00% |
Mike Snitzer | 5 | 0.68% | 2 | 50.00% |
Total | 737 | 4 |
/* SPDX-License-Identifier: GPL-2.0-only */ /* * Copyright 2023 Red Hat */ #ifndef UDS_DELTA_INDEX_H #define UDS_DELTA_INDEX_H #include <linux/cache.h> #include "numeric.h" #include "time-utils.h" #include "config.h" #include "io-factory.h" /* * A delta index is a key-value store, where each entry maps an address (the key) to a payload (the * value). The entries are sorted by address, and only the delta between successive addresses is * stored in the entry. The addresses are assumed to be uniformly distributed, and the deltas are * therefore exponentially distributed. * * A delta_index can either be mutable or immutable depending on its expected use. The immutable * form of a delta index is used for the indexes of closed chapters committed to the volume. The * mutable form of a delta index is used by the volume index, and also by the chapter index in an * open chapter. Like the index as a whole, each mutable delta index is divided into a number of * independent zones. */ struct delta_list { /* The offset of the delta list start, in bits */ u64 start; /* The number of bits in the delta list */ u16 size; /* Where the last search "found" the key, in bits */ u16 save_offset; /* The key for the record just before save_offset */ u32 save_key; }; struct delta_zone { /* The delta list memory */ u8 *memory; /* The delta list headers */ struct delta_list *delta_lists; /* Temporary starts of delta lists */ u64 *new_offsets; /* Buffered writer for saving an index */ struct buffered_writer *buffered_writer; /* The size of delta list memory */ size_t size; /* Nanoseconds spent rebalancing */ ktime_t rebalance_time; /* Number of memory rebalances */ u32 rebalance_count; /* The number of bits in a stored value */ u8 value_bits; /* The number of bits in the minimal key code */ u16 min_bits; /* The number of keys used in a minimal code */ u32 min_keys; /* The number of keys used for another code bit */ u32 incr_keys; /* The number of records in the index */ u64 record_count; /* The number of collision records */ u64 collision_count; /* The number of records removed */ u64 discard_count; /* The number of UDS_OVERFLOW errors detected */ u64 overflow_count; /* The index of the first delta list */ u32 first_list; /* The number of delta lists */ u32 list_count; /* Tag belonging to this delta index */ u8 tag; } __aligned(L1_CACHE_BYTES); struct delta_list_save_info { /* Tag identifying which delta index this list is in */ u8 tag; /* Bit offset of the start of the list data */ u8 bit_offset; /* Number of bytes of list data */ u16 byte_count; /* The delta list number within the delta index */ u32 index; } __packed; struct delta_index { /* The zones */ struct delta_zone *delta_zones; /* The number of zones */ unsigned int zone_count; /* The number of delta lists */ u32 list_count; /* Maximum lists per zone */ u32 lists_per_zone; /* Total memory allocated to this index */ size_t memory_size; /* The number of non-empty lists at load time per zone */ u32 load_lists[MAX_ZONES]; /* True if this index is mutable */ bool mutable; /* Tag belonging to this delta index */ u8 tag; }; /* * A delta_index_page describes a single page of a chapter index. The delta_index field allows the * page to be treated as an immutable delta_index. We use the delta_zone field to treat the chapter * index page as a single zone index, and without the need to do an additional memory allocation. */ struct delta_index_page { struct delta_index delta_index; /* These values are loaded from the delta_page_header */ u32 lowest_list_number; u32 highest_list_number; u64 virtual_chapter_number; /* This structure describes the single zone of a delta index page. */ struct delta_zone delta_zone; }; /* * Notes on the delta_index_entries: * * The fields documented as "public" can be read by any code that uses a delta_index. The fields * documented as "private" carry information between delta_index method calls and should not be * used outside the delta_index module. * * (1) The delta_index_entry is used like an iterator when searching a delta list. * * (2) It is also the result of a successful search and can be used to refer to the element found * by the search. * * (3) It is also the result of an unsuccessful search and can be used to refer to the insertion * point for a new record. * * (4) If at_end is true, the delta_list entry can only be used as the insertion point for a new * record at the end of the list. * * (5) If at_end is false and is_collision is true, the delta_list entry fields refer to a * collision entry in the list, and the delta_list entry can be used as a reference to this * entry. * * (6) If at_end is false and is_collision is false, the delta_list entry fields refer to a * non-collision entry in the list. Such delta_list entries can be used as a reference to a * found entry, or an insertion point for a non-collision entry before this entry, or an * insertion point for a collision entry that collides with this entry. */ struct delta_index_entry { /* Public fields */ /* The key for this entry */ u32 key; /* We are after the last list entry */ bool at_end; /* This record is a collision */ bool is_collision; /* Private fields */ /* This delta list overflowed */ bool list_overflow; /* The number of bits used for the value */ u8 value_bits; /* The number of bits used for the entire entry */ u16 entry_bits; /* The delta index zone */ struct delta_zone *delta_zone; /* The delta list containing the entry */ struct delta_list *delta_list; /* The delta list number */ u32 list_number; /* Bit offset of this entry within the list */ u16 offset; /* The delta between this and previous entry */ u32 delta; /* Temporary delta list for immutable indices */ struct delta_list temp_delta_list; }; struct delta_index_stats { /* Number of bytes allocated */ size_t memory_allocated; /* Nanoseconds spent rebalancing */ ktime_t rebalance_time; /* Number of memory rebalances */ u32 rebalance_count; /* The number of records in the index */ u64 record_count; /* The number of collision records */ u64 collision_count; /* The number of records removed */ u64 discard_count; /* The number of UDS_OVERFLOW errors detected */ u64 overflow_count; /* The number of delta lists */ u32 list_count; }; int __must_check uds_initialize_delta_index(struct delta_index *delta_index, unsigned int zone_count, u32 list_count, u32 mean_delta, u32 payload_bits, size_t memory_size, u8 tag); int __must_check uds_initialize_delta_index_page(struct delta_index_page *delta_index_page, u64 expected_nonce, u32 mean_delta, u32 payload_bits, u8 *memory, size_t memory_size); void uds_uninitialize_delta_index(struct delta_index *delta_index); void uds_reset_delta_index(const struct delta_index *delta_index); int __must_check uds_pack_delta_index_page(const struct delta_index *delta_index, u64 header_nonce, u8 *memory, size_t memory_size, u64 virtual_chapter_number, u32 first_list, u32 *list_count); int __must_check uds_start_restoring_delta_index(struct delta_index *delta_index, struct buffered_reader **buffered_readers, unsigned int reader_count); int __must_check uds_finish_restoring_delta_index(struct delta_index *delta_index, struct buffered_reader **buffered_readers, unsigned int reader_count); int __must_check uds_check_guard_delta_lists(struct buffered_reader **buffered_readers, unsigned int reader_count); int __must_check uds_start_saving_delta_index(const struct delta_index *delta_index, unsigned int zone_number, struct buffered_writer *buffered_writer); int __must_check uds_finish_saving_delta_index(const struct delta_index *delta_index, unsigned int zone_number); int __must_check uds_write_guard_delta_list(struct buffered_writer *buffered_writer); size_t __must_check uds_compute_delta_index_save_bytes(u32 list_count, size_t memory_size); int __must_check uds_start_delta_index_search(const struct delta_index *delta_index, u32 list_number, u32 key, struct delta_index_entry *iterator); int __must_check uds_next_delta_index_entry(struct delta_index_entry *delta_entry); int __must_check uds_remember_delta_index_offset(const struct delta_index_entry *delta_entry); int __must_check uds_get_delta_index_entry(const struct delta_index *delta_index, u32 list_number, u32 key, const u8 *name, struct delta_index_entry *delta_entry); int __must_check uds_get_delta_entry_collision(const struct delta_index_entry *delta_entry, u8 *name); u32 __must_check uds_get_delta_entry_value(const struct delta_index_entry *delta_entry); int __must_check uds_set_delta_entry_value(const struct delta_index_entry *delta_entry, u32 value); int __must_check uds_put_delta_index_entry(struct delta_index_entry *delta_entry, u32 key, u32 value, const u8 *name); int __must_check uds_remove_delta_index_entry(struct delta_index_entry *delta_entry); void uds_get_delta_index_stats(const struct delta_index *delta_index, struct delta_index_stats *stats); size_t __must_check uds_compute_delta_index_size(u32 entry_count, u32 mean_delta, u32 payload_bits); u32 uds_get_delta_index_page_count(u32 entry_count, u32 list_count, u32 mean_delta, u32 payload_bits, size_t bytes_per_page); void uds_log_delta_index_entry(struct delta_index_entry *delta_entry); #endif /* UDS_DELTA_INDEX_H */
Information contained on this website is for historical information purposes only and does not indicate or represent copyright ownership.
Created with Cregit http://github.com/cregit/cregit
Version 2.0-RC1