diff options
author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-08-07 13:11:22 +0000 |
---|---|---|
committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-08-07 13:11:22 +0000 |
commit | b20732900e4636a467c0183a47f7396700f5f743 (patch) | |
tree | 42f079ff82e701ebcb76829974b4caca3e5b6798 /drivers/md/dm-vdo/indexer/open-chapter.c | |
parent | Adding upstream version 6.8.12. (diff) | |
download | linux-b20732900e4636a467c0183a47f7396700f5f743.tar.xz linux-b20732900e4636a467c0183a47f7396700f5f743.zip |
Adding upstream version 6.9.7.upstream/6.9.7
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'drivers/md/dm-vdo/indexer/open-chapter.c')
-rw-r--r-- | drivers/md/dm-vdo/indexer/open-chapter.c | 426 |
1 files changed, 426 insertions, 0 deletions
diff --git a/drivers/md/dm-vdo/indexer/open-chapter.c b/drivers/md/dm-vdo/indexer/open-chapter.c new file mode 100644 index 0000000000..4a67bcadaa --- /dev/null +++ b/drivers/md/dm-vdo/indexer/open-chapter.c @@ -0,0 +1,426 @@ +// SPDX-License-Identifier: GPL-2.0-only +/* + * Copyright 2023 Red Hat + */ + +#include "open-chapter.h" + +#include <linux/log2.h> + +#include "logger.h" +#include "memory-alloc.h" +#include "numeric.h" +#include "permassert.h" + +#include "config.h" +#include "hash-utils.h" + +/* + * Each index zone has a dedicated open chapter zone structure which gets an equal share of the + * open chapter space. Records are assigned to zones based on their record name. Within each zone, + * records are stored in an array in the order they arrive. Additionally, a reference to each + * record is stored in a hash table to help determine if a new record duplicates an existing one. + * If new metadata for an existing name arrives, the record is altered in place. The array of + * records is 1-based so that record number 0 can be used to indicate an unused hash slot. + * + * Deleted records are marked with a flag rather than actually removed to simplify hash table + * management. The array of deleted flags overlays the array of hash slots, but the flags are + * indexed by record number instead of by record name. The number of hash slots will always be a + * power of two that is greater than the number of records to be indexed, guaranteeing that hash + * insertion cannot fail, and that there are sufficient flags for all records. + * + * Once any open chapter zone fills its available space, the chapter is closed. The records from + * each zone are interleaved to attempt to preserve temporal locality and assigned to record pages. + * Empty or deleted records are replaced by copies of a valid record so that the record pages only + * contain valid records. The chapter then constructs a delta index which maps each record name to + * the record page on which that record can be found, which is split into index pages. These + * structures are then passed to the volume to be recorded on storage. + * + * When the index is saved, the open chapter records are saved in a single array, once again + * interleaved to attempt to preserve temporal locality. When the index is reloaded, there may be a + * different number of zones than previously, so the records must be parcelled out to their new + * zones. In addition, depending on the distribution of record names, a new zone may have more + * records than it has space. In this case, the latest records for that zone will be discarded. + */ + +static const u8 OPEN_CHAPTER_MAGIC[] = "ALBOC"; +static const u8 OPEN_CHAPTER_VERSION[] = "02.00"; + +#define OPEN_CHAPTER_MAGIC_LENGTH (sizeof(OPEN_CHAPTER_MAGIC) - 1) +#define OPEN_CHAPTER_VERSION_LENGTH (sizeof(OPEN_CHAPTER_VERSION) - 1) +#define LOAD_RATIO 2 + +static inline size_t records_size(const struct open_chapter_zone *open_chapter) +{ + return sizeof(struct uds_volume_record) * (1 + open_chapter->capacity); +} + +static inline size_t slots_size(size_t slot_count) +{ + return sizeof(struct open_chapter_zone_slot) * slot_count; +} + +int uds_make_open_chapter(const struct index_geometry *geometry, unsigned int zone_count, + struct open_chapter_zone **open_chapter_ptr) +{ + int result; + struct open_chapter_zone *open_chapter; + size_t capacity = geometry->records_per_chapter / zone_count; + size_t slot_count = (1 << bits_per(capacity * LOAD_RATIO)); + + result = vdo_allocate_extended(struct open_chapter_zone, slot_count, + struct open_chapter_zone_slot, "open chapter", + &open_chapter); + if (result != VDO_SUCCESS) + return result; + + open_chapter->slot_count = slot_count; + open_chapter->capacity = capacity; + result = vdo_allocate_cache_aligned(records_size(open_chapter), "record pages", + &open_chapter->records); + if (result != VDO_SUCCESS) { + uds_free_open_chapter(open_chapter); + return result; + } + + *open_chapter_ptr = open_chapter; + return UDS_SUCCESS; +} + +void uds_reset_open_chapter(struct open_chapter_zone *open_chapter) +{ + open_chapter->size = 0; + open_chapter->deletions = 0; + + memset(open_chapter->records, 0, records_size(open_chapter)); + memset(open_chapter->slots, 0, slots_size(open_chapter->slot_count)); +} + +static unsigned int probe_chapter_slots(struct open_chapter_zone *open_chapter, + const struct uds_record_name *name) +{ + struct uds_volume_record *record; + unsigned int slot_count = open_chapter->slot_count; + unsigned int slot = uds_name_to_hash_slot(name, slot_count); + unsigned int record_number; + unsigned int attempts = 1; + + while (true) { + record_number = open_chapter->slots[slot].record_number; + + /* + * If the hash slot is empty, we've reached the end of a chain without finding the + * record and should terminate the search. + */ + if (record_number == 0) + return slot; + + /* + * If the name of the record referenced by the slot matches and has not been + * deleted, then we've found the requested name. + */ + record = &open_chapter->records[record_number]; + if ((memcmp(&record->name, name, UDS_RECORD_NAME_SIZE) == 0) && + !open_chapter->slots[record_number].deleted) + return slot; + + /* + * Quadratic probing: advance the probe by 1, 2, 3, etc. and try again. This + * performs better than linear probing and works best for 2^N slots. + */ + slot = (slot + attempts++) % slot_count; + } +} + +void uds_search_open_chapter(struct open_chapter_zone *open_chapter, + const struct uds_record_name *name, + struct uds_record_data *metadata, bool *found) +{ + unsigned int slot; + unsigned int record_number; + + slot = probe_chapter_slots(open_chapter, name); + record_number = open_chapter->slots[slot].record_number; + if (record_number == 0) { + *found = false; + } else { + *found = true; + *metadata = open_chapter->records[record_number].data; + } +} + +/* Add a record to the open chapter zone and return the remaining space. */ +int uds_put_open_chapter(struct open_chapter_zone *open_chapter, + const struct uds_record_name *name, + const struct uds_record_data *metadata) +{ + unsigned int slot; + unsigned int record_number; + struct uds_volume_record *record; + + if (open_chapter->size >= open_chapter->capacity) + return 0; + + slot = probe_chapter_slots(open_chapter, name); + record_number = open_chapter->slots[slot].record_number; + + if (record_number == 0) { + record_number = ++open_chapter->size; + open_chapter->slots[slot].record_number = record_number; + } + + record = &open_chapter->records[record_number]; + record->name = *name; + record->data = *metadata; + + return open_chapter->capacity - open_chapter->size; +} + +void uds_remove_from_open_chapter(struct open_chapter_zone *open_chapter, + const struct uds_record_name *name) +{ + unsigned int slot; + unsigned int record_number; + + slot = probe_chapter_slots(open_chapter, name); + record_number = open_chapter->slots[slot].record_number; + + if (record_number > 0) { + open_chapter->slots[record_number].deleted = true; + open_chapter->deletions += 1; + } +} + +void uds_free_open_chapter(struct open_chapter_zone *open_chapter) +{ + if (open_chapter != NULL) { + vdo_free(open_chapter->records); + vdo_free(open_chapter); + } +} + +/* Map each record name to its record page number in the delta chapter index. */ +static int fill_delta_chapter_index(struct open_chapter_zone **chapter_zones, + unsigned int zone_count, + struct open_chapter_index *index, + struct uds_volume_record *collated_records) +{ + int result; + unsigned int records_per_chapter; + unsigned int records_per_page; + unsigned int record_index; + unsigned int records = 0; + u32 page_number; + unsigned int z; + int overflow_count = 0; + struct uds_volume_record *fill_record = NULL; + + /* + * The record pages should not have any empty space, so find a record with which to fill + * the chapter zone if it was closed early, and also to replace any deleted records. The + * last record in any filled zone is guaranteed to not have been deleted, so use one of + * those. + */ + for (z = 0; z < zone_count; z++) { + struct open_chapter_zone *zone = chapter_zones[z]; + + if (zone->size == zone->capacity) { + fill_record = &zone->records[zone->size]; + break; + } + } + + records_per_chapter = index->geometry->records_per_chapter; + records_per_page = index->geometry->records_per_page; + + for (records = 0; records < records_per_chapter; records++) { + struct uds_volume_record *record = &collated_records[records]; + struct open_chapter_zone *open_chapter; + + /* The record arrays in the zones are 1-based. */ + record_index = 1 + (records / zone_count); + page_number = records / records_per_page; + open_chapter = chapter_zones[records % zone_count]; + + /* Use the fill record in place of an unused record. */ + if (record_index > open_chapter->size || + open_chapter->slots[record_index].deleted) { + *record = *fill_record; + continue; + } + + *record = open_chapter->records[record_index]; + result = uds_put_open_chapter_index_record(index, &record->name, + page_number); + switch (result) { + case UDS_SUCCESS: + break; + case UDS_OVERFLOW: + overflow_count++; + break; + default: + vdo_log_error_strerror(result, + "failed to build open chapter index"); + return result; + } + } + + if (overflow_count > 0) + vdo_log_warning("Failed to add %d entries to chapter index", + overflow_count); + + return UDS_SUCCESS; +} + +int uds_close_open_chapter(struct open_chapter_zone **chapter_zones, + unsigned int zone_count, struct volume *volume, + struct open_chapter_index *chapter_index, + struct uds_volume_record *collated_records, + u64 virtual_chapter_number) +{ + int result; + + uds_empty_open_chapter_index(chapter_index, virtual_chapter_number); + result = fill_delta_chapter_index(chapter_zones, zone_count, chapter_index, + collated_records); + if (result != UDS_SUCCESS) + return result; + + return uds_write_chapter(volume, chapter_index, collated_records); +} + +int uds_save_open_chapter(struct uds_index *index, struct buffered_writer *writer) +{ + int result; + struct open_chapter_zone *open_chapter; + struct uds_volume_record *record; + u8 record_count_data[sizeof(u32)]; + u32 record_count = 0; + unsigned int record_index; + unsigned int z; + + result = uds_write_to_buffered_writer(writer, OPEN_CHAPTER_MAGIC, + OPEN_CHAPTER_MAGIC_LENGTH); + if (result != UDS_SUCCESS) + return result; + + result = uds_write_to_buffered_writer(writer, OPEN_CHAPTER_VERSION, + OPEN_CHAPTER_VERSION_LENGTH); + if (result != UDS_SUCCESS) + return result; + + for (z = 0; z < index->zone_count; z++) { + open_chapter = index->zones[z]->open_chapter; + record_count += open_chapter->size - open_chapter->deletions; + } + + put_unaligned_le32(record_count, record_count_data); + result = uds_write_to_buffered_writer(writer, record_count_data, + sizeof(record_count_data)); + if (result != UDS_SUCCESS) + return result; + + record_index = 1; + while (record_count > 0) { + for (z = 0; z < index->zone_count; z++) { + open_chapter = index->zones[z]->open_chapter; + if (record_index > open_chapter->size) + continue; + + if (open_chapter->slots[record_index].deleted) + continue; + + record = &open_chapter->records[record_index]; + result = uds_write_to_buffered_writer(writer, (u8 *) record, + sizeof(*record)); + if (result != UDS_SUCCESS) + return result; + + record_count--; + } + + record_index++; + } + + return uds_flush_buffered_writer(writer); +} + +u64 uds_compute_saved_open_chapter_size(struct index_geometry *geometry) +{ + unsigned int records_per_chapter = geometry->records_per_chapter; + + return OPEN_CHAPTER_MAGIC_LENGTH + OPEN_CHAPTER_VERSION_LENGTH + sizeof(u32) + + records_per_chapter * sizeof(struct uds_volume_record); +} + +static int load_version20(struct uds_index *index, struct buffered_reader *reader) +{ + int result; + u32 record_count; + u8 record_count_data[sizeof(u32)]; + struct uds_volume_record record; + + /* + * Track which zones cannot accept any more records. If the open chapter had a different + * number of zones previously, some new zones may have more records than they have space + * for. These overflow records will be discarded. + */ + bool full_flags[MAX_ZONES] = { + false, + }; + + result = uds_read_from_buffered_reader(reader, (u8 *) &record_count_data, + sizeof(record_count_data)); + if (result != UDS_SUCCESS) + return result; + + record_count = get_unaligned_le32(record_count_data); + while (record_count-- > 0) { + unsigned int zone = 0; + + result = uds_read_from_buffered_reader(reader, (u8 *) &record, + sizeof(record)); + if (result != UDS_SUCCESS) + return result; + + if (index->zone_count > 1) + zone = uds_get_volume_index_zone(index->volume_index, + &record.name); + + if (!full_flags[zone]) { + struct open_chapter_zone *open_chapter; + unsigned int remaining; + + open_chapter = index->zones[zone]->open_chapter; + remaining = uds_put_open_chapter(open_chapter, &record.name, + &record.data); + /* Do not allow any zone to fill completely. */ + full_flags[zone] = (remaining <= 1); + } + } + + return UDS_SUCCESS; +} + +int uds_load_open_chapter(struct uds_index *index, struct buffered_reader *reader) +{ + u8 version[OPEN_CHAPTER_VERSION_LENGTH]; + int result; + + result = uds_verify_buffered_data(reader, OPEN_CHAPTER_MAGIC, + OPEN_CHAPTER_MAGIC_LENGTH); + if (result != UDS_SUCCESS) + return result; + + result = uds_read_from_buffered_reader(reader, version, sizeof(version)); + if (result != UDS_SUCCESS) + return result; + + if (memcmp(OPEN_CHAPTER_VERSION, version, sizeof(version)) != 0) { + return vdo_log_error_strerror(UDS_CORRUPT_DATA, + "Invalid open chapter version: %.*s", + (int) sizeof(version), version); + } + + return load_version20(index, reader); +} |