Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Matthew Sakai | 1108 | 98.14% | 2 | 25.00% |
Mike Snitzer | 21 | 1.86% | 6 | 75.00% |
Total | 1129 | 8 |
// SPDX-License-Identifier: GPL-2.0-only /* * Copyright 2023 Red Hat */ #include "chapter-index.h" #include "errors.h" #include "logger.h" #include "memory-alloc.h" #include "permassert.h" #include "hash-utils.h" #include "indexer.h" int uds_make_open_chapter_index(struct open_chapter_index **chapter_index, const struct index_geometry *geometry, u64 volume_nonce) { int result; size_t memory_size; struct open_chapter_index *index; result = vdo_allocate(1, struct open_chapter_index, "open chapter index", &index); if (result != VDO_SUCCESS) return result; /* * The delta index will rebalance delta lists when memory gets tight, * so give the chapter index one extra page. */ memory_size = ((geometry->index_pages_per_chapter + 1) * geometry->bytes_per_page); index->geometry = geometry; index->volume_nonce = volume_nonce; result = uds_initialize_delta_index(&index->delta_index, 1, geometry->delta_lists_per_chapter, geometry->chapter_mean_delta, geometry->chapter_payload_bits, memory_size, 'm'); if (result != UDS_SUCCESS) { vdo_free(index); return result; } index->memory_size = index->delta_index.memory_size + sizeof(struct open_chapter_index); *chapter_index = index; return UDS_SUCCESS; } void uds_free_open_chapter_index(struct open_chapter_index *chapter_index) { if (chapter_index == NULL) return; uds_uninitialize_delta_index(&chapter_index->delta_index); vdo_free(chapter_index); } /* Re-initialize an open chapter index for a new chapter. */ void uds_empty_open_chapter_index(struct open_chapter_index *chapter_index, u64 virtual_chapter_number) { uds_reset_delta_index(&chapter_index->delta_index); chapter_index->virtual_chapter_number = virtual_chapter_number; } static inline bool was_entry_found(const struct delta_index_entry *entry, u32 address) { return (!entry->at_end) && (entry->key == address); } /* Associate a record name with the record page containing its metadata. */ int uds_put_open_chapter_index_record(struct open_chapter_index *chapter_index, const struct uds_record_name *name, u32 page_number) { int result; struct delta_index_entry entry; u32 address; u32 list_number; const u8 *found_name; bool found; const struct index_geometry *geometry = chapter_index->geometry; u64 chapter_number = chapter_index->virtual_chapter_number; u32 record_pages = geometry->record_pages_per_chapter; result = VDO_ASSERT(page_number < record_pages, "Page number within chapter (%u) exceeds the maximum value %u", page_number, record_pages); if (result != VDO_SUCCESS) return UDS_INVALID_ARGUMENT; address = uds_hash_to_chapter_delta_address(name, geometry); list_number = uds_hash_to_chapter_delta_list(name, geometry); result = uds_get_delta_index_entry(&chapter_index->delta_index, list_number, address, name->name, &entry); if (result != UDS_SUCCESS) return result; found = was_entry_found(&entry, address); result = VDO_ASSERT(!(found && entry.is_collision), "Chunk appears more than once in chapter %llu", (unsigned long long) chapter_number); if (result != VDO_SUCCESS) return UDS_BAD_STATE; found_name = (found ? name->name : NULL); return uds_put_delta_index_entry(&entry, address, page_number, found_name); } /* * Pack a section of an open chapter index into a chapter index page. A range of delta lists * (starting with a specified list index) is copied from the open chapter index into a memory page. * The number of lists copied onto the page is returned to the caller on success. * * @chapter_index: The open chapter index * @memory: The memory page to use * @first_list: The first delta list number to be copied * @last_page: If true, this is the last page of the chapter index and all the remaining lists must * be packed onto this page * @lists_packed: The number of delta lists that were packed onto this page */ int uds_pack_open_chapter_index_page(struct open_chapter_index *chapter_index, u8 *memory, u32 first_list, bool last_page, u32 *lists_packed) { int result; struct delta_index *delta_index = &chapter_index->delta_index; struct delta_index_stats stats; u64 nonce = chapter_index->volume_nonce; u64 chapter_number = chapter_index->virtual_chapter_number; const struct index_geometry *geometry = chapter_index->geometry; u32 list_count = geometry->delta_lists_per_chapter; unsigned int removals = 0; struct delta_index_entry entry; u32 next_list; s32 list_number; for (;;) { result = uds_pack_delta_index_page(delta_index, nonce, memory, geometry->bytes_per_page, chapter_number, first_list, lists_packed); if (result != UDS_SUCCESS) return result; if ((first_list + *lists_packed) == list_count) { /* All lists are packed. */ break; } else if (*lists_packed == 0) { /* * The next delta list does not fit on a page. This delta list will be * removed. */ } else if (last_page) { /* * This is the last page and there are lists left unpacked, but all of the * remaining lists must fit on the page. Find a list that contains entries * and remove the entire list. Try the first list that does not fit. If it * is empty, we will select the last list that already fits and has any * entries. */ } else { /* This page is done. */ break; } if (removals == 0) { uds_get_delta_index_stats(delta_index, &stats); vdo_log_warning("The chapter index for chapter %llu contains %llu entries with %llu collisions", (unsigned long long) chapter_number, (unsigned long long) stats.record_count, (unsigned long long) stats.collision_count); } list_number = *lists_packed; do { if (list_number < 0) return UDS_OVERFLOW; next_list = first_list + list_number--, result = uds_start_delta_index_search(delta_index, next_list, 0, &entry); if (result != UDS_SUCCESS) return result; result = uds_next_delta_index_entry(&entry); if (result != UDS_SUCCESS) return result; } while (entry.at_end); do { result = uds_remove_delta_index_entry(&entry); if (result != UDS_SUCCESS) return result; removals++; } while (!entry.at_end); } if (removals > 0) { vdo_log_warning("To avoid chapter index page overflow in chapter %llu, %u entries were removed from the chapter index", (unsigned long long) chapter_number, removals); } return UDS_SUCCESS; } /* Make a new chapter index page, initializing it with the data from a given index_page buffer. */ int uds_initialize_chapter_index_page(struct delta_index_page *index_page, const struct index_geometry *geometry, u8 *page_buffer, u64 volume_nonce) { return uds_initialize_delta_index_page(index_page, volume_nonce, geometry->chapter_mean_delta, geometry->chapter_payload_bits, page_buffer, geometry->bytes_per_page); } /* Validate a chapter index page read during rebuild. */ int uds_validate_chapter_index_page(const struct delta_index_page *index_page, const struct index_geometry *geometry) { int result; const struct delta_index *delta_index = &index_page->delta_index; u32 first = index_page->lowest_list_number; u32 last = index_page->highest_list_number; u32 list_number; /* We walk every delta list from start to finish. */ for (list_number = first; list_number <= last; list_number++) { struct delta_index_entry entry; result = uds_start_delta_index_search(delta_index, list_number - first, 0, &entry); if (result != UDS_SUCCESS) return result; for (;;) { result = uds_next_delta_index_entry(&entry); if (result != UDS_SUCCESS) { /* * A random bit stream is highly likely to arrive here when we go * past the end of the delta list. */ return result; } if (entry.at_end) break; /* Also make sure that the record page field contains a plausible value. */ if (uds_get_delta_entry_value(&entry) >= geometry->record_pages_per_chapter) { /* * Do not log this as an error. It happens in normal operation when * we are doing a rebuild but haven't written the entire volume * once. */ return UDS_CORRUPT_DATA; } } } return UDS_SUCCESS; } /* * Search a chapter index page for a record name, returning the record page number that may contain * the name. */ int uds_search_chapter_index_page(struct delta_index_page *index_page, const struct index_geometry *geometry, const struct uds_record_name *name, u16 *record_page_ptr) { int result; struct delta_index *delta_index = &index_page->delta_index; u32 address = uds_hash_to_chapter_delta_address(name, geometry); u32 delta_list_number = uds_hash_to_chapter_delta_list(name, geometry); u32 sub_list_number = delta_list_number - index_page->lowest_list_number; struct delta_index_entry entry; result = uds_get_delta_index_entry(delta_index, sub_list_number, address, name->name, &entry); if (result != UDS_SUCCESS) return result; if (was_entry_found(&entry, address)) *record_page_ptr = uds_get_delta_entry_value(&entry); else *record_page_ptr = NO_CHAPTER_INDEX_ENTRY; return UDS_SUCCESS; }
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