drivers/md/dm-vdo/indexer/index-page-map.c - linux - Git at Google

 // SPDX-License-Identifier: GPL-2.0-only
 /*
  * Copyright 2023 Red Hat
  */

 #include "index-page-map.h"

 #include "errors.h"
 #include "logger.h"
 #include "memory-alloc.h"
 #include "numeric.h"
 #include "permassert.h"
 #include "string-utils.h"
 #include "thread-utils.h"

 #include "hash-utils.h"
 #include "indexer.h"

 /*
  * The index page map is conceptually a two-dimensional array indexed by chapter number and index
  * page number within the chapter. Each entry contains the number of the last delta list on that
  * index page. In order to save memory, the information for the last page in each chapter is not
  * recorded, as it is known from the geometry.
  */

 static const u8 PAGE_MAP_MAGIC[] = "ALBIPM02";

 #define PAGE_MAP_MAGIC_LENGTH (sizeof(PAGE_MAP_MAGIC) - 1)

 static inline u32 get_entry_count(const struct index_geometry *geometry)
 {
 	return geometry->chapters_per_volume * (geometry->index_pages_per_chapter - 1);
 }

 int uds_make_index_page_map(const struct index_geometry *geometry,
 			    struct index_page_map **map_ptr)
 {
 	int result;
 	struct index_page_map *map;

 	result = vdo_allocate(1, struct index_page_map, "page map", &map);
 	if (result != VDO_SUCCESS)
 		return result;

 	map->geometry = geometry;
 	map->entries_per_chapter = geometry->index_pages_per_chapter - 1;
 	result = vdo_allocate(get_entry_count(geometry), u16, "Index Page Map Entries",
 			      &map->entries);
 	if (result != VDO_SUCCESS) {
 		uds_free_index_page_map(map);
 		return result;
 	}

 	*map_ptr = map;
 	return UDS_SUCCESS;
 }

 void uds_free_index_page_map(struct index_page_map *map)
 {
 	if (map != NULL) {
 		vdo_free(map->entries);
 		vdo_free(map);
 	}
 }

 void uds_update_index_page_map(struct index_page_map *map, u64 virtual_chapter_number,
 			       u32 chapter_number, u32 index_page_number,
 			       u32 delta_list_number)
 {
 	size_t slot;

 	map->last_update = virtual_chapter_number;
 	if (index_page_number == map->entries_per_chapter)
 		return;

 	slot = (chapter_number * map->entries_per_chapter) + index_page_number;
 	map->entries[slot] = delta_list_number;
 }

 u32 uds_find_index_page_number(const struct index_page_map *map,
 			       const struct uds_record_name *name, u32 chapter_number)
 {
 	u32 delta_list_number = uds_hash_to_chapter_delta_list(name, map->geometry);
 	u32 slot = chapter_number * map->entries_per_chapter;
 	u32 page;

 	for (page = 0; page < map->entries_per_chapter; page++) {
 		if (delta_list_number <= map->entries[slot + page])
 			break;
 	}

 	return page;
 }

 void uds_get_list_number_bounds(const struct index_page_map *map, u32 chapter_number,
 				u32 index_page_number, u32 *lowest_list,
 				u32 *highest_list)
 {
 	u32 slot = chapter_number * map->entries_per_chapter;

 	*lowest_list = ((index_page_number == 0) ?
 			0 : map->entries[slot + index_page_number - 1] + 1);
 	*highest_list = ((index_page_number < map->entries_per_chapter) ?
 			 map->entries[slot + index_page_number] :
 			 map->geometry->delta_lists_per_chapter - 1);
 }

 u64 uds_compute_index_page_map_save_size(const struct index_geometry *geometry)
 {
 	return PAGE_MAP_MAGIC_LENGTH + sizeof(u64) + sizeof(u16) * get_entry_count(geometry);
 }

 int uds_write_index_page_map(struct index_page_map *map, struct buffered_writer *writer)
 {
 	int result;
 	u8 *buffer;
 	size_t offset = 0;
 	u64 saved_size = uds_compute_index_page_map_save_size(map->geometry);
 	u32 i;

 	result = vdo_allocate(saved_size, u8, "page map data", &buffer);
 	if (result != VDO_SUCCESS)
 		return result;

 	memcpy(buffer, PAGE_MAP_MAGIC, PAGE_MAP_MAGIC_LENGTH);
 	offset += PAGE_MAP_MAGIC_LENGTH;
 	encode_u64_le(buffer, &offset, map->last_update);
 	for (i = 0; i < get_entry_count(map->geometry); i++)
 		encode_u16_le(buffer, &offset, map->entries[i]);

 	result = uds_write_to_buffered_writer(writer, buffer, offset);
 	vdo_free(buffer);
 	if (result != UDS_SUCCESS)
 		return result;

 	return uds_flush_buffered_writer(writer);
 }

 int uds_read_index_page_map(struct index_page_map *map, struct buffered_reader *reader)
 {
 	int result;
 	u8 magic[PAGE_MAP_MAGIC_LENGTH];
 	u8 *buffer;
 	size_t offset = 0;
 	u64 saved_size = uds_compute_index_page_map_save_size(map->geometry);
 	u32 i;

 	result = vdo_allocate(saved_size, u8, "page map data", &buffer);
 	if (result != VDO_SUCCESS)
 		return result;

 	result = uds_read_from_buffered_reader(reader, buffer, saved_size);
 	if (result != UDS_SUCCESS) {
 		vdo_free(buffer);
 		return result;
 	}

 	memcpy(&magic, buffer, PAGE_MAP_MAGIC_LENGTH);
 	offset += PAGE_MAP_MAGIC_LENGTH;
 	if (memcmp(magic, PAGE_MAP_MAGIC, PAGE_MAP_MAGIC_LENGTH) != 0) {
 		vdo_free(buffer);
 		return UDS_CORRUPT_DATA;
 	}

 	decode_u64_le(buffer, &offset, &map->last_update);
 	for (i = 0; i < get_entry_count(map->geometry); i++)
 		decode_u16_le(buffer, &offset, &map->entries[i]);

 	vdo_free(buffer);
 	vdo_log_debug("read index page map, last update %llu",
 		      (unsigned long long) map->last_update);
 	return UDS_SUCCESS;
 }
	// SPDX-License-Identifier: GPL-2.0-only
	/*
	* Copyright 2023 Red Hat
	*/

	#include "index-page-map.h"

	#include "errors.h"
	#include "logger.h"
	#include "memory-alloc.h"
	#include "numeric.h"
	#include "permassert.h"
	#include "string-utils.h"
	#include "thread-utils.h"

	#include "hash-utils.h"
	#include "indexer.h"

	/*
	* The index page map is conceptually a two-dimensional array indexed by chapter number and index
	* page number within the chapter. Each entry contains the number of the last delta list on that
	* index page. In order to save memory, the information for the last page in each chapter is not
	* recorded, as it is known from the geometry.
	*/

	static const u8 PAGE_MAP_MAGIC[] = "ALBIPM02";

	#define PAGE_MAP_MAGIC_LENGTH (sizeof(PAGE_MAP_MAGIC) - 1)

	static inline u32 get_entry_count(const struct index_geometry *geometry)
	{
	return geometry->chapters_per_volume * (geometry->index_pages_per_chapter - 1);
	}

	int uds_make_index_page_map(const struct index_geometry *geometry,
	struct index_page_map **map_ptr)
	{
	int result;
	struct index_page_map *map;

	result = vdo_allocate(1, struct index_page_map, "page map", &map);
	if (result != VDO_SUCCESS)
	return result;

	map->geometry = geometry;
	map->entries_per_chapter = geometry->index_pages_per_chapter - 1;
	result = vdo_allocate(get_entry_count(geometry), u16, "Index Page Map Entries",
	&map->entries);
	if (result != VDO_SUCCESS) {
	uds_free_index_page_map(map);
	return result;
	}

	*map_ptr = map;
	return UDS_SUCCESS;
	}

	void uds_free_index_page_map(struct index_page_map *map)
	{
	if (map != NULL) {
	vdo_free(map->entries);
	vdo_free(map);
	}
	}

	void uds_update_index_page_map(struct index_page_map *map, u64 virtual_chapter_number,
	u32 chapter_number, u32 index_page_number,
	u32 delta_list_number)
	{
	size_t slot;

	map->last_update = virtual_chapter_number;
	if (index_page_number == map->entries_per_chapter)
	return;

	slot = (chapter_number * map->entries_per_chapter) + index_page_number;
	map->entries[slot] = delta_list_number;
	}

	u32 uds_find_index_page_number(const struct index_page_map *map,
	const struct uds_record_name *name, u32 chapter_number)
	{
	u32 delta_list_number = uds_hash_to_chapter_delta_list(name, map->geometry);
	u32 slot = chapter_number * map->entries_per_chapter;
	u32 page;

	for (page = 0; page < map->entries_per_chapter; page++) {
	if (delta_list_number <= map->entries[slot + page])
	break;
	}

	return page;
	}

	void uds_get_list_number_bounds(const struct index_page_map *map, u32 chapter_number,
	u32 index_page_number, u32 *lowest_list,
	u32 *highest_list)
	{
	u32 slot = chapter_number * map->entries_per_chapter;

	*lowest_list = ((index_page_number == 0) ?
	0 : map->entries[slot + index_page_number - 1] + 1);
	*highest_list = ((index_page_number < map->entries_per_chapter) ?
	map->entries[slot + index_page_number] :
	map->geometry->delta_lists_per_chapter - 1);
	}

	u64 uds_compute_index_page_map_save_size(const struct index_geometry *geometry)
	{
	return PAGE_MAP_MAGIC_LENGTH + sizeof(u64) + sizeof(u16) * get_entry_count(geometry);
	}

	int uds_write_index_page_map(struct index_page_map map, struct buffered_writer writer)
	{
	int result;
	u8 *buffer;
	size_t offset = 0;
	u64 saved_size = uds_compute_index_page_map_save_size(map->geometry);
	u32 i;

	result = vdo_allocate(saved_size, u8, "page map data", &buffer);
	if (result != VDO_SUCCESS)
	return result;

	memcpy(buffer, PAGE_MAP_MAGIC, PAGE_MAP_MAGIC_LENGTH);
	offset += PAGE_MAP_MAGIC_LENGTH;
	encode_u64_le(buffer, &offset, map->last_update);
	for (i = 0; i < get_entry_count(map->geometry); i++)
	encode_u16_le(buffer, &offset, map->entries[i]);

	result = uds_write_to_buffered_writer(writer, buffer, offset);
	vdo_free(buffer);
	if (result != UDS_SUCCESS)
	return result;

	return uds_flush_buffered_writer(writer);
	}

	int uds_read_index_page_map(struct index_page_map map, struct buffered_reader reader)
	{
	int result;
	u8 magic[PAGE_MAP_MAGIC_LENGTH];
	u8 *buffer;
	size_t offset = 0;
	u64 saved_size = uds_compute_index_page_map_save_size(map->geometry);
	u32 i;

	result = vdo_allocate(saved_size, u8, "page map data", &buffer);
	if (result != VDO_SUCCESS)
	return result;

	result = uds_read_from_buffered_reader(reader, buffer, saved_size);
	if (result != UDS_SUCCESS) {
	vdo_free(buffer);
	return result;
	}

	memcpy(&magic, buffer, PAGE_MAP_MAGIC_LENGTH);
	offset += PAGE_MAP_MAGIC_LENGTH;
	if (memcmp(magic, PAGE_MAP_MAGIC, PAGE_MAP_MAGIC_LENGTH) != 0) {
	vdo_free(buffer);
	return UDS_CORRUPT_DATA;
	}

	decode_u64_le(buffer, &offset, &map->last_update);
	for (i = 0; i < get_entry_count(map->geometry); i++)
	decode_u16_le(buffer, &offset, &map->entries[i]);

	vdo_free(buffer);
	vdo_log_debug("read index page map, last update %llu",
	(unsigned long long) map->last_update);
	return UDS_SUCCESS;
	}