// SPDX-License-Identifier: GPL-2.0-only /* * Copyright 2023 Red Hat */ #include "dedupe.h" #include "indexer.h" #include "logger.h" #include "memory-alloc.h" #include "message-stats.h" #include "statistics.h" #include "thread-device.h" #include "vdo.h" static void write_u64(char *prefix, u64 value, char *suffix, char **buf, unsigned int *maxlen) { int count; count = scnprintf(*buf, *maxlen, "%s%llu%s", prefix == NULL ? "" : prefix, value, suffix == NULL ? "" : suffix); *buf += count; *maxlen -= count; } static void write_u32(char *prefix, u32 value, char *suffix, char **buf, unsigned int *maxlen) { int count; count = scnprintf(*buf, *maxlen, "%s%u%s", prefix == NULL ? "" : prefix, value, suffix == NULL ? "" : suffix); *buf += count; *maxlen -= count; } static void write_block_count_t(char *prefix, block_count_t value, char *suffix, char **buf, unsigned int *maxlen) { int count; count = scnprintf(*buf, *maxlen, "%s%llu%s", prefix == NULL ? "" : prefix, value, suffix == NULL ? "" : suffix); *buf += count; *maxlen -= count; } static void write_string(char *prefix, char *value, char *suffix, char **buf, unsigned int *maxlen) { int count; count = scnprintf(*buf, *maxlen, "%s%s%s", prefix == NULL ? "" : prefix, value, suffix == NULL ? "" : suffix); *buf += count; *maxlen -= count; } static void write_bool(char *prefix, bool value, char *suffix, char **buf, unsigned int *maxlen) { int count; count = scnprintf(*buf, *maxlen, "%s%d%s", prefix == NULL ? "" : prefix, value, suffix == NULL ? "" : suffix); *buf += count; *maxlen -= count; } static void write_u8(char *prefix, u8 value, char *suffix, char **buf, unsigned int *maxlen) { int count; count = scnprintf(*buf, *maxlen, "%s%u%s", prefix == NULL ? "" : prefix, value, suffix == NULL ? "" : suffix); *buf += count; *maxlen -= count; } static void write_block_allocator_statistics(char *prefix, struct block_allocator_statistics *stats, char *suffix, char **buf, unsigned int *maxlen) { write_string(prefix, "{ ", NULL, buf, maxlen); /* The total number of slabs from which blocks may be allocated */ write_u64("slabCount : ", stats->slab_count, ", ", buf, maxlen); /* The total number of slabs from which blocks have ever been allocated */ write_u64("slabsOpened : ", stats->slabs_opened, ", ", buf, maxlen); /* The number of times since loading that a slab has been re-opened */ write_u64("slabsReopened : ", stats->slabs_reopened, ", ", buf, maxlen); write_string(NULL, "}", suffix, buf, maxlen); } static void write_commit_statistics(char *prefix, struct commit_statistics *stats, char *suffix, char **buf, unsigned int *maxlen) { write_string(prefix, "{ ", NULL, buf, maxlen); /* The total number of items on which processing has started */ write_u64("started : ", stats->started, ", ", buf, maxlen); /* The total number of items for which a write operation has been issued */ write_u64("written : ", stats->written, ", ", buf, maxlen); /* The total number of items for which a write operation has completed */ write_u64("committed : ", stats->committed, ", ", buf, maxlen); write_string(NULL, "}", suffix, buf, maxlen); } static void write_recovery_journal_statistics(char *prefix, struct recovery_journal_statistics *stats, char *suffix, char **buf, unsigned int *maxlen) { write_string(prefix, "{ ", NULL, buf, maxlen); /* Number of times the on-disk journal was full */ write_u64("diskFull : ", stats->disk_full, ", ", buf, maxlen); /* Number of times the recovery journal requested slab journal commits. */ write_u64("slabJournalCommitsRequested : ", stats->slab_journal_commits_requested, ", ", buf, maxlen); /* Write/Commit totals for individual journal entries */ write_commit_statistics("entries : ", &stats->entries, ", ", buf, maxlen); /* Write/Commit totals for journal blocks */ write_commit_statistics("blocks : ", &stats->blocks, ", ", buf, maxlen); write_string(NULL, "}", suffix, buf, maxlen); } static void write_packer_statistics(char *prefix, struct packer_statistics *stats, char *suffix, char **buf, unsigned int *maxlen) { write_string(prefix, "{ ", NULL, buf, maxlen); /* Number of compressed data items written since startup */ write_u64("compressedFragmentsWritten : ", stats->compressed_fragments_written, ", ", buf, maxlen); /* Number of blocks containing compressed items written since startup */ write_u64("compressedBlocksWritten : ", stats->compressed_blocks_written, ", ", buf, maxlen); /* Number of VIOs that are pending in the packer */ write_u64("compressedFragmentsInPacker : ", stats->compressed_fragments_in_packer, ", ", buf, maxlen); write_string(NULL, "}", suffix, buf, maxlen); } static void write_slab_journal_statistics(char *prefix, struct slab_journal_statistics *stats, char *suffix, char **buf, unsigned int *maxlen) { write_string(prefix, "{ ", NULL, buf, maxlen); /* Number of times the on-disk journal was full */ write_u64("diskFullCount : ", stats->disk_full_count, ", ", buf, maxlen); /* Number of times an entry was added over the flush threshold */ write_u64("flushCount : ", stats->flush_count, ", ", buf, maxlen); /* Number of times an entry was added over the block threshold */ write_u64("blockedCount : ", stats->blocked_count, ", ", buf, maxlen); /* Number of times a tail block was written */ write_u64("blocksWritten : ", stats->blocks_written, ", ", buf, maxlen); /* Number of times we had to wait for the tail to write */ write_u64("tailBusyCount : ", stats->tail_busy_count, ", ", buf, maxlen); write_string(NULL, "}", suffix, buf, maxlen); } static void write_slab_summary_statistics(char *prefix, struct slab_summary_statistics *stats, char *suffix, char **buf, unsigned int *maxlen) { write_string(prefix, "{ ", NULL, buf, maxlen); /* Number of blocks written */ write_u64("blocksWritten : ", stats->blocks_written, ", ", buf, maxlen); write_string(NULL, "}", suffix, buf, maxlen); } static void write_ref_counts_statistics(char *prefix, struct ref_counts_statistics *stats, char *suffix, char **buf, unsigned int *maxlen) { write_string(prefix, "{ ", NULL, buf, maxlen); /* Number of reference blocks written */ write_u64("blocksWritten : ", stats->blocks_written, ", ", buf, maxlen); write_string(NULL, "}", suffix, buf, maxlen); } static void write_block_map_statistics(char *prefix, struct block_map_statistics *stats, char *suffix, char **buf, unsigned int *maxlen) { write_string(prefix, "{ ", NULL, buf, maxlen); /* number of dirty (resident) pages */ write_u32("dirtyPages : ", stats->dirty_pages, ", ", buf, maxlen); /* number of clean (resident) pages */ write_u32("cleanPages : ", stats->clean_pages, ", ", buf, maxlen); /* number of free pages */ write_u32("freePages : ", stats->free_pages, ", ", buf, maxlen); /* number of pages in failed state */ write_u32("failedPages : ", stats->failed_pages, ", ", buf, maxlen); /* number of pages incoming */ write_u32("incomingPages : ", stats->incoming_pages, ", ", buf, maxlen); /* number of pages outgoing */ write_u32("outgoingPages : ", stats->outgoing_pages, ", ", buf, maxlen); /* how many times free page not avail */ write_u32("cachePressure : ", stats->cache_pressure, ", ", buf, maxlen); /* number of get_vdo_page() calls for read */ write_u64("readCount : ", stats->read_count, ", ", buf, maxlen); /* number of get_vdo_page() calls for write */ write_u64("writeCount : ", stats->write_count, ", ", buf, maxlen); /* number of times pages failed to read */ write_u64("failedReads : ", stats->failed_reads, ", ", buf, maxlen); /* number of times pages failed to write */ write_u64("failedWrites : ", stats->failed_writes, ", ", buf, maxlen); /* number of gets that are reclaimed */ write_u64("reclaimed : ", stats->reclaimed, ", ", buf, maxlen); /* number of gets for outgoing pages */ write_u64("readOutgoing : ", stats->read_outgoing, ", ", buf, maxlen); /* number of gets that were already there */ write_u64("foundInCache : ", stats->found_in_cache, ", ", buf, maxlen); /* number of gets requiring discard */ write_u64("discardRequired : ", stats->discard_required, ", ", buf, maxlen); /* number of gets enqueued for their page */ write_u64("waitForPage : ", stats->wait_for_page, ", ", buf, maxlen); /* number of gets that have to fetch */ write_u64("fetchRequired : ", stats->fetch_required, ", ", buf, maxlen); /* number of page fetches */ write_u64("pagesLoaded : ", stats->pages_loaded, ", ", buf, maxlen); /* number of page saves */ write_u64("pagesSaved : ", stats->pages_saved, ", ", buf, maxlen); /* the number of flushes issued */ write_u64("flushCount : ", stats->flush_count, ", ", buf, maxlen); write_string(NULL, "}", suffix, buf, maxlen); } static void write_hash_lock_statistics(char *prefix, struct hash_lock_statistics *stats, char *suffix, char **buf, unsigned int *maxlen) { write_string(prefix, "{ ", NULL, buf, maxlen); /* Number of times the UDS advice proved correct */ write_u64("dedupeAdviceValid : ", stats->dedupe_advice_valid, ", ", buf, maxlen); /* Number of times the UDS advice proved incorrect */ write_u64("dedupeAdviceStale : ", stats->dedupe_advice_stale, ", ", buf, maxlen); /* Number of writes with the same data as another in-flight write */ write_u64("concurrentDataMatches : ", stats->concurrent_data_matches, ", ", buf, maxlen); /* Number of writes whose hash collided with an in-flight write */ write_u64("concurrentHashCollisions : ", stats->concurrent_hash_collisions, ", ", buf, maxlen); /* Current number of dedupe queries that are in flight */ write_u32("currDedupeQueries : ", stats->curr_dedupe_queries, ", ", buf, maxlen); write_string(NULL, "}", suffix, buf, maxlen); } static void write_error_statistics(char *prefix, struct error_statistics *stats, char *suffix, char **buf, unsigned int *maxlen) { write_string(prefix, "{ ", NULL, buf, maxlen); /* number of times VDO got an invalid dedupe advice PBN from UDS */ write_u64("invalidAdvicePBNCount : ", stats->invalid_advice_pbn_count, ", ", buf, maxlen); /* number of times a VIO completed with a VDO_NO_SPACE error */ write_u64("noSpaceErrorCount : ", stats->no_space_error_count, ", ", buf, maxlen); /* number of times a VIO completed with a VDO_READ_ONLY error */ write_u64("readOnlyErrorCount : ", stats->read_only_error_count, ", ", buf, maxlen); write_string(NULL, "}", suffix, buf, maxlen); } static void write_bio_stats(char *prefix, struct bio_stats *stats, char *suffix, char **buf, unsigned int *maxlen) { write_string(prefix, "{ ", NULL, buf, maxlen); /* Number of REQ_OP_READ bios */ write_u64("read : ", stats->read, ", ", buf, maxlen); /* Number of REQ_OP_WRITE bios with data */ write_u64("write : ", stats->write, ", ", buf, maxlen); /* Number of bios tagged with REQ_PREFLUSH and containing no data */ write_u64("emptyFlush : ", stats->empty_flush, ", ", buf, maxlen); /* Number of REQ_OP_DISCARD bios */ write_u64("discard : ", stats->discard, ", ", buf, maxlen); /* Number of bios tagged with REQ_PREFLUSH */ write_u64("flush : ", stats->flush, ", ", buf, maxlen); /* Number of bios tagged with REQ_FUA */ write_u64("fua : ", stats->fua, ", ", buf, maxlen); write_string(NULL, "}", suffix, buf, maxlen); } static void write_memory_usage(char *prefix, struct memory_usage *stats, char *suffix, char **buf, unsigned int *maxlen) { write_string(prefix, "{ ", NULL, buf, maxlen); /* Tracked bytes currently allocated. */ write_u64("bytesUsed : ", stats->bytes_used, ", ", buf, maxlen); /* Maximum tracked bytes allocated. */ write_u64("peakBytesUsed : ", stats->peak_bytes_used, ", ", buf, maxlen); write_string(NULL, "}", suffix, buf, maxlen); } static void write_index_statistics(char *prefix, struct index_statistics *stats, char *suffix, char **buf, unsigned int *maxlen) { write_string(prefix, "{ ", NULL, buf, maxlen); /* Number of records stored in the index */ write_u64("entriesIndexed : ", stats->entries_indexed, ", ", buf, maxlen); /* Number of post calls that found an existing entry */ write_u64("postsFound : ", stats->posts_found, ", ", buf, maxlen); /* Number of post calls that added a new entry */ write_u64("postsNotFound : ", stats->posts_not_found, ", ", buf, maxlen); /* Number of query calls that found an existing entry */ write_u64("queriesFound : ", stats->queries_found, ", ", buf, maxlen); /* Number of query calls that added a new entry */ write_u64("queriesNotFound : ", stats->queries_not_found, ", ", buf, maxlen); /* Number of update calls that found an existing entry */ write_u64("updatesFound : ", stats->updates_found, ", ", buf, maxlen); /* Number of update calls that added a new entry */ write_u64("updatesNotFound : ", stats->updates_not_found, ", ", buf, maxlen); /* Number of entries discarded */ write_u64("entriesDiscarded : ", stats->entries_discarded, ", ", buf, maxlen); write_string(NULL, "}", suffix, buf, maxlen); } static void write_vdo_statistics(char *prefix, struct vdo_statistics *stats, char *suffix, char **buf, unsigned int *maxlen) { write_string(prefix, "{ ", NULL, buf, maxlen); write_u32("version : ", stats->version, ", ", buf, maxlen); /* Number of blocks used for data */ write_u64("dataBlocksUsed : ", stats->data_blocks_used, ", ", buf, maxlen); /* Number of blocks used for VDO metadata */ write_u64("overheadBlocksUsed : ", stats->overhead_blocks_used, ", ", buf, maxlen); /* Number of logical blocks that are currently mapped to physical blocks */ write_u64("logicalBlocksUsed : ", stats->logical_blocks_used, ", ", buf, maxlen); /* number of physical blocks */ write_block_count_t("physicalBlocks : ", stats->physical_blocks, ", ", buf, maxlen); /* number of logical blocks */ write_block_count_t("logicalBlocks : ", stats->logical_blocks, ", ", buf, maxlen); /* Size of the block map page cache, in bytes */ write_u64("blockMapCacheSize : ", stats->block_map_cache_size, ", ", buf, maxlen); /* The physical block size */ write_u64("blockSize : ", stats->block_size, ", ", buf, maxlen); /* Number of times the VDO has successfully recovered */ write_u64("completeRecoveries : ", stats->complete_recoveries, ", ", buf, maxlen); /* Number of times the VDO has recovered from read-only mode */ write_u64("readOnlyRecoveries : ", stats->read_only_recoveries, ", ", buf, maxlen); /* String describing the operating mode of the VDO */ write_string("mode : ", stats->mode, ", ", buf, maxlen); /* Whether the VDO is in recovery mode */ write_bool("inRecoveryMode : ", stats->in_recovery_mode, ", ", buf, maxlen); /* What percentage of recovery mode work has been completed */ write_u8("recoveryPercentage : ", stats->recovery_percentage, ", ", buf, maxlen); /* The statistics for the compressed block packer */ write_packer_statistics("packer : ", &stats->packer, ", ", buf, maxlen); /* Counters for events in the block allocator */ write_block_allocator_statistics("allocator : ", &stats->allocator, ", ", buf, maxlen); /* Counters for events in the recovery journal */ write_recovery_journal_statistics("journal : ", &stats->journal, ", ", buf, maxlen); /* The statistics for the slab journals */ write_slab_journal_statistics("slabJournal : ", &stats->slab_journal, ", ", buf, maxlen); /* The statistics for the slab summary */ write_slab_summary_statistics("slabSummary : ", &stats->slab_summary, ", ", buf, maxlen); /* The statistics for the reference counts */ write_ref_counts_statistics("refCounts : ", &stats->ref_counts, ", ", buf, maxlen); /* The statistics for the block map */ write_block_map_statistics("blockMap : ", &stats->block_map, ", ", buf, maxlen); /* The dedupe statistics from hash locks */ write_hash_lock_statistics("hashLock : ", &stats->hash_lock, ", ", buf, maxlen); /* Counts of error conditions */ write_error_statistics("errors : ", &stats->errors, ", ", buf, maxlen); /* The VDO instance */ write_u32("instance : ", stats->instance, ", ", buf, maxlen); /* Current number of active VIOs */ write_u32("currentVIOsInProgress : ", stats->current_vios_in_progress, ", ", buf, maxlen); /* Maximum number of active VIOs */ write_u32("maxVIOs : ", stats->max_vios, ", ", buf, maxlen); /* Number of times the UDS index was too slow in responding */ write_u64("dedupeAdviceTimeouts : ", stats->dedupe_advice_timeouts, ", ", buf, maxlen); /* Number of flush requests submitted to the storage device */ write_u64("flushOut : ", stats->flush_out, ", ", buf, maxlen); /* Logical block size */ write_u64("logicalBlockSize : ", stats->logical_block_size, ", ", buf, maxlen); /* Bios submitted into VDO from above */ write_bio_stats("biosIn : ", &stats->bios_in, ", ", buf, maxlen); write_bio_stats("biosInPartial : ", &stats->bios_in_partial, ", ", buf, maxlen); /* Bios submitted onward for user data */ write_bio_stats("biosOut : ", &stats->bios_out, ", ", buf, maxlen); /* Bios submitted onward for metadata */ write_bio_stats("biosMeta : ", &stats->bios_meta, ", ", buf, maxlen); write_bio_stats("biosJournal : ", &stats->bios_journal, ", ", buf, maxlen); write_bio_stats("biosPageCache : ", &stats->bios_page_cache, ", ", buf, maxlen); write_bio_stats("biosOutCompleted : ", &stats->bios_out_completed, ", ", buf, maxlen); write_bio_stats("biosMetaCompleted : ", &stats->bios_meta_completed, ", ", buf, maxlen); write_bio_stats("biosJournalCompleted : ", &stats->bios_journal_completed, ", ", buf, maxlen); write_bio_stats("biosPageCacheCompleted : ", &stats->bios_page_cache_completed, ", ", buf, maxlen); write_bio_stats("biosAcknowledged : ", &stats->bios_acknowledged, ", ", buf, maxlen); write_bio_stats("biosAcknowledgedPartial : ", &stats->bios_acknowledged_partial, ", ", buf, maxlen); /* Current number of bios in progress */ write_bio_stats("biosInProgress : ", &stats->bios_in_progress, ", ", buf, maxlen); /* Memory usage stats. */ write_memory_usage("memoryUsage : ", &stats->memory_usage, ", ", buf, maxlen); /* The statistics for the UDS index */ write_index_statistics("index : ", &stats->index, ", ", buf, maxlen); write_string(NULL, "}", suffix, buf, maxlen); } int vdo_write_stats(struct vdo *vdo, char *buf, unsigned int maxlen) { struct vdo_statistics *stats; int result; result = vdo_allocate(1, struct vdo_statistics, __func__, &stats); if (result != VDO_SUCCESS) { vdo_log_error("Cannot allocate memory to write VDO statistics"); return result; } vdo_fetch_statistics(vdo, stats); write_vdo_statistics(NULL, stats, NULL, &buf, &maxlen); vdo_free(stats); return VDO_SUCCESS; } static void write_index_memory(u32 mem, char **buf, unsigned int *maxlen) { char *prefix = "memorySize : "; /* Convert index memory to fractional value */ if (mem == (u32)UDS_MEMORY_CONFIG_256MB) write_string(prefix, "0.25, ", NULL, buf, maxlen); else if (mem == (u32)UDS_MEMORY_CONFIG_512MB) write_string(prefix, "0.50, ", NULL, buf, maxlen); else if (mem == (u32)UDS_MEMORY_CONFIG_768MB) write_string(prefix, "0.75, ", NULL, buf, maxlen); else write_u32(prefix, mem, ", ", buf, maxlen); } static void write_index_config(struct index_config *config, char **buf, unsigned int *maxlen) { write_string("index : ", "{ ", NULL, buf, maxlen); /* index mem size */ write_index_memory(config->mem, buf, maxlen); /* whether the index is sparse or not */ write_bool("isSparse : ", config->sparse, ", ", buf, maxlen); write_string(NULL, "}", ", ", buf, maxlen); } int vdo_write_config(struct vdo *vdo, char **buf, unsigned int *maxlen) { struct vdo_config *config = &vdo->states.vdo.config; write_string(NULL, "{ ", NULL, buf, maxlen); /* version */ write_u32("version : ", 1, ", ", buf, maxlen); /* physical size */ write_block_count_t("physicalSize : ", config->physical_blocks * VDO_BLOCK_SIZE, ", ", buf, maxlen); /* logical size */ write_block_count_t("logicalSize : ", config->logical_blocks * VDO_BLOCK_SIZE, ", ", buf, maxlen); /* slab size */ write_block_count_t("slabSize : ", config->slab_size, ", ", buf, maxlen); /* index config */ write_index_config(&vdo->geometry.index_config, buf, maxlen); write_string(NULL, "}", NULL, buf, maxlen); return VDO_SUCCESS; }