/***************************************************************************** Copyright (c) 2010, 2016, Oracle and/or its affiliates. All Rights Reserved. Copyright (c) 2012, Facebook Inc. Copyright (c) 2013, 2018, MariaDB Corporation. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Suite 500, Boston, MA 02110-1335 USA *****************************************************************************/ /**************************************************//** @file srv/srv0mon.cc Database monitor counter interfaces Created 12/9/2009 Jimmy Yang *******************************************************/ #include "buf0buf.h" #include "dict0mem.h" #include "ibuf0ibuf.h" #include "lock0lock.h" #include "mach0data.h" #include "os0file.h" #include "srv0mon.h" #include "srv0srv.h" #include "trx0rseg.h" #include "trx0sys.h" /* Macro to standardize the counter names for counters in the "monitor_buf_page" module as they have very structured defines */ #define MONITOR_BUF_PAGE(name, description, code, op, op_code) \ {"buffer_page_" op "_" name, "buffer_page_io", \ "Number of " description " Pages " op, \ MONITOR_GROUP_MODULE, MONITOR_DEFAULT_START, \ MONITOR_##code##_##op_code} #define MONITOR_BUF_PAGE_READ(name, description, code) \ MONITOR_BUF_PAGE(name, description, code, "read", PAGE_READ) #define MONITOR_BUF_PAGE_WRITTEN(name, description, code) \ MONITOR_BUF_PAGE(name, description, code, "written", PAGE_WRITTEN) /** This array defines basic static information of monitor counters, including each monitor's name, module it belongs to, a short description and its property/type and corresponding monitor_id. Please note: If you add a monitor here, please add its corresponding monitor_id to "enum monitor_id_value" structure in srv0mon.h file. */ static monitor_info_t innodb_counter_info[] = { /* A dummy item to mark the module start, this is to accomodate the default value (0) set for the global variables with the control system. */ {"module_start", "module_start", "module_start", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_DEFAULT_START}, /* ========== Counters for Server Metadata ========== */ {"module_metadata", "metadata", "Server Metadata", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_METADATA}, {"metadata_table_handles_opened", "metadata", "Number of table handles opened", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_TABLE_OPEN}, {"metadata_table_handles_closed", "metadata", "Number of table handles closed", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_TABLE_CLOSE}, {"metadata_table_reference_count", "metadata", "Table reference counter", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_TABLE_REFERENCE}, /* ========== Counters for Lock Module ========== */ {"module_lock", "lock", "Lock Module", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_LOCK}, {"lock_deadlocks", "lock", "Number of deadlocks", MONITOR_DEFAULT_ON, MONITOR_DEFAULT_START, MONITOR_DEADLOCK}, {"lock_timeouts", "lock", "Number of lock timeouts", MONITOR_DEFAULT_ON, MONITOR_DEFAULT_START, MONITOR_TIMEOUT}, {"lock_rec_lock_waits", "lock", "Number of times enqueued into record lock wait queue", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_LOCKREC_WAIT}, {"lock_table_lock_waits", "lock", "Number of times enqueued into table lock wait queue", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_TABLELOCK_WAIT}, {"lock_rec_lock_requests", "lock", "Number of record locks requested", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_NUM_RECLOCK_REQ}, {"lock_rec_lock_created", "lock", "Number of record locks created", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_RECLOCK_CREATED}, {"lock_rec_lock_removed", "lock", "Number of record locks removed from the lock queue", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_RECLOCK_REMOVED}, {"lock_rec_locks", "lock", "Current number of record locks on tables", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_NUM_RECLOCK}, {"lock_table_lock_created", "lock", "Number of table locks created", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_TABLELOCK_CREATED}, {"lock_table_lock_removed", "lock", "Number of table locks removed from the lock queue", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_TABLELOCK_REMOVED}, {"lock_table_locks", "lock", "Current number of table locks on tables", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_NUM_TABLELOCK}, {"lock_row_lock_current_waits", "lock", "Number of row locks currently being waited for" " (innodb_row_lock_current_waits)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_ROW_LOCK_CURRENT_WAIT}, {"lock_row_lock_time", "lock", "Time spent in acquiring row locks, in milliseconds" " (innodb_row_lock_time)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_LOCK_WAIT_TIME}, {"lock_row_lock_time_max", "lock", "The maximum time to acquire a row lock, in milliseconds" " (innodb_row_lock_time_max)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_LOCK_MAX_WAIT_TIME}, {"lock_row_lock_waits", "lock", "Number of times a row lock had to be waited for" " (innodb_row_lock_waits)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_ROW_LOCK_WAIT}, {"lock_row_lock_time_avg", "lock", "The average time to acquire a row lock, in milliseconds" " (innodb_row_lock_time_avg)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_LOCK_AVG_WAIT_TIME}, /* ========== Counters for Buffer Manager and I/O ========== */ {"module_buffer", "buffer", "Buffer Manager Module", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_BUFFER}, {"buffer_pool_size", "server", "Server buffer pool size (all buffer pools) in bytes", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON | MONITOR_DISPLAY_CURRENT), MONITOR_DEFAULT_START, MONITOR_OVLD_BUFFER_POOL_SIZE}, {"buffer_pool_reads", "buffer", "Number of reads directly from disk (innodb_buffer_pool_reads)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_BUF_POOL_READS}, {"buffer_pool_read_requests", "buffer", "Number of logical read requests (innodb_buffer_pool_read_requests)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_BUF_POOL_READ_REQUESTS}, {"buffer_pool_write_requests", "buffer", "Number of write requests (innodb_buffer_pool_write_requests)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_BUF_POOL_WRITE_REQUEST}, {"buffer_pool_wait_free", "buffer", "Number of times waited for free buffer" " (innodb_buffer_pool_wait_free)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_BUF_POOL_WAIT_FREE}, {"buffer_pool_read_ahead", "buffer", "Number of pages read as read ahead (innodb_buffer_pool_read_ahead)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_BUF_POOL_READ_AHEAD}, {"buffer_pool_read_ahead_evicted", "buffer", "Read-ahead pages evicted without being accessed" " (innodb_buffer_pool_read_ahead_evicted)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_BUF_POOL_READ_AHEAD_EVICTED}, {"buffer_pool_pages_total", "buffer", "Total buffer pool size in pages (innodb_buffer_pool_pages_total)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_BUF_POOL_PAGE_TOTAL}, {"buffer_pool_pages_misc", "buffer", "Buffer pages for misc use such as row locks or the adaptive" " hash index (innodb_buffer_pool_pages_misc)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_BUF_POOL_PAGE_MISC}, {"buffer_pool_pages_data", "buffer", "Buffer pages containing data (innodb_buffer_pool_pages_data)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_BUF_POOL_PAGES_DATA}, {"buffer_pool_bytes_data", "buffer", "Buffer bytes containing data (innodb_buffer_pool_bytes_data)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_BUF_POOL_BYTES_DATA}, {"buffer_pool_pages_dirty", "buffer", "Buffer pages currently dirty (innodb_buffer_pool_pages_dirty)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_BUF_POOL_PAGES_DIRTY}, {"buffer_pool_bytes_dirty", "buffer", "Buffer bytes currently dirty (innodb_buffer_pool_bytes_dirty)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_BUF_POOL_BYTES_DIRTY}, {"buffer_pool_pages_free", "buffer", "Buffer pages currently free (innodb_buffer_pool_pages_free)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_BUF_POOL_PAGES_FREE}, {"buffer_pages_created", "buffer", "Number of pages created (innodb_pages_created)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_PAGE_CREATED}, {"buffer_pages_written", "buffer", "Number of pages written (innodb_pages_written)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_PAGES_WRITTEN}, {"buffer_index_pages_written", "buffer", "Number of index pages written (innodb_index_pages_written)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_INDEX_PAGES_WRITTEN}, {"buffer_non_index_pages_written", "buffer", "Number of non index pages written (innodb_non_index_pages_written)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_NON_INDEX_PAGES_WRITTEN}, {"buffer_pages_read", "buffer", "Number of pages read (innodb_pages_read)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_PAGES_READ}, {"buffer_pages0_read", "buffer", "Number of page 0 read (innodb_pages0_read)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_PAGES0_READ}, {"buffer_index_sec_rec_cluster_reads", "buffer", "Number of secondary record reads triggered cluster read", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_INDEX_SEC_REC_CLUSTER_READS}, {"buffer_index_sec_rec_cluster_reads_avoided", "buffer", "Number of secondary record reads avoided triggering cluster read", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_INDEX_SEC_REC_CLUSTER_READS_AVOIDED}, {"buffer_data_reads", "buffer", "Amount of data read in bytes (innodb_data_reads)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_BYTE_READ}, {"buffer_data_written", "buffer", "Amount of data written in bytes (innodb_data_written)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_BYTE_WRITTEN}, /* Cumulative counter for scanning in flush batches */ {"buffer_flush_batch_scanned", "buffer", "Total pages scanned as part of flush batch", MONITOR_SET_OWNER, MONITOR_FLUSH_BATCH_SCANNED_NUM_CALL, MONITOR_FLUSH_BATCH_SCANNED}, {"buffer_flush_batch_num_scan", "buffer", "Number of times buffer flush list flush is called", MONITOR_SET_MEMBER, MONITOR_FLUSH_BATCH_SCANNED, MONITOR_FLUSH_BATCH_SCANNED_NUM_CALL}, {"buffer_flush_batch_scanned_per_call", "buffer", "Pages scanned per flush batch scan", MONITOR_SET_MEMBER, MONITOR_FLUSH_BATCH_SCANNED, MONITOR_FLUSH_BATCH_SCANNED_PER_CALL}, /* Cumulative counter for pages flushed in flush batches */ {"buffer_flush_batch_total_pages", "buffer", "Total pages flushed as part of flush batch", MONITOR_SET_OWNER, MONITOR_FLUSH_BATCH_COUNT, MONITOR_FLUSH_BATCH_TOTAL_PAGE}, {"buffer_flush_batches", "buffer", "Number of flush batches", MONITOR_SET_MEMBER, MONITOR_FLUSH_BATCH_TOTAL_PAGE, MONITOR_FLUSH_BATCH_COUNT}, {"buffer_flush_batch_pages", "buffer", "Pages queued as a flush batch", MONITOR_SET_MEMBER, MONITOR_FLUSH_BATCH_TOTAL_PAGE, MONITOR_FLUSH_BATCH_PAGES}, /* Cumulative counter for flush batches because of neighbor */ {"buffer_flush_neighbor_total_pages", "buffer", "Total neighbors flushed as part of neighbor flush", MONITOR_SET_OWNER, MONITOR_FLUSH_NEIGHBOR_COUNT, MONITOR_FLUSH_NEIGHBOR_TOTAL_PAGE}, {"buffer_flush_neighbor", "buffer", "Number of times neighbors flushing is invoked", MONITOR_SET_MEMBER, MONITOR_FLUSH_NEIGHBOR_TOTAL_PAGE, MONITOR_FLUSH_NEIGHBOR_COUNT}, {"buffer_flush_neighbor_pages", "buffer", "Pages queued as a neighbor batch", MONITOR_SET_MEMBER, MONITOR_FLUSH_NEIGHBOR_TOTAL_PAGE, MONITOR_FLUSH_NEIGHBOR_PAGES}, {"buffer_flush_n_to_flush_requested", "buffer", "Number of pages requested for flushing.", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_FLUSH_N_TO_FLUSH_REQUESTED}, {"buffer_flush_n_to_flush_by_age", "buffer", "Number of pages target by LSN Age for flushing.", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_FLUSH_N_TO_FLUSH_BY_AGE}, {"buffer_flush_adaptive_avg_time_slot", "buffer", "Avg time (ms) spent for adaptive flushing recently per slot.", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_FLUSH_ADAPTIVE_AVG_TIME_SLOT}, {"buffer_LRU_batch_flush_avg_time_slot", "buffer", "Avg time (ms) spent for LRU batch flushing recently per slot.", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_LRU_BATCH_FLUSH_AVG_TIME_SLOT}, {"buffer_flush_adaptive_avg_time_thread", "buffer", "Avg time (ms) spent for adaptive flushing recently per thread.", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_FLUSH_ADAPTIVE_AVG_TIME_THREAD}, {"buffer_LRU_batch_flush_avg_time_thread", "buffer", "Avg time (ms) spent for LRU batch flushing recently per thread.", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_LRU_BATCH_FLUSH_AVG_TIME_THREAD}, {"buffer_flush_adaptive_avg_time_est", "buffer", "Estimated time (ms) spent for adaptive flushing recently.", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_FLUSH_ADAPTIVE_AVG_TIME_EST}, {"buffer_LRU_batch_flush_avg_time_est", "buffer", "Estimated time (ms) spent for LRU batch flushing recently.", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_LRU_BATCH_FLUSH_AVG_TIME_EST}, {"buffer_flush_avg_time", "buffer", "Avg time (ms) spent for flushing recently.", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_FLUSH_AVG_TIME}, {"buffer_flush_adaptive_avg_pass", "buffer", "Numner of adaptive flushes passed during the recent Avg period.", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_FLUSH_ADAPTIVE_AVG_PASS}, {"buffer_LRU_batch_flush_avg_pass", "buffer", "Number of LRU batch flushes passed during the recent Avg period.", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_LRU_BATCH_FLUSH_AVG_PASS}, {"buffer_flush_avg_pass", "buffer", "Number of flushes passed during the recent Avg period.", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_FLUSH_AVG_PASS}, {"buffer_LRU_get_free_loops", "buffer", "Total loops in LRU get free.", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_LRU_GET_FREE_LOOPS}, {"buffer_LRU_get_free_waits", "buffer", "Total sleep waits in LRU get free.", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_LRU_GET_FREE_WAITS}, {"buffer_flush_avg_page_rate", "buffer", "Average number of pages at which flushing is happening", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_FLUSH_AVG_PAGE_RATE}, {"buffer_flush_lsn_avg_rate", "buffer", "Average redo generation rate", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_FLUSH_LSN_AVG_RATE}, {"buffer_flush_pct_for_dirty", "buffer", "Percent of IO capacity used to avoid max dirty page limit", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_FLUSH_PCT_FOR_DIRTY}, {"buffer_flush_pct_for_lsn", "buffer", "Percent of IO capacity used to avoid reusable redo space limit", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_FLUSH_PCT_FOR_LSN}, {"buffer_flush_sync_waits", "buffer", "Number of times a wait happens due to sync flushing", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_FLUSH_SYNC_WAITS}, /* Cumulative counter for flush batches for adaptive flushing */ {"buffer_flush_adaptive_total_pages", "buffer", "Total pages flushed as part of adaptive flushing", MONITOR_SET_OWNER, MONITOR_FLUSH_ADAPTIVE_COUNT, MONITOR_FLUSH_ADAPTIVE_TOTAL_PAGE}, {"buffer_flush_adaptive", "buffer", "Number of adaptive batches", MONITOR_SET_MEMBER, MONITOR_FLUSH_ADAPTIVE_TOTAL_PAGE, MONITOR_FLUSH_ADAPTIVE_COUNT}, {"buffer_flush_adaptive_pages", "buffer", "Pages queued as an adaptive batch", MONITOR_SET_MEMBER, MONITOR_FLUSH_ADAPTIVE_TOTAL_PAGE, MONITOR_FLUSH_ADAPTIVE_PAGES}, /* Cumulative counter for flush batches because of sync */ {"buffer_flush_sync_total_pages", "buffer", "Total pages flushed as part of sync batches", MONITOR_SET_OWNER, MONITOR_FLUSH_SYNC_COUNT, MONITOR_FLUSH_SYNC_TOTAL_PAGE}, {"buffer_flush_sync", "buffer", "Number of sync batches", MONITOR_SET_MEMBER, MONITOR_FLUSH_SYNC_TOTAL_PAGE, MONITOR_FLUSH_SYNC_COUNT}, {"buffer_flush_sync_pages", "buffer", "Pages queued as a sync batch", MONITOR_SET_MEMBER, MONITOR_FLUSH_SYNC_TOTAL_PAGE, MONITOR_FLUSH_SYNC_PAGES}, /* Cumulative counter for flush batches because of background */ {"buffer_flush_background_total_pages", "buffer", "Total pages flushed as part of background batches", MONITOR_SET_OWNER, MONITOR_FLUSH_BACKGROUND_COUNT, MONITOR_FLUSH_BACKGROUND_TOTAL_PAGE}, {"buffer_flush_background", "buffer", "Number of background batches", MONITOR_SET_MEMBER, MONITOR_FLUSH_BACKGROUND_TOTAL_PAGE, MONITOR_FLUSH_BACKGROUND_COUNT}, {"buffer_flush_background_pages", "buffer", "Pages queued as a background batch", MONITOR_SET_MEMBER, MONITOR_FLUSH_BACKGROUND_TOTAL_PAGE, MONITOR_FLUSH_BACKGROUND_PAGES}, /* Cumulative counter for LRU batch scan */ {"buffer_LRU_batch_scanned", "buffer", "Total pages scanned as part of LRU batch", MONITOR_SET_OWNER, MONITOR_LRU_BATCH_SCANNED_NUM_CALL, MONITOR_LRU_BATCH_SCANNED}, {"buffer_LRU_batch_num_scan", "buffer", "Number of times LRU batch is called", MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_SCANNED, MONITOR_LRU_BATCH_SCANNED_NUM_CALL}, {"buffer_LRU_batch_scanned_per_call", "buffer", "Pages scanned per LRU batch call", MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_SCANNED, MONITOR_LRU_BATCH_SCANNED_PER_CALL}, /* Cumulative counter for LRU batch pages flushed */ {"buffer_LRU_batch_flush_total_pages", "buffer", "Total pages flushed as part of LRU batches", MONITOR_SET_OWNER, MONITOR_LRU_BATCH_FLUSH_COUNT, MONITOR_LRU_BATCH_FLUSH_TOTAL_PAGE}, {"buffer_LRU_batches_flush", "buffer", "Number of LRU batches", MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_FLUSH_TOTAL_PAGE, MONITOR_LRU_BATCH_FLUSH_COUNT}, {"buffer_LRU_batch_flush_pages", "buffer", "Pages queued as an LRU batch", MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_FLUSH_TOTAL_PAGE, MONITOR_LRU_BATCH_FLUSH_PAGES}, /* Cumulative counter for LRU batch pages flushed */ {"buffer_LRU_batch_evict_total_pages", "buffer", "Total pages evicted as part of LRU batches", MONITOR_SET_OWNER, MONITOR_LRU_BATCH_EVICT_COUNT, MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE}, {"buffer_LRU_batches_evict", "buffer", "Number of LRU batches", MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE, MONITOR_LRU_BATCH_EVICT_COUNT}, {"buffer_LRU_batch_evict_pages", "buffer", "Pages queued as an LRU batch", MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE, MONITOR_LRU_BATCH_EVICT_PAGES}, /* Cumulative counter for single page LRU scans */ {"buffer_LRU_single_flush_scanned", "buffer", "Total pages scanned as part of single page LRU flush", MONITOR_SET_OWNER, MONITOR_LRU_SINGLE_FLUSH_SCANNED_NUM_CALL, MONITOR_LRU_SINGLE_FLUSH_SCANNED}, {"buffer_LRU_single_flush_num_scan", "buffer", "Number of times single page LRU flush is called", MONITOR_SET_MEMBER, MONITOR_LRU_SINGLE_FLUSH_SCANNED, MONITOR_LRU_SINGLE_FLUSH_SCANNED_NUM_CALL}, {"buffer_LRU_single_flush_scanned_per_call", "buffer", "Page scanned per single LRU flush", MONITOR_SET_MEMBER, MONITOR_LRU_SINGLE_FLUSH_SCANNED, MONITOR_LRU_SINGLE_FLUSH_SCANNED_PER_CALL}, {"buffer_LRU_single_flush_failure_count", "Buffer", "Number of times attempt to flush a single page from LRU failed", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_LRU_SINGLE_FLUSH_FAILURE_COUNT}, {"buffer_LRU_get_free_search", "Buffer", "Number of searches performed for a clean page", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_LRU_GET_FREE_SEARCH}, /* Cumulative counter for LRU search scans */ {"buffer_LRU_search_scanned", "buffer", "Total pages scanned as part of LRU search", MONITOR_SET_OWNER, MONITOR_LRU_SEARCH_SCANNED_NUM_CALL, MONITOR_LRU_SEARCH_SCANNED}, {"buffer_LRU_search_num_scan", "buffer", "Number of times LRU search is performed", MONITOR_SET_MEMBER, MONITOR_LRU_SEARCH_SCANNED, MONITOR_LRU_SEARCH_SCANNED_NUM_CALL}, {"buffer_LRU_search_scanned_per_call", "buffer", "Page scanned per single LRU search", MONITOR_SET_MEMBER, MONITOR_LRU_SEARCH_SCANNED, MONITOR_LRU_SEARCH_SCANNED_PER_CALL}, /* Cumulative counter for LRU unzip search scans */ {"buffer_LRU_unzip_search_scanned", "buffer", "Total pages scanned as part of LRU unzip search", MONITOR_SET_OWNER, MONITOR_LRU_UNZIP_SEARCH_SCANNED_NUM_CALL, MONITOR_LRU_UNZIP_SEARCH_SCANNED}, {"buffer_LRU_unzip_search_num_scan", "buffer", "Number of times LRU unzip search is performed", MONITOR_SET_MEMBER, MONITOR_LRU_UNZIP_SEARCH_SCANNED, MONITOR_LRU_UNZIP_SEARCH_SCANNED_NUM_CALL}, {"buffer_LRU_unzip_search_scanned_per_call", "buffer", "Page scanned per single LRU unzip search", MONITOR_SET_MEMBER, MONITOR_LRU_UNZIP_SEARCH_SCANNED, MONITOR_LRU_UNZIP_SEARCH_SCANNED_PER_CALL}, /* ========== Counters for Buffer Page I/O ========== */ {"module_buffer_page", "buffer_page_io", "Buffer Page I/O Module", static_cast<monitor_type_t>( MONITOR_MODULE | MONITOR_GROUP_MODULE), MONITOR_DEFAULT_START, MONITOR_MODULE_BUF_PAGE}, MONITOR_BUF_PAGE_READ("index_leaf","Index Leaf", INDEX_LEAF), MONITOR_BUF_PAGE_READ("index_non_leaf","Index Non-leaf", INDEX_NON_LEAF), MONITOR_BUF_PAGE_READ("index_ibuf_leaf", "Insert Buffer Index Leaf", INDEX_IBUF_LEAF), MONITOR_BUF_PAGE_READ("index_ibuf_non_leaf", "Insert Buffer Index Non-Leaf", INDEX_IBUF_NON_LEAF), MONITOR_BUF_PAGE_READ("undo_log", "Undo Log", UNDO_LOG), MONITOR_BUF_PAGE_READ("index_inode", "Index Inode", INODE), MONITOR_BUF_PAGE_READ("ibuf_free_list", "Insert Buffer Free List", IBUF_FREELIST), MONITOR_BUF_PAGE_READ("ibuf_bitmap", "Insert Buffer Bitmap", IBUF_BITMAP), MONITOR_BUF_PAGE_READ("system_page", "System", SYSTEM), MONITOR_BUF_PAGE_READ("trx_system", "Transaction System", TRX_SYSTEM), MONITOR_BUF_PAGE_READ("fsp_hdr", "File Space Header", FSP_HDR), MONITOR_BUF_PAGE_READ("xdes", "Extent Descriptor", XDES), MONITOR_BUF_PAGE_READ("blob", "Uncompressed BLOB", BLOB), MONITOR_BUF_PAGE_READ("zblob", "First Compressed BLOB", ZBLOB), MONITOR_BUF_PAGE_READ("zblob2", "Subsequent Compressed BLOB", ZBLOB2), MONITOR_BUF_PAGE_READ("other", "other/unknown (old version of InnoDB)", OTHER), MONITOR_BUF_PAGE_WRITTEN("index_leaf","Index Leaf", INDEX_LEAF), MONITOR_BUF_PAGE_WRITTEN("index_non_leaf","Index Non-leaf", INDEX_NON_LEAF), MONITOR_BUF_PAGE_WRITTEN("index_ibuf_leaf", "Insert Buffer Index Leaf", INDEX_IBUF_LEAF), MONITOR_BUF_PAGE_WRITTEN("index_ibuf_non_leaf", "Insert Buffer Index Non-Leaf", INDEX_IBUF_NON_LEAF), MONITOR_BUF_PAGE_WRITTEN("undo_log", "Undo Log", UNDO_LOG), MONITOR_BUF_PAGE_WRITTEN("index_inode", "Index Inode", INODE), MONITOR_BUF_PAGE_WRITTEN("ibuf_free_list", "Insert Buffer Free List", IBUF_FREELIST), MONITOR_BUF_PAGE_WRITTEN("ibuf_bitmap", "Insert Buffer Bitmap", IBUF_BITMAP), MONITOR_BUF_PAGE_WRITTEN("system_page", "System", SYSTEM), MONITOR_BUF_PAGE_WRITTEN("trx_system", "Transaction System", TRX_SYSTEM), MONITOR_BUF_PAGE_WRITTEN("fsp_hdr", "File Space Header", FSP_HDR), MONITOR_BUF_PAGE_WRITTEN("xdes", "Extent Descriptor", XDES), MONITOR_BUF_PAGE_WRITTEN("blob", "Uncompressed BLOB", BLOB), MONITOR_BUF_PAGE_WRITTEN("zblob", "First Compressed BLOB", ZBLOB), MONITOR_BUF_PAGE_WRITTEN("zblob2", "Subsequent Compressed BLOB", ZBLOB2), MONITOR_BUF_PAGE_WRITTEN("other", "other/unknown (old version InnoDB)", OTHER), /* ========== Counters for OS level operations ========== */ {"module_os", "os", "OS Level Operation", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_OS}, {"os_data_reads", "os", "Number of reads initiated (innodb_data_reads)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_OS_FILE_READ}, {"os_data_writes", "os", "Number of writes initiated (innodb_data_writes)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_OS_FILE_WRITE}, {"os_data_fsyncs", "os", "Number of fsync() calls (innodb_data_fsyncs)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_OS_FSYNC}, {"os_pending_reads", "os", "Number of reads pending", MONITOR_DEFAULT_ON, MONITOR_DEFAULT_START, MONITOR_OS_PENDING_READS}, {"os_pending_writes", "os", "Number of writes pending", MONITOR_DEFAULT_ON, MONITOR_DEFAULT_START, MONITOR_OS_PENDING_WRITES}, {"os_log_bytes_written", "os", "Bytes of log written (innodb_os_log_written)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_OS_LOG_WRITTEN}, {"os_log_fsyncs", "os", "Number of fsync log writes (innodb_os_log_fsyncs)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_OS_LOG_FSYNC}, {"os_log_pending_fsyncs", "os", "Number of pending fsync write (innodb_os_log_pending_fsyncs)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_OS_LOG_PENDING_FSYNC}, {"os_log_pending_writes", "os", "Number of pending log file writes (innodb_os_log_pending_writes)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_OS_LOG_PENDING_WRITES}, /* ========== Counters for Transaction Module ========== */ {"module_trx", "transaction", "Transaction Manager", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_TRX}, {"trx_rw_commits", "transaction", "Number of read-write transactions committed", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_TRX_RW_COMMIT}, {"trx_ro_commits", "transaction", "Number of read-only transactions committed", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_TRX_RO_COMMIT}, {"trx_nl_ro_commits", "transaction", "Number of non-locking auto-commit read-only transactions committed", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_TRX_NL_RO_COMMIT}, {"trx_commits_insert_update", "transaction", "Number of transactions committed with inserts and updates", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_TRX_COMMIT_UNDO}, {"trx_rollbacks", "transaction", "Number of transactions rolled back", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_TRX_ROLLBACK}, {"trx_rollbacks_savepoint", "transaction", "Number of transactions rolled back to savepoint", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_TRX_ROLLBACK_SAVEPOINT}, {"trx_rollback_active", "transaction", "Number of resurrected active transactions rolled back", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_TRX_ROLLBACK_ACTIVE}, {"trx_active_transactions", "transaction", "Number of active transactions", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_TRX_ACTIVE}, {"trx_rseg_history_len", "transaction", "Length of the TRX_RSEG_HISTORY list", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_RSEG_HISTORY_LEN}, {"trx_undo_slots_used", "transaction", "Number of undo slots used", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_NUM_UNDO_SLOT_USED}, {"trx_undo_slots_cached", "transaction", "Number of undo slots cached", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_NUM_UNDO_SLOT_CACHED}, {"trx_rseg_current_size", "transaction", "Current rollback segment size in pages", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT), MONITOR_DEFAULT_START, MONITOR_RSEG_CUR_SIZE}, /* ========== Counters for Purge Module ========== */ {"module_purge", "purge", "Purge Module", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_PURGE}, {"purge_del_mark_records", "purge", "Number of delete-marked rows purged", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_N_DEL_ROW_PURGE}, {"purge_upd_exist_or_extern_records", "purge", "Number of purges on updates of existing records and" " updates on delete marked record with externally stored field", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_N_UPD_EXIST_EXTERN}, {"purge_invoked", "purge", "Number of times purge was invoked", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_PURGE_INVOKED}, {"purge_undo_log_pages", "purge", "Number of undo log pages handled by the purge", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_PURGE_N_PAGE_HANDLED}, {"purge_dml_delay_usec", "purge", "Microseconds DML to be delayed due to purge lagging", MONITOR_DISPLAY_CURRENT, MONITOR_DEFAULT_START, MONITOR_DML_PURGE_DELAY}, {"purge_stop_count", "purge", "Number of times purge was stopped", MONITOR_DISPLAY_CURRENT, MONITOR_DEFAULT_START, MONITOR_PURGE_STOP_COUNT}, {"purge_resume_count", "purge", "Number of times purge was resumed", MONITOR_DISPLAY_CURRENT, MONITOR_DEFAULT_START, MONITOR_PURGE_RESUME_COUNT}, /* ========== Counters for Recovery Module ========== */ {"module_log", "recovery", "Recovery Module", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_RECOVERY}, {"log_checkpoints", "recovery", "Number of checkpoints", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_NUM_CHECKPOINT}, {"log_lsn_last_flush", "recovery", "LSN of Last flush", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT), MONITOR_DEFAULT_START, MONITOR_OVLD_LSN_FLUSHDISK}, {"log_lsn_last_checkpoint", "recovery", "LSN at last checkpoint", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT), MONITOR_DEFAULT_START, MONITOR_OVLD_LSN_CHECKPOINT}, {"log_lsn_current", "recovery", "Current LSN value", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT), MONITOR_DEFAULT_START, MONITOR_OVLD_LSN_CURRENT}, {"log_lsn_checkpoint_age", "recovery", "Current LSN value minus LSN at last checkpoint", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_LSN_CHECKPOINT_AGE}, {"log_lsn_buf_pool_oldest", "recovery", "The oldest modified block LSN in the buffer pool", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT), MONITOR_DEFAULT_START, MONITOR_OVLD_BUF_OLDEST_LSN}, {"log_max_modified_age_async", "recovery", "Maximum LSN difference; when exceeded, start asynchronous preflush", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT), MONITOR_DEFAULT_START, MONITOR_OVLD_MAX_AGE_ASYNC}, {"log_max_modified_age_sync", "recovery", "Maximum LSN difference; when exceeded, start synchronous preflush", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT), MONITOR_DEFAULT_START, MONITOR_OVLD_MAX_AGE_SYNC}, {"log_pending_log_flushes", "recovery", "Pending log flushes", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_PENDING_LOG_FLUSH}, {"log_pending_checkpoint_writes", "recovery", "Pending checkpoints", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_PENDING_CHECKPOINT_WRITE}, {"log_num_log_io", "recovery", "Number of log I/Os", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_LOG_IO}, {"log_waits", "recovery", "Number of log waits due to small log buffer (innodb_log_waits)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_LOG_WAITS}, {"log_write_requests", "recovery", "Number of log write requests (innodb_log_write_requests)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_LOG_WRITE_REQUEST}, {"log_writes", "recovery", "Number of log writes (innodb_log_writes)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_LOG_WRITES}, {"log_padded", "recovery", "Bytes of log padded for log write ahead", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_LOG_PADDED}, /* ========== Counters for Page Compression ========== */ {"module_compress", "compression", "Page Compression Info", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_PAGE}, {"compress_pages_compressed", "compression", "Number of pages compressed", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_PAGE_COMPRESS}, {"compress_pages_decompressed", "compression", "Number of pages decompressed", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_PAGE_DECOMPRESS}, {"compression_pad_increments", "compression", "Number of times padding is incremented to avoid compression failures", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_PAD_INCREMENTS}, {"compression_pad_decrements", "compression", "Number of times padding is decremented due to good compressibility", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_PAD_DECREMENTS}, {"compress_saved", "compression", "Number of bytes saved by page compression", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_OVLD_PAGE_COMPRESS_SAVED}, {"compress_pages_page_compressed", "compression", "Number of pages compressed by page compression", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_OVLD_PAGES_PAGE_COMPRESSED}, {"compress_page_compressed_trim_op", "compression", "Number of TRIM operation performed by page compression", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_OVLD_PAGE_COMPRESSED_TRIM_OP}, {"compress_pages_page_decompressed", "compression", "Number of pages decompressed by page compression", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_OVLD_PAGES_PAGE_DECOMPRESSED}, {"compress_pages_page_compression_error", "compression", "Number of page compression errors", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_OVLD_PAGES_PAGE_COMPRESSION_ERROR}, {"compress_pages_encrypted", "compression", "Number of pages encrypted", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_OVLD_PAGES_ENCRYPTED}, {"compress_pages_decrypted", "compression", "Number of pages decrypted", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_OVLD_PAGES_DECRYPTED}, /* ========== Counters for Index ========== */ {"module_index", "index", "Index Manager", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_INDEX}, {"index_page_splits", "index", "Number of index page splits", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_INDEX_SPLIT}, {"index_page_merge_attempts", "index", "Number of index page merge attempts", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_INDEX_MERGE_ATTEMPTS}, {"index_page_merge_successful", "index", "Number of successful index page merges", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_INDEX_MERGE_SUCCESSFUL}, {"index_page_reorg_attempts", "index", "Number of index page reorganization attempts", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_INDEX_REORG_ATTEMPTS}, {"index_page_reorg_successful", "index", "Number of successful index page reorganizations", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_INDEX_REORG_SUCCESSFUL}, {"index_page_discards", "index", "Number of index pages discarded", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_INDEX_DISCARD}, #ifdef BTR_CUR_HASH_ADAPT /* ========== Counters for Adaptive Hash Index ========== */ {"module_adaptive_hash", "adaptive_hash_index", "Adaptive Hash Index", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_ADAPTIVE_HASH}, {"adaptive_hash_searches", "adaptive_hash_index", "Number of successful searches using Adaptive Hash Index", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_ADAPTIVE_HASH_SEARCH}, #endif /* BTR_CUR_HASH_ADAPT */ {"adaptive_hash_searches_btree", "adaptive_hash_index", "Number of searches using B-tree on an index search", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_ADAPTIVE_HASH_SEARCH_BTREE}, #ifdef BTR_CUR_HASH_ADAPT {"adaptive_hash_pages_added", "adaptive_hash_index", "Number of index pages on which the Adaptive Hash Index is built", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_ADAPTIVE_HASH_PAGE_ADDED}, {"adaptive_hash_pages_removed", "adaptive_hash_index", "Number of index pages whose corresponding Adaptive Hash Index" " entries were removed", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_ADAPTIVE_HASH_PAGE_REMOVED}, {"adaptive_hash_rows_added", "adaptive_hash_index", "Number of Adaptive Hash Index rows added", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_ADAPTIVE_HASH_ROW_ADDED}, {"adaptive_hash_rows_removed", "adaptive_hash_index", "Number of Adaptive Hash Index rows removed", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_ADAPTIVE_HASH_ROW_REMOVED}, {"adaptive_hash_rows_deleted_no_hash_entry", "adaptive_hash_index", "Number of rows deleted that did not have corresponding Adaptive Hash" " Index entries", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_ADAPTIVE_HASH_ROW_REMOVE_NOT_FOUND}, {"adaptive_hash_rows_updated", "adaptive_hash_index", "Number of Adaptive Hash Index rows updated", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_ADAPTIVE_HASH_ROW_UPDATED}, #endif /* BTR_CUR_HASH_ADAPT */ /* ========== Counters for tablespace ========== */ {"module_file", "file_system", "Tablespace and File System Manager", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_FIL_SYSTEM}, {"file_num_open_files", "file_system", "Number of files currently open (innodb_num_open_files)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DISPLAY_CURRENT | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_N_FILE_OPENED}, /* ========== Counters for Change Buffer ========== */ {"module_ibuf_system", "change_buffer", "InnoDB Change Buffer", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_IBUF_SYSTEM}, {"ibuf_merges_insert", "change_buffer", "Number of inserted records merged by change buffering", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_IBUF_MERGE_INSERT}, {"ibuf_merges_delete_mark", "change_buffer", "Number of deleted records merged by change buffering", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_IBUF_MERGE_DELETE}, {"ibuf_merges_delete", "change_buffer", "Number of purge records merged by change buffering", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_IBUF_MERGE_PURGE}, {"ibuf_merges_discard_insert", "change_buffer", "Number of insert merged operations discarded", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_IBUF_MERGE_DISCARD_INSERT}, {"ibuf_merges_discard_delete_mark", "change_buffer", "Number of deleted merged operations discarded", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_IBUF_MERGE_DISCARD_DELETE}, {"ibuf_merges_discard_delete", "change_buffer", "Number of purge merged operations discarded", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_IBUF_MERGE_DISCARD_PURGE}, {"ibuf_merges", "change_buffer", "Number of change buffer merges", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_IBUF_MERGES}, {"ibuf_size", "change_buffer", "Change buffer size in pages", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_IBUF_SIZE}, /* ========== Counters for server operations ========== */ {"module_innodb", "innodb", "Counter for general InnoDB server wide operations and properties", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_SERVER}, {"innodb_master_thread_sleeps", "server", "Number of times (seconds) master thread sleeps", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_MASTER_THREAD_SLEEP}, {"innodb_activity_count", "server", "Current server activity count", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_SERVER_ACTIVITY}, {"innodb_master_active_loops", "server", "Number of times master thread performs its tasks when" " server is active", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_MASTER_ACTIVE_LOOPS}, {"innodb_master_idle_loops", "server", "Number of times master thread performs its tasks when server is idle", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_MASTER_IDLE_LOOPS}, {"innodb_background_drop_table_usec", "server", "Time (in microseconds) spent to process drop table list", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_SRV_BACKGROUND_DROP_TABLE_MICROSECOND}, {"innodb_ibuf_merge_usec", "server", "Time (in microseconds) spent to process change buffer merge", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_SRV_IBUF_MERGE_MICROSECOND}, {"innodb_log_flush_usec", "server", "Time (in microseconds) spent to flush log records", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_SRV_LOG_FLUSH_MICROSECOND}, {"innodb_mem_validate_usec", "server", "Time (in microseconds) spent to do memory validation", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_SRV_MEM_VALIDATE_MICROSECOND}, {"innodb_master_purge_usec", "server", "Time (in microseconds) spent by master thread to purge records", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_SRV_PURGE_MICROSECOND}, {"innodb_dict_lru_usec", "server", "Time (in microseconds) spent to process DICT LRU list", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_SRV_DICT_LRU_MICROSECOND}, {"innodb_dict_lru_count_active", "server", "Number of tables evicted from DICT LRU list in the active loop", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_SRV_DICT_LRU_EVICT_COUNT_ACTIVE}, {"innodb_dict_lru_count_idle", "server", "Number of tables evicted from DICT LRU list in the idle loop", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_SRV_DICT_LRU_EVICT_COUNT_IDLE}, {"innodb_checkpoint_usec", "server", "Time (in microseconds) spent by master thread to do checkpoint", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_SRV_CHECKPOINT_MICROSECOND}, {"innodb_dblwr_writes", "server", "Number of doublewrite operations that have been performed" " (innodb_dblwr_writes)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_SRV_DBLWR_WRITES}, {"innodb_dblwr_pages_written", "server", "Number of pages that have been written for doublewrite operations" " (innodb_dblwr_pages_written)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_SRV_DBLWR_PAGES_WRITTEN}, {"innodb_page_size", "server", "InnoDB page size in bytes (innodb_page_size)", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON | MONITOR_DISPLAY_CURRENT), MONITOR_DEFAULT_START, MONITOR_OVLD_SRV_PAGE_SIZE}, {"innodb_rwlock_s_spin_waits", "server", "Number of rwlock spin waits due to shared latch request", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_RWLOCK_S_SPIN_WAITS}, {"innodb_rwlock_x_spin_waits", "server", "Number of rwlock spin waits due to exclusive latch request", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_RWLOCK_X_SPIN_WAITS}, {"innodb_rwlock_sx_spin_waits", "server", "Number of rwlock spin waits due to sx latch request", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_RWLOCK_SX_SPIN_WAITS}, {"innodb_rwlock_s_spin_rounds", "server", "Number of rwlock spin loop rounds due to shared latch request", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_RWLOCK_S_SPIN_ROUNDS}, {"innodb_rwlock_x_spin_rounds", "server", "Number of rwlock spin loop rounds due to exclusive latch request", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_RWLOCK_X_SPIN_ROUNDS}, {"innodb_rwlock_sx_spin_rounds", "server", "Number of rwlock spin loop rounds due to sx latch request", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_RWLOCK_SX_SPIN_ROUNDS}, {"innodb_rwlock_s_os_waits", "server", "Number of OS waits due to shared latch request", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_RWLOCK_S_OS_WAITS}, {"innodb_rwlock_x_os_waits", "server", "Number of OS waits due to exclusive latch request", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_RWLOCK_X_OS_WAITS}, {"innodb_rwlock_sx_os_waits", "server", "Number of OS waits due to sx latch request", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OVLD_RWLOCK_SX_OS_WAITS}, /* ========== Counters for DML operations ========== */ {"module_dml", "dml", "Statistics for DMLs", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_DML_STATS}, {"dml_reads", "dml", "Number of rows read", static_cast<monitor_type_t>(MONITOR_EXISTING), MONITOR_DEFAULT_START, MONITOR_OLVD_ROW_READ}, {"dml_inserts", "dml", "Number of rows inserted", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OLVD_ROW_INSERTED}, {"dml_deletes", "dml", "Number of rows deleted", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OLVD_ROW_DELETED}, {"dml_updates", "dml", "Number of rows updated", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OLVD_ROW_UPDTATED}, {"dml_system_reads", "dml", "Number of system rows read", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OLVD_SYSTEM_ROW_READ}, {"dml_system_inserts", "dml", "Number of system rows inserted", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OLVD_SYSTEM_ROW_INSERTED}, {"dml_system_deletes", "dml", "Number of system rows deleted", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OLVD_SYSTEM_ROW_DELETED}, {"dml_system_updates", "dml", "Number of system rows updated", static_cast<monitor_type_t>( MONITOR_EXISTING | MONITOR_DEFAULT_ON), MONITOR_DEFAULT_START, MONITOR_OLVD_SYSTEM_ROW_UPDATED}, /* ========== Counters for DDL operations ========== */ {"module_ddl", "ddl", "Statistics for DDLs", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_DDL_STATS}, {"ddl_background_drop_indexes", "ddl", "Number of indexes waiting to be dropped after failed index creation", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_BACKGROUND_DROP_INDEX}, {"ddl_background_drop_tables", "ddl", "Number of tables in background drop table list", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_BACKGROUND_DROP_TABLE}, {"ddl_online_create_index", "ddl", "Number of indexes being created online", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_ONLINE_CREATE_INDEX}, {"ddl_pending_alter_table", "ddl", "Number of ALTER TABLE, CREATE INDEX, DROP INDEX in progress", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_PENDING_ALTER_TABLE}, {"ddl_sort_file_alter_table", "ddl", "Number of sort files created during alter table", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_ALTER_TABLE_SORT_FILES}, {"ddl_log_file_alter_table", "ddl", "Number of log files created during alter table", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_ALTER_TABLE_LOG_FILES}, /* ===== Counters for ICP (Index Condition Pushdown) Module ===== */ {"module_icp", "icp", "Index Condition Pushdown", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_ICP}, {"icp_attempts", "icp", "Number of attempts for index push-down condition checks", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_ICP_ATTEMPTS}, {"icp_no_match", "icp", "Index push-down condition does not match", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_ICP_NO_MATCH}, {"icp_out_of_range", "icp", "Index push-down condition out of range", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_ICP_OUT_OF_RANGE}, {"icp_match", "icp", "Index push-down condition matches", MONITOR_NONE, MONITOR_DEFAULT_START, MONITOR_ICP_MATCH}, /* ========== Mutex monitoring on/off ========== */ {"latch_status", "Latch counters", "Collect latch counters to display via SHOW ENGING INNODB MUTEX", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_MODULE_LATCHES}, {"latch", "sync", "Latch monitoring control", MONITOR_HIDDEN, MONITOR_DEFAULT_START, MONITOR_LATCHES}, /* ========== To turn on/off reset all counters ========== */ {"all", "All Counters", "Turn on/off and reset all counters", MONITOR_MODULE, MONITOR_DEFAULT_START, MONITOR_ALL_COUNTER} }; /* The "innodb_counter_value" array stores actual counter values */ monitor_value_t innodb_counter_value[NUM_MONITOR]; /* monitor_set_tbl is used to record and determine whether a monitor has been turned on/off. */ ulint monitor_set_tbl[(NUM_MONITOR + NUM_BITS_ULINT - 1) / NUM_BITS_ULINT]; /****************************************************************//** Get a monitor's "monitor_info" by its monitor id (index into the innodb_counter_info array. @return Point to corresponding monitor_info_t, or NULL if no such monitor */ monitor_info_t* srv_mon_get_info( /*=============*/ monitor_id_t monitor_id) /*!< id indexing into the innodb_counter_info array */ { ut_a(monitor_id < NUM_MONITOR); return((monitor_id < NUM_MONITOR) ? &innodb_counter_info[monitor_id] : NULL); } /****************************************************************//** Get monitor's name by its monitor id (indexing into the innodb_counter_info array. @return corresponding monitor name, or NULL if no such monitor */ const char* srv_mon_get_name( /*=============*/ monitor_id_t monitor_id) /*!< id index into the innodb_counter_info array */ { ut_a(monitor_id < NUM_MONITOR); return((monitor_id < NUM_MONITOR) ? innodb_counter_info[monitor_id].monitor_name : NULL); } /****************************************************************//** Turn on/off, reset monitor counters in a module. If module_id is MONITOR_ALL_COUNTER then turn on all monitor counters. turned on because it has already been turned on. */ void srv_mon_set_module_control( /*=======================*/ monitor_id_t module_id, /*!< in: Module ID as in monitor_counter_id. If it is set to MONITOR_ALL_COUNTER, this means we shall turn on all the counters */ mon_option_t set_option) /*!< in: Turn on/off reset the counter */ { lint ix; lint start_id; ibool set_current_module = FALSE; ut_a(module_id <= NUM_MONITOR); ut_a(UT_ARR_SIZE(innodb_counter_info) == NUM_MONITOR); /* The module_id must be an ID of MONITOR_MODULE type */ ut_a(innodb_counter_info[module_id].monitor_type & MONITOR_MODULE); /* start with the first monitor in the module. If module_id is MONITOR_ALL_COUNTER, this means we need to turn on all monitor counters. */ if (module_id == MONITOR_ALL_COUNTER) { start_id = 1; } else if (innodb_counter_info[module_id].monitor_type & MONITOR_GROUP_MODULE) { /* Counters in this module are set as a group together and cannot be turned on/off individually. Need to set the on/off bit in the module counter */ start_id = module_id; set_current_module = TRUE; } else { start_id = module_id + 1; } for (ix = start_id; ix < NUM_MONITOR; ix++) { /* if we hit the next module counter, we will continue if we want to turn on all monitor counters, and break if just turn on the counters in the current module. */ if (innodb_counter_info[ix].monitor_type & MONITOR_MODULE) { if (set_current_module) { /* Continue to set on/off bit on current module */ set_current_module = FALSE; } else if (module_id == MONITOR_ALL_COUNTER) { if (!(innodb_counter_info[ix].monitor_type & MONITOR_GROUP_MODULE)) { continue; } } else { /* Hitting the next module, stop */ break; } } /* Cannot turn on a monitor already been turned on. User should be aware some counters are already on before turn them on again (which could reset counter value) */ if (MONITOR_IS_ON(ix) && (set_option == MONITOR_TURN_ON)) { ib::info() << "Monitor '" << srv_mon_get_name((monitor_id_t) ix) << "' is already enabled."; continue; } /* For some existing counters (server status variables), we will get its counter value at the start/stop time to calculate the actual value during the time. */ if (innodb_counter_info[ix].monitor_type & MONITOR_EXISTING) { srv_mon_process_existing_counter( static_cast<monitor_id_t>(ix), set_option); } /* Currently support 4 operations on the monitor counters: turn on, turn off, reset and reset all operations. */ switch (set_option) { case MONITOR_TURN_ON: MONITOR_ON(ix); MONITOR_INIT(ix); MONITOR_SET_START(ix); break; case MONITOR_TURN_OFF: MONITOR_OFF(ix); MONITOR_SET_OFF(ix); break; case MONITOR_RESET_VALUE: srv_mon_reset(static_cast<monitor_id_t>(ix)); break; case MONITOR_RESET_ALL_VALUE: srv_mon_reset_all(static_cast<monitor_id_t>(ix)); break; default: ut_error; } } } /****************************************************************//** Get transaction system's rollback segment size in pages @return size in pages */ static ulint srv_mon_get_rseg_size(void) /*=======================*/ { ulint i; ulint value = 0; /* rseg_array is a static array, so we can go through it without mutex protection. In addition, we provide an estimate of the total rollback segment size and to avoid mutex contention we don't acquire the rseg->mutex" */ for (i = 0; i < TRX_SYS_N_RSEGS; ++i) { const trx_rseg_t* rseg = trx_sys.rseg_array[i]; if (rseg != NULL) { value += rseg->curr_size; } } return(value); } /****************************************************************//** This function consolidates some existing server counters used by "system status variables". These existing system variables do not have mechanism to start/stop and reset the counters, so we simulate these controls by remembering the corresponding counter values when the corresponding monitors are turned on/off/reset, and do appropriate mathematics to deduct the actual value. Please also refer to srv_export_innodb_status() for related global counters used by the existing status variables.*/ void srv_mon_process_existing_counter( /*=============================*/ monitor_id_t monitor_id, /*!< in: the monitor's ID as in monitor_counter_id */ mon_option_t set_option) /*!< in: Turn on/off reset the counter */ { mon_type_t value; monitor_info_t* monitor_info; ibool update_min = FALSE; buf_pool_stat_t stat; buf_pools_list_size_t buf_pools_list_size; ulint LRU_len; ulint free_len; ulint flush_list_len; monitor_info = srv_mon_get_info(monitor_id); ut_a(monitor_info->monitor_type & MONITOR_EXISTING); ut_a(monitor_id < NUM_MONITOR); /* Get the value from corresponding global variable */ switch (monitor_id) { /* export_vars.innodb_buffer_pool_reads. Num Reads from disk (page not in buffer) */ case MONITOR_OVLD_BUF_POOL_READS: value = srv_stats.buf_pool_reads; break; /* innodb_buffer_pool_read_requests, the number of logical read requests */ case MONITOR_OVLD_BUF_POOL_READ_REQUESTS: buf_get_total_stat(&stat); value = stat.n_page_gets; break; /* innodb_buffer_pool_write_requests, the number of write request */ case MONITOR_OVLD_BUF_POOL_WRITE_REQUEST: value = srv_stats.buf_pool_write_requests; break; /* innodb_buffer_pool_wait_free */ case MONITOR_OVLD_BUF_POOL_WAIT_FREE: value = srv_stats.buf_pool_wait_free; break; /* innodb_buffer_pool_read_ahead */ case MONITOR_OVLD_BUF_POOL_READ_AHEAD: buf_get_total_stat(&stat); value = stat.n_ra_pages_read; break; /* innodb_buffer_pool_read_ahead_evicted */ case MONITOR_OVLD_BUF_POOL_READ_AHEAD_EVICTED: buf_get_total_stat(&stat); value = stat.n_ra_pages_evicted; break; /* innodb_buffer_pool_pages_total */ case MONITOR_OVLD_BUF_POOL_PAGE_TOTAL: value = buf_pool_get_n_pages(); break; /* innodb_buffer_pool_pages_misc */ case MONITOR_OVLD_BUF_POOL_PAGE_MISC: buf_get_total_list_len(&LRU_len, &free_len, &flush_list_len); value = buf_pool_get_n_pages() - LRU_len - free_len; break; /* innodb_buffer_pool_pages_data */ case MONITOR_OVLD_BUF_POOL_PAGES_DATA: buf_get_total_list_len(&LRU_len, &free_len, &flush_list_len); value = LRU_len; break; /* innodb_buffer_pool_bytes_data */ case MONITOR_OVLD_BUF_POOL_BYTES_DATA: buf_get_total_list_size_in_bytes(&buf_pools_list_size); value = buf_pools_list_size.LRU_bytes + buf_pools_list_size.unzip_LRU_bytes; break; /* innodb_buffer_pool_pages_dirty */ case MONITOR_OVLD_BUF_POOL_PAGES_DIRTY: buf_get_total_list_len(&LRU_len, &free_len, &flush_list_len); value = flush_list_len; break; /* innodb_buffer_pool_bytes_dirty */ case MONITOR_OVLD_BUF_POOL_BYTES_DIRTY: buf_get_total_list_size_in_bytes(&buf_pools_list_size); value = buf_pools_list_size.flush_list_bytes; break; /* innodb_buffer_pool_pages_free */ case MONITOR_OVLD_BUF_POOL_PAGES_FREE: buf_get_total_list_len(&LRU_len, &free_len, &flush_list_len); value = free_len; break; /* innodb_pages_created, the number of pages created */ case MONITOR_OVLD_PAGE_CREATED: buf_get_total_stat(&stat); value = stat.n_pages_created; break; /* innodb_pages_written, the number of page written */ case MONITOR_OVLD_PAGES_WRITTEN: buf_get_total_stat(&stat); value = stat.n_pages_written; break; /* innodb_index_pages_written, the number of index pages written */ case MONITOR_OVLD_INDEX_PAGES_WRITTEN: value = srv_stats.index_pages_written; break; /* innodb_non_index_pages_written, the number of non index pages written */ case MONITOR_OVLD_NON_INDEX_PAGES_WRITTEN: value = srv_stats.non_index_pages_written; break; /* innodb_pages_read */ case MONITOR_OVLD_PAGES_READ: buf_get_total_stat(&stat); value = stat.n_pages_read; break; /* innodb_pages0_read */ case MONITOR_OVLD_PAGES0_READ: value = srv_stats.page0_read; break; /* Number of times secondary index lookup triggered cluster lookup */ case MONITOR_OVLD_INDEX_SEC_REC_CLUSTER_READS: value = srv_stats.n_sec_rec_cluster_reads; break; /* Number of times prefix optimization avoided triggering cluster lookup */ case MONITOR_OVLD_INDEX_SEC_REC_CLUSTER_READS_AVOIDED: value = srv_stats.n_sec_rec_cluster_reads_avoided; break; /* innodb_data_reads, the total number of data reads */ case MONITOR_OVLD_BYTE_READ: value = srv_stats.data_read; break; /* innodb_data_writes, the total number of data writes. */ case MONITOR_OVLD_BYTE_WRITTEN: value = srv_stats.data_written; break; /* innodb_data_reads, the total number of data reads. */ case MONITOR_OVLD_OS_FILE_READ: value = os_n_file_reads; break; /* innodb_data_writes, the total number of data writes*/ case MONITOR_OVLD_OS_FILE_WRITE: value = os_n_file_writes; break; /* innodb_data_fsyncs, number of fsync() operations so far. */ case MONITOR_OVLD_OS_FSYNC: value = os_n_fsyncs; break; /* innodb_os_log_written */ case MONITOR_OVLD_OS_LOG_WRITTEN: value = (mon_type_t) srv_stats.os_log_written; break; /* innodb_os_log_fsyncs */ case MONITOR_OVLD_OS_LOG_FSYNC: value = fil_n_log_flushes; break; /* innodb_os_log_pending_fsyncs */ case MONITOR_OVLD_OS_LOG_PENDING_FSYNC: value = fil_n_pending_log_flushes; update_min = TRUE; break; /* innodb_os_log_pending_writes */ case MONITOR_OVLD_OS_LOG_PENDING_WRITES: value = srv_stats.os_log_pending_writes; update_min = TRUE; break; /* innodb_log_waits */ case MONITOR_OVLD_LOG_WAITS: value = srv_stats.log_waits; break; /* innodb_log_write_requests */ case MONITOR_OVLD_LOG_WRITE_REQUEST: value = srv_stats.log_write_requests; break; /* innodb_log_writes */ case MONITOR_OVLD_LOG_WRITES: value = srv_stats.log_writes; break; case MONITOR_OVLD_LOG_PADDED: value = srv_stats.log_padded; break; /* innodb_dblwr_writes */ case MONITOR_OVLD_SRV_DBLWR_WRITES: value = srv_stats.dblwr_writes; break; /* innodb_dblwr_pages_written */ case MONITOR_OVLD_SRV_DBLWR_PAGES_WRITTEN: value = srv_stats.dblwr_pages_written; break; /* innodb_page_size */ case MONITOR_OVLD_SRV_PAGE_SIZE: value = srv_page_size; break; case MONITOR_OVLD_RWLOCK_S_SPIN_WAITS: value = rw_lock_stats.rw_s_spin_wait_count; break; case MONITOR_OVLD_RWLOCK_X_SPIN_WAITS: value = rw_lock_stats.rw_x_spin_wait_count; break; case MONITOR_OVLD_RWLOCK_SX_SPIN_WAITS: value = rw_lock_stats.rw_sx_spin_wait_count; break; case MONITOR_OVLD_RWLOCK_S_SPIN_ROUNDS: value = rw_lock_stats.rw_s_spin_round_count; break; case MONITOR_OVLD_RWLOCK_X_SPIN_ROUNDS: value = rw_lock_stats.rw_x_spin_round_count; break; case MONITOR_OVLD_RWLOCK_SX_SPIN_ROUNDS: value = rw_lock_stats.rw_sx_spin_round_count; break; case MONITOR_OVLD_RWLOCK_S_OS_WAITS: value = rw_lock_stats.rw_s_os_wait_count; break; case MONITOR_OVLD_RWLOCK_X_OS_WAITS: value = rw_lock_stats.rw_x_os_wait_count; break; case MONITOR_OVLD_RWLOCK_SX_OS_WAITS: value = rw_lock_stats.rw_sx_os_wait_count; break; case MONITOR_OVLD_BUFFER_POOL_SIZE: value = srv_buf_pool_size; break; /* innodb_rows_read */ case MONITOR_OLVD_ROW_READ: value = srv_stats.n_rows_read; break; /* innodb_rows_inserted */ case MONITOR_OLVD_ROW_INSERTED: value = srv_stats.n_rows_inserted; break; /* innodb_rows_deleted */ case MONITOR_OLVD_ROW_DELETED: value = srv_stats.n_rows_deleted; break; /* innodb_rows_updated */ case MONITOR_OLVD_ROW_UPDTATED: value = srv_stats.n_rows_updated; break; /* innodb_system_rows_read */ case MONITOR_OLVD_SYSTEM_ROW_READ: value = srv_stats.n_system_rows_read; break; /* innodb_system_rows_inserted */ case MONITOR_OLVD_SYSTEM_ROW_INSERTED: value = srv_stats.n_system_rows_inserted; break; /* innodb_system_rows_deleted */ case MONITOR_OLVD_SYSTEM_ROW_DELETED: value = srv_stats.n_system_rows_deleted; break; /* innodb_system_rows_updated */ case MONITOR_OLVD_SYSTEM_ROW_UPDATED: value = srv_stats.n_system_rows_updated; break; /* innodb_row_lock_current_waits */ case MONITOR_OVLD_ROW_LOCK_CURRENT_WAIT: value = srv_stats.n_lock_wait_current_count; break; /* innodb_row_lock_time */ case MONITOR_OVLD_LOCK_WAIT_TIME: value = srv_stats.n_lock_wait_time / 1000; break; /* innodb_row_lock_time_max */ case MONITOR_OVLD_LOCK_MAX_WAIT_TIME: value = lock_sys.n_lock_max_wait_time / 1000; break; /* innodb_row_lock_time_avg */ case MONITOR_OVLD_LOCK_AVG_WAIT_TIME: if (srv_stats.n_lock_wait_count > 0) { value = srv_stats.n_lock_wait_time / 1000 / srv_stats.n_lock_wait_count; } else { value = 0; } break; /* innodb_row_lock_waits */ case MONITOR_OVLD_ROW_LOCK_WAIT: value = srv_stats.n_lock_wait_count; break; case MONITOR_RSEG_HISTORY_LEN: value = trx_sys.history_size(); break; case MONITOR_RSEG_CUR_SIZE: value = srv_mon_get_rseg_size(); break; case MONITOR_OVLD_N_FILE_OPENED: value = fil_system.n_open; break; case MONITOR_OVLD_IBUF_MERGE_INSERT: value = ibuf->n_merged_ops[IBUF_OP_INSERT]; break; case MONITOR_OVLD_IBUF_MERGE_DELETE: value = ibuf->n_merged_ops[IBUF_OP_DELETE_MARK]; break; case MONITOR_OVLD_IBUF_MERGE_PURGE: value = ibuf->n_merged_ops[IBUF_OP_DELETE]; break; case MONITOR_OVLD_IBUF_MERGE_DISCARD_INSERT: value = ibuf->n_discarded_ops[IBUF_OP_INSERT]; break; case MONITOR_OVLD_IBUF_MERGE_DISCARD_DELETE: value = ibuf->n_discarded_ops[IBUF_OP_DELETE_MARK]; break; case MONITOR_OVLD_IBUF_MERGE_DISCARD_PURGE: value = ibuf->n_discarded_ops[IBUF_OP_DELETE]; break; case MONITOR_OVLD_IBUF_MERGES: value = ibuf->n_merges; break; case MONITOR_OVLD_IBUF_SIZE: value = ibuf->size; break; case MONITOR_OVLD_SERVER_ACTIVITY: value = srv_get_activity_count(); break; case MONITOR_OVLD_LSN_FLUSHDISK: value = (mon_type_t) log_sys.flushed_to_disk_lsn; break; case MONITOR_OVLD_LSN_CURRENT: value = (mon_type_t) log_sys.lsn; break; case MONITOR_OVLD_BUF_OLDEST_LSN: value = (mon_type_t) buf_pool_get_oldest_modification(); break; case MONITOR_OVLD_LSN_CHECKPOINT: value = (mon_type_t) log_sys.last_checkpoint_lsn; break; case MONITOR_OVLD_MAX_AGE_ASYNC: value = log_sys.max_modified_age_async; break; case MONITOR_OVLD_MAX_AGE_SYNC: value = log_sys.max_modified_age_sync; break; #ifdef BTR_CUR_HASH_ADAPT case MONITOR_OVLD_ADAPTIVE_HASH_SEARCH: value = btr_cur_n_sea; break; #endif /* BTR_CUR_HASH_ADAPT */ case MONITOR_OVLD_ADAPTIVE_HASH_SEARCH_BTREE: value = btr_cur_n_non_sea; break; case MONITOR_OVLD_PAGE_COMPRESS_SAVED: value = srv_stats.page_compression_saved; break; case MONITOR_OVLD_PAGES_PAGE_COMPRESSED: value = srv_stats.pages_page_compressed; break; case MONITOR_OVLD_PAGE_COMPRESSED_TRIM_OP: value = srv_stats.page_compressed_trim_op; break; case MONITOR_OVLD_PAGES_PAGE_DECOMPRESSED: value = srv_stats.pages_page_decompressed; break; case MONITOR_OVLD_PAGES_PAGE_COMPRESSION_ERROR: value = srv_stats.pages_page_compression_error; break; case MONITOR_OVLD_PAGES_ENCRYPTED: value = srv_stats.pages_encrypted; break; case MONITOR_OVLD_PAGES_DECRYPTED: value = srv_stats.pages_decrypted; break; default: ut_error; } switch (set_option) { case MONITOR_TURN_ON: /* Save the initial counter value in mon_start_value field */ MONITOR_SAVE_START(monitor_id, value); return; case MONITOR_TURN_OFF: /* Save the counter value to mon_last_value when we turn off the monitor but not yet reset. Note the counter has not yet been set to off in the bitmap table for normal turn off. We need to check the count status (on/off) to avoid reset the value for an already off conte */ if (MONITOR_IS_ON(monitor_id)) { srv_mon_process_existing_counter(monitor_id, MONITOR_GET_VALUE); MONITOR_SAVE_LAST(monitor_id); } return; case MONITOR_GET_VALUE: if (MONITOR_IS_ON(monitor_id)) { /* If MONITOR_DISPLAY_CURRENT bit is on, we only record the current value, rather than incremental value over a period. Most of ` this type of counters are resource related counters such as number of buffer pages etc. */ if (monitor_info->monitor_type & MONITOR_DISPLAY_CURRENT) { MONITOR_SET(monitor_id, value); } else { /* Most status counters are montonically increasing, no need to update their minimum values. Only do so if "update_min" set to TRUE */ MONITOR_SET_DIFF(monitor_id, value); if (update_min && (MONITOR_VALUE(monitor_id) < MONITOR_MIN_VALUE(monitor_id))) { MONITOR_MIN_VALUE(monitor_id) = MONITOR_VALUE(monitor_id); } } } return; case MONITOR_RESET_VALUE: if (!MONITOR_IS_ON(monitor_id)) { MONITOR_LAST_VALUE(monitor_id) = 0; } return; /* Nothing special for reset all operation for these existing counters */ case MONITOR_RESET_ALL_VALUE: return; } } /*************************************************************//** Reset a monitor, create a new base line with the current monitor value. This baseline is recorded by MONITOR_VALUE_RESET(monitor) */ void srv_mon_reset( /*==========*/ monitor_id_t monitor) /*!< in: monitor id */ { ibool monitor_was_on; monitor_was_on = MONITOR_IS_ON(monitor); if (monitor_was_on) { /* Temporarily turn off the counter for the resetting operation */ MONITOR_OFF(monitor); } /* Before resetting the current monitor value, first calculate and set the max/min value since monitor start */ srv_mon_calc_max_since_start(monitor); srv_mon_calc_min_since_start(monitor); /* Monitors with MONITOR_DISPLAY_CURRENT bit are not incremental, no need to remember the reset value. */ if (innodb_counter_info[monitor].monitor_type & MONITOR_DISPLAY_CURRENT) { MONITOR_VALUE_RESET(monitor) = 0; } else { /* Remember the new baseline */ MONITOR_VALUE_RESET(monitor) = MONITOR_VALUE_RESET(monitor) + MONITOR_VALUE(monitor); } /* Reset the counter value */ MONITOR_VALUE(monitor) = 0; MONITOR_MAX_VALUE(monitor) = MAX_RESERVED; MONITOR_MIN_VALUE(monitor) = MIN_RESERVED; MONITOR_FIELD((monitor), mon_reset_time) = time(NULL); if (monitor_was_on) { MONITOR_ON(monitor); } } /*************************************************************//** Turn on monitor counters that are marked as default ON. */ void srv_mon_default_on(void) /*====================*/ { ulint ix; for (ix = 0; ix < NUM_MONITOR; ix++) { if (innodb_counter_info[ix].monitor_type & MONITOR_DEFAULT_ON) { /* Turn on monitor counters that are default on */ MONITOR_ON(ix); MONITOR_INIT(ix); MONITOR_SET_START(ix); } } }