libdb/dist/db_provider.d

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/*
* DO NOT EDIT: automatically built by dist/s_include.
* Oracle Berkeley DB DTrace Provider
*/
#include "dbdefs.d"
provider bdb {
/*
*
* dist/events.in - This description of Oracle Berkeley DB's internal
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* events hierarchy is processed by 'dist/s_include' to generate the
* platform-independant file dist/db_provider.d. The 'configure' step on the
* target operating system generate platform-specific include file.
*
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* s_include -> dist/db_provider.d
* configure -> <build_directory>/db_provider.h
*
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* There are two kinds of entries in events.in, describing either an event class
* or an individual event. The entries starting in the first column are class
* names, consisting of a single word. The class's individual events follow,
* described as if they were an ANSI C function signature;
*
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* Events are listed grouped by their relation to one another, rather than
* alphabetically. For instance allocation and free events are adjacent.
* New, unrelated events are placed at the end of their event class.
*
* Copyright (c) 2011, 2012 Oracle and/or its affiliates. All rights reserved.
*
*/
/* The alloc class covers the allocation of "on disk" database pages. */
/*
* An attempt to allocate a database page of type 'type' for database 'db'
* returned 'ret'. If the allocation succeeded then ret is 0, pgno is the
* location of the new page, and pg is the address of the new page.
* Details of the page can be extracted from the pg pointer.
*/
probe alloc__new(char *file, char *db, unsigned pgno, unsigned type,
struct _db_page *pg, int ret);
/*
* An attempt to free the page 'pgno' of 'db' returned 'ret'.
* When successful the page is returned to the free list
* or the file is truncated.
*/
probe alloc__free(char *file, char *db, unsigned pgno, unsigned ret);
/*
* A btree split of pgno in db is being attempted. The parent page number
* and the level in the btree are also provided.
*/
probe alloc__btree_split(char *file, char *db, unsigned pgno, unsigned parent,
unsigned level);
/*
* These DB API calls provide the name of the file and database being accessed.
* In-memory databases will have a NULL (0) file name address. The db name will
* be null unless subdatabases are in use.
*/
/*
* The database or file name was opened. The 20 byte unique fileid can be
* used to keep track of databases as they are created and destroyed.
*/
probe db__open(char *file, char *db, unsigned flags, uint8_t *fileid);
/* The database or file name was closed. */
probe db__close(char *file, char *db, unsigned flags, uint8_t *fileid);
/* An attempt is being made to open a cursor on the database or file. */
probe db__cursor(char *file, char *db, unsigned txnid, unsigned flags,
uint8_t *fileid);
/* An attempt is being made to get data from a db. */
probe db__get(char *file, char *db, unsigned txnid, DBT *key, DBT *data,
unsigned flags);
/* An attempt is being made to put data to a db. */
probe db__put(char *file, char *db, unsigned txnid, DBT *key, DBT *data,
unsigned flags);
/* An attempt is being made to delete data from a db. */
probe db__del(char *file, char *db, unsigned txnid, DBT *key, unsigned flags);
/*
* The lock class monitors the transactional consistency locks: page, record,
* and database. It also monitors the non-transactional file handle locks.
*/
/*
* The thread is about to suspend itself because another locker already has
* a conflicting lock on object 'lock'. The lock DBT's data points to
* a __db_ilock structure, except for the atypical program which uses
* application specific locking.
*/
probe lock__suspend(DBT *lock, db_lockmode_t lock_mode);
/* The thread is awakening from a suspend. */
probe lock__resume(DBT *lock, db_lockmode_t lock_mode);
/* The lock is being freed. */
probe lock__put(struct __sh_dbt *lock, unsigned flags);
/*
* The lock would have been freed except that its refcount was greater
* than 1.
*/
probe lock__put_reduce_count(struct __sh_dbt *lock, unsigned flags);
/*
* These lock counters are included by --enable-perfmon-statistics.
*/
/*
* The locker_id's lock request in lock_obj is about to be aborted in
* order to resolve a deadlock. The lock region's st_ndeadlocks has
* been incremented.
*/
probe lock__deadlock(unsigned st_ndeadlocks, unsigned locker_id,
struct __sh_dbt *lock_obj);
/*
* A DB_LOCK_NOWAIT lock request by locker_id would have had to wait.
* The lock regions's st_lock_nowait has been incremented and
* the request returns DB_LOCK_NOTGRANTED.
*/
probe lock__nowait_notgranted(unsigned count, DBT *lock, unsigned locker_id);
probe lock__request(unsigned request_count, DBT *lock, unsigned locker_id);
probe lock__upgrade(unsigned upgrade_count, DBT *lock, unsigned locker_id);
/*
* A lock is being stolen from one partition for another one
* The 'from' lock partition's st_locksteals has been incremented.
*/
probe lock__steal(unsigned st_locksteals, unsigned from, unsigned to);
/*
* A lock object is being stolen from one partition for another one.
* The 'from' lock partition's st_objectsteals has been incremented.
*/
probe lock__object_steal(unsigned st_objectsteals, unsigned from, unsigned to);
/* A lock wait expired due to the lock request timeout. */
probe lock__locktimeout(unsigned st_nlocktimeouts, const DBT *lock);
/* A lock wait expired due to the transaction's timeout. */
probe lock__txntimeout(unsigned st_ntxntimeouts, const DBT *lock);
/*
* The allocation or deallocation of the locker id changed the number
* of active locker identifiers.
*/
probe lock__nlockers(unsigned active, unsigned locker_id);
/*
* The allocation of the locker id set a new maximum
* number of active locker identifiers.
*/
probe lock__maxnlockers(unsigned new_max_active, unsigned locker_id);
/* Log - Transaction log */
probe log__read(unsigned read_count, unsigned logfile);
/*
* The mpool class monitors the allocation and management of memory,
* including the cache.
*/
/* Read a page from file into buf. */
probe mpool__read(char *file, unsigned pgno, struct __bh *buf);
/* Write a page from buf to file. */
probe mpool__write(char *file, unsigned pgno, struct __bh *buf);
/*
* This is an attempt to allocate size bytes from region_id.
* The reg_type is one of the reg_type_t enum values.
*/
probe mpool__env_alloc(unsigned size, unsigned region_id, unsigned reg_type);
/* The page is about to be removed from the cache. */
probe mpool__evict(char *file, unsigned pgno, struct __bh *buf);
/*
* The memory allocator has incremented wrap_count after searching through
* the entire region without being able to fulfill the request for
* alloc_len bytes. As wrap_count increases the library makes more effort
* to allocate space.
*/
probe mpool__alloc_wrap(unsigned alloc_len, int region_id, int wrap_count,
int put_counter);
/*
* These mpool counters are included by --enable-perfmon-statistics.
*/
/* The eviction of a clean page from a cache incremented st_ro_evict. */
probe mpool__clean_eviction(unsigned st_ro_evict, unsigned region_id);
/*
* The eviction of a dirty page from a cache incremented st_rw_evict.
* The page has already been written out.
*/
probe mpool__dirty_eviction(unsigned st_rw_evict, unsigned region_id);
/* An attempt to allocate memory from region_id failed. */
probe mpool__fail(unsigned failure_count, unsigned alloc_len, unsigned region_id);
probe mpool__free(unsigned freed_count, unsigned alloc_len, unsigned region_id);
probe mpool__longest_search(unsigned count, unsigned alloc_len, unsigned region_id);
probe mpool__free_frozen(unsigned count, char *file, unsigned pgno);
probe mpool__freeze(unsigned hash_frozen, unsigned pgno);
/* A search for pgno of file incremented st_hash_searches. */
probe mpool__hash_search(unsigned st_hash_searches, char *file, unsigned pgno);
/*
* A search for pgno of file increased st_hash_examined by the number
* of hash buckets examined.
*/
probe mpool__hash_examined(unsigned st_hash_examined, char *file, unsigned pgno);
/* A search for pgno of file set a new maximum st_hash_longest value. */
probe mpool__hash_longest(unsigned st_hash_longest, char *file, unsigned pgno);
/*
* A file's st_map count was incremented after a page was mapped into
* memory. The mapping might have caused disk I/O.
*/
probe mpool__map(unsigned st_map, char *file, unsigned pgno);
/*
* The hit count was incremented because pgno from file was found
* in the cache.
*/
probe mpool__hit(unsigned st_cache_hit, char *file, unsigned pgno);
/*
* The miss count was incremented because pgno from file was
* not already present in the cache.
*/
probe mpool__miss(unsigned st_cache_miss, char *file, unsigned pgno);
/*
* The st_page_create field was incremented because
* the pgno of file was created in the cache.
*/
probe mpool__page_create(unsigned st_page_create, char *file, unsigned pgno);
/*
* The st_page_in field was incremented because
* the pgno from file was read into the cache.
*/
probe mpool__page_in(unsigned st_page_in, char *file, unsigned pgno);
/*
* The st_page_out field was incremented because
* the pgno from file was written out.
*/
probe mpool__page_out(unsigned st_page_out, char *file, unsigned pgno);
probe mpool__thaw(unsigned count, char *file, unsigned pgno);
probe mpool__alloc(unsigned success_count, unsigned len, unsigned region_id);
probe mpool__nallocs(unsigned st_alloc, unsigned alloc_len);
probe mpool__alloc_buckets(unsigned st_alloc_buckets, unsigned region_id);
probe mpool__alloc_max_buckets(unsigned max, unsigned region_id);
probe mpool__alloc_max_pages(unsigned max, unsigned region_id);
probe mpool__alloc_pages(unsigned count, unsigned region_id);
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probe mpool__backup_spins(unsigned spins, char *file, unsigned pgno);
/*
* The aggressiveness of a buffer cache allocation increases as more
* involved methods are needed in order to free up the requested space
* in the cache with the indicated region_id.
* aggressive: the agressiveness of an allocation request was increased.
* max_aggressive: the agressiveness of an allocation request was increased
* to a new maximum.
*/
probe mpool__aggressive(unsigned st_alloc_aggressive, unsigned region_id);
probe mpool__max_aggressive(unsigned st_alloc_max_aggr, unsigned region_id);
/*
* The mutex category monitors includes shared latches. The alloc_id value
* is one of the MTX_XXX definitions from dbinc/mutex.h
*/
/*
* This thread is about to suspend itself because a thread has the
* mutex or shared latch locked in a mode which conflicts with the
* this request.
*/
probe mutex__suspend(unsigned mutex, unsigned excl, unsigned alloc_id,
struct __db_mutex_t *mutexp);
/*
* The thread is returning from a suspend and will attempt to obtain
* the mutex or shared latch again. It might need to suspend again.
*/
probe mutex__resume(unsigned mutex, unsigned excl, unsigned alloc_id,
struct __db_mutex_t *mutexp);
/*
* These mutex counters are included by --enable-perfmon-statistics.
*/
/*
* Increment the count of times that the mutex was free when trying
* to lock it.
*/
probe mutex__set_nowait(unsigned mutex_set_nowait, unsigned mutex);
/*
* Increment the count of times that the mutex was busy when trying
* to lock it.
*/
probe mutex__set_wait(unsigned mutex_set_wait, unsigned mutex);
/*
* Increment the count of times that the shared latch was free
* when trying to get a shared lock on it.
*/
probe mutex__set_rd_nowait(unsigned mutex_set_rd_nowait, unsigned mutex);
/*
* Increment the count of times that the shared latch was already
* exclusively latched when trying to get a shared lock on it.
*/
probe mutex__set_rd_wait(unsigned mutex_set_rd_wait, unsigned mutex);
/*
* Increment the count of times that a hybrid mutex had to block
* on its condition variable. n a busy system this might happen
* several times before the corresponding hybrid_wakeup.
*/
probe mutex__hybrid_wait(unsigned hybrid_wait, unsigned mutex);
/*
* Increment the count of times that a hybrid mutex finished
* one or more waits for its condition variable.
*/
probe mutex__hybrid_wakeup(unsigned hybrid_wakeup, unsigned mutex);
/*
* The race events are triggered when the interactions between two threads
* causes a rarely executed code path to be taken. They are used primarily
* to help test and diagnose race conditions, though if they are being
* triggered too frequently it could result in performance degradation.
* They are intended for use by Berkeley DB engineers.
*/
/* A Btree search needs to wait for a page lock and retry from the top. */
probe race__bam_search(char *file, char *db, int errcode, struct _db_page *pg,
struct _db_page *parent, unsigned flags);
/*
* A record was not found searching an off-page duplicate tree.
* Retry the search.
*/
probe race__dbc_get(char *file, char *db, int errcode, unsigned flags, DBT *key);
/*
* The thread could not immediately open and lock the file handle
* without waiting. The thread will close, wait, and retry.
*/
probe race__fop_file_setup(char *file, int errcode, unsigned flags);
/* A get next or previous in a recno db had to retry. */
probe race__ramc_get(char *file, char *db, struct _db_page *pg, unsigned flags);
/* The statistics counters for replication are for internal use. */
probe rep__log_queued(unsigned count, DB_LSN *lsn);
probe rep__pg_duplicated(unsigned eid, unsigned pgno, unsigned file, unsigned count);
probe rep__pg_record(unsigned count, unsigned eid);
probe rep__pg_request(unsigned count, unsigned eid);
probe rep__election_won(unsigned count, unsigned generation);
probe rep__election(unsigned count, unsigned generation);
probe rep__log_request(unsigned count, unsigned eid);
probe rep__master_change(unsigned count, unsigned eid);
/* The txn category covers the basic transaction operations. */
/* A transaction was successfully begun. */
probe txn__begin(unsigned txnid, unsigned flags);
/* A transaction is starting to commit. */
probe txn__commit(unsigned txnid, unsigned flags);
/*
* The transaction is starting to prepare, flushing the log
* so that a future commit can be guaranteed to succeed.
* The global identifier field is 128 bytes long.
*/
probe txn__prepare(unsigned txnid, uint8_t *gid);
/* The transaction is about to abort. */
probe txn__abort(unsigned txnid);
/*
* These txn counters are included by --enable-perfmon-statistics.
*/
/* Beginning the transaction incremented st_nbegins. */
probe txn__nbegins(unsigned st_nbegins, unsigned txnid);
/* Aborting the transaction incremented st_naborts. */
probe txn__naborts(unsigned st_naborts, unsigned txnid);
/* Committing the transaction incremented st_ncommits. */
probe txn__ncommits(unsigned st_ncommits, unsigned txnid);
/*
* Beginning or ending the transaction updated the number of active
* transactions.
*/
probe txn__nactive(unsigned st_nactive, unsigned txnid);
/*
* The creation of the transaction set a new maximum number
* of active transactions.
*/
probe txn__maxnactive(unsigned st_maxnactive, unsigned txnid);
probe txn__nsnapshot(unsigned st_nsnapshot, unsigned txnid);
probe txn__maxnsnapshot(unsigned st_maxnsnapshot, unsigned txnid);
};
#pragma D attributes Evolving/Evolving/Common provider bdb provider
#pragma D attributes Private/Private/Common provider bdb module
#pragma D attributes Private/Private/Common provider bdb function
#pragma D attributes Evolving/Evolving/Common provider bdb name
#pragma D attributes Evolving/Evolving/Common provider bdb args