Submitting forms on the support site are temporary unavailable for schedule maintenance. If you need immediate assistance please contact technical support. We apologize for the inconvenience.
라이브 도움말 보기
등록 완료
로그인
가격 산정 요청
영업 담당자에게 문의
제품 번들을 선택했습니다. 귀하의 요청에 더 적합한 서비스를 제공해 드릴 수 있도록 개별 제품을 선택해 주십시오. *
지금은 채팅에 회신할 수 있는 기술 지원 엔지니어가 없습니다. 즉각적인 서비스를 받으려면 당사의 서비스 요청 양식을 사용하여 요청을 제출하십시오.
다음 문서의 설명에 따라 문제를 해결할 수 있습니다.
The following table provides a list of the FS Storage metrics that are collected, and a description for each.
DB_NAME
The name of the monitored database.
DBPARTITIONNUM
The database partition from which the data was retrieved for this row.
FS_ID
This element shows the unique identification number provided by the operating system for a file system pointed to by a storage path.
DB_STORAGE_PATH
This element shows the full path of a location used by the database for placing automatic storage tablespaces. There can be 0 or more storage paths associated with a database.
FS_TOTAL_SIZE
This element shows the capacity (MB) of a file system pointed to by a storage path.
FS_USED_SIZE
This element shows the amount of space (MB) already used on a file system pointed to by a storage path.
STO_PATH_FREE_SIZE
This element shows the amount of free space (MB) available on a file system pointed to by a storage path. If multiple storage paths point to the same file system, the free size is not divided among them.
FS_UTILIZATION
The utilization (%) of the file system over which the DB2 instance is spread.
The following table provides a list of the FS Storage Summary metrics that are collected, and a description for each.
OVERALL_FS_TOTAL_SIZE
The total capacity (MB) per partition of the file system to which the storage path points.
OVERALL_FS_USED_SIZE
This element shows the amount of space (MB) per partition already used on a file system pointed to by a storage path.
OVERALL_STO_PATH_FREE_SIZE
This element shows the amount of free space (MB) per partition available on a file system pointed to by a storage path. If multiple storage paths point to the same file system, the free size is not divided among them.
OVERALL_FS_UTILIZATION
This element shows the amount of free space (MB) per database available on a file system pointed to by a storage path. If multiple storage paths point to the same file system, the free size is not divided among them.
The following table provides a list of the General Activity metrics that are collected, and a description for each.
ACTIVE_CONNECTIONS
The number of applications that are currently connected to the database, and for which the database manager is processing a request.
ACTIVE_CONNECTIONS_RATE
The number of active connections per second.
ACTIVE_SORTS
The number of sorts in the database that have a sort heap allocated.
APPL_ID_OLDEST_XACT
The application ID of the application with the oldest transaction.
APPL_SECTION_INSERTS
Counts the number of times a copy of a SQL executable section was not available in the application SQL work area and had to be inserted.
APPL_SECTION_LOOKUPS
Each agent has access to a unique SQL work area, where the working copy of any executable section is kept. This metric counts the total number of times the SQL work area was accessed by agents for an application. You can use this element with APPL_SECTION_INSERTS to tune the size of the SQL work area heap.
AVERAGE_LOCK_WAITER_WAIT_TIME
The average amount of time (in seconds) for a lock wait in the database.
CAT_CACHE_INSERTS
The number of times the system attempted to insert table descriptor or authorization information into the catalog cache.
CAT_CACHE_LOOKUPS
The number of times that the catalog cache was referenced to obtain table descriptor or authorization information.
This includes both successful and unsuccessful attempts to access the catalog cache.
CAT_CACHE_OVERFLOWS
The number of times that the catalog cache overflowed its allocated memory.
You can use this element with CAT_CACHE_SIZE_TOP to determine if the size of the catalog cache should be increased to avoid overflowing.
CAT_CACHE_SIZE_TOP
The largest size (in bytes) reached by the catalog cache including overflows, if they occurred.
CATALOG_CACHE_HIT_RATIO
A percentage that indicates how well the catalog cache is helping to avoid actual accesses to insert table descriptor or authorization information into the catalog cache, compared to the number of times the catalog cache was referenced to obtain table descriptor information or authorization information.
A high ratio indicates that it is successful in avoiding actual disk I/O accesses.
The indicator is calculated using the formula:
(1-(CAT_CACHE_INSERTS/CAT_CACHE_LOOKUPS))*100
CATALOG_PARTITION
The main database partition in which the database catalog tables are stored.
CLIENT_PERCENT_ACTIVE
The percentage of active client applications.
COMMIT_SQL_STMTS
The total number of SQL COMMIT statements attempted.
CONNECTIONS
The total number of connections that took place during the specified time range.
CONNECTIONS_HWM
The highest number of simultaneous connections to the database since the database was enabled.
CONNECTIONS_RATE
The number of connections that took place, per second, during the specified time range.
DB_CONN_TIME
The date and time of the connection to the database (at the database level, the first connection to the database), or when the enable database command was issued.
DB_LOCATION
The database location.
Values: LOCAL or REMOTE
At the database level, this is always LOCAL.
DB_PATH
The full path to the database location on the monitored system. At the database level, it is the path of the coordinator partition of the database (most of the time, 0).
DB_STATUS
The status of the database. This interface returns a text identifier, based on the definition in sqlmon.h, which is one of the following values:
ACTIVE
QUIESCE_PEND
QUIESCED
ROLLFWD
DEADLOCKS
The total number of deadlocks that have occurred in the database for the required period. A deadlock occurs when there is a cyclical dependency between two or more threads or processes that are contending for the same set of resources within DB2. That is, each task has a lock on a resource that the other tasks are trying to lock.
DYNAMIC_SQL_STMTS
The number of dynamic SQL statements attempted.
DYNAMIC_SQL_STMTS_RATE
The number of dynamic SQL statements that were run, per second, during the specified time range.
ELAPSED_EXEC_TIME_S
The sum of the host execution times (in seconds) for all the statements that were run for a particular database. This element does not include the network time elapsed between DB2 Connect™ and the host database server.
ELAPSED_EXEC_TIME_S_RATE
The sum of the host elapsed time per second for all the statements that were run for a particular database.
HASH_JOIN_OVERFLOWS
The number of times that hash join data exceeded the available sort heap space.
INT_COMMITS
The total number of commits initiated internally by the database manager.
INT_ROLLBACKS
The total number of rollbacks initiated internally by the database manager.
LAST_BACKUP
The date and time that the latest database backup was completed.
LAST_RESET
The date and time that the monitor counters were last reset.
If the counters have never been reset, the value of the element is zero.
LOCK_LIST_IN_USE_KB
The total amount of lock list memory (in KB) that is in use.
LOCK_TIMEOUTS
The number of times that a request to lock an object timed-out instead of being granted.
LOCK_WAIT_TIME_S
The total amount of time (in seconds) that all applications were waiting for a lock within this database.
LOCK_WAIT_TIME_S_RATE
The rate of time at which all applications were waiting for a lock within this database.
LOCK_WAITS
The total number of times that applications waited for locks within this database.
LOCKS_WAITING
The number of agents waiting on a lock.
NUM_ASSOC_AGENTS
The number of subagents for all applications.
PACKAGE_CACHE_HIT_RATIO
A percentage that indicates how well the package cache is performing. It is the total number of times that a requested section was not available for use and had to be loaded into the package cache compared to what was already loaded into the cache. Includes any implicit prepares performed by the system.
This indicator is calculated using the formula:
((1 - (PKG_CACHE_INSERTS/ PKG_CACHE_LOOKUPS)) * 100)
PKG_CACHE_INSERTS
The total number of times that a requested section was not available for use and had to be loaded into the package cache. This includes any implicit prepares performed by the system.
PKG_CACHE_LOOKUPS
The number of times that an application looked for a section or package in the package cache. At the database level, this is the overall number of references since the database was started, or since monitor data was reset.
PKG_CACHE_NUM_OVERFLOWS
The number of times that the package cache overflowed its allocated memory.
You can use this element with PKG_CACHE_SIZE_TOP to determine if the size of the package cache should be increased to avoid overflowing.
PKG_CACHE_SIZE_TOP
The largest size reached by the package cache.
If the package cache experienced overflow, then this element contains the largest size reached by the package cache during the overflow.
POST_SHRTHRESHOLD_SORTS
The total number of sorts throttled back by the sort memory throttling algorithm. Throttled sorts are sorts that are granted less memory than requested by the sort memory manager. A sort is throttled back when the memory allocation for sorts is close to the limit set by the SHEAPTHRES_SHR database configuration parameter. Throttling significantly reduces the number SHEAPTHRES_SHR overflows in a system that is improperly configured. The value of this element only includes sorts that are using memory allocated from the shared sort heap.
ROLLBACK_SQL_STMTS
The total number of SQL ROLLBACK statements attempted. A rollback can result from an application request, a deadlock, or an error. This element only counts the rollback statements issued from applications. This metric can be used to help with determining the level of activity in the database and the amount of conflict between applications on the database.
SERVER_PLATFORM
The operating system running the database server.
SORT_HEAP_ALLOCATED
The total number of allocated pages of sort heap space for all sorts at the level chosen and at the time the snapshot was taken.
SORT_OVERFLOW_PERCENT
The percentage, within the total number of sorts, of sorts that ran out of sort heap and may have required disk space for temporary storage.
If the percentage is high, consider adjusting the database configuration by increasing the sort heap.
SORT_OVERFLOWS
The total number of sorts that ran out of sort heap and may have required disk space for temporary storage. When a sort overflows, additional overhead is incurred because the sort requires a merge phase and might require more I/O if data needs to be written to disk.
SORT_SHRHEAP_ALLOCATED
The total amount of shared sort memory allocated in the database.
If this value is often much higher or lower than the current shared sort memory threshold, the threshold should probably be adjusted.
SORT_SHRHEAP_TOP
The database-wide shared sort memory high-water mark (in 4k pages).
STATIC_SQL_STMTS
The number of static SQL statements attempted.
STATIC_SQL_STMTS_RATE
The number, per second, of static SQL statements that were run during the specified time range.
TOTAL_SORT_TIME_S
The total elapsed time (in seconds) for all sorts that were run. This metric can be used with TOTAL_SORTS to calculate the average sort time, which can indicate whether sorting is a performance issue.
TOTAL_SORTS
The total number of sorts that have been run. This metric can be used with SORT_OVERFLOWS to calculate the percentage of sorts that need more heap space. You can also use it with TOTAL_SORT_TIME to calculate the average sort time. If the amount of sort overflows is small relative to the total sorts, then increasing the sort heap size may have little impact on performance, unless it is increased substantially.
TOTAL_SUBAGENT_CONS
The number of connections made by a subagent to the database at the node.
XACT
The total number of units of work, calculated by taking the sum of INT_COMMIT, INT_ROLLBACK, COMMIT_SQL_STMTS and ROLLBACK_SQL_STMTS.
XACT_RATE
The number, per second, of transactions that were carried out during the specified time range.
The following table provides a list of the HADR Activity metrics that are collected, and a description for each.
HADR_ROLE
The current HADR role of the database. The data type of this element is integer. The value for this element is one of the following constants:
SQLM_HADR_ROLE_STANDARD (value = 0): The database is not a HADR database.
SQLM_HADR_ROLE_PRIMARY (value = 1): The database is the primary HADR database.
SQLM_HADR_ROLE_STANDBY (value = 2): The database is the standby HADR database.
HADR_STATE
The current HADR state of the database. The data type of this element is integer. This element should be ignored if the HADR role of the database is standard. If the database has a HADR role of primary or standby, the value for this element is one of the following constants:
SQLM_HADR_STATE_DISCONNECTED (value = 0): The database is not connected to its partner database.
SQLM_HADR_STATE_LOC_CATCHUP (value = 1): The database is doing local catch-up.
SQLM_HADR_STATE_REM_CATCH_PEND (value = 2): The database is waiting to connect to its partner to do remote catch-up.
SQLM_HADR_STATE_REM_CATCHUP (value = 3): The database is doing remote catch-up.
SQLM_HADR_STATE_PEER (value = 4): The primary and standby databases are connected and are in peer state.
HADR_SYNCMODE
The current HADR synchronization mode of the database. The data type of this element is integer. This element should be ignored if the HADR role of the database is standard. If the database has a HADR role of primary or standby, the value for this element is one of the following constants:
SQLM_HADR_SYNCMODE_SYNC: Sync mode
SQLM_HADR_SYNCMODE_NEARSYNC: Nearsync mode
SQLM_HADR_SYNCMODE_ASYNC: Async mode
HADR_CONNECT_STATUS
This element should be ignored if the HADR role of the database is standard. If the database has a HADR role of primary or standby, the value for this element is one of the following constants:
SQLM_HADR_CONN_CONNECTED (value = 0): The database is connected to its partner node.
SQLM_HADR_CONN_DISCONNECTED (value = 1): The database is not connected to its partner node.
SQLM_HADR_CONN_CONGESTED (value = 2 ): The database is connected to its partner node, but the connection is congested. A connection is congested when the TCP/IP socket connection between the primary and standby pair is still alive, but one end cannot send to the other end. For example, the receiving end is not receiving from the socket connection, resulting in a full TCP/IP send space. The reasons for network connection congestion include the following:
HADR_CONNECT_TIME
Shows one of the following:
HADR connection time
HADR congestion time
HADR disconnection time
This element should be ignored if the HADR role of the database is standard. If the database HADR role is primary or standby, the meaning of this element depends on the value of the HADR_CONNECT_STATUS element:
If the value of the HADR_CONNECT_STATUS element is SQLM_HADR_CONN_CONNECTED, then this element shows connection time.
If the value of the HADR_CONNECT_STATUS element is SQLM_HADR_CONN_CONGESTED, then this element shows the time when congestion began.
If the value of the HADR_CONNECT_STATUS element is SQLM_HADR_CONN_DISCONNECTED, then this element shows disconnection time.
If there has been no connection since the HADR engine dispatchable unit (EDU) started, connection status is reported as Disconnected and HADR EDU startup time is used for the disconnection time. Since HADR connect and disconnect events are relatively infrequent, the time is collected and reported even if the DFT_MON_TIMESTAMP switch is off.
HADR_HEARTBEAT
The number of missed heartbeats on the HADR connection. If the HADR role of the database is primary or standby, this element indicates the health of the HADR connection. A heartbeat is a message sent from the other HADR database at regular intervals. If the value for this element is zero, no heartbeats have been missed and the connection is healthy. The higher the value, the worse the condition of the connection.
A HADR database expects at least one heartbeat message from the other database in each quarter of the time interval defined in the HADR_TIMEOUT database configuration parameter or in 30 seconds, whichever is shorter. For example, if the HADR_TIMEOUT value is 80 (seconds), then the HADR database expects at least one heartbeat message from the other database every 20 seconds.
Use this element to determine the health of the HADR connection. Use the HADR_ROLE monitor element to determine the HADR role of the database.
HADR_LOCAL_HOST
The local HADR host name. The value is displayed as a host name string or an IP address string such as 1.2.3.4. This element should be ignored if the HADR role of the database is standard.
HADR_LOCAL_SERVICE
The local HADR TCP service. This value is displayed as a service name string or a port number string. This element should be ignored if the HADR role of the database is standard.
HADR_REMOTE_HOST
The remote HADR host name. The value is displayed as a host name string or an IP address string such as 1.2.3.4. This element should be ignored if the HADR role of the database is standard.
HADR_REMOTE_SERVICE
The remote HADR TCP service. This value is displayed as a service name string or a port number string. This element should be ignored if the HADR role of the database is standard.
HADR_REMOTE_INSTANCE
The remote HADR instance name. This element should be ignored if the HADR role of the database is standard.
HADR_TIMEOUT
The number of seconds it takes for a HADR database server to consider a communication attempt to have failed. For an attempt to fail, a HADR database server must not receive a reply message from its partner within the number of seconds specified in this element. This element should be ignored if the HADR role of the database is standard.
HADR_PRIMARY_LOG_FILE
The name of the current log file on the primary HADR database. This element should be ignored if the HADR role of the database is standard.
HADR_PRIMARY_LOG_PAGE
The page number in the current log file indicating the current log position on the primary HADR database. The page number is relative to the log file. For example, page zero is the start of the file. This element should be ignored if the HADR role of the database is standard.
HADR_PRIMARY_LOG_LSN
The current log position of the primary HADR database. Log sequence number (LSN) is a byte offset in the log stream of the database. This element should be ignored if the HADR role of the database is standard.
HADR_STANDBY_LOG_FILE
The name of the current log file on the standby HADR database. This element should be ignored if the HADR role of the database is standard.
HADR_STANDBY_LOG_PAGE
The page number in the current log file indicating the current log position on the standby HADR database. The page number is relative to the log file. For example, page zero is the start of the file. This element should be ignored if the HADR role of the database is standard.
HADR_STANDBY_LOG_LSN
The current log position of the standby HADR database. Log sequence number (LSN) is a byte offset in the log stream of the database. This element should be ignored if the HADR role of the database is standard.
HADR_LOG_GAP_KB
The size (in KB) of the gap between the primary LSN and the standby LSN.
When a log file is truncated, the LSN in the next log file starts as if log file truncation took place, as a result of that creating an LSN hole that contains no log data. Such holes can lead to a situation where the log gap does not reflect the actual log difference between the primary and standby LSN.
HADR_LOG_GAP_KB_RATE
The running log gap rate (in KB/s) between the primary and the standby database.
계열사 지원 사이트에서 Quest *제품*에 대한 온라인 지원 도움말을 볼 수 있습니다. 올바른 *제품* 지원 콘텐츠 및 지원에 연결하려면 계속을 클릭하십시오.
The document was helpful.
평가 결과 선택
I easily found the information I needed.
© ALL RIGHTS RESERVED. 이용 약관 개인정보 보호정책 Cookie Preference Center
Quest Software 포털은 더 이상 IE 8, 9, 10을 지원하지 않습니다. 브라우저를 최신 버전의 Internet Explorer나 Chrome으로 업그레이드하는 것이 좋습니다.
IE 11로 업그레이드 여기를 클릭
Chrome으로 업그레이드 여기를 클릭
IE 8, 9 또는 10을 계속 사용할 경우 당사가 제공하는 뛰어난 셀프서비스 기능 모두를 최대한으로 활용하실 수 없습니다.