Oracle® Database Reference 11g Release 2 (11.2) Part Number E25513-03 |
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PDF · Mobi · ePub |
This section provides detailed descriptions for those wait events of greatest interest. Where appropriate, pointers are provided to further information elsewhere in Oracle Database documentation. For a complete listing of wait events, in alphabetical order, you can issue the following SQL statement:
SQL> SELECT name FROM V$EVENT_NAME ORDER BY name;
A session has issued a statement ALTER SYSTEM SET DISPATCHER
= string
and is waiting for the dispatchers to get started.
Wait Time: The session will wait 1 / 100 of a second and check to see if the new dispatchers have started else the session will wait again
Parameter | Description |
---|---|
waited | Number of times that the session has waited 1 / 100 of a second |
A session is waiting on another process to allocate a system change number (SCN). If the foreground timed out waiting on a process to get the SCN, the foreground will get the SCN.
Wait Time: The wait time is 1 second on the assumption that an SCN allocation should normally need much less than that
Parameters: None
The session waits to check if an external large object (LOB) exists.
Wait Time: The total elapsed time for the exists call
Parameter | Description |
---|---|
session# | See "session#" |
waited | See "waited" |
The session waits for an external large object (LOB) to open.
Wait Time: The total elapsed time for the isopen call
Parameter | Description |
---|---|
session# | See "session#" |
waited | See "waited" |
The session waits for an external large object (LOB) to close.
Wait Time: The total elapsed time for the close call
Parameter | Description |
---|---|
session# | See "session#" |
waited | See "waited" |
The session waits on a call to check the size of an external large object (LOB).
Wait Time: The total elapsed time for the call to check the LOB size
Parameter | Description |
---|---|
session# | See "session#" |
waited | See "waited" |
The session waits on a call to find or generate the external name of a external large object.
Wait Time: The total elapsed time for make external file name to complete
Parameter | Description |
---|---|
session# | See "session#" |
waited | See "waited" |
The session is waiting on a call to find or generate the external path name of an external large object (LOB).
Wait Time: The total elapsed time for make external path to complete
Parameter | Description |
---|---|
session# | See "session#" |
waited | See "waited" |
The session waits for a positioning call within the external large object (LOB) to complete.
Wait Time: The total elapsed time for the seek to complete
Parameter | Description |
---|---|
session# | See "session#" |
waited | See "waited" |
The session waits for an external large object (LOB) to open.
Wait Time: The total elapsed time for the isopen call
Parameter | Description |
---|---|
session# | See "session#" |
waited | See "waited" |
The session waits for a read from a external large object (LOB) to complete.
Wait Time: The total elapsed time for the read to complete
Parameter | Description |
---|---|
session# | See "session#" |
waited | See "waited" |
Processes enter "wait for broadcast mesg queue transition" when cleaning up a publisher channel handle to a RELIABLE broadcast channel. The publisher is responsible for moving the message to the free queue, but it cannot do so until the message is in the done queue. If the message is still not in the done queue, process enters this wait. This wait event will most likely show up when an Oracle process is about to exit normally, or when PMON cleans up a dead process.
Wait Time: Varies
Parameter | Description |
---|---|
channel handle | publisher channel handle pointer |
message | broadcast message pointer |
location | A number indicating the function in KSR where the process is waiting |
Processes enter "wait for broadcast mesg recovery queue transition" when cleaning up a publisher channel handle to a RELIABLE broadcast channel. The broadcasted message is in the recovery queue of another channel handle (for example, ch2). Process enters this wait, if the message is yet to be removed from the recovery queue of the ch2 channel handle. This wait event will most likely show up when an Oracle process is about to exit normally, or when PMON cleans up a dead process.
Wait Time: Varies
Parameter | Description |
---|---|
channel handle | Publisher channel handle pointer |
message | Broadcast message pointer |
location | A number indicating the function in KSR where the process is waiting |
Wait until a buffer becomes available. This event happens because a buffer is either being read into the buffer cache by another session (and the session is waiting for that read to complete) or the buffer is the buffer cache, but in a incompatible mode (that is, some other session is changing the buffer).
Wait Time: Normal wait time is 1 second. If the session was waiting for a buffer during the last wait, then the next wait will be 3 seconds.
Oracle does not really wait on this event; the foreground only yields the CPU. Thus, the chances of catching this event are very low. This is not an application induced deadlock, but an assumed deadlock by the cache layer. The cache layer cannot get a buffer in a certain mode within a certain amount of time.
Wait Time: 0 seconds. The foreground process only yields the CPU and will usually be placed at the end of the CPU run queue.
The session waits on the buffer hash chain latch. Primarily used in the dump routines.
Wait Time: 1 second
Parameter | Description |
---|---|
latch addr | The virtual address in the SGA where this latch is located. Use the following statement to find the name of this latch:
select *
from v$latch a, v$latchname b
where addr = latch addr
and a.latch# = b.latch#;
|
chain# | The index into array of buffer hash chains. When the chain is 0xfffffff, the foreground waits on the LRU latch. |
This event occurs only if the instance is mounted in shared mode (Oracle Real Application Cluster). During the read of the buffer, the contents changed. This means that either:
The version number, dba, or the incarnation and sequence number stored in the block no longer match
The checksum on the block does not match the checksum in the block
The block will be re-read (this may fail up to 3 times), then corruption is assumed and the corrupt block is dumped in the trace file.
Wait Time: The wait time is the elapsed time of the read
A session waits for a checkpoint to complete. This could happen, for example, during a close database or a local checkpoint.
Wait Time: 5 seconds
Parameters: None
When a process spawn is aborted while the process spawning background is in the middle of spawning, the current session must wait until the pid of the new process is filled in. Once the pid is filled in, then the process spawn can be actually aborted.
Wait Time: Usually 3 seconds
Parameter | Description |
---|---|
location | Location of the wait |
This event occurs while the session is writing physical blocks to all control files. This happens when:
The session starts a control file transaction (to make sure that the control files are up to date in case the session crashes before committing the control file transaction)
The session commits a transaction to a control file
Changing a generic entry in the control file, the new value is being written to all control files
Wait Time: The wait time is the time it takes to finish all writes to all control files
Parameter | Description |
---|---|
files | The number of control files to which the session is writing |
blocks | The number of blocks that the session is writing to the control file |
requests | The number of I/O requests which the session wants to write |
Reading from the control file. This happens in many cases. For example, while:
Making a backup of the control files
Sharing information (between instances) from the control file
Reading other blocks from the control files
Reading the header block
Wait Time: The wait time is the elapsed time of the read
Parameter | Description |
---|---|
file# | The control file from which the session is reading |
block# | Block number in the control file from where the session starts to read. The block size is the physical block size of the port (usually 512 bytes, some UNIX ports have 1 or 2 Kilobytes). |
blocks | The number of blocks that the session is trying to read |
This wait is signaled while the control file's shared information is written to disk. This is an atomic operation protected by an enqueue (CF), so that only one session at a time can write to the entire database.
Wait Time: The wait time is the elapsed time of the write
Parameter | Description |
---|---|
file# | This identifies the control file to which the session is currently writing |
block# | Block number in the control file where the write begins. The block size is the as the physical block size of the port (usually 512 bytes, some UNIX ports have 1 or 2 Kilobytes). |
blocks | The number of blocks that the session is trying to read |
A session waits on this event when it is requesting a mutex in shared mode, when another session is currently holding a this mutex in exclusive mode on the same cursor object.
Parameter | Description |
---|---|
P1 | Hash value of cursor |
P2 | Mutex value (top 2 bytes contain SID holding mutex in exclusive mode, and bottom two bytes usually hold the value 0) |
P3 | Mutex where (an internal code locator) OR'd with Mutex Sleeps |
The session requests the mutex for a cursor object in exclusive mode, and it must wait because the resource is busy. The mutex is busy because either the mutex is being held in exclusive mode by another session or the mutex is being held shared by one or more sessions. The existing mutex holder(s) must release the mutex before the mutex can be granted exclusively.
Parameter | Description |
---|---|
P1 | Hash value of cursor |
P2 | Mutex value (top 2 bytes contain SID holding mutex in exclusive mode, and bottom two bytes usually hold the value 0) |
P3 | Mutex where (an internal code locator) OR'd with Mutex Sleeps |
A session waits on this event when it wants to update a shared mutex pin and another session is currently in the process of updating a shared mutex pin for the same cursor object. This wait event should rarely be seen because a shared mutex pin update is very fast.
Wait Time: Microseconds
Parameter | Description |
---|---|
P1 | Hash value of cursor |
P2 | Mutex value (top 2 bytes contains SID holding mutex in exclusive mode, and bottom two bytes usually hold the value 0) |
P3 | Mutex where (an internal code locator) OR'd with Mutex Sleeps |
A session waits for this event when it is requesting a shared mutex pin and another session is holding an exclusive mutex pin on the same cursor object.
Wait Time: Microseconds
Parameter | Description |
---|---|
P1 | Hash value of cursor |
P2 | Mutex value (top 2 bytes contains SID holding mutex in exclusive mode, and bottom two bytes usually hold the value 0) |
P3 | Mutex where (an internal code locator) OR'd with Mutex Sleeps |
A session waits on this event when it is requesting an exclusive mutex pin for a cursor object and it must wait because the resource is busy. The mutex pin for a cursor object can be busy either because a session is already holding it exclusive, or there are one or more sessions which are holding shared mutex pin(s). The exclusive waiter must wait until all holders of the pin for that cursor object have released it, before it can be granted.
Wait Time: Microseconds
Parameter | Description |
---|---|
P1 | Hash value of cursor |
P2 | Mutex value (top 2 bytes contains SID holding mutex in exclusive mode, and bottom two bytes usually hold the value 0) |
P3 | Mutex where (an internal code locator) OR'd with Mutex Sleeps |
During Data Guard process termination, Data Guard will wait for one second for process cleanup to complete.
During Data Guard process termination, Data Guard will wait for a process to exit before attempting any process cleanup that may be required. It will sleep for one second between each check for process exit.
The Data Guard Broker (DMON) process waits for the other instances in this cluster to complete shutdown before continuing with the broker operation.
Wait Time: Depends on the number of instances, but not exceeding 30 seconds times the number of instances
This happens during recovery. It can also happen during buffer prefetching, as an optimization (rather than performing multiple single-block reads). Database blocks that need to be changed as part of recovery are read in parallel from the database.
Wait Time: Wait until all of the I/Os are completed
Parameter | Description |
---|---|
files | This indicates the number of files to which the session is reading |
blocks | This indicates the total number of blocks to be read |
requests | This indicates the total number of I/O requests, which will be the same as blocks |
This event occurs in the DBWR. It indicates that the DBWR is performing a parallel write to files and blocks. When the last I/O has gone to disk, the wait ends.
Wait Time: Wait until all of the I/Os are completed
Parameter | Description |
---|---|
requests | This indicates the total number of I/O requests, which will be the same as blocks |
interrupt | |
timeout | This indicates the timeout value in hundredths of a second to wait for the I/O completion. |
Similar to db file sequential read, except that the session is reading multiple data blocks.
Wait Time: The wait time is the actual time it takes to do all of the I/Os
The session waits while a sequential read from the database is performed. This event is also used for rebuilding the control file, dumping datafile headers, and getting the database file headers.
Wait Time: The wait time is the actual time it takes to do the I/O
This event is used to wait for the writing of the file headers.
Wait Time: The wait time is the actual time it takes to do the I/O
This event occurs only for the DBWR in Real Application Clusters. Each DBWR of every instance holds a global lock on each file in shared mode. The instance that is trying to offline the file will escalate the global lock from shared to exclusive. This signals the other instances to synchronize their SGAs with the control file before the file can be taken offline. The name of this lock is DF (see Appendix D, "Oracle Enqueue Names" for more information).
Wait Time: 1 second in loop. The DBWR is waiting in a loop (sleep, check) for the other instances to downgrade to NULL mode. During this time, the DBWR cannot perform other tasks such as writing buffers.
Parameter | Description |
---|---|
file | See "file#" |
The session waits for the lock handle of a global lock request. The lock handle identifies a global lock. With this lock handle, other operations can be performed on this global lock (to identify the global lock in future operations such as conversions or release). The global lock is maintained by the DLM.
Wait Time: The session waits in a loop until it has obtained the lock handle from the DLM. Inside the loop there is a wait of 0.5 seconds.
Parameter | Description |
---|---|
name | See "name and type" |
mode | See "mode" |
id1 | See "id1" |
id2 | See "id2" |
The session needs to get the lock handle.
During Direct Path operations the data is asynchronously read from the database files. At some stage the session needs to make sure that all outstanding asynchronous I/O have been completed to disk. This can also happen if during a direct read no more slots are available to store outstanding load requests (a load request could consist of multiple I/Os).
Wait Time: 10 seconds. The session will be posted by the completing asynchronous I/O. It will never wait the entire 10 seconds. The session waits in a tight loop until all outstanding I/Os have completed.
Parameter | Description |
---|---|
descriptor address | This is a pointer to the I/O context of outstanding direct I/Os on which the session is currently waiting |
first dba | The dba of the oldest I/O in the context referenced by the descriptor address |
block cnt | Number of valid buffers in the context referenced by the descriptor address |
During Direct Path write operations the data is asynchronously written to the database files. At some point the session needs to ensure that all outstanding asynchronous I/O have been completed to disk. On Unix the fsync command, which synchronizes data to disk, is issued to confirm that all the writes have completed and the data is all on disk.
Wait Time: The time taken for the fsync operation to complete, which normally is the time taken to complete the outstanding I/Os.
Parameters | Description |
---|---|
file# | See "file#" |
flags | Flags used for debugging purposes |
During Direct Path operations, the data is asynchronously written to the database files. At some stage the session needs to make sure that all outstanding asynchronous I/O have been completed to disk. This can also happen if, during a direct write, no more slots are available to store outstanding load requests (a load request could consist of multiple I/Os).
Wait Time: 10 seconds. The session will be posted by the completing asynchronous I/O. It will never wait the entire 10 seconds. The session waits in a tight loop until all outstanding I/Os have completed.
Parameter | Description |
---|---|
descriptor address | This is a pointer to the I/O context of outstanding direct I/Os on which the session is currently waiting |
first dba | The dba of the oldest I/O in the context referenced by the descriptor address |
block cnt | Number of valid buffers in the context referenced by the descriptor address |
This event is used to wait for disk file operations (for example, open, close, seek, and resize). It is also used for miscellaneous I/O operations such as block dumps and password file accesses.
Wait Time: The wait time is the actual time it takes to do the I/O
Parameter | Description |
---|---|
FileOperation | Type of file operation |
fileno | File identification number |
filetype | Type of file (for example, log file, data file, and so on) |
During shutdown immediate or normal, the shutdown process must wait for all the dispatchers to shutdown. As each dispatcher is signaled, the session that causes the shutdown is waits on this event until the requested dispatcher is no longer alive.
Wait Time: 1 second
Parameter | Description |
---|---|
waited | Indicates the cumulative wait time. After 5 minutes, the session writes to the alert and trace files to indicate that there might be a problem. |
This basically means that the dispatcher is idle and waiting for some work to arrive.
Wait Time: 60 seconds
Parameter | Description |
---|---|
sleep time | The intended sleep time. The dispatcher will return to work sooner if it is posted by either data arriving on the network or by a post from a shared server process to send data back to the client. |
It is possible for a race condition to occur when creating a new cluster key. If it is found that another process has put the cluster key into the data/index block, then the session waits and retries. The retry should then find a valid cluster key.
Wait Time: 0.01 seconds
Parameter | Description |
---|---|
dba | The dba of the block into which the session is trying to insert a cluster key |
A session will wait on this event if it is trying to initialize the database wallet, and another session has already begun an initialization.
Wait Time: Total time necessary to initialize the wallet context
Parameters: None
A session will wait on this event if it is trying to terminate the database wallet, and another session has already begun a termination.
Wait Time: Total time necessary to deallocate memory used by the wallet context and terminate the context.
Parameters: None
The session is waiting for a local enqueue. The wait is dependent on the name of the enqueue (see Appendix D, "Oracle Enqueue Names").
Wait Time: Depends on the enqueue name
Parameter | Description |
---|---|
name | See "name and type" |
mode | See "mode" |
This wait event only occurs when Flashback Database is turned on. A session waits for recovery writer (RVWR) to write flashback data to the flashback logs on disk because the buffers are full. Until RVWR can free up the buffers, the session may need to wait.
If this event becomes a top wait event for the database, it is typically because the file system or storage system for the Fast Recovery Area does not support enough bandwidth for Oracle to write the flashback database logs. Refer to the Flashback Database section in Oracle Database Backup and Recovery User's Guide for tuning considerations.
Wait Time: 1 second
Parameters: None
Waits for flashback database data to be written to disk.
Wait Time: Includes RVWR writing the flashback database data and posting this process
Parameters: None
This will happen if:
All buffer gets have been suspended. This could happen when a file was read-only and is now read-write. All the existing buffers need to be invalidated since they are not linked to lock elements (needed when mounted parallel (shared)). So cache buffers are not assigned to data block addresses until the invalidation is finished.
The session moved some dirty buffers to the dirty queue and now this dirty queue is full. The dirty queue needs to be written first. The session will wait on this event and try again to find a free buffer
This also happens after inspecting free buffer inspected buffers. If no free buffer is found, Oracle waits for one second, and then tries to get the buffer again (depends on the context). For more information, see free buffer inspected.
Wait Time: 1 second
The session is waiting for a free slot in the global transaction table (used by the Distributed Database option). It will wait for 1 second and try again.
Wait Time: 1 second
Parameter | Description |
---|---|
tries | The number of times the session tried to find a free slot in the global transaction table |
Used during the creation of a process. The session will scan the process table and look for a free process slot. If none can be found, PMON is posted to check if all the processes currently in the process table are still alive. If there are dead processes, then PMON will clean them and make the process slot available to new processes. The waiting process will then rescan the process table to find the new slot.
Wait Time: 1 second
Parameters: None
Instance recovery is waiting for a global cache operation to complete.
Wait Time: The total elapsed time for the global cache operation to complete
The session waits for a resource get in SHARED
mode on the block identified by file# and block#.
Wait Time: 1 second
The session waits for a resource get in EXCLUSIVE
mode on the block identified by file# and block#.
Wait Time: 1 second
A session dropping an object waits on the lock manager daemon (LMD) to remove the object's affinity to an instance.
Wait Time: 20 hundredths of a second
Parameter | Description |
---|---|
pkey | The object id of the database object being dropped |
The session waits to convert a buffer from Shared Current to Exclusive Current status.
Wait Time: 1 second
PMON is waiting for an LCK process to cleanup the lock context after a foreground process died while doing a global cache lock operation.
Wait Time: 1 second
All releasable locks are used and a new one has been requested. To make a resource element available, a resource element is pinged.
Wait Time: The duration of the resource get operation to ping the resource element
Parameters: None
This event is used for two purposes:
Switching sessions
If a time-out period has been specified, then wait that amount of time for the session to be detached.
Killing sessions
From either KILL SESSION
or internal request. Having posted a session that it should kill itself, wait for up to 1 minute for the session to terminate.
Wait Time: 1 second
Parameter | Description |
---|---|
session# | See "session#" |
waited | See "waited" |
The session waits for a transaction branch that is currently used by another session.
Wait Time: 1 second
Parameter | Description |
---|---|
branch# | The serial number of the transaction for which the session is waiting |
waited | See "waited" |
While trying to find an index key in an index block, Oracle noticed that the index block was being split. Oracle will wait for the split to finish and try to find the key again.
Wait Time: The session will yield the CPU, so there is no actual waiting time
Parameter | Description |
---|---|
rootdba | The root of the index |
level | This is the level of the block that the session is trying to split in the index. The leaf blocks are level 0. If the level is > 0, it is a branch block. (The root block can be considered a special branch block). |
childdba | The block that the session is trying to split |
The session waits for SMON to enable or disable cache or transaction recovery. This usually happens during ALTER DATABASE OPEN
or CLOSE
.
Wait Time: Wait time depends on the amount of time the action takes (that is, the amount of recovery needed)
Parameter | Description |
---|---|
layer | This value can be 1 or 2. If 1, it means that the transaction layer wants transaction recovery to be performed. If 2, it means that cache recovery will be performed. |
value | This value can be 0 (disable) or 1 (enable) |
waited | The number of seconds waited so far |
The session waits for an I/O to complete or it waits for a slave process to become available to submit the I/O request. This event occurs on platforms that do not support asynchronous I/O.
Wait Time: 50 milliseconds
Parameter | Description |
---|---|
msg ptr | A pointer to the I/O request |
The session waits for the background LCK process(es) to finish what they are doing. For example:
Lock recovery
Initializing the locks (start up)
Finalizing the locks (shut down)
Wait Time: 10 seconds
Parameter | Description |
---|---|
count | The number of LCK processes that have finished |
loops | The number times the process had to wait for the LCK processes to finish what they were doing |
The cross instance broadcast facility of this Oracle instance is waiting for the database mount in shared mode to complete.
Wait Time: The time taken for the instance to mount. An indefinite wait on this event implies that the instance startup is hanging.
The session waits for SMON to finish the instance, transaction recovery, or sort segment cleanup.
Wait Time: The wait time can vary and depends on the amount of recovery needed
Parameter | Description |
---|---|
undo segment# | If the value is 0, SMON is probably performing instance recovery. If P1 > 0, use this query to find the undo segment:
select *
from v$rollstat
where usn = undo segment#;
|
This event is used as part of the process of determining whether a latch needs to be cleaned.
Wait Time: 0.05 to 0.1 seconds
Parameter | Description |
---|---|
address | The address of the latch that is being checked |
number | The latch number of the latch that has activity. To find more information on the latch, use the following SQL statement:
select *
from v$latchname
where latch# = number;
|
process# | If this is 0, it is the first phase of the in-flux tests |
The process waits for a latch that is currently busy (held by another process).
Wait Time: The wait time increases exponentially and does not include spinning on the latch (active waiting). The maximum wait time also depends on the number of latches that the process is holding. There is an incremental wait of up to 2 seconds.
Parameter | Description |
---|---|
address | The address of the latch for which the process is waiting |
number | The latch number that indexes in the V$LATCHNAME view.To find more information on the latch, use the following SQL statement:
select *
from v$latchname
where latch# = number;
|
tries | A count of the number of times the process tried to get the latch (slow with spinning) and the process has to sleep |
The session tries to find the load lock for the database object so that it can load the object. The load lock is always obtained in Exclusive mode, so that no other process can load the same object. If the load lock is busy the session will wait on this event until the lock becomes available.
Wait Time: 3 seconds (1 second for PMON)
Parameter | Description |
---|---|
object address | Address of the object being loaded |
lock address | Address of load lock being used |
mask | Indicates which data pieces of the object that needs to be loaded |
This event controls the concurrency between clients of the library cache. It acquires a lock on the object handle so that either:
One client can prevent other clients from accessing the same object
The client can maintain a dependency for a long time (for example, no other client can change the object)
This lock is also obtained to locate an object in the library cache.
Wait Time: 3 seconds (1 second for PMON)
Parameter | Description |
---|---|
handle address | Address of the object being loaded |
lock address | Address of the load lock being used. This is not the same thing as a latch or an enqueue, it is a State Object. |
mode | Indicates the data pieces of the object which need to be loaded |
namespace | See "namespace" |
This event manages library cache concurrency. Pinning an object causes the heaps to be loaded into memory. If a client wants to modify or examine the object, the client must acquire a pin after the lock.
Wait Time: 3 seconds (1 second for PMON)
Parameter | Description |
---|---|
handle address | Address of the object being loaded |
pin address | Address of the load lock being used. This is not the same thing as a latch or an enqueue, it is basically a State Object. |
mode | Indicates which data pieces of the object that needs to be loaded |
namespace | See "namespace" |
The process shutting down the instance waits for sessions to complete before proceeding with library cache shutdown.
The rolling migration operation is waiting for a response from LMON to acknowledge the global data was updated.
Wait Time: The time it takes for LMON to publish/retrieve the global data associated with a
Parameters: None
The lock manager waits for a message from a remote lock manager in the same configuration.
Wait Time: The elapsed time of the wait
Parameter | Description |
---|---|
waittime | The elapsed time of the actual wait |
Used local archiving of online redo logs (for a production database) or standby redo logs (for a standby database). When the archiving process exhausts its I/O buffers because all of them are being used for on-going I/O's, the wait for an available I/O buffer is captured in this system wait event.
Wait Time: Depends on the speed of the disks
Parameters: None
Waiting for space in the log buffer because the session is writing data into the log buffer faster than LGWR can write it out. Consider making the log buffer bigger if it is small, or moving the log files to faster disks such as striped disks.
Wait Time: Usually 1 second, but 5 seconds if it is waiting for a Switch Logfile to complete
Parameters: None
Writing redo records to the redo log files from the log buffer.
Wait Time: Time it takes for the I/Os to complete. Even though redo records are written in parallel, the parallel write is not complete until the last I/O is on disk.
Parameter | Description |
---|---|
files | Number of files to be written |
blocks | Number of blocks to be written |
requests | Number of I/O requests |
Waiting for the read from this logfile to return. This is used to read redo records from the log file.
Wait Time: Time it takes to complete the physical I/O (read)
Parameter | Description |
---|---|
log# | The relative sequence number of the logfiles within a log group (used only when dumping the logfiles) |
block# | See "block#" |
blocks | The number of blocks to read |
Waiting for the write to this logfile to complete. This event is used while updating the header of the logfile. It is signaled when adding a log file member and when incrementing sequence numbers.
Wait Time: Time it takes for the physical I/O (write) to complete
Parameter | Description |
---|---|
log# | This is the number of the group/log to which the session is currently writing |
block# | See "block#" |
blocks | The number of blocks to write |
Waiting for a log switch because the log that the LGWR will be switching into has not been archived yet. Check the alert file to make sure that archiving has not stopped due to a failed archive write. To speed archiving, consider adding more archive processes or putting the archive files on striped disks.
Wait Time: 1 second
Parameters: None
Waiting for a log switch because the session cannot wrap into the next log. Wrapping cannot be performed because the checkpoint for that log has not completed.
Wait Time: 1 second
Parameters: None
Waiting for a log switch because the log is being cleared due to a CLEAR LOGFILE
command or implicit clear logfile executed by recovery.
Wait Time: 1 second
Parameters: None
User sessions trying to generate redo, wait on this event when LGWR waits for DBWR to complete flushing redo from IMU buffers into the log buffer; when DBWR is complete LGWR can then finish writing the current log, and then switch log files.
Wait Time: 1 second
Parameters: None
Waiting for a log switch to complete.
Wait Time: 1 second
Parameters: None
When a user session commits, the session's redo information needs to be flushed to the redo logfile. The user session will post the LGWR to write the log buffer to the redo log file. When the LGWR has finished writing, it will post the user session.
Wait Time: The wait time includes the writing of the log buffer and the post.
Parameter | Description |
---|---|
buffer# | The number of the physical buffer in the redo log buffer that needs to be synchronized |
Used as part of the ALTER SYSTEM ARCHIVE LOG CHANGE
scn statement. The session waits for the current log from all open threads to be archived.
Wait Time: Wait for up to 10 seconds
Parameter | Description |
---|---|
thread# | The thread number of the thread that is currently archiving its current log |
When concurrent sessions try to update optimizer statistics for the same object, all of them except the one that successfully acquired all necessary locks/pins on the library/row cache entries, wait on this wait event and then retry locking after a short period of time. In addition to explicit statistics gathering and maintenance operations using the DBMS_STATS package, Oracle database itself may try to update statistics for some objects, either on behalf of the user or for its own maintenance purposes.
Wait Time: 10 ms
Parameters: None
The parallel recovery coordinator is waiting for a change mapping buffer to be released by one of the recovery slaves.
Wait Time: 100ms
Parameters: None
The parallel recovery coordinator is waiting for all recovery slaves to respond to a synchronous control message.
Wait Time: 100ms
Parameters: None
The parallel recovery coordinator is unable to send a redo change message because the recovery slave is still actively applying redo that it has already received and has not yet released the channel.
Wait Time: 100ms
Parameters: None
The parallel recovery coordinator is waiting for all recovery slaves to exit.
Wait Time: 100ms
Parameters: None
The parallel recovery coordinator is waiting for all recovery slaves to exit gracefully.
Wait Time: 10ms
Parameters: None
The parallel recovery coordinator is waiting for a log read buffer to be released by all recovery slaves. Only after every recovery slave finishes applying redo from a log read buffer, can the buffer be used by the coordinator to issue the next log read.
Wait Time: 100ms
Parameters: None
A parallel recovery slave is idle and waiting for the next change message from the coordinator.
Wait Time: 100ms
Parameters: None
This event should happen only during testing. The session waits for pending transactions to clear.
Wait Time: 30 seconds
Parameter | Description |
---|---|
scans | Number of times the session has scanned the PENDING_TRANS $ table |
The session waits for a message to be received on the pipe or for the pipe timer to expire.
Wait Time: There is a 5 second wake up (check) and the pipe timer set by the user
Parameter | Description |
---|---|
handle address | The library cache object handle for this pipe |
buffer length | The length of the buffer |
timeout | The pipe timer set by the user |
The session waits for the pipe send timer to expire or for space to be made available in the pipe.
Wait Time: There is the 5 second wakeup (check) and the user-supplied timeout value
Parameter | Description |
---|---|
handle address | The library cache object handle for this pipe |
record length | The length of the record or buffer that has been put into the pipe |
timeout | The pipe timer set by the user |
This event is called through the DBMS_LOCK.SLEEP
procedure. This event will most likely originate from procedures written by a user.
Wait Time: The wait time is in hundredths of seconds and is dependent on the user context
Parameter | Description |
---|---|
duration | The duration that the user specified in the DBMS_LOCK.SLEEP procedure |
This is the main wait event for PMON. When PMON is idle, it is waiting on this event.
Wait Time: Up to 3 seconds, if not posted before
Parameter | Description |
---|---|
duration | The actual amount of time that the PMON is trying to sleep |
Release a hash latch, then wait under this event before attempting to re-acquire the hash latch.
Wait Time: 10ms
Parameters: None
When a prior process has died while spawning a background, the current process which is trying to spawn new a background must wait until the prior process state is cleaned up.
Wait Time: Usually 3 - 10 seconds
Parameter | Description |
---|---|
process_pid | process identifier (see V$PROCESS.PID ) of the process whose state needs to be cleaned up. |
process_sno | process serial number (see V$PROCESS.SERIAL# ) of the process whose state needs to be cleaned up. |
Wait for a shared server, Dispatcher, or other background process to start.
Wait Time: Wait up to 1 second for a background process to start. If timed out, then re-wait until 5 minutes have passed and signal an error. If the process has started, the event will acknowledge this.
Parameter | Description |
---|---|
type | The process type that was started |
process# | The process number of the process being started |
waited | Cumulative time waited for the process to start |
The process is waiting for a message during a parallel execute.
Wait Time: The wait time depends on how quickly the message arrives. Wait times can vary, but it will normally be a short period of time.
Parameter | Description |
---|---|
reason | The reason for dequeuing |
sleeptime | The amount of time that the session slept |
loop | The total number of times that the session has slept |
Each parallel execution process has a parallel execution qref latch, which needs to be acquired before the queue buffers can be manipulated.
Wait Time: Wait up to 1 second
Parameter | Description |
---|---|
function | Indicates the type of wait that the session is doing |
sleeptime | The amount of time that the session waits (in hundredths of a second) |
qref | The address of the process queue for which the session is waits |
During normal or immediate shutdown the parallel execution slaves are posted to shutdown cleanly. If any parallel execution slaves are still alive after 10 seconds, they are killed.
Wait Time: Wait up to 0.5 seconds
Parameter | Description |
---|---|
nalive | The number of parallel execution slaves that are still running |
sleeptime | The total sleeptime since the session started to wait on this event |
loop | The number of times the session waited for this event |
This event occurs only in Exclusive mode. The query coordinator is signalling the Query Slaves that an error has occurred.
Wait Time: 0.5 seconds
Parameter | Description |
---|---|
serial | The serial number of the slave process queue |
error | The error that has occurred |
nbusy | The number of slave processes that are still busy |
The background processes (LGWR, DBWR, LMS0) use this event to indicate that they are idle and are waiting for the foreground processes to send them an IPC message to do some work.
Wait Time: Up to 3 seconds. The parameter timeout shows the true sleep time.
Parameter | Description |
---|---|
timeout | The amount of time that the session waits for an IPC message |
This event indicates that all message blocks are in use and that the session had to wait for a message block to become available.
Wait Time: Wait up to 60 seconds
Parameters: None
This event is used to wait for a reply from one of the background processes.
Wait Time: The wait time is specified by the user and is indicated by the parameter timeout.
Parameter | Description |
---|---|
from_process | The background process for which the session is waiting. The wait is for a reply to an IPC message sent by the session. |
timeout | The amount of time in seconds that this process will wait for a reply |
This event occurs when a session requests a buffer that is currently being read into the buffer cache by another session. Prior to release 10.1, waits for this event were grouped with the other reasons for waiting for buffers under the 'buffer busy wait' event
Wait Time: Time waited for the buffer to be read by the other session (in microseconds)
A parallel recovery slave (or serial recovery process) is waiting for a batch of data block reads to complete.
Wait Time: Time it takes to complete the physical I/O (read)
Parameters: None
The session is waiting for a resource manager active session slot. This event occurs when the resource manager is enabled and the number of active sessions in the session's current consumer group exceeds the current resource plan's active session limit for the consumer group. To reduce the occurrence of this wait event, increase the active session limit for the session's current consumer group.
Wait Time: The time the session waited to be allocated an active session slot
Parameter | Description |
---|---|
location | location of the wait |
The session is waiting to be allocated a quantum of cpu. This event occurs when the resource manager is enabled and is throttling CPU consumption. To reduce the occurrence of this wait event, increase the CPU allocation for the sessions's current consumer group.
Wait Time: The time the session waited to acquire a CPU quantum
Parameter | Description |
---|---|
location | Location of the wait |
The session is waiting in the parallel statement queue.
Wait Time: The time the session waited for sufficient parallel query processes to become available to run this session with the requested degree of parallelism
Parameter | Description |
---|---|
location | Location of the wait |
Note:
Theresmgr:pq
queued
wait event is available starting with Oracle Database 11g Release 2 (11.2.0.2).This is the wait event that instances wait on when cluster is about to start a rolling migration. The instances are waiting for any privileged operations that blocks rolling migration to complete before allowing rolling migration.
Wait Time: 1 second
Parameter | Description |
---|---|
location | Its value will be 1 if the wait is for completion of the privileged operations so that a rolling upgrade/downgrade can start. Its value will be 2 if the wait is for completion of the rolling upgrade/downgrade on all the nodes in the cluster. |
waits | The number of seconds spent waiting at the current location. |
The session is trying to get a data dictionary lock.
Wait Time: Wait up to 60 seconds.
Parameter | Description |
---|---|
cache id | The CACHE# column value in the V$ROWCACHE view |
mode | See "mode" |
request | The pipe timer set by the user |
Waits for a process to copy flashback database data into the flashback buffer, in order to write out the requested flashback data.
Wait TIme: 10 milliseconds
Parameter | Description |
---|---|
copy latch # | The number of flashback copy latch RVWR is waiting on |
This function is called when Oracle needs to discover the size, and number, of I/O buffers that have been allocated by the SBT layer. It should be very fast and never block.
Wait Time: Less than one millisecond
Parameters: None
This function obtains one I/O buffer that Oracle will use for I/O during a backup job.
Wait Time: Less than one millisecond
Parameters: None
This is an internal function used to facilitate multi-process buffer management. It should be very fast and never block.
Wait Time: Less than one millisecond
Parameters: None
This function releases an I/O buffer that has been already processed during a restore job, so that the SBT layer can fill it with more data. It should be very fast and never block.
Wait Time: Less than one millisecond
Parameters: None
Called by the session to find the highest lock mode that is held on a resource.
Wait Time: Wait up to 0.2 seconds, but the wait will continue until the NULL mode Acquisition AST has fired.
Parameters: None
Process waiting on an immediate mode memory transfer with auto-tune SGA after a 4031 for MMAN to get the memory and post it.
Wait Time: 10 msec
Parameters: None
MMAN to wait and post itself for satisfying an auto-tuned memory request while trying to fully free a component's quiesced granules. In Release 10.1, the name of this event was 'wait for SGA component shrink'.
Wait Time: 10 msec
Parameter | Description |
---|---|
P1 | component_id (corresponding to the memory pool) |
P2 | Current size in granules |
P3 | Target size in granules |
Memory resize requests wait while sga target is being resized.In Release 10.1, the name of this event was 'wait for sga_target resize'.
Wait Time: 10 msec
Parameters: None
Wait until a shared I/O pool buffer becomes available. This happens when processes are using these buffers for I/O and the current process needs to wait for the release of any one of the buffers to the shared I/O pool.
Wait Time: 10msec
Parameters: None
When running single task, this event indicates that the session waits for the client side of the executable.
Wait Time: Total elapsed time that this session spent in the user application
Parameters: None
Idle wait event for a shared server. The server waits on the common queue for a virtual circuit. (See also "virtual circuit wait".)
Wait Time: 30 seconds
Parameters: None
This is the main idle event for SMON. SMON will be waiting on this event most of the time until it times out or is posted by another process.
Wait Time: 5 minutes (300 seconds)
Parameter | Description |
---|---|
sleeptime | The amount of time that SMON tries to wait on this event in seconds |
failed | The number of times SMON was posted when there some kind of error |
The server sends a break or reset message to the client. The session running on the server waits for a reply from the client.
Wait Time: The actual time it takes for the break or reset message to return from the client
Parameter | Description |
---|---|
driver id | See "driver id" |
break? | See "break?" |
Same as SQL*Net break/reset to client, but in this case, the break/reset message is sent to another server process over a database link.
Wait Time: The actual time it takes for the break or reset message to return from the other server process
Parameter | Description |
---|---|
driver id | See "driver id" |
break? | See "break?" |
The server process (foreground process) waits for a message from the client process to arrive.
Wait Time: The time it took for a message to arrive from the client since the last message was sent to the client
Parameter | Description |
---|---|
driver id | See "driver id" |
#bytes | The number of bytes received by the server (foreground process) from the client. |
The session waits while the server process (foreground process) receives messages over a database link from another server process.
Wait Time: The time it took for a message to arrive from another server (foreground process) since a message was sent to the other foreground process.
Parameter | Description |
---|---|
driver id | See "driver id" |
#bytes | The number of bytes received by the server (foreground process) from another foreground process over a database link. |
The server (foreground process) is sending a message to the client.
Wait Time: The actual time the send takes
Parameter | Description |
---|---|
driver id | See "driver id" |
#bytes | The number of bytes sent by the server process to the client |
The server process (foreground process) is sending a message over a database link to another server process.
Wait Time: The actual time the send takes
Parameter | Description |
---|---|
driver id | See "driver id" |
#bytes | The number of bytes sent by the server process to another server process over a database link |
The server is waiting on the client to send more data to its client shadow process, in an already initiated operation.
Wait Time: The time waited depends on the time it took to receive the data (including the waiting time)
Parameter | Description |
---|---|
driver id | See "driver id" |
#bytes | The number of bytes received from the client |
The foreground process is expecting more data from a data base link.
Wait Time: The total time it takes to read the data from the database link (including the waiting time for the data to arrive)
Parameter | Description |
---|---|
driver id | See "driver id" |
#bytes | The number of bytes received |
The server process is sending more data/messages to the client. The previous operation to the client was also a send.
Wait Time: The actual time it took for the send to complete
Parameter | Description |
---|---|
driver id | See "driver id" |
#bytes | The number of bytes that are being sent to the client |
The event indicates that the server is sending data over a database link again. The previous operation over this database link was also a send.
Wait Time: The actual time it takes to send the data to the other server
Parameter | Description |
---|---|
driver id | See "driver id" |
#bytes | The number of bytes that are sent over the database link to the other server process |
The session is waiting on an empty OLTP queue (Advanced Queuing) for a message to arrive so that the session can dequeue that message.
Wait Time: The amount of time that the session wants to wait is determined by the parameter wait time
Parameter | Description |
---|---|
queue id | The ID of the OLTP queue for which this session is waiting |
process# | The process number of the process in which this session runs |
wait time | The intended wait time for this session |
The session waits on the user command SWITCH LOGFILE
to complete.
Wait Time: 5 seconds
Parameters: None
A session is waiting for an external host to provide requested data over a network socket. The time that this wait event tracks does not indicate a problem, and even a long wait time is not a reason to contact Oracle Support. It naturally takes time for data to flow between hosts over a network, and for the remote aspect of an application to process any request made to it. An application that communicates with a remote host must wait until the data it will read has arrived. In addition, on Microsoft Windows, a separate thread monitors the arrival of traffic. This thread spends most of its life in waits tracked by the TCP Socket (KGAS) wait event.
Wait Time: The total elapsed time for the network connection to be established or for data to arrive from over the network
Parameter | Description |
---|---|
P0 | For Oracle internal use only. Values 8, 9, and 10 occur within the special thread present on Microsoft Windows; other P0 values occur in normal user sessions. |
P1 | For Oracle internal use only |
The session waits for the Archiver (ARCH) asynchronous I/O to complete.
Wait Time: 0.01 seconds
Parameters: None
Wait for a blocking transaction to be rolled back. Continue waiting until the transaction has been rolled back.
Wait Time: 1 second
Parameter | Description |
---|---|
undo seg# | The rollback segment ID |
slot# | The slot ID inside the rollback segment |
wrap# | The sequence number that is incremented for each transaction |
count | The number of times that the session has waited on this transaction |
The session waits to see if there are any transactions that have been started but do not have a Rollback Segment associated with them.
Wait Time: 1 second
Parameters: None
This wait can occur for two reasons. A session issuing an ALTER SYSTEM SET UNDO_RETENTION
may wait on this event wait while a cluster reconfiguration takes place. Or the background process MMNL may wait for cluster reconfiguration while attempting to determine the max UNDO_RETENTION
.
Wait time: 1 second
Parameter | Description |
---|---|
P1 | Identifies where the retry is happening. Id = 1 retry while publishing into the max undo_retention namespace. Id = 2 retry while iterator accessing the max undo_retention namespace |
P2 | Retry count (maximum number of retries is 5) |
The undo segment is being extended or shrunk. The session must wait until the operation on the undo segment has finished.
Wait Time: 0.01 seconds
Parameter | Description |
---|---|
segment# | The ID of the rollback segment that is being extended or shrunk |
PMON is rolling back a dead transaction. The wait continues until rollback finishes.
Wait Time: 3 seconds
Parameter | Description |
---|---|
segment# | The ID of the rollback segment that contains the transaction that is being rolled back |
tx flags | The transaction flags (options) set for the transaction that is being rolled back |
Wait for a transaction slot to become available within the selected rollback segment. Continue waiting until the slot is available.
Wait Time: 1 second
Parameter | Description |
---|---|
segment# | The ID of the rollback segment that contains the transaction that is being rolled back |
The session waits for a virtual circuit to return a message type indicated by status.
Wait Time: 30 seconds
Parameter | Description |
---|---|
circuit# | Indicates the virtual circuit# being waited on |
status | Indicates what the session is waiting for |
Note:
The virtual circuit status wait event has been deprecated. It is replaced by the virtual circuit wait event.The session waits for a virtual circuit operation to complete.
Wait Time: 30 seconds
Parameter | Description |
---|---|
circuit# | Indicates the virtual circuit# being waited on |
type | Indicates the type of operation the session is waiting for |
During replay, the Workload Replay Client always keeps an open connection to the database to detect some special errors. This session will normally be in the wait state until some specific replay-related exception occurs.
Wait Time: Waits until notified. Times out every 30 seconds.
Parameter | Description |
---|---|
who am I | Identifies the reason for wait for the admin thread.
1 - waiting for REPLAY.START() to be issued. 2 - waiting for the replay to run to completion or REPLAY.CANCEL() to be issued. |
A session will wait on this event during replay if it has some logical dependencies on another session that has not yet committed its work.
Wait Time: Depends upon the amount of row lock contention in the original capture
Parameter | Description |
---|---|
wait for scn's hi 4 bytes | High 4 bytes of the 8-byte replay SCN that the session is waiting on |
wait for scn's lo 4 bytes | Low 4 bytes of the 8-byte replay SCN that the session is waiting on |
A session will wait on this event during replay if it saw some lock contention during capture.
Wait Time: Depends upon the amount of row lock contention in the original capture
Parameter | Description |
---|---|
wait for scn's hi 4 bytes | High 4 bytes of the 8-byte replay SCN that the session is waiting on |
wait for scn's lo 4 bytes | Low 4 bytes of the 8-byte replay SCN that the session is waiting on |
When the user issues a DBMS_WORKLOAD_REPLAY.PAUSE_REPLAY command, all the replayed sessions are waiting on this wait event until replay is resumed.
Parameters: None
In the default replay mode, commits during replay are synchronized to follow the same order as capture. All commits are serialized using the Sync context. A replayed session will wait on this event if it is trying to commit at the same time as another replayed session.
Parameters: None
WMON is the UNIX-specific Wait Monitor, that can be used to reduce the number of system calls related to setting timers for posting or waiting in Oracle. You need to set an initialization parameter that enables the WMON process.
Wait Time: Depends on the next timeout
Parameters: None
The session waits for a buffer to be written. The write is caused by normal aging or by a cross-instance call.
Wait Time: 1 second
Parameter | Description |
---|---|
file# | The rollback segment id that contains the transaction that is being rolled back |
block# | The transaction flags (options) set for the transaction that is being rolled back |
id | Identifies the reason for waiting |
The session is blocked until the instance that started Instance Recovery is finished.
Wait Time: 5 seconds
Parameter | Description |
---|---|
bythread# | The rollback segment id that contains the transaction that is being rolled back |
ourthread# | The current instance thread number |