| SQL Id | SQL Text |
|---|
| 00pvfkhb9y5uf | BEGIN GET_PROFILE_BALANCE_INFO(:1, :2, :3, :4, :5, :6, :7, :8); END; |
| 06g9mhm5ba7tt | begin :rept := dbms_report.get_report(:report_ref, :content, :comp); end; |
| 0fangntzyg96s | BEGIN "CBS_CUST"."CB_REP_SUBS_WISE_PAY_PRC"(:1 , :2 ); END; |
| 0jq0tr9q1m2qp | SELECT COUNT(*) FROM TABLE(XMLSEQUENCE(EXTRACT(:B1 , :B2 ))) |
| 0vcs754gpmxrc |
WITH binds as
(select :dbid as dbid
, :inst_id_low as instIdLow
, :inst_id_high as instIdHigh
, :begin_snap as beginSnap
, :end_snap as endSnap
, :begin_time as beginTime
, :end_time as endTime
, :disk_begin_time as diskBeginTime
, :disk_end_time as diskEndTime
, :mem_begin_time as memBeginTime
, :mem_end_time as memEndTime
, :bucket_count as bucketCount
, :bucket_interval as bucketInterval
, :mem_enable as memEnable
, :disk_enable as diskEnable
, :disk_filter_ratio as filterRatio, :filter_action as filter_action, :filter_blocking_session as filter_blocking_session, :filter_capture_id
as filter_capture_id, :filter_client_id as filter_client_id, :filter_consumer_group_id as filter_consumer_group_id, :filter_dbop as filter_dbop, :filter_ecid as filter_ecid, :filter_event as filter_event, :filter_instance_number as filter_instance_number, :filter_is_captured as filter_is_captured, :filter_is_filtered_out as filter_is_filtered_out, :filter_is_nc_background as filter_is_nc_background, :filter_is_replayed as filter_is_replayed, :filter_machine as filter_machine, :filter_machine_port as filter_machine_port, :filter_module as filter_module, :filter_object as filter_object, :filter_pdb as filter_pdb, :filter_physical_session as filter_physical_session, :filter_pl_sql as filter_pl_sql, :filter_pl_sql_top as filter_pl_sql_top, :filter_program as filter_program, :filter_px_process as filter_px_process, :filter_service_hash as filter_service_hash, :filter_session_type as filter_session_type, :filter_sql_fms as filter_sql_fms, :filter_sql_id_top as filter
_sql_id_top, :filter_sql_opcode as filter_sql_opcode, :filter_sql_opcode_top as filter_sql_opcode_top, :filter_sql_rws as filter_sql_rws, :filter_sql_rws_line as filter_sql_rws_line, :filter_sqlid as filter_sqlid, :filter_sqlid_fullphv as filter_sqlid_fullphv, :filter_sqlid_phv as filter_sqlid_phv, :filter_user_id as filter_user_id, :filter_wait_class as filter_wait_class, :filter_xid as filter_xid from dual) , unified_ash as
(SELECT a.sample_id
, a.sample_time
, a.session_id
, a.session_serial#
, a.session_type
, a.session_state
, a.flags
, a.user_id
, a.sql_id
, a.sql_opcode
, a.sql_opname
, a.top_level_sql_id
, a.top_level_sql_opcode
, a.sql_child_number
, a.sql_plan_hash_value
, a.sql_full_plan_hash_value
, a.sql_plan_line_id
, a.sql_plan_operation
, a.sql_plan_options
, a.sql_exec_id
, a.force_
matching_signature
, a.plsql_entry_object_id
, a.plsql_entry_subprogram_id
, a.plsql_object_id
, a.plsql_subprogram_id
, a.service_hash
, a.qc_session_id
, a.qc_instance_id
, a.qc_session_serial#
, nvl(a.event,
CASE WHEN bitand(a.time_model, power(2, 19)) > 0
THEN 'CPU: IM Populate'
WHEN bitand(a.time_model, power(2, 20)) > 0
THEN 'CPU: IM Prepopulate'
WHEN bitand(a.time_model, power(2, 21)) > 0
THEN 'CPU: IM Repopulate'
WHEN bitand(a.time_model, power(2, 22)) > 0
THEN 'CPU: IM Trickle Repop'
WHEN bitand(a.time_model, power(2, 18)) > 0
THEN 'CPU: IM Query'
ELSE 'CPU + Wait for CPU' END) as event
, nvl(a.event_id, 1)
as event_id
, nvl(a.wait_class, 'CPU')
as wait_class
, nvl(a.wait_class_id, 9999)
as wait_class_id
, a.seq#
, a.p1
, a.p1text
, a.p2
, a.p2text
, a.p3
, a.p3text
, a.wait_time
, a.time_waited
, rawtohex(a.xid) as xid
, a.blocking_session
, a.blocking_session_serial#
, a.blocking_session_status
, a.blocking_inst_id
, a.current_obj#
, a.current_file#
, a.current_block#
, a.top_level_call#
, a.top_level_call_name
, a.program
, a.module
, a.action
, a.client_id
, a.remote_instance#
, a.ecid
, a.consumer_group_id
, a.machine
, a.port
, a.in_connection_mgmt
, a.in_parse
, a.in_hard_parse
, a.in_sql_execution
, a.in_plsql_execution
, a.in_plsql_rpc
, a.in_plsql_compilation
, a.in_java_execution
, a.in_bind
, a.in_cursor_close
, a.in_sequence_load
, a.is_captured
, a.is_replayed
, a.dbreplay_file_id
, a.dbop_name
, a.con_dbid, decode(binds.diskEnable, 0, 1, binds.filterRatio)
as sample_count
, inst_id as instance_number
FROM gv$active_session_history a, binds
WHERE binds.memEnable = 1
AND ( binds.diskEnable = 0
OR ( binds.diskEnable = 1
AND a.is_awr_sample = 'Y'
AND bitand(a.flags, 128) = 0 ) )
AND a.inst_id between
binds.instIdLow
and binds.instIdHigh
AND a.sample_time between
binds.beginTime
and binds.endTime
UNION ALL
SELECT a.sample_id
, a.sample_time
, a.session_id
, a.
session_serial#
, a.session_type
, a.session_state
, a.flags
, a.user_id
, a.sql_id
, a.sql_opcode
, a.sql_opname
, a.top_level_sql_id
, a.top_level_sql_opcode
, a.sql_child_number
, a.sql_plan_hash_value
, a.sql_full_plan_hash_value
, a.sql_plan_line_id
, a.sql_plan_operation
, a.sql_plan_options
, a.sql_exec_id
, a.force_matching_signature
, a.plsql_entry_object_id
, a.plsql_entry_subprogram_id
, a.plsql_object_id
, a.plsql_subprogram_id
, a.service_hash
, a.qc_session_id
, a.qc_instance_id
, a.qc_session_serial#
, nvl(a.event,
CASE WHEN bitand(a.time_model, power(2, 19)) > 0
THEN 'CPU: IM Populate'
WHEN bitand(a.time_model, power(2, 20)) > 0
THEN 'CPU: IM Prepopulate'
WHEN bitand(a
.time_model, power(2, 21)) > 0
THEN 'CPU: IM Repopulate'
WHEN bitand(a.time_model, power(2, 22)) > 0
THEN 'CPU: IM Trickle Repop'
WHEN bitand(a.time_model, power(2, 18)) > 0
THEN 'CPU: IM Query'
ELSE 'CPU + Wait for CPU' END) as event
, nvl(a.event_id, 1)
as event_id
, nvl(a.wait_class, 'CPU')
as wait_class
, nvl(a.wait_class_id, 9999)
as wait_class_id
, a.seq#
, a.p1
, a.p1text
, a.p2
, a.p2text
, a.p3
, a.p3text
, a.wait_time
, a.time_waited
, rawtohex(a.xid) as xid
, a.blocking_session
, a.blocking_session_serial#
, a.blocking_session_status
, a.blocking_inst_id
, a.current_obj#
, a.current_file#
, a.current_block#
, a.top_level_call#
, a.top_level_call_name
, a.program
, a.module
, a.action
, a.client_id
, a.remote_instance#
, a.ecid
, a.consumer_group_id
, a.machine
, a.port
, a.in_connection_mgmt
, a.in_parse
, a.in_hard_parse
, a.in_sql_execution
, a.in_plsql_execution
, a.in_plsql_rpc
, a.in_plsql_compilation
, a.in_java_execution
, a.in_bind
, a.in_cursor_close
, a.in_sequence_load
, a.is_captured
, a.is_replayed
, a.dbreplay_file_id
, a.dbop_name
, a.con_dbid, binds.filterRatio as sample_count
, instance_number as instance_number
FROM dba_hist_active_sess_history a, binds
WHERE binds.diskEnable = 1
AND a.dbid = binds.dbid
AND a.instance_number between
binds.instIdLow
and binds.instIdHigh
AND a.snap_id between
binds.beginSnap
and binds.endSnap
AND a.sample_time between
binds.beginTime
and binds.endTime
), logical_ash as
(select sample_id
, sample_time
, sample_count
, instance_number as inst_id, action as action, event as event, instance_number as instance_number, module as module, instance_number || ':' || session_id || ', ' || session_serial# as physical_session, service_hash as service_hash, sql_id as sqlid, wait_class as wait_class, xid as xid, user_id as user_id, program as program from unified_ash) , bucketized_ash as
(SELECT ash0.*,
(case when binds.bucketCount > 1
then trunc( ( (24 * 60 * 60 *
extract(day from sample_t
ime
- binds.beginTime))
+ (60 * 60 *
extract(hour from sample_time
- binds.beginTime))
+ (60 *
extract(minute from sample_time
- binds.beginTime))
+ (1 *
extract(second from sample_time
- binds.beginTime))
) / binds.bucketInterval
) + 1
else 1
end) as bucket_number
FROM logical_ash ash0, binds), filter_xml as
(SELECT xmlconcat(xmlelement("filters" )
, xmlelement("
report_time", xmlattributes(
to_char(o.begintime, 'HH24:MI:SS MM/DD/YYYY') as "begin_time",
to_char(o.endtime, 'HH24:MI:SS MM/DD/YYYY') as "end_time"))) as xml_frag FROM
(select binds.*, nvl(to_number(filter_pdb), 0) as con_dbid from binds) o) , filtered_ash as
(SELECT ash.*,
1 filtered
FROM bucketized_ash ash, binds WHERE 1=1 ), grouped_ash as
(SELECT ash.*, 0 AS bucket_type FROM (SELECT sqlid, physical_session, action, module, service_hash, instance_number, event, wait_class , grouping_id(sqlid, physical_session, action, module, service_hash, instance_number, event, wait_class) as gid , max(inst_id) as inst_id
, sum(sample_count) as sample_count
, count(distinct sqlid) as uniq_sqlids
, count(distinct xid) as uniq_xids
, count(distinct physical_session)
as uniq_sessions
, count(distinct instance_number)
as uniq_instances, max(user_id) as user_id, max(program) as program from filtered_ash
group by grouping sets( (wait_class), (sqlid), (module), (event), (action), (instance_number), (physical_session), (service_hash)) ) ash ), component_1_treemap as
(select dim_val
, inst_id
, sample_count
, num_mem
, mem_rank
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, 0 AS bucket_type --target(not global)/filtered bucket
from (select max(case when mem_rank <= 13
then dim_val
else null
end) as dim_val
, sum(sample_count) as sample_count
, count(*) as num_mem
, max(case when mem_rank <= 13
then mem_rank
else (13 + 1)
end) as mem_rank
, max(case when mem_rank <= 13
then uniq_sqlids
else 0
end) as uniq_sqlids
, max(case when mem_rank <= 13
then uniq_xids
else 0
end) as uniq_xids
, max(case when mem_rank <= 13
then uniq_sessions
else 0
end) as uniq_sessions
, max(case when mem_rank <= 13
then uniq_instances
else 0
end) as uniq_instances
, max(inst_id) as inst_id
from (select wait_class as dim_val
, sample_count
, dense_rank() over
(order by sample_count desc
, wait_class) as mem_rank
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, inst_id
from grouped_ash
where gid = 254
and wait_class is not null)
group by (case when mem_rank <= 13
then dim_val
else null
end)
) left ) , component_1_xml as
(select xmlelement("item"
, xmlattributes('wait_class' as "id"
, topmems.cnt_all as "count"
, topmems.num_mem as "num_mem"
, topmems.nu
m_others as "num_others") , topmems.topmems_frag) as dim_frag from (select xmlelement(
"top_mems"
, xmlattributes(sum(case when mem_rank <= 13
then sample_count
else 0
end) as "count")
, xmlagg(xmlelement(
"mem"
, xmlattributes(mem_rank as "id"
, dim_val as "name"
, sample_count as "count"
, uniq_sqlids as "uniq_sqlids"
, uniq_xids as "uniq_xids"
, uniq_sessions as "uniq_sessions"
, uniq_instances as "uniq_instances")
)
order by sample_count desc))
as topmems_frag
, sum(case when mem_rank <= 13
then 1
else 0
end) as num_mem
, sum(sample_count) as cnt_all
, max(case when mem_rank <= 13
then 0
else num_mem
end) as num_others
f
rom (component_1_treemap) t
) topmems), component_2_treemap as
(select dim_val
, inst_id
, sample_count
, num_mem
, mem_rank
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, 0 AS bucket_type --target(not global)/filtered bucket
from (select max(case when mem_rank <= 5
then dim_val
else null
end) as dim_val
, sum(sample_count) as sample_count
, count(*) as num_mem
, max(case when mem_rank
<= 5
then mem_rank
else (5 + 1)
end) as mem_rank
, max(case when mem_rank <= 5
then uniq_sqlids
else 0
end) as uniq_sqlids
, max(case when mem_rank <= 5
then uniq_xids
else 0
end) as uniq_xids
, max(case when mem_rank <= 5
then uniq_sessions
else 0
end) as uniq_sessions
, max(case when mem_rank <= 5
then uniq_instances
else
0
end) as uniq_instances
, max(inst_id) as inst_id
from (select event as dim_val
, sample_count
, dense_rank() over
(order by sample_count desc
, event) as mem_rank
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, inst_id
from grouped_ash
where gid = 253
and event is not null)
group by (case when mem_rank <= 5
then dim_val
else null
end)
) left ) , component_2_xml as
(select xmlelement("item"
, xmlattributes('event' as "id"
, topmems.cnt_all as "count"
, topmems.num_mem as "num_mem"
, topmems.num_others as "num_others") , topmems.topmems_frag) as dim_frag from (select xmlelement(
"top_mems"
, xmlattributes(sum(case when mem_rank <= 5
then sample_count
else 0
end) as "count")
, xmlagg
(xmlelement(
"mem"
, xmlattributes(mem_rank as "id"
, dim_val as "name"
, sample_count as "count"
, uniq_sqlids as "uniq_sqlids"
, uniq_xids as "uniq_xids"
, uniq_sessions as "uniq_sessions"
, uniq_instances as "uniq_instances")
)
order by sample_count desc))
as topmems_frag
, sum(case when mem_rank <= 5
then 1
else 0
end) as num_mem
, sum(sample_count) as cnt_all
, max(case when mem_rank <= 5
then 0
else num_mem
end) as num_others
from (component_2_treemap) t
) topmems), component_3_treemap as
(select dim_val
, inst_id
, sample_count
, num_mem
, mem_rank
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, 0 AS bucket_type --target(not global)/filtered bucket
from (select max(case when mem_rank <= 5
then dim_val
else null
end) as dim_val
, sum(sample_count) as sample_count
, count(*) as num_mem
, max(case when mem_rank <= 5
then mem_rank
else (5 + 1)
end) as mem_rank
, max(case when mem_rank <= 5
then uniq_sqlids
else 0
end) as uniq_sqlids
, max(case when mem_rank <= 5
then uniq_xids
else 0
end) as uniq_xids
, max(case when mem_rank <= 5
then uniq_sessions
else 0
end) as uniq_sessions
, max(case when mem_rank <= 5
then uniq_instances
else 0
end) as uniq_instances
, max(inst_id) as inst_id
from (select instance_number as dim_val
, sample_count
, dense_rank() over
(order by sample_count desc
,
instance_number) as mem_rank
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, inst_id
from grouped_ash
where gid = 251
and instance_number is not null)
group by (case when mem_rank <= 5
then dim_val
else null
end)
) left ) , component_3_xml as
(select xmlelement("item"
, xmlattributes('instance_number' as "id"
, topmems.cnt_all as "count"
, topmems.num_mem as "num_mem"
, topmems.num_others as "num_others") , topmems.topmems_frag) as dim_frag from (select xmlelement(
"top_mems"
, xmlattributes(sum(case when mem_rank <= 5
then sample_count
else 0
end) as "count")
, xmlagg(xmlelement(
"mem"
, xmlattributes(mem_rank as "id"
, dim_val as "name"
, sample_count as "count"
, uniq_sqlids as "uniq_sqlids"
, uniq_xids as "uniq_xids"
, uniq_sessions as "uniq_sessions"
, uniq_instances as "uniq_instances")
)
order by sample_count desc))
as topmems_frag
, sum(case when mem_rank <= 5
then 1
else 0
end) as num_mem
, sum(sample_count) as cnt_all
, max(case when mem_rank <= 5
then 0
else
num_mem
end) as num_others
from (component_3_treemap) t
) topmems), component_4_treemap as
(select dim_val
, inst_id
, sample_count
, num_mem
, mem_rank
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, 0 AS bucket_type --target(not global)/filtered bucket
, NVL((SELECT name
FROM gv$active_services v
WHERE v.name_hash = left.dim_val
AND v.inst_id = left.inst_id
AND rownum < 2 ), ( SELECT service_name
FROM dba_hist_service_name v, binds b
WHERE v.dbid = b.dbid
AND v.service_name_hash = left.dim_val
AND rownum < 2)) as service_name
from (select max(case when mem_rank <= 5
then dim_val
else null
end) as dim_val
, sum(sample_count) as sample_count
, count(*) as num_mem
, max(case when mem_rank <= 5
then mem_rank
else (5 + 1)
end) as mem_rank
, max(case when mem_rank <= 5
then uniq_sqlids
else 0
end) as uniq_sqlids
, max(case when mem_rank <= 5
then uniq_xids
else 0
end) as uniq_xids
, max(case when mem_rank <= 5
then uniq_sessions
else 0
end) as uniq_sessions
, max(case when mem_rank <= 5
then uniq_instances
else 0
end) as uniq_instances
, max(inst_id) as inst_id
from (select service_hash as dim_val
, sample_count
, dense_rank() over
(order by sample_count desc
, service_hash) as mem_rank
, uniq_s
qlids
, uniq_xids
, uniq_sessions
, uniq_instances
, inst_id
from grouped_ash
where gid = 247
and service_hash is not null)
group by (case when mem_rank <= 5
then dim_val
else null
end)
) left ) , component_4_xml as
(select xmlelement("item"
, xmlattributes('service_hash' as "id"
, topmems.cnt_all as "count"
, topmems.num_mem as "num_mem"
, topmems.num_others as "num_others") , topmems.topmems_frag) as dim_frag from (select xmlelement(
"top_mems"
, xmlattributes(sum(case when mem_rank <= 5
then sample_count
else 0
end) as "count")
, xmlagg(xmlelement(
"mem"
, xmlattributes(mem_rank as "id"
, dim_val as "name"
, sample_count as "count"
, uniq_sqlids as "uniq_sqlids"
, uniq_xids as "uniq_xids"
, uniq_sessions as "uniq_sessions"
, uniq_instances as "uniq_instances")
, service_name)
order by sample_count desc))
as topmems_frag
, sum(case when mem_rank <= 5
then 1
else 0
end) as num_mem
, sum(sample_count) as cnt_all
, max(case when mem_rank <= 5
then 0
else num_mem
end) as num
_others
from (component_4_treemap) t
) topmems), component_5_treemap as
(select dim_val
, inst_id
, sample_count
, num_mem
, mem_rank
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, 0 AS bucket_type --target(not global)/filtered bucket
from (select max(case when mem_rank <= 5
then dim_val
else null
end) as dim_val
, sum(sample_count) as sample_count
, count(*) as num_mem
, max(case when mem_rank <= 5
then mem_rank
else (5 + 1)
end) as mem_rank
, max(case when mem_rank <= 5
then uniq_sqlids
else 0
end) as uniq_sqlids
, max(case when mem_rank <= 5
then uniq_xids
else 0
end) as uniq_xids
, max(case when mem_rank <= 5
then uniq_sessions
else 0
end) as uniq_sessions
, max(case when mem_rank <= 5
then uniq_instances
else 0
end) as uniq_instances
, max(inst_id) as inst_id
from (select module as dim_val
, sample_count
, dense_rank() over
(order by sample_count desc
, module) as mem_rank
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, inst_id
from grouped_ash
where gid = 239
and module is not null)
group by (case wh
en mem_rank <= 5
then dim_val
else null
end)
) left ) , component_5_xml as
(select xmlelement("item"
, xmlattributes('module' as "id"
, topmems.cnt_all as "count"
, topmems.num_mem as "num_mem"
, topmems.num_others as "num_others") , topmems.topmems_frag) as dim_frag from (select xmlelement(
"top_mems"
, xmlattributes(sum(case when mem_rank <= 5
then sample_count
else 0
end) as "count")
, xmlagg(xmlelement(
"mem"
, xmlattributes(mem_rank as "id"
, dim_val as "name"
, sample_count as "count"
, uniq_sqlids as "uniq_sqlids"
, uniq_xids as "uniq_xids"
, uniq_sessions as "uniq_sessions"
, uniq_instances as "uniq_instances")
)
order by sample_count desc))
as topmems_frag
, sum(case when mem_rank <= 5
then 1
else 0
end) as num_mem
, sum(sample_count) as cnt_all
, max(case when mem_rank <= 5
then 0
else num_mem
end) as num_others
from (component_5_treemap) t
) topmems), component_6_treemap as
(select dim_val
, inst_id
, sample_count
, num_mem
, mem_rank
, uniq_sqlids
, uniq_xids
, uniq_sessions
, un
iq_instances
, 0 AS bucket_type --target(not global)/filtered bucket
from (select max(case when mem_rank <= 5
then dim_val
else null
end) as dim_val
, sum(sample_count) as sample_count
, count(*) as num_mem
, max(case when mem_rank <= 5
then mem_rank
else (5 + 1)
end) as mem_rank
, max(case when mem_rank <= 5
then uniq_sqlids
else 0
end) as uniq_sqlids
, max(case w
hen mem_rank <= 5
then uniq_xids
else 0
end) as uniq_xids
, max(case when mem_rank <= 5
then uniq_sessions
else 0
end) as uniq_sessions
, max(case when mem_rank <= 5
then uniq_instances
else 0
end) as uniq_instances
, max(inst_id) as inst_id
from (select action as dim_val
, sample_count
, dense_rank() over
(order by sample_count desc
, action) as mem_rank
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, inst_id
from grouped_ash
where gid = 223
and action is not null)
group by (case when mem_rank <= 5
then dim_val
else null
end)
) left ) , component_6_xml as
(select xmlelement("item"
, xmlattributes('action' as "id"
, topmems.cnt_all as "count"
, topmems.num_mem as "num_mem"
, topmems.num_others as "num_others") , topmems.topmems_frag) as dim_frag from (select xmlelement(
"top_mems"
, xmlattributes(sum(case when mem_rank <= 5
then sample_count
else 0
end) as "count")
, xmlagg(xmlelement(
"mem"
, xmlattributes(mem_rank as "id"
, dim_val as "name"
, sample_count as "count"
, uniq_sqlids as "uniq_sqlids"
, uniq_xids as "uniq_xids"
, uniq_sessions as "uniq_sessions"
, uniq_instances as "uniq_instances")
)
order by sample_count desc))
as topmems_frag
, sum(case when mem_rank <= 5
then 1
else 0
end) as num_mem
, sum(sample_count) as cnt_all
, max(case when mem_rank <= 5
then 0
else
num_mem
end) as num_others
from (component_6_treemap) t
) topmems), component_7_treemap as
(select dim_val
, inst_id
, sample_count
, num_mem
, mem_rank
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, 0 AS bucket_type --target(not global)/filtered bucket
, user_id, program
from (select max(case when mem_rank <= 5
then dim_val
else null
end) as dim_val
, sum(sample_count) as sample_count
, count(*) as num_mem
, max(case when mem_rank <= 5
then mem_rank
else (5 + 1)
end) as mem_rank
, max(case when mem_rank <= 5
then uniq_sqlids
else 0
end) as uniq_sqlids
, max(case when mem_rank <= 5
then uniq_xids
else 0
end) as uniq_xids
, max(case when mem_rank <= 5
then uniq_sessions
else 0
end) as uniq_sessions
, max(case whe
n mem_rank <= 5
then uniq_instances
else 0
end) as uniq_instances
, max(inst_id) as inst_id
, max(case when mem_rank <= 5
then user_id else null
end) as user_id, max(case when mem_rank <= 5
then program else null
end) as program
from (select physical_session as dim_val
, sample_count
, dense_rank() over
(order by sample_count desc
, physical_session) as mem_rank
, uniq_sqlids
, uni
q_xids
, uniq_sessions
, uniq_instances
, inst_id
, user_id, program
from grouped_ash
where gid = 191
and physical_session is not null)
group by (case when mem_rank <= 5
then dim_val
else null
end)
) left ) , component_7_xml as
(select xmlelement("item"
, xmlattributes('physical_session' as "id"
, topmems.cnt_all as "count"
, topmems.num_mem as "num_mem"
, topmems.
num_others as "num_others") , topmems.topmems_frag) as dim_frag from (select xmlelement(
"top_mems"
, xmlattributes(sum(case when mem_rank <= 5
then sample_count
else 0
end) as "count")
, xmlagg(xmlelement(
"mem"
, xmlattributes(mem_rank as "id"
, dim_val as "name"
, sample_count as "count"
, uniq_sqlids as "uniq_sqlids"
, uniq_xids as "uniq_xids"
, uniq_sessions as "uniq_sessions"
, uniq_instances as "uniq_instances")
, xmlconcat(xmlelement("info", xmlattributes('user_id' as "name"), user_id), xmlelement("info", xmlattributes('program' as "name"), program))
)
order by sample_count desc))
as topmems_frag
, sum(case when mem_rank <= 5
then 1
else 0
end) as num_mem
, sum(sample_count) as cnt_all
, max(case when mem_rank <= 5
then 0
else num_mem
end) as num_others
from (component_7_treemap) t
) topmems), component_8_treemap as
(select dim_val
, inst_id
, sample_count
, num_mem
, mem_rank
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, 0 AS bucket_type --target(not global)/filtered bucket
, NVL((SELECT substr(v.sql_text, 1, 100) as sql_text
FROM gv$sql v
WHERE v.sql_id = left.dim_val
AND v.inst_id = left.inst_id
AND rownum < 2 ), ( SELECT dbms_lob.substr
(v.sql_text, 100, 1) as sql_text
FROM dba_hist_sqltext v, binds b
WHERE v.dbid = b.dbid
AND v.sql_id = left.dim_val
AND rownum < 2)) as sql_text
from (select max(case when mem_rank <= 5
then dim_val
else null
end) as dim_val
, sum(sample_count) as sample_count
, count(*) as num_mem
, max(case when mem_rank <= 5
then mem_rank
else (5 + 1)
end) as mem_rank
, max(case when mem_rank <= 5
then uniq_sqlids
else 0
end)
as uniq_sqlids
, max(case when mem_rank <= 5
then uniq_xids
else 0
end) as uniq_xids
, max(case when mem_rank <= 5
then uniq_sessions
else 0
end) as uniq_sessions
, max(case when mem_rank <= 5
then uniq_instances
else 0
end) as uniq_instances
, max(inst_id) as inst_id
from (select sqlid as dim_val
, sample_count
, dense_rank() over
(order by sample_count desc
, sqlid) as mem_rank
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, inst_id
from grouped_ash
where gid = 127
and sqlid is not null)
group by (case when mem_rank <= 5
then dim_val
else null
end)
) left ) , component_8_xml as
(select xmlelement("item"
, xmlattributes('sqlid' as "id"
, topmems.cnt_a
ll as "count"
, topmems.num_mem as "num_mem"
, topmems.num_others as "num_others") , topmems.topmems_frag) as dim_frag from (select xmlelement(
"top_mems"
, xmlattributes(sum(case when mem_rank <= 5
then sample_count
else 0
end) as "count")
, xmlagg(xmlelement(
"mem"
, xmlattributes(mem_rank as "id"
, dim_val as "name"
, sample_co
unt as "count"
, uniq_sqlids as "uniq_sqlids"
, uniq_xids as "uniq_xids"
, uniq_sessions as "uniq_sessions"
, uniq_instances as "uniq_instances")
, sql_text)
order by sample_count desc))
as topmems_frag
, sum(case when mem_rank <= 5
then 1
else 0
end) as num_mem
, sum(sample_count) as cnt_all
, max(case when mem_rank <= 5
then 0
else num_mem
end) as num_others
from (component_8_treemap) t
) topmems)select
xmlconcat((select xml_frag from filter_xml),
xmlelement("dim_list",
xmlelement("item",
xmlattributes('top_dimensions' as "id"),
xmlelement("subdim", xmlconcat((select dim_frag from component_1_xml), (select dim_frag from component_2_xml), (select dim_frag from component_3_xml), (select dim_frag from component_4_xml), (select dim_frag from component_5_xml), (select dim_frag from component_6_xml), (select dim_frag from component_7_xml), (select dim_frag from component_8_xml)))),
xmltype('
<item type="separator" />'),
xmltype('
<item id="
sql_cat">
<subdim>
<item id="sqlid" />
<item id="sql_id_top" />
<item id="sql_fms" />
<item id="sqlid_phv" />
<item id="sqlid_fullphv"/>
<item id="sql_rws" />
<item id="sql_rws_line" />
<item id="sql_opcode" />
<item id="sql_opcode_top" />
</subdim>
</item>'),
xmltype('
<item id="pl_sql_cat">
<subdim>
<item id="pl_sql" />
<item id="pl_sql_top" />
</subdim>
</item>'),
xmltype('
<item id="resource_consumption_cat">
<subdim>
<item id="wait_class" />
<item id="event" />
<item id="object" />
<item id="blocking_session" />
</subdim>
</item>'),
xmltype('
<item id="session_identifiers_cat">
<subdim>
<item id="instance_number" /> <item id="service_hash" />
<item id="physical_session" />
<item id="px_process" />
<item id="user_id" />
<item id="program" />
<item id="session_type" />
</subdim>
</item>'),
xmltype('
<item id="session_attributes_cat">
<subdim>
<item id="consumer_group_id" /
>
<item id="module" />
<item id="action" />
<item id="client_id" />
<item id="machine" />
<item id="machine_port" />
<item id="xid" />
<item id="ecid" />
<item id="dbop" />
</subdim>
</item>'))
) from dual |
| 141kncypu4abz | Select table_owner, table_name, db_link
from sys.all_synonyms
where synonym_name=:Objectname
and Owner=:Name |
| 1423rghqm509m | Select object_name
from sys.ALL_OBJECTS
where owner = 'SYS'
and object_type = 'PACKAGE'
and object_name in ('DBMS_JAVA', 'DBMS_DEBUG', 'DBMS_DEBUG_JDWP', 'DBMS_PROFILER') |
| 1w4r18x381cys | BEGIN :1 := Abl_utility.Getxmltype(:2, :3); END; |
| 1zkqjpfcp6q7y | SELECT table_name, table_owner FROM all_synonyms WHERE owner = 'PUBLIC' AND synonym_name = 'QUEST_COM_TEAM_CODING' |
| 26d4d0p50b1y8 | SELECT SERIAL_NO_V FROM (SELECT * FROM ( SELECT SERIAL_NO_V FROM INV_SERIAL_ITEMS WHERE STATUS_V='F' AND SERIAL_NO_V>=:B3 AND LOCATION_CODE_N = :B2 AND ITEM_CODE_N = :B1 ORDER BY SERIAL_NO_V) WHERE ROWNUM<=:B4 ORDER BY SERIAL_NO_V DESC ) WHERE ROWNUM=1 |
| 2du95z1vdpfh4 |
SELECT "Custom SQL Query"."ACCOUNT_CODE_N" AS "ACCOUNT_CODE_N",
"Custom SQL Query"."ACCOUNT_NAME_V" AS "ACCOUNT_NAME_V",
TRUNC(CAST("Custom SQL Query"."ACTIVATION_DATE_D" AS DATE)) AS "ACTIVATION_DATE_D",
"Custom SQL Query"."ADJUSTMENT_AMT_N" AS "ADJUSTMENT_AMT_N",
(CASE WHEN "Custom SQL Query"."DATA_USAGE" IS NULL THEN 0 ELSE (CASE WHEN 1073741824 = 0 THEN CAST(NULL AS BINARY_DOUBLE) ELSE "Custom SQL Query"."DATA_USAGE" / 1073741824 END) END) AS "Calculation_169447937454526464",
(CASE WHEN "Custom SQL Query"."VOICE_USAGE" IS NULL THEN 0 ELSE (CASE WHEN 60 = 0 THEN CAST(NULL AS BINARY_DOUBLE) ELSE "Custom SQL Query"."VOICE_USAGE" / 60 END) END) AS "Calculation_169447937457504257",
(CASE WHEN "Custom SQL Query"."A.BASE_TRANS_AMT_N/100
" IS NULL THEN 0 ELSE "Custom SQL Query"."A.BASE_TRANS_AMT_N/100" END) AS "Calculation_842454606493134850",
"Custom SQL Query"."DESC_V" AS "DESC_V",
TRUNC(CAST("Custom SQL Query"."ERASED_DATE_D" AS DATE)) AS "ERASED_DATE_D",
"Custom SQL Query"."MOBL_NUM_VOICE_V" AS "MOBL_NUM_VOICE_V",
"Custom SQL Query"."STATUS" AS "STATUS",
"Custom SQL Query"."SUBSCRIBER_CATEGORY_V" AS "SUBSCRIBER_CATEGORY_V",
"Custom SQL Query"."SUBSCRIBER_CODE_N" AS "SUBSCRIBER_CODE_N",
"Custom SQL Query"."SUBSCRIBER_SUB_CATEGORY_V" AS "SUBSCRIBER_SUB_CATEGORY_V",
"Custom SQL Query"."SUBS_NAME_V" AS "SUBS_NAME_V",
"Custom SQL Query"."SUBS_SUB_CATEGORY_DESC_V" AS "SUBS_SUB_CATEGORY_DESC_V",
TRUNC(CAST("Custom SQL Query"."SUSPENDED_DATE_D" AS DATE)) AS "SUSPENDED_DATE_D",
"Custom SQL Query"."TARIFF_CODE_V" AS "TARIFF_CODE_V",
TRUNC(CAST("Custom SQL Query"."TRUNC(B.TRANS_DATE_D)" AS DATE)) AS "TRUNC(B.TRANS_DATE_D)"
FROM (
select trunc(b.trans_date_d), a.base_trans_amt_n/100, a.desc_v, c.MOBL_NUM_VOICE_V, d.account_code_n,
d.subscriber_code_n, decode(c.status_code_v, 'AC', 'Active', 'ER', 'Deactivated', 'PR', 'Pre_Terminated', 'Suspended') Status, d.account_name_v, c.subs_name_v, c.subscriber_category_v, c.SUBSCRIBER_SUB_CATEGORY_V , ssc.SUBS_SUB_CATEGORY_DESC_V,
c.activation_date_d, c.suspended_date_d, c.erased_date_d,
(SELECT SUM(ghc.CALL_DURATION_N) FROM GSM_HOME_CDRS ghc
WHERE ghc.account_link_code_n = a.SERV_ACC_LINK_CODE_N
and ghc.BILL_CYCL_FULL_CODE_N= a.BILL_CYCLE_FULL_CODE_N
and ghc.SWITCH_CALL_TYPE_V not in('031', '030')
and ghc.ARTICLE_CO
DE_V = a.article_code_v)
Voice_usage,
(select sum(gpc.outgoing_units_1_n) from gprs_home_cdrs gpc
where gpc.account_link_code_n = a.SERV_ACC_LINK_CODE_N
and gpc.BILL_CYCL_FULL_CODE_N = a.BILL_CYCLE_FULL_CODE_N
and gpc.ARTICLE_CODE_V = a.article_code_v
)
Data_usage, tariff_code_v, b.ADJUSTMENT_AMT_N
from cb_invoice_details a, cb_sub_invoice b, gsm_service_mast c, cb_account_master d, cb_subscriber_sub_category ssc
where a.SERV_ACC_LINK_CODE_N = b.SERV_ACC_LINK_CODE_N
and c.account_link_code_n = b.SERV_ACC_LINK_CODE_N
and b.BILL_CYCL_FULL_CODE_N = a.BILL_CYCLE_FULL_CODE_N
and c.SUBSCRIBER_CATEGORY_v = ssc.SUBS_CATEGORY_CODE_V
and c.SUBSCRIBER_SUB_CATEGORY_V = ssc.SUBS_SUB_CATEGORY_CODE_V
and b.account_code_n = c.account_code_n
and d.account_code_n = c.account_code_n
and a.article_code_v <> '4800000001'
) "Custom SQL Query"
WHERE (((TO_NUMBER(TO_CHAR(TRUNC(CAST("Custom SQL Query"."TRUNC(B.TRANS_DATE_D)
" AS DATE)), 'YYYY')) * 100) + TO_NUMBER(TO_CHAR(TRUNC(CAST("Custom SQL Query"."TRUNC(B.TRANS_DATE_D)" AS DATE)), 'MM'))) = 201802) |
| 2fnhzcp1r70ng |
( SELECT COUNT(*) AS COUNT_VALUE FROM Groups_Roles INNER JOIN Roles_Permissions ON (Roles_Permissions.roleId = Groups_Roles.roleId) INNER JOIN Permission_ ON (Permission_.permissionId = Roles_Permissions.permissionId) WHERE (Roles_Permissions.permissionId = :1) AND (Groups_Roles.groupId = :2 OR Groups_Roles.groupId = :3 OR Groups_Roles.groupId = :4) ) UNION ALL ( SELECT COUNT(*) AS COUNT_VALUE FROM Permission_ INNER JOIN Groups_Permissions ON (Groups_Permissions.permissionId = Permission_.permissionId) WHERE (Groups_Permissions.permissionId = :5) AND (Groups_Permissions.groupId = :6 OR Groups_Permissions.groupId = :7 OR Groups_Permissions.groupId = :8) ) UNION ALL ( SELECT COUNT(*) AS COUNT_VALUE FROM Users_Roles INNER JOIN Roles_Permissions ON (Roles_Permissions.roleId = Users_Roles.roleId) INNER JOIN Permission_ ON (Permission_.permissionId = Roles_Permissions.permissionId) WHERE (Roles_Permissions.permissionId = :9) AND (Users_Roles.userId = :10) ) UNION ALL ( SELECT COUNT
(*) AS COUNT_VALUE FROM UserGroupRole INNER JOIN Roles_Permissions ON (Roles_Permissions.roleId = UserGroupRole.roleId and UserGroupRole.groupId = :11) INNER JOIN Permission_ ON (Permission_.permissionId = Roles_Permissions.permissionId) WHERE (Roles_Permissions.permissionId = :12) AND (UserGroupRole.userId = :13) ) UNION ALL ( SELECT COUNT(*) AS COUNT_VALUE FROM Permission_ INNER JOIN Users_Permissions ON (Users_Permissions.permissionId = Permission_.permissionId) WHERE (Users_Permissions.permissionId = :14) AND (Users_Permissions.userId = :15) ) |
| 385akuna62c9q | BEGIN GNL_GET_XMLTYPE_VALUE_PRC(:1, :2, :3, :4, :5, :6, :7); END; |
| 3hhmp33z5c878 | BEGIN :1 := POS_ABILLITY_REQUEST_API( :2, :3, :4, :5, :6, :7, :8) ; END; |
| 4b4wp0a8dvkf0 |
SELECT executions, end_of_fetch_count, elapsed_time/px_servers elapsed_time, cpu_time/px_servers cpu_time, buffer_gets/executions buffer_gets FROM (SELECT sum(executions_delta) as EXECUTIONS, sum(case when px_servers_execs_delta > 0 then px_servers_execs_delta else executions_delta end) as px_servers, sum(end_of_fetch_count_delta) as end_of_fetch_count, sum(elapsed_time_delta) as ELAPSED_TIME, sum(cpu_time_delta) as CPU_TIME, sum(buffer_gets_delta) as BUFFER_GETS FROM DBA_HIST_SQLSTAT s, V$DATABASE d, DBA_HIST_SNAPSHOT sn WHERE s.dbid = d.dbid AND bitand(nvl(s.flag, 0), 1) = 0 AND sn.end_interval_time >
(select systimestamp at TIME ZONE dbtimezone from dual) - 7 AND s.sql_id = :1 AND s.snap_id = sn.snap_id AND s.instance_number = sn.instance_number AND s.dbid = sn.dbid AND parsing_schema_name = :2) |
| 4kvhga64b6wah |
WITH binds as
(select :dbid as dbid
, :inst_id_low as instIdLow
, :inst_id_high as instIdHigh
, :begin_snap as beginSnap
, :end_snap as endSnap
, :begin_time as beginTime
, :end_time as endTime
, :disk_begin_time as diskBeginTime
, :disk_end_time as diskEndTime
, :mem_begin_time as memBeginTime
, :mem_end_time as memEndTime
, :bucket_count as bucketCount
, :bucket_interval as bucketInterval
, :mem_enable as memEnable
, :disk_enable as diskEnable
, :disk_filter_ratio as filterRatio, :filter_action as filter_action, :filter_blocking_session as filter_blocking_session, :filter_capture_id
as filter_capture_id, :filter_client_id as filter_client_id, :filter_consumer_group_id as filter_consumer_group_id, :filter_dbop as filter_dbop, :filter_ecid as filter_ecid, :filter_event as filter_event, :filter_instance_number as filter_instance_number, :filter_is_captured as filter_is_captured, :filter_is_filtered_out as filter_is_filtered_out, :filter_is_nc_background as filter_is_nc_background, :filter_is_replayed as filter_is_replayed, :filter_machine as filter_machine, :filter_machine_port as filter_machine_port, :filter_module as filter_module, :filter_object as filter_object, :filter_pdb as filter_pdb, :filter_physical_session as filter_physical_session, :filter_pl_sql as filter_pl_sql, :filter_pl_sql_top as filter_pl_sql_top, :filter_program as filter_program, :filter_px_process as filter_px_process, :filter_service_hash as filter_service_hash, :filter_session_type as filter_session_type, :filter_sql_fms as filter_sql_fms, :filter_sql_id_top as filter
_sql_id_top, :filter_sql_opcode as filter_sql_opcode, :filter_sql_opcode_top as filter_sql_opcode_top, :filter_sql_rws as filter_sql_rws, :filter_sql_rws_line as filter_sql_rws_line, :filter_sqlid as filter_sqlid, :filter_sqlid_fullphv as filter_sqlid_fullphv, :filter_sqlid_phv as filter_sqlid_phv, :filter_user_id as filter_user_id, :filter_wait_class as filter_wait_class, :filter_xid as filter_xid from dual) , unified_ash as
(SELECT a.sample_id
, a.sample_time
, a.session_id
, a.session_serial#
, a.session_type
, a.session_state
, a.flags
, a.user_id
, a.sql_id
, a.sql_opcode
, a.sql_opname
, a.top_level_sql_id
, a.top_level_sql_opcode
, a.sql_child_number
, a.sql_plan_hash_value
, a.sql_full_plan_hash_value
, a.sql_plan_line_id
, a.sql_plan_operation
, a.sql_plan_options
, a.sql_exec_id
, a.force_
matching_signature
, a.plsql_entry_object_id
, a.plsql_entry_subprogram_id
, a.plsql_object_id
, a.plsql_subprogram_id
, a.service_hash
, a.qc_session_id
, a.qc_instance_id
, a.qc_session_serial#
, nvl(a.event,
CASE WHEN bitand(a.time_model, power(2, 19)) > 0
THEN 'CPU: IM Populate'
WHEN bitand(a.time_model, power(2, 20)) > 0
THEN 'CPU: IM Prepopulate'
WHEN bitand(a.time_model, power(2, 21)) > 0
THEN 'CPU: IM Repopulate'
WHEN bitand(a.time_model, power(2, 22)) > 0
THEN 'CPU: IM Trickle Repop'
WHEN bitand(a.time_model, power(2, 18)) > 0
THEN 'CPU: IM Query'
ELSE 'CPU + Wait for CPU' END) as event
, nvl(a.event_id, 1)
as event_id
, nvl(a.wait_class, 'CPU')
as wait_class
, nvl(a.wait_class_id, 9999)
as wait_class_id
, a.seq#
, a.p1
, a.p1text
, a.p2
, a.p2text
, a.p3
, a.p3text
, a.wait_time
, a.time_waited
, rawtohex(a.xid) as xid
, a.blocking_session
, a.blocking_session_serial#
, a.blocking_session_status
, a.blocking_inst_id
, a.current_obj#
, a.current_file#
, a.current_block#
, a.top_level_call#
, a.top_level_call_name
, a.program
, a.module
, a.action
, a.client_id
, a.remote_instance#
, a.ecid
, a.consumer_group_id
, a.machine
, a.port
, a.in_connection_mgmt
, a.in_parse
, a.in_hard_parse
, a.in_sql_execution
, a.in_plsql_execution
, a.in_plsql_rpc
, a.in_plsql_compilation
, a.in_java_execution
, a.in_bind
, a.in_cursor_close
, a.in_sequence_load
, a.is_captured
, a.is_replayed
, a.dbreplay_file_id
, a.dbop_name
, a.con_dbid, decode(binds.diskEnable, 0, 1, binds.filterRatio)
as sample_count
, inst_id as instance_number
FROM gv$active_session_history a, binds
WHERE binds.memEnable = 1
AND ( binds.diskEnable = 0
OR ( binds.diskEnable = 1
AND a.is_awr_sample = 'Y'
AND bitand(a.flags, 128) = 0 ) )
AND a.inst_id between
binds.instIdLow
and binds.instIdHigh
AND a.sample_time between
binds.beginTime
and binds.endTime
UNION ALL
SELECT a.sample_id
, a.sample_time
, a.session_id
, a.
session_serial#
, a.session_type
, a.session_state
, a.flags
, a.user_id
, a.sql_id
, a.sql_opcode
, a.sql_opname
, a.top_level_sql_id
, a.top_level_sql_opcode
, a.sql_child_number
, a.sql_plan_hash_value
, a.sql_full_plan_hash_value
, a.sql_plan_line_id
, a.sql_plan_operation
, a.sql_plan_options
, a.sql_exec_id
, a.force_matching_signature
, a.plsql_entry_object_id
, a.plsql_entry_subprogram_id
, a.plsql_object_id
, a.plsql_subprogram_id
, a.service_hash
, a.qc_session_id
, a.qc_instance_id
, a.qc_session_serial#
, nvl(a.event,
CASE WHEN bitand(a.time_model, power(2, 19)) > 0
THEN 'CPU: IM Populate'
WHEN bitand(a.time_model, power(2, 20)) > 0
THEN 'CPU: IM Prepopulate'
WHEN bitand(a
.time_model, power(2, 21)) > 0
THEN 'CPU: IM Repopulate'
WHEN bitand(a.time_model, power(2, 22)) > 0
THEN 'CPU: IM Trickle Repop'
WHEN bitand(a.time_model, power(2, 18)) > 0
THEN 'CPU: IM Query'
ELSE 'CPU + Wait for CPU' END) as event
, nvl(a.event_id, 1)
as event_id
, nvl(a.wait_class, 'CPU')
as wait_class
, nvl(a.wait_class_id, 9999)
as wait_class_id
, a.seq#
, a.p1
, a.p1text
, a.p2
, a.p2text
, a.p3
, a.p3text
, a.wait_time
, a.time_waited
, rawtohex(a.xid) as xid
, a.blocking_session
, a.blocking_session_serial#
, a.blocking_session_status
, a.blocking_inst_id
, a.current_obj#
, a.current_file#
, a.current_block#
, a.top_level_call#
, a.top_level_call_name
, a.program
, a.module
, a.action
, a.client_id
, a.remote_instance#
, a.ecid
, a.consumer_group_id
, a.machine
, a.port
, a.in_connection_mgmt
, a.in_parse
, a.in_hard_parse
, a.in_sql_execution
, a.in_plsql_execution
, a.in_plsql_rpc
, a.in_plsql_compilation
, a.in_java_execution
, a.in_bind
, a.in_cursor_close
, a.in_sequence_load
, a.is_captured
, a.is_replayed
, a.dbreplay_file_id
, a.dbop_name
, a.con_dbid, binds.filterRatio as sample_count
, instance_number as instance_number
FROM dba_hist_active_sess_history a, binds
WHERE binds.diskEnable = 1
AND a.dbid = binds.dbid
AND a.instance_number between
binds.instIdLow
and binds.instIdHigh
AND a.snap_id between
binds.beginSnap
and binds.endSnap
AND a.sample_time between
binds.beginTime
and binds.endTime
), logical_ash as
(select sample_id
, sample_time
, sample_count
, instance_number as inst_id, wait_class as global_hist_wc, event as event, instance_number || ':' || session_id || ', ' || session_serial# as physical_session, sql_id as sqlid, wait_class as wait_class, xid as xid, instance_number as instance_number, user_id as user_id, program as program from unified_ash) , bucketized_ash as
(SELECT ash0.*,
(case when binds.bucketCount > 1
then trunc( ( (24 * 60 * 60 *
extract(day from sample_time
- binds.beginTime))
+ (60 * 60 *
extract(hour from sample_time
- binds.beginTime))
+ (60 *
extract(minute from sample_time
- binds.beginTime))
+ (1 *
extract(second from sample_time
- binds.beginTime))
) / binds.bucketInterval
) + 1
else 1
end) as bucket_number
FROM logical_ash ash0, binds), filter_xml as
(SELECT xmlconcat(xmlelement("filters" )
, xmlelement("report_time", xmlattributes(
to_char(o.begintime, 'HH24:MI:SS MM/DD/YYYY') as "begin_time",
to_char(o.endtime, 'HH24:MI:SS MM/DD/YYYY') as "end_time"))) as xml_frag FROM
(select binds.*, nvl(to_number(filter_pdb), 0) as con_dbid from binds) o) , filtered_ash as
(SELECT ash.*,
(case when 1=1 then 1 else 0 end) filtered
FROM bucketized_ash ash, binds), grouped_ash as
(SELECT ash.*, (CASE WHEN nvl(filtered, 2) = 1
THEN 0 -- target / no histogram
ELSE 1 -- totals/global
END) AS bucket_type FROM (SELECT filtered, event, physical_session, sqlid, wait_class, bucket_number , grouping_id(filtered, event, physical_session, sqlid, wait_class, bucket_number) as gid , global_hist_wc , max(inst_id) as inst_id
, sum(sample_cou
nt) as sample_count
, count(distinct sqlid) as uniq_sqlids
, count(distinct xid) as uniq_xids
, count(distinct physical_session)
as uniq_sessions
, count(distinct instance_number)
as uniq_instances, max(user_id) as user_id, max(program) as program from filtered_ash
group by grouping sets( (bucket_number, global_hist_wc) , ( bucket_number, wait_class, filtered), (wait_class, filtered), (sqlid, wait_class, filtered), (physical_session, wait_class, filtered), (wait_class, event, filtered)) ) ash -- eliminate rows with filtered = 0
-- keep filtered and from global/total
WHERE (nvl(filtered, 2) != 0)), component_1_treemap as
(select dim_val
, inst_id
, sample_count
, num_mem
, mem_rank
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, 0 AS bucket_type --target(not global)/filtered bucket
from (select max(case when mem_rank <= 13
then dim_val
else null
end) as dim_val
, sum(sample_count) as sample_count
, count(*) as num_mem
, max(case when mem_rank <= 13
then mem_rank
else (13 + 1)
end) as mem_rank
, max(case when mem_rank <= 13
then uniq_sqlids
else 0
end) as uniq_sqlids
, max(case when mem_rank <= 13
then uniq_xids
else 0
end) as uniq_xids
, max(case when mem_rank <= 13
then uniq_sessions
else 0
end) as uniq_sessions
, max(case when mem_rank <= 13
then uniq_instances
else 0
end) as uniq_instances
, max(inst_id)
as inst_id
from (select wait_class as dim_val
, sample_count
, dense_rank() over
(order by sample_count desc
, wait_class) as mem_rank
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, inst_id
from grouped_ash
where gid = 29
and wait_class is not null)
group by (case when mem_rank <= 13
then dim_val
else null
end)
) left ) , component_1_histogram as
(select bucket_number
, sum(sample_count) as sample_count
, max(case when mem_rank <= 13
then mem_rank
when mem_rank is not null
then (13 + 1)
end) as mem_rank
, bucket_type
from (select g1.bucket_number
, g1.sample_count as sample_count
, (case when g1.wait_class = g2.dim_val
then to_char(g2.dim_val)
-- global/totals
when g1.bucket_type = 1
then g1.global_hist_wc
else null
end) as dim_val
, (case when g1.wait_class = g2.dim_val
then g2.mem_rank
when g1.bucket_type = 1 then NULL
else (13 + 1)
end) as mem_rank
, g1.bucket_type
from grouped_ash g1,
component_1_treemap g2
where -- both filtered and global
(g1.gid = 28 AND
g1.wait_class is not null OR
g1.bucket_type = 1)
and g1.wait_class =
g2.dim_val(+)
-- join filtered rows only
and g1.bucket_type = g2.bucket_type(+)
)
group by bucket_number
, dim_val
, bucket_type
) , component_1_xml as
(select xmlelement("item"
, xmlattributes('wait_class' as "id"
, topmems.cnt_all as "count"
, topmems.num_mem as "num_mem"
, topmems.num_others as "num_others") , xmlconcat(
topmems.topmems_frag
, histogram.histogram_xml)) as dim_frag from (select xmlelement(
"top_mems"
, xmlatt
ributes(sum(case when mem_rank <= 13
then sample_count
else 0
end) as "count")
, xmlagg(xmlelement(
"mem"
, xmlattributes(mem_rank as "id"
, dim_val as "name"
, sample_count as "count"
, uniq_sqlids as "uniq_sqlids"
, uniq_xids as "uniq_xids"
, uniq_sessions as "uniq_sessions"
, uniq_instances as "uniq_instances")
)
order by sample_count desc))
as topmems_frag
, sum(case when mem_rank <= 13
then 1
else 0
end) as num_mem
, sum(sample_count) as cnt_all
, max(case when mem_rank <= 13
then 0
else num_mem
end) as num_others
from (component_1_treemap) t
) topmems , (SELECT xmlagg(
xmlelement(
"histogram"
, xm
lattributes(
(case when bucket_type = 1 then 'all'
else 'target'
end) AS "type"
, max(binds.bucketCount) as "bucket_count"
, max(binds.bucketInterval) as "bucket_interval")
, xmlagg(bucket_xml
order by
bucket_type,
bucket_number asc)
)
) as histogram_xml
FROM (SELECT bucket_type
, bucket_number
, xmlelement(
"bucket"
, xmlattributes(bucket_number as "number"
, sum(sample_count) as "c
ount")
, (case
when bucket_type = 0 then -- filtered rows
xmlelement(
"top_mems"
, xmlattributes(
sum(case when mem_rank <= 13
then sample_count
else 0
end) as "count")
, xmlagg(
xmlelement(
"mem"
, xmlattributes(
mem_rank as "id"
, sample_count as "count"))
order by mem_rank asc))
end))
as bucket_xml
FROM (component_1_histogram)
GROUP BY bucket_number, bucket_type), binds
GROUP by bucket_type) histogram ), component_2_xml as
(select xmlelement(
"item"
, xmlattributes(
'sqlid, wait_class' as "item")
, xmlelement(
"top_mems"
, xmlagg(
xmlelement(
"mem"
, xmlattributes(
dim1_value as "dim1_value"
, dim1_nummem as "dim1_nummem"
, dim1_rank as "dim1_rank"
, dim2_value as
"dim2_value"
, dim12_nummem as "dim2_nummem"
, dim12_rank as "dim2_rank"
, dim12_count as "count"
, uniq_sqlids as "uniq_sqlids"
, uniq_xids as "uniq_xids"
, uniq_sessions as "uniq_sessions"
, uniq_instances as "uniq_instances"
)
, NVL2(sql_text1,
xmlelement("info"
, xmlattributes('dim1_name' as "type")
, sql_text1), NULL)
, NVL2(NULL,
xmlelement("info"
, xmlattributes('dim2_name' as "type")
, NULL), NULL)
)
order by dim1_rank, dim12_rank
)
)
) as dim_frag
from
(select dim_data.*
, NVL((SELECT substr(v.sql_text, 1, 100) as sql_text
FROM gv$sql v
WHERE v.sql_id = dim_data.dim1_value
AND v.inst_id = dim_data.inst_id
AND rownum < 2 ), ( SELECT dbms_lob.substr(v.sql_text, 100, 1) as sql_text
FROM dba_hist_sqltext v, binds b
WHERE v.dbid = b.dbid
AND v.sql_id = dim_data.dim1_value
AND rownum < 2)) as sql_text1
from (select
max(case when dim1_rank <= 10
then dim1_val
else null
end) as dim1_value
, max(case when dim1_rank <= 10
then dim2_val
else null
end) as dim2_value
, sum(dim12_count) as dim12_count
, max(case when dim1_rank <= 10
then uniq_sqlids
else 0
end) as uniq_sqlids
, max(case when dim1_rank <= 10
then uniq_xids
else 0
end) as uniq_xids
, max(case when dim1_rank <= 10
then uniq_sessions
else 0
end) as uniq_sessions
, max(case when dim1_rank <= 10
then uniq_instances
else 0
end) as uniq_instances
, count(distinct dim1_val) as dim1_nummem
, sum(dim12_nummem) as dim12_nummem
, max(case when dim1_rank <= 10
then dim1_rank
else (10 + 1)
end) as dim1_rank
, max(case when dim1_rank <= 10
then dim12_rank
else (10 + 1)
end) as dim12_rank
, max(inst_id) as inst_id
from (select dim1_val
, max(case when dim12_rank <= 13
then dim2_val
else null
end) as dim2_val
, dim1_count
, sum(dim12_count) as dim12_count
, max(case when dim12_rank <= 13
then uniq_sqlids
else 0
end) as uniq_sqlids
, max(case when dim12_rank <= 13
then uniq_xids
else 0
end) as uniq_xids
, max(case when dim12_rank <= 13
then uniq_sessions
else 0
end) as uniq_sessions
, max(case when dim12_rank <= 13
then uniq_instances
else 0
end) as uniq_instances
, count(*) as dim12_nummem
, dense_rank() over
(order by dim1_count desc
, dim1_val
) as dim1_rank
, max(case when dim12_rank <= 13
then dim12_rank
else (13 + 1)
end) as dim12_rank
, max(inst_id) as inst_id
from (select sqlid as dim1_val
, wait_class as dim2_val
, sample_count as dim12_count
, dense_rank() over
(partition by sqlid
order by sample_count desc
, wait_class
) as dim12_rank
, sum(sample_count) over
(partition by sqlid
) as dim1_count
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, inst_id
from grouped_ash
where gid = 25
and sqlid is not null
and wait_class is not null )
group by dim1_val
, dim1_count
, (case when dim12_rank <= 13
then dim2_val
else null
end)
)
group by (case when dim1_rank <= 10
then dim1_val
else null
end)
, (case when dim1_rank <= 10
then dim2_val
else null
end)
) dim_data
) t
), component_3_xml as
(select xmlelement(
"item"
, xmlattributes(
'physical_session, wait_class' as "item")
, xmlelement(
"top_mems"
, xmlagg(
xmlelement(
"mem"
, xmlattributes(
dim1_value as "dim1_value"
, dim1_nummem as "dim1_nummem"
, dim1_rank as "dim1_rank"
, dim2_value as "dim2_value"
, dim12_nummem as "dim2_nummem"
, dim12_rank as "dim2_rank"
, dim12_count as "count"
, uniq_sqlids as "uniq_sqlids"
, uniq_xids as "uniq_xids"
, uniq_sessions as "uniq_sessions"
, uniq_instances as "uniq_instances"
)
, NVL2(NULL,
xmlelement("info"
, xmlattributes('dim1_name' as "type")
, NULL), NULL)
, NVL2(NULL,
xmlelement("info"
, xmlattributes('dim2_name' as "type")
, NULL), NULL)
)
order
by dim1_rank, dim12_rank
)
)
) as dim_frag
from
(select dim_data.*
from (select
max(case when dim1_rank <= 10
then dim1_val
else null
end) as dim1_value
, max(case when dim1_rank <= 10
then dim2_val
else null
end) as dim2_value
, sum(dim12_count) as dim12_count
, max(case when dim1_rank <= 10
then uniq_sqlids
else 0
end) as uniq_sqlids
, max(case when dim1_rank <= 10
then uniq_xids
else 0
end) as uniq_xids
, max(case when dim1_rank <= 10
then uniq_sessions
else 0
end) as uniq_sessions
, max(case when dim1_rank <= 10
then uniq_instances
else 0
end) as uniq_instances
, count(distinct dim1_val) as dim1_nummem
, sum(dim12_nummem) as dim12_nummem
, max(case when dim1_rank <= 10
then dim1_rank
else (10 + 1)
end) as dim1_rank
, max(case when dim1_rank <= 10
then dim12_rank
else (10 + 1)
end) as dim12_rank
, max(inst_id) as inst_id
from (select dim1_val
, max(case when dim12_rank <= 13
then dim2_val
else null
end) as dim2_val
, dim1_count
, sum(dim12_count) as dim12_count
, max(case when dim12_ran
k <= 13
then uniq_sqlids
else 0
end) as uniq_sqlids
, max(case when dim12_rank <= 13
then uniq_xids
else 0
end) as uniq_xids
, max(case when dim12_rank <= 13
then uniq_sessions
else 0
end) as uniq_sessions
, max(case when dim12_rank <= 13
then uniq_instances
else 0
end) as uniq_ins
tances
, count(*) as dim12_nummem
, dense_rank() over
(order by dim1_count desc
, dim1_val
) as dim1_rank
, max(case when dim12_rank <= 13
then dim12_rank
else (13 + 1)
end) as dim12_rank
, max(inst_id) as inst_id
from (select physical_session as dim1_val
, wait_class as dim2_val
, sample_count as dim12_count
, dense_rank() over
(partition by physical_session
order by sample_count desc
, wait_class
) as dim12_rank
, sum(sample_count) over
(partition by physical_session
) as dim1_count
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, inst_id
from grouped_ash
where gid = 21
and physical_session is not null
and wait_class is not null )
group by dim1_val
, dim1_count
, (case when dim12_rank <= 13
then dim2_val
else null
end)
)
group by (case when dim1_rank <= 10
then dim1_val
else null
end)
, (case when dim1_rank <= 10
then dim2_val
else null
end)
) dim_data
) t
), component_4_xml as
(select xmlelement(
"item"
, xmlattributes(
'wait_class, event' as "item")
, xmlelement(
"top_mems"
, xmlagg(
xmlelement(
"mem"
, xmlattributes(
dim1_value as "dim1_value"
, dim1_nummem as "dim1_nummem"
, dim1_rank as "dim1_rank"
, dim2_value as "dim2_value
"
, dim12_nummem as "dim2_nummem"
, dim12_rank as "dim2_rank"
, dim12_count as "count"
, uniq_sqlids as "uniq_sqlids"
, uniq_xids as "uniq_xids"
, uniq_sessions as "uniq_sessions"
, uniq_instances as "uniq_instances"
)
, NVL2(NULL,
xmlelement("info"
, xmlattributes('dim1_name' as "type")
, NULL), NULL)
, NVL2(NULL,
xmlelement("info"
, xmlattributes('dim2_name' as "type")
, NULL), NULL)
)
order by dim1_rank, dim12_rank
)
)
) as dim_frag
from
(select dim_data.*
from (select
max(case when dim1_rank <= 13
then dim1_val
else null
end) as dim1_value
, max(case when dim1_rank <= 13
then dim2_val
else null
end)
as dim2_value
, sum(dim12_count) as dim12_count
, max(case when dim1_rank <= 13
then uniq_sqlids
else 0
end) as uniq_sqlids
, max(case when dim1_rank <= 13
then uniq_xids
else 0
end) as uniq_xids
, max(case when dim1_rank <= 13
then uniq_sessions
else 0
end) as uniq_sessions
, max(case when dim1_rank <= 13
then uniq_instances
else 0
end) as uniq_instances
, count(distinct dim1_val) as dim1_nummem
, sum(dim12_nummem) as dim12_nummem
, max(case when dim1_rank <= 13
then dim1_rank
else (13 + 1)
end) as dim1_rank
, max(case when dim1_rank <= 13
then dim12_rank
else (13 + 1)
end) as dim12_rank
, max(inst_id) as inst_id
from (select dim1_val
, max(case when dim12_rank <= 10
then dim2_val
else null
end) as dim2_val
, dim1_count
, sum(dim12_count) as dim12_count
, max(case when dim12_rank <= 10
then uniq_sqlids
else 0
end) as uniq_sqlids
, max(case when dim12_rank <= 10
then uniq_xids
else 0
end) as uniq_xids
, max(case when dim12_rank <= 10
then uniq_sessions
else 0
end) as uniq
_sessions
, max(case when dim12_rank <= 10
then uniq_instances
else 0
end) as uniq_instances
, count(*) as dim12_nummem
, dense_rank() over
(order by dim1_count desc
, dim1_val
) as dim1_rank
, max(case when dim12_rank <= 10
then dim12_rank
else (10 + 1)
end) as dim12_rank
, max(inst_id) as inst_id
from (sele
ct wait_class as dim1_val
, event as dim2_val
, sample_count as dim12_count
, dense_rank() over
(partition by wait_class
order by sample_count desc
, event
) as dim12_rank
, sum(sample_count) over
(partition by wait_class
) as dim1_count
, uniq_sqlids
, uniq_xids
, uniq_sessions
, uniq_instances
, inst_id
from grouped_ash
where gid = 13
and wait_class is not null
and event is not null )
group by dim1_val
, dim1_count
, (case when dim12_rank <= 10
then dim2_val
else null
end)
)
group by (case when dim1_rank <= 13
th
en dim1_val
else null
end)
, (case when dim1_rank <= 13
then dim2_val
else null
end)
) dim_data
) t
)select xmlconcat((select xml_frag from filter_xml),
xmlelement("dim_list",
xmlconcat((select dim_frag from component_1_xml), (select dim_frag from component_2_xml), (select dim_frag from component_3_xml), (select dim_frag from component_4_xml)))
) from dual |
| 4th6tk7u3uk3r | SELECT TO_CHAR(CAM.ACCOUNT_CODE_N) ACCOUNT_CODE_N, CAM.ACCOUNT_LINK_CODE_N FROM CB_ACCOUNT_MASTER CAM WHERE TO_CHAR(CAM.ACCOUNT_CODE_N) =:1
UNION ALL
SELECT VENDOR_CODE_V, ACCOUNT_LINK_CODE_N FROM CB_DEALER_MASTER WHERE VENDOR_CODE_V =:1 |
| 4xzdkyxzqd8nz | SELECT cs.CAI_CMD_REQ_STRING, cs.ACTION_CODE_V, cs.ACCOUNT_LINK_CODE_N, cs.ORDER_REF_NO_V, cs.PROCESS_NO_N, NVL(cs.ABILLITY_KEY_CODE_V, 'COMP')ABILLITY_KEY_CODE_V FROM cb_subs_provisioning cs where cs.STATUS_V = 'Q' and NVL(NO_OF_TIMES_EXECUTED_N, 0) <= (SELECT KEY_VALUE_NUM_N FROM CB_CONTROL_KEYS WHERE KEY_CODE_V ='REJ_COUNT') and cs.switch_num_n=1 and rownum <=20 order by cs.ACTION_DATE_DT |
| 56ss9c89szfxc | BEGIN ABILLITY_INTERFACE_API( :1 , :2 ) ; END; |
| 5vdscntnjrxu0 | Select table_owner, table_name, db_link
from sys.all_synonyms
where synonym_name=:Objectname |
| 5wwkp7spyq2fn | select privilege#, bitand(nvl(option$, 0), 8) from sysauth$ where (grantee#=:1 or grantee#=1) and privilege#>0 |
| 5ybw81h6657zz | DECLARE job BINARY_INTEGER := :job; next_date TIMESTAMP WITH TIME ZONE := :mydate; broken BOOLEAN := FALSE; job_name VARCHAR2(30) := :job_name; job_subname VARCHAR2(30) := :job_subname; job_owner VARCHAR2(30) := :job_owner; job_start TIMESTAMP WITH TIME ZONE := :job_start; job_scheduled_start TIMESTAMP WITH TIME ZONE := :job_scheduled_start; window_start TIMESTAMP WITH TIME ZONE := :window_start; window_end TIMESTAMP WITH TIME ZONE := :window_end; chain_id VARCHAR2(14) := :chainid; credential_owner varchar2(30) := :credown; credential_name varchar2(30) := :crednam; destination_owner varchar2(30) := :destown; destination_name varchar2(30) := :destnam; job_dest_id varchar2(14) := :jdestid; log_id number := :log_id; BEGIN BEGIN ESCALATION_PROCESS; END; :mydate := next_date; IF broken THEN :b := 1; ELSE :b := 0; END IF; END; |
| 6jpva8u9rzv0n | ( SELECT COUNT(*) AS COUNT_VALUE FROM Users_Roles INNER JOIN Roles_Permissions ON (Roles_Permissions.roleId = Users_Roles.roleId) INNER JOIN Permission_ ON (Permission_.permissionId = Roles_Permissions.permissionId) WHERE (Roles_Permissions.permissionId = :1) AND (Users_Roles.userId = :2) ) UNION ALL ( SELECT COUNT(*) AS COUNT_VALUE FROM UserGroupRole INNER JOIN Roles_Permissions ON (Roles_Permissions.roleId = UserGroupRole.roleId and UserGroupRole.groupId = :3) INNER JOIN Permission_ ON (Permission_.permissionId = Roles_Permissions.permissionId) WHERE (Roles_Permissions.permissionId = :4) AND (UserGroupRole.userId = :5) ) UNION ALL ( SELECT COUNT(*) AS COUNT_VALUE FROM Permission_ INNER JOIN Users_Permissions ON (Users_Permissions.permissionId = Permission_.permissionId) WHERE (Users_Permissions.permissionId = :6) AND (Users_Permissions.userId = :7) ) |
| 75hmwbma5xgh5 | SELECT DISTINCT OWNER FROM ALL_SYNONYMS WHERE SYNONYM_NAME NOT LIKE '%%$%%' AND SYNONYM_NAME NOT LIKE '%%/%%' AND SYNONYM_NAME NOT LIKE '#Tableau%%' AND SYNONYM_NAME NOT LIKE '#Tsid%%' AND SYNONYM_NAME NOT LIKE '#T%%sid%%' |
| 7h6crh5b3jk1v | SELECT A.PAYMENT_DESC, TO_CHAR(A.RECEIPT_AMOUNT/100, '999999999990.99')RECEIPT_AMOUNT, TO_cHAR(A.CANCELLED_AMOUNT/100, '999999999990.99')CANCELLED_AMOUNT,
TO_cHAR(A.TOTAL_AMOUNT/100, '999999999990.99')TOTAL_AMOUNT, A.RECEIPT_COUNT, A.CANCELLED_COUNT, A.TOTAL_RECEIPTCOUNT
FROM CB_CASH_BOX_DETAILS_VW A
WHERE CASH_BOX_NUMBER_N = (Select CASH_BOX_NUMBER_N from CB_CASH_BOX_USERS where login_name_v =:1 and STATUS_V='A')
UNION ALL
SELECT 'Total' PAYMENT_DESC,
TO_CHAR(SUM(B.RECEIPT_AMOUNT)/100, '999999999990.99')RECEIPT_AMOUNT,
TO_CHAR(SUM(B.CANCELLED_AMOUNT)/100, '999999999990.99')CANCELLED_AMOUNT,
TO_CHAR(SUM(B.TOTAL_AMOUNT)/100, '999999999990.99'),
SUM(B.RECEIPT_COUNT), SUM(B.CANCELLED_COUNT)TOTAL_AMOUNT, SUM(B.TOTAL_RECEIPTCOUNT)
FROM CB_CASH_BOX_DETAILS_VW B
WHERE CASH_BOX_NUMBER_N = (Select CASH_BOX_NUMBER_N from CB_CASH_BOX_USERS where login_name_v =:1 and STATUS_V='A') |
| 7umy6juhzw766 | select /*+ connect_by_filtering index(sysauth$ i_sysauth1) */ privilege#, bitand(nvl(option$, 0), 8), grantee#, level from sysauth$ connect by grantee#=prior privilege# and privilege#>0 start with grantee#=:1 and privilege#>0 |
| 865qwpcdyggkk | select spare6 from user$ where user#=:1 |
| 8g3v9xx7mjm82 | SELECT A.ROWID, A.* FROM CB_MULTI_ACCT_RECEIPT_HEADER A WHERE STATUS_V = 'I' |
| 8mdz49zkajhw3 |
SELECT /*+ OPT_PARAM('_fix_control' '16391176:1') */ GROUP_TYPE, BUCKET_START, BUCKET_END, TM_GROUP_TYPE, TM_BUCKET_START, TM_BUCKET_END, SUM(TM_CPU_FIRST_BUCKET_VALUE) TM_CPU_FIRST_BUCKET_VALUE, SUM(TM_CPU_MIDDLE_BUCKETS_VALUE) TM_CPU_MIDDLE_BUCKETS_VALUE, SUM(TM_CPU_LAST_BUCKET_VALUE) TM_CPU_LAST_BUCKET_VALUE, SUM(TM_DB_FIRST_BUCKET_VALUE) TM_DB_FIRST_BUCKET_VALUE, SUM(TM_DB_MIDDLE_BUCKETS_VALUE) TM_DB_MIDDLE_BUCKETS_VALUE, SUM(TM_DB_LAST_BUCKET_VALUE) TM_DB_LAST_BUCKET_VALUE, SUM(RREQS_FIRST_BUCKET_VALUE) RREQS_FIRST_BUCKET_VALUE, SUM(RREQS_MIDDLE_BUCKETS_VALUE) RREQS_MIDDLE_BUCKETS_VALUE, SUM(RREQS_LAST_BUCKET_VALUE) RREQS_LAST_BUCKET_VALUE, SUM(WREQS_FIRST_BUCKET_VALUE) WREQS_FIRST_BUCKET_VALUE, SUM(WREQS_MIDDLE_BUCKETS_VALUE) WREQS_MIDDLE_BUCKETS_VALUE, SUM(WREQS_LAST_BUCKET_VALUE) WREQS_LAST_BUCKET_VALUE, SUM(RBYTES_FIRST_BUCKET_VALUE) RBYTES_FIRST_BUCKET_VALUE, SUM(RBYTES_MIDDLE_BUCKETS_VALUE) RBYTES_MIDDLE_BUCKETS_VALUE, SUM(RBYTES_LAST_BUCKET_VALUE) RBYTES
_LAST_BUCKET_VALUE, SUM(WBYTES_FIRST_BUCKET_VALUE) WBYTES_FIRST_BUCKET_VALUE, SUM(WBYTES_MIDDLE_BUCKETS_VALUE) WBYTES_MIDDLE_BUCKETS_VALUE, SUM(WBYTES_LAST_BUCKET_VALUE) WBYTES_LAST_BUCKET_VALUE, SUM(IBYTES_FIRST_BUCKET_VALUE) IBYTES_FIRST_BUCKET_VALUE, SUM(IBYTES_MIDDLE_BUCKETS_VALUE) IBYTES_MIDDLE_BUCKETS_VALUE, SUM(IBYTES_LAST_BUCKET_VALUE) IBYTES_LAST_BUCKET_VALUE, SUM(CRBYTES_FIRST_BUCKET_VALUE) CRBYTES_FIRST_BUCKET_VALUE, SUM(CRBYTES_MIDDLE_BUCKETS_VALUE) CRBYTES_MIDDLE_BUCKETS_VALUE, SUM(CRBYTES_LAST_BUCKET_VALUE) CRBYTES_LAST_BUCKET_VALUE, SUM(PGA_ALLOC_FIRST_BUCKET_VALUE) PGA_ALLOC_FIRST_BUCKET_VALUE, SUM(PGA_ALLOC_MIDDLE_BUCKETS_VALUE) PGA_ALLOC_MIDDLE_BUCKETS_VALUE, SUM(PGA_ALLOC_LAST_BUCKET_VALUE) PGA_ALLOC_LAST_BUCKET_VALUE, SUM(TMP_ALLOC_FIRST_BUCKET_VALUE) TMP_ALLOC_FIRST_BUCKET_VALUE, SUM(TMP_ALLOC_MIDDLE_BUCKETS_VALUE) TMP_ALLOC_MIDDLE_BUCKETS_VALUE, SUM(TMP_ALLOC_LAST_BUCKET_VALUE) TMP_ALLOC_LAST_BUCKET_VALUE FROM ( SELECT GROUP_TYPE, BUCKET_START, TM
_BUCKET_START, TM_BUCKET_END, BUCKET_END, TM_GROUP_TYPE, SUM(GVTF.TM_CPU_FIRST_BUCKET_VALUE) TM_CPU_FIRST_BUCKET_VALUE, SUM(GVTF.TM_CPU_MIDDLE_BUCKETS_VALUE) TM_CPU_MIDDLE_BUCKETS_VALUE, SUM(GVTF.TM_CPU_LAST_BUCKET_VALUE) TM_CPU_LAST_BUCKET_VALUE, SUM(GVTF.TM_DB_FIRST_BUCKET_VALUE) TM_DB_FIRST_BUCKET_VALUE, SUM(GVTF.TM_DB_MIDDLE_BUCKETS_VALUE) TM_DB_MIDDLE_BUCKETS_VALUE, SUM(GVTF.TM_DB_LAST_BUCKET_VALUE) TM_DB_LAST_BUCKET_VALUE, SUM(GVTF.RREQS_FIRST_BUCKET_VALUE) RREQS_FIRST_BUCKET_VALUE, SUM(GVTF.RREQS_MIDDLE_BUCKETS_VALUE) RREQS_MIDDLE_BUCKETS_VALUE, SUM(GVTF.RREQS_LAST_BUCKET_VALUE) RREQS_LAST_BUCKET_VALUE, SUM(GVTF.WREQS_FIRST_BUCKET_VALUE) WREQS_FIRST_BUCKET_VALUE, SUM(GVTF.WREQS_MIDDLE_BUCKETS_VALUE) WREQS_MIDDLE_BUCKETS_VALUE, SUM(GVTF.WREQS_LAST_BUCKET_VALUE) WREQS_LAST_BUCKET_VALUE, SUM(GVTF.RBYTES_FIRST_BUCKET_VALUE) RBYTES_FIRST_BUCKET_VALUE, SUM(GVTF.RBYTES_MIDDLE_BUCKETS_VALUE) RBYTES_MIDDLE_BUCKETS_VALUE, SUM(GVTF.RBYTES_LAST_BUCKET_VALUE) RBYTES_LAST_BU
CKET_VALUE, SUM(GVTF.WBYTES_FIRST_BUCKET_VALUE) WBYTES_FIRST_BUCKET_VALUE, SUM(GVTF.WBYTES_MIDDLE_BUCKETS_VALUE) WBYTES_MIDDLE_BUCKETS_VALUE, SUM(GVTF.WBYTES_LAST_BUCKET_VALUE) WBYTES_LAST_BUCKET_VALUE, SUM(GVTF.IBYTES_FIRST_BUCKET_VALUE) IBYTES_FIRST_BUCKET_VALUE, SUM(GVTF.IBYTES_MIDDLE_BUCKETS_VALUE) IBYTES_MIDDLE_BUCKETS_VALUE, SUM(GVTF.IBYTES_LAST_BUCKET_VALUE) IBYTES_LAST_BUCKET_VALUE, SUM(GVTF.CRBYTES_FIRST_BUCKET_VALUE) CRBYTES_FIRST_BUCKET_VALUE, SUM(GVTF.CRBYTES_MIDDLE_BUCKETS_VALUE) CRBYTES_MIDDLE_BUCKETS_VALUE, SUM(GVTF.CRBYTES_LAST_BUCKET_VALUE) CRBYTES_LAST_BUCKET_VALUE, SUM(GVTF.PGA_ALLOC_FIRST_BUCKET_VALUE) PGA_ALLOC_FIRST_BUCKET_VALUE, SUM(GVTF.PGA_ALLOC_MIDDLE_BUCKETS_VALUE) PGA_ALLOC_MIDDLE_BUCKETS_VALUE, SUM(GVTF.PGA_ALLOC_LAST_BUCKET_VALUE) PGA_ALLOC_LAST_BUCKET_VALUE, SUM(GVTF.TMP_ALLOC_FIRST_BUCKET_VALUE) TMP_ALLOC_FIRST_BUCKET_VALUE, SUM(GVTF.TMP_ALLOC_MIDDLE_BUCKETS_VALUE) TMP_ALLOC_MIDDLE_BUCKETS_VALUE, SUM(GVTF.TMP_ALLOC_LAST_BUCKET_VALUE) TMP_A
LLOC_LAST_BUCKET_VALUE FROM TABLE(SYS.GV$(CURSOR( SELECT INST_ID, GROUP_TYPE, BUCKET_START, TM_BUCKET_START, TM_BUCKET_END, BUCKET_END, TM_GROUP_TYPE, SUM(TM_DELTA_CPU_TIME * TM_FIRST_BUCKET_RATIO) TM_CPU_FIRST_BUCKET_VALUE, SUM(TM_DELTA_CPU_TIME * TM_MIDDLE_BUCKETS_RATIO) TM_CPU_MIDDLE_BUCKETS_VALUE, SUM(TM_DELTA_CPU_TIME * TM_LAST_BUCKET_RATIO) TM_CPU_LAST_BUCKET_VALUE, SUM(TM_DELTA_DB_TIME * TM_FIRST_BUCKET_RATIO) TM_DB_FIRST_BUCKET_VALUE, SUM(TM_DELTA_DB_TIME * TM_MIDDLE_BUCKETS_RATIO) TM_DB_MIDDLE_BUCKETS_VALUE, SUM(TM_DELTA_DB_TIME * TM_LAST_BUCKET_RATIO) TM_DB_LAST_BUCKET_VALUE, SUM(DELTA_READ_REQUESTS * FIRST_BUCKET_RATIO) RREQS_FIRST_BUCKET_VALUE, SUM(DELTA_READ_REQUESTS * MIDDLE_BUCKETS_RATIO) RREQS_MIDDLE_BUCKETS_VALUE, SUM(DELTA_READ_REQUESTS * LAST_BUCKET_RATIO) RREQS_LAST_BUCKET_VALUE, SUM(DELTA_WRITE_REQUESTS * FIRST_BUCKET_RATIO) WREQS_FIRST_BUCKET_VALUE, SUM(DELTA_WRITE_REQUESTS * MIDDLE_BUCKETS_RATIO) WREQS_MIDDLE_BUCKETS_VALUE, SUM(DELTA_WRITE_REQUE
STS * LAST_BUCKET_RATIO) WREQS_LAST_BUCKET_VALUE, SUM(DELTA_READ_BYTES * FIRST_BUCKET_RATIO) RBYTES_FIRST_BUCKET_VALUE, SUM(DELTA_READ_BYTES * MIDDLE_BUCKETS_RATIO) RBYTES_MIDDLE_BUCKETS_VALUE, SUM(DELTA_READ_BYTES * LAST_BUCKET_RATIO) RBYTES_LAST_BUCKET_VALUE, SUM(DELTA_WRITE_BYTES * FIRST_BUCKET_RATIO) WBYTES_FIRST_BUCKET_VALUE, SUM(DELTA_WRITE_BYTES * MIDDLE_BUCKETS_RATIO) WBYTES_MIDDLE_BUCKETS_VALUE, SUM(DELTA_WRITE_BYTES * LAST_BUCKET_RATIO) WBYTES_LAST_BUCKET_VALUE, SUM(DELTA_INTERCONNECT_BYTES * FIRST_BUCKET_RATIO) IBYTES_FIRST_BUCKET_VALUE, SUM(DELTA_INTERCONNECT_BYTES * MIDDLE_BUCKETS_RATIO) IBYTES_MIDDLE_BUCKETS_VALUE, SUM(DELTA_INTERCONNECT_BYTES * LAST_BUCKET_RATIO) IBYTES_LAST_BUCKET_VALUE, SUM(DELTA_READ_MEM_BYTES * FIRST_BUCKET_RATIO) CRBYTES_FIRST_BUCKET_VALUE, SUM(DELTA_READ_MEM_BYTES * MIDDLE_BUCKETS_RATIO) CRBYTES_MIDDLE_BUCKETS_VALUE, SUM(DELTA_READ_MEM_BYTES * LAST_BUCKET_RATIO) CRBYTES_LAST_BUCKET_VALUE, SUM(PGA_ALLOCATED * LENGTH_SEG * FIRST_BUCKET_R
ATIO) PGA_ALLOC_FIRST_BUCKET_VALUE, SUM(PGA_ALLOCATED * LENGTH_SEG * MIDDLE_BUCKETS_RATIO) PGA_ALLOC_MIDDLE_BUCKETS_VALUE, SUM(PGA_ALLOCATED * LENGTH_SEG * LAST_BUCKET_RATIO) PGA_ALLOC_LAST_BUCKET_VALUE, SUM(TEMP_SPACE_ALLOCATED * LENGTH_SEG * FIRST_BUCKET_RATIO) TMP_ALLOC_FIRST_BUCKET_VALUE, SUM(TEMP_SPACE_ALLOCATED * LENGTH_SEG * MIDDLE_BUCKETS_RATIO) TMP_ALLOC_MIDDLE_BUCKETS_VALUE, SUM(TEMP_SPACE_ALLOCATED * LENGTH_SEG * LAST_BUCKET_RATIO) TMP_ALLOC_LAST_BUCKET_VALUE FROM ( SELECT USERENV('INSTANCE') INST_ID, ROW_ID, SID, SAMPLE_TIME, CASE WHEN BUCKET_END IS NULL OR BUCKET_START IS NULL THEN NULL WHEN BUCKET_START = TM_BUCKET_START AND BUCKET_START = BUCKET_END THEN 'CO' WHEN BUCKET_START = TM_BUCKET_START THEN 'CM' WHEN BUCKET_START = BUCKET_END THEN 'SO' ELSE 'SM' END GROUP_TYPE, CASE WHEN TM_BUCKET_START IS NULL OR BUCKET_END IS NULL OR (TM_BUCKET_START = BUCKET_START) THEN NULL WHEN TM_BUCKET_START = BUCKET_END THEN 'O' ELSE 'M' END TM_GROUP_TYPE, START_SEG, BUCKET_S
TART, BUCKET_START_OFFSET, TM_START_SEG, CASE WHEN TM_BUCKET_START IS NULL OR (TM_BUCKET_START = BUCKET_START) THEN NULL ELSE TM_BUCKET_START END TM_BUCKET_START, CASE WHEN TM_BUCKET_START IS NULL OR (TM_BUCKET_START = BUCKET_START) THEN NULL ELSE BUCKET_END END TM_BUCKET_END, TM_BUCKET_START_OFFSET, LENGTH_SEG, TM_LENGTH_SEG, END_SEG, BUCKET_END, BUCKET_END_OFFSET, CASE WHEN BUCKET_START != BUCKET_END THEN (:B7 - BUCKET_START_OFFSET) / LENGTH_SEG ELSE 1 END FIRST_BUCKET_RATIO, CASE WHEN BUCKET_END >= BUCKET_START + 2 THEN :B7 / LENGTH_SEG ELSE NULL END MIDDLE_BUCKETS_RATIO, CASE WHEN BUCKET_START != BUCKET_END THEN BUCKET_END_OFFSET / LENGTH_SEG ELSE NULL END LAST_BUCKET_RATIO, CASE WHEN TM_BUCKET_START != BUCKET_END THEN (:B7 - TM_BUCKET_START_OFFSET) / TM_LENGTH_SEG ELSE 1 END TM_FIRST_BUCKET_RATIO, CASE WHEN BUCKET_END >= TM_BUCKET_START + 2 THEN :B7 / TM_LENGTH_SEG ELSE NULL END TM_MIDDLE_BUCKETS_RATIO, CASE WHEN TM_BUCKET_START != BUCKET_END THEN BUCKET_END_
OFFSET / TM_LENGTH_SEG ELSE NULL END TM_LAST_BUCKET_RATIO, TM_DELTA_CPU_TIME, TM_DELTA_DB_TIME, DELTA_READ_IO_REQUESTS DELTA_READ_REQUESTS, DELTA_WRITE_IO_REQUESTS DELTA_WRITE_REQUESTS, DELTA_READ_IO_BYTES DELTA_READ_BYTES, DELTA_WRITE_IO_BYTES DELTA_WRITE_BYTES, DELTA_INTERCONNECT_IO_BYTES DELTA_INTERCONNECT_BYTES, DELTA_READ_MEM_BYTES DELTA_READ_MEM_BYTES, PGA_ALLOCATED, TEMP_SPACE_ALLOCATED FROM (SELECT ROW_ID, SID, SAMPLE_TIME, START_SEG, TRUNC(START_SEG / :B7 ) BUCKET_START, MOD(START_SEG, :B7 ) BUCKET_START_OFFSET, TM_START_SEG, TRUNC(TM_START_SEG/:B7 ) TM_BUCKET_START, MOD(TM_START_SEG, :B7 ) TM_BUCKET_START_OFFSET, TRUNC(END_SEG/:B7 ) BUCKET_END, MOD(END_SEG, :B7 ) BUCKET_END_OFFSET, END_SEG, LENGTH_SEG, TM_LENGTH_SEG, TM_DELTA_CPU_TIME, TM_DELTA_DB_TIME, DELTA_READ_IO_REQUESTS, DELTA_WRITE_IO_REQUESTS, DELTA_READ_IO_BYTES, DELTA_WRITE_IO_BYTES, DELTA_INTERCONNECT_IO_BYTES, DELTA_READ_MEM_BYTES, PGA_ALLOCATED, TEMP_SPACE_ALLOCATED FROM (SELEC
T ROW_ID, SID, SAMPLE_TIME, TIME_INTERVAL, CASE WHEN START_SEG < 0 THEN 0 ELSE START_SEG END START_SEG, CASE WHEN TM_START_SEG < 0 THEN 0 ELSE TM_START_SEG END TM_START_SEG, CASE WHEN END_SEG > TIME_INTERVAL THEN TIME_INTERVAL ELSE END_SEG END END_SEG, (LENGTH_SEG - (CASE WHEN START_SEG < 0 THEN -START_SEG ELSE 0 END + CASE WHEN END_SEG > TIME_INTERVAL THEN END_SEG - TIME_INTERVAL ELSE 0 END)) LENGTH_SEG, (TM_LENGTH_SEG - (CASE WHEN TM_START_SEG < 0 THEN -TM_START_SEG ELSE 0 END + CASE WHEN END_SEG > TIME_INTERVAL THEN END_SEG - TIME_INTERVAL ELSE 0 END)) TM_LENGTH_SEG, TM_DELTA_CPU_TIME, TM_DELTA_DB_TIME, DELTA_READ_IO_REQUESTS, DELTA_WRITE_IO_REQUESTS, DELTA_READ_IO_BYTES, DELTA_WRITE_IO_BYTES, DELTA_INTERCONNECT_IO_BYTES, DELTA_READ_MEM_BYTES, PGA_ALLOCATED, TEMP_SPACE_ALLOCATED FROM (SELECT ROW_ID, SID, SAMPLE_TIME, TIME_INTERVAL, LENGTH_SEG, TM_LENGTH_SEG, END_SEG - TM_LENGTH_SEG TM_START_SEG, END_SEG - LENGTH_SEG START_SEG, END_SEG,
TM_DELTA_CPU_TIME, TM_DELTA_DB_TIME, DELTA_READ_IO_REQUESTS, DELTA_WRITE_IO_REQUESTS, DELTA_READ_IO_BYTES, DELTA_WRITE_IO_BYTES, DELTA_INTERCONNECT_IO_BYTES, DELTA_READ_MEM_BYTES, PGA_ALLOCATED, TEMP_SPACE_ALLOCATED FROM (SELECT ROW_ID, SID, SAMPLE_TIME, EXTRACT(SECOND FROM REL_SAMPLE_TIME_INT) + EXTRACT(MINUTE FROM REL_SAMPLE_TIME_INT)*60 + EXTRACT(HOUR FROM REL_SAMPLE_TIME_INT)*3600 + EXTRACT(DAY FROM REL_SAMPLE_TIME_INT)*3600*24 END_SEG, TIME_INTERVAL, DELTA_TIME/1000000 LENGTH_SEG, TM_DELTA_TIME/1000000 TM_LENGTH_SEG, TM_DELTA_CPU_TIME, TM_DELTA_DB_TIME, DELTA_READ_IO_REQUESTS, DELTA_WRITE_IO_REQUESTS, DELTA_READ_IO_BYTES, DELTA_WRITE_IO_BYTES, DELTA_INTERCONNECT_IO_BYTES, DELTA_READ_MEM_BYTES, PGA_ALLOCATED, TEMP_SPACE_ALLOCATED FROM (SELECT ROWNUM ROW_ID, SESSION_ID SID, CAST(FROM_TZ(SAMPLE_TIME, DBTIMEZONE) AS DATE) SAMPLE_DATE, SAMPLE_TIME, (SAMPLE_TIME - CAST(:B6 AS TIMESTAMP)) REL_SAMPLE_TIME_INT, TRUNC((:B5 - :B6 ) * 3600 * 24) TIME_INTERVAL,
:B6 AS BND_START_INTERVAL , :B5 AS BND_END_INTERVAL , TM_DELTA_TIME, TM_DELTA_CPU_TIME, TM_DELTA_DB_TIME, DELTA_TIME, DELTA_READ_IO_REQUESTS, DELTA_WRITE_IO_REQUESTS, DELTA_READ_IO_BYTES, DELTA_WRITE_IO_BYTES, DELTA_INTERCONNECT_IO_BYTES, DELTA_READ_MEM_BYTES, PGA_ALLOCATED, TEMP_SPACE_ALLOCATED FROM (SELECT ASH0.* FROM V$ACTIVE_SESSION_HISTORY ASH0 WHERE ((SESSION_ID = :B2 AND SESSION_SERIAL# = :B1 AND USERENV('INSTANCE') = :B3 ) OR (:B4 = 'yes' AND QC_INSTANCE_ID = :B3 AND QC_SESSION_ID = :B2 AND QC_SESSION_SERIAL# = :B1 ))) ) ASH1 WHERE SAMPLE_DATE >= BND_START_INTERVAL AND SAMPLE_DATE <= BND_END_INTERVAL + 120/3600/24 ) ) WHERE START_SEG <= TIME_INTERVAL ) WHERE (LENGTH_SEG IS NOT NULL AND LENGTH_SEG > 0) OR (TM_LENGTH_SEG IS NOT NULL AND TM_LENGTH_SEG > 0)) ) GROUP BY INST_ID, GROUP_TYPE, BUCKET_START, BUCKET_END, TM_GROUP_TYPE, TM_BUCKET_START, TM_BUCKET_END))) GVTF WHERE INST_ID >= :B9 AND INST_ID <= :B8 GROUP BY GROUP_TYPE, BUCKET_START
, BUCKET_END, TM_GROUP_TYPE, TM_BUCKET_START, TM_BUCKET_END ) GROUP BY GROUPING SETS ( (GROUP_TYPE, BUCKET_START, BUCKET_END), (TM_GROUP_TYPE, TM_BUCKET_START, TM_BUCKET_END) ) |
| 8mrf61fjzvygf | BEGIN
DBMS_STATS.GATHER_TABLE_STATS
(
OWNNAME => 'CBS_CORE',
TABNAME => 'CB_SUBS_REFUND',
ESTIMATE_PERCENT => 30,
CASCADE => TRUE
);
END; |
| 8myycgtvm7n1m |
SELECT "Custom SQL Query"."AMOUNT" AS "AMOUNT",
"Custom SQL Query"."AMOUNT_DISC" AS "AMOUNT_DISC",
"Custom SQL Query"."AMOUNT_WITHOUT_TAX" AS "AMOUNT_WITHOUT_TAX",
"Custom SQL Query"."CASH_BOX" AS "CASH_BOX",
"Custom SQL Query"."CATEGORY" AS "CATEGORY",
"Custom SQL Query"."COMMENT_V" AS "COMMENT_V",
(("Custom SQL Query"."AMOUNT_WITHOUT_TAX" - "Custom SQL Query"."AMOUNT_DISC") + "Custom SQL Query"."TAX_AMT") AS "Calculation_100768046316843827",
((CASE WHEN "Custom SQL Query"."AMOUNT_WITHOUT_TAX" = 0 THEN CAST(NULL AS BINARY_DOUBLE) ELSE "Custom SQL Query"."AMOUNT_DISC" / "Custom SQL Query"."AMOUNT_WITHOUT_TAX" END) * 100) AS "Calculation_110394491299335782
",
("Custom SQL Query"."AMOUNT_WITHOUT_TAX" - "Custom SQL Query"."AMOUNT_DISC") AS "Calculation_127648903864818483",
ROUND(((CASE WHEN "Custom SQL Query"."AMOUNT_WITHOUT_TAX" = 0 THEN CAST(NULL AS BINARY_DOUBLE) ELSE "Custom SQL Query"."AMOUNT_DISC" / "Custom SQL Query"."AMOUNT_WITHOUT_TAX" END) * 100)) AS "Calculation_928023038066147328",
"Custom SQL Query"."ENTITY_TYPE" AS "ENTITY_TYPE",
"Custom SQL Query"."EXT_CRED_SALE_REF_NO_V" AS "EXT_CRED_SALE_REF_NO_V",
"Custom SQL Query"."FLAG" AS "FLAG",
"Custom SQL Query"."ITEM_CODE" AS "ITEM_CODE",
"Group_1"."X_ITEM_DESC (group)" AS "ITEM_DESC (group)",
"Custom SQL Query"."ITEM_DESC" AS "ITEM_DESC",
"Custom SQ
L Query"."LOCATION" AS "LOCATION",
"Custom SQL Query"."LOCATION_CODE" AS "LOCATION_CODE",
"Custom SQL Query"."LOYALTY" AS "LOYALTY",
"Custom SQL Query"."MSISDN" AS "MSISDN",
"Group_2"."X_PERCENTAGE (group)" AS "PERCENTAGE (group)",
"Custom SQL Query"."PSY_STATUS" AS "PSY_STATUS",
"Custom SQL Query"."QUANTITY" AS "QUANTITY",
"Custom SQL Query"."RECEIPT_NO" AS "RECEIPT_NO",
"Custom SQL Query"."RETAILER_CODE" AS "RETAILER_CODE",
"Custom SQL Query"."RETAILER_NAME" AS "RETAILER_NAME",
"Custom SQL Query"."SALES_TYPE" AS "SALES_TYPE",
"Custom SQL Query"."STATUS" AS "STATUS",
"Custom SQL Query".
"TAX_AMT" AS "TAX_AMT",
"Custom SQL Query"."TOTAL_AMT" AS "TOTAL_AMT",
"Custom SQL Query"."TOTAL_DISC_AMT" AS "TOTAL_DISC_AMT",
"Custom SQL Query"."TOTAL_TAX_AMT" AS "TOTAL_TAX_AMT",
TRUNC(CAST(TRUNC(CAST("Custom SQL Query"."TRANS_DATE" AS DATE)) AS DATE)) AS "TRANS_DATE",
"Custom SQL Query"."TRANS_NUM" AS "TRANS_NUM",
"Custom SQL Query"."UNIT_PRICE" AS "UNIT_PRICE",
"Custom SQL Query"."USER_NAME" AS "USER_NAME"
FROM (
select
d.TRANS_DATE_D TRANS_DATE, d.TRANSACTION_NUM_V TRANS_NUM,
t.ext_cred_sale_ref_no_v,
s.location_code_v LOCATION_CODE,
s.location_v LOCATION,
t.NAME_V RETAILER_NAME,
t.service_number_v MSISDN,
dm.vendor_code_v RETAILER_CODE, dm.category_v CATEGORY,
--min(isi.serial_no_v) start_serial,
--max(isi.serial_no_v) end_serial,
u.user_name_v USER_NAME, t.CASH_BOX_NUMBER_N CASH_BOX,
decode(t.entity_type_v, 'DLR', 'Dealer', 'SUB', 'Subscriber', 'PRC', 'Prospect') ENTITY_TYPE,
decode(t.CREDIT_FLAG_V, 'Y', 'Credit', '') flag,
decode(t.STATUS_V, 'C', 'Cancelled', 'S', 'Sales Completed') status,
decode(t.TYPE_OF_SALES_V, 'N', 'Normal', 'C', 'Credit') sales_type,
decode(t.PAY_STATUS_V, 'L', 'PayLater', 'Pay Now') psy_status,
t.narration_v COMMENT_V,
itm.item_identifier_v ITEM_CODE,
itm.item_desc_v ITEM_DESC,
quantity_n QUANTITY,
d.price_n/100 UNIT_PRICE,
d.amount_wt_n/100 AMOUNT_WITHOUT_TAX,
d.disc_amount_n/100 AMOUNT_DISC,
d.tax_amt1_n/100 TAX_AMT,
d.loyality_points_n LOYALTY,
t.AMOUNT_N/100 AMOUNT,
t.DISC_AMOUNT_N/100 TOTAL_DISC_AMT,
t.TAX_AMT1_N/100 TOTAL_TAX_AMT,
t.TOTAL_AMOUNT_N/100 TOTAL_AMT,
t.RECEIPT_TRANS_NUM_V RECEIPT_NO
from cb_pos_transactions t, CB_POS_TRANS_Dtls d , cb_retail_o
utlets s , cb_users u ,
inv_item_master itm, cb_dealer_master dm--, inv_serial_items isi--, cb_dlr_category_master cm
where s.location_code_n= nvl(t.location_code_n, t.location_code_v)
and u.user_Code_n=t.user_code_n and
t.TRANSACTION_NUM_V = d.TRANSACTION_NUM_V
and itm.item_code_n = d.item_code_n
and t.account_link_code_n = dm.account_link_code_n
union all
select
d.TRANS_DATE_D TRANS_DATE, d.TRANSACTION_NUM_V TRANS_NUM,
t.ext_cred_sale_ref_no_v,
s.location_code_v LOCATION_CODE,
s.location_v LOCATION, t.NAME_V RETAILER_NAME,
t.service_number_v MSISDN,
null RETAILER_CODE,
null CATEGORY,
u.user_name_v USER_NAME, t.CASH_BOX_NUMBER_N CASH_BOX,
decode(t.entity_type_v, 'DLR', 'Dealer', 'SUB', 'Subscriber', 'PRC', 'Prospect') ENTITY_TYPE,
decode(t.CREDIT_FLAG_V, 'Y', 'Credit', '') flag,
decode(t.STATUS_V, 'C', 'Cancelled', 'S', 'Sales Completed') status,
decode(t.TYPE_OF_SALES_V, 'N', 'Normal', 'C', 'Credi
t') sales_type,
decode(t.PAY_STATUS_V, 'L', 'PayLater', 'Pay Now') psy_status,
t.narration_v COMMENT_V,
itm.item_identifier_v ITEM_CODE,
itm.item_desc_v ITEM_DESC,
quantity_n QUANTITY,
d.price_n/100 UNIT_PRICE,
d.amount_wt_n/100 AMOUNT_WITHOUT_TAX,
d.disc_amount_n/100 AMOUNT_DISC,
d.tax_amt1_n/100 TAX_AMT,
d.loyality_points_n LOYALTY,
t.AMOUNT_N/100 AMOUNT,
t.DISC_AMOUNT_N/100 TOTAL_DISC_AMT,
t.TAX_AMT1_N/100 TOTAL_TAX_AMT,
t.TOTAL_AMOUNT_N/100 TOTAL_AMT,
t.RECEIPT_TRANS_NUM_V RECEIPT_NO
from cb_pos_transactions t, CB_POS_TRANS_Dtls d , cb_retail_outlets s , cb_users u , inv_item_master itm
where s.location_code_n= nvl(t.location_code_n, t.location_code_v)
and u.user_Code_n=t.user_code_n and
t.TRANSACTION_NUM_V =d.TRANSACTION_NUM_V and
itm.item_code_n=d.item_code_n
and t.customer_type_v in ('W', 'S')
) "Custom SQL Query"
INNER JOIN "#T19_sid:219721293_3_GrouGroup" "Group
_1" ON ("Custom SQL Query"."ITEM_DESC" = "Group_1"."X_ITEM_DESC")
INNER JOIN "#T19_sid:219721293_1_GrouGroup" "Group_2" ON ((ROUND(((CASE WHEN "Custom SQL Query"."AMOUNT_WITHOUT_TAX" = 0 THEN CAST(NULL AS BINARY_DOUBLE) ELSE "Custom SQL Query"."AMOUNT_DISC" / "Custom SQL Query"."AMOUNT_WITHOUT_TAX" END) * 100)) = "Group_2"."X_Calculation_9280230380661473") OR ((ROUND(((CASE WHEN "Custom SQL Query"."AMOUNT_WITHOUT_TAX" = 0 THEN CAST(NULL AS BINARY_DOUBLE) ELSE "Custom SQL Query"."AMOUNT_DISC" / "Custom SQL Query"."AMOUNT_WITHOUT_TAX" END) * 100)) IS NULL) AND ("Group_2"."X_Calculation_9280230380661473" IS NULL))) |
| 8n267y605h4rd | BEGIN GET_ACCOUNT_BALANCE_DETAILS(:1, :2, :3, :4, :5, :6, :7, :8); END; |
| 8rqj5r1wjxzsf | SELECT COUNT(1) FROM INV_SERIAL_ITEMS WHERE LOCATION_CODE_N = :B4 AND ITEM_CODE_N = :B3 AND SERIAL_NO_V BETWEEN TRIM(:B2 ) AND TRIM(:B1 ) AND STATUS_V = 'F' |
| 8vdp5jr28q3z4 |
SELECT "CB_POS_TRANSACTIONS"."TRANS_DATE_DT", "CB_POS_TRANS_DTLS"."END_NO_V", "CB_POS_TRANS_DTLS"."QUANTITY_N", "CB_RETAIL_OUTLETS"."LOCATION_V", "CB_POS_TRANS_DTLS"."TRANS_DATE_D", "INV_ITEM_MASTER"."ITEM_DESC_V", "CB_POS_TRANSACTIONS"."NAME_V", "CB_POS_TRANS_DTLS"."START_NO_V", "CB_POS_TRANS_DTLS"."TRANSACTION_NUM_V", "CB_POS_TRANSACTIONS"."POS_TYPE_V", "CB_USERS"."USER_NAME_V", "CB_POS_TRANSACTIONS"."CUSTOMER_TYPE_V", "CB_POS_TRANS_DTLS"."ITEM_CODE_N", "CB_POS_TRANSACTIONS"."DONATION_FLAG_V", "CB_POS_TRANSACTIONS"."LOCATION_CODE_N", Nvl("CB_POS_TRANS_DTLS"."AMOUNT_WT_N", 0), NVL("CB_POS_TRANS_DTLS"."DISC_AMOUNT_N"+"CB_POS_TRANS_
DTLS"."TRANS_DISC_AMT_N", 0), Nvl("CB_POS_TRANS_DTLS"."TAX_AMT1_N"+"CB_POS_TRANS_DTLS"."TAX_AMT2_N"+"CB_POS_TRANS_DTLS"."TAX_AMT3_N", 0) FROM "CBS_APPS"."CB_USERS" "CB_USERS", "CBS_APPS"."CB_POS_TRANSACTIONS" "CB_POS_TRANSACTIONS", "CBS_APPS"."CB_POS_TRANS_DTLS" "CB_POS_TRANS_DTLS", "CBS_APPS"."CB_RETAIL_OUTLETS" "CB_RETAIL_OUTLETS", "CBS_APPS"."INV_ITEM_MASTER" "INV_ITEM_MASTER" WHERE ("CB_USERS"."USER_CODE_N"="CB_POS_TRANSACTIONS"."USER_CODE_N" (+)) AND ("CB_POS_TRANSACTIONS"."TRANSACTION_NUM_V"="CB_POS_TRANS_DTLS"."TRANSACTION_NUM_V" (+)) AND ("CB_POS_TRANSACTIONS"."LOCATION_CODE_N"="CB_RETAIL_OUTLETS"."LOCATION_CODE_N" (+)) AND ("
CB_POS_TRANS_DTLS"."ITEM_CODE_N"="INV_ITEM_MASTER"."ITEM_CODE_N" (+)) AND "CB_POS_TRANSACTIONS"."POS_TYPE_V"='P' ORDER BY "CB_POS_TRANSACTIONS"."LOCATION_CODE_N", "CB_POS_TRANS_DTLS"."ITEM_CODE_N", "CB_POS_TRANS_DTLS"."TRANSACTION_NUM_V", "CB_POS_TRANS_DTLS"."TRANS_DATE_D" DESC |
| 8z7rfgmardmjv | SELECT REG_PATH, REG_USER_ID, REG_LOGGED_TIME, REG_ACTION, REG_ACTION_DATA FROM REG_LOG WHERE REG_LOGGED_TIME>:1 AND REG_LOGGED_TIME<:2 AND REG_TENANT_ID=:3 ORDER BY REG_LOGGED_TIME DESC |
| 98yh2zwy9gacb | call CB_PROCESS_MULTI_PAYMENTS_PRC ( ) |
| 9tghkhygydfj7 | SELECT A.ROWID, A.* FROM CB_MULTI_ACCT_RECEIPT_HEADER A WHERE STATUS_V = 'Q' ORDER BY REQUEST_DATE_DT |
| 9zg9qd9bm4spu | update user$ set spare6=DECODE(to_char(:2, 'YYYY-MM-DD'), '0000-00-00', to_date(NULL), :2) where user#=:1 |
| a5ks9fhw2v9s1 | select * from dual |
| aa9cu60kck4bw | SELECT UM_ID, UM_DOMAIN_NAME, UM_EMAIL, UM_CREATED_DATE, UM_ACTIVE FROM UM_TENANT ORDER BY UM_ID |
| acs3qcchq32dm | BEGIN :1 := GET_TICKET_LST(:2 , :3 , :4 ) ; END; |
| aksaf74grz97n |
with alloc_hist as (
-- conditionally print out component name
select bucket_id, alloc, id, bytes,
case when rn = 1 then component else null end component
from (-- get first occurrence of component name/id
select bucket_id, alloc, component, id,
bytes,
row_number() over (partition by alloc, component
order by bucket_id, bytes desc) rn
from (-- get sum across instances
select bucket_id,
component, id,
alloc,
-- use final size (which is size at this time), if
-- we have it
-- otherwise use next size, which is the likely size
-- as this is the known starting size of a resize op
sum(nvl(final_size, next_size))/
decode(alloc, 'paging', 1, 1048576) bytes
from table(gv$(cursor(
-- select from each instance
select userenv('INSTANCE') inst_id,
bucket_id, id,
-- rename components
case when component = 'DEFAULT buffer cache'
then 'buffer cache'
when component like 'DEFAULT % buffer cache'
or component in ('KEEP buffer cache',
'RECYCLE buffer cache')
then 'other buffer cache'
when component in 'PGA Target'
then 'total_pga'
else component
end component,
-- allocation type
case when component = 'PGA Target'
then 'pga'
when component in ('VM in bytes Per Sec',
'VM out bytes Per Sec')
then 'paging'
else 'sga'
end alloc,
final_size, next_size
from ( -- get next size in case not in resize ops
-- by joining to an inline view with a row
-- for each bucket
select bm.bucket_id, bm.component, bm.id,
r.final_size,
-- next_size is the likely size
-- as that is the start size of the resize
-- at the start of the time frame
-- we have to use this as we do not know
-- the sizing that occurred prior to the
-- requested time frame
lead(r.initial_size) ignore nulls
over (partition by bm.component
order by bm.bucket_id)
next_size
from
(-- force one bucket for each component
select b.bucket_id,
m.component,
-- generate an id, has to be done with all
-- comps before eliminating 0s for
-- refresh to get consistent ids
dense_rank() over (order by component) id
from (-- get names
select component
from v$memory_dynamic_components m
where component not in ('SGA Target')
union all
select 'VM in bytes Per Sec'
from v$timer
union all
select 'VM out bytes Per Sec'
from v$timer) m,
(-- create rows with bucket_ids
select rownum bucket_id
from ( -- create n rows
-- need single row table
-- cannot use dual in gvtf
select 1
from v$timer
connect by
level <= :l_bucket_count)) b) bm,
(-- get one row per populated bucket
-- for each component
select component, bucket_id,
min(decode(rn_asc, 1, initial_size, null))
initial_size,
max(decode(rn_desc, 1, final_size, null))
final_size
from (-- rank to get first row in the bucket
select component,
initial_size, final_size,
bucket_id,
-- break ties if all occur same second
row_number()
over (partition by component,
bucket_id
order by end_time,
initial_size)
rn_asc,
row_number()
over (partition by component,
bucket_id
order by end_time desc,
final_size desc)
rn_desc
from ( -- compute bucket ids
select component, end_time,
initial_size, final_siz
e,
trunc(
((end_time -
to_date(:l_min_time, :date_fmt))*
86400) / :l_bucket_interval) + 1
bucket_id
from (-- get resizes and current size
select component,
end_time,
initial_size,
final_size
from v$memory_resize_ops r
where end_time >=
to_date(:l_min_time,
:date_fmt)
and end_time <
to_date(:l_max_time,
:date_fmt)
union all
select component,
to_date(:l_current_time,
:date_fmt),
current_size,
current_size
from v$memory_dynamic_components
where component not in ('SGA Target',
'PGA Target')
and current_size > 0
union all
-- pga and paging statistics
select case
when metric_name=
'Total PGA Allocated'
then 'PGA Target'
else metric_name
end component,
end_time,
value,
value
from v$sysmetric_history
where end_time >=
to_date(:l_min_time,
:date_fmt)
and end_time <
to_date(:l_max_time,
:date_fmt)
and metric_name in (
'Total PGA Allocated',
'VM in bytes Per Sec',
'VM out bytes Per Sec')
and group_id = 2
union all
select 'PGA Target',
to_date(:l_current_time,
:date_fmt),
value,
value
from v$pgastat
where name='total PGA allocated'
-- add rows in case of startup
union all
select 'PGA Target',
trunc(i.startup_time-1/1440,
'mi'),
0, 0
from v$instance i
where i.startup_time >=
to_date(:l_min_time,
:date_fmt)
and i.startup_time <
to_date(:l_max_time,
:date_fmt)
union all
select 'VM in bytes Per
Sec',
trunc(i.startup_time-1/1440,
'mi'),
0, 0
from v$instance i
where i.startup_time >=
to_date(:l_min_time,
:date_fmt)
and i.startup_time <
to_date(:l_max_time,
:date_fmt)
union all
select 'VM out bytes Per Sec',
trunc(i.startup_time-1/1440,
'mi'),
0, 0
from v$instance i
where i.startup_time >=
to_date(:l_min_time,
:date_fmt)
and i.startup_time <
to_date(:l_max_time,
:date_fmt)
union all
select m.component,
trunc(i.startup_time-1/1440,
'mi'),
0, 0
from v$instance i,
v$memory_dynamic_components m
where i.startup_time >=
to_date(:l_min_time,
:date_fmt)
and i.startup_time <
to_date(:l_max_time,
:date_fmt))))
where rn_desc = 1 or rn_asc =
1
group by component, bucket_id) r
where bm.bucket_id = r.bucket_id (+)
and bm.component = r.component (+))
)))
where inst_id between :p_inst_id_low and :p_inst_id_high
group by bucket_id, component, alloc, id)
where bytes > 0))
select nvl2(buckets,
xmlelement("stattype",
xmlattributes('allochist' as "name"),
xmltype(:l_total_mem),
nvl2(stat_id,
xmlelement("stat_info", stat_id),
null),
xmlelement("buckets",
xmlattributes(:l_bucket_interval as "bucket_interval",
:l_bucket_count as "bucket_count",
:l_min_time as "start_time",
:l_max_time as "end_time",
:l_duration as "duration"),
buckets)),
null)
from (
select xmlagg(
xmlelement("bucket",
xmlattributes(bucket_id as "bucket_id"), stats)
order by bucket_id) buckets,
xmlagg(stat_id) stat_id
from (
select bucket_id,
xmlagg(stat_id order by id) stat_id,
xmlagg(xmlelement("stat",
xmlattributes(id as "id",
round(bytes, 2) as "value"))
order by id) stats
from (
select bucket_id, id, bytes,
nvl2(component,
xmlelement("stat",
xmlattributes(id as "id",
component as "name",
alloc as "alloc",
'bytes' as "unit",
case when alloc != 'paging'
then '1048576'
else null
end as "factor")),
null) stat_id
from alloc_hist)
group by bucket_id)) |
| an33w1xh8rrq2 | SELECT cs.CAI_CMD_REQ_STRING, cs.ACTION_CODE_V, cs.ACCOUNT_LINK_CODE_N, cs.ORDER_REF_NO_V, cs.PROCESS_NO_N, NVL(cs.ABILLITY_KEY_CODE_V, 'COMP')ABILLITY_KEY_CODE_V FROM cb_subs_provisioning cs where cs.STATUS_V = 'Q' and NVL(NO_OF_TIMES_EXECUTED_N, 0) <= (SELECT KEY_VALUE_NUM_N FROM CB_CONTROL_KEYS WHERE KEY_CODE_V ='REJ_COUNT') and cs.switch_num_n=1 order by cs.ACTION_DATE_DT |
| b5f9xp82nm6vg | select 1*(15/100) from dual |
| babfmahnajqvx | BEGIN GET_ENTITY_BALANCE(:1, :2, :3, :4, :5, :6, :7, :8, :9, :10, :11, :12, :13, :14, :15, :16, :17, :18, :19); END; |
| bsxwqu44tk8k4 | insert into GSM_DUPLICATE_CHECK_CDRS values (:s1 , :s2 , :s3 , :s4 ) |
| bvkckyya5hyqx | select decode(upper(failover_method), NULL, 0 , 'BASIC', 1, 'PRECONNECT', 2 , 'PREPARSE', 4 , 0), decode(upper(failover_type), NULL, 1, 'NONE', 1, 'SESSION', 2, 'SELECT', 4, 'TRANSACTION', 8, 1), failover_retries, failover_delay, flags, nvl(replay_initiation_timeout, 300), decode(upper(session_state_consistency), 'STATIC', 16, 0) from service$ where name = :1 |
| c0gvws85ubcgq | Select owner
FROM all_objects
WHERE object_name = 'QU_VERSION'
AND object_type = 'PACKAGE'
AND owner = USER
UNION
Select owner
FROM all_synonyms
WHERE synonym_name = 'QU_VERSION' AND owner = 'PUBLIC'
UNION
Select owner
FROM all_synonyms
WHERE synonym_name = 'QU_VERSION' AND owner = USER |
| d2tvgg49y2ap6 |
with base_metrics as (
select -- sum across all instances
source,
lpad(to_char(inst_id), 5) || '/' || inst_name inst,
bucket_id, id, name,
sum(aas) aas,
sum(aas_fg) aas_fg,
sum(aas_cpu) aas_cpu
from table(gv$(cursor
(select -- pick only first data point per bucket/id combination
source,
userenv('INSTANCE') inst_id,
i.instance_name inst_name,
bucket_id, id, name,
aas,
aas_fg,
aas_cpu
from v$instance i,
(select -- determine first data point in bucket
source, bucket_id, id, name,
row_number() over
(partition by bucket_id, id
order by aas desc nulls last, id) rn,
aas, aas_fg, aas_cpu
from
(
select 'waitclass' source,
wc.wait_class# id, e.wait_class name,
trunc(
( (extract(day from
(cast(trunc(end_time, 'mi') as timestamp) -
cast(trunc(to_date(:b_start_time, :date_fmt), 'mi')
as timestamp))) * 86400 +
extract(hour from
(cast(trunc(end_time, 'mi') as timestamp) -
cast(trunc(to_date(:b_start_time, :date_fmt), 'mi')
as timestamp))) * 3600 +
extract(minute from
(cast(trunc(end_time, 'mi') as timestamp) -
cast(trunc(to_date(:b_start_time, :date_fmt), 'mi')
as timestamp))) * 60 +
extract(second from
(cast(trunc(end_time, 'mi') as timestamp) -
cast(trunc(to_date(:b_start_time, :date_fmt), 'mi')
as timestamp))) )
/ :p_bucket_interval)) + 1 bucket_id,
wc.time_waited/intsize_csec aas,
wc.time_waited_fg/intsize_csec aas_fg,
null aas_cpu
from v$waitclassmetric_history wc,
v$system_wait_class e
where wc.wait_class# = e.wait_class#
and e.wait_class != 'Idle'
and wc.end_time >= to_date(:b_start_time, :date_fmt)
and wc.end_time < to_date(:b_end_time, :date_fmt)
union all
select 'waitclass' source,
metric_id id, metric_name name,
trunc(
( (extract(day from
(cast(trunc(end_time, 'mi') as timestamp) -
cast(trunc(to_date(:b_start_time, :date_fmt), 'mi')
as timestamp))) * 86400 +
extract(hour from
(cast(trunc(end_time, 'mi') as timestamp) -
cast(trunc(to_date(:b_start_time, :date_fmt), 'mi')
as timestamp))) * 3600 +
extract(minute from
(cast(trunc(end_time, 'mi') as timestamp) -
cast(trunc(to_date(:b_start_time, :date_fmt), 'mi')
as timestamp))) * 60 +
extract(second from
(cast(trunc(end_time, 'mi') as timestamp) -
cast(trunc(to_date(:b_start_time, :date_fmt), 'mi')
as timestamp))) )
/ :p_bucket_interval)) + 1 bucket_id,
decode(metric_name, 'CPU Usage Per Sec',
value/100, value) aas,
decode(metric_name, 'CPU Usage Per Sec',
value/100, value) aas_fg,
null aas_cpu
from v$sysmetric_history s
where group_id = :b_minute_group_id
and end_time >= to_date(:
b_start_time, :date_fmt)
and end_time < to_date(:b_end_time, :date_fmt)
and metric_name in ('CPU Usage Per Sec',
'Average Active Sessions')
union all
select 'servicestat' source,
service_name_hash id, service_name name,
trunc(
( (extract(day from
(cast(trunc(end_time, 'mi') as timestamp) -
cast(trunc(to_date(:b_start_time, :date_fmt), 'mi')
as timestamp))) * 86400 +
extract(hour from
(cast(trunc(end_time, 'mi') as timestamp) -
cast(trunc(to_date(:b_start_time, :date_fmt), 'mi')
as timestamp))) * 3600 +
extract(minute from
(cast(trunc(end_time, 'mi') as timestamp) -
cast(trunc(to_date(:b_start_time, :date_fmt), 'mi')
as timestamp))) * 60 +
extract(second from
(cast(trunc(end_time, 'mi') as timestamp) -
cast(trunc(to_date(:b_start_time, :date_fmt), 'mi')
as timestamp))) )
/ :p_bucket_interval)) + 1 bucket_id,
dbtimepersec/100 aas,
dbtimepersec/100 aas_fg,
null aas_cpu
from v$servicemetric_history s
where group_id = :b_svcminute_group_id
and end_time >= to_date(:b_start_time, :date_fmt)
and end_time < to_date(:b_end_time, :date_fmt)
))
where rn = 1))) gvtf
where inst_id between :p_inst_id_low and :p_inst_id_high
group by source, lpad(to_char(inst_id), 5) || '/' || inst_name ,
bucket_id, id, name ),
grouping_sets as (
select dim, id,
case when
rn = 1 then name else null end name,
bucket_id, aas, aas_fg, aas_cpu
from (-- find first occurrence of stat
select dim, id, name, bucket_id, aas, aas_fg, aas_cpu,
row_number() over (partition by dim, id, name
order by bucket_id, id) rn
from ( -- group top n + others
select dim, id, name, bucket_id,
sum(aas) aas, sum(aas_fg) aas_fg, sum(aas_cpu) aas_cpu
from (-- find the top n but only for instance/service/pdb
select dim,
case when dim = 'waitclass' or rnk <= :l_top_n
then id
else 0
end id,
case when dim = 'waitclass' or rnk <= :l_top_n
then name
else 'Other'
end name,
bucket_id, aas, aas_fg, aas_cpu
from ( -- rank to get top n
select dim, id, name, bucket_id, aas, aas_fg, aas_cpu,
dense_rank() over
(partition by dim
order by dim_aas desc, id) rnk
from (
-- get sum per dim/id combination to compute top n
select dim, id, name, bucket_id,
aas, aas_fg, aas_cpu,
sum(aas) over (partition by dim, id) dim_aas
from (
select decode(gid_inst, 0, 'instance', source) dim,
decode(gid_inst,
0, to_number(substr(inst, 1, 5)),
id) id,
decode(gid_inst,
0, substr(inst, 7),
name) name,
bucket_id, aas, aas_fg, aas_cpu
from (
select source,
id, name,
case
when :p_is_rac = 1
and name='Average Active Sessions'
then inst
else null
end inst,
bucket_id,
sum(aas) aas,
sum(aas_fg) aas_fg,
sum(aas_cpu) aas_
cpu,
grouping_id (source,
id, name, bucket_id)
gid_id,
grouping_id (
source, bucket_id,
case
when :p_is_rac = 1
and name='Average Active Sessions'
then inst
else null
end) gid_inst
from base_metrics
group by grouping sets (
(source, id, name, bucket_id),
(source,
bucket_id,
case
when :p_is_rac = 1
and name='Average Active Sessions'
then inst
else null
end)))
where nvl(aas, 0) + nvl(aas_fg, 0) > 0)
where id is not null)))
group by dim, id, name, bucket_id)))
select xmlagg(nvl2(buckets,
xmlelement("stattype",
xmlattributes('activity' as "name",
dim as "dim"),
nvl2(stat_id,
xmlelement("stat_info", stat_id),
null),
nvl2(buckets, xmlelement("buckets", xmlattributes( :p_bucket_interval as "bucket_interval", :p_bucket_count as "bucket_count", :
b_min_time as "start_time", :b_max_time as "end_time", :b_duration as "duration"), buckets), null) ) ,
null))
from (
select dim,
xmlagg(xmlelement("bucket", xmlattributes(bucket_id as "bucket_id"), stats) order by bucket_id) buckets ,
xmlagg(stat_id) stat_id
from (
select dim, bucket_id,
xmlagg(stat_id order by id) stat_id,
xmlagg(xmlelement("stat",
xmlattributes(id as "id",
round(aas, 6) as "aas",
round(aas_fg, 6) as "aas_fg",
round(aas_cpu, 6) as "aas_cpu"))
order by id) stats
from (
select dim, bucket_id, id, aas, aas_fg, aas_cpu,
nvl2(name,
xmlelement("stat"
,
xmlattributes(id as "id", name as "name")),
null) stat_id
from grouping_sets)
group by dim, bucket_id)
group by dim) |
| dfffkcnqfystw |
WITH MONITOR_DATA AS (SELECT INST_ID, KEY, NVL2(PX_QCSID, NULL, STATUS) STATUS, FIRST_REFRESH_TIME, LAST_REFRESH_TIME, REFRESH_COUNT, PROCESS_NAME, SID, SQL_ID, SQL_EXEC_START, SQL_EXEC_ID, DBOP_NAME, DBOP_EXEC_ID, SQL_PLAN_HASH_VALUE, SQL_FULL_PLAN_HASH_VALUE, SESSION_SERIAL#, SQL_TEXT, IS_FULL_SQLTEXT, PX_SERVER#, PX_SERVER_GROUP, PX_SERVER_SET, PX_QCINST_ID, PX_QCSID, CASE WHEN ELAPSED_TIME < (CPU_TIME+ APPLICATION_WAIT_TIME+ CONCURRENCY_WAIT_TIME+ CLUSTER_WAIT_TIME+ USER_IO_WAIT_TIME+ QUEUING_TIME) THEN (CPU_TIME+ APPLICATION_WAIT_TIME+ CONCURRENCY_WAIT_TIME+ CLUSTER_WAIT_TIME+ USER_IO_WAIT_TIME+ QUEUING_TIME) ELSE ELAPSED_TIME END ELAPSED_TIME, QUEUING_TIME, CPU_TIME, APPLICATION_WAIT_TIME, CONCURRENCY_WAIT_TIME, CLUSTER_WAIT_TIME, USER_IO_WAIT_TIME, CASE WHEN ELAPSED_TIME < (CPU_TIME+ APPLICATION_WAIT_TIME+ CONCURRENCY_WAIT_TIME+ CLUSTER_WAIT_TIME+ USER_IO_WAIT_TIME+ QUEUING_TIME) THEN 0 ELSE ELAPSED_TIME - (CPU_TIME+ APPLICATION_WAIT_TIME+ C
ONCURRENCY_WAIT_TIME+ CLUSTER_WAIT_TIME+ USER_IO_WAIT_TIME+ QUEUING_TIME) END OTHER_WAIT_TIME, PLSQL_EXEC_TIME, JAVA_EXEC_TIME, FETCHES, BUFFER_GETS, IO_INTERCONNECT_BYTES IO_INTER_BYTES, PHYSICAL_READ_REQUESTS READ_REQS, PHYSICAL_READ_BYTES READ_BYTES, PHYSICAL_WRITE_REQUESTS WRITE_REQS, PHYSICAL_WRITE_BYTES WRITE_BYTES, NVL(PHYSICAL_READ_BYTES, 0) + NVL(PHYSICAL_WRITE_BYTES, 0) IO_BYTES, NVL(PHYSICAL_READ_REQUESTS, 0) + NVL(PHYSICAL_WRITE_REQUESTS, 0) IO_REQS, USER# USERID, USERNAME, MODULE, ACTION, SERVICE_NAME, CLIENT_IDENTIFIER, CLIENT_INFO, PROGRAM, PLSQL_OBJECT_ID PL_OID, PLSQL_SUBPROGRAM_ID PL_PROGID, PLSQL_ENTRY_OBJECT_ID PL_ENTRY_OID, PLSQL_ENTRY_SUBPROGRAM_ID PL_ENTRY_PROGID, PX_MAXDOP MAX_DOP, PX_IS_CROSS_INSTANCE, PX_MAXDOP_INSTANCES MAX_DOP_INSTANCES, PX_SERVERS_REQUESTED SERVERS_REQUESTED, PX_SERVERS_ALLOCATED SERVERS_ALLOCATED, ERROR_NUMBER, ERROR_FACILITY, ERROR_MESSAGE, NVL2(OTHER_XML, 'Y', NULL) HAS_OTHER_XML, NVL2(BINDS_XML, '
Y', NULL) HAS_BINDS_XML, NVL2(RM_CONSUMER_GROUP, NVL2(RM_LAST_ACTION_TIME, TO_CHAR(RM_LAST_ACTION_TIME, :B12 ), '00/00/0000 00:00:01') || XMLELEMENT( "rminfo", XMLATTRIBUTES( RM_LAST_ACTION AS "rmlastact", RM_LAST_ACTION_REASON AS "rmlastreason", TO_CHAR(RM_LAST_ACTION_TIME, :B12 ) AS "rmlasttime", RM_CONSUMER_GROUP AS "rmcg")).GETSTRINGVAL(), '00/00/0000 00:00:00') RM_INFO, CON_NAME, CON_ID FROM GV$SQL_MONITOR MO1 WHERE MO1.INST_ID BETWEEN :B11 AND :B10 AND MO1.SQL_ID = NVL(:B9 , MO1.SQL_ID) AND MO1.SQL_EXEC_START = NVL(:B8 , MO1.SQL_EXEC_START) AND MO1.SQL_EXEC_ID = NVL(:B7 , MO1.SQL_EXEC_ID) OR (MO1.DBOP_NAME = NVL(:B6 , MO1.DBOP_NAME) AND MO1.DBOP_EXEC_ID = NVL(:B5 , MO1.DBOP_EXEC_ID)) AND ((:B4 = 1 AND MO1.PX_QCSID IS NULL) OR (MO1.PX_SERVER_GROUP = NVL(:B3 , MO1.PX_SERVER_GROUP) AND MO1.PX_SERVER_SET = NVL(:B2 , MO1.PX_SERVER_SET) AND MO1.PX_SERVER# = NVL(:B1 , MO1.PX_SERVER#)))), MONITOR_AGG AS (SELECT MAX_
PX_QCSID, MAX_KEY, MAX_INST_ID, MAX_SESSION_ID, MAX_SESSION_SERIAL, MAX_PX_DOP, MAX_PX_DOP_INSTANCES, MAX_PX_IS_CROSS_INSTANCE, SUM_SERVERS_REQUESTED, SUM_SERVERS_ALLOCATED, DIST_INST_COUNT, DIST_PX_GROUP_COUNT, DIST_PX_SET_COUNT, MAX_PLAN_HASH_VALUE, MAX_FULL_PLAN_HASH_VALUE, MAX_USERID, MAX_PROGRAM, MAX_USERNAME, MAX_MODULE, MAX_ACTION, MAX_SERVICE_NAME, MAX_CLIENT_ID, MAX_CLIENT_INFO, MAX_ERROR_NUMBER, MAX_ERROR_FACILITY, MAX_ERROR_MESSAGE, QC_HAS_OTHER_XML, QC_HAS_BINDS_XML, MAX_PL_OID, MAX_PL_PROGID, MAX_PL_ENTRY_OID, MAX_PL_ENTRY_PROGID, MAX_SQL_ID, MAX_SQL_EXEC_START, MAX_SQL_EXEC_ID, MAX_LAST_REFRESH_TIME, MAX_DBOP_NAME, MAX_DBOP_EXEC_ID, CASE WHEN MAX_PL_OID IS NOT NULL THEN NVL((SELECT P.OWNER || '.' || P.OBJECT_NAME || DECODE(P.PROCEDURE_NAME, NULL, '', '.' || P.PROCEDURE_NAME) FROM DBA_PROCEDURES P WHERE P.OBJECT_ID = MAX_PL_OID AND P.SUBPROGRAM_ID = MAX_PL_PROGID AND ROWNUM = 1), 'Unavailable') END MAX_PL_NAME, CASE WHEN MAX_PL_EN
TRY_OID IS NOT NULL THEN NVL((SELECT P.OWNER || '.' || P.OBJECT_NAME || DECODE(P.PROCEDURE_NAME, NULL, '', '.' || P.PROCEDURE_NAME) FROM DBA_PROCEDURES P WHERE P.OBJECT_ID = MAX_PL_ENTRY_OID AND P.SUBPROGRAM_ID = MAX_PL_ENTRY_PROGID AND ROWNUM = 1), 'Unavailable') END MAX_PL_ENTRY_NAME, MAX_STATUS, SUM_REFRESH_COUNT, MIN_FIRST_REFRESH_TIME, IS_FULL_TEXT, SQLMON_TEXT, SUM_ELAPSED_TIME, MAX_ELAPSED_TIME, MAX_QUEUING_TIME, SUM_CPU_TIME, SUM_USER_IO_WAIT_TIME, SUM_APPLICATION_WAIT_TIME, SUM_CONCURRENCY_WAIT_TIME, SUM_CLUSTER_WAIT_TIME, SUM_PLSQL_EXEC_TIME, SUM_JAVA_EXEC_TIME, SUM_OTHER_WAIT_TIME, SUM_FETCHES, SUM_BUFFER_GETS, SUM_READ_REQS, SUM_READ_BYTES, SUM_WRITE_REQS, SUM_WRITE_BYTES, SUM_IO_BYTES, SUM_IO_INTER_BYTES, DECODE(:B14 , 1, 'db_name', DB.DB_UNIQUE_NAME) DB_UNIQUE_NAME, DECODE(:B14 , 1, 'platform_name', DB.PLATFORM_NAME) PLATFORM_NAME, DECODE(:B14 , 1, 'host_name', INST.HOST_NAME) HOST_NAME, AGG_RM_INFO MAX_RM_INFO, MAX_CON_NAME, DEC
ODE(MAX_CON_ID, 0, NULL, MAX_CON_ID) MAX_CON_ID FROM (SELECT MAX(PX_QCSID) MAX_PX_QCSID, MAX(CASE WHEN PX_QCSID IS NULL THEN KEY ELSE NULL END) MAX_KEY, MAX(CASE WHEN PX_QCSID IS NULL THEN INST_ID ELSE NULL END) MAX_INST_ID, MAX(CASE WHEN PX_QCSID IS NULL THEN SID ELSE NULL END) MAX_SESSION_ID, MAX(CASE WHEN PX_QCSID IS NULL THEN SESSION_SERIAL# ELSE NULL END) MAX_SESSION_SERIAL, MAX(MAX_DOP) MAX_PX_DOP, MAX(MAX_DOP_INSTANCES) MAX_PX_DOP_INSTANCES, MAX(PX_IS_CROSS_INSTANCE) MAX_PX_IS_CROSS_INSTANCE, SUM(SERVERS_REQUESTED) SUM_SERVERS_REQUESTED, SUM(SERVERS_ALLOCATED) SUM_SERVERS_ALLOCATED, COUNT(DISTINCT INST_ID) DIST_INST_COUNT, COUNT(DISTINCT PX_SERVER_GROUP) DIST_PX_GROUP_COUNT, COUNT(DISTINCT PX_SERVER_SET) DIST_PX_SET_COUNT, MAX(SQL_PLAN_HASH_VALUE) MAX_PLAN_HASH_VALUE, MAX(SQL_FULL_PLAN_HASH_VALUE) MAX_FULL_PLAN_HASH_VALUE, MAX(USERID) MAX_USERID, MAX(PROGRAM) MAX_PROGRAM, MAX(USERNAME) MAX_USERNAME, MAX(MODULE) MAX_MODULE, MAX(ACTION) MAX_ACTION, MAX(SERVI
CE_NAME) MAX_SERVICE_NAME, MAX(CLIENT_IDENTIFIER) MAX_CLIENT_ID, MAX(CLIENT_INFO) MAX_CLIENT_INFO, MAX(ERROR_NUMBER) MAX_ERROR_NUMBER, MAX(ERROR_FACILITY) MAX_ERROR_FACILITY, MAX(ERROR_MESSAGE) MAX_ERROR_MESSAGE, MAX(NVL2(PX_QCSID, HAS_OTHER_XML, NULL)) QC_HAS_OTHER_XML, MAX(HAS_BINDS_XML) QC_HAS_BINDS_XML, MAX(PL_OID) MAX_PL_OID, MAX(PL_PROGID) MAX_PL_PROGID, MAX(PL_ENTRY_OID) MAX_PL_ENTRY_OID, MAX(PL_ENTRY_PROGID) MAX_PL_ENTRY_PROGID, MAX(SQL_ID) MAX_SQL_ID, MAX(SQL_EXEC_START) MAX_SQL_EXEC_START, MAX(SQL_EXEC_ID) MAX_SQL_EXEC_ID, MAX(LAST_REFRESH_TIME) MAX_LAST_REFRESH_TIME, MAX(STATUS) MAX_STATUS, SUM(REFRESH_COUNT) SUM_REFRESH_COUNT, MIN(FIRST_REFRESH_TIME) MIN_FIRST_REFRESH_TIME, MAX(DBOP_NAME) MAX_DBOP_NAME, MAX(DBOP_EXEC_ID) MAX_DBOP_EXEC_ID, CASE WHEN :B13 = 0 THEN NULL ELSE MAX(SQL_TEXT) END SQLMON_TEXT, MAX(IS_FULL_SQLTEXT) IS_FULL_TEXT, SUM(ELAPSED_TIME) SUM_ELAPSED_TIME, MAX(ELAPSED_TIME) MAX_ELAPSED_TIME, MAX(QUEUING_TIME) MAX_QUEUING_TIME, SUM
(CPU_TIME) SUM_CPU_TIME, SUM(USER_IO_WAIT_TIME) SUM_USER_IO_WAIT_TIME, SUM(APPLICATION_WAIT_TIME) SUM_APPLICATION_WAIT_TIME, SUM(CONCURRENCY_WAIT_TIME) SUM_CONCURRENCY_WAIT_TIME, SUM(CLUSTER_WAIT_TIME) SUM_CLUSTER_WAIT_TIME, SUM(PLSQL_EXEC_TIME) SUM_PLSQL_EXEC_TIME, SUM(JAVA_EXEC_TIME) SUM_JAVA_EXEC_TIME, SUM(OTHER_WAIT_TIME) SUM_OTHER_WAIT_TIME, SUM(FETCHES) SUM_FETCHES, SUM(BUFFER_GETS) SUM_BUFFER_GETS, SUM(READ_REQS) SUM_READ_REQS, SUM(READ_BYTES) SUM_READ_BYTES, SUM(WRITE_REQS) SUM_WRITE_REQS, SUM(WRITE_BYTES) SUM_WRITE_BYTES, NVL(SUM(READ_BYTES), 0) + NVL(SUM(WRITE_BYTES), 0) SUM_IO_BYTES, SUM(IO_INTER_BYTES) SUM_IO_INTER_BYTES, MAX(RM_INFO) AGG_RM_INFO, MAX(CON_NAME) MAX_CON_NAME, MAX(CON_ID) MAX_CON_ID FROM MONITOR_DATA) MD, (SELECT HOST_NAME FROM V$INSTANCE) INST, (SELECT DB_UNIQUE_NAME, PLATFORM_NAME FROM V$DATABASE) DB), ASH_DATA AS (SELECT AD0.INST_ID, AD0.SESSION_ID, AD0.PLAN_LINE_ID, AD0.PLSQL_OBJECT_ID, AD0.PLSQL_SUBPROGRAM_ID, AD0.ACTIVITY_BU
CKET_NUM, AD0.PLAN_ACTIVITY_BUCKET_NUM, AD0.SQL, AD0.TOP_LEVEL_SQL_ID, AD0.DBOP_NAME, AD0.IS_MONITORED_SQL, AD0.IS_PX_SLAVE, AD0.BUCKET_ACTIVITY_START, AD0.ACTIVITY_START, AD0.BUCKET_ACTIVITY_END, AD0.ACTIVITY_END, AD0.ACTIVITY_COUNT, AD0.ACTIVITY_TYPE, AD0.OTHER_SQL_ACTIVITY_TYPE, AD0.EVENT_NAME, AD0.IMQ_COUNT, AD0.WAIT_COUNT, AD0.CPU_COUNT, AD0.OTHER_SQL_COUNT, AD0.PX_SERVER_SET, AD0.PX_DFO_ACTIVITY_COUNT, AD0.DFO_MOST_ACTIVE_IID, AD0.DFO_MOST_ACTIVE_SID, (CASE WHEN AD0.DFO_MOST_ACTIVE_IID = AD0.INST_ID AND AD0.DFO_MOST_ACTIVE_SID = AD0.SESSION_ID AND (((AD0.PX_DFO_ACTIVITY_COUNT / AD0.DFO_MOST_ACTIVE_COUNT) >= AD0.PX_DOP * 1.05) OR ((AD0.PX_DFO_ACTIVITY_COUNT / AD0.DFO_MOST_ACTIVE_COUNT) <= AD0.PX_DOP *0.95)) AND (AD0.DFO_DURATION * 100) > :B32 THEN AD0.ACTIVITY_COUNT ELSE NULL END) DFO_MOST_ACTIVE_COUNT, AD0.BUCKET_DISTINCT_SAMPLES, AD0.SQL_BUCKET_DISTINCT_SAMPLES, CASE WHEN AD0.PX_SERVER_GROUP IS NULL AND AD0.IS_PX_SLAVE = 1 THEN 1 ELSE AD0.PX_SE
RVER_GROUP END PX_SERVER_GROUP, AD0.PX_STEP_ID, AD0.PX_DFO_PAIR_TYPE, AD0.PX_DFO_PAIR_ID, AD0.PX_STEP_ARG, AD0.PX_DOP, CASE WHEN AD0.PX_DOP IS NOT NULL AND AD0.PX_DOP <> AD0.PX_MIN_DOP AND AD0.PX_MIN_DOP != 0 THEN PX_MIN_DOP ELSE NULL END PX_MIN_DOP FROM (SELECT /*+ use_hash(ash) leading(mo) */ ASH.INST_ID, ASH.IS_PX_SLAVE, ASH.SESSION_ID, ASH.PLAN_LINE_ID, ASH.PLSQL_OBJECT_ID, ASH.PLSQL_SUBPROGRAM_ID, ASH.ACTIVITY_BUCKET_NUM, ASH.PLAN_ACTIVITY_BUCKET_NUM, ASH.SQL, ASH.TOP_LEVEL_SQL_ID, ASH.DBOP_NAME, ASH.IS_MONITORED_SQL, ASH.BUCKET_ACTIVITY_START, ASH.ACTIVITY_START, ASH.BUCKET_ACTIVITY_END, ASH.ACTIVITY_END, ASH.ACTIVITY_COUNT, ASH.ACTIVITY_TYPE, ASH.OTHER_SQL_ACTIVITY_TYPE, ASH.EVENT_NAME, ASH.IMQ_COUNT, ASH.WAIT_COUNT, ASH.CPU_COUNT, ASH.OTHER_SQL_COUNT, MO.PX_SERVER_SET, ASH.PX_DFO_ACTIVITY_COUNT, TRUNC(ASH.MOST_ACTIVE_IN_DFO / 10000000000) DFO_MOST_ACTIVE_COUNT, MOD(TRUNC(ASH.MOST_ACTIVE_IN_DFO / 1000000), 10000) DFO_MOST_ACTIVE_IID, MOD(
ASH.MOST_ACTIVE_IN_DFO, 1000000) DFO_MOST_ACTIVE_SID, ASH.DFO_DURATION, ASH.BUCKET_DISTINCT_SAMPLES, ASH.SQL_BUCKET_DISTINCT_SAMPLES, MO.PX_SERVER_GROUP, ASH.PX_STEP_ID, ASH.PX_DFO_PAIR_TYPE, ASH.PX_DFO_PAIR_ID, ASH.PX_STEP_ARG, ASH.PX_DOP, ASH.PX_MIN_DOP FROM (SELECT /*+ no_merge */ MD.INST_ID, MD.SID, MD.SESSION_SERIAL#, MD.PX_SERVER_SET, MD.PX_SERVER_GROUP FROM MONITOR_DATA MD WHERE MD.SID IS NOT NULL OR :B31 = 1) MO, (SELECT /*+ no_merge */ GVTF.INST_ID, GVTF.GLOBAL_SAMPLE_ID, GVTF.IS_PX_SLAVE, GVTF.SESSION_ID, GVTF.PLAN_LINE_ID, GVTF.PLSQL_OBJECT_ID, GVTF.PLSQL_SUBPROGRAM_ID, GVTF.ACTIVITY_BUCKET_NUM, GVTF.PLAN_ACTIVITY_BUCKET_NUM, GVTF.SQL, GVTF.TOP_LEVEL_SQL_ID, GVTF.DBOP_NAME, GVTF.IS_MONITORED_SQL, GVTF.BUCKET_ACTIVITY_START, GVTF.ACTIVITY_START, GVTF.BUCKET_ACTIVITY_END, GVTF.ACTIVITY_END, GVTF.ACTIVITY_COUNT, GVTF.ACTIVITY_TYPE, GVTF.OTHER_SQL_ACTIVITY_TYPE, GVTF.EVENT_NAME, GVTF.IMQ_COUNT, GVTF.WAIT_COUNT, GVTF.CPU_COUNT, GVTF.OTHER_S
QL_COUNT, MAX(GVTF.PER_SERVER_DFO_COUNT * 10000000000 + GVTF.INST_ID * 1000000 + GVTF.SESSION_ID) OVER(PARTITION BY GVTF.PX_DFO_PAIR_TYPE, GVTF.PX_DFO_PAIR_ID) MOST_ACTIVE_IN_DFO, SUM(GVTF.ACTIVITY_COUNT) OVER(PARTITION BY GVTF.PX_DFO_PAIR_TYPE, GVTF.PX_DFO_PAIR_ID) PX_DFO_ACTIVITY_COUNT, GVTF.DFO_DURATION, GVTF.PX_STEP_ID, GVTF.PX_DFO_PAIR_TYPE, GVTF.PX_DFO_PAIR_ID, GVTF.PX_STEP_ARG, GVTF.PX_DOP, GVTF.PX_MIN_DOP, COUNT(DISTINCT GVTF.GLOBAL_SAMPLE_ID) OVER(PARTITION BY GVTF.ACTIVITY_BUCKET_NUM) BUCKET_DISTINCT_SAMPLES, COUNT(DISTINCT GVTF.GLOBAL_SAMPLE_ID) OVER(PARTITION BY GVTF.SQL, GVTF.ACTIVITY_BUCKET_NUM) SQL_BUCKET_DISTINCT_SAMPLES FROM TABLE(GV$(CURSOR( (SELECT USERENV('INSTANCE') INST_ID, ASH2.GLOBAL_SAMPLE_ID, CASE WHEN :B30 = 1 AND :B27 > 1 THEN BUCKET_NUM ELSE NULL END ACTIVITY_BUCKET_NUM, CASE WHEN :B29 = 1 AND :B27 > 1 THEN BUCKET_NUM ELSE NULL END PLAN_ACTIVITY_BUCKET_NUM, ASH2.SQL, ASH2.TOP_LEVEL_SQL_ID, ASH2.DBOP_NAME, ASH2.IS_MONITORED_SQL, A
SH2.PLAN_LINE_ID, ASH2.PLSQL_OBJECT_ID, ASH2.PLSQL_SUBPROGRAM_ID, ASH2.ACTIVITY_TYPE, ASH2.OTHER_SQL_ACTIVITY_TYPE, ASH2.EVENT_NAME, ASH2.IS_PX_SLAVE, ASH2.SESSION_ID, ASH2.PX_STEP_ID, ASH2.PX_DFO_PAIR_TYPE, ASH2.PX_DFO_PAIR_ID, ASH2.PX_STEP_ARG, CASE WHEN ASH2.PX_DFO_PAIR_ID IS NOT NULL THEN DECODE(ASH2.PX_DOP, 0, :B28 , ASH2.PX_DOP) ELSE NULL END PX_DOP, ASH2.PX_MIN_DOP, :B20 + NUMTODSINTERVAL(:B26 * (ASH2.BUCKET_NUM-1), 'SECOND') BUCKET_ACTIVITY_START, :B20 + NUMTODSINTERVAL( :B26 * ASH2.BUCKET_NUM - 1, 'SECOND') BUCKET_ACTIVITY_END, ASH2.ACTIVITY_START, ASH2.ACTIVITY_END, ASH2.ACTIVITY_COUNT, ASH2.IMQ_COUNT, ASH2.WAIT_COUNT, ASH2.CPU_COUNT, ASH2.OTHER_SQL_COUNT, SUM(ASH2.ACTIVITY_COUNT) OVER(PARTITION BY ASH2.PX_DFO_PAIR_ID, ASH2.PX_DFO_PAIR_TYPE, DECODE(ASH2.PX_DFO_PAIR_ID, NULL, NULL, ASH2.SESSION_ID)) PER_SERVER_DFO_COUNT, CEIL((MAX(ASH2.MAX_SAMPLE_DATE) OVER(PARTITION BY ASH2.PX_DFO_PAIR_ID, ASH2.PX_DFO_PAIR_TYPE) - MIN(ASH2.MIN_SAMPLE_DATE) O
VER(PARTITION BY ASH2.PX_DFO_PAIR_ID, ASH2.PX_DFO_PAIR_TYPE)) * 3600 * 24) DFO_DURATION FROM (SELECT ASH1.BUCKET_NUM, ASH1.GLOBAL_SAMPLE_ID, ASH1.PLAN_LINE_ID, ASH1.PLSQL_OBJECT_ID, ASH1.PLSQL_SUBPROGRAM_ID, ASH1.ACTIVITY_TYPE, ASH1.OTHER_SQL_ACTIVITY_TYPE, ASH1.EVENT_NAME, ASH1.SESSION_ID, ASH1.PX_STEP_ID, ASH1.PX_STEP_ARG, MAX(ASH1.SQL) SQL, MAX(ASH1.IS_MONITORED_SQL) IS_MONITORED_SQL, MAX(ASH1.PX_DFO_PAIR_TYPE) PX_DFO_PAIR_TYPE, MAX(ASH1.PX_DFO_PAIR_ID) PX_DFO_PAIR_ID, MIN(SAMPLE_DATE) MIN_SAMPLE_DATE, MAX(SAMPLE_DATE) MAX_SAMPLE_DATE, MAX(ASH1.IS_PX_SLAVE) IS_PX_SLAVE, MAX(ASH1.PX_DOP) PX_DOP, MIN(ASH1.PX_DOP) PX_MIN_DOP, MIN(ASH1.SAMPLE_DATE) ACTIVITY_START, MAX(ASH1.SAMPLE_DATE) ACTIVITY_END, COUNT(ASH1.SQL) ACTIVITY_COUNT, COUNT(CASE WHEN ASH1.ACTIVITY_TYPE = 'Cpu' AND ASH1.EVENT_NAME = 'in memory' THEN 1 ELSE NULL END) IMQ_COUNT, COUNT(CASE WHEN ASH1.ACTIVITY_TYPE != 'Other SQL Execution' AND ASH1.ACTIVITY_TYPE != 'Non SQL' AND ASH1.ACTIVITY_TYPE != 'Cp
u' THEN 1 ELSE NULL END) WAIT_COUNT, COUNT(CASE WHEN ASH1.ACTIVITY_TYPE = 'Cpu' AND ASH1.EVENT_NAME IS NULL THEN 1 ELSE NULL END) CPU_COUNT, COUNT(CASE WHEN ASH1.ACTIVITY_TYPE = 'Other SQL Execution' AND ASH1.ACTIVITY_TYPE != 'Non SQL' THEN 1 ELSE NULL END) OTHER_SQL_COUNT, MAX(ASH1.TOP_LEVEL_SQL_ID) TOP_LEVEL_SQL_ID, MAX(ASH1.DBOP_NAME) DBOP_NAME FROM ( SELECT (CASE WHEN :B27 > 1 THEN (TRUNC(DELTA_TIME_SECONDS/ :B26 ) + 1) ELSE 1 END) BUCKET_NUM, ASH00.SQL, ASH00.SAMPLE_DATE, NVL2(DUP.C2, TRUNC(DELTA_TIME_SECONDS/ (:B25 )) + 1, NULL) GLOBAL_SAMPLE_ID, NVL2(DUP.C2, NULL, ASH00.IS_MONITORED_SQL) IS_MONITORED_SQL, NVL2(DUP.C2, NULL, ASH00.IN_INMEMORY_QUERY) IN_INMEMORY_QUERY, NVL2(DUP.C2, NULL, ASH00.WAIT_CLASS) WAIT_CLASS, NVL2(DUP.C2, NULL, ASH00.ACTIVITY_TYPE) ACTIVITY_TYPE, NVL2(DUP.C2, NULL, ASH00.OTHER_SQL_ACTIVITY_TYPE) OTHER_SQL_ACTIVITY_TYPE, NVL2(DUP.C2, NULL, ASH00.EVENT_NAME) EVENT_NAME, NVL2(DUP.C2, NULL, ASH00.TOP_LEVEL_SQL_ID) TOP_LEVEL_SQL
_ID, NVL2(DUP.C2, NULL, ASH00.DBOP_NAME) DBOP_NAME, NVL2(DUP.C2, NULL, ASH00.IS_PX_SLAVE) IS_PX_SLAVE, NVL2(DUP.C2, NULL, ASH00.SESSION_ID) SESSION_ID, NVL2(DUP.C2, NULL, ASH00.PLSQL_OBJECT_ID) PLSQL_OBJECT_ID, NVL2(DUP.C2, NULL, ASH00.PLSQL_SUBPROGRAM_ID) PLSQL_SUBPROGRAM_ID, NVL2(DUP.C2, NULL, ASH00.PLAN_LINE_ID) PLAN_LINE_ID, NVL2(DUP.C2, NULL, ASH00.PX_STEP_ID) PX_STEP_ID, NVL2(DUP.C2, NULL, ASH00.PX_STEP_ARG) PX_STEP_ARG, NVL2(DUP.C2, NULL, ASH00.PX_DFO_PAIR_ID) PX_DFO_PAIR_ID, NVL2(DUP.C2, NULL, ASH00.PX_DFO_PAIR_TYPE) PX_DFO_PAIR_TYPE, NVL2(DUP.C2, NULL, ASH00.PX_DOP) PX_DOP FROM (SELECT 1 C1, NULL C2 FROM V$TIMER UNION ALL SELECT 1 C1, 1 C2 FROM V$TIMER) DUP, (SELECT /*+ no_merge */ 1 C1, ASH000.SAMPLE_DATE, ASH000.IS_MONITORED_SQL, ((EXTRACT(SECOND FROM(DELTA_TIME)) + EXTRACT(MINUTE FROM(DELTA_TIME)) * 60 + EXTRACT(HOUR FROM(DELTA_TIME)) * 3600 + EXTRACT(DAY FROM(DELTA_TIME)) * 86400)) DELTA_TIME_SECONDS, ASH000.IN_INMEMORY_QUERY, ASH00
0.WAIT_CLASS, DECODE(ASH000.IS_MONITORED_SQL, 1, NVL(ASH000.WAIT_CLASS, 'Cpu'), DECODE(SQL_ID, NULL, 'Non SQL', 'Other SQL Execution')) ACTIVITY_TYPE, NVL(ASH000.WAIT_CLASS, 'Cpu') OTHER_SQL_ACTIVITY_TYPE, DECODE(:B24 , 1, CASE WHEN ASH000.IS_MONITORED_SQL = 1 THEN NVL(ASH000.EVENT, DECODE(ASH000.IN_INMEMORY_QUERY, 'Y', 'in memory', ASH000.EVENT)) WHEN ASH000.SQL_ID IS NOT NULL THEN 'sql_id: ' || ASH000.SQL_ID WHEN ASH000.CALL_NAME IS NOT NULL THEN 'call: ' || ASH000.CALL_NAME ELSE 'anonymous: '|| ASH000.EVENT END, NULL) EVENT_NAME, CASE WHEN ASH000.IS_MONITORED_SQL = 1 AND (NVL(ASH000.SQL_ID, :B9 ) = :B9 OR NVL(ASH000.DBOP_NAME, :B6 ) = :B6 ) THEN 'this' WHEN ASH000.IS_PX_SLAVE = 1 AND ASH000.SQL_ID IS NOT NULL AND ASH000.TOP_LEVEL_SQL_ID != ASH000.SQL_ID THEN ASH000.TOP_LEVEL_SQL_ID WHEN ASH000.SQL_ID IS NOT NULL THEN ASH000.SQL_ID ELSE NVL(CALL_NAME, 'anonymous') END SQL, CASE WHEN ASH000.IS_PX_SLAVE = 0 AND (ASH000.SQL_ID IS NULL OR ASH000.TOP_LEVEL_SQL_ID !=
ASH000.SQL_ID) THEN ASH000.TOP_LEVEL_SQL_ID END TOP_LEVEL_SQL_ID, ASH000.DBOP_NAME, ASH000.IS_PX_SLAVE, CASE WHEN ASH000.IS_PX_SLAVE = 1 AND ASH000.IS_MONITORED_SQL != 1 THEN 65536 ELSE ASH000.SESSION_ID END SESSION_ID, DECODE(ASH000.IS_MONITORED_SQL, 1, ASH000.PLSQL_OBJECT_ID, NULL) PLSQL_OBJECT_ID, DECODE(ASH000.IS_MONITORED_SQL, 1, ASH000.PLSQL_SUBPROGRAM_ID, NULL) PLSQL_SUBPROGRAM_ID, DECODE(ASH000.IS_MONITORED_SQL, 1, ASH000.SQL_PLAN_LINE_ID, NULL) PLAN_LINE_ID, DECODE(ASH000.IS_MONITORED_SQL, 1, ASH000.PX_STEP_ID, NULL) PX_STEP_ID, CASE WHEN ASH000.IS_PX_SLAVE = 1 AND ASH000.IS_MONITORED_SQL = 1 AND ASH000.PX_STEP_ID IN (1, 2, 3) THEN ASH000.PX_STEP_ARG ELSE NULL END PX_DFO_PAIR_ID, CASE WHEN ASH000.IS_PX_SLAVE = 0 OR ASH000.IS_MONITORED_SQL != 1 THEN NULL WHEN ASH000.PX_STEP_ID = 1 THEN 1 WHEN ASH000.PX_STEP_ID IN (2, 3) THEN 0 ELSE NULL END PX_DFO_PAIR_TYPE, DECODE(ASH000.IS_MONITORED_SQL, 1, ASH000.PX_STEP_ARG, NULL) PX_STEP_ARG, DECODE(ASH000.IS_
MONITORED_SQL, 1, ASH000.PX_DOP, NULL) PX_DOP FROM (SELECT ASH0.*, CASE WHEN ASH0.IS_TARGET_SQL = 1 OR (ASH0.IS_PX_SLAVE = 1 AND ((NVL(ASH0.TOP_LEVEL_SQL_ID, ASH0.SQL_ID) IS NOT NULL AND NVL(ASH0.TOP_LEVEL_SQL_ID, ASH0.SQL_ID) = :B9 ) OR (SQL_ID IS NULL AND :B23 = 'Y'))) THEN 1 ELSE 0 END IS_MONITORED_SQL FROM (SELECT (CASE WHEN (ASH.SQL_ID = :B9 AND ASH.SQL_EXEC_ID = :B7 AND ASH.SQL_EXEC_START = :B8 ) THEN 1 ELSE 0 END) IS_TARGET_SQL, ASH.SQL_ID, ASH.SQL_PLAN_LINE_ID, ASH.PLSQL_OBJECT_ID, ASH.PLSQL_SUBPROGRAM_ID, ASH.TOP_LEVEL_SQL_ID, DECODE(ASH.SQL_ID, NULL, ASH.TOP_LEVEL_CALL_NAME, NULL) CALL_NAME, ASH.EVENT, ASH.IN_INMEMORY_QUERY, ASH.WAIT_CLASS, ASH.SQL_EXEC_ID, ASH.SQL_EXEC_START, ASH.DBOP_NAME, ASH.DBOP_EXEC_ID, ASH.SESSION_ID, ASH.SESSION_SERIAL#, CASE WHEN QC_INSTANCE_ID IS NOT NULL AND (ASH.SESSION_ID != ASH.QC_SESSION_ID OR ASH.SESSION_SERIAL# != ASH.QC_SESSION_SERIAL# OR USERENV('instance') != ASH.QC_INSTANCE_ID) THEN 1 ELSE 0 END IS_PX_SLAVE, SAMP
LE_TIME - CAST(:B20 AS TIMESTAMP) DELTA_TIME, CAST(FROM_TZ(ASH.SAMPLE_TIME, DBTIMEZONE) AS DATE) SAMPLE_DATE, TRUNC(MOD(PX_FLAGS/65536, 32)) PX_STEP_ID, MOD(PX_FLAGS, 65536) PX_STEP_ARG, TRUNC(PX_FLAGS/2097152) PX_DOP FROM V$ACTIVE_SESSION_HISTORY ASH WHERE ((ASH.SESSION_ID = :B19 AND ASH.SESSION_SERIAL# = :B18 AND USERENV('INSTANCE') = :B17 ) OR (ASH.QC_SESSION_ID IS NOT NULL AND ASH.QC_SESSION_ID = :B19 AND ASH.QC_SESSION_SERIAL# = :B18 AND ASH.QC_INSTANCE_ID = :B17 )) AND SAMPLE_TIME BETWEEN :B16 AND :B15 ) ASH0 WHERE (ASH0.SAMPLE_DATE BETWEEN :B20 + 1/24/3600 AND :B22 - 1/24/3600 OR (ASH0.SQL_ID = :B9 AND ASH0.SQL_EXEC_START = :B8 AND ASH0.SQL_EXEC_ID = :B7 ) OR (ASH0.DBOP_NAME = :B6 AND ASH0.DBOP_EXEC_ID = :B5 )) AND (:B21 IS NULL OR ASH0.SQL_PLAN_LINE_ID = :B21 ) AND (ASH0.IS_PX_SLAVE = 0 OR ASH0.SQL_ID IS NOT NULL)) ASH000 ) ASH00 WHERE ASH00.C1 = DUP.C1) ASH1 WHERE ASH1.BUCKET_NUM > 0 AND ASH1.BUCKET_NUM <= :B27 GROUP BY USERENV('INSTANCE'), ASH1.GLOBAL_SAMPLE_ID,
ASH1.BUCKET_NUM, ASH1.SESSION_ID, ASH1.PLAN_LINE_ID, ASH1.PLSQL_OBJECT_ID, ASH1.PLSQL_SUBPROGRAM_ID, ASH1.ACTIVITY_TYPE, ASH1.EVENT_NAME, ASH1.OTHER_SQL_ACTIVITY_TYPE, ASH1.PX_STEP_ID, ASH1.PX_STEP_ARG) ASH2)))) GVTF WHERE GVTF.INST_ID BETWEEN :B11 AND :B10 ) ASH WHERE ASH.GLOBAL_SAMPLE_ID IS NULL AND ASH.SESSION_ID = MO.SID(+) AND ASH.INST_ID = MO.INST_ID(+)) AD0), RESPONSE_TIME_DATA AS (SELECT ADH.BUCKET_NUM, ADH.SQL_ROWNUM, ADH.SQL, ADH.TOP_LEVEL_SQL_ID, ADH.DBOP_NAME, ADH.PX_ID, DECODE( ADH.PX_STEP_ID, NULL, NULL, 0, NULL, 1, 'PX Server(s) - Executing Parent DFO', 2, 'PX Server(s) - Executing Child DFO', 3, 'PX Server(s) - Sampling Child DFO', 4, 'PX Server(s) - Joining Group', 5, 'QC - Scheduling Child DFO', 6, 'QC - Scheduling Parent DFO', 7, 'QC - Initializing Objects', 8, 'QC - Flushing Objects', 9, 'QC - Allocating Slaves', 10, 'QC - Initializing Granules', 11, 'PX Server(s) - Parsing Cursor', 12, 'PX Server(s) - Executing Cursor',
13, 'PX Server(s) - Preparing Transaction', 14, 'PX Server(s) - Joining Transaction', 15, 'PX Server(s) - Load Commit', 16, 'PX Server(s) - Aborting Transaction', 17, 'QC - Executing Child DFO', 18, 'QC - Executing Parent DFO', 'PX Step - ' || PX_STEP_ID) PX_STEP_ID, ADH.PX_STEP_ARG, ADH.PX_DFO_PAIR_ID, ADH.PX_DOP, ADH.PX_MIN_DOP, ADH.DFO_MOST_ACTIVE_IID, ADH.DFO_MOST_ACTIVE_SID, ADH.DFO_MOST_ACTIVE_COUNT, ADH.ACTIVITY_START, ADH.ACTIVITY_END, ADH.ACTIVITY_TYPE, ADH.OTHER_SQL_ACTIVITY_TYPE, ADH.EVENT_NAME, ADH.PLAN_LINE_ID, ADH.PLSQL_OBJECT_ID, ADH.PLSQL_SUBPROGRAM_ID, CASE WHEN PLSQL_ROWNUM = 1 AND ADH.PLSQL_OBJECT_ID IS NOT NULL THEN NVL((SELECT P.OWNER || '.' || P.OBJECT_NAME || DECODE(P.PROCEDURE_NAME, NULL, '', '.' || P.PROCEDURE_NAME) FROM DBA_PROCEDURES P WHERE P.OBJECT_ID = ADH.PLSQL_OBJECT_ID AND P.SUBPROGRAM_ID = ADH.PLSQL_SUBPROGRAM_ID), 'Unavailable') ELSE NULL END PLSQL_NAME, ADH.ACTIVITY_COUNT, ADH.BUCKET_ACTIVE_SECONDS, ADH.BUCKET_IDL
E_SECONDS, (CASE WHEN ADH.IS_MONITORED_SQL = 0 THEN ADH.ACTIVE_SECONDS WHEN ADH.PX_DFO_PAIR_ID IS NOT NULL AND ADH.DFO_PAIR_CPU_HEIGHT >= :B34 THEN DECODE(ADH.ACTIVITY_TYPE, 'Cpu', (ADH.DFO_PAIR_ACTIVITY_HEIGHT / ADH.DFO_PAIR_CPU_HEIGHT) * ADH.DFO_PAIR_TOTAL_SECONDS, 0) WHEN ADH.PX_DFO_PAIR_ID IS NOT NULL AND ADH.PX_DOP > :B34 THEN (ADH.DFO_PAIR_TOTAL_SECONDS * DECODE(ADH.ACTIVITY_TYPE, 'Cpu', ADH.DFO_PAIR_ACTIVITY_HEIGHT, (ADH.DFO_PAIR_ACTIVITY_HEIGHT * (:B34 - ADH.DFO_PAIR_CPU_HEIGHT)) / (ADH.DFO_PAIR_TOTAL_HEIGHT_ADJ - ADH.DFO_PAIR_CPU_HEIGHT))) / :B34 WHEN ADH.PX_DFO_PAIR_ID IS NOT NULL THEN (ADH.DFO_PAIR_TOTAL_SECONDS * ADH.DFO_PAIR_ACTIVITY_HEIGHT) / ADH.PX_DOP ELSE ADH.ACTIVE_SECONDS END) RESP_TIME, (CASE WHEN ADH.PX_DFO_PAIR_ID IS NOT NULL AND ADH.DFO_PAIR_IDLE_HEIGHT > 0 AND ADH.PX_DOP > :B34 THEN (ADH.DFO_PAIR_TOTAL_SECONDS * (ADH.DFO_PAIR_IDLE_HEIGHT * (:B34 - ADH.DFO_PAIR_CPU_HEIGHT)) / (ADH.DFO_PAIR_TOTAL_HEIGHT_ADJ - ADH.DFO_PAIR_CPU_HEIGHT)) / :B34 WH
EN ADH.PX_DFO_PAIR_ID IS NOT NULL AND ADH.DFO_PAIR_IDLE_HEIGHT > 0 THEN (ADH.DFO_PAIR_TOTAL_SECONDS * ADH.DFO_PAIR_IDLE_HEIGHT) / ADH.PX_DOP ELSE 0 END) DFO_PAIR_IDLE_RESP_TIME, ADH.DFO_PAIR_ACTIVITY_HEIGHT, ADH.DFO_PAIR_CPU_HEIGHT, ADH.DFO_PAIR_IDLE_HEIGHT, ADH.DFO_PAIR_TOTAL_HEIGHT, ADH.DFO_PAIR_CPU_ACTIVITY, ADH.DFO_PAIR_TOTAL_SECONDS FROM (SELECT ADH_1.*, (ROW_NUMBER() OVER(PARTITION BY ADH_1.PLSQL_OBJECT_ID, ADH_1.PLSQL_SUBPROGRAM_ID ORDER BY ADH_1.BUCKET_NUM, ADH_1.ACTIVITY_TYPE, ADH_1.EVENT_NAME)) PLSQL_ROWNUM, (ROW_NUMBER() OVER(PARTITION BY ADH_1.SQL ORDER BY ADH_1.BUCKET_NUM, ADH_1.ACTIVITY_TYPE, ADH_1.EVENT_NAME)) SQL_ROWNUM, (CASE WHEN ADH_1.PX_DFO_PAIR_ID IS NOT NULL AND (ADH_1.DFO_PAIR_TOTAL_HEIGHT < ADH_1.PX_DOP) AND (ADH_1.DFO_PAIR_CPU_HEIGHT < :B34 ) THEN ADH_1.PX_DOP - ADH_1.DFO_PAIR_TOTAL_HEIGHT ELSE 0 END) DFO_PAIR_IDLE_HEIGHT, (CASE WHEN ADH_1.PX_DFO_PAIR_ID IS NOT NULL AND (ADH_1.DFO_PAIR_TOTAL_HEIGHT < ADH_1.PX_DOP) AND (ADH_1.DFO_PAIR_
CPU_HEIGHT < :B34 ) THEN ADH_1.PX_DOP ELSE ADH_1.DFO_PAIR_TOTAL_HEIGHT END) DFO_PAIR_TOTAL_HEIGHT_ADJ FROM (SELECT ADH_0.*, (CASE WHEN ADH_0.DFO_PAIR_TOTAL_SECONDS > 0 THEN (ADH_0.DFO_PAIR_TOTAL_ACTIVITY * :B25 ) / ADH_0.DFO_PAIR_TOTAL_SECONDS ELSE 0 END) DFO_PAIR_TOTAL_HEIGHT, (CASE WHEN ADH_0.DFO_PAIR_TOTAL_SECONDS > 0 THEN (ADH_0.DFO_PAIR_CPU_ACTIVITY * :B25 ) / ADH_0.DFO_PAIR_TOTAL_SECONDS ELSE 0 END) DFO_PAIR_CPU_HEIGHT, (CASE WHEN ADH_0.PX_DFO_PAIR_ID IS NOT NULL AND ADH_0.DFO_PAIR_TOTAL_SECONDS > 0 THEN (ADH_0.ACTIVITY_COUNT * :B25 ) / ADH_0.DFO_PAIR_TOTAL_SECONDS ELSE 0 END) DFO_PAIR_ACTIVITY_HEIGHT FROM (SELECT AD3.*, (SUM(DECODE(AD3.PX_DFO_PAIR_ID, NULL, 0, AD3.ACTIVE_SECONDS)) OVER(PARTITION BY DECODE(AD3.PX_DFO_PAIR_ID, NULL, NULL, AD3.BUCKET_NUM), DECODE(AD3.PX_DFO_PAIR_ID, NULL, NULL, AD3.PX_STEP_ARG))) DFO_PAIR_TOTAL_SECONDS FROM (SELECT AD2.*, CASE WHEN AD2.IS_MONITORED_SQL = 0 THEN SQL_BUCKET_DISTINCT_SAMPLES * :B25 WHEN AD2.PX_ID IS NULL THE
N AD2.ACTIVITY_COUNT * :B25 WHEN AD2.BUCKET_PARALLEL_MON_ACTIVITY > 0 THEN (AD2.ACTIVITY_COUNT * AD2.BUCKET_PARALLEL_MON_SECONDS) / AD2.BUCKET_PARALLEL_MON_ACTIVITY ELSE 0 END ACTIVE_SECONDS, CASE WHEN AD2.BUCKET_INTERVAL > BUCKET_ACTIVE_SECONDS THEN AD2.BUCKET_INTERVAL - BUCKET_ACTIVE_SECONDS ELSE 0 END BUCKET_IDLE_SECONDS FROM (SELECT AD1.*, (AD1.BUCKET_SERIAL_MON_ACTIVITY * :B25 ) BUCKET_SERIAL_MON_SECONDS, (AD1.BUCKET_TOTAL_MON_ACTIVITY - AD1.BUCKET_SERIAL_MON_ACTIVITY) BUCKET_PARALLEL_MON_ACTIVITY, (AD1.BUCKET_ACTIVE_SECONDS - (AD1.BUCKET_OTHER_ACTIVITY + AD1.BUCKET_SERIAL_MON_ACTIVITY) * :B25 ) BUCKET_PARALLEL_MON_SECONDS, (AD1.BUCKET_OTHER_ACTIVITY * :B25 ) BUCKET_OTHER_SECONDS, DECODE(AD1.PX_DFO_PAIR_ID, NULL, NULL, SUM(AD1.ACTIVITY_COUNT) OVER(PARTITION BY DECODE(AD1.PX_DFO_PAIR_ID, NULL, NULL, AD1.BUCKET_NUM), AD1.PX_DFO_PAIR_ID)) DFO_PAIR_TOTAL_ACTIVITY, DECODE(AD1.PX_DFO_PAIR_ID, NULL, NULL, SUM(DECODE(AD1.ACTIVITY_TYPE, 'Cpu', AD1.ACTIVITY_COUNT,
0)) OVER(PARTITION BY DECODE(AD1.PX_DFO_PAIR_ID, NULL, NULL, AD1.BUCKET_NUM), AD1.PX_DFO_PAIR_ID)) DFO_PAIR_CPU_ACTIVITY FROM (SELECT AD01.*, NVL((SUM(DECODE(AD01.IS_MONITORED_SQL, 1, AD01.ACTIVITY_COUNT, NULL)) OVER(PARTITION BY AD01.BUCKET_NUM)), 0) BUCKET_TOTAL_MON_ACTIVITY, (NVL(SUM(CASE WHEN AD01.IS_MONITORED_SQL = 1 AND AD01.PX_ID IS NULL THEN AD01.ACTIVITY_COUNT ELSE NULL END) OVER(PARTITION BY AD01.BUCKET_NUM), 0)) BUCKET_SERIAL_MON_ACTIVITY, (NVL((SUM(DECODE(AD01.IS_MONITORED_SQL, 0, AD01.SQL_BUCKET_DISTINCT_SAMPLES, NULL)) OVER(PARTITION BY AD01.BUCKET_NUM)), 0)) BUCKET_OTHER_ACTIVITY, (NVL(AD01.BUCKET_DISTINCT_SAMPLES, 0) * :B25 ) BUCKET_ACTIVE_SECONDS, DECODE(AD01.BUCKET_NUM, :B27 , MOD(:B32 , :B26 ), :B26 ) BUCKET_INTERVAL FROM (SELECT AD0.ACTIVITY_BUCKET_NUM BUCKET_NUM, AD0.PX_ID, AD0.ACTIVITY_TYPE, AD0.OTHER_SQL_ACTIVITY_TYPE, AD0.EVENT_NAME, AD0.PLAN_LINE_ID, AD0.PX_STEP_ID, AD0.PX_STEP_ARG, AD0.PLSQL_OBJECT_ID, AD0.PLSQL_SUBPROGRAM_ID,
SUM(AD0.ACTIVITY_COUNT) ACTIVITY_COUNT, MIN(AD0.ACTIVITY_START) ACTIVITY_START, MAX(AD0.ACTIVITY_END) ACTIVITY_END, MAX(AD0.IS_MONITORED_SQL) IS_MONITORED_SQL, MAX(AD0.SQL) SQL, MAX(AD0.TOP_LEVEL_SQL_ID) TOP_LEVEL_SQL_ID, MAX(AD0.DBOP_NAME) DBOP_NAME, MAX(DECODE(AD0.DFO_MOST_ACTIVE_COUNT, NULL, NULL, AD0.DFO_MOST_ACTIVE_IID)) DFO_MOST_ACTIVE_IID, MAX(DECODE(AD0.DFO_MOST_ACTIVE_COUNT, NULL, NULL, AD0.DFO_MOST_ACTIVE_SID)) DFO_MOST_ACTIVE_SID, SUM(AD0.DFO_MOST_ACTIVE_COUNT) DFO_MOST_ACTIVE_COUNT, MAX(PX_DFO_PAIR_TYPE) PX_DFO_PAIR_TYPE, MAX(PX_DFO_PAIR_ID) PX_DFO_PAIR_ID, MAX(AD0.PX_DOP) PX_DOP, MIN(AD0.PX_MIN_DOP) PX_MIN_DOP, MAX(AD0.BUCKET_DISTINCT_SAMPLES) BUCKET_DISTINCT_SAMPLES, MAX(AD0.SQL_BUCKET_DISTINCT_SAMPLES) SQL_BUCKET_DISTINCT_SAMPLES FROM (SELECT AD00.*, (CASE WHEN AD00.IS_MONITORED_SQL = 1 AND (AD00.SESSION_ID != :B19 OR AD00.INST_ID != :B17 ) THEN AD00.PX_SERVER_GROUP END) PX_ID FROM ASH_DATA AD00 WHERE :B33 = 1 ) AD0 GROUP BY AD0.ACTIVITY_BUCKET_NUM,
AD0.PX_ID, AD0.ACTIVITY_TYPE, AD0.EVENT_NAME, AD0.OTHER_SQL_ACTIVITY_TYPE, AD0.PLAN_LINE_ID, AD0.PLSQL_OBJECT_ID, AD0.PLSQL_SUBPROGRAM_ID, AD0.PX_STEP_ID, AD0.PX_STEP_ARG ) AD01) AD1) AD2) AD3) ADH_0) ADH_1) ADH) SELECT /*+ no_monitor no_xml_query_rewrite */ XMLELEMENT( "sql_monitor_report", XMLATTRIBUTES(:B59 AS "version", TO_CHAR(:B58 , :B12 ) AS "sysdate"), XMLELEMENT( "report_parameters", NULL, CASE WHEN :B57 IS NOT NULL THEN XMLFOREST( :B57 AS "dbop_name", :B56 AS "dbop_exec_id") ELSE XMLFOREST( :B55 AS "sql_id", :B54 AS "sql_exec_id") END, XMLFOREST( :B53 AS "session_id", :B52 AS "session_serial", TO_CHAR(:B51 , :B12 ) AS "sql_exec_start", :B27 AS "bucket_count", TO_CHAR(:B50 , :B12 ) AS "interval_start", TO_CHAR(:B22 , :B12 ) AS "interval_end", DECODE(:B49 , 'Y', :B48 , NULL) AS "auto_refresh", :B47
AS "base_path"), CASE WHEN :B23 = 'Y' AND :B46 IS NOT NULL AND NOT (:B4 = 1 AND :B3 IS NULL AND :B2 IS NULL AND :B1 IS NULL) THEN XMLELEMENT( "parallel_filter", NULL, XMLFOREST( DECODE(:B4 , 1, 'yes', 'no') AS "qc", :B3 AS "server_group", :B2 AS "server_set", :B1 AS "server_number")) ELSE NULL END), CASE WHEN :B14 = 1 THEN XMLELEMENT( "derived_parameters_testing", NULL, XMLFOREST(:B11 AS "instance_id_low", :B10 AS "instance_id_high", :B26 AS "bucket_interval_sec", :B32 AS "interval_second", :B27 AS "bucket_calc_count", :B45 AS "bucket_calc_max_count", :B13 AS "sel_sqltext")) ELSE NULL END, (SELECT XMLCONCAT( CASE WHEN :B46 IS NULL AND :B60 IS NULL THEN XMLELEMENT( "target", XMLATTRIBUTES(:B17 AS "instance_id", :B19 AS "session_id", :B18 AS "session_serial", NVL2(:B6 , NULL, :B9 ) AS
"sql_id", NVL2(:B6 , NULL, TO_CHAR(:B8 , :B12 )) AS "sql_exec_start", NVL2(:B6 , NULL, :B7 ) AS "sql_exec_id", NVL2(:B6 , :B6 , NULL) AS "dbop_name", NVL2(:B6 , :B5 , NULL) AS "dbop_exec_id", NVL2(:B6 , TO_CHAR(:B8 , :B12 ), NULL) AS "dbop_exec_start", NVL2(:B6 , NULL, MAX_PLAN_HASH_VALUE) AS "sql_plan_hash", NVL2(:B6 , NULL, MAX_FULL_PLAN_HASH_VALUE) AS "sql_full_plan_hash", MAGG.DB_UNIQUE_NAME AS "db_unique_name", MAGG.PLATFORM_NAME AS "db_platform_name", MAGG.HOST_NAME AS "report_host_name"), NVL2(SUM_SERVERS_REQUESTED, XMLELEMENT( "servers_requested", NULL, SUM_SERVERS_REQUESTED), NULL), NVL2(SUM_SERVERS_ALLOCATED, XMLELEMENT( "servers_allocated", NULL, SUM_SERVERS_ALLOCATED), NULL), NVL2(MAX_USERID, XMLELEMENT( "user_id", NULL, MAX_USERID), NULL), NVL2(MAX_USERNAME, XMLELEMENT( "user", NULL
, MAX_USERNAME), NULL), NVL2(MAX_CON_ID, XMLELEMENT( "con_id", NULL, MAX_CON_ID), NULL), NVL2(MAX_CON_NAME, XMLELEMENT( "con_name", NULL, MAX_CON_NAME), NULL), NVL2(MAX_PROGRAM, XMLELEMENT( "program", NULL, MAX_PROGRAM), NULL), NVL2(MAX_MODULE, XMLELEMENT( "module", NULL, MAX_MODULE), NULL), NVL2(MAX_ACTION, XMLELEMENT( "action", NULL, MAX_ACTION), NULL), NVL2(MAX_SERVICE_NAME, XMLELEMENT( "service", NULL, MAX_SERVICE_NAME), NULL), NVL2(MAX_CLIENT_ID, XMLELEMENT( "client_id", NULL, MAX_CLIENT_ID), NULL), NVL2(MAX_CLIENT_INFO, XMLELEMENT( "client_info", NULL, MAX_CLIENT_INFO), NULL), NVL2(MAX_PL_ENTRY_OID, XMLELEMENT( "plsql_entry_object_id", NULL, MAX_PL_ENTRY_OID), NULL), NVL2(MAX_PL_ENTRY_PROGID, XMLELEMENT( "plsql_entry_subprogram_id", NULL, MAX_PL_ENTRY_PROGID), NULL), NVL2(MAX_PL_ENTRY_NAME, XMLELEMENT( "plsql_entry_name
", NULL, MAX_PL_ENTRY_NAME), NULL), NVL2(MAX_PL_OID, XMLELEMENT( "plsql_object_id", NULL, MAX_PL_OID), NULL), NVL2(MAX_PL_PROGID, XMLELEMENT( "plsql_subprogram_id", NULL, MAX_PL_PROGID), NULL), NVL2(MAX_PL_NAME, XMLELEMENT( "plsql_name", NULL, MAX_PL_NAME), NULL), CASE WHEN (:B13 = 0 OR :B6 IS NOT NULL) THEN NULL ELSE XMLELEMENT( "sql_fulltext", XMLATTRIBUTES(NVL2(SQL_VTEXT, 'Y', IS_FULL_TEXT) AS "is_full"), NVL2(SQL_VTEXT, SQL_VTEXT, SQLMON_TEXT)) END, XMLELEMENT( "status", NULL, MAX_STATUS), XMLELEMENT( "refresh_count", NULL, SUM_REFRESH_COUNT), XMLELEMENT( "first_refresh_time", NULL, TO_CHAR(MIN_FIRST_REFRESH_TIME, :B12 )), XMLELEMENT( "last_refresh_time", NULL, TO_CHAR(:B58 , :B12 )), XMLELEMENT( "duration", NULL, GREATEST(:B65 , LEAST(MAX_ELAPSED_TIME/1000000, 1), CEIL(MAX_QUEUING_TIME/1000000))), DECODE(MAX_RM_INFO, '00/00/0000 00
:00:00', NULL, XMLTYPE(SUBSTR(MAX_RM_INFO, 20))), CASE WHEN (:B63 = 'Y') THEN XMLELEMENT( "adaptive_plan", XMLATTRIBUTES(:B64 AS "is_final"), :B63 ) ELSE NULL END, NVL((SELECT XMLFOREST( XMLAGG( XMLELEMENT( "param", XMLATTRIBUTES(E.NAME AS "name"), DECODE(:B14 , 1, 'XXXX', E.VALUE)) ORDER BY E.NAME) AS "optimizer_env") SQL_ENV FROM GV$SQL_OPTIMIZER_ENV E WHERE E.INST_ID = :B17 AND E.SQL_ID = :B9 AND E.CHILD_ADDRESS = HEXTORAW(:B66 ) AND (DECODE(:B14 , 1, 'YES', E.ISDEFAULT) = 'NO' OR E.ID IN (2, 12, 24, 35, 36, 37, 246, 256, 257, 274, 275, 289, 290))), (SELECT XMLELEMENT( "optimizer_env", XMLATTRIBUTES('sys' AS "type"), XMLAGG( XMLELEMENT( "param", XMLATTRIBUTES(E.NAME AS "name"), DECODE(:B14 , 1, 'XXXX', E.VALUE)) ORDER BY E.NAME)) SYS_ENV FROM V$SYS_OPTIMIZER_ENV E WHERE (DECODE(:B14 , 1, 'YES', E.ISDEFAULT) = 'NO' OR E.ID IN (2, 12, 24, 35, 36, 37, 24
6, 256, 257, 274, 275, 289, 290)))) ) END, XMLELEMENT( "stats", XMLATTRIBUTES('monitor' AS "type"), DECODE(NVL(SUM_ELAPSED_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('elapsed_time' AS "name"), SUM_ELAPSED_TIME)), DECODE(NVL(MAX_QUEUING_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('queuing_time' AS "name"), MAX_QUEUING_TIME)), DECODE(NVL(SUM_CPU_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('cpu_time' AS "name"), SUM_CPU_TIME)), DECODE(NVL(SUM_USER_IO_WAIT_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('user_io_wait_time' AS "name"), SUM_USER_IO_WAIT_TIME)), DECODE(NVL(SUM_APPLICATION_WAIT_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('application_wait_time' AS "name"), SUM_APPLICATION_WAIT_TIME)), DECODE(NVL(SUM_CONCURRENCY_WAIT_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLAT
TRIBUTES('concurrency_wait_time' AS "name"), SUM_CONCURRENCY_WAIT_TIME)), DECODE(NVL(SUM_CLUSTER_WAIT_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('cluster_wait_time' AS "name"), SUM_CLUSTER_WAIT_TIME)), DECODE(NVL(SUM_PLSQL_EXEC_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('plsql_exec_time' AS "name"), SUM_PLSQL_EXEC_TIME)), DECODE(NVL(SUM_JAVA_EXEC_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('java_exec_time' AS "name"), SUM_JAVA_EXEC_TIME)), DECODE(NVL(SUM_OTHER_WAIT_TIME, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('other_wait_time' AS "name"), SUM_OTHER_WAIT_TIME)), DECODE(NVL(SUM_FETCHES, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('user_fetch_count' AS "name"), SUM_FETCHES)), DECODE(NVL(SUM_BUFFER_GETS, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('buffer_gets' AS "name"), SUM_
BUFFER_GETS)), DECODE(NVL(SUM_READ_REQS, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('disk_reads' AS "name"), SUM_READ_REQS)), DECODE(NVL(SUM_WRITE_REQS, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('direct_writes' AS "name"), SUM_WRITE_REQS)), DECODE(NVL(SUM_READ_REQS, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('read_reqs' AS "name"), SUM_READ_REQS)), DECODE(NVL(SUM_READ_BYTES, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('read_bytes' AS "name"), SUM_READ_BYTES)), DECODE(NVL(SUM_WRITE_REQS, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('write_reqs' AS "name"), SUM_WRITE_REQS)), DECODE(NVL(SUM_WRITE_BYTES, 0), 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('write_bytes' AS "name"), SUM_WRITE_BYTES)), CASE WHEN SUM_IO_INTER_BYTES IS NULL OR SUM_IO_BYTES = 0 OR SUM_IO_INTER_BYTES = SUM_IO_BYTES THEN NULL ELSE XMLELEMENT
( "stat", XMLATTRIBUTES('cell_offload_efficiency' AS "name"), ROUND(SUM_IO_BYTES / DECODE(SUM_IO_INTER_BYTES, 0, 1, SUM_IO_INTER_BYTES), 2)) END), CASE WHEN :B33 = 1 THEN (SELECT CASE WHEN SUM(ACTIVITY_COUNT) > 0 THEN XMLELEMENT( "activity_sampled", XMLAGG( XMLELEMENT( "activity", XMLATTRIBUTES( AD1.ACTIVITY_TYPE AS "class", AD1.EVENT_NAME AS "event"), AD1.ACTIVITY_COUNT) ORDER BY AD1.ACTIVITY_TYPE, AD1.EVENT_NAME)) ELSE NULL END FROM (SELECT AD0.ACTIVITY_TYPE, AD0.EVENT_NAME, SUM(AD0.ACTIVITY_COUNT) ACTIVITY_COUNT FROM ASH_DATA AD0 GROUP BY AD0.ACTIVITY_TYPE, AD0.EVENT_NAME) AD1) ELSE NULL END, NVL2(MAX_ERROR_NUMBER, XMLELEMENT( "error", XMLATTRIBUTES(MAX_ERROR_NUMBER AS "number", MAX_ERROR_FACILITY AS "facility"), MAX_ERROR_MESSAGE), NULL), CASE WHEN :B62 = 1 AND MAGG.QC_HAS_BINDS_XML = 'Y' THEN (SELECT XMLTYPE(BINDS_XML) FROM GV$SQL_MONITOR MON WHERE MON.INST_ID = :B17
AND MON.KEY = MAGG.MAX_KEY AND MON.SID = MAGG.MAX_SESSION_ID AND MON.SQL_ID = :B9 AND MON.SQL_EXEC_START = :B8 AND MON.SQL_EXEC_ID = :B7 AND ROWNUM = 1) ELSE NULL END, CASE WHEN :B61 = 1 AND MAGG.QC_HAS_OTHER_XML = 'Y' THEN (SELECT XMLTYPE(OTHER_XML) FROM GV$SQL_MONITOR MON WHERE MON.INST_ID = MAGG.MAX_INST_ID AND MON.KEY = MAGG.MAX_KEY AND MON.SID = MAGG.MAX_SESSION_ID AND MON.SQL_ID = :B9 AND MON.SQL_EXEC_START = :B8 AND MON.SQL_EXEC_ID = :B7 AND ROWNUM = 1) ELSE NULL END) FROM (SELECT V.*, CASE WHEN :B13 = 2 AND IS_FULL_TEXT = 'N' AND :B46 IS NULL AND :B60 IS NULL THEN (SELECT SQL_FULLTEXT FROM GV$SQL SQ WHERE SQ.INST_ID BETWEEN :B11 AND :B10 AND SQ.SQL_ID = :B9 AND ROWNUM = 1) ELSE NULL END SQL_VTEXT FROM MONITOR_AGG V) MAGG), CASE WHEN :B44 = 1 THEN (SELECT CASE WHEN AT.ACTIVITY_COUNT > 0 THEN XMLELEMENT( "activity_sampled", XMLATTRIBUTES( :B41 AS "ash_missing_seconds", TO_CHAR(AT.ACTIVITY_START, :B12 ) AS "first_sample_time", TO_CHAR(AT.ACT
IVITY_END, :B12 ) AS "last_sample_time", ROUND((AT.ACTIVITY_END - AT.ACTIVITY_START) * 3600 * 24) + 1 AS "duration", AT.ACTIVITY_COUNT AS "count", AT.IMQ_COUNT AS "imq_count", AT.WAIT_COUNT AS "wait_count", AT.CPU_COUNT AS "cpu_count", DECODE(AT.OTHER_SQL_COUNT, 0, NULL, AT.OTHER_SQL_COUNT) AS "other_sql_count", :B40 AS "cpu_cores", :B39 AS "hyperthread"), AT.ACTIVITY_TOTAL, AH.GLOB_ACTIVITY_HISTO) WHEN :B41 IS NOT NULL THEN XMLELEMENT( "activity_sampled", XMLATTRIBUTES( DECODE( :B41 , -1, 'all', TO_CHAR( :B41 )) AS "ash_missing_seconds")) ELSE NULL END FROM (SELECT MIN(AD1.ACTIVITY_START) ACTIVITY_START, MAX(AD1.ACTIVITY_END) ACTIVITY_END, SUM(AD1.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(AD1.IMQ_COUNT) IMQ_COUNT, SUM(AD1.WAIT_COUNT) WAIT_COUNT, SUM(AD1.CPU_COUNT) CPU_COUNT, SUM(AD1.OTHER_SQL_COUNT) OTHER_SQL_COUNT, SUBSTR(MAX(LPAD(AD1.ACTIVITY_COUNT, 10)||
AD1.ACTIVITY_TYPE), 11) MOST_ACTIVE, XMLAGG( XMLELEMENT( "activity", XMLATTRIBUTES( AD1.ACTIVITY_TYPE AS "class", AD1.EVENT_NAME AS "event"), AD1.ACTIVITY_COUNT) ORDER BY AD1.ACTIVITY_TYPE, AD1.EVENT_NAME) ACTIVITY_TOTAL FROM (SELECT AD0.ACTIVITY_TYPE, AD0.EVENT_NAME, MIN(AD0.ACTIVITY_START) ACTIVITY_START, MAX(AD0.ACTIVITY_END) ACTIVITY_END, SUM(AD0.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(AD0.IMQ_COUNT) IMQ_COUNT, SUM(AD0.WAIT_COUNT) WAIT_COUNT, SUM(AD0.CPU_COUNT) CPU_COUNT, SUM(AD0.OTHER_SQL_COUNT) OTHER_SQL_COUNT FROM ASH_DATA AD0 GROUP BY AD0.ACTIVITY_TYPE, AD0.EVENT_NAME) AD1) AT, (SELECT CASE WHEN :B30 = 1 AND :B27 > 1 THEN XMLELEMENT( "activity_histogram", XMLATTRIBUTES( :B26 AS "bucket_interval", :B27 AS "bucket_count", TO_CHAR( :B20 , :B12 ) AS "start_time", TO_CHAR( :B22 , :B12 ) AS "end_time", ROUND(( :B22 - :B20 ) *3600*24) + 1 AS "duration"), XMLAGG( XMLELEMENT(
"bucket", XMLATTRIBUTES( AD2.BUCKET_NUM AS "number"), ACTIVITY_BUCKET) ORDER BY AD2.BUCKET_NUM)) ELSE NULL END GLOB_ACTIVITY_HISTO FROM (SELECT AD1.BUCKET_NUM, SUM(ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(IMQ_COUNT) IMQ_COUNT, SUM(WAIT_COUNT) WAIT_COUNT, SUM(CPU_COUNT) CPU_COUNT, SUM(OTHER_SQL_COUNT) OTHER_SQL_COUNT, MIN(AD1.ACTIVITY_START) ACTIVITY_START, MAX(AD1.ACTIVITY_END) ACTIVITY_END, MIN(AD1.BUCKET_ACTIVITY_START) BUCKET_ACTIVITY_START, MAX(AD1.BUCKET_ACTIVITY_END) BUCKET_ACTIVITY_END, SUBSTR(MAX(LPAD(AD1.ACTIVITY_COUNT, 10)|| AD1.ACTIVITY_TYPE), 11) MOST_ACTIVE, XMLAGG( XMLELEMENT( "activity", XMLATTRIBUTES( AD1.ACTIVITY_TYPE AS "class", AD1.EVENT_NAME AS "event"), AD1.ACTIVITY_COUNT) ORDER BY AD1.ACTIVITY_TYPE, AD1.EVENT_NAME) ACTIVITY_BUCKET FROM (SELECT AD0.ACTIVITY_BUCKET_NUM BUCKET_NUM, AD0.ACTIVITY_TYPE, AD0.EVENT_NAME, MIN(AD0.ACTIVITY_START) ACTIVITY_START, MAX(AD0.ACTIVITY_END) ACTIVITY_END, SUM(AD0.
ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(AD0.IMQ_COUNT) IMQ_COUNT, SUM(AD0.WAIT_COUNT) WAIT_COUNT, SUM(AD0.CPU_COUNT) CPU_COUNT, SUM(AD0.OTHER_SQL_COUNT) OTHER_SQL_COUNT, MIN(AD0.BUCKET_ACTIVITY_START) BUCKET_ACTIVITY_START, MAX(AD0.BUCKET_ACTIVITY_END) BUCKET_ACTIVITY_END FROM ASH_DATA AD0 GROUP BY AD0.ACTIVITY_BUCKET_NUM, AD0.ACTIVITY_TYPE, AD0.EVENT_NAME) AD1 GROUP BY AD1.BUCKET_NUM) AD2) AH) ELSE NULL END, CASE WHEN :B33 = 1 THEN (SELECT CASE WHEN AH.ACTIVITY_COUNT > 0 THEN XMLELEMENT( "activity_detail", XMLATTRIBUTES( TO_CHAR( :B20 , :B12 ) AS "start_time", TO_CHAR( :B22 , :B12 ) AS "end_time", :B41 AS "ash_missing_seconds", TO_CHAR(AH.ACTIVITY_START, :B12 ) AS "first_sample_time", TO_CHAR(AH.ACTIVITY_END, :B12 ) AS "last_sample_time", ROUND((AH.ACTIVITY_END - AH.ACTIVITY_START) * 3600 * 24) + 1 AS "duration", :B25 AS "sample_interval", :B26 AS "bucket_interval", :B27 AS
"bucket_count", ROUND((:B22 - :B20 ) *3600*24) + 1 AS "bucket_duration", :B40 AS "cpu_cores", :B34 AS "total_cpu_cores", :B39 AS "hyperthread"), AH.GLOB_ACTIVITY_HISTO) WHEN :B41 IS NOT NULL THEN XMLELEMENT( "activity_detail", XMLATTRIBUTES( DECODE( :B41 , -1, 'all', TO_CHAR( :B41 )) AS "ash_missing_seconds")) ELSE NULL END FROM (SELECT MIN(AD2.ACTIVITY_START) ACTIVITY_START, MAX(AD2.ACTIVITY_END) ACTIVITY_END, SUM(AD2.ACTIVITY_COUNT) ACTIVITY_COUNT, XMLAGG( XMLELEMENT( "bucket", XMLATTRIBUTES( AD2.BUCKET_NUM AS "number"), ACTIVITY_BUCKET_XML) ORDER BY AD2.BUCKET_NUM) GLOB_ACTIVITY_HISTO FROM (SELECT AD1.BUCKET_NUM, MIN(AD1.ACTIVITY_START) ACTIVITY_START, MAX(AD1.ACTIVITY_END) ACTIVITY_END, SUM(AD1.ACTIVITY_COUNT) ACTIVITY_COUNT, MAX(AD1.BUCKET_IDLE_SECONDS) BUCKET_IDLE_SECONDS, XMLAGG( XMLCONCAT( CASE WHEN AD1.DFO_PAIR_IDLE_RESP_TIME != 0 AND DFO_PAIR_ROWNUM = 1 THEN XMLELEMENT
( "activity", XMLATTRIBUTES( 'Parallel Skew' AS "class", AD1.PX_STEP_ARG AS "line", AD1.PX_ID AS "px", ROUND(AD1.DFO_PAIR_IDLE_RESP_TIME, 2) AS "rt"), 0) ELSE NULL END, XMLELEMENT( "activity", XMLATTRIBUTES( NVL(AD1.OTHER_SQL, AD1.RPI) AS "sql", AD1.NON_SQL AS "non_sql", AD1.CLASS AS "class", AD1.OTHER_SQL_CLASS AS "other_sql_class", AD1.EVENT AS "event", AD1.PLAN_LINE_ID AS "line", NVL2(AD1.PLSQL_OBJECT_ID, AD1.PLSQL_OBJECT_ID||'.'|| AD1.PLSQL_SUBPROGRAM_ID, NULL) AS "plsql_id", AD1.PLSQL_NAME AS "plsql_name", CASE WHEN AD1.SQL_ROWNUM = 1 THEN AD1.TOP_LEVEL_SQL_ID END AS "top_sql_id", CASE WHEN AD1.DBOP_NAME IS NOT NULL THEN AD1.DBOP_NAME END AS "dbop_name", CASE WHEN AD1.DFO_MOST_ACTIVE_IID IS NOT NULL AND :B67 = 'Y' THEN AD1.DFO_MOST_ACTIVE_IID END AS "skew_iid", DECODE(AD1.DFO_MOST_ACTIVE_COUN
T, NULL, NULL, AD1.DFO_MOST_ACTIVE_SID) AS "skew_sid", AD1.DFO_MOST_ACTIVE_COUNT AS "skew_count", DECODE(AD1.PX_DOP, :B28 , NULL, AD1.PX_DOP) AS "dop", DECODE(AD1.PX_DOP, AD1.PX_MIN_DOP, NULL, AD1.PX_MIN_DOP) AS "min_dop", AD1.PX_ID AS "px", AD1.PX_STEP_ID AS "step", AD1.PX_STEP_ARG AS "arg", DECODE(AD1.ACTIVITY_COUNT, AD1.RESP_TIME, NULL, ROUND(AD1.RESP_TIME, 2)) AS "rt"), AD1.ACTIVITY_COUNT)) ORDER BY AD1.PX_STEP_ID, AD1.PX_STEP_ARG, AD1.DFO_PAIR_ROWNUM) ACTIVITY_BUCKET_XML FROM (SELECT AD01.*, CASE WHEN AD01.ACTIVITY_TYPE != 'Other SQL Execution' AND AD01.ACTIVITY_TYPE != 'Non SQL' THEN AD01.ACTIVITY_TYPE END CLASS, CASE WHEN (AD01.ACTIVITY_TYPE = 'Other SQL Execution' OR AD01.ACTIVITY_TYPE = 'Non SQL') THEN AD01.OTHER_SQL_ACTIVITY_TYPE END OTHER_SQL_CLASS, CASE WHEN AD01.ACTIVITY_TYPE != 'Other SQL Execution' AND AD01.ACTIVITY_TYPE != 'Non SQL' THEN AD01.EVENT_NAME END EVENT, C
ASE WHEN AD01.SQL IN ('this', 'anonymous') THEN NULL ELSE AD01.SQL END RPI, DECODE(AD01.ACTIVITY_TYPE, 'Other SQL Execution', SUBSTR(AD01.EVENT_NAME, 9), NULL) OTHER_SQL, DECODE(AD01.ACTIVITY_TYPE, 'Non SQL', AD01.EVENT_NAME, NULL) NON_SQL, ROW_NUMBER() OVER(PARTITION BY AD01.BUCKET_NUM, AD01.PX_DFO_PAIR_ID ORDER BY AD01.ACTIVITY_TYPE, AD01.EVENT_NAME, AD01.PLAN_LINE_ID) DFO_PAIR_ROWNUM FROM RESPONSE_TIME_DATA AD01) AD1 GROUP BY AD1.BUCKET_NUM) AD2) AH) ELSE NULL END, CASE WHEN :B23 = 'Y' THEN (SELECT XMLELEMENT( "parallel_info", XMLATTRIBUTES( :B17 AS "qc_instance_id", MAX_PX_QCSID AS "qc_session_id", MAX_PX_IS_CROSS_INSTANCE AS "is_cross_instance", MAX_PX_DOP AS "dop", MAX_PX_DOP_INSTANCES AS "max_dop_instances", DIST_INST_COUNT AS "inst_count", DIST_PX_GROUP_COUNT AS "server_group_count", DIST_PX_SET_COUNT AS "server_set_count"), CASE WHEN :B69 = 1 THEN PX_SESSIONS ELSE
NULL END, CASE WHEN :B67 = 'Y' THEN DECODE(:B68 , 1, PX_INSTANCES, NULL) ELSE NULL END) FROM (SELECT MAX_PX_QCSID, MAX_PX_DOP, MAX_PX_DOP_INSTANCES, MAX_PX_IS_CROSS_INSTANCE, SUM_SERVERS_REQUESTED, SUM_SERVERS_ALLOCATED, DIST_INST_COUNT, DIST_PX_GROUP_COUNT, DIST_PX_SET_COUNT, (SELECT XMLELEMENT( "sessions", XMLATTRIBUTES(MAX(PX_SESSION.ACTIVITY_COUNT) AS "max_activity_count", MAX(PX_SESSION.IMQ_COUNT) AS "max_imq_count", MAX(PX_SESSION.CPU_COUNT) AS "max_cpu_count", MAX(PX_SESSION.WAIT_COUNT) AS "max_wait_count", MAX(PX_SESSION.OTHER_SQL_COUNT) AS "max_other_sql_count", MAX(PX_SESSION.MAX_IO_REQS) AS "max_io_reqs", MAX(PX_SESSION.MAX_IO_BYTES) AS "max_io_bytes", MAX(PX_SESSION.MAX_BUFFER_GETS) AS "max_buffer_gets", MAX(PX_SESSION.MAX_ELAPSED_TIME) AS "max_elapsed_time"), XMLAGG(PX_SESSION.PX_SESSION_XML ORDER BY PX_SERVER_GROUP NULLS FIRST, PX_SERVER_SET, PX_SER
VER#)) FROM (SELECT PX_SERVER_GROUP, PX_SERVER_SET, PX_SERVER#, MAX(PI.MAX_ELAPSED_TIME) MAX_ELAPSED_TIME, MAX(PI.MAX_IO_REQS) MAX_IO_REQS, MAX(PI.MAX_IO_BYTES) MAX_IO_BYTES, MAX(PI.MAX_BUFFER_GETS) MAX_BUFFER_GETS, SUM(PI.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(PI.IMQ_COUNT) IMQ_COUNT, SUM(PI.WAIT_COUNT) WAIT_COUNT, SUM(PI.CPU_COUNT) CPU_COUNT, SUM(PI.OTHER_SQL_COUNT) OTHER_SQL_COUNT, XMLELEMENT( "session", XMLATTRIBUTES( INST_ID AS "inst_id", PROCESS_NAME AS "process_name", SID AS "session_id", SESSION_SERIAL# AS "session_serial", PX_SERVER_GROUP AS "server_group", PX_SERVER_SET AS "server_set", PX_SERVER# AS "server_num"), XMLELEMENT( "stats", XMLATTRIBUTES( 'monitor' AS "type"), NVL2(MAX(ELAPSED_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('elapsed_time' AS "name"), MAX(ELAPSED_TIME)), NULL), NVL2(MAX(QUEUING_TIME), XMLELEMENT( "stat"
, XMLATTRIBUTES('queuing_time' AS "name"), MAX(QUEUING_TIME)), NULL), NVL2(MAX(CPU_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('cpu_time' AS "name"), MAX(CPU_TIME)), NULL), NVL2(MAX(USER_IO_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('user_io_wait_time' AS "name"), MAX(USER_IO_WAIT_TIME)), NULL), NVL2(MAX(APPLICATION_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('application_wait_time' AS "name"), MAX(APPLICATION_WAIT_TIME)), NULL), NVL2(MAX(CONCURRENCY_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('concurrency_wait_time' AS "name"), MAX(CONCURRENCY_WAIT_TIME)), NULL), NVL2(MAX(CLUSTER_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('cluster_wait_time' AS "name"), MAX(CLUSTER_WAIT_TIME)), NULL), NVL2(MAX(PLSQL_EXEC_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('plsql_exec_time' AS "name"), MAX(PLSQL_EXEC_TIME)), NULL), NVL2(MAX(JAVA
_EXEC_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('java_exec_time' AS "name"), MAX(JAVA_EXEC_TIME)), NULL), NVL2(MAX(OTHER_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES( 'other_wait_time' AS "name"), MAX(OTHER_WAIT_TIME)), NULL), NVL2(MAX(FETCHES), XMLELEMENT( "stat", XMLATTRIBUTES('user_fetch_count' AS "name"), MAX(FETCHES)), NULL), NVL2(MAX(BUFFER_GETS), XMLELEMENT( "stat", XMLATTRIBUTES('buffer_gets' AS "name"), MAX(BUFFER_GETS)), NULL), NVL2(MAX(READ_REQS), XMLELEMENT( "stat", XMLATTRIBUTES('disk_reads' AS "name"), MAX(READ_REQS)), NULL), NVL2(MAX(WRITE_REQS), XMLELEMENT( "stat", XMLATTRIBUTES('direct_writes' AS "name"), MAX(WRITE_REQS)), NULL), NVL2(MAX(READ_REQS), XMLELEMENT( "stat", XMLATTRIBUTES('read_reqs' AS "name"), MAX(READ_REQS)), NULL), NVL2(MAX(READ_BYTES), XMLELEMENT( "stat", XMLATTRIBUTES
('read_bytes' AS "name"), MAX(READ_BYTES)), NULL), NVL2(MAX(WRITE_REQS), XMLELEMENT( "stat", XMLATTRIBUTES('write_reqs' AS "name"), MAX(WRITE_REQS)), NULL), NVL2(MAX(WRITE_BYTES), XMLELEMENT( "stat", XMLATTRIBUTES('write_bytes' AS "name"), MAX(WRITE_BYTES)), NULL), CASE WHEN MAX(IO_INTER_BYTES) IS NULL OR NVL(MAX(IO_BYTES), 0) = 0 OR MAX(IO_INTER_BYTES) = MAX(IO_BYTES) THEN NULL ELSE XMLELEMENT( "stat", XMLATTRIBUTES('cell_offload_efficiency' AS "name"), ROUND(MAX(IO_BYTES) / DECODE(MAX(IO_INTER_BYTES), 0, 1, MAX(IO_INTER_BYTES)), 2)) END), CASE WHEN SUM(PI.ACTIVITY_COUNT) > 0 AND :B33 = 1 THEN XMLELEMENT( "activity_sampled", XMLATTRIBUTES( TO_CHAR(MIN(PI.ACTIVITY_START), :B12 ) AS "first_sample_time", TO_CHAR(MAX(PI.ACTIVITY_END), :B12 ) AS "last_sample_time", ROUND((MAX(PI.ACTIVITY_END) - MIN(PI.ACTIVITY_START)) * 3600 * 24) + 1 AS "duration", SU
M(PI.ACTIVITY_COUNT) AS "count", SUM(PI.IMQ_COUNT) AS "imq_count", SUM(PI.CPU_COUNT) AS "cpu_count", SUM(PI.WAIT_COUNT) AS "wait_count", SUM(PI.OTHER_SQL_COUNT)AS "other_sql_count", :B40 AS "cpu_cores", :B39 AS "hyperthread"), XMLAGG( NVL2(ACTIVITY_TYPE, XMLELEMENT( "activity", XMLATTRIBUTES( PI.ACTIVITY_TYPE AS "class", PI.EVENT_NAME AS "event"), ACTIVITY_COUNT), NULL) ORDER BY PI.ACTIVITY_TYPE, PI.EVENT_NAME)) ELSE NULL END, CASE WHEN :B61 = 1 AND PI.HAS_OTHER_XML = 'Y' THEN (SELECT XMLTYPE(OTHER_XML) FROM GV$SQL_MONITOR MON WHERE MON.INST_ID = PI.INST_ID AND MON.KEY = PI.KEY AND MON.SID = PI.SID AND MON.SQL_ID = :B9 AND MON.SQL_EXEC_START = :B8 AND MON.SQL_EXEC_ID = :B7 AND ROWNUM = 1) ELSE NULL END) PX_SESSION_XML FROM (SELECT MO.HAS_OTHER_XML, MO.KEY, MO.INST_ID, DECODE(MO.PROCESS_NAME, 'ora', 'PX Coordinator', MO.PROCESS_NAME) PROCESS_NAME, MO.SID, MO.SESSION_
SERIAL#, MO.PX_SERVER_GROUP, MO.PX_SERVER_SET, MO.PX_SERVER#, ASH0.ACTIVITY_TYPE, ASH0.EVENT_NAME, MAX(MO.IO_REQS) MAX_IO_REQS, MAX(MO.IO_BYTES) MAX_IO_BYTES, MAX(MO.BUFFER_GETS) MAX_BUFFER_GETS, MAX(MO.ELAPSED_TIME) MAX_ELAPSED_TIME, SUM(DECODE(ASH0.ACTIVITY_TYPE, NULL, NULL, ASH0.ACTIVITY_COUNT)) ACTIVITY_COUNT, SUM(DECODE(ASH0.ACTIVITY_TYPE, NULL, NULL, ASH0.IMQ_COUNT)) IMQ_COUNT, SUM(DECODE(ASH0.ACTIVITY_TYPE, NULL, NULL, ASH0.WAIT_COUNT)) WAIT_COUNT, SUM(DECODE(ASH0.ACTIVITY_TYPE, NULL, NULL, ASH0.CPU_COUNT)) CPU_COUNT, SUM(DECODE(ASH0.ACTIVITY_TYPE, NULL, NULL, ASH0.OTHER_SQL_COUNT)) OTHER_SQL_COUNT, MIN(ASH0.ACTIVITY_START) ACTIVITY_START, MAX(ASH0.ACTIVITY_END) ACTIVITY_END, MAX(DECODE(MO.ELAPSED_TIME, 0, NULL, MO.ELAPSED_TIME)) ELAPSED_TIME, MAX(DECODE(MO.QUEUING_TIME, 0, NULL, MO.QUEUING_TIME)) QUEUING_TIME, MAX(DECODE(MO.CPU_TIME, 0, NULL, CPU_TIME)) CPU_TIME, MAX(DECODE(MO.FETCHES, 0, NULL, FETCHES)) FETCHES, MAX(DECODE(MO.BUF
FER_GETS, 0, NULL, MO.BUFFER_GETS)) BUFFER_GETS, MAX(DECODE(MO.IO_INTER_BYTES, 0, NULL, MO.IO_INTER_BYTES)) IO_INTER_BYTES, MAX(DECODE(MO.READ_REQS, 0, NULL, MO.READ_REQS)) READ_REQS, MAX(DECODE(MO.READ_BYTES, 0, NULL, MO.READ_BYTES)) READ_BYTES, MAX(DECODE(MO.WRITE_REQS, 0, NULL, MO.WRITE_REQS)) WRITE_REQS, MAX(DECODE(MO.WRITE_BYTES, 0, NULL, MO.WRITE_BYTES)) WRITE_BYTES, MAX(DECODE(MO.IO_BYTES, 0, NULL, MO.IO_BYTES)) IO_BYTES, MAX(DECODE(MO.APPLICATION_WAIT_TIME, 0, NULL, MO.APPLICATION_WAIT_TIME)) APPLICATION_WAIT_TIME, MAX(DECODE(MO.CONCURRENCY_WAIT_TIME, 0, NULL, MO.CONCURRENCY_WAIT_TIME)) CONCURRENCY_WAIT_TIME, MAX(DECODE(MO.CLUSTER_WAIT_TIME, 0, NULL, MO.CLUSTER_WAIT_TIME)) CLUSTER_WAIT_TIME, MAX(DECODE(MO.USER_IO_WAIT_TIME, 0, NULL, MO.USER_IO_WAIT_TIME)) USER_IO_WAIT_TIME, MAX(DECODE(PLSQL_EXEC_TIME, 0, NULL, PLSQL_EXEC_TIME)) PLSQL_EXEC_TIME, MAX(DECODE(MO.JAVA_EXEC_TIME, 0, NULL, MO.JAVA_EXEC_TIME)) JAVA_EXEC_TIME, MAX(DECO
DE(MO.OTHER_WAIT_TIME, 0, NULL, MO.OTHER_WAIT_TIME)) OTHER_WAIT_TIME FROM MONITOR_DATA MO, (SELECT ASH1.INST_ID, ASH1.SESSION_ID, ASH1.ACTIVITY_TYPE, ASH1.EVENT_NAME, SUM(ASH1.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(ASH1.IMQ_COUNT) IMQ_COUNT, SUM(ASH1.WAIT_COUNT) WAIT_COUNT, SUM(ASH1.CPU_COUNT) CPU_COUNT, SUM(ASH1.OTHER_SQL_COUNT)OTHER_SQL_COUNT, MIN(ASH1.ACTIVITY_START) ACTIVITY_START, MAX(ASH1.ACTIVITY_END) ACTIVITY_END FROM ASH_DATA ASH1 GROUP BY ASH1.INST_ID, ASH1.SESSION_ID, ASH1.ACTIVITY_TYPE, ASH1.EVENT_NAME) ASH0 WHERE MO.INST_ID = ASH0.INST_ID(+) AND MO.SID = ASH0.SESSION_ID(+) AND (:B69 = 1 OR :B68 = 1) GROUP BY MO.INST_ID, MO.KEY, MO.HAS_OTHER_XML, MO.PROCESS_NAME, MO.SID, MO.SESSION_SERIAL#, MO.PX_SERVER_GROUP, MO.PX_SERVER_SET, MO.PX_SERVER#, ASH0.ACTIVITY_TYPE, ASH0.EVENT_NAME) PI WHERE (:B69 = 1) GROUP BY PI.INST_ID, PI.KEY, PI.HAS_OTHER_XML, PI.SID, PI.PROCESS_NAME, PI.SESSION_SERIAL#, PI.PX_SERVER_GROUP, PI.PX_SERVER_SET, PI.PX_SERVER#) P
X_SESSION) PX_SESSIONS, (SELECT XMLELEMENT( "instances", XMLATTRIBUTES( MAX(PX_INSTANCE.ACTIVITY_COUNT) AS "max_activity_count", MAX(PX_INSTANCE.IMQ_COUNT) AS "max_imq_count", MAX(PX_INSTANCE.CPU_COUNT) AS "max_cpu_count", MAX(PX_INSTANCE.WAIT_COUNT) AS "max_wait_count", MAX(PX_INSTANCE.OTHER_SQL_COUNT) AS "max_other_sql_count", MAX(PX_INSTANCE.ELAPSED_TIME) AS "max_elapsed_time", MAX(PX_INSTANCE.BUFFER_GETS) AS "max_buffer_gets", MAX(PX_INSTANCE.IO_REQS) AS "max_io_reqs", MAX(PX_INSTANCE.IO_BYTES) AS "max_io_bytes"), XMLAGG(PX_INSTANCE.PX_INSTANCES_XML ORDER BY INST_ID)) FROM (SELECT PI.INST_ID, MAX(PI.ELAPSED_TIME) ELAPSED_TIME, MAX(PI.IO_REQS) IO_REQS, MAX(PI.IO_BYTES) IO_BYTES, MAX(PI.BUFFER_GETS) BUFFER_GETS, SUM(PI.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(PI.IMQ_COUNT) IMQ_COUNT, SUM(PI.WAIT_COUNT) WAIT_COUNT, SUM(PI.CPU_COUNT) CPU_COUNT, SUM(PI.OTHER_SQL_COUNT) OTHE
R_SQL_COUNT, XMLELEMENT( "instance", XMLATTRIBUTES( INST_ID AS "inst_id"), XMLELEMENT( "stats", XMLATTRIBUTES( 'monitor' AS "type"), NVL2(MAX(ELAPSED_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('elapsed_time' AS "name"), MAX(ELAPSED_TIME)), NULL), NVL2(MAX(QUEUING_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('queuing_time' AS "name"), MAX(QUEUING_TIME)), NULL), NVL2(MAX(CPU_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('cpu_time' AS "name"), MAX(CPU_TIME)), NULL), NVL2(MAX(USER_IO_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('user_io_wait_time' AS "name"), MAX(USER_IO_WAIT_TIME)), NULL), NVL2(MAX(APPLICATION_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('application_wait_time' AS "name"), MAX(APPLICATION_WAIT_TIME)), NULL), NVL2(MAX(CONCURRENCY_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('concurrency_wait_time' AS
"name"), MAX(CONCURRENCY_WAIT_TIME)), NULL), NVL2(MAX(CLUSTER_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('cluster_wait_time' AS "name"), MAX(CLUSTER_WAIT_TIME)), NULL), NVL2(MAX(PLSQL_EXEC_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('plsql_exec_time' AS "name"), MAX(PLSQL_EXEC_TIME)), NULL), NVL2(MAX(JAVA_EXEC_TIME), XMLELEMENT( "stat", XMLATTRIBUTES('java_exec_time' AS "name"), MAX(JAVA_EXEC_TIME)), NULL), NVL2(MAX(OTHER_WAIT_TIME), XMLELEMENT( "stat", XMLATTRIBUTES( 'other_wait_time' AS "name"), MAX(OTHER_WAIT_TIME)), NULL), NVL2(MAX(FETCHES), XMLELEMENT( "stat", XMLATTRIBUTES('user_fetch_count' AS "name"), MAX(FETCHES)), NULL), NVL2(MAX(BUFFER_GETS), XMLELEMENT( "stat", XMLATTRIBUTES('buffer_gets' AS "name"), MAX(BUFFER_GETS)), NULL), NVL2(MAX(READ_REQS), XMLELEMENT( "stat", XMLATTRIBUTES('disk_reads' AS "
name"), MAX(READ_REQS)), NULL), NVL2(MAX(WRITE_REQS), XMLELEMENT( "stat", XMLATTRIBUTES('direct_writes' AS "name"), MAX(WRITE_REQS)), NULL), NVL2(MAX(READ_REQS), XMLELEMENT( "stat", XMLATTRIBUTES('read_reqs' AS "name"), MAX(READ_REQS)), NULL), NVL2(MAX(READ_BYTES), XMLELEMENT( "stat", XMLATTRIBUTES('read_bytes' AS "name"), MAX(READ_BYTES)), NULL), NVL2(MAX(WRITE_REQS), XMLELEMENT( "stat", XMLATTRIBUTES('write_reqs' AS "name"), MAX(WRITE_REQS)), NULL), NVL2(MAX(WRITE_BYTES), XMLELEMENT( "stat", XMLATTRIBUTES('write_bytes' AS "name"), MAX(WRITE_BYTES)), NULL), CASE WHEN MAX(IO_INTER_BYTES) IS NULL OR NVL(MAX(IO_BYTES), 0) = 0 OR MAX(IO_INTER_BYTES) = MAX(IO_BYTES) THEN NULL ELSE XMLELEMENT( "stat", XMLATTRIBUTES('cell_offload_efficiency' AS "name"), ROUND(MAX(IO_BYTES)/ DECODE(MAX(IO_INTER_BYTES), 0, 1, MAX(IO_INTER_BYTES)), 2)) E
ND), CASE WHEN :B33 = 1 AND SUM(PI.ACTIVITY_COUNT) > 0 THEN XMLELEMENT( "activity_sampled", XMLATTRIBUTES( TO_CHAR(MIN(PI.ACTIVITY_START), :B12 ) AS "start_time", TO_CHAR(MAX(PI.ACTIVITY_END), :B12 ) AS "end_time", ROUND((MAX(PI.ACTIVITY_END) - MIN(PI.ACTIVITY_START)) * 3600 * 24) + 1 AS "duration", SUM(PI.ACTIVITY_COUNT) AS "count", SUM(PI.IMQ_COUNT) AS "imq_count", SUM(PI.WAIT_COUNT) AS "wait_count", SUM(PI.CPU_COUNT) AS "cpu_count", SUM(PI.OTHER_SQL_COUNT) AS "other_sql_count", :B40 AS "cpu_cores", :B39 AS "hyperthread"), XMLAGG( NVL2(ACTIVITY_TYPE, XMLELEMENT( "activity", XMLATTRIBUTES( PI.ACTIVITY_TYPE AS "class", PI.EVENT_NAME AS "event"), ACTIVITY_COUNT), NULL) ORDER BY PI.ACTIVITY_TYPE, PI.EVENT_NAME)) ELSE NULL END) PX_INSTANCES_XML FROM (SELECT MO.INST_ID, ASH.ACTIVITY_TYPE, ASH.EVENT_NAME, ASH.ACTIVITY_COUNT, A
SH.IMQ_COUNT, ASH.WAIT_COUNT, ASH.CPU_COUNT, ASH.OTHER_SQL_COUNT, ASH.ACTIVITY_START, ASH.ACTIVITY_END, MO.ELAPSED_TIME, MO.QUEUING_TIME, MO.CPU_TIME, MO.APPLICATION_WAIT_TIME, MO.CONCURRENCY_WAIT_TIME, MO.CLUSTER_WAIT_TIME, MO.USER_IO_WAIT_TIME, MO.PLSQL_EXEC_TIME, MO.JAVA_EXEC_TIME, MO.OTHER_WAIT_TIME, MO.FETCHES, MO.BUFFER_GETS, MO.IO_INTER_BYTES, MO.IO_BYTES, MO.READ_REQS, MO.READ_BYTES, MO.WRITE_REQS, MO.WRITE_BYTES, MO.IO_REQS FROM (SELECT MO0.INST_ID, SUM(MO0.ELAPSED_TIME) ELAPSED_TIME, SUM(MO0.QUEUING_TIME) QUEUING_TIME, SUM(MO0.CPU_TIME) CPU_TIME, SUM(MO0.FETCHES) FETCHES, SUM(MO0.BUFFER_GETS) BUFFER_GETS, SUM(MO0.IO_INTER_BYTES) IO_INTER_BYTES, SUM(MO0.IO_BYTES) IO_BYTES, SUM(MO0.READ_REQS) READ_REQS, SUM(MO0.READ_BYTES) READ_BYTES, SUM(MO0.WRITE_REQS) WRITE_REQS, SUM(MO0.WRITE_BYTES) WRITE_BYTES, SUM(MO0.IO_REQS) IO_REQS, SUM(MO0.APPLICATION_WAIT_TIME) APPLICATION_WAIT_TIME, SUM(MO0.CONCURRENCY_WAIT_TIME) CONCURRENCY_WAIT_TIME, SUM(MO0.
CLUSTER_WAIT_TIME) CLUSTER_WAIT_TIME, SUM(MO0.USER_IO_WAIT_TIME) USER_IO_WAIT_TIME, SUM(MO0.PLSQL_EXEC_TIME) PLSQL_EXEC_TIME, SUM(MO0.JAVA_EXEC_TIME) JAVA_EXEC_TIME, SUM(MO0.OTHER_WAIT_TIME) OTHER_WAIT_TIME FROM MONITOR_DATA MO0 GROUP BY MO0.INST_ID) MO, (SELECT ASH0.INST_ID, ASH0.ACTIVITY_TYPE, ASH0.EVENT_NAME, SUM(ASH0.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(ASH0.IMQ_COUNT) IMQ_COUNT, SUM(ASH0.WAIT_COUNT) WAIT_COUNT, SUM(ASH0.CPU_COUNT) CPU_COUNT, SUM(ASH0.OTHER_SQL_COUNT) OTHER_SQL_COUNT, MIN(ASH0.ACTIVITY_START) ACTIVITY_START, MAX(ASH0.ACTIVITY_END) ACTIVITY_END FROM ASH_DATA ASH0 GROUP BY ASH0.INST_ID, ASH0.ACTIVITY_TYPE, ASH0.EVENT_NAME) ASH, MONITOR_AGG WHERE MO.INST_ID = ASH.INST_ID(+) AND MONITOR_AGG.DIST_INST_COUNT > 0 ) PI GROUP BY PI.INST_ID)PX_INSTANCE) PX_INSTANCES FROM MONITOR_AGG)) ELSE NULL END, XPLAN_XML, CASE WHEN :B43 = 1 THEN (SELECT XMLELEMENT( "plan_monitor", XMLATTRIBUTES(MAX(PLI.MAX_LINE_ACTIVITY_COUNT) AS "max_activity_count
", MAX(PLI.OVERALL_MAX_IO_REQS) AS "max_io_reqs", MAX(PLI.OVERALL_MAX_IO_BYTES) AS "max_io_bytes", MAX(PLI.MAX_LINE_IMQ_COUNT) AS "max_imq_count", MAX(PLI.MAX_LINE_CPU_COUNT) AS "max_cpu_count", MAX(PLI.MAX_LINE_WAIT_COUNT) AS "max_wait_count", MAX(PLI.MAX_LINE_OTHER_SQL_COUNT) AS "max_other_sql_count"), XMLAGG( XMLELEMENT( "operation", XMLATTRIBUTES( PLI.PLAN_LINE_ID AS "id", PLI.PARENT_ID AS "parent_id", PLI.OPERATION AS "name", PLI.OPTIONS AS "options", PLI.DEPTH AS "depth", PLI.POSITION AS "position", PLI.INACTIVE AS "skp", PLI.PX_TYPE AS "px_type"), NVL2(PLI.OBJECT_NAME, XMLELEMENT( "object", XMLATTRIBUTES(PLI.OBJECT_TYPE AS "type"), XMLFOREST(PLI.OBJECT_OWNER AS "owner"), XMLFOREST(PLI.OBJECT_NAME AS "name")), NULL), XMLFOREST(PLI.PARTITION_START AS "partition_s
tart", PLI.PARTITION_STOP AS "partition_stop"), CASE WHEN PLI.CARDINALITY IS NULL AND PLI.BYTES IS NULL AND PLI.COST IS NULL AND PLI.TEMP_SPACE IS NULL AND PLI.TIME IS NULL THEN NULL ELSE XMLELEMENT( "optimizer", NULL, NVL2(PLI.CARDINALITY, XMLFOREST(PLI.CARDINALITY AS "cardinality"), NULL), NVL2(PLI.BYTES, XMLFOREST(PLI.BYTES AS "bytes"), NULL), NVL2(PLI.COST, XMLFOREST(PLI.COST AS "cost"), NULL), NVL2(PLI.CPU_COST, XMLFOREST(PLI.CPU_COST AS "cpu_cost"), NULL), NVL2(PLI.IO_COST, XMLFOREST(PLI.IO_COST AS "io_cost"), NULL), NVL2(PLI.TEMP_SPACE, XMLFOREST(PLI.TEMP_SPACE AS "temp"), NULL), NVL2(PLI.TIME, XMLFOREST(PLI.TIME AS "time"), NULL)) END, XMLELEMENT( "stats", XMLATTRIBUTES('plan_monitor' AS "type"), NVL2(PLI.FIRST_MOVE_TIME, XMLELEMENT( "stat", XMLATTRIBUTES('first_active' AS "name"), TO_CHAR(FIRST_MOVE_TIME, :B12 )),
NULL), CASE WHEN PLI.FIRST_MOVE_TIME != PLI.FIRST_CHANGE_TIME THEN XMLELEMENT( "stat", XMLATTRIBUTES('first_row' AS "name"), TO_CHAR(FIRST_CHANGE_TIME, :B12 )) ELSE NULL END, NVL2(PLI.LAST_MOVE_TIME, XMLELEMENT( "stat", XMLATTRIBUTES('last_active' AS "name"), TO_CHAR(LAST_MOVE_TIME, :B12 )), NULL), CASE WHEN (PLI.FIRST_MOVE_TIME IS NULL OR PLI.LAST_MOVE_TIME IS NULL) THEN NULL ELSE XMLELEMENT( "stat", XMLATTRIBUTES('duration' AS "name"), ROUND((LAST_MOVE_TIME - FIRST_MOVE_TIME) * 3600 * 24)+1) END, CASE WHEN (PLI.OVERALL_LAST_MOVE_TIME IS NULL OR PLI.LAST_MOVE_TIME IS NULL) THEN NULL ELSE XMLELEMENT( "stat", XMLATTRIBUTES('from_most_recent' AS "name"), ROUND((PLI.OVERALL_LAST_MOVE_TIME - PLI.LAST_MOVE_TIME) * 3600 * 24)) END, NVL2(PLI.LAST_MOVE_TIME, XMLELEMENT( "stat", XMLATTRIBUTES( 'from_sql_exec_start' AS "name"), ROUND( (FIRST_MOVE_TIME - :B8 ) * 3600*24)), NU
LL), NVL2(PLI.PERCENT_COMPLETE, XMLELEMENT( "stat", XMLATTRIBUTES('percent_complete' AS "name"), PLI.PERCENT_COMPLETE), NULL), NVL2(PLI.TIME_REMAINING, XMLELEMENT( "stat", XMLATTRIBUTES('time_left' AS "name"), PLI.TIME_REMAINING), NULL), CASE WHEN PLI.HAS_EXECUTED = 1 THEN XMLELEMENT( "stat", XMLATTRIBUTES('starts' AS "name"), PLI.STARTS) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.HAS_EXECUTED = 1 THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'max_starts' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(MAX_STARTS/1000000), 10000), NULL) AS "iid", MOD(MAX_STARTS, 1000000) AS "sid"), TRUNC(PLI.MAX_STARTS/10000000000)) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.HAS_EXECUTED = 1 THEN XMLELEMENT( "stat", XMLATTRIBUTES('dop' AS "name"), PLI.DOP) ELSE NULL END, CASE WHEN NEED_ROWS IS NOT NULL AND PLI.FIRST_MOVE_TIME IS NOT NULL THEN XMLELEMENT( "s
tat", XMLATTRIBUTES('cardinality' AS "name"), PLI.OUTPUT_ROWS) ELSE NULL END, CASE WHEN PLI.NEED_ROWS IS NOT NULL AND PLI.DOP > 0 AND PLI.MAX_OUTPUT_ROWS IS NOT NULL AND (PLI.FIRST_MOVE_TIME IS NOT NULL) THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'max_card' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(MAX_OUTPUT_ROWS/1000000), 10000), NULL) AS "iid", MOD(MAX_OUTPUT_ROWS, 1000000) AS "sid"), TRUNC(PLI.MAX_OUTPUT_ROWS/10000000000)) ELSE NULL END, CASE WHEN PLI.MEM > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES('memory' AS "name"), PLI.MEM) ELSE NULL END, CASE WHEN PLI.MAX_MEM > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES('max_memory' AS "name"), PLI.MAX_MEM) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.MIN_MAX_MEM IS NOT NULL AND PLI.MAX_MEM > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'min_max_mem' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(MIN_MAX_MEM/10
00000), 10000), NULL) AS "iid", MOD(MIN_MAX_MEM, 1000000) AS "sid"), TRUNC(PLI.MIN_MAX_MEM/10000000000)) ELSE NULL END, CASE WHEN PLI.TEMP > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES('temp' AS "name"), PLI.TEMP) ELSE NULL END, CASE WHEN PLI.MAX_TEMP > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES('max_temp' AS "name"), PLI.MAX_TEMP) ELSE NULL END, CASE WHEN PLI.MAX_TEMP > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES('spill_count' AS "name"), PLI.SPILL_COUNT) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.MAX_MAX_TEMP IS NOT NULL AND PLI.MAX_TEMP > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'max_max_temp' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(MAX_MAX_TEMP/1000000), 10000), NULL) AS "iid", MOD(MAX_MAX_TEMP, 1000000) AS "sid"), TRUNC(PLI.MAX_MAX_TEMP/10000000000)) ELSE NULL END, CASE WHEN PLI.READ_REQS > 0 THEN XMLELEMENT( "stat"
, XMLATTRIBUTES('read_reqs' AS "name"), PLI.READ_REQS) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.MAX_READ_REQS IS NOT NULL AND PLI.READ_REQS > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'max_read_reqs' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(PLI.MAX_READ_REQS/1000000), 10000), NULL) AS "iid", MOD(PLI.MAX_READ_REQS, 1000000) AS "sid"), TRUNC(PLI.MAX_READ_REQS/10000000000)) ELSE NULL END, CASE WHEN PLI.READ_BYTES > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES('read_bytes' AS "name"), PLI.READ_BYTES) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.MAX_READ_BYTES IS NOT NULL AND PLI.READ_BYTES > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'max_read_bytes' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(PLI.MAX_READ_BYTES/1000000), 10000), NULL) AS "iid", MOD(PLI.MAX_READ_BYTES, 1000000) AS "sid"), TRUNC(PLI.MAX_READ_BYTES/10000000000)) ELSE NULL END, CASE
WHEN PLI.WRITE_REQS > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES('write_reqs' AS "name"), PLI.WRITE_REQS) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.MAX_WRITE_REQS IS NOT NULL AND PLI.WRITE_REQS > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'max_write_reqs' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(PLI.MAX_WRITE_REQS/1000000), 10000), NULL) AS "iid", MOD(PLI.MAX_WRITE_REQS, 1000000) AS "sid"), TRUNC(PLI.MAX_WRITE_REQS/10000000000)) ELSE NULL END, CASE WHEN PLI.WRITE_BYTES > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES('write_bytes' AS "name"), PLI.WRITE_BYTES) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.MAX_WRITE_BYTES IS NOT NULL AND PLI.WRITE_BYTES > 0 THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'max_write_bytes' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(PLI.MAX_WRITE_BYTES/1000000), 10000), NULL) AS "iid", MOD(PLI.MAX_WRITE_BYTES, 1000000) AS
"sid"), TRUNC(PLI.MAX_WRITE_BYTES/10000000000)) ELSE NULL END, CASE WHEN PLI.IO_INTER_BYTES IS NOT NULL AND PLI.IO_BYTES > 0 AND PLI.IO_BYTES != PLI.IO_INTER_BYTES THEN XMLELEMENT( "stat", XMLATTRIBUTES('io_inter_bytes' AS "name"), PLI.IO_INTER_BYTES) ELSE NULL END, CASE WHEN PLI.DOP > 0 AND PLI.MAX_IO_INTER_BYTES IS NOT NULL AND PLI.IO_BYTES > 0 AND PLI.IO_BYTES != PLI.IO_INTER_BYTES THEN XMLELEMENT( "stat", XMLATTRIBUTES( 'max_io_inter_bytes' AS "name", DECODE(:B67 , 'Y', MOD(TRUNC(MAX_IO_INTER_BYTES/1000000), 10000), NULL) AS "iid", MOD(MAX_IO_INTER_BYTES, 1000000) AS "sid"), TRUNC(PLI.MAX_IO_INTER_BYTES/10000000000)) ELSE NULL END, CASE WHEN PLI.IO_INTER_BYTES IS NOT NULL AND PLI.IO_BYTES > 0 AND PLI.IO_BYTES != PLI.IO_INTER_BYTES THEN XMLELEMENT( "stat", XMLATTRIBUTES('cell_offload_efficiency' AS "name"), ROUND(PLI.IO_BYTES / DECODE(PLI.IO_INTER_BYTES, 0, 1, PLI
.IO_INTER_BYTES), 2)) ELSE NULL END), NVL2(STAT_GID, XMLELEMENT( "rwsstats", XMLATTRIBUTES( PLI.STAT_GID AS "group_id"), DECODE(GID_ROWNUM, 1, (SELECT XMLELEMENT( "metadata", NULL, XMLAGG( XMLELEMENT( "stat", XMLATTRIBUTES( ROWNUM AS "id", NAME AS "name", DESCRIPTION AS "desc", TYPE AS "type", DECODE(FLAGS, 0, NULL, FLAGS) AS "flags"), NULL) ORDER BY ID)) FROM V$SQL_MONITOR_STATNAME WHERE GROUP_ID = PLI.STAT_GID), NULL), NVL2(STAT1_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(1 AS "id"), STAT1_VALUE), NULL), NVL2(STAT2_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(2 AS "id"), STAT2_VALUE), NULL), NVL2(STAT3_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(3 AS "id"), STAT3_VALUE), NULL), NVL2(STAT4_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(4 AS "id"), STAT4_VALUE), NULL), NVL2(STAT5_VALUE, XMLELE
MENT( "stat", XMLATTRIBUTES(5 AS "id"), STAT5_VALUE), NULL), NVL2(STAT6_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(6 AS "id"), STAT6_VALUE), NULL), NVL2(STAT7_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(7 AS "id"), STAT7_VALUE), NULL), NVL2(STAT8_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(8 AS "id"), STAT8_VALUE), NULL), NVL2(STAT9_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(9 AS "id"), STAT9_VALUE), NULL), NVL2(STAT10_VALUE, XMLELEMENT( "stat", XMLATTRIBUTES(10 AS "id"), STAT10_VALUE), NULL)), NULL), CASE WHEN PLI.LINE_ACTIVITY_COUNT > 0 AND :B33 = 1 THEN XMLELEMENT( "activity_sampled", XMLATTRIBUTES( TO_CHAR(PLI.LINE_ACTIVITY_START, :B12 ) AS "start_time", TO_CHAR(PLI.LINE_ACTIVITY_END, :B12 ) AS "end_time", ROUND((PLI.LINE_ACTIVITY_END - PLI.LINE_ACTIVITY_START) * 3600*24) + 1 AS "duration", PLI.L
INE_ACTIVITY_COUNT AS "count", PLI.LINE_IMQ_COUNT AS "imq_count", PLI.LINE_WAIT_COUNT AS "wait_count", PLI.LINE_CPU_COUNT AS "cpu_count", PLI.LINE_OTHER_SQL_COUNT AS "other_sql_count", :B40 AS "cpu_cores", :B39 AS "hyperthread"), PLI.ACTIVITY_TOTAL, PLI.PLAN_ACTIVITY_HISTO) ELSE NULL END) ORDER BY PLI.PLAN_LINE_ID) ) FROM (SELECT AT.MAX_LINE_ACTIVITY_COUNT, PM.OVERALL_MAX_IO_REQS, PM.OVERALL_MAX_IO_BYTES, AT.MAX_LINE_IMQ_COUNT, AT.MAX_LINE_CPU_COUNT, AT.MAX_LINE_WAIT_COUNT, AT.LINE_OTHER_SQL_COUNT, AT.MAX_LINE_OTHER_SQL_COUNT, PM.PLAN_LINE_ID, PM.PARENT_ID, PM.OPERATION, PM.OPTIONS, PM.DEPTH, PM.POSITION, PM.INACTIVE, CASE WHEN PM.OPERATION = 'PX COORDINATOR' AND :B23 = 'Y' AND (PM.PX_SERVER_SET IS NOT NULL OR AH.PX_SERVER_SET IS NOT NULL) THEN 'QC' WHEN PM.PX_SERVER_SET IS NOT NULL THEN TO_CHAR(PM.PX_SERVER_SET) WHEN AH.PX_SERVER_SET IS NOT NULL THEN TO_CHAR(AH.PX_SERVER_SET) WHEN (:B23 = 'N'
OR (PM.LAST_CHANGE_TIME IS NULL AND AT.LINE_ACTIVITY_END IS NULL)) THEN NULL ELSE 'QC' END PX_TYPE, PM.FIRST_CHANGE_TIME, AT.LINE_ACTIVITY_START, PM.LAST_CHANGE_TIME, PM.OVERALL_LAST_CHANGE_TIME, AT.LINE_ACTIVITY_END, AT.OVERALL_LINE_ACTIVITY_END, LEAST(NVL(AT.LINE_ACTIVITY_START, PM.FIRST_CHANGE_TIME), NVL(PM.FIRST_CHANGE_TIME, AT.LINE_ACTIVITY_START)) FIRST_MOVE_TIME, GREATEST(NVL(AT.LINE_ACTIVITY_END, PM.LAST_CHANGE_TIME), NVL(PM.LAST_CHANGE_TIME, AT.LINE_ACTIVITY_END)) LAST_MOVE_TIME, GREATEST(NVL(AT.OVERALL_LINE_ACTIVITY_END, PM.OVERALL_LAST_CHANGE_TIME), NVL(PM.OVERALL_LAST_CHANGE_TIME, AT.OVERALL_LINE_ACTIVITY_END)) OVERALL_LAST_MOVE_TIME, CASE WHEN PM.STARTS IS NOT NULL AND PM.STARTS > 0 THEN 1 ELSE 0 END HAS_EXECUTED, PM.OBJECT_NAME, PM.OBJECT_TYPE, PM.OBJECT_OWNER, PM.PARTITION_START, PM.PARTITION_STOP, PM.CARDINALITY, PM.BYTES, PM.COST, PM.TEMP_SPACE, PM.TIME, PM.CPU_COST, PM.IO_COST, LO.PERCENT_COMPLETE, LO.TIME_REMAINING, PM.STARTS, PM
.DOP, PM.MAX_STARTS, PM.OUTPUT_ROWS, PM.NEED_ROWS, PM.MAX_OUTPUT_ROWS, PM.MEM, PM.MAX_MEM, PM.MIN_MAX_MEM, PM.TEMP, PM.MAX_TEMP, PM.SPILL_COUNT, PM.MAX_MAX_TEMP, PM.READ_REQS, PM.MAX_READ_REQS, PM.READ_BYTES, PM.MAX_READ_BYTES, PM.WRITE_REQS, PM.MAX_WRITE_REQS, PM.WRITE_BYTES, PM.MAX_WRITE_BYTES, PM.IO_INTER_BYTES, PM.IO_BYTES, PM.MAX_IO_INTER_BYTES, AT.LINE_ACTIVITY_COUNT, AT.LINE_IMQ_COUNT, AT.LINE_WAIT_COUNT, AT.LINE_CPU_COUNT, AT.ACTIVITY_TOTAL, AH.PLAN_ACTIVITY_HISTO, PM.STAT_GID, PM.GID_ROWNUM, PM.STAT1_VALUE, PM.STAT2_VALUE, PM.STAT3_VALUE, PM.STAT4_VALUE, PM.STAT5_VALUE, PM.STAT6_VALUE, PM.STAT7_VALUE, PM.STAT8_VALUE, PM.STAT9_VALUE, PM.STAT10_VALUE FROM (SELECT AT0.*, MAX(LINE_ACTIVITY_END) OVER() OVERALL_LINE_ACTIVITY_END, MAX(LINE_ACTIVITY_COUNT) OVER() MAX_LINE_ACTIVITY_COUNT, MAX(LINE_IMQ_COUNT) OVER() MAX_LINE_IMQ_COUNT, MAX(LINE_CPU_COUNT) OVER() MAX_LINE_CPU_COUNT, MAX(LINE_WAIT_COUNT) OVER() MAX_LINE_WAIT_COUNT, MAX(LINE_OT
HER_SQL_COUNT) OVER() MAX_LINE_OTHER_SQL_COUNT FROM (SELECT AD1.PLAN_LINE_ID, MIN(AD1.LINE_ACTIVITY_START) LINE_ACTIVITY_START, MAX(AD1.LINE_ACTIVITY_END) LINE_ACTIVITY_END, SUM(AD1.ACTIVITY_COUNT) LINE_ACTIVITY_COUNT, SUM(AD1.IMQ_COUNT) LINE_IMQ_COUNT, SUM(AD1.WAIT_COUNT) LINE_WAIT_COUNT, SUM(AD1.OTHER_SQL_COUNT) LINE_OTHER_SQL_COUNT, SUM(AD1.CPU_COUNT) LINE_CPU_COUNT, SUBSTR(MAX(LPAD(AD1.ACTIVITY_COUNT, 10)|| AD1.ACTIVITY_TYPE), 11) MOST_ACTIVE, XMLAGG(XMLELEMENT( "activity", XMLATTRIBUTES( AD1.ACTIVITY_TYPE AS "class", AD1.EVENT_NAME AS "event"), AD1.ACTIVITY_COUNT) ORDER BY AD1.ACTIVITY_TYPE, AD1.EVENT_NAME) ACTIVITY_TOTAL FROM (SELECT AD0.PLAN_LINE_ID, AD0.ACTIVITY_TYPE, AD0.EVENT_NAME, MIN(AD0.ACTIVITY_START) LINE_ACTIVITY_START, MAX(AD0.ACTIVITY_END) LINE_ACTIVITY_END, SUM(AD0.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(AD0.IMQ_COUNT) IMQ_COUNT, SUM(AD0.WAIT_COUNT) WAIT_COUNT, SUM(AD0.CPU_COUNT) CPU_COUNT, SUM(AD0.OTHER_SQL_COUNT) OTH
ER_SQL_COUNT, MAX(AD0.DFO_MOST_ACTIVE_IID) DFO_MOST_ACTIVE_IID, MAX(AD0.DFO_MOST_ACTIVE_SID) DFO_MOST_ACTIVE_SID, SUM(AD0.DFO_MOST_ACTIVE_COUNT) DFO_MOST_ACTIVE_COUNT FROM ASH_DATA AD0 WHERE AD0.PLAN_LINE_ID IS NOT NULL GROUP BY AD0.PLAN_LINE_ID, AD0.ACTIVITY_TYPE, AD0.EVENT_NAME) AD1 GROUP BY AD1.PLAN_LINE_ID) AT0) AT, (SELECT AD2.PLAN_LINE_ID, MIN(AD2.PX_SERVER_SET) PX_SERVER_SET, MIN(AD2.LINE_ACTIVITY_START) LINE_ACTIVITY_START, MAX(AD2.LINE_ACTIVITY_END) LINE_ACTIVITY_END, SUM(AD2.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(AD2.IMQ_COUNT) IMQ_COUNT, SUM(AD2.WAIT_COUNT) WAIT_COUNT, SUM(AD2.CPU_COUNT) CPU_COUNT, SUM(AD2.OTHER_SQL_COUNT) OTHER_SQL_COUNT, CASE WHEN :B29 = 1 AND SUM(AD2.ACTIVITY_COUNT) > 0 THEN XMLELEMENT( "activity_histogram", XMLATTRIBUTES( :B26 AS "bucket_interval", :B27 AS "bucket_count", TO_CHAR( :B20 , :B12 ) AS "start_time", TO_CHAR(:B22 , :B12 ) AS "end_time", ROUND((:B22 -:B20 ) *3600*24) + 1 AS
"duration"), XMLAGG(XMLELEMENT( "bucket", XMLATTRIBUTES( AD2.BUCKET_NUM AS "number"), AD2.ACTIVITY_BUCKET) ORDER BY AD2.BUCKET_NUM)) ELSE NULL END PLAN_ACTIVITY_HISTO FROM (SELECT AD1.PLAN_LINE_ID, AD1.BUCKET_NUM, MIN(AD1.PX_SERVER_SET) PX_SERVER_SET, MIN(AD1.LINE_ACTIVITY_START) LINE_ACTIVITY_START, MAX(AD1.LINE_ACTIVITY_END) LINE_ACTIVITY_END, MIN(AD1.BUCKET_ACTIVITY_START) BUCKET_ACTIVITY_START, MAX(AD1.BUCKET_ACTIVITY_END) BUCKET_ACTIVITY_END, SUM(AD1.ACTIVITY_COUNT) ACTIVITY_COUNT, SUM(AD1.IMQ_COUNT) IMQ_COUNT, SUM(AD1.WAIT_COUNT) WAIT_COUNT, SUM(AD1.CPU_COUNT) CPU_COUNT, SUM(AD1.OTHER_SQL_COUNT) OTHER_SQL_COUNT, SUBSTR(MAX(LPAD(AD1.ACTIVITY_COUNT, 10)|| AD1.ACTIVITY_TYPE), 11) MOST_ACTIVE, XMLAGG(NVL2(AD1.ACTIVITY_TYPE, XMLELEMENT( "activity", XMLATTRIBUTES( AD1.ACTIVITY_TYPE AS "class", AD1.EVENT_NAME AS "event"), AD1.ACTIVITY_COUNT), NULL) ORDER BY AD1.ACTIVITY_TYPE, AD1.EVENT_NAME) ACTIVITY_BUC
KET FROM (SELECT AD0.PLAN_LINE_ID, AD0.PLAN_ACTIVITY_BUCKET_NUM BUCKET_NUM, AD0.ACTIVITY_TYPE, AD0.EVENT_NAME, MIN(NVL2(AD0.ACTIVITY_START, AD0.PX_SERVER_SET, NULL)) PX_SERVER_SET, MIN(AD0.ACTIVITY_START) LINE_ACTIVITY_START, MAX(AD0.ACTIVITY_END) LINE_ACTIVITY_END, MIN(AD0.BUCKET_ACTIVITY_START) BUCKET_ACTIVITY_START, MAX(AD0.BUCKET_ACTIVITY_END) BUCKET_ACTIVITY_END, SUM(AD0.IMQ_COUNT) IMQ_COUNT, SUM(AD0.CPU_COUNT) CPU_COUNT, SUM(AD0.WAIT_COUNT) WAIT_COUNT, SUM(AD0.OTHER_SQL_COUNT) OTHER_SQL_COUNT, SUM(AD0.ACTIVITY_COUNT) ACTIVITY_COUNT FROM ASH_DATA AD0 GROUP BY AD0.PLAN_LINE_ID, AD0.PLAN_ACTIVITY_BUCKET_NUM, AD0.ACTIVITY_TYPE, AD0.EVENT_NAME) AD1 GROUP BY AD1.PLAN_LINE_ID, AD1.BUCKET_NUM) AD2 GROUP BY AD2.PLAN_LINE_ID) AH, (SELECT LO.SQL_PLAN_LINE_ID PLAN_LINE_ID, DECODE(SUM(LO.TOTALWORK), 0, NULL, ROUND(SUM(LO.SOFAR)*100/SUM(LO.TOTALWORK))) PERCENT_COMPLETE, MAX(LO.TIME_REMAINING) TIME_REMAINING FROM GV$SESSION_LONGOPS LO, MONITOR_DATA MO WHERE (:B49 = 'Y'
OR :B70 = 'DONE (ERROR)') AND LO.SQL_ID = :B9 AND LO.SQL_EXEC_START = :B8 AND LO.SQL_EXEC_ID = :B7 AND LO.INST_ID = MO.INST_ID AND LO.SID = MO.SID GROUP BY LO.SQL_PLAN_LINE_ID) LO, (SELECT PM0.*, CASE WHEN PM0.STARTS IS NULL OR PM0.STARTS = 0 OR PM0.OUTPUT_ROWS IS NULL THEN NULL ELSE 1 END NEED_ROWS, ROW_NUMBER() OVER(PARTITION BY PM0.STAT_GID ORDER BY PM0.PLAN_LINE_ID ) GID_ROWNUM, MAX(LAST_CHANGE_TIME) OVER() OVERALL_LAST_CHANGE_TIME, MAX(MAX_IO_REQS) OVER() OVERALL_MAX_IO_REQS, MAX(MAX_IO_BYTES) OVER() OVERALL_MAX_IO_BYTES FROM (SELECT /*+ leading(mo) use_hash(plm) */ PLM.PLAN_LINE_ID PLAN_LINE_ID, PLM.PLAN_OPERATION OPERATION, PLM.PLAN_OPTIONS OPTIONS, MAX(PLM.PLAN_PARENT_ID) PARENT_ID, MAX(PLM.PLAN_DEPTH) DEPTH, MAX(PLM.PLAN_POSITION) POSITION, MAX(PLM.PLAN_OPERATION_INACTIVE) INACTIVE, MAX(PLM.PLAN_OBJECT_OWNER) OBJECT_OWNER, MAX(PLM.PLAN_OBJECT_NAME) OBJECT_NAME, MAX(PLM.PLAN_OBJECT_TYPE) OBJECT_TYPE, MAX(PLM.PLAN_COST) COST, MAX(PLM.PLAN_CARDINALITY) CARDINALI
TY, MAX(PLM.PLAN_BYTES) BYTES, MAX(PLM.PLAN_CPU_COST) CPU_COST, MAX(PLM.PLAN_IO_COST) IO_COST, MAX(PLM.PLAN_TEMP_SPACE) TEMP_SPACE, MAX(PLM.PLAN_TIME) TIME, MAX(PLM.PLAN_PARTITION_START) PARTITION_START, MAX(PLM.PLAN_PARTITION_STOP) PARTITION_STOP, MIN(PLM.FIRST_CHANGE_TIME) FIRST_CHANGE_TIME, MAX(PLM.LAST_CHANGE_TIME) LAST_CHANGE_TIME, MIN(PLM.LAST_CHANGE_TIME) MIN_LAST_CHANGE_TIME, MIN(NVL2(PLM.FIRST_CHANGE_TIME, MO.PX_SERVER_SET, NULL)) PX_SERVER_SET, COUNT(CASE WHEN PLM.PAR IS NOT NULL AND PLM.STARTS IS NOT NULL AND PLM.STARTS > 0 AND PLM.PLAN_LINE_ID != 0 AND PLM.PLAN_OPERATION != 'PX COORDINATOR' THEN 1 ELSE NULL END) DOP, SUM(PLM.STARTS) STARTS, MAX(NVL2(PAR, PLM.STARTS * 10000000000 + PLM.ES, NULL)) MAX_STARTS, SUM(PLM.OUTPUT_ROWS) OUTPUT_ROWS, MAX(NVL2(PAR, PLM.OUTPUT_ROWS * 10000000000 +PLM.ES, NULL)) MAX_OUTPUT_ROWS, SUM(PLM.WORKAREA_MEM) MEM, SUM(PLM.WORKAREA_MAX_MEM) MAX_MEM, MIN(NVL2(PAR, PLM.WORKAREA_MAX_MEM * 10000000000 + PLM.ES, NULL)) MI
N_MAX_MEM, SUM(PLM.WORKAREA_TEMPSEG) TEMP, SUM(PLM.WORKAREA_MAX_TEMPSEG) MAX_TEMP, MAX(NVL2(PAR, PLM.WORKAREA_MAX_TEMPSEG * 10000000000 + PLM.ES, NULL)) MAX_MAX_TEMP, COUNT(PLM.WORKAREA_MAX_TEMPSEG) SPILL_COUNT, SUM(PLM.PHYSICAL_READ_REQUESTS) READ_REQS, MAX(NVL2(PAR, PLM.PHYSICAL_READ_REQUESTS * 10000000000 + PLM.ES, NULL)) MAX_READ_REQS, SUM(PLM.PHYSICAL_READ_BYTES) READ_BYTES, MAX(NVL2(PAR, PLM.PHYSICAL_READ_BYTES * 10000000000 + PLM.ES, NULL)) MAX_READ_BYTES, SUM(PLM.PHYSICAL_WRITE_REQUESTS) WRITE_REQS, MAX(NVL2(PAR, PLM.PHYSICAL_WRITE_REQUESTS * 10000000000 + PLM.ES, NULL)) MAX_WRITE_REQS, SUM(PLM.PHYSICAL_WRITE_BYTES) WRITE_BYTES, MAX(NVL2(PAR, PLM.PHYSICAL_WRITE_BYTES * 10000000000 + PLM.ES, NULL)) MAX_WRITE_BYTES, NVL(SUM(PLM.PHYSICAL_READ_BYTES), 0) + NVL(SUM(PLM.PHYSICAL_WRITE_BYTES), 0) IO_BYTES, SUM(NVL(PLM.PHYSICAL_READ_REQUESTS, 0) + NVL(PLM.PHYSICAL_WRITE_REQUESTS, 0)) MAX_IO_REQS, SUM(NVL(PLM.PHYSICAL_READ_BYTES, 0) + NVL(PLM.PHYSICAL_WRITE
_BYTES, 0)) MAX_IO_BYTES, SUM(PLM.IO_INTERCONNECT_BYTES) IO_INTER_BYTES, MAX(NVL2(PAR, PLM.IO_INTERCONNECT_BYTES * 10000000000 + PLM.ES, NULL)) MAX_IO_INTER_BYTES, MAX(OTHERSTAT_GROUP_ID) STAT_GID, NVL(DECODE(MAX(OTHERSTAT_1_TYPE), 3, MAX(OTHERSTAT_1_VALUE), 4, MAX(OTHERSTAT_1_VALUE), 6, MIN(OTHERSTAT_1_VALUE), 7, MIN(OTHERSTAT_1_VALUE), NULL), SUM(DECODE(OTHERSTAT_1_TYPE, 1, OTHERSTAT_1_VALUE, 2, OTHERSTAT_1_VALUE, NULL))) STAT1_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_2_TYPE), 3, MAX(OTHERSTAT_2_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_2_VALUE), 7, MIN(RMAX1 + OTHERSTAT_2_VALUE), NULL), 6, MIN(OTHERSTAT_2_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_2_TYPE, 1, OTHERSTAT_2_VALUE, 2, OTHERSTAT_2_VALUE, NULL))) STAT2_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_3_TYPE), 3, MAX(OTHERSTAT_3_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_3_VALUE), 7, MIN(RMAX1 + OTHERSTAT_3_VALUE), NULL), 6, M
IN(OTHERSTAT_3_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_3_TYPE, 1, OTHERSTAT_3_VALUE, 2, OTHERSTAT_3_VALUE, NULL))) STAT3_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_4_TYPE), 3, MAX(OTHERSTAT_4_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_4_VALUE), 7, MIN(RMAX1 + OTHERSTAT_4_VALUE), NULL), 6, MIN(OTHERSTAT_4_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_4_TYPE, 1, OTHERSTAT_4_VALUE, 2, OTHERSTAT_4_VALUE, NULL))) STAT4_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_5_TYPE), 3, MAX(OTHERSTAT_5_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_5_VALUE), 7, MIN(RMAX1 + OTHERSTAT_5_VALUE), NULL), 6, MIN(OTHERSTAT_5_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_5_TYPE, 1, OTHERSTAT_5_VALUE, 2, OTHERSTAT_5_VALUE, NULL))) STAT5_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_6_TYPE), 3, MAX(OTHERSTAT_6_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_6_VALUE), 7, MIN(RMAX1 +
OTHERSTAT_6_VALUE), NULL), 6, MIN(OTHERSTAT_6_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_6_TYPE, 1, OTHERSTAT_6_VALUE, 2, OTHERSTAT_6_VALUE, NULL))) STAT6_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_7_TYPE), 3, MAX(OTHERSTAT_7_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_7_VALUE), 7, MIN(RMAX1 + OTHERSTAT_7_VALUE), NULL), 6, MIN(OTHERSTAT_7_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_7_TYPE, 1, OTHERSTAT_7_VALUE, 2, OTHERSTAT_7_VALUE, NULL))) STAT7_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_8_TYPE), 3, MAX(OTHERSTAT_8_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_8_VALUE), 7, MIN(RMAX1 + OTHERSTAT_8_VALUE), NULL), 6, MIN(OTHERSTAT_8_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_8_TYPE, 1, OTHERSTAT_8_VALUE, 2, OTHERSTAT_8_VALUE, NULL))) STAT8_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_9_TYPE), 3, MAX(OTHERSTAT_9_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + O
THERSTAT_9_VALUE), 7, MIN(RMAX1 + OTHERSTAT_9_VALUE), NULL), 6, MIN(OTHERSTAT_9_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_9_TYPE, 1, OTHERSTAT_9_VALUE, 2, OTHERSTAT_9_VALUE, NULL))) STAT9_VALUE, NVL(MOD((DECODE(MAX(OTHERSTAT_10_TYPE), 3, MAX(OTHERSTAT_10_VALUE), 5, DECODE(MAX(OTHERSTAT_1_TYPE), 4, MAX(RMAX1 + OTHERSTAT_10_VALUE), 7, MIN(RMAX1 + OTHERSTAT_10_VALUE), NULL), 6, MIN(OTHERSTAT_10_VALUE), NULL)), 10000000000000000), SUM(DECODE(OTHERSTAT_10_TYPE, 1, OTHERSTAT_10_VALUE, 2, OTHERSTAT_10_VALUE, NULL))) STAT10_VALUE FROM (SELECT A.*, OTHERSTAT_1_VALUE * 10000000000000000 RMAX1, A.INST_ID * 1000000 + A.SID ES, DECODE(A.PROCESS_NAME, 'ora', NULL, 1) PAR FROM GV$SQL_PLAN_MONITOR A) PLM, MONITOR_DATA MO WHERE PLM.SQL_ID = :B9 AND PLM.SQL_EXEC_START = :B8 AND PLM.SQL_EXEC_ID = :B7 AND PLM.INST_ID = MO.INST_ID AND PLM.INST_ID BETWEEN :B11 AND :B10 AND PLM.KEY = MO.KEY GROUP BY PLM.PLAN_LINE_ID, PLM.PLAN_OPERATION, PLM.PLAN_OPTION
S) PM0) PM WHERE AH.PLAN_LINE_ID(+) = PM.PLAN_LINE_ID AND AT.PLAN_LINE_ID(+) = PM.PLAN_LINE_ID AND LO.PLAN_LINE_ID(+) = PM.PLAN_LINE_ID AND (:B21 IS NULL OR PM.PLAN_LINE_ID = :B21 )) PLI) ELSE NULL END, CASE WHEN :B42 = 1 THEN DBMS_SQLTUNE.BUILD_STASH_XML( SESSION_ID=>:B19 , SESSION_SERIAL=>:B18 , SESSION_INST_ID=>:B17 , PX_MODE=>'yes', START_TIME=>:B20 , END_TIME=>:B22 , MISSING_SECONDS=> :B41 , INSTANCE_LOW_FILTER=>:B11 , INSTANCE_HIGH_FILTER=>:B10 , BUCKET_MAX_COUNT=>NULL, BUCKET_INTERVAL=>:B26 , REPORT_LEVEL=>'typical', CPU_CORES=>:B40 , IS_HYPER=>:B39 ) ELSE NULL END), (CASE WHEN :B38 = 1 THEN (SELECT XMLELEMENT( "skewed_sessions", XMLATTRIBUTES( DECODE(MIN(INST_ID), NULL, :B17 , MIN(INST_ID)) AS "min_iid", DECODE(MAX(INST_ID), NULL, :B17 , MAX(INST_ID)) AS "max_iid"), XMLAGG( XMLELEMENT( "s", XMLATTRIBUTES( INST_ID AS "i"), SESSION_ID) ORDER BY INST_ID, SESSION_I
D)) FROM (SELECT SESS.* FROM (SELECT DECODE(AD.DFO_MOST_ACTIVE_IID, :B17 , NULL, AD.DFO_MOST_ACTIVE_IID) INST_ID, AD.DFO_MOST_ACTIVE_SID SESSION_ID FROM ASH_DATA AD WHERE AD.DFO_MOST_ACTIVE_COUNT IS NOT NULL GROUP BY AD.DFO_MOST_ACTIVE_IID, AD.DFO_MOST_ACTIVE_SID ORDER BY MAX(AD.DFO_MOST_ACTIVE_COUNT) DESC) SESS WHERE ROWNUM <= 100)) ELSE NULL END), (CASE WHEN :B37 = 1 THEN (SELECT XMLELEMENT( "report_repository_summary", CASE WHEN MA.MAX_DBOP_NAME IS NOT NULL THEN XMLELEMENT( "dbop", XMLATTRIBUTES('F' AS "detail", MA.MAX_DBOP_NAME AS "dbop_name", TO_CHAR(MA.MIN_FIRST_REFRESH_TIME, :B12 ) AS "dbop_exec_start", MA.MAX_DBOP_EXEC_ID AS "dbop_exec_id"), XMLFOREST( MA.MAX_STATUS AS "status", TO_CHAR(NVL(MA.MAX_SQL_EXEC_START, MA.MIN_FIRST_REFRESH_TIME), :B12 )AS "first_refresh_time", TO_CHAR(MA.MAX_LAST_REFRESH_TIME, :B12 )AS "last_refresh_time", MA.SUM_REFRESH_COUNT AS "refr
esh_count", MA.MAX_INST_ID AS "inst_id", MA.MAX_SESSION_ID AS "session_id", MA.MAX_SESSION_SERIAL AS "session_serial", MA.MAX_USERID AS "user_id", MA.MAX_USERNAME AS "user", MA.MAX_CON_ID AS "con_id", MA.MAX_CON_NAME AS "con_name", MA.MAX_MODULE AS "module", MA.MAX_ACTION AS "action", MA.MAX_SERVICE_NAME AS "service", MA.MAX_CLIENT_ID AS "client_id", MA.MAX_CLIENT_INFO AS "client_info", MA.MAX_PROGRAM AS "program", MA.MAX_PL_ENTRY_OID AS "plsql_entry_object_id", MA.MAX_PL_ENTRY_PROGID AS "plsql_entry_subprogram_id", MA.MAX_PL_OID AS "plsql_object_id", MA.MAX_PL_PROGID AS "plsql_subprogram_id", MA.MAX_PX_IS_CROSS_INSTANCE AS "is_cross_instance", MA.MAX_PX_DOP AS "dop", MA.MAX_PX_DOP_INSTANCES AS "instances"), CASE WHEN MA.MAX_ERROR_NUMBER IS NULL THEN NULL ELSE XML
ELEMENT( "error", XMLATTRIBUTES(MA.MAX_ERROR_NUMBER AS "number", MA.MAX_ERROR_FACILITY AS "facility"), MA.MAX_ERROR_MESSAGE) END, XMLELEMENT( "stats", XMLATTRIBUTES('monitor' AS "type"), XMLELEMENT( "stat", XMLATTRIBUTES('duration' AS "name"), GREATEST(ROUND((MA.MAX_LAST_REFRESH_TIME- NVL(MA.MAX_SQL_EXEC_START, MA.MIN_FIRST_REFRESH_TIME))*86400), LEAST(MA.SUM_ELAPSED_TIME/1000000, 1), CEIL(MA.MAX_QUEUING_TIME/1000000))), DECODE(MA.SUM_ELAPSED_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('elapsed_time' AS "name"), MA.SUM_ELAPSED_TIME)), DECODE(MA.MAX_QUEUING_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('queuing_time' AS "name"), MA.MAX_QUEUING_TIME)), DECODE(MA.SUM_CPU_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('cpu_time' AS "name"), MA.SUM_CPU_TIME)), DECODE(MA.SUM_USER_IO_WAIT_TIME, 0, NULL, XMLELEMENT( "
stat", XMLATTRIBUTES('user_io_wait_time' AS "name"), MA.SUM_USER_IO_WAIT_TIME)), DECODE(MA.SUM_APPLICATION_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('application_wait_time' AS "name"), MA.SUM_APPLICATION_WAIT_TIME)), DECODE(MA.SUM_CONCURRENCY_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('concurrency_wait_time' AS "name"), MA.SUM_CONCURRENCY_WAIT_TIME)), DECODE(MA.SUM_CLUSTER_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('cluster_wait_time' AS "name"), MA.SUM_CLUSTER_WAIT_TIME)), DECODE(MA.SUM_PLSQL_EXEC_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('plsql_exec_time' AS "name"), MA.SUM_PLSQL_EXEC_TIME)), DECODE(MA.SUM_JAVA_EXEC_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('java_exec_time' AS "name"), MA.SUM_JAVA_EXEC_TIME)), DECODE(MA.SUM_OTHER_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRI
BUTES('other_wait_time' AS "name"), MA.SUM_OTHER_WAIT_TIME)), DECODE(MA.SUM_FETCHES, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('user_fetch_count' AS "name"), MA.SUM_FETCHES)), DECODE(MA.SUM_BUFFER_GETS, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('buffer_gets' AS "name"), MA.SUM_BUFFER_GETS)), DECODE(MA.SUM_READ_REQS, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('read_reqs' AS "name"), MA.SUM_READ_REQS)), DECODE(MA.SUM_READ_BYTES, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('read_bytes' AS "name"), MA.SUM_READ_BYTES)), DECODE(MA.SUM_WRITE_REQS, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('write_reqs' AS "name"), MA.SUM_WRITE_REQS)), DECODE(MA.SUM_WRITE_BYTES, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('write_bytes' AS "name"), MA.SUM_WRITE_BYTES)), CASE WHEN MA.SUM_IO_INTER_BYTES IS NULL OR MA.SUM_IO_INTER_BYTES = MA.SUM_IO_
BYTES OR MA.SUM_IO_BYTES = 0 THEN NULL ELSE XMLELEMENT( "stat", XMLATTRIBUTES('cell_offload_efficiency' AS "name"), ROUND(MA.SUM_IO_BYTES / DECODE(MA.SUM_IO_INTER_BYTES, 0, 1, MA.SUM_IO_INTER_BYTES), 2)) END) ) ELSE XMLELEMENT( "sql", XMLATTRIBUTES( MA.MAX_SQL_ID AS "sql_id", TO_CHAR(MA.MAX_SQL_EXEC_START, :B12 ) AS "sql_exec_start", MA.MAX_SQL_EXEC_ID AS "sql_exec_id"), XMLFOREST(MA.MAX_STATUS AS "status", SUBSTR(MA.SQLMON_TEXT, 1, 100) AS "sql_text", TO_CHAR(MA.MIN_FIRST_REFRESH_TIME, :B12 ) AS "first_refresh_time", TO_CHAR(MA.MAX_LAST_REFRESH_TIME, :B12 ) AS "last_refresh_time", MA.SUM_REFRESH_COUNT AS "refresh_count", MA.MAX_INST_ID AS "inst_id", MA.MAX_SESSION_ID AS "session_id", MA.MAX_SESSION_SERIAL AS "session_serial", MA.MAX_USERID AS "user_id", MA.MAX_USERNAME AS "user", MA.MAX_CON_ID AS "
con_id", MA.MAX_CON_NAME AS "con_name", MA.MAX_MODULE AS "module", MA.MAX_ACTION AS "action", MA.MAX_SERVICE_NAME AS "service", MA.MAX_CLIENT_ID AS "client_id", MA.MAX_CLIENT_INFO AS "client_info", MA.MAX_PROGRAM AS "program", MA.MAX_PLAN_HASH_VALUE AS "plan_hash", MA.MAX_PL_ENTRY_OID AS "plsql_entry_object_id", MA.MAX_PL_ENTRY_PROGID AS "plsql_entry_subprogram_id", MA.MAX_PL_OID AS "plsql_object_id", MA.MAX_PL_PROGID AS "plsql_subprogram_id", MA.MAX_PX_IS_CROSS_INSTANCE AS "is_cross_instance", MA.MAX_PX_DOP AS "dop", MA.MAX_PX_DOP_INSTANCES AS "instances", MA.SUM_SERVERS_REQUESTED AS "px_servers_requested", MA.SUM_SERVERS_ALLOCATED AS "px_servers_allocated"), XMLELEMENT( "stats", XMLATTRIBUTES('monitor' AS "type"), XMLELEMENT( "stat", XMLATTRIBUTES('duration' AS
"name"), GREATEST(ROUND((MA.MAX_LAST_REFRESH_TIME- MA.MAX_SQL_EXEC_START)*86400), LEAST(MA.SUM_ELAPSED_TIME/1000000, 1), CEIL(MA.MAX_QUEUING_TIME/1000000))), DECODE(MA.SUM_ELAPSED_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('elapsed_time' AS "name"), MA.SUM_ELAPSED_TIME)), DECODE(MA.MAX_QUEUING_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('queuing_time' AS "name"), MA.MAX_QUEUING_TIME)), DECODE(MA.SUM_CPU_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('cpu_time' AS "name"), MA.SUM_CPU_TIME)), DECODE(MA.SUM_USER_IO_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('user_io_wait_time' AS "name"), MA.SUM_USER_IO_WAIT_TIME)), DECODE(MA.SUM_APPLICATION_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('application_wait_time' AS "name"), MA.SUM_APPLICATION_WAIT_TIME)), DECODE(MA.SUM_CONCURRENCY_WAIT_TIME, 0, NULL, XMLELEMENT(
"stat", XMLATTRIBUTES('concurrency_wait_time' AS "name"), MA.SUM_CONCURRENCY_WAIT_TIME)), DECODE(MA.SUM_CLUSTER_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('cluster_wait_time' AS "name"), MA.SUM_CLUSTER_WAIT_TIME)), DECODE(MA.SUM_PLSQL_EXEC_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('plsql_exec_time' AS "name"), MA.SUM_PLSQL_EXEC_TIME)), DECODE(MA.SUM_JAVA_EXEC_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('java_exec_time' AS "name"), MA.SUM_JAVA_EXEC_TIME)), DECODE(MA.SUM_OTHER_WAIT_TIME, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('other_wait_time' AS "name"), MA.SUM_OTHER_WAIT_TIME)), DECODE(MA.SUM_FETCHES, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('user_fetch_count' AS "name"), MA.SUM_FETCHES)), DECODE(MA.SUM_BUFFER_GETS, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('buffer_gets' AS "name"),
MA.SUM_BUFFER_GETS)), DECODE(MA.SUM_READ_REQS, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('read_reqs' AS "name"), MA.SUM_READ_REQS)), DECODE(MA.SUM_READ_BYTES, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('read_bytes' AS "name"), MA.SUM_READ_BYTES)), DECODE(MA.SUM_WRITE_REQS, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('write_reqs' AS "name"), MA.SUM_WRITE_REQS)), DECODE(MA.SUM_WRITE_BYTES, 0, NULL, XMLELEMENT( "stat", XMLATTRIBUTES('write_bytes' AS "name"), MA.SUM_WRITE_BYTES)), CASE WHEN MA.SUM_IO_INTER_BYTES IS NULL OR MA.SUM_IO_INTER_BYTES = MA.SUM_IO_BYTES OR MA.SUM_IO_BYTES = 0 THEN NULL ELSE XMLELEMENT( "stat", XMLATTRIBUTES('cell_offload_efficiency' AS "name"), ROUND(MA.SUM_IO_BYTES / DECODE(MA.SUM_IO_INTER_BYTES, 0, 1, MA.SUM_IO_INTER_BYTES), 2)) END) ) END) FROM MONITOR_AGG MA) ELSE NULL END) FROM (SELECT CASE WHEN V1.XPLAN_XML IS NULL OR V1.XPLAN_
XML.EXISTSNODE('/error') > 0 THEN NULL ELSE V1.XPLAN_XML END XPLAN_XML FROM (SELECT CASE WHEN :B36 = 1 THEN DBMS_XPLAN.BUILD_PLAN_XML(TABLE_NAME=>'gv$sql_plan', PLAN_TAG=>'plan', FILTER_PREDS=>:B35 , FORMAT=>'-PROJECTION +ALIAS +ADAPTIVE') ELSE NULL END XPLAN_XML FROM DUAL) V1) CONST_VIEW |
| dvycr92dh0bc3 | SELECT NVL(MAX(SERIAL_NO_V), 0) FROM INV_SERIAL_ITEMS WHERE LOCATION_CODE_N = :B4 AND ITEM_CODE_N = :B3 AND SERIAL_NO_V BETWEEN TRIM(:B2 ) AND TRIM(:B1 ) AND STATUS_V = 'F' |
| dw2m18q7km8fw | INSERT INTO AeVariable(VariableDocument, GZVariableDocument, ProcessId, LocationId, VersionNumber)
VALUES (:1, :2, :3, :4, :5) |
| f0h5rpzmhju11 | select SYS_CONTEXT('USERENV', 'SERVER_HOST'), SYS_CONTEXT('USERENV', 'DB_UNIQUE_NAME'), SYS_CONTEXT('USERENV', 'INSTANCE_NAME'), SYS_CONTEXT('USERENV', 'INSTANCE'), STARTUP_TIME, SYS_CONTEXT('USERENV', 'DB_DOMAIN'), SYS_CONTEXT('USERENV', 'SERVICE_NAME') from v$instance |
| f12z87npjc6wg | BEGIN EXTERNAL_ABILLITY_REQUEST( :1, :2, :3, :4) ; END; |
| f2ws0njbvtn0u | INSERT INTO MDW_AUDIT_LOGS_FUN (CID, REQUESTED_USER, REQUESTED_SYSTEM, OPERATION_NAME, RESULT_CODE, RESULT_MESSAGE, BUSINESS_IN_TIME, PROXY_IN_TIME, PROXY_OUT_TIME, BUSINESS_OUT_TIME, REFERENCE_ID, SERVICE_NAME, PROXY_SERVICE_IP_PORT, REQUESTED_SYSTEM_IP_HOST, MSISDN, MESSAGE_ID, REQUEST_DATA, REQUEST_XML, SERVICE_ID, FAULT_DETAILS) VALUES(:1 , :2 , :3 , :4 , :5 , :6 , :7 , :8 , :9 , :10 , :11 , :12 , :13 , :14 , :15 , :16 , :17 , :18 , :19 , :20 ) |
| fgvr5840qs8zz |
SELECT A.EXT_SUBSCRIBER_CODE_V SUBSCODE, A.FIRST_NAME_V SUBSNAME, '' MOBILE_NUM_V, 'P' CALLED_FROM,
'' BALANCE
FROM CB_SUBSCRIBER_MASTER A
WHERE EXT_SUBSCRIBER_CODE_V = (DECODE(:1, 'P', NVL(:2, 0), 0))
OR UPPER(FIRST_NAME_V) LIKE (DECODE(:1, 'P', '%'||UPPER(NVL(:3, '^'))||'%', 0))
OR EXT_SUBSCRIBER_CODE_V = DECODE(:1, 'P', NVL(:4, 0), 0)
AND EXISTS (SELECT 1 FROM CB_ACCOUNT_MASTER WHERE SUBSCRIBER_CODE_N = A.SUBSCRIBER_CODE_N)
UNION ALL
SELECT TO_CHAR(ACCOUNT_CODE_N) SUBSCODE, ACCOUNT_NAME_V SUBSNAME, '' MOBILE_NUM_V, 'A' CALLED_FROM,
TO_CHAR(NVL(((SELECT (YTD_DB_AMT_N-YTD_CR_AMT_N) FROM CB_ACC_BALNC WHERE ACCOUNT_LINK_CODE_N = A.account_link_code_n)-NVL((Select sum(INV_ACC_ADV_AMT_N-SET_OFF_AMT_N) from cb_Subs_paid_adv_dtls where MAIN_ACCOUNT_LINK_CODE_N = A.ACCOUNT_LINK_CODE_N AND STATUS_OPTN_V ='P'), 0)), 0)/100, '999999999990.99')BALANCE
FROM CB_ACCOUNT_MASTER A
WHERE ACCOUNT_CODE_N = DECODE(:1, 'A', NVL(:2, 0), 0)
UNION ALL
S
ELECT TO_CHAR(A.ACCOUNT_CODE_N) SUBSCODE, A.ACCOUNT_NAME_V SUBSNAME, :2 MOBILE_NUM_V, 'A' CALLED_FROM,
TO_CHAR(NVL(((SELECT (YTD_DB_AMT_N-YTD_CR_AMT_N) FROM CB_ACC_BALNC WHERE ACCOUNT_LINK_CODE_N = A.account_link_code_n)-NVL((Select sum(INV_ACC_ADV_AMT_N-SET_OFF_AMT_N) from cb_Subs_paid_adv_dtls where MAIN_ACCOUNT_LINK_CODE_N = A.ACCOUNT_LINK_CODE_N AND STATUS_OPTN_V ='P'), 0)), 0)/100, '999999999990.99')BALANCE
FROM CB_ACCOUNT_MASTER A
WHERE A.ACCOUNT_CODE_N IN (SELECT B.ACCOUNT_CODE_N FROM CB_ACCOUNT_SERVICE_LIST B
WHERE B.SERVICE_INFO_V = DECODE(:1, 'S', NVL(:2, '0'), '0'))
UNION ALL
SELECT TO_CHAR(a.ACCOUNT_CODE_N) SUBSCODE, a.ACCOUNT_NAME_V SUBSNAME, '' MOBILE_NUM_V, 'A' CALLED_FROM,
TO_CHAR(NVL(((SELECT (YTD_DB_AMT_N-YTD_CR_AMT_N) FROM CB_ACC_BALNC WHERE ACCOUNT_LINK_CODE_N = A.account_link_code_n)-NVL((Select sum(INV_ACC_ADV_AMT_N-SET_OFF_AMT_N) from cb_Subs_paid_adv_dtls where MAIN_ACCOUNT_LINK_CODE_N = A.ACCOUNT_LINK_CODE_N AND STATUS_OPTN_V ='
P'), 0)), 0)/100, '999999999990.99')BALANCE
FROM CB_ACCOUNT_MASTER a, CB_INVOICE b
WHERE a.ACCOUNT_LINK_CODE_N = b.ACCOUNT_LINK_CODE_N
AND B.TRANS_NUM_V = DECODE(:1, 'I', NVL(:2, '0'), '0') |
| fjn3h4qgt6x7x | Select user as owner, object_name, object_type
from sys.user_objects
where object_name = :obj
and object_type not like '%PARTITION%'
union all
Select user as owner, constraint_name as object_name, 'CONSTRAINT' as object_type
from user_constraints
where constraint_name = :obj
order by 3 |
| fqy2dn1tc89y7 |
SELECT A.TRANS_NUM_V, A.LOCATION_CODE_V, A.PAY_MODE_OPTN_V, A.TRANS_AMT_N, A.FOREIGN_AMOUNT_N , B.TRANS_OPTN_V, B.ACCOUNT_LINK_CODE_N, A.TRANS_DATE_D, A.FOREIGN_CURRENCY_CODE_V, A.PREFERRED_CURR_CODE_V, B.ENTITY_TYPE_V, A.CHEQUE_NUM_V, A.CHQ_DATE_CC_EXPIRY_DT_D, A.BANK_CODE_V, B.USER_CODE_N, ( SELECT LOCATION_V FROM CB_RETAIL_OUTLETS WHERE LOCATION_CODE_V = A.LOCATION_CODE_V)LOCATION_V, (SELECT PAYMENT_DESC_V FROM CB_PAYMENT_METHODS WHERE PAYMENT_CODE_V = A.PAY_MODE_OPTN_V) PAYMENT_DESC_V, (SELECT ENTITY_NAME_V FROM CB_ENTITIES WHERE ENTITY_TYPE_V = B.ENTITY_TYPE_V) ENTITY_NAME_V, (SELECT LOGIN_NAME_V FROM CB_USERS WHERE USER_CODE_N=B.USER_CODE_N) LOGIN_NAME_V, (SELECT BANK_NAME_V FROM CB_BANK_MASTER WHERE BANK_CODE_V= NVL(A.BANK_CODE_V, ''))BANK_NAME_V, (SELECT TRANS_NUM_V FROM CB_BUSI_CHOICE_RCPT_ADJUST WHERE CREDIT_NOTE_TRANS_NUM_V = A.TRANS_NUM_V)BC_TRANS_NUM_V, B.DESCRIPTION_V, B.SALES_LINK_FLAG_V, B.TRANS_REF_NO_V, NULL RECEIPT_REF_NUM_N, B.UPLOADED_DATE_D FROM C
B_PAY_MODE_DTLS A, CB_RECEIPTS B WHERE A.TRANS_NUM_V=B.TRANS_NUM_V AND ( A. PAY_MODE_OPTN_V = (SELECT PAYMENT_CODE_V FROM CB_PAYMENT_METHODS WHERE KEY_CODE = 'MOMO') OR A.CASH_BOX_NUMBER_N = B.CASH_BOX_NUMBER_N ) AND A.DB_CR_V='D' AND B.TRANS_OPTN_V = 'R' AND (:B7 ='ALL' OR B.ENTITY_TYPE_V = :B7 ) AND (NVL(:B6 , 'ALL') = 'ALL' OR (:B6 ='R' AND B.CASH_BOX_COLL_TYPE_V='SRCT')) AND (:B5 = 'ALL' OR A.LOCATION_CODE_V = :B5 ) AND (:B4 =0 OR B.USER_CODE_N=:B4 ) AND B.TRANS_DATE_D >= :B3 AND B.TRANS_DATE_D <= :B2 AND (NVL(:B1 , 'ALL') = 'ALL' OR A.PREFERRED_CURR_CODE_V = :B1 ) AND NOT EXISTS (SELECT 1 FROM CB_MULTI_ACCT_RECEIPT_DETAILS WHERE RECEIPT_NUM_V = A.TRANS_NUM_V) UNION ALL SELECT A.TRANS_NUM_V, A.LOCATION_CODE_V, A.PAY_MODE_OPTN_V, A.TRANS_AMT_N, A.FOREIGN_AMOUNT_N , B.TRANS_OPTN_V, B.ACCOUNT_LINK_CODE_N, A.TRANS_DATE_D, A.FOREIGN_CURRENCY_CODE_V, A.PREFERRED_CURR_CODE_V, B.ENTITY_TYPE_V, A.CHEQUE_NUM_V, A.CHQ_DATE_CC_EXPIRY_DT_D, A.BANK_CODE_V, B.USER_CODE_N, ( SELECT
LOCATION_V FROM CB_RETAIL_OUTLETS WHERE LOCATION_CODE_V = A.LOCATION_CODE_V)LOCATION_V, (SELECT PAYMENT_DESC_V FROM CB_PAYMENT_METHODS WHERE PAYMENT_CODE_V = A.PAY_MODE_OPTN_V) PAYMENT_DESC_V, (SELECT ENTITY_NAME_V FROM CB_ENTITIES WHERE ENTITY_TYPE_V = B.ENTITY_TYPE_V) ENTITY_NAME_V, (SELECT LOGIN_NAME_V FROM CB_USERS WHERE USER_CODE_N=B.USER_CODE_N) LOGIN_NAME_V, (SELECT BANK_NAME_V FROM CB_BANK_MASTER WHERE BANK_CODE_V= NVL(A.BANK_CODE_V, ''))BANK_NAME_V, (SELECT TRANS_NUM_V FROM CB_BUSI_CHOICE_RCPT_ADJUST WHERE CREDIT_NOTE_TRANS_NUM_V = A.TRANS_NUM_V)BC_TRANS_NUM_V, B.DESCRIPTION_V, B.SALES_LINK_FLAG_V, B.TRANS_REF_NO_V, (SELECT RECEIPT_REF_NUM_N FROM CB_MULTI_ACCT_RECEIPT_DETAILS WHERE RECEIPT_NUM_V = A.TRANS_NUM_V)RECEIPT_REF_NUM_N, B.UPLOADED_DATE_D FROM CB_PAY_MODE_DTLS A, CB_RECEIPTS B WHERE A.TRANS_NUM_V=B.TRANS_NUM_V AND ( A. PAY_MODE_OPTN_V = (SELECT PAYMENT_CODE_V FROM CB_PAYMENT_METHODS WHERE KEY_CODE = 'MOMO') OR A.CASH_BOX_NUMBER_N = B.CASH_BOX_NUMBER_N ) AND
A.DB_CR_V='D' AND B.TRANS_OPTN_V = 'R' AND (:B7 ='ALL' OR B.ENTITY_TYPE_V = :B7 ) AND (NVL(:B6 , 'ALL') = 'ALL' OR (:B6 ='R' AND B.CASH_BOX_COLL_TYPE_V='SRCT')) AND (:B5 = 'ALL' OR A.LOCATION_CODE_V = :B5 ) AND (:B4 =0 OR B.USER_CODE_N=:B4 ) AND B.UPLOADED_DATE_D >= :B3 AND B.UPLOADED_DATE_D <= :B2 AND (NVL(:B1 , 'ALL') = 'ALL' OR A.PREFERRED_CURR_CODE_V = :B1 ) AND EXISTS (SELECT 1 FROM CB_MULTI_ACCT_RECEIPT_DETAILS WHERE RECEIPT_NUM_V = A.TRANS_NUM_V) |
| g16r28c8b30t6 | BEGIN Get_Master_Data_Dtls(:1, :2, :3, :4, :5, :6) ; END; |
| gmpmgkp4c15vh | Select object_name
from sys.ALL_OBJECTS
where owner = 'SYS'
and object_type = 'PACKAGE'
and object_name in ('DBMS_JAVA', 'DBMS_DEBUG', 'DBMS_DEBUG_JDWP', 'DBMS_PROFILER') |
| gzs0wt4cq396k |
WITH ashvw AS ( select inst_id, sample_time,
sql_id,
top_level_sql_id,
nvl(sql_plan_hash_value, 0) sql_plan_hash_value,
sql_plan_line_id,
sql_plan_operation,
sql_plan_options,
session_id,
session_serial#,
user_id,
plsql_entry_object_id,
plsql_entry_subprogram_id,
plsql_object_id,
plsql_subprogram_id,
in_inmemory_query,
wait_class,
event,
current_obj#,
service_hash,
program,
mo
dule,
action,
client_id,
blocking_inst_id,
blocking_session,
blocking_session_serial#,
nvl(con_id, 0) con_id, 1 samples
from gv$active_session_history
where :ash_mem_enable = 1 and :ash_disk_enable = 0
and sql_id = nvl(:sql_id, sql_id)
and inst_id between :inst_id_low and :inst_id_high
and sample_time between :min_analysis_time
and :max_analysis_time
and con_id = nvl(:con_id, con_id)
union all
select instance_number inst_id, sample_time,
sql_id,
top_level_sql_id,
nvl(sql_plan_hash_value, 0) sql_plan_hash_value,
sql_plan_line_id,
sql_plan_operation,
sql_plan_options,
session_id,
session_serial#,
user_id,
plsql_entry_object_id,
plsql_entry_subprogram_id,
plsql_object_id,
plsql_subprogram_id,
in_inmemory_query,
wait_class,
event,
current_obj#,
service_hash,
program,
module,
action,
client_id,
blocking_inst_id,
blocking_session,
blocking_session_serial#,
nvl(con_id, 0) con_id, :filter_ratio samples
from dba_hist_active_sess_history
where :ash_mem_enable = 0 and :ash_disk_enable = 1
and sql_id = nvl(:sql_id, sql_id)
and dbid = :dbid
and instance_number between :inst_id_low and :inst_id_high
and snap_id between :begin_snap and :end_snap
and sample_time between :min_analysis_time
and :max_analysis_time
and con_dbid = nvl(:con_dbid, con_dbid)
union all
(select inst_id, sample_time,
sql_id,
top_level_sql_id,
nvl(sql_plan_hash_value, 0) sql_plan_hash_value,
sql_plan_line_id,
sql_plan_operation,
sql_plan_options,
session_id,
session_serial#,
user_id,
plsql_entry_object_id,
plsql_entry_subprogram_id,
plsql_object_id,
plsql_subprogram_id,
in_inmemory_query,
wait_class,
event,
current_obj#,
service_hash,
program,
module,
action,
client_id,
blocking_inst_id,
blocking_session,
blocking_session_serial#,
nvl(con_id, 0) con_id, :filter_ra
tio samples
from gv$active_session_history
where :ash_mem_enable = 1 and :ash_disk_enable = 1
and sql_id = nvl(:sql_id, sql_id)
and inst_id between :inst_id_low and :inst_id_high
and con_id = nvl(:con_id, con_id)
and is_awr_sample='Y'
and ( (inst_id = 1 and sample_time between to_timestamp('03/07/2018 11:47:00', 'mm/dd/yyyy hh24:mi:ss') and to_timestamp('03/07/2018 11:52:00', 'mm/dd/yyyy hh24:mi:ss'))) union all
select instance_number inst_id, sample_time,
sql_id,
top_level_sql_id,
nvl(sql_plan_hash_value, 0) sql_plan_hash_value,
sql_plan_line_id,
sql_plan_operation,
sql_plan_options,
session_id,
session_serial#,
user_id,
plsql_entry_object_id,
plsql_entry_subprogram_id,
plsql_object_id,
plsql_subprogram_id,
in_inmemory_query,
wait_class,
event,
current_obj#,
service_hash,
program,
module,
action,
client_id,
blocking_inst_id,
blocking_session,
blocking_session_serial#,
nvl(con_id, 0) con_id, :filter_ratio samples
from dba_hist_active_sess_history
where :ash_mem_enable = 1 and :
ash_disk_enable = 1
and sql_id = nvl(:sql_id, sql_id)
and dbid = :dbid
and instance_number between :inst_id_low and :inst_id_high
and snap_id between :begin_snap and :end_snap
and con_dbid = nvl(:con_dbid, con_dbid)
and ( (instance_number = 1 and sample_time >= to_timestamp('03/07/2018 11:47:00', 'mm/dd/yyyy hh24:mi:ss') and sample_time < to_timestamp('03/06/2018 21:59:13', 'mm/dd/yyyy hh24:mi:ss'))) )) , ash_groups AS ( select sql_id,
top_level_sql_id,
sql_plan_hash_value,
sql_plan_line_id, sql_plan_options, sql_plan_operation,
inst_id, session_id, session_serial#,
user_id,
plsql_entry_object_id,
plsql_entry_subprogram_id,
plsql_object_id, plsql_subprogram_id,
in_inmemory_query,
nvl(wait_class, 'CPU') class,
nvl(event, decode(in_inmemory_query, 'Y',
'in memory', NULL)) event,
current_obj#,
service_hash,
program,
module, action,
client_id,
blocking_inst_id,
blocking_session,
blocking_session_serial#,
con_id,
sum(samples) sample_count,
grouping_id(sql_id) gid_sql_id,
grouping_id(top_level_sql_id) gid_top_sql_id,
grouping_id(sql_id, sql_plan_hash_value) gid_phv,
grouping_id(inst_id) gid_inst_id,
grouping_id(inst_id, session_id, session_serial#)
gid_sid,
grouping_id(user_id, con_id) gid_user_id,
grouping_id(plsql_entry_object_id,
plsql_entry_subprogram_id, con_id) gid_plsql_entry,
grouping_id(plsql_object_id,
plsql_subprogram_id, con_id) gid_plsql_object,
grouping_id(nvl(wait_class, 'CPU')) gid_wait_class,
grouping_id(nvl(wait_class, 'CPU'), nvl(event, decode(
in_inmemory_query, 'Y', 'in memory', NULL)))
gid_event,
grouping_id(current_obj#, con_id) gid_obj#,
grouping_id(service_hash, con_id) gid_service_hash,
grouping_id(program) gid_program,
grouping_id(module, action) gid_ma,
grouping_id(client_id) gid_client_id,
grouping_id(blocking_inst_id, blocking_session,
blocking_session_serial#) gid_blocker,
grouping_id(con_id, sql_id, sql_plan_hash_value,
nvl(wait_class, 'CPU'), nvl(event, decode(
in_inmemory_query, 'Y', 'in memory', NULL)))
gid_plan_activity,
grouping_id(con_id, sql_id, sql_plan_hash_value,
sql_plan_line_id,
sql_plan_options, sql_plan_operation,
nvl(wait_class, 'CPU'), nvl(event, decode(
in
_inmemory_query, 'Y', 'in memory', NULL)))
gid_plan_line,
grouping_id(con_id, sql_id, sql_plan_hash_value,
inst_id, session_id, session_serial#,
user_id, service_hash, program,
nvl(wait_class, 'CPU'), nvl(event, decode(
in_inmemory_query, 'Y', 'in memory', NULL)))
gid_plan_sessions
from ashvw
where sql_id = :sql_id
group by grouping sets(
sql_id,
top_level_sql_id,
(sql_id, sql_plan_hash_value),
inst_id,
(inst_id, session_id, session_serial#),
(user_id, con_id),
(plsql_entry_object_id, pl
sql_entry_subprogram_id, con_id),
(plsql_object_id, plsql_subprogram_id, con_id),
in_inmemory_query,
nvl(wait_class, 'CPU'),
(nvl(wait_class, 'CPU'), nvl(event, decode(in_inmemory_query,
'Y', 'in memory', NULL))),
(current_obj#, con_id),
(service_hash, con_id),
program,
(module, action),
client_id,
(blocking_inst_id,
blocking_session, blocking_session_serial#),
(con_id, sql_id, sql_plan_hash_value,
nvl(wait_class, 'CPU'), nvl(event, decode(
in_inmemory_query, 'Y', 'in memory', NULL))),
(con_id, sql_id, sql_plan_hash_value, sql_plan_line_id,
sql_plan_options, sql_plan_operation,
nvl(wait_class, 'CPU'), nvl(event, decode(
in_inmemory_query, 'Y', 'in memory', NULL))),
(con_id, sql_id, sql_plan_hash_value,
inst_id, session_id, session_serial#,
user_id, service_hash, program,
nvl(wait_class, 'CPU'), nvl(event, decode(
in_inmemory_query, 'Y', 'in memory', NULL)))
) )select xmlconcat(( select xmlagg(xmlelement("top_activity",
xmlconcat( (select xmlelement("dim", xmlattributes('top_level_sql_id' as "id", num_mems as "members", nonnull_samples as "count"), xmlelement("top_members", xmlagg(xmlelement("member", xmlattributes(top_level_sql_id as "id", sample_cou
nt as "count")) order by rnk, top_level_sql_id))) from (select top_level_sql_id, sample_count, rnk, nonnull_samples, count(*) over () num_mems from (select top_level_sql_id, sample_count, row_number() over (order by sample_count desc, top_level_sql_id) rnk, sum(sample_count) over () nonnull_samples from ash_groups where gid_top_sql_id = 0 and top_level_sql_id is not null)) where rnk <= 10 group by num_mems, nonnull_samples), (select xmlelement("dim", xmlattributes('sql_id, plan_hash_value' as "id", num_mems as "members", nonnull_samples as "count"), xmlelement("top_members", xmlagg(xmlelement("member", xmlattributes(sql_id || ', ' || sql_plan_hash_value as "id", sample_count as "count")) order by rnk, sql_id, sql_plan_hash_value))) from (select sql_id, sql_plan_hash_value, sample_count, rnk, nonnull_samples, count(*) over () num_mems from (select sql_id, sql_plan_hash_va
lue, sample_count, row_number() over (order by sample_count desc, sql_id, sql_plan_hash_value) rnk, sum(sample_count) over () nonnull_samples from ash_groups where gid_phv = 0 and gid_plan_activity != 0 and gid_plan_line != 0 and gid_plan_sessions != 0 and sql_id is not null and sql_plan_hash_value is not null)) where rnk <= 10 group by num_mems, nonnull_samples), (select xmlelement("dim", xmlattributes('inst_id' as "id", num_mems as "members", nonnull_samples as "count"), xmlelement("top_members", xmlagg(xmlelement("member", xmlattributes(inst_id as "id", sample_count as "count")) order by rnk, inst_id))) from (select inst_id, sample_count, rnk, nonnull_samples, count(*) over () num_mems from (select inst_id, sample_count, row_number() over (order by sample_count desc, inst_id) rnk, sum(sample_count) over () nonnull_samples from ash_groups where gid_inst_id = 0 and gid_sid != 0 and
gid_plan_sessions != 0 and inst_id is not null)) where rnk <= 10 group by num_mems, nonnull_samples), (select xmlelement("dim", xmlattributes('class' as "id", num_mems as "members", nonnull_samples as "count"), xmlelement("top_members", xmlagg(xmlelement("member", xmlattributes(class as "id", sample_count as "count")) order by rnk, class))) from (select class, sample_count, rnk, nonnull_samples, count(*) over () num_mems from (select class, sample_count, row_number() over (order by sample_count desc, class) rnk, sum(sample_count) over () nonnull_samples from ash_groups where gid_wait_class = 0 and gid_event != 0 and gid_plan_activity != 0 and gid_plan_line != 0 and gid_plan_sessions != 0 and class is not null)) where rnk <= 20 group by num_mems, nonnull_samples), (select xmlelement("dim",
xmlattributes('class, event' "id",
num_mems as "members",
nonnull_samples as "count"),
xmlelement("top_members",
xmlagg(xmlelement("member",
xmlattributes(id as "id",
sample_count as "count"))
order by rnk, id )))
from (select case when event is null
then class
else class || ', ' || event
end id
, sample_count, rnk, nonnull_samples,
count(*) over () num_mems
from (select class, event,
sample_count,
row_number() over
(order by sample_count desc, class, event
) rnk,
sum(sample_count) over () nonnull_samples
from ash_groups
where gid_event = 0
and gid_plan_activity != 0
and gid_plan_line != 0
and gid_plan_sessions != 0
and class is not null))
where rnk <= 10 group by num_mems, nonnull_samples), (select xmlelement("dim", xmlattributes('program' as "id", num_mems as "members", nonnull_samples as "count"), xmlelement("top_members", xmlagg(xmlelement("member", xmlattributes(program as "id", sample_count as "count")) order by rnk, program))) from (select program, sample_count, rnk, nonnull_samples, count(*) over () num_mems from (select program, sample_count, row_number() over (order by sample_count desc, program) rnk, sum(sample_count) over () nonnull_sampl
es from ash_groups where gid_program = 0 and gid_plan_sessions != 0 and program is not null)) where rnk <= 10 group by num_mems, nonnull_samples), (select xmlelement("dim", xmlattributes('module, action' as "id", num_mems as "members", nonnull_samples as "count"), xmlelement("top_members", xmlagg(xmlelement("member", xmlattributes(module || ', ' || nvl(action, 'null') as "id", sample_count as "count")) order by rnk, module, action))) from (select module, action, sample_count, rnk, nonnull_samples, count(*) over () num_mems from (select module, action, sample_count, row_number() over (order by sample_count desc, module, action) rnk, sum(sample_count) over () nonnull_samples from ash_groups where gid_ma = 0 and module is not null)) where rnk <= 10 group by num_mems, nonnull_samples), (select xmlelement("dim", xmlattributes('client_id' as "id", num_mems as "memb
ers", nonnull_samples as "count"), xmlelement("top_members", xmlagg(xmlelement("member", xmlattributes(client_id as "id", sample_count as "count")) order by rnk, client_id))) from (select client_id, sample_count, rnk, nonnull_samples, count(*) over () num_mems from (select client_id, sample_count, row_number() over (order by sample_count desc, client_id) rnk, sum(sample_count) over () nonnull_samples from ash_groups where gid_client_id = 0 and client_id is not null)) where rnk <= 10 group by num_mems, nonnull_samples), (select xmlelement("dim", xmlattributes('inst_id, session_id, session_serial#' as "id", num_mems as "members", nonnull_samples as "count"), xmlelement("top_members", xmlagg(xmlelement("member", xmlattributes(inst_id || ', ' || session_id || ', ' || session_serial# as "id", sample_count as "count")) order by rnk, i
nst_id, session_id, session_serial#))) from (select inst_id, session_id, session_serial#, sample_count, rnk, nonnull_samples, count(*) over () num_mems from (select inst_id, session_id, session_serial#, sample_count, row_number() over (order by sample_count desc, inst_id, session_id, session_serial#) rnk, sum(sample_count) over () nonnull_samples from ash_groups where gid_sid = 0 and gid_plan_sessions != 0 and inst_id is not null and session_id is not null and session_serial# is not null)) where rnk <= 10 group by num_mems, nonnull_samples), (select xmlelement("dim", xmlattributes('blocking_inst_id, blocking_session, blocking_session_serial#' as "id", num_mems as "members", nonnull_samples as "count"), xmlelement("top_members", xmlagg(xmlelement("member", xmlattributes(blocking_inst_id || ', ' || blocking_session || ', ' || blocking_session_serial# as "id", sample_count as "count")) order
by rnk, blocking_inst_id, blocking_session, blocking_session_serial#))) from (select blocking_inst_id, blocking_session, blocking_session_serial#, sample_count, rnk, nonnull_samples, count(*) over () num_mems from (select blocking_inst_id, blocking_session, blocking_session_serial#, sample_count, row_number() over (order by sample_count desc, blocking_inst_id, blocking_session, blocking_session_serial#) rnk, sum(sample_count) over () nonnull_samples from ash_groups where gid_blocker = 0 and blocking_inst_id is not null and blocking_session is not null and blocking_session_serial# is not null)) where rnk <= 10 group by num_mems, nonnull_samples) ,
(select xmlelement("dim",
xmlattributes('service_hash, service_name' as "id",
num_mems as "members",
nonnull_samples as "count"),
xmlele
ment("top_members",
xmlagg(xmlelement("member",
xmlattributes(
decode(a.con_id, 0, null, a.con_id) as "con_id",
a.service_hash || ', ' ||
nvl(s.name, 'Unavailable') "id",
sample_count as "count"))
order by rnk)))
from (select service_hash, sample_count,
rnk, nonnull_samples,
count(*) over () num_mems,
con_id
from (select service_hash, sample_count,
row_number()
over (order by sample_count desc,
service_hash) rnk,
sum(sample_count) over () nonnull_samp
les,
con_id
from ash_groups
where gid_service_hash = 0
and gid_plan_sessions != 0
and service_hash is not null)) a,
dba_services s
where a.service_hash = s.name_hash (+)
and rnk <= 10 group by num_mems, nonnull_samples) ,
(select xmlelement("dim",
xmlattributes('user_id, user_name' as "id",
num_mems as "members",
nonnull_samples as "count"),
xmlelement("top_members",
xmlagg(xmlelement("member",
xmlattributes(
decode(a.con_id, 0, null, a.con_id) as "con_id",
a.user_id || ', ' ||
nvl(u.username, 'Unavailable') as "id",
sample_count as "count"))
order by rnk, a.user_id)))
from (select user_id, sample_count, rnk, nonnull_samples,
count(*) over () num_mems,
con_id
from (select user_id, sample_count,
row_number()
over (order by sample_count desc,
user_id, con_id) rnk,
sum(sample_count) over () nonnull_samples,
con_id
from ash_groups
where gid_user_id = 0
and gid_plan_sessions != 0
and user_id is not null)) a,
dba_users u
where a.user_id = u.user_id (+)
and rnk <= 10 group by num_mems, nonnull_samples) ,
(select xmlelement("dim",
xmlattributes('object_id, owner, object_name, object_type'
as "id",
num_mems as "members",
nonnull_samples as "count"),
xmlelement("top_members",
xmlagg(xmlelement("member",
xmlattributes(
decode(a.con_id, 0, null, a.con_id) as "con_id",
a.current_obj# || ', ' ||
nvl(o.owner, 'Unavailable') || ', ' ||
nvl(o.object_name, 'Unavailable') || ', ' ||
nvl(o.object_type, 'Un
available') as "id",
sample_count as "count"))
order by rnk, a.current_obj#)))
from (select current_obj#, sample_count, rnk, nonnull_samples,
count(*) over () num_mems,
con_id
from (select current_obj#, sample_count,
row_number()
over (order by sample_count desc,
current_obj#, con_id) rnk,
sum(sample_count) over() nonnull_samples,
con_id
from ash_groups
where gid_obj# = 0
and current_obj# is not null
and current_obj# > 0 )) a,
dba_objects o
where a.current_obj# = o.object_id (+)
and rnk <= 10 group by num_mems, nonnull_samples) ,
(select xmlelement("dim",
xmlattributes ('owner, object, procedure' as "id",
num_mems as "members",
nonnull_samples as "count"),
xmlelement("top_members",
xmlagg(xmlelement("member",
xmlattributes(
decode(con_id, 0, null, con_id) as "con_id",
id as "id",
sample_count as "count"))
order by rnk)))
from (select con_id,
case when a.plsql_object_id is not null
then nvl(
(select p.owner || '
, ' ||
p.object_name || ', ' ||
p.procedure_name
from dba_procedures p
where p.object_id =
a.plsql_object_id
and p.subprogram_id =
a.plsql_subprogram_id
),
'Unavailable, ' ||
a.plsql_object_id || ', ' ||
a.plsql_subprogram_id)
end id,
sample_count, rnk, nonnull_samples, num_mems
from (select plsql_object_id,
plsql_subprogram_id,
sample_count, rnk, nonnull_samples,
count(*) over () num_mems,
con_id
from (select plsql_object_id,
plsql_subprogram_id,
sample_count,
row_number() over
(order by sample_count desc ) rnk,
sum(sample_count) over ()
nonnull_samples,
con_id
from ash_groups
where gid_plsql_object = 0
and plsql_object_id is not null)) a
where rnk <= 10) group by num_mems, nonnull_samples) ,
(select xmlelement("dim",
xmlattributes ('owner, entry_object, entry_procedure'
as "id",
num_mems as "members",
nonnull_samples as "count"),
xmlelement("top_members",
xmlagg(xmlelement("member",
xmlattributes(
decode(con_id, 0, null, con_id) as "con_id",
id as "id",
sample_count as "count"))
order by rnk)))
from (select con_id,
case when a.plsql_entry_object_id is not null
then nvl(
(select p.owner || ', ' ||
p.object_name || ', ' ||
p.procedure_name
from dba_procedures p
where p.object_id =
a.plsql_entry_object_id
and p.subprogram_id =
a.plsql_entry_subprogram_id
),
'Unavailable, ' ||
a.plsql_entry_object_id || ', ' ||
a.plsql_entry_subprogram_id)
end id,
sample_count, rnk, nonnull_samples, num_mems
from (select plsql_entry_object_id,
plsql_entry_subprogram_id,
sample_count, r
nk, nonnull_samples,
count(*) over () num_mems,
con_id
from (select plsql_entry_object_id,
plsql_entry_subprogram_id,
sample_count,
row_number() over
(order by sample_count desc) rnk,
sum(sample_count) over ()
nonnull_samples,
con_id
from ash_groups
where gid_plsql_entry = 0
and plsql_entry_object_id is not null)) a
where rnk <= 10) group by num_mems, nonnull_samples) ))) from dual ), (select xmlelement("plan_activities",
xmlagg(xmlelement("activities",
xmlattributes(decode(p.con_id, 0, null, p.con_id) as "con_id",
p.sql_plan_hash_value as "plan_hash_value"),
p.plan_activity,
pl.plan_line_activity,
ps.top_sessions)
order by p.sql_plan_hash_value))
from (select con_id, sql_plan_hash_value,
case when :show_plan_activity > 0 then
xmlelement("plan_activity",
xmlattributes(
sum(sample_count) as "count",
sum(case when class != 'CPU'
then sample_count
else 0
end) as "w
ait_count",
sum(case when class = 'CPU' and
event = 'in memory'
then sample_count
else 0
end) as "imq_count",
sum(case when class = 'CPU' and
event is null
then sample_count
else 0
end) as "cpu_count"),
xmlagg(xmlelement("activity",
xmlattributes(class as "class",
event as "event"),
sample_count)
order by sample_count desc, class, event))
else null
end plan_activity
from (select con_id, sql_id, sql_plan_hash_value,
nvl(class, 'CPU') class,
decode(to_char(:show_plan_event),
'1', nvl(event, decode(in_inmemory_query,
'Y', 'in memory', NULL)), NULL) event,
sum(sample_count) sample_count
from ash_groups
where sql_id = :sql_id
and gid_plan_activity = 0
and gid_plan_line != 0
and gid_plan_sessions != 0
group by con_id, sql_id, sql_plan_hash_value,
nvl(class, 'CPU'),
decode(t
o_char(:show_plan_event),
'1', nvl(event, decode(in_inmemory_query,
'Y', 'in memory', NULL)), NULL))
group by con_id, sql_plan_hash_value) p,
(select con_id, sql_plan_hash_value,
case when :show_plan_activity = 2 then
xmlelement("plan_line_activity",
xmlagg(xmlelement("operation",
xmlattributes(sql_plan_operation as "name",
sql_plan_options as "options",
sql_plan_line_id as "id",
line_sample_count as "count",
line_num_mems as "num_mems"),
activit
y)
order by sql_plan_line_id nulls first))
else null
end plan_line_activity
from (select con_id,
sql_id,
sql_plan_hash_value,
sql_plan_line_id,
sql_plan_operation,
sql_plan_options,
line_sample_count,
line_num_mems,
xmlagg(xmlelement("activity",
xmlattributes(class as "class",
event as "event"),
sample_count)
order by sample_count desc,
class, event) activity
fro
m (
select con_id,
sql_id,
sql_plan_hash_value,
sql_plan_line_id,
sql_plan_operation,
sql_plan_options,
nvl(class, 'CPU') class,
decode(to_char(:show_plan_event),
'1', nvl(event, decode(in_inmemory_query,
'Y', 'in memory', NULL)), NULL) event,
sum(sample_count) sample_count,
row_number() over (partition by
sql_id,
sql_plan_hash_value,
sq
l_plan_line_id
order by sum(sample_count) desc) rnk,
sum(sum(sample_count)) over
(partition by con_id,
sql_id,
sql_plan_hash_value,
sql_plan_line_id)
line_sample_count,
count(*) over (partition by con_id,
sql_id,
sql_plan_hash_value,
sql_plan_line_id)
line_num_mems
from ash_groups
where s
ql_id = :sql_id
and gid_plan_line = 0
group by con_id,
sql_id,
sql_plan_hash_value,
sql_plan_line_id,
sql_plan_operation,
sql_plan_options,
nvl(class, 'CPU'),
decode(to_char(:show_plan_event),
'1', nvl(event, decode(in_inmemory_query,
'Y', 'in memory', NULL)), NULL))
where rnk <= :top_n
group by con_id, sql_id, sql_plan_hash_value,
sql_plan_line_id,
sql_plan_operation, sql_plan_options,
line_sample_count, line_num_mems)
group by con_id, sql_plan_hash_value) pl,
(select a.con_id,
sql_plan_hash_value,
case when :show_session_activity > 0 then
xmlelement("top_activity",
xmlelement("dim",
xmlattributes(
'inst_id, session_id, session_serial#'
as "id",
num_mems as "members",
total_samples as "count"),
xmlelement("top_members",
xmlagg(xmlelement("member",
xmlattributes(inst_id || ', ' ||
session_id || ', ' ||
session_serial# as "id",
u.username as "username",
s.name as "service_name",
program as "program",
sess_total_cnt as "count"),
activity)
order by sess_total_cnt desc,
inst_id || ', ' ||
session_id || ', ' ||
session_serial# ))))
else null
end top_sessions
from (
select con_id,
sql_
plan_hash_value,
inst_id, session_id, session_serial#,
user_id, service_hash, program,
sess_class_cnt, sess_total_cnt,
total_samples,
row_number() over (order by sess_total_cnt desc,
inst_id, session_id,
session_serial#)
rnk_sess,
count(*) over () num_mems,
xmlagg(xmlelement("activity",
xmlattributes(class as "class",
event as "event"),
sample_count)
order by sample_count desc)
activity
from (
select con_id,
sql_plan_hash_value,
inst_id, session_id, session_serial#,
user_id, service_hash, program,
nvl(class, 'CPU') class,
decode(to_char(:show_plan_event),
'1', nvl(event, decode(in_inmemory_query,
'Y', 'in memory', NULL)), NULL) event,
sum(sample_count) sample_count,
sum(sum(sample_count)) over ()
total_samples,
sum(count(*)) over
(partition by con_id,
sql_plan_hash_value,
inst_id,
session_id,
session_serial#)
sess_class_cnt,
sum(sum(sample_count)) over
(partition by con_id,
sql_plan_hash_value,
inst_id,
session_id,
session_serial#)
sess_total_cnt
from ash_groups
where sql_id = :sql_id
and gid_plan_sessions = 0
group by con_id, sql
_plan_hash_value,
inst_id, session_id, session_serial#,
user_id, service_hash, program,
nvl(class, 'CPU'),
decode(to_char(:show_plan_event),
'1', nvl(event, decode(in_inmemory_query,
'Y', 'in memory', NULL)), NULL))
group by con_id, sql_plan_hash_value,
inst_id, session_id, session_serial#,
user_id, service_hash, program,
sess_class_cnt, sess_total_cnt,
total_samples) a,
dba_users u,
dba_services s
where rnk_sess <= :top_n
and a.user_id = u.user_id (+)
and
a.service_hash = s.name_hash (+)
group by a.con_id, sql_plan_hash_value,
num_mems, total_samples) ps
where p.con_id = pl.con_id (+)
and p.sql_plan_hash_value = pl.sql_plan_hash_value (+)
and p.con_id = ps.con_id (+)
and p.sql_plan_hash_value = ps.sql_plan_hash_value (+))) from dual |