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A DB2 Performance Tuning Roadmap--Q-BASED A/A IMPLEMENATION

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A DB2 Performance Tuning Roadmap--Q-BASED A/A IMPLEMENATION

Why Active/Active ? - Business RequirementsSENARIO OF TWO NODE QREPObjects needed in WebSphere MQOBJECTS IN QPREPARE ACTIONQ CONTROL TABLES -PARMTABLESCreate Q MapsCreate Q subscriptionsQ HOUSE-KEEPINT WORK ACTIONCHANLE ACTION:MQ QUEUE ACTIONQAPPLYLatency analysisLATENCY OUTLOOKCAPTURE LATENCY ANALYSISQ Apply latencyQREP RECOVERY

现在IDC大行其道,同城/异地双活甚至多活的概念已经日益普及。12年的时候,写过一篇mysql中关于MASTER/SLAVE的实现mysql replication---master/salve IN ONE PC。针对不同的DBMS,双活具体的实现不同,但都基于相同的理论或是基于SQL REPLICATION,或是基于LOG REPLICATION。这里介绍一下IBM中关于A/A的实现,关于Q的架构以及实现后面专门抽出一章来进行介绍,这里是实践贴,使你对Q有一个感性认识。关于本文最后的Q latency部分,也是每一个系统运维人员都必须要掌握的,因为它对于RPO/RTO的重要性不言而喻。

Why Active/Active ? - Business Requirements


Replication Technologies for Business Continuity

Requirements and trade-offs to consider in selecting technologies:

What needs to be recovered?: Application Data vs. DBMS vs. Entire SystemsHow long does it take? Recovery Time Objective (RTO): One hours or more vs. few secondsHow much data could you lose? Recovery Point Objective (RPO): No data loss vs. seconds of dataDistance required between sites?: 10s of kilometers vs. 100s of kilometersHardware Utilization: Standby vs. ActiveImpact on applications: Direct overhead (synchronous technologies) vs. no impact (async technologies)CPU Overhead: Negligible (hardware e.g., PPRC) vs. Proportional to the workload (transaction replaytechnology)
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SENARIO OF TWO NODE QREP

Objects needed in WebSphere MQ


OBJECTS IN Q


OBJECT DEFINE DESCRIPTION

OBJECT NAMESNODE1NODE2
HOSTNAMESITEASITEB
IP10.1.1.110.2.1.1
DB2 VERSION1011
SUBSYSTEMDB1DB2
LOCATIONDB0ADB0B
DATABASE PORT 80009000
DATABASEDB1DB2
Q MGRQMGR1QMGR2
MQ PROT 80019001
RESTARTQMQ1.RESTARTQMQ2.RESTARTQ
ADMINQMQ1.ADMINQMQ2.ADMINQ
SENDQMQ1.SENDQ.Q1MQ2.SENDQ.Q1
SENDQMQ1.SENDQ.Q2MQ2.SENDQ.Q2
SENDQMQ1.SENDQ.Q3MQ2.SENDQ.Q3
REP SCHEMAASN1ASN2

PREPARE ACTION

  1. BIND REPLICATION PROGRAM

  2. APF AUTHORIZE Q-RELATED PROGRAM

  3. ENABLE Q TABEL DATA CAPTURES

    ALTER TABLE QTABLE DATA CAPTURE CHANGES;

  4. CONFIG CDB TABLE

    远程DB2连接使用DRDA协议,在使用之前需要配置对应的CDB信息。CDB 主要是Qapply用来连接Qcapture的属性配置,第一条SQLP配置了本端的连接信息,后面3条SQL配置了,对端的连接信息。

    NODE1:

    INSERT INTO SYSIBM.LOCATIONS(LOCATION, LINKNAME, PORT) VALUES ('DB0A', 'DB0A', '');INSERT INTO SYSIBM.IPNAMES(LINKNAME, SECURITY_OUT, USERNAMES, IPADDR) VALUES ('DB0B', 'P', 'O', 'demo.TEST.com');INSERT INTO SYSIBM.USERNAMES(TYPE, LINKNAME, NEWAUTHID, PASSWORD) VALUES ('O', 'DB0B', 'TESTUSER', 'NOTTELLYOU');INSERT INTO SYSIBM.LOCATIONS(LOCATION, LINKNAME, PORT) VALUES ('DB0B', 'DB0B', '9000');
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    NODE2:

    INSERT INTO SYSIBM.LOCATIONS(LOCATION, LINKNAME, PORT) VALUES ('DB0B', 'DB0B', '');INSERT INTO SYSIBM.IPNAMES(LINKNAME, SECURITY_OUT, USERNAMES, IPADDR) VALUES ('DB0A', 'P', 'O', 'DEMO.TEST.com');INSERT INTO SYSIBM.USERNAMES(TYPE, LINKNAME, NEWAUTHID, PASSWORD) VALUES ('O', 'DB0A', 'BRIDDEL', 'XXXXXXXX');INSERT INTO SYSIBM.LOCATIONS(LOCATION, LINKNAME, PORT) VALUES ('DB0A', 'DB0A', '8000');
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    MQ OBJECT DEFINE

    定义MQ传输使用的各种对象。

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    DEFINE QLOCAL(MQ1.ADMINQ) DESC('ADMINQ OF MQ2 IN SITEA') PUT(ENABLED) GET(enabled) SHARE DEFSOPT(SHARED) MAXDEPTH(1000) DEFPSIST(YES)
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    DEFINE QLOCAL(MQ1.RESTARQ) DESC('RESTARTQ OF MQ2 IN SITEA') PUT(ENABLE) GET(ENABLE) SHARE DEFSOPT(SHARED) MAXDEPTH(1) INDEXTYPE(MSGID) DEFPSIS(YES)
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    DEFINE QLOCAL(MQ1.SENDFQ.Q1) REPLACE DESC('LOCAL SEND Q FOR FX Q') PUT(ENABLED) GET(ENABLED) SHARE DEFSOPT(SHARED) DEFPSIS(YES) MAXDEPTH(99999) INDEXTYPE(MSGID)    
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    DEFINE QMODEL('IBMQREP.SPILL,QMODELQ') REPLACE DEFSOPT(SHARED) MAXDEPTH(99999999) MSGDLVSQ(FIFO) DEFTYPE(PERMDYN)
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    DEFINE CHANNEL('MQ1.TO.MQ2') REPLACE CHLTYPE(SDR) TRPTYPE(TCP) DISCINT(0) DESC('SENDER CHANNEL TO MQ2') XMITQ(XMQ1) CONNAME('10.2.1.1(9001)')
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DEFPSIST

YES means that unless instructed otherwise, the Queue Manager logs transactions to these queues and can recover those messages in the event of failure or restart.



Q CONTROL TABLES -PARMTABLES

All control tables that are located on a node have to have the same schema.both the Q Capture and Q Apply on NODE 1 will use the replication schema ASN1 AND CONTROL TABLE ON NODE USE ASN2.

这里配置Q脚本是通过 ASNCLP配置的。它既支持交互方式,也支持批量方式。

举例说明

SET QMANAGER "MQ1A" FOR NODE 1;SET QMANAGER "MQ1B" FOR NODE 2;CREATE CONTROL TABLES FOR NODE 1 USINGCAPPARMSRESTARTQ "MQ1.RESTARTQ"ADMINQ "MQ1.ADMINQ"MONITOR INTERVAL 10000APPPARMSIN ZOS PAGE LOCK DB DEMODB QCNTLAP CREATEROW LOCK DB DEMODB2 QCNTLAR CREATEMONITOR INTERVAL 10000;CREATE CONTROL TABLES FOR NODE 2 USINGCAPPARMSRESTARTQ "MQ2.RESTARTQ"ADMINQ "MQ2.ADMINQ"MONITOR INTERVAL 10000APPPARMSIN ZOS PAGE LOCK DB RBBDEMO QCNTLAP CREATEROW LOCK DB RBBDEMO QCNTLAR CREATEMONITOR INTERVAL 10000;
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Create Q Maps

Two Q Maps were used for the first part of this exercise. Even though a single Q

Map can efficiently contain hundreds of Q Subscriptions, you might want to

separate your subscriptions into multiple Q Maps for administrative purposes.

这里即确定了表的订阅关系。

CREATE REPLQMAP BIDIND1_TO_BIDIND2_MAP1 ( NODE 1, NODE 2 ) USINGADMINQ "BIDIND1.ADMINQ"RECVQ "BIDIND1.TO.BIDIND2.DATAQ1"SENDQ "BIDIND1.TO.BIDIND2.DATAQ1"NUM APPLY AGENTS 2;CREATE REPLQMAP BIDIND1_TO_BIDIND2_MAP2 ( NODE 1, NODE 2 ) USINGADMINQ "BIDIND1.ADMINQ"RECVQ "BIDIND1.TO.BIDIND2.DATAQ2"SENDQ "BIDIND1.TO.BIDIND2.DATAQ2"NUM APPLY AGENTS 2;
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Create Q subscriptions

定义一张表属于哪一个Qmap,以及是否进行Q复制。

## Use MAP1 for TABLE1 and TABLE2#SET CONNECTION SOURCE DB1A.ASNB1 TARGET DB1C.ASNB2REPLQMAP BIDIND1_TO_BIDIND2_MAP1 ;SET TABLES (DB1.ASN1.TABLE1);CREATE QSUB SUBTYPE UFROM NODE DB1A.ASNB1 SOURCE HAS LOAD PHASE NTARGET CONFLICT ACTION IFROM NODE DB1C.ASNB2 SOURCE HAS LOAD PHASE NTARGET CONFLICT ACTION F;
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Q HOUSE-KEEPINT WORK ACTION

CHANLE ACTION:

START CHANNEL(MQ1A.TO.MQ1B)

DISPLAY CHSTATUS(MQ1BA.TO.MQ1B)

START CHANNEL(MQ1B.TO.MQ1A)

DISPLAY CHSTATUS(MQ1B.TO.MQ1A)

MQ QUEUE ACTION

+MQ2 CLEAR QLOCA(MQ2.SENDQ.Q1)DISPLAY QLOCAL(MQ2.SENDQ.Q1) CURDEPTH
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QAPPLY

Latency analysis

关于Q latency它与我们搭建Q的目标息息相关,特别是对IDC RPT/ROT 两个指标的影响巨大。因此分析Q lantency变成了DBA一项必须掌握的技能。要想进行latency分析,你必须明确latency是如何定义的,现有的工具以及如何进行调整。

LATENCY OUTLOOK

Control tables for replication monitoring

? IBMQREP_CAPMON

? IBMQREP_CAPQMON

? IBMQREP_APPLYMON

上图中每一个数字对应的动作如下:

t1 = transaction committed at the source site

t2 = the Q Capture program read the transaction from the log

t3 = the Q Capture program committed the message to the send queue

t4 = the Q Apply program read the message from the receive queue

t5 = the Q Apply successfully committed the transaction at the target site

对应的Q END-TO-END latency=T5-T1

即一个交易在目标端与源端commit之间的时间间隔。影响Q latency的因素一个有10个,具体的分布如下:

需要说明的是背景为蓝色的影响因素对Q 的配置以及SQL语句关联较大。而白色背景部分的影响相对可控,前提是MQ,DBMS WORK WELL.

下面给出上述10个影响因素的定义,对应的monitor信息,以及如何调优。

seqFactor impacting latencyRelevant statistics
1Q Capture log latencyIBMQREP_CAPMON:CURRENT_LOG_TIME
2Q Capture time reading DB2 log records (DB2 IFI calls)IBMQREP_CAPMON:LOGREAD_API_TIME
3Q Capture time waiting for memoryIBMQREP_CAPMON:LOGRDR_SLEEPTIME,NUM_END_OF_LOGS
4Q Capture time to put WebSphere MQ messages in a send queue and Q Capture time to commit all WebSphere MQ transactionsIBMQREP_CAPQMON: MQPUT_TIME, QFULL_ERROR_COUNT IBMQREP_CAPMON:MQCMIT_TIME
5WebSphere MQ time sending and staging WebSphere MQ messagesnot saved in monitor tables
6Q Apply time to retrieve WebSphere MQ messages from a receive queueIBMQREP_APPLYMON:MQGET_TIME
7Q Apply time waiting due to transaction dependenciesIBMQREP_APPLYMON:DEPENDENCY_DELAY
8Q Apply waiting for agents to pick up DBMS transactions ready to be appliedIBMQREP_APPLYMON:WORKQ_WAIT_TIME
9Q Apply time retrying SQL due to RI, unique violation,or deadlockIBMQREP_APPLYMON:RETRY_TIME
10Q Apply time in DB2 processing successful transactionsIBMQREP_APPLYMON:DBMS_TIME

CAPTURE LATENCY ANALYSIS

LOGREAD_API_TIME:IBMQREP_CAPMON The time spent in DB2 returning log records to Q CaptureNUM_END_OF_LOGS:IBMQREP_CAPMON table, lists the number of times that the Q Capture program reached the end of the DB2 logLOGRDR_SLEEPTIME:IBMQREP_CAPMON LOGREADER SLEEP TIME FOR NUM_END_OF+_LOGS OR  it reached its memory limit thresholdMQPUT_TIME:IBMQREP_CAPMONThe time delay spent in WebSphere MQ to put new messages in the send queue MQCMIT_TIME: IBMQREP_CAPMON The time delay spent in WebSphere MQ to commit the MQ transactions XMITQDEPTH : IBMQREP_CAPQMON The transmit queue depth valu If the transmit queue depth keeps growing and there is a lot of I/O to the physical pageset of the transmit queue, this means that the capacity of the MQ channel has been exceeded
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TRAN_BATCH_SZIE

平均每一个交易的大小 = MQ_BYTES/TRANS_PUBLISHED

平均每一个消息所包含的交易数目=MQ_MESSAGES /TRANS_PUBLISHED,该值应该近似等于TRAN_BATCH_SIZE

Q Apply latency

WORKQ_WAIT_TIME:IBMQREP_APPLYMON table tracks how long it takes transactions that are ready to be applied at the target site to be picked up by a Q Apply agentRETRY_TIME     :IBMQREP_APPLYMON Q Apply is retrying some of the SQL statements included inthe replicated transactions,SUCH RI,UI,TIMEOUT,DEADLOCKThe DBMS_TIME  :IBMQREP_APPLYMON  tracks the average time spent in DB2 applying the transactions for a given Q Apply monitor interval. The transactions include user tables (replicated tables) and Q Replication tables (control table data that tracks the Q Apply progress)
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QREP RECOVERY

STARTLRSN: lsn value from where it is safe to start reading the DB2 log

commit lsn: lsn value up to which it is safe to skip committed transactions as Q Capture is reading the log records, because the transactions were previously published.

本文所有的内容均整理自互联网,仅供参考学习,如有涉及版权问题,请自行删除本文,谢谢。

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