RAC – 第4页 – Oracle and Linux

一步一步在Linux上安装Oracle 11gR2 RAC (7)

6月 20,2012 有3条评论 oracle 11g, RAC

5 创建ASM磁盘组

以grid用户创建ASM磁盘组，创建的ASM磁盘组为下一步创建数据库提供存储。

① grid用户登录图形界面，执行asmca命令来创建磁盘组：

② 进入ASMCA配置界面后，单击Create，创建新的磁盘组：

③ 输入磁盘组名 DATA，冗余策略选择External，磁盘选择ORCL:VOL3，单击OK：

④ DATA磁盘组创建完成，单击OK：

⑤ 继续创建磁盘组，磁盘组名FLASH，冗余策略选择External，磁盘选择ORCL:VOL4：

⑥ 最后，完成DATA、FLASH磁盘组的创建，Exit推出ASMCA图形配置界面：

至此，利用ASMCA创建好DATA、FLASH磁盘组。且，可以看到连同之前创建的GRIDDG 3个磁盘组均已经被RAC双节点MOUNT。

6 创建RAC数据库

接下来，使用DBCA来创建RAC数据库。

① 以oracle用户登录图形界面，执行dbca，进入DBCA的图形界面，选择第1项，创建RAC数据库：

② 选择创建数据库选项，Next：

③ 选择创建通用数据库，Next：

④ 配置类型选择Admin-Managed，输入数据库名devdb，选择双节点，Next：

⑤ 选择默认，配置OEM、启用数据库自动维护任务，Next：

⑥ 选择数据库用户使用同一口令，Next：

⑦ 数据库存储选择ASM，使用OMF，数据区选择之前创建的DATA磁盘组，Next：

⑧ 指定数据库闪回区，选择之前创建好的FLASH磁盘组，Next：

⑨ 选择创建数据库自带Sample Schema，Next：

⑩ 选择数据库字符集，AL32UTF8，Next：

⑪ 选择默认数据库存储信息，直接Next：

⑫ 单击，Finish，开始创建数据库，Next：

创建数据库可能持续时间稍长：

⑬ 完成创建数据库。

至此，我们完成创建RAC数据库！！！

一步一步在Linux上安装Oracle 11gR2 RAC (6)

6月 19,2012 有3条评论 oracle 11g, RAC

4安装Oracle 软件

从此步骤开始，我们正式安装oracle软件：

① 以oracle用户登录图形界面，执行/home/oracle/database/runInstaller,进入OUI的图形安装界面：

② 进入OUI安装界面后，选择第3项，跳过软件更新，Next：

③ 选择第2项，只安装oracle软件，Next：

④ 选择第2项，安装oracle RAC，选择所有节点，Next：

⑤ 语言选择默认，English，Next：

⑥ 选择第1项，安装企业版软件，Next：

⑦ 选择oracle软件的安装路径，其中ORACLE_BASE,ORACLE_HOME均选择之前已经配置好的，可参照2.5节中的配置信息。Next：

⑧ 选择oracle用户组，Next：

⑨ 执行安装前的预检查，Next：

⑩ 安装概要信息，Install：

⑪ 根据提示以root用户分别在两个节点上执行脚本，Next：

执行/u01/app/oracle/product/11.2.0/db_1/root.sh 脚本：

node1：

[root@node1 ~]# /u01/app/oracle/product/11.2.0/db_1/root.sh

Performing root user operation for Oracle 11g

The following environment variables are set as:

ORACLE_OWNER= oracle

ORACLE_HOME= /u01/app/oracle/product/11.2.0/db_1

Enter the full pathname of the local bin directory: [/usr/local/bin]:

The contents of "dbhome" have not changed. No need to overwrite.

The contents of "oraenv" have not changed. No need to overwrite.

The contents of "coraenv" have not changed. No need to overwrite.

Entries will be added to the /etc/oratab file as needed by

Database Configuration Assistant when a database is created

Finished running generic part of root script.

Now product-specific root actions will be performed.

Finished product-specific root actions.

[root@node1 ~]#

node2：

[root@node2 ~]# /u01/app/oracle/product/11.2.0/db_1/root.sh

Performing root user operation for Oracle 11g

The following environment variables are set as:

ORACLE_OWNER= oracle

ORACLE_HOME= /u01/app/oracle/product/11.2.0/db_1

Enter the full pathname of the local bin directory: [/usr/local/bin]:

The contents of "dbhome" have not changed. No need to overwrite.

The contents of "oraenv" have not changed. No need to overwrite.

The contents of "coraenv" have not changed. No need to overwrite.

Entries will be added to the /etc/oratab file as needed by

Database Configuration Assistant when a database is created

Finished running generic part of root script.

Now product-specific root actions will be performed.

Finished product-specific root actions.

[root@node2 ~]#

⑫ 最后，单击close，完成oracle软件在双节点上的安装。

至此，我们在RAC双节点上完成oracle软件的安装！！！

一步一步在Linux上安装Oracle 11gR2 RAC (5)

6月 18,2012 有3条评论 oracle 11g, RAC

3 安装Grid Infrastructure

从此步骤开始，我们正式安装Grid软件：

① 以grid用户登录图形界面，执行/home/grid/grid/runInstaller,进入OUI的图形安装界面：

② 进入OUI安装界面后，选择第3项，跳过软件更新，Next：

③ 选择集群的Grid Infrastructure，Next：

④ 选择 advanced Installation，Next：

⑤ 语言选择默认，English，Next：

⑥ 去掉Configure GNS选项，按照之前2.1节中的表格输入Cluster Name:scan-cluster,SCAN Name：scan-cluster.localdomain。Next：

⑦ 单击Add，添加第2个节点，Next：

⑧ 确认网络接口，Next：

⑨ 选择ASM，作为存储，Next：

⑩ 输入ASM磁盘组名，这里命名为GRIDDG，冗余策略选择External外部，AU大小选择默认1M，ASM磁盘选择VOL1，VOL2。Next：

⑪ 选择给ASM的SYS、ASMSNMP用户配置为相同的口令，并输入口令，Next：

⑫ 选择不使用IPMI，Next：

⑬ 给ASM指定不同的组，Next：

⑭ 选择GRID软件的安装路径，其中ORACLE_BASE,ORACLE_HOME均选择之前已经配置好的，可参照2.5节中的配置信息。这里需要注意GRID软件的ORACLE_HOME不能是ORACLE_BASE的子目录。

⑮ 选择默认的Inventory，Next：

⑯ 检查出现告警，提示在所有节点上缺失cvuqdisk-1.0.9-1软件包。

可以选择忽略，直接进入下一步安装。也可以从grid安装文件的rpm目录下获取该RPM包，然后进行安装。

node1：

[root@node1 rpm]# pwd

/home/grid/grid/rpm

[root@node1 rpm]# ll

total 12

-rwxr-xr-x 1 root root 8551 Sep 22 2011 cvuqdisk-1.0.9-1.rpm

[root@node1 rpm]# rpm -ivh cvuqdisk-1.0.9-1.rpm

Preparing… ########################################### [100%]

Using default group oinstall to install package

1:cvuqdisk ########################################### [100%]

[root@node1 rpm]#

node2：

[root@node2 ~]# ll

total 96

-rw——- 1 root root 1371 Apr 20 14:48 anaconda-ks.cfg

drwxr-xr-x 2 root root 4096 Apr 26 11:20 asm_rpm

-rwxr-xr-x 1 root root 8551 Apr 27 09:27 cvuqdisk-1.0.9-1.rpm

-rw-r–r– 1 root root 51256 Apr 20 14:48 install.log

-rw-r–r– 1 root root 4077 Apr 20 14:48 install.log.syslog

drwxr-xr-x 2 root root 4096 Apr 24 10:45 shell

[root@node2 ~]# export CVUQDISK_GRP=oinstall

[root@node2 ~]# rpm -ivh cvuqdisk-1.0.9-1.rpm

Preparing… ########################################### [100%]

1:cvuqdisk ########################################### [100%]

[root@node2 ~]#

在所有节点上安装完cvuqdisk-1.0.9-1软件后，重新执行预检查，不再有警告信息。

⑰ 进入安装GRID安装之前的概要信息，Install进行安装：

⑱ 根据提示以root用户分别在两个节点上执行脚本：

执行/u01/app/oraInventory/orainstRoot.sh脚本：

node1：

[root@node1 ~]# /u01/app/oraInventory/orainstRoot.sh

Changing permissions of /u01/app/oraInventory.

Adding read,write permissions for group.

Removing read,write,execute permissions for world.

Changing groupname of /u01/app/oraInventory to oinstall.

The execution of the script is complete.

[root@node1 ~]#

node2：

[root@node2 ~]# /u01/app/oraInventory/orainstRoot.sh

Changing permissions of /u01/app/oraInventory.

Adding read,write permissions for group.

Removing read,write,execute permissions for world.

Changing groupname of /u01/app/oraInventory to oinstall.

The execution of the script is complete.

[root@node2 ~]#

执行/u01/app/11.2.0/grid/root.sh脚本：

node1：

[root@node1 ~]# /u01/app/11.2.0/grid/root

root.sh rootupgrade.sh

[root@node1 ~]# /u01/app/11.2.0/grid/root.sh

Performing root user operation for Oracle 11g

The following environment variables are set as:

ORACLE_OWNER= grid

ORACLE_HOME= /u01/app/11.2.0/grid

Enter the full pathname of the local bin directory: [/usr/local/bin]:

Copying dbhome to /usr/local/bin …

Copying oraenv to /usr/local/bin …

Copying coraenv to /usr/local/bin …

Creating /etc/oratab file…

Entries will be added to the /etc/oratab file as needed by

Database Configuration Assistant when a database is created

Finished running generic part of root script.

Now product-specific root actions will be performed.

Using configuration parameter file: /u01/app/11.2.0/grid/crs/install/crsconfig_params

Creating trace directory

OLR initialization – successful

root wallet

root wallet cert

root cert export

peer wallet

profile reader wallet

pa wallet

peer wallet keys

pa wallet keys

peer cert request

pa cert request

peer cert

pa cert

peer root cert TP

profile reader root cert TP

pa root cert TP

peer pa cert TP

pa peer cert TP

profile reader pa cert TP

profile reader peer cert TP

peer user cert

pa user cert

Adding Clusterware entries to inittab

CRS-2672: Attempting to start 'ora.mdnsd' on 'node1'

CRS-2676: Start of 'ora.mdnsd' on 'node1' succeeded

CRS-2672: Attempting to start 'ora.gpnpd' on 'node1'

CRS-2676: Start of 'ora.gpnpd' on 'node1' succeeded

CRS-2672: Attempting to start 'ora.cssdmonitor' on 'node1'

CRS-2672: Attempting to start 'ora.gipcd' on 'node1'

CRS-2676: Start of 'ora.gipcd' on 'node1' succeeded

CRS-2676: Start of 'ora.cssdmonitor' on 'node1' succeeded

CRS-2672: Attempting to start 'ora.cssd' on 'node1'

CRS-2672: Attempting to start 'ora.diskmon' on 'node1'

CRS-2676: Start of 'ora.diskmon' on 'node1' succeeded

CRS-2676: Start of 'ora.cssd' on 'node1' succeeded

ASM created and started successfully.

Disk Group GRIDDG created successfully.

clscfg: -install mode specified

Successfully accumulated necessary OCR keys.

Creating OCR keys for user 'root', privgrp 'root'..

Operation successful.

CRS-4256: Updating the profile

Successful addition of voting disk 9516d145c0254f9ebf50064a6a916182.

Successfully replaced voting disk group with +GRIDDG.

CRS-4256: Updating the profile

CRS-4266: Voting file(s) successfully replaced

## STATE File Universal Id File Name Disk group

— —– —————– ——— ———

1. ONLINE 9516d145c0254f9ebf50064a6a916182 (ORCL:VOL1) [GRIDDG]

Located 1 voting disk(s).

CRS-2672: Attempting to start 'ora.asm' on 'node1'

CRS-2676: Start of 'ora.asm' on 'node1' succeeded

CRS-2672: Attempting to start 'ora.GRIDDG.dg' on 'node1'

CRS-2676: Start of 'ora.GRIDDG.dg' on 'node1' succeeded

CRS-2672: Attempting to start 'ora.registry.acfs' on 'node1'

CRS-2676: Start of 'ora.registry.acfs' on 'node1' succeeded

Configure Oracle Grid Infrastructure for a Cluster … succeeded

[root@node1 ~]#

node2：

[root@node2 ~]# /u01/app/11.2.0/grid/root.sh

Performing root user operation for Oracle 11g

The following environment variables are set as:

ORACLE_OWNER= grid

ORACLE_HOME= /u01/app/11.2.0/grid

Enter the full pathname of the local bin directory: [/usr/local/bin]:

Copying dbhome to /usr/local/bin …

Copying oraenv to /usr/local/bin …

Copying coraenv to /usr/local/bin …

Creating /etc/oratab file…

Entries will be added to the /etc/oratab file as needed by

Database Configuration Assistant when a database is created

Finished running generic part of root script.

Now product-specific root actions will be performed.

Using configuration parameter file: /u01/app/11.2.0/grid/crs/install/crsconfig_params

Creating trace directory

OLR initialization – successful

Adding Clusterware entries to inittab

CRS-4402: The CSS daemon was started in exclusive mode but found an active CSS daemon on node node1,

number 1, and is terminating

An active cluster was found during exclusive startup, restarting to join the cluster

Configure Oracle Grid Infrastructure for a Cluster … succeeded

[root@node2 ~]#

此时，集群件相关的服务已经启动。当然，ASM实例也将在两个节点上启动。

[root@node1 ~]# su – grid

node1-> crs_stat -t

Name Type Target State Host

————————————————————

ora.GRIDDG.dg ora….up.type ONLINE ONLINE node1

ora….N1.lsnr ora….er.type ONLINE ONLINE node1

ora.asm ora.asm.type ONLINE ONLINE node1

ora.cvu ora.cvu.type ONLINE ONLINE node1

ora.gsd ora.gsd.type OFFLINE OFFLINE

ora….network ora….rk.type ONLINE ONLINE node1

ora….SM1.asm application ONLINE ONLINE node1

ora.node1.gsd application OFFLINE OFFLINE

ora.node1.ons application ONLINE ONLINE node1

ora.node1.vip ora….t1.type ONLINE ONLINE node1

ora….SM2.asm application ONLINE ONLINE node2

ora.node2.gsd application OFFLINE OFFLINE

ora.node2.ons application ONLINE ONLINE node2

ora.node2.vip ora….t1.type ONLINE ONLINE node2

ora.oc4j ora.oc4j.type ONLINE ONLINE node1

ora.ons ora.ons.type ONLINE ONLINE node1

ora….ry.acfs ora….fs.type ONLINE ONLINE node1

ora.scan1.vip ora….ip.type ONLINE ONLINE node1

node1->

⑲ 执行完上述脚本之后，单击OK，Next，进入下一步。

⑳ 最后，单击close，完成GRID软件在双节点上的安装。

至此，GRID集群件安装成功！！！

一步一步在Linux上安装Oracle 11gR2 RAC (4)

6月 14,2012 有9条评论 oracle 11g, RAC

2.14 配置ASM磁盘

在上一步2.13节中，我们已经对RAC双节点已经配置好了共享磁盘，接下来需要将这些共享磁盘格式化、然后用asmlib将其配置为ASM磁盘，用于将来存放OCR、Voting Disk和数据库用。

注意：只需在其中1个节点上格式化就可以，接下来我们选择在node1节点上格式化。

这里我们以asmlib软件来创建ASM磁盘，而不使用raw disk，而且从11gR2开始，OUI的图形界面已经不再支持raw disk。

2.14.1 格式化共享磁盘

① 以root用户分别在两个节点上执行fdisk命令，查看现有硬盘分区信息：

node1：

[root@node1 ~]# fdisk -l

Disk /dev/sda: 21.4 GB, 21474836480 bytes

255 heads, 63 sectors/track, 2610 cylinders

Units = cylinders of 16065 * 512 = 8225280 bytes

Device Boot Start End Blocks Id System

/dev/sda1 * 1 2163 17374266 83 Linux

/dev/sda2 2164 2609 3582495 82 Linux swap / Solaris

Disk /dev/sdb: 524 MB, 524288000 bytes

64 heads, 32 sectors/track, 500 cylinders

Units = cylinders of 2048 * 512 = 1048576 bytes

Disk /dev/sdb doesn't contain a valid partition table

Disk /dev/sdc: 524 MB, 524288000 bytes

64 heads, 32 sectors/track, 500 cylinders

Units = cylinders of 2048 * 512 = 1048576 bytes

Disk /dev/sdc doesn't contain a valid partition table

Disk /dev/sdd: 3221 MB, 3221225472 bytes

255 heads, 63 sectors/track, 391 cylinders

Units = cylinders of 16065 * 512 = 8225280 bytes

Disk /dev/sdd doesn't contain a valid partition table

Disk /dev/sde: 3221 MB, 3221225472 bytes

255 heads, 63 sectors/track, 391 cylinders

Units = cylinders of 16065 * 512 = 8225280 bytes

Disk /dev/sde doesn't contain a valid partition table

[root@node1 ~]#

node2：

[root@node2 ~]# fdisk -l

Disk /dev/sda: 21.4 GB, 21474836480 bytes

255 heads, 63 sectors/track, 2610 cylinders

Units = cylinders of 16065 * 512 = 8225280 bytes

Device Boot Start End Blocks Id System

/dev/sda1 * 1 2163 17374266 83 Linux

/dev/sda2 2164 2609 3582495 82 Linux swap / Solaris

Disk /dev/sdb: 524 MB, 524288000 bytes

64 heads, 32 sectors/track, 500 cylinders

Units = cylinders of 2048 * 512 = 1048576 bytes

Disk /dev/sdb doesn't contain a valid partition table

Disk /dev/sdc: 524 MB, 524288000 bytes

64 heads, 32 sectors/track, 500 cylinders

Units = cylinders of 2048 * 512 = 1048576 bytes

Disk /dev/sdc doesn't contain a valid partition table

Disk /dev/sdd: 3221 MB, 3221225472 bytes

255 heads, 63 sectors/track, 391 cylinders

Units = cylinders of 16065 * 512 = 8225280 bytes

Disk /dev/sdd doesn't contain a valid partition table

Disk /dev/sde: 3221 MB, 3221225472 bytes

255 heads, 63 sectors/track, 391 cylinders

Units = cylinders of 16065 * 512 = 8225280 bytes

Disk /dev/sde doesn't contain a valid partition table

[root@node2 ~]#

从上，我们可以看到目前两个节点上的分区信息一致：其中/dev/sda是用于存放操作系统的，/dev/sdb、/dev/sdc、/dev/sdd、/dev/sde这4块盘都没有分区信息，这是我们在上一步2.13节中配置的4块共享磁盘。

② root用户在node1上格式化/dev/sdb、/dev/sdc、/dev/sdd、/dev/sde这4块盘

[root@node1 ~]# fdisk /dev/sdb

Device contains neither a valid DOS partition table, nor Sun, SGI or OSF disklabel

Building a new DOS disklabel. Changes will remain in memory only,

until you decide to write them. After that, of course, the previous

content won't be recoverable.

Warning: invalid flag 0x0000 of partition table 4 will be corrected by w(rite)

Command (m for help): n

Command action

e extended

p primary partition (1-4)

p

Partition number (1-4): 1

First cylinder (1-500, default 1):

Using default value 1

Last cylinder or +size or +sizeM or +sizeK (1-500, default 500):

Using default value 500

Command (m for help): w

The partition table has been altered!

Calling ioctl() to re-read partition table.

Syncing disks.

[root@node1 ~]#

说明：fdisk /dev/sdb表示要对/dev/sdb磁盘进行格式化，其中，输入的命令分别表示：

n表示新建1个分区；

p表示分区类型选择为primary partition 主分区；

1表示分区编号从1开始；

起始、终止柱面选择默认值，即1和500；

w表示将新建的分区信息写入硬盘分区表。

③ 重复上述步骤②，以root用户在node1上分别格式化其余3块磁盘：

④ 格式化完毕之后，在node1，node2节点上分别看到下述信息：

node1：

[root@node1 ~]# fdisk -l

Disk /dev/sda: 21.4 GB, 21474836480 bytes

255 heads, 63 sectors/track, 2610 cylinders

Units = cylinders of 16065 * 512 = 8225280 bytes

Device Boot Start End Blocks Id System

/dev/sda1 * 1 2163 17374266 83 Linux

/dev/sda2 2164 2609 3582495 82 Linux swap / Solaris

Disk /dev/sdb: 524 MB, 524288000 bytes

64 heads, 32 sectors/track, 500 cylinders

Units = cylinders of 2048 * 512 = 1048576 bytes

Device Boot Start End Blocks Id System

/dev/sdb1 1 500 511984 83 Linux

Disk /dev/sdc: 524 MB, 524288000 bytes

64 heads, 32 sectors/track, 500 cylinders

Units = cylinders of 2048 * 512 = 1048576 bytes

Device Boot Start End Blocks Id System

/dev/sdc1 1 500 511984 83 Linux

Disk /dev/sdd: 3221 MB, 3221225472 bytes

255 heads, 63 sectors/track, 391 cylinders

Units = cylinders of 16065 * 512 = 8225280 bytes

Device Boot Start End Blocks Id System

/dev/sdd1 1 391 3140676 83 Linux

Disk /dev/sde: 3221 MB, 3221225472 bytes

255 heads, 63 sectors/track, 391 cylinders

Units = cylinders of 16065 * 512 = 8225280 bytes

Device Boot Start End Blocks Id System

/dev/sde1 1 391 3140676 83 Linux

[root@node1 ~]#

node2：

[root@node2 ~]# fdisk -l

Disk /dev/sda: 21.4 GB, 21474836480 bytes

255 heads, 63 sectors/track, 2610 cylinders

Units = cylinders of 16065 * 512 = 8225280 bytes

Device Boot Start End Blocks Id System

/dev/sda1 * 1 2163 17374266 83 Linux

/dev/sda2 2164 2609 3582495 82 Linux swap / Solaris

Disk /dev/sdb: 524 MB, 524288000 bytes

64 heads, 32 sectors/track, 500 cylinders

Units = cylinders of 2048 * 512 = 1048576 bytes

Device Boot Start End Blocks Id System

/dev/sdb1 1 500 511984 83 Linux

Disk /dev/sdc: 524 MB, 524288000 bytes

64 heads, 32 sectors/track, 500 cylinders

Units = cylinders of 2048 * 512 = 1048576 bytes

Device Boot Start End Blocks Id System

/dev/sdc1 1 500 511984 83 Linux

Disk /dev/sdd: 3221 MB, 3221225472 bytes

255 heads, 63 sectors/track, 391 cylinders

Units = cylinders of 16065 * 512 = 8225280 bytes

Device Boot Start End Blocks Id System

/dev/sdd1 1 391 3140676 83 Linux

Disk /dev/sde: 3221 MB, 3221225472 bytes

255 heads, 63 sectors/track, 391 cylinders

Units = cylinders of 16065 * 512 = 8225280 bytes

Device Boot Start End Blocks Id System

/dev/sde1 1 391 3140676 83 Linux

[root@node2 ~]#

至此，格式化共享磁盘完毕。

2.14.2 在两个节点上安装ASM RPM软件包

在安装ASM软件包时，要注意选择的软件包要与操作系统平台、内核版本选择一致。ASM软件包可以到Oracle官网下载。

node1安装：

[root@node1 ~]# rpm -qa|grep asm

用上述命令，并未发现节点1上安装任何asm软件包。

[root@node1 ~]# cd asm_rpm/

[root@node1 asm_rpm]# ll

total 136

-rw-r–r– 1 root root 25977 Apr 26 11:19 oracleasm-2.6.18-194.el5-2.0.5-1.el5.x86_64.rpm

-rw-r–r– 1 root root 14176 Apr 26 11:19 oracleasmlib-2.0.4-1.el5.x86_64.rpm

-rw-r–r– 1 root root 89027 Apr 26 11:19 oracleasm-support-2.1.3-1.el5.x86_64.rpm

[root@node1 asm_rpm]# rpm -ivh oracleasm-support-2.1.3-1.el5.x86_64.rpm

warning: oracleasm-support-2.1.3-1.el5.x86_64.rpm: Header V3 DSA signature: NOKEY, key ID 1e5e0159

Preparing… ########################################### [100%]

1:oracleasm-support ########################################### [100%]

[root@node1 asm_rpm]# rpm -ivh oracleasm-2.6.18-194.el5-2.0.5-1.el5.x86_64.rpm

warning: oracleasm-2.6.18-194.el5-2.0.5-1.el5.x86_64.rpm: Header V3 DSA signature: NOKEY, key ID 1e5e0159

Preparing… ########################################### [100%]

1:oracleasm-2.6.18-194.el########################################### [100%]

[root@node1 asm_rpm]# rpm -ivh oracleasmlib-2.0.4-1.el5.x86_64.rpm

warning: oracleasmlib-2.0.4-1.el5.x86_64.rpm: Header V3 DSA signature: NOKEY, key ID 1e5e0159

Preparing… ########################################### [100%]

1:oracleasmlib ########################################### [100%]

[root@node1 asm_rpm]# rpm -qa|grep asm

oracleasm-2.6.18-194.el5-2.0.5-1.el5

oracleasm-support-2.1.3-1.el5

oracleasmlib-2.0.4-1.el5

[root@node1 asm_rpm]#

node2 安装：

[root@node2 asm_rpm]# ll

total 136

-rw-r–r– 1 root root 25977 Apr 26 11:20 oracleasm-2.6.18-194.el5-2.0.5-1.el5.x86_64.rpm

-rw-r–r– 1 root root 14176 Apr 26 11:20 oracleasmlib-2.0.4-1.el5.x86_64.rpm

-rw-r–r– 1 root root 89027 Apr 26 11:20 oracleasm-support-2.1.3-1.el5.x86_64.rpm

[root@node2 asm_rpm]# rpm -qa|grep asm

[root@node2 asm_rpm]# rpm -ivh oracleasm-support-2.1.3-1.el5.x86_64.rpm

warning: oracleasm-support-2.1.3-1.el5.x86_64.rpm: Header V3 DSA signature: NOKEY, key ID 1e5e0159

Preparing… ########################################### [100%]

1:oracleasm-support ########################################### [100%]

[root@node2 asm_rpm]# rpm -ivh oracleasm-2.6.18-194.el5-2.0.5-1.el5.x86_64.rpm

warning: oracleasm-2.6.18-194.el5-2.0.5-1.el5.x86_64.rpm: Header V3 DSA signature: NOKEY, key ID 1e5e0159

Preparing… ########################################### [100%]

1:oracleasm-2.6.18-194.el########################################### [100%]

[root@node2 asm_rpm]# rpm -ivh oracleasmlib-2.0.4-1.el5.x86_64.rpm

warning: oracleasmlib-2.0.4-1.el5.x86_64.rpm: Header V3 DSA signature: NOKEY, key ID 1e5e0159

Preparing… ########################################### [100%]

1:oracleasmlib ########################################### [100%]

[root@node2 asm_rpm]# rpm -qa|grep asm

oracleasmlib-2.0.4-1.el5

oracleasm-support-2.1.3-1.el5

oracleasm-2.6.18-194.el5-2.0.5-1.el5

[root@node2 asm_rpm]#

说明：安装上述3个ASM RPM软件包时要先安装oracleasm-support-2.1.3-1.el5软件包，其次安装oracleasm-2.6.18-194.el5-2.0.5-1.el5软件包，最后安装oracleasmlib-2.0.4-1.el5软件包。

安装完毕后，执行 rpm -qa|grep asm确认是否安装成功。

2.14.3 配置ASM driver服务

在node1上以root用户进行配置。在安装完上述步骤2.14.2节中的3个ASM RPM软件包之后，可以通过执行/usr/sbin/oracleasm命令来进行配置，也可以通过执行/etc/init.d/oracleasm命令来进行配置，后者命令是Oracle 10g中进行ASM配置的命令，Oracle推荐执行前者命令，不过后者命令保留使用。

① 查看ASM服务状态：

[root@node1 ~]# /usr/sbin/oracleasm status

Checking if ASM is loaded: no

Checking if /dev/oracleasm is mounted: no

[root@node1 ~]#

看到，默认情况下ASM服务并未开启。具体命令和相关参数可以直接执行下述命令来获取：

[root@node1 ~]# /usr/sbin/oracleasm -h

Usage: oracleasm [–exec-path=<exec_path>] <command> [ <args> ]

oracleasm –exec-path

oracleasm -h

oracleasm -V

The basic oracleasm commands are:

configure Configure the Oracle Linux ASMLib driver

init Load and initialize the ASMLib driver

exit Stop the ASMLib driver

scandisks Scan the system for Oracle ASMLib disks

status Display the status of the Oracle ASMLib driver

listdisks List known Oracle ASMLib disks

querydisk Determine if a disk belongs to Oracle ASMlib

createdisk Allocate a device for Oracle ASMLib use

deletedisk Return a device to the operating system

renamedisk Change the label of an Oracle ASMlib disk

update-driver Download the latest ASMLib driver

[root@node1 ~]#

② 配置ASM服务：

[root@node1 ~]# /usr/sbin/oracleasm configure -i

Configuring the Oracle ASM library driver.

This will configure the on-boot properties of the Oracle ASM library

driver. The following questions will determine whether the driver is

loaded on boot and what permissions it will have. The current values

will be shown in brackets ('[]'). Hitting <ENTER> without typing an

answer will keep that current value. Ctrl-C will abort.

Default user to own the driver interface []: grid

Default group to own the driver interface []: asmadmin

Start Oracle ASM library driver on boot (y/n) [n]: y

Scan for Oracle ASM disks on boot (y/n) [y]: y

Writing Oracle ASM library driver configuration: done

[root@node1 ~]# /usr/sbin/oracleasm status

Checking if ASM is loaded: no

Checking if /dev/oracleasm is mounted: no

[root@node1 ~]# /usr/sbin/oracleasm init

Loading module "oracleasm": oracleasm

Mounting ASMlib driver filesystem: /dev/oracleasm

[root@node1 ~]# /usr/sbin/oracleasm configure

ORACLEASM_ENABLED=true

ORACLEASM_UID=grid

ORACLEASM_GID=asmadmin

ORACLEASM_SCANBOOT=true

ORACLEASM_SCANORDER=""

ORACLEASM_SCANEXCLUDE=""

[root@node1 ~]#

说明：/usr/sbin/oracleasm configure -i命令进行配置时，用户配置为grid，组为asmadmin，启动ASM library driver驱动服务，并且将其配置为随着操作系统的启动而自动启动。

配置完成后，记得执行 /usr/sbin/oracleasm init命令来加载oracleasm内核模块。

③ 在node2上执行上述步骤②，完成ASM服务配置。

2.14.4 配置ASM磁盘

我们安装ASM RPM软件包，配置ASM 驱动服务的最终目的是要创建ASM磁盘，为将来安装grid软件、创建Oracle数据库提供存储。

说明：只需在一个节点上创建ASM磁盘即可！创建完之后，在其它节点上执行/usr/sbin/oracleasm scandisks之后，就可看到ASM磁盘。

接下来，开始创建ASM磁盘：

① 执行/usr/sbin/oracleasm createdisk来创建ASM磁盘

[root@node1 ~]# /usr/sbin/oracleasm listdisks

[root@node1 ~]# /usr/sbin/oracleasm createdisk -h

Usage: oracleasm-createdisk [-l <manager>] [-v] <label> <device>

[root@node1 ~]# /usr/sbin/oracleasm createdisk VOL1 /dev/sdb1

Writing disk header: done

Instantiating disk: done

[root@node1 ~]# /usr/sbin/oracleasm createdisk VOL2 /dev/sdc1

Writing disk header: done

Instantiating disk: done

[root@node1 ~]# /usr/sbin/oracleasm createdisk VOL3 /dev/sdd1

Writing disk header: done

Instantiating disk: done

[root@node1 ~]# /usr/sbin/oracleasm createdisk VOL4 /dev/sde1

Writing disk header: done

Instantiating disk: done

[root@node1 ~]# /usr/sbin/oracleasm listdisks

VOL1

VOL2

VOL3

VOL4

[root@node1 ~]#

从上看到，创建出来4块ASM磁盘。此时，node2上还看不到刚创建的ASM磁盘。

② node2 执行/usr/sbin/oracleasm scandisks扫描磁盘

[root@node2 ~]# /usr/sbin/oracleasm listdisks

[root@node2 ~]# /usr/sbin/oracleasm scandisks

Reloading disk partitions: done

Cleaning any stale ASM disks…

Scanning system for ASM disks…

Instantiating disk "VOL1"

Instantiating disk "VOL2"

Instantiating disk "VOL3"

Instantiating disk "VOL4"

[root@node2 ~]# /usr/sbin/oracleasm listdisks

VOL1

VOL2

VOL3

VOL4

[root@node2 ~]#

③ 如何确定ASM磁盘同物理磁盘之间的对应关系？

[root@node1 ~]# /usr/sbin/oracleasm querydisk /dev/sd*

Device "/dev/sda" is not marked as an ASM disk

Device "/dev/sda1" is not marked as an ASM disk

Device "/dev/sda2" is not marked as an ASM disk

Device "/dev/sdb" is not marked as an ASM disk

Device "/dev/sdb1" is marked an ASM disk with the label "VOL1"

Device "/dev/sdc" is not marked as an ASM disk

Device "/dev/sdc1" is marked an ASM disk with the label "VOL2"

Device "/dev/sdd" is not marked as an ASM disk

Device "/dev/sdd1" is marked an ASM disk with the label "VOL3"

Device "/dev/sde" is not marked as an ASM disk

Device "/dev/sde1" is marked an ASM disk with the label "VOL4"

[root@node1 ~]#

至此，ASM磁盘准备工作已经完成！

2.15 解压安装介质

在获取开篇1.2节中提到的安装介质如下：

[root@node1 ~]# ls -l

total 3401724

-rw——- 1 root root 1376 Apr 20 14:05 anaconda-ks.cfg

drwxr-xr-x 2 root root 4096 Apr 26 11:19 asm_rpm

-rw-r–r– 1 root root 51217 Apr 20 14:05 install.log

-rw-r–r– 1 root root 4077 Apr 20 14:05 install.log.syslog

-rw-r–r– 1 root root 1358454646 Apr 20 16:22 p10404530_112030_Linux-x86-64_1of7.zip

-rw-r–r– 1 root root 1142195302 Apr 20 16:29 p10404530_112030_Linux-x86-64_2of7.zip

-rw-r–r– 1 root root 979195792 Apr 20 17:07 p10404530_112030_Linux-x86-64_3of7.zip

drwxr-xr-x 2 root root 4096 Apr 24 10:17 shell

[root@node1 ~]#

其中：

p10404530_112030_Linux-x86-64_1of7.zip和

p10404530_112030_Linux-x86-64_2of7.zip

是Oracle软件的安装介质。

p10404530_112030_Linux-x86-64_3of7.zip是GRID软件的安装介质。

注意：这里的3个软件包均是来源于MetaLink网站，其版本均是目前Oracle 11g的最新版本，11.2.0.3.0。如果没有MetaLink账号的话，也可以从oracle官方网站免费获取11.2.0.1.0的版本软件来进行安装和配置。

我们通过下述命令来解压上述3个压缩软件包：

[root@node1 ~]# unzip p10404530_112030_Linux-x86-64_1of7.zip

[root@node1 ~]# unzip p10404530_112030_Linux-x86-64_2of7.zip

[root@node1 ~]# unzip p10404530_112030_Linux-x86-64_3of7.zip

解压之后，信息如下：

[root@node1 ~]# ls -l

total 3401724

-rw——- 1 root root 1376 Apr 20 14:05 anaconda-ks.cfg

drwxr-xr-x 2 root root 4096 Apr 26 11:19 asm_rpm

drwxr-xr-x 8 root root 4096 Sep 22 2011 database

drwxr-xr-x 8 root root 4096 Sep 22 2011 grid

-rw-r–r– 1 root root 51217 Apr 20 14:05 install.log

-rw-r–r– 1 root root 4077 Apr 20 14:05 install.log.syslog

-rw-r–r– 1 root root 1358454646 Apr 20 16:22 p10404530_112030_Linux-x86-64_1of7.zip

-rw-r–r– 1 root root 1142195302 Apr 20 16:29 p10404530_112030_Linux-x86-64_2of7.zip

-rw-r–r– 1 root root 979195792 Apr 20 17:07 p10404530_112030_Linux-x86-64_3of7.zip

drwxr-xr-x 2 root root 4096 Apr 24 10:17 shell

[root@node1 ~]# du -sh database/

2.5G database/

[root@node1 ~]# du -sh grid/

1.1G grid/

[root@node1 ~]#

可以看到，数据库的安装文件2.5G大小，GRID软件的安装1.1GB。

为便于将来安装软件，分别将其move到oracle用户和grid用户的家目录：

[root@node1 ~]# mv database/ /home/oracle/

[root@node1 ~]# mv grid/ /home/grid/

[root@node1 ~]#

2.16 安装前预检查配置信息

在安装 GRID之前，建议先利用CVU(Cluster Verification Utility)检查 CRS的安装前环境。

① 使用 CVU 检查CRS的安装前环境：

[root@node1 ~]# su – grid

node1-> pwd

/home/grid

node1-> ls

Desktop grid

node1-> cd grid/

node1-> ll

total 72

drwxr-xr-x 9 root root 4096 Sep 22 2011 doc

drwxr-xr-x 4 root root 4096 Sep 22 2011 install

-rwxr-xr-x 1 root root 28122 Sep 22 2011 readme.html

drwxr-xr-x 2 root root 4096 Sep 22 2011 response

drwxr-xr-x 2 root root 4096 Sep 22 2011 rpm

-rwxr-xr-x 1 root root 4878 Sep 22 2011 runcluvfy.sh

-rwxr-xr-x 1 root root 3227 Sep 22 2011 runInstaller

drwxr-xr-x 2 root root 4096 Sep 22 2011 sshsetup

drwxr-xr-x 14 root root 4096 Sep 22 2011 stage

-rwxr-xr-x 1 root root 4326 Sep 2 2011 welcome.html

node1-> ./runcluvfy.sh stage -pre crsinst -n node1,node2 -fixup -verbose

Performing pre-checks for cluster services setup

Checking node reachability…

Check: Node reachability from node "node1"

Destination Node Reachable?

———————————— ————————

node1 yes

node2 yes

Result: Node reachability check passed from node "node1"

Checking user equivalence…

Check: User equivalence for user "grid"

Node Name Status

———————————— ————————

node2 passed

node1 passed

Result: User equivalence check passed for user "grid"

Checking node connectivity…

Checking hosts config file…

Node Name Status

———————————— ————————

node2 passed

node1 passed

Verification of the hosts config file successful

Interface information for node "node2"

Name IP Address Subnet Gateway Def. Gateway HW Address MTU

—— ————— ————— ————— ————— —————– ——

eth0 172.16.0.192 172.16.0.0 0.0.0.0 172.16.15.254 00:0C:29:00:42:89 1500

eth1 192.168.94.12 192.168.94.0 0.0.0.0 172.16.15.254 00:0C:29:00:42:93 1500

Interface information for node "node1"

Name IP Address Subnet Gateway Def. Gateway HW Address MTU

—— ————— ————— ————— ————— —————– ——

eth0 172.16.0.191 172.16.0.0 0.0.0.0 172.16.15.254 00:0C:29:A2:AE:1F 1500

eth1 192.168.94.11 192.168.94.0 0.0.0.0 172.16.15.254 00:0C:29:A2:AE:29 1500

Check: Node connectivity of subnet "172.16.0.0"

Source Destination Connected?

—————————— —————————— —————-

node2[172.16.0.192] node1[172.16.0.191] yes

Result: Node connectivity passed for subnet "172.16.0.0" with node(s) node2,node1

Check: TCP connectivity of subnet "172.16.0.0"

Source Destination Connected?

—————————— —————————— —————-

node1:172.16.0.191 node2:172.16.0.192 passed

Result: TCP connectivity check passed for subnet "172.16.0.0"

Check: Node connectivity of subnet "192.168.94.0"

Source Destination Connected?

—————————— —————————— —————-

node2[192.168.94.12] node1[192.168.94.11] yes

Result: Node connectivity passed for subnet "192.168.94.0" with node(s) node2,node1

Check: TCP connectivity of subnet "192.168.94.0"

Source Destination Connected?

—————————— —————————— —————-

node1:192.168.94.11 node2:192.168.94.12 passed

Result: TCP connectivity check passed for subnet "192.168.94.0"

Interfaces found on subnet "172.16.0.0" that are likely candidates for VIP are:

node2 eth0:172.16.0.192

node1 eth0:172.16.0.191

Interfaces found on subnet "192.168.94.0" that are likely candidates for a private interconnect are:

node2 eth1:192.168.94.12

node1 eth1:192.168.94.11

Checking subnet mask consistency…

Subnet mask consistency check passed for subnet "172.16.0.0".

Subnet mask consistency check passed for subnet "192.168.94.0".

Subnet mask consistency check passed.

Result: Node connectivity check passed

Checking multicast communication…

Checking subnet "172.16.0.0" for multicast communication with multicast group "230.0.1.0"…

Check of subnet "172.16.0.0" for multicast communication with multicast group "230.0.1.0" passed.

Checking subnet "192.168.94.0" for multicast communication with multicast group "230.0.1.0"…

Check of subnet "192.168.94.0" for multicast communication with multicast group "230.0.1.0" passed.

Check of multicast communication passed.

Checking ASMLib configuration.

Node Name Status

———————————— ————————

node2 passed

node1 passed

Result: Check for ASMLib configuration passed.

Check: Total memory

Node Name Available Required Status

———— ———————— ———————— ———-

node2 1.9641GB (2059516.0KB) 1.5GB (1572864.0KB) passed

node1 1.9641GB (2059516.0KB) 1.5GB (1572864.0KB) passed

Result: Total memory check passed

Check: Available memory

Node Name Available Required Status

———— ———————— ———————— ———-

node2 1.8744GB (1965456.0KB) 50MB (51200.0KB) passed

node1 1.7501GB (1835088.0KB) 50MB (51200.0KB) passed

Result: Available memory check passed

Check: Swap space

Node Name Available Required Status

———— ———————— ———————— ———-

node2 3.4165GB (3582484.0KB) 2.9462GB (3089274.0KB) passed

node1 3.4165GB (3582484.0KB) 2.9462GB (3089274.0KB) passed

Result: Swap space check passed

Check: Free disk space for "node2:/tmp"

Path Node Name Mount point Available Required Status

—————- ———— ———— ———— ———— ————

/tmp node2 / 13.0361GB 1GB passed

Result: Free disk space check passed for "node2:/tmp"

Check: Free disk space for "node1:/tmp"

Path Node Name Mount point Available Required Status

—————- ———— ———— ———— ———— ————

/tmp node1 / 5.874GB 1GB passed

Result: Free disk space check passed for "node1:/tmp"

Check: User existence for "grid"

Node Name Status Comment

———— ———————— ————————

node2 passed exists(1100)

node1 passed exists(1100)

Checking for multiple users with UID value 1100

Result: Check for multiple users with UID value 1100 passed

Result: User existence check passed for "grid"

Check: Group existence for "oinstall"

Node Name Status Comment

———— ———————— ————————

node2 passed exists

node1 passed exists

Result: Group existence check passed for "oinstall"

Check: Group existence for "dba"

Node Name Status Comment

———— ———————— ————————

node2 passed exists

node1 passed exists

Result: Group existence check passed for "dba"

Check: Membership of user "grid" in group "oinstall" [as Primary]

Node Name User Exists Group Exists User in Group Primary Status

—————- ———— ———— ———— ———— ————

node2 yes yes yes yes passed

node1 yes yes yes yes passed

Result: Membership check for user "grid" in group "oinstall" [as Primary] passed

Check: Membership of user "grid" in group "dba"

Node Name User Exists Group Exists User in Group Status

—————- ———— ———— ———— —————-

node2 yes yes no failed

node1 yes yes no failed

Result: Membership check for user "grid" in group "dba" failed

Check: Run level

Node Name run level Required Status

———— ———————— ———————— ———-

node2 5 3,5 passed

node1 5 3,5 passed

Result: Run level check passed

Check: Hard limits for "maximum open file descriptors"

Node Name Type Available Required Status

—————- ———— ———— ———— —————-

node2 hard 65536 65536 passed

node1 hard 65536 65536 passed

Result: Hard limits check passed for "maximum open file descriptors"

Check: Soft limits for "maximum open file descriptors"

Node Name Type Available Required Status

—————- ———— ———— ———— —————-

node2 soft 1024 1024 passed

node1 soft 1024 1024 passed

Result: Soft limits check passed for "maximum open file descriptors"

Check: Hard limits for "maximum user processes"

Node Name Type Available Required Status

—————- ———— ———— ———— —————-

node2 hard 16384 16384 passed

node1 hard 16384 16384 passed

Result: Hard limits check passed for "maximum user processes"

Check: Soft limits for "maximum user processes"

Node Name Type Available Required Status

—————- ———— ———— ———— —————-

node2 soft 2047 2047 passed

node1 soft 2047 2047 passed

Result: Soft limits check passed for "maximum user processes"

Check: System architecture

Node Name Available Required Status

———— ———————— ———————— ———-

node2 x86_64 x86_64 passed

node1 x86_64 x86_64 passed

Result: System architecture check passed

Check: Kernel version

Node Name Available Required Status

———— ———————— ———————— ———-

node2 2.6.18-194.el5 2.6.18 passed

node1 2.6.18-194.el5 2.6.18 passed

Result: Kernel version check passed

Check: Kernel parameter for "semmsl"

Node Name Current Configured Required Status Comment

—————- ———— ———— ———— ———— ————

node2 250 250 250 passed

node1 250 250 250 passed

Result: Kernel parameter check passed for "semmsl"

Check: Kernel parameter for "semmns"

Node Name Current Configured Required Status Comment

—————- ———— ———— ———— ———— ————

node2 32000 32000 32000 passed

node1 32000 32000 32000 passed

Result: Kernel parameter check passed for "semmns"

Check: Kernel parameter for "semopm"

Node Name Current Configured Required Status Comment

—————- ———— ———— ———— ———— ————

node2 100 100 100 passed

node1 100 100 100 passed

Result: Kernel parameter check passed for "semopm"

Check: Kernel parameter for "semmni"

Node Name Current Configured Required Status Comment

—————- ———— ———— ———— ———— ————

node2 128 128 128 passed

node1 128 128 128 passed

Result: Kernel parameter check passed for "semmni"

Check: Kernel parameter for "shmmax"

Node Name Current Configured Required Status Comment

—————- ———— ———— ———— ———— ————

node2 1054472192 1054472192 1054472192 passed

node1 1054472192 1054472192 1054472192 passed

Result: Kernel parameter check passed for "shmmax"

Check: Kernel parameter for "shmmni"

Node Name Current Configured Required Status Comment

—————- ———— ———— ———— ———— ————

node2 4096 4096 4096 passed

node1 4096 4096 4096 passed

Result: Kernel parameter check passed for "shmmni"

Check: Kernel parameter for "shmall"

Node Name Current Configured Required Status Comment

—————- ———— ———— ———— ———— ————

node2 2097152 2097152 2097152 passed

node1 2097152 2097152 2097152 passed

Result: Kernel parameter check passed for "shmall"

Check: Kernel parameter for "file-max"

Node Name Current Configured Required Status Comment

—————- ———— ———— ———— ———— ————

node2 6815744 6815744 6815744 passed

node1 6815744 6815744 6815744 passed

Result: Kernel parameter check passed for "file-max"

Check: Kernel parameter for "ip_local_port_range"

Node Name Current Configured Required Status Comment

—————- ———— ———— ———— ———— ————

node2 between 9000.0 & 65500.0 between 9000.0 & 65500.0 between 9000.0 & 65500.0 passed

node1 between 9000.0 & 65500.0 between 9000.0 & 65500.0 between 9000.0 & 65500.0 passed

Result: Kernel parameter check passed for "ip_local_port_range"

Check: Kernel parameter for "rmem_default"

Node Name Current Configured Required Status Comment

—————- ———— ———— ———— ———— ————

node2 262144 262144 262144 passed

node1 262144 262144 262144 passed

Result: Kernel parameter check passed for "rmem_default"

Check: Kernel parameter for "rmem_max"

Node Name Current Configured Required Status Comment

—————- ———— ———— ———— ———— ————

node2 4194304 4194304 4194304 passed

node1 4194304 4194304 4194304 passed

Result: Kernel parameter check passed for "rmem_max"

Check: Kernel parameter for "wmem_default"

Node Name Current Configured Required Status Comment

—————- ———— ———— ———— ———— ————

node2 262144 262144 262144 passed

node1 262144 262144 262144 passed

Result: Kernel parameter check passed for "wmem_default"

Check: Kernel parameter for "wmem_max"

Node Name Current Configured Required Status Comment

—————- ———— ———— ———— ———— ————

node2 1048586 1048586 1048576 passed

node1 1048586 1048586 1048576 passed

Result: Kernel parameter check passed for "wmem_max"

Check: Kernel parameter for "aio-max-nr"

Node Name Current Configured Required Status Comment

—————- ———— ———— ———— ———— ————

node2 1048576 1048576 1048576 passed

node1 1048576 1048576 1048576 passed

Result: Kernel parameter check passed for "aio-max-nr"

Check: Package existence for "make"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 make-3.81-3.el5 make-3.81 passed

node1 make-3.81-3.el5 make-3.81 passed

Result: Package existence check passed for "make"

Check: Package existence for "binutils"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 binutils-2.17.50.0.6-14.el5 binutils-2.17.50.0.6 passed

node1 binutils-2.17.50.0.6-14.el5 binutils-2.17.50.0.6 passed

Result: Package existence check passed for "binutils"

Check: Package existence for "gcc(x86_64)"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 gcc(x86_64)-4.1.2-48.el5 gcc(x86_64)-4.1.2 passed

node1 gcc(x86_64)-4.1.2-48.el5 gcc(x86_64)-4.1.2 passed

Result: Package existence check passed for "gcc(x86_64)"

Check: Package existence for "libaio(x86_64)"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 libaio(x86_64)-0.3.106-5 libaio(x86_64)-0.3.106 passed

node1 libaio(x86_64)-0.3.106-5 libaio(x86_64)-0.3.106 passed

Result: Package existence check passed for "libaio(x86_64)"

Check: Package existence for "glibc(x86_64)"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 glibc(x86_64)-2.5-49 glibc(x86_64)-2.5-24 passed

node1 glibc(x86_64)-2.5-49 glibc(x86_64)-2.5-24 passed

Result: Package existence check passed for "glibc(x86_64)"

Check: Package existence for "compat-libstdc++-33(x86_64)"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 compat-libstdc++-33(x86_64)-3.2.3-61 compat-libstdc++-33(x86_64)-3.2.3 passed

node1 compat-libstdc++-33(x86_64)-3.2.3-61 compat-libstdc++-33(x86_64)-3.2.3 passed

Result: Package existence check passed for "compat-libstdc++-33(x86_64)"

Check: Package existence for "elfutils-libelf(x86_64)"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 elfutils-libelf(x86_64)-0.137-3.el5 elfutils-libelf(x86_64)-0.125 passed

node1 elfutils-libelf(x86_64)-0.137-3.el5 elfutils-libelf(x86_64)-0.125 passed

Result: Package existence check passed for "elfutils-libelf(x86_64)"

Check: Package existence for "elfutils-libelf-devel"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 elfutils-libelf-devel-0.137-3.el5 elfutils-libelf-devel-0.125 passed

node1 elfutils-libelf-devel-0.137-3.el5 elfutils-libelf-devel-0.125 passed

Result: Package existence check passed for "elfutils-libelf-devel"

Check: Package existence for "glibc-common"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 glibc-common-2.5-49 glibc-common-2.5 passed

node1 glibc-common-2.5-49 glibc-common-2.5 passed

Result: Package existence check passed for "glibc-common"

Check: Package existence for "glibc-devel(x86_64)"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 glibc-devel(x86_64)-2.5-49 glibc-devel(x86_64)-2.5 passed

node1 glibc-devel(x86_64)-2.5-49 glibc-devel(x86_64)-2.5 passed

Result: Package existence check passed for "glibc-devel(x86_64)"

Check: Package existence for "glibc-headers"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 glibc-headers-2.5-49 glibc-headers-2.5 passed

node1 glibc-headers-2.5-49 glibc-headers-2.5 passed

Result: Package existence check passed for "glibc-headers"

Check: Package existence for "gcc-c++(x86_64)"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 gcc-c++(x86_64)-4.1.2-48.el5 gcc-c++(x86_64)-4.1.2 passed

node1 gcc-c++(x86_64)-4.1.2-48.el5 gcc-c++(x86_64)-4.1.2 passed

Result: Package existence check passed for "gcc-c++(x86_64)"

Check: Package existence for "libaio-devel(x86_64)"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 libaio-devel(x86_64)-0.3.106-5 libaio-devel(x86_64)-0.3.106 passed

node1 libaio-devel(x86_64)-0.3.106-5 libaio-devel(x86_64)-0.3.106 passed

Result: Package existence check passed for "libaio-devel(x86_64)"

Check: Package existence for "libgcc(x86_64)"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 libgcc(x86_64)-4.1.2-48.el5 libgcc(x86_64)-4.1.2 passed

node1 libgcc(x86_64)-4.1.2-48.el5 libgcc(x86_64)-4.1.2 passed

Result: Package existence check passed for "libgcc(x86_64)"

Check: Package existence for "libstdc++(x86_64)"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 libstdc++(x86_64)-4.1.2-48.el5 libstdc++(x86_64)-4.1.2 passed

node1 libstdc++(x86_64)-4.1.2-48.el5 libstdc++(x86_64)-4.1.2 passed

Result: Package existence check passed for "libstdc++(x86_64)"

Check: Package existence for "libstdc++-devel(x86_64)"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 libstdc++-devel(x86_64)-4.1.2-48.el5 libstdc++-devel(x86_64)-4.1.2 passed

node1 libstdc++-devel(x86_64)-4.1.2-48.el5 libstdc++-devel(x86_64)-4.1.2 passed

Result: Package existence check passed for "libstdc++-devel(x86_64)"

Check: Package existence for "sysstat"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 sysstat-7.0.2-3.el5 sysstat-7.0.2 passed

node1 sysstat-7.0.2-3.el5 sysstat-7.0.2 passed

Result: Package existence check passed for "sysstat"

Check: Package existence for "ksh"

Node Name Available Required Status

———— ———————— ———————— ———-

node2 ksh-20100202-1.el5 ksh-20060214 passed

node1 ksh-20100202-1.el5 ksh-20060214 passed

Result: Package existence check passed for "ksh"

Checking for multiple users with UID value 0

Result: Check for multiple users with UID value 0 passed

Check: Current group ID

Result: Current group ID check passed

Starting check for consistency of primary group of root user

Node Name Status

———————————— ————————

node2 passed

node1 passed

Check for consistency of root user's primary group passed

Starting Clock synchronization checks using Network Time Protocol(NTP)…

NTP Configuration file check started…

Network Time Protocol(NTP) configuration file not found on any of the nodes. Oracle Cluster Time

Synchronization Service(CTSS) can be used instead of NTP for time synchronization on the cluster nodes

No NTP Daemons or Services were found to be running

Result: Clock synchronization check using Network Time Protocol(NTP) passed

Checking Core file name pattern consistency…

Core file name pattern consistency check passed.

Checking to make sure user "grid" is not in "root" group

Node Name Status Comment

———— ———————— ————————

node2 passed does not exist

node1 passed does not exist

Result: User "grid" is not part of "root" group. Check passed

Check default user file creation mask

Node Name Available Required Comment

———— ———————— ———————— ———-

node2 0022 0022 passed

node1 0022 0022 passed

Result: Default user file creation mask check passed

Checking consistency of file "/etc/resolv.conf" across nodes

Checking the file "/etc/resolv.conf" to make sure only one of domain and search entries is defined

File "/etc/resolv.conf" does not have both domain and search entries defined

Checking if domain entry in file "/etc/resolv.conf" is consistent across the nodes…

domain entry in file "/etc/resolv.conf" is consistent across nodes

Checking if search entry in file "/etc/resolv.conf" is consistent across the nodes…

search entry in file "/etc/resolv.conf" is consistent across nodes

Checking file "/etc/resolv.conf" to make sure that only one search entry is defined

All nodes have one search entry defined in file "/etc/resolv.conf"

Checking all nodes to make sure that search entry is "localdomain" as found on node "node2"

All nodes of the cluster have same value for 'search'

Checking DNS response time for an unreachable node

Node Name Status

———————————— ————————

node2 passed

node1 passed

The DNS response time for an unreachable node is within acceptable limit on all nodes

File "/etc/resolv.conf" is consistent across nodes

Check: Time zone consistency

Result: Time zone consistency check passed

Fixup information has been generated for following node(s):

node2,node1

Please run the following script on each node as "root" user to execute the fixups:

'/tmp/CVU_11.2.0.3.0_grid/runfixup.sh'

Pre-check for cluster services setup was unsuccessful on all the nodes.

node1->

从上面的预检查结果中，可以看到不成功，其实错误的原因是grid用户不属于dba组！不过，Oracle自动给我们提供的修复的脚本，根据上述提示，分别以root用户在两个节点上执行/tmp/CVU_11.2.0.3.0_grid/runfixup.sh脚本来修复。

node1：

[root@node1 ~]# id grid

uid=1100(grid) gid=1000(oinstall) groups=1000(oinstall),1200(asmadmin),1201(asmdba),1202(asmoper)

[root@node1 ~]#

看到，grid的确不属于dba组。执行脚本，进行修复：

[root@node1 ~]# sh /tmp/CVU_11.2.0.3.0_grid/runfixup.sh

Response file being used is :/tmp/CVU_11.2.0.3.0_grid/fixup.response

Enable file being used is :/tmp/CVU_11.2.0.3.0_grid/fixup.enable

Log file location: /tmp/CVU_11.2.0.3.0_grid/orarun.log

uid=1100(grid) gid=1000(oinstall) groups=1000(oinstall),1200(asmadmin),1201(asmdba),1202(asmoper)

[root@node1 ~]# id grid

uid=1100(grid) gid=1000(oinstall) groups=1000(oinstall),1200(asmadmin),1201(asmdba),1202(asmoper),1300(dba)

[root@node1 ~]#

同样，在node2上执行上述脚本：

[root@node2 ~]# sh /tmp/CVU_11.2.0.3.0_grid/runfixup.sh

Response file being used is :/tmp/CVU_11.2.0.3.0_grid/fixup.response

Enable file being used is :/tmp/CVU_11.2.0.3.0_grid/fixup.enable

Log file location: /tmp/CVU_11.2.0.3.0_grid/orarun.log

uid=1100(grid) gid=1000(oinstall) groups=1000(oinstall),1200(asmadmin),1201(asmdba),1202(asmoper)

[root@node2 ~]# id grid

uid=1100(grid) gid=1000(oinstall) groups=1000(oinstall),1200(asmadmin),1201(asmdba),1202(asmoper),1300(dba)

[root@node2 ~]#

执行完修复脚本后，重新执行预检查：

node1-> ./runcluvfy.sh stage -pre crsinst -n node1,node2 -fixup -verbose

…