[root@racnode1]#/etc/init.d/oracleasm createdisk VOL1 /dev/sdg1 Creating Oracle ASM disk "VOL1" [ OK ]
磁盘名被限制为30个字符。它们必须使用字母开头但可以由其它ASCII字符组成,包括:大写字母, 数字和下划线。每一个被创建成功的磁盘被标识为ASMLIB磁盘并且会被显示在oracleasm文件系统 中/dev/oracleasm/disks/。文件系统是一种特定的不受任何方式进行维护。
用户可查询磁盘设备来判断是否它们是有效的ASMLIB磁盘。为了查询,使用下面的oracleasm querydisk命令。querydisk命令可以应用于裸设备和ASMLIB磁盘
[root@racnode1]#/etc/init.d/oracleasm querydisk /dev/sdg1 Checking if device "/dev/sdg" is an Oracle ASM disk [ OK ] [root@racnode1]#/etc/init.d/oracleasm querydisk VOL1 Checking for ASM disk "VOL1" [ OK ]
另外,所有被标记的磁盘与使用ASMLIB创建的磁盘可以使用以下oracleasm listdisks命令来显示:
[root@racnode1]#/etc/init.d/oracleasm listdisks VOL1 VOL2 VOL3
如果一个磁盘设备不是一个ASMLIB磁盘,会显示以下信息:
[root@racnode1]#/etc/init.d/oracleasm querydisk /dev/sdh1 Checking if device "/dev/sdh1" is an Oracle ASM disk [FAILED]
对于ASM不再需要的磁盘可以撤消标记并且使用oracleasm deletedisk命令来删除:
[root@racnode1]#/etc/init.d/oracleasm deletedisk VOL1 Deleting Oracle ASM disk "VOL1" [ OK ]
当ASMLIB用于RAC环境时,对于RAC的共享磁盘架构允许使用oracleasm createdisk命令只在一个节点 上创建ASMLIB磁盘,其它节点只需要使用ASMLIB扫描来查找ASMLIB磁盘就可以了。例如,对于两节点 RAC环境,节点1可以标记ASMLIB磁盘,节点2然后执行扫描ASMLIB磁盘来查找这些ASMLIB磁盘。
[root@racnode1]#/etc/init.d/oracleasm createdisk VOL1 /dev/sdg1 Creating Oracle ASM disk "VOL1" [ OK ] [root@racnode2]#/etc/init.d/oracleasm scandisks Scanning system for ASM disks [ OK ]
在合适的ASMLIB磁盘创建后,ASM的init.ora参数asm_diskstring可以保留缺省的NULL或者设置 为'ORCL:*'。一旦设置后,ASM将可以发现以下磁盘:
SQL> select name, library, path from v$asm_disk; NAME LIBRARY PATH ----------- ------------------------- ------------------------- VOL1 ASM Library Generic Linux ORCL:VOL1 VOL2 ASM Library Generic Linux ORCL:VOL2 VOL3 ASM Library Generic Linux ORCL:VOL3
注意,如果ASMLIB没有使用,那么上面的查询LIBRARY列将返回"System"。
重命名Disk
renamedisk命令被用来改变现有成员的标签而不会丢失数据。注意修改磁盘时只有当ASM不访问该磁 盘才行。因此磁盘组必须dismount,并且在RAC环境中,所有ASM节点必须都dismount磁盘组。当有 ASM实例访问被重新标签的磁盘时执行renamedisk操作可能造成损坏。因为renamedisk命令是危险的 通过打印消息可以看到:
[root@racnode1]#/etc/init.d/oracleasm renamedisk /dev/sdb3 VOL1 Warning: Changing the label of a disk marked for ASM is a very dangerous operation. If this is really what you mean to do, you must ensure that all Oracle and ASM instances have ceased using this disk. Otherwise, you may LOSE DATA. If you really wish to change the label, rerun with the force-renamedisk command. [root@racnode1]#/etc/init.d/oracleasm force-renamedisk /dev/sdb3 VOL1 Renaming disk "/dev/sdb3" to "VOL1" [ OK ]
force_renamedisk命令使用两个参数:裸设备名,其次是ASM磁盘名。
discover磁盘
命令/sbin/oracleasm-discover是一个简单的工具来判断Oracle的Linux ASMLIB在discover操作时所看到那个磁盘。这个命令更多一个调试工具来验证discover所列出的请求磁盘。这个命令也列出了每个磁盘的最大I/O大小。最大I/O大小,ASMLIB可以作为一个命令发送给设备。
[root@racnode1]#/usr/sbin/oracleasm-discover 'ORCL:*' Using ASMLib from /opt/oracle/extapi/32/asm/orcl/1/libasm.so [ASM Library - Generic Linux, version 2.0.0 (KABI_V1)] Discovered disk: ORCL:VOL1 [819200 blocks (419430400 bytes), maxio 512] Discovered disk: ORCL:VOL2 [1955808 blocks (1001373696 bytes), maxio 512]
最大I/O大小来自SCSI HBA设备与磁盘设备链中的其它设备。在上面的例子中,maxio等于512,512 byte或256K。如果maxio显示了最小值,比如128,那么它可能是中间组件比如多路径设备或HBA设备限制的原因。
升级ASMLIB
为了升级ASMLIB,系统管理员可以执行以下步骤。注意这是严格意义上的软件升级并且没有磁盘标签 被维护。这是一个节点本地升级,因此在RAC环境中,每个单独的节点应该被升级。
1.关闭ASM
2.执行/etc/init.d/oracleasm stop
3.执行rpm -Uvh oracleasm-*.rpm
4.执行/etc/init.d/oracleasm start
5.启动ASM
诊断ASMLIB
诊断ASMLIB从上到下的操作步骤为:
1.使用的Oracle ASMLIB的当前版本。验证软件版本。ASMLIB请求一个设备精确匹配给内核,因此使 用与uname -a命令输出匹配的oracleasm内核包。
[root@racnode1]# rpm -qa |grep oracleasm oracleasm-support-2.0.3-1.i386.rpm oracleasmlib-2.0.2-1.i386.rpm oracleasm-2.6.9-42.0.3.ELsmp-2.0.3-1.i686.rpm [root@racnode1]# uname -a Linux racnode1.us.oracle.com 2.6.9-42.0.3.ELsmp #1Thu May 15 17:03:45 EST 2006 i686 i686 i386 GNU/Linux
2.验证ASMLIB的安装设置
3.确保oracleasm configure命令正确运行,使用以下信息进行确认配置:
a.以root用户执行lsmod命令来显示加载的oracleasm模块。使用oracleasm模块"Used by"列会被设 置为1.
[root@db2 ~]# lsmod Module Size Used by oracleasm 53591 1 8021q 20994 0 garp 7297 1 8021q stp 2256 1 garp llc 5608 2 garp,stp cpufreq_ondemand 9398 80 ip6t_REJECT 4486 2 nf_conntrack_ipv6 10595 3 nf_defrag_ipv6 11368 1 nf_conntrack_ipv6 xt_state 1370 3 nf_conntrack 84658 2 nf_conntrack_ipv6,xt_state ip6table_filter 1671 1 ip6_tables 19409 1 ip6table_filter ipv6 339024 660 ip6t_REJECT,nf_conntrack_ipv6,nf_defrag_ipv6 dm_round_robin 2531 34 dm_multipath 18562 18 dm_round_robin uinput 8917 0 sg 30968 0 serio_raw 5631 0 iTCO_wdt 6353 0 iTCO_vendor_support 3030 1 iTCO_wdt coretemp 6997 0 acpi_cpufreq 13345 0 freq_table 6987 2 cpufreq_ondemand,acpi_cpufreq mperf 1555 1 acpi_cpufreq intel_powerclamp 10841 0 kvm_intel 130025 0 kvm 438077 1 kvm_intel crc32c_intel 14496 0 ghash_clmulni_intel 4707 0 microcode 115607 0 pcspkr 2150 0 igb 186225 0 hwmon 2087 2 coretemp,igb i2c_i801 12911 0 i2c_core 31228 1 i2c_i801 lpc_ich 12496 0 mfd_core 3955 1 lpc_ich ioatdma 61937 168 dca 7283 2 igb,ioatdma i7core_edac 20072 0 edac_core 54168 1 i7core_edac shpchp 27901 0 ext4 532546 2 jbd2 100769 1 ext4 mbcache 7575 1 ext4 sd_mod 41045 38 crc_t10dif 1547 1 sd_mod qla2xxx 562439 68 scsi_transport_fc 54538 1 qla2xxx scsi_tgt 12075 1 scsi_transport_fc sr_mod 15980 0 cdrom 40900 1 sr_mod usb_storage 53806 0 megaraid_sas 101114 3 aesni_intel 45744 0 ablk_helper 2997 1 aesni_intel cryptd 10460 3 ghash_clmulni_intel,aesni_intel,ablk_helper lrw 4222 1 aesni_intel aes_x86_64 7967 1 aesni_intel xts 3466 1 aesni_intel gf128mul 7999 2 lrw,xts pata_acpi 3782 0 ata_generic 3758 0 ata_piix 26525 0 dm_mirror 14208 0 dm_region_hash 11094 1 dm_mirror dm_log 9681 2 dm_mirror,dm_region_hash dm_mod 85047 41 dm_multipath,dm_mirror,dm_log
b.执行命令cat /proc/filesystem,并且确保在文件系统列表中存在一条名叫oracleasmfs的记录:
[root@db2 ~]# cat /proc/filesystems nodev sysfs nodev rootfs nodev bdev nodev proc nodev cgroup nodev cpuset nodev tmpfs nodev devtmpfs nodev binfmt_misc nodev debugfs nodev securityfs nodev sockfs nodev pipefs nodev anon_inodefs nodev devpts nodev ramfs nodev hugetlbfs iso9660 nodev pstore nodev mqueue ext4 nodev asmdisk nodev oracleasmfs
c.执行命令 df -ha,它将显示所mount的oracleasmfs
/dev/mapper/vg_db2-LogVol00 1.1T 437G 592G 43% / proc 0 0 0 - /proc sysfs 0 0 0 - /sys devpts 0 0 0 - /dev/pts tmpfs 126G 1005M 125G 1% /dev/shm /dev/sda1 190M 79M 98M 45% /boot none 0 0 0 - /proc/sys/fs/binfmt_misc oracleasmfs 0 0 0 - /dev/oracleasm
确保oracleasm createdisk正确执行。为了让ASM使用,磁盘被通过createdisk命令来标记。当磁盘被标记后,会在磁盘头中写入签名--,磁盘将被标记ASM使用。可以使用以下命令来验证.执行oracleasm listdisks命令。这个命令将显示被标记为ASMLIB的磁盘。
[root@db2 ~]# oracleasm listdisks ARCH0 ARCH1 ARCH2 ARCH3 CW_DATA1 OCR1 OCR2 OCR3 RLZY_ARCH1 RLZY_DATA1 RLZY_DATA2 RLZY_DATA3 SBK_DATA0 SBK_DATA1 SBK_DATA2 YB_DATA4 YB_DATA5
.对每个被标记为ASMLIB磁盘执行oracleasm querydisk命令来确保标记
[root@db2 ~]# oracleasm querydisk YB_DATA4 Disk "YB_DATA4" is a valid ASM disk
4.执行ls -l /dev/oracleasm/disks来确保磁盘的所属组与权限是grid:asmadmin
[root@db2 ~]# ls -l /dev/oracleasm/disks total 0 brw-rw---- 1 grid asmadmin 252, 8 Dec 7 20:14 ARCH0 brw-rw---- 1 grid asmadmin 252, 9 Dec 7 20:17 ARCH1 brw-rw---- 1 grid asmadmin 252, 10 Dec 7 20:18 ARCH2 brw-rw---- 1 grid asmadmin 252, 11 Dec 7 20:18 ARCH3 brw-rw---- 1 grid asmadmin 252, 14 Dec 7 20:18 CW_DATA1 brw-rw---- 1 grid asmadmin 252, 1 Dec 7 20:18 OCR1 brw-rw---- 1 grid asmadmin 252, 2 Dec 7 20:18 OCR2 brw-rw---- 1 grid asmadmin 252, 6 Dec 7 20:18 OCR3 brw-rw---- 1 grid asmadmin 252, 7 Dec 7 20:18 RLZY_ARCH1 brw-rw---- 1 grid asmadmin 252, 3 Dec 7 20:18 RLZY_DATA1 brw-rw---- 1 grid asmadmin 252, 4 Dec 7 20:18 RLZY_DATA2 brw-rw---- 1 grid asmadmin 252, 5 Dec 7 20:18 RLZY_DATA3 brw-rw---- 1 grid asmadmin 252, 15 Dec 7 20:18 SBK_DATA0 brw-rw---- 1 grid asmadmin 252, 16 Dec 7 20:18 SBK_DATA1 brw-rw---- 1 grid asmadmin 252, 17 Dec 7 20:18 SBK_DATA2 brw-rw---- 1 grid asmadmin 252, 12 Dec 7 20:18 YB_DATA4 brw-rw---- 1 grid asmadmin 252, 13 Dec 7 20:18 YB_DATA5
5.验证ASMLIB发现字符串(可以在DBCA中指定或设置asm_diskstring参数)是否被设置ORCL:*或NUL。 如果ASM实例在运行,那么检查ASM的alert log查看是否正确设置。
6.对ASM alert log中关于发现所显示的任何信息使用Linux/Unix的grep命令。如果成功加载ASMLIB 将会显示以下信息:
Loaded ASM Library - Generic Linux, version 2.0.1 library for ASMLIB interface
下面的查询显示被发现的ASMLIB磁盘:
SQL> SELECT LIBRARY, PATH FROM V$ASM_DISK; LIBRARY PATH ------------------------------------------- ---------------- ASM Library - Generic Linux, version 2.0.0.1 ORCL:VOL1 ASM Library - Generic Linux, version 2.0.0.1 ORCL:VOL2 ASM Library - Generic Linux, version 2.0.0.1 ORCL:VOL3
如果在Library列显示system,那么asm_diskstring没有设备--,ASMLIB不能用于访问磁盘。ASMLIB 需要通过磁盘符ORCL:*来访问磁盘。检查asm_diskstring是否设置为ORCL:*或NULL:
SQL> SELECT LIBRARY, PATH FROM V$ASM_DISK; LIBRARY PATH -------------- ------------------------------------------------- System /dev/oracleasm/disks/DATA1D1 System /dev/oracleasm/disks/DATA1D2 System /dev/oracleasm/disks/DATA1D3
7.查看ASM alert log中是否有以下错误信息:
ORA-15186: ASMLIB error function = [asm_open], error = [1],mesg = [Operation not permitted]
这个消息通常意味着在/etc/init.d/oracleasm configure操作时ASMLIB配置权限不正确
迁移到ASMLIB
在许多情况下可能需要将一个"member"ASM裸磁盘转换为一个ASMLIB磁盘。例如,当安装ASMLIB后需 要执行。相反,如果需要卸载ASMLIB,可以将一个ASMLIB磁盘转换为一个标准的ASM磁盘。所有这种操 作不会损坏磁盘上的数据。然而,在转换之前必须将磁盘组dismount。
这种转换不会损坏数据因为磁盘上的结构和磁盘打开ASM所读取的信息。ASM读取磁盘头并且识别它属 于那个磁盘组。当一个磁盘被增加到一个磁盘组时,ASM将对磁盘写入一些信息。两个重要的条目是 磁盘标记与ASMLIB标签。所有ASM磁盘有一个标记ORCLSDISK印记在磁盘上面。如果标记已经存在,那 么磁盘可以当前被使用或者被ASM格式化了。这个标记可以由ASM或ASMLIB所创建。例如,当ASM在创 建磁盘组时使用一个磁盘作为一个裸设备时,ASM会自动增加这个标记。相反,当通过ASMLIB命 令/etc/init.d/oracleasm createdisk命令时磁盘会增加ASMLIB标记。不管使用那种工具创建标记, 一旦标记被创建,磁盘就会被打上标签。
磁盘头的第二部分与ASMLIB相关,是ASMLIB标签。这是指派给ASMLIB用来标识磁盘的24个字符的字符 串。当通过ASMLIB的/etc/init.d/oracleasm createdisk命令来配置磁盘时,相关的标签会被写入设备。注意ASM会保存磁盘的内容,但写入这部分信息是留给ASMLIB。
下面是一个对ASM磁盘(不是ASMLIB)的一个简单dump,这个磁盘被加入一个磁盘。在磁盘头中的ASM磁 盘名为DATA_0003:
[root@db2 ~]# dd if=/dev/mapper/yb_data4 bs=128 count=1 | od -a 1+0 records in 1+0 records out 0000000 soh stx soh soh nul nul nul nul etx nul nul nul K eot [ l 128 bytes (128 B) copied0000020 N d ? nul nul nul nul nul nul nul nul nul nul nul nul nul , 0.000253206 s, 506 kB/s 0000040 O R C L D I S K nul nul nul nul nul nul nul nul 0000060 nul nul nul nul nul nul nul nul nul nul nul nul nul nul nul nul 0000100 nul nul sp vt etx nul soh etx D A T A _ 0 0 0 0000120 3 nul nul nul nul nul nul nul nul nul nul nul nul nul nul nul 0000140 nul nul nul nul nul nul nul nul D A T A nul nul nul nul 0000160 nul nul nul nul nul nul nul nul nul nul nul nul nul nul nul nul 0000200 [root@db2 ~]#
下面例子使对使用/etc/init.d/oracleasm createdisk命令所创建的ASMLIB磁盘进行一个简单的dump 注意YB_DATA4被写入ORCLDISK标签中:
[root@db2 ~]# oracleasm querydisk -v -p YB_DATA4 Disk "YB_DATA4" is a valid ASM disk /dev/sdn: LABEL="YB_DATA4" TYPE="oracleasm" /dev/sdae: LABEL="YB_DATA4" TYPE="oracleasm" /dev/mapper/yb_data4: LABEL="YB_DATA4" TYPE="oracleasm" [root@db2 ~]# dd if=/dev/mapper/yb_data4 bs=128 count=1 | od -a 1+0 records in 1+0 records out 128 bytes (128 B) copied, 0.000204442 s, 626 kB/s 0000000 soh stx soh soh nul nul nul nul etx nul nul nul K eot [ l 0000020 N d ? nul nul nul nul nul nul nul nul nul nul nul nul nul 0000040 O R C L D I S K Y B _ D A T A 4 0000060 nul nul nul nul nul nul nul nul nul nul nul nul nul nul nul nul 0000100 nul nul sp vt etx nul soh etx D A T A _ 0 0 0 0000120 3 nul nul nul nul nul nul nul nul nul nul nul nul nul nul nul 0000140 nul nul nul nul nul nul nul nul D A T A nul nul nul nul 0000160 nul nul nul nul nul nul nul nul nul nul nul nul nul nul nul nul 0000200
在这个例子中,标记ORCLDISK与YB_DATA4被写入磁盘头。下面ASMLIB扫描磁盘时,它将查看标记 ORCLDISK与YB_DATA4,并使用YB_DATA创建一个ASMLIB磁盘到设备的映射。后续,ASM将通过ASMLIB驱 动来发现这个磁盘。如果磁盘最初没有通过ASMLIB管理,当ASM发现磁盘时,将通过ASM裸设备访问, 它将检测试没有ASMLIB标记存在。这就是为什么从ASMLIB访问迁移到裸设备来访问不存在问题的原因 。
使用ASMLIB与Multipath工具
多路径设备使用伪设备来生成虚拟子路径。在执行磁盘发现操作时,ASMLIB使用伪文 件/proc/partitions。这是一个Linux文件它记录了所有设备与之匹配的分区。
[root@db2 ~]# cat /proc/partitions major minor #blocks name 11 0 1048575 sr0 11 1 1048575 sr1 8 0 1171062784 sda 8 1 204800 sda1 8 2 16777216 sda2 8 3 1154079744 sda3 8 64 629145600 sde 8 48 10485760 sdd 8 32 10485760 sdc 8 80 629145600 sdf 8 96 629145600 sdg 8 112 10485760 sdh 8 128 629145600 sdi 8 144 629145600 sdj 8 160 629145600 sdk 8 176 629145600 sdl 8 192 629145600 sdm 8 224 629145600 sdo 8 208 629145600 sdn 65 0 629145600 sdq 8 240 209715200 sdp 65 16 629145600 sdr 65 32 629145600 sds 65 48 10485760 sdt 65 64 10485760 sdu 65 80 629145600 sdv 65 96 629145600 sdw 65 112 629145600 sdx 65 128 10485760 sdy 65 144 629145600 sdz 65 160 629145600 sdaa 65 176 629145600 sdab 65 192 629145600 sdac 65 208 629145600 sdad 65 224 629145600 sdae 65 240 629145600 sdaf 66 0 209715200 sdag 66 16 629145600 sdah 66 32 629145600 sdai 66 48 629145600 sdaj 252 0 1154076672 dm-0 252 1 10485760 dm-1 252 2 10485760 dm-2 252 3 629145600 dm-3 252 4 629145600 dm-4 252 5 629145600 dm-5 252 6 10485760 dm-6 252 7 629145600 dm-7 252 8 629145600 dm-8 252 9 629145600 dm-9 252 10 629145600 dm-10 252 11 629145600 dm-11 252 12 629145600 dm-12 252 13 629145600 dm-13 252 14 209715200 dm-14 252 15 629145600 dm-15 252 16 629145600 dm-16 252 17 629145600 dm-17
为了让多路径正确工作,ASMLIB必须只能对伪设备操作。因此ASMLIB必须使用伪设备来进行修改。通 过修改/etc/sysconfig/oracleasm中的两个参数来进行配置:
.oracleasm_scanorder使用通用前缀指定ASMLIB扫描设备的顺序。
.oracleasm_scanexclude通过ASMLIB指定那个设备不被发现。
例如,使用IBM v7000与多路径配置ASMLIB进行如下设置:
ORACLEASM_SCANORDER="dm"
ORACLEASM_SCANEXCLUDE="sd"
在这个例子中,ASMLIB基于/dev/dm来扫描磁盘并且排除/dev/sd*的设备。下面 是/etc/sysconfig/oracleasm文件的一个配置例子:
[root@db2 ~]# cat /etc/sysconfig/oracleasm # # This is a configuration file for automatic loading of the Oracle # Automatic Storage Management library kernel driver. It is generated # By running /etc/init.d/oracleasm configure. Please use that method # to modify this file # # ORACLEASM_ENABLED: 'true' means to load the driver on boot. ORACLEASM_ENABLED=true # ORACLEASM_UID: Default user owning the /dev/oracleasm mount point. ORACLEASM_UID=grid # ORACLEASM_GID: Default group owning the /dev/oracleasm mount point. ORACLEASM_GID=asmadmin # ORACLEASM_SCANBOOT: 'true' means scan for ASM disks on boot. ORACLEASM_SCANBOOT=true # ORACLEASM_SCANORDER: Matching patterns to order disk scanning ORACLEASM_SCANORDER="dm" # ORACLEASM_SCANEXCLUDE: Matching patterns to exclude disks from scan ORACLEASM_SCANEXCLUDE="sd" # ORACLEASM_USE_LOGICAL_BLOCK_SIZE: 'true' means use the logical block size # reported by the underlying disk instead of the physical. The default # is 'false' ORACLEASM_USE_LOGICAL_BLOCK_SIZE=false
小结:
ASMLIB是Oracle 10g与11g中ASM功能的支持library。ASMLIB允许Oracle数据库更有效的使用ASM与访 问磁盘组。ASMLIB的目的,它是ASM的一个插件,提供了一种识别与访问块设备的替接口。另外, ASMLIB API能够让存储与操作系统厂商来提供存储相关的扩展功能。这些功能可能提供一些好处,比 如提高性能与增加完整性。但ASMLIB对于ASM不是必须使用的。
The Oracle Automatic Storage Management (Oracle ASM) library driver (ASMLIB) simplifies the configuration and management of the disk devices by eliminating the need to rebind disk devices used with Oracle ASM each time the system is restarted.
Without ASMLIB Linux 2.6 kernel and later, block device paths do not maintain permissions and path persistence unless you create a permissions or rules file on each cluster member node; block device paths that were /dev/sda can appear as /dev/sdb after a system restart. Adding new disks requires you to modify the udev file to provide permissions and path persistence for the new disk.
With ASMLIB, you define the range of disks you want to have made available as Oracle ASM disks. ASMLIB maintains permissions and disk labels that are persistent on the storage device, so that label is available even after an operating system upgrade. You can update storage paths on all cluster member nodes by running one oracleasm command on each node.
If you intend to use Oracle ASM on block devices for database storage for Linux, then Oracle recommends that you install the ASMLIB driver and associated utilities, and use them to configure the disks for Oracle ASM.
Caution:
On IBM: Linux on System z servers, due to a block size compatibility issue, you cannot use ASMLIB with SCSI storage devices and Fibre Channel Protocol (FCP) for Oracle Grid Infrastructure release 11.2.0.1 and later.Workaround: use block device directly (for example, using paths similar to /dev/mapper/mpatha_part1), or use DASD disks.
See Also:
My Oracle Support notes How to Manually Configure Disk Storage devices for use with Oracle ASM 11.2 on IBM: Linux on System z under SLES (Doc ID 1350008.1 ) and How to Manually Configure Disk Storage devices for use with Oracle ASM 11.2 on IBM: Linux on System z under Red Hat 5 (Doc ID 1351746.1 ), available at the following URL:https://support.oracle.com
To use the Oracle Automatic Storage Management library driver (ASMLIB) to configure Oracle ASM devices, complete the following tasks.
Installing and Configuring the Oracle ASM Library Driver Software
Configuring Disk Devices to Use Oracle ASM Library Driver on x86 Systems
Configuring Disk Devices to Use ASM Library Driver on IBM: Linux on System z
Administering the Oracle ASM Library Driver and Disks
Note:
To create a database during the installation using the Oracle ASM library driver, you must choose an installation method that runs ASMCA in interactive mode. You must also change the default disk discovery string to ORCL:*.ASMLIB is already included with Unbreakable Enterprise Kernel packages, and with SUSE 11. If you are a member of the Unbreakable Linux Network, then you can install the ASMLIB rpms by subscribing to the Oracle Software for Enterprise Linux channel, and using up2date to retrieve the most current package for your system and kernel. For additional information, refer to the following URL:
http://www.oracle.com/technetwork/topics/linux/asmlib/index-101839.html
To install and configure the ASMLIB driver software manually, follow these steps:
Enter the following command to determine the kernel version and architecture of the system:
# uname -rm
Download the required ASMLIB packages from the Oracle Technology Network (OTN) Web site:
http://www.oracle.com/technetwork/server-storage/linux/downloads/index-088143.html
Note:
You must install oracleasm-support package version 2.0.1 or later to use ASMLIB on Red Hat Enterprise Linux 5 Advanced Server. ASMLIB is already included with SUSE distributions.Tip:
My Oracle Support note 1089399.1 for information about ASMLIB support with Red Hat distributions:https://support.oracle.com/CSP/main/article?cmd=show&type=NOT&id=1089399.1
You must install the following packages, where version is the version of the ASMLIB driver, arch is the system architecture, and kernel is the version of the kernel that you are using:
oracleasm-support-version.arch.rpm oracleasm-kernel-version.arch.rpm oracleasmlib-version.arch.rpm
Switch user to the root user:
$ su -
Enter a command similar to the following to install the packages:
# rpm -ivh oracleasm-support-version.arch.rpm \ oracleasm-kernel-version.arch.rpm \ oracleasmlib-version.arch.rpm
For example, if you are using the Red Hat Enterprise Linux 5 AS kernel on an AMD64 system, then enter a command similar to the following:
# rpm -ivh oracleasm-support-2.1.3-1.el5.x86_64.rpm \ oracleasm-2.6.18-194.26.1.el5xen-2.0.5-1.el5.x86_64.rpm \ oracleasmlib-2.0.4-1.el5.x86_64.rpm
Enter the following command to run the oracleasm initialization script with the configure option:
# /usr/sbin/oracleasm configure -i
Note:
The oracleasm command in /usr/sbin is the command you should use. The /etc/init.d path is not deprecated, but the oracleasm binary in that path is now used typically for internal commands.Enter the following information in response to the prompts that the script displays:
Prompt | Suggested Response |
---|---|
Default user to own the driver interface: | Standard groups and users configuration: Specify the Oracle software owner user (for example, oracle) Job role separation groups and users configuration: Specify the Grid Infrastructure software owner (for example, grid) |
Default group to own the driver interface: | Standard groups and users configuration: Specify the OSDBA group for the database (for example, dba). Job role separation groups and users configuration: Specify the OSASM group for storage administration (for example, asmadmin). |
Start Oracle ASM Library driver on boot (y/n): | Enter y to start the Oracle Automatic Storage Management library driver when the system starts. |
Scan for Oracle ASM disks on boot (y/n) | Enter y to scan for Oracle ASM disks when the system starts. |
The script completes the following tasks:
Creates the /etc/sysconfig/oracleasm configuration file
Creates the /dev/oracleasm mount point
Mounts the ASMLIB driver file system
Note:
The ASMLIB driver file system is not a regular file system. It is used only by the Oracle ASM library to communicate with the Oracle ASM driver.Enter the following command to load the oracleasm kernel module:
# /usr/sbin/oracleasm init
Repeat this procedure on all nodes in the cluster where you want to install Oracle RAC.
To configure the disk devices to use in an Oracle ASM disk group, follow these steps:
If you intend to use IDE, SCSI, or RAID devices in the Oracle ASM disk group, then follow these steps:
If necessary, install or configure the shared disk devices that you intend to use for the disk group and restart the system.
To identify the device name for the disks to use, enter the following command:
# /sbin/fdisk -l
Depending on the type of disk, the device name can vary:
Disk Type | Device Name Format | Description |
---|---|---|
IDE disk | /dev/hdxn |
In this example, x is a letter that identifies the IDE disk and n is the partition number. For example, /dev/hda is the first disk on the first IDE bus. |
SCSI disk | /dev/sdxn |
In this example, x is a letter that identifies the SCSI disk and n is the partition number. For example, /dev/sda is the first disk on the first SCSI bus. |
RAID disk | /dev/rd/cxdypz /dev/ida/cxdypz |
Depending on the RAID controller, RAID devices can have different device names. In the examples shown, x is a number that identifies the controller, y is a number that identifies the disk, and z is a number that identifies the partition. For example, /dev/ida/c0d1 is the second logical drive on the first controller. |
To include devices in a disk group, you can specify either whole-drive device names or partition device names.
Note:
Oracle recommends that you create a single whole-disk partition on each disk.Use either fdisk or parted to create a single whole-disk partition on the disk devices.
Enter a command similar to the following to mark a disk as an Oracle ASM disk:
# /usr/sbin/oracleasm createdisk DISK1 /dev/sdb1
In this example, DISK1 is the name you assign to the disk.
Note:
The disk names that you specify can contain uppercase letters, numbers, and the underscore character. They must start with an uppercase letter.If you are using a multi-pathing disk driver with Oracle ASM, then make sure that you specify the correct logical device name for the disk.
To make the disk available on the other nodes in the cluster, enter the following command as root on each node:
# /usr/sbin/oracleasm scandisks
This command identifies shared disks attached to the node that are marked as Oracle ASM disks.
If you formatted the DASD with the compatible disk layout, then enter a command similar to the following to create a single whole-disk partition on the device:
# /sbin/fdasd -a /dev/dasdxxxx
Enter a command similar to the following to mark a disk as an ASM disk:
# /etc/init.d/oracleasm createdisk DISK1 /dev/dasdxxxx
In this example, DISK1 is a name that you want to assign to the disk.
Note:
The disk names that you specify can contain uppercase letters, numbers, and the underscore character. They must start with an uppercase letter.If you are using a multi-pathing disk driver with ASM, then make sure that you specify the correct logical device name for the disk.
To make the disk available on the other cluster nodes, enter the following command as root on each node:
# /etc/init.d/oracleasm scandisks
This command identifies shared disks attached to the node that are marked as ASM disks.
To administer the Oracle Automatic Storage Management library driver (ASMLIB) and disks, use the oracleasm initialization script with different options, as described in Table 3-7.
Table 3-7 ORACLEASM Script Options
Option | Description |
---|---|
configure |
Use the configure option to reconfigure the Oracle Automatic Storage Management library driver, if necessary: # /usr/sbin/oracleasm configure -i To see command options, enter oracleasm configure without the -i flag. |
enable disable |
Use the disable and enable options to change the actions of the Oracle Automatic Storage Management library driver when the system starts. The enable option causes the Oracle Automatic Storage Management library driver to load when the system starts: # /usr/sbin/oracleasm enable |
start stop restart |
Use the start, stop, and restart options to load or unload the Oracle Automatic Storage Management library driver without restarting the system: # /usr/sbin/oracleasm restart |
createdisk |
Use the createdisk option to mark a disk device for use with the Oracle Automatic Storage Management library driver and give it a name: # /usr/sbin/oracleasm createdisk DISKNAME devicename |
deletedisk |
Use the deletedisk option to unmark a named disk device: # /usr/sbin/oracleasm deletedisk DISKNAME Caution: Do not use this command to unmark disks that are being used by an Oracle Automatic Storage Management disk group. You must delete the disk from the Oracle Automatic Storage Management disk group before you unmark it. |
querydisk |
Use the querydisk option to determine if a disk device or disk name is being used by the Oracle Automatic Storage Management library driver: # /usr/sbin/oracleasm querydisk {DISKNAME | devicename} |
listdisks |
Use the listdisks option to list the disk names of marked Oracle Automatic Storage Management library driver disks: # /usr/sbin/oracleasm listdisks |
scandisks |
Use the scandisks option to enable cluster nodes to identify which shared disks have been marked as Oracle Automatic Storage Management library driver disks on another node: # /usr/sbin/oracleasm scandisks |
Additional configuration is required to use the Oracle Automatic Storage Management library Driver (ASMLIB) with third party vendor multipath disks.
See Also:
My Oracle Support site for updates to supported storage options:https://support.oracle.com
Oracle ASM requires that each disk is uniquely identified. If the same disk appears under multiple paths, then it causes errors. In a multipath disk configuration, the same disk can appear three times:
The initial path to the disk
The second path to the disk
The multipath disk access point.
For example: If you have one local disk, /dev/sda, and one disk attached with external storage, then your server shows two connections, or paths, to that external storage. The Linux SCSI driver shows both paths. They appear as /dev/sdb and /dev/sdc. The system may access either /dev/sdb or /dev/sdc, but the access is to the same disk.
If you enable multipathing, then you have a multipath disk (for example, /dev/multipatha), which can access both /dev/sdb and /dev sdc; any I/O to multipatha can use either the sdb or sdc path. If a system is using the /dev/sdb path, and that cable is unplugged, then the system shows an error. But the multipath disk will switch from the /dev/sdb path to the /dev/sdc path.
Most system software is unaware of multipath configurations. They can use any paths (sdb, sdc or multipatha). ASMLIB also is unaware of multipath configurations.
By default, ASMLIB recognizes the first disk path that Linux reports to it, but because it imprints an identity on that disk, it recognizes that disk only under one path. Depending on your storage driver, it may recognize the multipath disk, or it may recognize one of the single disk paths.
Instead of relying on the default, you should configure Oracle ASM to recognize the multipath disk.
The ASMLIB configuration file is located in the path /etc/sysconfig/oracleasm. It contains all the startup configuration you specified with the command /etc/init.d/oracleasm configure. That command cannot configure scan ordering.
The configuration file contains many configuration variables. The ORACLEASM_SCANORDER variable specifies disks to be scanned first. The ORACLEASM_SCANEXCLUDE variable specifies the disks that are to be ignored.
Configure values for ORACLEASM_SCANORDER using space-delimited prefix strings. A prefix string is the common string associated with a type of disk. For example, if you use the prefix string sd, then this string matches all SCSI devices, including /dev/sda, /dev/sdb, /dev/sdc and so on. Note that these are not globs. They do not use wild cards. They are simple prefixes. Also note that the path is not a part of the prefix. For example, the /dev/ path is not part of the prefix for SCSI disks that are in the path /dev/sd*.
For Oracle Linux and Red Hat Enterprise Linux version 5, when scanning, the kernel sees the devices as /dev/mapper/XXX entries. By default, the 2.6 kernel device file naming scheme udev creates the /dev/mapper/XXX names for human readability. Any configuration using ORACLEASM_SCANORDER should use the /dev/mapper/XXX entries.
To configure ASMLIB to select multipath disks first, complete the following procedure:
Using a text editor, open the ASMLIB configuration file /etc/sysconfig/oracleasm.
Edit the ORACLEASM_SCANORDER variable to provide the prefix path of the multipath disks. For example, if the multipath disks use the prefix multipath (/dev/mapper/multipatha, /dev/mapper/multipathb and so on), and the multipath disks mount SCSI disks, then provide a prefix path similar to the following:
ORACLEASM_SCANORDER="multipath sd"
Save the file.
When you have completed this procedure, then when ASMLIB scans disks, it first scans all disks with the prefix string multipath, and labels these disks as Oracle ASM disks using the /dev/mapper/multipathX value. It then scans all disks with the prefix string sd. However, because ASMLIB recognizes that these disks have already been labeled with the /dev/mapper/multipath string values, it ignores these disks. After scanning for the prefix strings multipath and sd, Oracle ASM then scans for any other disks that do not match the scan order.
In the example in step 2, the key word multipath is actually the alias for multipath devices configured in /etc/multipath.conf under the multipaths section. For example:
multipaths { multipath { wwid 3600508b4000156d700012000000b0000 alias multipath ... } multipath { ... alias mympath ... } ... }
The default device name is in the format /dev/mapper/mpath* (or a similar path).
To configure ASMLIB to exclude particular single path disks, complete the following procedure:
Using a text editor, open the ASMLIB configuration file /etc/sysconfig/oracleasm.
Edit the ORACLEASM_SCANEXCLUDE variable to provide the prefix path of the single path disks. For example, if you want to exclude the single path disks /dev sdb and /dev/sdc, then provide a prefix path similar to the following:
ORACLEASM_SCANEXCLUDE="sdb sdc"
Save the file.
When you have completed this procedure, then when ASMLIB scans disks, it scans all disks except for the disks with the sdb and sdc prefixes, so that it ignores /dev/sdb and /dev/sdc. It does not ignore other SCSI disks, nor multipath disks. If you have a multipath disk (for example, /dev/multipatha), which accesses both /dev/sdb and /dev sdc, but you have configured ASMLIB to ignore sdb and sdc, then ASMLIB ignores these disks and instead marks only the multipath disk as an Oracle ASM disk.
在采用asmlib作为asm驱动时,此时,通过v$asm_disk视图无法确认具体物理磁盘:
SQL> select disk_number,path from v$asm_disk
2 where group_number=1;
DISK_NUMBER PATH
----------- ------------
0 ORCL:VOL12
1 ORCL:VOL13
可以通过如下的几种方法实现:
1、dd方法:
[root@rac1 ~]# dd if=/dev/sdb13 bs=1 count=45 |hexdump -c |more
45+0 records in
45+0 records out
45 bytes (45 B) copied, 9.4e-05 seconds, 479 kB/s
0000000 001 202 001 001 \0 \0 \0 \0 \0 \0 \0 200 253 243 245 371
0000010 \0 \0 \0 \0 \0 \0 \0 \0 \0 \0 \0 \0 \0 \0 \0 \0
0000020 O R C L D I S K V O L 1 2
000002d
这可以确定/dev/sdb13为VOL12。
2、通过major号确定:
[root@rac1 ~]# ls -l /dev/oracleasm/disks/VOL12
brw-rw---- 1 oracle oinstall 8, 29 May 15 22:02 /dev/oracleasm/disks/VOL12
[root@rac1 ~]# ls -l /dev/sd* |grep "8, 29"
brw-r----- 1 root disk 8, 29 May 15 22:02 /dev/sdb13
[grid@node2 ~]$ cd /dev/oracleasm/disks/
[grid@node2 disks]$ ll
total 0
brw-rw---- 1 grid oinstall 8, 33 Mar 10 12:04 ARCHDISK
brw-rw---- 1 grid oinstall 8, 49 Mar 10 12:04 DATADISK
brw-rw---- 1 grid oinstall 8, 65 Mar 10 12:04 OVDISK
[grid@node2 disks]$ ls -l /dev/sd* |grep "8, 33"
brw-rw---- 1 grid oinstall 8, 33 Mar 10 12:04 /dev/sdc1
[grid@node2 disks]$ ls -l /dev/sd* |grep "8, 49"
brw-r----- 1 root disk 8, 49 Mar 10 12:04 /dev/sdd1
[grid@node2 disks]$ ls -l /dev/sd* |grep "8, 65"
brw-rw---- 1 grid oinstall 8, 65 Mar 10 12:04 /dev/sde1
[grid@node2 disks]$
分类: Oracle
原文地址:在Red Hat Linux Server 6上能否使用ASMLib? 作者:尛样儿
# yum install kmod-oracleasm
This kernel driver is not version-specific and does not need to be upgraded when the kernel is upgraded.
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