以下转自: http://blog.csdn.net/tianlesoftware/article/details/7241488
OracleData Guard 最简单的配置是主备库的环境都一样,但是在有些情况下需要异构的配置,比如在迁移时为了减少停机时间或者零停机,可能就需要使用异构的DG 配置。
关于Oralce DataGuard 异构平台的搭建,MOS上有2篇文章专门来说明:
Data Guard Support for HeterogeneousPrimary and Logical Standbys in Same Data Guard Configuration [ID 1085687.1]
Data Guard Support for HeterogeneousPrimary and Physical Standbys in Same Data Guard Configuration [ID 413484.1]
Prior to DataGuard 11g, the Data Guard Broker did not support different word-size in the same Data Guard configuration, thus requiring management from the SQL*Plus command line for mixed word-size Data Guard configurations. Thisrestriction is lifted from Data Guard 11g onward.
--在Oracle 11g 之前,DG Broker 不支持不同word-size的DG 配置,因此需要修改word-size. 到了Oracle 11g 之后,DG 就没有了这个限制。
Changing between 32-bit and 64-bit WordSizes [ID 62290.1]
这里的word-size 只的是数据库的位数,是32位还是64位。其查看方法,我之前的Blog 有说明。
查看Oracle 是32位还是64位的方法
http://blog.csdn.net/tianlesoftware/article/details/6818709
在配置异构DG 之前,要先查看主备库的Platform. ID,可以从v$database 视图中查看:
SQL> select platform_id,platform_name from v$database;
PLATFORM_ID PLATFORM_NAME
----------- ---------------------------------------------
7 Microsoft Windows IA (32-bit)
SQL> select platform_id,platform_name from v$database;
PLATFORM_ID PLATFORM_NAME
-------------------------------------------------------------------------------
10 Linux IA (32-bit)
这里的Platform_ID 是唯一的,不同的平台,即OS 对应一个ID。
Differencesbetween the primary server(s) and the standby server(s) are always supported aslong as the Oracle software installed on all servers is of the same OraclePlatform. as defined above, is certified to run on each server, and is the sameOracle Database Release and Patch Set. Examples of such differences that aresupported include the following:
--只要server 上Oracle 的软件的版本和位数是一致的,主备库就支持不同的server,即OS 不影响,比如:
(1)Hardware manufacturer (e.g. Delland Sun or Hitachi and EMC)
(2)Hardware configuration (e.g. numberof CPUs, amount of RAM, storage configuration, etc)
(3)Processor (e.g. x86-64 AMD64 andx86-64 Intel 64; POWER4 and POWER5)
(4)Operating system distribution (e.g.Red Hat Linux, SUSE Linux or Oracle Enterprise Linux)
(5)Operating system version (e.g.Windows 2000 and Windows XP)
In addition togeneral support when using the same Oracle platform, Data Guard Redo Apply(physical standby) can support specific mixed Oracle Platformcombinations. Oracle Platform. IDs, platform. names, and which combinationsof platform. ID(s) that can be combined to form. a supported Data Guardconfiguration using Redo Apply are listed in the table below. Platformcombinations not listed in the table below are not supported using Data GuardRedo Apply.
--物理standby 支持的混合平台如下表所列,不在下表不受支持。
(1) Prior to Data Guard 11g, theData Guard Broker did not support different word-size in the same Data Guardconfiguration, thus requiring management from the SQL*Plus command line formixed word-size Data Guard configurations. This restriction is lifted fromData Guard 11g onward.
--在Oracle 11g之后,不受数据库word-size的限制(数据库32还是64位)
(2) Both primary and standbydatabases must be set at the same compatibility mode as the minimum release (ifspecified) in the table below.
--在下表所列的平台中,主备库的compatible 参数必须相同。
(3) A standby database cannot beopen read-only in any environment that has binary-level PL/SQL-relatedincompatibilities between primary and standby databases. Support Note414043.1 is referenced in the table below for any platform. combinations wherethis is the case (the note provides instructions for eliminatingincompatibilities post role transition). It is possible to access astandby database in such environments in Oracle Database 11g by temporarilyconverting it to a SnapshotStandby database, or in Oracle Database 10g by opening the standbyread/write as described in the Data Guard 10g Concepts and Administrationguide: Usinga Physical Standby Database for Read/Write Testing and Reporting. Bothprocedures require following the steps in note 414043.1 before making thedatabase available to users.
(4) Please be sure to read SupportNotes when referenced in the table below.
(5) RMAN generally supportsinstantiation of a physical standby database for the supported platformcombinations. Please see Support Note 1079563.1 for details.
(6) Platforms in a supportedcombination may operate in either the primary or standby role.
--平台支持主备库角色的转换
(7) Enterprise Manager can not beused for standby database creation or other administrative functions in anyconfiguration where PLATFORM_IDs are not identical. Oracle recommends using theData Guard Broker command line interface (DGMGRL) to administer mixed platformcombinations from Oracle Database 11g onward and SQL*Plus command line forconfigurations that pre-date Oracle Database 11g.
--在PLATFORM_ID 不一样的情况下,备库不能创建和使用EM。但可以使用DG Broker。
PLATFORM_ID | PLATFORM_NAME | PLATFORM_IDs supported within the same Data Guard configuration when using Data Guard Redo Apply (Physical Standby) |
2 | Solaris[tm] OE (64-bit) | 2 |
3 | HP-UX (64-bit) | 3 |
4 | HP-UX IA (64-bit) | 4 |
5 | HP Tru64 UNIX | 5 |
6 | IBM AIX on POWER Systems (64-bit) | 2 - This is not supported due to issues reported in Bug 12702521 |
7 | Microsoft Windows (32-bit) | 7 |
8 | Microsoft Windows IA (64-bit) | 7 - Oracle 10g onward, see Support Note 414043.1 |
9 | IBM zSeries Based Linux | 9 |
10 | Linux (32-bit) | 7 - Oracle 11g onward, requires patch for Bug 13104881 |
11 | Linux IA (64-bit) | 10 - Oracle 10g onward, see Support Note 414043.1 |
12 | Microsoft Windows 64-bit for AMD | 7 - Oracle 10g onward, see Support Note 414043.1 |
13 | Linux 64-bit for AMD | 7 - Oracle 11g onward, see Support Note 414043.1, also requires patch for Bug 13104881 |
15 | HP Open VMS | 15 |
16 | Apple Mac OS | 16 |
17 | Solaris Operating System (x86) | 17 |
18 | IBM Power Based Linux | 9 (64-bit zSeries only) |
20 | Solaris Operating System (AMD64) | 13 - Oracle 11g onward |
对表格查看的解释,这里举一例,假设准备搭建一个物理DG:
主库:7(platform. id) Microsoft Windows IA (32-bit)
备库:10 (platform. id) Linux IA (32-bit)
7 | Microsoft Windows (32-bit) | 7 |
从这里可以看出,7支持的备库有7,8,12,10,11,13. 但是不同的版本也有限制。 我们的备库要用10,那么只能是Oracle 11g 以后才支持,并且还需要修复13104881的bug。
Transient Logical Database Rolling Upgrades: Beginning withOracle Database 11.1.0.7, a physical standby database can be used to execute arolling database upgrade to a new Oracle Patch Set or database release by usingthe transient logical rolling database upgrade process. See the MaximumAvailability Architecture Best Practice paper, " Rolling Database Upgrades for PhysicalStandby Databases using Transient Logical Standby 11g". Thedatabase rolling upgrade process enables a standby database to apply redo sentby a primary database that is operating at a previous Oracle release orpatchset. The transient logical rolling upgrade process requires that theprimary and standby platform. combination be a supported configuration for bothRedo Apply (see table above) and SQL Apply (see Support Note 1085687.1) as ofthe pre-upgrade Oracle release deployed in the Data Guard configuration.
DataGuard Configurations that Include a Combination of Physical and Logical StandbyDatabases: A Data Guardconfiguration includes a primary database and up to 30 standby databases.These standby databases may be a mix of physical and logical standby databases.All physical standby databases within a single Data Guard configuration mustadhere to the requirements described in this note. Likewise, if theconfiguration includes logical standby databases, they must conform. to therequirements of Support Note 1085687.1.
Real Application Cluster &Automatic Storage Management: It isnot necessary that the primary and the standby both be Oracle RAC databases, orboth use ASM. For example, the primary database may be running Oracle RAC withor without ASM, and the standby database(s) may be single-instance, with orwithout ASM. Also, in case both the primary and standby are Oracle RACdatabases, the number of Oracle RAC nodes between the primary and standbydatabases may vary. Furthermore, the versions of ASM and CRS do not need to bethe same between the primary and standby systems.
ExadataDatabase Machine: It istransparent to Data Guard whether primary and/or standby databases reside on anExadata Database Machine or on other hardware, as long as the platform. ID's ofprimary and standby systems within the same Data Guard configuration conform. tothe support requirements defined in the above table. If Exadata HybridColumnar Compression (EHCC) is used, it is strongly recommended that bothprimary and standby databases reside on Exadata. See the Maximum AvailabilityArchitecture Best Practice paper, "Disaster Recovery for Exadata Database Machine".
In addition togeneral support when using the same Oracle platform, Data Guard SQL Apply(logical standby) can support specific mixed Oracle Platform. combinations as ofOracle Database 11g. Oracle Platform. IDs, platform. names, and whichcombinations of platform. ID(s) that can be combined to form. a supported DataGuard configuration using SQL Apply are listed in the table below. Platform. combinations not listed in the table below are not supported usingData Guard SQL Apply.
--逻辑standby 支持如下的平台
Table Notes – 表格注释
(1) All mixed platform. combinationsfor SQL Apply in the table below are supported from Oracle Database 11g onward.
(2) Prior to Data Guard Broker 11g,the Data Guard Broker did not support different word-size in the same DataGuard configuration, thus requiring all management from the SQL*Plus commandline. This restriction is lifted from Data Guard 11g onward.
(3) Both primary and standbydatabases must be set at the same compatibility mode as the minimum release (ifspecified) in the table below.
(4) Please be sure to read SupportNotes when referenced in the table below.
(5) RMAN generally supportsinstantiation of a physical standby database for the supported platformcombinations. Please see Support Note 1079563.1 for details.
(6) Platforms in a supportedcombination may operate in either the primary or standby role unless otherwisespecified.
(7) Enterprise Manager can not beused for standby database creation or other administrative functions in anyconfiguration where PLATFORM_IDs are not identical. Oracle recommends using theData Guard Broker command line interface (DGMGRL) to administer mixed platformcombinations from Oracle Database 11g onward and SQL*Plus command line forconfigurations that pre-date Oracle Database 11g.
PLATFORM_ID | PLATFORM_NAME | PLATFORM_IDs supported within the same Data Guard configuration when using Data Guard SQL Apply (Logical Standby) |
2 | Solaris[tm] OE (64-bit) | 2 |
3 | HP-UX (64-bit) | 3, 4 |
4 | HP-UX IA (64-bit) | 3, 4 |
5 | HP Tru64 UNIX | 5 |
6 | AIX-Based Systems (64-bit) | 6 |
7 | Microsoft Windows (32-bit) | 7 |
8 | Microsoft Windows IA (64-bit) | 7 - Replication can only occur from a 32-bit primary to a 64-bit standby, once a role transition has promoted the 64-bit system to the primary role, the original 32-bit primary is not supported as a standby database. |
9 | IBM zSeries Based Linux | 9 |
10 | Linux (32-bit) | 7, requires patch for Bug 13104881 |
11 | Linux IA (64-bit) | 10 - Replication can only occur from a 32-bit primary to a 64-bit standby, once a role transition has promoted the 64-bit system to the primary role, the original 32-bit primary is not supported as a standby database. |
12 | Microsoft Windows 64-bit for AMD | 7 - from Oracle 11g onward. Replication can only occur from a 32-bit primary to a 64-bit standby, once a role transition has promoted the 64-bit system to the primary role, the original 32-bit primary is not supported as a standby database. |
13 | Linux 64-bit for AMD | 10 - Replication can only occur from a 32-bit primary to a 64-bit standby, once a role transition has promoted the 64-bit system to the primary role, the original 32-bit primary is not supported as a standby database. |
15 | HP Open VMS | 15 |
16 | Apple Mac OS | 16 |
17 | Solaris Operating System (x86) | 17 |
18 | IBM Power Based Linux | 18 |
20 | Solaris Operating System (AMD64) | 20 |
Mixing Database Versions During Database Rolling Upgrades:Beginning with Oracle Database 10.1.0.3 and onward, a logical standby databasecan operate at a later Oracle release than on the primary when using SQL Applyto execute a rolling database upgrade. Please refer to "Rolling Database Upgrades using Data GuardSQL Apply", " Rolling Database Upgrades for PhysicalStandby Databases using Transient Logical Standby 11g",
DataGuard Configurations that Include a Combination of Physical and Logical StandbyDatabases: A Data Guardconfiguration includes a primary database and up to 30 standby databases.These standby databases may be a mix of physical and logical standby databases.All logical standby databases within a single Data Guard configuration mustadhere to the requirements described in this note. Likewise, if theconfiguration includes physical standby databases, they must conform. to therequirements of Support Note 413484.1.
Real Application Cluster &Automatic Storage Management: It isnot necessary that the primary and the standby both be Oracle RAC databases, orboth use ASM. For example, the primary database may be running Oracle RAC withor without ASM, and the standby database(s) may be single-instance, with orwithout ASM. Also, in case both the primary and standby are Oracle RACdatabases, the number of Oracle RAC nodes between the primary and standbydatabases may vary. Furthermore, the versions of ASM and CRS do not need to bethe same between the primary and standby systems.
Exadata Database Machine: It is transparent to Data Guardwhether primary and/or standby databases reside on Exadata Database Machine oron other hardware, as long as the platform. ID's of primary and standby systemswithin the same Data Guard configuration conform. to the support requirementsdefined in the above table. If Exadata Hybrid Columnar Compression isused, it is strongly recommended that both primary and standby databases resideon Exadata storage. Note that Data Guard SQL Apply adds support for EHCC inOracle Database 11.2.0.2. See the Maximum Availability Architecture BestPractice paper, "Disaster Recovery for Exadata Database Machine".
在物理 Data Guard 中对异构主备系统的支持 (文档 ID 1602437.1)
您是否希望与其他 Oracle 客户、Oracle 员工和业内专家进一步探讨此主题?
您可以直接在本说明底部关于本文的讨论帖子中讨论本说明,介绍您的经验,也可以直接提出相关问题。
如果您希望就其他文章和话题进行讨论,或者展开新的讨论,您可以访问中文数据库社区。
部署 Data Guard 时最简单的途径是配置同构的对称主/备用配置。但是,为了利用运行不同操作系统的现有服务器,或者为了在尽可能减少停机时间或风险的情况下帮助从一个平台向另一个平台移植时,通常部署异构配置会非常有用。对于希望使用低于生产环境的处理能力的配置或者使用成本低于其主系统的组件来配置备用系统,从而减少其灾难恢复投资的用户而言,这是相当合理的选择。使用本技术支持文档中提供的指示和信息来确定单个 Data Guard 配置中支持哪些平台组合以及可能存在的任何其他要求或限制。
如果考虑使用异构主/备配置,则 Oracle 建议用户进行足够的测试以确保在 switchover(切换)或 failover(故障转移)到备用系统之后,能够继续达到所需的服务水平。
使用以下查询可在
V$DATABASE
视图中找到数据库的PLATFORM_ID:
SQL> select platform_id, platform_name from v$database;
PLATFORM_ID PLATFORM_NAME
----------- -----------------------------------
10 Linux IA (32-bit)
只要满足以下条件,则始终支持主服务器与备用服务器之间的差别:在所有服务器上安装的 Oracle 软件是相同Oracle平台(如上定义);经过认证可在各服务器上运行;具有相同的 Oracle 数据库发行版和 Patch Set(补丁程序集)。支持的这种差别的示例包括:
除了在使用相同 Oracle 平台时的一般支持之外,Data Guard 重做日志应用(物理备用)可以支持特定的混合 Oracle 平台组合。下表中列出了 Oracle 平台 ID、平台名称以及哪些平台 ID 可以组合以构成支持的 Data Guard 配置来使用重做日志应用。下表中未列出的平台组合不支持使用 Data Guard 重做日志应用。
PLATFORM_ID | PLATFORM_NAME 发行版名称 | 使用 Data Guard 重做日志应用(物理备用)时,相同 Data Guard 配置中支持的 PLATFORM_ID |
2 | Solaris[tm] OE (64-bit) Solaris Operating System (SPARC) (64-bit) | 2 6 - 请参考文档 Note: 1982638.1 和 Note: 414043.1 |
3 | HP-UX (64-bit) HP-UX PA-RISC | 3 4 - Oracle 10g 及更高版本,请参阅技术支持文档 Note: 395982.1 和 Note:414043.1 |
4 | HP-UX IA (64-bit) HP-UX Itanium | 4 3 - Oracle 10g 及更高版本,请参阅技术支持文档 Note: 395982.1 和 Note:414043.1 |
5 | HP Tru64 UNIX HP Tru64 UNIX | 5 |
6 | IBM AIX on POWER Systems (64-bit) | 2 - 请参考文档 Note: 1982638.1 和 Note: 414043.1 6 |
7 | Microsoft Windows (32-bit) Microsoft Windows (x86) | 7 8, 12 - Oracle 10g 及更高版本,请参阅 技术支持文档 Note: 414043.1 10 - Oracle 11g 及更高版本,需要 Patch 13104881 11, 13 - Oracle 11g 及更高版本,请参阅 技术支持文档 Note: 414043.1,还需要 Patch 13104881 |
8 | Microsoft Windows IA (64-bit) Microsoft Windows (64-bit Itanium) | 7 - Oracle 10g 及更高版本,请参阅 技术支持文档 Note: 414043.1 8 12 - Oracle 10g 及更高版本 11, 13 - Oracle 11g 及更高版本,需要 Patch 13104881 |
9 | IBM zSeries Based Linux z/Linux | 9 18 (仅 64 位 zSeries) |
10 | Linux (32-bit) Linux x86 | 7 - Oracle 11g 及更高版本,需要 Patch 13104881 10 11, 13 - Oracle 10g 及更高版本,请参阅 技术支持文档 Note: 414043.1 |
11 | Linux IA (64-bit) Linux Itanium | 10 - Oracle 10g 及更高版本,请参阅 技术支持文档 Note: 414043.1 11 13 - Oracle 10g 及更高版本 7 - Oracle 11g 及更高版本,请参阅 技术支持文档 Note: 414043.1,还需要 Patch 13104881 8, 12 - Oracle 11g 及更高版本,需要 Patch 13104881 |
12 | Microsoft Windows 64-bit for AMD Microsoft Windows (x86-64) | 7 - Oracle 10g 及更高版本,请参阅技术支持说明 Note: 414043.1 8 - Oracle 10g 及更高版本 12 11, 13 - Oracle 11g 及更高版本,需要 Patch 13104881 |
13 | Linux 64-bit for AMD Linux x86-64 | 7 - Oracle 11g 及更高版本,请参阅 技术支持文档 Note: 414043.1,还需要 Patch 13104881 10 - Oracle 10g 及更高版本,请参阅技术支持文档 Note: 414043.1 11 - Oracle 10g 及更高版本 8, 12 - Oracle 11g 及更高版本,需要 Patch 13104881 13 20 - Oracle 11g 及更高版本 |
15 | HP Open VMS HP OpenVMS Alpha HP IA OpenVMS OpenVMS Itanium | 15 |
16 | Apple Mac OS Mac OS X Server | 16 |
17 | Solaris Operating System (x86) Solaris Operating System (x86) | 17 20 - Oracle 10g 及更高版本,请参阅 技术支持文档 Note: 414043.1 |
18 | IBM Power Based Linux Linux on Power | 9(仅 64 位 zSeries) 18 |
20 | Solaris Operating System (AMD64) Solaris Operating System (x86-64) | 13 - Oracle 11g 及更高版本 17 - Oracle 10g 及更高版本,请参阅 技术支持文档 Note: 414043.1 20 |
临时逻辑数据库滚动升级:
从 Oracle Database 11.1.0.7 开始,可以利用物理备用数据库,进行临时逻辑备库滚动数据库升级过程,将数据库滚动升级到新的 Oracle Patch Set(补丁程序集)和 数据库发行版。请参阅“Maximum Availability Architecture Best Practice”一文中的 "
Rolling Database Upgrades for Physical Standby Databases using Transient Logical Standby 11g
"。 使用数据库滚动升级过程使得备用数据库可以应用主数据库发送的重做,虽然主数据库仍然在旧的 Oracle 发行版或 patchset(补丁程序集)上运行。临时逻辑备库滚动升级过程要求,在升级前 Oracle 发行版部署到 Data Guard 配置中时,主平台和备用平台组合是重做日志应用(参见上表)和 SQL 应用(参阅 技术支持文档 1085687.1)支持的配置。
包括物理和逻辑备用 数据库组合的 Data Guard 配置:
Data Guard 配置 包括一个主数据库和最多30个备用数据库。这些备用数据库可以是物理备用数据库和逻辑备用数据库的混合。单个Data Guard 配置中的所有物理备用数据库必须符合本说明中的要求。与此类似,如果配置包括逻辑备用数据库,则必须符合技术支持文档1085687.1 的要求。
Real Application Cluster 和 Automatic Storage Management:
主数据库和备用数据库不必都是 Oracle RAC 数据库,也不必均使用 ASM。例如,主数据库可以运行 Oracle RAC,使用或不使用 ASM,而备用数据库则可以是单实例,使用或不使用ASM。 此外,在主数据库和备用数据库均为 Oracle RAC 数据库时,主数据库和备用数据库之间的 Oracle RAC节点数可以不同。此外,主系统与备用系统之间的 ASM 和 CRS 的版本不必相同。
Exadata Database Machine:
只要相同 Data Guard 配置中的主系统和备用系统的平台 ID 遵守上表中定义的支持要求,则主和/或备用数据库是驻留在 Exadata Database Machine 上还是其他硬件上对于 Data Guard 来说是透明的。如果使用了 Exadata Hybrid Columnar Compression (EHCC),则强烈建议主系统和备用系统驻留在 Exadata 上。请参阅“Maximum Availability Architecture Best Practice”一文中的 "
Disaster Recovery for Exadata Database Machine
"。
BUG:13104881
- ORA-600 [6101] DATA CORRUPTION IN 11.2.0.2 WINDOWS TO LINUX STANDBY DUPLICATION
NOTE:1079563.1
- RMAN DUPLICATE/RESTORE/RECOVER Mixed Platform Support
NOTE:414043.1
- Role Transitions for Data Guard Configurations Using Mixed Oracle Binaries
BUG:12702521
- CANNOT SUPPORT SPARC<->AIX MIXED DATA GUARD DUE TO CONTROLFILE INCOMPATIBILITY
BUG:13104881
- ORA-600 [6101] DATA CORRUPTION IN 11.2.0.2 WINDOWS TO LINUX STANDBY DUPLICATION
在物理 Data Guard 中对异构主备系统的支持 (文档 ID 1602437.1)
您是否希望与其他 Oracle 客户、Oracle 员工和业内专家进一步探讨此主题?
您可以直接在本说明底部关于本文的讨论帖子中讨论本说明,介绍您的经验,也可以直接提出相关问题。
如果您希望就其他文章和话题进行讨论,或者展开新的讨论,您可以访问中文数据库社区。
部署 Data Guard 时最简单的途径是配置同构的对称主/备用配置。但是,为了利用运行不同操作系统的现有服务器,或者为了在尽可能减少停机时间或风险的情况下帮助从一个平台向另一个平台移植时,通常部署异构配置会非常有用。对于希望使用低于生产环境的处理能力的配置或者使用成本低于其主系统的组件来配置备用系统,从而减少其灾难恢复投资的用户而言,这是相当合理的选择。使用本技术支持文档中提供的指示和信息来确定单个 Data Guard 配置中支持哪些平台组合以及可能存在的任何其他要求或限制。
如果考虑使用异构主/备配置,则 Oracle 建议用户进行足够的测试以确保在 switchover(切换)或 failover(故障转移)到备用系统之后,能够继续达到所需的服务水平。
使用以下查询可在
V$DATABASE
视图中找到数据库的PLATFORM_ID:
SQL> select platform_id, platform_name from v$database;
PLATFORM_ID PLATFORM_NAME
----------- -----------------------------------
10 Linux IA (32-bit)
只要满足以下条件,则始终支持主服务器与备用服务器之间的差别:在所有服务器上安装的 Oracle 软件是相同Oracle平台(如上定义);经过认证可在各服务器上运行;具有相同的 Oracle 数据库发行版和 Patch Set(补丁程序集)。支持的这种差别的示例包括:
除了在使用相同 Oracle 平台时的一般支持之外,Data Guard 重做日志应用(物理备用)可以支持特定的混合 Oracle 平台组合。下表中列出了 Oracle 平台 ID、平台名称以及哪些平台 ID 可以组合以构成支持的 Data Guard 配置来使用重做日志应用。下表中未列出的平台组合不支持使用 Data Guard 重做日志应用。
PLATFORM_ID | PLATFORM_NAME 发行版名称 | 使用 Data Guard 重做日志应用(物理备用)时,相同 Data Guard 配置中支持的 PLATFORM_ID |
2 | Solaris[tm] OE (64-bit) Solaris Operating System (SPARC) (64-bit) | 2 6 - 请参考文档 Note: 1982638.1 和 Note: 414043.1 |
3 | HP-UX (64-bit) HP-UX PA-RISC | 3 4 - Oracle 10g 及更高版本,请参阅技术支持文档 Note: 395982.1 和 Note:414043.1 |
4 | HP-UX IA (64-bit) HP-UX Itanium | 4 3 - Oracle 10g 及更高版本,请参阅技术支持文档 Note: 395982.1 和 Note:414043.1 |
5 | HP Tru64 UNIX HP Tru64 UNIX | 5 |
6 | IBM AIX on POWER Systems (64-bit) | 2 - 请参考文档 Note: 1982638.1 和 Note: 414043.1 6 |
7 | Microsoft Windows (32-bit) Microsoft Windows (x86) | 7 8, 12 - Oracle 10g 及更高版本,请参阅 技术支持文档 Note: 414043.1 10 - Oracle 11g 及更高版本,需要 Patch 13104881 11, 13 - Oracle 11g 及更高版本,请参阅 技术支持文档 Note: 414043.1,还需要 Patch 13104881 |
8 | Microsoft Windows IA (64-bit) Microsoft Windows (64-bit Itanium) | 7 - Oracle 10g 及更高版本,请参阅 技术支持文档 Note: 414043.1 8 12 - Oracle 10g 及更高版本 11, 13 - Oracle 11g 及更高版本,需要 Patch 13104881 |
9 | IBM zSeries Based Linux z/Linux | 9 18 (仅 64 位 zSeries) |
10 | Linux (32-bit) Linux x86 | 7 - Oracle 11g 及更高版本,需要 Patch 13104881 10 11, 13 - Oracle 10g 及更高版本,请参阅 技术支持文档 Note: 414043.1 |
11 | Linux IA (64-bit) Linux Itanium | 10 - Oracle 10g 及更高版本,请参阅 技术支持文档 Note: 414043.1 11 13 - Oracle 10g 及更高版本 7 - Oracle 11g 及更高版本,请参阅 技术支持文档 Note: 414043.1,还需要 Patch 13104881 8, 12 - Oracle 11g 及更高版本,需要 Patch 13104881 |
12 | Microsoft Windows 64-bit for AMD Microsoft Windows (x86-64) | 7 - Oracle 10g 及更高版本,请参阅技术支持说明 Note: 414043.1 8 - Oracle 10g 及更高版本 12 11, 13 - Oracle 11g 及更高版本,需要 Patch 13104881 |
13 | Linux 64-bit for AMD Linux x86-64 | 7 - Oracle 11g 及更高版本,请参阅 技术支持文档 Note: 414043.1,还需要 Patch 13104881 10 - Oracle 10g 及更高版本,请参阅技术支持文档 Note: 414043.1 11 - Oracle 10g 及更高版本 8, 12 - Oracle 11g 及更高版本,需要 Patch 13104881 13 20 - Oracle 11g 及更高版本 |
15 | HP Open VMS HP OpenVMS Alpha HP IA OpenVMS OpenVMS Itanium | 15 |
16 | Apple Mac OS Mac OS X Server | 16 |
17 | Solaris Operating System (x86) Solaris Operating System (x86) | 17 20 - Oracle 10g 及更高版本,请参阅 技术支持文档 Note: 414043.1 |
18 | IBM Power Based Linux Linux on Power | 9(仅 64 位 zSeries) 18 |
20 | Solaris Operating System (AMD64) Solaris Operating System (x86-64) | 13 - Oracle 11g 及更高版本 17 - Oracle 10g 及更高版本,请参阅 技术支持文档 Note: 414043.1 20 |
临时逻辑数据库滚动升级:
从 Oracle Database 11.1.0.7 开始,可以利用物理备用数据库,进行临时逻辑备库滚动数据库升级过程,将数据库滚动升级到新的 Oracle Patch Set(补丁程序集)和 数据库发行版。请参阅“Maximum Availability Architecture Best Practice”一文中的 "
Rolling Database Upgrades for Physical Standby Databases using Transient Logical Standby 11g
"。 使用数据库滚动升级过程使得备用数据库可以应用主数据库发送的重做,虽然主数据库仍然在旧的 Oracle 发行版或 patchset(补丁程序集)上运行。临时逻辑备库滚动升级过程要求,在升级前 Oracle 发行版部署到 Data Guard 配置中时,主平台和备用平台组合是重做日志应用(参见上表)和 SQL 应用(参阅 技术支持文档 1085687.1)支持的配置。
包括物理和逻辑备用 数据库组合的 Data Guard 配置:
Data Guard 配置 包括一个主数据库和最多30个备用数据库。这些备用数据库可以是物理备用数据库和逻辑备用数据库的混合。单个Data Guard 配置中的所有物理备用数据库必须符合本说明中的要求。与此类似,如果配置包括逻辑备用数据库,则必须符合技术支持文档1085687.1 的要求。
Real Application Cluster 和 Automatic Storage Management:
主数据库和备用数据库不必都是 Oracle RAC 数据库,也不必均使用 ASM。例如,主数据库可以运行 Oracle RAC,使用或不使用 ASM,而备用数据库则可以是单实例,使用或不使用ASM。 此外,在主数据库和备用数据库均为 Oracle RAC 数据库时,主数据库和备用数据库之间的 Oracle RAC节点数可以不同。此外,主系统与备用系统之间的 ASM 和 CRS 的版本不必相同。
Exadata Database Machine:
只要相同 Data Guard 配置中的主系统和备用系统的平台 ID 遵守上表中定义的支持要求,则主和/或备用数据库是驻留在 Exadata Database Machine 上还是其他硬件上对于 Data Guard 来说是透明的。如果使用了 Exadata Hybrid Columnar Compression (EHCC),则强烈建议主系统和备用系统驻留在 Exadata 上。请参阅“Maximum Availability Architecture Best Practice”一文中的 "
Disaster Recovery for Exadata Database Machine
"。
BUG:13104881
- ORA-600 [6101] DATA CORRUPTION IN 11.2.0.2 WINDOWS TO LINUX STANDBY DUPLICATION
NOTE:1079563.1
- RMAN DUPLICATE/RESTORE/RECOVER Mixed Platform Support
NOTE:414043.1
- Role Transitions for Data Guard Configurations Using Mixed Oracle Binaries
BUG:12702521
- CANNOT SUPPORT SPARC<->AIX MIXED DATA GUARD DUE TO CONTROLFILE INCOMPATIBILITY
BUG:13104881
- ORA-600 [6101] DATA CORRUPTION IN 11.2.0.2 WINDOWS TO LINUX STANDBY DUPLICATION