検索

このコンテンツは選択した言語では利用できません。

Global Network Block Device

download PDF
Red Hat Enterprise Linux 4

Using GNBD with Red Hat Global File System

Edition 1.0

Abstract

This book provides an overview on using Global Network Block Device (GNBD) with Red Hat GFS for Red Hat Enterprise Linux 4.

Introduction

1. About This Guide

This book describes how to use Global Network Block Device (GNDB) with Global File System (GFS), including information about device-mapper multipath, GNDB driver and command usage, and running GFS on a GNBD server node.

2. Audience

This book is intended to be used by system administrators managing systems running the Linux operating system. It requires familiarity with Red Hat Enterprise Linux and GFS file system administration.

3. Software Versions

Table 1. Software Versions
Software Description
RHEL4
refers to RHEL4 and higher
GFS
refers to GFS 6.1 and higher

5. Feedback

If you spot a typo, or if you have thought of a way to make this manual better, we would love to hear from you. Please submit a report in Bugzilla (http://bugzilla.redhat.com/bugzilla/) against the component rh-cs.
Be sure to mention the manual's identifier:
rh-gfs(EN)-4.8 (2009-05-15T15:10)
By mentioning this manual's identifier, we know exactly which version of the guide you have.
If you have a suggestion for improving the documentation, try to be as specific as possible. If you have found an error, please include the section number and some of the surrounding text so we can find it easily.

Chapter 1. Using GNBD with Red Hat GFS

GNBD (Global Network Block Device) provides block-level storage access over an Ethernet LAN. GNBD components run as a client in a GFS node and as a server in a GNBD server node. A GNBD server node exports block-level storage from its local storage (either directly attached storage or SAN storage) to a GFS node.
Table 1.1, “GNBD Software Subsystem Components” summarizes the GNBD software subsystems components.
Table 1.1. GNBD Software Subsystem Components
Software Subsystem Components Description
GNBD gnbd.ko Kernel module that implements the GNBD device driver on clients.
gnbd_export Command to create, export and manage GNBDs on a GNBD server.
gnbd_import Command to import and manage GNBDs on a GNBD client.
gnbd_serv A server daemon that allows a node to export local storage over the network.
You can configure GNBD servers to work with device-mapper multipath. GNBD with device-mapper multipath allows you to configure multiple GNBD server nodes to provide redundant paths to the storage devices. The GNBD servers, in turn, present multiple storage paths to GFS nodes via redundant GNBDs. When using GNBD with device-mapper multipath, if a GNBD server node becomes unavailable, another GNBD server node can provide GFS nodes with access to storage devices.
This document how to use GNBD with Red Hat GFS and consists of the following chapters:

Chapter 2. Considerations for Using GNBD with Device-Mapper Multipath

GNBD with device-mapper multipath allows you to configure multiple GNBD server nodes (nodes that export GNBDs to GFS nodes) to provide redundant paths to the storage devices. The GNBD server nodes, in turn, present multiple storage paths to GFS nodes via redundant GNBDs. When using GNBD with device-mapper multipath, if a GNBD server node becomes unavailable, another GNBD server node can provide GFS nodes with access to storage devices.
If you are using GNBD with device-mapper multipath, you need to take the following into consideration:

2.1. Linux Page Caching

For GNBD with device-mapper multipath, do not specify Linux page caching (the -c option of the gnbd_export command). All GNBDs that are part of a logical volume must run with caching disabled. Data corruption occurs if the GNBDs are run with caching enabled. Refer to Section 3.1, “Exporting a GNBD from a Server” for more information about using the gnbd_export command for GNBD with device-mapper multipath.

2.2. Fencing GNBD Server Nodes

GNBD server nodes must be fenced using a fencing method that physically removes the nodes from the network. To physically remove a GNBD server node, you can use any fencing device: except the following: fence_brocade fence agent, fence_vixel fence agent, fence_mcdata fence agent, fence_sanbox2 fence agent, fence_scsi fence agent. In addition, you cannot use the GNBD fencing device (fence_gnbd fence agent) to fence a GNBD server node. For information about configuring fencing for GNBD server nodes, refer to the Global File System manual.

Chapter 3. GNBD Driver and Command Usage

The Global Network Block Device (GNBD) driver allows a node to export its local storage as a GNBD over a network so that other nodes on the network can share the storage. Client nodes importing the GNBD use it like any other block device. Importing a GNBD on multiple clients forms a shared storage configuration through which GFS can be used.
The GNBD driver is implemented through the following components.
  • gnbd_serv — Implements the GNBD server. It is a user-space daemon that allows a node to export local storage over a network.
  • gnbd.ko — Implements the GNBD device driver on GNBD clients (nodes using GNBD devices).
Two user commands are available to configure GNBD:
  • gnbd_export (for servers) — User program for creating, exporting, and managing GNBDs on a GNBD server.
  • gnbd_import (for clients) — User program for importing and managing GNBDs on a GNBD client.

3.1. Exporting a GNBD from a Server

The gnbd_serv daemon must be running on a node before it can export storage as a GNBD. You can start the gnbd_serv daemon running gnbd_serv as follows:
#gnbd_serv
gnbd_serv: startup succeeded
Once local storage has been identified to be exported, the gnbd_export command is used to export it.

Warning

When you configure GNBD servers with device-mapper multipath, you must not use page caching. All GNBDs that are part of a logical volume must run with caching disabled. By default, the gnbd_export command exports with caching turned off.

Note

A server should not import the GNBDs to use them as a client would. If a server exports the devices uncached, the underlying devices may also be used by gfs.

Usage

gnbd_export -d pathname -e gnbdname [-c][-u][-U
pathname
Specifies a storage device to export.
gnbdname
Specifies an arbitrary name selected for the GNBD. It is used as the device name on GNBD clients. This name must be unique among all GNBDs exported in a network.
-o
Export the device as read-only.
-c
Enable caching. Reads from the exported GNBD and takes advantage of the Linux page cache.
By default, the gnbd_export command does not enable caching.

Warning

When you configure GNBD servers with device-mapper multipath, do not specify the -c option, as this lead sto data corruption. All GNBDs that are part of a logical volume must run with caching disabled.

Note

If you have been using GFS 5.2 or earlier and do not want to change your GNBD setup you should specify the -c option. Before GFS Release 5.2.1, Linux caching was enabled by default for gnbd_export. If the -c option is not specified, GNBD runs with a noticeable performance decrease. Also, if the -c option is not specified, the exported GNBD runs in timeout mode, using the default timeout value (the -t option). For more information about the gnbd_export command and its options, refer to the gnbd_export man page.
-u uid
Manually sets the Universal Identifier for an exported device. This option is used with -e. The UID is used by device-mapper multipath to determine which devices belong in a multipath map. A device must have a UID to be multipathed. However, for most SCSI devices the default Get UID command, /usr/sbin/gnbd_get_uid, will return an appropriate value.

Note

The UID refers to the device being exported, not the GNBD itself. The UIDs of two GNBD devices should be equal, only if they are exporting the same underlying device. This means that both GNBD servers are connected to the same physical device.

Warning

This option should only be used for exporting shared storage devices, when the -U command option does not work. This should almost never happen for SCSI devices. If two GNBD devices are not exporting the same underlying device, but are given the same UID, data corruption will occur.
-U Command
Gets the UID command. The UID command is a command the gnbd_export command will run to get a Universal Identifier for the exported device. The UID is necessary to use device-mapper multipath with GNBD. The command must use the full path of any executeable that you wish to run. A command can contain the %M, %m or %n escape sequences. %M will be expanded to the major number of the exported device, %m will be expaned to the minor number of the exported device, and %n will be expanded to the sysfs name for the device. If no command is given, GNBD will use the default command /usr/sbin/gnbd_get_uid. This command will work for most SCSI devices.

Examples

This example is for a GNBD server configured with GNBD multipath. It exports device /dev/sdc2 as GNBD gamma. Cache is disabled by default.
gnbd_export -d /dev/sdc2 -e gamma -U
This example is for a GNBD server not configured with GNBD multipath. It exports device /dev/sdb2 as GNBD delta with cache enabled.
gnbd_export -d /dev/sdb1 -e delta -c
This example exports device /dev/sdb2 as GNBD delta with cache enabled.
gnbd_export -d /dev/sdb2 -e delta -c

3.2. Importing a GNBD on a Client

The gnbd.ko kernel module must be loaded on a node before it can import GNBDs. When GNBDs are imported, device nodes are created for them in /dev/gnbd/ with the name assigned when they were exported.

Usage

gnbd_import -i Server
Server
Specifies a GNBD server by hostname or IP address from which to import GNBDs. All GNBDs exported from the server are imported on the client running this command.

Example

This example imports all GNBDs from the server named nodeA.
gnbd_import -i nodeA

Chapter 4. Running GFS on a GNBD Server Node

You can run GFS on a GNBD server node, with some restrictions. In addition, running GFS on a GNBD server node reduces performance. The following restrictions apply when running GFS on a GNBD server node.

Important

When running GFS on a GNBD server node you must follow the restrictions listed; otherwise, the GNBD server node will fail.
  1. A GNBD server node must have local access to all storage devices needed to mount a GFS file system. The GNBD server node must not import (gnbd_import command) other GNBD devices to run the file system.
  2. The GNBD server must export all the GNBDs in uncached mode, and it must export the raw devices, not logical volume devices.
  3. GFS must be run on top of a logical volume device, not raw devices.

Note

You may need to increase the timeout period on the exported GNBDs to accommodate reduced performance. The need to increase the timeout period depends on the quality of the hardware.

Appendix A. Revision History

Revision History
Revision 1.0-6.4002013-10-31Rüdiger Landmann
Rebuild with publican 4.0.0
Revision 1.0-62012-07-18Anthony Towns
Rebuild for Publican 3.0
Revision 1.0-0Wed Apr 01 2009

Index

D

device-mapper multipath, Considerations for Using GNBD with Device-Mapper Multipath
fencing GNBD server nodes, Fencing GNBD Server Nodes
Linux page caching, Linux Page Caching
driver and command usage, GNBD Driver and Command Usage
exporting from a server, Exporting a GNBD from a Server
importing on a client, Importing a GNBD on a Client

E

exporting from a server daemon, Exporting a GNBD from a Server

F

feedback, Feedback
fencing GNBD server nodes, Fencing GNBD Server Nodes

I

importing on a client module, Importing a GNBD on a Client

L

Linux page caching, Linux Page Caching

S

software subsystem components, Using GNBD with Red Hat GFS

Legal Notice

Copyright © 2009 Red Hat, Inc.
This document is licensed by Red Hat under the Creative Commons Attribution-ShareAlike 3.0 Unported License. If you distribute this document, or a modified version of it, you must provide attribution to Red Hat, Inc. and provide a link to the original. If the document is modified, all Red Hat trademarks must be removed.
Red Hat, as the licensor of this document, waives the right to enforce, and agrees not to assert, Section 4d of CC-BY-SA to the fullest extent permitted by applicable law.
Red Hat, Red Hat Enterprise Linux, the Shadowman logo, the Red Hat logo, JBoss, OpenShift, Fedora, the Infinity logo, and RHCE are trademarks of Red Hat, Inc., registered in the United States and other countries.
Linux® is the registered trademark of Linus Torvalds in the United States and other countries.
Java® is a registered trademark of Oracle and/or its affiliates.
XFS® is a trademark of Silicon Graphics International Corp. or its subsidiaries in the United States and/or other countries.
MySQL® is a registered trademark of MySQL AB in the United States, the European Union and other countries.
Node.js® is an official trademark of Joyent. Red Hat is not formally related to or endorsed by the official Joyent Node.js open source or commercial project.
The OpenStack® Word Mark and OpenStack logo are either registered trademarks/service marks or trademarks/service marks of the OpenStack Foundation, in the United States and other countries and are used with the OpenStack Foundation's permission. We are not affiliated with, endorsed or sponsored by the OpenStack Foundation, or the OpenStack community.
All other trademarks are the property of their respective owners.
Red Hat logoGithubRedditYoutubeTwitter

詳細情報

試用、購入および販売

コミュニティー

Red Hat ドキュメントについて

Red Hat をお使いのお客様が、信頼できるコンテンツが含まれている製品やサービスを活用することで、イノベーションを行い、目標を達成できるようにします。

多様性を受け入れるオープンソースの強化

Red Hat では、コード、ドキュメント、Web プロパティーにおける配慮に欠ける用語の置き換えに取り組んでいます。このような変更は、段階的に実施される予定です。詳細情報: Red Hat ブログ.

会社概要

Red Hat は、企業がコアとなるデータセンターからネットワークエッジに至るまで、各種プラットフォームや環境全体で作業を簡素化できるように、強化されたソリューションを提供しています。

© 2024 Red Hat, Inc.