SUSE Ceph iSCSI 网关管理 - Storage6

早过忘川 提交于 2019-12-01 06:15:53

     iSCSI网关集成了Ceph存储和iSCSI标准,以提供一个高可用性(HA) iSCSI目标,该目标将RADOS块设备(RBD)映像导出为SCSI磁盘。iSCSI协议允许客户机 (initiator) 通过TCP/IP网络向SCSI存储设备( targets )发送SCSI命令。这允许异构客户机访问Ceph存储集群。

    每个iSCSI网关运行Linux IO目标内核子系统(LIO),以提供iSCSI协议支持。LIO利用用户空间通过( TCMU ) 与Ceph的librbd库交互,并向iSCSI客户机暴露RBD镜像。使用Ceph的iSCSI网关,可以有效地运行一个完全集成的块存储基础设施,它具有传统存储区域网络(SAN)的所有特性和优点。

RBD 作为 VMware ESXI datastore 是否支持?

(1)目前来说,RBD是不支持datastore形式。

(2)iSCSI 是支持 datastore 这种方式,可以作为VMware Esxi 虚拟机提供存储功能,性价比非常不错的选择。

 

 1、创建池和镜像

(1)创建池

# ceph osd pool create iscsi-images 128 128 replicated
# ceph osd pool application enable iscsi-images rbd

(2)创建images

# rbd --pool iscsi-images create --size=2048 'iscsi-gateway-image001'
# rbd --pool iscsi-images create --size=4096 'iscsi-gateway-image002'
# rbd --pool iscsi-images create --size=2048 'iscsi-gateway-image003'
# rbd --pool iscsi-images create --size=4096 'iscsi-gateway-image004'

(3)显示images

# rbd ls -p iscsi-images
iscsi-gateway-image001
iscsi-gateway-image002
iscsi-gateway-image003
iscsi-gateway-image004

2、deepsea 方式安装iSCSI网关

(1)node001 和 node002节点上安装,编辑policy.cfg 文件

vim /srv/pillar/ceph/proposals/policy.cfg
  ......
# IGW
role-igw/cluster/node00[1-2]*.sls
  ......

 (2)运行 stage 2 和 stage 4

# salt-run state.orch ceph.stage.2
# salt 'node001*' pillar.items
    public_network:
        192.168.2.0/24
    roles:
        - mon
        - mgr
        - storage
        - igw
    time_server:
        admin.example.com
# salt-run state.orch ceph.stage.4

3、手动方式安装iSCSI网关

(1)node003 节点安装 iscsi 软件包

# zypper -n in -t pattern ceph_iscsi
# zypper -n in tcmu-runner  tcmu-runner-handler-rbd \
  ceph-iscsi patterns-ses-ceph_iscsi python3-Flask python3-click python3-configshell-fb \
  python3-itsdangerous python3-netifaces python3-rtslib-fb \
  python3-targetcli-fb python3-urwid targetcli-fb-common 

(2)admin节点创建key,并复制到 node003

# ceph auth add client.igw.node003 mon 'allow *' osd 'allow *' mgr 'allow r'
# ceph auth get client.igw.node003
client.igw.node003
        key: AQC0eotdAAAAABAASZrZH9KEo0V0WtFTCW9AHQ==
        caps: [mgr] allow r
        caps: [mon] allow *
        caps: [osd] allow *
# ceph auth get client.igw.node003 >> /etc/ceph/ceph.client.igw.node003.keyring
# scp /etc/ceph/ceph.client.igw.node003.keyring node003:/etc/ceph

 (3)node003 节点启动服务

# systemctl start tcmu-runner.service
# systemctl enable tcmu-runner.service 

(4)node003 节点创建配置文件

# vim /etc/ceph/iscsi-gateway.cfg
[config]
cluster_client_name = client.igw.node003
pool = iscsi-images
trusted_ip_list = 192.168.2.42,192.168.2.40,192.168.2.41
minimum_gateways = 1
fqdn_enabled=true

# Additional API configuration options are as follows, defaults shown.
api_port = 5000
api_user = admin
api_password = admin
api_secure = false

# Log level
logger_level = WARNING

(5)启动 RBD target 服务

# systemctl start rbd-target-api.service
# systemctl enable rbd-target-api.service

(6)显示配置信息

# gwcli info
HTTP mode          : http
Rest API port      : 5000
Local endpoint     : http://localhost:5000/api
Local Ceph Cluster : ceph
2ndary API IP's    : 192.168.2.42,192.168.2.40,192.168.2.41
# gwcli ls
o- / ...................................................................... [...]
  o- cluster ...................................................... [Clusters: 1]
  | o- ceph ......................................................... [HEALTH_OK]
  |   o- pools ....................................................... [Pools: 1]
  |   | o- iscsi-images ........ [(x3), Commit: 0.00Y/15718656K (0%), Used: 192K]
  |   o- topology ............................................. [OSDs: 6,MONs: 3]
  o- disks .................................................... [0.00Y, Disks: 0]
  o- iscsi-targets ............................ [DiscoveryAuth: None, Targets: 0]

4、Dashboard 添加 iscsi 网关

(1)Admin节点上,查看 dashboard iSCSI 网关

admin:~ # ceph dashboard iscsi-gateway-list
{"gateways": {"node002.example.com": {"service_url": "http://admin:admin@192.168.2.41:5000"},
 "node001.example.com": {"service_url": "http://admin:admin@192.168.2.40:5000"}}}

 (2)添加 iSCSI 网关

# ceph dashboard iscsi-gateway-add http://admin:admin@192.168.2.42:5000
# ceph dashboard iscsi-gateway-list      
{"gateways": {"node002.example.com": {"service_url": "http://admin:admin@192.168.2.41:5000"},
 "node001.example.com": {"service_url": "http://admin:admin@192.168.2.40:5000"},
 "node003.example.com": {"service_url": "http://admin:admin@192.168.2.42:5000"}}}  

(3)登陆 Dashboard 查看 iSCSI 网关

 5、Export RBD Images via iSCSI

(1)创建 iSCSI target name

# gwcli
gwcli > /> cd /iscsi-targets
gwcli > /iscsi-targets> create iqn.2019-10.com.suse-iscsi.iscsi01.x86:iscsi-gateway01

(2)添加 iSCSI 网关

gwcli > /iscsi-targets> cd iqn.2019-10.com.suse-iscsi.iscsi01.x86:iscsi-gateway01/gateways
/iscsi-target...tvol/gateways> create node001.example.com 172.200.50.40
/iscsi-target...tvol/gateways> create node002.example.com 172.200.50.41
/iscsi-target...tvol/gateways> create node003.example.com 172.200.50.42
/iscsi-target...ay01/gateways> ls
o- gateways ......................................................... [Up: 3/3, Portals: 3]
  o- node001.example.com ............................................. [172.200.50.40 (UP)]
  o- node002.example.com ............................................. [172.200.50.41 (UP)]
  o- node003.example.com ............................................. [172.200.50.42 (UP)]

注意:安装主机名来定义

/iscsi-target...tvol/gateways> create node002 172.200.50.41
The first gateway defined must be the local machine

(3)添加 RBD 镜像

/iscsi-target...tvol/gateways> cd /disks
/disks> attach iscsi-images/iscsi-gateway-image001
/disks> attach iscsi-images/iscsi-gateway-image002

(4)target 和 RBD 镜像建立映射关系

/disks> cd /iscsi-targets/iqn.2019-10.com.suse-iscsi.iscsi01.x86:iscsi-gateway01/disks
/iscsi-target...teway01/disks> add iscsi-images/iscsi-gateway-image001
/iscsi-target...teway01/disks> add iscsi-images/iscsi-gateway-image002

(5)设置不验证

gwcli > /> cd /iscsi-targets/iqn.2019-10.com.suse-iscsi.iscsi01.x86:iscsi-gateway01/hosts
/iscsi-target...teway01/hosts> auth disable_acl
/iscsi-target...teway01/hosts> exit

(6)查看配置信息

node001:~ # gwcli ls
o- / ............................................................................... [...]
  o- cluster ............................................................... [Clusters: 1]
  | o- ceph .................................................................. [HEALTH_OK]
  |   o- pools ................................................................ [Pools: 1]
  |   | o- iscsi-images .................. [(x3), Commit: 6G/15717248K (40%), Used: 1152K]
  |   o- topology ...................................................... [OSDs: 6,MONs: 3]
  o- disks ................................................................ [6G, Disks: 2]
  | o- iscsi-images .................................................. [iscsi-images (6G)]
  |   o- iscsi-gateway-image001 ............... [iscsi-images/iscsi-gateway-image001 (2G)]
  |   o- iscsi-gateway-image002 ............... [iscsi-images/iscsi-gateway-image002 (4G)]
  o- iscsi-targets ..................................... [DiscoveryAuth: None, Targets: 1]
    o- iqn.2019-10.com.suse-iscsi.iscsi01.x86:iscsi-gateway01 .............. [Gateways: 3]
      o- disks ................................................................ [Disks: 2]
      | o- iscsi-images/iscsi-gateway-image001 .............. [Owner: node001.example.com]
      | o- iscsi-images/iscsi-gateway-image002 .............. [Owner: node002.example.com]
      o- gateways .................................................. [Up: 3/3, Portals: 3]
      | o- node001.example.com ...................................... [172.200.50.40 (UP)]
      | o- node002.example.com ...................................... [172.200.50.41 (UP)]
      | o- node003.example.com ...................................... [172.200.50.42 (UP)]
      o- host-groups ........................................................ [Groups : 0]
      o- hosts .................................................... [Hosts: 0: Auth: None]

 6、使用 Dashboard 界面输出 RBD Images

 (1)添加 iSCSI target

 (2)编写 target IQN,并且添加镜像 Portals 和 images

 (3)查看新添加 iSCSI target 信息

 7、Linux 客户端访问

(1)启动 iscsid 服务

  • SLES or RHEL
# systemctl start iscsid.service
# systemctl enable iscsid.service 
  • Debian or Ubuntu
# systemctl start open-iscsi

(2)发现和连接 targets

# iscsiadm -m discovery -t st -p 172.200.50.40
172.200.50.40:3260,1 iqn.2019-10.com.suse-iscsi.iscsi01.x86:iscsi-gateway01
172.200.50.41:3260,2 iqn.2019-10.com.suse-iscsi.iscsi01.x86:iscsi-gateway01
172.200.50.42:3260,3 iqn.2019-10.com.suse-iscsi.iscsi01.x86:iscsi-gateway01
172.200.50.40:3260,1 iqn.2019-10.com.suse-iscsi.iscsi01.x86:iscsi-gateway02
172.200.50.41:3260,2 iqn.2019-10.com.suse-iscsi.iscsi01.x86:iscsi-gateway02
172.200.50.42:3260,3 iqn.2019-10.com.suse-iscsi.iscsi01.x86:iscsi-gateway02

(3)登录target

# iscsiadm -m node -p 172.200.50.40 --login
# iscsiadm -m node -p 172.200.50.41 --login
# iscsiadm -m node -p 172.200.50.42 --login
# lsblk
NAME            MAJ:MIN RM   SIZE RO TYPE MOUNTPOINT
sda               8:0    0    25G  0 disk
├─sda1            8:1    0   509M  0 part /boot
└─sda2            8:2    0  24.5G  0 part
  ├─vg00-lvswap 254:0    0     2G  0 lvm  [SWAP]
  └─vg00-lvroot 254:1    0 122.5G  0 lvm  /
sdb               8:16   0   100G  0 disk
└─vg00-lvroot   254:1    0 122.5G  0 lvm  /
sdc               8:32   0     2G  0 disk
sdd               8:48   0     2G  0 disk
sde               8:64   0     4G  0 disk
sdf               8:80   0     4G  0 disk
sdg               8:96   0     2G  0 disk
sdh               8:112  0     4G  0 disk
sdi               8:128  0     2G  0 disk
sdj               8:144  0     4G  0 disk
sdk               8:160  0     2G  0 disk
sdl               8:176  0     2G  0 disk
sdm               8:192  0     4G  0 disk
sdn               8:208  0     4G  0 disk

(4)如果系统上已安装 lsscsi 实用程序,您可以使用它来枚举系统上可用的 SCSI 设备:

# lsscsi
[1:0:0:0]    cd/dvd  NECVMWar VMware SATA CD01 1.00  /dev/sr0
[30:0:0:0]   disk    VMware,  VMware Virtual S 1.0   /dev/sda
[30:0:1:0]   disk    VMware,  VMware Virtual S 1.0   /dev/sdb
[33:0:0:0]   disk    SUSE     RBD              4.0   /dev/sdc
[33:0:0:1]   disk    SUSE     RBD              4.0   /dev/sde
[34:0:0:2]   disk    SUSE     RBD              4.0   /dev/sdd
[34:0:0:3]   disk    SUSE     RBD              4.0   /dev/sdf
[35:0:0:0]   disk    SUSE     RBD              4.0   /dev/sdg
[35:0:0:1]   disk    SUSE     RBD              4.0   /dev/sdh
[36:0:0:2]   disk    SUSE     RBD              4.0   /dev/sdi
[36:0:0:3]   disk    SUSE     RBD              4.0   /dev/sdj
[37:0:0:0]   disk    SUSE     RBD              4.0   /dev/sdk
[37:0:0:1]   disk    SUSE     RBD              4.0   /dev/sdm
[38:0:0:2]   disk    SUSE     RBD              4.0   /dev/sdl
[38:0:0:3]   disk    SUSE     RBD              4.0   /dev/sdn 

(5)多路径设置

# zypper in multipath-tools
# modprobe dm-multipath path
# systemctl start multipathd.service
# systemctl enable multipathd.service
# multipath -ll
36001405863b0b3975c54c5f8d1ce0e01 dm-3 SUSE,RBD
size=4.0G features='2 queue_if_no_path retain_attached_hw_handler' hwhandler='1 alua' wp=rw
|-+- policy='service-time 0' prio=50 status=active
| `- 35:0:0:1 sdh 8:112 active ready running  <=== 单条链路 active
`-+- policy='service-time 0' prio=10 status=enabled
  |- 33:0:0:1 sde 8:64  active ready running
  `- 37:0:0:1 sdm 8:192 active ready running
3600140529260bf41c294075beede0c21 dm-2 SUSE,RBD
size=2.0G features='2 queue_if_no_path retain_attached_hw_handler' hwhandler='1 alua' wp=rw
|-+- policy='service-time 0' prio=50 status=active
| `- 33:0:0:0 sdc 8:32  active ready running
`-+- policy='service-time 0' prio=10 status=enabled
  |- 35:0:0:0 sdg 8:96  active ready running
  `- 37:0:0:0 sdk 8:160 active ready running
360014055d00387c82104d338e81589cb dm-4 SUSE,RBD
size=2.0G features='2 queue_if_no_path retain_attached_hw_handler' hwhandler='1 alua' wp=rw
|-+- policy='service-time 0' prio=50 status=active
| `- 38:0:0:2 sdl 8:176 active ready running
`-+- policy='service-time 0' prio=10 status=enabled
  |- 34:0:0:2 sdd 8:48  active ready running
  `- 36:0:0:2 sdi 8:128 active ready running
3600140522ec3f9612b64b45aa3e72d9c dm-5 SUSE,RBD
size=4.0G features='2 queue_if_no_path retain_attached_hw_handler' hwhandler='1 alua' wp=rw
|-+- policy='service-time 0' prio=50 status=active
| `- 34:0:0:3 sdf 8:80  active ready running
`-+- policy='service-time 0' prio=10 status=enabled
  |- 36:0:0:3 sdj 8:144 active ready running
  `- 38:0:0:3 sdn 8:208 active ready running

(5)编辑多路径配置文件

# vim /etc/multipath.conf
defaults {
    user_friendly_names yes
}

devices {
    device {
        vendor "(LIO-ORG|SUSE)"
        product "RBD"
        path_grouping_policy "multibus" # 所有有效路径在一个优先组群中
        path_checker "tur"              # 在设备中执行 TEST UNIT READY 命令。
        features "0"
        hardware_handler "1 alua"       # 在切换路径组群或者处理 I/O 错误时用来执行硬件具体动作的模块。
        prio "alua"
        failback "immediate"
        rr_weight "uniform"             # 所有路径都有相同的加权
        no_path_retry 12                # 路径故障后,重试12次,每次5秒
        rr_min_io 100                   # 指定切换到当前路径组的下一个路径前路由到该路径的 I/O 请求数。
    }
}
# systemctl stop multipathd.service
# systemctl start multipathd.service

(6)查看多路径状态

# multipath -ll                     
mpathd (3600140522ec3f9612b64b45aa3e72d9c) dm-5 SUSE,RBD
size=4.0G features='2 queue_if_no_path retain_attached_hw_handler' hwhandler='1 alua' wp=rw
`-+- policy='service-time 0' prio=23 status=active
  |- 34:0:0:3 sdf 8:80  active ready running  <=== 多条链路 active
  |- 36:0:0:3 sdj 8:144 active ready running
  `- 38:0:0:3 sdn 8:208 active ready running
mpathc (360014055d00387c82104d338e81589cb) dm-4 SUSE,RBD
size=2.0G features='2 queue_if_no_path retain_attached_hw_handler' hwhandler='1 alua' wp=rw
`-+- policy='service-time 0' prio=23 status=active
  |- 34:0:0:2 sdd 8:48  active ready running
  |- 36:0:0:2 sdi 8:128 active ready running
  `- 38:0:0:2 sdl 8:176 active ready running
mpathb (36001405863b0b3975c54c5f8d1ce0e01) dm-3 SUSE,RBD
size=4.0G features='2 queue_if_no_path retain_attached_hw_handler' hwhandler='1 alua' wp=rw
`-+- policy='service-time 0' prio=23 status=active
  |- 33:0:0:1 sde 8:64  active ready running
  |- 35:0:0:1 sdh 8:112 active ready running
  `- 37:0:0:1 sdm 8:192 active ready running
mpatha (3600140529260bf41c294075beede0c21) dm-2 SUSE,RBD
size=2.0G features='2 queue_if_no_path retain_attached_hw_handler' hwhandler='1 alua' wp=rw
`-+- policy='service-time 0' prio=23 status=active
  |- 33:0:0:0 sdc 8:32  active ready running
  |- 35:0:0:0 sdg 8:96  active ready running
  `- 37:0:0:0 sdk 8:160 active ready running

(7)显示当前的device mapper的信息

# dmsetup ls --tree
mpathd (254:5)
 ├─ (8:208)
 ├─ (8:144)
 └─ (8:80)
mpathc (254:4)
 ├─ (8:176)
 ├─ (8:128)
 └─ (8:48)
mpathb (254:3)
 ├─ (8:192)
 ├─ (8:112)
 └─ (8:64)
mpatha (254:2)
 ├─ (8:160)
 ├─ (8:96)
 └─ (8:32)
vg00-lvswap (254:0)
 └─ (8:2)
vg00-lvroot (254:1)
 ├─ (8:16)
 └─ (8:2)

(8)客户端 yast iscsi-client 工具查看

iSCSI的其他常用操作(客户端)

(1)列出所有target

# iscsiadm -m node

(2)连接所有target

# iscsiadm -m node -L all

(3)连接指定target

# iscsiadm -m node -T iqn.... -p 172.29.88.62 --login

(4)使用如下命令可以查看配置信息

# iscsiadm -m node -o show -T iqn.2000-01.com.synology:rackstation.exservice-bak

(5)查看目前 iSCSI target 连接状态

# iscsiadm -m session
# iscsiadm: No active sessions.

(目前没有已连接的 iSCSI target)
(6)断开所有target

# iscsiadm -m node -U all

(7)断开指定target

# iscsiadm -m node -T iqn... -p 172.29.88.62 --logout

(8)删除所有node信息

# iscsiadm -m node --op delete

(9)删除指定节点(/var/lib/iscsi/nodes目录下,先断开session)

# iscsiadm -m node -o delete -name iqn.2012-01.cn.nayun:test-01

(10)删除一个目标(/var/lib/iscsi/send_targets目录下)

# iscsiadm --mode discovery -o delete -p 172.29.88.62:3260

 

 

易学教程内所有资源均来自网络或用户发布的内容,如有违反法律规定的内容欢迎反馈
该文章没有解决你所遇到的问题?点击提问,说说你的问题,让更多的人一起探讨吧!