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使用 ONTAP 存储为 NVMe-oF 配置 Rocky Linux 9.6
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Red Hat Enterpirse Linux (RHEL) 主机支持具有非对称命名空间访问 (ANA) 的 NVMe over Fibre Channel (NVMe/FC) 和 NVMe over TCP (NVMe/TCP) 协议。 ANA 提供与 iSCSI 和 FCP 环境中的非对称逻辑单元访问 (ALUA) 等效的多路径功能。
了解如何为 Rocky Linux 9.6 配置 NVMe over Fabrics (NVMe-oF) 主机。有关更多支持和功能信息,请参阅"NVME-oF 概述"。
带有 Rocky Linux 9.6 的 NVMe-oF 具有以下已知限制:
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避免发布 `nvme disconnect-all`命令,因为它会断开根文件系统和数据文件系统的连接,并可能导致系统不稳定。
第1步:(可选)启用SAN启动
您可以配置主机以使用 SAN 启动来简化部署并提高可扩展性。使用"互操作性表工具"验证您的 Linux 操作系统、主机总线适配器 (HBA)、HBA 固件、HBA 启动 BIOS 和ONTAP版本是否支持 SAN 启动。
步骤
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在服务器 BIOS 中为 SAN 启动命名空间映射到的端口启用 SAN 启动。
有关如何启用 HBA BIOS 的信息,请参见供应商专用文档。
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重新启动主机并验证操作系统是否已启动并正在运行。
步骤 2:验证软件版本和 NVMe 配置
检查您的系统是否满足软件要求并验证 NVMe 包安装和主机配置。
步骤
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在服务器上安装 Rocky Linux 9.6。安装完成后,验证您是否正在运行所需的 Rocky Linux 9.6 内核:
uname -rRocky Linux 内核版本示例:
5.14.0-570.12.1.el9_6.x86_64
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安装
NVMe-CLI软件包:rpm -qa|grep nvme-cli以下示例显示了 nvme-cli 软件包版本:
nvme-cli-2.11-5.el9.x86_64
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安装
libnvme软件包:rpm -qa|grep libnvme下面的例子展示了 `libnvme`软件包版本:
libnvme-1.11.1-1.el9.x86_64
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在 Rocky Linux 主机上,检查 hostnqn 字符串
/etc/nvme/hostnqn:cat /etc/nvme/hostnqn下面的例子展示了 `hostnqn`版本:
nqn.2014-08.org.nvmexpress:uuid:4c4c4544-0056-5410-8048-b9c04f425633
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验证是否已
hostnqn字符串与匹配hostnqnONTAP 阵列上对应子系统的字符串:::> vserver nvme subsystem host show -vserver vs_coexistence_LPE36002显示示例
Vserver Subsystem Priority Host NQN ------- --------- -------- ------------------------------------------------ vs_coexistence_LPE36002 nvme regular nqn.2014-08.org.nvmexpress:uuid:4c4c4544-0056-5410-8048-b9c04f425633 nvme_1 regular nqn.2014-08.org.nvmexpress:uuid:4c4c4544-0056-5410-8048-b9c04f425633 nvme_2 regular nqn.2014-08.org.nvmexpress:uuid:4c4c4544-0056-5410-8048-b9c04f425633 nvme_3 regular nqn.2014-08.org.nvmexpress:uuid:4c4c4544-0056-5410-8048-b9c04f425633 4 entries were displayed.
如果 hostnqn字符串不匹配、请使用vserver modify用于更新的命令hostnqn要匹配的相应ONTAP 阵列子系统上的字符串hostnqn字符串自/etc/nvme/hostnqn在主机上。
步骤 3:配置 NVMe/FC 和 NVMe/TCP
使用 Broadcom/Emulex 或 Marvell/QLogic 适配器配置 NVMe/FC,或使用手动发现和连接操作配置 NVMe/TCP。
FC——Broadcom/Emulex
为Broadcom/Emulex适配器配置NVMe/FC。
步骤
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验证您使用的适配器型号是否受支持:
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显示模型名称:
cat /sys/class/scsi_host/host*/modelname您应看到以下输出:
LPe36002-M64 LPe36002-M64
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显示模型描述:
cat /sys/class/scsi_host/host*/modeldesc您应该看到类似于以下示例的输出:
Emulex LightPulse LPe36002-M64 2-Port 64Gb Fibre Channel Adapter Emulex LightPulse LPe36002-M64 2-Port 64Gb Fibre Channel Adapter
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确认您使用的是建议的Broadcom
lpfc固件和内置驱动程序:-
显示固件版本:
cat /sys/class/scsi_host/host*/fwrev该命令返回固件版本:
14.0.539.16, sli-4:6:d 14.0.539.16, sli-4:6:d
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显示收件箱驱动程序版本:
cat /sys/module/lpfc/version以下示例显示了驱动程序版本:
0:14.4.0.6
有关支持的适配器驱动程序和固件版本的最新列表,请参见"互操作性表工具"。
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请验证
lpfc_enable_fc4_type设置为3:cat /sys/module/lpfc/parameters/lpfc_enable_fc4_type -
验证是否可以查看启动程序端口:
cat /sys/class/fc_host/host*/port_name以下示例显示端口标识:
0x2100f4c7aa0cd7c2 0x2100f4c7aa0cd7c3
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验证启动程序端口是否联机:
cat /sys/class/fc_host/host*/port_state您应看到以下输出:
Online Online
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验证NVMe/FC启动程序端口是否已启用且目标端口是否可见:
cat /sys/class/scsi_host/host*/nvme_info显示示例
NVME Initiator Enabled XRI Dist lpfc0 Total 6144 IO 5894 ELS 250 NVME LPORT lpfc0 WWPN x100000109b954518 WWNN x200000109b954518 DID x000000 ONLINE NVME Statistics LS: Xmt 0000000000 Cmpl 0000000000 Abort 00000000 LS XMIT: Err 00000000 CMPL: xb 00000000 Err 00000000 Total FCP Cmpl 0000000000000000 Issue 0000000000000000 OutIO 0000000000000000 abort 00000000 noxri 00000000 nondlp 00000000 qdepth 00000000 wqerr 00000000 err 00000000 FCP CMPL: xb 00000000 Err 00000000 NVME Initiator Enabled XRI Dist lpfc1 Total 6144 IO 5894 ELS 250 NVME LPORT lpfc1 WWPN x100000109b954519 WWNN x200000109b954519 DID x020500 ONLINE NVME Statistics LS: Xmt 0000000000 Cmpl 0000000000 Abort 00000000 LS XMIT: Err 00000000 CMPL: xb 00000000 Err 00000000 Total FCP Cmpl 0000000000000000 Issue 0000000000000000 OutIO 0000000000000000 abort 00000000 noxri 00000000 nondlp 00000000 qdepth 00000000 wqerr 00000000 err 00000000 FCP CMPL: xb 00000000 Err 00000000 NVME Initiator Enabled XRI Dist lpfc2 Total 6144 IO 5894 ELS 250 NVME LPORT lpfc2 WWPN x100000109bf044b1 WWNN x200000109bf044b1 DID x022a00 ONLINE NVME RPORT WWPN x200bd039eaa7dfc8 WWNN x2008d039eaa7dfc8 DID x021319 TARGET DISCSRVC ONLINE NVME RPORT WWPN x2155d039eaa7dfc8 WWNN x2154d039eaa7dfc8 DID x02130f TARGET DISCSRVC ONLINE NVME RPORT WWPN x2001d039eaa7dfc8 WWNN x2000d039eaa7dfc8 DID x021310 TARGET DISCSRVC ONLINE NVME RPORT WWPN x200dd039eaa7dfc8 WWNN x2008d039eaa7dfc8 DID x020b15 TARGET DISCSRVC ONLINE NVME RPORT WWPN x2156d039eaa7dfc8 WWNN x2154d039eaa7dfc8 DID x020b0d TARGET DISCSRVC ONLINE NVME RPORT WWPN x2003d039eaa7dfc8 WWNN x2000d039eaa7dfc8 DID x020b10 TARGET DISCSRVC ONLINE NVME Statistics LS: Xmt 0000003049 Cmpl 0000003049 Abort 00000000 LS XMIT: Err 00000000 CMPL: xb 00000000 Err 00000000 Total FCP Cmpl 0000000018f9450b Issue 0000000018f5de57 OutIO fffffffffffc994c abort 000036d3 noxri 00000313 nondlp 00000c8d qdepth 00000000 wqerr 00000064 err 00000000 FCP CMPL: xb 000036d1 Err 000fef0f NVME Initiator Enabled XRI Dist lpfc3 Total 6144 IO 5894 ELS 250 NVME LPORT lpfc3 WWPN x100000109bf044b2 WWNN x200000109bf044b2 DID x021b00 ONLINE NVME RPORT WWPN x2062d039eaa7dfc8 WWNN x2008d039eaa7dfc8 DID x022915 TARGET DISCSRVC ONLINE NVME RPORT WWPN x2157d039eaa7dfc8 WWNN x2154d039eaa7dfc8 DID x02290f TARGET DISCSRVC ONLINE NVME RPORT WWPN x2002d039eaa7dfc8 WWNN x2000d039eaa7dfc8 DID x022910 TARGET DISCSRVC ONLINE NVME RPORT WWPN x2065d039eaa7dfc8 WWNN x2008d039eaa7dfc8 DID x020119 TARGET DISCSRVC ONLINE NVME RPORT WWPN x2158d039eaa7dfc8 WWNN x2154d039eaa7dfc8 DID x02010d TARGET DISCSRVC ONLINE NVME RPORT WWPN x2004d039eaa7dfc8 WWNN x2000d039eaa7dfc8 DID x020110 TARGET DISCSRVC ONLINE NVME Statistics LS: Xmt 0000002f2c Cmpl 0000002f2c Abort 00000000 LS XMIT: Err 00000000 CMPL: xb 00000000 Err 00000000 Total FCP Cmpl 000000001aaf3eb5 Issue 000000001aab4373 OutIO fffffffffffc04be abort 000035cc noxri 0000038c nondlp 000009e3 qdepth 00000000 wqerr 00000082 err 00000000 FCP CMPL: xb 000035cc Err 000fcfc0
FC——Marvell/QLogic
为Marvell/QLogic适配器配置NVMe/FC。
步骤
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验证您使用的适配器驱动程序和固件版本是否受支持:
cat /sys/class/fc_host/host*/symbolic_name以下示例显示了驱动程序和固件版本:
QLE2872 FW:v9.15.00 DVR:v10.02.09.300-k QLE2872 FW:v9.15.00 DVR:v10.02.09.300-k
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请验证
ql2xnvmeenable已设置。这样、Marvell适配器便可用作NVMe/FC启动程序:cat /sys/module/qla2xxx/parameters/ql2xnvmeenable预期输出为1。
TCP
NVMe/TCP协议不支持自动连接操作。您必须手动执行 NVMe/TCP 连接或连接所有操作才能发现 NVMe/TCP 子系统和命名空间。
步骤
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检查启动器端口是否可以跨支持的 NVMe/TCP LIF 获取发现日志页面数据:
nvme discover -t tcp -w host-traddr -a traddr显示示例
nvme discover -t tcp -w 192.168.1.31 -a 192.168.1.24 Discovery Log Number of Records 20, Generation counter 25 =====Discovery Log Entry 0====== trtype: tcp adrfam: ipv4 subtype: current discovery subsystem treq: not specified portid: 4 trsvcid: 8009 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:discovery traddr: 192.168.2.25 eflags: explicit discovery connections, duplicate discovery information sectype: none =====Discovery Log Entry 1====== trtype: tcp adrfam: ipv4 subtype: current discovery subsystem treq: not specified portid: 2 trsvcid: 8009 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:discovery traddr: 192.168.1.25 eflags: explicit discovery connections, duplicate discovery information sectype: none =====Discovery Log Entry 2====== trtype: tcp adrfam: ipv4 subtype: current discovery subsystem treq: not specified portid: 5 trsvcid: 8009 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:discovery traddr: 192.168.2.24 eflags: explicit discovery connections, duplicate discovery information sectype: none =====Discovery Log Entry 3====== trtype: tcp adrfam: ipv4 subtype: current discovery subsystem treq: not specified portid: 1 trsvcid: 8009 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:discovery traddr: 192.168.1.24 eflags: explicit discovery connections, duplicate discovery information sectype: none =====Discovery Log Entry 4====== trtype: tcp adrfam: ipv4 subtype: nvme subsystem treq: not specified portid: 4 trsvcid: 4420 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem. Unidirectional_DHCP_NONE_1_3 traddr: 192.168.2.25 eflags: none sectype: none =====Discovery Log Entry 5====== trtype: tcp adrfam: ipv4 subtype: nvme subsystem treq: not specified portid: 2 trsvcid: 4420 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem. Unidirectional_DHCP_NONE_1_4 traddr: 192.168.1.25 eflags: none sectype: none =====Discovery Log Entry 6====== trtype: tcp adrfam: ipv4 subtype: nvme subsystem treq: not specified portid: 5 trsvcid: 4420 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem. Unidirectional_DHCP_NONE_1_5 traddr: 192.168.2.24 eflags: none sectype: none =====Discovery Log Entry 7====== trtype: tcp adrfam: ipv4 subtype: nvme subsystem treq: not specified portid: 1 trsvcid: 4420 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem. Unidirectional_DHCP_2_2 traddr: 192.168.1.24 eflags: none sectype: none =====Discovery Log Entry 8====== trtype: tcp adrfam: ipv4 subtype: nvme subsystem treq: not specified portid: 4 trsvcid: 4420 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem. Unidirectional_DHCP_2_3 traddr: 192.168.2.25 eflags: none sectype: none =====Discovery Log Entry 9====== trtype: tcp adrfam: ipv4 subtype: nvme subsystem treq: not specified portid: 2 trsvcid: 4420 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem. Unidirectional_DHCP_2_5 traddr: 192.168.1.25 eflags: none sectype: none =====Discovery Log Entry 10====== trtype: tcp adrfam: ipv4 subtype: nvme subsystem treq: not specified portid: 5 trsvcid: 4420 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem. Bidirectional_DHCP_2_2 traddr: 192.168.2.24 eflags: none sectype: none =====Discovery Log Entry 11====== trtype: tcp adrfam: ipv4 subtype: nvme subsystem treq: not specified portid: 1 trsvcid: 4420 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem. Bidirectional_DHCP_2_3 traddr: 192.168.1.24 eflags: none sectype: none =====Discovery Log Entry 12====== trtype: tcp adrfam: ipv4 subtype: nvme subsystem treq: not specified portid: 4 trsvcid: 4420 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem. Bidirectional_DHCP_2_3 traddr: 192.168.2.25 eflags: none sectype: none =====Discovery Log Entry 13====== trtype: tcp adrfam: ipv4 subtype: nvme subsystem treq: not specified portid: 2 trsvcid: 4420 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem. Bidirectional_DHCP_NONE_2_4 traddr: 192.168.1.25 eflags: none sectype: none =====Discovery Log Entry 14====== trtype: tcp adrfam: ipv4 subtype: nvme subsystem treq: not specified portid: 5 trsvcid: 4420 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem. Bidirectional_DHCP_NONE_2_5 traddr: 192.168.2.24 eflags: none sectype: none =====Discovery Log Entry 15====== trtype: tcp adrfam: ipv4 subtype: nvme subsystem treq: not specified portid: 1 trsvcid: 4420 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem. Bidirectional_DHCP_NONE_2_6 traddr: 192.168.1.24 eflags: none sectype: none =====Discovery Log Entry 16====== trtype: tcp adrfam: ipv4 subtype: nvme subsystem treq: not specified portid: 4 trsvcid: 4420 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem. Bidirectional_DHCP_NONE_2_7 traddr: 192.168.2.25 eflags: none sectype: none =====Discovery Log Entry 17====== trtype: tcp adrfam: ipv4 subtype: nvme subsystem treq: not specified portid: 2 trsvcid: 4420 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem. Bidirectional_DHCP_NONE_2_8 traddr: 192.168.1.25 eflags: none sectype: none =====Discovery Log Entry 18====== trtype: tcp adrfam: ipv4 subtype: nvme subsystem treq: not specified portid: 5 trsvcid: 4420 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem.nvme_tcp_2 traddr: 192.168.2.24 eflags: none sectype: none =====Discovery Log Entry 19====== trtype: tcp adrfam: ipv4 subtype: nvme subsystem treq: not specified portid: 1 trsvcid: 4420 subnqn: nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem. Bidirectional_DHCP_NONE_2_9 traddr: 192.168.1.24 eflags: none sectype: none
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验证其他 NVMe/TCP 启动器-目标 LIF 组合是否可以成功获取发现日志页面数据:
nvme discover -t tcp -w host-traddr -a traddr显示示例
nvme discover -t tcp -w 192.168.1.31 -a 192.168.1.24 nvme discover -t tcp -w 192.168.2.31 -a 192.168.2.24 nvme discover -t tcp -w 192.168.1.31 -a 192.168.1.25 nvme discover -t tcp -w 192.168.2.31 -a 192.168.2.25
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运行
nvme connect-all在节点中所有受支持的NVMe/TCP启动程序-目标SIP上运行命令:nvme connect-all -t tcp -w host-traddr -a traddr显示示例
nvme connect-all -t tcp -w 192.168.1.31 -a 192.168.1.24 nvme connect-all -t tcp -w 192.168.2.31 -a 192.168.2.24 nvme connect-all -t tcp -w 192.168.1.31 -a 192.168.1.25 nvme connect-all -t tcp -w 192.168.2.31 -a 192.168.2.25
从 Rocky Linux 9.4 开始,NVMe/TCP 的设置 `ctrl_loss_tmo timeout`自动设置为“关闭”。因此:
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重试次数没有限制(无限重试)。
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您不需要手动配置特定的 `ctrl_loss_tmo timeout`使用时长 `nvme connect`或者 `nvme connect-all`命令(选项 -l )。
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如果发生路径故障,NVMe/TCP 控制器不会超时,并且会无限期地保持连接。
步骤 4:(可选)为 NVMe/FC 启用 1MB I/O
ONTAP在识别控制器数据中报告最大数据传输大小 (MDTS) 为 8。这意味着最大 I/O 请求大小可达 1MB。要向 Broadcom NVMe/FC 主机发出 1MB 大小的 I/O 请求,您应该增加 `lpfc`的价值 `lpfc_sg_seg_cnt`参数从默认值 64 更改为 256。
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这些步骤不适用于逻辑NVMe/FC主机。 |
步骤
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将 `lpfc_sg_seg_cnt`参数设置为256:
cat /etc/modprobe.d/lpfc.conf您应该会看到类似于以下示例的输出:
options lpfc lpfc_sg_seg_cnt=256
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运行 `dracut -f`命令并重新启动主机。
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验证的值是否 `lpfc_sg_seg_cnt`为256:
cat /sys/module/lpfc/parameters/lpfc_sg_seg_cnt
步骤 5:验证 NVMe 启动服务
这 `nvmefc-boot-connections.service`和 `nvmf-autoconnect.service`NVMe/FC 中包含的启动服务 `nvme-cli`系统启动时,软件包会自动启用。
启动完成后,验证 `nvmefc-boot-connections.service`和 `nvmf-autoconnect.service`启动服务已启用。
步骤
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验证是否 `nvmf-autoconnect.service`已启用:
systemctl status nvmf-autoconnect.service显示示例输出
nvmf-autoconnect.service - Connect NVMe-oF subsystems automatically during boot Loaded: loaded (/usr/lib/systemd/system/nvmf-autoconnect.service; enabled; preset: disabled) Active: inactive (dead) Jun 10 04:06:26 SR630-13-201.lab.eng.btc.netapp.in systemd[1]: Starting Connect NVMe-oF subsystems automatically during boot... Jun 10 04:06:26 SR630-13-201.lab.eng.btc.netapp.in systemd[1]: nvmf-autoconnect.service: Deactivated successfully. Jun 10 04:06:26 SR630-13-201.lab.eng.btc.netapp.in systemd[1]: Finished Connect NVMe-oF subsystems automatically during boot. -
验证是否 `nvmefc-boot-connections.service`已启用:
systemctl status nvmefc-boot-connections.service显示示例输出
nvmefc-boot-connections.service - Auto-connect to subsystems on FC-NVME devices found during boot Loaded: loaded (/usr/lib/systemd/system/nvmefc-boot-connections.service; enabled; preset: enabled) Active: inactive (dead) since Tue 2025-06-10 01:08:36 EDT; 2h 59min ago Main PID: 7090 (code=exited, status=0/SUCCESS) CPU: 30ms Jun 10 01:08:36 localhost systemd[1]: Starting Auto-connect to subsystems on FC-NVME devices found during boot... Jun 10 01:08:36 localhost systemd[1]: nvmefc-boot-connections.service: Deactivated successfully. Jun 10 01:08:36 localhost systemd[1]: Finished Auto-connect to subsystems on FC-NVME devices found during boot.
步骤 6:验证多路径配置
验证内核NVMe多路径状态、ANA状态和ONTAP命名空间是否适用于NVMe-oF配置。
步骤
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验证是否已启用内核NVMe多路径:
cat /sys/module/nvme_core/parameters/multipath您应看到以下输出:
Y
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验证相应ONTAP命名库的适当NVMe-oF设置(例如、型号设置为NetApp ONTAP控制器、负载平衡iopolicy设置为循环)是否正确反映在主机上:
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显示子系统:
cat /sys/class/nvme-subsystem/nvme-subsys*/model您应看到以下输出:
NetApp ONTAP Controller NetApp ONTAP Controller
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显示策略:
cat /sys/class/nvme-subsystem/nvme-subsys*/iopolicy您应看到以下输出:
round-robin round-robin
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验证是否已在主机上创建并正确发现命名空间:
nvme list显示示例
Node SN Model --------------------------------------------------------- /dev/nvme4n1 81Ix2BVuekWcAAAAAAAB NetApp ONTAP Controller Namespace Usage Format FW Rev ----------------------------------------------------------- 1 21.47 GB / 21.47 GB 4 KiB + 0 B FFFFFFFF
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验证每个路径的控制器状态是否为活动状态且是否具有正确的ANA状态:
NVMe/FCnvme list-subsys /dev/nvme4n5显示示例
nvme-subsys4 - NQN=nqn.1992-08.com.netapp:sn.3a5d31f5502c11ef9f50d039eab6cb6d:subsystem.nvme_1 hostnqn=nqn.2014-08.org.nvmexpress:uuid:e6dade64-216d- 11ec-b7bb-7ed30a5482c3 iopolicy=round-robin\ +- nvme1 fc traddr=nn-0x2082d039eaa7dfc8:pn-0x2088d039eaa7dfc8,host_traddr=nn-0x20000024ff752e6d:pn-0x21000024ff752e6d live optimized +- nvme12 fc traddr=nn-0x2082d039eaa7dfc8:pn-0x208ad039eaa7dfc8,host_traddr=nn-0x20000024ff752e6d:pn-0x21000024ff752e6d live non-optimized +- nvme10 fc traddr=nn-0x2082d039eaa7dfc8:pn-0x2087d039eaa7dfc8,host_traddr=nn-0x20000024ff752e6c:pn-0x21000024ff752e6c live non-optimized +- nvme3 fc traddr=nn-0x2082d039eaa7dfc8:pn-0x2083d039eaa7dfc8,host_traddr=nn-0x20000024ff752e6c:pn-0x21000024ff752e6c live optimizedNVMe/TCPnvme list-subsys /dev/nvme1n1显示示例
nvme-subsys5 - NQN=nqn.1992-08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem.nvme_tcp_3 hostnqn=nqn.2014-08.org.nvmexpress:uuid:4c4c4544-0035-5910-804b-b5c04f444d33 iopolicy=round-robin \ +- nvme13 tcp traddr=192.168.2.25,trsvcid=4420,host_traddr=192.168.2.31, src_addr=192.168.2.31 live optimized +- nvme14 tcp traddr=192.168.2.24,trsvcid=4420,host_traddr=192.168.2.31, src_addr=192.168.2.31 live non-optimized +- nvme5 tcp traddr=192.168.1.25,trsvcid=4420,host_traddr=192.168.1.31, src_addr=192.168.1.31 live optimized +- nvme6 tcp traddr=192.168.1.24,trsvcid=4420,host_traddr=192.168.1.31, src_addr=192.168.1.31 live non-optimized
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验证NetApp插件是否为每个ONTAP 命名空间设备显示正确的值:
列nvme netapp ontapdevices -o column显示示例
Device Vserver Namespace Path ----------------------- ------------------------------ /dev/nvme1n1 linux_tcnvme_iscsi /vol/tcpnvme_1_0_0/tcpnvme_ns NSID UUID Size ------------------------------------------------------------ 1 5f7f630d-8ea5-407f-a490-484b95b15dd6 21.47GB
JSONnvme netapp ontapdevices -o json显示示例
{ "ONTAPdevices":[ { "Device":"/dev/nvme1n1", "Vserver":"linux_tcnvme_iscsi", "Namespace_Path":"/vol/tcpnvme_1_0_0/tcpnvme_ns", "NSID":1, "UUID":"5f7f630d-8ea5-407f-a490-484b95b15dd6", "Size":"21.47GB", "LBA_Data_Size":4096, "Namespace_Size":5242880 }, ] }
步骤 7:设置安全带内身份验证
从 ONTAP 9.12.1 开始,Rocky Linux 9.6 主机和 ONTAP 控制器之间通过 NVMe/TCP 支持安全带内身份验证。
每个主机或控制器必须与一个 `DH-HMAC-CHAP`密钥来设置安全身份验证。 `DH-HMAC-CHAP`密钥是 NVMe 主机或控制器的 NQN 与管理员配置的身份验证密钥的组合。要对其对等方进行身份验证、NVMe主机或控制器必须识别与对等方关联的密钥。
使用 CLI 或配置 JSON 文件设置安全带内身份验证。如果需要为不同的子系统指定不同的dhchap密钥、则必须使用config JSON文件。
命令行界面
使用命令行界面设置安全带内身份验证。
步骤
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获取主机NQN:
cat /etc/nvme/hostnqn -
为 Rocky Linux 9.6 主机生成 dhchap 密钥。
以下输出描述了 `gen-dhchap-key`命令参数:
nvme gen-dhchap-key -s optional_secret -l key_length {32|48|64} -m HMAC_function {0|1|2|3} -n host_nqn • -s secret key in hexadecimal characters to be used to initialize the host key • -l length of the resulting key in bytes • -m HMAC function to use for key transformation 0 = none, 1- SHA-256, 2 = SHA-384, 3=SHA-512 • -n host NQN to use for key transformation在以下示例中、将生成一个随机dhchap密钥、其中HMAC设置为3 (SHA-512)。
nvme gen-dhchap-key -m 3 -n nqn.2014- 08.org.nvmexpress:uuid:e6dade64-216d-11ec-b7bb-7ed30a5482c3 DHHC-1:03:wSpuuKbBHTzC0W9JZxMBsYd9JFV8Si9aDh22k2BR/4m852vH7KGlrJeMpzhmyjDWOo0PJJM6yZsTeEpGkDHMHQ255+g=:
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在ONTAP控制器上、添加主机并指定两个dhchap密钥:
vserver nvme subsystem host add -vserver <svm_name> -subsystem <subsystem> -host-nqn <host_nqn> -dhchap-host-secret <authentication_host_secret> -dhchap-controller-secret <authentication_controller_secret> -dhchap-hash-function {sha-256|sha-512} -dhchap-group {none|2048-bit|3072-bit|4096-bit|6144-bit|8192-bit} -
主机支持两种类型的身份验证方法:单向和双向。在主机上、连接到ONTAP控制器并根据所选身份验证方法指定dhchap密钥:
nvme connect -t tcp -w <host-traddr> -a <tr-addr> -n <host_nqn> -S <authentication_host_secret> -C <authentication_controller_secret> -
验证
nvme connect authentication命令、验证主机和控制器dhchap密钥:-
验证主机dhchap密钥:
cat /sys/class/nvme-subsystem/<nvme-subsysX>/nvme*/dhchap_secret显示单向配置的示例输出
cat /sys/class/nvme-subsystem/nvme-subsys1/nvme*/dhchap_secret DHHC-1:01:CNxTYq73T9vJk0JpOfDBZrhDCqpWBN4XVZI5WxwPgDUieHAi: DHHC-1:01:CNxTYq73T9vJk0JpOfDBZrhDCqpWBN4XVZI5WxwPgDUieHAi: DHHC-1:01:CNxTYq73T9vJk0JpOfDBZrhDCqpWBN4XVZI5WxwPgDUieHAi: DHHC-1:01:CNxTYq73T9vJk0JpOfDBZrhDCqpWBN4XVZI5WxwPgDUieHAi:
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验证控制器dhchap密钥:
cat /sys/class/nvme-subsystem/<nvme-subsysX>/nvme*/dhchap_ctrl_secret显示双向配置的示例输出
cat /sys/class/nvme-subsystem/nvme- subsys6/nvme*/dhchap_ctrl_secret DHHC-1:03:wSpuuKbBHTzC0W9JZxMBsYd9JFV8Si9aDh22k2BR/4m852vH7KGlrJeMpzhmyjDWOo0PJJM6yZsTeEpGkDHMHQ255+g=: DHHC-1:03:wSpuuKbBHTzC0W9JZxMBsYd9JFV8Si9aDh22k2BR/4m852vH7KGlrJeMpzhmyjDWOo0PJJM6yZsTeEpGkDHMHQ255+g=: DHHC-1:03:wSpuuKbBHTzC0W9JZxMBsYd9JFV8Si9aDh22k2BR/4m852vH7KGlrJeMpzhmyjDWOo0PJJM6yZsTeEpGkDHMHQ255+g=: DHHC-1:03:wSpuuKbBHTzC0W9JZxMBsYd9JFV8Si9aDh22k2BR/4m852vH7KGlrJeMpzhmyjDWOo0PJJM6yZsTeEpGkDHMHQ255+g=:
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JSON
当ONTAP控制器上有多个 NVMe 子系统可用时,您可以使用 `/etc/nvme/config.json`文件与 `nvme connect-all`命令。
使用 `-o`选项来生成 JSON 文件。有关更多语法选项,请参阅 NVMe connect-all 手册页。
步骤
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配置 JSON 文件。
在以下示例中, dhchap_key`对应于 `dhchap_secret`和 `dhchap_ctrl_key`对应于 `dhchap_ctrl_secret。显示示例
cat /etc/nvme/config.json [ { "hostnqn":"nqn.2014-08.org.nvmexpress:uuid:9796c1ec-0d34-11eb- b6b2-3a68dd3bab57", "hostid":"b033cd4fd6db4724adb48655bfb55448", "dhchap_key":" DHHC-1:01:CNxTYq73T9vJk0JpOfDBZrhDCqpWBN4XVZI5WxwPgDUieHAi:" }, { "hostnqn":"nqn.2014-08.org.nvmexpress:uuid:4c4c4544-0035-5910- 804b-b5c04f444d33", "subsystems":[ { "nqn":"nqn.1992- 08.com.netapp:sn.0f4ba1e74eb611ef9f50d039eab6cb6d:subsystem.bidi r_DHCP", "ports":[ { "transport":"tcp", "traddr":" 192.168.1.24 ", "host_traddr":" 192.168.1.31 ", "trsvcid":"4420", "dhchap_ctrl_key":"DHHC- 1:03: wSpuuKbBHTzC0W9JZxMBsYd9JFV8Si9aDh22k2BR/4m852vH7KGlrJeMpzhmyjDWOo0PJJM6yZsTeEpGkDHMHQ255+g=:" }, { "transport":"tcp", "traddr":" 192.168.1.25 ", "host_traddr":" 192.168.1.31", "trsvcid":"4420", "dhchap_ctrl_key":"DHHC- 1:03: wSpuuKbBHTzC0W9JZxMBsYd9JFV8Si9aDh22k2BR/4m852vH7KGlrJeMpzhmyjDWOo0PJJM6yZsTeEpGkDHMHQ255+g=:" }, { "transport":"tcp", "traddr":" 192.168.2.24 ", "host_traddr":" 192.168.2.31", "trsvcid":"4420", "dhchap_ctrl_key":"DHHC- 1:03: wSpuuKbBHTzC0W9JZxMBsYd9JFV8Si9aDh22k2BR/4m852vH7KGlrJeMpzhmyjDWOo0PJJM6yZsTeEpGkDHMHQ255+g=:" }, { "transport":"tcp", "traddr":" 192.168.2.25 ", "host_traddr":" 192.168.2.31", "trsvcid":"4420", "dhchap_ctrl_key":"DHHC- 1:03: wSpuuKbBHTzC0W9JZxMBsYd9JFV8Si9aDh22k2BR/4m852vH7KGlrJeMpzhmyjDWOo0PJJM6yZsTeEpGkDHMHQ255+g=:" } ] } ] } ] -
使用config JSON文件连接到ONTAP控制器:
nvme connect-all -J /etc/nvme/config.json显示示例
already connected to hostnqn=nqn.2014-08.org.nvmexpress:uuid:4c4c4544-0035-5910-804b-b5c04f444d33,nqn=nqn.1992-08.com.netapp:sn.8dde3be2cc7c11efb777d039eab6cb6d:subsystem. bidi r_DHCP,transport=tcp,traddr=192.168.1.25,trsvcid=4420 already connected to hostnqn=nqn.2014-08.org.nvmexpress:uuid:4c4c4544-0035-5910-804b-b5c04f444d33,nqn=nqn.1992-08.com.netapp:sn.8dde3be2cc7c11efb777d039eab6cb6d:subsystem. bidi r_DHCP,transport=tcp,traddr=192.168.2.25,trsvcid=4420 already connected to hostnqn=nqn.2014-08.org.nvmexpress:uuid:4c4c4544-0035-5910-804b-b5c04f444d33,nqn=nqn.1992-08.com.netapp:sn.8dde3be2cc7c11efb777d039eab6cb6d:subsystem. bidi r_DHCP,transport=tcp,traddr=192.168.1.24,trsvcid=4420 already connected to hostnqn=nqn.2014-08.org.nvmexpress:uuid:4c4c4544-0035-5910-804b-b5c04f444d33,nqn=nqn.1992-08.com.netapp:sn.8dde3be2cc7c11efb777d039eab6cb6d:subsystem. bidi r_DHCP,transport=tcp,traddr=192.168.2.24,trsvcid=4420
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验证是否已为每个子系统的相应控制器启用dhchap密码:
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验证主机dhchap密钥:
cat /sys/class/nvme-subsystem/nvme-subsys0/nvme0/dhchap_secret以下示例显示了 dhchap 密钥:
DHHC-1:01:CNxTYq73T9vJk0JpOfDBZrhDCqpWBN4XVZI5WxwPgDUieHAi:
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验证控制器dhchap密钥:
cat /sys/class/nvme-subsystem/nvme-subsys0/nvme0/dhchap_ctrl_secret您应该看到类似于以下示例的输出:
DHHC-1:03:wSpuuKbBHTzC0W9JZxMBsYd9JFV8Si9aDh22k2BR/4m852vH7KGlrJeMpzhmyjDWOo0PJJM6yZsTeEpGkDHMHQ255+g=:
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第8步:查看已知问题
没有已知问题。