1. 什么是lldpd?
LLDP 可以讓你准確的知道服務器所連接的交換機端口號。
LLDP是一種工業標准協議,用於取代EDP或CDP等專用鏈路層協議。LLDP的目標是提供一個inter-vendor兼容機制,向相鄰網絡設備發送鏈路層通知。
lldpd是一個LLDP協議的一種實現,給各種Unixes使用。除此之外,它還支持一些專有協議。
1.1. lldpad與lldpd的對比
實現交換機端口的抓取,目前我知道的有兩種工具,一種是lldpad,另一種是lldpd。
這兩個工具做了一下對比,最終選擇了lldpd。原因如下:
- lldpd比較新。
lldpad:https://github.com/jrfastab/lldpad
lldpd:https://github.com/vincentbernat/lldpd
通過對比可以看到lldpad最近一次更新,已經是5年前了。而lldpd的最近一次更新在本月。
- lldpd使用方便。
lldpd可以將輸出的信息轉化為json格式,非常方便使用。
1.2. 安裝lldpd
需要先配置好配置好epel-release源,然后直接yum安裝即可。
yum install lldpd
systemctl start lldpd
安裝好之后,你可以修改/etc/sysconfig/lldpd文件,來配置一些參數。
1.3. 使用lldpcli
lldpd有兩個模塊。一個是lldpd的后台程序,用於接收和發送LLDP報文;一個是lldpcli用來查詢和配置后台程序的工具。
- 查看所有端口的交換機信息。
[root@test01 ~]# lldpcli show neighbors
------------------------------------------------------------------------------- LLDP neighbors: ------------------------------------------------------------------------------- Interface: eth0, via: LLDP, RID: 1, Time: 0 day, 00:00:02 Chassis: ChassisID: mac 90:e7:10:5a:c5:3a SysName: SW-TEST001 SysDescr: H3C Comware Platform Software, Software Version 7.1.070, ESS 6552 H3C S6850-56HF Copyright (c) 2004-2018 New H3C Technologies Co., Ltd. All rights reserved. MgmtIP: 192.168.3.129 Capability: Bridge, on Capability: Router, on Port: PortID: ifname Twenty-FiveGigE1/0/53 PortDescr: Twenty-FiveGigE1/0/53 Interface TTL: 121 -------------------------------------------------------------------------------
- 查看某個端口的交換機信息。
[root@test01 ~]# lldpcli show neighbors ports eth0 summary
------------------------------------------------------------------------------- LLDP neighbors: ------------------------------------------------------------------------------- Interface: eth0, via: LLDP Chassis: ChassisID: mac 90:e7:10:5a:c5:3a SysName: SW-TEST001 Port: PortID: ifname Twenty-FiveGigE1/0/53 PortDescr: Twenty-FiveGigE1/0/53 Interface TTL: 121 -------------------------------------------------------------------------------
- 查看所有端口的本地信息。(即使未接線,也會顯示)
[root@test01 ~]# lldpcli show interfaces ------------------------------------------------------------------------------- LLDP interfaces: ------------------------------------------------------------------------------- Interface: eth0, via: LLDP, Time: 0 day, 00:59:51 Chassis: ChassisID: mac e4:43:4b:42:fe:ec SysName: test01.localadmin SysDescr: CentOS Linux 7 (Core) Linux 3.10.0-862.el7.x86_64 #1 SMP Fri Apr 20 16:44:24 UTC 2018 x86_64 MgmtIP: 192.168.1.10 MgmtIP: fe80::e643:4bff:fe42:feec Capability: Bridge, off Capability: Router, off Capability: Wlan, off Capability: Station, on Port: PortID: mac e4:43:4b:42:fe:ec PortDescr: eth0 TTL: 120 ------------------------------------------------------------------------------- Interface: eth1, via: LLDP, Time: 0 day, 00:59:51 Chassis: ChassisID: mac e4:43:4b:42:fe:ec SysName: test01.localadmin SysDescr: CentOS Linux 7 (Core) Linux 3.10.0-862.el7.x86_64 #1 SMP Fri Apr 20 16:44:24 UTC 2018 x86_64 MgmtIP: 192.168.1.10 MgmtIP: fe80::e643:4bff:fe42:feec Capability: Bridge, off Capability: Router, off Capability: Wlan, off Capability: Station, on Port: PortID: mac e4:43:4b:42:fe:ee PortDescr: eth1 TTL: 120 ------------------------------------------------------------------------------- Interface: eth2, via: unknown, Time: 17969 days, 04:42:04 Chassis: ChassisID: mac e4:43:4b:42:fe:ec SysName: test01.localadmin SysDescr: CentOS Linux 7 (Core) Linux 3.10.0-862.el7.x86_64 #1 SMP Fri Apr 20 16:44:24 UTC 2018 x86_64 MgmtIP: 192.168.1.10 MgmtIP: fe80::e643:4bff:fe42:feec Capability: Bridge, off Capability: Router, off Capability: Wlan, off Capability: Station, on Port: PortID: mac e4:43:4b:42:ff:0c PortDescr: eth2 TTL: 120 ------------------------------------------------------------------------------- Interface: eth3, via: unknown, Time: 17969 days, 04:42:04 Chassis: ChassisID: mac e4:43:4b:42:fe:ec SysName: test01.localadmin SysDescr: CentOS Linux 7 (Core) Linux 3.10.0-862.el7.x86_64 #1 SMP Fri Apr 20 16:44:24 UTC 2018 x86_64 MgmtIP: 192.168.1.10 MgmtIP: fe80::e643:4bff:fe42:feec Capability: Bridge, off Capability: Router, off Capability: Wlan, off Capability: Station, on Port: PortID: mac e4:43:4b:42:ff:0d PortDescr: eth3 TTL: 120 -------------------------------------------------------------------------------
- 查看某個端口的本地信息。(即使未接線,也會顯示)
[root@test01 ~]# lldpcli show interfaces ports eth0 summary
------------------------------------------------------------------------------- LLDP interfaces: ------------------------------------------------------------------------------- Interface: eth0, via: LLDP Chassis: ChassisID: mac e4:43:4b:42:fe:ec SysName: test01.localadmin Port: PortID: mac e4:43:4b:42:fe:ec PortDescr: eth0 TTL: 120 -------------------------------------------------------------------------------
- 查看本機的信息
[root@test01 ~]# lldpcli show chassis
------------------------------------------------------------------------------- Local chassis: ------------------------------------------------------------------------------- Chassis: ChassisID: mac e4:43:4b:42:fe:ec SysName: test01.localadmin SysDescr: CentOS Linux 7 (Core) Linux 3.10.0-862.el7.x86_64 #1 SMP Fri Apr 20 16:44:24 UTC 2018 x86_64 MgmtIP: 192.168.1.10 MgmtIP: fe80::e643:4bff:fe42:feec Capability: Bridge, off Capability: Router, off Capability: Wlan, off Capability: Station, on -------------------------------------------------------------------------------
1.4. 格式化數據結果
將上述命令,加上 -f json 可以轉變輸出結果。這個功能非常有用,有利於自動化處理這些數據。
[root@test01 ~]# lldpcli show neighbors ports eth0 summary -f json
{ "lldp": { "interface": { "eth0": { "via": "LLDP", "chassis": { "SW-TEST001": { "id": { "type": "mac", "value": "90:e7:10:5a:c5:3a" } } }, "port": { "id": { "type": "ifname", "value": "Twenty-FiveGigE1/0/53" }, "descr": "Twenty-FiveGigE1/0/53 Interface", "ttl": "121" } } } } }
2. 症狀及處理方法
2.1. x710關閉lldp
- 現象症狀:
使用x722 LOM,當lldpad啟動時,lldptool -L adminStatus = rxtx -i < interface name>然后lldptool -tni < interface name>運行時,NIC端口連接到啟用了LLDP的交換機,不會返回LLDP信息。 (其中LLDP =鏈路層發現協議)
- 解決辦法:
運行commnand " echo lldp stop > / sys / kernel / debug / i40e / < PCIe路徑> / command" ;.由於LOM沒有FCoE功能,沒有DCBx要求,所以沒有真正的功能影響。 (FCoE =以太網光纖通道)
- 附加信息:
根據Intel設計,x722適配器默認處理所有LLDP流量,LLDP流量將不會轉到主機CPU,除非使用在x722中停止LLDP功能的命令。