数据中心网络架构演进趋势课件

数据中心网络架构演进趋势DataCenterFabricEvolution数据中心网络架构演进趋势Data Center Fabri议程数据中心网络架构演进趋势数据中心架构设计考虑传统二层网络架构设计MSDC-全三层网络架构设计基于Trill&FaricPath大二层网络架构Vxlan以及Vxlan增强网络架构NSX网络虚拟化未来发展趋势议程数据中心网络架构演进趋势数据中心网络模型发展趋势数据中心网络模型发展趋势Spine+Leaf CLOS数据中心网络架构方向 Spine+Leaf CLOS数据中心网络架构方向 STPMAN/WANFabricPath/BGPMAN/WANVXLAN/BGP EVPNMAN/WANACIMC-LAGMAN/WANTrill/FP(Flood&Learn)VXLAN(Flood&Learn)数据中心网络技术及架构演进STPMAN/WANFabricPathMAN/WANVXL议程数据中心网络架构演进趋势数据中心架构设计考虑传统二层网络架构设计MSDC-全三层网络架构设计基于Trill&FaricPath大二层网络架构Vxlan以及Vxlan增强网络架构NSX网络虚拟化未来发展趋势议程数据中心网络架构演进趋势数据中心网络架构演进趋势课件“似乎目前没有完美的网络架构设计，同时具备2层网络灵活性，3层网络的扩展性，真正实现“网络敏捷部署和自动化?”ABSOLUTELY Yes!答案是通答案是通过overlay技技术虚虚拟化整个网化整个网络架构，通架构，通过硬件网硬件网络提供三提供三层IP背板，所有的网背板，所有的网络智能服智能服务通通过Network Hypervisor灵灵活部署活部署Humm,show me.“似乎目前没有完美的网络架构设计，同时具备2层网络灵活性，3什么是Overlay技术:Location与Identity分离IP coreDevice IPv4 or IPv6 Address Represents Identity and LocationTraditional BehaviourLoc/ID“Overloaded”Semantic10.1.0.1When the Device Moves,It Gets a New IPv4 or IPv6 Address for Its New Identity and Location20.2.0.9Device IPv4 or IPv6 Address Represents Identity Only.When the Device Moves,Keeps Its IPv4 or IPv6 Address.It Has the Same IdentityOverlay BehaviourLoc/ID“Split”IP core1.1.1.12.2.2.2Only the Location Changes10.1.0.110.1.0.1Its Location Is Here!什么是Overlay技术:Location与Identit数据中心网络架构演进趋势课件数据中心网络架构演进趋势课件数据中心网络架构演进趋势课件议程数据中心网络架构演进趋势数据中心架构设计考虑传统二层网络架构设计MSDC-全三层网络架构设计基于Trill&FaricPath大二层网络架构Vxlan以及Vxlan增强网络架构NSX网络虚拟化未来发展趋势议程数据中心网络架构演进趋势基于STP的数据中心网络架构设计Good Old Days？基于STP的数据中心网络架构设计vPC Feature OverviewvPC Concept&BenefitsvPC Feature OverviewvPC ConcepvPC Feature OverviewvPC Concept&BenefitsvPC Feature OverviewvPC ConcepFeature OverviewHow does vPC help with STP?(1 of 2)Feature OverviewHow does vPC hFeature OverviewHow does vPC help with STP?(2 of 2)Feature OverviewHow does vPC h议程数据中心网络架构演进趋势数据中心架构设计考虑传统二层网络架构设计MSDC-全三层网络架构设计基于Trill&FaricPath大二层网络架构Vxlan以及Vxlan增强网络架构NSX网络虚拟化未来发展趋势议程数据中心网络架构演进趋势数据中心网络架构演进趋势课件议程数据中心网络架构演进趋势数据中心架构设计考虑传统二层网络架构设计MSDC-全三层网络架构设计大二层网络架构Vxlan以及Vxlan增强网络架构NSX网络虚拟化未来发展趋势议程数据中心网络架构演进趋势数据中心网络架构演进趋势课件数据中心网络架构演进趋势课件数据中心网络架构演进趋势课件Cisco FabricPathFrameClassical Ethernet FrameSwitch ID Unique number identifying each FabricPath switchFtag(Forwarding tag)Unique number identifying topology or distribution treeTTL Decremented at each switch hop to prevent frames looping indefinitelyDMACSMAC802.1QEtypeCRCPayloadDMACSMAC802.1QEtypePayloadCRC(new)FPTag(32)OuterSA(48)OuterDA(48)Endnode ID(5:0)Endnode ID(7:6)U/LI/GRSVDOOO/DLSubSwitch IDLIDEtype0 x89036 bits112 bits1112 bits8 bits16 bits10 bits6 bits16 bitsSwitch IDFtagTTLOriginal CE Frame16 bytes25Fabric Path的报文封装Cisco FabricPathFrameClassicaFabricPathMAC Table on S100MACIF/SIDMACIF/SIDAe1/13(local)e2/29S10S20S30S40Root forTree 1Root forTree 2S100S200S300Fabric Path的报文转发 Host A to Host B(1)Broadcast ARP RequestMAC AMAC BMultidestination Trees on Switch 100TreeIF1po102po10,po20,po30,po40Hash ResultFFFF.FFFF.FFFFSMACAPayloadMultidestination Trees on Switch 10TreeIF1po100,po200,po3002po100po10po20po40po30Ftag Ftag FFFF.FFFF.FFFFSMACAPayloadpo100po300po200e1/13po10po20po30po40FFFF.FFFF.FFFFSMACAPayloadFtag1SA100FFFF.FFFF.FFFFLearn MACs of directly-connecteddevices unconditionallyDont learn MACs from unknown flood framesFabricPathMAC Table on S300MACIF/SIDMultidestination Trees on Switch 300TreeIF1po10,po20,po30,po402po40Hash26FabricPathMACIF/SIDMACIF/SIDAeS100e2/29S10S20S30S40Root forTree 1Root forTree 2S200S300MAC AMAC Bpo10po20po40po30po100po300po200e1/13po10po20po30po40Multidestination Trees on Switch 100TreeIF1po102po10,po20,po30,po40Ftag Multidestination Trees on Switch 10TreeIF1po100,po200,po3002po100Ftag DMACASMACBPayloadHash ResultA Fabric Path的报文转发 Host A to Host B(2)Unicast ARP ReplyFabricPathMAC Table on S300MACIF/SIDMACIF/SIDBe2/29(local)MISSIf DMAC is known,then learn remote MACMultidestination Trees on Switch 300TreeIF1po10,po20,po30,po402po40FabricPathMAC Table on S100MACIF/SIDAe1/13(local)MACIF/SIDAe1/13(local)B300(remote)DMACASMACBPayload*MC1 DMACDMACASMACBPayloadFtag1SA300010F.FFC1.01C0*Hash27S100e2/29S10S20S30S40Root fore2/29S10S20S30S40S200S300MAC AMAC Bpo10po20po40po30e1/13po10po20po30po40S100DMACBSMACAPayloadFabricPathMAC Table on S100DMACBSMACAPayloadMACIF/SIDAe1/13(local)B300(remote)B S300 FabricPath Routing Table on S100SwitchIFS10po10S20po20S30po30S40po40S200po10,po20,po30,po40S300po10,po20,po30,po40S300 FabricPath Routing Table on S30SwitchIFS300po300S300 Fabric Path的报文转发 Host A to Host B(3)Unicast DataHashDMACBSMACAPayloadFtag1SA100DA300FabricPathMAC Table on S300MACIF/SIDBe2/29(local)MACIF/SIDAS100(remote)Be2/29(local)FabricPath Routing Table on S300SwitchIFS300MAC LookupIf DMAC is known,then learn remote MACpo300B 28e2/29S10S20S30S40S200S300MAC A数据中心网络架构演进趋势课件议程数据中心网络架构演进趋势数据中心架构设计考虑传统二层网络架构设计MSDC-全三层网络架构设计大二层网络架构Vxlan以及Vxlan增强网络架构NSX网络虚拟化未来发展趋势议程数据中心网络架构演进趋势3131VXLAN 包封装格式MAC-in-IP Encapsulation32UnderlayOuter IP HeaderOuter MAC HeaderUDP HeaderVXLAN HeaderOriginal Layer-2 FrameOverlay14 Bytes(4 Bytes Optional)Ether Type0 x0800VLAN IDTagVLAN Type0 x8100Src.MAC AddressDest.MAC Address484816161620 BytesDest.IPSource IPHeader ChecksumProtocol 0 x11(UDP)IP HeaderMisc.Data7281632328 BytesChecksum 0 x0000UDP LengthVXLAN PortSource Port161616168 BytesReservedVNIReservedVXLAN Flags RRRRIRRR824248Src VTEP MAC AddressNext-Hop MAC AddressSrc and Dst addresses of the VTEPsAllows for 16M possible SegmentsUDP 4789Hash of the inner L2/L3/L4 headers of the original frame.Enables entropy for ECMP Load balancing in the Network.50(54)Bytes of OverheadVXLAN 包封装格式MAC-in-IP EncapsulaVXLAN 网关类型VXLAN to VLAN Bridging(Layer-2 Gateway)VXLAN-to-VXLAN Routing(Layer-3 Gateway)VXLAN-to-VLAN Routing(Layer-3 Gateway)Vxlan Gateway33VVXLAN RouterIngress VXLAN packeton RED segmentEgress VXLAN packet is ROUTED to new segmentVVXLAN RouterIngress VXLAN packeton RED segmentEgress packet is IEEE 802.1q tagged interface.packet is ROUTED to new VLANVVXLAN Layer-2 GatewayIngress VXLAN packeton RED segmentEgress packet is IEEE 802.1q tagged interface.packet is BRIDGED to new VLANVXLAN 网关类型VXLAN to VLAN BridgiVXLAN 转发方式介绍 Flood&Learn34V1V3MACVNIVTEPMAC_A30000E1/12Host BMAC_B/IP_BMACVNIVTEPMAC_B30000E1/4Virtual SwitchMACVNIVTEPMAC_C30000E1/8V2Host AMAC_A/IP_AHost CMAC_C/IP_CVXLAN 转发方式介绍 Flood&Learn34V1VTEP发现机制&地址学习(1)VXLAN Flood&Learn35V1V3UnderlaySIP:IP_V1DIP:239.1.1.1SMAC:MAC_V1DMAC:00:01:5E:01:01:01UDPVXLAN VNID:30000ARP RequestSMAC:MAC_ADMAC:FF:FF:FF:FF:FF:FFOverlay2MACVNIVTEPMAC_A30000E1/12Host BMAC_B/IP_BMACVNIVTEPMAC_B30000E1/4MAC_A30000V1Virtual SwitchARP Request for IP_BSrc MAC:MAC_ADst MAC:FF:FF:FF:FF:FF:FF4MACVNIVTEPMAC_C30000E1/8MAC_A30000V1V23Host AMAC_A/IP_A1ARP Request for IP_BSrc MAC:MAC_ADst MAC:FF:FF:FF:FF:FF:FF3Host CMAC_C/IP_CARP Request for IP_BSrc MAC:MAC_ADst MAC:FF:FF:FF:FF:FF:FF4MACVNIVTEPMAC_B30000E1/4MACVNIVTEPMAC_C30000E1/8VTEP发现机制&地址学习(1)VXLAN Flood&VTEP发现机制&地址学习(2)VXLAN Flood&Learn36Host AMAC_A/IP_AHost BMAC_B/IP_BV3ARP Response from IP_BSrc MAC:MAC_BDst MAC:MAC_A5MACVNIVTEPMAC_B30000E1/4MAC_A30000V1MACVNIVTEPMAC_A30000E1/12MAC_B30000V2ARP Response for IP_BSrc MAC:MAC_BDst MAC:MAC_A7V2V1UnderlaySIP:IP_V2DIP:IP_V1SMAC:hop-by-hopDMAC:MAC_V2UDPVXLAN VNID:30000ARP ResponseSMAC:MAC_BDMAC:MAC_AOverlay6MACVNIVTEPMAC_A30000E1/12VTEP发现机制&地址学习(2)VXLAN Flood&VXLAN 报文转发VXLAN Flood&Learn37Host AMAC_A/IP_AHost BMAC_B/IP_BV34MACVNIVTEPMAC_B30000E1/4MAC_A30000V1MACVNIVTEPMAC_A30000E1/12MAC_B30000V2V2V1SIP:IP_ADIP:IP_BSMAC:MAC_ADMAC:MAC_B1SIP:IP_ADIP:IP_BSMAC:MAC_ADMAC:MAC_BUnderlaySIP:IP_V1DIP:IP_V2SMAC:MAC_V1DMAC:hop-by-hopUDPVXLAN VNID:30000SMAC:MAC_ADMAC:MAC_BSIP:IP_ADIP:IP_BOverlay2SIP:IP_V1DIP:IP_V2SMAC:hop-by-hopDMAC:MAC_V2UnderlayVXLAN VNID:30000SMAC:MAC_ADMAC:MAC_BSIP:IP_ADIP:IP_BUDPOverlay3VXLAN 报文转发VXLAN Flood&Learn37H数据中心网络架构演进趋势课件EVPN Ethernet VPNVXLAN 演进39 Control-PlaneEVPN MP-BGPdraft-ietf-l2vpn-evpn Data-PlaneMulti-Protocol Label Switching(MPLS)draft-ietf-l2vpn-evpnProvider Backbone Bridges(PBB)draft-ietf-l2vpn-pbb-evpnNetwork Virtualization Overlay(NVO)draft-sd-l2vpn-evpn-overlayEVPN 工作在数据中心网络环境下的NVO的隧道上(VXLAN,NVGRE,MPLSoE)在底层IP基础网络上同时提供 Layer-2与Layer-3 OverlaysEVPN Ethernet VPNVXLAN 演进39 数据中心网络架构演进趋势课件NSX与传统数据中心硬件组网方案对比NSX与传统数据中心硬件组网方案对比议程数据中心网络架构演进趋势数据中心架构设计考虑基于STP的二层网络设计基于MC-LAG的二层网络增强MSDC-全三层网络架构设计大二层网络架构Vxlan以及Vxlan增强网络架构NSX网络虚拟化未来发展趋势议程数据中心网络架构演进趋势数据中心网络架构演进趋势课件数据中心网络架构演进趋势课件