open deeply programmable network node …netseminar.stanford.edu/seminars/10_18_12.pdfopen deeply...
TRANSCRIPT
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FLAREOpen Deeply Programmable Network
Node Architecture
Aki NakaoThe University of Tokyo
2012/10/181
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Increase in Data Center Access Traffic
2
http://www.internetevolution.com/author.asp?section id=715&doc id=175123.
http://www.internetevolution.com/author.asp?section id=715&doc id=175123.
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World-Wide Mobile Traffic Volume
3Ericsson Japan 「Traffic and Market Report」(2012/6)
Rapid Increase in Mobile “Data” Traffic
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Top-10 Spamming BotNetsBotNet Size # of Spams
Grum 600K 40B
Bobax 100K 27B
Pushdo 1.5M 19B
Rustock 2M 17B
Bagle 500K 14B
Mega-D 50K 11B
Maazben 300K 2.5B
Xarvester 60K 2.5B
Donbot 100K 800M
http://www.techrepublic.com/4
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How can we resolve newly observed, constantly arising problems in the current Internet?
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In-Network Services:Cache, Traffic Off-Loading,
In-Network DPI, Network Layer Bot Detection
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Multiple Flexibly & Deeply Programmable Networks
6
cloud1
cloud2
ContentOriented
NW
CacheOriented
NW
FutureNW
SensorProcessing
NW
CloudAccess
NW
ID/LocNW
LegacyNW
TV Broadcast
NW
Slice 1 Slice 2 Slice N
“Slices” accommodate a variety of in-‐network servicesSlice = a set of resources reserved across mul�ple network domains
Objective: Enabling future network architecture that can be quickly and flexibly programmed to adapt to diverse demands
Smartphones
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OpenFlow
7
OpenFlow Controller
Fixed Data Plane Fixed Control Plane
(OpenFlow API)
Flow Pattern Match Actions
•Complex packet processing •Non-IP protocols handling•New classification rules based on more than 12 tuples•Proprietary API definition / dynamic reprogramming of APIs•Arbitrary combination of actions
Physical PortsAlthough OpenFlow enables flexible control of flows, we want more:
OpenFlow Switch
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For most of us, OpenFlow/API is at the right level of abstraction
8
However, for some of us, •We should be able to extend API for complex actions•OpenFlow may be forcedly used in an inefficient manner, e.g.,
•copying L7 bits to MAC for control based on those bits...•parsing tuples in a non-standard way to implement VXLAN etc.
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SDN and DPN
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• Control-Plane Programmability • Route Control• Access Control• Network Management
• Data-Plane Programmability• Packet Data Processing
•Cache•Transcode•DPI
• Handling New Protocols• IPvN (N>6)•New Layer2•Content Centric Network (CCN)
• Meta-Control-Plane Programmability•Defining new proprietary APIs
Target Scope of OpenFlow
SDN
OpenFlowwith external processors
Irrelevant withOpenFlow
(+processors)
Scope of Deeply
ProgrammableNetwork(DPN)
DeeperProgrammabilityOut of scope
of OpenFlow
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DPN as a super set of SDN
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Programmability for Data Plane
Programmabilityfor Control Planevia a given API
Programmabilityfor defining an API
for C/D planes
DPN SDN
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Making fully programmable network nodes?
11
Programmable Data PlaneProgrammable Control Plane
Physical Ports
•Achieve both programmability and performance at the same time•Instantly upgrade/downgrade switching logics•Enable network virtualization•Make a slice fully programmable (data-plane, control-plane)
Challenges:
Controller
Programmable Node
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FLARE Open Deeply Programmable Network Node Architecture
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FLARE Architecture
Sliver N
Sliver 2
Sliver 1
Packet Slicer
NodeManager
ControllerFLARE Central
Physical Ports13
Slow PathFast Path
Virtual Ports..
FullyProgrammable
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FLARE Switch Implementation• Mini 1U / 1U / 2U Form Factor (only 200W)
• A combination of resource containers on many-core processor (fast path)+x86 processor (slow path)
• 4x10Gbps (20Gbps Non-blocking), 2x10G+8x1G Planned
• Up to 15 slow-path slivers can be instantiated
• Linux programmability at slow/fast-path slivers and packet slicer
• Parallel programming for high performance at fast-path
• OpenFlow switch logic and API can be programmed
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FLARE Slivering/Slicing
Slicer Fast Path
SlicerController Slow Path
Fast Path
Slow Path
Physical Network Interfaces
Node Manager
Fast Path
Slow Path
FLARE Central
Create/Remove/Access Sliver
Virtual Network Interfaces Virtual Network Interfaces Virtual Network Interfaces
15
Developer Programs
Sliver=Virtual Machine Environment for Programming (C/D Planes)
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Slicer
Slicer Sliver
Fast Path
SlicerContoller Slow Path
Fast Path
Slow Path
Fast Path
Slow Path
Physical Network Interfaces
Sliver1 Sliver2 SliverN
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PacketSID1
Packet
Packet
SID-1
PacketSID1Packet
Per-Slice Switching
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SID
Packet
Arbitrary Offset, Arbitrary Length
PacketSID
General Slicing
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Extracting Slice ID
Internal Packet Format
Multiple Parts
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Multiple Protocols/Controls Coexistence
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Sliver N
Sliver 2
Sliver 1
NodeManager
ControllerFLARE Central
FLARE Switch
Physical Ports
Fast PathSlow Path
Virtual Ports..
OpenFlow
ExMAC Switch
Ethernet Switch
Packet Slicer
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Control Plane VersioningChange according to flows, time, etc
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Sliver N
Sliver 2
Sliver 1
NodeManager
ControllerFLARE Central
FLARE Switch
Physical Ports
Fast PathSlow Path
Virtual Ports..
OpenFlow v1.0
OpenFlow v2.0
Packet Slicer
OpenFlow v1.1
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FLARE Controller
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Programming Model
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OFSwitch
FromIO(xgbe1)
ToIO(xgbe2)
FromIO(xgbe2)
ToIO(xgbe1)
Fast Path
Slow Pathofprotocoldpctl NOX
Multi-Threaded Modular Programminge.g., Click Software Modular Router (multi-threaded)
•Arbitrary switch logic(s) can be implemented in fast-path, slow-path and slicer sliver (e.g., OpenFlow switch logic can be modified/refined)
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Simple Port Forwarding
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0
2.5
5.0
7.5
10.0
1 core 2 cores 3 cores
7.2
5.0
2.63.6
2.51.3
64B128B256B512B1024B1514B
512B(Gbps)
NULLFromGxIO(xgbe1)
ToGxIO(xgbe2)
Forwarding Performance
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Ethernet Switch
0
2.5
5.0
7.5
10.0
1 core 2 cores 3 cores 4 cores 5 cores
9.99.99.99.99.9 9.99.99.9
7.8
4.2
pkt_size=512Bpkt_size=1514B
(Gbps)
EtherSwitch
FromGxIO(xgbe1)
ToGxIO(xgbe2)
FromGxIO(xgbe2)
ToGxIO(xgbe1)
Switching Performance
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OpenFlow Switch
OFSwitch
FromIO(xgbe1)
ToIO(xgbe2)
FromIO(xgbe2)
ToIO(xgbe1)
Data Plane
Control Planeofprotocoldpctl NOX
0
2.5
5.0
7.5
10.0
1 core 2 cores 3 cores 4 cores 5 cores
9.99.99.9
7.9
4.2
6.7
5.13.8
2.71.5
pkt_size=512Bpkt_size=1514B
(Gbps)
Switching Performance24
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How deep programmability do we want?
• Control plane programmability only?
• Data plane too (cache, transcode, DPI)?
• Can we define a new L2 protocol?
25
Several questions to ask:
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example1Redefining L2 protocol
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A Case in Data Center Network
• Limitation in MAC address space• Conflict of MAC addresses in VM migration
• Limitation in VID (802.1Q) space• The number of tenants increases in IaaS
Data Center Network depends heavily on L2leading to solutions such as EUI-64 and VXLAN
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Mac Address Extension
http://en.wikipedia.org/wiki/MAC_address28
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Why not just extend MAC ID spacethrough deep programmability
enabled by FLARE Switch?
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Slice 3
Slice 2
Slice 1
FLARE Switch
Extended MAC Address (96-bit MAC)
Extended MAC Switching
(Click Implementation)
Extended MAC (96bit) Switching
End System 1 End System 2
IP Slice VExDMAC ExSMAC T
IPExDMAC ExSMAC T
Slice 1
Slice 1
HyperVisor
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Extended MAC Address (96-bit MAC)
IPExDMAC ExSMAC T
Slice 1
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Extended MAC Switching
(Gbps)
Switching Performance
0
2.5
5.0
7.5
10.0
1 core 2 cores 3 cores 4 cores 5 cores
9.99.99.99.99.7 9.99.98.7
6.1
3.2
pkt_size=512Bpkt_size=1514B
ExMACSwitch
FromGxIO(xgbe1)
ToGxIO(xgbe2)
FromGxIO(xgbe2)
ToGxIO(xgbe1)
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ExDMAC ExSMAC
TYPE IP
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Extended DMAC Extended SMAC Type IP Datagram
GuestVM
Extended MAC1
GuestVM
Extended MAC2
GuestVM
Extended MAC1
GuestVM
Extended MAC2WAN
Migration
FLARE FLARE
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VM Migration With Extended MAC
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example2Trailer Slicing
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Light Weight Network Virtualization(As Application of FLARE to NV)
• Tunneling (Good for Fixed Networks)
• VLAN (Limited to Ethernet/ 12bits)
• MPLS (Originally Traffic Engineering)
Essentially just need globally unique Slice ID35
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Slice = A Set of Slivers
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FLARE Controller
FLARE SwitchFLARE AP
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SID
Packet
Arbitrary Offset, Arbitrary Length
PacketSID
General Slicing (Supported in DarkFlow Version)
37
Extracting Slice ID
Internal Packet Format
Multiple Parts
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Packet SID
Slicer-slice identifies Slice ID(SID)Globally Unique SIDs Embedded in Trailer
Trailer Slicing
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Network VirtualizationThrough Slice ID Embedded in Packet Trailers
39
Packet SID
Packet SID
Packet SID
Globally UniqueSlice ID
IsolatedNetwork
NameSpace
Header Trailer
•SID visible at all the layers (if layered architecture is adopted at all)
•No need to create complex tunnels (Convenient for mobile terminals/handsets)
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Extended MAC (96bit) Switch
IP Slice V
IP Slice VExDMAC ExSMAC T
TSMACDMAC
IPExDMA ExSMAC T IPTSMACDMACIPTSMACDMACIPExDMA ExSMAC T
Slice 3
Slice 2
Slice 1
FLARE Switch
Extended MAC Address (96-bit MAC)
End System 1 End System 2MAC Addresss
Slice 2Slice 2 Slice 1Slice 1
Slice 1Slice 2
HyperVisor
Extended MAC Address MAC Addresss
Extended MACSwitching
EthernetSwitch
mux/demuxmux/demux
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Network NameSpace Full Virtualization
Slice 3
Slice 2
Slice 1
HyperVisor
FLARE Switch
Ethernet Switching
Terminal1 Terminal2
IP Slice V
IP Slice VDMAC SMAC T
TSMACDMAC
Resource Containers
in two different containers
Ethernet Switching
IPDMAC SMAC T IPTSMACDMAC
Resource Containers
Slice 1
Slice 2
Slice 2Slice 1
mux/demuxmux/demux
IPDMAC SMAC T IPTSMACDMAC
Slice 2Slice 1 41
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Beauty of Trailer Slicing
Slice 3
Slice 2
Slice 1
FLARE Switch
Ethernet Switching
Terminal1 Terminal2
IP
IPDMAC SMAC T
TSMACDMAC
Ethernet Switching
Slice V
Slice V
We can insert existing ethernet switch(es)! Slice 1
Slice 2
HyperVisor
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slice 1 slice 2
eth0
veth0 veth1
wlan0
veth2 veth3
eth0 eth1 eth0 eth1
slicer classifier
Slicer Slice
FLARE Wireless LAN AP
Android Handsetsslice 2slice 1
Single SSIDIP Slice VIP Slice VDMAC SMAC T TSMACDMAC
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HandSet Slicing
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• Slice Per Device • Slice per OS (Android OS Virtualization)• Slice per Application
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Slice Selector (IPv4/IPv6)
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OpenFlow vs. FLARE DifferencesOpenFlow FLARE
Protocol Internet Protocol Arbitrary Frame(even non-standard)
Control PlaneProgrammability O Multiple APIs
Multiple OpenFlow SWs
Data PlaneProgrammability(Packet Process)
External O
Data PlaneProgrammability(New Protocol)
External O
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OpenFlow vs. FLARE Differences
OpenFlow FLAREProgramming
ModelFlow Pattern Match
ActionLinux Container (LXC)Multi-Threaded Click
ProcessingEnvironment Not Integrated Integrated
Slicing Programmability Flow Matching Deep Packet Inspection
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Conclusion
• Deeply Programmable Network (DPN) is considered extension to Software Defined Network(SDN) and an important topic to explore
• A network node architecture FLARE pursues more flexible programmability yet reasonable performance
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