automated bootstrapping of a fault-resilient in-band ... · automated bootstrapping of a...
TRANSCRIPT
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Automated Bootstrapping of A
Fault-Resilient In-Band Control Plane
Ermin Sakic, Amaury Van Bemten,
Mirza Avdic, Wolfgang Kellerer
Technical University Munich & Siemens Germany
ACM SOSR 2020
San Jose, March 3, 2020
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INTRODUCTION
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Strict requirements:
o QoS: Sub-ms hard real-time E2E delays
o Dependability: Control & data plane HA & reliability
o Topology dynamics: factory cell / work-piece
(de)-attachment
TSN group (802.1) standardizes industrial CP & DP:
o E.g., TAS (Qbv), Frame Pre-emption (Qbu),
FRER (CB), Policing (Qci) etc.
Industrial Networks Overview
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Strict requirements:
o QoS: Sub-ms hard real-time E2E delays
o Dependability: Control & data plane HA & reliability
o Topology dynamics: factory cell / work-piece
(de)-attachment
TSN group (802.1) standardizes industrial CP & DP:
o E.g., TAS (Qbv), Frame Pre-emption (Qbu),
FRER (CB), Policing (Qci) etc.
o Centralized (CNC) and distributed stream reservation
TSN requires a highly-available CNC w/ in-band,
dynamically extensible CP & DP
Industrial Networks Overview
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Industrial Network Topologies
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Industrial Network Topologies
VirtuWind – Virtual and programmable industrial network prototype deployed in operational wind park - https://5g-ppp.eu/virtuwind/
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Control Plane Design
Out-of-BandIn-Band
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Control Plane Design
In-BandGoal of Bootstrapping:
Automated establishment of a functional and resilient
In-Band SDN control plane
Required:
Initial C2S and C2C connections
Control plane fault tolerance
Full topology available (no blocked ports!)
Network extensions
Compliant with current implementations
Constraints:
Switches know nothing about the controllers
Controllers know whitelisted IP addresses of
remote controllers (e.g., standardized)
Switches and controllers exchange PKI certificates
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Control Plane Design
High-level steps:
1. Controllers distribute IP addresses to
switches from a common pool
2. Controllers provides each switch
with controller lists (e.g., OF)
3. Controllers establish control
channels to each switch (e.g., OF)
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Resilience Requirements
CP: Must tolerate F out of 2F+1 Fail-Stop controller failures
DP: Must tolerate k element failures k+1 fully or maximally disjoint paths
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Bootstrapping Co-Dependency
DP requires appropriate table rules
Rule configuration requires C2C
In-Band C2C requires DP connectivity
Break bootstrapping procedure into sub-phases
Fully Bootstrapped
Data Plane
Bootstrapped
Controllers
Part. Bootstrapped
Data Plane
Flow
Configurations
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Design Overview
Contribution:Two automated bootstrapping schemes for a reliable multi-
controller in-band control plane
Hybrid Switch Approach (HSW): Assumes (R)STP
Hop-By-Hop Approach (HHC): No (R)STP
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Why regard (R)STP?
+ Beneficial for effortless initial C2C connectivity
- Dimensioning the (R)STP-disable timer non-trivial
Delays in bootstrapping convergence
- Added complexity in the data plane:
Prone to additional failure vectors (YMMV)
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DESIGN OF
THE TWO SCHEMES
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System Initialization
HSW - (R)STP enabled:
standalone mode Heavy use of NORMAL port
in-band mode enabled
HHC - (R)STP unavailable:
secure mode
in-band mode disabled „generic“ OF rules
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System Initialization
HSW - (R)STP enabled:
standalone mode Heavy use of NORMAL port
in-band mode enabled
HHC - (R)STP unavailable:
secure mode
in-band mode disabled „generic“ OF rules
HHC: How to fight initial broadcast storms without (R)STP?
Police problematic C2C traffic
(ARP, TCP SYN, TCP SYN ACK)
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HSW Phases 0 and 1
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HHC Phases 0 and 1
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HSW
(with (R)STP)HHC
(no (R)STP)
Output: Phases 0 and 1
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Phase 2: Resilience Embedding
HSW (with (R)STP):
Step 2a: - Establish OF sessions FCFS, install initial rules, disable in-band rules
Step 2b: - Disable R(STP)
- Install resilient flow rules
HHC (no (R)STP):
Step 2a: - Establish OF sessions Hop-By-Hop, install tree flow rules
Step 2b: - Install resilient flow rules whenever possible
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HSW Phase 2a
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HSW Phase 2a
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HSW Phase 2b
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HSW Phase 2b
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HHC Phase 2a
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HHC Phase 2a
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HHC Phase 2b
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HHC Phase 2b
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Phase 2: Outcome both schemes
k+1 max. disjoint paths
for C2C pairs
k+1 max. disjoint paths
for C2S pairs (here only S4)
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Dynamic network extensions
Allow new traffic to reach the leader via tree HSW: Prim’s algorithm
HHC: Custom Hop-By-Hop Algorithm
Special rule: in_port=inactive port, udp, udp_src=68, actions=controller Extend tree by parsing DHCP DISCOVERY message
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Data Plane Failures
Proactively compute alternative trees
Embed an alternative tree in case a DP element fails
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EVALUATION
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Evaluation - KPIs
Global Bootstrapping Convergence Time (GBCT)
Network Extension Time (TEXT)
Flow Table Occupancy (FTO)
TOPOLOGY TYPES
TOPOLOGY SIZES
CONTROLLER PLACEMENTS
NUMBER OF CONTROLLERS
GBCT
TEXT
FTO
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Global Bootstrapping Convergence Time
Single Controller
* normalized by minimum mean ~13.5s
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Global Bootstrapping Convergence Time
Multiple Controllers
* normalized by minimum mean ~33.9s
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Network Extension Time
Single Controller
* normalized by minimum mean ~6.5s
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Network Extension Time
Multiple Controllers
* normalized by minimum mean ~33.5s
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Flow Table Occupation
Ratios of per-switch FTOs, normalized
respective to the FTO in 1-controller case
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SUMMARY
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HSW - (R)STP
+ Straightforward; easier to implement
- Dependency on legacy protocols (and implementation)
- Worse performance due to (R)STP Timer
HHC - No (R)STP
+ Less legacy protocol dependencies
+ Faster on average
- Slightly more complex implementation
Summary - Pros and Cons
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Artifacts and Future Updates
Source code for both approaches and Docker-based
OpenFlow emulator available!
https://github.com/ermin-sakic/sdn-automated-bootstrapping
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Artifacts and Future Updates
Source code for both approaches and Docker-based
OpenFlow emulator available!
https://github.com/ermin-sakic/sdn-automated-bootstrapping
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Artifacts and Future Updates
Potential optimizations:
Automated rule compression for lower FTO
Tree merging instead of swapping
Support for concurrent multi-controller bootstrapping?
(RAFT membership issues?)
Source code for both approaches and Docker-based
OpenFlow emulator available!
https://github.com/ermin-sakic/sdn-automated-bootstrapping
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Selected References
Marco Canini, Iosif Salem, Liron Schiff, Elad M Schiller, and Stefan Schmid. 2017. A self-organizing distributed and in-band SDN control plane. In 2017
IEEE 37th International Conference on Distributed Computing Systems (ICDCS). IEEE, 2656–2657.
Marco Canini, Iosif Salem, Liron Schiff, Elad Michael Schiller, and Stefan Schmid. 2018. Renaissance: A self-stabilizing distributed SDN control plane. In
2018 IEEE 38th International Conference on Distributed Computing Systems (ICDCS). IEEE, 233–243.
Josef Dorr. 2018. IEC/IEEE P60802 JWG TSN Industrial Profile: Use Cases Status Update 2018-05-14. IEC/IEEE. https://1.ieee802.org/tsn/iec-ieee-
60802/
Peter Heise, Fabien Geyer, and Roman Obermaisser. 2017. Self-configuring deterministic network with in-band configuration channel. In Software
Defined Systems (SDS), 2017 Fourth International Conference on. IEEE, 162–167.
Liron Schiff, Stefan Schmid, and Marco Canini. 2016. Ground control to major faults: Towards a fault tolerant and adaptive SDN control network. In
Dependable Systems and Networks Workshop, 2016 46th Annual IEEE/IFIP International Conference on. IEEE, 90–96.
Liron Schiff, Stefan Schmid, and Marco Canini. 2015. Medieval: Towards A Self-Stabilizing, Plug & Play, In-Band SDN Control Network. In ACM
Sigcomm Symposium on SDN Research (SOSR).
Sachin Sharma, Dimitri Staessens, Didier Colle, Mario Pickavet, and Piet Demeester. 2013. A demonstration of automatic bootstrapping of resilient
OpenFlow networks. In 13th IFIP/IEEE International Symposium on Integrated Network Management (IM). IEEE, 1066–1067.
Sachin Sharma, Dimitri Staessens, Didier Colle, Mario Pickavet, and Piet Demeester. 2013. Fast failure recovery for in-band OpenFlow networks. In
Design of Reliable Communication Networks (DRCN) 2013 9th International Conference on the. IEEE, 52–59.