conman: a step towards network manageability · 2018. 1. 4. · conman overview ip atm eth frame...
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CONMan: A Step Towards Network
Manageability
Hitesh Ballani and Paul FrancisCornell University
ACM SIGCOMM 2007
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Network Management is a Mess
I Ad-Hoc[p]
I Complex[p]
I Error-Prone[p]
I Expensive[p]
Worsening situation as network complexity increases
I 80% of IT budget in enterprises used tomaintain status quo [Kerravala’04]
I Configuration errors account for 62% of networkdowntime [Kerravala’04]
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Protocols expose their gory details
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS Detailed Protocol andDevice specific MIBs
Mgmt Interface
MIB Depot : 6200 MIBs from 142 vendors andnearly a million MIB objects
SNMPLink : More than a thousand manage-ment tools
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Protocols expose their gory details
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS Detailed Protocol andDevice specific MIBs
Mgmt Interface
Super-smart human managing the network
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Protocols expose their gory details
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS E=mc is easy Network Mgmt is
hard!
2
Super-smart human managing the network
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Protocols expose their gory details
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS
High-levelgoal
Human Manager only specifies high-level goal
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Protocols expose their gory details
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS
High-levelgoal
Management Applications
Configure (Complex)
Low-levelscripts
Management Application does the rest
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Protocols expose their gory details
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS
High-levelgoal
Management Applications
Configure (Complex)
Low-levelscripts
Deluge of complexity burdens the managementapplication
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Protocols expose their gory details
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS
High-levelgoal
Management Applications
Configure (Simple)
scriptsStructured
Refactor division of functionality between data andmanagement plane
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An Extreme Alternative
Confine the operational complexity of protocols totheir implementation
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An Extreme Alternative
A more modest approach
The management interface of data-plane protocolsshould contain as little protocol-specific information
as possible
Confine the operational complexity of protocols totheir implementation
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Complexity Oblivious Network Management
(CONMan)
A network management architecture
I (Little or) No protocol-specific information inthe management interfaces of protocols
I Reduces burden on the management plane andhence, allows for simpler management
Focus on
I Network configuration tasksI Management of data-plane protocols
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Talk Outline
I Introduction[]y
I CONMan Overview[]y
I Module Abstraction[]y
I CONMan primitives[]y
I Implementation
I Conclusions and Future Work
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CONMan Overview
Devices with unique identifiers (device-id)
I Routers
I Switches
I HostsI . . .
Network Manager (NM)
I Software entity residing on one of the networkdevices
I Manages some or all of themI One or more NMs in each network
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CONMan Overview
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS
Device D
NM
Each module has an identifier (module-id)
Module-id for IP module = i ⇒ <IP,D,i>
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CONMan Overview
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS
NM
Mgmt Channel
Self-bootstrapping management channelAllows bidirectional communication between the NMand network devices [4D, Greenberg et. al. ’05]
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Abstract away the details
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS
NM
Mgmt ChannelProtocol & Device
specific MIBs
Protocols should not expose their gory detailsWhat do the protocols expose?
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Abstract away the details
Network configurationI Provide paths between specific applications
I Ensuring that selected applications cannot use these paths
Basic characteristics of data-plane protocolsI Connect to other protocols
I Switching of packets
I Filtering of packets
I Queueing packets
I Dependence on external state
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Abstract away the details
Network configurationI Provide paths between specific applications
I Ensuring that selected applications cannot use these paths
Basic characteristics of data-plane protocolsI Connect to other protocols
I Switching of packets
I Filtering of packets
I Queueing packets
I Dependence on external state
These basic characteristics should serve as a narrowwaist for the Internet’s management plane
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Abstract away the details
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS
Module Abstraction
UpPipe
DownPipe
Switching,
and Security
Queue
Filtering
ModuleDependency
Module Abstraction: Mgmt Interface of a module
Models the protocol’s potential and dependencies
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Abstract away the details
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS
Module Abstraction
UpPipe
DownPipe
Switching,
and Security
Queue
Filtering
ModuleDependency
Module Abstraction: Mgmt Interface of a module
Applies to (almost) all data-plane protocols
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CONMan: The big picture
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS
NM
High-levelGoal
Human Manager
Human managers specify high-level goals
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CONMan: The big picture
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS
NM
High-level Goal
Human Manager
Device Connectivity and Module Abstraction
Each device’s connectivity and the abstraction for itsmodules are sent to the NM
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CONMan: The big picture
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS
NM
High-level Goal
Human Manager
Device Connectivity and Module Abstraction
Potential
Network Topology and
NM knows the network topology and the networkpotential
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CONMan: The big picture
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS
NM
High-level Goal
Human Manager
Device Connectivity and Module Abstraction
Potential
Network Topology and
ConfigurationCONMan Primitives
NM uses CONMan primitives to manipulateabstraction elements and configure network devices
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CONMan: The big picture
IP
ETH ATM Frame Relay
TCP UDP GRE
APPLICATIONS
NM
High-level Goal
Human Manager
Device Connectivity and Module Abstraction
Potential
Network Topology and
ConfigurationCONMan Primitives
The amount of complexity that the NM needs tohandle is reduced!
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CONMan Abstraction and Primitives
Abstraction Components
I Name
I Up-Down Pipes
I Physical Pipes
I Switch
I Filter
I Perf. Reporting
I Perf. Trade-off
I Security
CONMan primitives
I show
I create
I delete
I conveyMessage
I listFieldsAnd--Values
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CONMan Abstraction and Primitives
Abstraction Components
I Name
I Up-Down Pipes
I Physical Pipes
I Switch
I Filter
I Perf. Reporting
I Perf. Trade-off
I Security
CONMan primitives
I show
I create
I delete
I conveyMessage
I listFieldsAnd--Values
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Talk Outline
I Introduction[]y
I CONMan Overview[]y
I Module Abstraction[]y
I CONMan primitives[]y
I Implementation
I Conclusions and Future Work
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Pipes
Router R Host HIP
ETH
IP
ETHETH
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Pipes
Router R Host HIP
ETH
IP
ETHETH
Physical Pipes
Model actual network linksAre discovered and enabled by the NM
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Pipes
Router R Host HIP
ETH
IP
ETHETH
Up-Down Pipes
Between modules in the same deviceCan be created/deleted by the NM
Pipe in figure is Down pipe for IP and Up pipe forETH
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Pipes
Router R Host HIP
ETH
IP
ETHETH
Connectable ModulesI Captures the possible protocol plumbing
I Eg. Connectable Modules for an up pipe of an ETHmodule: {IP, MPLS}
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Pipes
Peer modulesI Up-Down pipes associated with peer modules
I Peer modules coordinate low-level details
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Pipes
Peer modulesI Up-Down pipes associated with peer modules
I Peer modules coordinate low-level details
ISP
Edge Router A Router B
Edge
GRE Tunnel
A GRE tunnel between edge routers A and B
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Pipes
Peer modulesI Up-Down pipes associated with peer modules
I Peer modules coordinate low-level details
ISP
Edge Router A Router B
Edge
GRE GRE
IP
ETH
IP
ETH
NM builds the path by creating the requisite pipes
NM can invoke create and delete primitives at thedevices
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Pipes
Peer modulesI Up-Down pipes associated with peer modules
I Peer modules coordinate low-level details
ISP
Edge Router A Router B
Edge
GRE GRE
IP
ETH
IP
ETH
What about the low-level details?ip tunnel add name gre-A-B mode gre remote 204.9.169.1
local 204.9.168.1 ikey 1001 okey 2001 icsum ocsum iseq
oseq
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Pipes
Peer modulesI Up-Down pipes associated with peer modules
I Peer modules coordinate low-level details
Edge Router A Router B
Edge
GRE GRE
IP
ETH
IP
ETH
Peer Modules
Peer modules can coordinate low-level values
Eg. Peer GRE modules can exchange key values(1001, 2001)
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Hiding Complexity
NM operates in terms of abstract components
I Eg. Filter rules specify abstraction components
Exceptions
I IP address assignment
I Filtering based on regular expressions in HTML
I Broadcast suppression on switch ports
I . . .
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Talk Outline
I Introduction[]y
I CONMan Overview[]y
I Module Abstraction[]y
I CONMan primitives[]y
I Implementation
I Conclusions and Future Work
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CONMan Workflow
High-level
Human Manager
Low-levelNM Device-level
CONManNM scriptgoal goal scripts
Protocol
Module
ImplementationI A Network Manager (NM) that understands
the CONMan abstraction and implements theCONMan primitives
I Protocol Modules: GRE, MPLS, IP, ETH
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CONMan Workflow
High-level
Human Manager
Low-levelNM Device-level
CONManNM scriptgoal goal scripts
Protocol
Module
ImplementationI A Network Manager (NM) that understands
the CONMan abstraction and implements theCONMan primitives
I Protocol Modules: GRE, MPLS, IP, ETH
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CONMan Workflow
High-level
Human Manager
Low-levelNM Device-level
CONManNM scriptgoal goal scripts
Protocol
Module
ImplementationI A Network Manager (NM) that understands
the CONMan abstraction and implements theCONMan primitives
I Protocol Modules: GRE, MPLS, IP, ETH
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Virtual Private Networks
Router A
Router B
Router C
ISP
Customer 1Site 1
Router D
Customer 1 Site 2
Router E
Configure connectivity between sites S1 and S2 of customer C1
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Virtual Private Networks
Router A
Router B
Router C
ISP
Customer 1Site 1
Router D
Customer 1 Site 2
Router E
Configure connectivity between sites S1 and S2 of customer C1
Router A Router B Router C
Eth (a) Eth (b)
IP (h)
Eth (c) Eth (d)
IP (i)
Eth (e) Eth (f)
IP (j)
IP (k) IP (g) GRE (l) GRE (n)
GRE (m)MPLS (o) MPLS(q)
MPLS(p)
Customer 1Site 1
Router D
Customer 1 Site 2
Router E
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Virtual Private Networks
Router A
Router B
Router C
ISP
Customer 1Site 1
Router D
Customer 1 Site 2
Router E
Configure connectivity between sites S1 and S2 of customer C1
Router A Router B Router C
Eth (a) Eth (b)
IP (h)
Eth (c) Eth (d)
IP (i)
Eth (e) Eth (f)
IP (j)
IP (k) IP (g) GRE (l) GRE (n)
GRE (m)MPLS (o) MPLS(q)
MPLS(p)
Customer 1Site 1
Router D
Customer 1 Site 2
Router E
High-level goal: Configure connectivity between thecustomer-facing interfaces <ETH,A,a> and <ETH,C,f> for
traffic between C1-S1 and C1-S2
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Virtual Private Networks
Router A
Router B
Router C
ISP
Customer 1Site 1
Router D
Customer 1 Site 2
Router E
Configure connectivity between sites S1 and S2 of customer C1
Router A Router B Router C
Eth (a) Eth (b)
IP (h)
Eth (c) Eth (d)
IP (i)
Eth (e) Eth (f)
IP (j)
IP (k) IP (g) GRE (l) GRE (n)
GRE (m)MPLS (o) MPLS(q)
MPLS(p)
Customer 1Site 1
Router D
Customer 1 Site 2
Router E
Routers inform the NM of their connectivity and their modules
The figure represents the network map as seen by the NM
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Virtual Private Networks
Router A
Router B
Router C
ISP
Customer 1Site 1
Router D
Customer 1 Site 2
Router E
Configure connectivity between sites S1 and S2 of customer C1
Router A Router B Router C
Eth (a) Eth (b)
IP (h)
Eth (c) Eth (d)
IP (i)
Eth (e) Eth (f)
IP (j)
IP (k) IP (g) GRE (l) GRE (n)
GRE (m)MPLS (o) MPLS(q)
MPLS(p)
Customer 1Site 1
Router D
Customer 1 Site 2
Router E
NM is also presented with the abstraction for various modules
This includes pipe connectivity and switch capabilities
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NM Implementation
IP (h)
ETH (a)
IP (g)
MPLS (o)
ETH (b)
GRE (l)
Potential Connectivity sub-graph for router A
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NM Implementation
Path FinderI Find all paths between any two modules
I Depth First Search across the graph
For example, find path (<ETH,A,a>, <ETH,C,f>)Router A Router B Router C
Eth (a) Eth (b)
IP (h)
Eth (c) Eth (d)
IP (i)
Eth (e) Eth (f)
IP (j)
IP (k) IP (g) GRE (l) GRE (n)
GRE (m)Customer 1Site 1
Router D
Customer 1 Site 2
Router E
GRE (l) GRE (n)
One possible path (using GRE-IP Tunnel)a, g, l, h, b, c, i, d, e, j, n, k, f
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NM Implementation
For example, find path (<ETH,A,a>, <ETH,C,f>)I Using IP-IP Tunnel: a, g, h, b, c, i, d, e, j, k, f
I Using GRE-IP Tunnel: a, g, l, h, b, c, i, d, e, j, n, k, f
I Using MPLS: a, g, o, b, c, p, d, e, q, k, f
I Using IP-IP over MPLS
I Using GRE-IP over MPLS
I Using IP-IP over MPLS only between A and B
I Using IP-IP over MPLS only between B and C
I Using GRE-IP over MPLS only between A and B
I Using GRE-IP over MPLS only between B and C
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NM Implementation
For example, find path (<ETH,A,a>, <ETH,C,f>)I Using IP-IP Tunnel: a, g, h, b, c, i, d, e, j, k, f
I Using GRE-IP Tunnel: a, g, l, h, b, c, i, d, e, j, n, k, f
I Using MPLS: a, g, o, b, c, p, d, e, q, k, f
I Using IP-IP over MPLS
I Using GRE-IP over MPLS
I Using IP-IP over MPLS only between A and B
I Using IP-IP over MPLS only between B and C
I Using GRE-IP over MPLS only between A and B
I Using GRE-IP over MPLS only between B and C
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NM Implementation
For example, find path (<ETH,A,a>, <ETH,C,f>)I Using IP-IP Tunnel: a, g, h, b, c, i, d, e, j, k, f
I Using GRE-IP Tunnel: a, g, l, h, b, c, i, d, e, j, n, k, f
I Using MPLS: a, g, o, b, c, p, d, e, q, k, f
I Using IP-IP over MPLS
I Using GRE-IP over MPLS
I Using IP-IP over MPLS only between A and B
I Using IP-IP over MPLS only between B and C
I Using GRE-IP over MPLS only between A and B
I Using GRE-IP over MPLS only between B and C
NM needs to be able to choose amongst the pathsbased on high-level directives/metrics
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NM Implementation
For example, find path (<ETH,A,a>, <ETH,C,f>)I Using IP-IP Tunnel: a, g, h, b, c, i, d, e, j, k, f
I Using GRE-IP Tunnel: a, g, l, h, b, c, i, d, e, j, n, k, f
I Using MPLS: a, g, o, b, c, p, d, e, q, k, f
I Using IP-IP over MPLS
I Using GRE-IP over MPLS
I Using IP-IP over MPLS only between A and B
I Using IP-IP over MPLS only between B and C
I Using GRE-IP over MPLS only between A and B
I Using GRE-IP over MPLS only between B and C
NM needs to be able to choose amongst the pathsbased on high-level directives/metrics
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NM Implementation
High-level
Human Manager
Low-levelNM Device-level
CONManNM scriptgoal goal scripts
Protocol
Module
High-level goal: Configure connectivity between thecustomer-facing interfaces <ETH,A,a> and <ETH,C,f> for
traffic between C1-S1 and C1-S2
Low-level goal: Configure the path comprising of modules a,g, l, h, b, c, i, d, e, j, n, k, f
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NM Implementation
Router A Router B Router C
Eth (a) Eth (b)
IP (h)
Eth (c) Eth (d)
IP (i)
Eth (e) Eth (f)
IP (j)
IP (k) IP (g) GRE (l) GRE (n)
GRE (m)Customer 1Site 1
Router D
Customer 1 Site 2
Router E
GRE (l) GRE (n)
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NM Implementation
Router A Router B Router C
Eth (a) Eth (b)
IP (h)
Eth (c) Eth (d)
IP (i)
Eth (e) Eth (f)
IP (j)
IP (k) IP (g) GRE (l) GRE (n)
GRE (m)Customer 1Site 1
Router D
Customer 1 Site 2
Router E
GRE (l) GRE (n)
P0 = create (pipe, <IP,A,g>, <ETH,A,a>, None, None, None)P1 = create (pipe, <IP,A,g>, <GRE,A,l>, <IP,C,k>, <GRE,C,n>,trade-off: in-order delivery, trade-off: error-rate)create (switch, <IP,A,g>, [P0, dst:C1-S2 ⇒ P1])create (switch, <IP,A,g>, [P1 ⇒ P0, S2-gateway])P2 = create (pipe, <GRE,A,l>, <IP,A,h>, <GRE,C,n>, <IP,C,j>,None)create (switch, <GRE,A,l>, P1, P2)P3 = create (pipe, <IP,A,h>, <ETH,A,b>, <IP,B,i>, <ETH,B,c>,None)create (switch, <IP,A,h>, P2, P3)
create (switch, <ETH,A,b>, P3,P4)
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NM Implementation
Router A Router B Router C
Eth (a) Eth (b)
IP (h)
Eth (c) Eth (d)
IP (i)
Eth (e) Eth (f)
IP (j)
IP (k) IP (g) GRE (l) GRE (n)
GRE (m)Customer 1Site 1
Router D
Customer 1 Site 2
Router E
GRE (l) GRE (n)
P0 = create (pipe, <IP,A,g>, <ETH,A,a>, None, None, None)P1 = create (pipe, <IP,A,g>, <GRE,A,l>, <IP,C,k>, <GRE,C,n>,trade-off: in-order delivery, trade-off: error-rate)create (switch, <IP,A,g>, [P0, dst:C1-S2 ⇒ P1])create (switch, <IP,A,g>, [P1 ⇒ P0, S2-gateway])P2 = create (pipe, <GRE,A,l>, <IP,A,h>, <GRE,C,n>, <IP,C,j>,None)create (switch, <GRE,A,l>, P1, P2)P3 = create (pipe, <IP,A,h>, <ETH,A,b>, <IP,B,i>, <ETH,B,c>,None)create (switch, <IP,A,h>, P2, P3)
create (switch, <ETH,A,b>, P3,P4)
P0 = create (pipe, <IP,A,g>, <ETH,A,a>, None, None, None)
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NM Implementation
Router A Router B Router C
Eth (a) Eth (b)
IP (h)
Eth (c) Eth (d)
IP (i)
Eth (e) Eth (f)
IP (j)
IP (k) IP (g) GRE (l) GRE (n)
GRE (m)Customer 1Site 1
Router D
Customer 1 Site 2
Router E
GRE (l) GRE (n)
P0 = create (pipe, <IP,A,g>, <ETH,A,a>, None, None, None)P1 = create (pipe, <IP,A,g>, <GRE,A,l>, <IP,C,k>, <GRE,C,n>,trade-off: in-order delivery, trade-off: error-rate)create (switch, <IP,A,g>, [P0, dst:C1-S2 ⇒ P1])create (switch, <IP,A,g>, [P1 ⇒ P0, S2-gateway])P2 = create (pipe, <GRE,A,l>, <IP,A,h>, <GRE,C,n>, <IP,C,j>,None)create (switch, <GRE,A,l>, P1, P2)P3 = create (pipe, <IP,A,h>, <ETH,A,b>, <IP,B,i>, <ETH,B,c>,None)create (switch, <IP,A,h>, P2, P3)
create (switch, <ETH,A,b>, P3,P4)
P1 = create (pipe, <IP,A,g>, <GRE,A,l>, <IP,C,k>, <GRE,C,n>,
trade-off: in-order delivery, trade-off: error-rate)
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NM Implementation
Router A Router B Router C
Eth (a) Eth (b)
IP (h)
Eth (c) Eth (d)
IP (i)
Eth (e) Eth (f)
IP (j)
IP (k) IP (g) GRE (l) GRE (n)
GRE (m)Customer 1Site 1
Router D
Customer 1 Site 2
Router E
GRE (l) GRE (n)
GRE modules use conveyMessage() to exchangeprotocol-specific parameters such as key values
P0 = create (pipe, <IP,A,g>, <ETH,A,a>, None, None, None)P1 = create (pipe, <IP,A,g>, <GRE,A,l>, <IP,C,k>, <GRE,C,n>,trade-off: in-order delivery, trade-off: error-rate)create (switch, <IP,A,g>, [P0, dst:C1-S2 ⇒ P1])create (switch, <IP,A,g>, [P1 ⇒ P0, S2-gateway])P2 = create (pipe, <GRE,A,l>, <IP,A,h>, <GRE,C,n>, <IP,C,j>,None)create (switch, <GRE,A,l>, P1, P2)P3 = create (pipe, <IP,A,h>, <ETH,A,b>, <IP,B,i>, <ETH,B,c>,None)create (switch, <IP,A,h>, P2, P3)
create (switch, <ETH,A,b>, P3,P4)
P1 = create (pipe, <IP,A,g>, <GRE,A,l>, <IP,C,k>, <GRE,C,n>,
trade-off: in-order delivery, trade-off: error-rate)
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NM Implementation
Router A Router B Router C
Eth (a) Eth (b)
IP (h)
Eth (c) Eth (d)
IP (i)
Eth (e) Eth (f)
IP (j)
IP (k) IP (g) GRE (l) GRE (n)
GRE (m)Customer 1Site 1
Router D
Customer 1 Site 2
Router E
GRE (l) GRE (n)
P0 = create (pipe, <IP,A,g>, <ETH,A,a>, None, None, None)P1 = create (pipe, <IP,A,g>, <GRE,A,l>, <IP,C,k>, <GRE,C,n>,trade-off: in-order delivery, trade-off: error-rate)create (switch, <IP,A,g>, [P0, dst:C1-S2 ⇒ P1])create (switch, <IP,A,g>, [P1 ⇒ P0, S2-gateway])P2 = create (pipe, <GRE,A,l>, <IP,A,h>, <GRE,C,n>, <IP,C,j>,None)create (switch, <GRE,A,l>, P1, P2)P3 = create (pipe, <IP,A,h>, <ETH,A,b>, <IP,B,i>, <ETH,B,c>,None)create (switch, <IP,A,h>, P2, P3)
create (switch, <ETH,A,b>, P3,P4)
P2 = create (pipe, <GRE,A,l>, <IP,A,h>, <GRE,C,n>, <IP,C,j>,
None)
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NM Implementation
Router A Router B Router C
Eth (a) Eth (b)
IP (h)
Eth (c) Eth (d)
IP (i)
Eth (e) Eth (f)
IP (j)
IP (k) IP (g) GRE (l) GRE (n)
GRE (m)Customer 1Site 1
Router D
Customer 1 Site 2
Router E
GRE (l) GRE (n)
IP modules use conveyMessage() to exchange IP addresses of tunnel end-points
P0 = create (pipe, <IP,A,g>, <ETH,A,a>, None, None, None)P1 = create (pipe, <IP,A,g>, <GRE,A,l>, <IP,C,k>, <GRE,C,n>,trade-off: in-order delivery, trade-off: error-rate)create (switch, <IP,A,g>, [P0, dst:C1-S2 ⇒ P1])create (switch, <IP,A,g>, [P1 ⇒ P0, S2-gateway])P2 = create (pipe, <GRE,A,l>, <IP,A,h>, <GRE,C,n>, <IP,C,j>,None)create (switch, <GRE,A,l>, P1, P2)P3 = create (pipe, <IP,A,h>, <ETH,A,b>, <IP,B,i>, <ETH,B,c>,None)create (switch, <IP,A,h>, P2, P3)
create (switch, <ETH,A,b>, P3,P4)
P2 = create (pipe, <GRE,A,l>, <IP,A,h>, <GRE,C,n>, <IP,C,j>,
None)
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NM Implementation
#!/bin/bash# Insert the GRE-IP kernel moduleinsmod /lib/modules/2.6.14-2/ip gre.ko# Create the GRE tunnel with the appropriate keyip tunnel add name greA mode gre remote 204.9.169.1 local204.9.168.1 ikey 1001 okey 2001 icsum ocsum iseq oseqifconfig greA 192.168.3.1# Enable Routingecho 1 > /proc/sys/net/ipv4/ip forward# Create IP routing from customer to tunnelecho 202 tun-1-2 >> /etc/iproute2/rt tablesip rule add to 10.0.2.0/24 table tun-1-2ip route add default dev greA table tun-1-2# Create IP routing from tunnel to customerecho 203 tun-2-1 >> /etc/iproute2/rt tablesip rule add iff greA table tun-2-1ip route add default dev eth1 table tun-2-1ip route add to 204.9.169.1 via 204.9.168.2 dev eth2
Linux script generated by the protocolmodules
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NM Implementation
#!/bin/bash# Insert the GRE-IP kernel moduleinsmod /lib/modules/2.6.14-2/ip gre.ko# Create the GRE tunnel with the appropriate keyip tunnel add name greA mode gre remote 204.9.169.1 local204.9.168.1 ikey 1001 okey 2001 icsum ocsum iseq oseqifconfig greA 192.168.3.1# Enable Routingecho 1 > /proc/sys/net/ipv4/ip forward# Create IP routing from customer to tunnelecho 202 tun-1-2 >> /etc/iproute2/rt tablesip rule add to 10.0.2.0/24 table tun-1-2ip route add default dev greA table tun-1-2# Create IP routing from tunnel to customerecho 203 tun-2-1 >> /etc/iproute2/rt tablesip rule add iff greA table tun-2-1ip route add default dev eth1 table tun-2-1ip route add to 204.9.169.1 via 204.9.168.2 dev eth2
Linux script generated by the protocolmodules
Module-generated Linux script snippet# Insert the GRE-IP kernel moduleinsmod /lib/modules/2.6.14-2/ip gre.ko
# Create the GRE tunnel with the appropriate keyip tunnel add name greA mode gre remote 204.9.169.1local 204.9.168.1 ikey 1001 okey 2001 icsum ocsum iseqoseq
NM-generated CONMan script snippetP0 = create (pipe, <IP,A,g>, <ETH,A,a>, None,None, None)
P2 = create (pipe, <GRE,A,l>, <IP,A,h>,<GRE,C,n>, <IP,C,j>, None)
create (switch, <GRE,A,l>, P1, P2)
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Talk Outline
I Introduction[]y
I CONMan Overview[]y
I Module Abstraction[]y
I CONMan primitives[]y
I Implementation
I Conclusions and Future Work
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Conclusions
CONMan: Complexity Oblivious Network Mgmt.
I Strives to reduce protocol-specific informationin the management interface of protocols
Balances division of functionality
I Management applications don’t deal withprotocol-specific details
I Protocols still need low-level details to operate
I Protocol implementor needs to understandprotocol operation
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Future Work
I ScalabilityI Load on the NMI Dynamic network configuration
I Multiple NMs
I Management channelI NM design
I User-sideI Network-side
I Deployment model
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