nlsr.conf - NLSR - Gitiles

 ; the general section contains all the general settings for router

 general
 {
   ; mandatory configuration command section network, site and router

   network /ndn/         ; name of the network the router belongs to in ndn URI format
   site /edu/memphis    ; name of the site the router belongs to in ndn URI format
   router /%C1.Router/cs/pollux    ; name of the router in ndn URI format

   ; lsa-refresh-time is the time in seconds, after which router will refresh its LSAs
   lsa-refresh-time 1800      ; default value 1800. Valid values 240-7200

   ; router-dead-interval is the time in seconds after which an inactive routers
   ; LSAs are removed
   ;router-dead-interval 3600 ; default value: 2*lsa-refresh-time. Value must be larger
                              ; than lsa-refresh-time

   ; InterestLifetime (in seconds) for LSA fetching
   lsa-interest-lifetime 4    ; default value 4. Valid values 1-60

   ; select sync protocol: chronosync or psync
   sync-protocol psync

   ; sync interest lifetime of ChronoSync/PSync in milliseconds
   sync-interest-lifetime 60000  ; default value 60000. Valid values 1000-120,000

   state-dir       /var/lib/nlsr        ; path for intermediate state files including sequence directory (Absolute path)
 }

 ; the neighbors section contains the configuration for router's neighbors and hello protocol behavior

 neighbors
 {
   ; in case hello interest timed out, router will try 'hello-retries' times at 'hello-timeout'
   ; seconds interval before giving up for any neighbors (deciding link is down)

    hello-retries 3                     ; interest retries number in integer. Default value 3
                                        ; valid values 1-10

    hello-timeout 1                     ; interest time out value in seconds. Default value 1
                                        ; Valid values 1-15

    hello-interval  60                  ; interest sending interval in seconds. Default value 60
                                        ; valid values 30-90

   ; adj-lsa-build-interval is the time to wait in seconds after an Adjacency LSA build is scheduled
   ; before actually building the Adjacency LSA

   adj-lsa-build-interval 10   ; default value 10. Valid values 5-30.

   face-dataset-fetch-tries 3 ; default is 3. Valid values 1-10. The FaceDataset is
                              ; gotten from NFD, and is needed to configure NLSR
                              ; correctly. It is recommended not to set this
                              ; variable too high, because it could cause
                              ; congestion for NFD.

   face-dataset-fetch-interval 3600 ; default is 3600. Valid values 1800-5400.
                                    ; This controls how often (in seconds) NLSR will attempt to
                                    ; fetch a FaceStatus dataset from NFD.

   ; neighbor command is used to configure router's neighbor. Each neighbor will need
   ; one block of neighbor command

   neighbor
   {
     name /ndn/edu/memphis/%C1.Router/cs/castor  ; name prefix of the neighbor router consists
                                                 ; of network, site-name and router-name

     face-uri  udp://castor.cs.memphis.edu       ; face uri of the face connected to the neighbor
     link-cost 25                                ; cost of the connecting link to neighbor
   }

   neighbor
   {
     name /ndn/edu/memphis/%C1.Router/cs/mira  ; name prefix of the neighbor router consists
                                               ; of network, site-name and router-name

     face-uri  udp://mira.cs.memphis.edu       ; face uri of the face connected to the neighbor
     link-cost 30                              ; cost of the connecting link to neighbor
   }
 }

 ; the hyperbolic section contains the configuration settings of enabling a router to calculate
 ; routing table using [hyperbolic routing table calculation](http://arxiv.org/abs/0805.1266) method

 hyperbolic
 {
   ; commands in this section follows a strict order
   ; the switch is used to set hyperbolic routing calculation in NLSR

   state off             ; default value 'off', set value 'on' to enable hyperbolic routing table
                         ; calculation which turns link state routing 'off'. set value to 'dry-run'
                         ; to test hyperbolic routing and compare with link state routing.


   radius   123.456      ; radius of the router in hyperbolic coordinate system
   angle    1.45,2.36    ; angle of the router in hyperbolic coordinate system
 }


 ; the fib section is used to configure fib entrys type to ndn FIB updated by NLSR

 fib
 {
   ; the max-faces-per-prefix is used to limit the number of faces for each name prefixes
   ; by NLSR in ndn FIB

   max-faces-per-prefix 3   ; default value 0. Valid value 0-60. By default (value 0) NLSR adds
                            ; all available faces for each reachable name prefixes in NDN FIB

   ; routing-calc-interval is the time to wait in seconds after a routing table calculation is
   ; scheduled before actually performing the routing table calculation

   routing-calc-interval 15   ; default value 15. Valid values 0-15. It is recommended that
                              ; routing-calc-interval have a higher value than adj-lsa-build-interval
 }

 ; the advertising section contains the configuration settings of the name prefixes
 ; hosted by this router

 advertising
 {
   ; the ndnname is used to advertised name from the router. To advertise each name prefix
   ; configure one block of ndnname configuration command for every name prefix.

   prefix /ndn/edu/memphis/cs/netlab           ; name in ndn URI format
   prefix /ndn/edu/memphis/sports/basketball
 }

 security
 {
   validator
   {
     rule
     {
       id "NLSR Hello Rule"
       for data
       filter
       {
         type name
         regex ^[^<nlsr><INFO>]*<nlsr><INFO><><>$
       }
       checker
       {
         type customized
         sig-type ecdsa-sha256
         key-locator
         {
           type name
           hyper-relation
           {
             k-regex ^([^<KEY><nlsr>]*)<nlsr><KEY><>$
             k-expand \\1
             h-relation equal
             p-regex ^([^<nlsr><INFO>]*)<nlsr><INFO><><>$
             p-expand \\1
           }
         }
       }
     }

     rule
     {
       id "NLSR LSA Rule"
       for data
       filter
       {
         type name
         regex ^[^<nlsr><LSA>]*<nlsr><LSA>
       }
       checker
       {
         type customized
         sig-type ecdsa-sha256
         key-locator
         {
           type name
           hyper-relation
           {
             k-regex ^([^<KEY><nlsr>]*)<nlsr><KEY><>$
             k-expand \\1
             h-relation equal
             ; the last four components in the prefix should be <lsaType><seqNo><version><segmentNo>
             p-regex ^<localhop>([^<nlsr><LSA>]*)<nlsr><LSA>(<>*)<><><><>$
             p-expand \\1\\2
           }
         }
       }
     }

     rule
     {
       id "NLSR Hierarchy Exception Rule"
       for data
       filter
       {
         type name
         regex ^[^<KEY><%C1.Router>]*<%C1.Router>[^<KEY><nlsr>]*<KEY><><><>$
       }
       checker
       {
         type customized
         sig-type ecdsa-sha256
         key-locator
         {
           type name
           hyper-relation
           {
             k-regex ^([^<KEY><%C1.Operator>]*)<%C1.Operator>[^<KEY>]*<KEY><>$
             k-expand \\1
             h-relation equal
             p-regex ^([^<KEY><%C1.Router>]*)<%C1.Router>[^<KEY>]*<KEY><><><>$
             p-expand \\1
           }
         }
       }
     }

     rule
     {
       id "NLSR Hierarchical Rule"
       for data
       filter
       {
         type name
         regex ^[^<KEY>]*<KEY><><><>$
       }
       checker
       {
         type hierarchical
         sig-type ecdsa-sha256
       }
     }

     trust-anchor
     {
       type file
       file-name "root.cert"
     }
   }

   prefix-update-validator
   {
     rule
     {
       id "NLSR ControlCommand Rule"
       for interest
       filter
       {
         type name
         ; /<prefix>/<management-module>/<command-verb>/<control-parameters>
         ; /<timestamp>/<random-value>/<signed-interests-components>
         regex ^<localhost><nlsr><prefix-update>[<advertise><withdraw>]<><><>$
       }
       checker
       {
         type customized
         sig-type ecdsa-sha256
         key-locator
         {
           type name
           regex ^([^<KEY><%C1.Operator>]*)<%C1.Operator>[^<KEY>]*<KEY><>$
         }
       }
     }

     rule
     {
       id "NLSR Hierarchy Rule"
       for data
       filter
       {
         type name
         regex ^[^<KEY>]*<KEY><><><>$
       }
       checker
       {
         type hierarchical
         sig-type ecdsa-sha256
       }
     }

     trust-anchor
     {
       type file
       file-name "site.cert"
     }
   }

   ; cert-to-publish "root.cert"  ; optional, a file containing the root certificate
                                  ; Only the router that is designated to publish the root cert
                                  ; needs to specify this

   ; cert-to-publish "site.cert"  ; optional, a file containing the site certificate
                                  ; Only the router that is designated to publish the site cert
                                  ; needs to specify this

   ; cert-to-publish "operator.cert" ; optional, a file containing the operator certificate
                                     ; Only the router that is designated to publish the operator
                                     ; cert needs to specify this

   cert-to-publish "router.cert"  ; required, a file containing the router certificate.
 }
	; the general section contains all the general settings for router

	general
	{
	; mandatory configuration command section network, site and router

	network /ndn/ ; name of the network the router belongs to in ndn URI format
	site /edu/memphis ; name of the site the router belongs to in ndn URI format
	router /%C1.Router/cs/pollux ; name of the router in ndn URI format

	; lsa-refresh-time is the time in seconds, after which router will refresh its LSAs
	lsa-refresh-time 1800 ; default value 1800. Valid values 240-7200

	; router-dead-interval is the time in seconds after which an inactive routers
	; LSAs are removed
	;router-dead-interval 3600 ; default value: 2*lsa-refresh-time. Value must be larger
	; than lsa-refresh-time

	; InterestLifetime (in seconds) for LSA fetching
	lsa-interest-lifetime 4 ; default value 4. Valid values 1-60

	; select sync protocol: chronosync or psync
	sync-protocol psync

	; sync interest lifetime of ChronoSync/PSync in milliseconds
	sync-interest-lifetime 60000 ; default value 60000. Valid values 1000-120,000

	state-dir /var/lib/nlsr ; path for intermediate state files including sequence directory (Absolute path)
	}

	; the neighbors section contains the configuration for router's neighbors and hello protocol behavior

	neighbors
	{
	; in case hello interest timed out, router will try 'hello-retries' times at 'hello-timeout'
	; seconds interval before giving up for any neighbors (deciding link is down)

	hello-retries 3 ; interest retries number in integer. Default value 3
	; valid values 1-10

	hello-timeout 1 ; interest time out value in seconds. Default value 1
	; Valid values 1-15

	hello-interval 60 ; interest sending interval in seconds. Default value 60
	; valid values 30-90

	; adj-lsa-build-interval is the time to wait in seconds after an Adjacency LSA build is scheduled
	; before actually building the Adjacency LSA

	adj-lsa-build-interval 10 ; default value 10. Valid values 5-30.

	face-dataset-fetch-tries 3 ; default is 3. Valid values 1-10. The FaceDataset is
	; gotten from NFD, and is needed to configure NLSR
	; correctly. It is recommended not to set this
	; variable too high, because it could cause
	; congestion for NFD.

	face-dataset-fetch-interval 3600 ; default is 3600. Valid values 1800-5400.
	; This controls how often (in seconds) NLSR will attempt to
	; fetch a FaceStatus dataset from NFD.

	; neighbor command is used to configure router's neighbor. Each neighbor will need
	; one block of neighbor command

	neighbor
	{
	name /ndn/edu/memphis/%C1.Router/cs/castor ; name prefix of the neighbor router consists
	; of network, site-name and router-name

	face-uri udp://castor.cs.memphis.edu ; face uri of the face connected to the neighbor
	link-cost 25 ; cost of the connecting link to neighbor
	}

	neighbor
	{
	name /ndn/edu/memphis/%C1.Router/cs/mira ; name prefix of the neighbor router consists
	; of network, site-name and router-name

	face-uri udp://mira.cs.memphis.edu ; face uri of the face connected to the neighbor
	link-cost 30 ; cost of the connecting link to neighbor
	}
	}

	; the hyperbolic section contains the configuration settings of enabling a router to calculate
	; routing table using [hyperbolic routing table calculation](http://arxiv.org/abs/0805.1266) method

	hyperbolic
	{
	; commands in this section follows a strict order
	; the switch is used to set hyperbolic routing calculation in NLSR

	state off ; default value 'off', set value 'on' to enable hyperbolic routing table
	; calculation which turns link state routing 'off'. set value to 'dry-run'
	; to test hyperbolic routing and compare with link state routing.


	radius 123.456 ; radius of the router in hyperbolic coordinate system
	angle 1.45,2.36 ; angle of the router in hyperbolic coordinate system
	}


	; the fib section is used to configure fib entrys type to ndn FIB updated by NLSR

	fib
	{
	; the max-faces-per-prefix is used to limit the number of faces for each name prefixes
	; by NLSR in ndn FIB

	max-faces-per-prefix 3 ; default value 0. Valid value 0-60. By default (value 0) NLSR adds
	; all available faces for each reachable name prefixes in NDN FIB

	; routing-calc-interval is the time to wait in seconds after a routing table calculation is
	; scheduled before actually performing the routing table calculation

	routing-calc-interval 15 ; default value 15. Valid values 0-15. It is recommended that
	; routing-calc-interval have a higher value than adj-lsa-build-interval
	}

	; the advertising section contains the configuration settings of the name prefixes
	; hosted by this router

	advertising
	{
	; the ndnname is used to advertised name from the router. To advertise each name prefix
	; configure one block of ndnname configuration command for every name prefix.

	prefix /ndn/edu/memphis/cs/netlab ; name in ndn URI format
	prefix /ndn/edu/memphis/sports/basketball
	}

	security
	{
	validator
	{
	rule
	{
	id "NLSR Hello Rule"
	for data
	filter
	{
	type name
	regex ^[^<nlsr><INFO>]*<nlsr><INFO><><>$
	}
	checker
	{
	type customized
	sig-type ecdsa-sha256
	key-locator
	{
	type name
	hyper-relation
	{
	k-regex ^([^<KEY><nlsr>]*)<nlsr><KEY><>$
	k-expand \\1
	h-relation equal
	p-regex ^([^<nlsr><INFO>]*)<nlsr><INFO><><>$
	p-expand \\1
	}
	}
	}
	}

	rule
	{
	id "NLSR LSA Rule"
	for data
	filter
	{
	type name
	regex ^[^<nlsr><LSA>]*<nlsr><LSA>
	}
	checker
	{
	type customized
	sig-type ecdsa-sha256
	key-locator
	{
	type name
	hyper-relation
	{
	k-regex ^([^<KEY><nlsr>]*)<nlsr><KEY><>$
	k-expand \\1
	h-relation equal
	; the last four components in the prefix should be <lsaType><seqNo><version><segmentNo>
	p-regex ^<localhop>([^<nlsr><LSA>])<nlsr><LSA>(<>)<><><><>$
	p-expand \\1\\2
	}
	}
	}
	}

	rule
	{
	id "NLSR Hierarchy Exception Rule"
	for data
	filter
	{
	type name
	regex ^[^<KEY><%C1.Router>]<%C1.Router>[^<KEY><nlsr>]<KEY><><><>$
	}
	checker
	{
	type customized
	sig-type ecdsa-sha256
	key-locator
	{
	type name
	hyper-relation
	{
	k-regex ^([^<KEY><%C1.Operator>])<%C1.Operator>[^<KEY>]<KEY><>$
	k-expand \\1
	h-relation equal
	p-regex ^([^<KEY><%C1.Router>])<%C1.Router>[^<KEY>]<KEY><><><>$
	p-expand \\1
	}
	}
	}
	}

	rule
	{
	id "NLSR Hierarchical Rule"
	for data
	filter
	{
	type name
	regex ^[^<KEY>]*<KEY><><><>$
	}
	checker
	{
	type hierarchical
	sig-type ecdsa-sha256
	}
	}

	trust-anchor
	{
	type file
	file-name "root.cert"
	}
	}

	prefix-update-validator
	{
	rule
	{
	id "NLSR ControlCommand Rule"
	for interest
	filter
	{
	type name
	; /<prefix>/<management-module>/<command-verb>/<control-parameters>
	; /<timestamp>/<random-value>/<signed-interests-components>
	regex ^<localhost><nlsr><prefix-update>[<advertise><withdraw>]<><><>$
	}
	checker
	{
	type customized
	sig-type ecdsa-sha256
	key-locator
	{
	type name
	regex ^([^<KEY><%C1.Operator>])<%C1.Operator>[^<KEY>]<KEY><>$
	}
	}
	}

	rule
	{
	id "NLSR Hierarchy Rule"
	for data
	filter
	{
	type name
	regex ^[^<KEY>]*<KEY><><><>$
	}
	checker
	{
	type hierarchical
	sig-type ecdsa-sha256
	}
	}

	trust-anchor
	{
	type file
	file-name "site.cert"
	}
	}

	; cert-to-publish "root.cert" ; optional, a file containing the root certificate
	; Only the router that is designated to publish the root cert
	; needs to specify this

	; cert-to-publish "site.cert" ; optional, a file containing the site certificate
	; Only the router that is designated to publish the site cert
	; needs to specify this

	; cert-to-publish "operator.cert" ; optional, a file containing the operator certificate
	; Only the router that is designated to publish the operator
	; cert needs to specify this

	cert-to-publish "router.cert" ; required, a file containing the router certificate.
	}