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308 lines
13 KiB
Markdown
308 lines
13 KiB
Markdown
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# Project roadmap
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## Planned for 2023
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### SNMP AgentX plugin for BIRD status export
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Allow for easier status monitoring.
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### BGP Monitoring Protocol (BMP)
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BGP Monitoring Protocol (RFC 7854) is a protocol between a BGP speaker and
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a monitoring node, which is notified about route updates and neighbor state
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changes of the BGP speaker.
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### Better coverage of automatic tests
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Functionality tests should cover more possible configurations and
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combinations. Integration tests should run automatically between different OS
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versions and HW architectures. Experimental support for performance regression tests.
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### Release 3.0-alpha1
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Missing: MRT, merging
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### Show BFD sessions details
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CLI command showing detailed information about BFD sessions state
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### Review and merge Babel extended next hop patches (RFC 9229)
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Babel extension to allow IPv4 routes with IPv6 next hop. Patch on mailing list.
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### Consolidate protocol statistics
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Consolidate protocol statistics, make them useful for SNMP plugin and implement
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'show XX stats' command.
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### TCP-AO if it appears in Linux and BSD upstream
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Resolve whether we should or shouldn't control the kernel key management.
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Design and implement our side for both Linux and BSD.
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### Conditional routes (v3)
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Filters should be extended to allow conditional expressions based on a number of
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matching routes in a routing table. This would allow to specify aggregate routes
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using a static protocol and conditions like 'if there is at least 1000 routes
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from this BGP protocol, accept this default route'. This feature comes handy
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when a router needs to detect whether its BGP upstream is alive and working.
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Based of number of routes received, the router can then announce or retract a
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default route to OSPF, making multi-exit network routing simpler and more
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effective.
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### Aggregating routes
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Requested by customer: aggregating multiple routes by a common set of attributes.
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Implementation choice: the user specifies
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EXPORT filter before aggregation AGGREGATE ON list of expressions to compare MERGE what to do with the remaining attributes
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Example usage:
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* aggregating information from multiple internal BGP routes into one external
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* creating a multipath route from multiple BGP routes (currently done by MERGE PATHS)
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* (in future) computing a minimal route set for kernel to make forwarding faster instead of writing the received full BGP set there
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### PREF64 option in RA (RFC 8781)
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Inform hosts about prefix used to synthesize NAT64 addresses. Requested in list:
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http://trubka.network.cz/pipermail/bird-users/2022-November/016401.html
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### Logging via UDP
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Got a patch, probably never merged. May be useful.
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http://trubka.network.cz/pipermail/bird-users/2022-January/015893.html
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### BGP Tunnel Encapsulation Attribute (RFC 9012)
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Packets sent to BGP next hop may be encapsulated using various tunnel
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technologies. Useful for L3VPN.
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### BGP AS Cones and ASPA support
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Extend the RPKI protocol with AS Cones and ASPA loading. Implement AS Cones
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and ASPA validation routines. There may be some pending patches from QRator.
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### DHCPv6 relay agent
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DHCPv6 relay agents (RFC 8415, RFC 8987) forward DHCPv6 messages between clients and
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servers. They also ensure that prefixes delegated by DHCPv6-PD are routable,
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i.e. they should generate routes for these prefixes.
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### Nexthop attributes and ECMP filtering
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Currently we have route attributes, but with ECMP routes it is necessary to
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store per-nexthop data (like weight or encapsulation). We also do not have
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proper way to manipulate with multiple nexthops from filters. Attributes should
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be extended to allow per-nexthop ones and filters should be extended to allow
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access multiple nexthops and their attributes.
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### Performance accounting
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Extended internal statistics about time spent in different modules of BIRD. If
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the route server admin checks why it takes 15 minutes to converge, this should
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give some basic info about performance. [MM: Internally needed by 3.0, already in progress]
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### MPLS support
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Finalize and merge improved MPLS infrastructure (including MPLS label allocator
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and supporting code), improve its reconfiguration support and support for
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segment routing.
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### BGP Segment Routing Extension (RFC 8669)
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Receive and announce Segment Identifiers (SIDs) for BGP next hops.
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## Backlog for following years
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*The order of these items is not significant.*
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### Flowspec attribute filtering
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Flowspec routes have many parameters, but these are not accessible from filters.
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Filters should be extended to access all these attributes, but first it is
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necessary to cleanup attribute handling in filters.
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### BGP Optimal Route Reflection (RFC 9107)
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Implement BGP best route selection on route reflectors to adhere to POV of
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client, not RR. Also requested by somebody, don't remember who and when.
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### OSPF Traffic engineering extensions (RFC 3630)
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Requested in list. May include lots of other RFC's as we have neglected this
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feature for a long time.
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http://trubka.network.cz/pipermail/bird-users/2022-January/015911.html
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### IPv6 preference in documentation (?)
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Address world's reluctance of legacy IPv4 deprecation by updating the
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documentation in such a way that IPv6 is preferred and first seen.
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### BGP local prefix leak prevention (?)
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Reject local prefixes on eBGP sessions by default to prevent leaks to public Internet.
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Unless explicitly enabled by config, of course.
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### Re-bogonization of 240/4 legacy range (?)
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We shouldn't believe that every operator does the
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filtering right and they could simply rely on pre-2.0.10 behavior which
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filtered this out by default.
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### IPv4 multicast
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Basic infrastructure for IPv4 multicast routing, including nettypes for
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multicast routes and multicast requests, multicast kernel protocol and IGMPv2
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protocol.
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### PIM-BIDIR
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Bidirectional PIM (RFC 5015) is a multicast routing protocol, variant of PIM-SM.
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It uses bidirectional shared trees rooted in Rendezvous Point (RP) to connect
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sources and receivers.
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There is an old branch containing this. We should have merged this years ago.
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### Improved VRF support
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BIRD has working VRF support, but it needs improvements. VRF entities should be
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first-class objects with explicit configuration, with a set of properties and
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default values (like default routing tables, or router ID) for associated
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protocols. Default kernel table ID should be autodetected. There should be
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better handling of VRF route leaking - when a route is propagated between VRFs,
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its nexthop should reflects that. Setup of VRFs in OS is out of scope.
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### Linux kernel nexthop abstraction
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Netlink allows setting nexthops as objects and using them in routes. It should
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be much faster than conventional route update.
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### Protocol attributes for filtering
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Filters can access route attributes, but sometimes it could be useful to access
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attributes of associated protocol (like neighbor-as or neighbor-ip for BGP
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protocol). But it would require to have internal object model (below) first,
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as we do not want to implement it independently for each protocol attribute.
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### Mutable static routes
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Extension to the static protocol that would allow to add/remove/change static
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routes from CLI.
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### Multipipe
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Pipe-like protocol: When a route is exported to this protocol, it runs its
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filter extended with capability to announce any number of new routes to any
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table from one filter run. Its primary purpose is to allow user-specified
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route aggregation and other non-linear operations.
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### BGP minimum route advertisement interval (MRAI)
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BGP specifies minimum interval between route advertisements for the same
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network. This is not implemented in BIRD. It should be implemented for 3.0 to
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avoid unnecessary re-routing spikes.
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### OSPF unnumbered interfaces
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The OSPFv2 protocol allows interfaces that do not have proper IP range but have
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peer IP addresses (like PtP links). It should be extended to also allow true
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unnumbered interfaces with no addresses (by using an IP address from some
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loopback device). This would require to have stricter separation between IP
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addresses and interfaces in OSPFv2.
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### OSPF Segment Routing Extension (RFC 8665)
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MPLS label distribution using segment routing and simple OSPF extension.
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### MPLS Label Distribution Protocol (LDP)
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Label Distribution Protocol (RFC 5036) is a protocol for establishing
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label-switched paths and distributing of MPLS labels between MPLS routers.
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These paths and labels are based on existing unlabeled routing information.
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### IPv6 multicast
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Basic infrastructure for IPv6 multicast routing, including nettypes for
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multicast routes and multicast requests, multicast kernel protocol and MLDv1
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protocol. Most of these (with the exception of MLDv1) is just a variant of
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IPv4 multicast.
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### IGMP/MLD multicast proxy
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A simple IGMP/MLD multicast proxy, which sends IGMP/MLD requests on a configured
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uplink interface based on received requests on downlink interfaces, and updates
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associated multicast routes.
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### Source-specific multicast (SSM)
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Infrastructure for multicasts should be extended to handle source-specific
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multicasts. Extend multicast nettypes to include source addresses, handle them
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in multicast kernel protocols and implement IGMPv3/MLDv2 protocols.
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### PIM-SSM
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PIM-SSM is a source-specific multicast routing protocol, a subset of PIM-SM
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protocol (RFC 7761). It is restricted to source-specific multicasts, which
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eliminates many problematic parts of PIM-SM.
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### Seamless BFD
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New version of BFD negotiation defined in RFC 7880-7886 enables faster
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continuity tests by dissemination discriminators by the governing protocols.
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### OSPF Graceful Link Shutdown
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To enable seamless maintenance of single links, OSPF can advertise such a link
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getting down in advance, allowing to re-route. Defined in RFC 8379.
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## Long-term
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### Internal object model
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We need to define explicit internal object model, where existing objects
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(protocols, channels, tables, routes, interfaces ...) and their properties are
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described in a way that allows introspection sufficient for implementing
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features (control protocol, CLI, filter access, perhaps reconfiguration) in a
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generic manner.
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### Generic configuration model
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Configuration options are implicitly defined by the configuration parsing code.
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We need to define explicit configuration model independent of the parsing code
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and generic parsing code using that model. This will allow uniform validation of
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configuration properties, generic access to configuration from control protocol
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and possibly independent configuration backends (like one for Netconf).
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### New control protocol
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BIRD should have a well-documented machine readable protocol. Requirements for
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such protocol are:
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* Generic machine readable abstract-tree representation (like CBOR)
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* Both request/reply and subscribe/notify access patterns
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* Access objects and properties using internal object model
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* In-band introspection based on internal object model
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From Maria's notes:
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* CBOR-based protocol for both control and route exports
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* Python3 library with example implementation of CLI
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* (maybe) Ansible modules
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* RFC 9164: CBOR tags for IP addresses and prefices
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* RFC 9254: YANG-CBOR mapping
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* RFC 9277: Stable storage of CBOR (files)
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## Perhaps
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### IS-IS
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IS-IS routing protocol is a nice-to-have alternative to OSPF.
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### BGPsec
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BGPsec (RFC 8205) is a new path security extension to BGP.
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### PIM-SM
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PIM-SM (RFC 7761) is a prevailing multicast routing protocol, but more
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complicated than planned PIM-BIDIR and PIM-SSM.
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### Netconf
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Network Configuration Protocol (RFC 6241) is a XML/JSON protocol for
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configuration management of network devices. It would benefit from generic
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configuration model (above).
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### NetConf overlay
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Machine-friendly config file editor daemon (standalone) with standard NetConf
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interface on one side and BIRD config file + reconfiguration requests on the
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other side. Python3 seems to be better choice than C for this kind of work.
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### Backend for 802.11r
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Let's assume a bunch of boxes, all having some public wifi APs and some (secure) uplinks.
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Design and implement an automatic backbone protocol to allow for simple almost-zeroconf
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setup of e.g. a conference room or train / bus public wifi or even a local home network,
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all with hostapd seamlessly transferring clients between APs via 802.11r.
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Possible collab with Turris.
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### BFD Multipoint Connectivity
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Checking whether multiple "receivers" can communicate with a single "sender".
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Possibly useful after merging PIM-BIDIR and implementing other PIMs. RFC 8562-8563.
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### BGP Link State extension
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BGP-LS allows to transport information about network topology across BGP links.
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This should help e.g. to run traffic-engineering between more confederated ASs.
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Also needed to implement Seamless BFD on BGP: RFC 9247
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### Locator/ID Separation Protocol
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LISP intends to break up addressing to Routing Locators and Endpoint
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Identifiers. This may help multihoming networks in future. RFC 9299-9306.
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### Backend for IPv6 Multihoming without BGP
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Implement and configure BIRD in such a way that local nodes are seamlessly
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connected to the Internet via multiple upstreams, using Network Prefix
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Translation and other techniques. Possible collab with Turris.
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## Minor
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* RFC 8510: OSPF LLS Extension for Local Interface ID Advertisement
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* RFC 8538: BGP Graceful Restart Hard Reset
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* RFC 8326: BGP Graceful Session Shutdown Community auto-apply
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* RFC 8962: Become part of the IETF Protocol Police
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* RFC 9072: Extended Optional Parameters Length for BGP OPEN Message
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* RFC 9339: OSPF Reverse Metric
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