subsys/net/TODO - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 Background
 ==========

 This is a TODO list for networking related work.

 - Priority scale: High, Medium and Low

 - Complexity scale: C1, C2, C4 and C8.
    The complexity scale is exponential, with complexity 1 being the
    lowest complexity. Complexity is a function of both task 'complexity'
    and task 'scope'.


 IPv6
 ====

 - Anycast address support

    Priority: Low
    Complexity: C1

    Add support for Anycast addresses, RFC 3513

 - ICMPv6 "Packet Too Big" support

    Priority: Low
    Complexity: C1

    Add support for sending "Packet Too Big" error when
    needed. RFC 4443

 - IP-to-IP tunneling support

    Priority: Low
    Complexity: C4

    Add support for tunneling IPv6 traffic. This requires IPv6 L2
    driver that can encapsulate and decapsulate IPv6 traffic.
    See RFC 2473 for details.

 - DHCPv6 client support

    Priority: Low
    Complexity: C4

    Add support for acting as a DHCPv6 in client role.
    See RFC 3315 and 3646 for details.


 IPv4
 ====

 - Multicast join/leave support

    Priority: Low
    Complexity: C2

    Add support for sending joining and leaving multicast group.
    See RFC 3376 and 4604 for details.


 6LoWPAN
 =======

 - Mesh Header compression and uncompression

   Priority: Medium
   Complexicity: C4

   Add support for Mesh header compression and uncompression.

 - Unicast-Prefix based IPv6 Multicast (dst) address compression

   Priority: Medium
   Complexicity: C2

   See RFC 6282, Chapter 3.1.1, if M = 1 and DAC = 1.

 - Multicast Address Mapping

   Priority: Medium
   Complexicity: C2

   An IPv6 packet with a multicast destination address (DST),
   consisting of sixteen octets DST[1] through DST[16], is
   transmitted to the following 802.15.4 16-bit multicast address
   (See RFC 4944, Chapter 9).

 - Frame Delivery in a Link-Layer Mesh

   Priority: Medium
   Complexicity: C2

   Defines how to effect delivery of layer 2 frames in a
   mesh, given a target "Final Destination" link-layer address.
   (See RFC 4944, Chapter 11).

 - IPv6 Next Header Compression

   Priority: Medium
   Complexicity: C4

   LOWPAN_IPHC elides the IPv6 Next Header field when the NH bit is set
   to 1.  This also indicates the use of 6LoWPAN next header compression,
   LOWPAN_NHC (See RFC 6282, Chapter 4).


 IEEE 802.15.4
 =============

 2011 version
 ------------

 - CSMA-CA Radio protocol, time-slotted, support

   Priority: Low
   Complexity: C2

   Current CSMA-CA radio protocol implementation does not support
   time-slots.

 - Management service: RFD level support

   Priority: High
   Complexity: C4

   Support Management service to align with RFD requirements.
   See Chapter 6.2

 - Security support

   Priority: Medium
   Complexity: C4

   Support security, as detailed in Chapter 7.

 - Management service: FFD level support

   Priority: Low
   Complexity: C4

   Support Management service to align with FFD requirements.
   See Chapter 6.2


 2012-2015 versions
 ------------------

 - IE list support

   Priority: Medium
   Complexity: C2

   Support newly added IE list which can be embedded into frames.

 - Update existing Management commands

   Priority: Medium
   Complexity: C4

   Behavioral changes as well as improvements need to be applied
   to existing Management commands.

 - TSCH Radio protocol support

   Priority: Medium
   Complexity: C2

   Add TSCH radio protocol as the latest radio protocol improvement.

 - Multipurpose frame support

   Priority: Low
   Complexity: C2

   Add the means to parse or create Multipurpose frames.

 - LLDN frame support

   Priority: Low
   Complexity: C2

   Add the means to parse or create LLDN frames.
   Is this needed however, since it requires true RT capabilities?


 Bluetooth
 =========

 - Enable sample support

   Priority: High
   Complexity: C1

   Enable samples to use CONFIG_NET_L2_BT.

 IP-based services
 =================

 - Simple Network Time Protocol

    Priority: Low
    Complexity: C4

    Create SNTP client functionality so that applications can use
    SNTP to query current time.

 - Basic HTTP server support

    Priority: Low
    Complexity: C4

    Create a simple HTTP server for demo / diagnostic purposes.

 - IPSO (IP Smart Object) support

    Priority: Low
    Complexity: C8

    Create support for IPSO.

 - LWM2M support

    Priority: Low
    Complexity: C4

    Create support for OMA LWM2M protocol.

 - Simple Network Management Protocol support

    Priority: Low
    Complexity: C8

    Create support for SNMP for managing the node.
    See RFC 1902 and 2863 for details.


 Documentation
 =============

 - Network device driver documentation

    Priority: Medium
    Complexity: C2

    Create documentation for the developer how to create networking
    device drivers using the new IP stack.


 Testing
 =======

 Here are some generic guidelines for network testing.

 - Unit tests

    Priority: High
    Complexity: <unknown>

    Each new networking feature should have proper unit
    test created. These tests should be located under the
    tests/net directory. The tests should be integrated
    to the Continuous Integration (CI) infrastructure so
    that they are run automatically.

 - End-to-end networking tests

    Priority: High
    Complexity: C8

    Create / port testing infrastructure for conformance
    testing. For example TAHI framework for IPv6 could be
    used to test IPv6 functionality, see www.ipv6ready.org
    for details.
    This entry should be split more to include various
    network testing frameworks.


 CAN
 ===

 CAN (Controller Area Network) is a networking technology
 which is used in automation, embedded devices, and
 automotive fields.

 - Implement CAN support

   Priority: Medium
   Complexity: C8

   This is a placeholder for CAN support and should be
   split into smaller pieces.
	Background
	==========

	This is a TODO list for networking related work.

	- Priority scale: High, Medium and Low

	- Complexity scale: C1, C2, C4 and C8.
	The complexity scale is exponential, with complexity 1 being the
	lowest complexity. Complexity is a function of both task 'complexity'
	and task 'scope'.


	IPv6
	====

	- Anycast address support

	Priority: Low
	Complexity: C1

	Add support for Anycast addresses, RFC 3513

	- ICMPv6 "Packet Too Big" support

	Priority: Low
	Complexity: C1

	Add support for sending "Packet Too Big" error when
	needed. RFC 4443

	- IP-to-IP tunneling support

	Priority: Low
	Complexity: C4

	Add support for tunneling IPv6 traffic. This requires IPv6 L2
	driver that can encapsulate and decapsulate IPv6 traffic.
	See RFC 2473 for details.

	- DHCPv6 client support

	Priority: Low
	Complexity: C4

	Add support for acting as a DHCPv6 in client role.
	See RFC 3315 and 3646 for details.


	IPv4
	====

	- Multicast join/leave support

	Priority: Low
	Complexity: C2

	Add support for sending joining and leaving multicast group.
	See RFC 3376 and 4604 for details.


	6LoWPAN
	=======

	- Mesh Header compression and uncompression

	Priority: Medium
	Complexicity: C4

	Add support for Mesh header compression and uncompression.

	- Unicast-Prefix based IPv6 Multicast (dst) address compression

	Priority: Medium
	Complexicity: C2

	See RFC 6282, Chapter 3.1.1, if M = 1 and DAC = 1.

	- Multicast Address Mapping

	Priority: Medium
	Complexicity: C2

	An IPv6 packet with a multicast destination address (DST),
	consisting of sixteen octets DST[1] through DST[16], is
	transmitted to the following 802.15.4 16-bit multicast address
	(See RFC 4944, Chapter 9).

	- Frame Delivery in a Link-Layer Mesh

	Priority: Medium
	Complexicity: C2

	Defines how to effect delivery of layer 2 frames in a
	mesh, given a target "Final Destination" link-layer address.
	(See RFC 4944, Chapter 11).

	- IPv6 Next Header Compression

	Priority: Medium
	Complexicity: C4

	LOWPAN_IPHC elides the IPv6 Next Header field when the NH bit is set
	to 1. This also indicates the use of 6LoWPAN next header compression,
	LOWPAN_NHC (See RFC 6282, Chapter 4).


	IEEE 802.15.4
	=============

	2011 version
	------------

	- CSMA-CA Radio protocol, time-slotted, support

	Priority: Low
	Complexity: C2

	Current CSMA-CA radio protocol implementation does not support
	time-slots.

	- Management service: RFD level support

	Priority: High
	Complexity: C4

	Support Management service to align with RFD requirements.
	See Chapter 6.2

	- Security support

	Priority: Medium
	Complexity: C4

	Support security, as detailed in Chapter 7.

	- Management service: FFD level support

	Priority: Low
	Complexity: C4

	Support Management service to align with FFD requirements.
	See Chapter 6.2


	2012-2015 versions
	------------------

	- IE list support

	Priority: Medium
	Complexity: C2

	Support newly added IE list which can be embedded into frames.

	- Update existing Management commands

	Priority: Medium
	Complexity: C4

	Behavioral changes as well as improvements need to be applied
	to existing Management commands.

	- TSCH Radio protocol support

	Priority: Medium
	Complexity: C2

	Add TSCH radio protocol as the latest radio protocol improvement.

	- Multipurpose frame support

	Priority: Low
	Complexity: C2

	Add the means to parse or create Multipurpose frames.

	- LLDN frame support

	Priority: Low
	Complexity: C2

	Add the means to parse or create LLDN frames.
	Is this needed however, since it requires true RT capabilities?


	Bluetooth
	=========

	- Enable sample support

	Priority: High
	Complexity: C1

	Enable samples to use CONFIG_NET_L2_BT.

	IP-based services
	=================

	- Simple Network Time Protocol

	Priority: Low
	Complexity: C4

	Create SNTP client functionality so that applications can use
	SNTP to query current time.

	- Basic HTTP server support

	Priority: Low
	Complexity: C4

	Create a simple HTTP server for demo / diagnostic purposes.

	- IPSO (IP Smart Object) support

	Priority: Low
	Complexity: C8

	Create support for IPSO.

	- LWM2M support

	Priority: Low
	Complexity: C4

	Create support for OMA LWM2M protocol.

	- Simple Network Management Protocol support

	Priority: Low
	Complexity: C8

	Create support for SNMP for managing the node.
	See RFC 1902 and 2863 for details.


	Documentation
	=============

	- Network device driver documentation

	Priority: Medium
	Complexity: C2

	Create documentation for the developer how to create networking
	device drivers using the new IP stack.


	Testing
	=======

	Here are some generic guidelines for network testing.

	- Unit tests

	Priority: High
	Complexity: <unknown>

	Each new networking feature should have proper unit
	test created. These tests should be located under the
	tests/net directory. The tests should be integrated
	to the Continuous Integration (CI) infrastructure so
	that they are run automatically.

	- End-to-end networking tests

	Priority: High
	Complexity: C8

	Create / port testing infrastructure for conformance
	testing. For example TAHI framework for IPv6 could be
	used to test IPv6 functionality, see www.ipv6ready.org
	for details.
	This entry should be split more to include various
	network testing frameworks.


	CAN
	===

	CAN (Controller Area Network) is a networking technology
	which is used in automation, embedded devices, and
	automotive fields.

	- Implement CAN support

	Priority: Medium
	Complexity: C8

	This is a placeholder for CAN support and should be
	split into smaller pieces.