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A Discrete-Event Network Simulator
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Models |
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A Discrete-Event Network Simulator
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Models |
This chapter describes the implementation of ns-3 model for the compression of IPv6 packets over IEEE 802.15.4-Based Networks as specified by RFC 4944 and RFC 6282.
The source code for the sixlowpan module lives in the directory src/sixlowpan.
The model design does not follow strictly the standard from an architectural standpoint, as it does extend it beyond the original scope by supporting also other kinds of networks.
Other than that, the module strictly follows RFC 4944 and RFC 6282, with the following exceptions:
The MESH and LOWPAN_BC0 are not supported as they do apply only to mesh-under architecture, which is not one of the goals of the module development.
The HC2 encoding is not supported, as it has been superseded by IPHC and NHC compression type (RFC 6282).
IPHC SAC and DAC are not yet supported, as they do require RFC 6775 for full compliance. It is planned to support them in the future.
The whole module is developed as a transparent NetDevice, which can act as a proxy between IPv6 and any NetDevice (the module has been successfully tested with PointToPointNedevice, CsmaNetDevice and LrWpanNetDevice).
For this reason, the module implements a virtual NetDevice, and all the calls are passed without modifications to the underlying NetDevice. The only important difference is in GetMtu behaviour. It will always return at least 1280 bytes, as is the minumum IPv6 MTU.
The module does provide some attributes and some tracesources. The attributes are:
The CompressionThreshold attribute is similar to Contiki’s SICSLOWPAN_CONF_MIN_MAC_PAYLOAD option. If a compressed packet size is less than the threshold, the uncompressed version is used (plus one byte for the correct dispatch header). This option is useful only when a MAC with specific requirement for minimum frame size is used (e.g., ContikiMAC).
The last two attributes are needed to use the module with a NetDevice other than 802.15.4, as neither IANA or IEEE did reserve an EtherType for 6LoWPAN. As a consequence there might be a conflict with the L2 multiplexer/demultiplexer which is based on EtherType. The default value is 0xFFFF, which is reserved by IEEE (see [IANA802] and [Ethertype]). The default module behaviour is to not change the EtherType, however this would not work with any NetDevice actually understanding and using the EtherType.
Note that the ForceEtherType parameter have also a direct effect on the MAC address kind the module is expecting to handle: * ForceEtherType true: Mac48Address (Ethernet, WiFi, etc.). * ForceEtherType false: Mac16Address or Mac64Address (IEEE 802.15.4).
Note that using 6LoWPAN over any NetDevice other than 802.15.4 will produce valid .pcap files, but they will not be correctly dissected by Wireshark. The reason lies on the fact that 6LoWPAN was really meant to be used only over 802.15.4, so Wireshark dissectors will not even try to decode 6LoWPAN headers on top of protocols other than 802.15.4.
The Trace sources are:
The Tx and Rx traces are called as soon as a packet is received or sent. The Drop trace is invoked when a packet (or a fragment) is discarded.
Future versions of this module will support RFC 6775, however no timeframe is guaranteed.
As the name implies, 6LoWPAN can handle only IPv6 packets. Any other protocol will be discarded. Moreover, 6LoWPAN assumes that the network is uniform, as is all the devices connected by the same same channel are using 6LoWPAN. Mixed environments are not supported by the standard. The reason is simple: 802.15.4 frame doesn’t have a “protocol” field. As a consequence, there is no demultiplexing at MAC layer and the protocol carried by L2 frames must be known in advance.
In the ns-3 implementation it is possible, but not advisable, to violate this requirement if the underlying NetDevice is capable of discriminating different protocols. As an example, CsmaNetDevice can carry IPv4 and 6LoWPAN at the same time. However, this configuration has not been tested.
| [RFC4944] | RFC 4944, “Transmission of IPv6 Packets over IEEE 802.15.4 Networks” |
| [RFC6282] | RFC 6282, “Compression Format for IPv6 Datagrams over IEEE 802.15.4-Based Networks” |
| [RFC6775] | RFC 6775, “Neighbor Discovery Optimization for IPv6 over Low-Power Wireless Personal Area Networks (6LoWPANs)” |
| [IANA802] | IANA, assigned IEEE 802 numbers: http://www.iana.org/assignments/ieee-802-numbers/ieee-802-numbers.xml |
| [Ethertype] | IEEE Ethertype numbers: http://standards.ieee.org/develop/regauth/ethertype/eth.txt |
Add sixlowpan to the list of modules built with ns-3.
The helper is patterned after other device helpers.
The following example can be found in src/sixlowpan/examples/:
In particular, the example enables a very simplified end-to-end data transfer scenario, with a CSMA network forced to carry 6LoWPAN compressed packets.
The test provided checks the connection between two UDP clients and the correctness of the received packets.
The model has been validated against WireShark, checking whatever the packets are correctly interpreted and validated.