Datagram Congestion Control Protocol

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In computer networking, the Datagram Congestion Control Protocol (DCCP) is a message-oriented transport layer protocol. DCCP implements reliable connection setup, teardown, Explicit Congestion Notification (ECN), congestion control, and feature negotiation. The IETF published DCCP as RFC 4340, a proposed standard, in March 2006. RFC 4336 provides an introduction.

DCCP provides a way to gain access to congestion-control mechanisms without having to implement them at the application layer. It allows for flow-based semantics like in Transmission Control Protocol (TCP), but does not provide reliable in-order delivery. Sequenced delivery within multiple streams as in the Stream Control Transmission Protocol (SCTP) is not available in DCCP. A DCCP connection contains acknowledgment traffic as well as data traffic. Acknowledgments inform a sender whether its packets have arrived, and whether they were marked by Explicit Congestion Notification (ECN). Acknowledgements are transmitted as reliably as the congestion control mechanism in use requires, possibly completely reliably.

DCCP is useful for applications with timing constraints on the delivery of data. Such applications include streaming media, multiplayer online games and Internet telephony. In such applications, old messages quickly become useless, so that getting new messages is preferred to resending lost messages. As of 2017 such applications have often either settled for TCP or used User Datagram Protocol (UDP) and implemented their own congestion-control mechanisms, or have no congestion control at all. While being useful for these applications, DCCP can also serve as a general congestion-control mechanism for UDP-based applications, by adding, as needed, mechanisms for reliable or in-order delivery on top of UDP/DCCP. In this context, DCCP allows the use of different, but generally TCP-friendly congestion-control mechanisms.

DCCP has the option for very long (48-bit) sequence numbers corresponding to a packet ID, rather than a byte ID as in TCP. The long length of the sequence numbers aims to guard against "some blind attacks, such as the injection of DCCP-Resets into the connection".[1]

Implementations

The following operating systems implement DCCP:

Userspace library:

  • DCCP-TP implementation is optimized for portability, but has had no changes since June 2008.[4]
  • GoDCCP purpose of this implementation is to provide a standardized, portable NAT-friendly framework for peer-to-peer communications with flexible congestion control, depending on application.

Packet Structure

The DCCP generic header takes different forms depending on the value of X, the Extended Sequence Numbers bit. If X is one, the Sequence Number field is 48 bits long, and the generic header takes 16 bytes, as follows.

DCCP generic header
Offsets Octet 0 1
Octet Bit  0  1  2  3  4  5  6  7  8  9 10 11 12 13 14 15
0 0 Source port
2 16 Destination port
4 32 Data Offset CCVal CsCov
6 48 Checksum
8 64 Res Type X=1 Reserved
10 80 Sequence Number (high bits)
12 96 Sequence Number
14 112 Sequence Number (low bits)

If X is zero, only the low 24 bits of the Sequence Number are transmitted, and the generic header is 12 bytes long.

Offsets Octet 0 1
Octet Bit  0  1  2  3  4  5  6  7  8  9 10 11 12 13 14 15
0 0 Source port
2 16 Destination port
4 32 Data Offset CCVal CsCov
6 48 Checksum
8 64 Res Type X=0 Sequence Number (high)
10 80 Sequence Number (low bits)
Source port (16 bits)
Identifies the sending port
Destination port (16 bits)
Identifies the receiving port
Data Offset
(8 bits): The offset from the start of the packet's DCCP header to the start of its application data area, in 32-bit words.
CCVal (4 bits)
Used by the HC-Sender CCID
Checksum Coverage (CsCov) (4 bits)
Checksum Coverage determines the parts of the packet that are covered by the Checksum field.
Checksum (16 bits)
The Internet checksum of the packet's DCCP header (including options), a network-layer pseudoheader, and, depending on Checksum Coverage, all, some, or none of the application data
Reserved (Res) (3 bits)
Senders MUST set this field to all zeroes on generated packets, and receivers MUST ignore its value
Type (4 bits)
The Type field specifies the type of the packet
Extended Sequence Numbers (X) (1 bit)
Set to one to indicate the use of an extended generic header with 48-bit Sequence and Acknowledgement Numbers
Sequence Number (48 or 24 bits)
Identifies the packet uniquely in the sequence of all packets the source sent on this connection

See also

References

  1. ^ RFC 4340 section 7.6
  2. ^ "[dccp] FreeBSD implementation". www.ietf.org. Retrieved 18 April 2018.
  3. ^ "Linux gets DCCP [LWN.net]". lwn.net. Retrieved 18 April 2018.
  4. ^ Change log for the dccp-tp wiki, retrieved June 13, 2011

External links

  • IETF Datagram Congestion Control Protocol (dccp) Charter

Protocol Specifications

  • RFC 4340 — Datagram Congestion Control Protocol
  • RFC 5595 — The Datagram Congestion Control Protocol (DCCP) Service Codes
  • RFC 5596 — DCCP Simultaneous-Open Technique to Facilitate NAT/Middlebox Traversal
  • RFC 5762 — RTP and the DCCP
  • RFC 5238 — Datagram Transport Layer Security (DTLS) over DCCP
  • RFC 5634 — Quick-Start for DCCP
  • RFC 6773 — A Datagram Congestion Control Protocol UDP Encapsulation for NAT Traversal

Congestion Control IDs

  • RFC 4341 — Profile for DCCP Congestion Control ID 2: TCP-like Congestion Control
  • RFC 4342 — Profile for DCCP Congestion Control ID 3: TCP-Friendly Rate Control (TFRC)
  • RFC 5622 — Profile for DCCP Congestion Control ID 4: TCP-Friendly Rate Control for Small Packets (TFRC-SP)

Other Information

  • RFC 4336 — Problem Statement for the Datagram Congestion Control Protocol (DCCP)
  • DCCP page from one of DCCP authors
  • DCCP support in Linux
  • Datagram Congestion Control Protocol (DCCP)
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