Real-Time Streaming Protocol

(Redirected from RTSP)

The Real-Time Streaming Protocol (RTSP) is an application-level network protocol designed for multiplexing and packetizing multimedia transport streams (such as interactive media, video and audio) over a suitable transport protocol. RTSP is used in entertainment and communications systems to control streaming media servers. The protocol is used for establishing and controlling media sessions between endpoints. Clients of media servers issue commands such as play, record and pause, to facilitate real-time control of the media streaming from the server to a client (video on demand) or from a client to the server (voice recording).

Real Time Streaming Protocol
Communication protocol
AbbreviationRTSP
PurposeInternet streaming
Developer(s)RealNetworks, Netscape, Columbia University
IntroductionApril 1998; 26 years ago (1998-04)
OSI layerApplication layer (7)
Port(s)
  • 554/TCP
  • 554/UDP
RFC(s)RFC 2326, 7826

History

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RTSP was developed by RealNetworks, Netscape[1] and Columbia University.[2] The first draft was submitted to IETF in October 1996 by Netscape and Progressive Networks, after which Henning Schulzrinne from Columbia University submitted "RTSP՚" ("RTSP prime") in December 1996.[3][4] The two drafts were merged for standardization by the Multiparty Multimedia Session Control Working Group (MMUSIC WG) of the Internet Engineering Task Force (IETF) and further drafts were published by the working group.[5][6] The Proposed Standard for RTSP was published as RFC 2326 in 1998.[7]
RTSP 2.0 published as RFC 7826 in 2016 as a replacement of RTSP 1.0. RTSP 2.0 is based on RTSP 1.0 but is not backwards compatible other than in the basic version negotiation mechanism, and remains a Proposed Standard.[8]

The transmission of streaming data itself is not a task of RTSP. Most RTSP servers use the Real-time Transport Protocol (RTP) in conjunction with Real-time Control Protocol (RTCP) for media stream delivery. However, some vendors implement proprietary transport protocols. The RTSP server software from RealNetworks, for example, also used RealNetworks' proprietary Real Data Transport (RDT).

Protocol directives

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While similar in some ways to HTTP, RTSP defines control sequences useful in controlling multimedia playback. While HTTP is stateless, RTSP has a state; an identifier is used when needed to track concurrent sessions. Like HTTP, RTSP uses TCP to maintain an end-to-end connection and, while most RTSP control messages are sent by the client to the server, some commands travel in the other direction (i.e. from server to client).

Presented here are the basic RTSP requests. Some typical HTTP requests, like the OPTIONS request, are also available. The default transport layer port number is 554[7] for both TCP and UDP, the latter being rarely used for the control requests.

OPTIONS

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An OPTIONS request returns the request types the server will accept.
C->S:  OPTIONS rtsp://example.com/media.mp4 RTSP/1.0
       CSeq: 1
       Require: implicit-play
       Proxy-Require: gzipped-messages

S->C:  RTSP/1.0 200 OK
       CSeq: 1
       Public: DESCRIBE, SETUP, TEARDOWN, PLAY, PAUSE

DESCRIBE

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A DESCRIBE request includes an RTSP URL (rtsp://...), and the type of reply data that can be handled. This reply includes the presentation description, typically in Session Description Protocol (SDP) format. Among other things, the presentation description lists the media streams controlled with the aggregate URL. In the typical case, there is one media stream each for audio and video streams. The media stream URLs are either obtained directly from the SDP control fields or they are obtained by appending the SDP control field to the aggregate URL.
C->S: DESCRIBE rtsp://example.com/media.mp4 RTSP/1.0
      CSeq: 2

S->C: RTSP/1.0 200 OK
      CSeq: 2
      Content-Base: rtsp://example.com/media.mp4
      Content-Type: application/sdp
      Content-Length: 460

      m=video 0 RTP/AVP 96
      a=control:streamid=0
      a=range:npt=0-7.741000
      a=length:npt=7.741000
      a=rtpmap:96 MP4V-ES/5544
      a=mimetype:string;"video/MP4V-ES"
      a=AvgBitRate:integer;304018
      a=StreamName:string;"hinted video track"
      m=audio 0 RTP/AVP 97
      a=control:streamid=1
      a=range:npt=0-7.712000
      a=length:npt=7.712000
      a=rtpmap:97 mpeg4-generic/32000/2
      a=mimetype:string;"audio/mpeg4-generic"
      a=AvgBitRate:integer;65790
      a=StreamName:string;"hinted audio track"

SETUP

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A SETUP request specifies how a single media stream must be transported. This must be done before a PLAY request is sent. The request contains the media stream URL and a transport specifier. This specifier typically includes a local port for receiving RTP data (audio or video), and another for RTCP data (meta information). The server reply usually confirms the chosen parameters, and fills in the missing parts, such as the server's chosen ports. Each media stream must be configured using SETUP before an aggregate play request may be sent.
C->S: SETUP rtsp://example.com/media.mp4/streamid=0 RTSP/1.0
      CSeq: 3
      Transport: RTP/AVP;unicast;client_port=8000-8001

S->C: RTSP/1.0 200 OK
      CSeq: 3
      Transport: RTP/AVP;unicast;client_port=8000-8001;server_port=9000-9001;ssrc=1234ABCD
      Session: 12345678



C->S: SETUP rtsp://example.com/media.mp4/streamid=1 RTSP/1.0
      CSeq: 3
      Transport: RTP/AVP;unicast;client_port=8002-8003
      Session: 12345678

S->C: RTSP/1.0 200 OK
      CSeq: 3
      Transport: RTP/AVP;unicast;client_port=8002-8003;server_port=9002-9003;ssrc=1234ABCD
      Session: 12345678

PLAY

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A PLAY request will cause one or all media streams to be played. Play requests can be stacked by sending multiple PLAY requests. The URL may be the aggregate URL (to play all media streams), or a single media stream URL (to play only that stream). A range can be specified. If no range is specified, the stream is played from the beginning and plays to the end, or, if the stream is paused, it is resumed at the point it was paused.
C->S: PLAY rtsp://example.com/media.mp4 RTSP/1.0
      CSeq: 4
      Range: npt=5-20
      Session: 12345678

S->C: RTSP/1.0 200 OK
      CSeq: 4
      Session: 12345678
      RTP-Info: url=rtsp://example.com/media.mp4/streamid=0;seq=9810092;rtptime=3450012

PAUSE

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A PAUSE request temporarily halts one or all media streams, so it can later be resumed with a PLAY request. The request contains an aggregate or media stream URL. A range parameter on a PAUSE request specifies when to pause. When the range parameter is omitted, the pause occurs immediately and indefinitely.
C->S: PAUSE rtsp://example.com/media.mp4 RTSP/1.0
      CSeq: 5
      Session: 12345678

S->C: RTSP/1.0 200 OK
      CSeq: 5
      Session: 12345678

RECORD

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This method initiates recording a range of media data according to the presentation description. The timestamp reflects the start and end time(UTC). If no time range is given, use the start or end time provided in the presentation description. If the session has already started, commence recording immediately. The server decides whether to store the recorded data under the request URI or another URI. If the server does not use the request URI, the response should be 201 and contain an entity which describes the states of the request and refers to the new resource, and a Location header.
C->S: RECORD rtsp://example.com/media.mp4 RTSP/1.0
      CSeq: 6
      Session: 12345678

S->C: RTSP/1.0 200 OK
      CSeq: 6
      Session: 12345678

ANNOUNCE

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The ANNOUNCE method serves two purposes:

When sent from client to server, ANNOUNCE posts the description of a presentation or media object identified by the request URL to a server. When sent from server to client, ANNOUNCE updates the session description in real time. If a new media stream is added to a presentation (e.g., during a live presentation), the whole presentation description should be sent again, rather than just the additional components, so that components can be deleted.

C->S: ANNOUNCE rtsp://example.com/media.mp4 RTSP/1.0
      CSeq: 7
      Date: 23 Jan 1997 15:35:06 GMT
      Session: 12345678
      Content-Type: application/sdp
      Content-Length: 332

      v=0
      o=mhandley 2890844526 2890845468 IN IP4 126.16.64.4
      s=SDP Seminar
      i=A Seminar on the session description protocol
      u=http://www.cs.ucl.ac.uk/staff/M.Handley/sdp.03.ps
      e=mjh@isi.edu (Mark Handley)
      c=IN IP4 224.2.17.12/127
      t=2873397496 2873404696
      a=recvonly
      m=audio 3456 RTP/AVP 0
      m=video 2232 RTP/AVP 31

S->C: RTSP/1.0 200 OK
      CSeq: 7

TEARDOWN

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A TEARDOWN request is used to terminate the session. It stops all media streams and frees all session-related data on the server.
C->S: TEARDOWN rtsp://example.com/media.mp4 RTSP/1.0
      CSeq: 8
      Session: 12345678

S->C: RTSP/1.0 200 OK
      CSeq: 8

GET_PARAMETER

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The GET_PARAMETER request retrieves the value of a parameter of a presentation or stream specified in the URI. The content of the reply and response is left to the implementation. GET_PARAMETER with no entity body may be used to test client or server liveness ("ping").
S->C: GET_PARAMETER rtsp://example.com/media.mp4 RTSP/1.0
      CSeq: 9
      Content-Type: text/parameters
      Session: 12345678
      Content-Length: 15

      packets_received
      jitter

C->S: RTSP/1.0 200 OK
      CSeq: 9
      Content-Length: 46
      Content-Type: text/parameters

      packets_received: 10
      jitter: 0.3838

SET_PARAMETER

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This method requests to set the value of a parameter for a presentation or stream specified by the URI.
C->S: SET_PARAMETER rtsp://example.com/media.mp4 RTSP/1.0
      CSeq: 10
      Content-length: 20
      Content-type: text/parameters

      barparam: barstuff

S->C: RTSP/1.0 451 Invalid Parameter
      CSeq: 10
      Content-length: 10
      Content-type: text/parameters

      barparam

REDIRECT

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A REDIRECT request informs the client that it must connect to another server location. It contains the mandatory header Location, which indicates that the client should issue requests for that URL. It may contain the parameter Range, which indicates when the redirection takes effect. If the client wants to continue to send or receive media for this URI, the client MUST issue a TEARDOWN request for the current session and a SETUP for the new session at the designated host.
S->C: REDIRECT rtsp://example.com/media.mp4 RTSP/1.0
      CSeq: 11
      Location: rtsp://bigserver.com:8001
      Range: clock=19960213T143205Z-

Embedded (Interleaved) Binary Data

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Certain firewall designs and other circumstances may force a server to interleave RTSP methods and stream data. This interleaving should generally be avoided unless necessary since it complicates client and server operation and imposes additional overhead. Interleaved binary data SHOULD only be used if RTSP is carried over TCP. Stream data such as RTP packets is encapsulated by an ASCII dollar sign (24 hexadecimal), followed by a one-byte channel identifier, followed by the length of the encapsulated binary data as a binary, two-byte integer in network byte order. The stream data follows immediately afterwards, without a CRLF, but including the upper-layer protocol headers. Each $ block contains exactly one upper-layer protocol data unit, e.g., one RTP packet.
C->S: SETUP rtsp://example.com/media.mp4 RTSP/1.0
      CSeq: 3
      Transport: RTP/AVP/TCP;interleaved=0-1

S->C: RTSP/1.0 200 OK
      CSeq: 3
      Date: 05 Jun 1997 18:57:18 GMT
      Transport: RTP/AVP/TCP;interleaved=0-1
      Session: 12345678

C->S: PLAY rtsp://example.com/media.mp4 RTSP/1.0
      CSeq: 4
      Session: 12345678

S->C: RTSP/1.0 200 OK
      CSeq: 4
      Session: 12345678
      Date: 05 Jun 1997 18:59:15 GMT
      RTP-Info: url=rtsp://example.com/media.mp4;seq=232433;rtptime=972948234

S->C: $\000{2 byte length}{"length" bytes data, w/RTP header}
S->C: $\000{2 byte length}{"length" bytes data, w/RTP header}
S->C: $\001{2 byte length}{"length" bytes  RTCP packet}

RTSP over HTTP

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RTSP over HTTP was defined by Apple in 1999[9] and [1]. It interleaves the RTP Video and Audio data into the RTSP Command Connection (as defined in RFC2326), and then sends the RTSP Command Connection via a pair of HTTP connections, one is a long running GET connection and the other is a long running POST connection.

This method is also used in the ONVIF IP Camera standard and can be combined with HTTPS for secure and encrypted video and audio.

RTSP Encryption and RTSPS

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There are several different methods for encrypting RTSP command messages and the RTP Video and Audio data.

RTSP 2.0 (RFC7826) defines several methods for encryption and introduces a new rtsps:// URL and many of these have been incorporated into RFC2326 RTSP 1.0 Clients and Servers.

  • RTSPS URL (using the rtsps:// URL) - This method uses a TLS Socket (default of Port 322) to establish an encrypted connection between the RTSP client and the RTSP Server.
    Video and Audio can then sent in one of two ways
    • TCP Video/Audio - The RTP Video and Audio is sent interleaved with the RTSP Commands over the already encrypted TLS Connection
    • UDP and Multicast-UDP Video/Audio - the RTP Video and Audio is encrypted using the Secure RTP (SRTP) protocol and sent in parallel to the RTSPS TLS connection
  • RTSP over HTTPS - this method interleaves the RTP Video and Audio data into the RTSP Command Connection (as defined in RFC2326) and then sends the RTSP Command Connection via a pair of encrypted HTTPS connections. It uses Port 443 by default.

IANA have reserved the rtsps:// URL prefix and Port 322 for RTSPS.[10] As of September 2024, RTSP over HTTPS has been implemented in several ONVIF IP Cameras and RTSPS (using the rtsps:// URL) has been implemented by Axis and Bosch CCTV Cameras,[11] FFmpeg, GStreamer, MediaMTX[12] and SharpRTSP.[13]

Rate adaptation

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RTSP using RTP and RTCP allows for the implementation of rate adaptation.[14]

Implementations

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Server

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Many CCTV / Security cameras, often called IP cameras, support RTSP streaming too, especially those with ONVIF profiles G, S, T.

Client

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References

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  1. ^ InfoWorld Media Group, Inc. (2 March 1998). InfoWorld. InfoWorld Media Group, Inc. p. 18. ISSN 0199-6649.
  2. ^ Rafael Osso (1999). Handbook of Emerging Communications Technologies: The Next Decade. CRC Press. p. 42. ISBN 978-1-4200-4962-6.
  3. ^ Rao, Anup; Lanphier, Rob. "Real Time Streaming Protocol (RTSP)". Ietf Datatracker. Retrieved 2021-02-23.
  4. ^ "RTSP prime" Henning Schulzrinne, Columbia University(http://www.cs.columbia.edu/~hgs/papers/Schu9612_RTSP.ps) December 1996
  5. ^ Schulzrinne, Henning; Rao, Anup; Lanphier, Rob (1997-02-24). "Real Time Streaming Protocol (RTSP) (draft-ietf-mmusic-rtsp-01.txt)". Ietf Datatracker. Retrieved 2021-02-23.
  6. ^ Schulzrinne, Henning; Rao, Anup; Lanphier, Rob (1998-01-15). "Real Time Streaming Protocol (RTSP) (draft-ietf-mmusic-rtsp-08.txt)". Ietf Datatracker. Retrieved 2021-02-23.
  7. ^ a b RFC 2326, Real Time Streaming Protocol (RTSP), IETF, 1998
  8. ^ Schulzrinne, Henning; Rao, Anup; Lanphier, Rob; Westerlund, Magnus; Stiemerling, Martin (December 2016). Stiemerling, M (ed.). "Real-Time Streaming Protocol Version 2.0". tools.ietf.org. doi:10.17487/RFC7826. Retrieved 2021-02-23.
  9. ^ "Developer - QuickTime - Letters from the Ice Floe". 2013-05-01. Archived from the original on 2013-05-01. Retrieved 2024-09-22.
  10. ^ "Service Name and Transport Protocol Port Number Registry".
  11. ^ "Secure RTSP streaming - SRTP/RTSPS".
  12. ^ MediaMTX
  13. ^ "Ngraziano/SharpRTSP". GitHub.
  14. ^ Santos, Hugo; Cruz, Rui Santos; Nunes, Mário Serafim (2010), "Rate Adaptation Techniques for WebTV", User Centric Media, Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, vol. 40, pp. 161–168, doi:10.1007/978-3-642-12630-7_19, ISBN 978-3-642-12629-1
  15. ^ "YouTube Mobile A Bust! (Getting 3GP/RTSP to work on WM5)". Chris Duke. 2007-06-23. Retrieved 29 May 2021.
  16. ^ cURL — Changes
  17. ^ "FFmpeg Documentation". The FFmpeg project. September 11, 2012. Section 20.19. Retrieved 2012-09-11.
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