Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Distributed firewall wikipedia , lookup
Dynamic Host Configuration Protocol wikipedia , lookup
Cracking of wireless networks wikipedia , lookup
Recursive InterNetwork Architecture (RINA) wikipedia , lookup
Internet protocol suite wikipedia , lookup
Remote Desktop Services wikipedia , lookup
Zero-configuration networking wikipedia , lookup
SIP extensions for the IP Multimedia Subsystem wikipedia , lookup
Internet Multimedia Architecture Jim Chou and Thinh Nguyen February 12, 2002 Outline Overview Multimedia Applications Signaling Protocols (SIP/SDP, SAP, H.323, MGCP) Streaming Protocols (RTP, RTSP, HTTP, etc.) QoS (RSVP, Diff-Serv, IntServ) Conclusions Multimedia protocol stack Signaling Quality of Service Media Transport H.323 SDP RTSP Reservation Measurement RSVP RTCP SIP H.261, MPEG RTP TCP Application daemon MGCP/Megaco UDP network IPv4, IPv6 kernel link PPP physical Sonet AAL3/4 AAL5 ATM PPP Ethernet V.34 Multimedia applications Audio – Speech (CELP – type codecs) – Music (MP3, WAV, WMA, Real) Video (MPEG –1, 2, 4) Streaming done using HTTP/TCP (MP3), or RTP/UDP (Video). Multimedia applications (cont.) Wireless network Gateway 9.6 kbps Media server 1 Mbps PSTN 28 kbps Signaling protocols VoIP predominantly uses two: – SIP/SDP – H.323 Session initiation protocol (SIP) Developed in mmusic Group in IETF – Proposed standard RFC2543, February 1999 – Work began 1995 – Part of Internet Multimedia Conferencing Suite (MBONE) Main Functions – Invite users to sessions • Find the user’s current location, match with their capabilities and preferences in order to deliver invitation • Carry opaque session descriptions – Modification of sessions – Termination of sessions SIP overview TRIP LDAP PSTN gateway lookup Address lookup SIP SDP Next-Hop DNS May trigger SIP SDP Sets up RSVP RTP UDP RSVP RTP UDP SIP components User Agent Client (UAC) – End systems – Send SIP requests User Agent Server (UAS) – Listens for call requests – Prompts user or executes program to determine response User Agent – UAC plus UAS SIP components (cont.) Redirect Server – Network server - redirects users to try other server Proxy Server – Network server - a proxy request to another server can “fork” request to multiple servers, creating a search tree Registrar – Receives registrations regarding current user locations SIP architecture Request Response columbia.edu Media SIP Redirect Server Location Service 2 3 berkeley.edu sip.com 5 4 sip:[email protected] 6 1 7 11 12 13 SIP Client SIP Proxy sales.sip.com 10 SIP Proxy 8 14 9 [email protected] SIP Client (User Agent Server) Sip architecture (cont.) SIP state-less proxies (near core of network) – used for re-direction SIP state-ful proxies (near periphery of network) – Keeps track of state of call – Useful for billing/logging, authentication Routing – Registration database, external database – TRIP SIP architecture (cont.) DB On Startup, SIP UA Sends REGISTER to Registrar Registration Data Provides Addresses to Reach User Registration Database Forms a Dynamic Routing Database of Users Registrar SQL/LDAP/? Proxy Farm INVITE Centralized Store is Desired for Scalability SIP architecture (cont.) SIP INVITE Can Contain Phone Numbers – sip:[email protected] – tel:17325551212 Do Not Correspond to Users on IP Network, but PSTN Terminals tel:19735551212 sip:19735551212@ longdistance.com Call Must Be Routed to Gateway Gateways Often Arranged Through Peering Which One to Use Based on Prefixes (Domestic = gw1, Europe = gw2) Route Table is Mapping From Prefixes to Next Hop IP address/port/transport Plus URL Rewrite Rules 1-732 regional.com 1 longdistance.com international.com SIP architecture (cont.) Gateways Inter-domain Protocol for Gateway Route Exchange – Completed February 2000 TRIP Supports Various Models – Bilateral agreements – Centralized settlements provider Location Server ISP B TRIP End Users ISP A Front End SIP call flow example USER A PROXY PROXY USER B INVITE 407 Proxy Authenticate ACK INVITE INVITE 100 Trying INVITE 100 Trying 180 Ringing 180 Ringing 180 Ringing 200 OK 200 OK 200 OK ACK ACK ACK BOTH WAY RTP BYE BYE BYE 200 OK 200 OK 200 OK Session Description Protocol (SDP) Used to specify client capabilities Example (client can support MPEG-1 video codec, and MP3 codecs) Session Anouncement Protocol (SAP) Originated around same time as SIP Used to announce multimedia sessions – Announcement goes to users in a multicast group – Announcements can contain start time of session, duration of session, etc. Multimedia Gateway Control Protocol (MGCP) Decompose gateway into a controlling signalling component and a controlled media component. Can be used in phones or gateways in conjunction with SIP H.323 May 1995 - H.323 work started June 1996 - Decided by ITU-T Designed for exchanging multimedia over IP networks (4 versions of H.323) H.323 Components Terminals Gatekeepers Gateways (H.323 to H.320/H.324/POTS) MCUs – Multipoint Controller (MC) – Multipoint Processor (MP) H.323 Gatekeeper Address Translation – H.323 Alias to transport (IP) address based on terminal registration – “email-like” names possible – “phone number like” names possible Admission control – Permission to complete call – Can apply bandwidth limits – Method to control LAN traffic H.323 Gatekeeper (cont.) Management of gateway – H.320, H.324, POTS, etc. Call Signaling – May route calls in order to provide supplementary services or to provide Multipoint Controller functionality Call Management/Reporting/Logging H.323 Gateway Provide world wide connectivity and interoperability from LAN – H.320, H.324, regular POTS telephones Map Call Signaling (Q.931 to H.225.0) Map Control (H.242/H.243 to H.245) Media Mapping (FEC, multiplex, rate matching, audio transcoding) H.323 MCU Media Distribution – Unicast - send media to one terminal (centralized in MP; traditional model) – Multicast - send to each receiver directly – Hybrid - some of each Manage Ad Hoc multipoint calls – Join, invite, control of conference modes Multiprotocol via Gateways H.323 protocol stack Control Data Audio Video A/V Cntl Control Gatekeeper G.7xx H.26x RTCP H.225.0 H.245 T.120 RTP TCP UDP IP Reg, Adm, Status (RAS) H.323 protocol stack (cont.) H.323 - System Document H.225.0 - Call Signaling, Packetization – Gatekeeper Registration, Admission, and Status H.245 - Control (also used in H.324, H.310) T.120 - Data and Conference Control H.323 example A Call Setup Example a point to point call One Gatekeeper using the Direct Call Model H.323 example (cont.) GK (1) ARQ Can I call “Bob”? (3) ACF Yes, use this IP Address Bill (2a) GK resolves “Bob” to IP address through H.323 registration or external name service (e.g. DNS, ULS, etc..) (2b) Admission Policy Applied PictureTel Bob H.323 example (cont.) GK (5) ARQ May I answer? (6) ACF Yes (4) SETUP (Create) (7) ALERTING PictureTel (8) CONNECT (User answers) Bill Bob H.323 example (cont.) PictureTel (9) H.245 connection established Bill - Capability Exchange - Open Logical Channels (audio, video) Bob