ubiquitous sip henning schulzrinne (with stefan berger, stelios sidiroglou, kundan singh, xiaotao...
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Ubiquitous SIPUbiquitous SIP
Henning Schulzrinne(with Stefan Berger, Stelios Sidiroglou, Kundan Singh, Xiaotao Wu, Weibin Zhao and the RPIDS
authors)Columbia University IRT Lab
Hewlett Packard – March 2003
OverviewOverview
What is ubiquitous computing? Core ubiquitous communications
functionality Brief introduction to SIP Ubiquitous computing in SIP and
SLP On-going work at Columbia
What is ubiquitous What is ubiquitous computing?computing? “Ubiquitous computing has as its goal the
enhancing computer use by making many computers available throughout the physical environment, but making them effectively invisible to the user.” (Weiser, 1993)
“Ubiquitous computing is not virtual reality, it is not a Personal Digital Assistant (PDA) such as Apple's Newton, it is not a personal or intimate computer with agents doing your bidding. Unlike virtual reality, ubiquitous computing endeavers to integrate information displays into the everyday physical world. It considers the nuances of the real world to be wonderful, and aims only to augment them.” (Weiser, 1993)
Ubiquitous computing Ubiquitous computing aspectsaspects Also related to pervasive computing Mobility, but not just cell phones Computation and communications Integration of devices
“borrow” capabilities found in the environment composition into logical devices
seamless mobility session mobility adaptation to local capabilities environment senses instead of explicit user
interaction from small dumb devices to PCs
light switches and smart wallpaper
Components of ubiquitous Components of ubiquitous communicationscommunications
Service discovery discover devices
Service mobility configuration information moves to new devices
Event notification for context awareness
Context-awareness location, user actions, location properties, …
Example “ubicomp” Example “ubicomp” projectsprojects Ambient Devices EU IST Disappearing Computer Project Aura, CMU user
attention UNC “office of real soon now” augmented surfaces [Reki99] Microsoft Easy Living Oxygen, MIT Portolano, Univ. of
Washington Endeavour, Berkeley CoolTown, HP Labs
Ubiquitous computing using Ubiquitous computing using SIP – what’s different?SIP – what’s different? Traditionally, focus on closed environments
(lab, single company, home, …) Often, proprietary protocols self-
contained environment Here,
operate across Internet ( no Corba…) trusted, semi-trusted and untrusted participants use standard protocol mechanisms where
possible make minimal assumptions on homogeneity respect user privacy
What is SIP?What is SIP? Session Initiation Protocol protocol
that establishes, manages (multimedia) sessions also used for IM, presence & event
notification uses SDP to describe multimedia sessions
Developed at Columbia U. (with others) Standardized by IETF, 3GPP (for 3G
wireless), PacketCable About 60 companies produce SIP
products Microsoft’s Windows Messenger (4.7)
includes SIP
Basic SIP message flowBasic SIP message flow
SIP event notificationSIP event notification Named events Typically, used for events within conferences (“Alice
joined”) and call legs (e.g., call transfer) Supports arbitrary notification bodies, typically XML
SUBSCRIBE sip:[email protected] SIP/2.0To: <sip:[email protected]>From: <sip:[email protected]>;tag=78923Call-Id: [email protected]: <sip:[email protected]>
NOTIFY sip:[email protected] SIP/2.0…Event: message-summarySubscription-State: active
Messages-Waiting: yesMessage-Account: sip:[email protected]: 2/8 (0/2)
SIP event architectureSIP event architecture Does not try to route notifications (“application
layer multicast”) as in SIENA Filtering at PA under discussion (for low-bandwidth
devices) rate content
But most ubicomp notification groups are probably small
and message volume not likely to provide much bandwidth saving via network-based filtering
Greatly simplifies trust model: no intermediaries that need to inspect content
can encrypt via S/MIME However, can build redistribution “exploders” and
list subscriptions (“subscribe to [email protected]”)
SIP presence architectureSIP presence architecture
PA
[email protected]: 128.59.16.1
watcher
PUAs
Alice Bob
PUBLISH
REGISTERSUBSCRIBE
NOTIFY
<?xml version="1.0" encoding="UTF-8"?><p:presence xmlns:p="urn:…" entity="pres:[email protected]"><p:tuple id="sg89ae"> <p:status> <p:basic>open</p:basic> </p:status> <p:contact>tel:09012345678</p:contact></p:tuple></p:presence>
Session mobilitySession mobility Walk into office,
switch from cell phone to desk phone
call transfer problem SIP REFER
related problem: split session across end devices
e.g., wall display + desk phone + PC for collaborative application
assume devices (or stand-ins) are SIP-enabled
third-party call control
Session mobility via 3PCCSession mobility via 3PCC
INVITE speakerphonem=audioc=pc42
INVITE displaym=videoc=pc42
192.0.2.1
192.0.2.7
INVITE pc42m=videoc=192.0.2.7m=audioc=192.0.2.1
pc42
How to find services?How to find services? Two complementary developments:
smaller devices carried on user instead of stationary devices devices that can be time-shared
large plasma displays projector hi-res cameras echo-canceling speaker systems wide-area network access
Need to discover services in local environment SLP (Service Location Protocol) allows querying for services
“find all color displays with at least XGA resolution” slp://example.com/SrvRqst?public?type=printer
SLP in multicast mode SLP in DA mode
Need to discover services before getting to environment “is there a camera in the meeting room?” SLP extension: find remote DA via DNS SRV
Service Location Protocol Service Location Protocol (SLP)(SLP)
Version 2 standardized June 1999
UA
DA
SA
SA
SrvReg
SrvRply
SrvRqst
SrvRqst SrvReg
DAAdvert
SLP attribute exampleSLP attribute exampleURL service:printer:lpr://igore.wco.ftp.com/draft
scope-list Development
Language tag
en
Attributes (Name=Igore),(Description=For developers only), (Protocol=LPR),(location-description=12th floor), (Operator=James Dornan \3cdornan@monster\3e), (media-size=na-letter),(resolution=res-600),x-OK
Other service location Other service location mechanismmechanism DNS SRV/NAPTR DNS TXT records (Apple Rendezvous) DNS-SD UPnP uses SSDP:
multicast HTTP over UDP
M-SEARCH * HTTP/1.1S: uuid:ijklmnop-7dec-11d0-a765-00a0c91e6bf6Host: 239.255.255.250:reservedSSDPportMan: "ssdp:discover“ST: ge:fridgeMX: 3
HTTP/1.1 200 OKS: uuid:ijklmnop-7dec-11d0-a765-00a0c91e6bf6Ext: Cache-Control: no-cache="Ext", max-age = 5000ST: ge:fridgeUSN: uuid:abcdefgh-7dec-11d0-a765-00a0c91e6bf6AL: <blender:ixl><http://foo/bar>
Service mobilityService mobility Allow access to service parameters anywhere –
“payphone problem” address book incoming call rules source name (SIP From)
Existing solutions: SIM card cumbersome to change synchronization (e.g., Palm) not suitable for borrowed
devices Server-based services easier with SIP (service-routing),
if carrier allows Emerging solutions for SIP systems:
Small user token (smart card, RFID, i-button) identifying user
Temporarily download configuration from home server
LocationsLocations Geographic location
latitude, longitude, altitude, velocity, heading Civil location (≠ postal location!)
street address, city some countries are a bit difficult…
Categorical office, library, theater, hospital, …
Behavioral “public location, don't expect privacy” “silence is encouraged, don't ring the phone”
Determining locationsDetermining locations SIP entities are often far away from physical user or his
current network (intentionally) For many devices, can’t afford hardware to determine location
different precision requirements: “in Fayette County” (within driving distance of service or person) “on campus” “in room 815” “in corner, talking to Bob”
GPS doesn’t work indoors, but Assisted GPS (A-GPS) may Use location beacons: BlueTooth, 802.11
may not offer network connectivity see our 7DS project: offer local content + location
Physically close by network entities: DHCP (same broadcast domain) PPP (tail circuit)
Not always true with VPNs, but end system knows that it’s using a VPN
DHCP for locationsDHCP for locations modified dhcpd (ISC) to generate location information use MAC address backtracing to get location information
DHCPserver
458/17 Rm. 815458/18 Rm. 816
DHCP answer:sta=DC loc=Rm815lat=38.89868 long=77.03723
8:0:20:ab:d5:d
CDP + SNMP8:0:20:ab:d5:d 458/17
Determining locationsDetermining locations For many devices,
can’t afford hardware to determine location Implementing
BlueTooth-based location sensor networks
CU 7DS project: offer local content + location
Developing programmable active badges with IR and RF capabilities
DHCP for locationsDHCP for locations Proposal: DHCP extensions for geographic and
civil location geographic: resolution (bits), long/lat, altitude
(meters or floors) civil:
what: end system, switch or DHCP server hierarchical subdivisions, from country to street,
landmark name, occupant Also, some LAN switches broadcast port and
switch identification CDP for Cisco, EDP for Extreme Networks
Can also use backtracking via SNMP switch tables
locally implemented for emergency services (Perl sip-cgi script)
Location-based servicesLocation-based services Services:
Location-aware call routing “do not forward call if time at callee location is [11 pm, 8
am]” “only forward time-for-lunch if destination is on campus” “contact nearest emergency call center” “do not ring phone if I’m in a theater” “send [email protected] to nearest branch”
Location-based events subscribe to locations, not people “Alice has entered the meeting room” subscriber may be device in room our lab stereo
changes CDs for each person that enters the room Person + location events
We’re implementing SIP, caller-preferences and CPL extensions for these services
SIP extensions for location-SIP extensions for location-based servicesbased services Location information is highly sensitive
complete tracking of person stalkers and burglars would kill for this information
IETF GEOPRIV principle: “target” can control dissemination of location information
restrict time of day, information (location, heading, velocity) resolution, number of times queried, destination, retention, …
“Alice is in time zone MET” may be ok for strangers, but “Alice is at 41.872833 N, 087.624417 W, heading NE at 45 mph” is not
GEOPRIV still defining application scenarios in many cases, easiest to include location information “in-
band” with protocol, as this avoids delegating authorization
otherwise, need to give access key to database to recipient we propose adding SIP Location header field
RPIDS: rich presence dataRPIDS: rich presence data Basic IETF presence (CPIM) only gives you
contact information (SIP, tel URI) priority “open” or “closed”
Want to use presence to guide communications
PA
watcher
PUA watcher
watcher
PUBLISH
NOTIFY
everything
"vague"
CPL
INVITE
Aside: SIP caller Aside: SIP caller preferencespreferences
SIP core philosophy: many devices, one identifier Address people, not plastic
Aside: SIP caller Aside: SIP caller preferencespreferences But caller sometimes has preferences among devices SIP caller guides call routing:
“I hate voicemail!” “I hate people!” “I prefer voicemail” Multilingual lines
“Caller proposes, callee disposes”
[email protected]: 128.59.16.1
sip:[email protected];languages="es"sip:[email protected];languages="en";q=0.2
sip:[email protected];languages="en"
INVITE sip:[email protected]: *;languages="en"
INVITE
REGISTER
RPIDS: Rich presence data RPIDS: Rich presence data Integrates caller preferences information into
presence announcements <class>: presentity, group, device <category>: activity (on-the-phone, away,
appointment, holiday, meal, meeting, steering, in-transit, travel, vacation, busy, permanent-absence)
<placetype>: home, office, public <privacy>: public, private, quiet <from>, <until>: status validity <activity>, <idlesince>: activity for device <relationship>: family, associate, assistant,
supervisor <label>: permanent label, not to be modified
RPIDS exampleRPIDS example<tuple id="7c8dqui"> <status> <basic>open</basic> <contact>sip:[email protected]</contact> <cap:capabilities>
<cap:feature name="Media"> <cap:value>voice</cap:value> <cap:value negated="true">message</cap:value> </cap:feature> </cap:capabilities> </status> <ep:relationship>assistant</ep:relationship> <note>My secretary</note></tuple>
Event filteringEvent filtering
Events are core attribute of ubiquitous computing systems tell devices about people actions tell people about device presence e.g., “Alice has entered Room 815”
devices that know Alice’s preferences subscribe to Alice
locations may also have presence e.g., for occupancy sensors, switches
Location filtering languageLocation filtering language SIP presence information will be updated using REGISTER and
UPDATE Need to constrain
who is allowed to see what detail presentity privacy who wants to see what detail
how often what granularity of change
Proposal to allow SUBSCRIBE to include frequency limitation Working on CPL-like language invoked (logically) at publication
time classes of users, e.g., based on entry in my address book classes get mapped to restriction
“12 bits of long/lat resolution, 6 bits of altitude resolution, 0 bits of velocity”
“time zone only”, “category only” watchers can then add filters that restrict the delivery:
location difference > threshold entering or leaving certain area entering or leaving category or behavioral type
Columbia SIP servers Columbia SIP servers (CINEMA)(CINEMA)
InternalTelephoneExtn: 7040
SIP/PSTN Gateway
Department PBX
Web based configuration
Web server
Telephoneswitch
SQLdatabase
sipd:Proxy, redirect, registrar server
Extn: 7134
xiaotaow@cs NetMeeting
H.323
rtspd: media server
sipum: Unified messaging
Quicktime
RTSP clients
RTSP
Extn: 7136
713x
Single machine
SNMP(Network Management)
sipconf: Conference server
siph323: SIP-H.323 translator
Local/long distance1-212-5551212
Location-based services in Location-based services in CINEMACINEMA Initial proof-of-concept implementation Integrate devices:
lava lamp via X10 controller set personalized light mood setting
Pingtel phone add outgoing line to phone and register user
painful: needs to be done via HTTP POST request stereo change to audio CD track based on
user Sense user presence and identity:
passive infrared (PIR) occupancy sensor magnetic swipe card ibutton BlueTooth equipped PDA IR+RF badge (in progress) RFID (future) biometrics (future)
CINEMA systemCINEMA system
All-SIP implementationAll-SIP implementation
Service creationService creation
programmer, carrier
end user
network servers
SIP servlets, sip-cgi
CPL
end system VoiceXML VoiceXML (voice),LESS
Promise of faster service creation traditionally, only vendors (and sometimes carriers) learn from web models
sip-cgisip-cgi web common gateway interface (cgi):
oldest (and still most commonly used) interface for dynamic content generation
web server invokes process and passes HTTP request via
stdin (POST body) environment variables HTTP headers, URL arguments as POST body or GET headers (?
arg1=var1&arg2=var2) new process for each request not very efficient but easy to learn, robust (no state) support from just about any programming language
(C, Perl, Tcl, Python, VisualBasic, ...) Adapt cgi model to SIP sip-cgi RFC 3050
sip-cgi examplessip-cgi examples Block *@vinylsiding.com:if (defined $ENV{SIP_FROM} && $ENV{SIP_FROM} =~
"sip:*@vinylsiding.com") { print "SIP/2.0 600 I can't talk right now\n\n";}
Make calls from boss urgent:if (defined $ENV{SIP_FROM} && $ENV{SIP_FROM}
=~ /sip:[email protected]/) { foreach $reg (get_regs()) { print "CGI-PROXY-REQUEST $reg SIP/2.0\n"; print "Priority: urgent\n\n"; }}
Call Processing Language Call Processing Language (CPL)(CPL) XML-based “language” for processing requests intentionally restricted to branching and
subroutines no variables (may change), no loops thus, easily represented graphically
and most bugs can be detected statically termination assured
mostly used for SIP, but protocol-independent integrates notion of calendaring (time ranges) structured tree describing actions performed on
call setup event top-level events: incoming and outgoing
CPLCPL Location set stored as implicit global variable
operations can add, filter and delete entries Switches:
address language time, using CALSCH notation (e.g., exported from Outlook) priority
Proxy node proxies request and then branches on response (busy, redirection, noanswer, ...)
Reject and redirect perform corresponding protocol actions
Supports abstract logging and email operation
CPL exampleCPL example
String-switchfield: from
match:*@example.com
otherwise
proxytimeout: 10s
locationurl: sip:jones@
example.comvoicemail.
merge: clear
locationurl: sip:jones@
example.com
redirect
Call
busy
timeout
failure
CPL exampleCPL example<?xml version="1.0" ?><!DOCTYPE call SYSTEM "cpl.dtd">
<cpl> <incoming> <lookup source="http://www.example.com/cgi-bin/locate.cgi?
user=jones" timeout="8"> <success> <proxy /> </success> <failure> <mail url="mailto:[email protected]&Subject=lookup%20failed" /> </failure> </lookup> </incoming></cpl>
CPL example: anonymous CPL example: anonymous call screeningcall screening<cpl>
<incoming><address-switch field="origin"
subfield="user"><address is="anonymous">
<reject status="reject"reason="I don't accept anonymous
calls" /></address>
</address-switch></incoming>
</cpl>
Service creation – a Service creation – a comparisoncomparison
API servlets sip-cgi CPL
language-independent
no Java only yes own
secure no mostly can be yes
end user service creation
no yes power users
yes
GUI tools no no no yes
Multimedia some yes yes yes
call creation yes no no no
Service creation for presence Service creation for presence services (work-in-progress)services (work-in-progress) Accept or deny subscriptions Shape presence notifications
different level of detail for family, friends and colleagues
particularly important for geo data Subscriber can filter detail
primarily, wireless bandwidth constraints rate limit notifications XPath?
Mostly, condition/reaction CPL can be extended to most of these functions
Pushing context-sensitive Pushing context-sensitive data to usersdata to users User with mobile device should get location
information when entering city, campus or building
flight and gate information maps and directions local weather forecast special advisories (“choose security checkpoint 2”)
Often does not require knowing user but interface with (e.g.) calendar
Example Columbia implementation: OBEX data exchange over BlueTooth PDA pushes current appointment or event name base station delivers directions and map
ConclusionConclusion SIP + auxiliary protocols supports many of the core
requirements for ubiquitous computing and communications:
mobility modalities: terminal, user, session, service service negotiation for devices with different capabilities automatic configuration and discovery
with SLP or similar event notification and triggered actions automatic actions: event filtering, CPL, LESS (for end
system services) SIP offers a loosely-coupled approach (cf. Jini or object
models) Also need data push functionality Avoid tendency to assume SIP users are human – want
to interconnect different components and devices SIP device configuration needs automation, rather than
screen-scraping