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H.264, Mpls , rsvp , Qos
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Introduction to QoS Protocols and RSVP
Jayaprakash.N
The goal :◦ Provide some level of predictability and control
beyond the current IP “best-effort” service
Performance attributes◦ Service availability◦ Delay◦ Delay variation (jitter)◦ Throughput◦ Packet loss rate
Vary according to Service Level Agreement (SLA)
ReSerVation Protocol (RSVP) Multi Protocol Labeling Switching (MPLS) Subnet Bandwidth Management (SBM)
a network-control protocol that enables Internet applications to obtain differing qualities of service (QoS) for their data flows.
different applications have different network performance requirements.
Applications like,◦ e-mail - require reliable delivery but not timeliness of
delivery◦ videoconferencing, IP telephony - Data delivery must be
timely but not necessarily reliable
RSVP is not a routing protocol works in conjunction with routing protocols implementing RSVP in an existing network does not
require migration to a new routing protocol Researchers at USC (ISI) and Xerox’s PARC
conceived RSVP. IETF specified an Open version in RFC 2205
Data Flows Quality of Service Session Startup Reservation Style Soft State Implementation Architecture and Protocol Messages Packet Format
a data flow is a sequence of datagrams that have the same source, destination and quality of service.
flow specification - a data structure used by hosts to request special services from the internetwork.
describes the level of service requirement ( one of 3 traffic types)◦ Best-effort◦ Rate-sensitive◦ Delay-sensitive
Best-effort traffic◦ applications require reliable delivery of data regardless of
the amount of time needed to achieve that delivery.◦ Eg. File transfer, transaction traffic
Rate-sensitive traffic◦ a guaranteed transmission rate from its source to its
destination.◦ Eg. H.323 videoconferencing (Constant Rate)
Delay-sensitive traffic◦ timeliness of delivery and that varies its rate accordingly◦ Eg. MPEG-II video (averages about 3 to 7 Mbps)
designed to manage flows of data rather than make decisions
Data flows consist of discrete sessions between specific source and destination
Sessions are identified by the following data: destination address, protocol ID, and destination port.
RSVP supports both unicast and multicast simplex sessions.
an attribute determine the way in which data interchanges are handled by participating entities (routers, receivers, and senders)
used to specify the QoS by,◦ Hosts (to request a QoS level from the network) ◦ Routers (deliver QoS requests to other routers along the
path(s)) maintains the router and host state to provide the
requested service.
To initiate an RSVP multicast session, a receiver first joins the multicast group using IGMP.
In unicast session, unicast routing serves function of IGMP.
Sender sends RSVP path message to IP destination address.
The receiver application receives a path message and send reservation-request messages with desired flow descriptors using RSVP.
After the sender application receives a reservation-request message, the sender starts sending data packets.
a set of control options that specify a number of supported parameters
supports two major classes of reservation: ◦ distinct reservations
install a flow for each relevant sender in each session
◦ shared reservations used by a set of senders that are known not to interfere with each
other
distinct and shared RSVP reservation-style types in the context of their scope,
RSVP Supports Both Distinct Reservations and Shared Reservations
Wildcard-Filter Style◦ a single reservation is created into which flows from all
upstream senders are mixed.◦ size is the largest of the resource requests for that link from
all receivers Fixed-Filter Style
◦ a distinct reservation request is created for data packets from a particular sender
◦ scope is determined by an explicit list of senders◦ The total reservation on a link for a given session is the total
of the FF reservations for all requested senders
Shared-Explicit Style◦ a shared reservation environment with an explicit reservation
scope◦ the set of senders is specified explicitly by the receiver making
the reservation
a soft state refers to a state in routers and end nodes updated by certain RSVP messages Permits dynamic group membership changes and
adapt to changes in routing To maintain a reservation state, RSVP tracks a soft
state in router and host nodes
The RSVP soft state is created and must be periodically refreshed by path and reservation-request messages.
If no matching refresh messages arrive before the expiration timeout, the state is deleted.
also can be deleted by an explicit teardown message When a route changes, the next path message
initializes the path state on the new route. When state changes occur, RSVP propagates those
changes from end to end within an RSVP network without delay
Packet classifier: determines the route and QoS class for each packet
Admission control: determines whether the node has sufficient available resources to supply the required QoS
Policy control: determines whether the user has administrative permission to make the reservation.
Packet scheduler: manages the various queues to guarantee the required QoS (resources like CPU time or buffers)
process initiation begins when an RSVP daemon consults the local routing protocol(s) to obtain routes.
A host sends IGMP messages to join a multicast group and RSVP messages to reserve resources along the delivery path(s).
Each router passes incoming data packets to a packet classifier and packet scheduler.
A QoS request, originating in a receiver host application
Protocol then is used to pass the request to all the nodes (routers and hosts) along the reverse data path(s) to the data source(s).
At each node, the RSVP program applies a local decision procedure called admission control and policy control.
If control succeeds, sets the parameters to obtain the desired QoS
If admission control fails at any node, the program returns an error indication to the application that originated the request.
impossible to deploy RSVP or any new protocol at the same moment throughout the entire Internet.
when two RSVP-capable routers are interconnected via non-RSVP routers
Non-RSVP is incapable of performing resource reservation
but can provide acceptable and useful real-time service
RSVP supports tunneling, which occurs automatically through non-RSVP routers.
Tunneling requires RSVP and non-RSVP routers to forward path messages toward the destination using local routing table
a path message traverses a non-RSVP router, the path message copies carry the IP address of the last RSVP-capable router.
Reservation-request messages are forwarded to the next upstream RSVP-capable router.
Supports four basic message types, Reservation-Request Messages
◦ sent by each receiver host toward the senders.◦ must be delivered to the sender hosts to set up appropriate
traffic-control parameters. Path Messages
◦ sent by each sender along the unicast or multicast routes◦ A path message is used to store the path state in each node. ◦ The path state is used to route reservation-request messages
in the reverse direction.
Teardown Messages◦ remove the path and reservation state without waiting for
the cleanup timeout Path-teardown messages Reservation-request teardown messages
Error and Confirmation Messages◦ Path-error messages◦ Reservation-request error messages
Admission Failure Bandwidth unavailable Service not supported
◦ Reservation-request acknowledgment messages
RSVP message header fields are comprised of the following:◦ Version—A 4-bit field indicating the protocol version number (currently
version 1).◦ Flags—A 4-bit field with no flags currently defined.◦ Checksum—A 16-bit field representing a standard TCP/UDP checksum
over the contents of the RSVP message◦ Length—A 16-bit field representing the length of this RSVP packet in
bytes.◦ Send TTL—An 8-bit field indicating the IP time-to-live (TTL) value with
which the message was sent.
◦ Type—An 8-bit field with six possible (integer) values.
◦ Message ID—A 32-bit field providing a label shared by all fragments of one message
◦ More fragments (MF) flag—Low-order bit of a 1-byte word with the other 7 high-order bits specified as reserved. MF is set on for all but the last fragment of a message.
◦ Fragment offset—A 24-bit field representing the byte offset of the fragment in the message
RSVP is a transport layer protocol that enables a network to provide differentiated levels of service to specific flows of data.
different application types have different performance requirements.
RSVP acknowledges these differences and provides the mechanisms necessary to detect the levels of performance required by different applications.
Is it necessary to migrate away from your existing routing protocol to support RSVP?
Identify the three RSVP levels of service? What are the two RSVP reservation classes, and how
do they differ? How can RSVP be used through network regions that
do not support RSVP?
Thank You
MPLS is a packet forwarding technology which uses labels to make data forwarding decisions.
With MPLS, the Layer 3 header analysis is done just once (when the packet enters the MPLS domain). Label inspection drives subsequent packet forwarding.
MPLS provides these beneficial applications:◦ Virtual Private Networking (VPN)◦ Traffic Engineering (TE)◦ Quality of Service (QoS)◦ Any Transport over MPLS (AToM)
Additionally, it decreases the forwarding overhead on the core routers. MPLS technologies are applicable to any network layer protocol.
A label is a short, four byte, fixed length, locally significant identifier which is used to identify a Forwarding Equivalence Class (FEC).
The label which is put on a particular packet represents the FEC to which that packet is assigned.
◦ Label - Label Value (Unstructured), 20 bits◦ Exp - Experimental Use, 3 bits; currently used as a Class of
Service (CoS) field.◦ S - Bottom of Stack, 1 bit and TTLTime - to Live, 8 bits
Applies to the Data Link Layer (OSI layer 2) Makes LAN topologies (e.g. Ethernet) QoS-enabled
◦ Fundamental requirement◦ All traffic must pass through at least one SBM-enabled
switch SBM Modules
◦ Bandwidth Allocator (BA)◦ Hosted on switches
Performs admission control◦ Requestor Module (RM)◦ Resides in every end-station◦ Maps Layer 2 priority levels and the higher-layer QoS
protocol parameters
Thanks