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CHAPTER 5 THE NETWORK LAYER
I. Network Layer Design Issues(网络层设计概述)
II. Routing Algorithm (路由算法)III.Congestion Control Algorithms (拥塞控制算法)
IV.QOS Control Algorithms (服务质量控制算法)V. Internetworking (网络互连)VI.The Network Layer in the Internet
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NETWORK LAYER DESIGN ISUES
1. Store-and-Forward Packet Switching (存储转发分组交换)
2. Services Provided to the Transport Layer(为传输层提供的服务)
3. Implementation of Connectionless Service(无连接服务的实现)
4. Implementation of Connection-Oriented Service(面向连接服务的实现)
5. Comparison of Virtual-Circuit and Datagram Subnets
(虚电路或数据报子网的比较)
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Network Layer Design Issues: Store-and-forward packet switching
A host with a packet to send transmits it to the nearest router.The packet is received, verified, and stored. Then it is forwarded to the next router. This step can be repeated many times.
Finally the packet reaches the destination host. (存储转发分组交换)
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Network Layer Design Issues: Services provided to the transport layer
• The network layer services should been designed with the following goals in mind. – The services should be independent of the router
technology.– The transport layer should be shielded from the number,
type, and topology of the routers present. – The network addresses made available to the transport
layer should use a uniform numbering plan, even cross LANs and WANs.
• Two types of network layer services: – Connection-oriented service vs connected-less service
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Network Layer Design Issues: Services provided to the transport layer
• Two-type of services:– Connection-less services (无连接服务):
• 40+ years of experience with the computer network, unreliable internet, hosts doing error control and flow control.
– Connection-oriented services(面向连接服务): • 100+ years of experience with the worldwide
telephone system, quality of service. Connection-less + connection-oriented
services.
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Network Layer Design Issues: Services provided to the transport layer
• Implementation of connectionless services – No advance setup is needed. – Packets are injected into the subnet individually and
routed independently of each other. – The packets are frequently called datagrams (in analogy
with telegrams) and the subnet is called a datagram subnet.
• Implementation of connection-oriented services – A path from the source router to the destination router
must be established before any data packets can be sent. – This connection is called a VC (virtual circuit), similar to
physical circuits set up by the telephone system, – The subnet is called a virtual-circuit subnet.
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Network Layer Design Issues: Implementation of Connectionless Service
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Network Layer Design Issues: Implementation of Connectionless Service
P1 on H1 P2 on H2• P1:application layer H1: transport layer• H1:transport layer H1: network layer (disassemble)
• H1:network layer H2: network layer – The routes for packets 1,2,3
H1 A C E F H2– The routes for packets 4
H1 A B D E F H2
• H2: network layer H2: transport layer (assemble)• H2: transport layer P2: application layer
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Network Layer Design Issues: Implementation of Connection-Oriented Service
Routing within a virtual-circuit subnet
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Network Layer Design Issues: Comparison of Virtual-Circuit and Datagram Subnets
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ROUTING ALGORITHMS(路由选择算法)
1. The Optimality Principle (最优化原则)2. Shortest Path Routing (最短路径路由)3. Flooding (泛洪路由)4. Distance Vector Routing (距离向量路由)5. Link State Routing (链路状态路由)6. Hierarchical Routing (分层路由)7. Broadcast Routing (广播路由)8. Multicast Routing (组播路由)9. Anycast Routing (选播路由)10.Routing for Mobile Hosts (移动主机的路由)11.Routing in Ad Hoc Networks (自组织网络的路由)
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Routing Algorithms: Introduction• The main function of the network layer is to route
packets from the source machine to the destination machine.
• The routing algorithm is used to decide which output line an incoming packet should be transmitted on – For datagram networks, this decision must be
made anew for every arriving data packet since the best route may have changed since last time.
– For virtual-circuit networks, this decision is made only when a new virtual circuit is being set up. Thereafter, data packets just follow the previously established route.
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Routing Algorithms: Introduction• A router performs two tasks:
– To forward the incoming packet according to the routing table (Forwarding)
– To fill in and update the routing table (Routing)• Desirable properties in a routing algorithm:
– Correctness (正确性), simplicity (简单性): no comment – Robustness (健壮性): The routing algorithm should cope
with changes in the topology and traffic without requiring all processes in all hosts to be aborted and the network to be rebooted every time some router crashes.
– Stability(稳定性): A stable algorithm reaches equilibrium and stays there.
– Fairness (公平性), Efficiency (高效率): Conflict between fairness and efficiency.
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Routing Algorithms: Introduction
Conflict between fairness and efficiency.
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Routing Algorithms: Introduction• Classes of routing algorithms
– Nonadaptive algorithms (非自适应算法) do not base their routing decisions on measurements or estimates of the current traffic and topology. Instead, the choice of the route to use to get from I to J (for all I . and J) is computed in advance, off-line, and downloaded to the routers when the network is booted.
– Adaptive algorithms (自适应算法), in contrast, change their routing decisions to reflect changes in the topology, and usually the traffic as well. They differ in • where they get their information, • when they change the routes, and • what metric is used for optimization.
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Routing Algorithms: The optimality principle
• Optimality principle(最优化原则): If router J is on the optimal path from router I to router K (IJK), then the optimal path from J to K also falls along the same route.
• Sink tree (汇集树): The set of optimal routes from all sources to a given destination form a tree rooted at the destination. (a) A subnet. (b) A sink tree for router B.
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Routing Algorithms: Shortest path routing• To build a graph of the subnet,
– with each graph node representing a router and– each graph edge representing a communication
line.• To choose a route between a given pair of routers, the
algorithm just finds the shortest path between them. • How to measure path length:
– Hops (跳数), Physical distance (物理距离), Bandwidth (带宽), traffic (流量), cost (费用), measured delay (测量延迟), mean queue length (平均队列长度) and
– Other factors or combinations of these factors.
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Routing Algorithms: Shortest path routing
• Use Dijkstra's algorithm to compute the shortest path. – Each node is labeled with its distance from the source
node along the best known path. – Initially, no paths are known, so all nodes are
temporarily labeled with infinity.– As the algorithm proceeds and paths are found, the
labels may change, reflecting better paths. A label may be either temporary or permanent.
– When it is discovered that a label represents the shortest possible path from the source to that node, it is made permanent and never changed thereafter.
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Routing Algorithms: Shortest path routing
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Routing Algorithms: Shortest path routing
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Routing Algorithms: Shortest path routing
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Routing Algorithms: Flooding
• Flooding(泛洪): Every incoming packet is sent out on every outgoing line except the one it arrived on.
• How to damp the flooding process:– One is to have a hop counter contained in the header
of each packet, which is decremented at each hop.– The other is to keep track of which packets have been
flooded, to avoid sending them out a second time.• A variation of flooding that is slightly more practical is
selective flooding. • Flooding is not practical in most applications, but it
does have some uses such as military applications.
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Routing Algorithms: Distance vector routing
• Distance vector routing(距离矢量路由)(也叫Bellman-Ford routing): – Each router maintains a vector or table giving
• the best known distance to each destination and• which line to use to get there.
– These tables are updated by exchanging information with the neighbors. To update these tables• Measure its distance to its neighbors• Receive the vectors from its neighbors• Compute its own new vector.
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Routing Algorithms: Distance vector routing• Assume that
– delay is used as a metric (度量) and that the router knows the delay to each of its neighbors.
– Once every msec, each router sends to each neighbor a list of its estimated delays to each destination. It also receives a similar list from each neighbor.
• Imagine – one of these tables has just come in from neighbor X, with Xi
being’s estimate of how long it takes to get to router i.– If the router knows that the delay to X is m msec, – Then it can reach router i via X in Xi + m msec.
• By performing this calculation for each neighbor, a router can find out which estimate seems the best and use that estimate and the corresponding link in its new routing table.
• Note that the old routing table is not used in the calculation.
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Routing Algorithms: Distance vector routing(a) A subnet. (b) Input
from A,I, H, K, and thenew routingtable for J.
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Routing Algorithms: Distance vector routingThe count-to-infinity problem (无穷计数问题):
It reacts rapidly to good news, but leisurely to bad news.
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Routing Algorithms: Link state routing• Problems with distance vector routing
– The delay metric was queue length, thus it did not take line bandwidth into account when choosing routes.
– The algorithm often took too long to converge. • Link state routing: Each router must do the
following: 1. Discover its neighbors, learn their network address.2. Set the distance or cost metric to each of its neighbors.3. Construct a packet containing all it has just learned.4. Send this packet to and receive packets from all other
routers.5. Compute the shortest path to every other router.
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Routing Algorithms: Link state routing
• Step 1: Learning about the neighbors– One router sends a special HELLO packet on
each point-to-point line. – The router on the other end is expected to send
back a reply telling who it is. – These names must be globally unique. – The info about the neighbors can be found out.
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Routing Algorithms: Link state routingDesignated Router (指定路由器) and Backup Designated Router (后备指定路由器)(a) Nine routers and a LAN. (b) A graph model of (a)
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Routing Algorithms: Link state routing
• Step 2: Measuring line cost– To determine the delay is to send over the line a
special ECHO packet that the other side is required to send back immediately.
– By measuring the round-trip time and dividing it by 2, the sending router can get a reasonable estimate of the delay.
– Average delay value can be better.
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Routing Algorithms: Link state routing• Steps 3: Building link state packets
– Each router builds a packet containing all the data. – The packet starts with the identity of the sender,
followed by a sequence number and age and a list of neighbors.
– To build them is easy, but when to build them is difficult to determine: • To build them periodically (at regular intervals)• To build them when some significant event occurs,
such as a line or neighbor going down or coming back up again or changing its properties appreciably.
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Routing Algorithms: Link state routing
(a) A subnet. (b) The link state packets for this subnet.
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Routing Algorithms: Link state routing
• Steps 4: Distributing the link state packets– To use flooding to distribute the link state packets– To keep track of all the (source router, sequence)
pairs they see. – To include the age of each packet after the
sequence number and decrement it once per second.
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Routing Algorithms: Link state routing
The packet buffer for router B
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Routing Algorithms: Link state routing• Steps 5: Computing the new routes
– Once a router has accumulated a full set of link state packets, it can construct the entire subnet graph because every link is represented.
– Dijkstra’s algorithm can be run locally to construct the shortest path to all possible destinations. The results of this algorithm can be installed in the routing tables.
– Some applications• IS-IS (Intermediate System – Intermediate System)• OSPF (Open Shortest Path First)
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Routing Algorithms: Hierarchical routing• As networks grow in size, the router routing tables grow
proportional, and so do router memory and computing power.
• Two level routing: Every router knows – all the details about how to route packets to
destinations within its own region – but knows nothing about the internal structure of other
regions. • Multiple-level routing:
– Regions clusters zonesgroups …
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Routing Algorithms: Hierarchical routing
Reduction of routing tables
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Routing Algorithms: Hierarchical routing• How many levels should the hierarchy have?
– Consider a subnet with 720 routers• No hierarchy: every router needs 720 routing table
entries.• 30 routers/region x 24 regions : every router
needs 30 for local entries + 23 for other regions = 53 table entries.
• 10 routers/region x 9 regions/cluster x 8 clusters : every router needs 10 + 8 + 7 = 25 table entries.
–Kamount and Kleinrock (1979): The optimal number of levels for an N router subnet is lnN, requiring a total of e ln N entries per router.
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Routing Algorithms: Broadcast routing• Broadcasting: to send a packet to all destinations
simultaneously. – The source simply sends a distinct packet to every
destination. – Flooding.– Multidestination routing (each packet contains either
a list of destinations or a bit map indicating the desired destinations.) (One router pays full fare and the rest ride free.)
– To make use of the sink tree for the router initiating the broadcast.
– Reverse path forwarding.
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Routing Algorithms: Broadcast routing– Reverse path forwarding:
• When a broadcast packet arrives at a router, the router checks to see if the packet arrived on the line that is normally used for sending packets to the source of the packets.
• If so, there is an excellent chance that the broadcast packet itself followed the best route from the router and is therefore the first copy to arrive at the router. Then the router forwards copies of it onto all lines except the one it arrived on.
• If no, it is discarded as a duplicate.
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Routing Algorithms: Broadcast routing
Reverse path forwarding.
(a) A subnet.
(b) a Sink tree.
(c) The tree built by reverse path forwarding.
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Routing Algorithms: Multicast routing• Multicasting (组播): to send messages to well-defined
groups that are numerically large in size but small compared to the network as whole.– Group management: Some way is needed to create and
destroy groups, and to allow processes to join and leave groups.
– Computing a spanning tree covering all other routers.– Multicast routing is to prune the spanning tree.
• When a process sends a multicast packet to a group, • The first router examines its spanning tree • and prunes it, removing all the lines that do not lead to
hosts that are members of the group.
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Routing Algorithms: Multicast routing(a) A network. (b) A spanning tree for the leftmost router. (c) A multicast tree for group 1. (d) A multicast tree for group 2.
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Routing Algorithms: Multicast routing
(a)Core-based tree for group 1.(b)Sending to group 1.
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Routing Algorithms: Anycast routing• In anycast, a packet is delivered to the nearest member
of a group. Schemes that find these paths are called anycast routing.
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Routing Algorithms: Routing the mobile hosts
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Routing Algorithms: Routing in Ad Hoc Networks: Route discovery
(a) Range of A's broadcast.(b) After B and D have received A's broadcast.(c) After C, F, and G have received A's broadcast.(d) After E, H, and I have received A's broadcast.Shaded nodes are new recipients. Arrows show possible
reverse routes.
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CONGESTION CONTROL ALGORITHMS(拥塞控制算法)
• Approaches to Congestion Control• Traffic-Aware Routing• Admission Control• Traffic Throttling• Load Shedding
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Congestion Control Algorithms: IntroductionWhen too much traffic is offered, congestion sets in and
performance degrades sharply.
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Congestion Control Algorithms: IntroductionCongestion causes (拥塞原因): • Burst packets on one output line.
– If all of a sudden, streams of packets begin arriving on three or four input lines and all need the same output line, a queue will build up. If there is insufficient memory to hold all of them, packets will be lost. Adding more memory will not help a little but not much.
• Mismatch between parts of the system– Insufficient memory. – Slow CPU. – Low bandwidth.
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Congestion Control Algorithms: IntroductionCongestion control and flow control• Differences:
– Congestion control: Subnet, global. • A store-and-forward network with 1-Mbps lines
and 1000 large computers, half of which are trying to transfer files at 100kbps to the other half.
– Flow control: end-to-end traffic, local. • An example: 1000Gbps (supercomputer)
1Gbps (personal computer).• Similarity: Both congestion control and flow control
can tell the sender to slow down – because the receiver cannot handle the load or– because the network cannot handle it.
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Congestion Control Algorithms:Approaches to Congestion Control
• Time scales of approaches to congestion control– Network provisioning (网络配置): months– Traffic-aware routing: hours– Admission control: minutes– Traffic throttling: seconds– Load shedding: seconds
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Congestion Control Algorithms:Traffic-Aware Routing
A subnet in which the East and West parts are connected by two lines.
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Congestion Control Algorithms: Admission control
• Traffic is often described in terms of its rate and shape.
• A commonly used descriptor that captures this effect is the leaky bucket or token bucket.
• Armed with traffic descriptions, the network can decide whether to admit the new virtual circuit.
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Congestion Control Algorithms: Admission control
(a) A congested subnet. (b) A redrawn subnet, eliminates congestion and a virtual circuit from A to B.
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Congestion Control Algorithms: Traffic Throttling
• In the Internet and many other computer networks, senders adjust their transmissions to send as much traffic as the network can readily deliver. 1. Routers must determine when congestion is
approaching, ideally before it has arrived. 2. Routers must deliver timely feedback to the senders
that are causing the congestion.
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Congestion Control Algorithms: Traffic Throttling
• Each router monitors the utilization of its output lines and other resources.
• Whenever u moves above the threshold, the output lines enters a “warning stat”.
• Possible actions:– Warning bits (警告位)– Choke packets (抑制包)– Hop-by-hop choke packets (单跳抑制包)
faauu oldnew )1(
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Congestion Control Algorithms: Traffic Throttling
Choke packets (抑制包)
• If congestion occurs, the router sends a choke packet back to the source host,
• When the source gets the choke packet, it reduces the traffic sent to the specified destination by X percent. And the source will ignore other choke packets referred to that destination for a fixed time interval. ……
• Types of choke packets: – a mild warning, – a stern warning, – an ultimatum
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Congestion Control Algorithms: Congestion Control in Datagram Subnets
Explicit Congestion Notification• Two bits in the IP packet header are used to record
whether the packet has experienced congestion. • If any of the routers they pass through is congested,
that router will then mark the packet as having experienced congestion as it is forwarded.
• The destination will then echo any marks back to the sender as an explicit congestion signal
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Congestion Control Algorithms: Congestion Control in Datagram Subnets
Hop-by-hop choke packets• At high speeds or over long distances, sending a choke
packet to the source hosts does not work well because the reaction is so slow. – For example, a host in San Francisco (router A) sends packets
to a host in New York at 155Mbps. – When the New York host begins to run out of buffers, it will
take about 40msec for a choke packet to get back to San Francisco to tell it to slow down.
– In those 40 msec, another 6.2 megabits will have been sent. • To have the choke packet take effect at every hop it
passes through.
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Congestion Control in Datagram Subnets
• Hop-by-Hop Choke Packets(a) A choke packet that
affects only the source.
(b) A choke packet that affects each hop it passes through.
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Congestion Control Algorithms: Load shedding• Load shedding is a fancy way of saying when routers
are being drowned by packets that they cannot handle, they just throw them away. (Electricity)
• Which packets to drop? – At random– Application: To drink wine (old is better than new) or
milk (new is better than old)?– Compression: full frame or modification?– Priority: High or low? (Unless there is some
significant incentive to mark packets as anything other than VERY IMPORTANT – NEVER NEVERDISCARD, nobody will do it.
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Congestion Control Algorithms: Load shedding
• RED (Random Early Detection)– Why early?
• Dealing with congestion after it is first detected is more effective than letting it gum up the works and then trying to deal with it.
• Try to discard packets before all the buffer space is really exhausted.
– Why random?• Since the router probably cannot tell which source
is causing most of the trouble, picking a packet at random from the queue that triggered the action is probably as good as it can do.
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QUALITY OF SERVICE (服务质量)
• Requirements of QoS• Techniques for QoS• Integrated Services• Differentiated Services• Label Switching and MPLS
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Quality Of Service: Requirements• A flow is a stream of packets from a source to a
destination. – In a connection-oriented network, all the packets
belonging to a flow follow the same route;– In a connection-less network, they may follow
different routes. • The needs of each flow can be characterized by four
primary parameters: – Reliability(可靠性), – Delay (延迟),– Jitter (抖动),– Bandwidth (带宽).
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Quality Of Service: Requirements
How stringent the quality-of-service requirements are.
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Quality Of Service: Traffic shaping(a) Shaping packets. (b) A leaky bucket. (c) A token bucket
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Quality Of Service: Traffic shaping(a) Traffic from a host.
Output shaped by a token bucket of rate 200 Mbps and capacity (b) 9600 KB, (c) 0 KB.
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Quality Of Service: Traffic shapingToken bucket level for
shaping with rate 200 Mbps and capacity
(d) 16000 KB, (e) 9600 KB, and (f) 0KB..
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Quality Of Service: Packet Scheduling
• Resource reservation– Suppose there is a specific route for a flow, it
becomes possible to reserve resources along the route to make sure the needed capacity is available.
• What resources to reserve?– Bandwidth– Buffer space– CPU cycles
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Quality Of Service: Packet Scheduling
Round-robin Fair Queuing
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Quality Of Service: Packet Scheduling(a)Weighted Fair Queueing.(b)Finishing times for the packets.
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Quality Of Service: Admission Control
An example flow specification
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Quality Of Service: Admission Control
Bandwidth and delay guarantees with token buckets and WFQ.
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Quality Of Service: Integrated services• How to stream multimedia?
– Integrated services (Flow-based algorithms)– Differential services (Class-based algorithms)
• How about having the senders reserve bandwidth in advance? Too many destinations
• RSVP (Resource reSerVation Protocol): to allow multiple senders to transmit to multiple groups of receivers, permits individual receivers to switch channels freely, and optimizes bandwidth use while at the same time eliminating congestion.
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Quality Of Service: Integrated services
(a) A network, (b) The multicast spanning tree for host 1. (c) The multicast spanning tree for host 2.
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Quality Of Service: Integrated services
(a) Host 3 requests a channel to host 1. (b) Host 3 then requests a second channel, to host 2. (c) Host 5 requests a channel to host 1.
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Quality Of Service: Differential services
Expedited (.畅通的, 迅速的) packets experience a traffic-free network. (RFC 3246)
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Quality Of Service: Differential services
• Assured Forwarding (确定转发) (RFC2597)
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Quality Of Service:Label switching and MPLS
Transmitting a TCP segment using IP, MPLS, and PPP.
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INTERNETWORKING (网络互连)• How Networks Differ• How Networks Can Be Connected• Tunneling• Internetwork Routing• Packet Fragmentation
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Internetworking: Introduction• A variety of different networks (and thus protocols) will
be around – The installed base of different networks is large and
growing. – As computers and networks get cheaper, the place
where decisions get made moves downward. – Different networks have radically different
technology, so it should not be surprising that as new hardware developments occur, new software will be created to fit the new hardware.
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Internetworking: Introduction
A collection of interconnected networks.
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Internetworking: Introduction• The interconnection of different networks
– LAN-LAN: A computer scientist downloading a file to engineering.
– LAN-WAN: A computer scientist sending mail to a distant physicist.
– WAN-WAN: Two poets exchanging sonnets. – LAN-WAN-LAN: Engineers at different universities
communicating.
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Internetworking: How Networks Differ
Some of the many ways networks can differ
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Internetworking: How Networks Can Be Connected
(a) Which device is in which layer.(b) Frames, packets, and headers.
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Internetworking: How Networks Can Be Connected
(a)A packet crossing different networks. (b)Network and link layer protocol processing.
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Internetworking: Tunneling (隧道)
Tunneling a packet from Paris to London.
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Internetworking: Tunneling
Tunneling a car from France to England.
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Internetworking: Internetwork Routing
(a) An internetwork. (b) A graph of the internetwork.
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Internetworking: Internetwork Routing• Two-level routing
– Internet routing: Exterior gateway protocol– Intranet routing: Interior gateway protocol
• To route a packet– A typical internet packet starts out on its LAN addressed to
the local multiprotocol router.– After it gets there, the network layer code decides which
multiprotocol router to forward the packet to, using its own routing tables.
• Direct forwarding using native network protocol• Tunneling using the intervening network protocol
– This process repeats until the packet reaches the desination network.
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Internetworking: Fragmentation• Each network imposes some maximum size on its
packets. These limits have various causes, among them: – Hardware (e.g., the width of a TDM transmission
slot). – Operating system (e.g., all buffers are 512 bytes). – Protocols (e.g., the number of bits in the packet
length field). – Compliance with some (inter)national standard. – Desire to reduce error induced retransmissions to
some level. – Desire to prevent one packet from occupying the
channel too long.
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Internetworking: Fragmentation(a) Transparent fragmentation. (ATM) (b) Nontransparent fragmentation. (IP)
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Internetworking: Fragmentation• When a packet is fragmented, the fragments must be
numbered in such a way that the original data stream can be reconstructed. – To define an elementary fragment size small enough that the
elementary fragment can pass through every network.– When a packet is fragmented, all the pieces are multiple of the
elementary fragment size.– The internet header provide
• an original packet number and • the number of the (first) elementary fragment contained in
the packet and • a bit indicating the last piece of the original packet.
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Internetworking: FragmentationFragmentation when the elementary data size is 1 byte.
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Internetworking: Fragmentation
Path MTU Discovery
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THE NETWORK LAYER IN THE INTERNET
• The IPv4 Protocol• IP Addresses• The IPv6 Protocol• Internet Control Protocols• OSPF – The Interior Gateway Routing Protocol• BGP – The Exterior Gateway Routing Protocol• Internet Multicasting• Mobile IP
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The Network Layer in the Internet: Top 10 principles for the Internet
1. Make sure it works.2. Keep it simple.3. Make clear choices.4. Exploit modularity.5. Expect heterogeneity.
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The Network Layer in the Internet: Top 10 principles for the Internet
6. Avoid static options and parameters.7. Look for a good design; it need not be perfect.8. Be strict when sending and tolerant when receiving.9. Think about scalability.10. Consider performance and cost.
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The Network Layer in the Internet: The Internet: Collections of Subnetworks or ASes
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The Network Layer in the Internet: The IPv4 Protocol
An IP datagram consists of a header part and a text part. The IPv4 (Internet Protocol) header.
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The Network Layer in the Internet: The IPv4 Protocol:
Header fields• Version: to keep track of which version of the protocol the
datagram belongs to. • IHL: to tell how long the header is, in 32-bit words. 5 <= IHL
<= 15. • Differentiated service:
– Type of service: 3 for priority, 3 for D, T, and R, and 2 unused.
– Differentiated services: 6 for service class, 2 for congestion. • Total length: the length of header and data. The maximum
length is 65,535 bytes. • Identification: the ID of the datagram.
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The Network Layer in the Internet: The IPv4 Protocol:
Header fields• DF: Don't Fragment (>= 576)• MF: More Fragment (13?)• Fragment offset: to tell where in the current datagram this
fragment belongs • Time to Live: a counter used to limit packet lifetimes. • Protocol: which transport process to give this datagram to.
(http://www.iana.org/assignments/protocol-numbers)• Header checksum: to verify the header only • Source and destination address: to indicate the network
number and host number. • Options
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The Network Layer in the Internet: IP Header Options
Some of the IP options.
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The Network Layer in the Internet: IP Addresses
• Every Internet interface has an IP address, which encodes its network number and host number. The combination is unique: no two interfaces have the same IP address.
• All IP addresses are 32 bits long and are used in the source address and Destination address fields of IP packets
• IP addressing– Prefixes– Subnets (division), – CIDR(mergement),– Classful and Special Addressing – NAT
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The Network Layer in the Internet: IP Addresses: Prefixes
An IP prefix.
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The Network Layer in the Internet: IP Addresses: Prefixes
Splitting an IP prefix into separate networks with subnetting.
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The Network Layer in the Internet: IP Addresses: CIDR
A set of IP address assignments
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The Network Layer in the Internet: IP Addresses: CIDR
Aggregation of IP prefixes
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The Network Layer in the Internet: IP Addresses: CIDR
Longest matching prefix routing at the New York router.
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The Network Layer in the Internet: IP Addresses: Classful and Special Addressing
IP address formats
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The Network Layer in the Internet: IP Addresses: Classful and Special Addressing
Special IP addresses
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The Network Layer in the Internet: IP Addresses: NAT(Network Address Translation)
• Addressing– Permanent addresses: too few– Temporary addresses (DHCP): large users
• Direct addressing (1-level) indirect addressing (two-level)
• NAT (Network Address Translation)– To assign each company a single IP address (or at
most, a small number of them) for Internet traffic– Within the company, every computer gets a unique IP
address (10.x.x.x, 172.16.x.x, 192.168.x.x)
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The Network Layer in the Internet: IP Addresses: NAT
Placement and operation of a NAT box.
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The Network Layer in the Internet: IP Addresses: NAT
• How NAT works internally– (IP add_src, port_src) (IP add_dst, port_dst) – For outgoing packets
• (10.0.0.1, 5544) (198.60.42.12, 3344) • (198.60.42.12, 3344) (210.32.32.32, 4433)
• (198.60.42.12, 3344) (210.32.32.32, 4433) • (10.0.0.1, 5544) (198.60.42.12, 3344)
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The Network Layer in the Internet: IPv6Major goals for IPV6• Support billions of hosts. • Reduce the size of the routing tables. • Simplify the protocol, to allow routers to process
packets faster. • Provide better security (authentication and privacy).• Pay more attention to type of service.• Aid multicasting by allowing scopes to be specified. • Make it possible for a host to roam without changing its
address. • Allow the protocol to evolve in the future. • Permit the old and new protocols to coexist for years
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The Network Layer in the Internet: IPv6• In 1990, IETF started work on a new version of IP. • IETF issued a call for proposals and discussion in RFC
1550(IP: Next Generation (IPng) White Paper Solicitation).
• 21 in 1990 7 in 1992 3 in 1993 1• IPv6 meets the goals fairly well.
– IPv6 has longer addresses than IPv4. They are 16 bytes long.
– The simplification of the header. – Better support for options. – Security – More attention has been paid to type of service than
in the past.
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The Network Layer in the Internet: IPv6The IPv6 fixed header (required).
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The Network Layer in the Internet: IPv6
IPv6 extension headers.
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The Network Layer in the Internet: IPv6
The hop-by-hop extension header for large datagrams (jumbograms).
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The Network Layer in the Internet: IPv6IPv6 extension headers.
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The Network Layer in the Internet: IPv6
Controversies• Address length: 8 byte, 16 byte, 20 bytes 16bytes• Hop limit: 8 bits or more 8 bits• Maximum packet size: 64 KB or larger normal 64kB
and permit jumbograms. • Checksum: needed or not not needed any more. • Mobile support: yes or no no but.• Security: yes or no no but.
• Huitema, C. 1998. “IPv6: The New Internet Protocol” Prentice-Hall.
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The Network Layer in the Internet: Internet Control Protocols: ICMP
The principal ICMP message types.
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The Network Layer in the Internet: Internet Control Protocols: ARP
Two switched Ethernet LANs joined by a router
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The Network Layer in the Internet: Internet Control Protocols: ARP
How does a user on host 1 send a packet to a user on host 2?• Find the IP address for host 2 (e.g. DNS) • Build a packet with 192.31.65.5 in the Destination address
field• Find the destination's Ethernet address: Conf File or ARP• Build an Ethernet frame addressed to E2 and dump it into
the Ethernet. • The Ethernet board of host 2 detects this frame, recognizes
it as a frame for itself, and causes an interrupt. • The Ethernet driver extracts the IP packet from the payload
and passes it to the IP software.
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The Network Layer in the Internet: Internet Control Protocols: ARP
How host 1 sends a packet to host 4 (192.31.63.8). • Host 1 packets the IP packet and sends the frame to E3. • When the CS router gets the Ethernet frame, it finds the
physical address E3 by ARP. It then inserts the packet into the payload field of a frame addressed to E6 and puts it on the net.
• When the Ethernet frame arrives at host 4, the packet is extracted from the frame and passed to the IP software for processing.
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The Network Layer in the Internet: Internet Control Protocols: DHCP
• ARP (Address Resolution Protocol, 地址辨析协议)• RARP (Reverse Address Resolution Protocol,反向地址辨析协议):Given a Link address, what is the corresponding IP address?
• BOOTP (Bootstrap Protocol) is better than RARP, can be forwarded by a router.
• DHCP (Dynamic Host Configuration Protocol, 动态主机配置协议) allows both manual IP address assignment and automatic assignment.
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The Network Layer in the Internet: Internet Control Protocols: DHCP
Operation of DHCP.
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The Network Layer in the Internet: Label Switching and MPLS
Transmitting a TCP segment using IP, MPLS, and PPP
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The Network Layer in the Internet: Label Switching and MPLS
Forwarding an IP packet through an MPLS network
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The Network Layer in the Internet: OSPF – An Interior Gateway Routing Protocol
• The internet is made up of a large number of autonomous systems.
• A routing algorithm within an AS is called an interior gateway protocol– Distance vector protocol (Routing Information
Protocol)– Link state protocol (1979)– OSPF (Open Shortest Path First in 1990)
• A routing algorithm between ASes is called an exterior gateway protocol– BGP (Border Gateway Protocol)
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The Network Layer in the Internet: OSPF
Requirements for the new routing algorithms: 1. To be open, hence the "O" in OSPF. 2. To support a variety of distance metrics. 3. To be a dynamic algorithm. 4. To support routing based on type of service. 5. To do load balancing6. To support hierarchical systems. 7. To support security8. To support connection to the Internet via a tunnel
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The Network Layer in the Internet: OSPF
An autonomous system
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The Network Layer in the Internet: OSPF
A graph representation of the previous slide.
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The Network Layer in the Internet: OSPF
The relation between ASes, backbones, and areas in OSPF.
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The Network Layer in the Internet: OSPF
How a OSPF router works?• When a router boots, it sends HELLO messages. From
the response, each router learns who its neighbors are. • Adjacent routers exchange information.
– Each router periodically floods LINK STATE UPDATE messages to each of its adjacent routers. These must be acknowledged (LINK STATE ACK).
– Either partner can request link state information from the other one using LINK STATE REQUEST messages.
– Each router constructs the graph for its area(s) and compute the shortest path.
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The Network Layer in the Internet: OSPF
The five types of OSPF messages.
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The Network Layer in the Internet: BGP – The Exterior Gateway Routing Protocol
• Exterior gateway protocol routers have to worry about politics a great deal.
• Typical policies involve political, security, or economic considerations. A few examples of routing constraints are 1.No commercial traffic for educat. network2.Never put Iraq on route starting at Pentagon3.Choose cheaper network4.Choose better performing network5.Don’t go from Apple to Google to Apple
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The Network Layer in the Internet: BGP
• BGP routers communicate with each other by establishing TCP connections.
• BGP is fundamentally a distance vector protocol, but quite different from most others such as RIP. – Each BGP router keeps track of the path used
(instead of maintaining just the cost to each destination)
– Each BGP router tells its neighbors the exact path it is using (instead of periodically given each neighbor its estimated cost to each possible destination)
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The Network Layer in the Internet: BGP
Routing policies between four Autonomous Systems
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The Network Layer in the Internet: BGP
Propagation of BGP route advertisements
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The Network Layer in the Internet: Internet Multicasting
• Databases, transmitting stock quotes to multiple brokers, and handling digital conference telephone calls
• IP supports multicasting, using class D address. • Two kinds of group addresses are supported: permanent
addresses and temporary ones. Some permanent group examples: – 224.0.0.1: All systems on a LAN– 224.0.0.2: All routers on a LAN– 224.0.0.5: All OSPF routers on a LAN– 224.0.0.6: All designated OSPF routers on a LAN– 224.0.0.251: All DNS servers on a LAN
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The Network Layer in the Internet: Internet Multicasting
• Multicasting is implemented by special multicast routers, which may or may not be collocated with the standard routers. – About once a minute, each multicast router sends a
hardware multicast to the hosts on its LAN asking them to report back on the groups their processes currently belong to.
– Each host sends back responses for all the class D addresses it is interested in.
– This query and response packets use a protocol called IGMP (Internet Group Management Protocol).
• Multicast routing is done using spanning trees.
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The Network Layer in the Internet: Mobile IP
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The Network Layer in the Internet: Mobile IP
• Every site that wants to allow its users to roam has to create a home agent.
• Every site that wants to allow visitors has to create a foreign agent.
• When a mobile host shows up at a foreign site, – it contacts the foreign agent there and register. – The foreign agent then contacts the user's home agent
and gives it a care-of address, normally the foreign agent's own IP address.
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The Network Layer in the Internet: Mobile IP
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Homework• 1• 6• 18• 22• 31• 32• 33• 42
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• 1.Give two example computer applications for which connection-oriented service is appropriate. Now give two examples for which connectionless service is best.
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• 6. Consider the network of Fig. 5-12(a). Distance vector routing is used, and the following vectors have just come in to router C: from B: (5, 0, 8, 12, 6, 2); from D: (16, 12, 6, 0, 9, 10); and from E: (7, 6, 3, 9, 0, 4). The cost of the links from C to B, D, and E, are 6, 3, and 5, respectively. What is C’s new routing table? Give both the outgoing line to use and the cost.
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• 18. A token bucket scheme is used for traffic shaping. A new token is put into the bucket every 5 μsec. Each token is good for one short packet, which contains 48 bytes of data. What is the maximum sustainable data rate?
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• 22. Consider the user of differentiated services with expedited forwarding. Is there a guarantee that expedited packets experience a shorter delay than regular packets? Why or why not?
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• 31. A router has just received the following new IP addresses: 57.6.96.0/21, 57.6.104.0/21, 57.6.112.0/21, and 57.6.120.0/21. If all of them use the same outgoing line, can they be aggregated? If so, to what? If not, why not?
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• 32. The set of IP addresses from 29.18.0.0 to 19.18.128.255 has been aggregated to 29.18.0.0/17. However, there is a gap of 1024 unassigned addresses from 29.18.60.0 to 29.18.63.255 that are now suddenly assigned to a host using a different outgoing line. Is it now necessary to split up the aggregate address into its constituent blocks, add the new block to the table, and then see if any reaggregation is possible? If not, what can be done instead?
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• 33. A router has the following (CIDR) entries in its routing table:Address/mask Next hop135.46.56.0/22 Interface 0135.46.60.0/22 Interface 1192.53.40.0/23 Router 1default Router 2For each of the following IP addresses, what does the router do if a packet with that address arrives?(a) 135.46.63.10(b) 135.46.57.14(c) 135.46.52.2(d) 192.53.40.7(e) 192.53.56.7
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• 42. When the IPv6 protocol is introduced, does the ARP protocol have to be changed? If so, are the changes conceptual or technical?