Rfc5128_State of Peer-To-Peer (P2P) Communication Across NAT
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Transcript of 15-744: Computer Networking L-17 P2P and DNS. Next Lecture P2P, DNS, and Web Required readings...
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15-744: Computer Networking
L-17 P2P and DNS
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Next Lecture
2
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3
Overview
• P2P
• DNS
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Peer-to-Peer Networks: BitTorrent
• BitTorrent history and motivation• 2002: B. Cohen debuted BitTorrent• Key motivation: popular content
• Popularity exhibits temporal locality (Flash Crowds)• E.g., Slashdot/Digg effect, CNN Web site on 9/11,
release of a new movie or game
• Focused on efficient fetching, not searching• Distribute same file to many peers• Single publisher, many downloaders
• Preventing free-loading
4
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BitTorrent: Simultaneous Downloading
• Divide large file into many pieces• Replicate different pieces on different peers• A peer with a complete piece can trade with other
peers• Peer can (hopefully) assemble the entire file
• Allows simultaneous downloading• Retrieving different parts of the file from different
peers at the same time• And uploading parts of the file to peers• Important for very large files
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BitTorrent: Tracker
• Infrastructure node• Keeps track of peers participating in the torrent
• Peers register with the tracker• Peer registers when it arrives• Peer periodically informs tracker it is still there
• Tracker selects peers for downloading• Returns a random set of peers• Including their IP addresses• So the new peer knows who to contact for data
• Can have “trackerless” system using DHT
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BitTorrent: Chunks
• Large file divided into smaller pieces• Fixed-sized chunks• Typical chunk size of 256 Kbytes
• Allows simultaneous transfers• Downloading chunks from different neighbors• Uploading chunks to other neighbors
• Learning what chunks your neighbors have• Periodically asking them for a list
• File done when all chunks are downloaded
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BitTorrent: Overall Architecture
Web page with link to .torrent
A
B
C
Peer
[Leech]
Downloader
“US”
Peer
[Seed]
Peer
[Leech]
TrackerWeb Server
.torr
ent
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9
BitTorrent: Overall Architecture
Web page with link to .torrent
A
B
C
Peer
[Leech]
Downloader
“US”
Peer
[Seed]
Peer
[Leech]
Tracker
Get-announce
Web Server
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10
BitTorrent: Overall Architecture
Web page with link to .torrent
A
B
C
Peer
[Leech]
Downloader
“US”
Peer
[Seed]
Peer
[Leech]
Tracker
Response-peer list
Web Server
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11
BitTorrent: Overall Architecture
Web page with link to .torrent
A
B
C
Peer
[Leech]
Downloader
“US”
Peer
[Seed]
Peer
[Leech]
Tracker
Shake-hand
Web Server
Shake-hand
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12
BitTorrent: Overall Architecture
Web page with link to .torrent
A
B
C
Peer
[Leech]
Downloader
“US”
Peer
[Seed]
Peer
[Leech]
Tracker
pieces
pieces
Web Server
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13
BitTorrent: Overall Architecture
Web page with link to .torrent
A
B
C
Peer
[Leech]
Downloader
“US”
Peer
[Seed]
Peer
[Leech]
Tracker
piecespieces
pieces
Web Server
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14
BitTorrent: Overall Architecture
Web page with link to .torrent
A
B
C
Peer
[Leech]
Downloader
“US”
Peer
[Seed]
Peer
[Leech]
Tracker
Get-announce
Response-peer list
piecespieces
pieces
Web Server
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BitTorrent: Chunk Request Order
• Which chunks to request?• Could download in order• Like an HTTP client does
• Problem: many peers have the early chunks• Peers have little to share with each other• Limiting the scalability of the system
• Problem: eventually nobody has rare chunks• E.g., the chunks need the end of the file• Limiting the ability to complete a download
• Solutions: random selection and rarest first
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BitTorrent: Rarest Chunk First
• Which chunks to request first?• The chunk with the fewest available copies• I.e., the rarest chunk first
• Benefits to the peer• Avoid starvation when some peers depart
• Benefits to the system• Avoid starvation across all peers wanting a file• Balance load by equalizing # of copies of
chunks
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Free-Riding Problem in P2P Networks
• Vast majority of users are free-riders• Most share no files and answer no queries• Others limit # of connections or upload speed
• A few “peers” essentially act as servers• A few individuals contributing to the public good• Making them hubs that basically act as a server
• BitTorrent prevent free riding• Allow the fastest peers to download from you• Occasionally let some free loaders download
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Bit-Torrent: Preventing Free-Riding
• Peer has limited upload bandwidth• And must share it among multiple peers
• Prioritizing the upload bandwidth: tit for tat• Favor neighbors that are uploading at highest rate
• Rewarding the top few (e.g. four) peers• Measure download bit rates from each neighbor• Reciprocates by sending to the top few peers• Recompute and reallocate every 10 seconds
• Optimistic unchoking• Randomly try a new neighbor every 30 seconds• To find a better partner and help new nodes startup
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BitTyrant: Gaming BitTorrent
• Lots of altruistic contributors
• High contributors take a long time to find good partners
• Active sets are statically sized• Peer uploads to top N peers at rate 1/N• E.g., if N=4 and peers upload at 15, 12, 10, 9,
8, 3• … then peer uploading at rate 9 gets treated
quite well
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20
BitTyrant: Gaming BitTorrent
• Best to be the Nth peer in the list, rather than 1st
• Distribution of BW suggests 14KB/s is enough• Dynamically probe for this value
• Use saved bandwidth to expand peer set• Choose clients that maximize download/upload
ratio
• Discussion• Is “progressive tax” so bad?• What if everyone does this?
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21
Overview
• P2P
• DNS
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22
Obvious Solutions (1)
Why not centralize DNS?
• Single point of failure
• Traffic volume
• Distant centralized database
• Single point of update
• Doesn’t scale!
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23
Obvious Solutions (2)
Why not use /etc/hosts?• Original Name to Address Mapping
• Flat namespace• /etc/hosts • SRI kept main copy• Downloaded regularly
• Count of hosts was increasing: machine per domain machine per user• Many more downloads• Many more updates
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Domain Name System Goals
• Basically building a wide area distributed database
• Scalability• Decentralized maintenance• Robustness• Global scope
• Names mean the same thing everywhere
• Don’t need• Atomicity• Strong consistency
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25
DNS Records
RR format: (class, name, value, type, ttl)
• DB contains tuples called resource records (RRs)• Classes = Internet (IN), Chaosnet (CH), etc.• Each class defines value associated with type
FOR IN class:
• Type=A• name is hostname
• value is IP address
• Type=NS• name is domain (e.g. foo.com)
• value is name of authoritative name server for this domain
• Type=CNAME• name is an alias name for
some “canonical” (the real) name
• value is canonical name
• Type=MX• value is hostname of
mailserver associated with name
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26
DNS Design: Hierarchy Definitions
root
edunetorg
ukcom
gwu ucb cmu bu mit
cs ece
cmcl
• Each node in hierarchy stores a list of names that end with same suffix
• Suffix = path up tree• E.g., given this tree, where
would following be stored:• Fred.com• Fred.edu• Fred.cmu.edu• Fred.cmcl.cs.cmu.edu• Fred.cs.mit.edu
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27
DNS Design: Zone Definitions
root
edunetorg
ukcomca
gwu ucb cmu bu mit
cs ece
cmcl Single node
Subtree
Complete Tree
• Zone = contiguous section of name space
• E.g., Complete tree, single node or subtree
• A zone has an associated set of name servers
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DNS Design: Cont.
• Zones are created by convincing owner node to create/delegate a subzone• Records within zone stored multiple redundant name
servers• Primary/master name server updated manually• Secondary/redundant servers updated by zone transfer
of name space• Zone transfer is a bulk transfer of the “configuration” of a DNS
server – uses TCP to ensure reliability
• Example:• CS.CMU.EDU created by CMU.EDU administrators
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29
Servers/Resolvers
• Each host has a resolver• Typically a library that applications can link to• Local name servers hand-configured (e.g.
/etc/resolv.conf)
• Name servers• Either responsible for some zone or…• Local servers
• Do lookup of distant host names for local hosts• Typically answer queries about local zone
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30
DNS: Root Name Servers
• Responsible for “root” zone
• Approx. dozen root name servers worldwide• Currently {a-m}.root-
servers.net
• Local name servers contact root servers when they cannot resolve a name• Configured with well-
known root servers
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33
Typical Resolution
ClientLocal
DNS server
root & edu DNS server
ns1.cmu.edu DNS server
www.cs.cmu.edu
NS ns1.cmu.eduwww.cs.cmu.edu
NS ns1.cs.cmu.edu
A www=IPaddr
ns1.cs.cmu.eduDNS
server
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35
Lookup Methods
Recursive query:• Server goes out and
searches for more info (recursive)
• Only returns final answer or “not found”
Iterative query:• Server responds with as
much as it knows (iterative)
• “I don’t know this name, but ask this server”
Workload impact on choice?• Local server typically does
recursive• Root/distant server does
iterative requesting hostsurf.eurecom.fr
gaia.cs.umass.edu
root name server
local name serverdns.eurecom.fr
1
2
34
5 6authoritative name server
dns.cs.umass.edu
intermediate name serverdns.umass.edu
7
8
iterated query
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36
Workload and Caching
• What workload do you expect for different servers/names?• Why might this be a problem? How can we solve this problem?
• DNS responses are cached • Quick response for repeated translations• Other queries may reuse some parts of lookup
• NS records for domains
• DNS negative queries are cached• Don’t have to repeat past mistakes• E.g. misspellings, search strings in resolv.conf
• Cached data periodically times out• Lifetime (TTL) of data controlled by owner of data• TTL passed with every record
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37
Typical Resolution
ClientLocal
DNS server
root & edu DNS server
ns1.cmu.edu DNS server
www.cs.cmu.edu
NS ns1.cmu.eduwww.cs.cmu.edu
NS ns1.cs.cmu.edu
A www=IPaddr
ns1.cs.cmu.eduDNS
server
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38
Subsequent Lookup Example
ClientLocal
DNS server
root & edu DNS server
cmu.edu DNS server
cs.cmu.eduDNS
server
ftp.cs.cmu.edu
ftp=IPaddr
ftp.cs.cmu.edu
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39
Reliability
• DNS servers are replicated• Name service available if ≥ one replica is up• Queries can be load balanced between replicas
• UDP used for queries• Need reliability must implement this on top of UDP!• Why not just use TCP?
• Try alternate servers on timeout• Exponential backoff when retrying same server
• Same identifier for all queries• Don’t care which server responds
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40
Reverse Name Lookup
• 128.2.206.138?• Lookup 138.206.2.128.in-addr.arpa• Why is the address reversed?• Happens to be www.intel-iris.net and
mammoth.cmcl.cs.cmu.edu what will reverse lookup return? Both?• Should only return name that reflects address
allocation mechanism
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41
Prefetching
• Name servers can add additional data to any response
• Typically used for prefetching• CNAME/MX/NS typically point to another host
name• Responses include address of host referred to
in “additional section”
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42
Root Zone
• Generic Top Level Domains (gTLD) = .com, .net, .org, etc…
• Country Code Top Level Domain (ccTLD) = .us, .ca, .fi, .uk, etc…
• Root server ({a-m}.root-servers.net) also used to cover gTLD domains• Load on root servers was growing quickly!• Moving .com, .net, .org off root servers was
clearly necessary to reduce load done Aug 2000
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43
New gTLDs
• .info general info• .biz businesses• .aero air-transport industry • .coop business cooperatives• .name individuals• .pro accountants, lawyers, and physicians• .museum museums• Only new one actives so far = .info, .biz, .name
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44
New Registrars
• Network Solutions (NSI) used to handle all registrations, root servers, etc…• Clearly not the democratic (Internet) way• Large number of registrars that can create new
domains However, NSI still handle root servers
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45
Do you trust the TLD operators?
• Wildcard DNS record for all .com and .net domain names not yet registered by others• September 15 – October 4, 2003• February 2004: Verisign sues ICANN
• Redirection for these domain names to Verisign web portal (SiteFinder)
• What services might this break?
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46
Protecting the Root Nameservers
• Redundancy: 13 root nameservers • IP Anycast for root DNS servers {c,f,i,j,k}.root-servers.net
• RFC 3258• Most physical nameservers lie outside of the US
Sophisticated? Why did nobody notice?
seshan.org. 13759 NS www.seshan.org.
Defense Mechanisms
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DNS Hacks: Blackhole Lists
• First: Mail Abuse Prevention System (MAPS) • Paul Vixie, 1997
• Today: Spamhaus, spamcop, dnsrbl.org, etc.
49
% dig 91.53.195.211.bl.spamcop.net
;; ANSWER SECTION:91.53.195.211.bl.spamcop.net. 2100 IN A 127.0.0.2
;; ANSWER SECTION:91.53.195.211.bl.spamcop.net. 1799 IN TXT "Blocked - see http://www.spamcop.net/bl.shtml?211.195.53.91"
Different addresses refer to different reasons for blocking
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DNS Experience
• 23% of lookups with no answer• Retransmit aggressively most packets in trace for
unanswered lookups!• Correct answers tend to come back quickly/with few
retries
• 10 - 42% negative answers most = no name exists• Inverse lookups and bogus NS records
• Worst 10% lookup latency got much worse• Median 8597, 90th percentile 4471176
• Increasing share of low TTL records what is happening to caching?
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DNS Experience
• Hit rate for DNS = 80% 1-(#DNS/#connections)• Most Internet traffic is Web• What does a typical page look like? average of 4-5
imbedded objects needs 4-5 transfers accounts for 80% hit rate!
• 70% hit rate for NS records i.e. don’t go to root/gTLD servers• NS TTLs are much longer than A TTLs• NS record caching is much more important to scalability
• Name distribution = Zipf-like = 1/xa
• A records TTLs = 10 minutes similar to TTLs = infinite
• 10 client hit rate = 1000+ client hit rate
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Some Interesting Alternatives
• CoDNS• Lookup failures
• Packet loss• LDNS overloading• Cron jobs• Maintenance problems
• Cooperative name lookup scheme• If local server OK, use local server• When failing, ask peers to do lookup
• Push DNS• Top of DNS hierarchy is relatively stable• Why not replicate much more widely?
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Next Lecture
• Naming and CDNs
• Required readings• Middleboxes No Longer Considered Harmful• Internet Indirection Infrastructure
• Optional readings• Democratizing content publication with Coral
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