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E-raamat: Session Initiation Protocol (SIP): Controlling Convergent Networks

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  • Formaat: 500 pages
  • Ilmumisaeg: 03-Jul-2008
  • Kirjastus: Osborne/McGraw-Hill
  • Keel: eng
  • ISBN-13: 9780071643672
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Session Initiation Protocol (SIP): Controlling Convergent NetworksSuurem pilt
  • Formaat: 500 pages
  • Ilmumisaeg: 03-Jul-2008
  • Kirjastus: Osborne/McGraw-Hill
  • Keel: eng
  • ISBN-13: 9780071643672
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Build a next-generation telecommunications infrastructureConsolidate divergent networks into one seamless, high-performance communications landscape using cutting-edge SIP technology, tools, and techniques. Session Initiation Protocol (SIP): Controlling Convergent Networks explains how to deliver Internet phone calls, IMs, video streams, and teleconferences across legacy, wireless, and wireline networks. Learn how to manage SIP sessions, build layers and proxies, interpret control codes, set up gateways, and comply with IETF and 3GPP standards. You'll also get details on using the latest methods, maximizing QoS, and implementing security measures.





Initiate, modify, and terminate IETF-compliant SIP sessions

Construct SIP messages, requests, proxies, functions, and layers Interconnect WiFi, WiMax, VoIP, and wireline networks Incorporate TDM and SS7 systems using media and signaling gateways Determine user locations with REGISTER and presence techniques

Augment functionality using RFCs and packet cable extensions Prevent hijacking, tampering, DoS, DDoS, and BOTS attacks Implement reliable authentication, encryption, and intrusion detection policies
Acknowledgments xiii
Introduction xv
Architecture of a SIP Network
1(20)
The Traditional Voice Network
2(5)
Wireline Network Architecture
2(3)
Wireless Network Architecture
5(2)
Network Elements in a Voice over IP Network
7(6)
Media Gateway (MG)
9(1)
Media Gateway Control Function (MGCF)
10(1)
Signaling Gateway
10(1)
Application Servers (ASs)
11(1)
The Domain Name System (DNS)
11(1)
Electronic Numbering (ENUM)
12(1)
SIP-Specific Entities
13(8)
User Agents (UAs)
14(2)
Proxy Servers
16(2)
Redirect Servers
18(1)
Registrars
19(1)
Location Servers
19(2)
Structure of the SIP Protocol
21(34)
SIP Messages and Formats
21(21)
Concept of a Dialog
23(2)
Requests
25(1)
Responses
26(2)
Header Fields
28(14)
SIP Identities
42(4)
Private User Identity
44(1)
Public User Identity
45(1)
Session Description Protocol (SDP)
46(9)
Session Descriptions
48(2)
Time Descriptions
50(1)
Media Descriptions
51(1)
Attributes
52(3)
SIP Status Codes
55(18)
1xx Provisional Codes
57(2)
2xx Successful Status Codes
59(1)
3xx Redirection Status Codes
60(1)
4xx Client Failure Status Codes
61(8)
5xx Server Failure Status Codes
69(1)
6xx Global Failure Status Codes
70(3)
Registration Procedures in a SIP Network
73(18)
Basic Registration
74(3)
Event Notification
77(1)
Message Waiting Indication (MWI)
77(2)
Interworking with the PSTN
79(12)
Establishing a Session in SIP
91(24)
Accessing the Network
92(1)
Initiating a Dialog
93(4)
Client Request
97(2)
Server Response
99(3)
Emergency Session Establishment
101(1)
SIP Routing
102(9)
Loose Routing
103(5)
Strict Routing
108(3)
SIP Session Modification
111(1)
SIP Session Termination
112(3)
Extending SIP to Support New Functions
115(18)
The Concept of SIP Extensions
116(2)
How Extensions are Documented
117(1)
How Extensions are Treated
117(1)
Some Examples of Extensions
118(10)
P-Access-Network-Info
119(1)
P-Answer-State
120(1)
P-Asserted-Identity
121(1)
P-Associated-URI
121(1)
P-Called-Party-ID
122(1)
P-Charging-Function-Addresses
122(1)
P-Charging-Vector
123(1)
P-Early Media
124(1)
P-Media-Authorization
125(1)
P-Preferred-Identity
125(1)
P-Profile-Key
126(1)
P-User-Database
126(1)
P-Visited-Network-ID Header
127(1)
Packet Cable Extensions
128(5)
P-DCS-Trace-Party-ID
128(1)
P-DCS-OSPS
128(1)
P-DCS-Billing-Info
129(1)
P-DCS-LAES
130(1)
P-DCS-Redirect
131(2)
Security in a SIP Network
133(26)
Types of Network Attacks
134(7)
Registration Hijacking
135(1)
Session Hijacking
136(1)
Impersonating a Server
137(1)
Tampering with Message Bodies
138(1)
Tearing Down Sessions
138(1)
Denial of Service and Amplification
139(1)
Bots and DDoS Attacks
140(1)
Security Measures
141(10)
Password and Access Controls
145(1)
Encryption
146(3)
Authentication and Authorization
149(1)
Strict Routing
150(1)
Security Solutions
151(8)
Intrusion Detection
152(4)
Intrusion Protection
156(3)
Appendix A SIP-Related RFCs
159(4)
IETF SIP Requests for Comments (RFCs)
159(4)
Appendix B Methods and Parameters
163(44)
ACK Method
164(1)
BYE Method
165(5)
CANCEL Method
170(2)
INVITE Method
172(6)
MESSAGE Method
178(4)
NOTIFY Method
182(4)
OPTIONS Method
186(5)
REGISTER Method
191(5)
SUBSCRIBE Method
196(5)
UPDATE Method
201(6)
Appendix C Methods and Parameters from a Proxy Perspective
207(40)
ACK Method
208(1)
BYE Method
209(4)
CANCEL Method
213(2)
INVITE Method
215(5)
MESSAGE Method
220(4)
NOTIFY Method
224(5)
OPTIONS Method
229(4)
REGISTER Method
233(5)
SUBSCRIBE Method
238(5)
UPDATE Method
243(4)
Bibliography 247(4)
Index 251
Travis Russell is Regional Sales Manager of the Network Switching Division at Tekelec in North Carolina. He has been a field engineer in the telecommunications business for over 20 years, and lectures on basic telecommunications at area colleges and universities, as well as industry seminars. He is the author of Telecommunications Protocols, Signaling System #7, and the co-author of CDPD: Cellular Digital Packet Data Standards and Technology, all published by McGraw-Hill.
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