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Published byKerrie Phillips Modified over 9 years ago
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Introduce SIP into the Operator Network with NO Pain David Aviv, Vice-President, Advanced Services, Radware
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3 Today’s Agenda The Role of SIP ADC Scale the SIP Applications Tier Scale the Border Tier Scale and simplify the Core
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4 The Need for SIP ADC The NG environment is heterogeneous & diversified – solutions do not come “out-of-box” Carriers often require rapid deployment of new services to be successful SIP ADC is required to ensure reliable, scalable, fast and secure deployment (as is needed for web applications) SIP ADC factors out these capabilities to one SIP-enabled network component, simplifying the architecture, operations and development
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5 The Role of SIP Application Delivery Controller (ADC) PSTN Internet SP Cloud SIP ADC
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6 ITU-OCAF Recommendation for Load-Balancing of SIP-aware Devices OCAF – Open Communication Architecture Forum CGOE – Carrier Grade Open Environment (Rec. Y.CGOE) SIP ADC
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7 What is a SIP ADC ? IP level LB Security (Hardening) Acceleration SIP Stateless Proxy Rule-Based Configuration SIP level LB Classic ADC
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8 What Does SIP ADC Factor Out? IP level LB Security (Hardening) Acceleration SIP Stateless Proxy Rule-Based Configuration SIP level LB TLS/TCP offload TCP proxy: - Connection mgmt: aliasing, reuse - Splitting/multiplexing Connection Access Control SIP attack anomalies SIP vulnerabilities SIP multi-parameter persistency (conditions-based) for in/outbound calls SIP level health monitoring Header modifications Rule based routing Transport conversion Global service virtualization NAT/FW traversal ‘Out-of-the-box’ configurable capabilities for scalable, fast reliable implementation Simplified installation and/or integration
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9 Role of ADC in the Pre-IMS/IMS Architecture SIP ADC Example 1 Example 3 Example 2
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10 Ex 1: Scale the SIP Application Tier SIP based Application 1 Farm SIP based Application 2 Farm Farm 1 VIP Farm 2 VIP SIP Level HMM Invite App 1 Invite App 2 0-Minute DDoS & Anomalies SIP Level Floods, Anomalies & Vulnerabilities IP level LB Security (Hardening ) Acceleration SIP Stateless Proxy Rule-based Configuration SIP level LB Multi-Parameter Persistency (conditions-based) - For ingress/egress calls - Application specific SIP ADC
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11 Ex 2: SIP Border Bottlenecks UDP G.711 IP TCP G.723 TLS G.729 IP IPBX - SIP Trunking SBC Farm New requirements at the network border lead to a new eco’-system G.711 G.723 G.729 G.711 G.723 G.729 G.711 G.723 G.729 SIP Peering SBC Overloaded: - SBC Cluster LB - TLS/TCP/UDP Conversion - Real-time X-Coding, call distribution changes ROI/Usage Issues - Need dynamic resource usage adaptation - Need ‘pay as you grow’ model
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12 UDP G.711 IP TCP G.723 TLS G.729 IP SIP Peering IPBX - SIP Trunking SBC Farm Real-Time X-coding farm B2BUA HMM Resources Monitoring On-demand codecs G.711 G.723 G.729 SBC Farm offloaded - Common codec - Transcoding G.711 0-Minute DDoS & Anomalies Scale the Border: On-demand Resources Network Public Peering/Trunking Addresses SIP ADC Farm VIP
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13 The Role of SIP ADC @ the Border – Call Flows UDP G.711 IP TCP G.723 TLS G.729 IP SIP Peering IPBX - SIP Trunking SBC Farm Real-Time X-coding farm B2BUA Farm VIP G.711 G.723 G.729 Invite G723 Invite G711 Invite G711,G723,G729 Invite G711/TLS Load balance the SBC resources - TLS/UDP conversion For outbound calls - Offer additional codecs upon DTG, SDP,… Redirect to external codec pools Scales as higher numbers of calls require: X-Coding, Transport conversion SIP ADC Farm VIP
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14 Ex 3: Scale and Simplify The Core Example for Outbound Call Flows (Off-Net) PSTN SBC IAD 302 Redirect to list:1,2,3 Re-Invite to 1 400 Busy Re-Invite to 2 Media (RTP) B2BUA or Proxy C5 C4 Route Engine TGW Soft Switch TDM Invite SIP SLB Original flow 200 OK SIP ADC Farm VIP’s
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