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Table of Contents
- play_arrow Subscriber Service Activation and Management
- play_arrow Subscriber Service Activation and Management
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- play_arrow Configuring Dynamic Class of Service
- play_arrow CoS for Subscriber Access and Interfaces Overview
- play_arrow Configuring Scheduling and Shaping for Subscriber Access
- Configuring Traffic Scheduling and Shaping for Subscriber Access
- Configuring Schedulers in a Dynamic Profile for Subscriber Access
- Configuring Scheduler and Scheduler Map Sharing
- Example: Providing Unique Rate Configurations for Schedulers in a Dynamic Profile
- Example: Configuring Aggregate Scheduling of Queues for Residential Subscribers on Static IP Demux Interfaces
- Verifying the Scheduling and Shaping Configuration for Subscriber Access
- play_arrow Allocating Dedicated Queues for Each Logical Interface Using Per-Unit Scheduling
- play_arrow Configuring Hierarchical CoS Scheduling on MPLS Ethernet Pseudowire Subscriber Interfaces
- Enhanced Subscriber Management Subscriber Logical Interfaces or Interface Sets Over Underlying Logical Interfaces for a CoS scheduler Hierarchy
- Enhanced Subscriber Management Subscriber Logical Interfaces or Interface Sets Over MPLS Pseudowires for a CoS scheduler Hierarchy
- Configuring Layer 2 Subscriber Logical Interfaces for CoS Hierarchical Schedulers Using Dynamic Profiles for Differentiating Home and Access Node Networks
- Example: Configuring Layer 2 Subscriber Logical Interfaces for CoS Hierarchical Schedulers Using Static CoS for Differentiating Home and Access Node Networks
- play_arrow Configuring Dedicated Queue Scaling with Hierarchical CoS or Per-Unit Scheduling
- play_arrow Shaping Downstream Traffic Based on Frames or Cells
- Bandwidth Management for Downstream Traffic in Edge Networks Overview
- Configuring Dynamic Shaping Parameters to Account for Overhead in Downstream Traffic Rates
- Example: Configuring Dynamic Shaping Parameters to Account for Overhead in Downstream Traffic Rates
- Configuring Static Shaping Parameters to Account for Overhead in Downstream Traffic Rates
- Example: Configuring Static Shaping Parameters to Account for Overhead in Downstream Traffic Rates
- Setting Shaping Rate and Overhead Accounting Based on PPPoE Vendor-Specific Tags
- Configuring the Shaping Rate and Overhead Accounting Based on PPPoE Vendor-Specific Tags on Dynamic Subscriber Interfaces
- Reporting the Effective Shaping Rate for Subscribers
- Verifying the Effective Shaping Rate Reporting Configuration
- play_arrow Applying CoS to Households or Individual Subscribers Using ACI-Based Dynamic VLANs
- Applying CoS Attributes to VLANs Using Agent-Circuit-Identifiers
- Agent Circuit Identifier-Based Dynamic VLANs Bandwidth Management Overview
- Restrictions for Configuring Adjustment of CoS Shaping Rate and Overhead Accounting for Dynamic ACI Interface Sets
- Adjusting the CoS Shaping Rate and Overhead Accounting Parameters for Agent Circuit Identifier-Based Dynamic VLANs
- play_arrow Applying CoS to Households or Individual Subscribers Using Access Line Identifier Dynamic VLANs
- Applying CoS Attributes to VLANs Using Access-Line Identifiers
- Bandwidth Management Overview for Dynamic VLANs Based on Access-Line Identifiers
- Restrictions for Configuring Adjustment of CoS Shaping Rate and Overhead Accounting for Dynamic ALI Interface Sets
- Adjusting the CoS Shaping Rate and Overhead Accounting Parameters for Dynamic VLANs Based on Access-Line Identifiers
- play_arrow Managing Excess Bandwidth Distribution and Traffic Bursts
- play_arrow Applying CoS Using Parameters Received from RADIUS
- Subscriber Interfaces That Provide Initial CoS Parameters Dynamically Obtained from RADIUS
- Changing CoS Services Overview
- CoS Traffic Shaping Attributes for Dynamic Interface Sets and Member Subscriber Sessions Overview
- Guidelines for Configuring CoS Traffic Shaping Attributes for Dynamic Interface Sets and Member Subscriber Sessions
- Configuring Initial CoS Parameters Dynamically Obtained from RADIUS
- Configuring Static Default Values for Traffic Scheduling and Shaping
- Applying CoS Traffic-Shaping Attributes to Dynamic Interface Sets and Member Subscriber Sessions
- CoS Traffic Shaping Predefined Variables for Dynamic Interface Sets
- Example: Configuring Initial CoS Parameters Dynamically Obtained from RADIUS
- play_arrow Modifying a Subscriber’ s Shaping Characteristics After a Subscriber is Instantiated
- play_arrow Applying CoS to Groups of Subscriber Interfaces
- play_arrow Applying CoS to Subscriber Interfaces
- Applying Traffic Shaping and Scheduling to a Subscriber Interface in a Dynamic Profile
- Applying Minimal Shaping and Scheduling to Remaining Subscriber Traffic
- Applying a Rewrite Rule Definition to a Subscriber Interface in a Dynamic Profile
- Applying a Classifier to a Subscriber Interface in a Dynamic Profile
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- play_arrow Configuring Dynamic Filters and Policers
- play_arrow Dynamic Firewall Filters Overview
- play_arrow Configuring Static Firewall Filters That Are Dynamically Applied
- play_arrow Streamlining Processing of Chains of Static Filters
- play_arrow Dynamically Attaching Static or Fast Update Filters to an Interface
- play_arrow Configuring Filters That Are Created Dynamically
- Parameterized Filters Overview
- Unique Identifiers for Firewall Variables
- Configuring Unique Identifiers for Parameterized Filters
- Sample Dynamic-Profile Configuration for Parameterized Filters
- Dynamic Profile After UID Substitutions for Parameterized Filters
- Multiple Parameterized Filters
- Parameterized Filter Processing Overview
- Parameterized Filters Configuration Considerations
- Guidelines for Creating and Applying Parameterized Filters for Subscriber Interfaces
- Parameterized Filter Match Conditions for IPv4 Traffic
- Parameterized Filter Match Conditions for IPv6 Traffic
- Parameterized Filter Nonterminating and Terminating Actions and Modifiers
- Firewall Filter Match Conditions for Protocol-Independent Traffic in Dynamic Service Profiles
- Firewall Filter Terminating and Nonterminating Actions for Protocol-Independent Traffic in Dynamic Service Profiles
- Interface-Shared Filters Overview
- Dynamically Attaching Filters Using RADIUS Variables
- Example: Implementing a Filter for Households That Use ACI-Based VLANs
- Example: Dynamic-Profile Parsing
- Example: Firewall Dynamic Profile
- Example: Configuring a Filter to Exclude DHCPv6 and ICMPv6 Control Traffic for LAC Subscriber
- play_arrow Using Ascend Data Filters to Implement Firewalls Based on RADIUS Attributes
- Ascend-Data-Filter Policies for Subscriber Management Overview
- Ascend-Data-Filter Attribute Fields
- Dynamically Applying Ascend-Data-Filter Policies to Subscriber Sessions
- Example: Configuring Dynamic Ascend-Data-Filter Support for Subscriber Access
- Example: Configuring Static Ascend-Data-Filter Support for Subscriber Access
- Verifying and Managing Dynamic Ascend-Data-Filter Policy Configuration
- play_arrow Configuring Fast Update Filters to Provide More Efficient Processing Over Classic Static Filters
- Fast Update Filters Overview
- Basic Fast Update Filter Syntax
- Configuring Fast Update Filters
- Example: Configuring Fast Update Filters for Subscriber Access
- Match Conditions and Actions in Fast Update Filters
- Configuring the Match Order for Fast Update Filters
- Fast Update Filter Match Conditions
- Fast Update Filter Actions and Action Modifiers
- Configuring Terms for Fast Update Filters
- Configuring Filters to Permit Expected Traffic
- Avoiding Conflicts When Terms Match
- Associating Fast Update Filters with Interfaces in a Dynamic Profile
- play_arrow Defending Against DoS and DDoS Attacks Using Unicast RPF and Fail Filters
- play_arrow Improving Scaling and Performance of Filters on Static Subscriber Interfaces
- play_arrow Configuring Dynamic Service Sets
- play_arrow Configuring Rate-Limiting Premium and Non-Premium Traffic on an Interface Using Hierarchical Policers
- play_arrow Monitoring and Managing Firewalls for Subscriber Access
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- play_arrow Configuring Dynamic Multicast
- play_arrow Configuring Dynamic IGMP to Support IP Multicasting for Subscribers
- play_arrow Configuring Dynamic MLD to Enable Subscribers to Access Multicast Networks
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- play_arrow Configuring HTTP Redirect Services
- play_arrow Configuring Captive Portal Content Delivery Services for Redirected Subscribers
- HTTP Redirect Service Overview
- Remote HTTP Redirect Server Operation Flow
- Local HTTP Redirect Server Operation Flow (MX Series, ACX7100-48L, ACX7332 and ACX7348)
- Configuring MS-MPC-Based or MX-SPC3-Based Static HTTP Redirect Services
- Configuring MS-MPC-Based or MX-SPC3-Based Converged HTTP Redirect Services
- Configuring Routing Engine-Based, Static HTTP Redirect Services
- Configuring Routing Engine-Based, Converged HTTP Redirect Services
- Adding Subscriber Information to HTTP Redirect URLs
- How to Automatically Remove the HTTP Redirect Service After the Initial Redirect
- Example: Configuring HTTP Redirect Services Using a Next-Hop Method and Attaching It to a Static Interface
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- play_arrow Configuring Subscriber Secure Policy
- play_arrow Configuring Subscriber Secure Policy Traffic Mirroring Overview
- play_arrow Configuring RADIUS-Initiated Subscriber Secure Policy Traffic Mirroring
- RADIUS-Initiated Subscriber Secure Policy Overview
- Subscriber Secure Policy Traffic Mirroring Architecture Using RADIUS
- RADIUS-Initiated Traffic Mirroring Interfaces
- RADIUS-Initiated Traffic Mirroring Process at Subscriber Login
- RADIUS-Initiated Traffic Mirroring Process for Logged-In Subscribers
- RADIUS Attributes Used for Subscriber Secure Policy
- Using the Packet Header to Track Subscribers on the Mediation Device
- Configuring RADIUS-Initiated Subscriber Secure Policy Mirroring Overview
- Guidelines for Configuring Subscriber Secure Policy Mirroring
- Configuring Support for Subscriber Secure Policy Mirroring
- Configuring RADIUS Server Support for Subscriber Secure Policy Mirroring
- Terminating RADIUS-Initiated Subscriber Traffic Mirroring
- play_arrow Configuring DTCP-Initiated Subscriber Secure Policy Traffic Mirroring
- DTCP-Initiated Subscriber Secure Policy Overview
- Subscriber Secure Policy Traffic Mirroring Architecture Using DTCP
- DTCP-Initiated Traffic Mirroring Interfaces
- DTCP-Initiated Traffic Mirroring Process
- DTCP Messages Used for Subscriber Secure Policy
- Packet Header for Mirrored Traffic Sent to Mediation Device
- Configuring DTCP-Initiated Subscriber Secure Policy Mirroring Overview
- Guidelines for Configuring Subscriber Secure Policy Mirroring
- Configuring Support for Subscriber Secure Policy Mirroring
- Configuring the Mediation Device as a User on the Router
- Configuring a DTCP-over-SSH Connection to the Mediation Device
- Configuring the Mediation Device to Provision Traffic Mirroring
- Disabling RADIUS-Initiated Subscriber Secure Policy Mirroring
- Example: Configuring Traffic That Is Mirrored Using DTCP-Initiated Subscriber Secure Policy
- Terminating DTCP-Initiated Subscriber Traffic Mirroring Sessions
- play_arrow Configuring DTCP Messages Used for DTCP-Initiated Subscriber Secure Policy Mirroring
- play_arrow Configuring Subscriber Secure Policy Support for IPv4 Multicast Traffic
- play_arrow Configuring Intercept-Related Information for Subscriber Secure Policy
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- play_arrow Configuring Stateless, Rule-Based Services Using Application-Aware Access Lists
- play_arrow AACL Overview
- play_arrow Configuring AACL Rules
- play_arrow Example: Configuring AACL Rules
- play_arrow Example: Configuring AACL Rule Sets
- play_arrow Configuring Logging of AACL Flows
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- play_arrow Remote Device and Service Management
- play_arrow Configuring Remote Device Services Management
- play_arrow Configuring TCP Port Forwarding for Remote Subscriber Services
- play_arrow Configuring IPFIX Mediation for Remote Device Monitoring
- play_arrow Collection and Export of Local Telemetry Data on the IPFIX Mediator
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- play_arrow Troubleshooting
- play_arrow Contacting Juniper Networks Technical Support
- play_arrow Knowledge Base
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- play_arrow Configuration Statements and Operational Commands
- [OBSOLETE] applications (Services AACL)
- [OBSOLETE] application-group-any
- [OBSOLETE] application-groups (Services AACL)
- [OBSOLETE] destination-address (Application Aware Access List)
- [OBSOLETE] destination-address-range
- [OBSOLETE] destination-prefix-list (Services AACL)
- [OBSOLETE] from
- [OBSOLETE] match-direction
- [OBSOLETE] nested-applications
- [OBSOLETE] rule
- [OBSOLETE] rule-set
- [OBSOLETE] source-address (AACL)
- [OBSOLETE] source-address-range
- [OBSOLETE] source-prefix-list
- [OBSOLETE] term
- [OBSOLETE] then (Application Aware Access List)
- Junos CLI Reference Overview
list Table of Contents
Configuring Logging and Reporting for Subscriber Management
date_range
06-Dec-23
To configure logging and reporting for traffic belonging to a subscriber, you configure LRF rules, collectors, and templates in an LRF profile; assign that LRF profile to the service set that is configured for application-aware policy control, and assign each LRF rule to a PCC rule to activate it.
Note:
Starting in Junos OS Release 19.3R1, LRF is also supported for Broadband Subscriber Management if Next Gen Services are enabled on the MX-SPC3 services card).
To configure logging and reporting:
