Endpoint Monitoring in Cisco ACI
Table of Contents
9.1 (EoL)
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- VM-Series Deployments
- VM-Series in High Availability
- Enable Jumbo Frames on the VM-Series Firewall
- Hypervisor Assigned MAC Addresses
- Custom PAN-OS Metrics Published for Monitoring
- Interface Used for Accessing External Services on the VM-Series Firewall
- PacketMMAP and DPDK Driver Support
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- VM-Series Firewall Licensing
- Create a Support Account
- Serial Number and CPU ID Format for the VM-Series Firewall
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- Activate Credits
- Transfer Credits
- Create a Deployment Profile
- Manage a Deployment Profile
- Provision Panorama
- Migrate Panorama to a Software NGFW License
- Renew Your Software NGFW Credits
- Amend and Extend a Credit Pool
- Deactivate License (Software NGFW Credits)
- Delicense Ungracefully Terminated Firewalls
- Create and Apply a Subscription-Only Auth Code
- Migrate to a Flexible VM-Series License
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- Generate Your OAuth Client Credentials
- Manage Deployment Profiles Using the Licensing API
- Create a Deployment Profile Using the Licensing API
- Update a Deployment Profile Using the Licensing API
- Get Serial Numbers Associated with an Authcode Using the API
- Deactivate a VM-Series Firewall Using the API
- Use Panorama-Based Software Firewall License Management
- What Happens When Licenses Expire?
- Install a Device Certificate on the VM-Series Firewall
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- Supported Deployments on VMware vSphere Hypervisor (ESXi)
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- Plan the Interfaces for the VM-Series for ESXi
- Provision the VM-Series Firewall on an ESXi Server
- Perform Initial Configuration on the VM-Series on ESXi
- Add Additional Disk Space to the VM-Series Firewall
- Use VMware Tools on the VM-Series Firewall on ESXi and vCloud Air
- Use vMotion to Move the VM-Series Firewall Between Hosts
- Use the VM-Series CLI to Swap the Management Interface on ESXi
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- VM-Series Firewall for NSX-V Deployment Checklist
- Install the VMware NSX Plugin
- Apply Security Policies to the VM-Series Firewall
- Steer Traffic from Guests that are not Running VMware Tools
- Add a New Host to Your NSX-V Deployment
- Dynamically Quarantine Infected Guests
- Migrate Operations-Centric Configuration to Security-Centric Configuration
- Use Case: Shared Compute Infrastructure and Shared Security Policies
- Use Case: Shared Security Policies on Dedicated Compute Infrastructure
- Dynamic Address Groups—Information Relay from NSX-V Manager to Panorama
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- Supported Deployments of the VM-Series Firewall on VMware NSX-T (North-South)
- Components of the VM-Series Firewall on NSX-T (North-South)
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- Install the Panorama Plugin for VMware NSX
- Enable Communication Between NSX-T Manager and Panorama
- Create Template Stacks and Device Groups on Panorama
- Configure the Service Definition on Panorama
- Deploy the VM-Series Firewall
- Direct Traffic to the VM-Series Firewall
- Apply Security Policy to the VM-Series Firewall on NSX-T
- Use vMotion to Move the VM-Series Firewall Between Hosts
- Extend Security Policy from NSX-V to NSX-T
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- Components of the VM-Series Firewall on NSX-T (East-West)
- VM-Series Firewall on NSX-T (East-West) Integration
- Supported Deployments of the VM-Series Firewall on VMware NSX-T (East-West)
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- Install the Panorama Plugin for VMware NSX
- Enable Communication Between NSX-T Manager and Panorama
- Create Template Stacks and Device Groups on Panorama
- Configure the Service Definition on Panorama
- Launch the VM-Series Firewall on NSX-T (East-West)
- Add a Service Chain
- Direct Traffic to the VM-Series Firewall
- Apply Security Policies to the VM-Series Firewall on NSX-T (East-West)
- Use vMotion to Move the VM-Series Firewall Between Hosts
- Extend Security Policy from NSX-V to NSX-T
- Use Migration Coordinator to Move Your VM-Series from NSX-V to NSX-T
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- Deployments Supported on AWS
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- Planning Worksheet for the VM-Series in the AWS VPC
- Launch the VM-Series Firewall on AWS
- Launch the VM-Series Firewall on AWS Outpost
- Create a Custom Amazon Machine Image (AMI)
- Encrypt EBS Volume for the VM-Series Firewall on AWS
- Use the VM-Series Firewall CLI to Swap the Management Interface
- Enable CloudWatch Monitoring on the VM-Series Firewall
- VM-Series Firewall Startup and Health Logs on AWS
- Use Case: Secure the EC2 Instances in the AWS Cloud
- Use Case: Use Dynamic Address Groups to Secure New EC2 Instances within the VPC
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- What Components Does the VM-Series Auto Scaling Template for AWS (v2.0) Leverage?
- How Does the VM-Series Auto Scaling Template for AWS (v2.0 and v2.1) Enable Dynamic Scaling?
- Plan the VM-Series Auto Scaling Template for AWS (v2.0 and v2.1)
- Customize the Firewall Template Before Launch (v2.0 and v2.1)
- Launch the VM-Series Auto Scaling Template for AWS (v2.0)
- SQS Messaging Between the Application Template and Firewall Template
- Stack Update with VM-Series Auto Scaling Template for AWS (v2.0)
- Modify Administrative Account and Update Stack (v2.0)
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- Launch the Firewall Template (v2.1)
- Launch the Application Template (v2.1)
- Create a Custom Amazon Machine Image (v2.1)
- VM-Series Auto Scaling Template Cleanup (v2.1)
- SQS Messaging Between the Application Template and Firewall Template (v2.1)
- Stack Update with VM-Series Auto Scaling Template for AWS (v2.1)
- Modify Administrative Account (v2.1)
- Change Scaling Parameters and CloudWatch Metrics (v2.1)
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- Enable the Use of a SCSI Controller
- Verify PCI-ID for Ordering of Network Interfaces on the VM-Series Firewall
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- Deployments Supported on Azure
- Deploy the VM-Series Firewall from the Azure Marketplace (Solution Template)
- Deploy the VM-Series Firewall from the Azure China Marketplace (Solution Template)
- Deploy the VM-Series Firewall on Azure Stack
- Enable Azure Application Insights on the VM-Series Firewall
- Set up Active/Passive HA on Azure
- Use the ARM Template to Deploy the VM-Series Firewall
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- About the VM-Series Firewall on Google Cloud Platform
- Supported Deployments on Google Cloud Platform
- Create a Custom VM-Series Firewall Image for Google Cloud Platform
- Prepare to Set Up VM-Series Firewalls on Google Public Cloud
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- Deploy the VM-Series Firewall from Google Cloud Platform Marketplace
- Management Interface Swap for Google Cloud Platform Load Balancing
- Use the VM-Series Firewall CLI to Swap the Management Interface
- Enable Google Stackdriver Monitoring on the VM Series Firewall
- Enable VM Monitoring to Track VM Changes on GCP
- Use Dynamic Address Groups to Secure Instances Within the VPC
- Locate VM-Series Firewall Images in the GCP Marketplace
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- Prepare Your ACI Environment for Integration
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- Create a Virtual Router and Security Zone
- Configure the Network Interfaces
- Configure a Static Default Route
- Create Address Objects for the EPGs
- Create Security Policy Rules
- Create a VLAN Pool and Domain
- Configure an Interface Policy for LLDP and LACP for East-West Traffic
- Establish the Connection Between the Firewall and ACI Fabric
- Create a VRF and Bridge Domain
- Create an L4-L7 Device
- Create a Policy-Based Redirect
- Create and Apply a Service Graph Template
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- Create a VLAN Pool and External Routed Domain
- Configure an Interface Policy for LLDP and LACP for North-South Traffic
- Create an External Routed Network
- Configure Subnets to Advertise to the External Firewall
- Create an Outbound Contract
- Create an Inbound Web Contract
- Apply Outbound and Inbound Contracts to the EPGs
- Create a Virtual Router and Security Zone for North-South Traffic
- Configure the Network Interfaces
- Configure Route Redistribution and OSPF
- Configure NAT for External Connections
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- Choose a Bootstrap Method
- VM-Series Firewall Bootstrap Workflow
- Bootstrap Package
- Bootstrap Configuration Files
- Generate the VM Auth Key on Panorama
- Create the bootstrap.xml File
- Prepare the Licenses for Bootstrapping
- Prepare the Bootstrap Package
- Bootstrap the VM-Series Firewall on AWS
- Bootstrap the VM-Series Firewall on Azure
- Bootstrap the VM-Series Firewall on Google Cloud Platform
- Verify Bootstrap Completion
- Bootstrap Errors
End-of-Life (EoL)
Endpoint Monitoring in Cisco ACI
The Cisco ACI plugin for Panorama allows you to build
security policy for your Cisco ACI fabric using Dynamic Address Groups.
The plugin monitors for changes in an Application Policy Infrastructure
Controller (APIC) fabric in your Cisco ACI environment and shares
that information with Panorama. Each Panorama with the Cisco ACI
plugin installed can support up to 16 APIC clusters. And each monitoring
definition has one cluster and one notify group.
The number of endpoints that the Cisco ACI plugin can monitor
is dependent the amount of memory allocated to Panorama. If you
have a Panorama virtual appliance, make sure you assign the necessary
amount of memory for the endpoints in your environment. See the Panorama Admin Guide for
more information about preparing your virtual Panorama.
Panorama Memory | Endpoints |
---|---|
8GB | 10,000 |
16GB | 20,000 |
The Cisco ACI plugin processes the endpoint information and converts
it into a set of tags that can be used as match criteria for placing
IP addresses in dynamic address groups. The tags are constructed
in the following format:
cisco.cl_<cluster>.tn_<tenant>.ap_<app-profile>.{epg_<EPG>
| uepg_<micro-EPG>}
- cisco.cl_<cluster>—this tag groups IP addresses into a dynamic address group based on the Cisco ACI cluster and displays the name of your cluster.
- cisco.cl_<cluster>.tn_<tenant>—this tag groups IP addresses into a dynamic address group based on tenant and displays the name of your cluster and tenant.
- cisco.cl_<cluster>.tn_<tenant>.ap_<app-profile>—this tag groups IP addresses into a dynamic address group base on application profile and displays the name of your cluster, tenant, and application profile.
- cisco.cl_<cluster>.tn_<tenant>.ap_<app-profile>.epg_<EPG>—this tag groups IP addresses into a dynamic address group based on EPG and displays the name of your cluster, tenant, application profile, and EPG.
- cisco.cl_<cluster>.tn_<tenant>.ap_<app-profile>.uepg_<micro-EPG>—this tag groups IP addresses into a dynamic address group based on micro-EPG and displays the name of your cluster, tenant, application profile, and micro-EPG.
- cisco.cl_<cluster>.tn_<tenant>.l2out_<L2-external-endpoint>—this tag groups IP addresses into dynamic address groups based on L2 external endpoint and displays the name of you cluster, tenant, and L2 external endpoint.
- cisco.cl_<cluster>.tn_<tenant>.bd_<bridge-domain>.subnet_<subnet>—this tag groups IP address into a dynamic address group based on subnet and displays the name of you cluster, tenant, bridge domain, and subnet.
To retrieve endpoint IP-address-to-tag mapping information, you
must configure a Monitoring Definition for each APIC fabric in your
Cisco ACI environment. The Monitoring Definition specifies the username
and password that allows Panorama to connect to the APICs. It also
specifies the device groups and corresponding notify groups containing
the firewalls to which Panorama pushes the tags. After you configure
the Monitoring Definition and the Cisco ACI plugin retrieves the
tags, you can create dynamic address groups and add the tags as
match criteria.
The Cisco ACI plugin uses two intervals to retrieve information
from the APIC. The first is the monitoring interval.
- Monitoring interval—The monitoring interval is the amount of time that the plugin waits before querying for changes in the fabric. If no changes occurred, the monitoring interval resets. If changes are detected, the plugin processes the changes before resetting the monitoring interval. The default monitoring interval is 60 seconds. You can set the monitoring interval from 60 seconds to one day (86,400 seconds).
- Full-sync interval—The full-sync interval is the amount of time that the plugin waits before updating the dynamic objects from all fabrics regardless of any changes occurred. This ensures that the plugin is synchronized with the fabric even if a change event is missed by the monitoring interval. The default full-sync interval is 10 minutes. You can set the full-sync interval from 600 seconds (10 minutes) and 86,400 seconds (one day).You must configure the full-sync interval through the Panorama CLI.
If you configure a value for the monitoring interval greater
than that of the full-sync interval, the full-sync interval is ignored
and a full synchronization is performed at every monitoring interval.
If Panorama loses its connection with the APIC, Panorama will
attempt to reconnect five times. After five failed attempts, Panorama
stops monitoring for changes in your clusters and displays the reconnection
attempts in the system log. To recover and begin monitoring your
clusters again, you must perform a commit on Panorama.