Parallels RAS 19 Administrator's Guide - Secondary Connection Brokers

Introduction
- Parallels RAS 19 release history
- About Parallels RAS
- About this guide
- What's new
- Terms and abbreviations used in this guide
Installing Parallels RAS
- System requirements
- Install Parallels RAS
- Log in and activate Parallels RAS
Getting Started with Parallels RAS
- The Parallels RAS Console
- Set up a basic Parallels RAS Farm
Farm and Sites
- Connecting to a Parallels RAS Farm
- About Sites
- Sites in the RAS Console
- Adding a Site to the Farm
- Replicating Site settings
- Managing Licensing Site
- Managing administrator accounts
RAS Connection Broker
- Configuring RAS Connection Brokers
- Secondary Connection Brokers
- Managing Secondary Connection Brokers
- Using computer management tools
RAS Secure Gateway
- Overview
- Adding a RAS Secure Gateway
- Manually adding a RAS Secure Gateway
- Checking the RAS Secure Gateway status
- Configuring a RAS Secure Gateway
- Secure Gateway tunneling policies
- Configure logging
- Viewing Secure Gateway summary and metrics
- Using computer management tools
RD Session Hosts
- RD Session Host types
- Add an RD Session Host
  - Installing the agent manually
- Add a template-based RD Session Host
- Manage RD Session Hosts
- Planning for high availability
- Managing logons
- Using computer management tools
- Publishing from an RD Session Host
- Viewing published resources
Virtual Desktop Infrastructure (VDI)
- Supported providers
- Add a provider
- Manage VDI
- Configure logging
- Enabling high availability for VDI
- Site defaults (VDI)
- Using computer management tools
- Viewing Provider summary
- Remote PC pools
Azure Virtual Desktop
- Introduction
- Prerequisites
- Deploy Azure Virtual Desktop
- Manage Azure Virtual Desktop
- Site defaults (Azure Virtual Desktop)
  - Site defaults for single-session hosts
  - Site defaults for multi-session hosts
- Using Parallels Client with Azure Virtual Desktop
- Verify the deployment
Remote PCs
- Overview
- Adding a Remote PC to a Farm
  - Admin-initiated Remote PC enrollment
  - Self-service Remote PC enrollment
- Configuring a Remote PC
- Viewing Remote PC summary
- Using computer management tools
Publishing
- Overview
- Publishing a desktop
- Publishing an application
- Publishing an application with MSIX app attach
- Publishing a web application
- Publishing a network folder
- Publishing a document
- General management tasks
- Manage published applications
- Manage published desktops
- Manage published documents
- Manage folders
- Site defaults (Publishing)
- Using filtering rules
- Configuring preferred routing
- Understanding session prelaunch
- Checking effective access
- Specifying client settings
- Quick keypad
Session Management
- Overview
- Session information
- Monitoring settings
- Managing sessions
- The Resources tab
SSL Certificate Management
- Generating a self-signed certificate
- Generating a certificate signing request (CSR)
- Let's Encrypt certificates
  - Requesting a Let's Encrypt Certificate
  - How Parallels RAS requests certificates from Let's Encrypt
- Importing a certificate
- Exporting a certificate
- Assigning a certificate to Secure Gateways and HALBs
- Auditing certificates
- Permissions to manage certificates
- Upgrading from an older RAS version
Connection and Authentication Settings
- RAS Connection Broker connection settings
- Remote session settings
- Logon hours settings
- Restricting access by Parallels Client type and build number
- Multi-factor authentication
- Allowing users to change domain password
- Allowing users to discover RAS connections via email address
Load Balancing and HALB
- Resource based & round robin load balancing
  - Configure CPU optimization
- High availability load balancing (HALB)
RAS Multi-Tenant Architecture
- Overview
- Architecture description
  - Implementation overview
  - User connection flow
- Deploying Tenant Broker and Tenants
- Managing Tenants
- Shared Gateways
- Third-party network load balancers
- Web Client and Themes
- Monitoring Tenants
- Tenant Broker compatibility and updates
- Upgrading from an older RAS version
- Configuring notifications
- Communication ports
SAML SSO Authentication
- Introduction
- System requirements
- SAML basics
- SAML configuration
- Parallels Client configuration
- Parallels client policy configuration
- Test the SAML SSO deployment
- Error messages
Parallels Web Client and User Portal
- Configure Web Client
- Configure Themes
- Open Parallels Web Client
- Main menu options
- Running remote applications and desktops
- Auto login
- Direct App access
- Using the toolbar
Universal Printing
- Managing Universal Printing settings
- Universal Printing drivers
- Font management
Universal Scanning
- Managing Universal Scanning
- Adding scanning applications
User Device Management and Client Policies
- Inviting users to connect to Parallels RAS
- Mass configuring user devices
- Enabling Help Desk support
- Monitoring devices
  - Getting additional device information
- Windows device groups
- Managing Windows devices
  - Windows desktop replacement
- Scheduling Windows devices & groups power cycles
- Client Policies
- Configuring remote file transfer
Reporting
- System requirements
- Install Microsoft SQL Server
  - Install Microsoft SQL Server 2016 or earlier
  - Install Microsoft SQL Server 2017 or 2019
- Install Parallels RAS Reporting
- Running Parallels RAS reports
- GDPR compliance
Performance Monitor
- Overview
- Install RAS Performance Monitor
- Using Parallels RAS Performance Monitor
- Configure RAS Performance Monitor Security
- Updating RAS Performance Monitor
Common Management Tasks
- Recovery - add a root administrator
- Host name resolution
- Computer management tools
- Site information
- Site settings
- Using MSIX application packages
- Using template versions
- Settings audit
- Upgrading RAS agents
- Licensing
- Configure HTTP proxy settings
- System event notifications
- RAS session variables
- Maintenance and backup
  - Exporting and importing Farm settings from the command line
- Problem reporting and troubleshooting
- Logging
- Suggest a feature
Parallels RAS Management Portal
- Overview
- Prerequisites
- Installation
- Log in to RAS Management Portal
- Configure RAS Web Administration Service
- RAS Management Portal user interface
Parallels RAS APIs
- RAS PowerShell API
- RAS REST API
- RAS Web Client API and Parallels Client URL scheme
Appendix
- Microsoft license requirements in Parallels RAS
- Port reference
- RAS performance counters

Secondary Connection Brokers

A secondary Connection Broker is added to a Site for redundancy. This way if the primary Connection Broker fails, the secondary Connection Broker is still available to handle the requests. Connection Brokers work in active/active manner to ensure high availability. In case of a Connection Broker failure, the next agent is always ready to handle the load. In general, the N+1 redundancy approach should be used per Site. Note that for auto-promotion you shouldn't have more than three Connection Brokers (auto-promotion is described later in this section).

When you have one more secondary Connection Brokers installed, the runtime data is replicated on each agent, so if any service fails, the downtime is reduced to a minimum. In addition, any active Connection Broker is used for authentication purposes with both the AD and any 2nd level authentication provider used.

The primary Connection Broker performs the same tasks as secondary Connection Brokers but has additional responsibilities. It manages certain processes that must be managed by a single Connection Broker. The following table lists processes managed by the primary Connection Broker and secondary Connection Brokers:

Process	Primary Connection Broker	Secondary Connection Brokers
Monitor PAs (counters)	Yes	Yes
Monitor RD Session Hosts (counters)	Yes	Yes
Monitor Providers (counters)	Yes	Yes
Monitor RDS Sessions (reconnection)	Yes	Yes
Monitor Deployed RDS applications	Yes	Yes
Monitor VDI session (reconnections)	Yes	Yes
Manage system settings	Yes	No
Send licensing information & heart beat	Yes	No
Process and send CEP information	Yes	No
Send information to reporting server	Yes	No
Manage RDS scheduler	Yes	No
Reporting engine information	Yes	Future versions
Shadowing	Yes	Future versions
Send email notifications	Yes	No

As a demonstration of how load distribution between multiple Connection Brokers works, consider the following example:

Suppose we have two Connection Brokers: PA1 (primary) and PA2 (secondary).
Suppose we also have 10 RD Session Hosts: RDS1, RDS2 ... RDS10

The resulting load will be distributed as follows:

RDS1, RDS2 ... RDS4 will use PA1 as their preferred Connection Broker.
RDS5, RDS6 ... RDS10 will use PA2 as their preferred Connection Broker.

Planning for secondary Connection Brokers

RAS Connection Brokers running on the same Site communicate with each other and share the load. The amount of data being transmitted from one agent to another is quite large, so a reliable high-speed communication channel must be ensured (e.g. a subnetwork can be configured for Connection Broker communications).

When adding a secondary Connection Broker to a Site, you specify an IP address for it. Make sure that the IP addresses of all agents belong to the same network segment. The port that Connection Brokers use to communicate with each other is TCP 20030.

There's no physical limit to how many Connection Brokers you can add to a Site. However, the best results are achieved with only two-three agents present. The three-agent scenario is highly recommended, especially when you have Providers and want to enable high availability for VDI. Adding more than two secondary Connection Brokers to a Site may have a reverse effect and actually degrade the system performance. Note that this does not apply to secondary Connection Brokers in standby mode, which is explained in Configuring RAS Connection Brokers.

Adding a secondary RAS Connection Broker to a Site

To add a secondary Connection Broker:

In the RAS console, navigate to Farm > <Site> > Connection Brokers.
Click the Tasks drop-down list and choose Add to launch the Add RAS Connection Broker wizard.
The Server field specifies the FDQN or IP address of the server that hosts the RAS Connection Broker. To automatically resolve IP address to FQDN, enable the global Name Resolution option. For details, see Host Name Resolution.
The IP field specifies the server IP address. Click the Resolve button to obtain the IP address automatically using the FQDN specified in the Server field.
The Alternative IPs field specifies one or more alternative IP addresses, separated by a semicolon. These addresses will be used if RAS Secure Gateways fail to connect to the RAS Connection Broker using its FQDN or the address specified in the IP field. This can happen, for example, if Secure Gateways are connecting from a different network, which is not joined to Active Directory.
Select the Install a Secure Gateway with a Connection Broker option if you also want to install a RAS Secure Gateway on the specified server. If you select this option, you may also select the Enable HTML5 Gateway option (for more info, see Configure User Portal).
Select the Add Firewall Rules option to automatically configure the firewall on the server. See Port Reference for details.
Click Next.
On the next page, click Install to install the RAS Connection Broker on the server. The Installing RAS Redundancy Service dialog opens.
Select the server on which the RAS Connection Broker is to be installed and click Install.
Click Done.
Click OK to add the server to the Farm.

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Configuring RAS Connection Brokers

Managing Secondary Connection Brokers