Amazon.com Inc.
12/01/2024 | Press release | Distributed by Public on 12/01/2024 14:48
AWS Verified Access now supports secure access to resources over non-HTTP(S) protocols (in preview)
AWS Verified Access provides secure access to your corporate applications and resources without a virtual private network (VPN). We launched Verified Accessin preview at re:Invent 2 years ago as a way to provide secure, VPN-less access to corporate applications, enabling organizations to manage network access based on identity and device security instead of IP addresses, which increases control and security over application access.
Today, Verified Accessis launching a preview of its secure, VPN-less access capabilities to non-HTTP(S) applications and resources, enabling zero trust access to corporate resources over protocols such as Secure Shell (SSH) and Remote Desktop Protocol (RDP).
Organizations increasingly require secure, remote access to internal resources such as databases, remote desktops, and Amazon Elastic Compute Cloud (Amazon EC2) instances. Traditional VPN solutions, although effective for network access, often grant broad privileges and don't support granular access controls, which can expose infrastructure with sensitive data. Although some organizations use bastion hosts to mediate access, this approach can create complexity and policy inconsistencies across HTTP(S) and non-HTTP(S) applications. With the rise of zero trust architectures, these gaps highlight the need for a secure access solution that extends consistent access policies across all applications and resources.
Verified Accessaddresses these needs by providing zero trust access controls for your corporate applications and resources. By supporting protocols such as SSH, RDP, or Java Database Connectivity (JDBC) or Open Database Connectivity (ODBC), Verified Accesssimplifies your security operations. Now, you can establish uniform, context-aware access policies across your corporate applications and resources. Verified Accessevaluates each access request in real time, making sure access is granted only to users who meet specific identity and device security requirements. Additionally, it eliminates the need for separate VPNs or bastion hosts, streamlining operations and reducing the risk of over-privileged access.
One of my favorite capabilities is onboarding a group of resources by specifying their IP Classless Inter-Domain Routing (CIDR) and ports, rather than onboarding one resource at a time. Verified Accessautomatically creates DNS records for each active resource within the specified CIDR range. This eliminates the need for manual DNS configuration and users can therefore connect to new resources instantly.
Using Verified Access for non-HTTPS access
Configuring Verified Accessfor non-HTTPS access isn't very different from what exists today. You can read the blog post I wrote for the launch of the preview 2 years ago or the Get started with Verified Access tutorial to learn how to get started.
Verified Accessproposes two new types of endpoint targets: a target for one single resource and a target for multiple resources.
With the network interface, load balancer, or RDS endpoint target you can provide access to an individual resource such as an Amazon Relational Database Service (Amazon RDS) instance or an arbitrary TCP application fronted by a Network Load Balancer or an elastic network interface. This type of target endpoint is defined by a combination of a target type (such as a load balancer or a network interface) and a range of TCP ports. Verified Accesswill provide a DNS name for each endpoint upon its creation. A Verified AccessDNS name is assigned for each target. This is the name end users will use to securely access the resource.
With network CIDR endpoint target, the resources are defined using an IP CIDR and port range. Through this type of endpoint target, you can easily provision secure access to ephemeral resources such as EC2 instances over protocols such as SSH and RDP. This is done without having to perform any actions such as creating or deleting endpoint targets each time a resource is added or removed. As long as these resources are assigned an IP address from the defined CIDR, Verified Accessprovides a unique public DNS record for each active IP detected in the defined CIDR.
Here is a diagram of the setup for this demo.
Part 1: As a Verified Access administrator
As a Verified Accessadministrator, I create the Verified Access instance, trust provider, access group, endpoint, and access policies, allowing access by the end user to the SSH server.
For this demo, I configure a Verified Accessnetwork CIDR endpoint target. I select TCP as Protocol and Network CIDR as Endpoint type. I make sure the CIDR range is within the one of the VPC where my target resources are. I select the TCP Port ranges and the Subnets within the VPC.
This is a good moment to stretch your legs and refill your cup of coffee, it takes a few minutes to create the endpoint.
Once, the status is ✅ Active, I launch an EC2 instance in a private Amazon Virtual Private Cloud (Amazon VPC). I enable SSH and configure the instance's security group to only access requests coming from the VPC. A few minutes later, I can see the instance IP has been detected and assigned a DNS name to connect to from the Verified Accessclient application.
I also have the option during the configuration to delegate my own DNS subdomain, such as secure.mycompany.com, and Verified Accesswill assign DNS names for the resources within that subdomain.
Create an access policy
At this stage, there is no policy defined on the Verified Access endpoint. It will deny every request by default.
On the Verified Access groups page, I select the Policy tab. Then I select the Modify Verified Access endpoint policy button to create an access policy.
I enter a policy allowing anybody who is authenticated and has an email address ending with @amazon.com. This is the email address I used for the user defined in AWS IAM Identity Center. Note that the name after context is the name I entered as Policy reference name when I created the Verified Access trust provider. The documentation page has the details of the policy syntax, the attributes, and the operators I can use.
permit(principal, action, resource)
when {
context.awsnewsblog.user.email.address like "*@amazon.com"
};
After a few minutes, Verified Access updates the policy and becomes Active again.
Distribute the configuration to clients
The last task as a Verified Accessadministrator is to extract the JSON configuration file of the client applications.
I retrieve the client application configuration file with the AWS Command Line Interface (AWS CLI). As a system administrator, I'll distribute this configuration to each client machine.
aws ec2 export-verified-access-instance-client-configuration \
--verified-access-instance-id "vai-0dbf2c4c011083069"
{
"Version": "1.0",
"VerifiedAccessInstanceId": "vai-0dbf2c4c011083069",
"Region": "us-east-1",
"DeviceTrustProviders": [],
"UserTrustProvider": {
"Type": "iam-identity-center",
"Scopes": "verified_access_test:application:connect",
"Issuer": "https://identitycenter.amazonaws.com/ssoins-xxxx",
"PkceEnabled": true
},
"OpenVpnConfigurations": [
{
"Config": "Y2...bWU=",
"Routes": [
{
"Cidr": "2600:1f10:4a02:8700::/57"
}
]
}
]
}
Now that I have a resource to connect to and the Verified Accessinfrastructure in place, let me show you the end user experience to access a network endpoint.
Part 2: As an end user
As the end user, I receive a link to download and install the Verified Access Connectivity Client application. We support Windows and macOS clients at the time of this writing.
I install the configuration file I received from my administrator. I use ClientConfig1.json as the file name and I copy the file to C:\ProgramData\AWSPylon on Windows or /Library/Application Support/com.aws.pylon.client on macOS.
This is the same configuration file for all users, and the system administrator might push the file to all client machines using an endpoint management tool.
I start the Connectivity Client application. I choose Sign in to start the authentication sequence.
[Link]The authentication opens my web browser on the authentication page of my identity provider. The exact screen and login sequence varies from one provider to the other. After I'm authenticated, the Connectivity Client creates the secure tunnel to access my resource, an EC2 instance for this demo.
| [Link] | [Link] |
Once the status is Connected, I can securely connect to the resource, using the DNS name provided by Verified Access. In a terminal application, I type the ssh command to start the connection.
For this demo, I configured a delegated DNS domain secure.mycompany.com for Verified Access. The DNS address I received for the EC2 instance is 10-0-1-199.awsnews.secure.mycompany.com.
$ ssh -i mykey.pem [email protected] , #_ ~\_ ####_ Amazon Linux 2023 ~~ \_#####\ ~~ \###| ~~ \#/ ___ https://aws.amazon.com/linux/amazon-linux-2023 ~~ V~' '-> ~~~ / ~~._. _/ _/ _/ _/m/' Last login: Sat Nov 17 20:17:46 2024 from 1.2.3.4 $
Availability and pricing
Verified Accessis available as a public preview in 19 AWS Regions: US East (Ohio, N. Virginia), US West (N. California, Oregon), Asia Pacific (Jakarta, Mumbai, Seoul, Singapore, Sydney, Tokyo), Canada (Central), Europe (Frankfurt, Ireland, London, Milan, Paris, Stockholm), Israel (Tel Aviv), and South America (São Paulo).
You're charged for each hourthat your non-HTTP(S) Verified Access endpoint remains active and per connection. The first 100 connections per month on each Verified Access endpoint are free. For more information, refer to AWS Verified Access Pricing.
With Verified Accessfor HTTP(S) and non-HTTP(S) applications you can unify the access controls to your private applications and systems and apply zero trust policies uniformly to all applications, and SSH, RDP, and HTTP(S) resources. It reduces the complexity of your network infrastructure and helps you to implement zero-trust access to your applications and resources. Finally, it adapts to your growing infrastructure, automating DNS setup and supporting large-scale deployments without resource-specific registration.
Go, try Verified Accesstoday, and share your feedback with the team!
-- seb