The Cisco RaMA architecture aligns with the Cisco SAFE security model and methods to simplify end-to-end security depending on the audience needs. Ranging from business flows and their respective threats to the corresponding security capabilities, architectures, and designs, SAFE provides guidance that is holistic and understandable.
By aligning with the SAFE Places in the Network (PINs) of Threat Defense, Segmentation, Secure Services, and Management, the RaMA architecture provide the ability to segment data and management, encrypt traffic, and provide secure remote access to connected devices.
2020欧洲杯体育官方网址Figure 1 Key to SAFE
The Key to SAFE organizes the complexity of holistic security into PINs and Secure Domains.
These SAFE requirements optimize protection from potential vulnerabilities by requiring a security-centric IoT design that helps ensure that every element of the platform is secure, starting from the authentication of edge devices. In addition to secure device access, multiple secure connectivity options are required to ensure protection of enterprise data. Each layer of the IoT architecture must be secured to ensure security of both the management plane and the data plane.
Management Plane Security
■2020欧洲杯体育官方网址Use of an encrypted IP Security (IPSec) tunnel to provision and manage the edge gateways
■Certificate-based authentication during the gateway claiming process
■2020欧洲杯体育官方网址Multi-tenant Gateway Cloud Management (GMM) with support for:
–2020欧洲杯体育官方网址Single sign-on and two-factor authentication
–Role-based access control
–2020欧洲杯体育官方网址Logging and auditing
Data Plane Security
The Data Plane refers to all customer/user data from the gateway or devices behind it that are not related to the management of the gateway itself. Feature highlights include:
■Secure connectivity from the edge gateways up to the enterprise headend using FlexVPN to establish encrypted tunnels using IPSec and Internet Key Exchange Protocol version 2 (IKEv2).
■Support for Cisco AnyConnect Virtual Private Networks (VPNs) to enable secure remote access to devices behind the gateway using VPN from external networks.
■WPA2-protected Wi-Fi with Pre Shared Keys (PSK) or RADIUS-based authentication.
■No user data goes to the management cloud. When a site-to-site VPN is deployed, all user data can be routed through the enterprise. Cisco recommends routing all traffic through the customer VPN headend if secure traffic is important.
■2020欧洲杯体育官方网址Support for industry-specific security requirements such as the Payment Card Industry Data Security Standard (PCI DSS) allowing organizations and sellers to safely and securely accept, store, process, and transmit cardholder data during credit card transaction to prevent fraud and data breaches.
■Integrated Cloud-based Cisco Umbrella for DNS-Layer security.
■Push button Zone-Based Firewall featuring Cisco’s latest firewall models providing simple, secure, and flexible firewall solutions.
■Integrated Cisco Stealthwatch support in edge Gateways through built in NetFlow support providing comprehensive visibility and network traffic security analytics solution. It provides advanced threat detection, accelerated threat response, and simplified network segmentation using multilayer machine learning and entity modeling.
Gateway and Device Security
At the gateway level, soft and physical security is provided for the gateway and the connected devices. Feature highlights include:
■Use of 802.1x to authenticate wireless or wired Ethernet clients.
■2020欧洲杯体育官方网址Cisco Trustworthy Technologies, including image signing, secure boot, and chain of trust.
■Physical gateway security using Trust Anchor module (TAm)—This proprietary, tamper-resistant chip features nonvolatile secure storage, Secure Unique Device Identifier, and crypto services.
Encrypted IPSec Tunnel
2020欧洲杯体育官方网址All provisioning and management of the edge gateways occurs over encrypted IPSec tunnels to ensure secure communication between GMM and the gateways.
2020欧洲杯体育官方网址The registration and claim process between GMM and the gateways is secured using a certificated-based authentication process. This helps prevents spoofing of the gateway and guards against man-in-the-middle attacks where an external server claims to be acting on behalf of a legitimate GMM server.
Web UI with Single Sign-on and Two-Factor Authentication
User names and passwords are no longer a safe security method for online accounts. Data breaches occur daily and hackers are always inventing new ways to take over accounts. The GMM platform supports both enterprise Single Sign-On (SSO) and two-factor authentication on its Web-UI to provide an extra layer of security. Users can point their logins to their SSO server if needed and also rely on two layers of security to protect the account in the form of two-factor authentication (2FA).
Secure Remote Device Connectivity
To provide greater security, Cisco’s GMM relies on one-time passwords for VPN authentication that expire after a chosen time. This allows temporary VPN access to be given to a third party such as a vendor which would subsequently expire after the set duration elapses.
Role-Based Access Control (RBAC)
Cisco GMM provides several levels of access to the Web-UI. Depending on the user’s role (administrator, operator, or monitor), various features are either available or restricted.
Figure 4 User Roles
Logging and Auditing
2020欧洲杯体育官方网址Keeping a record of all actions performed through Cisco GMM, as well as events related to gateway status, helps in a post mortem analysis after a security incident. Similarly, alerts can be configured to be sent immediately when a specified operation or event is observed, allowing the proper individuals to respond accordingly.
Figure 5 Audit Trail
Introduction to IPSec VPNs
VPNs are designed to securely and inexpensively extend the reach of corporate networks. Several options have been built on top of IPSec, a framework that addresses the task of ensuring the confidentiality, integrity, and authentication (CIA) of origin and secure key distribution for VPNs. Using a VPN secures the data plane and isolates it from the management and configuration of the gateway, which provides segmentation between management and data flow. All data that flows through the gateway flows through a customer-managed headend at the company data center or directly to the internet.
2020欧洲杯体育官方网址Some of the notable strengths of IPSec are its independence from the transport layer (UDP, TCP, or raw IP) and the simple replacement of one or more of its components (such as hash functions and cryptographic algorithms), so it can withstand brute force attacks while keeping current with the evolution of hardware.
The Cisco IOS software offers multiple VPN options including Classic IPSec, IPSec/GRE, Virtual Tunnel Interface (VTI), EasyVPN, and Dynamic Multipoint VPN (DMVPN). Each of these technologies were developed to solve specific problems:
■Crypto Maps are the initial/legacy solution devised before IPSec was an RFC. Although the services available are very basic, they help with interoperability.
■VTI brings a logical interface to IPSec deployments without the need for Generic Routing Encapsulation (GRE).
■2020欧洲杯体育官方网址EasyVPN allows branch routers (or other types of VPN appliances) to behave as hardware clients that are centrally configured by a VPN concentrator.
■2020欧洲杯体育官方网址DMVPN provides the capability to dynamically establish tunnels between spokes in a hub-and-spoke scenario.
The Cisco RaMA solution uses IPSec-based FlexVPNs rather than SSL-based VPNs. Since it is application agnostic, IPSec can support a number of legacy protocols and traditional client/server applications with minimal effort. This is not the case with SSL VPNs, which have been built around web-based applications. As a result, SSL VPN-based options like OpenVPN could severely limit the security and network options for remote and mobile assets by requiring always-on connectivity to the headquarters.
Introduction to FlexVPN
FlexVPN is a framework for configuring IPSec VPNs on Cisco IOS devices. It was created to simplify the deployment of VPN solutions of all types, such as hub-and-spoke, spoke-to-spoke, site-to-site, and remote access implemented through EasyVPN, DMVPN, and Crypto Maps.
2020欧洲杯体育官方网址FlexVPN is Cisco’s implementation of the IKEv2 standard featuring a unified paradigm and CLI that combines site to site, remote access, hub and spoke topologies, and partial meshes (spoke to spoke direct). FlexVPN offers a simple but modular framework that extensively uses the tunnel interface paradigm while remaining compatible with legacy VPN implementations using crypto maps.
■ FlexVPN requires the use of IKEv2, which is a more secure option than the original implementation (IKEv1).
■ By design, IKEv2 is not backward compatible with IKEv1 since it provides increased security. IKEv2 requires reconfiguration of all IPSec VPNs.
Benefits of Using FlexVPN
■2020欧洲杯体育官方网址Built on IKEv2—IKEv2 is more secure than IKEv1 because it supports the latest Suite B cryptographic algorithms. IKEv2 has built-in support for Dead Peer Detection (DPD) and NAT-Traversal. It is also resistant to DoS attacks.
■2020欧洲杯体育官方网址Ease of configuration—It is easy to configure using IKEv2 built-in, smart defaults, so there is no need to define policies, transform sets, etc.
■Cost effective—The FlexVPN hub-and-spoke design does not require NHRP (unlike DMVPN), which reduces WAN bandwidth utilization and costs due to reduced control plane traffic.
■Support for hardware encryption:
–2020欧洲杯体育官方网址IKEv2 stability—It automatically resumes normal operation after a temporary interruption of a connection, such as after a power outage or when entering a real-world tunnel.
–2020欧洲杯体育官方网址IKEv2 route advertisement—Another cost benefit is IKEv2’s ability to advertise routes during tunnel negotiation, which helps reduce chatty control messaging that can consume data plans.
■Centralized policy control—VPN dynamic policies such as split-tunnel policy, encryption network policy, Virtual Route Forwarding (VRF) selection, and Domain Name System (DNS) server (for remote access) can be fully integrated with the authentication, authorization, and accounting (AAA)/RADIUS server and applied on a per-peer basis.
■Support for high-availability and scalability—In this solution architecture, we propose using IKEv2 Load Balancing, which relies on HSRP between the hubs to allow for scaling to greater than 10,000 sessions. All HSRP members are part of a cluster, with one of the hubs active while others are in standby mode. The active hub sends IKE redirect messages to hubs with lower utilization.
■2020欧洲杯体育官方网址Support for multi-cast traffic—GRE encapsulation allows multicast applications, including dynamic routing protocols, to traverse the tunnel without needing NHRP on the headend router (HER).
■IPv4 and IPv6 support—It is backward compatible as well as future proofed for IoT IP addressing requirements.
■Flexible AAA options—Authentication and Authorization may be performed by means of a local database or using RADIUS (more convenient for service provider environments, which typically require multi-tenancy).
■2020欧洲杯体育官方网址Dynamic tunnel configuration—This has been simplified so that theoretically only a single interface template would be required on the hub site to allow all types of incoming VPN connections.
■A private APN is not needed when using multiple carriers. It allows the same communications to the gateway no matter which carrier is used, which is desirable when coverage areas for certain locations are poor and you need to use multiple carriers to obtain reliable communications.
FlexVPN supports hardware encryption, which is offered by most Cisco products to optimize VPN performance. This provides exponentially better throughput than software encryption.
Private versus Public Access Point Names
2020欧洲杯体育官方网址Public Access Point Names (APNs) are the default internet connectivity for cellular gateways. Some customers purchase Private APNs from their cellular carriers. A Private APN may either be a dedicated APN for a customer or a “virtual one”, meaning that all traffic coming over the radio network is examined to identify the device cellular ID, enabling this traffic to be routed to the Private APN and subsequently into the enterprise network. In most cases, the data traverses the public internet to get to the network, which always introduces the possibility of security violations.
Cisco recommends the use of FlexVPNs for Private APNs since this provides end-to-end encryption to ensure that no man-in-the-middle can view enterprise network traffic. If your RaMA applications or devices leverage application-level encryption or do not need access to the enterprise network for security or management, then Public or Private APN without FlexVPN may be an acceptable solution.
The Payment Card Industry Data Security Standard (PCI DSS) is an information security standard for organizations that handle branded credit cards from the major card companies.
The PCI Standard is mandated by the card brands and administered by the Payment Card Industry Security Standards Council. The standard was created to increase controls around card holder data to reduce credit card fraud.
2020欧洲杯体育官方网址The PCI DSS is organized into six logically related groups called “control objectives”.
2020欧洲杯体育官方网址Table 2 PCI DSS Control Objectives
| || |
1. Build and maintain a secure network and systems.
| The RaMA solution is built around securing the entire management plane and fully addresses this control objective through management audit trails as well as secure device configuration. |
2.2020欧洲杯体育官方网址 Protect card holder data.
| When using the FlexVPN capability, card holder data in motion is protected and compliant. Cisco recommends that any device or application behind the gateway be secured for data at rest. When using Private APNs, this requirement is not met. |
3.2020欧洲杯体育官方网址 Maintain a vulnerability management program.
| Based on customer policies and procedures. |
4.2020欧洲杯体育官方网址 Implement strong access control measures.
| Access to the management layer can be secured through two-factor authentication. While this does not address any applications or devices behind the gateway, the gateway itself does implement strong access control measures. |
5.2020欧洲杯体育官方网址 Regularly monitor and test networks.
| Based on customer policies and procedures. |
6. Maintain an information security policy.
| Based on customer policies and procedures. |
Cisco Umbrella Integration
2020欧洲杯体育官方网址Cisco Umbrella is a cloud-native platform that delivers secure, reliable, and fast internet experience. Umbrella unifies fire-wall, secure web gateway, DNS-layer security, cloud access security broker (CASB), and threat intelligence solutions into a single platform to help businesses secure their network. As organizations directly connect IoT Gateways to the internet, Umbrella makes it easy to extend protection to roaming users and branch offices. It protects devices behind the gateway from malicious sites and provides content filtering to users behind the gateway. Umbrella leverages insights from Cisco Talos, one of the world's largest commercial threat intelligence teams, to uncover and block a broad spectrum of mali-cious domains, IPs, URLs, and files that are being used in attacks.
Cisco IR1100 Gateway integrates Umbrella agent directly in the software allowing for seamless Umbrella protection to all devices connected to it, wired or wireless. There are three modes to deploy Umbrella protection on the IR1100:
■ Without Direct Cloud Access (DCA) —This is essentially sending all DNS traffic to Umbrella without applying any filtering or group policies.
■ With Direct Cloud Access (DCA) —Umbrella agent in IR1101 will forward certain DNS traffic to enterprise, and all other DNS traffic to umbrella, thus keeping Enterprise traffic within the enterprise and sending all other to the internet.
■ Enhanced DNS (EDNS) and DNSCrypt —EDNS feature is enabled to apply Umbrella policies by groups and subnets. It sends device identifier information with DNS requests enabling Umbrella to identify the user and enforce provisioned policies. Also, with encryption enabled through DNSCrypt, all DNS traffic is secure and private.
2020欧洲杯体育官方网址Figure 6 Umbrella Topology
Note: Refer to Sample Security Configurations2020欧洲杯体育官方网址 for further configuration details.
Once a gateway is configured to use Umbrella for all DNS needs, all additional configurations and restrictions are on the Umbrella Cloud Applications UI. A user can perform any of Umbrella security functions as shown in Figure 7.
Figure 7 Umbrella Security Functions
Gateway Zone-Based Firewall
Zone-Based Policy Firewall (ZFW) is a new configuration model for the Cisco IOS Firewall feature set. This new configura-tion model offers intuitive policies for multiple-interface routers, increased granularity of firewall policy application, and a default deny-all policy that prohibits traffic between firewall security zones until an explicit policy is applied to allow desirable traffic. In Configuring ZFW, Interfaces are assigned to zones, and inspection policy is applied to traffic moving between the zones.
2020欧洲杯体育官方网址However, the feature is also backward compatible to nearly all classic Cisco IOS Firewall features implemented in prior releases.
The Cisco IR1100 gateway incorporates a ZFW which, for ease of use, is configurable using a template from the Cloud Management platform. The software also supports per-class session/connection and throughput limits, as well as application inspection and control for many popular applications. Those limits make the feature ideal to control LTE bandwidth usage and avoid congestion among downstream connected devices.
In a typical configuration as shown in Figure 8, there could be three zones for an IoT gateway and private, DMZ, and public internet zones. Each zone would have its own policy and then interfaces are assigned to a zone. Interfaces that share a zone would have unrestricted connectivity while traffic that crosses zones would be subject to the policies of each zone.
Figure 8 2020欧洲杯体育官方网址Basic Security Zone Topology
Note: Refer to Sample Security Configurations for further configuration details.
Cisco StealthWatch Integration
2020欧洲杯体育官方网址Cisco StealthWatch deployment requires three components:
■2020欧洲杯体育官方网址End devices capturing and forwarding NetFlows passing through the gateway
■A Flow Collector (FC) aggregating those flows from edge devices
■A StealthWatch Management Console (SMC) to configure and manage the flow collectors and display the data on user friendly dashboards.
Both Flow Collectors and the Management Console are on-prem applications and therefore installed in the customer data center (Figure 9).
Figure 9 2020欧洲杯体育官方网址StealthWatch Components and Sample SMC Dashboard
The recommendations for FC and SMC deployment is to deploy in the data center one 4210 Series Flow Collector/Database (see http://kelpqueenpress.com/c/dam/en/us/td/docs/security/stealthwatch/m5/hw/SW_FC_4210_Spec_Sheet_DV_1_1.pdf) capable of collecting up to 200,000 flows per second on UCS M5SX. Refer to the Hardware Installation Guide for deployment. Second, deploy in the data center one 2210 Stealth Watch Management Console (SMC) (see http://kelpqueenpress.com/c/dam/en/us/td/docs/security/stealthwatch/m5/hw/SW_SMC_2210_Spec_Sheet_DV_1_1.pdf2020欧洲杯体育官方网址) on UCS M5SX.
Once the SMC is deployed, activate the following management applications:
■Host Classifier application:
–2020欧洲杯体育官方网址This application provides Dynamic discovery and classification of core assets within your network.
■Visibility Assessment application:
–Provides key metrics which help identify critical assets, validate policies, and audit and demonstrate compliance
–Key metrics related to the network such as internal and external traffic, number of hosts, amount of encrypted traffic, etc.
–Monitor traffic to high-risk countries
IoT Gateway and Device Security
The Cisco RaMA solution allows greater flexibility for end user devices connected to the Cisco Industrial Router (IR). Since the gateways support secure connectivity with technologies such as FlexVPN and WPA2 with IEEE 802.1x authentication, security policies can be enforced on the gateway instead of relying on the edge devices (such as laptops, phones, tablets, and video cameras), allowing users to connect and authenticate as if connected to an enterprise network.
End Devices Connectivity Best Practices
■While the solution is generally edge-device agnostic, Cisco suggests that wireless devices connect using IEEE 802.11n (or better) and wired devices connect over FastEthernet or Gigabit Ethernet.
■2020欧洲杯体育官方网址Using WPA2 with PSK or 802.1x authentication for wireless devices ensures that an end device is what it claims to be. This greatly enhances security by allowing 802.1x to accept or reject users who want full access to a network.
■Leveraging network-based VPNs increases the range of edge device options and simplifies security management. Software-based VPN clients on each edge device can be cumbersome to manage and require computing overhead to encrypt and decrypt data, resulting in a diminished user experience.
IEEE 802.1X Authentication for Wireless Clients
Any typical TCP/IP network that uses DHCP is defenseless against individuals who can find an unsecured network drop. The DHCP server could grant an IP address to unauthorized end devices, which would enable an attacker to launch a variety of attacks such as breaking into specific servers, eavesdropping on network packets, or unleashing a worm or a Denial of Service (DoS) attack. IEEE 802.1x provides a solution for such problems. By authenticating user access at the network edge, network administrators can ensure that unauthorized access is prevented and all user authentication can take place on a centralized authentication server like a RADIUS server deployed at the enterprise headquarters.
Cisco IRs offer hardware-accelerated encryption to support a full range of security services such as hardware cryptography to significantly increase IPSec VPN performance. This allows the use of Cisco’s Next Generation Encryption (NGE), which evolves traditional encryption technology to meet today’s increasing security needs while improving scalability and efficiency. Figure 102020欧洲杯体育官方网址 lists the technologies that are included in NGE.
Figure 10 Hardware Encryption Features on Cisco Industrial Router Platforms
ACT2—Hardware Root of Trust
The ACT2 chip is a security device containing product identity information and assertion functionality to support product identity for anti-counterfeit, secure storage, and other security functions. Key capabilities include:
■2020欧洲杯体育官方网址Anti-theft and anti-tamper chip designed only for Cisco products.
■2020欧洲杯体育官方网址Secure Unique Device Identifier (SUDI) and a certificate chain (x.509) that can be provisioned only at manufacturing. Linking the installed certificates and the ACT-2 chip provides the data needed for assertion and reconciliation by tracing the chip from creation to completion of the identity insertion process.
■2020欧洲杯体育官方网址Secure storage for certificates and objects used for encryption/decryption and other identities.
■2020欧洲杯体育官方网址Certifiable entropy for random number generation of one-time token/private key ensuring that no two gateways end up with the same set of private keys and SSH keys.
Image Signing and Secure Boot
Image signing ensures that, at every instance, the software stack, including the boot loader and OS stack, is authentic and has not been tampered with or manipulated. It provides software integrity against any back door image modifications.
■The golden bootloader image is always in a permanent read-only boot flash that is encapsulated in epoxy and has the tamper evident label signed.
■2020欧洲杯体育官方网址Field-programmable gate array (FPGA) boot loader images are signed so that they can be validated by Cisco Secure Boot using burned-in certificates in ACT2.
■2020欧洲杯体育官方网址Protects system boot sequence against changing boot sequence, booting from alternate device, bypassing integrity check, and adding persistent code.
■Each step of software booting is authenticated by the previous stack to ensure end-to-end integrity.
Figure 11 Industrial IoT Anti-Counterfeit Protection Steps