Azure Firewall
32 TopicsAzure Firewall has no capacity to maintain source IP on outbound traffic?
Hello all, My use case:To have multiple static public IP addresses attached to Azure Firewall with SNAT rules configured so that the public IP isn't just randomly selected. We have multiple services that have whitelisting configured for specific public load balancer IPs and now we are trying to move them behind Azure Firewall. Since there is whitelisting on the destination, the public IP being randomly selected won't work. My resources:One instance of premium SKU Azure Firewall. Hub and spoke architecture. Route tables being used to force traffic through Firewall (routed to private IP of firewall) The research I have conducted:I have tried absolutely everything I can think of before coming to this forum and from what I can tell the 4 ways of outbound connectivity provided by Azure are: Default outbound connectivity. Against best practice to do this and won't work since its routing through a virtual appliance (firewall) Associate a NAT gateway to a subnet.This won't work since we have only one instance of Azure Firewall and the requirement for multiple public IPs to be used. Assign a public IP to a virtual machine.Not applicable, sitting in backend pool of a load balancer, single public IP to be used for multiple member servers. Using the frontend IP address(es) of a load balancer for outbound via outbound rules.Needs to go through the firewall, impossible unless we can somehow integrate the firewall between the load balancer and the backend pool? Expanding more on the load balancer scenario, I ran across this documentation in Microsoft Learn. This looks great to tackle the asymmetric routing issue, however, we are only interested in maintaining the source IP for outbound traffic, this would again just use the firewalls public IP for outbound traffic and again randomly select it. Consensus: It seems bizarre to me that Azure has no capacity for static SNAT configuration like most firewalls do. I would have thought a large amount of use cases would require this function. Am I missing something? Is there another workaround? Or is Azure just behind the 8ball with networking. Thanks heaps in advance for any help :) Much Appreciated, usernameone101Solved83Views0likes2CommentsIntroducing Copilot in Azure for Networking: Your AI-Powered Azure Networking Assistant
As cloud networking grows in complexity, managing and operating these services efficiently can be tedious and time consuming. That’s where Copilot in Azure for Networking steps in, a generative AI tool that simplifies every aspect of network management, making it easier for network administrators to stay on top of their Azure infrastructure. With Copilot, network professionals can design, deploy, and troubleshoot Azure Networking services using a streamlined, AI-powered approach. A Comprehensive Networking Assistant for Azure We’ve designed Copilot to really feel like an intuitive assistant you can talk to just like a colleague. Copilot understands networking-related questions in simple terms and responds with actionable solutions, drawing from Microsoft’s expansive networking knowledge base and the specifics of your unique Azure environment. Think of Copilot as an all-encompassing AI-Powered Azure Networking Assistant. It acts as: Your Cloud Networking Specialist by quickly answering questions about Azure networking services, providing product guidance, and configuration suggestions. Your Cloud Network Architect by helping you select the right network services, architectures, and patterns to connect, secure, and scale your workloads in Azure. Your Cloud Network Engineer by helping you diagnose and troubleshoot network connectivity issues with step-by-step guidance. One of the most powerful features of Copilot in Azure is its ability to automatically diagnose common networking issues. Misconfigurations, connectivity failures, or degraded performance? Copilot can help with step-by-step guidance to resolve these issues quickly with minimal input and assistance from the user, simply ask questions like ”Why can’t my VM connect to the internet?”. As seen above, upon the user identifying the source and destination, Copilot can automatically discover the connectivity path and analyze the state and status of all the network elements in the path to pinpoint issues such as blocked ports, unhealthy network devices, or misconfigured Network Security Groups (NSGs). Technical Deep Dive: Contextualized Responses with Real-Time Insights When users ask a question on the Azure Portal, it gets sent to the Orchestrator. This step is crucial to generating a deep semantic understanding of the user’s question, reasoning over all Azure resources, and then determining that the question requires Network-specific capabilities to be answered. Copilot then collects contextual information based on what the user is looking at and what they have access to before dispatching the question to the relevant domain-specific plugins. Those plugins then use their service-specific capabilities to answer the user’s question. Copilot may even combine information from multiple plugins to provide responses to complex questions. In the case of questions relevant to Azure Networking services, Copilot uses real-time data from sources like diagnostic APIs, user logs, Azure metrics, Azure Resource Graph etc. all while maintaining complete privacy and security and only accessing what the user can access as defined in Azure Role based Access Control (RBAC) to help generate data-driven insights that help keep your network operating smoothly and securely. This information is then used by Copilot to help answer the user’s question via a variety of techniques including but not limited to Retrieval-Augmented Generation (RAG) and grounding. To learn more about how Copilot works, including our Responsible AI commitments, see Copilot in Azure Technical Deep Dive | Microsoft Community Hub. Summary: Key Benefits, Capabilities and Sample Prompts Copilot boosts efficiency by automating routine tasks and offering targeted answers, which saves network administrators time while troubleshooting, configuring and architecting their environments. Copilot also helps organizations reduce costs by minimizing manual work and catching errors while empowering customers to resolve networking issues on their own with AI-powered insights backed by Azure expertise. Copilot is equipped with powerful skills to assist users with network product information and selection, resource inventory and topology, and troubleshooting. For product information, Copilot can answer questions about Azure Networking products by leveraging published documentation, helping users with questions like “What type of Firewall is best suited for my environment?”. It offers tailored guidance for selecting and planning network architectures, including specific services like Azure Load Balancer and Azure Firewall. This guidance also extends to resilience-related questions like “What more can I do to ensure my app gateway is resilient?” involving services such as Azure Application Gateway and Azure Traffic Manager, among others. When it comes to inventory and topology, Copilot can help with questions like “What is the data path between my VM and the internet?” by mapping network resources, visualizing topologies, and tracking traffic paths, providing users with clear topology maps and connectivity graphs. For troubleshooting questions like “Why can’t I connect to my VM from on prem?”, Copilot analyzes both the control plane and data plane, offering diagnostics at the network and individual service levels. By using on-behalf-of RBAC, Copilot maintains secure, authorized access, ensuring users interact only with resources permitted by their access level. Looking Forward: Future Enhancements This is only the first step we are taking toward bringing interactive, generative-AI powered capabilities to Azure Networking services and as it evolves over time, future releases will introduce advanced capabilities. We also acknowledge that today Copilot in preview works better with certain Azure Networking services, and we will continue to onboard more services to the capabilities we are launching today. Some of the more advanced capabilities we are working on include predictive troubleshooting where Copilot will anticipate potential issues before they impact network performance. Network optimization capabilities that suggest ways to optimize your network for better performance, resilience and reliability alongside enhanced security capabilities providing insights into network security and compliance, helping organizations meet regulatory requirements starting with the integration of Security Copilot attack investigation capabilities for Azure Firewall. Conclusion Copilot in Azure for Networking is intended to enhance the overall Azure experience and help network administrators easily manage their Azure Networking services. By combining AI-driven insights with user-friendly interfaces, it empowers networking professionals and users to plan, deploy, and operate their Azure Network. These capabilities are now in preview, see Azure networking capabilities using Microsoft Copilot in Azure (preview) | Microsoft Learn to learn more and get started.2.6KViews2likes2CommentsProduct Manager question - Azure Firewall
I would like to knowif Azure Firewall team has plans to integrate geoblocking based on country codes into Azure Firewall policies? Today, we have to enlist a third party country code list and rebuild IPGroups into our AzFw policies daily. Other products such as WAF and Conditional Access allow for selecting a country code instead of IPv4 addresses.128Views0likes1CommentAz-firewall-mon(itor) - near real time Azure Firewall flow log analyser
Hello, networking expert! I’m excited to share with you an update on my personal open source project: az-Firewall-mon:Az-firewall-monitor is an open-source tool that helps you answer to the following question: what is happening in my azure Firewall right now? It provides an alternative and opinionable way to access and inspect Azure Firewall logs, without using Log Analytics or Kusto queries. It provides a simple and intuitive interface that shows you what is happening on your firewall right now (or almost). to filter your data you can use both a full text search or natural language thanks to his integration with chatGPT4. Here a sample full text search interaction: here a sample natural language interaction Try out az-firewall-monitor athttps://az-firewall-mon.duckiesfarm.comor have a look at the source code on GitHub athttps://github.com/nicolgit/azure-firewall-mon Thank you!124Views0likes0CommentsAzure Firewall behind public load balancer configuration
Hi, I have a requirement to replace Sophos firewall with Azure Firewall Premium. The existing Sophos firewall is behind a public Azure load balancer (backend pool comprises the Sophos Firewall IPs). To set up a parallel configuration for Azure Firewall, I have configured a new public IP on the load balancer's frontend IP configuration. However, I do not see the Azure Firewall's public IP whentrying to configure a backend pool. All the listed IPs belong to the same subnet as the load balancer's internal IP. As per the below article, one can configure firewalls behind an external load balancer. https://learn.microsoft.com/en-us/azure/architecture/example-scenario/firewalls/ I am trying to understand how to chain the public load balancer and Azure firewall such that I can access internal resources as is currently being done with the same public load balancer and Sophos firewall (NIC of Sophos is in the same subnet as internal NIC of this load balancer). Can someone please guide me? Thanks James2.6KViews0likes3CommentsInternal API : Virtual Network support for Power Platform
Hello Everyone, We are using Custom Connectors from Power Automate Flows to initiate a call to the Internal API that is hosted in Azure through the MuleSoft Data Gateway. Since we are unable to activate the private endpoint for this internal API, we are seeking guidance on how to securely connect to the API via V-Net integration. Please advise. As per the Microsoft Documentation : Use custom connectors (preview) to securely connect to your services that are protected by private endpoints in Azure or services that are hosted within your private network. https://learn.microsoft.com/en-us/power-platform/admin/vnet-support-overview Thanks, -Sri280Views0likes1CommentIssue with Azure VM Conditional Access for Office 365 and Dynamic Public IP Detection
Hi all, I have a VM in Azure where I need to allow an account with MFA to bypass the requirement on this specific server when using Office 365. I've tried to achieve this using Conditional Access by excluding locations, specifically the IP range of my Azure environment. Although I’ve disconnected any public IPs from this server, the Conditional Access policy still isn’t working as intended. The issue seems to be that it continues to detect a public IP, which changes frequently, making it impossible to exclude. What am I doing wrong?1.3KViews0likes5CommentsControlling Data Egress in Azure
Regulated companies impose stringent requirements on data governance to prevent data exfiltration. As a Cloud Architect, ensuring the safe and efficient exit of data from our network to external destinations is paramount. This document aims to provide a comprehensive guide to the strategies, best practices, and tools we employ at various customers to maintain robust security measures.4.6KViews3likes0Comments