Cloudflare outage on February 20, 2026

On February 20, 2026, at 17:48 UTC, Cloudflare experienced a service outage when a subset of customers who use Cloudflare’s Bring Your Own IP (BYOIP) service saw their routes to the Internet withdrawn via Border Gateway Protocol (BGP).

The issue was not caused, directly or indirectly, by a cyberattack or malicious activity of any kind. This issue was caused by a change that Cloudflare made to how our network manages IP addresses onboarded through the BYOIP pipeline. This change caused Cloudflare to unintentionally withdraw customer prefixes.

For some BYOIP customers, this resulted in their services and applications being unreachable from the Internet, causing timeouts and failures to connect across their Cloudflare deployments that used BYOIP. The website for Cloudflare’s recursive DNS resolver (1.1.1.1) saw 403 errors as well. The total duration of the incident was 6 hours and 7 minutes with most of that time spent restoring prefix configurations to their state prior to the change.

Cloudflare engineers reverted the change and prefixes stopped being withdrawn when we began to observe failures. However, before engineers were able to revert the change, ~1,100 BYOIP prefixes were withdrawn from the Cloudflare network. Some customers were able to restore their Continue reading

Code Mode: give agents an entire API in 1,000 tokens

Model Context Protocol (MCP) has become the standard way for AI agents to use external tools. But there is a tension at its core: agents need many tools to do useful work, yet every tool added fills the model's context window, leaving less room for the actual task.

Code Mode is a technique we first introduced for reducing context window usage during agent tool use. Instead of describing every operation as a separate tool, let the model write code against a typed SDK and execute the code safely in a Dynamic Worker Loader. The code acts as a compact plan. The model can explore tool operations, compose multiple calls, and return just the data it needs. Anthropic independently explored the same pattern in their Code Execution with MCP post.

Today we are introducing a new MCP server for the entire Cloudflare API — from DNS and Zero Trust to Workers and R2 — that uses Code Mode. With just two tools, search() and execute(), the server is able to provide access to the entire Cloudflare API over MCP, while consuming only around 1,000 tokens. The footprint stays fixed, no matter how many API endpoints exist.

For a large API like Continue reading

Worth Reading 022026


For decades, many believed SDCs were rare, almost mythical events. However, major hyperscale operators including Meta, Google and Alibaba have disclosed that roughly one in 1,000 CPUs in their fleets can produce silent corruptions under certain conditions.

 


The fundamental rules of creativity and ownership, established in law since the time of the printing press, are now collapsing under the weight of Generative AI.

 


As you and your spouse head off for a two-week Maui vacation, do you hand your 17-year-old boy a bottle of smooth whiskey and the keys to your spare Ferrari, bidding him “have fun while we’re gone”?

 


When Meta Platforms does a big AI system deal with Nvidia, that usually means that some other open hardware plan that the company had can’t meet an urgent need for compute.

 


This paper introduces Whisper Leak, a side-channel attack that infers user prompt topics from encrypted LLM traffic by analyzing packet size and timing patterns in streaming responses. Despite TLS encryption protecting content, these metadata patterns leak sufficient information to enable topic classification.

 

Packet Trimming Deep Dive – Part I

 Introduction


The previous chapter introduced the Ultra Ethernet (UE) Transport Layer and its endpoint-centric congestion control mechanisms: Network Signaled Congestion Control (NSCC) and Receiver Credit-based Congestion Control (RCCC). This chapter moves down to the UE Network Layer and introduces Packet Trimming (PT).

While node-based approaches rely on NIC-to-NIC feedback loops, Packet Trimming allows network switches to actively intervene during periods of high utilization. Instead of silently dropping packets under congestion, the network provides an explicit and fast signal that enables immediate recovery.

The primary goal of Packet Trimming is to prevent incast congestion, a situation in which multiple ingress ports simultaneously overwhelm a single egress port. In AI and HPC workloads, many-to-one traffic patterns are common—for example, when multiple workers send data to a single parameter server. Under these conditions, egress buffers can be exhausted very quickly. In a best-effort network, this typically results in tail drops. The receiver then waits for a retransmission timeout, which introduces long tail latency and disrupts synchronization across distributed workloads. Packet Trimming replaces this silent packet loss with an explicit congestion signal that travels faster than the data itself.

The process begins at the source UE node. The NIC marks outgoing data packets with Continue reading

Public Videos: EVPN in MPLS-Based Environments

While we’re mostly discussing EVPN in conjunction with VXLAN encapsulation, its initial use case was as an alternate control plane for MPLS networks.

Krzysztof Szarkowicz had a great presentation describing the specifics of EVPN in MPLS-Based Environments a few years ago. Those videos (part of the EVPN Technical Deep Dive webinar) are now public; you can watch them without an ipSpace.net account.

Explore

Looking for more binge-watching materials? You’ll find them here.

Taalas Etches AI Models Onto Transistors To Rocket Boost Inference

Adding big blocks of SRAM to collections of AI tensor engines, or better still, a waferscale collection of such engines, turbocharges AI inference, as has been shown time and again by AI upstarts Cerebras Systems, SambaNova Systems (which Intel is rumored to have taken a run at late last year), Groq (just eaten by Nvidia for $20 billion), and Graphcore (eaten by SoftBank for $600 million a year and a half ago) as they compare against GPUs from Nvidia and AMD.

Taalas Etches AI Models Onto Transistors To Rocket Boost Inference was written by Timothy Prickett Morgan at The Next Platform.

Cisco IOS/XR OSPFv2 Not-So-Passive Interfaces

What’s wrong with me? Why do I have to uncover another weirdness every single time I run netlab integration tests on a new platform? Today, it’s Cisco IOS/XR (release 25.2.1) and its understanding of what “passive” means. According to the corresponding documentation, the passive interface configuration command is exactly what I understood it to be:

Use the passive command in appropriate mode to suppress the sending of OSPF protocol operation on an interface.

However, when I ran the OSPFv2 passive interface integration test with an IOS/XR container, it kept failing with neighbor is in Init state (the first and only time I ever encountered such an error after testing over two dozen platforms).

Read more …

Project Calico 3.30+ Hackathon: Show Us What You Can Build!

Calico Hackathon Logo

Build the Future of Cloud-Native Networking! 🚀

The Calico community moves fast. With the releases of Calico 3.30 and 3.31, brings improvements in scalability, network security, and visibility. Now, we want to see what YOU can do with them!

We’re excited to officially invite you to the Project Calico 3.30+ Community Hackathon.

Whether you’re a seasoned eBPF expert or a newcomer to the Gateway API, we welcome your innovation and  your ideas!

🔥 What’s in the Toolkit?

We’ve packed Calico 3.30+ with powerful features ready for you to hack on:

  • 🔹 Goldmane & Whisker: High-performance flow insights meets a sleek, operator-friendly UI.
  • 🔹 Staged Policies: The “Safety First” way to test Zero Trust before enforcing it.
  • 🔹 Calico Ingress Gateway: Modern, Envoy-powered traffic management via the Gateway API.
  • 🔹 Calico Cloud Ready: Connect open-source clusters to a free-forever, read-only tier for instant visualization and troubleshooting.
  • 🔹 IPAM for Load Balancers: Consistent IP strategies for MetalLB and beyond.
  • 🔹 Advanced QoS: Fine-grained bandwidth and packet rate controls.

💡 Inspiration: What Can You Build?

Whether you’re a networking guru or an automation Continue reading

Worth Reading 021726


If I learned one thing at NANOG 96, it’s how to build an up-to-date state of the art AI data centre! As I now understand it, the process is quite simple.

 


New AI models usually create excitement among the true believers and this year hasn’t been an exception. OpenAI and Anthropic released GPT-5.3 Codex and Claude Opus 4.6 respectively on the same day, February 5. T

 


When my phone stopped working last month during the latest calamitous network outage to hit the US, I assumed it was that pesky Amazon cloud POP in North Virginia playing up again. After all, it was AWS’s VA data centre that triggered three (3) of the last big network failures in North America.

 


Starlink can sometimes shift data more quickly than is possible on terrestrial networks, and improves connectivity in remote areas. But the space broadband service also presents new technical and regulatory challenges, according to speakers who took to the stage on Tuesday at the Asia Pacific Regional Internet Conference on Operational Technologies (APRICOT) in Jakarta, Indonesia.

 


The Domain Name System (DNS) infrastructure is infamous for facilitating reflective amplification attacks. Countermeasures such as server shielding, access control, Continue reading

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