惯性聚合 高效追踪和阅读你感兴趣的博客、新闻、科技资讯
阅读原文 在惯性聚合中打开

推荐订阅源

A
About on SuperTechFans
D
DataBreaches.Net
K
KPMG report finds enterprise disconnect between AI and its ROI | CIO
V
Visual Studio Blog
奇客Solidot–传递最新科技情报
奇客Solidot–传递最新科技情报
B
Blog RSS Feed
Recent Announcements
Recent Announcements
The Register - Security
The Register - Security
S
Secure Thoughts
Y
Y Combinator Blog
The Last Watchdog
The Last Watchdog
L
LINUX DO - 最新话题
V2EX - 技术
V2EX - 技术
腾讯CDC
GbyAI
GbyAI
G
Google Developers Blog
博客园 - 司徒正美
博客园 - 三生石上(FineUI控件)
T
The Exploit Database - CXSecurity.com
T
Threat Research - Cisco Blogs
P
Proofpoint News Feed
Schneier on Security
Schneier on Security
Microsoft Security Blog
Microsoft Security Blog
Jina AI
Jina AI
WordPress大学
WordPress大学
aimingoo的专栏
aimingoo的专栏
MyScale Blog
MyScale Blog
Help Net Security
Help Net Security
K
Kaspersky official blog
P
Privacy & Cybersecurity Law Blog
www.infosecurity-magazine.com
www.infosecurity-magazine.com
AI
AI
MongoDB | Blog
MongoDB | Blog
Scott Helme
Scott Helme
J
Java Code Geeks
Engineering at Meta
Engineering at Meta
H
Heimdal Security Blog
H
Help Net Security
D
Darknet – Hacking Tools, Hacker News & Cyber Security
云风的 BLOG
云风的 BLOG
Microsoft Azure Blog
Microsoft Azure Blog
S
Security Affairs
TaoSecurity Blog
TaoSecurity Blog
The GitHub Blog
The GitHub Blog
Hacker News: Ask HN
Hacker News: Ask HN
Martin Fowler
Martin Fowler
cs.AI updates on arXiv.org
cs.AI updates on arXiv.org
Project Zero
Project Zero
T
The Blog of Author Tim Ferriss
Last Week in AI
Last Week in AI

Vercel News

Vercel Open Source Program: Winter 2026 cohort How Notion Workers run untrusted code at scale with Vercel Sandbox How we run Vercel's CDN in front of Discourse From idea to secure checkout in minutes with Stripe Building Slack agents can be easy Scaling redirects to infinity on Vercel Advancing Python typing Gamma builds design-first agents with Vercel How Avalara turns pipe dreams into patent-pending with v0 Keeping community human while scaling with agents How OpenEvidence built a healthcare AI that physicians actually trust Security boundaries in agentic architectures Skills Night: 69,000+ ways agents are getting smarter Video Generation with AI Gateway We Ralph Wiggumed WebStreams to make them 10x faster How Stably ships AI testing agents in hours, not weeks How we built AEO tracking for coding agents Anyone can build agents, but it takes a platform to run them Introducing Geist Pixel The Vercel AI Accelerator is back with $6m in credits Making agent-friendly pages with content negotiation The Vercel OSS Bug Bounty program is now available Introducing the new v0 Run untrusted code with Vercel Sandbox, now generally available How Stripe built a game-changing app in a single flight with v0 How Sensay went from zero to product in six weeks AGENTS.md outperforms skills in our agent evals Agent skills explained: An FAQ Testing if "bash is all you need" AWS databases are now live on the Vercel Marketplace and v0 Use Perplexity Web Search with Vercel AI Gateway Introducing: React Best Practices Nick Bogaty joins Vercel as Chief Revenue Officer How Mux shipped durable video workflows with their @mux/ai SDK How to build agents with filesystems and bash How we made v0 an effective coding agent Stopping the slow death of internal tools Building AI-Generated Pixel Trading Cards with Vercel AI Gateway We removed 80% of our agent’s tools AI SDK 6 Our $1 million hacker challenge for React2Shell Cline now runs on Vercel AI Gateway How to prompt v0 Build smarter workflows with Notion and v0 Vercel launches partner certification Inside Workflow DevKit: How framework integrations work React2Shell Security Bulletin | Vercel Knowledge Base Billions of requests: Black Friday-Cyber Monday 2025 Investing in the Python ecosystem AWS Databases coming to the Vercel Marketplace How we built the v0 iOS app Workflow Builder: Build your own workflow automation platform Vercel Open Source Program: Fall 2025 cohort Self-driving infrastructure Vercel collaborates with Google for Gemini 3 Pro Preview launch Vercel: The anti-vendor-lock-in cloud How Nous Research used BotID to block automated abuse at scale How AI Gateway runs on Fluid compute What we learned building agents at Vercel Build and deploy data applications on Snowflake with v0 BotID Deep Analysis catches a sophisticated bot network in real-time Vercel achieves TISAX AL2 compliance to serve automotive partners Bun runtime on Vercel Functions David Totten Joins Vercel to Lead Global Field Engineering Vercel Ship AI 2025 recap You can just ship agents AI agents and services on the Vercel Marketplace Built-in durability: Introducing Workflow Development Kit Zero-config backends on Vercel AI Cloud Introducing Vercel Agent: Your new Vercel teammate Agents at work, a partnership with Salesforce and Slack Running Next.js in ChatGPT: How to Build ChatGPT Apps Talha Tariq joins Vercel as CTO of Security Just another (Black) Friday Server rendering benchmarks: Fluid Compute and Cloudflare Workers Towards the AI Cloud: Our Series F Collaborating with Anthropic on Claude Sonnet 4.5 to power intelligent coding agents Preventing the stampede: Request collapsing in the Vercel CDN BotID uncovers hidden SEO poisoning How we made global routing faster with Bloom filters What you need to know about vibe coding Scale to one: How Fluid solves cold starts Addressing security & quality issues with MCP tools - Vercel AI agents at scale: Rox’s Vercel-powered revenue operating system Helly Hansen migrated to Vercel and drove 80% Black Friday growth Agentic Infrastructure Zero Data Retention on AI Gateway Optimizing Vercel Sandbox snapshots How Waldium made a blog platform work for humans and AI alike How FLORA shipped a creative agent on Vercel's AI stack Agent responsibly Making Turborepo 96% faster with agents, sandboxes, and humans Unified reporting for all AI Gateway usage new.website joins forces with v0 SERHANT.'s playbook for rapid AI iteration Two startups at global scale without DevOps Chat SDK brings agents to your users 360 billion tokens, 3 million customers, 6 engineers Meet the 2026 Vercel AI Accelerator Cohort Build knowledge agents without embeddings
Update regarding Vercel service disruption on October 20, 2025
Authors · 2025-10-21 · via Vercel News

At Vercel, our philosophy is to take ownership for, not blame, our vendors. Customers use our services to gain velocity, reliability, and ship wonderful products. Whether we picked A or B as one of the components of our “circuit design” is entirely our responsibility.

Vercel is fully accountable for this incident, even if it's now public that it was triggered by the unexpected outage of AWS us-east-1 (called iad1 region). Vercel uses AWS infrastructure primitives, is part of the AWS marketplace, offers secure connectivity to AWS services, and shares a long history with AWS of pioneering serverless computing.

To our customers, Vercel is unequivocally responsible for this outage.

Our goal is to simplify the cloud and offer its best version. Through framework-defined infrastructure, we help developers focus on the application layer by deploying global infrastructure resources that are highly optimized. We operate our Compute, CDN, and Firewall services across 19 AWS regions, terminating and securing traffic in 95 cities and 130+ global points of presence.

Yesterday, we fell short of this promise. While a significant amount of traffic was still served, and we shielded customers from the exposure to a single global point of failure, our ambition is to enable customers to never drop a single request, even in the event of an outage.

Link to headingService disruption overview

The AWS outage caused 2 independent incidents on the Vercel side.

The first incident, caused by the initial loss of the us-east-1 data center, led to temporary disruption of Vercel’s serving of customers' production traffic.

The second incident, caused by an outage of our feature flag provider as a cascading failure of the us-east-1 outage, had no impact on serving production traffic, but did cause a major disruption of Vercel’s control plane which impacted the Vercel dashboard, APIs, builds and log processing.

Link to headingInitial loss of the us-east-1 region

Vercel’s stack for serving production traffic is designed to survive loss of any one of our 19 regions of operation. We have demonstrated this capability many times in the past, but Monday’s incident caused an unexpected cascading failure leading to additional impact.

Our team was first alerted of initial issues at 06:55 UTC. At first, we only observed minor disruption of traffic. Out of abundance of caution, the team began re-routing traffic away from us-east-1 at 07:15 UTC, restoring serving for end users connecting directly to that region.

At 07:25 UTC we began rerouting function invocations for customers with configured backup or secondary regions, restoring their full service.

At 07:45 UTC a cascading failure led to a loss of a percentage of our global caching infrastructure leading to failures of static file serving peaking at about 22% of traffic. This period was the largest impact throughout the event. Service was restored at 08:18 UTC. We have already mitigated the root cause of this cascading failure.

For customers who do not have multiple function regions configured and who use us-east-1 as their only region, function invocations were restored at 09:21 UTC

Link to headingSecondary disruption of Vercel’s control plane

Vercel's control plane uses us-west-1 as its primary region and was respectively not directly impacted by the us-east-1 outage. However, at 19:20 UTC a feature flag provider used by Vercel’s control plane had a major outage likely caused by downstream effects of the earlier us-east-1 disruption.

Vercel’s control plane is used by Vercel’s dashboard, CLI, API, and services such as log forwarding. This is an entirely independent system of Vercel’s serving stack and hence this disruption had no impact on serving production traffic for our customers. However, it did lead to customers being unable to deploy, initiate rollbacks, and perform other administrative tasks.

The unavailability of the feature flag provider caused an exhaustion of resources in our primary Kubernetes cluster and delayed or caused failures of processing.

At 19:48 UTC the team began to experiment with and then incrementally roll out a mitigation for the unavailability of the feature flag provider and the code pattern leading to resource exhaustion. Full restoration of control plane services occurred around 03:00 UTC.

For additional details and service-specific information, see the full timeline.

Link to headingThe disruption from the perspective of a request

To provide additional background, in this section we explain the service disruption from the perspective of a request based on the example of a request to rauchg.com:

1. A DNS lookup is made to rauchg.com to resolve the A record

  • This domain uses Vercel DNS, which leverages anycasted, intelligent DNS and real-time steering to route to healthy endpoints, isolating regional failures for global reliability.

  • ✓ This worked as expected.

2. The DNS query returns a Vercel CDN IP

  • Vercel CDN provides global acceleration via Anycast. A single IP can globally steer traffic to the nearest healthy CDN edge region, minimizing latency, isolating faults, and sustaining reliability across continents.

  • While providing Anycast IPs, we still make the recommendation that customers use CNAME records, especially when not using Vercel DNS. A CNAME provides Vercel’s infrastructure teams with another traffic-steering point for dynamic updates.

  • ✓ This worked as expected.

3. Our L3-L5 protections secure your traffic

  • The Vercel Edge Network provides always-on, managed DDoS protection with automatic detection, adaptive mitigations, and global edge defense. This includes mitigating SYN, UDP, ICMP, TCP floods, malformed and oversized packets, etc.

  • ✓ This worked as expected.

4. A TLS handshake is made to https://rauchg.com

  • Vercel’s Edge Network contains a global component internally called “HTTPS Terminator”. On a given week, Vercel serves tens of millions of unique domains, which require a sophisticated global replication, storage, and caching system for certificates.

  • This system is designed to actively replicate. When a certificate is created, it’s pushed to all our CDN edge regions. When a certificate is read by HTTPS Terminator nodes, it’s cached for performance and fault tolerance reasons.

  • ✓ This worked as expected.

5. Our L7 Firewall secures your traffic

  • Vercel Firewall is a globally distributed service that can protect each region without global dependencies or single points of failure, powered by a component internally called Protectd. By minimizing its need for global coordination, it has industry-leading L7 mitigation speeds (crucial given the on-demand nature of cloud resource and AI token consumption).

  • ✓ This worked as expected.

6. An HTTP request is made to https://rauchg.com

  • Vercel CDN has globally replicated metadata infrastructure with no single-point-of-failure. This allows us to decode rauchg.com into the specific deployment destination. Unlike other services, Vercel typically acts as both CDN and Origin, even though each can be used independently.

  • The deployment metadata system is one of the most critical parts of our infrastructure, to which we’ve devoted extensive engineering, load testing, failover design.

  • ◑ Global deployment metadata worked as expected globally, but if customers hit the iad1 region directly they saw disruption until we re-routed the iad1 region.

7. Once the Vercel CDN obtains deployment metadata, it performs routing.

  • Each Vercel CDN region operates a component internally named Regional Cache. It’s responsible for caching static assets and cacheable dynamic requests. This system is replicated and has strict durability and latency guarantees. The origin of Routing Metadata is us-east-1 S3, but the system is designed to persist data globally upon first use.

  • ✗ While metadata is actively propagated into every region, we experienced a cascading failure of the regional cache service, leading to a wider scope of disruption.

8. Routing can decide on a number of fates for the request

  • Routing Middleware execution

    • Customers can use Fluid compute to run logic in the request serving path for dynamic routing and content management, with the full power of the Node.js runtime. This operates as Vercel Functions that are deployed to every CDN Region.

    • ◑ There was initial disruption for users hitting the us-east-1 region directly, but given the global deployment of Routing Middleware total impact was limited.

  • Function invocation

    • ◑ No impact for customers who did not use us-east-1 as their only region. For customers who are using us-east-1 (iad1) we performed failover to the backup region if configured.

  • Serving HTTP Cache-Control content

    • If a given URL has previously been served and the origin or Function returned Cache-Control, Vercel will keep its response in a component internally called Response Cache.

    • ✓ This worked as expected.

  • Serving static and ISR content

    • If routing maps a URL to static assets or ISR, it is served from an in-region cache falling back to origin if needed

    • ◑ ISR content continues serving as expected when cached at the edge. For ISR content with us-east-1 as the origin, there was temporary disruption if the content was not yet cached at the edge.

Link to headingIncident timeline

Monday, October 20, 2025

06:55 UTC: First automated alerts fire for errors across Vercel services, and incidents are automatically created. On-call engineers are paged.

06:56 UTC: The primary on-call engineer responds and begins the investigation.

06:59 UTC: The primary on-call engineer continues to be paged by additional alerts, and escalates to other on-call engineers for help triaging. An incident call is started to organize the triage.

07:07 UTC: On-call engineers determine that there is likely a major issue with AWS-managed services, and they escalate further to the “Panic Rotation”, which pages all of the most senior, experienced on-call responders at Vercel.

07:15 UTC: Due to failures in our serving stack, we decide to re-route traffic away from iad1 into neighboring data centers. We start incrementally re-routing traffic from iad1 at 07:20 UTC and the process is complete by 07:44 UTC.

07:35 UTC: Due to failures provisioning new build machines in the data center, we decide to re-route builds to another region and complete the process by 07:40 UTC. At this time, builds with dependencies on resources such as databases outside of Vercel tied to AWS us-east-1 continue to fail.

08:16 UTC: We observe increased failures loading the Vercel Dashboard, and elevated error rates in the Vercel Teams API. The root cause is determined as elevated request latency to external dependencies, which led to CPU starvation. We manually scale up the service at 08:51 UTC.

09:15 UTC: The Vercel Teams API recovers, and we see no more errors loading the Vercel Dashboard.

09:45 UTC: New Vercel Deployments using Routing Middleware or Vercel Functions with iad1 as the selected region are failing due to AWS API issues in the us-east-1 region. This includes all projects configured with Secure Compute with iad1 as the specified region.

10:22 UTC: We observe health checks passing in the iad1 builds cluster, and route Secure Compute builds to the cluster. This restores Secure Compute builds.

11:52 UTC: We restore service functionality for APIs that create Vercel Functions and Middleware in the iad1 region.

17:19 UTC: We observe a small increase in failures to invoke Vercel Functions in the iad1 region, and are simultaneously paged for failures scheduling new instances of our Functions routing services.

17:24 UTC: We determine the scheduling failures are caused by continued EC2 capacity issues in AWS us-east-1. We reduce provisioning for non-critical infrastructure in iad1 to free capacity for our Functions routing services and observe recovery in invoking Vercel Functions.

17:29 UTC: We update the configuration for our serving stack to prefer other regions when serving Vercel Functions (if available) instead of iad1.

17:35 UTC: We observe decreased errors invoking Vercel Functions in iad1. Invocation errors continue at a much lower rate until recovery at 17:49 UTC.

17:47 UTC: Another degradation of AWS APIs leads to build failures caused by errors creating Vercel Functions and Middleware in iad1.

18:50 UTC: The service backing Vercel Runtime Logs begins experiencing timeouts.

19:20 UTC: We begin to observe failures loading the Vercel Dashboard and elevated error responses from Vercel API services. Containers running Vercel Control Plane services, which power the Vercel Dashboard and APIs, begin restarting aggressively.

19:31 UTC: Automated alerts for elevated errors in Vercel APIs page the primary on-call engineer. A separate incident is opened to triage this issue.

19:41 UTC: We determine timeouts to Vercel’s feature flag provider are the underlying issue in Vercel API services returning 500 responses and the containers restarting.

19:48 UTC: We release a change to reduce timeouts and mitigate impact of failed requests to the flag provider. This reduces container restarts, but Vercel API services remain degraded.

21:20 UTC: We release an experimental change to degraded services in incremental batches. After observing recovery in the first release, we roll the change to all control plane degraded services by 22:31 UTC.

Tuesday, October 21, 2025

00:20 UTC: Vercel Dashboard and API degradation resumes as the flags provider issue recurs. The experimental change from hours earlier had not landed in 100% of services.

00:48 UTC: We observe missing Vercel Runtime Logs in several regions. The underlying infrastructure indicates a subset of regions have backlogs of 5-6 hours. We merge a change to increase throughput on these regions.

02:37 UTC: All flags clients across Vercel Control Plane services are reconfigured to use the experimental fix.

03:01 UTC: Another fix for the logs pipeline is released, and this one successfully unblocks log processing. The backlog age begins to decrease across affected regions.

03:30 UTC: The Vercel Dashboard and API services fully recover.

06:21 UTC: Runtime Logs fully recover.

Link to headingFuture improvements

We’re currently working on a highly detailed technical postmortem that will result in systematic mitigation of failure modes discovered by these service disruptions. Additionally, we will continue and intensify our efforts to rehearse major regional disruptions.