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New updates and improvements at Cloudflare.

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  1. Rollback support now available in Workflows

    Workflows

    Workflows now supports saga-style rollbacks, allowing you to add compensating logic to each step.do() in case of downstream failures. If the instance fails, the rollback handlers will execute in reverse step-start order.

    This is useful for multi-step operations that touch external systems, such as inventory reservations, payment authorization, ticket creation, or infrastructure provisioning. Instead of writing all cleanup logic in a top-level catch, you can keep each compensating action next to the step it undoes.

    Rollback handlers support their own retry and timeout configuration, and Workflows now exposes rollback outcomes in instance status responses. Workflows analytics also emits rollback lifecycle events, making it easier to distinguish a forward execution failure from a rollback failure when debugging production workflows.

    JavaScript
    await step.do(
      "provision resource",
      async () => {
        const resource = await provisionResource();
        return { resourceId: resource.id };
      },
      {
        rollback: async ({ output }) => {
          const { resourceId } = output;
          await deleteResource(resourceId);
        },
        rollbackConfig: {
          retries: { limit: 3, delay: "15 seconds", backoff: "linear" },
          timeout: "2 minutes",
        },
      },
    );

    Refer to rollback options to learn more.

  1. Control AI costs with spend limits

    AI Gateway

    AI Gateway now supports spend limits — cost-based budgets that track cumulative dollar spend and block requests when the budget is exceeded. Unlike rate limiting, which caps the number of requests, spend limits track actual cost based on token usage and model pricing.

    You can scope limits by model, provider, or custom metadata dimensions. For example, give each user a $200/day budget, cap total gateway spend at $10,000/day, or limit a specific model to $50/day per user. Each rule uses a configurable time window with fixed or sliding enforcement.

    Spend limits work with both Unified Billing and BYOK requests for models with known pricing.

    For more details, refer to the Spend limits documentation.

  1. Finer-grained chart granularity on Cloudflare Radar for longer time ranges

    Radar

    Radar now provides finer-grained traffic charts for longer time ranges. Previously, selecting a 1-3 month view on HTTP and NetFlows charts defaulted to weekly aggregation, which was too coarse to surface meaningful trends. Views longer than 3 months defaulted to monthly aggregation, returning as few as 7 data points for a 6-month range.

    The new defaults are:

    • 1-3 months: daily granularity (7x more data points)
    • Longer than 3 months (HTTP and NetFlows): weekly granularity (4x more data points)

    For example, a 12-week traffic view previously showed weekly data:

    Traffic trends chart with weekly granularity for a 12-week view

    The same view now shows daily data:

    Traffic trends chart with daily granularity for a 12-week view

    Similarly, a 1-year HTTP traffic view that previously showed just 12 monthly data points now provides 52 weekly data points.

    Visit Cloudflare Radar to explore the new granular views.

  1. Filter Workers' public Internet traffic using Gateway policies

    Gateway Cloudflare Mesh Workers VPC

    Workers using a VPC Network binding with network_id: "cf1:network" now egress to public Internet destinations through Cloudflare Gateway. This means your existing Zero Trust traffic policies — DNS, HTTP, Network, and egress — extend to traffic that originates from your Workers, the same way they do for WARP users today.

    1. Worker

      Calls env.EGRESS.fetch()

    2. VPC binding
    3. Cloudflare Mesh

      Bind via cf1:network

    4. Cloudflare Gateway

      Policies applied:

      DNS HTTP Network
    5. Public Internet

      Any public hostname or IP

    Gateway logs DNS HTTP Network

    What you get by default:

    • Visibility. Worker egress shows up in Gateway DNS, HTTP, and Network logs alongside your other traffic, so you can audit what your Workers are calling and when.
    • Enforcement. Any existing Gateway policy whose selectors match a Worker request will apply — including allow / block lists, DNS category filtering, and HTTP destination rules. If you have already blocked a category for your workforce, your Workers inherit that block.
    JSONC
    {
      "vpc_networks": [
        {
          "binding": "EGRESS",
          "network_id": "cf1:network",
          "remote": true,
        },
      ],
    }
    JavaScript
    // Egress to a public destination — subject to your Gateway policies and logged
    const response = await env.EGRESS.fetch("https://api.example.com/data");

    For configuration options, refer to VPC Networks. For policy authoring, refer to Cloudflare Gateway traffic policies.

  1. Share identity providers across accounts with IdP federation

    Access

    Cloudflare Access now supports IdP federation, which allows organizations to share a single identity provider across multiple Cloudflare accounts.

    Instead of configuring the same IdP (for example, Okta or Entra ID) separately in every account, you configure it once in a source account and share it with the other accounts in your organization. Each recipient account gets a read-only IdP connection that routes authentication back to the source account through a bridge — a hidden application in the source account that brokers the cross-account login. End users sign in with their existing IdP credentials, and each account's Access policies evaluate the resulting identity just like any other IdP login.

    Key capabilities:

    • One IdP, many accounts — Configure your IdP once and share it with all accounts in your organization.
    • Lifecycle management — As accounts join or leave your Cloudflare organization, their IdP connections are provisioned and removed automatically — no manual cleanup required.
    • Immutable recipient connections — IdP connections in recipient accounts cannot be accidentally modified or deleted.

    To get started, refer to IdP federation.

  1. Billable usage and budget alerts now in product sidebars

    Cloudflare Fundamentals Workers D1 R2 KV Queues Vectorize Durable Objects Containers

    Pay-as-you-go customers can now view billable usage and create budget alerts directly from the product overview pages for Workers & Pages, D1, R2, Workers KV, Queues, Vectorize, Durable Objects, and Containers. A new sidebar widget shows current-period spend and the billing cycle date range, alongside a button to create a budget alert.

    The widget pulls from the same data as the Billable Usage dashboard and aligns to your billing cycle (or the current day on Free plans), so the numbers match your invoice. Enterprise contract accounts are not yet supported.

    Billable usage widget in the Durable Objects product sidebar showing current-period spend and a breakdown by service

    Selecting Create budget alert opens the budget alert flow inline so you can set a dollar threshold in the same place you are reviewing usage. Budget alerts apply to your total account-level spend across all products, not just the product page you create them from.

    For more information, refer to the Usage-based billing documentation.

  1. Pipeline binding configuration field renamed to stream

    Pipelines Workers

    The pipeline field inside the pipelines binding configuration in your Wrangler configuration file has been renamed to stream. The old field is deprecated but still accepted.

    Update your configuration to use stream to avoid the deprecation warning.

    Before (deprecated):

    JSONC
    {
      "$schema": "./node_modules/wrangler/config-schema.json",
      "pipelines": [
        {
          "binding": "MY_PIPELINE",
          "pipeline": "<STREAM_ID>"
        }
      ]
    }

    After:

    JSONC
    {
      "$schema": "./node_modules/wrangler/config-schema.json",
      "pipelines": [
        {
          "binding": "MY_PIPELINE",
          "stream": "<STREAM_ID>"
        }
      ]
    }

    No other changes are required. The binding name, TypeScript types, and runtime API (env.MY_PIPELINE.send(...)) remain the same.

    For more information on configuring pipeline bindings, refer to Writing to streams.

  1. SAML assertion encryption for identity providers

    Access

    Cloudflare Access now supports SAML assertion encryption for identity provider integrations. When turned on, your identity provider encrypts SAML assertions using a Cloudflare-managed certificate before sending them through the user's browser. Only Access can decrypt these assertions, protecting sensitive identity data even after TLS termination.

    Without encryption, SAML assertions are transmitted in plaintext and could be visible to browser extensions or client-side malware.

    SAML encryption toggle in the identity provider configuration

    SAML encryption includes built-in certificate lifecycle management:

    • Automatic certificate generation: Access generates an encryption certificate when you turn on SAML encryption for an identity provider.
    • Certificate rotation: Rotate certificates without downtime. The previous certificate remains valid until expiration, giving you time to update your IdP.
    • PEM export: Copy the certificate in PEM format for manual upload to your IdP, or point your IdP to the SAML metadata endpoint for automatic retrieval.

    To get started, refer to Encrypt SAML assertions.

  1. Introducing self-managed OAuth clients

    Cloudflare Fundamentals

    Today we are launching self-managed OAuth, enabling developers to build third-party applications that integrate with Cloudflare via OAuth. This provides a more secure, user-friendly, and manageable alternative to API tokens.

    OAuth lets third-party applications act on behalf of a user to access their Cloudflare account. For example, after a user grants consent, Wrangler can deploy Workers into that account.

    What is new

    Cloudflare Developers can now create and manage their own OAuth applications to integrate with Cloudflare.

    Create an application

    To create an application, go to Manage account > OAuth clients in your account on the Cloudflare dashboard.

    Go to OAuth clients

    Select limited scopes

    If you have used an API token to call Cloudflare APIs, OAuth client scopes will look familiar. Select only the scopes your application needs during application creation, and include that scope list when sending users to Cloudflare for consent.

    Users can review the requested scopes before they consent.

    Apps for both private and public use

    Applications start with private visibility. Private applications can only be used by members of the account where the application was created.

    To make an application available to any Cloudflare user, complete the prerequisites for public visibility.

    For more information, refer to client visibility.

    Client domain verification

    Before an application can be made public, you must verify the client domain. Domain verification helps users confirm that the application owner controls the domain shown on the consent page.

    After verification, users see a verified badge on the consent page.

    For more information, refer to domain verification.

    Learn more

    For more information, refer to OAuth clients.

  1. New Workers bulk secrets API endpoint

    Workers

    You can now create, update, or delete multiple secrets for your Worker in a single request using the bulk secrets endpoint.

    • Include a secret with a value to create or update.
    • Set a secret to null to delete.
    • Secrets not included in the request are left unchanged.

    The following example creates API_KEY, updates the already existing DB_PASSWORD, and deletes OLD_SECRET:

    {
      "secrets": {
        "API_KEY": { "type": "secret_text", "name": "API_KEY", "text": "my-api-key" },
        "DB_PASSWORD": { "type": "secret_text", "name": "DB_PASSWORD", "text": "my-db-password" },
        "OLD_SECRET": null
      }
    }

    You can do the same from the command line using wrangler secret bulk:

    Terminal window
    npx wrangler secret bulk < secrets.json

    To delete a key, set its value to null in the JSON file. Deletion is not supported with .env files.

    Each request supports up to 100 total operations (creates, updates, and deletes combined).

  1. Schedule Workflow instances directly from your Workflow binding

    Workflows Workers

    You can now attach cron schedules directly to a Workflow binding in wrangler.jsonc. Each scheduled run creates a new Workflow instance automatically, so you do not need to define a separate Worker with a scheduled handler just to trigger your Workflow on an interval.

    For example, you can configure hourly, every-15-minute, or weekday schedules on the same Workflow:

    JSONC
    {
      "workflows": [
        {
          "name": "my-scheduled-workflow",
          "binding": "MY_WORKFLOW",
          "class_name": "MyScheduledWorkflow",
          "schedules": ["0 * * * *", "*/15 * * * *", "0 9 * * MON-FRI"],
        },
      ],
    }

    Cron workloads get all the same benefits of Workflows with built-in retries, multi-step durable execution, and configurable timeouts of Workflows.

    TypeScript
    import {
      WorkflowEntrypoint,
      WorkflowEvent,
      WorkflowStep,
    } from "cloudflare:workers";
    

    // Runs automatically on each cron schedule defined for the MY_WORKFLOW binding in wrangler.jsonc.
    export class MyScheduledWorkflow extends WorkflowEntrypoint<Env> {
      async run(event: WorkflowEvent, step: WorkflowStep) {
        const data = await step.do("fetch source data", async () => {
          return await fetchSourceData();
        });
    

        // If this step fails, only this step is retried with the custom logic below
        await step.do(
          "process and store results",
          {
            retries: { limit: 5, delay: "30 seconds", backoff: "exponential" },
            timeout: "10 minutes",
          },
          async () => {
            await processAndStore(data);
          },
        );
      }
    }

    This makes it easier to build recurring, scheduled jobs such as database backups, invoice generation, report aggregation, and cleanup tasks without wiring up a separate Cron Trigger entrypoint.

    For more information, refer to Trigger Workflows.

  1. Agents SDK v0.14.0: Agent Skills, messengers, scheduled tasks, Workflows, and hardened chat recovery

    Agents Workers

    The latest release of the Agents SDK adds four new ways to build with @cloudflare/think: on-demand Agent Skills, chat messengers (starting with Telegram), declarative scheduled tasks, and durable reasoning steps inside Workflows. This release also significantly hardens durable chat recovery, so turns reliably ride through deploys, evictions, and stalled model streams in production.

    Agent Skills (experimental)

    Give an agent a catalog of on-demand instructions, resources, and scripts. A skill source adds a catalog to the system prompt, and the model activates a skill only when a task matches — so a large library of capabilities does not bloat every prompt.

    JavaScript
    import { Think, skills } from "@cloudflare/think";
    import bundledSkills from "agents:skills";
    

    export class SkillsAgent extends Think {
      getSkills() {
        return [
          bundledSkills,
          skills.r2(this.env.SKILLS_BUCKET, { prefix: "skills/" }),
        ];
      }
    }

    The agents:skills import bundles a local ./skills directory through the Agents Vite plugin (one directory per skill, each with a SKILL.md). Skills can also load from R2 or a manifest. When skills are available, Think exposes activate_skill, read_skill_resource, and an optional run_skill_script tool. Skill loading is resilient: a duplicate or failing source is skipped with a warning instead of breaking the agent.

    Agent Skills are experimental, and script execution in particular is early. The API may change in a future release. We would love your feedback — tell us what you are building and what is missing in the Agents repository.

    Messengers

    Connect a Think agent directly to a chat platform. Think owns the webhook route, conversation routing, durable reply fiber, and streamed delivery back to the provider. Telegram ships as the first provider.

    JavaScript
    import { Think } from "@cloudflare/think";
    import {
      defineMessengers,
      ThinkMessengerStateAgent,
    } from "@cloudflare/think/messengers";
    import telegramMessenger from "@cloudflare/think/messengers/telegram";
    

    export { ThinkMessengerStateAgent };
    

    export class SupportAgent extends Think {
      getMessengers() {
        return defineMessengers({
          telegram: telegramMessenger({
            token: this.env.TELEGRAM_BOT_TOKEN,
            userName: "support_bot",
            secretToken: this.env.TELEGRAM_WEBHOOK_SECRET_TOKEN,
          }),
        });
      }
    }

    Each Chat SDK thread maps to its own Think sub-agent by default, so group chats and direct messages do not share memory. Multiple bots, custom conversation routing, and custom providers are all supported.

    Scheduled tasks

    Declare recurring, timezone-aware prompts and handlers with a typed domain-specific language (DSL). Think reconciles the declarations on startup and re-arms the next occurrence after each run, backed by durable idempotent submissions.

    JavaScript
    import { Think, defineScheduledTasks } from "@cloudflare/think";
    

    export class DigestAgent extends Think {
      getScheduledTasks() {
        return defineScheduledTasks({
          weeklyCommitReport: {
            schedule: "every week on monday at 09:00",
            prompt:
              "Compile my GitHub commits for the last week and summarize them.",
          },
          workout: {
            schedule: "every day at 08:00 in Europe/London",
            prompt: "Start my workout.",
          },
        });
      }
    }

    Think Workflows

    Run a model-driven reasoning step inside a Cloudflare Workflow with ThinkWorkflow and step.prompt(), with durable typed structured output, long waits, and approval gates.

    JavaScript
    import { z } from "zod";
    import { ThinkWorkflow } from "@cloudflare/think/workflows";
    

    const draftSchema = z.object({
      title: z.string(),
      summary: z.string(),
      labels: z.array(z.string()),
    });
    

    export class TriageWorkflow extends ThinkWorkflow {
      async run(event, step) {
        const draft = await step.prompt("triage-issue", {
          prompt: `Triage issue #${event.payload.issueNumber}`,
          output: draftSchema,
          timeout: "3 days",
        });
    

        await step.do("apply-labels", async () => {
          await this.agent.applyLabels(draft.labels);
        });
      }
    }

    Production hardening for durable chat recovery

    Durable chat turns have always been designed to survive a mid-turn deploy or Durable Object eviction. This release is a major hardening pass on that machinery for production.

    • Better recovery during deploys. Turns now ride through continuous deploys and evictions without losing completed work or re-running tools that already ran.
    • A live "recovering…" signal. useAgentChat exposes a new isRecovering flag, so a recovering turn shows progress instead of looking frozen. Most UIs render isStreaming || isRecovering as "busy".
    • Stalled streams recover. Set chatStreamStallTimeoutMs to route a hung provider stream into the same recovery path instead of leaving an infinite spinner.
    • Sub-agents re-attach. On parent recovery, an in-flight agentTool() child is re-attached to its result rather than abandoned and re-run, so long-running children no longer lose work under deploys.

    MCP transport improvements

    • Resumable streams — In-flight tool calls over Server-Sent Events (SSE) survive a dropped connection. Clients reconnect with Last-Event-ID and replay anything they missed.
    • Readable server IDsaddMcpServer accepts an optional id, so tools surface as readable keys (for example tool_github_create_pull_request) instead of opaque connection IDs.
    • Better handling of concurrent requests — Overlapping JSON-RPC requests are now correctly correlated to their responses across the HTTP and RPC transports.

    Other improvements

    • Compaction — A Session's tokenCounter now also drives the compaction boundary decision ("what to compress"), not just the fire/no-fire trigger.
    • @cloudflare/worker-bundler — Adds a virtualModules option to createWorker to provide in-memory module source during bundling.
    • Client-tool continuations — Parallel tool results now coalesce into a single continuation, immediate resume requests attach to the pending continuation, and server-side needsApproval continuations resume reliably after approval.

    Upgrade

    To update to the latest version:

    npm i agents@latest @cloudflare/think@latest @cloudflare/ai-chat@latest

    Refer to the Agents API reference and Chat agents documentation for more information.

  1. Cisco IOS XE

    Cloudflare WAN Cloudflare One

    The Cisco IOS XE third-party integration guide for Cloudflare WAN has been updated to include:

    • Post Quantum Cryptography (PQC)
    • Policy-Based Routing (PBR)
    • IP Service Level Agreement (IP SLA)

    This link will take you directly to the updated Cisco IOS XE guide.

  1. New Turnstile Events Logpush dataset in Cloudflare Logs

    Logs

    Cloudflare has updated Logpush datasets:

    New datasets

    • Turnstile Events: A new dataset with fields including ASN, Action, BrowserMajor, BrowserName, ClientIP, CountryCode, EventType, Hostname, OSMajor, OSName, Sitekey, Timestamp, and UserAgent.

    For the complete field definitions for each dataset, refer to Logpush datasets.

  1. Cloudflare One Client for macOS (version 2026.5.1155.1)

    Cloudflare One Client

    A new Beta release for the macOS Cloudflare One Client is now available on the beta releases downloads page.

    This release introduces the new Cloudflare One Client UI for macOS! You can expect a cleaner and more intuitive design as well as easier access to common actions and information. Here are some of the many things we have found our users appreciate:

    • Right click context menu to access the most common client actions quickly
    • Built-in captive portal login experience

    Additional Changes and improvements

    • The client now applies DNS search suffixes configured in your device profile / network policy. Administrators can push a list of DNS search domains that the client appends to single-label queries, alongside any system-configured suffixes. See DNS search suffixes for details.
    • Administrators can now control which virtual networks (VNETs) are available to which users via WARP device profile settings in the Zero Trust dashboard. Previously, every VNET in the organization was visible to every device; you can now scope the VNET picker per profile so users only see the networks relevant to them. See VNET availability for details.
    • Added a local-file signal source for Emergency Disconnect. In addition to the existing HTTPS polling mechanism, administrators can now configure WARP to monitor for a file on disk; the presence of the file triggers an emergency disconnect even if both Cloudflare and your own infrastructure are unreachable. Either signal being asserted triggers disconnect; both must be cleared for normal operation to resume.
    • Added new warp-cli debug commands for interactive connection diagnosis. See Extra debug logging for details.
    • The local DNS proxy now supports DNSSEC passthrough. DNSSEC-signed responses are forwarded to the application intact (including DO/AD bits and RRSIG records), so applications that validate DNSSEC locally — including resolvers and the dig/drill tooling — work correctly through the client.
    • Added a new MDM format for organization-wide settings, including a cleaner way to configure the compliance environment (e.g. FedRAMP). The previous per-configuration approach still works, but the new format is now recommended. See the updated Cloudflare One MDM documentation for details.
    • Client Certificate device-posture checks now support template variables (e.g. ${serial_number}, ${device_uuid}) in the Subject Alternative Name field, matching what the documentation has always claimed. Previously only the Common Name field accepted variables, which broke posture rules that pinned identity to a SAN entry.
    • Fixed the in-client captive-portal browser rendering a blank "Success" page on some airline Wi-Fi networks (United inflight Wi-Fi was the reported case). The browser now reliably loads the airline's real portal page so users can complete sign-in from inside the client instead of having to open a separate browser.
    • Fixed an issue in proxy mode where hostnames containing underscores (e.g. ai_app.com) were rejected, breaking apps that depend on such hostnames (notably ChatGPT sandbox apps). The local proxy now accepts underscore-containing hostnames in CONNECT requests.

    Known issues

    • Registration may hang at "Checking your organization configuration" due to IPC errors. A system reboot should resolve the error, allowing registration to proceed.
    • Split tunnel list configuration is not available in the new UI. Management of split tunnel entries is currently only possible via warp-cli tunnel ip and warp-cli tunnel host. UI support will be added in a future release.

  1. Cloudflare One Client for Windows (version 2026.5.1155.1)

    Cloudflare One Client

    A new Beta release for the Windows Cloudflare One Client is now available on the beta releases downloads page.

    This release introduces the new Cloudflare One Client UI for Windows! You can expect a cleaner and more intuitive design as well as easier access to common actions and information. Here are some of the many things we have found our users appreciate:

    • Right click context menu to access the most common client actions quickly
    • Built-in captive portal login experience

    Additional Changes and improvements

    • The client now applies DNS search suffixes configured in your device profile / network policy. Administrators can push a list of DNS search domains that the client appends to single-label queries, alongside any system-configured suffixes. See DNS search suffixes for details.
    • Administrators can now control which virtual networks (VNETs) are available to which users via WARP device profile settings in the Zero Trust dashboard. Previously, every VNET in the organization was visible to every device; you can now scope the VNET picker per profile so users only see the networks relevant to them. See VNET availability for details.
    • Added mandatory authentication. When enabled via MDM, the Cloudflare One Client blocks all Internet traffic from the moment the machine boots until the user authenticates, closing the visibility gap on newly deployed devices and during re-authentication. See the announcement blog and documentation for details.
    • Added a local-file signal source for Emergency Disconnect. In addition to the existing HTTPS polling mechanism, administrators can now configure WARP to monitor for a file on disk; the presence of the file triggers an emergency disconnect even if both Cloudflare and your own infrastructure are unreachable. Either signal being asserted triggers disconnect; both must be cleared for normal operation to resume.
    • Added new warp-cli debug commands for interactive connection diagnosis. See Extra debug logging for details.
    • The local DNS proxy now supports DNSSEC passthrough. DNSSEC-signed responses are forwarded to the application intact (including DO/AD bits and RRSIG records), so applications that validate DNSSEC locally — including resolvers and the dig/drill tooling — work correctly through the client.
    • Added a new MDM format for organization-wide settings, including a cleaner way to configure the compliance environment (e.g. FedRAMP). The previous per-configuration approach still works, but the new format is now recommended. See the updated Cloudflare One MDM documentation for details.
    • Client Certificate device-posture checks now support template variables (e.g. ${serial_number}, ${device_uuid}) in the Subject Alternative Name field, matching what the documentation has always claimed. Previously only the Common Name field accepted variables, which broke posture rules that pinned identity to a SAN entry.
    • The UseWebView2 registry value (HKLM\SOFTWARE\Cloudflare\CloudflareWARP\UseWebView2 = y) is once again honored by the new GUI for authentication, so administrators who prefer the embedded WebView2 browser for sign-in can opt back in. This setting was effectively ignored in the previous release; the default browser was always used. This key is now also honored for re-authentications.
    • Fixed a crash in the authentication browser when navigating to a site that prompts for browser permissions (microphone, camera, notifications, etc.). The same fix had previously landed for the captive-portal browser; this extends it to the auth browser.
    • Fixed an issue in proxy mode where hostnames containing underscores (e.g. ai_app.com) were rejected, breaking apps that depend on such hostnames (notably ChatGPT sandbox apps). The local proxy now accepts underscore-containing hostnames in CONNECT requests.

    Known issues

    • An error indicating that Microsoft Edge can't read and write to its data directory may be displayed during captive portal login; this error is benign and can be dismissed.
    • Registration may hang at "Checking your organization configuration" due to IPC errors. A system reboot should resolve the error, allowing registration to proceed.
    • Split tunnel list configuration is not available in the new UI. Management of Split Tunnel entries is currently only possible via warp-cli tunnel ip and warp-cli tunnel host. UI support will be added in a future release.
    • Windows ARM may prompt the user to close running applications while trying to install this version. Simply click “Ok” with the default highlighted option.
    • DNS resolution may be broken when the following conditions are all true:
      • The client is in Secure Web Gateway without DNS filtering (tunnel-only) mode.
      • A custom DNS server address is configured on the primary network adapter.
      • The custom DNS server address on the primary network adapter is changed while the client is connected.
        To work around this issue, please reconnect the client by selecting "disconnect" and then "connect" in the client user interface.

  1. Share sandbox previews through Cloudflare Tunnel

    Agents

    Sandboxes can expose a service running inside the container on a public preview URL through the sandbox.tunnels namespace. The SDK uses cloudflared inside the sandbox so you can share a running service without configuring exposePort() or a custom domain.

    By default, sandbox.tunnels.get(port) creates a quick tunnel on a zero-config *.trycloudflare.com URL — no Cloudflare account, DNS record, or custom domain required. This is perfect for quick development and for .workers.dev deployments.

    JavaScript
    import { getSandbox } from "@cloudflare/sandbox";
    

    const sandbox = getSandbox(env.Sandbox, "my-sandbox");
    await sandbox.startProcess("python -m http.server 8080");
    

    const tunnel = await sandbox.tunnels.get(8080);
    console.log(tunnel.url); // → https://random-words-here.trycloudflare.com

    Named tunnels

    For more control you can create a named tunnel through sandbox.tunnels.get(port, { name }). A named tunnel binds a hostname (<name>.<your-zone>) backed by a Cloudflare Tunnel and a CNAME record on your zone resulting in something like https://my-app-preview.example.com.

    Unlike quick tunnels, which generate a new random URL each time, a named tunnel produces a persistent URL that survives container restarts. This makes named tunnels suitable for production use cases where you want control over the tunnel and it's origin.

    JavaScript
    const tunnel = await sandbox.tunnels.get(8080, { name: "my-app-preview" });
    console.log(tunnel.url); // → https://my-app-preview.example.com

    Calling sandbox.destroy() tears down the Cloudflare Tunnel and the associated DNS record alongside the container, so you do not leave dangling tunnels or records behind.

    Upgrade

    To update to the latest version:

    npm i @cloudflare/sandbox@latest

    For full API details, refer to the Sandbox tunnels reference.

  1. Updated fields across multiple Logpush datasets in Cloudflare Logs

    Logs

    Cloudflare has updated Logpush datasets:

    Updated fields in existing datasets

    • DEX Device State Events (added): DeviceRegistrationProfileID.
    • Gateway HTTP (added): AddedHeaders, DeletedHeaders, and SetHeaders.
    • HTTP requests (added): MatchedRules.

    For the complete field definitions for each dataset, refer to Logpush datasets.

  1. TLS bug detection in the Cloudflare Radar post-quantum checker

    Radar

    The Radar post-quantum TLS support checker now also reports TLS bugs detected during the handshake test. When a scanned host exhibits compatibility issues, the results include details on the specific bugs detected, along with guidance on how to investigate and remediate each issue. The bugs section only appears for hosts where issues are found.

    The following TLS bugs are detected:

    • Split ClientHello — The connection fails with a fragmented post-quantum ClientHello but succeeds with classical handshakes. Typically caused by middleboxes or firewalls that cannot reassemble split TLS messages.
    • HRR Failure — The server sends a HelloRetryRequest but fails to complete the handshake afterward.
    • Unknown Keyshare — The server cannot handle unknown key exchange algorithms and fails instead of responding with a HelloRetryRequest as required by the TLS 1.3 specification.
    TLS bug detection results in the Radar post-quantum checker

    Bug detection data is available through the existing /post_quantum/tls/support endpoint.

    Visit the Post-Quantum Encryption page to test a host.

  1. Cloudflare's Realtime WebSocket adapter now auto-reconnects and buffers WebRTC media

    Realtime

    Cloudflare Realtime SFU is a WebRTC Selective Forwarding Unit that runs on Cloudflare's global network, so you can route live audio, video, and data between WebRTC clients around the world without managing SFU infrastructure or regions.

    When you use the WebSocket adapter to stream WebRTC media to a WebSocket endpoint, the adapter now auto-reconnects and buffers audio and video after brief endpoint disconnects or restarts.

    Streaming WebRTC media to WebSocket endpoints

    Many teams also use Realtime SFU as the media layer for backend applications, such as transcription, recording, note-taking, and agentic media-processing services. These systems often need to consume live WebRTC audio or video from the SFU in backend infrastructure, including Durable Objects, Workers, Containers, or external services, without running a WebRTC client themselves.

    The WebSocket adapter bridges that gap by streaming WebRTC media from the SFU to a standard WebSocket endpoint as application-consumable payloads: PCM audio frames and JPEG video frames.

    What changed

    When you use the WebSocket adapter in Stream mode (egress) to send live audio or video from the SFU to your own WebSocket endpoint, the SFU now automatically reconnects after brief endpoint disconnects or restarts. This is especially helpful for long-running media pipelines where the WebSocket endpoint may briefly restart while a recording, transcription, or live analysis job is still in progress.

    Previously, a brief disconnect from your WebSocket endpoint could close the adapter and require your application to recreate it before media could resume. Now, the SFU retries the same endpoint for up to 5 seconds with no API change required. If the endpoint comes back within that window, audio and video delivery resumes automatically.

    The reconnect behavior also includes live-first media buffering, so brief interruptions reduce media loss without replaying stale video.

    Reconnect behavior

    During reconnect:

    • Audio uses a short bounded backlog to reduce audible loss. If the interruption lasts longer than the backlog can cover, older audio may be dropped.
    • Video resumes from the latest available JPEG frame instead of replaying stale frames.
    • Recovery is best effort and does not guarantee gapless or exactly-once delivery.

    If the endpoint remains unavailable after the 5-second reconnect window, the adapter closes and must be recreated.

    Learn more

  1. Security scans more frequent

    Security Center

    Security Insights scans now run more often. Cloudflare scans Free accounts every 7 days, Pro and Business accounts every 3 days, and Enterprise accounts daily.

    In addition, all accounts and zones now receive scans by default. You no longer need to enable scans before Cloudflare checks your account for misconfigurations, vulnerabilities, and other security risks.

    Granular on-demand scans are now available on any plan. You can trigger an on-demand scan for any zone, insight, insight type from the Cloudflare dashboard in order to quickly re-check your security posture after remediating an issue.

    To learn more, refer to the Security Insights documentation.

  1. Tool and prompt aliases for MCP server portals

    Access

    When you connect third-party MCP servers through MCP server portals, you have no control over how the server author named tools or wrote descriptions. Unclear names make it harder for AI agents to select the right tool and harder for users to understand what is available.

    You can now rename tools and prompts and rewrite their descriptions directly on the portal, without modifying the upstream server. For example, a tool named super_cool_tool can become search_customer_records with a description tailored to your organization.

    Edit tool modal showing name and description fields for an MCP server tool

    Modified tools display a Modified label in the tools list so administrators can see which tools have been customized at a glance.

    Tools authorized list showing a modified label on a renamed tool

    Aliases override the metadata that MCP clients receive. You can set them at two levels:

    • Per portal: Applies only within a specific portal. Takes precedence over server-level aliases.
    • Per server: Applies across all portals that use the server.

    You can reset an alias at any time to restore the original upstream name.

    For more information, refer to Tool and prompt aliases.

  1. Use Browser Run Quick Actions directly from Workers

    Browser Run

    You can now call Browser Run Quick Actions directly from a Cloudflare Worker using the quickAction() method on the browser binding. This simplifies how Workers interact with Browser Run by removing the need for API tokens or external HTTP requests. Your Worker communicates with Browser Run directly over Cloudflare's network, resulting in simpler code and lower latency.

    With the quickAction() method you can:

    To get started, add a browser binding to your Wrangler configuration:

    JSONC
    {
      "compatibility_date": "2026-03-24",
      "browser": {
        "binding": "BROWSER"
      }
    }

    Then call any Quick Action directly from your Worker. For example, to capture a screenshot:

    JavaScript
    const screenshot = await env.BROWSER.quickAction("screenshot", {
      url: "https://www.cloudflare.com/",
    });

    The quickAction() method requires a compatibility date of 2026-03-24 or later.

    For setup instructions and the full list of available actions, refer to Browser Run Quick Actions.

  1. High availability replica management for Cloudflare Mesh

    Cloudflare Mesh Cloudflare One

    The Cloudflare Mesh dashboard now shows per-replica details for high availability nodes. You can see which replica is active, view each replica's Mesh IP and connection details, and manually trigger failover — all from the node detail page.

    Mesh HA replica tabs showing active and passive replicas with per-replica Mesh IPs and a manual failover option

    What's new

    • Replica tabs on the node detail page — switch between replicas to see each one's Mesh IP, edge data center, origin IP, platform, version, and uptime.
    • Active/passive badges identify which replica is currently routing traffic.
    • Manual failover — promote a passive replica to active with a single click. The previous active replica switches to standby.
    • HA badge in the overview table identifies nodes running multiple replicas.
    • Active replica IP shown in the overview table — the dashboard now resolves which replica is active and displays the correct Mesh IP.

    Manual failover

    To manually promote a passive replica:

    1. In the Cloudflare dashboard, go to Networking > Mesh.
    2. Select an HA-enabled node.
    3. Select the passive replica tab.
    4. Select Promote to active and confirm.

    Traffic reroutes to the promoted replica immediately. Refer to High availability for details on failover behavior.

  1. Wrangler supports SSH ProxyCommand for Containers

    Containers

    Wrangler supports using wrangler containers ssh as an OpenSSH ProxyCommand for Containers. This lets your local SSH client connect to a running Container through Wrangler.

    Terminal window
    ssh -o ProxyCommand="wrangler containers ssh %h" cloudchamber@<INSTANCE_ID>

    When standard input and output are piped, Wrangler forwards data to the SSH server in the Container. You can also pass --stdio to force this mode.

    For more information, refer to the SSH documentation.