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New updates and improvements at Cloudflare.

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  1. Agents SDK adds background sub-agents and a unified turn entry point

    Agents Workers

    The latest release of the Agents SDK makes it easier to run long work in the background, drive turns through one entry point, and keep chat agents working through deploys, evictions, and reconnects.

    This release adds first-class detached (background) sub-agent runs with live progress and durable milestones, a single runTurn turn-admission entry point, and a large round of recovery and reliability fixes that continue converging @cloudflare/think and @cloudflare/ai-chat onto one model.

    Background sub-agents with progress and milestones

    runAgentTool can now dispatch a sub-agent without blocking the calling turn. A detached run returns a handle immediately and is owned by a durable, eviction-surviving backbone instead of being abandoned when the dispatching turn ends.

    JavaScript
    class OrdersAgent extends Think {
      async startImport(input) {
        // Fire-and-forget, or wire a durable completion callback
        // (by method name, like schedule()):
        await this.runAgentTool(ImportAgent, {
          input,
          detached: { onFinish: "onImportDone", maxBudgetMs: 60 * 60 * 1000 },
        });
      }
    

      // result.status: "completed" | "error" | "aborted" | "interrupted"
      async onImportDone(run, result) {}
    }

    Highlights:

    • Durable, exactly-once-on-the-happy-path completion via a warm fast path plus a self-scheduling reconcile backbone that survives eviction and deploys.
    • Bounded. An absolute maxBudgetMs ceiling (default 24h) and cancelAgentTool(runId) keep abandoned runs from holding a concurrency slot forever.
    • detached: { notify: true } lets a finished background run inject a message back into the chat so the model reacts to the result — no hand-wired onFinish needed.

    Sub-agents can also report mid-run progress that rides their own turn stream back to the parent's connected clients:

    JavaScript
    // Inside the child sub-agent:
    await this.reportProgress({
      fraction: 0.6,
      phase: "deploying",
      message: "Generating menu page…",
    });

    Progress surfaces on AgentToolRunState.progress via useAgentToolEvents, so a background-runs tray can render a live bar without drilling in, and the latest snapshot is persisted for inspection after eviction. Naming a milestone promotes a signal to a durable, replayable row, and detached: { onMilestones } can surface a milestone as a synthetic chat message ("narrate" for a cheap status line, or "react" to drive a model turn).

    One entry point for turns: runTurn

    @cloudflare/think adds a public runTurn(options) facade that unifies turn admission behind a single mode:

    JavaScript
    await this.runTurn({ mode: "wait", messages }); // saveMessages / continueLastTurn
    await this.runTurn({ mode: "submit", messages }); // durable submitMessages
    await this.runTurn({ mode: "stream", messages }); // chat()

    stream mode accepts array and function inputs to match wait mode, and all entry points now route through a shared internal admission path that throws a clear error on nested blocking admissions that previously could deadlock.

    Recovery and reliability

    A large part of this release continues hardening recovery and converging @cloudflare/think and @cloudflare/ai-chat onto one model:

    • Stream stall watchdog. AIChatAgent can detect and recover from a hung model/transport stream via the opt-in chatStreamStallTimeoutMs watchdog. With chatRecovery enabled the stall routes into the same bounded-recovery machinery a deploy or eviction uses; otherwise it surfaces as a terminal stream error so the spinner clears.
    • Interrupted tool-call repair. AIChatAgent now repairs a transcript with a dead server-tool call before re-entering inference (parity with @cloudflare/think), so a recovered turn no longer fails with AI_MissingToolResultsError. An overridable repairInterruptedToolPart(part) hook lets apps customize the repaired shape.
    • Stuck status after reconnect. Fixed AI SDK status getting stuck when a reconnect races a turn that has been accepted but has not started streaming yet, so the UI now renders the in-flight turn instead of settling on ready.
    • Live "recovering…" on connect. AIChatAgent now replays the recovering status to a client that connects mid-recovery, so useAgentChat's isRecovering reflects in-progress recovery immediately instead of appearing frozen.
    • Terminal connection failures. The client stops reconnecting on terminal WebSocket close events and exposes them via connectionError / onConnectionError on AgentClient, useAgent, and useAgentChat.
    • Agent-tool child recovery. A healthy long-running sub-agent run is no longer abandoned as interrupted after a deploy (both @cloudflare/think and AIChatAgent).
    • Workflows from sub-agent facets. Agent Workflows can now start from sub-agent facets, with callbacks and Workflow RPC routed back to the originating facet.
    • Plus forward-progress crediting convergence, broadcast-first give-up ordering, an event-driven auto-continuation barrier, and structured row-size compaction in AIChatAgent.

    Other improvements

    • Shared chat React core. A new agents/chat/react entry exposes useAgentChat, transport helpers, and shared wire types, with syncMessagesToServer for server-authoritative transcript storage. @cloudflare/think/react and @cloudflare/ai-chat/react are now thin wrappers over it.
    • Optional ai peer. The root agents and @cloudflare/codemode runtimes no longer reference AI SDK types, so they bundle without ai / zod installed; AI-specific entry points still require the peer when imported. just-bash likewise moves to an optional peer used only by the skills bash runner.
    • Code Mode. The default DynamicWorkerExecutor timeout increases from 30s to 60s, executions now dispose the dynamically-loaded Worker and its RPC stub after each run (fixing a flaky isolate-shutdown assertion), connector imports are cleaned up, and the outer MCP tool-call context is passed to openApiMcpServer request callbacks.
    • Voice. Voice turns now support AI SDK fullStream responses (and warn when textStream is used).
    • MCP. McpAgent server-to-client requests can now be sent from callbacks that do not inherit the agent's async context, including callbacks reached through Worker Loader RPC.
    • Experimental: server actions and channels. This release lays groundwork for guarded server actions (action() / getActions() with a durable replay ledger and approvals) and a unified channels surface (configureChannels(), deliverNotice()). Both are experimental and their APIs may change, so we don't recommend depending on them yet.

    Upgrade

    To update to the latest version:

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

    Refer to the Think documentation, Code Mode documentation, and Agents documentation for more information.

  1. New `us` jurisdiction for Durable Objects

    Durable Objects Workers

    Durable Objects now supports a us jurisdiction, letting you create Durable Objects that only run and store data within the United States. Use the us jurisdiction when you need to keep a Durable Object's compute and storage inside the United States to meet data residency requirements.

    Create a namespace restricted to the us jurisdiction the same way as any other jurisdiction:

    JavaScript
    // Worker
    export default {
      async fetch(request, env) {
        const usSubnamespace = env.MY_DURABLE_OBJECT.jurisdiction("us");
        const stub = usSubnamespace.getByName("general");
        return stub.fetch(request);
      },
    };

    Workers may still access Durable Objects constrained to the us jurisdiction from anywhere in the world. The jurisdiction constraint only controls where the Durable Object itself runs and persists data.

    For the full list of supported jurisdictions, refer to Data location — Restrict Durable Objects to a jurisdiction.

  1. Search API tokens by name

    Cloudflare Fundamentals

    You can now search API tokens by name, making it easier to find specific tokens across large token lists without manually paginating.

    What's new

    For more information, refer to Create an API token and Account API tokens.

  1. Cloudflare One Client for macOS (version 2026.6.782.1)

    Cloudflare One Client

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

    This beta release introduces upgraded security of device registration to be hardware-backed. Registration tokens can now be generated in the Secure Enclave whenever available to provide stronger protection against device impersonation.

    Additional changes and improvements

    This release also introduces multiple fixes and improvements including:

    • Improved accessibility by using high contrast colors and more defined color boundaries when high contrast is enabled in the macOS Display settings.
    • Path MTU Discovery (PMTUD) is now enabled by default.
    • Fixed an issue where DNS queries would fail after the connection was idle, requiring users to retry.
    • Users can now register with team names in any case format without errors.
    • New UI fixes
      • Fixed an issue where users with invalid MDM configurations were returned to the onboarding screen after successful authentication.
      • Added a re-auth button and banner to the home screen so users don't miss it when their session expires.
      • Added clear error messaging when the Cloudflare certificate needs to be installed.
      • Brought back support for pausing the tunnel when connected to user-specified Wi-Fi networks for consumer users.
      • New client UI now surfaces Split tunnel configuration and Local Domain Fallback configuration.
      • Added ability to configure proxy mode for consumer users.
      • Added back the option to quit for consumer users.

    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.

  1. Control AI Search similarity cache freshness

    AI Search

    AI Search now gives you more control over similarity cache freshness. Similarity cache helps reduce latency and inference cost by reusing responses for semantically similar queries.

    With these updates, you can choose how long responses are eligible for reuse and clear cached responses when they may be stale.

    Cache duration now defaults to 48 hours

    Previously, AI Search cached responses for a fixed duration of 30 days. Cached responses now use the instance's cache_ttl setting, and the default is 48 hours.

    You can set cache_ttl when creating or updating an instance to choose a cache duration from 10 minutes to 6 days.

    Use a shorter TTL when your source content changes frequently and freshness is more important. Use a longer TTL when your content is stable and you want more cache reuse.

    For example, set cache_ttl to 518400 to retain cached responses for 6 days:

    {
      "cache_ttl": 518400
    }

    Purge cached responses

    You can also purge all cached responses for an instance on demand. Purging cached responses does not delete indexed content or source files.

    It prevents AI Search from reusing previous cached responses, so subsequent similar queries generate fresh answers and repopulate the cache.

    Terminal window
    curl -X POST "https://api.cloudflare.com/client/v4/accounts/$ACCOUNT_ID/ai-search/instances/$INSTANCE_NAME/purge_cache" \
      -H "Authorization: Bearer $CLOUDFLARE_API_TOKEN"

    You can also purge cached responses from the instance settings page in the Cloudflare dashboard.

    Refer to similarity cache for the full list of supported cache_ttl values and more details about cache behavior.

  1. Audit Logs v2 — Organization-level audit logs in Cloudflare dashboard

    Audit Logs

    You can now, as an Organization Super Administrator, view organization-level audit logs in the Cloudflare dashboard, in addition to the existing API access.

    Organization audit logs help you monitor activity across your organization. You can see who performed an action, what changed, when it happened, how it was performed, and whether it succeeded or failed.

    You can filter and search logs by actor, action, result, resource, request details, and timestamp. Use these logs to troubleshoot changes, investigate unexpected access, and support security or compliance workflows.

    Organization audit logs in the Cloudflare dashboard

    If you are viewing account-level audit logs and the account belongs to an organization where you are an Organization Super Administrator, select View Organization Audit Logs to open the parent organization's audit logs.

    View Organization Audit Logs button

    To get started, go to Organizations, select your organization, then go to Manage Organization > Audit Logs.

    For more information, refer to the Audit Logs documentation.

  1. Precise IP location and richer AS details on the Cloudflare Radar IP page

    Radar

    Radar now plots your IPv4 and IPv6 locations on the IP page, shows the Cloudflare data centers serving your connection, and includes more detail about the autonomous system (AS) your primary IP belongs to.

    Your IP location on the map

    The map of your connection now shows:

    • IP location markers — The primary IP will show as a red marker. When both IP addresses do not geolocate to the same place, a second marker will appear in blue with a note explaining why IPv4 and IPv6 can resolve to different locations.
    • Cloudflare data center markers — Cloudflare data centers now show as orange dots on the map and the one you are connected to is highlighted.
    • Data center connectors — Each line connects your IP markers to their respective data centers.
    Map showing Cloudflare data centers and a marker representing the IP location with a line connected to a data center

    Due to the data policies of our geolocation provider, this detailed location is only available for your own IP. Other IP addresses keep the current country-level view.

    Extended AS information

    The AS card on the IP page now shows additional detail about the network an IP belongs to — including alternate names, the operator website, and an estimate of the AS user population — alongside the AS number and country.

    Visit the Cloudflare Radar IP page to explore more details about your IP.

  1. Workflows rollback handlers now include step context

    Workflows

    Workflows makes it easier to build reliable multi-step applications that can recover when downstream systems fail. Rollback handlers now receive the original step context via a ctx object for the step being rolled back. This includes ctx.step.name, ctx.step.count, ctx.attempt, and the step config with defaults applied.

    The step configuration includes the retry and timeout settings used for that step, so you can customize your step recovery logic according to those fields.

    TypeScript
    await step.do(
      "create charge",
      async () => {
        const charge = await createCharge();
        return { chargeId: charge.id };
      },
      {
        rollback: async ({ ctx, output, error }) => {
          // `output` is the value returned by the step being rolled back.
          const { chargeId } = output as { chargeId: string };
          await refundCharge(chargeId, {
            // `ctx` is the original step context, including step name, count, attempt, and config.
            reason: `${ctx.step.name}: ${error.message}`,
          });
        },
        rollbackConfig: {
          // `rollbackConfig` controls retries and timeout for the rollback handler.
          retries: { limit: 3, delay: "30 seconds", backoff: "linear" },
          timeout: "5 minutes",
        },
      },
    );

    Refer to rollback options to learn more.

  1. WAF Release - 2026-06-23

    WAF

    This week's release introduces new managed protection to address a critical pre-authentication OS command injection vulnerability in Ivanti Sentry (CVE-2026-10520).

    Key Findings

    • CVE-2026-10520: An OS command injection vulnerability in Ivanti Sentry allows remote, unauthenticated attackers to execute arbitrary system commands with root privileges. The flaw stems from improper sanitization of input strings parsed during internal configuration handling.
    RulesetRule IDLegacy Rule IDDescriptionPrevious ActionNew ActionComments
    Cloudflare Managed Ruleset N/AIvanti Sentry - Command Injection - CVE:CVE-2026-10520LogBlock

    This is a new detection.

  1. WAF Release - Scheduled changes for 2026-06-29

    WAF
    Announcement DateRelease DateRelease BehaviorLegacy Rule IDRule IDDescriptionComments
    2026-06-232026-06-29LogN/A Fortinet FortiSandbox - Path Traversal - CVE:CVE-2026-39813

    This is a new detection.

  1. R2 SQL now supports window functions, DISTINCT, and set operations

    R2 SQL

    R2 SQL now supports window functions, SELECT DISTINCT, set operations, and additional aggregates, making it easier to write analytical queries without preprocessing your data elsewhere.

    R2 SQL is Cloudflare's serverless, distributed SQL engine for querying Apache Iceberg tables stored in R2 Data Catalog.

    New capabilities

    • Window functionsROW_NUMBER, RANK, DENSE_RANK, PERCENT_RANK, CUME_DIST, NTILE, LAG, LEAD, FIRST_VALUE, LAST_VALUE, NTH_VALUE, and aggregates with an OVER (...) clause, including PARTITION BY and explicit frames
    • QUALIFY — filter rows based on a window function result
    • DISTINCTSELECT DISTINCT, DISTINCT ON (...), and the DISTINCT modifier on aggregates such as COUNT(DISTINCT ...)
    • Set operationsUNION, UNION ALL, INTERSECT, and EXCEPT
    • Grouping extensionsGROUPING SETS, ROLLUP, and CUBE
    • Exact aggregatesMEDIAN, PERCENTILE_CONT, ARRAY_AGG, and STRING_AGG

    Examples

    Rank rows with a window function

    SELECT customer_id, region,
           ROW_NUMBER() OVER (PARTITION BY region ORDER BY total_amount DESC) AS rank_in_region
    FROM my_namespace.sales_data

    Filter with QUALIFY

    SELECT customer_id, region, total_amount
    FROM my_namespace.sales_data
    QUALIFY ROW_NUMBER() OVER (PARTITION BY region ORDER BY total_amount DESC) <= 3

    Combine tables with a set operation

    SELECT customer_id FROM my_namespace.sales_data
    EXCEPT
    SELECT customer_id FROM my_namespace.archived_sales

    The named WINDOW clause is not supported — inline the OVER (...) specification at each call site. For the full syntax reference, refer to the SQL reference. For supported features and performance guidance, refer to Limitations and best practices.

  1. Manage all your routes from one page in the dashboard

    Cloudflare Mesh Cloudflare Tunnel Cloudflare WAN Cloudflare One

    The Routes page in the Cloudflare dashboard now shows the routes across all of your connectors — Cloudflare Mesh and Cloudflare Tunnel routes alongside Cloudflare WAN and Magic Transit static routes — in a single table, instead of a separate routes view per product.

    The unified Routes page in the Cloudflare dashboard, showing routes across connectors in a single table

    From the unified Routes page you can:

    • Visualize your network with an interactive map that shows how your destinations flow through to your connectors — including equal-cost multi-path (ECMP) routes where the same prefix is served by several connectors. Select a node to filter the table down to the routes behind it.
    • See every route in one table, with its destination, type, connector, priority, and source, and filter or sort to find what you need.
    • Create, edit, and delete routes of any supported type without leaving the page. When adding a Cloudflare WAN or Magic Transit static route, you now pick the next hop by connector name instead of typing its IP.
    • Manage virtual networks from a dedicated tab.
    • Test a route to see which connector and next hop a destination resolves to before you commit a change.

    To find it, go to Networking > Routes in the dashboard sidebar.

    Go to Routes

    Your existing routes, APIs, and configurations are unchanged — this is a dashboard experience that brings them together in one place. Learn how to add routes and manage virtual networks.

  1. New Asia-Pacific location hints: apac-ne and apac-se

    Durable Objects Workers

    Durable Objects now supports two new location hints for Asia-Pacific: apac-ne (Northeast Asia-Pacific) and apac-se (Southeast Asia-Pacific). Use apac-ne or apac-se when you want finer-grained placement within Asia-Pacific rather than the broader apac hint.

    Use the new hints the same way as any other locationHint:

    JavaScript
    // Northeast Asia-Pacific (Japan, Korea, etc.)
    const stubNE = env.MY_DURABLE_OBJECT.get(id, { locationHint: "apac-ne" });
    

    // Southeast Asia-Pacific (Singapore, Indonesia, etc.)
    const stubSE = env.MY_DURABLE_OBJECT.get(id, { locationHint: "apac-se" });

    If your users are spread across all of Asia-Pacific, the existing apac hint remains the right choice. Only reach for apac-ne or apac-se when your traffic is clearly concentrated in one sub-region and you want to minimize round-trip time to that audience. The default behavior and what we generally recommended is not adding a location hint unless absolutely needed, this will create the Durable Object as close to the initializing request as possible to reduce latency.

    As with all location hints, these are best-effort suggestions. Cloudflare will place the Durable Object in a nearby data center, not necessarily the exact hinted location.

    For the full list of supported hints, refer to Data location — Provide a location hint.

  1. Outbound connections keep Durable Objects alive

    Durable Objects

    Durable Objects now remain alive for the duration of active outbound connections created via connect() or an outbound WebSocket. Previously, a Durable Object would be evicted after 70-140 seconds of no incoming traffic, even if the object had an open outbound connection, which is a common pattern when streaming responses from a large language model (LLM) over TCP or an outbound WebSocket.

    With this change, each active outbound connection prevents eviction. Once all outbound connections close, the standard 70-140 second inactivity window applies before the Durable Object is evicted.

    Before: streaming connections were cut off by eviction

    Timeline showing a Durable Object evicted 70-140 seconds after the last incoming request, cutting off an in-flight LLM stream while the outbound connection is still open

    After: active outbound connections keep the Durable Object alive

    Timeline showing the same outbound stream completing because the active connection keeps the Durable Object alive, with the inactivity window starting only after the connection closes

    If you are building agents on Cloudflare, this is especially relevant. An agent that streams tokens from an LLM while calling models, or that performs long-running tasks over an outbound connection, now stays alive for the duration of that connection instead of being evicted mid-stream.

    Limits:

    • Each outbound connection keeps the Durable Object alive for a maximum of 15 minutes. After 15 minutes, the connection stops preventing eviction (the connection itself continues operating), and the standard eviction rules resume.
    • The Durable Object's existing per-account instance limits still apply.

    For more information, refer to Lifecycle of a Durable Object.

  1. Temporary accounts for AI agent deployments

    Workers

    AI agents can now deploy Workers to Cloudflare without first requiring a user to sign up, open a browser-based OAuth flow, click through the dashboard, or create an API token. When an agent tries to deploy without Cloudflare credentials, Wrangler can tell it to rerun with --temporary, then deploy the Worker to a temporary preview account.

    To try this with your agent, update to Wrangler 4.102.0 or later, make sure you are logged out (wrangler logout), and then ask your agent to build something and deploy it to Cloudflare. The agent should follow Wrangler's output and deploy using the --temporary flag.

    Diagram showing an AI agent deploying, verifying, and redeploying a Worker to a temporary account, then claiming it after authentication and moving it to a permanent account
    Terminal window
    wrangler deploy --temporary

    The temporary deployment stays live for 60 minutes. During that window, the agent can verify the Worker, redeploy changes, and return both the live Worker URL and claim URL. Opening the claim URL lets you sign in to or create a Cloudflare account and make the temporary account permanent.

    Temporary preview accounts currently support a limited set of products, including Workers, Workers Static Assets, Workers KV, D1, Durable Objects, Hyperdrive, Queues, and SSL/TLS certificates. For supported products, limits, and claim behavior, refer to Claim deployments (temporary accounts).

    For more context, refer to Temporary Cloudflare Accounts for Agents.

  1. Cloudflare identity provider is now the default for new accounts

    Cloudflare One Access

    When you create a new Zero Trust organization, Cloudflare now adds the Cloudflare identity provider as your default login method. Previously, new organizations started with one-time PIN (OTP).

    With the Cloudflare identity provider, your users authenticate using their existing Cloudflare account credentials, and authentication is restricted to members of your account. You can still add OTP or connect any third-party identity provider whenever you need to.

    This change only applies to newly created accounts. Existing organizations keep the login methods they already have configured. If you would like to use the Cloudflare Identity Provider in an existing account, you must enable it.

  1. exec() is now available for Containers

    Containers

    exec() is now available for Containers. Use this.ctx.container.exec() to start processes inside a running Container, stream standard input and output, inspect exit codes, and signal each process.

    Call exec() from a class extending Container, or from another Durable Object through this.ctx.container. The associated Container must already be running.

    This example starts the Container when needed, then reads its Node.js version:

    src/index.js
    import { Container } from "@cloudflare/containers";
    

    export class MyContainer extends Container {
      async readVersion() {
        if (!this.ctx.container.running) {
          await this.start();
        }
    

        const process = await this.ctx.container.exec(["node", "--version"]);
        const output = await process.output();
        const decoder = new TextDecoder();
    

        return {
          exitCode: output.exitCode,
          stdout: decoder.decode(output.stdout),
          stderr: decoder.decode(output.stderr),
        };
      }
    }

    The command array starts an executable directly, without an implicit shell. Invoke a shell explicitly for pipes, redirects, or variable expansion.

    One RPC method can coordinate multiple exec() calls in one caller-to-Durable Object round trip. It can also pass byte-oriented ReadableStream input or return streamed output with flow control.

    For options and streaming examples, refer to Execute commands.

  1. Create PlanetScale Postgres and MySQL databases, billed to your Cloudflare account

    Hyperdrive Workers

    You can create PlanetScale Postgres and MySQL databases from Cloudflare and bill PlanetScale database usage through your Cloudflare account as a pay-as-you-go customer. Cloudflare contract customers will be able to add PlanetScale usage to their contract in July so reach out to your Cloudflare account team if interested.

    Create a PlanetScale database from the Cloudflare dashboard to check out globally distributed Workers optimized for regional data access.

    Go to Create a PlanetScale database Request flow from a user to Workers, Hyperdrive caches, connection pools, and PlanetScale.

    PlanetScale databases created from Cloudflare work with Workers through Hyperdrive. Hyperdrive manages database connection pools and query caching, so you can use PlanetScale as a centralized relational database for Workers applications without changing your database drivers, object-relational mapping (ORM) libraries, or SQL tooling.

    PlanetScale usage appears on your Cloudflare invoice each billing period as a dollar total at PlanetScale's standard pricing. You can introspect per-database billing usage via PlanetScale's dashboard.

    When you create a PlanetScale database from the Cloudflare dashboard, you receive the same PlanetScale developer experience, including development branches, query insights, and Model Context Protocol (MCP) server support for agents.

    To get started, refer to PlanetScale Postgres and MySQL with Hyperdrive.

  1. Updated Workers AI popularity metric in Cloudflare Radar

    Radar

    Radar has changed how it measures Workers AI model and task popularity.

    Previously, popularity was based on the number of unique accounts running inferences against each model or task. It is now based on the number of inferences, giving a more representative view of actual usage volume. This change will affect all new measurements as well as historical data. As a result, the model and task distributions shown on Radar may differ from what you saw previously, and historical trends may shift accordingly.

    The Workers AI model popularity chart shows the distribution of inferences across models.

    Screenshot of the Workers AI model popularity chart on the AI Insights page

    The Workers AI task popularity chart shows the distribution of inferences across tasks.

    Screenshot of the Workers AI task popularity chart on the AI Insights page

    The same data is available via the following API endpoints:

    Explore the data on the AI Insights page.

  1. Cloudflare Fonts error handling and security improvements

    Speed

    Cloudflare Fonts now forwards /cf-fonts requests to your origin server when it encounters invalid paths or unexpected runtime errors, instead of returning 4xx or 5xx responses directly. This update also adds additional input validation to enhance security.

  1. Manage Artifacts from the Cloudflare dashboard

    Artifacts

    You can now configure Artifacts namespaces, repos, and tokens directly from the Cloudflare dashboard.

    Artifacts is Git-compatible storage that lets you store repos on Cloudflare and interact with them using standard Git workflows.

    You can view and create namespaces, which are top-level containers for repos:

    Artifacts namespaces dashboard showing namespace search and create namespace controls

    You can view, create, fork, and search repos within a namespace:

    Artifacts repositories dashboard showing repo source, access, and created columns

    You can open a repo to view its files and copy its Git remote URL.

    Artifacts repository overview showing files, commits, token management, and quick actions

    You can also provision tokens directly from the dashboard to scope Git access to a single repo, with read tokens for clone, fetch, and pull workflows, or write tokens when a client needs to push changes.

    To get started, go to the Cloudflare dashboard and select Storage & databases > Artifacts.

    If you are enrolled in the Artifacts beta, you can use the dashboard to set up Artifacts. If you would like to join the beta, complete the request form.

  1. Post-quantum ML-DSA certificates for Authenticated Origin Pulls and Custom Origin Trust Store

    SSL/TLS

    Cloudflare now accepts ML-DSA (FIPS 204) post-quantum certificates on the connection between Cloudflare's edge and your origin server. Combined with our existing X25519MLKEM768 key agreement, this lets you establish end-to-end post-quantum authentication on the Cloudflare-to-origin connection.

    ML-DSA is supported in two origin-facing features:

    Refer to Post-quantum signatures for certificate generation and setup guidance, and to PQC in Cloudflare products for the current post-quantum deployment status across Cloudflare.

  1. Agents SDK improves browser automation, code execution, and recovery

    Agents Workers

    The latest release of the Agents SDK makes it easier to build agents that can safely interact with real systems and keep working through interruptions.

    Agents can now browse websites through Browser Run, write code against external tools through Code Mode, use client-provided tools when delegating to Think sub-agents, and recover more reliably from deploys, Durable Object evictions, and connection churn.

    Safer browser automation

    Agents can now use Browser Run through a single durable browser_execute tool. Instead of choosing from a fixed list of actions, the model writes code against the Chrome DevTools Protocol (CDP) and can inspect pages, capture screenshots, read rendered content, debug frontend behavior, and interact with live browser sessions.

    JavaScript
    const browserTools = createBrowserTools({
      ctx: this.ctx,
      browser: this.env.BROWSER,
      loader: this.env.LOADER,
      session: { mode: "dynamic" },
    });

    Browser sessions can be one-time, reused, or promoted from one-time to persistent during a run. This is useful when an agent needs a human to log in, complete MFA, or approve a sensitive action. The run can pause, keep the same tabs and cookies, and resume after approval.

    The browser tools also add Live View URLs, optional session recording, and quick actions such as browser_markdown, browser_extract, browser_links, and browser_scrape for one-shot browsing tasks.

    Resumable code execution with approvals

    Code Mode now uses createCodemodeRuntime, connectors, and a durable execution log. This lets you give a model one codemode tool instead of a large prompt full of tool definitions. The model can discover the capabilities it needs, write code against typed globals, and reuse saved snippets.

    JavaScript
    const runtime = createCodemodeRuntime({
      ctx: this.ctx,
      executor: new DynamicWorkerExecutor({ loader: this.env.LOADER }),
      connectors: [new GithubConnector(this.ctx, this.env, connection)],
    });
    

    const result = streamText({
      model,
      messages,
      tools: { codemode: runtime.tool() },
    });

    When the code reaches an approval-gated action, the runtime pauses execution and returns a pending approval. After approval, completed calls replay from the durable log, the approved action runs, and the same code continues. This makes it practical to build agents that create issues, update external systems, or perform other side effects without custom pause-and-resume logic for every tool.

    Better Think delegation

    Think sub-agents can now use client-defined tools over the RPC chat() path. A parent agent can pass tool schemas with clientTools and resolve tool calls through onClientToolCall. This lets delegated agents use caller-provided capabilities without requiring a browser WebSocket.

    JavaScript
    await child.chat(message, callback, {
      signal,
      clientTools: [
        {
          name: "get_user_timezone",
          description: "Get the caller's timezone",
          parameters: { type: "object" },
        },
      ],
      onClientToolCall: async ({ toolName, input }) => {
        return runClientTool(toolName, input);
      },
    });

    Think Workflows also improve step.prompt(). A prompt step now runs a full agentic turn before returning structured output, so the agent can call tools before producing the typed result. This makes Workflow steps more useful for durable triage, research, and approval flows.

    The unified Think execute tool can also include cdp.* browser capabilities alongside state.* and tools.* when Browser Run is bound.

    Voice output device selection

    Voice clients can route assistant audio to a specific output device. Use outputDeviceId with useVoiceAgent, or call client.setOutputDevice() from the framework-agnostic client.

    JavaScript
    const voice = useVoiceAgent({
      agent: "MyVoiceAgent",
      outputDeviceId: selectedSpeakerId,
    });

    Browsers without speaker-selection support continue playing through the default output device and report a non-fatal outputDeviceError.

    Reliability fixes

    This release includes several fixes for production agents:

    • useAgent and AgentClient handle WebSocket replacement more reliably during reconnects and configuration changes.
    • Chat stream replay is more reliable after reconnects, deploys, and provider errors.
    • Fiber recovery continues across multi-pass scans and backs off when recovery hooks keep failing.
    • Agent teardown continues even when the request that started teardown is canceled.
    • Large session histories use byte-budgeted reads to reduce memory pressure during startup.

    Upgrade

    To update to the latest version:

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

    Refer to the Code Mode documentation, Browser tools documentation, Think tools documentation, and Voice documentation for more information.

  1. New optimization features in Images

    Cloudflare Images

    These updates introduce new features for optimizing and manipulating with Images:

    • New composite option: Control how overlays are blended with the base image.
    • Percentage widths: Set the dimensions of an overlay as a fraction of the dimensions of the base image.
    • New fit modes: Use aspect-crop to always preserve the target aspect ratio or scale-up to always enlarge images.
    • New upscale parameter: Apply AI upscaling to produce sharper, more detailed results when enlarging images.

  1. Introducing GLM-5.2 on Workers AI

    Workers Agents Workers AI

    We are excited to announce GLM-5.2 on Workers AI, Z.ai's flagship agentic coding model.

    @cf/zai-org/glm-5.2 is a text generation model built for agentic coding workflows. With function calling and reasoning support, it can handle long codebases, multi-step planning, and tool-augmented agents.

    Key features and use cases:

    • Agentic coding: Designed for autonomous coding tasks, long-horizon planning, and complex software engineering workflows
    • Large context window: GLM-5.2 supports up to a 1,048,576 token context window. Workers AI is launching the model with a 262,144 token context window and plans to increase this in the future
    • Function calling: Build agents that invoke tools and APIs across multiple conversation turns
    • Reasoning: Tackles complex problem-solving and step-by-step reasoning tasks

    Use GLM-5.2 through the Workers AI binding (env.AI.run()), the REST API at /run or /v1/chat/completions, or AI Gateway.

    Pricing is available on the model page or pricing page.