General: Forums subtopic: App & System Services > Networking DevForums tag: Network Extension Network Extension framework documentation Routing your VPN network traffic article Filtering traffic by URL sample code Filtering Network Traffic sample code TN3120 Expected use cases for Network Extension packet tunnel providers technote TN3134 Network Extension provider deployment technote TN3165 Packet Filter is not API technote Network Extension and VPN Glossary forums post Debugging a Network Extension Provider forums post Exporting a Developer ID Network Extension forums post Network Extension Framework Entitlements forums post Network Extension vs ad hoc techniques on macOS forums post Network Extension Provider Packaging forums post NWEndpoint History and Advice forums post Extra-ordinary Networking forums post Wi-Fi management: Understanding NEHotspotConfigurationErrorInternal forums post See also Networking Resources for general networking resources, including information about Wi-Fi. Share and Enjoy — Quinn “The Eskimo!” @ Developer Technical Support @ Apple let myEmail = "eskimo" + "1" + "@" + "apple.com"

I'm implementing a NEDNSProxyProvider on macOS 15.x and macOS 26.x. The flow works correctly up to the last step — returning the DNS response to the client via writeDatagrams. Environment: macOS 15.x, 26.x Xcode 26.x NEDNSProxyProvider with NEAppProxyUDPFlow What I'm doing: override func handleNewFlow(_ flow: NEAppProxyFlow) -> Bool { guard let udpFlow = flow as? NEAppProxyUDPFlow else { return false } udpFlow.readDatagrams { datagrams, endpoints, error in // 1. Read DNS request from client // 2. Forward to upstream DNS server via TCP // 3. Receive response from upstream // 4. Try to return response to client: udpFlow.writeDatagrams([responseData], sentBy: [endpoints.first!]) { error in // Always fails: "The datagram was too large" // responseData is 50-200 bytes — well within UDP limits } } return true } Investigation: I added logging to check the type of endpoints.first : // On macOS 15.0 and 26.3.1: // type(of: endpoints.first) → NWAddressEndpoint // Not NWHostEndpoint as expected On both macOS 15.4 and 26.3.1, readDatagrams returns [NWEndpoint] where each endpoint appears to be NWAddressEndpoint — a type that is not publicly documented. When I try to create NWHostEndpoint manually from hostname and port, and pass it to writeDatagrams, the error "The datagram was too large" still occurs in some cases. Questions: What is the correct endpoint type to pass to writeDatagrams on macOS 15.x, 26.x? Should we pass the exact same NWEndpoint objects returned by readDatagrams, or create new ones? NWEndpoint, NWHostEndpoint, and writeDatagrams are all deprecated in macOS 15. Is there a replacement API for NEAppProxyUDPFlow that works with nw_endpoint_t from the Network framework? Is the error "The datagram was too large" actually about the endpoint type rather than the data size? Any guidance would be appreciated. :-))

I have a macOS VPN app with a Network Extension (packet tunnel provider) distributed outside the App Store via Developer ID. Everything works perfectly when running from Xcode. After archiving and exporting for Developer ID distribution, the extension launches but immediately gets killed by nesessionmanager. The error: Signature check failed: code failed to satisfy specified code requirement(s) followed by: started with PID 0 status changed to disconnected, last stop reason Plugin failed What makes this interesting: the extension process does launch. AMFI approves it, taskgated-helper validates the provisioning profile and says allowing entitlement(s) due to provisioning profile, the sandbox is applied, PacketTunnelProvider is created — but then Apple's Security framework internally fails the designated requirement check and nesessionmanager kills the session. Key log sequence: taskgated-helper: Checking profile: Developer ID - MacOS WireGuardExtension taskgated-helper: allowing entitlement(s) for com.xx.xx.WireGuardNetworkExtension due to provisioning profile (isUPP: 1) WireGuardNetworkExtensionMac: AppSandbox request successful WireGuardNetworkExtensionMac: creating principle object: PacketTunnelProvider WireGuardNetworkExtensionMac: Signature check failed: code failed to satisfy specified code requirement(s) nesessionmanager: started with PID 0 error (null) nesessionmanager: status changed to disconnected, last stop reason Plugin failed Setup: macOS 15, Xcode 16 Developer ID Application certificate Manual code signing, Developer ID provisioning profiles with Network Extensions capability Extension in Contents/PlugIns/ (standard appex, not System Extension) Extension entitlement: packet-tunnel-provider-systemextension NSExtensionPointIdentifier: com.apple.networkextension.packet-tunnel codesign --verify --deep --strict PASSES on the exported app Hardened runtime enabled on all targets What I've verified: Both app and extension have matching TeamIdentifier Both are signed with the same Developer ID Application certificate The designated requirement correctly references the cert's OIDs The provisioning profiles are valid and taskgated-helper explicitly approves them No custom signature validation code exists in the extension — the "Signature check failed" comes from Apple's Security framework What I've tried (all produce the same error): Normal Xcode archive + export (Direct Distribution) Manual build + sign script (bypassing Xcode export entirely) Stripping all signatures and re-signing from scratch Different provisioning profiles (freshly generated) Comparison with official WireGuard app: I noticed the official WireGuard macOS app (which works with Developer ID) uses packet-tunnel-provider (without -systemextension suffix) in its entitlements. My app uses packet-tunnel-provider-systemextension. However, I cannot switch to the non-systemextension variant because the provisioning profiles from Apple Developer portal always include the -systemextension variants when "Network Extensions" capability is enabled, and AMFI rejects the mismatch. Questions: Is there a known issue with packet-tunnel-provider-systemextension entitlement + PlugIn-based Network Extension + Developer ID signing? Should the extension be using packet-tunnel-provider (without -systemextension) for Developer ID distribution? If so, how do I get a provisioning profile that allows it? The "Signature check failed" happens after taskgated-helper approves the profile — what additional code requirement check is the NE framework performing, and how can I satisfy it? Any guidance would be appreciated. I've exhausted all signing approaches I can think of.

I regularly see folks struggle to debug their Network Extension providers. For an app, and indeed various app extensions, debugging is as simple as choosing Product > Run in Xcode. That’s not the case with a Network Extension provider, so I thought I’d collect together some hints and tips to help you get started. If you have any comments or questions, create a new thread here on DevForums. Put it in the App & System Services > Networking and tag it with Network Extension. Share and Enjoy — Quinn “The Eskimo!” @ Developer Technical Support @ Apple let myEmail = "eskimo" + "1" + "@" + "apple.com" Debugging a Network Extension Provider Debugging a Network Extension provider presents some challenges; its not as simple as choosing Product > Run in Xcode. Rather, you have to run the extension first and then choose Debug > Attach to Process. Attaching is simple, it’s the running part that causes all the problems. When you first start out it can be a challenge to get your extension to run at all. Add a First Light Log Point The first step is to check whether the system is actually starting your extension. My advice is to add a first light log point, a log point on the first line of code that you control. The exact mechanics of this depend on your development, your deployment target, and your NE provider’s packaging. In all cases, however, I recommend that you log to the system log. The system log has a bunch of cool features. If you’re curious, see Your Friend the System Log. The key advantage is that your log entries are mixed in with system log entries, which makes it easier to see what else is going on when your extension loads, or fails to load. IMPORTANT Use a unique subsystem and category for your log entries. This makes it easier to find them in the system log. For more information about Network Extension packaging options, see TN3134 Network Extension provider deployment. Logging in Swift If you’re using Swift, the best logging API depends on your deployment target. On modern systems — macOS 11 and later, iOS 14 and later, and aligned OS releases — it’s best to use the Logger API, which is shiny and new and super Swift friendly. For example: let log = Logger(subsystem: "com.example.galactic-mega-builds", category: "earth") let client = "The Mice" let answer = 42 log.log(level: .debug, "run complete, client: \(client), answer: \(answer, privacy: .private)") If you support older systems, use the older, more C-like API: let log = OSLog(subsystem: "com.example.galactic-mega-builds", category: "earth") let client = "The Mice" let answer = 42 os_log(.debug, log: log, "run complete, client: %@, answer: %{private}d", client as NSString, answer) Logging in C If you prefer a C-based language, life is simpler because you only have one choice: #import <os/log.h> os_log_t log = os_log_create("com.example.galactic-mega-builds", "earth"); const char * client = "The Mice"; int answer = 42; os_log_debug(log, "run complete, client: %s, answer: %{private}d", client, answer); Add a First Light Log Point to Your App Extension If your Network Extension provider is packaged as an app extension, the best place for your first light log point is an override of the provider’s initialiser. There are a variety of ways you could structure this but here’s one possibility: import NetworkExtension import os.log class PacketTunnelProvider: NEPacketTunnelProvider { static let log = Logger(subsystem: "com.example.myvpnapp", category: "packet-tunnel") override init() { self.log = Self.log log.log(level: .debug, "first light") super.init() } let log: Logger … rest of your code here … } This uses a Swift static property to ensure that the log is constructed in a race-free manner, something that’s handy for all sorts of reasons. It’s possible for your code to run before this initialiser — for example, if you have a C++ static constructor — but that’s something that’s best to avoid. Add a First Light Log Point to Your System Extension If your Network Extension provider is packaged as a system extension, add your first light log point to main.swift. Here’s one way you might structure that: import NetworkExtension func main() -> Never { autoreleasepool { let log = PacketTunnelProvider.log log.log(level: .debug, "first light") NEProvider.startSystemExtensionMode() } dispatchMain() } main() See how the main function gets the log object from the static property on PacketTunnelProvider. I told you that’d come in handy (-: Again, it’s possible for your code to run before this but, again, that’s something that’s best to avoid. App Extension Hints Both iOS and macOS allow you to package your Network Extension provider as an app extension. On iOS this is super reliable. I’ve never seen any weirdness there. That’s not true on macOS. macOS lets the user put apps anywhere; they don’t have to be placed in the Applications directory. macOS maintains a database, the Launch Services database, of all the apps it knows about and their capabilities. The app extension infrastructure uses that database to find and load app extensions. It’s not uncommon for this database to get confused, which prevents Network Extension from loading your provider’s app extension. This is particularly common on developer machines, where you are building and rebuilding your app over and over again. The best way to avoid problems is to have a single copy of your app extension’s container app on the system. So, while you’re developing your app extension, delete any other copies of your app that might be lying around. If you run into problems you may be able to fix them using: lsregister, to interrogate and manipulate the Launch Services database pluginkit, to interrogate and manipulate the app extension state [1] IMPORTANT Both of these tools are for debugging only; they are not considered API. Also, lsregister is not on the default path; find it at /System/Library/Frameworks/CoreServices.framework/Frameworks/LaunchServices.framework/Versions/A/Support/lsregister. For more details about pluginkit, see the pluginkit man page. When debugging a Network Extension provider, add buttons to make it easy to save and remove your provider’s configuration. For example, if you’re working on a packet tunnel provider you might add: A Save Config button that calls the saveToPreferences(completionHandler:) method to save the tunnel configuration you want to test with A Remove Config button that calls the removeFromPreferences(completionHandler:) method to remove your tunnel configuration These come in handy when you want to start again from scratch. Just click Remove Config and then Save Config and you’ve wiped the slate clean. You don’t have to leave these buttons in your final product, but it’s good to have them during bring up. [1] This tool is named after the PluginKit framework, a private framework used to load this type of app extension. It’s distinct from the ExtensionKit framework which is a new, public API for managing extensions. System Extension Hints macOS allows you to package your Network Extension provider as a system extension. For this to work the container app must be in the Applications directory [1]. Copying it across each time you rebuild your app is a chore. To avoid that, add a Build post-action script: Select your app’s scheme and choose Product > Scheme > Edit Scheme. On the left, select Build. Click the chevron to disclose all the options. Select Post-actions. In the main area, click the add (+) button and select New Run Script Action. In the “Provide build settings from” popup, select your app target. In the script field, enter this script: ditto "${BUILT_PRODUCTS_DIR}/${FULL_PRODUCT_NAME}" "/Applications/${FULL_PRODUCT_NAME}" Now, each time you build your app, this script will copy it to the Applications directory. Build your app now, both to confirm that this works and to enable the next step. The next issue you’ll find is that choosing Product > Run runs the app from the build products directory rather than the Applications directory. To fix that: Edit your app’s scheme again. On the left, select Run. In the main area, select the Info tab. From the Executable popup, choose Other. Select the copy of your app in the Applications directory. Now, when you choose Product > Run, Xcode will run that copy rather than the one in the build products directory. Neat-o! For your system extension to run your container app must activate it. As with the Save Config and Remote Config buttons described earlier, it’s good to add easy-to-access buttons to activate and deactivate your system extension. With an app extension the system automatically terminates your extension process when you rebuild it. This is not the case with a system extension; you’ll have to deactivate and then reactivate it each time. Each activation must be approved in System Settings > Privacy & Security. To make that easier, leave System Settings running all the time. This debug cycle leaves deactivated but not removed system extensions installed on your system. These go away when you restart, so do that from time to time. Once a day is just fine. macOS includes a tool, systemextensionctl, to interrogate and manipulate system extension state. The workflow described above does not require that you use it, but it’s good to keep in mind. Its man page is largely content free so run the tool with no arguments to get help. [1] Unless you disable System Integrity Protection, but who wants to do that? You Can Attach with the Debugger Once your extension is running, attach with the debugger using one of two commands: To attach to an app extension, choose Debug > Attach to Process > YourAppExName. To attach to a system extension, choose Debug > Attach to Process by PID or Name. Make sure to select Debug Process As root. System extensions run as root so the attach will fail if you select Debug Process As Me. But Should You? Debugging networking code with a debugger is less than ideal because it’s common for in-progress network requests to time out while you’re stopped in the debugger. Debugging Network Extension providers this way is especially tricky because of the extra steps you have to take to get your provider running. So, while you can attach with the debugger, and that’s a great option in some cases, it’s often better not to do that. Rather, consider the following approach: Write the core logic of your provider so that you can unit test each subsystem outside of the provider. This may require some scaffolding but the time you take to set that up will pay off once you encounter your first gnarly problem. Add good logging to your provider to help debug problems that show up during integration testing. I recommend that you treat your logging as a feature of your product. Carefully consider where to add log points and at what level to log. Check this logging code into your source code repository and ship it — or at least the bulk of it — as part of your final product. This logging will be super helpful when it comes to debugging problems that only show up in the field. Remember that, when using the system log, log points that are present but don’t actually log anything are very cheap. In most cases it’s fine to leave these in your final product. Now go back and read Your Friend the System Log because it’s full of useful hints and tips on how to use the system log to debug the really hard problems. General Hints and Tips Install the Network Diagnostics and VPN (Network Extension) profiles [1] on your test device. These enable more logging and, most critically, the recording of private data. For more info about that last point, see… you guessed it… Your Friend the System Log. Get these profiles from our Bug Reporting > Profiles and Logs page. When you’re bringing up a Network Extension provider, do your initial testing with a tiny test app. I regularly see folks start out by running Safari and that’s less than ideal. Safari is a huge app with lots of complexity, so if things go wrong it’s hard to tell where to look. I usually create a small test app to use during bring up. The exact function of this test app varies by provider type. For example: If I’m building a packet tunnel provider, I might have a test function that makes an outgoing TCP connection to an IP address. Once I get that working I add another function that makes an outgoing TCP connection to a DNS name. Then I start testing UDP. And so on. Similarly for a content filter, but then it makes sense to add a test that runs a request using URLSession and another one to bring up a WKWebView. If I’m building a DNS proxy provider, my test app might use CFHost to run a simple name-to-address query. Also, consider doing your bring up on the Mac even if your final target is iOS. macOS has a bunch of handy tools for debugging networking issues, including: dig for DNS queries nc for TCP and UDP connections netstat to display the state of the networking stack tcpdump for recording a packet trace [2] Read their respective man pages for all the details. On the other hand, the build / run / debug cycle is simpler on iOS than it is on macOS, especially when you’re building a system extension on macOS. Even if your ultimate goal is to build a macOS-only system extension, if your provider type supports app extension packaging then you should consider whether it makes sense to adopt that packaging just for to speed up your development. If you do decide to try this, be aware that a packaging change can affect your code. See Network Extension Provider Packaging for more on that. [1] The latter is not a profile on macOS, but just a set of instructions. [2] You can use an RVI packet trace on iOS but it’s an extra setup step. Revision History 2026-04-01 Added a suggestion about provider packaging to the General Hints and Tips section. 2023-12-15 Fixed a particularly egregious typo (and spelling error in a section title, no less!). 2023-04-02 Fixed one of the steps in Sytem Extension Hints.

I’m encountering a persistent issue with my Network Extension (specifically NEFilterDataProvider) and would really appreciate any insights. The extension generally works as expected, but after some time — especially after sleep/wake cycles or network changes — a global network outage occurs. During this state, no network traffic works: pings fail, browsers can’t load pages, etc. As soon as I stop the extension (by disabling it in System Preferences), the network immediately recovers. If I re-enable it, the outage returns instantly. I’ve also noticed that once this happens, the extension stops receiving callbacks like handleNewFlow(), and reinstalling the app or restarting the extension doesn’t help. The only thing that resolves the issue is rebooting the system. After reboot, the extension works fine again — until the problem reoccurs later. I asked AI about this behavior, and it suggested the possibility that the kernel might have marked the extension as untrusted, causing the system to intentionally block all network traffic as a safety mechanism. Has anyone experienced similar behavior with NEFilterDataProvider? Could there be a way to detect or prevent this state without rebooting? Is there any logging or diagnostic data I should collect when it happens again? Any guidance or pointers would be greatly appreciated. Thanks in advance!

Hello team, I have implemented sample project for URL Filtering as well as setup PIR server at backend but currently I am facing a major issue, If PIR server is re started then the app shows error code 9 every time until. and unless I disconnect and connect it back to internet

I am facing an intermittent problem where iPhones are failing to pair/connect with Xcode under Xcode -> Windows -> Devices and Simulators. This happens when more than one web content filters are present, for instance, I have my web content filter (FilterSockets true, FilterGrade Firewall) and there is also Sentinel One web content filter with same configuration. Note: We are not blocking any flow from remoted / remotepairingd / core device service / MDRemoteServiceSupport etc processes. But they do get paused and resumed at times for our internal traffic verification logic. So, we are trying to understand what impact our content filter may be having on this iPhone Pairing?? If we stop either one of the filters the problem goes away. I have tracked the network traffic to the phone, and it seems to be using a ethernet interface (en5/en10) over the USB-C cable. I can see endpoints like this: localEndpoint = fe80::7:afff:fea1:edb8%en5.54442 remoteEndpoint = fe80::7:afff:fea1:ed47%en5.49813 I also see remoted process has the below ports open : sudo lsof -nP -iTCP -iUDP | grep remoted remoted 376 root 4u IPv6 0xce4a89bddba37bce 0t0 TCP [fe80:15::7:afff:fea1:edb8]:57395->[fe80:15::7:afff:fea1:ed47]:58783 (ESTABLISHED) remoted 376 root 6u IPv6 0xf20811f6922613c7 0t0 TCP [fe80:15::7:afff:fea1:edb8]:57396 (LISTEN) remoted 376 root 7u IPv6 0x2c393a52251fcc56 0t0 TCP [fe80:15::7:afff:fea1:edb8]:57397 (LISTEN) remoted 376 root 8u IPv6 0xcb9c311b0ec1d6a0 0t0 TCP [fd6e:8a96:a57d::2]:57398 (LISTEN) remoted 376 root 9u IPv6 0xc582859e0623fe4e 0t0 TCP [fd6e:8a96:a57d::2]:57399 (LISTEN) remoted 376 root 10u IPv6 0x2f7d9cee24a44c5b 0t0 TCP [fd6e:8a96:a57d::2]:57400->[fd6e:8a96:a57d::1]:60448 (ESTABLISHED) remoted 376 root 11u IPv6 0xbdb7003643659de 0t0 TCP [fd07:2e7e:2a83::2]:57419 (LISTEN) remoted 376 root 12u IPv6 0x569a5b649ff8f957 0t0 TCP [fd07:2e7e:2a83::2]:57420 (LISTEN) remoted 376 root 13u IPv6 0xa034657978a7da29 0t0 TCP [fd07:2e7e:2a83::2]:57421->[fd07:2e7e:2a83::1]:61729 (ESTABLISHED) But due to the dynamic nature of port and IPs used we are not able to decide on an effective early bypass NEFilterRule. We don't want to use a very broad bypass criteria like all link local IPs etc. Any help will be greatly appreciated.

Hello, How does macOS handle coexistence between multiple Transparent Proxy providers from different vendors if their network rules overlap and one provider modifies the traffic? Thank you in advance!

Hello, Is it possible for a Network Extension (running in its sandbox) to act as a client for an XPC service hosted by a Launch Daemon (e.g., to offload data processing)? Are there any specific sandbox restrictions or entitlement requirements for this type of XPC communication? Thank you in advance!

I've been able to run this sample project with the PIRServer. But the urls are still not blocked. https://developer.apple.com/documentation/networkextension/filtering-traffic-by-url https://github.com/apple/pir-service-example I got this on the log Received filter status change: <FilterStatus: 'running'>

Hi, We are trying to integrate Metric Kit into our MacOS Application. Our application is a background process. We are interested in getting CPU and Memory metrics for our process. MXMetricPayload is the one we are looking at. We tried to integrate metric Kit and left the background app for 24 hours, we did not get any callback. So, does metric kit work for background app in MacOS? Also does it for Network Extension?

This discussion is for iOS/iPadOS. I've written an NEAppProxyProvider network extension. I'd like to test it. I thought that using the "NETestAppMapping" dictionary was a way to get there, but when I try to instantiate an NEAppProxyProviderManager to try to install stuff, the console tells me "must be MDM managed" and I get nowhere. So can someone tell me, can I at least test the idea without needing to first get MDM going? I'd like to know if how I'm approaching the core problem even makes sense. My custom application needs to stream video, via the SRT protocol, to some place like youtube or castr. The problem is that in the environment we are in (big convention centers), our devices are on a LAN, but the connection from the LAN out to the rest of the world just sucks. Surprisingly, cellular has better performance. So I am trying to do the perverse thing of forcing traffix that is NOT local to go out over cellular. And traffic that is completely local (i.e. talking to a purely local server/other devices on the LAN) happens over ethernet. [To simplify things, wifi is not connected.] Is an app proxy the right tool for this? Is there any other tool? Unfortunately, I cannot rewrite the code to force everything through Apple's Network framework, which is the one place I know we can say "use cellular." [E.g. URLSession() has absolutely no way of forcing cellular, and even so, the low level streaming library I use is written with raw sockets, and its not feasible for me to rewrite it.] Any other suggestions of how to accomplish this "send non-local traffic to cellular, all local traffic out over ethernet" gratefully welcomed!

Hi there, We have been trying to set up URL filtering for our app but have run into a wall with generating the bloom filter. Firstly, some context about our set up: OHTTP handlers Uses pre-warmed lambdas to expose the gateway and the configs endpoints using the javascript libary referenced here - https://developers.cloudflare.com/privacy-gateway/get-started/#resources Status = untested We have not yet got access to Apples relay servers PIR service We run the PIR service through AWS ECS behind an ALB The container clones the following repo https://github.com/apple/swift-homomorphic-encryption, outside of config changes, we do not have any custom functionality Status = working From the logs, everything seems to be working here because it is responding to queries when they are sent, and never blocking anything it shouldn’t Bloom filter generation We generate a bloom filter from the following url list: https://example.com http://example.com example.com Then we put the result into the url filtering example application from here - https://developer.apple.com/documentation/networkextension/filtering-traffic-by-url The info generated from the above URLs is: { "bits": 44, "hashes": 11, "seed": 2538058380, "content": "m+yLyZ4O" } Status = broken We think this is broken because we are getting requests to our PIR server for every single website we visit We would have expected to only receive requests to the PIR server when going to example.com because it’s in our block list It’s possible that behind the scenes Apple runs sporadically makes requests regardless of the bloom filter result, but that isn’t what we’d expect We are generating our bloom filter in the following way: We double hash the URL using fnv1a for the first, and murmurhash3 for the second hashTwice(value: any, seed?: any): any { return { first: Number(fnv1a(value, { size: 32 })), second: murmurhash3(value, seed), }; } We calculate the index positions from the following function/formula , as seen in https://github.com/ameshkov/swift-bloom/blob/master/Sources/BloomFilter/BloomFilter.swift#L96 doubleHashing(n: number, hashA: number, hashB: number, size: number): number { return Math.abs((hashA + n * hashB) % size); } Questions: What hashing algorithms are used and can you link an implementation that you know is compatible with Apple’s? How are the index positions calculated from the iteration number, the size, and the hash results? There was mention of a tool for generating a bloom filter that could be used for Apple’s URL filtering implementation, when can we expect the release of this tool?

Hello, I am developing a URL traffic filtering system. I’ve set up a PIR server following this guide: https://developer.apple.com/documentation/networkextension/setting-up-a-pir-server-for-url-filtering According to this WWDC25 video, it appears that I need to use an OHTTP Gateway: https://developer.apple.com/videos/play/wwdc2025/234/ So, I developed an OHTTP Gateway and verified it using a test client. Following that, I built the app and installed it on a test iPhone based on this sample: https://developer.apple.com/documentation/networkextension/filtering-traffic-by-url However, I cannot find any settings related to the OHTTP URL within this sample. How should I proceed with the OHTTP configuration in this case? Thank you.

Hi, I’m looking for clarification on TN3134: Network Extension provider deployment, specifically iOS deployment requirements for: packet tunnel provider DNS proxy provider From the documentation: Packet Tunnel Provider App extension (min iOS 9.0): per-app mode requires a managed device DNS Proxy Provider App extension (min iOS 11.0): supervised devices only App extension (min iOS 11.0): per-app mode requires managed devices Issue I implemented a DNS proxy using NEDNSProxyManager. Works as expected in debug builds on a local device Fails to configure when distributed via TestFlight Console Output (TestFlight build) error 10:05:39.872258-0500 nehelper The production version of *** is not allowed to create DNS proxy configurations. Use MDM to create DNS Proxy configurations for the production version of ***. Question Is it possible to distribute a DNS proxy provider for use on non-MDM / non-supervised devices? If not: Is the limitation strictly enforced at distribution/runtime? Is a packet tunnel provider the only viable alternative for App Store distribution? There is a lot of different VPN apps on the App Store that appear to work out of the box without MDM or supervision, which suggests they are using a different deployment model. Thank you for any clarification or guidance!

Hi, i searched some information about how widgetKit updates widgets using "reloadAllTimelines/reloadAllControls" and i know about daily limit for apps to update their widgets. I only care about how to notify user instantly about vpn status change even if app is terminated and user launch vpn connection from ControlCenter(system widget) or SysSettings, is there a way to update my app's contolCenter widgets from Tunnel if widget and tunnel extensions already have same appGroup defaults?

I am seeing an issue with NETransparentProxyProvider where the extension successfully transitions from sleep to wake, but stops receiving handleNewFlow(_:) calls. Only below two methods gets called, We don't apply rules in these methods: override func wake() override func sleep(completionHandler: @escaping () -> Void) This breaking complete proxy workflow as it stops intercepting traffics. We are not observing this issues always. FYI: com.apple.developer.endpoint-security.client is not present in .entitlement file. I am not sure adding this will help. Any possibilities nesessionmanager might fail to re-bind the traffic rules for this extensions? Any thing we can do to avoid this issues?

The M5 Pro does not connect to the Wi-Fi AP using RADIUS when NetworkExtension Activiate. The M1 and M2 Pro worked, but only the M5 Pro MacBook Pro did not work. If you deactivate NetworkExtension, it connects to the AP, and afterwards, it works even if you activate NetworkExtension.

I'm developing a macOS security tool using NEFilterDataProvider as a system extension. On macOS 26 beta (25E241), sysextd consistently rejects my extension with: sysextd: no policy, cannot allow apps outside /Applications Configuration: App installed in /Applications/ Signed with Developer ID Application (693DSH8GN5) Entitlement: com.apple.developer.networking.networkextension = content-filter-provider com.apple.developer.system-extension.install = true Developer Mode enabled on test machine Comparison with Little Snitch: Little Snitch runs correctly on the same machine. Key differences I found: Little Snitch uses content-filter-provider-systemextension instead of content-filter-provider Little Snitch has com.apple.security.app-sandbox = false Both signed with Developer ID Application When I switch to content-filter-provider-systemextension, Xcode rejects every provisioning profile because none match that entitlement value, and the Developer Portal doesn't expose fine-grained control over the Network Extensions array values. Questions Is content-filter-provider-systemextension the correct entitlement for system extensions on macOS 26? How should the provisioning profile be configured to support it? Is there a known sysextd issue on macOS 26 beta causing this regardless of configuration? Is there - somewhere! - a guide on how to build such an extension? Thanks in advance for your help.

In my Notification Service Extension I'm doing two things in parallel inside didReceive(_:withContentHandler:): Downloading and attaching a rich media image (the standard content modification work) Firing a separate analytics POST request (fire-and-forget I don't wait for its response) Once the image is ready, I call contentHandler(modifiedContent). The notification renders correctly. What I've observed (via Proxyman) is that the analytics POST request completes successfully after contentHandler has already been called. My question: Why does this network request complete? Is it because: (a) The extension process is guaranteed to stay alive for the full 30-second budget, even after contentHandler is called so my URLSession task continues executing during the remaining time? (b) The extension process loses CPU time after contentHandler but remains in memory for process reuse and the request completes at the socket/OS level without my completion handler ever firing? (c) Something else entirely? I'd like to understand the documented behaviour so I can decide whether it's safe to rely on fire-and-forget network requests completing after contentHandler, or whether I need to ensure the request finishes before calling contentHandler.

Based on https://developer.apple.com/documentation/networkextension/nednssettings/searchdomains , we expect the values mentioned in searchDomains to be appended to a single label DNS query. However, we are not seeing this behavior. We have a packetTunnelProvider VPN, where we set searchDomains to a dns suffix (for ex: test.com) and we set matchDomains to applications and suffix (for ex: abc.com and test.com) . When a user tries to access https://myapp , we expect to see a DNS query packet for myapp.test.com . However, this is not happening when matchDomainsNoSearch is set to true. https://developer.apple.com/documentation/networkextension/nednssettings/matchdomainsnosearch When matchDomainsNoSearch is set to false, we see dns queries for myapp.test.com and myapp.abc.com. What is the expected behavior of searchDomains?