I have been implementing an sdk for authenticating a user. I have noticed that on iOS 18.5, whether using SFSafariViewController, or the sdk (built on ASWebAuthenticationSession), password autofill does not work. I have confirmed it works on a different device running iOS 18.0.1. Are there any work arounds for this at this time? Specifically for ASWebAuthenticationSession?

Hi Team, How can we fetch the macOS password requirement(for setting a new password) that are inforce during login for users? Is there a way to get this info in swift programming?

Trying to validate external reference identifiers with SecTrustEvaluateWithError Method by setting reference Ids to SecPolicyCreateSSL() & SecPolicyCreateWithProperties() But two concerns are - Validates for correct reference IDs but gives error for combination of wrong & correct reference Ids 398 days validity works mandatorily before reference Ids check. Is there any other to validate external reference Ids?, which give flexibility To pass multiple combinations of reference IDs string (wrong, correct, IP, DNS) To validate reference ID without days validity of 398. Please suggest. Any help here is highly appreciated.

I'm trying to add a generic password to the keychain and get back the persistent ID for it, and give it .userPresence access control. Unfortunately, if I include that, I get paramError back from SecItemAdd. Here's the code: @discardableResult func set(username: String, hostname: String?, password: String, comment: String? = nil) throws -> PasswordEntry { // Delete any existing matching password… if let existing = try? getEntry(forUsername: username, hostname: hostname) { try deletePassword(withID: existing.id) } // Store the new password… var label = username if let hostname { label = label + "@" + hostname } var item: [String: Any] = [ kSecClass as String : kSecClassGenericPassword, kSecAttrDescription as String : "TermPass Password", kSecAttrGeneric as String : self.bundleID.data(using: .utf8)!, kSecAttrLabel as String : label, kSecAttrAccount as String : username, kSecValueData as String : password.data(using: .utf8)!, kSecReturnData as String : true, kSecReturnPersistentRef as String: true, ] if self.synchronizable { item[kSecAttrSynchronizable as String] = kCFBooleanTrue! } if let hostname { item[kSecAttrService as String] = hostname } if let comment { item[kSecAttrComment as String] = comment } // Apply access control to require the user to prove presence when // retrieving this password… var error: Unmanaged<CFError>? guard let accessControl = SecAccessControlCreateWithFlags(nil, kSecAttrAccessibleWhenUnlockedThisDeviceOnly, .userPresence, &error) else { let cfError = error!.takeUnretainedValue() as Error throw cfError } item[kSecAttrAccessControl as String] = accessControl item[kSecAttrAccessible as String] = kSecAttrAccessibleWhenUnlockedThisDeviceOnly var result: AnyObject! let status = SecItemAdd(item as CFDictionary, &result) try Errors.throwIfError(osstatus: status) load() guard let secItem = result as? [String : Any], let persistentRef = secItem[kSecValuePersistentRef as String] as? Data else { throw Errors.malformedItem } let entry = PasswordEntry(id: persistentRef, username: username, hostname: hostname, password: password, comment: comment) return entry } (Note that I also tried it omitting kSecAttrAccessible, but it had no effect.) This code works fine if I omit setting kSecAttrAccessControl. Any ideas? TIA!

Issue Summary I'm encountering a DCError.invalidInput error when calling DCAppAttestService.shared.generateAssertion() in my App Attest implementation. This issue affects only a small subset of users - the majority of users can successfully complete both attestation and assertion flows without any issues. According to Apple Engineer feedback, there might be a small implementation issue in my code. Key Observations Success Rate: ~95% of users complete the flow successfully Failure Pattern: The remaining ~5% consistently fail at assertion generation Key Length: Logs show key length of 44 characters for both successful and failing cases Consistency: Users who experience the error tend to experience it consistently Platform: Issue observed across different iOS versions and device types Environment iOS App Attest implementation Using DCAppAttestService for both attestation and assertion Custom relying party server communication Issue affects ~5% of users consistently Key Implementation Details 1. Attestation Flow (Working) The attestation process works correctly: // Generate key and attest (successful for all users) self.attestService.generateKey { keyId, keyIdError in guard keyIdError == nil, let keyId = keyId else { return completionHandler(.failure(.dcError(keyIdError as! DCError))) } // Note: keyId length is consistently 44 characters for both successful and failing users // Attest key with Apple servers self.attestKey(keyId, clientData: clientData) { result in // ... verification with RP server // Key is successfully stored for ALL users (including those who later fail at assertion) } } 2. Assertion Flow (Failing for ~5% of Users with invalidInput) The assertion generation fails for a consistent subset of users: // Get assertion data from RP server self.assertRelyingParty.getAssertionData(kid, with: data) { result in switch result { case .success(let receivedData): let session = receivedData.session let clientData = receivedData.clientData let hash = clientData.toSHA256() // SHA256 hash of client data // THIS CALL FAILS WITH invalidInput for ~5% of users // Same keyId (44 chars) that worked for attestation self.attestService.generateAssertion(kid, clientDataHash: hash) { assertion, err in guard err == nil, let assertion = assertion else { // Error: DCError.invalidInput if let err = err as? DCError, err.code == .invalidKey { return reattestAndAssert(.invalidKey, completionHandler) } else { return completionHandler(.failure(.dcError(err as! DCError))) } } // ... verification logic } } } 3. Client Data Structure Client data JSON structure (identical for successful and failing users): // For attestation (works for all users) let clientData = ["challenge": receivedData.challenge] // For assertion (fails for ~5% of users with same structure) var clientData = ["challenge": receivedData.challenge] if let data = data { // Additional data for assertion clientData["account"] = data["account"] clientData["amount"] = data["amount"] } 4. SHA256 Hash Implementation extension Data { public func toSHA256() -> Data { return Data(SHA256.hash(data: self)) } } 5. Key Storage Implementation Using UserDefaults for key storage (works consistently for all users): private let keyStorageTag = "app-attest-keyid" func setKey(_ keyId: String) -> Result<(), KeyStorageError> { UserDefaults.standard.set(keyId, forKey: keyStorageTag) return .success(()) } func getKey() -> Result<String?, KeyStorageError> { let keyId = UserDefaults.standard.string(forKey: keyStorageTag) return .success(keyId) } Questions User-Specific Factors: Since this affects only ~5% of users consistently, could there be device-specific, iOS version-specific, or account-specific factors that cause invalidInput? Key State Validation: Is there any way to validate the state of an attested key before calling generateAssertion()? The key length (44 chars) appears normal for both successful and failing cases. Keychain vs UserDefaults: Could the issue be related to using UserDefaults instead of Keychain for key storage? Though this works for 95% of users. Race Conditions: Could there be subtle race conditions or timing issues that only affect certain users/devices? Error Recovery: Is there a recommended way to handle this error? Should we attempt re-attestation for these users? Additional Context & Debugging Attempts Consistent Failure: Users who experience this error typically experience it on every attempt Key Validation: Both successful and failing users have identical key formats (44 character strings) Device Diversity: Issue observed across different device models and iOS versions Server Logs: Our server successfully provides challenges and processes attestation for all users Re-attestation: Forcing re-attestation sometimes resolves the issue temporarily, but it often recurs The fact that 95% of users succeed with identical code suggests there might be some environmental or device-specific factor that we're not accounting for. Any insights into what could cause invalidInput for a subset of users would be invaluable.

Using the simplified sign-in with tvOS and a third party password manager, I receive a complete ASPasswordCredential, and I can easily log into my app. When I do the same thing but with Apple's password manager as the source, I receive an ASPasswordCredential that includes the email address, but the password is an empty string. I have tried deleting the credentials from Apple Passwords and regenerating them with a new login to the app's website. I have tried restarting my iPhone. Is this the expected behavior? How should I be getting a password from Apple's Password app with an ASAuthorizationPasswordRequest?

Hello, I want to access the Docker socket API from inside the macOS App Sandbox. The method queries the API using curl with --unix-socket. However, the Sandbox blocks the request, as shown by the log: curl(22299) deny(1) network-outbound /Users/user/.docker/run/docker.sock Outgoing network traffic is generally allowed, but access to the Docker Unix socket is denied. Here’s the code I’m using: private func executeDockerAPI() -> String { let process = Process() let pipe = Pipe() process.executableURL = URL(fileURLWithPath: "/usr/bin/curl") process.arguments = [ "--unix-socket", "/Users/user/.docker/run/docker.sock", "http://127.0.0.1/containers/json" ] process.standardOutput = pipe process.standardError = pipe do { try process.run() process.waitUntilExit() let data = pipe.fileHandleForReading.readDataToEndOfFile() if let output = String(data: data, encoding: .utf8) { return output } else { return "Error while decoding" } } catch { return "Error running command: \(error.localizedDescription)" } } Is there any entitlement or sandbox configuration I’m missing to allow access to /Users/user/.docker/run/docker.sock from inside the sandbox?

I have a sandboxed Mac app which I can grant access to a folder using an NSOpenPanel. Once it’s been granted access it can enumerate the contents of the folder just fine. If I rename the folder while the app is open and then make the app enumerate the folder’s contents again, though, it seems to have lost access. What’s the recommended way to have an app’s sandbox “track” files as they’re moved around the filesystem? (NSDocument handles this for you, from what I can tell.) I’ve managed to hack something together with a combination of Dispatch sources and security-scoped bookmarks, but it feels like there must be an easier solution …

Hi all, I’m building a macOS-native C++ trading bot, compiled via Xcode. It sends REST API requests to a crypto exchange (Bitvavo) that require HMAC-SHA256 signatures using a pre-sign string (timestamp + method + path + body) and an API secret. Here’s the issue: • The exact same pre-sign string and API secret produce valid responses when signed using Python (hmac.new(secret, msg, hashlib.sha256)), • But when I generate the HMAC signature using C++ (HMAC(EVP_sha256, ...) via OpenSSL), the exchange returns an invalid signature error. Environment: • Xcode 15.3 / macOS 14.x • OpenSSL installed via Homebrew • HMAC test vectors match Python’s output for basic strings (so HMAC lib seems correct) Yet when using the real API keys and dynamic timestamped messages, something differs enough to break verification — possibly due to UTF-8 encoding, memory alignment, or newline handling differences in the Xcode C++ runtime? Has anyone experienced subtle differences between Python and C++ HMAC-SHA256 behavior when compiled in Xcode? I’ve published a GitHub repo for reproducibility: 🔗 https://github.com/vanBaardewijk/bitvavo-cpp-signature-test Thanks in advance for any suggestions or insights. Sascha

Using the SDK, I've printed out some log messages when I enter the wrong password: 2025-08-20 15:58:14.086 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] invoke 2025-08-20 15:58:14.086 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] general: 2025-08-20 15:58:14.086 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] progname: 'SecurityAgentHelper-arm64' 2025-08-20 15:58:14.086 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] OS version: 'Version 15.5 (Build 24F74)' 2025-08-20 15:58:14.086 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] pid: '818' 2025-08-20 15:58:14.086 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] ppid: '1' 2025-08-20 15:58:14.086 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] euid: '92' 2025-08-20 15:58:14.086 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] uid: '92' 2025-08-20 15:58:14.087 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] session: 0x186e9 2025-08-20 15:58:14.087 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] attributes: 2025-08-20 15:58:14.087 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] is root: f 2025-08-20 15:58:14.087 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] has graphics: t 2025-08-20 15:58:14.087 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] has TTY: t 2025-08-20 15:58:14.087 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] is remote: f 2025-08-20 15:58:14.087 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] auth session: 0x0 2025-08-20 15:58:14.087 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] context: 2025-08-20 15:58:14.088 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] authentication-failure: --S -14090 2025-08-20 15:58:14.088 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] pam_result: X-S 9 2025-08-20 15:58:14.089 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] hints: 2025-08-20 15:58:14.089 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] authorize-right: "system.login.console" 2025-08-20 15:58:14.090 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] client-path: "/System/Library/CoreServices/loginwindow.app" 2025-08-20 15:58:14.090 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] client-pid: 807 2025-08-20 15:58:14.090 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] client-type: 'LDNB' 2025-08-20 15:58:14.090 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] client-uid: 0 2025-08-20 15:58:14.090 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] creator-audit-token: 2025-08-20 15:58:14.090 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 ................ 2025-08-20 15:58:14.090 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] 00 00 00 00 27 03 00 00 e9 86 01 00 68 08 00 00 ....'.......h... 2025-08-20 15:58:14.090 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] creator-pid: 807 2025-08-20 15:58:14.090 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] flags: 259 2025-08-20 15:58:14.090 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] reason: 0 2025-08-20 15:58:14.090 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] tries: 1 2025-08-20 15:58:14.090 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] immutable hints: 2025-08-20 15:58:14.090 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] client-apple-signed: true 2025-08-20 15:58:14.090 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] client-firstparty-signed: true 2025-08-20 15:58:14.090 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] creator-apple-signed: true 2025-08-20 15:58:14.090 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] creator-firstparty-signed: true 2025-08-20 15:58:14.091 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] arguments: 2025-08-20 15:58:14.091 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] none 2025-08-20 15:58:14.108 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] LAContext: LAContext[4:8:112] 2025-08-20 15:58:14.119 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] token identities: 0 2025-08-20 15:58:14.120 Db SecurityAgentHelper-arm64[818:1efd] [com.example.apple-samplecode.LoggingAuthPlugin:mechanism] token watcher: <TKTokenWatcher: 0x11410ee70> Specifically, is there a manual/link somewhere that can allow me to interpret: authentication-failure: --S -14090 and pam_result: X-S 9

I'm seeing some odd behavior which may be a bug. I've broken it down to a least common denominator to reproduce it. But maybe I'm doing something wrong. I am opening a file read-write. I'm then mapping the file read-only and private: void* pointer = mmap(NULL, 17, PROT_READ, MAP_FILE | MAP_PRIVATE, fd, 0); I then unmap the memory and close the file. After the close, eslogger shows me this: {"close":{"modified":false,[...],"was_mapped_writable":false}} Which makes sense. I then change the mmap statement to: void* pointer = mmap(NULL, 17, PROT_READ, MAP_FILE | MAP_SHARED, fd, 0); I run the new code and and the close looks like: {"close":{"modified":false, [....], "was_mapped_writable":true}} Which also makes sense. I then run the original again (ie, with MAP_PRIVATE vs. MAP_SHARED) and the close looks like: {"close":{"modified":false,"was_mapped_writable":true,[...]} Which doesn't appear to be correct. Now if I just open and close the file (again, read-write) and don't mmap anything the close still shows: {"close":{ [...], "was_mapped_writable":true,"modified":false}} And the same is true if I open the file read-only. It will remain that way until I delete the file. If I recreate the file and try again, everything is good until I map it MAP_SHARED. I tried this with macOS 13.6.7 and macOS 15.0.1.

In my app, I use SecItem to store some data in the Keychain. I’d like to know — when a user sets up a new iPhone and transfers data from the old device, will those Keychain items be migrated or synced to the new device?

I need to open p12 file from other iOS applications to import private key to my application. My app is set up to be able to open nay file with following plist &lt;?xml version="1.0" encoding="UTF-8"?&gt; &lt;!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd"&gt; &lt;plist version="1.0"&gt; &lt;dict&gt; &lt;key&gt;CFBundleDocumentTypes&lt;/key&gt; &lt;array&gt; &lt;dict&gt; &lt;key&gt;CFBundleTypeName&lt;/key&gt; &lt;string&gt;Files&lt;/string&gt; &lt;key&gt;LSHandlerRank&lt;/key&gt; &lt;string&gt;Default&lt;/string&gt; &lt;key&gt;LSItemContentTypes&lt;/key&gt; &lt;array&gt; &lt;string&gt;public.item&lt;/string&gt; &lt;string&gt;public.data&lt;/string&gt; &lt;string&gt;public.content&lt;/string&gt; &lt;/array&gt; &lt;/dict&gt; &lt;/array&gt; &lt;/dict&gt; &lt;/plist&gt; But my don't appear in share dialog from Files or Mail app for example. There are however other third party apps that can accept this file. Some of them use Share extension which I don't have, but some of them don't have it as far as I can understand. At least they don't present any UI and open apps directly. Also I've tried to specify com.rsa.pkcs-12 UTI directly but it didn't help. Also noticed that *.crt files have similar behaviour. Am I missing something about this specific file type?

I work for Brave, a browser with ~80M users. We want to introduce a new system for automatic updates called Omaha 4 (O4). It's the same system that powers automatic updates in Chrome. O4 runs as a separate application on users' systems. For Chrome, this works as follows: An app called GoogleUpdater.app regularly checks for updates in the background. When a new version is found, then GoogleUpdater.app installs it into Chrome's installation directory /Applications/Google Chrome.app. But consider what this means: A separate application, GoogleUpdater.app, is able to modify Google Chrome.app. This is especially surprising because, for example, the built-in Terminal.app is not able to modify Google Chrome.app. Here's how you can check this for yourself: (Re-)install Chrome with its DMG installer. Run the following command in Terminal: mkdir /Applications/Google\ Chrome.app/test. This works. Undo the command: rm -rf /Applications/Google\ Chrome.app/test Start Chrome and close it again. mkdir /Applications/Google\ Chrome.app/test now fails with "Operation not permitted". (These steps assume that Terminal does not have Full Disk Access and System Integrity Protection is enabled.) In other words, once Chrome was started at least once, another application (Terminal in this case) is no longer allowed to modify it. But at the same time, GoogleUpdater.app is able to modify Chrome. It regularly applies updates to the browser. For each update, this process begins with an mkdir call similarly to the one shown above. How is this possible? What is it in macOS that lets GoogleUpdater.app modify Chrome, but not another app such as Terminal? Note that Terminal is not sandboxed. I've checked that it's not related to codesigning or notarization issues. In our case, the main application (Brave) and the updater (BraveUpdater) are signed and notarized with the same certificate and have equivalent requirements, entitlements and provisioning profiles as Chrome and GoogleUpdater. The error that shows up in the Console for the disallowed mkdir call is: kernel (Sandbox) System Policy: mkdir(8917) deny(1) file-write-create /Applications/Google Chrome.app/foo (It's a similar error when BraveUpdater tries to install a new version into /Applications/Brave Browser.app.) The error goes away when I disable System Integrity Protection. But of course, we cannot ask users to do that. Any help would be greatly appreciated.

We are experiencing a significant issue with macOS security alerts that began on July 9th, at approximately 4:40 AM UTC. This alert is incorrectly identifying output files from our snippet tests as malware, causing these files to be blocked and moved to the Trash. This is completely disrupting our automated testing workflows. Issue Description: Alert: We are seeing the "Malware Blocked and Moved to Trash" popup window. Affected Files: The security alert triggers when attempting to execute .par files generated as outputs from our snippet tests. These .par files are unique to each individual test run; they are not a single, static tool. System-Wide Impact: This issue is impacting multiple macOS hosts across our testing infrastructure. Timeline: The issue began abruptly on July 9th, at approximately 4:40 AM UTC. Before that time, our tests were functioning correctly. macOS Versions: The problem is occurring on hosts running both macOS 14.x and 15.x. Experimental Host: Even after upgrading an experimental host to macOS 15.6 beta 2, the issue persisted. Local execution: The issue can be reproduced locally. Observations: The security system is consistently flagging these snippet test output files as malware. Since each test generates a new .par file, and this issue is impacting all generated files, the root cause doesn't appear to be specific to the code within the .par files themselves. This issue is impacting all the snippet tests, making us believe that the root cause is not related to our code. The sudden and widespread nature of the issue strongly suggests a change in a security database or rule, rather than a change in our testing code. Questions: Could a recent update to the XProtect database be the cause of this false positive? Are there any known issues or recent changes in macOS security mechanisms that could cause this kind of widespread and sudden impact? What is the recommended way to diagnose and resolve this kind of false positive? We appreciate any guidance or assistance you can provide. Thank you.

I have developed framework and want to use this framework in authplugin which added on same project in different target That plugin target is working fine without framework, once I am adding framework the authplugin is not working Auth-plugin I am using to change in screen-saver plist

Hi, I’d like to confirm something regarding the hosting of the apple-app-site-association (AASA) file. We have a server that publicly hosts the AASA file and is accessible globally. However, this server sits behind an additional security layer (a security server/reverse proxy). My question is: Will this security layer affect Apple’s ability to access and validate the AASA file for Universal Links or App Clips? Are there specific requirements (e.g. headers, redirects, TLS versions, etc.) that we need to ensure the security server does not block or modify? Any guidance or best practices would be appreciated.

I have a launch daemon that's using the Endpoint Security framework which also is causing high memory usage (in Activity Monitor memory column shows for example 2GB and Real Memory 11MB) when building a big project in Xcode. Is it some kind of memory caching by the system? leaks -forkCorpse seems to not show any leaks. How can I attach with heap or Instruments without the process being killed with "ENDPOINTSECURITY, Code 2 EndpointSecurity client terminated because it failed to respond to a message before its deadline"?

I have Authorisation Plugin which talks using XPC to my Launch Daemon to perform privileged actions. I want to protect my XPC service narrowing it to be called from known trusted clients. Now since I want authorisation plugin code which is from apple to call my service, I cannot use my own team id or app group here. I am currently banking on following properties of client connection. Apple Team ID : EQHXZ8M8AV Bundle ID starting with com.apple. Client signature verified By Apple. This is what I have come up with. func isClientTrusted(connection: NSXPCConnection) -> Bool { let clientPID = connection.processIdentifier logInfo("🔍 Checking XPC Client - PID: \(clientPID)") var secCode: SecCode? var secStaticCode: SecStaticCode? let attributes = [kSecGuestAttributePid: clientPID] as NSDictionary let status = SecCodeCopyGuestWithAttributes(nil, attributes, [], &secCode) guard status == errSecSuccess, let code = secCode else { logInfo("Failed to get SecCode for PID \(clientPID)") return false } let staticStatus = SecCodeCopyStaticCode(code, [], &secStaticCode) guard staticStatus == errSecSuccess, let staticCode = secStaticCode else { logInfo("Failed to get SecStaticCode") return false } var signingInfo: CFDictionary? let signingStatus = SecCodeCopySigningInformation(staticCode, SecCSFlags(rawValue: kSecCSSigningInformation), &signingInfo) guard signingStatus == errSecSuccess, let info = signingInfo as? [String: Any] else { logInfo("Failed to retrieve signing info") return false } // Extract and Verify Team ID if let teamID = info["teamid"] as? String { logInfo("XPC Client Team ID: \(teamID)") if teamID != "EQHXZ8M8AV" { // Apple's official Team ID logInfo("Client is NOT signed by Apple") return false } } else { logInfo("Failed to retrieve Team ID") return false } // Verify Bundle ID Starts with "com.apple." if let bundleID = info["identifier"] as? String { logInfo("XPC Client Bundle ID: \(bundleID)") if !bundleID.hasPrefix("com.apple.") { logInfo("Client is NOT an Apple system process") return false } } else { logInfo("Failed to retrieve Bundle Identifier") return false } // Verify Apple Code Signature Trust var trustRequirement: SecRequirement? let trustStatus = SecRequirementCreateWithString("anchor apple" as CFString, [], &trustRequirement) guard trustStatus == errSecSuccess, let trust = trustRequirement else { logInfo("Failed to create trust requirement") return false } let verifyStatus = SecStaticCodeCheckValidity(staticCode, [], trust) if verifyStatus != errSecSuccess { logInfo("Client's signature is NOT trusted by Apple") return false } logInfo("Client is fully verified as Apple-trusted") return true } Q: Just wanted community feedback, is this correct approach?

I’d like to confirm something regarding the hosting of the apple-app-site-association (AASA) file. We have a server that publicly hosts the AASA file and is accessible globally. However, this server sits behind an additional security layer (a security server/reverse proxy). My question is: Will this security layer affect Apple’s ability to access and validate the AASA file for Universal Links or App Clips? Are there specific requirements (e.g. headers, redirects, TLS versions, etc.) that we need to ensure the security server does not block or modify? Any guidance or best practices would be appreciated. Thanks!