Preventing Insecure Network Connections

Enforce secure network links in your app by relying on App Transport Security.


On Apple platforms, a networking security feature called App Transport Security (ATS) improves privacy and data integrity for all apps and app extensions. It does this by requiring that network connections made by your app are secured by the Transport Layer Security (TLS) protocol using reliable certificates and ciphers. ATS blocks connections that don’t meet minimum security requirements.

Diagram showing how ATS blocks insecure connections, but lets secure traffic flow between your app and the network.

ATS operates by default for apps linked against the iOS 9.0 or macOS 10.11 SDKs or later. In cases where you need to connect to a server that isn’t fully secure—and that you can’t reconfigure to make more secure—you can add exceptions to loosen some of the ATS requirements.

Prefer High-Level Frameworks in Your App

The system enforces ATS when you use the standard URL Loading System. Instances of NSURLSession automatically negotiate the most secure connection available from the server. The only action your app must take is to use secure URLs, like those beginning with https. Otherwise, ATS denies the connection and prints a console message:

App Transport Security has blocked a cleartext HTTP (http://) resource
load since it is insecure. Temporary exceptions can be configured via
your app's Info.plist file.

ATS doesn’t apply to calls your app makes to lower-level networking interfaces like the Network framework or CFNetwork. In these cases, you take responsibility for ensuring the security of the connection. You can construct a secure connection this way, but mistakes are both easy to make and costly. It’s typically safest to rely on the URL Loading System instead.

Ensure the Network Server Meets Minimum Requirements

A secure server establishes its identity using an X.509 digital certificate. A connecting client examines this certificate to perform default server trust evaluation, which includes checking that the certificate:

  • Has an intact digital signature, showing that the certificate hasn’t been tampered with.

  • Isn’t expired.

  • Has a name that matches the server’s DNS name.

  • Is signed by another valid certificate, which is in turned signed by another, and so on back to a trusted anchor certificate, which must be issued by a Certificate Authority (CA). The anchor certificate must be part of the client operating system, as indicated in Lists of available trusted root certificates in iOS, or be installed on the client by the user or a system administrator.

ATS requires all of these things, and then provides extended security checks:

  • The server certificate must be signed with either a Rivest-Shamir-Adleman (RSA) key of at least 2048 bits, or an Elliptic-Curve Cryptography (ECC) key of at least 256 bits.

  • The certificate must use the Secure Hash Algorithm 2 (SHA-2) with a digest length, sometimes called a fingerprint, of at least 256 bits (that is, SHA-256 or greater).

  • The connection must use Transport Layer Security (TLS) protocol version 1.2 or later.

  • Data must be exchanged using either the AES-128 or the AES-256 symmetric cipher.

  • The link must support perfect forward secrecy (PFS) through Elliptic Curve Diffie-Hellman Ephemeral (ECDHE) key exchange.

Configure Exceptions Only When Needed; Prefer Server Fixes

ATS disallows a connection if the server fails to meet one of the security checks discussed in the previous section. Your best response is to update the server. If you can’t do that for some reason, you can specify exceptions in your app to disable one or more aspects of ATS.

You configure ATS exceptions by providing a dictionary as the value for the optional NSAppTransportSecurity key in your app’s Information Property List file. The dictionary has the following structure, where all keys are optional:

NSAppTransportSecurity : Dictionary {
    NSAllowsArbitraryLoads : Boolean
    NSAllowsArbitraryLoadsForMedia : Boolean
    NSAllowsArbitraryLoadsInWebContent : Boolean
    NSAllowsLocalNetworking : Boolean
    NSExceptionDomains : Dictionary {
        <domain-name-string> : Dictionary {
            NSIncludesSubdomains : Boolean
            NSExceptionAllowsInsecureHTTPLoads : Boolean
            NSExceptionMinimumTLSVersion : String
            NSExceptionRequiresForwardSecrecy : Boolean
            NSRequiresCertificateTransparency : Boolean

Keys at the first level of the NSAppTransportSecurity dictionary apply to connections made to any domain not specifically called out in the NSExceptionDomains sub-dictionary. For example, by setting NSAllowsArbitraryLoads set to YES, you completely disable ATS for all network connections:

Depending on your use case, you can provide narrower exceptions. For example, by setting NSAllowsArbitraryLoadsInWebContent to YES, you can disable ATS restrictions on calls made from within web views, like instances of WKWebView:

You might only need to limit your ATS exception to a single domain. For example, if you need to access the insecure server, you can still maintain all the benefits of ATS for other domains by setting the NSExceptionAllowsInsecureHTTPLoads to YES in the domain-specific sub-dictionary:

You can use the nscurl command line tool to connect to a server using different combinations of ATS exceptions. This helps you quickly narrow down the source of any ATS failures you have and figure out what exceptions you need. See Identifying the Source of Blocked Connections for details.

Provide Justification for Exceptions

Adding certain ATS exceptions to your app’s Information Property List file requires you to provide justification, and might trigger additional App Store review for your app. Exceptions that require justification are:

Some examples of justifications eligible for consideration are:

  • The app must connect to a server managed by another entity that doesn’t support secure connections.

  • The app must support connecting to devices that cannot be upgraded to use secure connections, and that must be accessed using public host names.

  • The app must display embedded web content from a variety of sources, but can’t use a class supported by the web content exception.

  • The app loads media content that is encrypted and that contains no personalized information.

When submitting your app to the App Store, provide sufficient information for the App Store to determine why your app cannot make secure connections by default.



Identifying the Source of Blocked Connections

Figure out why App Transport Security denies a network connection.


property list key NSAppTransportSecurity

A description of changes made to the default security for HTTP connections.

Name: App Transport Security Settings

See Also

Secure Data

Keychain Services

Securely store small chunks of data on behalf of the user.