# iOS {#ios} This component is basically a wrapper/workaround that makes it possible to expose an Xcode installation as a Nix package by means of symlinking to the relevant executables on the host system. Since Xcode can't be packaged with Nix, nor we can publish it as a Nix package (because of its license) this is basically the only integration strategy making it possible to do iOS application builds that integrate with other components of the Nix ecosystem The primary objective of this project is to use the Nix expression language to specify how iOS apps can be built from source code, and to automatically spawn iOS simulator instances for testing. This component also makes it possible to use [Hydra](https://nixos.org/hydra), the Nix-based continuous integration server to regularly build iOS apps and to do wireless ad-hoc installations of enterprise IPAs on iOS devices through Hydra. The Xcode build environment implements a number of features. ## Deploying a proxy component wrapper exposing Xcode {#deploying-a-proxy-component-wrapper-exposing-xcode} The first use case is deploying a Nix package that provides symlinks to the Xcode installation on the host system. This package can be used as a build input to any build function implemented in the Nix expression language that requires Xcode. ```nix let pkgs = import {}; xcodeenv = import ./xcodeenv { inherit (pkgs) stdenv; }; in xcodeenv.composeXcodeWrapper { version = "9.2"; xcodeBaseDir = "/Applications/Xcode.app"; } ``` By deploying the above expression with `nix-build` and inspecting its content you will notice that several Xcode-related executables are exposed as a Nix package: ```bash $ ls result/bin lrwxr-xr-x 1 sander staff 94 1 jan 1970 Simulator -> /Applications/Xcode.app/Contents/Developer/Applications/Simulator.app/Contents/MacOS/Simulator lrwxr-xr-x 1 sander staff 17 1 jan 1970 codesign -> /usr/bin/codesign lrwxr-xr-x 1 sander staff 17 1 jan 1970 security -> /usr/bin/security lrwxr-xr-x 1 sander staff 21 1 jan 1970 xcode-select -> /usr/bin/xcode-select lrwxr-xr-x 1 sander staff 61 1 jan 1970 xcodebuild -> /Applications/Xcode.app/Contents/Developer/usr/bin/xcodebuild lrwxr-xr-x 1 sander staff 14 1 jan 1970 xcrun -> /usr/bin/xcrun ``` ## Building an iOS application {#building-an-ios-application} We can build an iOS app executable for the simulator, or an IPA/xcarchive file for release purposes, e.g. ad-hoc, enterprise or store installations, by executing the `xcodeenv.buildApp {}` function: ```nix let pkgs = import {}; xcodeenv = import ./xcodeenv { inherit (pkgs) stdenv; }; in xcodeenv.buildApp { name = "MyApp"; src = ./myappsources; sdkVersion = "11.2"; target = null; # Corresponds to the name of the app by default configuration = null; # Release for release builds, Debug for debug builds scheme = null; # -scheme will correspond to the app name by default sdk = null; # null will set it to 'iphonesimulator` for simulator builds or `iphoneos` to real builds xcodeFlags = ""; release = true; certificateFile = ./mycertificate.p12; certificatePassword = "secret"; provisioningProfile = ./myprovisioning.profile; signMethod = "ad-hoc"; # 'enterprise' or 'store' generateIPA = true; generateXCArchive = false; enableWirelessDistribution = true; installURL = "/installipa.php"; bundleId = "mycompany.myapp"; appVersion = "1.0"; # Supports all xcodewrapper parameters as well xcodeBaseDir = "/Applications/Xcode.app"; } ``` The above function takes a variety of parameters: * The `name` and `src` parameters are mandatory and specify the name of the app and the location where the source code resides * `sdkVersion` specifies which version of the iOS SDK to use. It also possible to adjust the `xcodebuild` parameters. This is only needed in rare circumstances. In most cases the default values should suffice: * Specifies which `xcodebuild` target to build. By default it takes the target that has the same name as the app. * The `configuration` parameter can be overridden if desired. By default, it will do a debug build for the simulator and a release build for real devices. * The `scheme` parameter specifies which `-scheme` parameter to propagate to `xcodebuild`. By default, it corresponds to the app name. * The `sdk` parameter specifies which SDK to use. By default, it picks `iphonesimulator` for simulator builds and `iphoneos` for release builds. * The `xcodeFlags` parameter specifies arbitrary command line parameters that should be propagated to `xcodebuild`. By default, builds are carried out for the iOS simulator. To do release builds (builds for real iOS devices), you must set the `release` parameter to `true`. In addition, you need to set the following parameters: * `certificateFile` refers to a P12 certificate file. * `certificatePassword` specifies the password of the P12 certificate. * `provisioningProfile` refers to the provision profile needed to sign the app * `signMethod` should refer to `ad-hoc` for signing the app with an ad-hoc certificate, `enterprise` for enterprise certificates and `app-store` for App store certificates. * `generateIPA` specifies that we want to produce an IPA file (this is probably what you want) * `generateXCArchive` specifies that we want to produce an xcarchive file. When building IPA files on Hydra and when it is desired to allow iOS devices to install IPAs by browsing to the Hydra build products page, you can enable the `enableWirelessDistribution` parameter. When enabled, you need to configure the following options: * The `installURL` parameter refers to the URL of a PHP script that composes the `itms-services://` URL allowing iOS devices to install the IPA file. * `bundleId` refers to the bundle ID value of the app * `appVersion` refers to the app's version number To use wireless adhoc distributions, you must also install the corresponding PHP script on a web server (see section: 'Installing the PHP script for wireless ad hoc installations from Hydra' for more information). In addition to the build parameters, you can also specify any parameters that the `xcodeenv.composeXcodeWrapper {}` function takes. For example, the `xcodeBaseDir` parameter can be overridden to refer to a different Xcode version. ## Spawning simulator instances {#spawning-simulator-instances} In addition to building iOS apps, we can also automatically spawn simulator instances: ```nix let pkgs = import {}; xcodeenv = import ./xcodeenv { inherit (pkgs) stdenv; }; in xcode.simulateApp { name = "simulate"; # Supports all xcodewrapper parameters as well xcodeBaseDir = "/Applications/Xcode.app"; } ``` The above expression produces a script that starts the simulator from the provided Xcode installation. The script can be started as follows: ```bash ./result/bin/run-test-simulator ``` By default, the script will show an overview of UDID for all available simulator instances and asks you to pick one. You can also provide a UDID as a command-line parameter to launch an instance automatically: ```bash ./result/bin/run-test-simulator 5C93129D-CF39-4B1A-955F-15180C3BD4B8 ``` You can also extend the simulator script to automatically deploy and launch an app in the requested simulator instance: ```nix let pkgs = import {}; xcodeenv = import ./xcodeenv { inherit (pkgs) stdenv; }; in xcode.simulateApp { name = "simulate"; bundleId = "mycompany.myapp"; app = xcode.buildApp { # ... }; # Supports all xcodewrapper parameters as well xcodeBaseDir = "/Applications/Xcode.app"; } ``` By providing the result of an `xcode.buildApp {}` function and configuring the app bundle id, the app gets deployed automatically and started. ## Troubleshooting {#troubleshooting} In some rare cases, it may happen that after a failure, changes are not picked up. Most likely, this is caused by a derived data cache that Xcode maintains. To wipe it you can run: ```bash $ rm -rf ~/Library/Developer/Xcode/DerivedData ```