This tutorial covers how to build a simple iOS app using Bazel.
In this tutorial, you learn how to:
WORKSPACE
file that identifies the top level of the workspace directoryWORKSPACE
file to contain references to the required external dependenciesBUILD
fileTo get started, install Bazel and Xcode, and get the sample project.
Follow the installation instructions to install Bazel and its dependencies.
Download and install Xcode. Xcode contains the compilers, SDKs, and other tools required by Bazel to build Apple applications.
You also need to get the sample project for the tutorial from GitHub. The GitHub repo has two branches: source-only
and main
. The source-only
branch contains the source files for the project only. You‘ll use the files in this branch in this tutorial. The main
branch contains both the source files and completed Bazel WORKSPACE
and BUILD
files. You can use the files in this branch to check your work when you’ve completed the tutorial steps.
Enter the following at the command line to get the files in the source-only
branch:
cd $HOME git clone -b source-only https://github.com/bazelbuild/examples
The git clone
command creates a directory named $HOME/examples/
. This directory contains several sample projects for Bazel. The project files for this tutorial are in $HOME/examples/tutorial/ios-app
.
A workspace is a directory that contains the source files for one or more software projects, as well as a WORKSPACE
file and BUILD
files that contain the instructions that Bazel uses to build the software. The workspace may also contain symbolic links to output directories.
A workspace directory can be located anywhere on your filesystem and is denoted by the presence of the WORKSPACE
file at its root. In this tutorial, your workspace directory is $HOME/examples/tutorial/
, which contains the sample project files you cloned from the GitHub repo in the previous step.
Note that Bazel itself doesn't impose any requirements for organizing source files in your workspace. The sample source files in this tutorial are organized according to conventions for the target platform.
For your convenience, set the $WORKSPACE
environment variable now to refer to your workspace directory. At the command line, enter:
export WORKSPACE=$HOME/examples/tutorial
Every workspace must have a text file named WORKSPACE
located in the top-level workspace directory. This file may be empty or it may contain references to external dependencies required to build the software.
For now, you‘ll create an empty WORKSPACE
file, which simply serves to identify the workspace directory. In later steps, you’ll update the file to add external dependency information.
Enter the following at the command line:
touch $WORKSPACE/WORKSPACE open -a Xcode $WORKSPACE/WORKSPACE
This creates and opens the empty WORKSPACE
file.
To build applications for Apple devices, Bazel needs to pull the latest Apple build rules from its GitHub repository. To enable this, add the following git_repository
rules to your WORKSPACE
file:
load("@bazel_tools//tools/build_defs/repo:git.bzl", "git_repository") git_repository( name = "build_bazel_rules_apple", remote = "https://github.com/bazelbuild/rules_apple.git", tag = "0.19.0", ) git_repository( name = "build_bazel_rules_swift", remote = "https://github.com/bazelbuild/rules_swift.git", tag = "0.13.0", ) git_repository( name = "build_bazel_apple_support", remote = "https://github.com/bazelbuild/apple_support.git", tag = "0.7.2", ) git_repository( name = "bazel_skylib", remote = "https://github.com/bazelbuild/bazel-skylib.git", tag = "0.9.0", )
NOTE: “Always use the latest version of the build_apple rules in the tag
attribute. Make sure to check the latest dependencies required in rules_apple
's project.”
NOTE: You must set the value of the name
attribute in the git_repository
rule to build_bazel_rules_apple
or the build will fail.
Take a look at the source files for the app located in $WORKSPACE/ios-app/UrlGet
. Again, you‘re just looking at these files now to become familiar with the structure of the app. You don’t have to edit any of the source files to complete this tutorial.
At a command-line prompt, open a new BUILD
file for editing:
touch $WORKSPACE/ios-app/BUILD open -a Xcode $WORKSPACE/ios-app/BUILD
To build iOS targets, Bazel needs to load build rules from its GitHub repository whenever the build runs. To make these rules available to your project, add the following load statement to the beginning of your BUILD
file:
load("@build_bazel_rules_apple//apple:ios.bzl", "ios_application")
You only need to load the ios_application
rule because the objc_library
rule is built into the Bazel package.
Bazel provides several build rules that you can use to build an app for the iOS platform. For this tutorial, you‘ll first use the objc_library
rule to tell Bazel how to build a static library from the app source code and Xib files. Then you’ll use the ios_application
rule to tell it how to build the application binary and the .ipa
bundle.
NOTE: This tutorial presents a minimal use case of the Objective-C rules in Bazel. For example, you have to use the ios_application
rule to build multi-architecture iOS apps.
Add the following to your BUILD
file:
objc_library( name = "UrlGetClasses", srcs = [ "UrlGet/AppDelegate.m", "UrlGet/UrlGetViewController.m", "UrlGet/main.m", ], hdrs = glob(["UrlGet/*.h"]), data = ["UrlGet/UrlGetViewController.xib"], )
Note the name of the rule, UrlGetClasses
.
The ios_application
rule builds the application binary and creates the .ipa
bundle file.
Add the following to your BUILD
file:
ios_application( name = "ios-app", bundle_id = "Google.UrlGet", families = [ "iphone", "ipad", ], minimum_os_version = "9.0", infoplists = [":UrlGet/UrlGet-Info.plist"], visibility = ["//visibility:public"], deps = [":UrlGetClasses"], )
NOTE: Please update the minimum_os_version
attribute to the minimum version of iOS that you plan to support.
Note how the deps
attribute references the output of the UrlGetClasses
rule you added to the BUILD
file above.
Now, save and close the file. You can compare your BUILD
file to the completed example in the main
branch of the `GitHub repo.
You are now ready to build your app and deploy it to a simulator and onto an iOS device.
NOTE: The app launches standalone but requires a backend server in order to produce output. See the README file in the sample project directory to find out how to build the backend server.
The built app is located in the $WORKSPACE/bazel-bin
directory.
Completed WORKSPACE
and BUILD
files for this tutorial are located in the main branch of the GitHub repo. You can compare your work to the completed files for additional help or troubleshooting.
Make sure that your current working directory is inside your Bazel workspace:
cd $WORKSPACE
Now, enter the following to build the sample app:
bazel build //ios-app:ios-app
Bazel launches and builds the sample app. During the build process, its output will appear similar to the following:
INFO: Found 1 target... Target //ios-app:ios-app up-to-date: bazel-bin/ios-app/ios-app.ipa INFO: Elapsed time: 0.565s, Critical Path: 0.44s
The .ipa
file and other outputs are located in the $WORKSPACE/bazel-bin/ios-app
directory.
You can now run the app from Xcode using the iOS Simulator. First, generate an Xcode project using Tulsi.
Then, open the project in Xcode, choose an iOS Simulator as the runtime scheme, and click Run.
Note: If you modify any project files in Xcode (for example, if you add or remove a file, or add or change a dependency), you must rebuild the app using Bazel, re-generate the Xcode project in Tulsi, and then re-open the project in Xcode.
To build your app so that it installs and launches on an iOS device, Bazel needs the appropriate provisioning profile for that device model. Do the following:
Go to your Apple Developer Account and download the appropriate provisioning profile for your device. See Apple's documentation for more information.
Move your profile into $WORKSPACE
.
(Optional) Add your profile to your .gitignore
file.
Add the following line to the ios_application
target in your BUILD
file:
provisioning_profile = "<your_profile_name>.mobileprovision",
NOTE: Ensure the profile is correct so that the app can be installed on a device.
Now build the app for your device:
bazel build //ios-app:ios-app --ios_multi_cpus=armv7,arm64
This builds the app as a fat binary. To build for a specific device architecture, designate it in the build options.
To build for a specific Xcode version, use the --xcode_version
option. To build for a specific SDK version, use the --ios_sdk_version
option. The --xcode_version
option is sufficient in most scenarios.
To specify a minimum required iOS version, add the minimum_os_version
parameter to the ios_application
build rule in your BUILD
file.
You can also use Tulsi to build your app using a GUI rather than the command line.
The easiest way to install the app on the device is to launch Xcode and use the Windows > Devices
command. Select your plugged-in device from the list on the left, then add the app by clicking the Add (plus sign) button under “Installed Apps” and selecting the .ipa
file that you built.
If your app fails to install on your device, ensure that you are specifying the correct provisioning profile in your BUILD
file (step 4 in the previous section).
If your app fails to launch, make sure that your device is part of your provisioning profile. The View Device Logs
button on the Devices
screen in Xcode may provide other information as to what has gone wrong.
For more details, see main branch of the GitHub repo.