Taking the pain out of scripting and automating xcode builds.
Xcoder is a ruby wrapper around various Xcode tools as well as providing project and workspace parsing and partial write support. Xcoder also supports manipulation of keychains, packaging and uploading artifacts to Testflight and provisioning profile management.
Full documentation can be found here: http://rayh.github.com/xcoder/
Xcoder assumes you are using XCode 4.6 on Mountain Lion and ruby 1.9. You may have some degree of success with lesser versions, but they are not intentionally supported.
You will need to install the gem:
gem install xcoder
and then require the gem in your project/rakefile/etc
require 'xcoder'
project = Xcode.project('MyProject') # Can be the name, the file (e.g. MyProject.xcodeproj) or the path
Xcode.find_projects.each {|p| puts p.name }
config = Xcode.project(:MyProject).target(:Target).config(:Debug) # returns an Xcode::Configuration object
config = Xcode.project(:MyProject).target(:Target).config(:Debug)
builder = config.builder
builder.profile = 'Profiles/MyAdHoc.mobileprovision' # This will remove old profiles and install the profile
builder.identity = 'iPhone Developer: Ray Hilton' # The name of the identity to use to sign the IPA (optional)
builder.clean
builder.build
# Building uses the targets's default sdk, which you can override:
builder.build :sdk => :iphonesimulator
You will not normally need to worry about manipulating keychains unless you want to automate importing of certificates (in a CI system with many clients) or opening of specific keychains for different builds (the old two-certs-with-same-identity-name workaround).
You can either use the user's login keychain, another named keychain, or simply use a temporary keychain that will be blown away after the build.
Xcode::Keychain.temp do |keychain|
# import certs into the keychain
# perform builds within this keychain's context
end # Keychain is deleted
Or, you can create a temporary keychain that will be deleted when the process exits:
keychain = Xcode::Keychain.temp
You can import a certificate from a .p12 file into a keychain. Here we simply create a temporary keychain, import a certificate, set the identity onto the builder and then perform a build.
keychain.import 'Certs/MyCert.p12', 'mycertpassword'
builder.keychain = keychain # Tell the builder to use the temp keychain
builder.identity = keychain.identities.first # Get the first (only) identity name from the keychain
After performing the above build, you can create a versioned, well named .ipa and .dSYM.zip
builder.package
This will produce something like: MyProject-Debug-1.0.ipa and MyProject-Debug-1.0.dSYM.zip
config.info_plist do |info|
info.version = info.version.to_i + 1
info.save
end
Based on our experience we suggest Versionomy to manage version numbers. Although the marketing version is usually set by hand on release, there are situations where it could be nice to have an incremental build number in the marketing version number as well. The following is an example that takes a marketing version number in the x.y.z format and increments the last part of it.
config.info_plist do |info|
info.version = info.version.to_i + 1
marketing_version = Versionomy.parse(info.marketing_version)
info.marketing_version = marketing_version.bump(:tiny).to_s
info.save
end
You can read more about Versionomy at their site
Loading workspaces can be done in a similar way to projects:
Xcode.workspaces.each do |w|
w.describe # prints a recursive description of the
# structure of the workspace and its projects
end
Or, if you know the name:
workspace = Xcode.workspace('MyWorkspace') # Can be the name, the file (e.g. MyWorkspace.xcworkspace) or the path
There is basic support for schemes, you can enumerate them from a project like so:
project.schemes.each do |s|
s.builder.build
end
Or, access them by name:
builder = project.scheme('MyScheme').builder
Note: The builder behaves the same as the builder for the target/config approach and will force xcodebuild to use the local build/ directory (as per xcode3) rather than a generated temporary directory in DerivedData. This may or may not be a good thing.
Note: Shared schemes and user (current logged in user) specific schemes are both loaded. They may share names and other similarities that make them hard to distinguish. Currently the priority loading order is shared schemes and then user specific schemes.
The library provides a mechanism to install/uninstall a provisioning profile. This normally happens as part of a build (if a profile is provided to the builder, see above), but you can do this manually:
# installs profile into ~/Library
Xcode::ProvisioningProfile.new("Myprofile.mobileprovision").install
Or enumerate installed profiles:
Xcode::ProvisioningProfile.installed_profiles.each do |p|
p.uninstall # Removes the profile from ~/Library/
end
The common output of this build/package process is to upload to Testflight. This is pretty simple with Xcoder:
# Optionally do this, saves doing it again and again
Xcode::Deploy::Testflight.defaults :api_token => 'some api token', :team_token => 'team token'
builder.deploy :testflight,
:api_token => API_TOKEN,
:team_token => TEAM_TOKEN,
:notes => "some release notes",
:notify => true, # Whether to send a notification to users, default is true
:lists => ["AList"] # The lists to distribute the build to
You can also optionally set the HTTP_PROXY environment variable.
You can upload the output ipa to an arbitrary buckey on S3
builder.deploy :s3,
:bucket => "mybucket",
:access_key_id => "access id",
:secret_access_key => "access key",
:dir => "options/path/within/bucket"
The output of the build/package process can be deployed to a remote web server. You can use SSH with the following syntax:
builder.deploy :ssh,
:host => "mywebserver.com",
:username => "myusername",
:password => "mypassword",
:dir => "/var/www/mywebserverpath",
:base_url => "http://mywebserver.com/"
The output of the build/package process can be deployed to a remote web server. You can upload the files through FTP with the following syntax:
builder.deploy :ftp,
:host => "ftp.mywebserver.com",
:username => "myusername",
:password => "mypassword",
:dir => "/mywebserverpath",
:base_url => "http://mywebserver.com/"
You can invoke your test target/bundle from the builder
builder.test do |report|
report.debug = false # default false, set to true to see raw output from xcodebuild
# The following is the default setup, you wouldnt normally need to do this unless
# you want to add new formatters
report.formatters = []
report.add_formatter :junit, 'test-reports' # Output JUnit format results to test-reports/
report.add_formatter :stdout # Output a simplified output to STDOUT
end
This will invoke the test target, capture the output and write the junit reports to the test-reports directory. Currently only junit is supported, although you can write your own formatter quite easily (for an example, look at Xcode::Test::Formatters::JunitFormatter).
Xcoder provides a rake task to assist with make it easier to perform common Xcode project actions from the command-line.
Within your Rakefile
add the following:
require 'xcoder/rake_task'
Then define your Rake Task:
Xcode::RakeTask.new
By default this will generate rake tasks within the 'xcode' namespace for all the projects (within the current working directory), all their targets, and all their configs. This will also generate tasks for all of a projects schemes as well.
All names from the project, schemes, targets, and configs are remove
the camel-casing and replacing the cameling with underscores. Spaces
are replaced with dashes (-)
This will generate rake tasks that appear similar to the following:
rake xcode:project-name:targetname:debug:build
rake xcode:project-name:targetname:debug:clean
# ...
You can specify a parameter to change the root rake namespace:
Xcode::RakeTask.new :apple
# Resulting Rake Tasks:
# rake apple:project-name:targetname:debug:build
# rake apple:project-name:targetname:debug:clean
# ...
You can also supply a block to provide additional configuration to specify the folder to search for projects and the projects that should generate tasks for:
Xcode::RakeTask.new :hudson do |xcoder|
xcoder.directory = "projects"
xcoder.projects = [ "Project Alpha", "Project Beta" ]
end
rake hudson:project-alpha:targetname:debug:build
# ...
Guard provides the ability to launch commands when files changed. There is a guard-xcoder which allows you easily execute build actions whenever your project file changes.
gem install guard
gem install guard-xcoder
guard init
guard init xcoder
Afterwards you will need to define the project you want to monitor and the actions that you want to take place when a source files changes within the project file.
guard 'xcoder', :actions => [ :clean, :build, :test ] do
watch('ProjectName')
watch('ProjectName//TargetName')
end
Xcoder can also create targets, configurations, and add files. Xcoder could be used to programmatically manipulate or install external sources into a project.
It is important to note that Xcode gets cranky when the Xcode project file is changed by external sources. This usually causes the project and schemes to reset or maybe even cause Xcode to crash. It is often best to close the project before manipulating it with Xcoder.
# Copy the physical source files into the project path `Vendor/Reachability`
FileUtils.cp_r "examples/Reachability/Vendor", "spec/TestProject"
source_files = [ 'Vendor/Reachability/Reachability.m' , 'Vendor/Reachability/Reachability.h' ]
# Create and traverse to the group Reachability within the Vendor folder
project.group('Vendor/Reachability') do
# Create files for each source file defined above
source_files.each |source| create_file source }
end
Within the project file the groups in the path are created or found and then file references are added for the two specified source files. Xcoder only updates the logical project file, it does not copy physical files, that is done by the FileUtils.
source_file = project.file('Vendor/Reachability/Reachability.m')
project.target('TestProject').sources_build_phase do
add_build_file source_file
end
Adding source files does not automatically include it in any of the built targets. That is done after you add the source file to the sources_build_phase
. First we find the source file reference, select our target and then add it as a build file.
cfnetwork_framework = project.frameworks_group.create_system_framework 'CFNetwork'
project.target('TestProject').framework_build_phase do
add_build_file cfnetwork_framework
end
The CFNetwork.framework is added to the Frameworks
group of the project and then added to the frameworks build phase.
target.create_build_phases :copy_headers, :run_script
release_config = target.config 'Release'
release_config.set 'ALWAYS_SEARCH_USER_PATHS', false
target.config 'Release' do |config|
config.always_search_user_paths = false
config.architectures = [ "$(ARCHS_STANDARD_32_BIT)", 'armv6' ]
config.copy_phase_strip = true
config.dead_code_stripping = false
config.debug_information_format = "dwarf-with-dsym"
config.c_language_standard = 'gnu99'
end
Configuration settings can be accessed through get
, set
, and append
with their Xcode Build Names or through convenience methods generated for most of the build settings (property_name
, property_name=
, append_to_property_name
). The entire list of property names can be found in the configuration.
project.save!
The saved file output is slightly different than what you normally see when you view a Xcode project file. Luckily, Xcode will fix the format of the file if you make any small changes to the project that requires it to save.
Within the specs/integration
folder there are more examples.
There are some basic RSpec tests in the project which I suspect /wont/ work on machines without my identity installed.
Currently these tests only assert the basic project file parsing and build code and do not perform file modification tests (e.g. for info plists) or provisioning profile/keychain importing
NOTE: This is only available in HEAD, you will need to install this gem from source to get this Buildspec support and the xcoder tool
This stuff is a work-in-progress and is subject to change.
Xcoder provides a simple mechanism to help with automating builds and CI. First, define a Buildspec file in the root of your project with contents like this:
# Assumes identity is first in keychain
group :adhoc do
# Which project/target/config, or workspace/scheme to use
use :MyProject, :target => :MyTarget, :config => :Release
# The mobile provision that should be used
profile 'Provisioning/MyProject_AdHoc.mobileprovision'
# Keychain is option, allows isolation of identities per-project without
# poluting global keychain
keychain 'Provisioning/build.keychain', 'build'
deploy :testflight,
:api_token => 'api token',
:team_token => 'team token',
:notify => true,
:lists => ['Internal'],
:notes => `git log -n 1`
end
You can then invoke the project using the xcoder command line:
# Invoke the default task (deploy)
xcoder -r
# Invoke a specific task
xcoder -r adhoc:package
# Get a list of tasks
xcoder -T
This is a bit of a work-in-progress and an attempt to allow projects to provide a minimal declaration of how thier artifacts should be built and where they should go. Integration with CI (Jenkins, for example) or just running locally from the command line should be simple.
Please raise issues if you find defects or have a feature request.
Xcoder is released under the MIT License. http://www.opensource.org/licenses/mit-license