blob: 9af01eacdf644388a4a25685bf36b37498594fd6 [file] [log] [blame]
// Copyright 2017 The Tulsi Authors. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
/// Returns the configuration flags required to build a Bazel target and all of its dependencies
/// with the specified PlatformType and AppleCPU.
///
/// - Every platform has the --apple_platform_type flag set
/// - macOS and iOS use the base --cpu flag, while tvOS and watchOS use the --tvos_cpus and
/// --watchos_cpus respectively
/// - iOS also sets the --watchos_cpus flag (as it can contain a watchOS app embedded)
extension PlatformConfiguration {
public var bazelFlags: [String] {
var flags = ["--apple_platform_type=\(platform.bazelPlatform)"]
let physicalWatchCPUs = "\(CPU.armv7k.rawValue),\(CPU.arm64_32.rawValue)"
switch platform {
case .ios, .macos:
flags.append("--cpu=\(platform.bazelCPUPlatform)_\(cpu.rawValue)")
case .tvos:
flags.append("--\(platform.bazelCPUPlatform)_cpus=\(cpu.rawValue)")
case .watchos:
if (cpu == .armv7k || cpu == .arm64_32) {
// Xcode doesn't provide a way to determine the architecture of a watch
// so target both watchOS cpus when building for a physical watch.
flags.append("--\(platform.bazelCPUPlatform)_cpus=\(physicalWatchCPUs)")
} else {
flags.append("--\(platform.bazelCPUPlatform)_cpus=\(cpu.watchCPU.rawValue)")
}
}
if case .ios = platform {
if cpu == .arm64 || cpu == .arm64e {
// Xcode doesn't provide a way to determine the architecture of a paired
// watch so target both watchOS cpus when building for physical iOS,
// otherwise we might unintentionally install a watch app with the wrong
// architecture. Only 64-bit iOS devices support the Apple Watch Series
// 4 so we only need to apply the flag to the 64bit iOS CPUs.
flags.append("--\(PlatformType.watchos.bazelCPUPlatform)_cpus=\(physicalWatchCPUs)")
} else {
flags.append("--\(PlatformType.watchos.bazelCPUPlatform)_cpus=\(cpu.watchCPU.rawValue)")
}
}
return flags
}
}
public class BazelBuildSettingsFeatures {
public static func enabledFeatures(options: TulsiOptionSet) -> Set<BazelSettingFeature> {
// A normalized path for -fdebug-prefix-map exists for keeping all debug information as built by
// Clang consistent for the sake of caching within a distributed build system.
//
// This is handled through a wrapped_clang feature flag via the CROSSTOOL.
//
// The use of this flag does not affect any sources built by swiftc. At present time, all Swift
// compiled sources will be built with uncacheable, absolute paths, as until Xcode 10.2, the
// Swift compiler did not present an easy means of similarly normalizing all debug information.
// Unfortunately, this still has some slight issues (which may be worked around via changes to
// wrapped_clang).
var features: Set<BazelSettingFeature> = [.DebugPathNormalization]
if options[.SwiftForcesdSYMs].commonValueAsBool ?? true {
features.insert(.SwiftForcesdSYMs)
}
if options[.TreeArtifactOutputs].commonValueAsBool ?? true {
features.insert(.TreeArtifactOutputs)
}
return features
}
}