public static void GetCatalystCompilerFlags(CompilerFlags flags, Abi abi, Application app)
{
GetCompilerFlags(app, flags, false);
flags.AddOtherFlag($"-target", $"{abi.AsArchString ()}-apple-ios{app.DeploymentTarget}-macabi");
var isysroot = Driver.GetFrameworkDirectory(app);
flags.AddOtherFlag($"-isystem", Path.Combine(isysroot, "System", "iOSSupport", "usr", "include"));
flags.AddOtherFlag($"-iframework", Path.Combine(isysroot, "System", "iOSSupport", "System", "Library", "Frameworks"));
flags.AddOtherFlag($"-L{Path.Combine (isysroot, "System", "iOSSupport", "usr", "lib")}");
}
void GetSharedCompilerFlags(CompilerFlags flags, string install_name)
{
if (string.IsNullOrEmpty(install_name))
{
throw new ArgumentNullException(nameof(install_name));
}
flags.AddOtherFlag("-shared");
if (!App.EnableMarkerOnlyBitCode && !App.EnableAsmOnlyBitCode)
{
flags.AddOtherFlag("-read_only_relocs suppress");
}
flags.LinkWithMono();
flags.AddOtherFlag("-install_name " + Driver.Quote(install_name));
flags.AddOtherFlag("-fapplication-extension"); // fixes this: warning MT5203: Native linking warning: warning: linking against dylib not safe for use in application extensions: [..]/actionextension.dll.arm64.dylib
}
public static void GetArchFlags(CompilerFlags flags, IEnumerable <Abi> abis)
{
bool enable_thumb = false;
foreach (var abi in abis)
{
var arch = abi.AsArchString();
flags.AddOtherFlag($"-arch", arch);
enable_thumb |= (abi & Abi.Thumb) != 0;
}
if (enable_thumb)
{
flags.AddOtherFlag("-mthumb");
}
}
public static void GetSimulatorCompilerFlags(CompilerFlags flags, bool is_assembler, Application app, string language = null)
{
GetCompilerFlags(app, flags, is_assembler, language);
string sim_platform = Driver.GetPlatformDirectory(app);
string plist = Path.Combine(sim_platform, "Info.plist");
var dict = Driver.FromPList(plist);
var dp = dict.Get <PDictionary> ("DefaultProperties");
if (dp.GetString("GCC_OBJC_LEGACY_DISPATCH") == "YES")
{
flags.AddOtherFlag("-fobjc-legacy-dispatch");
}
string objc_abi = dp.GetString("OBJC_ABI_VERSION");
if (!String.IsNullOrWhiteSpace(objc_abi))
{
flags.AddOtherFlag($"-fobjc-abi-version={objc_abi}");
}
plist = Path.Combine(Driver.GetFrameworkDirectory(app), "SDKSettings.plist");
string min_prefix = app.CompilerPath.Contains("clang") ? Driver.GetTargetMinSdkName(app) : "iphoneos";
dict = Driver.FromPList(plist);
dp = dict.Get <PDictionary> ("DefaultProperties");
if (app.DeploymentTarget == new Version())
{
string target = dp.GetString("IPHONEOS_DEPLOYMENT_TARGET");
if (!String.IsNullOrWhiteSpace(target))
{
flags.AddOtherFlag($"-m{min_prefix}-version-min={target}");
}
}
else
{
flags.AddOtherFlag($"-m{min_prefix}-version-min={app.DeploymentTarget}");
}
string defines = dp.GetString("GCC_PRODUCT_TYPE_PREPROCESSOR_DEFINITIONS");
if (!String.IsNullOrWhiteSpace(defines))
{
flags.AddDefine(defines.Replace(" ", String.Empty));
}
}
public static void GetCompilerFlags(Application app, CompilerFlags flags, bool is_assembler, string language = null)
{
if (!is_assembler)
{
flags.AddOtherFlag("-gdwarf-2");
}
if (!is_assembler)
{
if (string.IsNullOrEmpty(language) || !language.Contains("++"))
{
// error: invalid argument '-std=c99' not allowed with 'C++/ObjC++'
flags.AddOtherFlag("-std=c99");
}
flags.AddOtherFlag($"-I{StringUtils.Quote (Path.Combine (Driver.GetProductSdkDirectory (app), "usr", "include"))}");
}
flags.AddOtherFlag($"-isysroot {StringUtils.Quote (Driver.GetFrameworkDirectory (app))}");
flags.AddOtherFlag("-Qunused-arguments"); // don't complain about unused arguments (clang reports -std=c99 and -Isomething as unused).
}
public static void GetCompilerFlags(Application app, CompilerFlags flags, bool is_assembler, string language = null)
{
if (!is_assembler)
{
flags.AddOtherFlag("-gdwarf-2");
}
if (!is_assembler)
{
if (language != "objective-c")
{
// error: invalid argument '-std=c++14' not allowed with 'Objective-C'
flags.AddOtherFlag("-std=c++14");
}
flags.AddOtherFlag($"-I{Driver.GetProductSdkIncludeDirectory (app)}");
}
flags.AddOtherFlag($"-isysroot", Driver.GetFrameworkDirectory(app));
flags.AddOtherFlag("-Qunused-arguments"); // don't complain about unused arguments (clang reports -std=c99 and -Isomething as unused).
}
protected override void Build()
{
if (Driver.IsUsingClang(App))
{
// This is because iOS has a forward declaration of NSPortMessage, but no actual declaration.
// They still use NSPortMessage in other API though, so it can't just be removed from our bindings.
CompilerFlags.AddOtherFlag("-Wno-receiver-forward-class");
}
if (Compile() != 0)
{
throw new MonoTouchException(4109, true, "Failed to compile the generated registrar code. Please file a bug report at http://bugzilla.xamarin.com");
}
}
void GetBitcodeCompilerFlags(CompilerFlags flags)
{
flags.AddOtherFlag(App.EnableMarkerOnlyBitCode ? "-fembed-bitcode-marker" : "-fembed-bitcode");
}
void GetStaticCompilerFlags(CompilerFlags flags)
{
flags.AddOtherFlag("-c");
}
void GetDeviceCompilerFlags(CompilerFlags flags, bool is_assembler)
{
GetCompilerFlags(App, flags, is_assembler, Language);
flags.AddOtherFlag($"-m{Driver.GetTargetMinSdkName (App)}-version-min={App.DeploymentTarget.ToString ()}");
}
public void NativeLink()
{
if (!string.IsNullOrEmpty(App.UserGccFlags))
{
App.DeadStrip = false;
}
if (App.EnableLLVMOnlyBitCode)
{
App.DeadStrip = false;
}
var compiler_flags = new CompilerFlags()
{
Target = this
};
// Get global frameworks
compiler_flags.AddFrameworks(App.Frameworks, App.WeakFrameworks);
compiler_flags.AddFrameworks(Frameworks, WeakFrameworks);
// Collect all LinkWith flags and frameworks from all assemblies.
foreach (var a in Assemblies)
{
compiler_flags.AddFrameworks(a.Frameworks, a.WeakFrameworks);
if (!App.FastDev || App.IsSimulatorBuild)
{
compiler_flags.AddLinkWith(a.LinkWith, a.ForceLoad);
}
compiler_flags.AddOtherFlags(a.LinkerFlags);
}
var bitcode = App.EnableBitCode;
if (bitcode)
{
compiler_flags.AddOtherFlag(App.EnableMarkerOnlyBitCode ? "-fembed-bitcode-marker" : "-fembed-bitcode");
}
if (App.EnablePie.HasValue && App.EnablePie.Value && (App.DeploymentTarget < new Version(4, 2)))
{
ErrorHelper.Error(28, "Cannot enable PIE (-pie) when targeting iOS 4.1 or earlier. Please disable PIE (-pie:false) or set the deployment target to at least iOS 4.2");
}
if (!App.EnablePie.HasValue)
{
App.EnablePie = true;
}
if (App.Platform == ApplePlatform.iOS)
{
if (App.EnablePie.Value && (App.DeploymentTarget >= new Version(4, 2)))
{
compiler_flags.AddOtherFlag("-Wl,-pie");
}
else
{
compiler_flags.AddOtherFlag("-Wl,-no_pie");
}
}
CompileTask.GetArchFlags(compiler_flags, Abis);
if (App.IsDeviceBuild)
{
compiler_flags.AddOtherFlag($"-m{Driver.GetTargetMinSdkName (App)}-version-min={App.DeploymentTarget}");
compiler_flags.AddOtherFlag($"-isysroot {Driver.Quote (Driver.GetFrameworkDirectory (App))}");
}
else
{
CompileTask.GetSimulatorCompilerFlags(compiler_flags, null, App);
}
compiler_flags.LinkWithMono();
compiler_flags.LinkWithXamarin();
compiler_flags.AddLinkWith(link_with);
compiler_flags.AddOtherFlag($"-o {Driver.Quote (Executable)}");
compiler_flags.AddOtherFlag("-lz");
compiler_flags.AddOtherFlag("-liconv");
bool need_libcpp = false;
if (App.EnableBitCode)
{
need_libcpp = true;
}
#if ENABLE_BITCODE_ON_IOS
need_libcpp = true;
#endif
if (need_libcpp)
{
compiler_flags.AddOtherFlag("-lc++");
}
// allow the native linker to remove unused symbols (if the caller was removed by the managed linker)
if (!bitcode)
{
// Note that we include *all* (__Internal) p/invoked symbols here
// We also include any fields from [Field] attributes.
compiler_flags.ReferenceSymbols(GetRequiredSymbols());
}
string mainlib;
if (App.IsWatchExtension)
{
mainlib = "libwatchextension.a";
compiler_flags.AddOtherFlag(" -e _xamarin_watchextension_main");
}
else if (App.IsTVExtension)
{
mainlib = "libtvextension.a";
}
else if (App.IsExtension)
{
mainlib = "libextension.a";
}
else
{
mainlib = "libapp.a";
}
var libdir = Path.Combine(Driver.GetProductSdkDirectory(App), "usr", "lib");
var libmain = Path.Combine(libdir, mainlib);
compiler_flags.AddLinkWith(libmain, true);
if (App.EnableProfiling)
{
string libprofiler;
if (App.FastDev)
{
libprofiler = Path.Combine(libdir, "libmono-profiler-log.dylib");
compiler_flags.AddLinkWith(libprofiler);
}
else
{
libprofiler = Path.Combine(libdir, "libmono-profiler-log.a");
compiler_flags.AddLinkWith(libprofiler);
if (!App.EnableBitCode)
{
compiler_flags.ReferenceSymbol("mono_profiler_startup_log");
}
}
}
if (!string.IsNullOrEmpty(App.UserGccFlags))
{
compiler_flags.AddOtherFlag(App.UserGccFlags);
}
if (App.DeadStrip)
{
compiler_flags.AddOtherFlag("-dead_strip");
}
if (App.IsExtension)
{
if (App.Platform == ApplePlatform.iOS && Driver.XcodeVersion.Major < 7)
{
compiler_flags.AddOtherFlag("-lpkstart");
compiler_flags.AddOtherFlag($"-F {Driver.Quote (Path.Combine (Driver.GetFrameworkDirectory (App), "System/Library/PrivateFrameworks"))} -framework PlugInKit");
}
compiler_flags.AddOtherFlag("-fapplication-extension");
}
compiler_flags.Inputs = new List <string> ();
var flags = compiler_flags.ToString(); // This will populate Inputs.
if (!Application.IsUptodate(compiler_flags.Inputs, new string [] { Executable }))
{
// always show the native linker warnings since many of them turn out to be very important
// and very hard to diagnose otherwise when hidden from the build output. Ref: bug #2430
var linker_errors = new List <Exception> ();
var output = new StringBuilder();
var code = Driver.RunCommand(App.CompilerPath, flags, null, output);
Application.ProcessNativeLinkerOutput(this, output.ToString(), link_with, linker_errors, code != 0);
if (code != 0)
{
// if the build failed - it could be because of missing frameworks / libraries we identified earlier
foreach (var assembly in Assemblies)
{
if (assembly.UnresolvedModuleReferences == null)
{
continue;
}
foreach (var mr in assembly.UnresolvedModuleReferences)
{
// TODO: add more diagnose information on the warnings
var name = Path.GetFileNameWithoutExtension(mr.Name);
linker_errors.Add(new MonoTouchException(5215, false, "References to '{0}' might require additional -framework=XXX or -lXXX instructions to the native linker", name));
}
}
// mtouch does not validate extra parameters given to GCC when linking (--gcc_flags)
if (!String.IsNullOrEmpty(App.UserGccFlags))
{
linker_errors.Add(new MonoTouchException(5201, true, "Native linking failed. Please review the build log and the user flags provided to gcc: {0}", App.UserGccFlags));
}
linker_errors.Add(new MonoTouchException(5202, true, "Native linking failed. Please review the build log.", App.UserGccFlags));
}
ErrorHelper.Show(linker_errors);
}
else
{
cached_executable = true;
Driver.Log(3, "Target '{0}' is up-to-date.", Executable);
}
// the native linker can prefer private (and existing) over public (but non-existing) framework when weak_framework are used
// on an iOS target version where the framework does not exists, e.g. targeting iOS6 for JavaScriptCore added in iOS7 results in
// /System/Library/PrivateFrameworks/JavaScriptCore.framework/JavaScriptCore instead of
// /System/Library/Frameworks/JavaScriptCore.framework/JavaScriptCore
// more details in https://bugzilla.xamarin.com/show_bug.cgi?id=31036
if (WeakFrameworks.Count > 0)
{
AdjustDylibs();
}
Driver.Watch("Native Link", 1);
}
// The input file is either a .s or a .bc file
BuildTask CreateCompileTask(string assembly_name, string infile_path, Abi abi)
{
var ext = App.FastDev ? "dylib" : "o";
var ofile = Path.ChangeExtension(infile_path, ext);
var install_name = string.Empty;
if (App.FastDev)
{
if (dylibs == null)
{
dylibs = new List <string> ();
}
dylibs.Add(ofile);
install_name = "lib" + Path.GetFileName(assembly_name) + ".dylib";
}
else
{
Target.LinkWith(ofile);
}
if (Application.IsUptodate(new string [] { infile_path, App.CompilerPath }, new string [] { ofile }))
{
Driver.Log(3, "Target {0} is up-to-date.", ofile);
return(null);
}
else
{
Application.TryDelete(ofile); // otherwise the next task might not detect that it will have to rebuild.
Driver.Log(3, "Target {0} needs to be rebuilt.", ofile);
}
var compiler_flags = new CompilerFlags()
{
Target = Target
};
BuildTask bitcode_task = null;
BuildTask link_task = null;
string link_task_input, link_language = "";
if (App.EnableAsmOnlyBitCode)
{
link_task_input = infile_path + ".ll";
link_language = "";
// linker_flags.Add (" -fembed-bitcode");
bitcode_task = new BitCodeify()
{
Input = infile_path,
OutputFile = link_task_input,
Platform = App.Platform,
Abi = abi,
DeploymentTarget = App.DeploymentTarget,
};
}
else
{
link_task_input = infile_path;
if (infile_path.EndsWith(".s", StringComparison.Ordinal))
{
link_language = "assembler";
}
}
if (App.FastDev)
{
compiler_flags.AddFrameworks(Frameworks, WeakFrameworks);
compiler_flags.AddLinkWith(LinkWith, ForceLoad);
compiler_flags.LinkWithMono();
compiler_flags.LinkWithXamarin();
compiler_flags.AddOtherFlags(LinkerFlags);
if (Target.GetEntryPoints().ContainsKey("UIApplicationMain"))
{
compiler_flags.AddFramework("UIKit");
}
compiler_flags.LinkWithPInvokes(abi);
if (HasLinkWithAttributes && !App.EnableBitCode)
{
compiler_flags.ReferenceSymbols(Target.GetRequiredSymbols(this, true));
}
}
if (App.EnableLLVMOnlyBitCode)
{
// The AOT compiler doesn't optimize the bitcode so clang will do it
compiler_flags.AddOtherFlag("-fexceptions");
var optimizations = App.GetLLVMOptimizations(this);
if (optimizations == null)
{
compiler_flags.AddOtherFlag("-O2");
}
else if (optimizations.Length > 0)
{
compiler_flags.AddOtherFlag(optimizations);
}
}
link_task = new LinkTask()
{
Target = Target,
AssemblyName = assembly_name,
Abi = abi,
InputFile = link_task_input,
OutputFile = ofile,
InstallName = install_name,
CompilerFlags = compiler_flags,
SharedLibrary = App.FastDev,
Language = link_language,
};
if (bitcode_task != null)
{
bitcode_task.NextTasks = new BuildTask[] { link_task };
return(bitcode_task);
}
return(link_task);
}