public TypeMappingReleaseNativeAssemblyGenerator(NativeAssemblerTargetProvider targetProvider, NativeTypeMappingData mappingData, string baseFileName, bool sharedBitsWritten, bool sharedIncludeUsesAbiPrefix = false)
: base(targetProvider, baseFileName, sharedIncludeUsesAbiPrefix)
{
this.mappingData = mappingData ?? throw new ArgumentNullException(nameof(mappingData));
this.baseFileName = baseFileName;
this.sharedBitsWritten = sharedIncludeUsesAbiPrefix ? false : sharedBitsWritten;
}
public TypeMappingNativeAssemblyGenerator(NativeAssemblerTargetProvider targetProvider, NativeTypeMappingData mappingData, string baseFileName, bool sharedBitsWritten, bool sharedIncludeUsesAbiPrefix = false)
: base(targetProvider, baseFileName, sharedIncludeUsesAbiPrefix)
{
this.mappingData = mappingData ?? throw new ArgumentNullException(nameof(mappingData));
if (String.IsNullOrEmpty(baseFileName))
{
throw new ArgumentException("must not be null or empty", nameof(baseFileName));
}
this.baseFileName = baseFileName;
this.sharedBitsWritten = sharedIncludeUsesAbiPrefix ? false : sharedBitsWritten;
}
public bool Generate(bool skipJniAddNativeMethodRegistrationAttributeScan, List <TypeDefinition> javaTypes, string outputDirectory, bool generateNativeAssembly, out ApplicationConfigTaskState appConfState)
{
if (String.IsNullOrEmpty(outputDirectory))
{
throw new ArgumentException("must not be null or empty", nameof(outputDirectory));
}
if (!Directory.Exists(outputDirectory))
{
Directory.CreateDirectory(outputDirectory);
}
int assemblyId = 0;
int maxJavaNameLength = 0;
int maxModuleFileNameLength = 0;
var knownAssemblies = new Dictionary <string, int> (StringComparer.Ordinal);
var tempModules = new Dictionary <byte[], ModuleData> ();
Dictionary <AssemblyDefinition, int> moduleCounter = null;
var mvidCache = new Dictionary <Guid, byte[]> ();
appConfState = new ApplicationConfigTaskState {
JniAddNativeMethodRegistrationAttributePresent = skipJniAddNativeMethodRegistrationAttributeScan
};
foreach (TypeDefinition td in javaTypes)
{
UpdateApplicationConfig(td, appConfState);
string assemblyName = td.Module.Assembly.FullName;
if (!knownAssemblies.ContainsKey(assemblyName))
{
assemblyId++;
knownAssemblies.Add(assemblyName, assemblyId);
}
// We must NOT use Guid here! The reason is that Guid sort order is different than its corresponding
// byte array representation and on the runtime we need the latter in order to be able to binary search
// through the module array.
byte[] moduleUUID;
if (!mvidCache.TryGetValue(td.Module.Mvid, out moduleUUID))
{
moduleUUID = td.Module.Mvid.ToByteArray();
mvidCache.Add(td.Module.Mvid, moduleUUID);
}
ModuleData moduleData;
if (!tempModules.TryGetValue(moduleUUID, out moduleData))
{
if (moduleCounter == null)
{
moduleCounter = new Dictionary <AssemblyDefinition, int> ();
}
moduleData = new ModuleData {
Mvid = td.Module.Mvid,
MvidBytes = moduleUUID,
Assembly = td.Module.Assembly,
AssemblyName = td.Module.Assembly.Name.Name,
TypesScratch = new Dictionary <string, TypeMapEntry> (StringComparer.Ordinal),
DuplicateTypes = new Dictionary <uint, TypeMapEntry> (),
};
tempModules.Add(moduleUUID, moduleData);
if (!generateNativeAssembly)
{
int moduleNum;
if (!moduleCounter.TryGetValue(moduleData.Assembly, out moduleNum))
{
moduleNum = 0;
moduleCounter [moduleData.Assembly] = 0;
}
else
{
moduleNum++;
moduleCounter [moduleData.Assembly] = moduleNum;
}
string fileName = $"{moduleData.Assembly.Name.Name}.{moduleNum}.typemap";
moduleData.OutputFilePath = Path.Combine(outputDirectory, fileName);
if (maxModuleFileNameLength < fileName.Length)
{
maxModuleFileNameLength = fileName.Length;
}
}
}
string javaName = Java.Interop.Tools.TypeNameMappings.JavaNativeTypeManager.ToJniName(td);
var entry = new TypeMapEntry {
JavaName = javaName,
JavaNameLength = outputEncoding.GetByteCount(javaName),
ManagedTypeName = td.FullName,
Token = td.MetadataToken.ToUInt32(),
AssemblyNameIndex = knownAssemblies [assemblyName]
};
if (generateNativeAssembly)
{
if (entry.JavaNameLength > maxJavaNameLength)
{
maxJavaNameLength = entry.JavaNameLength;
}
}
if (moduleData.TypesScratch.ContainsKey(entry.JavaName))
{
// This is disabled because it costs a lot of time (around 150ms per standard XF Integration app
// build) and has no value for the end user. The message is left here because it may be useful to us
// in our devloop at some point.
//logger ($"Warning: duplicate Java type name '{entry.JavaName}' in assembly '{moduleData.AssemblyName}' (new token: {entry.Token}).");
moduleData.DuplicateTypes.Add(entry.Token, entry);
}
else
{
moduleData.TypesScratch.Add(entry.JavaName, entry);
}
}
var modules = tempModules.Values.ToArray();
Array.Sort(modules, new ModuleUUIDArrayComparer());
var typeMapEntryComparer = new TypeMapEntryArrayComparer();
foreach (ModuleData module in modules)
{
if (module.TypesScratch.Count == 0)
{
module.Types = new TypeMapEntry[0];
continue;
}
module.Types = module.TypesScratch.Values.ToArray();
Array.Sort(module.Types, typeMapEntryComparer);
}
NativeTypeMappingData data;
if (!generateNativeAssembly)
{
string typeMapIndexPath = Path.Combine(outputDirectory, "typemap.index");
using (var indexWriter = MemoryStreamPool.Shared.CreateBinaryWriter()) {
OutputModules(modules, indexWriter, maxModuleFileNameLength + 1);
indexWriter.Flush();
MonoAndroidHelper.CopyIfStreamChanged(indexWriter.BaseStream, typeMapIndexPath);
}
GeneratedBinaryTypeMaps.Add(typeMapIndexPath);
data = new NativeTypeMappingData(logger, new ModuleData[0], 0);
}
else
{
data = new NativeTypeMappingData(logger, modules, maxJavaNameLength + 1);
}
NativeAssemblerTargetProvider asmTargetProvider;
bool sharedBitsWritten = false;
bool sharedIncludeUsesAbiPrefix;
foreach (string abi in supportedAbis)
{
sharedIncludeUsesAbiPrefix = false;
switch (abi.Trim())
{
case "armeabi-v7a":
asmTargetProvider = new ARMNativeAssemblerTargetProvider(is64Bit: false);
sharedIncludeUsesAbiPrefix = true; // ARMv7a is "special", it uses different directive prefix
// than the others and the "shared" code won't build for it
break;
case "arm64-v8a":
asmTargetProvider = new ARMNativeAssemblerTargetProvider(is64Bit: true);
break;
case "x86":
asmTargetProvider = new X86NativeAssemblerTargetProvider(is64Bit: false);
break;
case "x86_64":
asmTargetProvider = new X86NativeAssemblerTargetProvider(is64Bit: true);
break;
default:
throw new InvalidOperationException($"Unknown ABI {abi}");
}
var generator = new TypeMappingNativeAssemblyGenerator(asmTargetProvider, data, Path.Combine(outputDirectory, "typemaps"), sharedBitsWritten, sharedIncludeUsesAbiPrefix);
using (var sw = MemoryStreamPool.Shared.CreateStreamWriter(outputEncoding)) {
generator.Write(sw);
sw.Flush();
MonoAndroidHelper.CopyIfStreamChanged(sw.BaseStream, generator.MainSourceFile);
if (!sharedIncludeUsesAbiPrefix)
{
sharedBitsWritten = true;
}
}
}
return(true);
}
bool GenerateRelease(bool skipJniAddNativeMethodRegistrationAttributeScan, List <TypeDefinition> javaTypes, string outputDirectory, ApplicationConfigTaskState appConfState)
{
int assemblyId = 0;
int maxJavaNameLength = 0;
var knownAssemblies = new Dictionary <string, int> (StringComparer.Ordinal);
var tempModules = new Dictionary <byte[], ModuleReleaseData> ();
Dictionary <AssemblyDefinition, int> moduleCounter = null;
var mvidCache = new Dictionary <Guid, byte[]> ();
foreach (TypeDefinition td in javaTypes)
{
UpdateApplicationConfig(td, appConfState);
string assemblyName = td.Module.Assembly.FullName;
if (!knownAssemblies.ContainsKey(assemblyName))
{
assemblyId++;
knownAssemblies.Add(assemblyName, assemblyId);
}
// We must NOT use Guid here! The reason is that Guid sort order is different than its corresponding
// byte array representation and on the runtime we need the latter in order to be able to binary search
// through the module array.
byte[] moduleUUID;
if (!mvidCache.TryGetValue(td.Module.Mvid, out moduleUUID))
{
moduleUUID = td.Module.Mvid.ToByteArray();
mvidCache.Add(td.Module.Mvid, moduleUUID);
}
ModuleReleaseData moduleData;
if (!tempModules.TryGetValue(moduleUUID, out moduleData))
{
if (moduleCounter == null)
{
moduleCounter = new Dictionary <AssemblyDefinition, int> ();
}
moduleData = new ModuleReleaseData {
Mvid = td.Module.Mvid,
MvidBytes = moduleUUID,
Assembly = td.Module.Assembly,
AssemblyName = td.Module.Assembly.Name.Name,
TypesScratch = new Dictionary <string, TypeMapReleaseEntry> (StringComparer.Ordinal),
DuplicateTypes = new Dictionary <uint, TypeMapReleaseEntry> (),
};
tempModules.Add(moduleUUID, moduleData);
}
string javaName = Java.Interop.Tools.TypeNameMappings.JavaNativeTypeManager.ToJniName(td);
// We will ignore generic types and interfaces when generating the Java to Managed map, but we must not
// omit them from the table we output - we need the same number of entries in both java-to-managed and
// managed-to-java tables. `SkipInJavaToManaged` set to `true` will cause the native assembly generator
// to output `0` as the token id for the type, thus effectively causing the runtime unable to match such
// a Java type name to a managed type. This fixes https://github.com/xamarin/xamarin-android/issues/4660
var entry = new TypeMapReleaseEntry {
JavaName = javaName,
JavaNameLength = outputEncoding.GetByteCount(javaName),
ManagedTypeName = td.FullName,
Token = td.MetadataToken.ToUInt32(),
AssemblyNameIndex = knownAssemblies [assemblyName],
SkipInJavaToManaged = ShouldSkipInJavaToManaged(td),
};
if (entry.JavaNameLength > maxJavaNameLength)
{
maxJavaNameLength = entry.JavaNameLength;
}
if (moduleData.TypesScratch.ContainsKey(entry.JavaName))
{
// This is disabled because it costs a lot of time (around 150ms per standard XF Integration app
// build) and has no value for the end user. The message is left here because it may be useful to us
// in our devloop at some point.
//logger ($"Warning: duplicate Java type name '{entry.JavaName}' in assembly '{moduleData.AssemblyName}' (new token: {entry.Token}).");
moduleData.DuplicateTypes.Add(entry.Token, entry);
}
else
{
moduleData.TypesScratch.Add(entry.JavaName, entry);
}
}
var modules = tempModules.Values.ToArray();
Array.Sort(modules, new ModuleUUIDArrayComparer());
var typeMapEntryComparer = new TypeMapEntryArrayComparer();
foreach (ModuleReleaseData module in modules)
{
if (module.TypesScratch.Count == 0)
{
module.Types = new TypeMapReleaseEntry[0];
continue;
}
module.Types = module.TypesScratch.Values.ToArray();
Array.Sort(module.Types, typeMapEntryComparer);
}
NativeTypeMappingData data;
data = new NativeTypeMappingData(logger, modules, maxJavaNameLength + 1);
GenerateNativeAssembly(
(NativeAssemblerTargetProvider asmTargetProvider, bool sharedBitsWritten, bool sharedIncludeUsesAbiPrefix) => {
return(new TypeMappingReleaseNativeAssemblyGenerator(asmTargetProvider, data, outputDirectory, sharedBitsWritten, sharedIncludeUsesAbiPrefix));
}
);
return(true);
}