public override void EncodeData(ref ObjectDataBuilder dataBuilder, NodeFactory factory, bool relocsOnly)
{
if (relocsOnly)
{
return;
}
TargetArchitecture targetArch = factory.Target.Architecture;
for (int frameInfoIndex = 0; frameInfoIndex < _methodNode.FrameInfos.Length; frameInfoIndex++)
{
byte[] unwindInfo = _methodNode.FrameInfos[frameInfoIndex].BlobData;
if (targetArch == TargetArchitecture.X64)
{
// On Amd64, patch the first byte of the unwind info by setting the flags to EHANDLER | UHANDLER
// as that's what CoreCLR does (zapcode.cpp, ZapUnwindData::Save).
const byte UNW_FLAG_EHANDLER = 1;
const byte UNW_FLAG_UHANDLER = 2;
const byte FlagsShift = 3;
unwindInfo[0] |= (byte)((UNW_FLAG_EHANDLER | UNW_FLAG_UHANDLER) << FlagsShift);
}
else if ((targetArch == TargetArchitecture.ARM) || (targetArch == TargetArchitecture.ARM64))
{
// Set the 'X' bit to indicate that there is a personality routine associated with this method
unwindInfo[2] |= 1 << 4;
}
dataBuilder.EmitBytes(unwindInfo);
// 4-align after emitting the unwind info
dataBuilder.EmitZeros(-unwindInfo.Length & 3);
if (targetArch != TargetArchitecture.X86)
{
bool isFilterFunclet = (_methodNode.FrameInfos[frameInfoIndex].Flags & FrameInfoFlags.Filter) != 0;
ISymbolNode personalityRoutine = (isFilterFunclet ? factory.FilterFuncletPersonalityRoutine : factory.PersonalityRoutine);
int codeDelta = 0;
if (targetArch == TargetArchitecture.ARM)
{
// THUMB_CODE
codeDelta = 1;
}
dataBuilder.EmitReloc(personalityRoutine, RelocType.IMAGE_REL_BASED_ADDR32NB, codeDelta);
}
if (frameInfoIndex == 0 && _methodNode.GCInfo != null)
{
dataBuilder.EmitBytes(_methodNode.GCInfo);
// Maintain 4-alignment for the next unwind / GC info block
int align4Pad = -_methodNode.GCInfo.Length & 3;
dataBuilder.EmitZeros(align4Pad);
}
}
}
public override void EncodeData(ref ObjectDataBuilder dataBuilder, NodeFactory factory, bool relocsOnly)
{
if (relocsOnly)
{
return;
}
bool isFound = factory.RuntimeFunctionsGCInfo.Deduplicator.TryGetValue(this, out var found);
if (isFound && (found != this))
{
return;
}
factory.RuntimeFunctionsGCInfo.Deduplicator.Add(this);
foreach (var item in EncodeDataCore(factory))
{
if (item.Bytes != null)
{
dataBuilder.EmitBytes(item.Bytes);
// Maintain 4-alignment for the next unwind / GC info block
int align4Pad = -item.Bytes.Length & 3;
dataBuilder.EmitZeros(align4Pad);
}
else
{
dataBuilder.EmitReloc(item.Symbol, RelocType.IMAGE_REL_BASED_ADDR32NB, item.SymbolDelta);
}
}
}
private void WriteMethodTableRvas(NodeFactory factory, ref ObjectDataBuilder builder, ref BlobReader reader)
{
MetadataReader metadataReader = _sourceModule.MetadataReader;
var tableIndex = TableIndex.MethodDef;
int rowCount = metadataReader.GetTableRowCount(tableIndex);
int rowSize = metadataReader.GetTableRowSize(tableIndex);
for (int i = 1; i <= rowCount; i++)
{
Debug.Assert(builder.CountBytes == reader.Offset);
int inputRva = reader.ReadInt32();
if (inputRva == 0)
{
// Don't fix up 0 Rvas (abstract methods in the methodDef table)
builder.EmitInt(0);
}
else
{
var methodDefHandle = MetadataTokens.EntityHandle(TableIndex.MethodDef, i);
EcmaMethod method = _sourceModule.GetMethod(methodDefHandle) as EcmaMethod;
builder.EmitReloc(((ReadyToRunCodegenNodeFactory)factory).CopiedMethodIL(method), RelocType.IMAGE_REL_BASED_ADDR32NB);
}
// Skip the rest of the row
int remainingBytes = rowSize - sizeof(int);
builder.EmitBytes(reader.ReadBytes(remainingBytes));
}
}
public override ObjectData GetData(NodeFactory factory, bool relocsOnly = false)
{
ObjectDataBuilder builder = new ObjectDataBuilder(factory, relocsOnly);
builder.AddSymbol(this);
builder.EmitBytes(Encoding.UTF8.GetBytes(_ownerExecutableName));
builder.EmitByte(0); // zero string terminator
return(builder.ToObjectData());
}
public override ObjectData GetData(NodeFactory factory, bool relocsOnly = false)
{
ObjectDataBuilder builder = new ObjectDataBuilder(factory, relocsOnly);
builder.RequireInitialPointerAlignment();
builder.AddSymbol(this);
builder.EmitBytes(Encoding.ASCII.GetBytes(_compilerIdentifier));
return(builder.ToObjectData());
}
public override ObjectData GetData(NodeFactory factory, bool relocsOnly = false)
{
ObjectDataBuilder builder = new ObjectDataBuilder(factory, relocsOnly);
builder.RequireInitialPointerAlignment();
builder.AddSymbol(this);
builder.EmitBytes(Encoding.UTF8.GetBytes(_ownerExecutableName));
return(builder.ToObjectData());
}
public override void EncodeData(ref ObjectDataBuilder dataBuilder, NodeFactory factory, bool relocsOnly)
{
if (relocsOnly)
{
return;
}
for (int frameInfoIndex = 0; frameInfoIndex < _methodNode.FrameInfos.Length; frameInfoIndex++)
{
byte[] unwindInfo = _methodNode.FrameInfos[frameInfoIndex].BlobData;
if (factory.Target.Architecture == Internal.TypeSystem.TargetArchitecture.X64)
{
// On Amd64, patch the first byte of the unwind info by setting the flags to EHANDLER | UHANDLER
// as that's what CoreCLR does (zapcode.cpp, ZapUnwindData::Save).
const byte UNW_FLAG_EHANDLER = 1;
const byte UNW_FLAG_UHANDLER = 2;
const byte FlagsShift = 3;
unwindInfo[0] |= (byte)((UNW_FLAG_EHANDLER | UNW_FLAG_UHANDLER) << FlagsShift);
}
dataBuilder.EmitBytes(unwindInfo);
// 4-align after emitting the unwind info
dataBuilder.EmitZeros(-unwindInfo.Length & 3);
if (factory.Target.Architecture != Internal.TypeSystem.TargetArchitecture.X86)
{
bool isFilterFunclet = (_methodNode.FrameInfos[frameInfoIndex].Flags & FrameInfoFlags.Filter) != 0;
ReadyToRunCodegenNodeFactory r2rFactory = (ReadyToRunCodegenNodeFactory)factory;
ISymbolNode personalityRoutine = (isFilterFunclet ? r2rFactory.FilterFuncletPersonalityRoutine : r2rFactory.PersonalityRoutine);
dataBuilder.EmitReloc(personalityRoutine, RelocType.IMAGE_REL_BASED_ADDR32NB);
}
if (frameInfoIndex == 0 && _methodNode.GCInfo != null)
{
dataBuilder.EmitBytes(_methodNode.GCInfo);
// Maintain 4-alignment for the next unwind / GC info block
int align4Pad = -_methodNode.GCInfo.Length & 3;
dataBuilder.EmitZeros(align4Pad);
}
}
}
public void WriteData(ref ObjectDataBuilder builder, NodeFactory factory, bool relocsOnly = false)
{
int offset = Offset;
if (FixupInfos != null)
{
int startOffset = builder.CountBytes;
for (int i = 0; i < FixupInfos.Count; ++i)
{
var fixupInfo = FixupInfos[i];
// do we have overlapping fixups?
if (fixupInfo.Offset < offset)
{
throw new BadImageFormatException();
}
if (!relocsOnly)
{
// emit bytes before fixup
builder.EmitBytes(Data, offset, fixupInfo.Offset - offset);
}
// write the fixup
FixupInfos[i].WriteData(ref builder, factory);
// move pointer past the fixup
offset = Offset + builder.CountBytes - startOffset;
}
}
if (offset > Data.Length)
{
throw new BadImageFormatException();
}
if (!relocsOnly)
{
// Emit remaining bytes
builder.EmitBytes(Data, offset, Data.Length - offset);
}
}
public unsafe override ObjectData GetData(NodeFactory factory, bool relocsOnly = false)
{
ObjectDataBuilder builder = new ObjectDataBuilder(factory, relocsOnly);
builder.RequireInitialPointerAlignment();
builder.AddSymbol(this);
BlobReader metadataBlob = new BlobReader(_sourceModule.PEReader.GetMetadata().Pointer, _sourceModule.PEReader.GetMetadata().Length);
var metadataReader = _sourceModule.MetadataReader;
//
// methodDef table
//
int methodDefTableOffset = metadataReader.GetTableMetadataOffset(TableIndex.MethodDef);
builder.EmitBytes(metadataBlob.ReadBytes(methodDefTableOffset));
WriteMethodTableRvas(factory, ref builder, ref metadataBlob);
//
// fieldRva table
//
int fieldRvaTableOffset = metadataReader.GetTableMetadataOffset(TableIndex.FieldRva);
builder.EmitBytes(metadataBlob.ReadBytes(fieldRvaTableOffset - metadataBlob.Offset));
WriteFieldRvas(factory, ref builder, ref metadataBlob);
// Copy the rest of the metadata blob
builder.EmitBytes(metadataBlob.ReadBytes(metadataReader.MetadataLength - metadataBlob.Offset));
Debug.Assert(builder.CountBytes == metadataBlob.Length);
Debug.Assert(builder.CountBytes == metadataBlob.Offset);
Debug.Assert(builder.CountBytes == Size);
return(builder.ToObjectData());
}
public override ObjectData GetData(NodeFactory factory, bool relocsOnly = false)
{
if (relocsOnly)
{
return(new ObjectData(
data: Array.Empty <byte>(),
relocs: Array.Empty <Relocation>(),
alignment: 1,
definedSymbols: new ISymbolDefinitionNode[] { this }));
}
ObjectDataBuilder builder = new ObjectDataBuilder(factory, relocsOnly);
builder.RequireInitialPointerAlignment();
builder.AddSymbol(this);
builder.EmitBytes(GetRvaData(factory.Target.PointerSize));
return(builder.ToObjectData());
}
public override void EncodeData(ref ObjectDataBuilder dataBuilder, NodeFactory factory, bool relocsOnly)
{
ProfileDataNode nextElementInList = ((ProfileDataSectionNode)ContainingNode).NextElementToEncode;
if (nextElementInList != null)
{
dataBuilder.EmitPointerReloc(nextElementInList, -OffsetFromStartOfObjectToSymbol);
}
else
{
dataBuilder.EmitZeroPointer();
}
if (relocsOnly)
{
return;
}
EcmaMethod ecmaMethod = (EcmaMethod)_methodNode.Method.GetTypicalMethodDefinition();
int startOffset = dataBuilder.CountBytes;
var reservation = dataBuilder.ReserveInt();
dataBuilder.EmitInt(0); // CORBBTPROF_METHOD_HEADER::cDetail
dataBuilder.EmitInt(ecmaMethod.MetadataReader.GetToken(ecmaMethod.Handle)); // CORBBT_METHOD_INFO::token
dataBuilder.EmitInt(_ilSize); // CORBBT_METHOD_INFO::ILSize
dataBuilder.EmitInt(_blockCount); // CORBBT_METHOD_INFO::cBlock
int sizeOfCORBBTPROF_METHOD_HEADER = dataBuilder.CountBytes - startOffset;
Debug.Assert(sizeOfCORBBTPROF_METHOD_HEADER == (OffsetFromStartOfObjectToSymbol - _targetDetails.PointerSize));
dataBuilder.EmitInt(reservation, sizeOfCORBBTPROF_METHOD_HEADER + _profileData.Length);
dataBuilder.EmitBytes(_profileData);
while ((dataBuilder.CountBytes & (dataBuilder.TargetPointerSize - 1)) != 0)
{
dataBuilder.EmitByte(0);
}
}
public override ObjectData GetData(NodeFactory factory, bool relocsOnly = false)
{
if (relocsOnly)
{
return(new ObjectData(
data: Array.Empty <byte>(),
relocs: Array.Empty <Relocation>(),
alignment: 1,
definedSymbols: new ISymbolDefinitionNode[] { this }));
}
ObjectDataBuilder builder = new ObjectDataBuilder(factory, relocsOnly);
builder.RequireInitialAlignment(4);
builder.AddSymbol(this);
DirectoryEntry resourcesDirectory = _module.PEReader.PEHeaders.CorHeader.ResourcesDirectory;
PEMemoryBlock block = _module.PEReader.GetSectionData(resourcesDirectory.RelativeVirtualAddress);
builder.EmitBytes(block.GetReader().ReadBytes(resourcesDirectory.Size));
return(builder.ToObjectData());
}
public override ObjectData GetData(NodeFactory factory, bool relocsOnly = false)
{
// This node does not trigger generation of other nodes.
if (relocsOnly)
{
return(new ObjectData(Array.Empty <byte>(), Array.Empty <Relocation>(), 1, new ISymbolDefinitionNode[] { this }));
}
List <CustomAttributeEntry> customAttributeEntries = GetCustomAttributeEntries();
int countOfEntries = customAttributeEntries.Count;
if (countOfEntries == 0)
{
return(new ObjectData(Array.Empty <byte>(), Array.Empty <Relocation>(), 1, new ISymbolDefinitionNode[] { this }));
}
// Buckets have 8 entries
uint minTableBucketCount = (uint)(countOfEntries / 8) + 1;
uint bucketCount = 1;
// Bucket count must be power of two
while (bucketCount < minTableBucketCount)
{
bucketCount *= 2;
}
// Resize the array.
bool tryAgainWithBiggerTable = false;
int countOfRetries = 0;
ushort[] pTable;
do
{
tryAgainWithBiggerTable = false;
uint actualSizeOfTable = bucketCount * 8; // Buckets have 8 entries in them
pTable = new ushort[actualSizeOfTable];
uint[] state = new uint[] { 729055690, 833774698, 218408041, 493449127 };
// Attempt to fill table
foreach (var customAttributeEntry in customAttributeEntries)
{
string name = customAttributeEntry.TypeNamespace + "." + customAttributeEntry.TypeName;
// This hashing algorithm MUST match exactly the logic in NativeCuckooFilter
int hashOfAttribute = ReadyToRunHashCode.NameHashCode(name);
uint hash = unchecked ((uint)ReadyToRunHashCode.CombineTwoValuesIntoHash((uint)hashOfAttribute, (uint)customAttributeEntry.Parent));
ushort fingerprint = (ushort)(hash >> 16);
if (fingerprint == 0)
{
fingerprint = 1;
}
uint bucketAIndex = hash % bucketCount;
uint fingerprintHash = (uint)fingerprint;
uint bucketBIndex = (bucketAIndex ^ (fingerprintHash % bucketCount));
Debug.Assert(bucketAIndex == (bucketBIndex ^ (fingerprintHash % bucketCount)));
if ((XorShift128(state) & 1) != 0) // Randomly choose which bucket to attempt to fill first
{
uint temp = bucketAIndex;
bucketAIndex = bucketBIndex;
bucketBIndex = temp;
}
Func <uint, ushort, bool> hasEntryInBucket = (uint bucketIndex, ushort fprint) =>
{
for (int i = 0; i < 8; i++)
{
if (pTable[(bucketIndex * 8) + i] == fprint)
{
return(true);
}
}
return(false);
};
Func <uint, bool> isEmptyEntryInBucket = (uint bucketIndex) =>
{
for (int i = 0; i < 8; i++)
{
if (pTable[(bucketIndex * 8) + i] == 0)
{
return(true);
}
}
return(false);
};
Action <uint, ushort> fillEmptyEntryInBucket = (uint bucketIndex, ushort fprint) =>
{
for (int i = 0; i < 8; i++)
{
if (pTable[(bucketIndex * 8) + i] == 0)
{
pTable[(bucketIndex * 8) + i] = fprint;
return;
}
}
Debug.Assert(false, "Not possible to reach here");
};
// Scan for pre-existing fingerprint entry in buckets
if (hasEntryInBucket(bucketAIndex, fingerprint) || hasEntryInBucket(bucketBIndex, fingerprint))
{
continue;
}
// Determine if there is space in a bucket to add a new entry
if (isEmptyEntryInBucket(bucketAIndex))
{
fillEmptyEntryInBucket(bucketAIndex, fingerprint);
continue;
}
if (isEmptyEntryInBucket(bucketBIndex))
{
fillEmptyEntryInBucket(bucketBIndex, fingerprint);
continue;
}
bool success = false;
int MaxNumKicks = 256;
// Note, that bucketAIndex itself was chosen randomly above.
for (int n = 0; !success && n < MaxNumKicks; n++)
{
// Randomly swap an entry in bucket bucketAIndex with fingerprint
uint entryIndexInBucket = XorShift128(state) & 0x7;
ushort temp = fingerprint;
fingerprint = pTable[(bucketAIndex * 8) + entryIndexInBucket];
pTable[(bucketAIndex * 8) + entryIndexInBucket] = temp;
// Find other bucket
fingerprintHash = (uint)fingerprint;
bucketAIndex = bucketAIndex ^ (fingerprintHash % bucketCount);
if (isEmptyEntryInBucket(bucketAIndex))
{
fillEmptyEntryInBucket(bucketAIndex, fingerprint);
success = true;
}
}
if (success)
{
continue;
}
tryAgainWithBiggerTable = true;
}
if (tryAgainWithBiggerTable)
{
// bucket entry kicking path requires bucket counts to be power of two in size due to use of xor to retrieve second hash
bucketCount *= 2;
}
}while(tryAgainWithBiggerTable && ((countOfRetries++) < 2));
byte[] result;
if (tryAgainWithBiggerTable)
{
result = Array.Empty <byte>();
}
else
{
result = new byte[pTable.Length * 2];
for (int i = 0; i < pTable.Length; i++)
{
result[i * 2] = (byte)(pTable[i] % 256);
result[i * 2 + 1] = (byte)(pTable[i] >> 8);
}
}
ObjectDataBuilder builder = new ObjectDataBuilder(factory, relocsOnly);
builder.RequireInitialAlignment(16);
builder.AddSymbol(this);
builder.EmitBytes(result);
return(builder.ToObjectData());;
}
public void WriteResources(ISymbolNode nodeAssociatedWithDataBuilder, ref ObjectDataBuilder dataBuilder)
{
Debug.Assert(dataBuilder.CountBytes == 0);
SortedDictionary <string, List <ObjectDataBuilder.Reservation> > nameTable = new SortedDictionary <string, List <ObjectDataBuilder.Reservation> >();
Dictionary <ResLanguage, int> dataEntryTable = new Dictionary <ResLanguage, int>();
List <Tuple <ResType, ObjectDataBuilder.Reservation> > resTypes = new List <Tuple <ResType, ObjectDataBuilder.Reservation> >();
List <Tuple <ResName, ObjectDataBuilder.Reservation> > resNames = new List <Tuple <ResName, ObjectDataBuilder.Reservation> >();
List <Tuple <ResLanguage, ObjectDataBuilder.Reservation> > resLanguages = new List <Tuple <ResLanguage, ObjectDataBuilder.Reservation> >();
IMAGE_RESOURCE_DIRECTORY.Write(ref dataBuilder, checked ((ushort)_resTypeHeadName.Count), checked ((ushort)_resTypeHeadID.Count));
foreach (KeyValuePair <string, ResType> res in _resTypeHeadName)
{
resTypes.Add(new Tuple <ResType, ObjectDataBuilder.Reservation>(res.Value, IMAGE_RESOURCE_DIRECTORY_ENTRY.Write(ref dataBuilder, res.Key, nameTable)));
}
foreach (KeyValuePair <ushort, ResType> res in _resTypeHeadID)
{
resTypes.Add(new Tuple <ResType, ObjectDataBuilder.Reservation>(res.Value, IMAGE_RESOURCE_DIRECTORY_ENTRY.Write(ref dataBuilder, res.Key)));
}
foreach (Tuple <ResType, ObjectDataBuilder.Reservation> type in resTypes)
{
dataBuilder.EmitUInt(type.Item2, (uint)dataBuilder.CountBytes | 0x80000000);
IMAGE_RESOURCE_DIRECTORY.Write(ref dataBuilder, checked ((ushort)type.Item1.NameHeadName.Count), checked ((ushort)type.Item1.NameHeadID.Count));
foreach (KeyValuePair <string, ResName> res in type.Item1.NameHeadName)
{
resNames.Add(new Tuple <ResName, ObjectDataBuilder.Reservation>(res.Value, IMAGE_RESOURCE_DIRECTORY_ENTRY.Write(ref dataBuilder, res.Key, nameTable)));
}
foreach (KeyValuePair <ushort, ResName> res in type.Item1.NameHeadID)
{
resNames.Add(new Tuple <ResName, ObjectDataBuilder.Reservation>(res.Value, IMAGE_RESOURCE_DIRECTORY_ENTRY.Write(ref dataBuilder, res.Key)));
}
}
foreach (Tuple <ResName, ObjectDataBuilder.Reservation> type in resNames)
{
dataBuilder.EmitUInt(type.Item2, (uint)dataBuilder.CountBytes | 0x80000000);
IMAGE_RESOURCE_DIRECTORY.Write(ref dataBuilder, 0, checked ((ushort)type.Item1.Languages.Count));
foreach (KeyValuePair <ushort, ResLanguage> res in type.Item1.Languages)
{
resLanguages.Add(new Tuple <ResLanguage, ObjectDataBuilder.Reservation>(res.Value, IMAGE_RESOURCE_DIRECTORY_ENTRY.Write(ref dataBuilder, res.Key)));
}
}
// Emit name table
dataBuilder.PadAlignment(2); // name table is 2 byte aligned
foreach (KeyValuePair <string, List <ObjectDataBuilder.Reservation> > name in nameTable)
{
foreach (ObjectDataBuilder.Reservation reservation in name.Value)
{
dataBuilder.EmitUInt(reservation, (uint)dataBuilder.CountBytes | 0x80000000);
}
dataBuilder.EmitUShort(checked ((ushort)name.Key.Length));
foreach (char c in name.Key)
{
dataBuilder.EmitUShort((ushort)c);
}
}
// Emit byte arrays of resource data, capture the offsets
foreach (Tuple <ResLanguage, ObjectDataBuilder.Reservation> language in resLanguages)
{
dataBuilder.PadAlignment(4); // Data in resource files is 4 byte aligned
dataEntryTable.Add(language.Item1, dataBuilder.CountBytes);
dataBuilder.EmitBytes(language.Item1.DataEntry);
}
dataBuilder.PadAlignment(4); // resource data entries are 4 byte aligned
foreach (Tuple <ResLanguage, ObjectDataBuilder.Reservation> language in resLanguages)
{
dataBuilder.EmitInt(language.Item2, dataBuilder.CountBytes);
IMAGE_RESOURCE_DATA_ENTRY.Write(ref dataBuilder, nodeAssociatedWithDataBuilder, dataEntryTable[language.Item1], language.Item1.DataEntry.Length);
}
dataBuilder.PadAlignment(4); // resource data entries are 4 byte aligned
}
private void ComputeDependencyNodeDependencies(List <DependencyNodeCore <NodeFactory> > obj)
{
foreach (MethodCodeNode methodCodeNodeNeedingCode in obj)
{
MethodDesc method = methodCodeNodeNeedingCode.Method;
string methodName = method.ToString();
Log.WriteLine("Compiling " + methodName);
var methodIL = _ilProvider.GetMethodIL(method);
if (methodIL == null)
{
return;
}
MethodCode methodCode;
try
{
if (_skipJitList.Contains(new TypeAndMethod(method.OwningType.Name, method.Name)))
{
throw new NotImplementedException("SkipJIT");
}
methodCode = _corInfo.CompileMethod(method);
if (methodCode.Relocs != null)
{
if (methodCode.Relocs.Any(r => r.Target is FieldDesc))
{
// We only support FieldDesc for InitializeArray intrinsic right now.
throw new NotImplementedException("RuntimeFieldHandle is not implemented");
}
}
}
catch (Exception e)
{
Log.WriteLine("*** " + e.Message + " (" + method + ")");
// Call the __not_yet_implemented method
DependencyAnalysis.X64.X64Emitter emit = new DependencyAnalysis.X64.X64Emitter(_nodeFactory);
emit.Builder.RequireAlignment(_nodeFactory.Target.MinimumFunctionAlignment);
emit.Builder.DefinedSymbols.Add(methodCodeNodeNeedingCode);
emit.EmitLEAQ(emit.TargetRegister.Arg0, _nodeFactory.StringIndirection(method.ToString()));
DependencyAnalysis.X64.AddrMode loadFromArg0 =
new DependencyAnalysis.X64.AddrMode(emit.TargetRegister.Arg0, null, 0, 0, DependencyAnalysis.X64.AddrModeSize.Int64);
emit.EmitMOV(emit.TargetRegister.Arg0, ref loadFromArg0);
emit.EmitMOV(emit.TargetRegister.Arg0, ref loadFromArg0);
emit.EmitLEAQ(emit.TargetRegister.Arg1, _nodeFactory.StringIndirection(e.Message));
DependencyAnalysis.X64.AddrMode loadFromArg1 =
new DependencyAnalysis.X64.AddrMode(emit.TargetRegister.Arg1, null, 0, 0, DependencyAnalysis.X64.AddrModeSize.Int64);
emit.EmitMOV(emit.TargetRegister.Arg1, ref loadFromArg1);
emit.EmitMOV(emit.TargetRegister.Arg1, ref loadFromArg1);
emit.EmitJMP(_nodeFactory.ExternSymbol("__not_yet_implemented"));
methodCodeNodeNeedingCode.SetCode(emit.Builder.ToObjectData());
continue;
}
ObjectDataBuilder objData = new ObjectDataBuilder();
objData.Alignment = _nodeFactory.Target.MinimumFunctionAlignment;
objData.EmitBytes(methodCode.Code);
objData.DefinedSymbols.Add(methodCodeNodeNeedingCode);
BlobNode readOnlyDataBlob = null;
if (methodCode.ROData != null)
{
readOnlyDataBlob = _nodeFactory.ReadOnlyDataBlob(
"__readonlydata_" + _nameMangler.GetMangledMethodName(method),
methodCode.ROData, methodCode.RODataAlignment);
}
if (methodCode.Relocs != null)
{
for (int i = 0; i < methodCode.Relocs.Length; i++)
{
// TODO: Arbitrary relocs
if (methodCode.Relocs[i].Block != BlockType.Code)
{
throw new NotImplementedException();
}
int offset = methodCode.Relocs[i].Offset;
int delta = methodCode.Relocs[i].Delta;
RelocType relocType = (RelocType)methodCode.Relocs[i].RelocType;
ISymbolNode targetNode;
object target = methodCode.Relocs[i].Target;
if (target is MethodDesc)
{
targetNode = _nodeFactory.MethodEntrypoint((MethodDesc)target);
}
else if (target is ReadyToRunHelper)
{
targetNode = _nodeFactory.ReadyToRunHelper((ReadyToRunHelper)target);
}
else if (target is JitHelper)
{
targetNode = _nodeFactory.ExternSymbol(((JitHelper)target).MangledName);
}
else if (target is string)
{
targetNode = _nodeFactory.StringIndirection((string)target);
}
else if (target is TypeDesc)
{
targetNode = _nodeFactory.NecessaryTypeSymbol((TypeDesc)target);
}
else if (target is RvaFieldData)
{
var rvaFieldData = (RvaFieldData)target;
targetNode = _nodeFactory.ReadOnlyDataBlob(rvaFieldData.MangledName,
rvaFieldData.Data, _typeSystemContext.Target.PointerSize);
}
else if (target is BlockRelativeTarget)
{
var blockRelativeTarget = (BlockRelativeTarget)target;
// TODO: Arbitrary block relative relocs
if (blockRelativeTarget.Block != BlockType.ROData)
{
throw new NotImplementedException();
}
targetNode = readOnlyDataBlob;
}
else
{
// TODO:
throw new NotImplementedException();
}
objData.AddRelocAtOffset(targetNode, relocType, offset, delta);
}
}
// TODO: ColdCode
if (methodCode.ColdCode != null)
{
throw new NotImplementedException();
}
methodCodeNodeNeedingCode.SetCode(objData.ToObjectData());
methodCodeNodeNeedingCode.InitializeFrameInfos(methodCode.FrameInfos);
methodCodeNodeNeedingCode.InitializeDebugLocInfos(methodCode.DebugLocInfos);
}
}