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da62155c11
MCJIT.
This patch decouples the two responsibilities of the RTDyldMemoryManager class,
memory management and symbol resolution, into two new classes:
RuntimeDyld::MemoryManager and RuntimeDyld::SymbolResolver.
The symbol resolution interface is modified slightly, from:
uint64_t getSymbolAddress(const std::string &Name);
to:
RuntimeDyld::SymbolInfo findSymbol(const std::string &Name);
The latter passes symbol flags along with symbol addresses, allowing RuntimeDyld
and others to reason about non-strong/non-exported symbols.
The memory management interface removes the following method:
void notifyObjectLoaded(ExecutionEngine *EE,
const object::ObjectFile &) {}
as it is not related to memory management. (Note: Backwards compatibility *is*
maintained for this method in MCJIT and OrcMCJITReplacement, see below).
The RTDyldMemoryManager class remains in-tree for backwards compatibility.
It inherits directly from RuntimeDyld::SymbolResolver, and indirectly from
RuntimeDyld::MemoryManager via the new MCJITMemoryManager class, which
just subclasses RuntimeDyld::MemoryManager and reintroduces the
notifyObjectLoaded method for backwards compatibility).
The EngineBuilder class retains the existing method:
EngineBuilder&
setMCJITMemoryManager(std::unique_ptr<RTDyldMemoryManager> mcjmm);
and includes two new methods:
EngineBuilder&
setMemoryManager(std::unique_ptr<MCJITMemoryManager> MM);
EngineBuilder&
setSymbolResolver(std::unique_ptr<RuntimeDyld::SymbolResolver> SR);
Clients should use EITHER:
A single call to setMCJITMemoryManager with an RTDyldMemoryManager.
OR (exclusive)
One call each to each of setMemoryManager and setSymbolResolver.
This patch should be fully compatible with existing uses of RTDyldMemoryManager.
If it is not it should be considered a bug, and the patch either fixed or
reverted.
If clients find the new API to be an improvement the goal will be to deprecate
and eventually remove the RTDyldMemoryManager class in favor of the new classes.
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@233509 91177308-0d34-0410-b5e6-96231b3b80d8
263 lines
9.8 KiB
C++
263 lines
9.8 KiB
C++
//===---- RuntimeDyldMachOI386.h ---- MachO/I386 specific code. ---*- C++ -*-=//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_LIB_EXECUTIONENGINE_RUNTIMEDYLD_TARGETS_RUNTIMEDYLDMACHOI386_H
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#define LLVM_LIB_EXECUTIONENGINE_RUNTIMEDYLD_TARGETS_RUNTIMEDYLDMACHOI386_H
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#include "../RuntimeDyldMachO.h"
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#define DEBUG_TYPE "dyld"
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namespace llvm {
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class RuntimeDyldMachOI386
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: public RuntimeDyldMachOCRTPBase<RuntimeDyldMachOI386> {
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public:
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typedef uint32_t TargetPtrT;
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RuntimeDyldMachOI386(RuntimeDyld::MemoryManager &MM,
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RuntimeDyld::SymbolResolver &Resolver)
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: RuntimeDyldMachOCRTPBase(MM, Resolver) {}
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unsigned getMaxStubSize() override { return 0; }
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unsigned getStubAlignment() override { return 1; }
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relocation_iterator
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processRelocationRef(unsigned SectionID, relocation_iterator RelI,
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const ObjectFile &BaseObjT,
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ObjSectionToIDMap &ObjSectionToID,
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StubMap &Stubs) override {
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const MachOObjectFile &Obj =
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static_cast<const MachOObjectFile &>(BaseObjT);
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MachO::any_relocation_info RelInfo =
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Obj.getRelocation(RelI->getRawDataRefImpl());
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uint32_t RelType = Obj.getAnyRelocationType(RelInfo);
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if (Obj.isRelocationScattered(RelInfo)) {
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if (RelType == MachO::GENERIC_RELOC_SECTDIFF ||
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RelType == MachO::GENERIC_RELOC_LOCAL_SECTDIFF)
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return processSECTDIFFRelocation(SectionID, RelI, Obj,
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ObjSectionToID);
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else if (RelType == MachO::GENERIC_RELOC_VANILLA)
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return processI386ScatteredVANILLA(SectionID, RelI, Obj,
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ObjSectionToID);
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llvm_unreachable("Unhandled scattered relocation.");
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}
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RelocationEntry RE(getRelocationEntry(SectionID, Obj, RelI));
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RE.Addend = memcpyAddend(RE);
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RelocationValueRef Value(
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getRelocationValueRef(Obj, RelI, RE, ObjSectionToID));
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// Addends for external, PC-rel relocations on i386 point back to the zero
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// offset. Calculate the final offset from the relocation target instead.
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// This allows us to use the same logic for both external and internal
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// relocations in resolveI386RelocationRef.
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// bool IsExtern = Obj.getPlainRelocationExternal(RelInfo);
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// if (IsExtern && RE.IsPCRel) {
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// uint64_t RelocAddr = 0;
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// RelI->getAddress(RelocAddr);
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// Value.Addend += RelocAddr + 4;
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// }
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if (RE.IsPCRel)
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makeValueAddendPCRel(Value, Obj, RelI, 1 << RE.Size);
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RE.Addend = Value.Offset;
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if (Value.SymbolName)
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addRelocationForSymbol(RE, Value.SymbolName);
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else
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addRelocationForSection(RE, Value.SectionID);
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return ++RelI;
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}
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void resolveRelocation(const RelocationEntry &RE, uint64_t Value) override {
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DEBUG(dumpRelocationToResolve(RE, Value));
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const SectionEntry &Section = Sections[RE.SectionID];
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uint8_t *LocalAddress = Section.Address + RE.Offset;
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if (RE.IsPCRel) {
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uint64_t FinalAddress = Section.LoadAddress + RE.Offset;
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Value -= FinalAddress + 4; // see MachOX86_64::resolveRelocation.
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}
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switch (RE.RelType) {
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default:
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llvm_unreachable("Invalid relocation type!");
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case MachO::GENERIC_RELOC_VANILLA:
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writeBytesUnaligned(Value + RE.Addend, LocalAddress, 1 << RE.Size);
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break;
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case MachO::GENERIC_RELOC_SECTDIFF:
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case MachO::GENERIC_RELOC_LOCAL_SECTDIFF: {
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uint64_t SectionABase = Sections[RE.Sections.SectionA].LoadAddress;
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uint64_t SectionBBase = Sections[RE.Sections.SectionB].LoadAddress;
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assert((Value == SectionABase || Value == SectionBBase) &&
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"Unexpected SECTDIFF relocation value.");
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Value = SectionABase - SectionBBase + RE.Addend;
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writeBytesUnaligned(Value, LocalAddress, 1 << RE.Size);
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break;
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}
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case MachO::GENERIC_RELOC_PB_LA_PTR:
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Error("Relocation type not implemented yet!");
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}
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}
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void finalizeSection(const ObjectFile &Obj, unsigned SectionID,
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const SectionRef &Section) {
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StringRef Name;
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Section.getName(Name);
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if (Name == "__jump_table")
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populateJumpTable(cast<MachOObjectFile>(Obj), Section, SectionID);
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else if (Name == "__pointers")
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populateIndirectSymbolPointersSection(cast<MachOObjectFile>(Obj),
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Section, SectionID);
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}
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private:
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relocation_iterator
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processSECTDIFFRelocation(unsigned SectionID, relocation_iterator RelI,
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const ObjectFile &BaseObjT,
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ObjSectionToIDMap &ObjSectionToID) {
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const MachOObjectFile &Obj =
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static_cast<const MachOObjectFile&>(BaseObjT);
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MachO::any_relocation_info RE =
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Obj.getRelocation(RelI->getRawDataRefImpl());
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SectionEntry &Section = Sections[SectionID];
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uint32_t RelocType = Obj.getAnyRelocationType(RE);
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bool IsPCRel = Obj.getAnyRelocationPCRel(RE);
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unsigned Size = Obj.getAnyRelocationLength(RE);
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uint64_t Offset;
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RelI->getOffset(Offset);
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uint8_t *LocalAddress = Section.Address + Offset;
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unsigned NumBytes = 1 << Size;
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uint64_t Addend = readBytesUnaligned(LocalAddress, NumBytes);
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++RelI;
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MachO::any_relocation_info RE2 =
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Obj.getRelocation(RelI->getRawDataRefImpl());
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uint32_t AddrA = Obj.getScatteredRelocationValue(RE);
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section_iterator SAI = getSectionByAddress(Obj, AddrA);
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assert(SAI != Obj.section_end() && "Can't find section for address A");
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uint64_t SectionABase = SAI->getAddress();
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uint64_t SectionAOffset = AddrA - SectionABase;
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SectionRef SectionA = *SAI;
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bool IsCode = SectionA.isText();
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uint32_t SectionAID =
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findOrEmitSection(Obj, SectionA, IsCode, ObjSectionToID);
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uint32_t AddrB = Obj.getScatteredRelocationValue(RE2);
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section_iterator SBI = getSectionByAddress(Obj, AddrB);
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assert(SBI != Obj.section_end() && "Can't find section for address B");
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uint64_t SectionBBase = SBI->getAddress();
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uint64_t SectionBOffset = AddrB - SectionBBase;
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SectionRef SectionB = *SBI;
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uint32_t SectionBID =
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findOrEmitSection(Obj, SectionB, IsCode, ObjSectionToID);
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if (Addend != AddrA - AddrB)
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Error("Unexpected SECTDIFF relocation addend.");
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DEBUG(dbgs() << "Found SECTDIFF: AddrA: " << AddrA << ", AddrB: " << AddrB
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<< ", Addend: " << Addend << ", SectionA ID: " << SectionAID
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<< ", SectionAOffset: " << SectionAOffset
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<< ", SectionB ID: " << SectionBID
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<< ", SectionBOffset: " << SectionBOffset << "\n");
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RelocationEntry R(SectionID, Offset, RelocType, 0, SectionAID,
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SectionAOffset, SectionBID, SectionBOffset, IsPCRel,
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Size);
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addRelocationForSection(R, SectionAID);
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addRelocationForSection(R, SectionBID);
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return ++RelI;
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}
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relocation_iterator processI386ScatteredVANILLA(
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unsigned SectionID, relocation_iterator RelI,
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const ObjectFile &BaseObjT,
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RuntimeDyldMachO::ObjSectionToIDMap &ObjSectionToID) {
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const MachOObjectFile &Obj =
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static_cast<const MachOObjectFile&>(BaseObjT);
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MachO::any_relocation_info RE =
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Obj.getRelocation(RelI->getRawDataRefImpl());
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SectionEntry &Section = Sections[SectionID];
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uint32_t RelocType = Obj.getAnyRelocationType(RE);
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bool IsPCRel = Obj.getAnyRelocationPCRel(RE);
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unsigned Size = Obj.getAnyRelocationLength(RE);
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uint64_t Offset;
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RelI->getOffset(Offset);
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uint8_t *LocalAddress = Section.Address + Offset;
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unsigned NumBytes = 1 << Size;
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int64_t Addend = readBytesUnaligned(LocalAddress, NumBytes);
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unsigned SymbolBaseAddr = Obj.getScatteredRelocationValue(RE);
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section_iterator TargetSI = getSectionByAddress(Obj, SymbolBaseAddr);
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assert(TargetSI != Obj.section_end() && "Can't find section for symbol");
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uint64_t SectionBaseAddr = TargetSI->getAddress();
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SectionRef TargetSection = *TargetSI;
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bool IsCode = TargetSection.isText();
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uint32_t TargetSectionID =
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findOrEmitSection(Obj, TargetSection, IsCode, ObjSectionToID);
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Addend -= SectionBaseAddr;
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RelocationEntry R(SectionID, Offset, RelocType, Addend, IsPCRel, Size);
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addRelocationForSection(R, TargetSectionID);
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return ++RelI;
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}
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// Populate stubs in __jump_table section.
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void populateJumpTable(const MachOObjectFile &Obj, const SectionRef &JTSection,
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unsigned JTSectionID) {
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assert(!Obj.is64Bit() &&
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"__jump_table section not supported in 64-bit MachO.");
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MachO::dysymtab_command DySymTabCmd = Obj.getDysymtabLoadCommand();
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MachO::section Sec32 = Obj.getSection(JTSection.getRawDataRefImpl());
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uint32_t JTSectionSize = Sec32.size;
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unsigned FirstIndirectSymbol = Sec32.reserved1;
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unsigned JTEntrySize = Sec32.reserved2;
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unsigned NumJTEntries = JTSectionSize / JTEntrySize;
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uint8_t *JTSectionAddr = getSectionAddress(JTSectionID);
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unsigned JTEntryOffset = 0;
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assert((JTSectionSize % JTEntrySize) == 0 &&
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"Jump-table section does not contain a whole number of stubs?");
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for (unsigned i = 0; i < NumJTEntries; ++i) {
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unsigned SymbolIndex =
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Obj.getIndirectSymbolTableEntry(DySymTabCmd, FirstIndirectSymbol + i);
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symbol_iterator SI = Obj.getSymbolByIndex(SymbolIndex);
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StringRef IndirectSymbolName;
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SI->getName(IndirectSymbolName);
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uint8_t *JTEntryAddr = JTSectionAddr + JTEntryOffset;
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createStubFunction(JTEntryAddr);
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RelocationEntry RE(JTSectionID, JTEntryOffset + 1,
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MachO::GENERIC_RELOC_VANILLA, 0, true, 2);
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addRelocationForSymbol(RE, IndirectSymbolName);
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JTEntryOffset += JTEntrySize;
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}
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}
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};
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}
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#undef DEBUG_TYPE
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#endif
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