2012-01-22 15:05:02 +08:00
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//===-- RuntimeDyldELF.h - Run-time dynamic linker for MC-JIT ---*- 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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//
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// ELF support for MC-JIT runtime dynamic linker.
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//
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//===----------------------------------------------------------------------===//
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2014-08-14 00:26:38 +08:00
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#ifndef LLVM_LIB_EXECUTIONENGINE_RUNTIMEDYLD_RUNTIMEDYLDELF_H
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#define LLVM_LIB_EXECUTIONENGINE_RUNTIMEDYLD_RUNTIMEDYLDELF_H
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2012-01-22 15:05:02 +08:00
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#include "RuntimeDyldImpl.h"
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2013-10-05 09:52:09 +08:00
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#include "llvm/ADT/DenseMap.h"
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2012-01-22 15:05:02 +08:00
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using namespace llvm;
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namespace llvm {
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2012-10-29 18:47:04 +08:00
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2012-01-22 15:05:02 +08:00
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class RuntimeDyldELF : public RuntimeDyldImpl {
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2014-11-27 00:54:40 +08:00
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2014-03-22 04:28:42 +08:00
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void resolveRelocation(const SectionEntry &Section, uint64_t Offset,
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uint64_t Value, uint32_t Type, int64_t Addend,
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2015-05-28 21:48:41 +08:00
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uint64_t SymOffset = 0, SID SectionID = 0);
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2014-03-22 04:28:42 +08:00
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void resolveX86_64Relocation(const SectionEntry &Section, uint64_t Offset,
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uint64_t Value, uint32_t Type, int64_t Addend,
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2013-08-20 07:27:43 +08:00
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uint64_t SymOffset);
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2012-03-31 00:45:19 +08:00
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2014-03-22 04:28:42 +08:00
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void resolveX86Relocation(const SectionEntry &Section, uint64_t Offset,
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uint32_t Value, uint32_t Type, int32_t Addend);
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void resolveAArch64Relocation(const SectionEntry &Section, uint64_t Offset,
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uint64_t Value, uint32_t Type, int64_t Addend);
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void resolveARMRelocation(const SectionEntry &Section, uint64_t Offset,
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uint32_t Value, uint32_t Type, int32_t Addend);
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void resolveMIPSRelocation(const SectionEntry &Section, uint64_t Offset,
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uint32_t Value, uint32_t Type, int32_t Addend);
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void resolvePPC64Relocation(const SectionEntry &Section, uint64_t Offset,
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uint64_t Value, uint32_t Type, int64_t Addend);
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void resolveSystemZRelocation(const SectionEntry &Section, uint64_t Offset,
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uint64_t Value, uint32_t Type, int64_t Addend);
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2012-01-22 15:05:02 +08:00
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2015-05-28 21:48:41 +08:00
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void resolveMIPS64Relocation(const SectionEntry &Section, uint64_t Offset,
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uint64_t Value, uint32_t Type, int64_t Addend,
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uint64_t SymOffset, SID SectionID);
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int64_t evaluateMIPS64Relocation(const SectionEntry &Section,
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uint64_t Offset, uint64_t Value,
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uint32_t Type, int64_t Addend,
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uint64_t SymOffset, SID SectionID);
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void applyMIPS64Relocation(uint8_t *TargetPtr, int64_t CalculatedValue,
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uint32_t Type);
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2014-03-08 15:51:20 +08:00
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unsigned getMaxStubSize() override {
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2014-07-23 20:32:47 +08:00
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if (Arch == Triple::aarch64 || Arch == Triple::aarch64_be)
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2013-10-16 05:32:56 +08:00
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return 20; // movz; movk; movk; movk; br
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if (Arch == Triple::arm || Arch == Triple::thumb)
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return 8; // 32-bit instruction and 32-bit address
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2015-05-28 21:48:41 +08:00
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else if (IsMipsO32ABI)
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2013-10-16 05:32:56 +08:00
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return 16;
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else if (Arch == Triple::ppc64 || Arch == Triple::ppc64le)
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return 44;
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else if (Arch == Triple::x86_64)
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return 6; // 2-byte jmp instruction + 32-bit relative address
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else if (Arch == Triple::systemz)
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return 16;
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else
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return 0;
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}
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2014-03-08 15:51:20 +08:00
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unsigned getStubAlignment() override {
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2013-10-16 05:32:56 +08:00
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if (Arch == Triple::systemz)
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return 8;
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else
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return 1;
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}
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2015-05-28 21:48:41 +08:00
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void setMipsABI(const ObjectFile &Obj) override;
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2015-06-20 04:58:43 +08:00
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void findPPC64TOCSection(const ELFObjectFileBase &Obj,
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2014-11-27 00:54:40 +08:00
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ObjSectionToIDMap &LocalSections,
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[RuntimeDyld, PowerPC] Fix/improve handling of TOC relocations
Current PPC64 RuntimeDyld code to handle TOC relocations has two
problems:
- With recent linkers, in addition to the relocations that implicitly
refer to the TOC base (R_PPC64_TOC*), you can now also use the .TOC.
magic symbol with any other relocation to refer to the TOC base
explicitly. This isn't currently used much in ELFv1 code (although
it could be), but it is essential in ELFv2 code.
- In a complex JIT environment with multiple modules, each module may
have its own .toc section, and TOC relocations in one module must
refer to *its own* TOC section. The current findPPC64TOC implementation
does not correctly implement this; in fact, it will always return the
address of the first TOC section it finds anywhere. (Note that at the
time findPPC64TOC is called, we don't even *know* which module the
relocation originally resided in, so it is not even possible to fix
this routine as-is.)
This commit fixes both problems by handling TOC relocations earlier, in
processRelocationRef. To do this, I've removed the findPPC64TOC routine
and replaced it by a new routine findPPC64TOCSection, which works
analogously to findOPDEntrySection in scanning the sections of the
ObjImage provided by its caller, processRelocationRef. This solves the
issue of finding the correct TOC section associated with the current
module.
This makes it straightforward to implement both R_PPC64_TOC relocations,
and relocations explicitly refering to the .TOC. symbol, directly in
processRelocationRef. There is now a new problem in implementing the
R_PPC64_TOC16* relocations, because those can now in theory involve
*three* different sections: the relocation may be applied in section A,
refer explicitly to a symbol in section B, and refer implicitly to the
TOC section C. The final processing of the relocation thus may only
happen after all three of these sections have been assigned final
addresses. There is currently no obvious means to implement this in
its general form with the common-code RuntimeDyld infrastructure.
Fortunately, ppc64 code usually makes no use of this most general form;
in fact, TOC16 relocations are only ever generated by LLVM for symbols
residing themselves in the TOC, which means "section B" == "section C"
in the above terminology. This special case can easily be handled with
the current infrastructure, and that is what this patch does.
[ Unhandled cases result in an explicit error, unlike the current code
which silently returns the wrong TOC base address ... ]
This patch makes the JIT work on both BE and LE (ELFv2 requires
additional patches, of course), and allowed me to successfully run
complex JIT scenarios (via mesa/llvmpipe).
Reviewed by Hal Finkel.
llvm-svn: 211885
2014-06-27 18:32:14 +08:00
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RelocationValueRef &Rel);
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2015-06-20 04:58:43 +08:00
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void findOPDEntrySection(const ELFObjectFileBase &Obj,
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2014-11-27 00:54:40 +08:00
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ObjSectionToIDMap &LocalSections,
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2012-10-25 21:13:48 +08:00
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RelocationValueRef &Rel);
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2013-08-20 07:27:43 +08:00
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size_t getGOTEntrySize();
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2015-04-14 10:10:35 +08:00
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SectionEntry &getSection(unsigned SectionID) { return Sections[SectionID]; }
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2013-08-20 07:27:43 +08:00
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2015-04-14 10:10:35 +08:00
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// Allocate no GOT entries for use in the given section.
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uint64_t allocateGOTEntries(unsigned SectionID, unsigned no);
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// Resolve the relvative address of GOTOffset in Section ID and place
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// it at the given Offset
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void resolveGOTOffsetRelocation(unsigned SectionID, uint64_t Offset,
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uint64_t GOTOffset);
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// For a GOT entry referenced from SectionID, compute a relocation entry
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// that will place the final resolved value in the GOT slot
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RelocationEntry computeGOTOffsetRE(unsigned SectionID,
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uint64_t GOTOffset,
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uint64_t SymbolOffset,
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unsigned Type);
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2015-05-02 04:21:45 +08:00
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// Compute the address in memory where we can find the placeholder
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void *computePlaceholderAddress(unsigned SectionID, uint64_t Offset) const;
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// Split out common case for createing the RelocationEntry for when the relocation requires
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// no particular advanced processing.
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void processSimpleRelocation(unsigned SectionID, uint64_t Offset, unsigned RelType, RelocationValueRef Value);
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2015-04-14 10:10:35 +08:00
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// The tentative ID for the GOT section
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unsigned GOTSectionID;
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// Records the current number of allocated slots in the GOT
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// (This would be equivalent to GOTEntries.size() were it not for relocations
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// that consume more than one slot)
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unsigned CurrentGOTIndex;
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2013-08-20 07:27:43 +08:00
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2015-05-28 21:48:41 +08:00
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// A map from section to a GOT section that has entries for section's GOT
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// relocations. (Mips64 specific)
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DenseMap<SID, SID> SectionToGOTMap;
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// A map to avoid duplicate got entries (Mips64 specific)
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StringMap<uint64_t> GOTSymbolOffsets;
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2013-10-12 05:25:48 +08:00
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// When a module is loaded we save the SectionID of the EH frame section
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// in a table until we receive a request to register all unregistered
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// EH frame sections with the memory manager.
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SmallVector<SID, 2> UnregisteredEHFrameSections;
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2013-10-16 08:14:21 +08:00
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SmallVector<SID, 2> RegisteredEHFrameSections;
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2013-10-12 05:25:48 +08:00
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2012-01-22 15:05:02 +08:00
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public:
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[MCJIT][Orc] Refactor RTDyldMemoryManager, weave RuntimeDyld::SymbolInfo through
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.
llvm-svn: 233509
2015-03-30 11:37:06 +08:00
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RuntimeDyldELF(RuntimeDyld::MemoryManager &MemMgr,
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RuntimeDyld::SymbolResolver &Resolver);
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2015-04-11 10:11:45 +08:00
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~RuntimeDyldELF() override;
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2014-11-27 00:54:40 +08:00
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std::unique_ptr<RuntimeDyld::LoadedObjectInfo>
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loadObject(const object::ObjectFile &O) override;
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2012-04-17 06:12:58 +08:00
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2014-03-08 15:51:20 +08:00
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void resolveRelocation(const RelocationEntry &RE, uint64_t Value) override;
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2014-03-21 15:26:41 +08:00
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relocation_iterator
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processRelocationRef(unsigned SectionID, relocation_iterator RelI,
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2014-11-27 00:54:40 +08:00
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const ObjectFile &Obj,
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ObjSectionToIDMap &ObjSectionToID,
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2014-11-27 13:40:13 +08:00
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StubMap &Stubs) override;
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2014-11-27 00:54:40 +08:00
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bool isCompatibleFile(const object::ObjectFile &Obj) const override;
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2014-03-08 15:51:20 +08:00
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void registerEHFrames() override;
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void deregisterEHFrames() override;
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2014-11-27 00:54:40 +08:00
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void finalizeLoad(const ObjectFile &Obj,
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2014-05-13 05:39:59 +08:00
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ObjSectionToIDMap &SectionMap) override;
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2012-01-22 15:05:02 +08:00
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};
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} // end namespace llvm
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2012-03-31 00:45:19 +08:00
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#endif
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