diff --git a/llvm/lib/ExecutionEngine/RuntimeDyld/RuntimeDyld.cpp b/llvm/lib/ExecutionEngine/RuntimeDyld/RuntimeDyld.cpp index a13ecb7a834c..24a3ec19aed4 100644 --- a/llvm/lib/ExecutionEngine/RuntimeDyld/RuntimeDyld.cpp +++ b/llvm/lib/ExecutionEngine/RuntimeDyld/RuntimeDyld.cpp @@ -574,10 +574,16 @@ unsigned RuntimeDyldImpl::emitSection(const ObjectFile &Obj, uint8_t *Addr; const char *pData = nullptr; + // In either case, set the location of the unrelocated section in memory, + // since we still process relocations for it even if we're not applying them. + Check(Section.getContents(data)); + // Virtual sections have no data in the object image, so leave pData = 0 + if (!IsVirtual) + pData = data.data(); + // Some sections, such as debug info, don't need to be loaded for execution. // Leave those where they are. if (IsRequired) { - Check(Section.getContents(data)); Allocate = DataSize + PaddingSize + StubBufSize; if (!Allocate) Allocate = 1; @@ -588,10 +594,6 @@ unsigned RuntimeDyldImpl::emitSection(const ObjectFile &Obj, if (!Addr) report_fatal_error("Unable to allocate section memory!"); - // Virtual sections have no data in the object image, so leave pData = 0 - if (!IsVirtual) - pData = data.data(); - // Zero-initialize or copy the data from the image if (IsZeroInit || IsVirtual) memset(Addr, 0, DataSize); diff --git a/llvm/lib/ExecutionEngine/RuntimeDyld/RuntimeDyldELF.cpp b/llvm/lib/ExecutionEngine/RuntimeDyld/RuntimeDyldELF.cpp index bbffdfb3941d..52db2c0f62a8 100644 --- a/llvm/lib/ExecutionEngine/RuntimeDyld/RuntimeDyldELF.cpp +++ b/llvm/lib/ExecutionEngine/RuntimeDyld/RuntimeDyldELF.cpp @@ -247,29 +247,16 @@ void RuntimeDyldELF::resolveX86_64Relocation(const SectionEntry &Section, break; } case ELF::R_X86_64_PC32: { - // Get the placeholder value from the generated object since - // a previous relocation attempt may have overwritten the loaded version - support::ulittle32_t::ref Placeholder( - (void *)(Section.ObjAddress + Offset)); uint64_t FinalAddress = Section.LoadAddress + Offset; int64_t RealOffset = Value + Addend - FinalAddress; - // Don't add the placeholder if this is a stub - if (Offset < Section.Size) - RealOffset += Placeholder; assert(RealOffset <= INT32_MAX && RealOffset >= INT32_MIN); int32_t TruncOffset = (RealOffset & 0xFFFFFFFF); support::ulittle32_t::ref(Section.Address + Offset) = TruncOffset; break; } case ELF::R_X86_64_PC64: { - // Get the placeholder value from the generated object since - // a previous relocation attempt may have overwritten the loaded version - support::ulittle64_t::ref Placeholder( - (void *)(Section.ObjAddress + Offset)); uint64_t FinalAddress = Section.LoadAddress + Offset; int64_t RealOffset = Value + Addend - FinalAddress; - if (Offset < Section.Size) - RealOffset += Placeholder; support::ulittle64_t::ref(Section.Address + Offset) = RealOffset; break; } @@ -281,21 +268,12 @@ void RuntimeDyldELF::resolveX86Relocation(const SectionEntry &Section, uint32_t Type, int32_t Addend) { switch (Type) { case ELF::R_386_32: { - // Get the placeholder value from the generated object since - // a previous relocation attempt may have overwritten the loaded version - support::ulittle32_t::ref Placeholder( - (void *)(Section.ObjAddress + Offset)); - support::ulittle32_t::ref(Section.Address + Offset) = - Placeholder + Value + Addend; + support::ulittle32_t::ref(Section.Address + Offset) = Value + Addend; break; } case ELF::R_386_PC32: { - // Get the placeholder value from the generated object since - // a previous relocation attempt may have overwritten the loaded version - support::ulittle32_t::ref Placeholder( - (void *)(Section.ObjAddress + Offset)); uint32_t FinalAddress = ((Section.LoadAddress + Offset) & 0xFFFFFFFF); - uint32_t RealOffset = Placeholder + Value + Addend - FinalAddress; + uint32_t RealOffset = Value + Addend - FinalAddress; support::ulittle32_t::ref(Section.Address + Offset) = RealOffset; break; } @@ -452,8 +430,6 @@ void RuntimeDyldELF::resolveARMRelocation(const SectionEntry &Section, uint64_t Offset, uint32_t Value, uint32_t Type, int32_t Addend) { // TODO: Add Thumb relocations. - uint32_t *Placeholder = - reinterpret_cast(Section.ObjAddress + Offset); uint32_t *TargetPtr = (uint32_t *)(Section.Address + Offset); uint32_t FinalAddress = ((Section.LoadAddress + Offset) & 0xFFFFFFFF); Value += Addend; @@ -470,39 +446,27 @@ void RuntimeDyldELF::resolveARMRelocation(const SectionEntry &Section, case ELF::R_ARM_NONE: break; - // Write a 32bit value to relocation address, taking into account the - // implicit addend encoded in the target. case ELF::R_ARM_PREL31: case ELF::R_ARM_TARGET1: case ELF::R_ARM_ABS32: - *TargetPtr = *Placeholder + Value; + *TargetPtr = Value; break; - // Write first 16 bit of 32 bit value to the mov instruction. - // Last 4 bit should be shifted. + // Write first 16 bit of 32 bit value to the mov instruction. + // Last 4 bit should be shifted. case ELF::R_ARM_MOVW_ABS_NC: - // We are not expecting any other addend in the relocation address. - // Using 0x000F0FFF because MOVW has its 16 bit immediate split into 2 - // non-contiguous fields. - assert((*Placeholder & 0x000F0FFF) == 0); - Value = Value & 0xFFFF; - *TargetPtr = *Placeholder | (Value & 0xFFF); - *TargetPtr |= ((Value >> 12) & 0xF) << 16; - break; - // Write last 16 bit of 32 bit value to the mov instruction. - // Last 4 bit should be shifted. case ELF::R_ARM_MOVT_ABS: - // We are not expecting any other addend in the relocation address. - // Use 0x000F0FFF for the same reason as R_ARM_MOVW_ABS_NC. - assert((*Placeholder & 0x000F0FFF) == 0); - - Value = (Value >> 16) & 0xFFFF; - *TargetPtr = *Placeholder | (Value & 0xFFF); + if (Type == ELF::R_ARM_MOVW_ABS_NC) + Value = Value & 0xFFFF; + else if (Type == ELF::R_ARM_MOVT_ABS) + Value = (Value >> 16) & 0xFFFF; + *TargetPtr &= ~0x000F0FFF; + *TargetPtr |= Value & 0xFFF; *TargetPtr |= ((Value >> 12) & 0xF) << 16; break; - // Write 24 bit relative value to the branch instruction. + // Write 24 bit relative value to the branch instruction. case ELF::R_ARM_PC24: // Fall through. case ELF::R_ARM_CALL: // Fall through. - case ELF::R_ARM_JUMP24: { + case ELF::R_ARM_JUMP24: int32_t RelValue = static_cast(Value - FinalAddress - 8); RelValue = (RelValue & 0x03FFFFFC) >> 2; assert((*TargetPtr & 0xFFFFFF) == 0xFFFFFE); @@ -510,21 +474,11 @@ void RuntimeDyldELF::resolveARMRelocation(const SectionEntry &Section, *TargetPtr |= RelValue; break; } - case ELF::R_ARM_PRIVATE_0: - // This relocation is reserved by the ARM ELF ABI for internal use. We - // appropriate it here to act as an R_ARM_ABS32 without any addend for use - // in the stubs created during JIT (which can't put an addend into the - // original object file). - *TargetPtr = Value; - break; - } } void RuntimeDyldELF::resolveMIPSRelocation(const SectionEntry &Section, uint64_t Offset, uint32_t Value, uint32_t Type, int32_t Addend) { - uint32_t *Placeholder = - reinterpret_cast(Section.ObjAddress + Offset); uint32_t *TargetPtr = (uint32_t *)(Section.Address + Offset); Value += Addend; @@ -539,30 +493,17 @@ void RuntimeDyldELF::resolveMIPSRelocation(const SectionEntry &Section, llvm_unreachable("Not implemented relocation type!"); break; case ELF::R_MIPS_32: - *TargetPtr = Value + (*Placeholder); + *TargetPtr = Value; break; case ELF::R_MIPS_26: - *TargetPtr = ((*Placeholder) & 0xfc000000) | ((Value & 0x0fffffff) >> 2); + *TargetPtr = ((*TargetPtr) & 0xfc000000) | ((Value & 0x0fffffff) >> 2); break; case ELF::R_MIPS_HI16: // Get the higher 16-bits. Also add 1 if bit 15 is 1. - Value += ((*Placeholder) & 0x0000ffff) << 16; *TargetPtr = - ((*Placeholder) & 0xffff0000) | (((Value + 0x8000) >> 16) & 0xffff); + ((*TargetPtr) & 0xffff0000) | (((Value + 0x8000) >> 16) & 0xffff); break; case ELF::R_MIPS_LO16: - Value += ((*Placeholder) & 0x0000ffff); - *TargetPtr = ((*Placeholder) & 0xffff0000) | (Value & 0xffff); - break; - case ELF::R_MIPS_UNUSED1: - // Similar to ELF::R_ARM_PRIVATE_0, R_MIPS_UNUSED1 and R_MIPS_UNUSED2 - // are used for internal JIT purpose. These relocations are similar to - // R_MIPS_HI16 and R_MIPS_LO16, but they do not take any addend into - // account. - *TargetPtr = - ((*TargetPtr) & 0xffff0000) | (((Value + 0x8000) >> 16) & 0xffff); - break; - case ELF::R_MIPS_UNUSED2: *TargetPtr = ((*TargetPtr) & 0xffff0000) | (Value & 0xffff); break; } @@ -888,6 +829,18 @@ void RuntimeDyldELF::resolveRelocation(const SectionEntry &Section, } } +void *RuntimeDyldELF::computePlaceholderAddress(unsigned SectionID, uint64_t Offset) const { + return (void*)(Sections[SectionID].ObjAddress + Offset); +} + +void RuntimeDyldELF::processSimpleRelocation(unsigned SectionID, uint64_t Offset, unsigned RelType, RelocationValueRef Value) { + RelocationEntry RE(SectionID, Offset, RelType, Value.Addend, Value.Offset); + if (Value.SymbolName) + addRelocationForSymbol(RE, Value.SymbolName); + else + addRelocationForSection(RE, Value.SectionID); +} + relocation_iterator RuntimeDyldELF::processRelocationRef( unsigned SectionID, relocation_iterator RelI, const ObjectFile &Obj, @@ -1005,80 +958,103 @@ relocation_iterator RuntimeDyldELF::processRelocationRef( 0); Section.StubOffset += getMaxStubSize(); } - } else if (Arch == Triple::arm && - (RelType == ELF::R_ARM_PC24 || RelType == ELF::R_ARM_CALL || - RelType == ELF::R_ARM_JUMP24)) { - // This is an ARM branch relocation, need to use a stub function. - DEBUG(dbgs() << "\t\tThis is an ARM branch relocation."); - SectionEntry &Section = Sections[SectionID]; + } else if (Arch == Triple::arm) { + if (RelType == ELF::R_ARM_PC24 || RelType == ELF::R_ARM_CALL || + RelType == ELF::R_ARM_JUMP24) { + // This is an ARM branch relocation, need to use a stub function. + DEBUG(dbgs() << "\t\tThis is an ARM branch relocation."); + SectionEntry &Section = Sections[SectionID]; - // Look for an existing stub. - StubMap::const_iterator i = Stubs.find(Value); - if (i != Stubs.end()) { - resolveRelocation(Section, Offset, (uint64_t)Section.Address + i->second, - RelType, 0); - DEBUG(dbgs() << " Stub function found\n"); - } else { - // Create a new stub function. - DEBUG(dbgs() << " Create a new stub function\n"); - Stubs[Value] = Section.StubOffset; - uint8_t *StubTargetAddr = - createStubFunction(Section.Address + Section.StubOffset); - RelocationEntry RE(SectionID, StubTargetAddr - Section.Address, - ELF::R_ARM_PRIVATE_0, Value.Addend); - if (Value.SymbolName) - addRelocationForSymbol(RE, Value.SymbolName); - else - addRelocationForSection(RE, Value.SectionID); - - resolveRelocation(Section, Offset, - (uint64_t)Section.Address + Section.StubOffset, RelType, - 0); - Section.StubOffset += getMaxStubSize(); - } - } else if ((Arch == Triple::mipsel || Arch == Triple::mips) && - RelType == ELF::R_MIPS_26) { - // This is an Mips branch relocation, need to use a stub function. - DEBUG(dbgs() << "\t\tThis is a Mips branch relocation."); - SectionEntry &Section = Sections[SectionID]; - uint8_t *Target = Section.Address + Offset; - uint32_t *TargetAddress = (uint32_t *)Target; - - // Extract the addend from the instruction. - uint32_t Addend = ((*TargetAddress) & 0x03ffffff) << 2; - - Value.Addend += Addend; - - // Look up for existing stub. - StubMap::const_iterator i = Stubs.find(Value); - if (i != Stubs.end()) { - RelocationEntry RE(SectionID, Offset, RelType, i->second); - addRelocationForSection(RE, SectionID); - DEBUG(dbgs() << " Stub function found\n"); - } else { - // Create a new stub function. - DEBUG(dbgs() << " Create a new stub function\n"); - Stubs[Value] = Section.StubOffset; - uint8_t *StubTargetAddr = - createStubFunction(Section.Address + Section.StubOffset); - - // Creating Hi and Lo relocations for the filled stub instructions. - RelocationEntry REHi(SectionID, StubTargetAddr - Section.Address, - ELF::R_MIPS_UNUSED1, Value.Addend); - RelocationEntry RELo(SectionID, StubTargetAddr - Section.Address + 4, - ELF::R_MIPS_UNUSED2, Value.Addend); - - if (Value.SymbolName) { - addRelocationForSymbol(REHi, Value.SymbolName); - addRelocationForSymbol(RELo, Value.SymbolName); + // Look for an existing stub. + StubMap::const_iterator i = Stubs.find(Value); + if (i != Stubs.end()) { + resolveRelocation(Section, Offset, (uint64_t)Section.Address + i->second, + RelType, 0); + DEBUG(dbgs() << " Stub function found\n"); } else { - addRelocationForSection(REHi, Value.SectionID); - addRelocationForSection(RELo, Value.SectionID); - } + // Create a new stub function. + DEBUG(dbgs() << " Create a new stub function\n"); + Stubs[Value] = Section.StubOffset; + uint8_t *StubTargetAddr = + createStubFunction(Section.Address + Section.StubOffset); + RelocationEntry RE(SectionID, StubTargetAddr - Section.Address, + ELF::R_ARM_ABS32, Value.Addend); + if (Value.SymbolName) + addRelocationForSymbol(RE, Value.SymbolName); + else + addRelocationForSection(RE, Value.SectionID); - RelocationEntry RE(SectionID, Offset, RelType, Section.StubOffset); - addRelocationForSection(RE, SectionID); - Section.StubOffset += getMaxStubSize(); + resolveRelocation(Section, Offset, + (uint64_t)Section.Address + Section.StubOffset, RelType, + 0); + Section.StubOffset += getMaxStubSize(); + } + } else { + uint32_t *Placeholder = + reinterpret_cast(computePlaceholderAddress(SectionID, Offset)); + if (RelType == ELF::R_ARM_PREL31 || RelType == ELF::R_ARM_TARGET1 || + RelType == ELF::R_ARM_ABS32) { + Value.Addend += *Placeholder; + } else if (RelType == ELF::R_ARM_MOVW_ABS_NC || RelType == ELF::R_ARM_MOVT_ABS) { + // See ELF for ARM documentation + Value.Addend += (int16_t)((*Placeholder & 0xFFF) | (((*Placeholder >> 16) & 0xF) << 12)); + } + processSimpleRelocation(SectionID, Offset, RelType, Value); + } + } else if ((Arch == Triple::mipsel || Arch == Triple::mips)) { + uint32_t *Placeholder = reinterpret_cast(computePlaceholderAddress(SectionID, Offset)); + if (RelType == ELF::R_MIPS_26) { + // This is an Mips branch relocation, need to use a stub function. + DEBUG(dbgs() << "\t\tThis is a Mips branch relocation."); + SectionEntry &Section = Sections[SectionID]; + + // Extract the addend from the instruction. + // We shift up by two since the Value will be down shifted again + // when applying the relocation. + uint32_t Addend = ((*Placeholder) & 0x03ffffff) << 2; + + Value.Addend += Addend; + + // Look up for existing stub. + StubMap::const_iterator i = Stubs.find(Value); + if (i != Stubs.end()) { + RelocationEntry RE(SectionID, Offset, RelType, i->second); + addRelocationForSection(RE, SectionID); + DEBUG(dbgs() << " Stub function found\n"); + } else { + // Create a new stub function. + DEBUG(dbgs() << " Create a new stub function\n"); + Stubs[Value] = Section.StubOffset; + uint8_t *StubTargetAddr = + createStubFunction(Section.Address + Section.StubOffset); + + // Creating Hi and Lo relocations for the filled stub instructions. + RelocationEntry REHi(SectionID, StubTargetAddr - Section.Address, + ELF::R_MIPS_HI16, Value.Addend); + RelocationEntry RELo(SectionID, StubTargetAddr - Section.Address + 4, + ELF::R_MIPS_LO16, Value.Addend); + + if (Value.SymbolName) { + addRelocationForSymbol(REHi, Value.SymbolName); + addRelocationForSymbol(RELo, Value.SymbolName); + } + else { + addRelocationForSection(REHi, Value.SectionID); + addRelocationForSection(RELo, Value.SectionID); + } + + RelocationEntry RE(SectionID, Offset, RelType, Section.StubOffset); + addRelocationForSection(RE, SectionID); + Section.StubOffset += getMaxStubSize(); + } + } else { + if (RelType == ELF::R_MIPS_HI16) + Value.Addend += ((*Placeholder) & 0x0000ffff) << 16; + else if (RelType == ELF::R_MIPS_LO16) + Value.Addend += ((*Placeholder) & 0x0000ffff); + else if (RelType == ELF::R_MIPS_32) + Value.Addend += *Placeholder; + processSimpleRelocation(SectionID, Offset, RelType, Value); } } else if (Arch == Triple::ppc64 || Arch == Triple::ppc64le) { if (RelType == ELF::R_PPC64_REL24) { @@ -1277,40 +1253,41 @@ relocation_iterator RuntimeDyldELF::processRelocationRef( Addend); else resolveRelocation(Section, Offset, StubAddress, RelType, Addend); - } else if (Arch == Triple::x86_64 && RelType == ELF::R_X86_64_PLT32) { - // The way the PLT relocations normally work is that the linker allocates - // the - // PLT and this relocation makes a PC-relative call into the PLT. The PLT - // entry will then jump to an address provided by the GOT. On first call, - // the - // GOT address will point back into PLT code that resolves the symbol. After - // the first call, the GOT entry points to the actual function. - // - // For local functions we're ignoring all of that here and just replacing - // the PLT32 relocation type with PC32, which will translate the relocation - // into a PC-relative call directly to the function. For external symbols we - // can't be sure the function will be within 2^32 bytes of the call site, so - // we need to create a stub, which calls into the GOT. This case is - // equivalent to the usual PLT implementation except that we use the stub - // mechanism in RuntimeDyld (which puts stubs at the end of the section) - // rather than allocating a PLT section. - if (Value.SymbolName) { - // This is a call to an external function. - // Look for an existing stub. - SectionEntry &Section = Sections[SectionID]; - StubMap::const_iterator i = Stubs.find(Value); - uintptr_t StubAddress; - if (i != Stubs.end()) { + } else if (Arch == Triple::x86_64) { + if (RelType == ELF::R_X86_64_PLT32) { + // The way the PLT relocations normally work is that the linker allocates + // the + // PLT and this relocation makes a PC-relative call into the PLT. The PLT + // entry will then jump to an address provided by the GOT. On first call, + // the + // GOT address will point back into PLT code that resolves the symbol. After + // the first call, the GOT entry points to the actual function. + // + // For local functions we're ignoring all of that here and just replacing + // the PLT32 relocation type with PC32, which will translate the relocation + // into a PC-relative call directly to the function. For external symbols we + // can't be sure the function will be within 2^32 bytes of the call site, so + // we need to create a stub, which calls into the GOT. This case is + // equivalent to the usual PLT implementation except that we use the stub + // mechanism in RuntimeDyld (which puts stubs at the end of the section) + // rather than allocating a PLT section. + if (Value.SymbolName) { + // This is a call to an external function. + // Look for an existing stub. + SectionEntry &Section = Sections[SectionID]; + StubMap::const_iterator i = Stubs.find(Value); + uintptr_t StubAddress; + if (i != Stubs.end()) { StubAddress = uintptr_t(Section.Address) + i->second; DEBUG(dbgs() << " Stub function found\n"); - } else { + } else { // Create a new stub function (equivalent to a PLT entry). DEBUG(dbgs() << " Create a new stub function\n"); uintptr_t BaseAddress = uintptr_t(Section.Address); uintptr_t StubAlignment = getStubAlignment(); StubAddress = (BaseAddress + Section.StubOffset + StubAlignment - 1) & - -StubAlignment; + -StubAlignment; unsigned StubOffset = StubAddress - BaseAddress; Stubs[Value] = StubOffset; createStubFunction((uint8_t *)StubAddress); @@ -1326,33 +1303,41 @@ relocation_iterator RuntimeDyldELF::processRelocationRef( // Fill in the value of the symbol we're targeting into the GOT addRelocationForSymbol(computeGOTOffsetRE(SectionID,GOTOffset,0,ELF::R_X86_64_64), - Value.SymbolName); + Value.SymbolName); + } + + // Make the target call a call into the stub table. + resolveRelocation(Section, Offset, StubAddress, ELF::R_X86_64_PC32, + Addend); + } else { + RelocationEntry RE(SectionID, Offset, ELF::R_X86_64_PC32, Value.Addend, + Value.Offset); + addRelocationForSection(RE, Value.SectionID); } + } else if (RelType == ELF::R_X86_64_GOTPCREL) { + uint64_t GOTOffset = allocateGOTEntries(SectionID, 1); + resolveGOTOffsetRelocation(SectionID, Offset, GOTOffset + Addend); - // Make the target call a call into the stub table. - resolveRelocation(Section, Offset, StubAddress, ELF::R_X86_64_PC32, - Addend); + // Fill in the value of the symbol we're targeting into the GOT + RelocationEntry RE = computeGOTOffsetRE(SectionID, GOTOffset, Value.Offset, ELF::R_X86_64_64); + if (Value.SymbolName) + addRelocationForSymbol(RE, Value.SymbolName); + else + addRelocationForSection(RE, Value.SectionID); + } else if (RelType == ELF::R_X86_64_PC32) { + Value.Addend += support::ulittle32_t::ref(computePlaceholderAddress(SectionID, Offset)); + processSimpleRelocation(SectionID, Offset, RelType, Value); + } else if (RelType == ELF::R_X86_64_PC64) { + Value.Addend += support::ulittle64_t::ref(computePlaceholderAddress(SectionID, Offset)); + processSimpleRelocation(SectionID, Offset, RelType, Value); } else { - RelocationEntry RE(SectionID, Offset, ELF::R_X86_64_PC32, Value.Addend, - Value.Offset); - addRelocationForSection(RE, Value.SectionID); + processSimpleRelocation(SectionID, Offset, RelType, Value); } - } else if (Arch == Triple::x86_64 && RelType == ELF::R_X86_64_GOTPCREL) { - uint64_t GOTOffset = allocateGOTEntries(SectionID, 1); - resolveGOTOffsetRelocation(SectionID, Offset, GOTOffset + Addend); - - // Fill in the value of the symbol we're targeting into the GOT - RelocationEntry RE = computeGOTOffsetRE(SectionID, GOTOffset, Value.Offset, ELF::R_X86_64_64); - if (Value.SymbolName) - addRelocationForSymbol(RE, Value.SymbolName); - else - addRelocationForSection(RE, Value.SectionID); } else { - RelocationEntry RE(SectionID, Offset, RelType, Value.Addend, Value.Offset); - if (Value.SymbolName) - addRelocationForSymbol(RE, Value.SymbolName); - else - addRelocationForSection(RE, Value.SectionID); + if (Arch == Triple::x86) { + Value.Addend += support::ulittle32_t::ref(computePlaceholderAddress(SectionID, Offset)); + } + processSimpleRelocation(SectionID, Offset, RelType, Value); } return ++RelI; } diff --git a/llvm/lib/ExecutionEngine/RuntimeDyld/RuntimeDyldELF.h b/llvm/lib/ExecutionEngine/RuntimeDyld/RuntimeDyldELF.h index 590d26a3fb81..9a4a8630e4c4 100644 --- a/llvm/lib/ExecutionEngine/RuntimeDyld/RuntimeDyldELF.h +++ b/llvm/lib/ExecutionEngine/RuntimeDyld/RuntimeDyldELF.h @@ -99,6 +99,13 @@ class RuntimeDyldELF : public RuntimeDyldImpl { uint64_t SymbolOffset, unsigned Type); + // Compute the address in memory where we can find the placeholder + void *computePlaceholderAddress(unsigned SectionID, uint64_t Offset) const; + + // Split out common case for createing the RelocationEntry for when the relocation requires + // no particular advanced processing. + void processSimpleRelocation(unsigned SectionID, uint64_t Offset, unsigned RelType, RelocationValueRef Value); + // The tentative ID for the GOT section unsigned GOTSectionID;