Esempio n. 1
0
bool HexagonLDBackend::SetSDataSection() {
  SectionData *pTo = (m_psdata->getSectionData());

  if (pTo) {
    MoveCommonData(*m_pscommon_1->getSectionData(), *pTo);
    MoveCommonData(*m_pscommon_2->getSectionData(), *pTo);
    MoveCommonData(*m_pscommon_4->getSectionData(), *pTo);
    MoveCommonData(*m_pscommon_8->getSectionData(), *pTo);

    SectionData::FragmentListType& to_list = pTo->getFragmentList();
    SectionData::FragmentListType::iterator fragTo, fragToEnd = to_list.end();
    uint32_t offset = 0;
    for (fragTo = to_list.begin(); fragTo != fragToEnd; ++fragTo) {
      fragTo->setOffset(offset);
      offset += fragTo->size();
    }

    // set up pTo's header
    pTo->getSection().setSize(offset);

    SectionData::FragmentListType& newlist = pTo->getFragmentList();

    for (fragTo = newlist.begin(), fragToEnd = newlist.end();
         fragTo != fragToEnd; ++fragTo) {
      fragTo->setParent(pTo);
    }
  }

  return true;
}
Esempio n. 2
0
TEST_F(SectionDataTest, constructor_and_trivial_func) {
  LDSection* test = LDSection::Create("test", LDFileFormat::Null, 0, 0);

  SectionData* s = SectionData::Create(*test);
  EXPECT_TRUE(s->getSection().name() == "test" &&
              s->getSection().kind() == LDFileFormat::Null);

  LDSection::Destroy(test);
}
Esempio n. 3
0
bool ARMGNULDBackend::readSection(Input& pInput, SectionData& pSD)
{
  Fragment* frag = NULL;
  uint32_t offset = pInput.fileOffset() + pSD.getSection().offset();
  uint32_t size = pSD.getSection().size();

  llvm::StringRef region = pInput.memArea()->request(offset, size);
  if (region.size() == 0) {
    // If the input section's size is zero, we got a NULL region.
    // use a virtual fill fragment
    frag = new FillFragment(0x0, 0, 0);
  }
  else {
    frag = new RegionFragment(region);
  }

  ObjectBuilder::AppendFragment(*frag, pSD);
  return true;
}
Esempio n. 4
0
bool HexagonLDBackend::MoveCommonData(SectionData &pFrom, SectionData &pTo)
{
  SectionData::FragmentListType& to_list = pTo.getFragmentList();
  SectionData::FragmentListType::iterator frag, fragEnd = to_list.end();

  uint32_t pFromFlag = pFrom.getSection().align();
  bool found = false;

  SectionData::FragmentListType::iterator fragInsert;

  for (frag = to_list.begin(); frag != fragEnd; ++frag) {
    if (frag->getKind() == mcld::Fragment::Alignment) {
      fragInsert = frag;
      continue;
    }
    if ((frag->getKind() != mcld::Fragment::Region) &&
        (frag->getKind() != mcld::Fragment::Fillment)) {
      continue;
    }
    uint32_t flag = frag->getParent()->getSection().align();
    if (pFromFlag < flag) {
      found = true;
      break;
    }
  }
  AlignFragment* align = NULL;
  if (pFrom.getSection().align() > 1) {
    // if the align constraint is larger than 1, append an alignment
    align = new AlignFragment(pFrom.getSection().align(), // alignment
                              0x0, // the filled value
                              1u,  // the size of filled value
                              pFrom.getSection().align() - 1 // max bytes to emit
                              );
    pFrom.getFragmentList().push_front(align);
  }
  if (found)
    to_list.splice(fragInsert, pFrom.getFragmentList());
  else
    to_list.splice(frag, pFrom.getFragmentList());

  return true;
}
bool AArch64GNULDBackend::doRelax(Module& pModule,
                                  IRBuilder& pBuilder,
                                  bool& pFinished) {
  assert(getStubFactory() != NULL && getBRIslandFactory() != NULL);

  // Number of new stubs added
  size_t num_new_stubs = 0;
  // String lengh to hold new stub symbols
  size_t stubs_strlen = 0;

  if (config().targets().fixCA53Erratum835769() ||
      config().targets().fixCA53Erratum843419()) {
    scanErrata(pModule, pBuilder, num_new_stubs, stubs_strlen);
  }

  ELFFileFormat* file_format = getOutputFormat();
  // check branch relocs and create the related stubs if needed
  Module::obj_iterator input, inEnd = pModule.obj_end();
  for (input = pModule.obj_begin(); input != inEnd; ++input) {
    LDContext::sect_iterator rs, rsEnd = (*input)->context()->relocSectEnd();
    for (rs = (*input)->context()->relocSectBegin(); rs != rsEnd; ++rs) {
      if (LDFileFormat::Ignore == (*rs)->kind() || !(*rs)->hasRelocData())
        continue;
      RelocData::iterator reloc, rEnd = (*rs)->getRelocData()->end();
      for (reloc = (*rs)->getRelocData()->begin(); reloc != rEnd; ++reloc) {
        Relocation* relocation = llvm::cast<Relocation>(reloc);

        switch (relocation->type()) {
          case llvm::ELF::R_AARCH64_CALL26:
          case llvm::ELF::R_AARCH64_JUMP26: {
            // calculate the possible symbol value
            uint64_t sym_value = 0x0;
            LDSymbol* symbol = relocation->symInfo()->outSymbol();
            if (symbol->hasFragRef()) {
              uint64_t value = symbol->fragRef()->getOutputOffset();
              uint64_t addr =
                  symbol->fragRef()->frag()->getParent()->getSection().addr();
              sym_value = addr + value;
            }
            if ((relocation->symInfo()->reserved() &
                 AArch64Relocator::ReservePLT) != 0x0) {
              // FIXME: we need to find out the address of the specific plt
              // entry
              assert(file_format->hasPLT());
              sym_value = file_format->getPLT().addr();
            }
            Stub* stub = getStubFactory()->create(*relocation,  // relocation
                                                  sym_value,    // symbol value
                                                  pBuilder,
                                                  *getBRIslandFactory());
            if (stub != NULL) {
              // a stub symbol should be local
              assert(stub->symInfo() != NULL && stub->symInfo()->isLocal());
              // reset the branch target of the reloc to this stub instead
              relocation->setSymInfo(stub->symInfo());

              ++num_new_stubs;
              stubs_strlen += stub->symInfo()->nameSize() + 1;
            }
            break;
          }
          default: {
            break;
          }
        }  // end of switch
      }  // for all relocations
    }  // for all relocation section
  }  // for all inputs

  // Find the first fragment w/ invalid offset due to stub insertion.
  std::vector<Fragment*> invalid_frags;
  pFinished = true;
  for (BranchIslandFactory::iterator island = getBRIslandFactory()->begin(),
                                     island_end = getBRIslandFactory()->end();
       island != island_end;
       ++island) {
    if ((*island).size() > stubGroupSize()) {
      error(diag::err_no_space_to_place_stubs) << stubGroupSize();
      return false;
    }

    if ((*island).numOfStubs() == 0) {
      continue;
    }

    Fragment* exit = &*(*island).end();
    if (exit == (*island).begin()->getParent()->end()) {
      continue;
    }

    if (((*island).offset() + (*island).size()) > exit->getOffset()) {
      if (invalid_frags.empty() ||
          (invalid_frags.back()->getParent() != (*island).getParent())) {
        invalid_frags.push_back(exit);
        pFinished = false;
      }
      continue;
    }
  }

  // Reset the offset of invalid fragments.
  for (auto it = invalid_frags.begin(), ie = invalid_frags.end(); it != ie;
       ++it) {
    Fragment* invalid = *it;
    while (invalid != NULL) {
      invalid->setOffset(invalid->getPrevNode()->getOffset() +
                         invalid->getPrevNode()->size());
      invalid = invalid->getNextNode();
    }
  }

  // Fix up the size of .symtab, .strtab, and TEXT sections
  if (num_new_stubs == 0) {
    return false;
  } else {
    switch (config().options().getStripSymbolMode()) {
      case GeneralOptions::StripSymbolMode::StripAllSymbols:
      case GeneralOptions::StripSymbolMode::StripLocals:
        break;
      default: {
        LDSection& symtab = file_format->getSymTab();
        LDSection& strtab = file_format->getStrTab();

        symtab.setSize(symtab.size() +
                       sizeof(llvm::ELF::Elf64_Sym) * num_new_stubs);
        symtab.setInfo(symtab.getInfo() + num_new_stubs);
        strtab.setSize(strtab.size() + stubs_strlen);
      }
    }  // switch (config().options().getStripSymbolMode())

    SectionData* prev = NULL;
    for (BranchIslandFactory::iterator island = getBRIslandFactory()->begin(),
                                       island_end = getBRIslandFactory()->end();
         island != island_end;
         ++island) {
      SectionData* sd = (*island).begin()->getParent();
      if ((*island).numOfStubs() != 0) {
        if (sd != prev) {
          sd->getSection().setSize(sd->back().getOffset() + sd->back().size());
        }
      }
      prev = sd;
    }
    return true;
  }  // if (num_new_stubs == 0)
}
Esempio n. 6
0
/// MoveSectionData - move the fragments of pTO section data to pTo
bool HexagonLDBackend::MoveSectionDataAndSort(SectionData& pFrom, SectionData& pTo)
{
  assert(&pFrom != &pTo && "Cannot move section data to itself!");
  SectionData::FragmentListType& to_list = pTo.getFragmentList();
  SectionData::FragmentListType::iterator frag, fragEnd = to_list.end();

  uint32_t pFromFlag = pFrom.getSection().align();
  bool found = false;

  SectionData::FragmentListType::iterator fragInsert;

  for (frag = to_list.begin(); frag != fragEnd; ++frag) {
    if (frag->getKind() == mcld::Fragment::Alignment) {
      fragInsert = frag;
      continue;
    }
    if ((frag->getKind() != mcld::Fragment::Region) &&
        (frag->getKind() != mcld::Fragment::Fillment)) {
      continue;
    }
    uint32_t flag = frag->getParent()->getSection().align();
    if (pFromFlag < flag) {
      found = true;
      break;
    }
  }
  AlignFragment* align = NULL;
  if (pFrom.getSection().align() > 1) {
    // if the align constraint is larger than 1, append an alignment
    align = new AlignFragment(pFrom.getSection().align(), // alignment
                              0x0, // the filled value
                              1u,  // the size of filled value
                              pFrom.getSection().align() - 1 // max bytes to emit
                              );
    pFrom.getFragmentList().push_front(align);
  }
  if (found)
    to_list.splice(fragInsert, pFrom.getFragmentList());
  else
    to_list.splice(frag, pFrom.getFragmentList());

  uint32_t offset = 0;
  for (frag = to_list.begin(); frag != fragEnd; ++frag) {
    frag->setOffset(offset);
    offset += frag->size();
  }

  // set up pTo's header
  pTo.getSection().setSize(offset);

  if (pFrom.getSection().align() > pTo.getSection().align())
    pTo.getSection().setAlign(pFrom.getSection().align());

  if (pFrom.getSection().flag() > pTo.getSection().flag())
    pTo.getSection().setFlag(pFrom.getSection().flag());
  return true;
}