lib/Target/Mips/MipsGOT.cpp - platform/frameworks/compile/mclinker - Git at Google

 //===- MipsGOT.cpp --------------------------------------------------------===//
 //
 //                     The MCLinker Project
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #include "mcld/LD/ResolveInfo.h"
 #include "mcld/Support/MsgHandling.h"
 #include "mcld/Target/OutputRelocSection.h"

 #include "MipsGOT.h"
 #include "MipsRelocator.h"

 #include <llvm/Support/Casting.h>
 #include <llvm/Support/ELF.h>

 namespace {
 const uint32_t Mips32ModulePtr = 1 << 31;
 const uint64_t Mips64ModulePtr = 1ull << 63;
 const size_t MipsGOT0Num = 2;
 const size_t MipsGOTGpOffset = 0x7FF0;
 const size_t MipsGOTSize = MipsGOTGpOffset + 0x7FFF;
 }

 namespace mcld {

 //===----------------------------------------------------------------------===//
 // MipsGOT::GOTMultipart
 //===----------------------------------------------------------------------===//
 MipsGOT::GOTMultipart::GOTMultipart(size_t local, size_t global)
     : m_LocalNum(local),
       m_GlobalNum(global),
       m_TLSNum(0),
       m_TLSDynNum(0),
       m_ConsumedLocal(0),
       m_ConsumedGlobal(0),
       m_ConsumedTLS(0),
       m_pLastLocal(NULL),
       m_pLastGlobal(NULL),
       m_pLastTLS(NULL) {
 }

 bool MipsGOT::GOTMultipart::isConsumed() const {
   return m_LocalNum == m_ConsumedLocal && m_GlobalNum == m_ConsumedGlobal &&
          m_TLSNum == m_ConsumedTLS;
 }

 void MipsGOT::GOTMultipart::consumeLocal() {
   assert(m_ConsumedLocal < m_LocalNum && "Consumed too many local GOT entries");
   ++m_ConsumedLocal;
   m_pLastLocal = m_pLastLocal->getNextNode();
 }

 void MipsGOT::GOTMultipart::consumeGlobal() {
   assert(m_ConsumedGlobal < m_GlobalNum &&
          "Consumed too many global GOT entries");
   ++m_ConsumedGlobal;
   m_pLastGlobal = m_pLastGlobal->getNextNode();
 }

 void MipsGOT::GOTMultipart::consumeTLS(Relocation::Type pType) {
   assert(m_ConsumedTLS < m_TLSNum &&
          "Consumed too many TLS GOT entries");
   m_ConsumedTLS += pType == llvm::ELF::R_MIPS_TLS_GOTTPREL ? 1 : 2;
   m_pLastTLS = m_pLastTLS->getNextNode();
 }

 //===----------------------------------------------------------------------===//
 // MipsGOT::LocalEntry
 //===----------------------------------------------------------------------===//
 MipsGOT::LocalEntry::LocalEntry(const ResolveInfo* pInfo,
                                 Relocation::DWord addend,
                                 bool isGot16)
     : m_pInfo(pInfo), m_Addend(addend), m_IsGot16(isGot16) {
 }

 bool MipsGOT::LocalEntry::operator<(const LocalEntry& O) const {
   if (m_pInfo != O.m_pInfo)
     return m_pInfo < O.m_pInfo;

   if (m_Addend != O.m_Addend)
     return m_Addend < O.m_Addend;

   return m_IsGot16 < O.m_IsGot16;
 }

 //===----------------------------------------------------------------------===//
 // MipsGOT
 //===----------------------------------------------------------------------===//
 MipsGOT::MipsGOT(LDSection& pSection)
     : GOT(pSection),
       m_pInput(NULL),
       m_HasTLSLdmSymbol(false),
       m_CurrentGOTPart(0),
       m_GotTLSLdmEntry(nullptr) {
 }

 uint64_t MipsGOT::getGPDispAddress() const {
   return addr() + MipsGOTGpOffset;
 }

 void MipsGOT::reserve(size_t pNum) {
   for (size_t i = 0; i < pNum; ++i)
     createEntry(0, m_SectionData);
 }

 bool MipsGOT::hasGOT1() const {
   return !m_MultipartList.empty();
 }

 bool MipsGOT::hasMultipleGOT() const {
   return m_MultipartList.size() > 1;
 }

 void MipsGOT::finalizeScanning(OutputRelocSection& pRelDyn) {
   for (MultipartListType::iterator it = m_MultipartList.begin();
        it != m_MultipartList.end();
        ++it) {
     reserveHeader();
     it->m_pLastLocal = &m_SectionData->back();
     reserve(it->m_LocalNum);
     it->m_pLastGlobal = &m_SectionData->back();
     reserve(it->m_GlobalNum);
     it->m_pLastTLS = &m_SectionData->back();
     reserve(it->m_TLSNum);

     if (it == m_MultipartList.begin()) {
       // Reserve entries in the second part of the primary GOT.
       // These entries correspond to the global symbols in all
       // non-primary GOTs.
       reserve(getGlobalNum() - it->m_GlobalNum);
     } else {
       // Reserve reldyn entries for R_MIPS_REL32 relocations
       // for all global entries of secondary GOTs.
       // FIXME: (simon) Do not count local entries for non-pic.
       size_t count = it->m_GlobalNum + it->m_LocalNum;
       for (size_t i = 0; i < count; ++i)
         pRelDyn.reserveEntry();
     }

     for (size_t i = 0; i < it->m_TLSDynNum; ++i)
       pRelDyn.reserveEntry();
   }
 }

 bool MipsGOT::dynSymOrderCompare(const LDSymbol* pX, const LDSymbol* pY) const {
   SymbolOrderMapType::const_iterator itX = m_SymbolOrderMap.find(pX);
   SymbolOrderMapType::const_iterator itY = m_SymbolOrderMap.find(pY);

   if (itX != m_SymbolOrderMap.end() && itY != m_SymbolOrderMap.end())
     return itX->second < itY->second;

   return itX == m_SymbolOrderMap.end() && itY != m_SymbolOrderMap.end();
 }

 void MipsGOT::initGOTList() {
   m_SymbolOrderMap.clear();

   m_MultipartList.clear();
   m_MultipartList.push_back(GOTMultipart());

   m_MultipartList.back().m_Inputs.insert(m_pInput);

   m_MergedGlobalSymbols.clear();
   m_InputGlobalSymbols.clear();
   m_MergedLocalSymbols.clear();
   m_InputLocalSymbols.clear();
   m_InputTLSGdSymbols.clear();
   m_HasTLSLdmSymbol = false;
 }

 void MipsGOT::changeInput() {
   m_MultipartList.back().m_Inputs.insert(m_pInput);

   for (LocalSymbolSetType::iterator it = m_InputLocalSymbols.begin(),
                                     end = m_InputLocalSymbols.end();
        it != end;
        ++it)
     m_MergedLocalSymbols.insert(*it);

   m_InputLocalSymbols.clear();

   for (SymbolUniqueMapType::iterator it = m_InputGlobalSymbols.begin(),
                                      end = m_InputGlobalSymbols.end();
        it != end;
        ++it)
     m_MergedGlobalSymbols.insert(it->first);

   m_InputGlobalSymbols.clear();
 }

 bool MipsGOT::isGOTFull() const {
   uint64_t gotCount = MipsGOT0Num + m_MultipartList.back().m_LocalNum +
                       m_MultipartList.back().m_GlobalNum;

   gotCount += 1;

   return gotCount * getEntrySize() > MipsGOTSize;
 }

 void MipsGOT::split() {
   m_MergedLocalSymbols.clear();
   m_MergedGlobalSymbols.clear();

   size_t uniqueCount = 0;
   for (SymbolUniqueMapType::const_iterator it = m_InputGlobalSymbols.begin(),
                                            end = m_InputGlobalSymbols.end();
        it != end;
        ++it) {
     if (it->second)
       ++uniqueCount;
   }

   m_MultipartList.back().m_LocalNum -= m_InputLocalSymbols.size();
   m_MultipartList.back().m_GlobalNum -= uniqueCount;
   m_MultipartList.back().m_Inputs.erase(m_pInput);

   m_MultipartList.push_back(
       GOTMultipart(m_InputLocalSymbols.size(), m_InputGlobalSymbols.size()));
   m_MultipartList.back().m_Inputs.insert(m_pInput);
 }

 void MipsGOT::initializeScan(const Input& pInput) {
   if (m_pInput == NULL) {
     m_pInput = &pInput;
     initGOTList();
   } else {
     m_pInput = &pInput;
     changeInput();
   }
 }

 void MipsGOT::finalizeScan(const Input& pInput) {
 }

 bool MipsGOT::reserveLocalEntry(ResolveInfo& pInfo,
                                 int reloc,
                                 Relocation::DWord pAddend) {
   LocalEntry entry(&pInfo, pAddend, reloc == llvm::ELF::R_MIPS_GOT16);

   if (m_InputLocalSymbols.count(entry))
     // Do nothing, if we have seen this symbol
     // in the current input already.
     return false;

   if (m_MergedLocalSymbols.count(entry)) {
     // We have seen this symbol in previous inputs.
     // Remember that it exists in the current input too.
     m_InputLocalSymbols.insert(entry);
     return false;
   }

   if (isGOTFull())
     split();

   m_InputLocalSymbols.insert(entry);

   ++m_MultipartList.back().m_LocalNum;
   return true;
 }

 bool MipsGOT::reserveGlobalEntry(ResolveInfo& pInfo) {
   if (m_InputGlobalSymbols.count(&pInfo))
     return false;

   if (m_MergedGlobalSymbols.count(&pInfo)) {
     m_InputGlobalSymbols[&pInfo] = false;
     return false;
   }

   if (isGOTFull())
     split();

   m_InputGlobalSymbols[&pInfo] = true;
   ++m_MultipartList.back().m_GlobalNum;

   if (!(pInfo.reserved() & MipsRelocator::ReserveGot)) {
     m_SymbolOrderMap[pInfo.outSymbol()] = m_SymbolOrderMap.size();
     pInfo.setReserved(pInfo.reserved() | MipsRelocator::ReserveGot);
   }

   return true;
 }

 bool MipsGOT::reserveTLSGdEntry(ResolveInfo& pInfo) {
   if (m_InputTLSGdSymbols.count(&pInfo))
     return false;

   m_InputTLSGdSymbols.insert(&pInfo);
   m_MultipartList.back().m_TLSNum += 2;
   m_MultipartList.back().m_TLSDynNum += 2;

   return true;
 }

 bool MipsGOT::reserveTLSLdmEntry() {
   if (m_HasTLSLdmSymbol)
     return false;

   m_HasTLSLdmSymbol = true;
   m_MultipartList.back().m_TLSNum += 2;
   m_MultipartList.back().m_TLSDynNum += 1;

   return true;
 }

 bool MipsGOT::reserveTLSGotEntry(ResolveInfo& pInfo) {
   if (m_InputTLSGotSymbols.count(&pInfo))
     return false;

   m_InputTLSGotSymbols.insert(&pInfo);
   m_MultipartList.back().m_TLSNum += 1;
   m_MultipartList.back().m_TLSDynNum += 1;

   return true;
 }

 bool MipsGOT::isPrimaryGOTConsumed() {
   return m_CurrentGOTPart > 0;
 }

 Fragment* MipsGOT::consumeLocal() {
   assert(m_CurrentGOTPart < m_MultipartList.size() &&
          "GOT number is out of range!");

   if (m_MultipartList[m_CurrentGOTPart].isConsumed())
     ++m_CurrentGOTPart;

   m_MultipartList[m_CurrentGOTPart].consumeLocal();

   return m_MultipartList[m_CurrentGOTPart].m_pLastLocal;
 }

 Fragment* MipsGOT::consumeGlobal() {
   assert(m_CurrentGOTPart < m_MultipartList.size() &&
          "GOT number is out of range!");

   if (m_MultipartList[m_CurrentGOTPart].isConsumed())
     ++m_CurrentGOTPart;

   m_MultipartList[m_CurrentGOTPart].consumeGlobal();

   return m_MultipartList[m_CurrentGOTPart].m_pLastGlobal;
 }

 Fragment* MipsGOT::consumeTLS(Relocation::Type pType) {
   assert(m_CurrentGOTPart < m_MultipartList.size() &&
          "GOT number is out of range!");

   if (m_MultipartList[m_CurrentGOTPart].isConsumed())
     ++m_CurrentGOTPart;

   m_MultipartList[m_CurrentGOTPart].consumeTLS(pType);

   return m_MultipartList[m_CurrentGOTPart].m_pLastTLS;
 }

 uint64_t MipsGOT::getGPAddr(const Input& pInput) const {
   uint64_t gotSize = 0;
   for (MultipartListType::const_iterator it = m_MultipartList.begin(),
                                          ie = m_MultipartList.end();
        it != ie;
        ++it) {
     if (it->m_Inputs.count(&pInput))
       break;

     gotSize += (MipsGOT0Num + it->m_LocalNum + it->m_GlobalNum);
     if (it == m_MultipartList.begin())
       gotSize += getGlobalNum() - it->m_GlobalNum;
   }

   return addr() + gotSize * getEntrySize() + MipsGOTGpOffset;
 }

 uint64_t MipsGOT::getGPRelOffset(const Input& pInput,
                                  const Fragment& pEntry) const {
   return addr() + pEntry.getOffset() - getGPAddr(pInput);
 }

 void MipsGOT::recordGlobalEntry(const ResolveInfo* pInfo, Fragment* pEntry) {
   GotEntryKey key;
   key.m_GOTPage = m_CurrentGOTPart;
   key.m_pInfo = pInfo;
   key.m_Addend = 0;
   m_GotGlobalEntriesMap[key] = pEntry;
 }

 Fragment* MipsGOT::lookupGlobalEntry(const ResolveInfo* pInfo) {
   GotEntryKey key;
   key.m_GOTPage = m_CurrentGOTPart;
   key.m_pInfo = pInfo;
   key.m_Addend = 0;
   GotEntryMapType::iterator it = m_GotGlobalEntriesMap.find(key);

   if (it == m_GotGlobalEntriesMap.end())
     return NULL;

   return it->second;
 }

 void MipsGOT::recordTLSEntry(const ResolveInfo* pInfo, Fragment* pEntry,
                              Relocation::Type pType) {
   if (pType == llvm::ELF::R_MIPS_TLS_LDM) {
     m_GotTLSLdmEntry = pEntry;
   } else if (pType == llvm::ELF::R_MIPS_TLS_GD) {
     GotEntryKey key;
     key.m_GOTPage = m_CurrentGOTPart;
     key.m_pInfo = pInfo;
     key.m_Addend = 0;
     m_GotTLSGdEntriesMap[key] = pEntry;
   } else if (pType == llvm::ELF::R_MIPS_TLS_GOTTPREL) {
     GotEntryKey key;
     key.m_GOTPage = m_CurrentGOTPart;
     key.m_pInfo = pInfo;
     key.m_Addend = 0;
     m_GotTLSGotEntriesMap[key] = pEntry;
   } else {
     llvm_unreachable("Unexpected relocation");
   }
 }

 Fragment* MipsGOT::lookupTLSEntry(const ResolveInfo* pInfo,
                                   Relocation::Type pType) {
   if (pType == llvm::ELF::R_MIPS_TLS_LDM)
     return m_GotTLSLdmEntry;
   if (pType == llvm::ELF::R_MIPS_TLS_GD) {
     GotEntryKey key;
     key.m_GOTPage = m_CurrentGOTPart;
     key.m_pInfo = pInfo;
     key.m_Addend = 0;
     GotEntryMapType::iterator it = m_GotTLSGdEntriesMap.find(key);
     return it == m_GotTLSGdEntriesMap.end() ? nullptr : it->second;
   }
   if (pType == llvm::ELF::R_MIPS_TLS_GOTTPREL) {
     GotEntryKey key;
     key.m_GOTPage = m_CurrentGOTPart;
     key.m_pInfo = pInfo;
     key.m_Addend = 0;
     GotEntryMapType::iterator it = m_GotTLSGotEntriesMap.find(key);
     return it == m_GotTLSGotEntriesMap.end() ? nullptr : it->second;
   }
   llvm_unreachable("Unexpected relocation");
 }

 void MipsGOT::recordLocalEntry(const ResolveInfo* pInfo,
                                Relocation::DWord pAddend,
                                Fragment* pEntry) {
   GotEntryKey key;
   key.m_GOTPage = m_CurrentGOTPart;
   key.m_pInfo = pInfo;
   key.m_Addend = pAddend;
   m_GotLocalEntriesMap[key] = pEntry;
 }

 Fragment* MipsGOT::lookupLocalEntry(const ResolveInfo* pInfo,
                                     Relocation::DWord pAddend) {
   GotEntryKey key;
   key.m_GOTPage = m_CurrentGOTPart;
   key.m_pInfo = pInfo;
   key.m_Addend = pAddend;
   GotEntryMapType::iterator it = m_GotLocalEntriesMap.find(key);

   if (it == m_GotLocalEntriesMap.end())
     return NULL;

   return it->second;
 }

 size_t MipsGOT::getLocalNum() const {
   assert(!m_MultipartList.empty() && "GOT is empty!");
   return m_MultipartList[0].m_LocalNum + MipsGOT0Num;
 }

 size_t MipsGOT::getGlobalNum() const {
   return m_SymbolOrderMap.size();
 }

 //===----------------------------------------------------------------------===//
 // Mips32GOT
 //===----------------------------------------------------------------------===//
 Mips32GOT::Mips32GOT(LDSection& pSection) : MipsGOT(pSection) {
 }

 void Mips32GOT::setEntryValue(Fragment* entry, uint64_t pValue) {
   llvm::cast<Mips32GOTEntry>(entry)->setValue(pValue);
 }

 uint64_t Mips32GOT::emit(MemoryRegion& pRegion) {
   uint32_t* buffer = reinterpret_cast<uint32_t*>(pRegion.begin());

   uint64_t result = 0;
   for (iterator it = begin(), ie = end(); it != ie; ++it, ++buffer) {
     Mips32GOTEntry* got = &(llvm::cast<Mips32GOTEntry>((*it)));
     *buffer = static_cast<uint32_t>(got->getValue());
     result += got->size();
   }
   return result;
 }

 Fragment* Mips32GOT::createEntry(uint64_t pValue, SectionData* pParent) {
   return new Mips32GOTEntry(pValue, pParent);
 }

 size_t Mips32GOT::getEntrySize() const {
   return Mips32GOTEntry::EntrySize;
 }

 void Mips32GOT::reserveHeader() {
   createEntry(0, m_SectionData);
   createEntry(Mips32ModulePtr, m_SectionData);
 }

 //===----------------------------------------------------------------------===//
 // Mips64GOT
 //===----------------------------------------------------------------------===//
 Mips64GOT::Mips64GOT(LDSection& pSection) : MipsGOT(pSection) {
 }

 void Mips64GOT::setEntryValue(Fragment* entry, uint64_t pValue) {
   llvm::cast<Mips64GOTEntry>(entry)->setValue(pValue);
 }

 uint64_t Mips64GOT::emit(MemoryRegion& pRegion) {
   uint64_t* buffer = reinterpret_cast<uint64_t*>(pRegion.begin());

   uint64_t result = 0;
   for (iterator it = begin(), ie = end(); it != ie; ++it, ++buffer) {
     Mips64GOTEntry* got = &(llvm::cast<Mips64GOTEntry>((*it)));
     *buffer = static_cast<uint64_t>(got->getValue());
     result += got->size();
   }
   return result;
 }

 Fragment* Mips64GOT::createEntry(uint64_t pValue, SectionData* pParent) {
   return new Mips64GOTEntry(pValue, pParent);
 }

 size_t Mips64GOT::getEntrySize() const {
   return Mips64GOTEntry::EntrySize;
 }

 void Mips64GOT::reserveHeader() {
   createEntry(0, m_SectionData);
   createEntry(Mips64ModulePtr, m_SectionData);
 }

 }  // namespace mcld
	//===- MipsGOT.cpp --------------------------------------------------------===//
	//
	// The MCLinker Project
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#include "mcld/LD/ResolveInfo.h"
	#include "mcld/Support/MsgHandling.h"
	#include "mcld/Target/OutputRelocSection.h"

	#include "MipsGOT.h"
	#include "MipsRelocator.h"

	#include <llvm/Support/Casting.h>
	#include <llvm/Support/ELF.h>

	namespace {
	const uint32_t Mips32ModulePtr = 1 << 31;
	const uint64_t Mips64ModulePtr = 1ull << 63;
	const size_t MipsGOT0Num = 2;
	const size_t MipsGOTGpOffset = 0x7FF0;
	const size_t MipsGOTSize = MipsGOTGpOffset + 0x7FFF;
	}

	namespace mcld {

	//===----------------------------------------------------------------------===//
	// MipsGOT::GOTMultipart
	//===----------------------------------------------------------------------===//
	MipsGOT::GOTMultipart::GOTMultipart(size_t local, size_t global)
	: m_LocalNum(local),
	m_GlobalNum(global),
	m_TLSNum(0),
	m_TLSDynNum(0),
	m_ConsumedLocal(0),
	m_ConsumedGlobal(0),
	m_ConsumedTLS(0),
	m_pLastLocal(NULL),
	m_pLastGlobal(NULL),
	m_pLastTLS(NULL) {
	}

	bool MipsGOT::GOTMultipart::isConsumed() const {
	return m_LocalNum == m_ConsumedLocal && m_GlobalNum == m_ConsumedGlobal &&
	m_TLSNum == m_ConsumedTLS;
	}

	void MipsGOT::GOTMultipart::consumeLocal() {
	assert(m_ConsumedLocal < m_LocalNum && "Consumed too many local GOT entries");
	++m_ConsumedLocal;
	m_pLastLocal = m_pLastLocal->getNextNode();
	}

	void MipsGOT::GOTMultipart::consumeGlobal() {
	assert(m_ConsumedGlobal < m_GlobalNum &&
	"Consumed too many global GOT entries");
	++m_ConsumedGlobal;
	m_pLastGlobal = m_pLastGlobal->getNextNode();
	}

	void MipsGOT::GOTMultipart::consumeTLS(Relocation::Type pType) {
	assert(m_ConsumedTLS < m_TLSNum &&
	"Consumed too many TLS GOT entries");
	m_ConsumedTLS += pType == llvm::ELF::R_MIPS_TLS_GOTTPREL ? 1 : 2;
	m_pLastTLS = m_pLastTLS->getNextNode();
	}

	//===----------------------------------------------------------------------===//
	// MipsGOT::LocalEntry
	//===----------------------------------------------------------------------===//
	MipsGOT::LocalEntry::LocalEntry(const ResolveInfo* pInfo,
	Relocation::DWord addend,
	bool isGot16)
	: m_pInfo(pInfo), m_Addend(addend), m_IsGot16(isGot16) {
	}

	bool MipsGOT::LocalEntry::operator<(const LocalEntry& O) const {
	if (m_pInfo != O.m_pInfo)
	return m_pInfo < O.m_pInfo;

	if (m_Addend != O.m_Addend)
	return m_Addend < O.m_Addend;

	return m_IsGot16 < O.m_IsGot16;
	}

	//===----------------------------------------------------------------------===//
	// MipsGOT
	//===----------------------------------------------------------------------===//
	MipsGOT::MipsGOT(LDSection& pSection)
	: GOT(pSection),
	m_pInput(NULL),
	m_HasTLSLdmSymbol(false),
	m_CurrentGOTPart(0),
	m_GotTLSLdmEntry(nullptr) {
	}

	uint64_t MipsGOT::getGPDispAddress() const {
	return addr() + MipsGOTGpOffset;
	}

	void MipsGOT::reserve(size_t pNum) {
	for (size_t i = 0; i < pNum; ++i)
	createEntry(0, m_SectionData);
	}

	bool MipsGOT::hasGOT1() const {
	return !m_MultipartList.empty();
	}

	bool MipsGOT::hasMultipleGOT() const {
	return m_MultipartList.size() > 1;
	}

	void MipsGOT::finalizeScanning(OutputRelocSection& pRelDyn) {
	for (MultipartListType::iterator it = m_MultipartList.begin();
	it != m_MultipartList.end();
	++it) {
	reserveHeader();
	it->m_pLastLocal = &m_SectionData->back();
	reserve(it->m_LocalNum);
	it->m_pLastGlobal = &m_SectionData->back();
	reserve(it->m_GlobalNum);
	it->m_pLastTLS = &m_SectionData->back();
	reserve(it->m_TLSNum);

	if (it == m_MultipartList.begin()) {
	// Reserve entries in the second part of the primary GOT.
	// These entries correspond to the global symbols in all
	// non-primary GOTs.
	reserve(getGlobalNum() - it->m_GlobalNum);
	} else {
	// Reserve reldyn entries for R_MIPS_REL32 relocations
	// for all global entries of secondary GOTs.
	// FIXME: (simon) Do not count local entries for non-pic.
	size_t count = it->m_GlobalNum + it->m_LocalNum;
	for (size_t i = 0; i < count; ++i)
	pRelDyn.reserveEntry();
	}

	for (size_t i = 0; i < it->m_TLSDynNum; ++i)
	pRelDyn.reserveEntry();
	}
	}

	bool MipsGOT::dynSymOrderCompare(const LDSymbol* pX, const LDSymbol* pY) const {
	SymbolOrderMapType::const_iterator itX = m_SymbolOrderMap.find(pX);
	SymbolOrderMapType::const_iterator itY = m_SymbolOrderMap.find(pY);

	if (itX != m_SymbolOrderMap.end() && itY != m_SymbolOrderMap.end())
	return itX->second < itY->second;

	return itX == m_SymbolOrderMap.end() && itY != m_SymbolOrderMap.end();
	}

	void MipsGOT::initGOTList() {
	m_SymbolOrderMap.clear();

	m_MultipartList.clear();
	m_MultipartList.push_back(GOTMultipart());

	m_MultipartList.back().m_Inputs.insert(m_pInput);

	m_MergedGlobalSymbols.clear();
	m_InputGlobalSymbols.clear();
	m_MergedLocalSymbols.clear();
	m_InputLocalSymbols.clear();
	m_InputTLSGdSymbols.clear();
	m_HasTLSLdmSymbol = false;
	}

	void MipsGOT::changeInput() {
	m_MultipartList.back().m_Inputs.insert(m_pInput);

	for (LocalSymbolSetType::iterator it = m_InputLocalSymbols.begin(),
	end = m_InputLocalSymbols.end();
	it != end;
	++it)
	m_MergedLocalSymbols.insert(*it);

	m_InputLocalSymbols.clear();

	for (SymbolUniqueMapType::iterator it = m_InputGlobalSymbols.begin(),
	end = m_InputGlobalSymbols.end();
	it != end;
	++it)
	m_MergedGlobalSymbols.insert(it->first);

	m_InputGlobalSymbols.clear();
	}

	bool MipsGOT::isGOTFull() const {
	uint64_t gotCount = MipsGOT0Num + m_MultipartList.back().m_LocalNum +
	m_MultipartList.back().m_GlobalNum;

	gotCount += 1;

	return gotCount * getEntrySize() > MipsGOTSize;
	}

	void MipsGOT::split() {
	m_MergedLocalSymbols.clear();
	m_MergedGlobalSymbols.clear();

	size_t uniqueCount = 0;
	for (SymbolUniqueMapType::const_iterator it = m_InputGlobalSymbols.begin(),
	end = m_InputGlobalSymbols.end();
	it != end;
	++it) {
	if (it->second)
	++uniqueCount;
	}

	m_MultipartList.back().m_LocalNum -= m_InputLocalSymbols.size();
	m_MultipartList.back().m_GlobalNum -= uniqueCount;
	m_MultipartList.back().m_Inputs.erase(m_pInput);

	m_MultipartList.push_back(
	GOTMultipart(m_InputLocalSymbols.size(), m_InputGlobalSymbols.size()));
	m_MultipartList.back().m_Inputs.insert(m_pInput);
	}

	void MipsGOT::initializeScan(const Input& pInput) {
	if (m_pInput == NULL) {
	m_pInput = &pInput;
	initGOTList();
	} else {
	m_pInput = &pInput;
	changeInput();
	}
	}

	void MipsGOT::finalizeScan(const Input& pInput) {
	}

	bool MipsGOT::reserveLocalEntry(ResolveInfo& pInfo,
	int reloc,
	Relocation::DWord pAddend) {
	LocalEntry entry(&pInfo, pAddend, reloc == llvm::ELF::R_MIPS_GOT16);

	if (m_InputLocalSymbols.count(entry))
	// Do nothing, if we have seen this symbol
	// in the current input already.
	return false;

	if (m_MergedLocalSymbols.count(entry)) {
	// We have seen this symbol in previous inputs.
	// Remember that it exists in the current input too.
	m_InputLocalSymbols.insert(entry);
	return false;
	}

	if (isGOTFull())
	split();

	m_InputLocalSymbols.insert(entry);

	++m_MultipartList.back().m_LocalNum;
	return true;
	}

	bool MipsGOT::reserveGlobalEntry(ResolveInfo& pInfo) {
	if (m_InputGlobalSymbols.count(&pInfo))
	return false;

	if (m_MergedGlobalSymbols.count(&pInfo)) {
	m_InputGlobalSymbols[&pInfo] = false;
	return false;
	}

	if (isGOTFull())
	split();

	m_InputGlobalSymbols[&pInfo] = true;
	++m_MultipartList.back().m_GlobalNum;

	if (!(pInfo.reserved() & MipsRelocator::ReserveGot)) {
	m_SymbolOrderMap[pInfo.outSymbol()] = m_SymbolOrderMap.size();
	pInfo.setReserved(pInfo.reserved() \| MipsRelocator::ReserveGot);
	}

	return true;
	}

	bool MipsGOT::reserveTLSGdEntry(ResolveInfo& pInfo) {
	if (m_InputTLSGdSymbols.count(&pInfo))
	return false;

	m_InputTLSGdSymbols.insert(&pInfo);
	m_MultipartList.back().m_TLSNum += 2;
	m_MultipartList.back().m_TLSDynNum += 2;

	return true;
	}

	bool MipsGOT::reserveTLSLdmEntry() {
	if (m_HasTLSLdmSymbol)
	return false;

	m_HasTLSLdmSymbol = true;
	m_MultipartList.back().m_TLSNum += 2;
	m_MultipartList.back().m_TLSDynNum += 1;

	return true;
	}

	bool MipsGOT::reserveTLSGotEntry(ResolveInfo& pInfo) {
	if (m_InputTLSGotSymbols.count(&pInfo))
	return false;

	m_InputTLSGotSymbols.insert(&pInfo);
	m_MultipartList.back().m_TLSNum += 1;
	m_MultipartList.back().m_TLSDynNum += 1;

	return true;
	}

	bool MipsGOT::isPrimaryGOTConsumed() {
	return m_CurrentGOTPart > 0;
	}

	Fragment* MipsGOT::consumeLocal() {
	assert(m_CurrentGOTPart < m_MultipartList.size() &&
	"GOT number is out of range!");

	if (m_MultipartList[m_CurrentGOTPart].isConsumed())
	++m_CurrentGOTPart;

	m_MultipartList[m_CurrentGOTPart].consumeLocal();

	return m_MultipartList[m_CurrentGOTPart].m_pLastLocal;
	}

	Fragment* MipsGOT::consumeGlobal() {
	assert(m_CurrentGOTPart < m_MultipartList.size() &&
	"GOT number is out of range!");

	if (m_MultipartList[m_CurrentGOTPart].isConsumed())
	++m_CurrentGOTPart;

	m_MultipartList[m_CurrentGOTPart].consumeGlobal();

	return m_MultipartList[m_CurrentGOTPart].m_pLastGlobal;
	}

	Fragment* MipsGOT::consumeTLS(Relocation::Type pType) {
	assert(m_CurrentGOTPart < m_MultipartList.size() &&
	"GOT number is out of range!");

	if (m_MultipartList[m_CurrentGOTPart].isConsumed())
	++m_CurrentGOTPart;

	m_MultipartList[m_CurrentGOTPart].consumeTLS(pType);

	return m_MultipartList[m_CurrentGOTPart].m_pLastTLS;
	}

	uint64_t MipsGOT::getGPAddr(const Input& pInput) const {
	uint64_t gotSize = 0;
	for (MultipartListType::const_iterator it = m_MultipartList.begin(),
	ie = m_MultipartList.end();
	it != ie;
	++it) {
	if (it->m_Inputs.count(&pInput))
	break;

	gotSize += (MipsGOT0Num + it->m_LocalNum + it->m_GlobalNum);
	if (it == m_MultipartList.begin())
	gotSize += getGlobalNum() - it->m_GlobalNum;
	}

	return addr() + gotSize * getEntrySize() + MipsGOTGpOffset;
	}

	uint64_t MipsGOT::getGPRelOffset(const Input& pInput,
	const Fragment& pEntry) const {
	return addr() + pEntry.getOffset() - getGPAddr(pInput);
	}

	void MipsGOT::recordGlobalEntry(const ResolveInfo* pInfo, Fragment* pEntry) {
	GotEntryKey key;
	key.m_GOTPage = m_CurrentGOTPart;
	key.m_pInfo = pInfo;
	key.m_Addend = 0;
	m_GotGlobalEntriesMap[key] = pEntry;
	}

	Fragment* MipsGOT::lookupGlobalEntry(const ResolveInfo* pInfo) {
	GotEntryKey key;
	key.m_GOTPage = m_CurrentGOTPart;
	key.m_pInfo = pInfo;
	key.m_Addend = 0;
	GotEntryMapType::iterator it = m_GotGlobalEntriesMap.find(key);

	if (it == m_GotGlobalEntriesMap.end())
	return NULL;

	return it->second;
	}

	void MipsGOT::recordTLSEntry(const ResolveInfo* pInfo, Fragment* pEntry,
	Relocation::Type pType) {
	if (pType == llvm::ELF::R_MIPS_TLS_LDM) {
	m_GotTLSLdmEntry = pEntry;
	} else if (pType == llvm::ELF::R_MIPS_TLS_GD) {
	GotEntryKey key;
	key.m_GOTPage = m_CurrentGOTPart;
	key.m_pInfo = pInfo;
	key.m_Addend = 0;
	m_GotTLSGdEntriesMap[key] = pEntry;
	} else if (pType == llvm::ELF::R_MIPS_TLS_GOTTPREL) {
	GotEntryKey key;
	key.m_GOTPage = m_CurrentGOTPart;
	key.m_pInfo = pInfo;
	key.m_Addend = 0;
	m_GotTLSGotEntriesMap[key] = pEntry;
	} else {
	llvm_unreachable("Unexpected relocation");
	}
	}

	Fragment* MipsGOT::lookupTLSEntry(const ResolveInfo* pInfo,
	Relocation::Type pType) {
	if (pType == llvm::ELF::R_MIPS_TLS_LDM)
	return m_GotTLSLdmEntry;
	if (pType == llvm::ELF::R_MIPS_TLS_GD) {
	GotEntryKey key;
	key.m_GOTPage = m_CurrentGOTPart;
	key.m_pInfo = pInfo;
	key.m_Addend = 0;
	GotEntryMapType::iterator it = m_GotTLSGdEntriesMap.find(key);
	return it == m_GotTLSGdEntriesMap.end() ? nullptr : it->second;
	}
	if (pType == llvm::ELF::R_MIPS_TLS_GOTTPREL) {
	GotEntryKey key;
	key.m_GOTPage = m_CurrentGOTPart;
	key.m_pInfo = pInfo;
	key.m_Addend = 0;
	GotEntryMapType::iterator it = m_GotTLSGotEntriesMap.find(key);
	return it == m_GotTLSGotEntriesMap.end() ? nullptr : it->second;
	}
	llvm_unreachable("Unexpected relocation");
	}

	void MipsGOT::recordLocalEntry(const ResolveInfo* pInfo,
	Relocation::DWord pAddend,
	Fragment* pEntry) {
	GotEntryKey key;
	key.m_GOTPage = m_CurrentGOTPart;
	key.m_pInfo = pInfo;
	key.m_Addend = pAddend;
	m_GotLocalEntriesMap[key] = pEntry;
	}

	Fragment* MipsGOT::lookupLocalEntry(const ResolveInfo* pInfo,
	Relocation::DWord pAddend) {
	GotEntryKey key;
	key.m_GOTPage = m_CurrentGOTPart;
	key.m_pInfo = pInfo;
	key.m_Addend = pAddend;
	GotEntryMapType::iterator it = m_GotLocalEntriesMap.find(key);

	if (it == m_GotLocalEntriesMap.end())
	return NULL;

	return it->second;
	}

	size_t MipsGOT::getLocalNum() const {
	assert(!m_MultipartList.empty() && "GOT is empty!");
	return m_MultipartList[0].m_LocalNum + MipsGOT0Num;
	}

	size_t MipsGOT::getGlobalNum() const {
	return m_SymbolOrderMap.size();
	}

	//===----------------------------------------------------------------------===//
	// Mips32GOT
	//===----------------------------------------------------------------------===//
	Mips32GOT::Mips32GOT(LDSection& pSection) : MipsGOT(pSection) {
	}

	void Mips32GOT::setEntryValue(Fragment* entry, uint64_t pValue) {
	llvm::cast<Mips32GOTEntry>(entry)->setValue(pValue);
	}

	uint64_t Mips32GOT::emit(MemoryRegion& pRegion) {
	uint32_t* buffer = reinterpret_cast<uint32_t*>(pRegion.begin());

	uint64_t result = 0;
	for (iterator it = begin(), ie = end(); it != ie; ++it, ++buffer) {
	Mips32GOTEntry* got = &(llvm::cast<Mips32GOTEntry>((*it)));
	*buffer = static_cast<uint32_t>(got->getValue());
	result += got->size();
	}
	return result;
	}

	Fragment* Mips32GOT::createEntry(uint64_t pValue, SectionData* pParent) {
	return new Mips32GOTEntry(pValue, pParent);
	}

	size_t Mips32GOT::getEntrySize() const {
	return Mips32GOTEntry::EntrySize;
	}

	void Mips32GOT::reserveHeader() {
	createEntry(0, m_SectionData);
	createEntry(Mips32ModulePtr, m_SectionData);
	}

	//===----------------------------------------------------------------------===//
	// Mips64GOT
	//===----------------------------------------------------------------------===//
	Mips64GOT::Mips64GOT(LDSection& pSection) : MipsGOT(pSection) {
	}

	void Mips64GOT::setEntryValue(Fragment* entry, uint64_t pValue) {
	llvm::cast<Mips64GOTEntry>(entry)->setValue(pValue);
	}

	uint64_t Mips64GOT::emit(MemoryRegion& pRegion) {
	uint64_t* buffer = reinterpret_cast<uint64_t*>(pRegion.begin());

	uint64_t result = 0;
	for (iterator it = begin(), ie = end(); it != ie; ++it, ++buffer) {
	Mips64GOTEntry* got = &(llvm::cast<Mips64GOTEntry>((*it)));
	*buffer = static_cast<uint64_t>(got->getValue());
	result += got->size();
	}
	return result;
	}

	Fragment* Mips64GOT::createEntry(uint64_t pValue, SectionData* pParent) {
	return new Mips64GOTEntry(pValue, pParent);
	}

	size_t Mips64GOT::getEntrySize() const {
	return Mips64GOTEntry::EntrySize;
	}

	void Mips64GOT::reserveHeader() {
	createEntry(0, m_SectionData);
	createEntry(Mips64ModulePtr, m_SectionData);
	}

	} // namespace mcld