//===- ARMRelocator.cpp --------------------------------------------------===//
//
// The MCLinker Project
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "ARMRelocator.h"
#include "ARMRelocationFunctions.h"
#include "mcld/IRBuilder.h"
#include "mcld/LinkerConfig.h"
#include "mcld/LD/ELFFileFormat.h"
#include "mcld/LD/LDSymbol.h"
#include "mcld/Object/ObjectBuilder.h"
#include "mcld/Support/MsgHandling.h"
#include <llvm/ADT/Twine.h>
#include <llvm/Support/DataTypes.h>
#include <llvm/Support/ELF.h>
#include <llvm/Support/Host.h>
namespace mcld {
//=========================================//
// Relocation helper function //
//=========================================//
static Relocator::DWord getThumbBit(const Relocation& pReloc) {
// Set thumb bit if
// - symbol has type of STT_FUNC, is defined and with bit 0 of its value set
Relocator::DWord thumbBit =
((!pReloc.symInfo()->isUndef() || pReloc.symInfo()->isDyn()) &&
(pReloc.symInfo()->type() == ResolveInfo::Function) &&
((pReloc.symValue() & 0x1) != 0))
? 1
: 0;
return thumbBit;
}
// Using uint64_t to make sure those complicate operations won't cause
// undefined behavior.
static uint64_t helper_sign_extend(uint64_t pVal, uint64_t pOri_width) {
assert(pOri_width <= 64);
if (pOri_width == 64)
return pVal;
uint64_t mask = (~((uint64_t)0)) >> (64 - pOri_width);
pVal &= mask;
// Reverse sign bit, then subtract sign bit.
uint64_t sign_bit = 1 << (pOri_width - 1);
return (pVal ^ sign_bit) - sign_bit;
}
static uint64_t helper_bit_select(uint64_t pA, uint64_t pB, uint64_t pMask) {
return (pA & ~pMask) | (pB & pMask);
}
// Check if symbol can use relocation R_ARM_RELATIVE
static bool helper_use_relative_reloc(const ResolveInfo& pSym,
const ARMRelocator& pFactory) {
// if symbol is dynamic or undefine or preemptible
if (pSym.isDyn() || pSym.isUndef() ||
pFactory.getTarget().isSymbolPreemptible(pSym))
return false;
return true;
}
// Strip LSB (THUMB bit) if "S" is a THUMB target.
static inline void helper_clear_thumb_bit(Relocator::DWord& pValue) {
pValue &= (~0x1);
}
static Relocator::Address helper_get_GOT_address(ResolveInfo& pSym,
ARMRelocator& pParent) {
ARMGOTEntry* got_entry = pParent.getSymGOTMap().lookUp(pSym);
assert(got_entry != NULL);
return pParent.getTarget().getGOT().addr() + got_entry->getOffset();
}
static ARMGOTEntry& helper_GOT_init(Relocation& pReloc,
bool pHasRel,
ARMRelocator& pParent) {
// rsym - The relocation target symbol
ResolveInfo* rsym = pReloc.symInfo();
ARMGNULDBackend& ld_backend = pParent.getTarget();
assert(pParent.getSymGOTMap().lookUp(*rsym) == NULL);
ARMGOTEntry* got_entry = ld_backend.getGOT().createGOT();
pParent.getSymGOTMap().record(*rsym, *got_entry);
// If we first get this GOT entry, we should initialize it.
if (!pHasRel) {
// No corresponding dynamic relocation, initialize to the symbol value.
got_entry->setValue(ARMRelocator::SymVal);
} else {
// Initialize corresponding dynamic relocation.
Relocation& rel_entry = *ld_backend.getRelDyn().create();
if (rsym->isLocal() || helper_use_relative_reloc(*rsym, pParent)) {
// Initialize got entry to target symbol address
got_entry->setValue(ARMRelocator::SymVal);
rel_entry.setType(llvm::ELF::R_ARM_RELATIVE);
rel_entry.setSymInfo(NULL);
} else {
// Initialize got entry to 0 for corresponding dynamic relocation.
got_entry->setValue(0);
rel_entry.setType(llvm::ELF::R_ARM_GLOB_DAT);
rel_entry.setSymInfo(rsym);
}
rel_entry.targetRef().assign(*got_entry);
}
return *got_entry;
}
static Relocator::Address helper_GOT_ORG(ARMRelocator& pParent) {
return pParent.getTarget().getGOT().addr();
}
static Relocator::Address helper_get_PLT_address(ResolveInfo& pSym,
ARMRelocator& pParent) {
ARMPLT1* plt_entry = pParent.getSymPLTMap().lookUp(pSym);
assert(plt_entry != NULL);
return pParent.getTarget().getPLT().addr() + plt_entry->getOffset();
}
static ARMPLT1& helper_PLT_init(Relocation& pReloc, ARMRelocator& pParent) {
// rsym - The relocation target symbol
ResolveInfo* rsym = pReloc.symInfo();
ARMGNULDBackend& ld_backend = pParent.getTarget();
assert(pParent.getSymPLTMap().lookUp(*rsym) == NULL);
// initialize the plt and the corresponding gotplt and dyn relocation
ARMPLT1* plt_entry = ld_backend.getPLT().create();
pParent.getSymPLTMap().record(*rsym, *plt_entry);
assert(pParent.getSymGOTPLTMap().lookUp(*rsym) == NULL &&
"PLT entry not exist, but DynRel entry exist!");
ARMGOTEntry* gotplt_entry = ld_backend.getGOT().createGOTPLT();
pParent.getSymGOTPLTMap().record(*rsym, *gotplt_entry);
Relocation& rel_entry = *ld_backend.getRelPLT().create();
rel_entry.setType(llvm::ELF::R_ARM_JUMP_SLOT);
rel_entry.targetRef().assign(*gotplt_entry);
rel_entry.setSymInfo(rsym);
return *plt_entry;
}
// Get an relocation entry in .rel.dyn and set its type to pType,
// its FragmentRef to pReloc->targetFrag() and its ResolveInfo to
// pReloc->symInfo()
static void helper_DynRel_init(Relocation& pReloc,
Relocator::Type pType,
ARMRelocator& pParent) {
// rsym - The relocation target symbol
ResolveInfo* rsym = pReloc.symInfo();
ARMGNULDBackend& ld_backend = pParent.getTarget();
Relocation& rel_entry = *ld_backend.getRelDyn().create();
rel_entry.setType(pType);
rel_entry.targetRef() = pReloc.targetRef();
if (pType == llvm::ELF::R_ARM_RELATIVE)
rel_entry.setSymInfo(NULL);
else
rel_entry.setSymInfo(rsym);
}
static Relocator::DWord helper_extract_movw_movt_addend(
Relocator::DWord pTarget) {
// imm16: [19-16][11-0]
return helper_sign_extend((((pTarget >> 4)) & 0xf000U) | (pTarget & 0xfffU),
16);
}
static Relocator::DWord helper_insert_val_movw_movt_inst(
Relocator::DWord pTarget,
Relocator::DWord pImm) {
// imm16: [19-16][11-0]
pTarget &= 0xfff0f000U;
pTarget |= pImm & 0x0fffU;
pTarget |= (pImm & 0xf000U) << 4;
return pTarget;
}
static Relocator::DWord helper_extract_thumb_movw_movt_addend(
Relocator::DWord pValue) {
// imm16: [19-16][26][14-12][7-0]
return helper_sign_extend(
(((pValue >> 4) & 0xf000U) | ((pValue >> 15) & 0x0800U) |
((pValue >> 4) & 0x0700U) | (pValue & 0x00ffU)),
16);
}
static Relocator::DWord helper_insert_val_thumb_movw_movt_inst(
Relocator::DWord pValue,
Relocator::DWord pImm) {
// imm16: [19-16][26][14-12][7-0]
pValue &= 0xfbf08f00U;
pValue |= (pImm & 0xf000U) << 4;
pValue |= (pImm & 0x0800U) << 15;
pValue |= (pImm & 0x0700U) << 4;
pValue |= (pImm & 0x00ffU);
return pValue;
}
static Relocator::DWord helper_thumb32_branch_offset(
Relocator::DWord pUpper16,
Relocator::DWord pLower16) {
Relocator::DWord s = (pUpper16 & (1U << 10)) >> 10, // 26 bit
u = pUpper16 & 0x3ffU, // 25-16
l = pLower16 & 0x7ffU, // 10-0
j1 = (pLower16 & (1U << 13)) >> 13, // 13
j2 = (pLower16 & (1U << 11)) >> 11; // 11
Relocator::DWord i1 = j1 ^ s ? 0 : 1, i2 = j2 ^ s ? 0 : 1;
// [31-25][24][23][22][21-12][11-1][0]
// 0 s i1 i2 u l 0
return helper_sign_extend(
(s << 24) | (i1 << 23) | (i2 << 22) | (u << 12) | (l << 1), 25);
}
static Relocator::DWord helper_thumb32_branch_upper(Relocator::DWord pUpper16,
Relocator::DWord pOffset) {
uint32_t sign = ((pOffset & 0x80000000U) >> 31);
return (pUpper16 & ~0x7ffU) | ((pOffset >> 12) & 0x3ffU) | (sign << 10);
}
static Relocator::DWord helper_thumb32_branch_lower(Relocator::DWord pLower16,
Relocator::DWord pOffset) {
uint32_t sign = ((pOffset & 0x80000000U) >> 31);
return ((pLower16 & ~0x2fffU) | ((((pOffset >> 23) & 1) ^ !sign) << 13) |
((((pOffset >> 22) & 1) ^ !sign) << 11) | ((pOffset >> 1) & 0x7ffU));
}
static Relocator::DWord helper_thumb32_cond_branch_offset(
Relocator::DWord pUpper16,
Relocator::DWord pLower16) {
uint32_t s = (pUpper16 & 0x0400U) >> 10;
uint32_t j1 = (pLower16 & 0x2000U) >> 13;
uint32_t j2 = (pLower16 & 0x0800U) >> 11;
uint32_t lower = (pLower16 & 0x07ffU);
uint32_t upper = (s << 8) | (j2 << 7) | (j1 << 6) | (pUpper16 & 0x003fU);
return helper_sign_extend((upper << 12) | (lower << 1), 21);
}
static Relocator::DWord helper_thumb32_cond_branch_upper(
Relocator::DWord pUpper16,
Relocator::DWord pOffset) {
uint32_t sign = ((pOffset & 0x80000000U) >> 31);
return (pUpper16 & 0xfbc0U) | (sign << 10) | ((pOffset & 0x0003f000U) >> 12);
}
static Relocator::DWord helper_thumb32_cond_branch_lower(
Relocator::DWord pLower16,
Relocator::DWord pOffset) {
uint32_t j2 = (pOffset & 0x00080000U) >> 19;
uint32_t j1 = (pOffset & 0x00040000U) >> 18;
uint32_t lo = (pOffset & 0x00000ffeU) >> 1;
return (pLower16 & 0xd000U) | (j1 << 13) | (j2 << 11) | lo;
}
// Return true if overflow
static bool helper_check_signed_overflow(Relocator::DWord pValue,
unsigned bits) {
int32_t signed_val = static_cast<int32_t>(pValue);
int32_t max = (1 << (bits - 1)) - 1;
int32_t min = -(1 << (bits - 1));
if (signed_val > max || signed_val < min) {
return true;
} else {
return false;
}
}
//===----------------------------------------------------------------------===//
// Relocation Functions and Tables
//===----------------------------------------------------------------------===//
DECL_ARM_APPLY_RELOC_FUNCS
/// the prototype of applying function
typedef Relocator::Result (*ApplyFunctionType)(Relocation& pReloc,
ARMRelocator& pParent);
// the table entry of applying functions
struct ApplyFunctionTriple {
ApplyFunctionType func;
unsigned int type;
const char* name;
};
// declare the table of applying functions
static const ApplyFunctionTriple ApplyFunctions[] = {
DECL_ARM_APPLY_RELOC_FUNC_PTRS};
//===----------------------------------------------------------------------===//
// ARMRelocator
//===----------------------------------------------------------------------===//
ARMRelocator::ARMRelocator(ARMGNULDBackend& pParent,
const LinkerConfig& pConfig)
: Relocator(pConfig), m_Target(pParent) {
}
ARMRelocator::~ARMRelocator() {
}
Relocator::Result ARMRelocator::applyRelocation(Relocation& pRelocation) {
Relocation::Type type = pRelocation.type();
if (type > 130) { // 131-255 doesn't noted in ARM spec
return Relocator::Unknown;
}
return ApplyFunctions[type].func(pRelocation, *this);
}
const char* ARMRelocator::getName(Relocator::Type pType) const {
return ApplyFunctions[pType].name;
}
Relocator::Size ARMRelocator::getSize(Relocation::Type pType) const {
return 32;
}
void ARMRelocator::addCopyReloc(ResolveInfo& pSym) {
Relocation& rel_entry = *getTarget().getRelDyn().create();
rel_entry.setType(llvm::ELF::R_ARM_COPY);
assert(pSym.outSymbol()->hasFragRef());
rel_entry.targetRef().assign(*pSym.outSymbol()->fragRef());
rel_entry.setSymInfo(&pSym);
}
/// defineSymbolForCopyReloc
/// For a symbol needing copy relocation, define a copy symbol in the BSS
/// section and all other reference to this symbol should refer to this
/// copy.
/// This is executed at scan relocation stage.
LDSymbol& ARMRelocator::defineSymbolforCopyReloc(IRBuilder& pBuilder,
const ResolveInfo& pSym) {
// get or create corresponding BSS LDSection
LDSection* bss_sect_hdr = NULL;
ELFFileFormat* file_format = getTarget().getOutputFormat();
if (ResolveInfo::ThreadLocal == pSym.type())
bss_sect_hdr = &file_format->getTBSS();
else
bss_sect_hdr = &file_format->getBSS();
// get or create corresponding BSS SectionData
SectionData* bss_data = NULL;
if (bss_sect_hdr->hasSectionData())
bss_data = bss_sect_hdr->getSectionData();
else
bss_data = IRBuilder::CreateSectionData(*bss_sect_hdr);
// Determine the alignment by the symbol value
// FIXME: here we use the largest alignment
uint32_t addralign = config().targets().bitclass() / 8;
// allocate space in BSS for the copy symbol
Fragment* frag = new FillFragment(0x0, 1, pSym.size());
uint64_t size = ObjectBuilder::AppendFragment(*frag, *bss_data, addralign);
bss_sect_hdr->setSize(bss_sect_hdr->size() + size);
// change symbol binding to Global if it's a weak symbol
ResolveInfo::Binding binding = (ResolveInfo::Binding)pSym.binding();
if (binding == ResolveInfo::Weak)
binding = ResolveInfo::Global;
// Define the copy symbol in the bss section and resolve it
LDSymbol* cpy_sym = pBuilder.AddSymbol<IRBuilder::Force, IRBuilder::Resolve>(
pSym.name(),
(ResolveInfo::Type)pSym.type(),
ResolveInfo::Define,
binding,
pSym.size(), // size
0x0, // value
FragmentRef::Create(*frag, 0x0),
(ResolveInfo::Visibility)pSym.other());
return *cpy_sym;
}
/// checkValidReloc - When we attempt to generate a dynamic relocation for
/// ouput file, check if the relocation is supported by dynamic linker.
void ARMRelocator::checkValidReloc(Relocation& pReloc) const {
// If not PIC object, no relocation type is invalid
if (!config().isCodeIndep())
return;
switch (pReloc.type()) {
case llvm::ELF::R_ARM_RELATIVE:
case llvm::ELF::R_ARM_COPY:
case llvm::ELF::R_ARM_GLOB_DAT:
case llvm::ELF::R_ARM_JUMP_SLOT:
case llvm::ELF::R_ARM_ABS32:
case llvm::ELF::R_ARM_ABS32_NOI:
case llvm::ELF::R_ARM_PC24:
case llvm::ELF::R_ARM_TLS_DTPMOD32:
case llvm::ELF::R_ARM_TLS_DTPOFF32:
case llvm::ELF::R_ARM_TLS_TPOFF32:
break;
default:
error(diag::non_pic_relocation) << getName(pReloc.type())
<< pReloc.symInfo()->name();
break;
}
}
bool ARMRelocator::mayHaveFunctionPointerAccess(
const Relocation& pReloc) const {
switch (pReloc.type()) {
case llvm::ELF::R_ARM_PC24:
case llvm::ELF::R_ARM_THM_CALL:
case llvm::ELF::R_ARM_PLT32:
case llvm::ELF::R_ARM_CALL:
case llvm::ELF::R_ARM_JUMP24:
case llvm::ELF::R_ARM_THM_JUMP24:
case llvm::ELF::R_ARM_SBREL31:
case llvm::ELF::R_ARM_PREL31:
case llvm::ELF::R_ARM_THM_JUMP19:
case llvm::ELF::R_ARM_THM_JUMP6:
case llvm::ELF::R_ARM_THM_JUMP11:
case llvm::ELF::R_ARM_THM_JUMP8: {
return false;
}
default: { return true; }
}
}
void ARMRelocator::scanLocalReloc(Relocation& pReloc,
const LDSection& pSection) {
// rsym - The relocation target symbol
ResolveInfo* rsym = pReloc.symInfo();
switch (pReloc.type()) {
// Set R_ARM_TARGET1 to R_ARM_ABS32
// FIXME: R_ARM_TARGET1 should be set by option --target1-rel
// or --target1-rel
case llvm::ELF::R_ARM_TARGET1:
pReloc.setType(llvm::ELF::R_ARM_ABS32);
case llvm::ELF::R_ARM_ABS32:
case llvm::ELF::R_ARM_ABS32_NOI: {
// If buiding PIC object (shared library or PIC executable),
// a dynamic relocations with RELATIVE type to this location is needed.
// Reserve an entry in .rel.dyn
if (config().isCodeIndep()) {
helper_DynRel_init(pReloc, llvm::ELF::R_ARM_RELATIVE, *this);
// set Rel bit
rsym->setReserved(rsym->reserved() | ReserveRel);
getTarget().checkAndSetHasTextRel(*pSection.getLink());
}
return;
}
case llvm::ELF::R_ARM_ABS16:
case llvm::ELF::R_ARM_ABS12:
case llvm::ELF::R_ARM_THM_ABS5:
case llvm::ELF::R_ARM_ABS8:
case llvm::ELF::R_ARM_BASE_ABS:
case llvm::ELF::R_ARM_MOVW_ABS_NC:
case llvm::ELF::R_ARM_MOVT_ABS:
case llvm::ELF::R_ARM_THM_MOVW_ABS_NC:
case llvm::ELF::R_ARM_THM_MOVT_ABS: {
// PIC code should not contain these kinds of relocation
if (config().isCodeIndep()) {
error(diag::non_pic_relocation) << getName(pReloc.type())
<< pReloc.symInfo()->name();
}
return;
}
case llvm::ELF::R_ARM_GOTOFF32:
case llvm::ELF::R_ARM_GOTOFF12: {
// FIXME: A GOT section is needed
return;
}
// Set R_ARM_TARGET2 to R_ARM_GOT_PREL
// FIXME: R_ARM_TARGET2 should be set by option --target2
case llvm::ELF::R_ARM_TARGET2:
pReloc.setType(llvm::ELF::R_ARM_GOT_PREL);
case llvm::ELF::R_ARM_GOT_BREL:
case llvm::ELF::R_ARM_GOT_PREL: {
// A GOT entry is needed for these relocation type.
// return if we already create GOT for this symbol
if (rsym->reserved() & ReserveGOT)
return;
// If building PIC object, a dynamic relocation with
// type RELATIVE is needed to relocate this GOT entry.
if (config().isCodeIndep())
helper_GOT_init(pReloc, true, *this);
else
helper_GOT_init(pReloc, false, *this);
// set GOT bit
rsym->setReserved(rsym->reserved() | ReserveGOT);
return;
}
case llvm::ELF::R_ARM_BASE_PREL: {
// FIXME: Currently we only support R_ARM_BASE_PREL against
// symbol _GLOBAL_OFFSET_TABLE_
if (rsym != getTarget().getGOTSymbol()->resolveInfo())
fatal(diag::base_relocation) << static_cast<int>(pReloc.type())
<< rsym->name()
<< "mclinker@googlegroups.com";
return;
}
case llvm::ELF::R_ARM_COPY:
case llvm::ELF::R_ARM_GLOB_DAT:
case llvm::ELF::R_ARM_JUMP_SLOT:
case llvm::ELF::R_ARM_RELATIVE: {
// These are relocation type for dynamic linker, shold not
// appear in object file.
fatal(diag::dynamic_relocation) << static_cast<int>(pReloc.type());
break;
}
default: { break; }
} // end switch
}
void ARMRelocator::scanGlobalReloc(Relocation& pReloc,
IRBuilder& pBuilder,
const LDSection& pSection) {
// rsym - The relocation target symbol
ResolveInfo* rsym = pReloc.symInfo();
switch (pReloc.type()) {
// Set R_ARM_TARGET1 to R_ARM_ABS32
// FIXME: R_ARM_TARGET1 should be set by option --target1-rel
// or --target1-rel
case llvm::ELF::R_ARM_TARGET1:
pReloc.setType(llvm::ELF::R_ARM_ABS32);
case llvm::ELF::R_ARM_ABS32:
case llvm::ELF::R_ARM_ABS16:
case llvm::ELF::R_ARM_ABS12:
case llvm::ELF::R_ARM_THM_ABS5:
case llvm::ELF::R_ARM_ABS8:
case llvm::ELF::R_ARM_BASE_ABS:
case llvm::ELF::R_ARM_MOVW_ABS_NC:
case llvm::ELF::R_ARM_MOVT_ABS:
case llvm::ELF::R_ARM_THM_MOVW_ABS_NC:
case llvm::ELF::R_ARM_THM_MOVT_ABS:
case llvm::ELF::R_ARM_ABS32_NOI: {
// Absolute relocation type, symbol may needs PLT entry or
// dynamic relocation entry
if (getTarget().symbolNeedsPLT(*rsym)) {
// create plt for this symbol if it does not have one
if (!(rsym->reserved() & ReservePLT)) {
// Symbol needs PLT entry, we need to reserve a PLT entry
// and the corresponding GOT and dynamic relocation entry
// in .got and .rel.plt.
helper_PLT_init(pReloc, *this);
// set PLT bit
rsym->setReserved(rsym->reserved() | ReservePLT);
}
}
if (getTarget()
.symbolNeedsDynRel(
*rsym, (rsym->reserved() & ReservePLT), true)) {
if (getTarget().symbolNeedsCopyReloc(pReloc, *rsym)) {
LDSymbol& cpy_sym = defineSymbolforCopyReloc(pBuilder, *rsym);
addCopyReloc(*cpy_sym.resolveInfo());
} else {
checkValidReloc(pReloc);
// set Rel bit
if (helper_use_relative_reloc(*rsym, *this))
helper_DynRel_init(pReloc, llvm::ELF::R_ARM_RELATIVE, *this);
else
helper_DynRel_init(pReloc, pReloc.type(), *this);
rsym->setReserved(rsym->reserved() | ReserveRel);
getTarget().checkAndSetHasTextRel(*pSection.getLink());
}
}
return;
}
case llvm::ELF::R_ARM_GOTOFF32:
case llvm::ELF::R_ARM_GOTOFF12: {
// FIXME: A GOT section is needed
return;
}
case llvm::ELF::R_ARM_BASE_PREL:
case llvm::ELF::R_ARM_THM_MOVW_BREL_NC:
case llvm::ELF::R_ARM_THM_MOVW_BREL:
case llvm::ELF::R_ARM_THM_MOVT_BREL:
// FIXME: Currently we only support these relocations against
// symbol _GLOBAL_OFFSET_TABLE_
if (rsym != getTarget().getGOTSymbol()->resolveInfo()) {
fatal(diag::base_relocation) << static_cast<int>(pReloc.type())
<< rsym->name()
<< "mclinker@googlegroups.com";
}
case llvm::ELF::R_ARM_REL32:
case llvm::ELF::R_ARM_LDR_PC_G0:
case llvm::ELF::R_ARM_SBREL32:
case llvm::ELF::R_ARM_THM_PC8:
case llvm::ELF::R_ARM_MOVW_PREL_NC:
case llvm::ELF::R_ARM_MOVT_PREL:
case llvm::ELF::R_ARM_THM_MOVW_PREL_NC:
case llvm::ELF::R_ARM_THM_MOVT_PREL:
case llvm::ELF::R_ARM_THM_ALU_PREL_11_0:
case llvm::ELF::R_ARM_THM_PC12:
case llvm::ELF::R_ARM_REL32_NOI:
case llvm::ELF::R_ARM_ALU_PC_G0_NC:
case llvm::ELF::R_ARM_ALU_PC_G0:
case llvm::ELF::R_ARM_ALU_PC_G1_NC:
case llvm::ELF::R_ARM_ALU_PC_G1:
case llvm::ELF::R_ARM_ALU_PC_G2:
case llvm::ELF::R_ARM_LDR_PC_G1:
case llvm::ELF::R_ARM_LDR_PC_G2:
case llvm::ELF::R_ARM_LDRS_PC_G0:
case llvm::ELF::R_ARM_LDRS_PC_G1:
case llvm::ELF::R_ARM_LDRS_PC_G2:
case llvm::ELF::R_ARM_LDC_PC_G0:
case llvm::ELF::R_ARM_LDC_PC_G1:
case llvm::ELF::R_ARM_LDC_PC_G2:
case llvm::ELF::R_ARM_ALU_SB_G0_NC:
case llvm::ELF::R_ARM_ALU_SB_G0:
case llvm::ELF::R_ARM_ALU_SB_G1_NC:
case llvm::ELF::R_ARM_ALU_SB_G1:
case llvm::ELF::R_ARM_ALU_SB_G2:
case llvm::ELF::R_ARM_LDR_SB_G0:
case llvm::ELF::R_ARM_LDR_SB_G1:
case llvm::ELF::R_ARM_LDR_SB_G2:
case llvm::ELF::R_ARM_LDRS_SB_G0:
case llvm::ELF::R_ARM_LDRS_SB_G1:
case llvm::ELF::R_ARM_LDRS_SB_G2:
case llvm::ELF::R_ARM_LDC_SB_G0:
case llvm::ELF::R_ARM_LDC_SB_G1:
case llvm::ELF::R_ARM_LDC_SB_G2:
case llvm::ELF::R_ARM_MOVW_BREL_NC:
case llvm::ELF::R_ARM_MOVT_BREL:
case llvm::ELF::R_ARM_MOVW_BREL: {
// Relative addressing relocation, may needs dynamic relocation
if (getTarget()
.symbolNeedsDynRel(
*rsym, (rsym->reserved() & ReservePLT), false)) {
// symbol needs dynamic relocation entry, reserve an entry in .rel.dyn
if (getTarget().symbolNeedsCopyReloc(pReloc, *rsym)) {
LDSymbol& cpy_sym = defineSymbolforCopyReloc(pBuilder, *rsym);
addCopyReloc(*cpy_sym.resolveInfo());
} else {
checkValidReloc(pReloc);
// set Rel bit
helper_DynRel_init(pReloc, pReloc.type(), *this);
rsym->setReserved(rsym->reserved() | ReserveRel);
getTarget().checkAndSetHasTextRel(*pSection.getLink());
}
}
return;
}
case llvm::ELF::R_ARM_PC24:
case llvm::ELF::R_ARM_THM_CALL:
case llvm::ELF::R_ARM_PLT32:
case llvm::ELF::R_ARM_CALL:
case llvm::ELF::R_ARM_JUMP24:
case llvm::ELF::R_ARM_THM_JUMP24:
case llvm::ELF::R_ARM_SBREL31:
case llvm::ELF::R_ARM_PREL31:
case llvm::ELF::R_ARM_THM_JUMP19:
case llvm::ELF::R_ARM_THM_JUMP6:
case llvm::ELF::R_ARM_THM_JUMP11:
case llvm::ELF::R_ARM_THM_JUMP8: {
// These are branch relocation (except PREL31)
// A PLT entry is needed when building shared library
// return if we already create plt for this symbol
if (rsym->reserved() & ReservePLT)
return;
// if the symbol's value can be decided at link time, then no need plt
if (getTarget().symbolFinalValueIsKnown(*rsym))
return;
// if symbol is defined in the ouput file and it's not
// preemptible, no need plt
if (rsym->isDefine() && !rsym->isDyn() &&
!getTarget().isSymbolPreemptible(*rsym)) {
return;
}
// Symbol needs PLT entry, we need to reserve a PLT entry
// and the corresponding GOT and dynamic relocation entry
// in .got and .rel.plt.
helper_PLT_init(pReloc, *this);
// set PLT bit
rsym->setReserved(rsym->reserved() | ReservePLT);
return;
}
// Set R_ARM_TARGET2 to R_ARM_GOT_PREL
// FIXME: R_ARM_TARGET2 should be set by option --target2
case llvm::ELF::R_ARM_TARGET2:
pReloc.setType(llvm::ELF::R_ARM_GOT_PREL);
case llvm::ELF::R_ARM_GOT_BREL:
case llvm::ELF::R_ARM_GOT_ABS:
case llvm::ELF::R_ARM_GOT_PREL: {
// Symbol needs GOT entry, reserve entry in .got
// return if we already create GOT for this symbol
if (rsym->reserved() & ReserveGOT)
return;
// if the symbol cannot be fully resolved at link time, then we need a
// dynamic relocation
if (!getTarget().symbolFinalValueIsKnown(*rsym))
helper_GOT_init(pReloc, true, *this);
else
helper_GOT_init(pReloc, false, *this);
// set GOT bit
rsym->setReserved(rsym->reserved() | ReserveGOT);
return;
}
case llvm::ELF::R_ARM_COPY:
case llvm::ELF::R_ARM_GLOB_DAT:
case llvm::ELF::R_ARM_JUMP_SLOT:
case llvm::ELF::R_ARM_RELATIVE: {
// These are relocation type for dynamic linker, shold not
// appear in object file.
fatal(diag::dynamic_relocation) << static_cast<int>(pReloc.type());
break;
}
default: { break; }
} // end switch
}
void ARMRelocator::scanRelocation(Relocation& pReloc,
IRBuilder& pBuilder,
Module& pModule,
LDSection& pSection,
Input& pInput) {
// rsym - The relocation target symbol
ResolveInfo* rsym = pReloc.symInfo();
assert(rsym != NULL &&
"ResolveInfo of relocation not set while scanRelocation");
assert(pSection.getLink() != NULL);
if ((pSection.getLink()->flag() & llvm::ELF::SHF_ALLOC) == 0)
return;
// Scan relocation type to determine if an GOT/PLT/Dynamic Relocation
// entries should be created.
// FIXME: Below judgements concern nothing about TLS related relocation
// rsym is local
if (rsym->isLocal())
scanLocalReloc(pReloc, pSection);
// rsym is external
else
scanGlobalReloc(pReloc, pBuilder, pSection);
// check if we shoule issue undefined reference for the relocation target
// symbol
if (rsym->isUndef() && !rsym->isDyn() && !rsym->isWeak() && !rsym->isNull())
issueUndefRef(pReloc, pSection, pInput);
}
uint32_t ARMRelocator::getDebugStringOffset(Relocation& pReloc) const {
if (pReloc.type() != llvm::ELF::R_ARM_ABS32)
error(diag::unsupport_reloc_for_debug_string)
<< getName(pReloc.type()) << "mclinker@googlegroups.com";
if (pReloc.symInfo()->type() == ResolveInfo::Section)
return pReloc.target() + pReloc.addend();
else
return pReloc.symInfo()->outSymbol()->fragRef()->offset() +
pReloc.target() + pReloc.addend();
}
void ARMRelocator::applyDebugStringOffset(Relocation& pReloc,
uint32_t pOffset) {
pReloc.target() = pOffset;
}
//=========================================//
// Each relocation function implementation //
//=========================================//
// R_ARM_NONE
ARMRelocator::Result none(Relocation& pReloc, ARMRelocator& pParent) {
return Relocator::OK;
}
// R_ARM_ABS32: (S + A) | T
ARMRelocator::Result abs32(Relocation& pReloc, ARMRelocator& pParent) {
ResolveInfo* rsym = pReloc.symInfo();
Relocator::DWord T = getThumbBit(pReloc);
Relocator::DWord A = pReloc.target() + pReloc.addend();
Relocator::DWord S = pReloc.symValue();
if (T != 0x0)
helper_clear_thumb_bit(S);
// If the flag of target section is not ALLOC, we will not scan this
// relocation
// but perform static relocation. (e.g., applying .debug section)
if ((llvm::ELF::SHF_ALLOC &
pReloc.targetRef().frag()->getParent()->getSection().flag()) == 0) {
pReloc.target() = (S + A) | T;
return Relocator::OK;
}
// An external symbol may need PLT and dynamic relocation
if (!rsym->isLocal()) {
if (rsym->reserved() & ARMRelocator::ReservePLT) {
S = helper_get_PLT_address(*rsym, pParent);
T = 0; // PLT is not thumb
}
// If we generate a dynamic relocation (except R_ARM_RELATIVE)
// for a place, we should not perform static relocation on it
// in order to keep the addend store in the place correct.
if ((rsym->reserved() & ARMRelocator::ReserveRel) &&
(!helper_use_relative_reloc(*rsym, pParent)))
return Relocator::OK;
}
// perform static relocation
pReloc.target() = (S + A) | T;
return Relocator::OK;
}
// R_ARM_REL32: ((S + A) | T) - P
ARMRelocator::Result rel32(Relocation& pReloc, ARMRelocator& pParent) {
// perform static relocation
Relocator::Address S = pReloc.symValue();
Relocator::DWord T = getThumbBit(pReloc);
Relocator::DWord A = pReloc.target() + pReloc.addend();
// An external symbol may need PLT (this reloc is from a stub/veneer)
if (!pReloc.symInfo()->isLocal()) {
if (pReloc.symInfo()->reserved() & ARMRelocator::ReservePLT) {
S = helper_get_PLT_address(*pReloc.symInfo(), pParent);
T = 0; // PLT is not thumb.
}
}
if (T != 0x0)
helper_clear_thumb_bit(S);
// perform relocation
pReloc.target() = ((S + A) | T) - pReloc.place();
return Relocator::OK;
}
// R_ARM_BASE_PREL: B(S) + A - P
ARMRelocator::Result base_prel(Relocation& pReloc, ARMRelocator& pParent) {
// perform static relocation
Relocator::DWord A = pReloc.target() + pReloc.addend();
pReloc.target() = pReloc.symValue() + A - pReloc.place();
return Relocator::OK;
}
// R_ARM_GOTOFF32: ((S + A) | T) - GOT_ORG
ARMRelocator::Result gotoff32(Relocation& pReloc, ARMRelocator& pParent) {
Relocator::DWord T = getThumbBit(pReloc);
Relocator::DWord A = pReloc.target() + pReloc.addend();
Relocator::Address GOT_ORG = helper_GOT_ORG(pParent);
Relocator::Address S = pReloc.symValue();
if (T != 0x0)
helper_clear_thumb_bit(S);
pReloc.target() = ((S + A) | T) - GOT_ORG;
return Relocator::OK;
}
// R_ARM_GOT_BREL: GOT(S) + A - GOT_ORG
ARMRelocator::Result got_brel(Relocation& pReloc, ARMRelocator& pParent) {
if (!(pReloc.symInfo()->reserved() & ARMRelocator::ReserveGOT))
return Relocator::BadReloc;
Relocator::Address GOT_S = helper_get_GOT_address(*pReloc.symInfo(), pParent);
Relocator::DWord A = pReloc.target() + pReloc.addend();
Relocator::Address GOT_ORG = helper_GOT_ORG(pParent);
// Apply relocation.
pReloc.target() = GOT_S + A - GOT_ORG;
// setup got entry value if needed
ARMGOTEntry* got_entry = pParent.getSymGOTMap().lookUp(*pReloc.symInfo());
if (got_entry != NULL && ARMRelocator::SymVal == got_entry->getValue())
got_entry->setValue(pReloc.symValue());
return Relocator::OK;
}
// R_ARM_GOT_PREL: GOT(S) + A - P
ARMRelocator::Result got_prel(Relocation& pReloc, ARMRelocator& pParent) {
if (!(pReloc.symInfo()->reserved() & ARMRelocator::ReserveGOT)) {
return Relocator::BadReloc;
}
Relocator::Address GOT_S = helper_get_GOT_address(*pReloc.symInfo(), pParent);
Relocator::DWord A = pReloc.target() + pReloc.addend();
Relocator::Address P = pReloc.place();
// Apply relocation.
pReloc.target() = GOT_S + A - P;
// setup got entry value if needed
ARMGOTEntry* got_entry = pParent.getSymGOTMap().lookUp(*pReloc.symInfo());
if (got_entry != NULL && ARMRelocator::SymVal == got_entry->getValue())
got_entry->setValue(pReloc.symValue());
return Relocator::OK;
}
// R_ARM_THM_JUMP8: S + A - P
ARMRelocator::Result thm_jump8(Relocation& pReloc, ARMRelocator& pParent) {
Relocator::DWord P = pReloc.place();
Relocator::DWord A =
helper_sign_extend((pReloc.target() & 0x00ff) << 1, 8) + pReloc.addend();
// S depends on PLT exists or not
Relocator::Address S = pReloc.symValue();
if (pReloc.symInfo()->reserved() & ARMRelocator::ReservePLT)
S = helper_get_PLT_address(*pReloc.symInfo(), pParent);
Relocator::DWord X = S + A - P;
if (helper_check_signed_overflow(X, 9))
return Relocator::Overflow;
// Make sure the Imm is 0. Result Mask.
pReloc.target() = (pReloc.target() & 0xFFFFFF00u) | ((X & 0x01FEu) >> 1);
return Relocator::OK;
}
// R_ARM_THM_JUMP11: S + A - P
ARMRelocator::Result thm_jump11(Relocation& pReloc, ARMRelocator& pParent) {
Relocator::DWord P = pReloc.place();
Relocator::DWord A =
helper_sign_extend((pReloc.target() & 0x07ff) << 1, 11) + pReloc.addend();
// S depends on PLT exists or not
Relocator::Address S = pReloc.symValue();
if (pReloc.symInfo()->reserved() & ARMRelocator::ReservePLT)
S = helper_get_PLT_address(*pReloc.symInfo(), pParent);
Relocator::DWord X = S + A - P;
if (helper_check_signed_overflow(X, 12))
return Relocator::Overflow;
// Make sure the Imm is 0. Result Mask.
pReloc.target() = (pReloc.target() & 0xFFFFF800u) | ((X & 0x0FFEu) >> 1);
return Relocator::OK;
}
// R_ARM_THM_JUMP19: ((S + A) | T) - P
ARMRelocator::Result thm_jump19(Relocation& pReloc, ARMRelocator& pParent) {
// get lower and upper 16 bit instructions from relocation targetData
uint16_t upper_inst = *(reinterpret_cast<uint16_t*>(&pReloc.target()));
uint16_t lower_inst = *(reinterpret_cast<uint16_t*>(&pReloc.target()) + 1);
Relocator::DWord T = getThumbBit(pReloc);
Relocator::DWord A =
helper_thumb32_cond_branch_offset(upper_inst, lower_inst) +
pReloc.addend();
Relocator::Address P = pReloc.place();
Relocator::Address S;
// if symbol has plt
if (pReloc.symInfo()->reserved() & ARMRelocator::ReservePLT) {
S = helper_get_PLT_address(*pReloc.symInfo(), pParent);
T = 0; // PLT is not thumb.
} else {
S = pReloc.symValue();
if (T != 0x0)
helper_clear_thumb_bit(S);
}
if (T == 0x0) {
// FIXME: conditional branch to PLT in THUMB-2 not supported yet
error(diag::unsupported_cond_branch_reloc)
<< static_cast<int>(pReloc.type());
return Relocator::BadReloc;
}
Relocator::DWord X = ((S + A) | T) - P;
if (helper_check_signed_overflow(X, 21))
return Relocator::Overflow;
upper_inst = helper_thumb32_cond_branch_upper(upper_inst, X);
lower_inst = helper_thumb32_cond_branch_lower(lower_inst, X);
*(reinterpret_cast<uint16_t*>(&pReloc.target())) = upper_inst;
*(reinterpret_cast<uint16_t*>(&pReloc.target()) + 1) = lower_inst;
return Relocator::OK;
}
// R_ARM_PC24: ((S + A) | T) - P
// R_ARM_PLT32: ((S + A) | T) - P
// R_ARM_JUMP24: ((S + A) | T) - P
// R_ARM_CALL: ((S + A) | T) - P
ARMRelocator::Result call(Relocation& pReloc, ARMRelocator& pParent) {
// If target is undefined weak symbol, we only need to jump to the
// next instruction unless it has PLT entry. Rewrite instruction
// to NOP.
if (pReloc.symInfo()->isWeak() && pReloc.symInfo()->isUndef() &&
!pReloc.symInfo()->isDyn() &&
!(pReloc.symInfo()->reserved() & ARMRelocator::ReservePLT)) {
// change target to NOP : mov r0, r0
pReloc.target() = (pReloc.target() & 0xf0000000U) | 0x01a00000;
return Relocator::OK;
}
Relocator::DWord T = getThumbBit(pReloc);
Relocator::DWord A =
helper_sign_extend((pReloc.target() & 0x00FFFFFFu) << 2, 26) +
pReloc.addend();
Relocator::Address P = pReloc.place();
Relocator::Address S = pReloc.symValue();
if (T != 0x0)
helper_clear_thumb_bit(S);
// S depends on PLT exists or not
if (pReloc.symInfo()->reserved() & ARMRelocator::ReservePLT) {
S = helper_get_PLT_address(*pReloc.symInfo(), pParent);
T = 0; // PLT is not thumb.
}
// At this moment (after relaxation), if the jump target is thumb instruction,
// switch mode is needed, rewrite the instruction to BLX
// FIXME: check if we can use BLX instruction (check from .ARM.attribute
// CPU ARCH TAG, which should be ARMv5 or above)
if (T != 0) {
// cannot rewrite to blx for R_ARM_JUMP24
if (pReloc.type() == llvm::ELF::R_ARM_JUMP24)
return Relocator::BadReloc;
if (pReloc.type() == llvm::ELF::R_ARM_PC24)
return Relocator::BadReloc;
pReloc.target() =
(pReloc.target() & 0xffffff) | 0xfa000000 | (((S + A - P) & 2) << 23);
}
Relocator::DWord X = ((S + A) | T) - P;
// Check X is 24bit sign int. If not, we should use stub or PLT before apply.
if (helper_check_signed_overflow(X, 26))
return Relocator::Overflow;
// Make sure the Imm is 0. Result Mask.
pReloc.target() = (pReloc.target() & 0xFF000000u) | ((X & 0x03FFFFFEu) >> 2);
return Relocator::OK;
}
// R_ARM_THM_CALL: ((S + A) | T) - P
// R_ARM_THM_JUMP24: ((S + A) | T) - P
ARMRelocator::Result thm_call(Relocation& pReloc, ARMRelocator& pParent) {
// If target is undefined weak symbol, we only need to jump to the
// next instruction unless it has PLT entry. Rewrite instruction
// to NOP.
if (pReloc.symInfo()->isWeak() && pReloc.symInfo()->isUndef() &&
!pReloc.symInfo()->isDyn() &&
!(pReloc.symInfo()->reserved() & ARMRelocator::ReservePLT)) {
pReloc.target() = (0xe000U << 16) | 0xbf00U;
return Relocator::OK;
}
// get lower and upper 16 bit instructions from relocation targetData
uint16_t upper_inst = *(reinterpret_cast<uint16_t*>(&pReloc.target()));
uint16_t lower_inst = *(reinterpret_cast<uint16_t*>(&pReloc.target()) + 1);
Relocator::DWord T = getThumbBit(pReloc);
Relocator::DWord A =
helper_thumb32_branch_offset(upper_inst, lower_inst) + pReloc.addend();
Relocator::Address P = pReloc.place();
Relocator::Address S;
// if symbol has plt
if (pReloc.symInfo()->reserved() & ARMRelocator::ReservePLT) {
S = helper_get_PLT_address(*pReloc.symInfo(), pParent);
T = 0; // PLT is not thumb.
} else {
S = pReloc.symValue();
if (T != 0x0)
helper_clear_thumb_bit(S);
}
S = S + A;
// At this moment (after relaxation), if the jump target is arm
// instruction, switch mode is needed, rewrite the instruction to BLX
// FIXME: check if we can use BLX instruction (check from .ARM.attribute
// CPU ARCH TAG, which should be ARMv5 or above)
if (T == 0) {
// cannot rewrite to blx for R_ARM_THM_JUMP24
if (pReloc.type() == llvm::ELF::R_ARM_THM_JUMP24)
return Relocator::BadReloc;
// for BLX, select bit 1 from relocation base address to jump target
// address
S = helper_bit_select(S, P, 0x2);
// rewrite instruction to BLX
lower_inst &= ~0x1000U;
} else {
// otherwise, the instruction should be BL
lower_inst |= 0x1000U;
}
Relocator::DWord X = (S | T) - P;
// FIXME: Check bit size is 24(thumb2) or 22?
if (helper_check_signed_overflow(X, 25)) {
return Relocator::Overflow;
}
upper_inst = helper_thumb32_branch_upper(upper_inst, X);
lower_inst = helper_thumb32_branch_lower(lower_inst, X);
*(reinterpret_cast<uint16_t*>(&pReloc.target())) = upper_inst;
*(reinterpret_cast<uint16_t*>(&pReloc.target()) + 1) = lower_inst;
return Relocator::OK;
}
// R_ARM_MOVW_ABS_NC: (S + A) | T
ARMRelocator::Result movw_abs_nc(Relocation& pReloc, ARMRelocator& pParent) {
ResolveInfo* rsym = pReloc.symInfo();
Relocator::Address S = pReloc.symValue();
Relocator::DWord T = getThumbBit(pReloc);
Relocator::DWord A =
helper_extract_movw_movt_addend(pReloc.target()) + pReloc.addend();
if (T != 0x0)
helper_clear_thumb_bit(S);
LDSection& target_sect = pReloc.targetRef().frag()->getParent()->getSection();
// If the flag of target section is not ALLOC, we will not scan this
// relocation but perform static relocation. (e.g., applying .debug section)
if ((llvm::ELF::SHF_ALLOC & target_sect.flag()) != 0x0) {
// use plt
if (rsym->reserved() & ARMRelocator::ReservePLT) {
S = helper_get_PLT_address(*rsym, pParent);
T = 0; // PLT is not thumb
}
}
// perform static relocation
Relocator::DWord X = (S + A) | T;
pReloc.target() =
helper_insert_val_movw_movt_inst(pReloc.target() + pReloc.addend(), X);
return Relocator::OK;
}
// R_ARM_MOVW_PREL_NC: ((S + A) | T) - P
ARMRelocator::Result movw_prel_nc(Relocation& pReloc, ARMRelocator& pParent) {
Relocator::Address S = pReloc.symValue();
Relocator::DWord T = getThumbBit(pReloc);
Relocator::DWord P = pReloc.place();
Relocator::DWord A =
helper_extract_movw_movt_addend(pReloc.target()) + pReloc.addend();
if (T != 0x0)
helper_clear_thumb_bit(S);
Relocator::DWord X = ((S + A) | T) - P;
if (helper_check_signed_overflow(X, 16)) {
return Relocator::Overflow;
} else {
pReloc.target() = helper_insert_val_movw_movt_inst(pReloc.target(), X);
return Relocator::OK;
}
}
// R_ARM_MOVT_ABS: S + A
ARMRelocator::Result movt_abs(Relocation& pReloc, ARMRelocator& pParent) {
ResolveInfo* rsym = pReloc.symInfo();
Relocator::Address S = pReloc.symValue();
Relocator::DWord A =
helper_extract_movw_movt_addend(pReloc.target()) + pReloc.addend();
LDSection& target_sect = pReloc.targetRef().frag()->getParent()->getSection();
// If the flag of target section is not ALLOC, we will not scan this
// relocation
// but perform static relocation. (e.g., applying .debug section)
if ((llvm::ELF::SHF_ALLOC & target_sect.flag()) != 0x0) {
// use plt
if (rsym->reserved() & ARMRelocator::ReservePLT) {
S = helper_get_PLT_address(*rsym, pParent);
}
}
Relocator::DWord X = S + A;
X >>= 16;
// perform static relocation
pReloc.target() = helper_insert_val_movw_movt_inst(pReloc.target(), X);
return Relocator::OK;
}
// R_ARM_MOVT_PREL: S + A - P
ARMRelocator::Result movt_prel(Relocation& pReloc, ARMRelocator& pParent) {
Relocator::Address S = pReloc.symValue();
Relocator::DWord P = pReloc.place();
Relocator::DWord A =
helper_extract_movw_movt_addend(pReloc.target()) + pReloc.addend();
Relocator::DWord X = S + A - P;
X >>= 16;
pReloc.target() = helper_insert_val_movw_movt_inst(pReloc.target(), X);
return Relocator::OK;
}
// R_ARM_THM_MOVW_ABS_NC: (S + A) | T
ARMRelocator::Result thm_movw_abs_nc(Relocation& pReloc,
ARMRelocator& pParent) {
ResolveInfo* rsym = pReloc.symInfo();
Relocator::Address S = pReloc.symValue();
Relocator::DWord T = getThumbBit(pReloc);
if (T != 0x0)
helper_clear_thumb_bit(S);
// get lower and upper 16 bit instructions from relocation targetData
uint16_t upper_inst = *(reinterpret_cast<uint16_t*>(&pReloc.target()));
uint16_t lower_inst = *(reinterpret_cast<uint16_t*>(&pReloc.target()) + 1);
Relocator::DWord val = ((upper_inst) << 16) | (lower_inst);
Relocator::DWord A =
helper_extract_thumb_movw_movt_addend(val) + pReloc.addend();
LDSection& target_sect = pReloc.targetRef().frag()->getParent()->getSection();
// If the flag of target section is not ALLOC, we will not scan this
// relocation
// but perform static relocation. (e.g., applying .debug section)
if ((llvm::ELF::SHF_ALLOC & target_sect.flag()) != 0x0) {
// use plt
if (rsym->reserved() & ARMRelocator::ReservePLT) {
S = helper_get_PLT_address(*rsym, pParent);
T = 0; // PLT is not thumb
}
}
Relocator::DWord X = (S + A) | T;
val = helper_insert_val_thumb_movw_movt_inst(val, X);
*(reinterpret_cast<uint16_t*>(&pReloc.target())) = val >> 16;
*(reinterpret_cast<uint16_t*>(&pReloc.target()) + 1) = val & 0xFFFFu;
return Relocator::OK;
}
// R_ARM_THM_MOVW_PREL_NC: ((S + A) | T) - P
ARMRelocator::Result thm_movw_prel_nc(Relocation& pReloc,
ARMRelocator& pParent) {
Relocator::Address S = pReloc.symValue();
Relocator::DWord T = getThumbBit(pReloc);
Relocator::DWord P = pReloc.place();
if (T != 0x0)
helper_clear_thumb_bit(S);
// get lower and upper 16 bit instructions from relocation targetData
uint16_t upper_inst = *(reinterpret_cast<uint16_t*>(&pReloc.target()));
uint16_t lower_inst = *(reinterpret_cast<uint16_t*>(&pReloc.target()) + 1);
Relocator::DWord val = ((upper_inst) << 16) | (lower_inst);
Relocator::DWord A =
helper_extract_thumb_movw_movt_addend(val) + pReloc.addend();
Relocator::DWord X = ((S + A) | T) - P;
val = helper_insert_val_thumb_movw_movt_inst(val, X);
*(reinterpret_cast<uint16_t*>(&pReloc.target())) = val >> 16;
*(reinterpret_cast<uint16_t*>(&pReloc.target()) + 1) = val & 0xFFFFu;
return Relocator::OK;
}
// R_ARM_THM_MOVW_BREL_NC: ((S + A) | T) - B(S)
// R_ARM_THM_MOVW_BREL: ((S + A) | T) - B(S)
ARMRelocator::Result thm_movw_brel(Relocation& pReloc, ARMRelocator& pParent) {
Relocator::Address S = pReloc.symValue();
Relocator::DWord T = getThumbBit(pReloc);
Relocator::DWord P = pReloc.place();
if (T != 0x0)
helper_clear_thumb_bit(S);
// get lower and upper 16 bit instructions from relocation targetData
uint16_t upper_inst = *(reinterpret_cast<uint16_t*>(&pReloc.target()));
uint16_t lower_inst = *(reinterpret_cast<uint16_t*>(&pReloc.target()) + 1);
Relocator::DWord val = ((upper_inst) << 16) | (lower_inst);
Relocator::DWord A =
helper_extract_thumb_movw_movt_addend(val) + pReloc.addend();
Relocator::DWord X = ((S + A) | T) - P;
val = helper_insert_val_thumb_movw_movt_inst(val, X);
*(reinterpret_cast<uint16_t*>(&pReloc.target())) = val >> 16;
*(reinterpret_cast<uint16_t*>(&pReloc.target()) + 1) = val & 0xFFFFu;
return Relocator::OK;
}
// R_ARM_THM_MOVT_ABS: S + A
ARMRelocator::Result thm_movt_abs(Relocation& pReloc, ARMRelocator& pParent) {
ResolveInfo* rsym = pReloc.symInfo();
Relocator::Address S = pReloc.symValue();
// get lower and upper 16 bit instructions from relocation targetData
uint16_t upper_inst = *(reinterpret_cast<uint16_t*>(&pReloc.target()));
uint16_t lower_inst = *(reinterpret_cast<uint16_t*>(&pReloc.target()) + 1);
Relocator::DWord val = ((upper_inst) << 16) | (lower_inst);
Relocator::DWord A =
helper_extract_thumb_movw_movt_addend(val) + pReloc.addend();
LDSection& target_sect = pReloc.targetRef().frag()->getParent()->getSection();
// If the flag of target section is not ALLOC, we will not scan this
// relocation but perform static relocation. (e.g., applying .debug section)
if ((llvm::ELF::SHF_ALLOC & target_sect.flag()) != 0x0) {
// use plt
if (rsym->reserved() & ARMRelocator::ReservePLT) {
S = helper_get_PLT_address(*rsym, pParent);
}
}
Relocator::DWord X = S + A;
X >>= 16;
// check 16-bit overflow
if (helper_check_signed_overflow(X, 16))
return Relocator::Overflow;
val = helper_insert_val_thumb_movw_movt_inst(val, X);
*(reinterpret_cast<uint16_t*>(&pReloc.target())) = val >> 16;
*(reinterpret_cast<uint16_t*>(&pReloc.target()) + 1) = val & 0xFFFFu;
return Relocator::OK;
}
// R_ARM_THM_MOVT_PREL: S + A - P
// R_ARM_THM_MOVT_BREL: S + A - B(S)
ARMRelocator::Result thm_movt_prel(Relocation& pReloc, ARMRelocator& pParent) {
Relocator::Address S = pReloc.symValue();
Relocator::DWord P = pReloc.place();
// get lower and upper 16 bit instructions from relocation targetData
uint16_t upper_inst = *(reinterpret_cast<uint16_t*>(&pReloc.target()));
uint16_t lower_inst = *(reinterpret_cast<uint16_t*>(&pReloc.target()) + 1);
Relocator::DWord val = ((upper_inst) << 16) | (lower_inst);
Relocator::DWord A =
helper_extract_thumb_movw_movt_addend(val) + pReloc.addend();
Relocator::DWord X = S + A - P;
X >>= 16;
val = helper_insert_val_thumb_movw_movt_inst(val, X);
*(reinterpret_cast<uint16_t*>(&pReloc.target())) = val >> 16;
*(reinterpret_cast<uint16_t*>(&pReloc.target()) + 1) = val & 0xFFFFu;
return Relocator::OK;
}
// R_ARM_PREL31: ((S + A) | T) - P
ARMRelocator::Result prel31(Relocation& pReloc, ARMRelocator& pParent) {
Relocator::DWord target = pReloc.target();
Relocator::DWord T = getThumbBit(pReloc);
Relocator::DWord A = helper_sign_extend(target, 31) + pReloc.addend();
Relocator::DWord P = pReloc.place();
Relocator::Address S = pReloc.symValue();
if (T != 0x0)
helper_clear_thumb_bit(S);
// if symbol has plt
if (pReloc.symInfo()->reserved() & ARMRelocator::ReservePLT) {
S = helper_get_PLT_address(*pReloc.symInfo(), pParent);
T = 0; // PLT is not thumb.
}
Relocator::DWord X = ((S + A) | T) - P;
pReloc.target() = helper_bit_select(target, X, 0x7fffffffU);
if (helper_check_signed_overflow(X, 31))
return Relocator::Overflow;
return Relocator::OK;
}
// R_ARM_TLS_GD32: GOT(S) + A - P
// R_ARM_TLS_IE32: GOT(S) + A - P
// R_ARM_TLS_LE32: S + A - tp
ARMRelocator::Result tls(Relocation& pReloc, ARMRelocator& pParent) {
return Relocator::Unsupported;
}
ARMRelocator::Result unsupported(Relocation& pReloc, ARMRelocator& pParent) {
return Relocator::Unsupported;
}
} // namespace mcld