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ara-mdk / platform / frameworks / compile / mclinker / abe0db302735bbdf9cd84caee2a36e6c4538fc4d / . / lib / Target / ARM / ARMRelocationFactory.cpp
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//===- ARMRelocationFactory.cpp ----------------------------------------===//
//
// The MCLinker Project
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===--------------------------------------------------------------------===//
#include <llvm/ADT/Twine.h>
#include <llvm/Support/ErrorHandling.h>
#include <llvm/Support/DataTypes.h>
#include <llvm/Support/ELF.h>
#include <mcld/MC/MCLDInfo.h>
#include <mcld/LD/Layout.h>
#include "ARMRelocationFactory.h"
#include "ARMRelocationFunctions.h"
using namespace mcld;
DECL_ARM_APPLY_RELOC_FUNCS
//===--------------------------------------------------------------------===//
// ARMRelocationFactory
ARMRelocationFactory::ARMRelocationFactory(size_t pNum,
ARMGNULDBackend& pParent)
: RelocationFactory(pNum),
m_Target(pParent) {
}
ARMRelocationFactory::~ARMRelocationFactory()
{
}
void ARMRelocationFactory::applyRelocation(Relocation& pRelocation,
const MCLDInfo& pLDInfo)
{
Relocation::Type type = pRelocation.type();
if (type > 130) { // 131-255 doesn't noted in ARM spec
llvm::report_fatal_error(llvm::Twine("Unknown relocation type. "
"To symbol `") +
pRelocation.symInfo()->name() +
llvm::Twine("'."));
return;
}
/// the prototype of applying function
typedef Result (*ApplyFunctionType)(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent);
// the table entry of applying functions
struct ApplyFunctionTriple {
ApplyFunctionType func;
unsigned int type;
const char* name;
};
// declare the table of applying functions
static ApplyFunctionTriple apply_functions[] = {
DECL_ARM_APPLY_RELOC_FUNC_PTRS
};
// apply the relocation
Result result = apply_functions[type].func(pRelocation, pLDInfo, *this);
// check result
if (OK == result) {
return;
}
if (Overflow == result) {
llvm::report_fatal_error(llvm::Twine("Applying relocation `") +
llvm::Twine(apply_functions[type].name) +
llvm::Twine("' causes overflow. on symbol: `") +
llvm::Twine(pRelocation.symInfo()->name()) +
llvm::Twine("'."));
return;
}
if (BadReloc == result) {
llvm::report_fatal_error(llvm::Twine("Applying relocation `") +
llvm::Twine(apply_functions[type].name) +
llvm::Twine("' encounters unexpected opcode. "
"on symbol: `") +
llvm::Twine(pRelocation.symInfo()->name()) +
llvm::Twine("'."));
return;
}
if (Unsupport == result) {
llvm::report_fatal_error(llvm::Twine("Encounter unsupported relocation `") +
llvm::Twine(apply_functions[type].name) +
llvm::Twine("' on symbol: `") +
llvm::Twine(pRelocation.symInfo()->name()) +
llvm::Twine("'."));
return;
}
}
//===--------------------------------------------------------------------===//
// non-member functions
static RelocationFactory::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
RelocationFactory::DWord thumbBit =
((pReloc.symInfo()->desc() != ResolveInfo::Undefined) &&
(pReloc.symInfo()->type() == ResolveInfo::Function) &&
((pReloc.symValue() & 0x1) != 0))?
1:0;
return thumbBit;
}
//=========================================//
// Relocation helper function //
//=========================================//
// 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);
uint64_t sign_bit = 1 << (pOri_width - 1);
return (pVal ^ sign_bit) - sign_bit;
// Reverse sign bit, then subtract 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 MCLDInfo& pLDInfo,
const ARMRelocationFactory& pFactory)
{
// if symbol is dynamic or undefine or preemptible
if(pSym.isDyn() ||
pSym.isUndef() ||
pFactory.getTarget().isSymbolPreemptible(pSym,
pLDInfo,
pLDInfo.output()))
return false;
return true;
}
static
GOTEntry& helper_get_GOT_and_init(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
// rsym - The relocation target symbol
ResolveInfo* rsym = pReloc.symInfo();
ARMGNULDBackend& ld_backend = pParent.getTarget();
bool exist;
GOTEntry& got_entry = *ld_backend.getGOT().getEntry(*rsym, exist);
if (!exist) {
// If we first get this GOT entry, we should initialize it.
if (rsym->reserved() & ARMGNULDBackend::ReserveGOT) {
// No corresponding dynamic relocation, initialize to the symbol value.
got_entry.setContent(pReloc.symValue());
}
else if (rsym->reserved() & ARMGNULDBackend::GOTRel) {
// Initialize corresponding dynamic relocation.
Relocation& rel_entry =
*ld_backend.getRelDyn().getEntry(*rsym, true, exist);
assert(!exist && "GOT entry not exist, but DynRel entry exist!");
if( rsym->isLocal() ||
helper_use_relative_reloc(*rsym, pLDInfo, pParent)) {
// Initialize got entry to target symbol address
got_entry.setContent(pReloc.symValue());
rel_entry.setType(llvm::ELF::R_ARM_RELATIVE);
rel_entry.setSymInfo(0);
}
else {
// Initialize got entry to 0 for corresponding dynamic relocation.
got_entry.setContent(0);
rel_entry.setType(llvm::ELF::R_ARM_GLOB_DAT);
rel_entry.setSymInfo(rsym);
}
rel_entry.targetRef().assign(got_entry);
}
else {
llvm::report_fatal_error("No GOT entry reserved for GOT type relocation!");
}
}
return got_entry;
}
static
ARMRelocationFactory::Address helper_GOT_ORG(ARMRelocationFactory& pParent)
{
return pParent.getTarget().getGOT().getSection().addr();
}
static
ARMRelocationFactory::Address helper_GOT(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
GOTEntry& got_entry = helper_get_GOT_and_init(pReloc, pLDInfo, pParent);
return helper_GOT_ORG(pParent) + pParent.getLayout().getOutputOffset(got_entry);
}
static
PLTEntry& helper_get_PLT_and_init(Relocation& pReloc,
ARMRelocationFactory& pParent)
{
// rsym - The relocation target symbol
ResolveInfo* rsym = pReloc.symInfo();
ARMGNULDBackend& ld_backend = pParent.getTarget();
bool exist;
PLTEntry& plt_entry = *ld_backend.getPLT().getPLTEntry(*rsym, exist);
if (!exist) {
// If we first get this PLT entry, we should initialize it.
if (rsym->reserved() & ARMGNULDBackend::ReservePLT) {
GOTEntry& gotplt_entry =
*ld_backend.getPLT().getGOTPLTEntry(*rsym, exist);
// Initialize corresponding dynamic relocation.
Relocation& rel_entry =
*ld_backend.getRelPLT().getEntry(*rsym, true, exist);
assert(!exist && "PLT entry not exist, but DynRel entry exist!");
rel_entry.setType(llvm::ELF::R_ARM_JUMP_SLOT);
rel_entry.targetRef().assign(gotplt_entry);
rel_entry.setSymInfo(rsym);
}
else {
llvm::report_fatal_error("No PLT entry reserved for PLT type relocation!");
}
}
return plt_entry;
}
static
ARMRelocationFactory::Address helper_PLT_ORG(ARMRelocationFactory& pParent)
{
return pParent.getTarget().getPLT().getSection().addr();
}
static
ARMRelocationFactory::Address helper_PLT(Relocation& pReloc,
ARMRelocationFactory& pParent)
{
PLTEntry& plt_entry = helper_get_PLT_and_init(pReloc, pParent);
return helper_PLT_ORG(pParent) + pParent.getLayout().getOutputOffset(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(Relocation& pReloc,
ARMRelocationFactory::Type pType,
ARMRelocationFactory& pParent)
{
// rsym - The relocation target symbol
ResolveInfo* rsym = pReloc.symInfo();
ARMGNULDBackend& ld_backend = pParent.getTarget();
bool exist;
Relocation& rel_entry =
*ld_backend.getRelDyn().getEntry(*rsym, false, exist);
rel_entry.setType(pType);
rel_entry.targetRef() = pReloc.targetRef();
if(pType == llvm::ELF::R_ARM_RELATIVE)
rel_entry.setSymInfo(0);
else
rel_entry.setSymInfo(rsym);
}
static ARMRelocationFactory::DWord
helper_extract_movw_movt_addend(ARMRelocationFactory::DWord pTarget)
{
// imm16: [19-16][11-0]
return helper_sign_extend((((pTarget >> 4)) & 0xf000U) | (pTarget & 0xfffU),
16);
}
static ARMRelocationFactory::DWord
helper_insert_val_movw_movt_inst(ARMRelocationFactory::DWord pTarget,
ARMRelocationFactory::DWord pImm)
{
// imm16: [19-16][11-0]
pTarget &= 0xfff0f000U;
pTarget |= pImm & 0x0fffU;
pTarget |= (pImm & 0xf000U) << 4;
return pTarget;
}
static ARMRelocationFactory::DWord
helper_extract_thumb_movw_movt_addend(ARMRelocationFactory::DWord pTarget)
{
// TODO: By the rsloader experience: If we use 32bit, we need to consider
// endianness problem. We'd better have a thumb instruction type.
// imm16: [19-16][26][14-12][7-0]
return helper_sign_extend((((pTarget >> 4) & 0xf000U) |
((pTarget >> 15) & 0x0800U) |
((pTarget >> 4) & 0x0700U) |
(pTarget & 0x00ffU)),
16);
}
static ARMRelocationFactory::DWord
helper_insert_val_thumb_movw_movt_inst(ARMRelocationFactory::DWord pTarget,
ARMRelocationFactory::DWord pImm)
{
// TODO: By the rsloader experience: If we use 32bit, we need to consider
// endianness problem. We'd better have a thumb instruction type.
// imm16: [19-16][26][14-12][7-0]
pTarget &= 0xfbf08f00U;
pTarget |= (pImm & 0xf000U) << 4;
pTarget |= (pImm & 0x0800U) << 15;
pTarget |= (pImm & 0x0700U) << 4;
pTarget |= (pImm & 0x00ffU);
return pTarget;
}
static ARMRelocationFactory::DWord
helper_thumb32_branch_offset(ARMRelocationFactory::DWord pUpper16,
ARMRelocationFactory::DWord pLower16)
{
ARMRelocationFactory::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
ARMRelocationFactory::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 ARMRelocationFactory::DWord
helper_thumb32_branch_upper(ARMRelocationFactory::DWord pUpper16,
ARMRelocationFactory::DWord pOffset)
{
uint32_t sign = ((pOffset & 0x80000000U) >> 31);
return (pUpper16 & ~0x7ffU) | ((pOffset >> 12) & 0x3ffU) | (sign << 10);
}
static ARMRelocationFactory::DWord
helper_thumb32_branch_lower(ARMRelocationFactory::DWord pLower16,
ARMRelocationFactory::DWord pOffset)
{
uint32_t sign = ((pOffset & 0x80000000U) >> 31);
return ((pLower16 & ~0x2fffU) |
((((pOffset >> 23) & 1) ^ !sign) << 13) |
((((pOffset >> 22) & 1) ^ !sign) << 11) |
((pOffset >> 1) & 0x7ffU));
}
// Return true if overflow
static bool
helper_check_signed_overflow(ARMRelocationFactory::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;
}
}
//=========================================//
// Each relocation function implementation //
//=========================================//
// R_ARM_NONE
ARMRelocationFactory::Result none(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
return ARMRelocationFactory::OK;
}
// R_ARM_ABS32: (S + A) | T
ARMRelocationFactory::Result abs32(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
ResolveInfo* rsym = pReloc.symInfo();
ARMRelocationFactory::DWord T = getThumbBit(pReloc);
ARMRelocationFactory::DWord A = pReloc.target() + pReloc.addend();
ARMRelocationFactory::DWord S = pReloc.symValue();
if(rsym->isLocal() && (rsym->reserved() & 0x1u)) {
helper_DynRel(pReloc, llvm::ELF::R_ARM_RELATIVE, pParent);
pReloc.target() = (S + A) | T ;
return ARMRelocationFactory::OK;
}
else if(!rsym->isLocal()) {
if(rsym->reserved() & 0x8u) {
S = helper_PLT(pReloc, pParent);
T = 0 ; // PLT is not thumb
pReloc.target() = (S + A) | T;
}
// 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() & 0x1u) {
if(helper_use_relative_reloc(*rsym, pLDInfo, pParent)) {
helper_DynRel(pReloc, llvm::ELF::R_ARM_RELATIVE, pParent);
}
else {
helper_DynRel(pReloc, pReloc.type(), pParent);
return ARMRelocationFactory::OK;
}
}
}
// perform static relocation
pReloc.target() = (S + A) | T;
return ARMRelocationFactory::OK;
}
// R_ARM_REL32: ((S + A) | T) - P
ARMRelocationFactory::Result rel32(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
// perform static relocation
ARMRelocationFactory::DWord T = getThumbBit(pReloc);
ARMRelocationFactory::DWord A = pReloc.target() + pReloc.addend();
pReloc.target() = ((pReloc.symValue() + A) | T)
- pReloc.place(pParent.getLayout());
return ARMRelocationFactory::OK;
}
// R_ARM_BASE_PREL: B(S) + A - P
ARMRelocationFactory::Result base_prel(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
// perform static relocation
ARMRelocationFactory::DWord A = pReloc.target() + pReloc.addend();
pReloc.target() = pReloc.symValue() + A - pReloc.place(pParent.getLayout());
return ARMRelocationFactory::OK;
}
// R_ARM_GOTOFF32: ((S + A) | T) - GOT_ORG
ARMRelocationFactory::Result gotoff32(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
ARMRelocationFactory::DWord T = getThumbBit(pReloc);
ARMRelocationFactory::DWord A = pReloc.target() + pReloc.addend();
ARMRelocationFactory::Address GOT_ORG = helper_GOT_ORG(pParent);
ARMRelocationFactory::Address S = pReloc.symValue();
pReloc.target() = ((S + A) | T) - GOT_ORG;
return ARMRelocationFactory::OK;
}
// R_ARM_GOT_BREL: GOT(S) + A - GOT_ORG
ARMRelocationFactory::Result got_brel(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
if(!(pReloc.symInfo()->reserved() & 0x6u)) {
return ARMRelocationFactory::BadReloc;
}
ARMRelocationFactory::Address GOT_S = helper_GOT(pReloc, pLDInfo, pParent);
ARMRelocationFactory::DWord A = pReloc.target() + pReloc.addend();
ARMRelocationFactory::Address GOT_ORG = helper_GOT_ORG(pParent);
// Apply relocation.
pReloc.target() = GOT_S + A - GOT_ORG;
return ARMRelocationFactory::OK;
}
// R_ARM_GOT_PREL: GOT(S) + A - P
ARMRelocationFactory::Result got_prel(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
if(!(pReloc.symInfo()->reserved() & 0x6u)) {
return ARMRelocationFactory::BadReloc;
}
ARMRelocationFactory::Address GOT_S = helper_GOT(pReloc, pLDInfo, pParent);
ARMRelocationFactory::DWord A = pReloc.target() + pReloc.addend();
ARMRelocationFactory::Address P = pReloc.place(pParent.getLayout());
// Apply relocation.
pReloc.target() = GOT_S + A - P;
return ARMRelocationFactory::OK;
}
// R_ARM_PLT32: ((S + A) | T) - P
// R_ARM_JUMP24: ((S + A) | T) - P
// R_ARM_CALL: ((S + A) | T) - P
ARMRelocationFactory::Result call(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
// TODO: Some issue have not been considered, e.g. thumb, overflow?
// If target is undefined weak symbol, we only need to jump to the
// next instruction unless it has PLT entry.
if (pReloc.symInfo()->isWeak() && pReloc.symInfo()->isUndef() &&
!(pReloc.symInfo()->reserved() & ARMGNULDBackend::ReservePLT)) {
// change target to NOP : mov r0, r0
pReloc.target() = (pReloc.target() & 0xf0000000U) | 0x01a00000;
return ARMRelocationFactory::OK;
}
ARMRelocationFactory::Address S; // S dependent on exist PLT or not.
ARMRelocationFactory::DWord T = getThumbBit(pReloc);
ARMRelocationFactory::DWord A =
helper_sign_extend((pReloc.target() & 0x00FFFFFFu) << 2, 26)
+ pReloc.addend();
ARMRelocationFactory::Address P = pReloc.place(pParent.getLayout());
S = pReloc.symValue();
if( pReloc.symInfo()->reserved() & 0x8u) {
S = helper_PLT(pReloc, pParent);
T = 0; // PLT is not thumb.
}
ARMRelocationFactory::DWord X = ((S + A) | T) - P;
if (X & 0x03u) { // Lowest two bit is not zero.
llvm::report_fatal_error("Target is thumb, need stub!");
}
// Check X is 24bit sign int. If not, we should use stub or PLT before apply.
assert(!helper_check_signed_overflow(X, 26) && "Jump or Call target too far!");
// Make sure the Imm is 0. Result Mask.
pReloc.target() = (pReloc.target() & 0xFF000000u) | ((X & 0x03FFFFFEu) >> 2);
return ARMRelocationFactory::OK;
}
// R_ARM_THM_CALL: ((S + A) | T) - P
ARMRelocationFactory::Result thm_call(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
// If target is undefined weak symbol, we only need to jump to the
// next instruction unless it has PLT entry.
if (pReloc.symInfo()->isWeak() && pReloc.symInfo()->isUndef() &&
!(pReloc.symInfo()->reserved() & ARMGNULDBackend::ReservePLT)) {
pReloc.target() = (0xe000U << 16) | 0xbf00U;
return ARMRelocationFactory::OK;
}
// TODO: By the rsloader experience: If we use 32bit, we need to consider
// endianness problem. Here is an ugly solution. We'd better have a thumb
// instruction type.
//uint16_t upper16 = *(
// reinterpret_cast<uint16_t*>(&pReloc.target())
// ),
// lower16 = *(
// reinterpret_cast<uint16_t*>(&pReloc.target()) + 1
// );
ARMRelocationFactory::DWord upper16 = ((pReloc.target() & 0xffff0000U) >> 16),
lower16 = (pReloc.target() & 0xffffU);
ARMRelocationFactory::DWord T = getThumbBit(pReloc);
ARMRelocationFactory::DWord A = helper_thumb32_branch_offset(upper16,
lower16);
ARMRelocationFactory::Address P = pReloc.place(pParent.getLayout());
ARMRelocationFactory::Address S;
S = pReloc.symValue();
// if symbol has plt
if( pReloc.symInfo()->reserved() & 0x8u) {
S = helper_PLT(pReloc, pParent);
T = 0; // PLT is not thumb.
}
// TODO: If the target is not thumb, we should rewrite instruction to BLX.
ARMRelocationFactory::DWord X = ((S + A) | T) - P;
X >>= 1;
// FIXME: Check bit size is 24(thumb2) or 22?
if (helper_check_signed_overflow(X, 24)) {
assert(!"Offset is too far. We need stub or PLT for it.");
return ARMRelocationFactory::Overflow;
}
// For a BLX instruction, make sure that the relocation is rounded up
// to a word boundary. This follows the semantics of the instruction
// which specifies that bit 1 of the target address will come from bit
// 1 of the base address.
if ((X & 0x5000U) == 0x4000U) {
X = (X + 2) & ~0x3U;
}
upper16 = helper_thumb32_branch_upper(upper16, X);
lower16 = helper_thumb32_branch_lower(lower16, X);
// TODO: By the rsloader experience: If we use 32bit, we need to consider
// endianness problem. Here is an ugly solution. We'd better have a thumb
// instruction type.
//*(reinterpret_cast<uint16_t*>(&preloc.target())) = upper16;
//*(reinterpret_cast<uint16_t*>(&preloc.target()) + 1) = lower16;
pReloc.target() = (upper16 << 16);
pReloc.target() |= lower16;
return ARMRelocationFactory::OK;
}
// R_ARM_MOVW_ABS_NC: (S + A) | T
ARMRelocationFactory::Result movw_abs_nc(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
ResolveInfo* rsym = pReloc.symInfo();
ARMRelocationFactory::Address S = pReloc.symValue();
ARMRelocationFactory::DWord T = getThumbBit(pReloc);
ARMRelocationFactory::DWord A =
helper_extract_movw_movt_addend(pReloc.target()) + pReloc.addend();
ARMRelocationFactory::DWord X;
// use plt
if(rsym->reserved() & 0x8u) {
S = helper_PLT(pReloc, pParent);
T = 0 ; // PLT is not thumb
}
X = (S + A) | T ;
// perform static relocation
pReloc.target() = (S + A) | T;
if (helper_check_signed_overflow(X, 16)) {
return ARMRelocationFactory::Overflow;
} else {
pReloc.target() = helper_insert_val_movw_movt_inst(pReloc.target(), X);
return ARMRelocationFactory::OK;
}
}
// R_ARM_MOVW_PREL_NC: ((S + A) | T) - P
ARMRelocationFactory::Result movw_prel_nc(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
ARMRelocationFactory::Address S = pReloc.symValue();
ARMRelocationFactory::DWord T = getThumbBit(pReloc);
ARMRelocationFactory::DWord P = pReloc.place(pParent.getLayout());
ARMRelocationFactory::DWord A =
helper_extract_movw_movt_addend(pReloc.target()) + pReloc.addend();
ARMRelocationFactory::DWord X;
X = ((S + A) | T) - P;
if (helper_check_signed_overflow(X, 16)) {
return ARMRelocationFactory::Overflow;
} else {
pReloc.target() = helper_insert_val_movw_movt_inst(pReloc.target(), X);
return ARMRelocationFactory::OK;
}
}
// R_ARM_MOVT_ABS: S + A
ARMRelocationFactory::Result movt_abs(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
ResolveInfo* rsym = pReloc.symInfo();
ARMRelocationFactory::Address S = pReloc.symValue();
ARMRelocationFactory::DWord A =
helper_extract_movw_movt_addend(pReloc.target()) + pReloc.addend();
ARMRelocationFactory::DWord X;
// use plt
if(rsym->reserved() & 0x8u) {
S = helper_PLT(pReloc, pParent);
}
X = S + A;
X >>= 16;
// perform static relocation
pReloc.target() = helper_insert_val_movw_movt_inst(pReloc.target(), X);
return ARMRelocationFactory::OK;
}
// R_ARM_MOVT_PREL: S + A - P
ARMRelocationFactory::Result movt_prel(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
ARMRelocationFactory::Address S = pReloc.symValue();
ARMRelocationFactory::DWord P = pReloc.place(pParent.getLayout());
ARMRelocationFactory::DWord A =
helper_extract_movw_movt_addend(pReloc.target()) + pReloc.addend();
ARMRelocationFactory::DWord X;
X = S + A - P;
X >>= 16;
pReloc.target() = helper_insert_val_movw_movt_inst(pReloc.target(), X);
return ARMRelocationFactory::OK;
}
// R_ARM_THM_MOVW_ABS_NC: (S + A) | T
ARMRelocationFactory::Result thm_movw_abs_nc(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
ResolveInfo* rsym = pReloc.symInfo();
ARMRelocationFactory::Address S = pReloc.symValue();
ARMRelocationFactory::DWord T = getThumbBit(pReloc);
ARMRelocationFactory::DWord A =
helper_extract_thumb_movw_movt_addend(pReloc.target()) + pReloc.addend();
ARMRelocationFactory::DWord X;
// use plt
if(rsym->reserved() & 0x8u) {
S = helper_PLT(pReloc, pParent);
T = 0; // PLT is not thumb
}
X = (S + A) | T;
// check 16-bit overflow
if (helper_check_signed_overflow(X, 16)) {
return ARMRelocationFactory::Overflow;
} else {
pReloc.target() = helper_insert_val_thumb_movw_movt_inst(pReloc.target(),
X);
return ARMRelocationFactory::OK;
}
}
// R_ARM_THM_MOVW_PREL_NC: ((S + A) | T) - P
ARMRelocationFactory::Result thm_movw_prel_nc(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
ARMRelocationFactory::Address S = pReloc.symValue();
ARMRelocationFactory::DWord T = getThumbBit(pReloc);
ARMRelocationFactory::DWord P = pReloc.place(pParent.getLayout());
ARMRelocationFactory::DWord A =
helper_extract_thumb_movw_movt_addend(pReloc.target()) + pReloc.addend();
ARMRelocationFactory::DWord X;
X = ((S + A) | T) - P;
// check 16-bit overflow
if (helper_check_signed_overflow(X, 16)) {
return ARMRelocationFactory::Overflow;
} else {
pReloc.target() = helper_insert_val_thumb_movw_movt_inst(pReloc.target(),
X);
return ARMRelocationFactory::OK;
}
}
// R_ARM_THM_MOVT_ABS: S + A
ARMRelocationFactory::Result thm_movt_abs(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
ResolveInfo* rsym = pReloc.symInfo();
ARMRelocationFactory::Address S = pReloc.symValue();
ARMRelocationFactory::DWord A =
helper_extract_thumb_movw_movt_addend(pReloc.target()) + pReloc.addend();
ARMRelocationFactory::DWord X;
// use plt
if(rsym->reserved() & 0x8u) {
S = helper_PLT(pReloc, pParent);
}
X = S + A;
X >>= 16;
// check 16-bit overflow
if (helper_check_signed_overflow(X, 16)) {
return ARMRelocationFactory::Overflow;
} else {
pReloc.target() = helper_insert_val_thumb_movw_movt_inst(pReloc.target(),
X);
return ARMRelocationFactory::OK;
}
}
// R_ARM_THM_MOVT_PREL: S + A - P
ARMRelocationFactory::Result thm_movt_prel(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
ARMRelocationFactory::Address S = pReloc.symValue();
ARMRelocationFactory::DWord P = pReloc.place(pParent.getLayout());
ARMRelocationFactory::DWord A =
helper_extract_thumb_movw_movt_addend(pReloc.target()) + pReloc.addend();
ARMRelocationFactory::DWord X;
X = S + A - P;
X >>= 16;
// check 16-bit overflow
if (helper_check_signed_overflow(X, 16)) {
return ARMRelocationFactory::Overflow;
} else {
pReloc.target() = helper_insert_val_thumb_movw_movt_inst(pReloc.target(),
X);
return ARMRelocationFactory::OK;
}
}
// R_ARM_PREL31: (S + A) | T
ARMRelocationFactory::Result prel31(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
ARMRelocationFactory::DWord target = pReloc.target();
ARMRelocationFactory::DWord T = getThumbBit(pReloc);
ARMRelocationFactory::DWord A = helper_sign_extend(target, 31) +
pReloc.addend();
ARMRelocationFactory::Address S;
S = pReloc.symValue();
// if symbol has plt
if( pReloc.symInfo()->reserved() & 0x8u) {
S = helper_PLT(pReloc, pParent);
T = 0; // PLT is not thumb.
}
ARMRelocationFactory::DWord X = (S + A) | T ;
pReloc.target() = helper_bit_select(target, X, 0x7fffffffU);
if(helper_check_signed_overflow(X, 31))
return ARMRelocationFactory::Overflow;
return ARMRelocationFactory::OK;
}
// R_ARM_TLS_GD32: GOT(S) + A - P
// R_ARM_TLS_IE32: GOT(S) + A - P
// R_ARM_TLS_LE32: S + A - tp
ARMRelocationFactory::Result tls(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
llvm::report_fatal_error("We don't support TLS relocation yet.");
return ARMRelocationFactory::Unsupport;
}
ARMRelocationFactory::Result unsupport(Relocation& pReloc,
const MCLDInfo& pLDInfo,
ARMRelocationFactory& pParent)
{
return ARMRelocationFactory::Unsupport;
}