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//===-- MipsTargetStreamer.cpp - Mips Target Streamer Methods -------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file provides Mips specific target streamer methods.
//
//===----------------------------------------------------------------------===//
#include "InstPrinter/MipsInstPrinter.h"
#include "MipsELFStreamer.h"
#include "MipsMCTargetDesc.h"
#include "MipsTargetObjectFile.h"
#include "MipsTargetStreamer.h"
#include "llvm/MC/MCContext.h"
#include "llvm/MC/MCELF.h"
#include "llvm/MC/MCSectionELF.h"
#include "llvm/MC/MCSubtargetInfo.h"
#include "llvm/MC/MCSymbol.h"
#include "llvm/Support/CommandLine.h"
#include "llvm/Support/ELF.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/FormattedStream.h"
using namespace llvm;
MipsTargetStreamer::MipsTargetStreamer(MCStreamer &S)
: MCTargetStreamer(S), ModuleDirectiveAllowed(true) {
GPRInfoSet = FPRInfoSet = FrameInfoSet = false;
}
void MipsTargetStreamer::emitDirectiveSetMicroMips() {}
void MipsTargetStreamer::emitDirectiveSetNoMicroMips() {}
void MipsTargetStreamer::emitDirectiveSetMips16() {}
void MipsTargetStreamer::emitDirectiveSetNoMips16() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetReorder() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetNoReorder() {}
void MipsTargetStreamer::emitDirectiveSetMacro() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetNoMacro() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetMsa() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetNoMsa() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetAt() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetAtWithArg(unsigned RegNo) {
forbidModuleDirective();
}
void MipsTargetStreamer::emitDirectiveSetNoAt() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveEnd(StringRef Name) {}
void MipsTargetStreamer::emitDirectiveEnt(const MCSymbol &Symbol) {}
void MipsTargetStreamer::emitDirectiveAbiCalls() {}
void MipsTargetStreamer::emitDirectiveNaN2008() {}
void MipsTargetStreamer::emitDirectiveNaNLegacy() {}
void MipsTargetStreamer::emitDirectiveOptionPic0() {}
void MipsTargetStreamer::emitDirectiveOptionPic2() {}
void MipsTargetStreamer::emitDirectiveInsn() { forbidModuleDirective(); }
void MipsTargetStreamer::emitFrame(unsigned StackReg, unsigned StackSize,
unsigned ReturnReg) {}
void MipsTargetStreamer::emitMask(unsigned CPUBitmask, int CPUTopSavedRegOff) {}
void MipsTargetStreamer::emitFMask(unsigned FPUBitmask, int FPUTopSavedRegOff) {
}
void MipsTargetStreamer::emitDirectiveSetArch(StringRef Arch) {
forbidModuleDirective();
}
void MipsTargetStreamer::emitDirectiveSetMips0() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetMips1() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetMips2() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetMips3() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetMips4() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetMips5() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetMips32() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetMips32R2() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetMips32R3() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetMips32R5() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetMips32R6() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetMips64() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetMips64R2() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetMips64R3() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetMips64R5() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetMips64R6() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetPop() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetPush() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetDsp() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveSetNoDsp() { forbidModuleDirective(); }
void MipsTargetStreamer::emitDirectiveCpLoad(unsigned RegNo) {}
void MipsTargetStreamer::emitDirectiveCpsetup(unsigned RegNo, int RegOrOffset,
const MCSymbol &Sym, bool IsReg) {
}
void MipsTargetStreamer::emitDirectiveModuleOddSPReg(bool Enabled,
bool IsO32ABI) {
if (!Enabled && !IsO32ABI)
report_fatal_error("+nooddspreg is only valid for O32");
}
void MipsTargetStreamer::emitDirectiveSetFp(
MipsABIFlagsSection::FpABIKind Value) {
forbidModuleDirective();
}
MipsTargetAsmStreamer::MipsTargetAsmStreamer(MCStreamer &S,
formatted_raw_ostream &OS)
: MipsTargetStreamer(S), OS(OS) {}
void MipsTargetAsmStreamer::emitDirectiveSetMicroMips() {
OS << "\t.set\tmicromips\n";
forbidModuleDirective();
}
void MipsTargetAsmStreamer::emitDirectiveSetNoMicroMips() {
OS << "\t.set\tnomicromips\n";
forbidModuleDirective();
}
void MipsTargetAsmStreamer::emitDirectiveSetMips16() {
OS << "\t.set\tmips16\n";
forbidModuleDirective();
}
void MipsTargetAsmStreamer::emitDirectiveSetNoMips16() {
OS << "\t.set\tnomips16\n";
MipsTargetStreamer::emitDirectiveSetNoMips16();
}
void MipsTargetAsmStreamer::emitDirectiveSetReorder() {
OS << "\t.set\treorder\n";
MipsTargetStreamer::emitDirectiveSetReorder();
}
void MipsTargetAsmStreamer::emitDirectiveSetNoReorder() {
OS << "\t.set\tnoreorder\n";
forbidModuleDirective();
}
void MipsTargetAsmStreamer::emitDirectiveSetMacro() {
OS << "\t.set\tmacro\n";
MipsTargetStreamer::emitDirectiveSetMacro();
}
void MipsTargetAsmStreamer::emitDirectiveSetNoMacro() {
OS << "\t.set\tnomacro\n";
MipsTargetStreamer::emitDirectiveSetNoMacro();
}
void MipsTargetAsmStreamer::emitDirectiveSetMsa() {
OS << "\t.set\tmsa\n";
MipsTargetStreamer::emitDirectiveSetMsa();
}
void MipsTargetAsmStreamer::emitDirectiveSetNoMsa() {
OS << "\t.set\tnomsa\n";
MipsTargetStreamer::emitDirectiveSetNoMsa();
}
void MipsTargetAsmStreamer::emitDirectiveSetAt() {
OS << "\t.set\tat\n";
MipsTargetStreamer::emitDirectiveSetAt();
}
void MipsTargetAsmStreamer::emitDirectiveSetAtWithArg(unsigned RegNo) {
OS << "\t.set\tat=$" << Twine(RegNo) << "\n";
MipsTargetStreamer::emitDirectiveSetAtWithArg(RegNo);
}
void MipsTargetAsmStreamer::emitDirectiveSetNoAt() {
OS << "\t.set\tnoat\n";
MipsTargetStreamer::emitDirectiveSetNoAt();
}
void MipsTargetAsmStreamer::emitDirectiveEnd(StringRef Name) {
OS << "\t.end\t" << Name << '\n';
}
void MipsTargetAsmStreamer::emitDirectiveEnt(const MCSymbol &Symbol) {
OS << "\t.ent\t" << Symbol.getName() << '\n';
}
void MipsTargetAsmStreamer::emitDirectiveAbiCalls() { OS << "\t.abicalls\n"; }
void MipsTargetAsmStreamer::emitDirectiveNaN2008() { OS << "\t.nan\t2008\n"; }
void MipsTargetAsmStreamer::emitDirectiveNaNLegacy() {
OS << "\t.nan\tlegacy\n";
}
void MipsTargetAsmStreamer::emitDirectiveOptionPic0() {
OS << "\t.option\tpic0\n";
}
void MipsTargetAsmStreamer::emitDirectiveOptionPic2() {
OS << "\t.option\tpic2\n";
}
void MipsTargetAsmStreamer::emitDirectiveInsn() {
MipsTargetStreamer::emitDirectiveInsn();
OS << "\t.insn\n";
}
void MipsTargetAsmStreamer::emitFrame(unsigned StackReg, unsigned StackSize,
unsigned ReturnReg) {
OS << "\t.frame\t$"
<< StringRef(MipsInstPrinter::getRegisterName(StackReg)).lower() << ","
<< StackSize << ",$"
<< StringRef(MipsInstPrinter::getRegisterName(ReturnReg)).lower() << '\n';
}
void MipsTargetAsmStreamer::emitDirectiveSetArch(StringRef Arch) {
OS << "\t.set arch=" << Arch << "\n";
MipsTargetStreamer::emitDirectiveSetArch(Arch);
}
void MipsTargetAsmStreamer::emitDirectiveSetMips0() {
OS << "\t.set\tmips0\n";
MipsTargetStreamer::emitDirectiveSetMips0();
}
void MipsTargetAsmStreamer::emitDirectiveSetMips1() {
OS << "\t.set\tmips1\n";
MipsTargetStreamer::emitDirectiveSetMips1();
}
void MipsTargetAsmStreamer::emitDirectiveSetMips2() {
OS << "\t.set\tmips2\n";
MipsTargetStreamer::emitDirectiveSetMips2();
}
void MipsTargetAsmStreamer::emitDirectiveSetMips3() {
OS << "\t.set\tmips3\n";
MipsTargetStreamer::emitDirectiveSetMips3();
}
void MipsTargetAsmStreamer::emitDirectiveSetMips4() {
OS << "\t.set\tmips4\n";
MipsTargetStreamer::emitDirectiveSetMips4();
}
void MipsTargetAsmStreamer::emitDirectiveSetMips5() {
OS << "\t.set\tmips5\n";
MipsTargetStreamer::emitDirectiveSetMips5();
}
void MipsTargetAsmStreamer::emitDirectiveSetMips32() {
OS << "\t.set\tmips32\n";
MipsTargetStreamer::emitDirectiveSetMips32();
}
void MipsTargetAsmStreamer::emitDirectiveSetMips32R2() {
OS << "\t.set\tmips32r2\n";
MipsTargetStreamer::emitDirectiveSetMips32R2();
}
void MipsTargetAsmStreamer::emitDirectiveSetMips32R3() {
OS << "\t.set\tmips32r3\n";
MipsTargetStreamer::emitDirectiveSetMips32R3();
}
void MipsTargetAsmStreamer::emitDirectiveSetMips32R5() {
OS << "\t.set\tmips32r5\n";
MipsTargetStreamer::emitDirectiveSetMips32R5();
}
void MipsTargetAsmStreamer::emitDirectiveSetMips32R6() {
OS << "\t.set\tmips32r6\n";
MipsTargetStreamer::emitDirectiveSetMips32R6();
}
void MipsTargetAsmStreamer::emitDirectiveSetMips64() {
OS << "\t.set\tmips64\n";
MipsTargetStreamer::emitDirectiveSetMips64();
}
void MipsTargetAsmStreamer::emitDirectiveSetMips64R2() {
OS << "\t.set\tmips64r2\n";
MipsTargetStreamer::emitDirectiveSetMips64R2();
}
void MipsTargetAsmStreamer::emitDirectiveSetMips64R3() {
OS << "\t.set\tmips64r3\n";
MipsTargetStreamer::emitDirectiveSetMips64R3();
}
void MipsTargetAsmStreamer::emitDirectiveSetMips64R5() {
OS << "\t.set\tmips64r5\n";
MipsTargetStreamer::emitDirectiveSetMips64R5();
}
void MipsTargetAsmStreamer::emitDirectiveSetMips64R6() {
OS << "\t.set\tmips64r6\n";
MipsTargetStreamer::emitDirectiveSetMips64R6();
}
void MipsTargetAsmStreamer::emitDirectiveSetDsp() {
OS << "\t.set\tdsp\n";
MipsTargetStreamer::emitDirectiveSetDsp();
}
void MipsTargetAsmStreamer::emitDirectiveSetNoDsp() {
OS << "\t.set\tnodsp\n";
MipsTargetStreamer::emitDirectiveSetNoDsp();
}
void MipsTargetAsmStreamer::emitDirectiveSetPop() {
OS << "\t.set\tpop\n";
MipsTargetStreamer::emitDirectiveSetPop();
}
void MipsTargetAsmStreamer::emitDirectiveSetPush() {
OS << "\t.set\tpush\n";
MipsTargetStreamer::emitDirectiveSetPush();
}
// Print a 32 bit hex number with all numbers.
static void printHex32(unsigned Value, raw_ostream &OS) {
OS << "0x";
for (int i = 7; i >= 0; i--)
OS.write_hex((Value & (0xF << (i * 4))) >> (i * 4));
}
void MipsTargetAsmStreamer::emitMask(unsigned CPUBitmask,
int CPUTopSavedRegOff) {
OS << "\t.mask \t";
printHex32(CPUBitmask, OS);
OS << ',' << CPUTopSavedRegOff << '\n';
}
void MipsTargetAsmStreamer::emitFMask(unsigned FPUBitmask,
int FPUTopSavedRegOff) {
OS << "\t.fmask\t";
printHex32(FPUBitmask, OS);
OS << "," << FPUTopSavedRegOff << '\n';
}
void MipsTargetAsmStreamer::emitDirectiveCpLoad(unsigned RegNo) {
OS << "\t.cpload\t$"
<< StringRef(MipsInstPrinter::getRegisterName(RegNo)).lower() << "\n";
forbidModuleDirective();
}
void MipsTargetAsmStreamer::emitDirectiveCpsetup(unsigned RegNo,
int RegOrOffset,
const MCSymbol &Sym,
bool IsReg) {
OS << "\t.cpsetup\t$"
<< StringRef(MipsInstPrinter::getRegisterName(RegNo)).lower() << ", ";
if (IsReg)
OS << "$"
<< StringRef(MipsInstPrinter::getRegisterName(RegOrOffset)).lower();
else
OS << RegOrOffset;
OS << ", ";
OS << Sym.getName() << "\n";
forbidModuleDirective();
}
void MipsTargetAsmStreamer::emitDirectiveModuleFP(
MipsABIFlagsSection::FpABIKind Value, bool Is32BitABI) {
MipsTargetStreamer::emitDirectiveModuleFP(Value, Is32BitABI);
OS << "\t.module\tfp=";
OS << ABIFlagsSection.getFpABIString(Value) << "\n";
}
void MipsTargetAsmStreamer::emitDirectiveSetFp(
MipsABIFlagsSection::FpABIKind Value) {
MipsTargetStreamer::emitDirectiveSetFp(Value);
OS << "\t.set\tfp=";
OS << ABIFlagsSection.getFpABIString(Value) << "\n";
}
void MipsTargetAsmStreamer::emitDirectiveModuleOddSPReg(bool Enabled,
bool IsO32ABI) {
MipsTargetStreamer::emitDirectiveModuleOddSPReg(Enabled, IsO32ABI);
OS << "\t.module\t" << (Enabled ? "" : "no") << "oddspreg\n";
}
// This part is for ELF object output.
MipsTargetELFStreamer::MipsTargetELFStreamer(MCStreamer &S,
const MCSubtargetInfo &STI)
: MipsTargetStreamer(S), MicroMipsEnabled(false), STI(STI) {
MCAssembler &MCA = getStreamer().getAssembler();
Pic = MCA.getContext().getObjectFileInfo()->getRelocM() == Reloc::PIC_;
const FeatureBitset &Features = STI.getFeatureBits();
// Set the header flags that we can in the constructor.
// FIXME: This is a fairly terrible hack. We set the rest
// of these in the destructor. The problem here is two-fold:
//
// a: Some of the eflags can be set/reset by directives.
// b: There aren't any usage paths that initialize the ABI
// pointer until after we initialize either an assembler
// or the target machine.
// We can fix this by making the target streamer construct
// the ABI, but this is fraught with wide ranging dependency
// issues as well.
unsigned EFlags = MCA.getELFHeaderEFlags();
// Architecture
if (Features[Mips::FeatureMips64r6])
EFlags |= ELF::EF_MIPS_ARCH_64R6;
else if (Features[Mips::FeatureMips64r2] ||
Features[Mips::FeatureMips64r3] ||
Features[Mips::FeatureMips64r5])
EFlags |= ELF::EF_MIPS_ARCH_64R2;
else if (Features[Mips::FeatureMips64])
EFlags |= ELF::EF_MIPS_ARCH_64;
else if (Features[Mips::FeatureMips5])
EFlags |= ELF::EF_MIPS_ARCH_5;
else if (Features[Mips::FeatureMips4])
EFlags |= ELF::EF_MIPS_ARCH_4;
else if (Features[Mips::FeatureMips3])
EFlags |= ELF::EF_MIPS_ARCH_3;
else if (Features[Mips::FeatureMips32r6])
EFlags |= ELF::EF_MIPS_ARCH_32R6;
else if (Features[Mips::FeatureMips32r2] ||
Features[Mips::FeatureMips32r3] ||
Features[Mips::FeatureMips32r5])
EFlags |= ELF::EF_MIPS_ARCH_32R2;
else if (Features[Mips::FeatureMips32])
EFlags |= ELF::EF_MIPS_ARCH_32;
else if (Features[Mips::FeatureMips2])
EFlags |= ELF::EF_MIPS_ARCH_2;
else
EFlags |= ELF::EF_MIPS_ARCH_1;
// Other options.
if (Features[Mips::FeatureNaN2008])
EFlags |= ELF::EF_MIPS_NAN2008;
// -mabicalls and -mplt are not implemented but we should act as if they were
// given.
EFlags |= ELF::EF_MIPS_CPIC;
MCA.setELFHeaderEFlags(EFlags);
}
void MipsTargetELFStreamer::emitLabel(MCSymbol *Symbol) {
if (!isMicroMipsEnabled())
return;
getStreamer().getOrCreateSymbolData(Symbol);
uint8_t Type = MCELF::GetType(*Symbol);
if (Type != ELF::STT_FUNC)
return;
// The "other" values are stored in the last 6 bits of the second byte
// The traditional defines for STO values assume the full byte and thus
// the shift to pack it.
MCELF::setOther(*Symbol, ELF::STO_MIPS_MICROMIPS >> 2);
}
void MipsTargetELFStreamer::finish() {
MCAssembler &MCA = getStreamer().getAssembler();
const MCObjectFileInfo &OFI = *MCA.getContext().getObjectFileInfo();
// .bss, .text and .data are always at least 16-byte aligned.
MCSection &TextSection = *OFI.getTextSection();
MCA.registerSection(TextSection);
MCSection &DataSection = *OFI.getDataSection();
MCA.registerSection(DataSection);
MCSection &BSSSection = *OFI.getBSSSection();
MCA.registerSection(BSSSection);
TextSection.setAlignment(std::max(16u, TextSection.getAlignment()));
DataSection.setAlignment(std::max(16u, DataSection.getAlignment()));
BSSSection.setAlignment(std::max(16u, BSSSection.getAlignment()));
const FeatureBitset &Features = STI.getFeatureBits();
// Update e_header flags. See the FIXME and comment above in
// the constructor for a full rundown on this.
unsigned EFlags = MCA.getELFHeaderEFlags();
// ABI
// N64 does not require any ABI bits.
if (getABI().IsO32())
EFlags |= ELF::EF_MIPS_ABI_O32;
else if (getABI().IsN32())
EFlags |= ELF::EF_MIPS_ABI2;
if (Features[Mips::FeatureGP64Bit]) {
if (getABI().IsO32())
EFlags |= ELF::EF_MIPS_32BITMODE; /* Compatibility Mode */
} else if (Features[Mips::FeatureMips64r2] || Features[Mips::FeatureMips64])
EFlags |= ELF::EF_MIPS_32BITMODE;
// If we've set the cpic eflag and we're n64, go ahead and set the pic
// one as well.
if (EFlags & ELF::EF_MIPS_CPIC && getABI().IsN64())
EFlags |= ELF::EF_MIPS_PIC;
MCA.setELFHeaderEFlags(EFlags);
// Emit all the option records.
// At the moment we are only emitting .Mips.options (ODK_REGINFO) and
// .reginfo.
MipsELFStreamer &MEF = static_cast<MipsELFStreamer &>(Streamer);
MEF.EmitMipsOptionRecords();
emitMipsAbiFlags();
}
void MipsTargetELFStreamer::emitAssignment(MCSymbol *Symbol,
const MCExpr *Value) {
// If on rhs is micromips symbol then mark Symbol as microMips.
if (Value->getKind() != MCExpr::SymbolRef)
return;
const MCSymbol &RhsSym =
static_cast<const MCSymbolRefExpr *>(Value)->getSymbol();
if (!(MCELF::getOther(RhsSym) & (ELF::STO_MIPS_MICROMIPS >> 2)))
return;
// The "other" values are stored in the last 6 bits of the second byte.
// The traditional defines for STO values assume the full byte and thus
// the shift to pack it.
MCELF::setOther(*Symbol, ELF::STO_MIPS_MICROMIPS >> 2);
}
MCELFStreamer &MipsTargetELFStreamer::getStreamer() {
return static_cast<MCELFStreamer &>(Streamer);
}
void MipsTargetELFStreamer::emitDirectiveSetMicroMips() {
MicroMipsEnabled = true;
MCAssembler &MCA = getStreamer().getAssembler();
unsigned Flags = MCA.getELFHeaderEFlags();
Flags |= ELF::EF_MIPS_MICROMIPS;
MCA.setELFHeaderEFlags(Flags);
forbidModuleDirective();
}
void MipsTargetELFStreamer::emitDirectiveSetNoMicroMips() {
MicroMipsEnabled = false;
forbidModuleDirective();
}
void MipsTargetELFStreamer::emitDirectiveSetMips16() {
MCAssembler &MCA = getStreamer().getAssembler();
unsigned Flags = MCA.getELFHeaderEFlags();
Flags |= ELF::EF_MIPS_ARCH_ASE_M16;
MCA.setELFHeaderEFlags(Flags);
forbidModuleDirective();
}
void MipsTargetELFStreamer::emitDirectiveSetNoReorder() {
MCAssembler &MCA = getStreamer().getAssembler();
unsigned Flags = MCA.getELFHeaderEFlags();
Flags |= ELF::EF_MIPS_NOREORDER;
MCA.setELFHeaderEFlags(Flags);
forbidModuleDirective();
}
void MipsTargetELFStreamer::emitDirectiveEnd(StringRef Name) {
MCAssembler &MCA = getStreamer().getAssembler();
MCContext &Context = MCA.getContext();
MCStreamer &OS = getStreamer();
MCSectionELF *Sec = Context.getELFSection(".pdr", ELF::SHT_PROGBITS,
ELF::SHF_ALLOC | ELF::SHT_REL);
const MCSymbolRefExpr *ExprRef =
MCSymbolRefExpr::Create(Name, MCSymbolRefExpr::VK_None, Context);
MCA.registerSection(*Sec);
Sec->setAlignment(4);
OS.PushSection();
OS.SwitchSection(Sec);
OS.EmitValueImpl(ExprRef, 4);
OS.EmitIntValue(GPRInfoSet ? GPRBitMask : 0, 4); // reg_mask
OS.EmitIntValue(GPRInfoSet ? GPROffset : 0, 4); // reg_offset
OS.EmitIntValue(FPRInfoSet ? FPRBitMask : 0, 4); // fpreg_mask
OS.EmitIntValue(FPRInfoSet ? FPROffset : 0, 4); // fpreg_offset
OS.EmitIntValue(FrameInfoSet ? FrameOffset : 0, 4); // frame_offset
OS.EmitIntValue(FrameInfoSet ? FrameReg : 0, 4); // frame_reg
OS.EmitIntValue(FrameInfoSet ? ReturnReg : 0, 4); // return_reg
// The .end directive marks the end of a procedure. Invalidate
// the information gathered up until this point.
GPRInfoSet = FPRInfoSet = FrameInfoSet = false;
OS.PopSection();
}
void MipsTargetELFStreamer::emitDirectiveEnt(const MCSymbol &Symbol) {
GPRInfoSet = FPRInfoSet = FrameInfoSet = false;
}
void MipsTargetELFStreamer::emitDirectiveAbiCalls() {
MCAssembler &MCA = getStreamer().getAssembler();
unsigned Flags = MCA.getELFHeaderEFlags();
Flags |= ELF::EF_MIPS_CPIC | ELF::EF_MIPS_PIC;
MCA.setELFHeaderEFlags(Flags);
}
void MipsTargetELFStreamer::emitDirectiveNaN2008() {
MCAssembler &MCA = getStreamer().getAssembler();
unsigned Flags = MCA.getELFHeaderEFlags();
Flags |= ELF::EF_MIPS_NAN2008;
MCA.setELFHeaderEFlags(Flags);
}
void MipsTargetELFStreamer::emitDirectiveNaNLegacy() {
MCAssembler &MCA = getStreamer().getAssembler();
unsigned Flags = MCA.getELFHeaderEFlags();
Flags &= ~ELF::EF_MIPS_NAN2008;
MCA.setELFHeaderEFlags(Flags);
}
void MipsTargetELFStreamer::emitDirectiveOptionPic0() {
MCAssembler &MCA = getStreamer().getAssembler();
unsigned Flags = MCA.getELFHeaderEFlags();
// This option overrides other PIC options like -KPIC.
Pic = false;
Flags &= ~ELF::EF_MIPS_PIC;
MCA.setELFHeaderEFlags(Flags);
}
void MipsTargetELFStreamer::emitDirectiveOptionPic2() {
MCAssembler &MCA = getStreamer().getAssembler();
unsigned Flags = MCA.getELFHeaderEFlags();
Pic = true;
// NOTE: We are following the GAS behaviour here which means the directive
// 'pic2' also sets the CPIC bit in the ELF header. This is different from
// what is stated in the SYSV ABI which consider the bits EF_MIPS_PIC and
// EF_MIPS_CPIC to be mutually exclusive.
Flags |= ELF::EF_MIPS_PIC | ELF::EF_MIPS_CPIC;
MCA.setELFHeaderEFlags(Flags);
}
void MipsTargetELFStreamer::emitDirectiveInsn() {
MipsTargetStreamer::emitDirectiveInsn();
MipsELFStreamer &MEF = static_cast<MipsELFStreamer &>(Streamer);
MEF.createPendingLabelRelocs();
}
void MipsTargetELFStreamer::emitFrame(unsigned StackReg, unsigned StackSize,
unsigned ReturnReg_) {
MCContext &Context = getStreamer().getAssembler().getContext();
const MCRegisterInfo *RegInfo = Context.getRegisterInfo();
FrameInfoSet = true;
FrameReg = RegInfo->getEncodingValue(StackReg);
FrameOffset = StackSize;
ReturnReg = RegInfo->getEncodingValue(ReturnReg_);
}
void MipsTargetELFStreamer::emitMask(unsigned CPUBitmask,
int CPUTopSavedRegOff) {
GPRInfoSet = true;
GPRBitMask = CPUBitmask;
GPROffset = CPUTopSavedRegOff;
}
void MipsTargetELFStreamer::emitFMask(unsigned FPUBitmask,
int FPUTopSavedRegOff) {
FPRInfoSet = true;
FPRBitMask = FPUBitmask;
FPROffset = FPUTopSavedRegOff;
}
void MipsTargetELFStreamer::emitDirectiveCpLoad(unsigned RegNo) {
// .cpload $reg
// This directive expands to:
// lui $gp, %hi(_gp_disp)
// addui $gp, $gp, %lo(_gp_disp)
// addu $gp, $gp, $reg
// when support for position independent code is enabled.
if (!Pic || (getABI().IsN32() || getABI().IsN64()))
return;
// There's a GNU extension controlled by -mno-shared that allows
// locally-binding symbols to be accessed using absolute addresses.
// This is currently not supported. When supported -mno-shared makes
// .cpload expand to:
// lui $gp, %hi(__gnu_local_gp)
// addiu $gp, $gp, %lo(__gnu_local_gp)
StringRef SymName("_gp_disp");
MCAssembler &MCA = getStreamer().getAssembler();
MCSymbol *GP_Disp = MCA.getContext().getOrCreateSymbol(SymName);
MCA.registerSymbol(*GP_Disp);
MCInst TmpInst;
TmpInst.setOpcode(Mips::LUi);
TmpInst.addOperand(MCOperand::createReg(Mips::GP));
const MCSymbolRefExpr *HiSym = MCSymbolRefExpr::Create(
"_gp_disp", MCSymbolRefExpr::VK_Mips_ABS_HI, MCA.getContext());
TmpInst.addOperand(MCOperand::createExpr(HiSym));
getStreamer().EmitInstruction(TmpInst, STI);
TmpInst.clear();
TmpInst.setOpcode(Mips::ADDiu);
TmpInst.addOperand(MCOperand::createReg(Mips::GP));
TmpInst.addOperand(MCOperand::createReg(Mips::GP));
const MCSymbolRefExpr *LoSym = MCSymbolRefExpr::Create(
"_gp_disp", MCSymbolRefExpr::VK_Mips_ABS_LO, MCA.getContext());
TmpInst.addOperand(MCOperand::createExpr(LoSym));
getStreamer().EmitInstruction(TmpInst, STI);
TmpInst.clear();
TmpInst.setOpcode(Mips::ADDu);
TmpInst.addOperand(MCOperand::createReg(Mips::GP));
TmpInst.addOperand(MCOperand::createReg(Mips::GP));
TmpInst.addOperand(MCOperand::createReg(RegNo));
getStreamer().EmitInstruction(TmpInst, STI);
forbidModuleDirective();
}
void MipsTargetELFStreamer::emitDirectiveCpsetup(unsigned RegNo,
int RegOrOffset,
const MCSymbol &Sym,
bool IsReg) {
// Only N32 and N64 emit anything for .cpsetup iff PIC is set.
if (!Pic || !(getABI().IsN32() || getABI().IsN64()))
return;
MCAssembler &MCA = getStreamer().getAssembler();
MCInst Inst;
// Either store the old $gp in a register or on the stack
if (IsReg) {
// move $save, $gpreg
Inst.setOpcode(Mips::DADDu);
Inst.addOperand(MCOperand::createReg(RegOrOffset));
Inst.addOperand(MCOperand::createReg(Mips::GP));
Inst.addOperand(MCOperand::createReg(Mips::ZERO));
} else {
// sd $gpreg, offset($sp)
Inst.setOpcode(Mips::SD);
Inst.addOperand(MCOperand::createReg(Mips::GP));
Inst.addOperand(MCOperand::createReg(Mips::SP));
Inst.addOperand(MCOperand::createImm(RegOrOffset));
}
getStreamer().EmitInstruction(Inst, STI);
Inst.clear();
const MCSymbolRefExpr *HiExpr = MCSymbolRefExpr::Create(
&Sym, MCSymbolRefExpr::VK_Mips_GPOFF_HI, MCA.getContext());
const MCSymbolRefExpr *LoExpr = MCSymbolRefExpr::Create(
&Sym, MCSymbolRefExpr::VK_Mips_GPOFF_LO, MCA.getContext());
// lui $gp, %hi(%neg(%gp_rel(funcSym)))
Inst.setOpcode(Mips::LUi);
Inst.addOperand(MCOperand::createReg(Mips::GP));
Inst.addOperand(MCOperand::createExpr(HiExpr));
getStreamer().EmitInstruction(Inst, STI);
Inst.clear();
// addiu $gp, $gp, %lo(%neg(%gp_rel(funcSym)))
Inst.setOpcode(Mips::ADDiu);
Inst.addOperand(MCOperand::createReg(Mips::GP));
Inst.addOperand(MCOperand::createReg(Mips::GP));
Inst.addOperand(MCOperand::createExpr(LoExpr));
getStreamer().EmitInstruction(Inst, STI);
Inst.clear();
// daddu $gp, $gp, $funcreg
Inst.setOpcode(Mips::DADDu);
Inst.addOperand(MCOperand::createReg(Mips::GP));
Inst.addOperand(MCOperand::createReg(Mips::GP));
Inst.addOperand(MCOperand::createReg(RegNo));
getStreamer().EmitInstruction(Inst, STI);
forbidModuleDirective();
}
void MipsTargetELFStreamer::emitMipsAbiFlags() {
MCAssembler &MCA = getStreamer().getAssembler();
MCContext &Context = MCA.getContext();
MCStreamer &OS = getStreamer();
MCSectionELF *Sec = Context.getELFSection(
".MIPS.abiflags", ELF::SHT_MIPS_ABIFLAGS, ELF::SHF_ALLOC, 24, "");
MCA.registerSection(*Sec);
Sec->setAlignment(8);
OS.SwitchSection(Sec);
OS << ABIFlagsSection;
}
void MipsTargetELFStreamer::emitDirectiveModuleOddSPReg(bool Enabled,
bool IsO32ABI) {
MipsTargetStreamer::emitDirectiveModuleOddSPReg(Enabled, IsO32ABI);
ABIFlagsSection.OddSPReg = Enabled;
}
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