RISCV.cpp
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//===- RISCV.cpp ----------------------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "InputFiles.h"
#include "Symbols.h"
#include "SyntheticSections.h"
#include "Target.h"
using namespace llvm;
using namespace llvm::object;
using namespace llvm::support::endian;
using namespace llvm::ELF;
using namespace lld;
using namespace lld::elf;
namespace {
class RISCV final : public TargetInfo {
public:
RISCV();
uint32_t calcEFlags() const override;
void writeGotHeader(uint8_t *buf) const override;
void writeGotPlt(uint8_t *buf, const Symbol &s) const override;
void writePltHeader(uint8_t *buf) const override;
void writePlt(uint8_t *buf, const Symbol &sym,
uint64_t pltEntryAddr) const override;
RelType getDynRel(RelType type) const override;
RelExpr getRelExpr(RelType type, const Symbol &s,
const uint8_t *loc) const override;
void relocate(uint8_t *loc, const Relocation &rel,
uint64_t val) const override;
};
} // end anonymous namespace
const uint64_t dtpOffset = 0x800;
enum Op {
ADDI = 0x13,
AUIPC = 0x17,
JALR = 0x67,
LD = 0x3003,
LW = 0x2003,
SRLI = 0x5013,
SUB = 0x40000033,
};
enum Reg {
X_RA = 1,
X_T0 = 5,
X_T1 = 6,
X_T2 = 7,
X_T3 = 28,
};
static uint32_t hi20(uint32_t val) { return (val + 0x800) >> 12; }
static uint32_t lo12(uint32_t val) { return val & 4095; }
static uint32_t itype(uint32_t op, uint32_t rd, uint32_t rs1, uint32_t imm) {
return op | (rd << 7) | (rs1 << 15) | (imm << 20);
}
static uint32_t rtype(uint32_t op, uint32_t rd, uint32_t rs1, uint32_t rs2) {
return op | (rd << 7) | (rs1 << 15) | (rs2 << 20);
}
static uint32_t utype(uint32_t op, uint32_t rd, uint32_t imm) {
return op | (rd << 7) | (imm << 12);
}
RISCV::RISCV() {
copyRel = R_RISCV_COPY;
noneRel = R_RISCV_NONE;
pltRel = R_RISCV_JUMP_SLOT;
relativeRel = R_RISCV_RELATIVE;
iRelativeRel = R_RISCV_IRELATIVE;
if (config->is64) {
symbolicRel = R_RISCV_64;
tlsModuleIndexRel = R_RISCV_TLS_DTPMOD64;
tlsOffsetRel = R_RISCV_TLS_DTPREL64;
tlsGotRel = R_RISCV_TLS_TPREL64;
} else {
symbolicRel = R_RISCV_32;
tlsModuleIndexRel = R_RISCV_TLS_DTPMOD32;
tlsOffsetRel = R_RISCV_TLS_DTPREL32;
tlsGotRel = R_RISCV_TLS_TPREL32;
}
gotRel = symbolicRel;
// .got[0] = _DYNAMIC
gotBaseSymInGotPlt = false;
gotHeaderEntriesNum = 1;
// .got.plt[0] = _dl_runtime_resolve, .got.plt[1] = link_map
gotPltHeaderEntriesNum = 2;
pltHeaderSize = 32;
pltEntrySize = 16;
ipltEntrySize = 16;
}
static uint32_t getEFlags(InputFile *f) {
if (config->is64)
return cast<ObjFile<ELF64LE>>(f)->getObj().getHeader().e_flags;
return cast<ObjFile<ELF32LE>>(f)->getObj().getHeader().e_flags;
}
uint32_t RISCV::calcEFlags() const {
// If there are only binary input files (from -b binary), use a
// value of 0 for the ELF header flags.
if (objectFiles.empty())
return 0;
uint32_t target = getEFlags(objectFiles.front());
for (InputFile *f : objectFiles) {
uint32_t eflags = getEFlags(f);
if (eflags & EF_RISCV_RVC)
target |= EF_RISCV_RVC;
if ((eflags & EF_RISCV_FLOAT_ABI) != (target & EF_RISCV_FLOAT_ABI))
error(toString(f) +
": cannot link object files with different floating-point ABI");
if ((eflags & EF_RISCV_RVE) != (target & EF_RISCV_RVE))
error(toString(f) +
": cannot link object files with different EF_RISCV_RVE");
}
return target;
}
void RISCV::writeGotHeader(uint8_t *buf) const {
if (config->is64)
write64le(buf, mainPart->dynamic->getVA());
else
write32le(buf, mainPart->dynamic->getVA());
}
void RISCV::writeGotPlt(uint8_t *buf, const Symbol &s) const {
if (config->is64)
write64le(buf, in.plt->getVA());
else
write32le(buf, in.plt->getVA());
}
void RISCV::writePltHeader(uint8_t *buf) const {
// 1: auipc t2, %pcrel_hi(.got.plt)
// sub t1, t1, t3
// l[wd] t3, %pcrel_lo(1b)(t2); t3 = _dl_runtime_resolve
// addi t1, t1, -pltHeaderSize-12; t1 = &.plt[i] - &.plt[0]
// addi t0, t2, %pcrel_lo(1b)
// srli t1, t1, (rv64?1:2); t1 = &.got.plt[i] - &.got.plt[0]
// l[wd] t0, Wordsize(t0); t0 = link_map
// jr t3
uint32_t offset = in.gotPlt->getVA() - in.plt->getVA();
uint32_t load = config->is64 ? LD : LW;
write32le(buf + 0, utype(AUIPC, X_T2, hi20(offset)));
write32le(buf + 4, rtype(SUB, X_T1, X_T1, X_T3));
write32le(buf + 8, itype(load, X_T3, X_T2, lo12(offset)));
write32le(buf + 12, itype(ADDI, X_T1, X_T1, -target->pltHeaderSize - 12));
write32le(buf + 16, itype(ADDI, X_T0, X_T2, lo12(offset)));
write32le(buf + 20, itype(SRLI, X_T1, X_T1, config->is64 ? 1 : 2));
write32le(buf + 24, itype(load, X_T0, X_T0, config->wordsize));
write32le(buf + 28, itype(JALR, 0, X_T3, 0));
}
void RISCV::writePlt(uint8_t *buf, const Symbol &sym,
uint64_t pltEntryAddr) const {
// 1: auipc t3, %pcrel_hi(f@.got.plt)
// l[wd] t3, %pcrel_lo(1b)(t3)
// jalr t1, t3
// nop
uint32_t offset = sym.getGotPltVA() - pltEntryAddr;
write32le(buf + 0, utype(AUIPC, X_T3, hi20(offset)));
write32le(buf + 4, itype(config->is64 ? LD : LW, X_T3, X_T3, lo12(offset)));
write32le(buf + 8, itype(JALR, X_T1, X_T3, 0));
write32le(buf + 12, itype(ADDI, 0, 0, 0));
}
RelType RISCV::getDynRel(RelType type) const {
return type == target->symbolicRel ? type
: static_cast<RelType>(R_RISCV_NONE);
}
RelExpr RISCV::getRelExpr(const RelType type, const Symbol &s,
const uint8_t *loc) const {
switch (type) {
case R_RISCV_NONE:
return R_NONE;
case R_RISCV_32:
case R_RISCV_64:
case R_RISCV_HI20:
case R_RISCV_LO12_I:
case R_RISCV_LO12_S:
case R_RISCV_RVC_LUI:
return R_ABS;
case R_RISCV_ADD8:
case R_RISCV_ADD16:
case R_RISCV_ADD32:
case R_RISCV_ADD64:
case R_RISCV_SET6:
case R_RISCV_SET8:
case R_RISCV_SET16:
case R_RISCV_SET32:
case R_RISCV_SUB6:
case R_RISCV_SUB8:
case R_RISCV_SUB16:
case R_RISCV_SUB32:
case R_RISCV_SUB64:
return R_RISCV_ADD;
case R_RISCV_JAL:
case R_RISCV_BRANCH:
case R_RISCV_PCREL_HI20:
case R_RISCV_RVC_BRANCH:
case R_RISCV_RVC_JUMP:
case R_RISCV_32_PCREL:
return R_PC;
case R_RISCV_CALL:
case R_RISCV_CALL_PLT:
return R_PLT_PC;
case R_RISCV_GOT_HI20:
return R_GOT_PC;
case R_RISCV_PCREL_LO12_I:
case R_RISCV_PCREL_LO12_S:
return R_RISCV_PC_INDIRECT;
case R_RISCV_TLS_GD_HI20:
return R_TLSGD_PC;
case R_RISCV_TLS_GOT_HI20:
config->hasStaticTlsModel = true;
return R_GOT_PC;
case R_RISCV_TPREL_HI20:
case R_RISCV_TPREL_LO12_I:
case R_RISCV_TPREL_LO12_S:
return R_TLS;
case R_RISCV_RELAX:
case R_RISCV_TPREL_ADD:
return R_NONE;
case R_RISCV_ALIGN:
// Not just a hint; always padded to the worst-case number of NOPs, so may
// not currently be aligned, and without linker relaxation support we can't
// delete NOPs to realign.
errorOrWarn(getErrorLocation(loc) + "relocation R_RISCV_ALIGN requires "
"unimplemented linker relaxation; recompile with -mno-relax");
return R_NONE;
default:
error(getErrorLocation(loc) + "unknown relocation (" + Twine(type) +
") against symbol " + toString(s));
return R_NONE;
}
}
// Extract bits V[Begin:End], where range is inclusive, and Begin must be < 63.
static uint32_t extractBits(uint64_t v, uint32_t begin, uint32_t end) {
return (v & ((1ULL << (begin + 1)) - 1)) >> end;
}
void RISCV::relocate(uint8_t *loc, const Relocation &rel, uint64_t val) const {
const unsigned bits = config->wordsize * 8;
switch (rel.type) {
case R_RISCV_32:
write32le(loc, val);
return;
case R_RISCV_64:
write64le(loc, val);
return;
case R_RISCV_RVC_BRANCH: {
checkInt(loc, static_cast<int64_t>(val) >> 1, 8, rel);
checkAlignment(loc, val, 2, rel);
uint16_t insn = read16le(loc) & 0xE383;
uint16_t imm8 = extractBits(val, 8, 8) << 12;
uint16_t imm4_3 = extractBits(val, 4, 3) << 10;
uint16_t imm7_6 = extractBits(val, 7, 6) << 5;
uint16_t imm2_1 = extractBits(val, 2, 1) << 3;
uint16_t imm5 = extractBits(val, 5, 5) << 2;
insn |= imm8 | imm4_3 | imm7_6 | imm2_1 | imm5;
write16le(loc, insn);
return;
}
case R_RISCV_RVC_JUMP: {
checkInt(loc, static_cast<int64_t>(val) >> 1, 11, rel);
checkAlignment(loc, val, 2, rel);
uint16_t insn = read16le(loc) & 0xE003;
uint16_t imm11 = extractBits(val, 11, 11) << 12;
uint16_t imm4 = extractBits(val, 4, 4) << 11;
uint16_t imm9_8 = extractBits(val, 9, 8) << 9;
uint16_t imm10 = extractBits(val, 10, 10) << 8;
uint16_t imm6 = extractBits(val, 6, 6) << 7;
uint16_t imm7 = extractBits(val, 7, 7) << 6;
uint16_t imm3_1 = extractBits(val, 3, 1) << 3;
uint16_t imm5 = extractBits(val, 5, 5) << 2;
insn |= imm11 | imm4 | imm9_8 | imm10 | imm6 | imm7 | imm3_1 | imm5;
write16le(loc, insn);
return;
}
case R_RISCV_RVC_LUI: {
int64_t imm = SignExtend64(val + 0x800, bits) >> 12;
checkInt(loc, imm, 6, rel);
if (imm == 0) { // `c.lui rd, 0` is illegal, convert to `c.li rd, 0`
write16le(loc, (read16le(loc) & 0x0F83) | 0x4000);
} else {
uint16_t imm17 = extractBits(val + 0x800, 17, 17) << 12;
uint16_t imm16_12 = extractBits(val + 0x800, 16, 12) << 2;
write16le(loc, (read16le(loc) & 0xEF83) | imm17 | imm16_12);
}
return;
}
case R_RISCV_JAL: {
checkInt(loc, static_cast<int64_t>(val) >> 1, 20, rel);
checkAlignment(loc, val, 2, rel);
uint32_t insn = read32le(loc) & 0xFFF;
uint32_t imm20 = extractBits(val, 20, 20) << 31;
uint32_t imm10_1 = extractBits(val, 10, 1) << 21;
uint32_t imm11 = extractBits(val, 11, 11) << 20;
uint32_t imm19_12 = extractBits(val, 19, 12) << 12;
insn |= imm20 | imm10_1 | imm11 | imm19_12;
write32le(loc, insn);
return;
}
case R_RISCV_BRANCH: {
checkInt(loc, static_cast<int64_t>(val) >> 1, 12, rel);
checkAlignment(loc, val, 2, rel);
uint32_t insn = read32le(loc) & 0x1FFF07F;
uint32_t imm12 = extractBits(val, 12, 12) << 31;
uint32_t imm10_5 = extractBits(val, 10, 5) << 25;
uint32_t imm4_1 = extractBits(val, 4, 1) << 8;
uint32_t imm11 = extractBits(val, 11, 11) << 7;
insn |= imm12 | imm10_5 | imm4_1 | imm11;
write32le(loc, insn);
return;
}
// auipc + jalr pair
case R_RISCV_CALL:
case R_RISCV_CALL_PLT: {
int64_t hi = SignExtend64(val + 0x800, bits) >> 12;
checkInt(loc, hi, 20, rel);
if (isInt<20>(hi)) {
relocateNoSym(loc, R_RISCV_PCREL_HI20, val);
relocateNoSym(loc + 4, R_RISCV_PCREL_LO12_I, val);
}
return;
}
case R_RISCV_GOT_HI20:
case R_RISCV_PCREL_HI20:
case R_RISCV_TLS_GD_HI20:
case R_RISCV_TLS_GOT_HI20:
case R_RISCV_TPREL_HI20:
case R_RISCV_HI20: {
uint64_t hi = val + 0x800;
checkInt(loc, SignExtend64(hi, bits) >> 12, 20, rel);
write32le(loc, (read32le(loc) & 0xFFF) | (hi & 0xFFFFF000));
return;
}
case R_RISCV_PCREL_LO12_I:
case R_RISCV_TPREL_LO12_I:
case R_RISCV_LO12_I: {
uint64_t hi = (val + 0x800) >> 12;
uint64_t lo = val - (hi << 12);
write32le(loc, (read32le(loc) & 0xFFFFF) | ((lo & 0xFFF) << 20));
return;
}
case R_RISCV_PCREL_LO12_S:
case R_RISCV_TPREL_LO12_S:
case R_RISCV_LO12_S: {
uint64_t hi = (val + 0x800) >> 12;
uint64_t lo = val - (hi << 12);
uint32_t imm11_5 = extractBits(lo, 11, 5) << 25;
uint32_t imm4_0 = extractBits(lo, 4, 0) << 7;
write32le(loc, (read32le(loc) & 0x1FFF07F) | imm11_5 | imm4_0);
return;
}
case R_RISCV_ADD8:
*loc += val;
return;
case R_RISCV_ADD16:
write16le(loc, read16le(loc) + val);
return;
case R_RISCV_ADD32:
write32le(loc, read32le(loc) + val);
return;
case R_RISCV_ADD64:
write64le(loc, read64le(loc) + val);
return;
case R_RISCV_SUB6:
*loc = (*loc & 0xc0) | (((*loc & 0x3f) - val) & 0x3f);
return;
case R_RISCV_SUB8:
*loc -= val;
return;
case R_RISCV_SUB16:
write16le(loc, read16le(loc) - val);
return;
case R_RISCV_SUB32:
write32le(loc, read32le(loc) - val);
return;
case R_RISCV_SUB64:
write64le(loc, read64le(loc) - val);
return;
case R_RISCV_SET6:
*loc = (*loc & 0xc0) | (val & 0x3f);
return;
case R_RISCV_SET8:
*loc = val;
return;
case R_RISCV_SET16:
write16le(loc, val);
return;
case R_RISCV_SET32:
case R_RISCV_32_PCREL:
write32le(loc, val);
return;
case R_RISCV_TLS_DTPREL32:
write32le(loc, val - dtpOffset);
break;
case R_RISCV_TLS_DTPREL64:
write64le(loc, val - dtpOffset);
break;
case R_RISCV_RELAX:
return; // Ignored (for now)
default:
llvm_unreachable("unknown relocation");
}
}
TargetInfo *elf::getRISCVTargetInfo() {
static RISCV target;
return ⌖
}