106c3fb27SDimitry Andric //===- LoongArch.cpp ------------------------------------------------------===// 206c3fb27SDimitry Andric // 306c3fb27SDimitry Andric // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 406c3fb27SDimitry Andric // See https://llvm.org/LICENSE.txt for license information. 506c3fb27SDimitry Andric // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 606c3fb27SDimitry Andric // 706c3fb27SDimitry Andric //===----------------------------------------------------------------------===// 806c3fb27SDimitry Andric 906c3fb27SDimitry Andric #include "InputFiles.h" 1006c3fb27SDimitry Andric #include "OutputSections.h" 1106c3fb27SDimitry Andric #include "Symbols.h" 1206c3fb27SDimitry Andric #include "SyntheticSections.h" 1306c3fb27SDimitry Andric #include "Target.h" 1406c3fb27SDimitry Andric 1506c3fb27SDimitry Andric using namespace llvm; 1606c3fb27SDimitry Andric using namespace llvm::object; 1706c3fb27SDimitry Andric using namespace llvm::support::endian; 1806c3fb27SDimitry Andric using namespace llvm::ELF; 1906c3fb27SDimitry Andric using namespace lld; 2006c3fb27SDimitry Andric using namespace lld::elf; 2106c3fb27SDimitry Andric 2206c3fb27SDimitry Andric namespace { 2306c3fb27SDimitry Andric class LoongArch final : public TargetInfo { 2406c3fb27SDimitry Andric public: 2506c3fb27SDimitry Andric LoongArch(); 2606c3fb27SDimitry Andric uint32_t calcEFlags() const override; 2706c3fb27SDimitry Andric int64_t getImplicitAddend(const uint8_t *buf, RelType type) const override; 2806c3fb27SDimitry Andric void writeGotPlt(uint8_t *buf, const Symbol &s) const override; 2906c3fb27SDimitry Andric void writeIgotPlt(uint8_t *buf, const Symbol &s) const override; 3006c3fb27SDimitry Andric void writePltHeader(uint8_t *buf) const override; 3106c3fb27SDimitry Andric void writePlt(uint8_t *buf, const Symbol &sym, 3206c3fb27SDimitry Andric uint64_t pltEntryAddr) const override; 3306c3fb27SDimitry Andric RelType getDynRel(RelType type) const override; 3406c3fb27SDimitry Andric RelExpr getRelExpr(RelType type, const Symbol &s, 3506c3fb27SDimitry Andric const uint8_t *loc) const override; 3606c3fb27SDimitry Andric bool usesOnlyLowPageBits(RelType type) const override; 3706c3fb27SDimitry Andric void relocate(uint8_t *loc, const Relocation &rel, 3806c3fb27SDimitry Andric uint64_t val) const override; 3906c3fb27SDimitry Andric }; 4006c3fb27SDimitry Andric } // end anonymous namespace 4106c3fb27SDimitry Andric 4206c3fb27SDimitry Andric enum Op { 4306c3fb27SDimitry Andric SUB_W = 0x00110000, 4406c3fb27SDimitry Andric SUB_D = 0x00118000, 4506c3fb27SDimitry Andric BREAK = 0x002a0000, 4606c3fb27SDimitry Andric SRLI_W = 0x00448000, 4706c3fb27SDimitry Andric SRLI_D = 0x00450000, 4806c3fb27SDimitry Andric ADDI_W = 0x02800000, 4906c3fb27SDimitry Andric ADDI_D = 0x02c00000, 5006c3fb27SDimitry Andric ANDI = 0x03400000, 5106c3fb27SDimitry Andric PCADDU12I = 0x1c000000, 5206c3fb27SDimitry Andric LD_W = 0x28800000, 5306c3fb27SDimitry Andric LD_D = 0x28c00000, 5406c3fb27SDimitry Andric JIRL = 0x4c000000, 5506c3fb27SDimitry Andric }; 5606c3fb27SDimitry Andric 5706c3fb27SDimitry Andric enum Reg { 5806c3fb27SDimitry Andric R_ZERO = 0, 5906c3fb27SDimitry Andric R_RA = 1, 6006c3fb27SDimitry Andric R_TP = 2, 6106c3fb27SDimitry Andric R_T0 = 12, 6206c3fb27SDimitry Andric R_T1 = 13, 6306c3fb27SDimitry Andric R_T2 = 14, 6406c3fb27SDimitry Andric R_T3 = 15, 6506c3fb27SDimitry Andric }; 6606c3fb27SDimitry Andric 6706c3fb27SDimitry Andric // Mask out the input's lowest 12 bits for use with `pcalau12i`, in sequences 6806c3fb27SDimitry Andric // like `pcalau12i + addi.[wd]` or `pcalau12i + {ld,st}.*` where the `pcalau12i` 6906c3fb27SDimitry Andric // produces a PC-relative intermediate value with the lowest 12 bits zeroed (the 7006c3fb27SDimitry Andric // "page") for the next instruction to add in the "page offset". (`pcalau12i` 7106c3fb27SDimitry Andric // stands for something like "PC ALigned Add Upper that starts from the 12th 7206c3fb27SDimitry Andric // bit, Immediate".) 7306c3fb27SDimitry Andric // 7406c3fb27SDimitry Andric // Here a "page" is in fact just another way to refer to the 12-bit range 7506c3fb27SDimitry Andric // allowed by the immediate field of the addi/ld/st instructions, and not 7606c3fb27SDimitry Andric // related to the system or the kernel's actual page size. The sematics happens 7706c3fb27SDimitry Andric // to match the AArch64 `adrp`, so the concept of "page" is borrowed here. 7806c3fb27SDimitry Andric static uint64_t getLoongArchPage(uint64_t p) { 7906c3fb27SDimitry Andric return p & ~static_cast<uint64_t>(0xfff); 8006c3fb27SDimitry Andric } 8106c3fb27SDimitry Andric 8206c3fb27SDimitry Andric static uint32_t lo12(uint32_t val) { return val & 0xfff; } 8306c3fb27SDimitry Andric 8406c3fb27SDimitry Andric // Calculate the adjusted page delta between dest and PC. 85*297eecfbSDimitry Andric uint64_t elf::getLoongArchPageDelta(uint64_t dest, uint64_t pc, RelType type) { 86*297eecfbSDimitry Andric // Note that if the sequence being relocated is `pcalau12i + addi.d + lu32i.d 87*297eecfbSDimitry Andric // + lu52i.d`, they must be adjancent so that we can infer the PC of 88*297eecfbSDimitry Andric // `pcalau12i` when calculating the page delta for the other two instructions 89*297eecfbSDimitry Andric // (lu32i.d and lu52i.d). Compensate all the sign-extensions is a bit 90*297eecfbSDimitry Andric // complicated. Just use psABI recommended algorithm. 91*297eecfbSDimitry Andric uint64_t pcalau12i_pc; 92*297eecfbSDimitry Andric switch (type) { 93*297eecfbSDimitry Andric case R_LARCH_PCALA64_LO20: 94*297eecfbSDimitry Andric case R_LARCH_GOT64_PC_LO20: 95*297eecfbSDimitry Andric case R_LARCH_TLS_IE64_PC_LO20: 96*297eecfbSDimitry Andric pcalau12i_pc = pc - 8; 97*297eecfbSDimitry Andric break; 98*297eecfbSDimitry Andric case R_LARCH_PCALA64_HI12: 99*297eecfbSDimitry Andric case R_LARCH_GOT64_PC_HI12: 100*297eecfbSDimitry Andric case R_LARCH_TLS_IE64_PC_HI12: 101*297eecfbSDimitry Andric pcalau12i_pc = pc - 12; 102*297eecfbSDimitry Andric break; 103*297eecfbSDimitry Andric default: 104*297eecfbSDimitry Andric pcalau12i_pc = pc; 105*297eecfbSDimitry Andric break; 106*297eecfbSDimitry Andric } 107*297eecfbSDimitry Andric uint64_t result = getLoongArchPage(dest) - getLoongArchPage(pcalau12i_pc); 108*297eecfbSDimitry Andric if (dest & 0x800) 109*297eecfbSDimitry Andric result += 0x1000 - 0x1'0000'0000; 110*297eecfbSDimitry Andric if (result & 0x8000'0000) 111*297eecfbSDimitry Andric result += 0x1'0000'0000; 11206c3fb27SDimitry Andric return result; 11306c3fb27SDimitry Andric } 11406c3fb27SDimitry Andric 11506c3fb27SDimitry Andric static uint32_t hi20(uint32_t val) { return (val + 0x800) >> 12; } 11606c3fb27SDimitry Andric 11706c3fb27SDimitry Andric static uint32_t insn(uint32_t op, uint32_t d, uint32_t j, uint32_t k) { 11806c3fb27SDimitry Andric return op | d | (j << 5) | (k << 10); 11906c3fb27SDimitry Andric } 12006c3fb27SDimitry Andric 12106c3fb27SDimitry Andric // Extract bits v[begin:end], where range is inclusive. 12206c3fb27SDimitry Andric static uint32_t extractBits(uint64_t v, uint32_t begin, uint32_t end) { 12306c3fb27SDimitry Andric return begin == 63 ? v >> end : (v & ((1ULL << (begin + 1)) - 1)) >> end; 12406c3fb27SDimitry Andric } 12506c3fb27SDimitry Andric 12606c3fb27SDimitry Andric static uint32_t setD5k16(uint32_t insn, uint32_t imm) { 12706c3fb27SDimitry Andric uint32_t immLo = extractBits(imm, 15, 0); 12806c3fb27SDimitry Andric uint32_t immHi = extractBits(imm, 20, 16); 12906c3fb27SDimitry Andric return (insn & 0xfc0003e0) | (immLo << 10) | immHi; 13006c3fb27SDimitry Andric } 13106c3fb27SDimitry Andric 13206c3fb27SDimitry Andric static uint32_t setD10k16(uint32_t insn, uint32_t imm) { 13306c3fb27SDimitry Andric uint32_t immLo = extractBits(imm, 15, 0); 13406c3fb27SDimitry Andric uint32_t immHi = extractBits(imm, 25, 16); 13506c3fb27SDimitry Andric return (insn & 0xfc000000) | (immLo << 10) | immHi; 13606c3fb27SDimitry Andric } 13706c3fb27SDimitry Andric 13806c3fb27SDimitry Andric static uint32_t setJ20(uint32_t insn, uint32_t imm) { 13906c3fb27SDimitry Andric return (insn & 0xfe00001f) | (extractBits(imm, 19, 0) << 5); 14006c3fb27SDimitry Andric } 14106c3fb27SDimitry Andric 14206c3fb27SDimitry Andric static uint32_t setK12(uint32_t insn, uint32_t imm) { 14306c3fb27SDimitry Andric return (insn & 0xffc003ff) | (extractBits(imm, 11, 0) << 10); 14406c3fb27SDimitry Andric } 14506c3fb27SDimitry Andric 14606c3fb27SDimitry Andric static uint32_t setK16(uint32_t insn, uint32_t imm) { 14706c3fb27SDimitry Andric return (insn & 0xfc0003ff) | (extractBits(imm, 15, 0) << 10); 14806c3fb27SDimitry Andric } 14906c3fb27SDimitry Andric 15006c3fb27SDimitry Andric static bool isJirl(uint32_t insn) { 15106c3fb27SDimitry Andric return (insn & 0xfc000000) == JIRL; 15206c3fb27SDimitry Andric } 15306c3fb27SDimitry Andric 15406c3fb27SDimitry Andric LoongArch::LoongArch() { 15506c3fb27SDimitry Andric // The LoongArch ISA itself does not have a limit on page sizes. According to 15606c3fb27SDimitry Andric // the ISA manual, the PS (page size) field in MTLB entries and CSR.STLBPS is 15706c3fb27SDimitry Andric // 6 bits wide, meaning the maximum page size is 2^63 which is equivalent to 15806c3fb27SDimitry Andric // "unlimited". 15906c3fb27SDimitry Andric // However, practically the maximum usable page size is constrained by the 16006c3fb27SDimitry Andric // kernel implementation, and 64KiB is the biggest non-huge page size 16106c3fb27SDimitry Andric // supported by Linux as of v6.4. The most widespread page size in use, 16206c3fb27SDimitry Andric // though, is 16KiB. 16306c3fb27SDimitry Andric defaultCommonPageSize = 16384; 16406c3fb27SDimitry Andric defaultMaxPageSize = 65536; 16506c3fb27SDimitry Andric write32le(trapInstr.data(), BREAK); // break 0 16606c3fb27SDimitry Andric 16706c3fb27SDimitry Andric copyRel = R_LARCH_COPY; 16806c3fb27SDimitry Andric pltRel = R_LARCH_JUMP_SLOT; 16906c3fb27SDimitry Andric relativeRel = R_LARCH_RELATIVE; 17006c3fb27SDimitry Andric iRelativeRel = R_LARCH_IRELATIVE; 17106c3fb27SDimitry Andric 17206c3fb27SDimitry Andric if (config->is64) { 17306c3fb27SDimitry Andric symbolicRel = R_LARCH_64; 17406c3fb27SDimitry Andric tlsModuleIndexRel = R_LARCH_TLS_DTPMOD64; 17506c3fb27SDimitry Andric tlsOffsetRel = R_LARCH_TLS_DTPREL64; 17606c3fb27SDimitry Andric tlsGotRel = R_LARCH_TLS_TPREL64; 17706c3fb27SDimitry Andric } else { 17806c3fb27SDimitry Andric symbolicRel = R_LARCH_32; 17906c3fb27SDimitry Andric tlsModuleIndexRel = R_LARCH_TLS_DTPMOD32; 18006c3fb27SDimitry Andric tlsOffsetRel = R_LARCH_TLS_DTPREL32; 18106c3fb27SDimitry Andric tlsGotRel = R_LARCH_TLS_TPREL32; 18206c3fb27SDimitry Andric } 18306c3fb27SDimitry Andric 18406c3fb27SDimitry Andric gotRel = symbolicRel; 18506c3fb27SDimitry Andric 18606c3fb27SDimitry Andric // .got.plt[0] = _dl_runtime_resolve, .got.plt[1] = link_map 18706c3fb27SDimitry Andric gotPltHeaderEntriesNum = 2; 18806c3fb27SDimitry Andric 18906c3fb27SDimitry Andric pltHeaderSize = 32; 19006c3fb27SDimitry Andric pltEntrySize = 16; 19106c3fb27SDimitry Andric ipltEntrySize = 16; 19206c3fb27SDimitry Andric } 19306c3fb27SDimitry Andric 19406c3fb27SDimitry Andric static uint32_t getEFlags(const InputFile *f) { 19506c3fb27SDimitry Andric if (config->is64) 19606c3fb27SDimitry Andric return cast<ObjFile<ELF64LE>>(f)->getObj().getHeader().e_flags; 19706c3fb27SDimitry Andric return cast<ObjFile<ELF32LE>>(f)->getObj().getHeader().e_flags; 19806c3fb27SDimitry Andric } 19906c3fb27SDimitry Andric 20006c3fb27SDimitry Andric static bool inputFileHasCode(const InputFile *f) { 20106c3fb27SDimitry Andric for (const auto *sec : f->getSections()) 20206c3fb27SDimitry Andric if (sec && sec->flags & SHF_EXECINSTR) 20306c3fb27SDimitry Andric return true; 20406c3fb27SDimitry Andric 20506c3fb27SDimitry Andric return false; 20606c3fb27SDimitry Andric } 20706c3fb27SDimitry Andric 20806c3fb27SDimitry Andric uint32_t LoongArch::calcEFlags() const { 20906c3fb27SDimitry Andric // If there are only binary input files (from -b binary), use a 21006c3fb27SDimitry Andric // value of 0 for the ELF header flags. 21106c3fb27SDimitry Andric if (ctx.objectFiles.empty()) 21206c3fb27SDimitry Andric return 0; 21306c3fb27SDimitry Andric 21406c3fb27SDimitry Andric uint32_t target = 0; 21506c3fb27SDimitry Andric const InputFile *targetFile; 21606c3fb27SDimitry Andric for (const InputFile *f : ctx.objectFiles) { 21706c3fb27SDimitry Andric // Do not enforce ABI compatibility if the input file does not contain code. 21806c3fb27SDimitry Andric // This is useful for allowing linkage with data-only object files produced 21906c3fb27SDimitry Andric // with tools like objcopy, that have zero e_flags. 22006c3fb27SDimitry Andric if (!inputFileHasCode(f)) 22106c3fb27SDimitry Andric continue; 22206c3fb27SDimitry Andric 22306c3fb27SDimitry Andric // Take the first non-zero e_flags as the reference. 22406c3fb27SDimitry Andric uint32_t flags = getEFlags(f); 22506c3fb27SDimitry Andric if (target == 0 && flags != 0) { 22606c3fb27SDimitry Andric target = flags; 22706c3fb27SDimitry Andric targetFile = f; 22806c3fb27SDimitry Andric } 22906c3fb27SDimitry Andric 23006c3fb27SDimitry Andric if ((flags & EF_LOONGARCH_ABI_MODIFIER_MASK) != 23106c3fb27SDimitry Andric (target & EF_LOONGARCH_ABI_MODIFIER_MASK)) 23206c3fb27SDimitry Andric error(toString(f) + 23306c3fb27SDimitry Andric ": cannot link object files with different ABI from " + 23406c3fb27SDimitry Andric toString(targetFile)); 23506c3fb27SDimitry Andric 23606c3fb27SDimitry Andric // We cannot process psABI v1.x / object ABI v0 files (containing stack 23706c3fb27SDimitry Andric // relocations), unlike ld.bfd. 23806c3fb27SDimitry Andric // 23906c3fb27SDimitry Andric // Instead of blindly accepting every v0 object and only failing at 24006c3fb27SDimitry Andric // relocation processing time, just disallow interlink altogether. We 24106c3fb27SDimitry Andric // don't expect significant usage of object ABI v0 in the wild (the old 24206c3fb27SDimitry Andric // world may continue using object ABI v0 for a while, but as it's not 24306c3fb27SDimitry Andric // binary-compatible with the upstream i.e. new-world ecosystem, it's not 24406c3fb27SDimitry Andric // being considered here). 24506c3fb27SDimitry Andric // 24606c3fb27SDimitry Andric // There are briefly some new-world systems with object ABI v0 binaries too. 24706c3fb27SDimitry Andric // It is because these systems were built before the new ABI was finalized. 24806c3fb27SDimitry Andric // These are not supported either due to the extremely small number of them, 24906c3fb27SDimitry Andric // and the few impacted users are advised to simply rebuild world or 25006c3fb27SDimitry Andric // reinstall a recent system. 25106c3fb27SDimitry Andric if ((flags & EF_LOONGARCH_OBJABI_MASK) != EF_LOONGARCH_OBJABI_V1) 25206c3fb27SDimitry Andric error(toString(f) + ": unsupported object file ABI version"); 25306c3fb27SDimitry Andric } 25406c3fb27SDimitry Andric 25506c3fb27SDimitry Andric return target; 25606c3fb27SDimitry Andric } 25706c3fb27SDimitry Andric 25806c3fb27SDimitry Andric int64_t LoongArch::getImplicitAddend(const uint8_t *buf, RelType type) const { 25906c3fb27SDimitry Andric switch (type) { 26006c3fb27SDimitry Andric default: 26106c3fb27SDimitry Andric internalLinkerError(getErrorLocation(buf), 26206c3fb27SDimitry Andric "cannot read addend for relocation " + toString(type)); 26306c3fb27SDimitry Andric return 0; 26406c3fb27SDimitry Andric case R_LARCH_32: 26506c3fb27SDimitry Andric case R_LARCH_TLS_DTPMOD32: 26606c3fb27SDimitry Andric case R_LARCH_TLS_DTPREL32: 26706c3fb27SDimitry Andric case R_LARCH_TLS_TPREL32: 26806c3fb27SDimitry Andric return SignExtend64<32>(read32le(buf)); 26906c3fb27SDimitry Andric case R_LARCH_64: 27006c3fb27SDimitry Andric case R_LARCH_TLS_DTPMOD64: 27106c3fb27SDimitry Andric case R_LARCH_TLS_DTPREL64: 27206c3fb27SDimitry Andric case R_LARCH_TLS_TPREL64: 27306c3fb27SDimitry Andric return read64le(buf); 27406c3fb27SDimitry Andric case R_LARCH_RELATIVE: 27506c3fb27SDimitry Andric case R_LARCH_IRELATIVE: 27606c3fb27SDimitry Andric return config->is64 ? read64le(buf) : read32le(buf); 27706c3fb27SDimitry Andric case R_LARCH_NONE: 27806c3fb27SDimitry Andric case R_LARCH_JUMP_SLOT: 27906c3fb27SDimitry Andric // These relocations are defined as not having an implicit addend. 28006c3fb27SDimitry Andric return 0; 28106c3fb27SDimitry Andric } 28206c3fb27SDimitry Andric } 28306c3fb27SDimitry Andric 28406c3fb27SDimitry Andric void LoongArch::writeGotPlt(uint8_t *buf, const Symbol &s) const { 28506c3fb27SDimitry Andric if (config->is64) 28606c3fb27SDimitry Andric write64le(buf, in.plt->getVA()); 28706c3fb27SDimitry Andric else 28806c3fb27SDimitry Andric write32le(buf, in.plt->getVA()); 28906c3fb27SDimitry Andric } 29006c3fb27SDimitry Andric 29106c3fb27SDimitry Andric void LoongArch::writeIgotPlt(uint8_t *buf, const Symbol &s) const { 29206c3fb27SDimitry Andric if (config->writeAddends) { 29306c3fb27SDimitry Andric if (config->is64) 29406c3fb27SDimitry Andric write64le(buf, s.getVA()); 29506c3fb27SDimitry Andric else 29606c3fb27SDimitry Andric write32le(buf, s.getVA()); 29706c3fb27SDimitry Andric } 29806c3fb27SDimitry Andric } 29906c3fb27SDimitry Andric 30006c3fb27SDimitry Andric void LoongArch::writePltHeader(uint8_t *buf) const { 30106c3fb27SDimitry Andric // The LoongArch PLT is currently structured just like that of RISCV. 30206c3fb27SDimitry Andric // Annoyingly, this means the PLT is still using `pcaddu12i` to perform 30306c3fb27SDimitry Andric // PC-relative addressing (because `pcaddu12i` is the same as RISCV `auipc`), 30406c3fb27SDimitry Andric // in contrast to the AArch64-like page-offset scheme with `pcalau12i` that 30506c3fb27SDimitry Andric // is used everywhere else involving PC-relative operations in the LoongArch 30606c3fb27SDimitry Andric // ELF psABI v2.00. 30706c3fb27SDimitry Andric // 30806c3fb27SDimitry Andric // The `pcrel_{hi20,lo12}` operators are illustrative only and not really 30906c3fb27SDimitry Andric // supported by LoongArch assemblers. 31006c3fb27SDimitry Andric // 31106c3fb27SDimitry Andric // pcaddu12i $t2, %pcrel_hi20(.got.plt) 31206c3fb27SDimitry Andric // sub.[wd] $t1, $t1, $t3 31306c3fb27SDimitry Andric // ld.[wd] $t3, $t2, %pcrel_lo12(.got.plt) ; t3 = _dl_runtime_resolve 31406c3fb27SDimitry Andric // addi.[wd] $t1, $t1, -pltHeaderSize-12 ; t1 = &.plt[i] - &.plt[0] 31506c3fb27SDimitry Andric // addi.[wd] $t0, $t2, %pcrel_lo12(.got.plt) 31606c3fb27SDimitry Andric // srli.[wd] $t1, $t1, (is64?1:2) ; t1 = &.got.plt[i] - &.got.plt[0] 31706c3fb27SDimitry Andric // ld.[wd] $t0, $t0, Wordsize ; t0 = link_map 31806c3fb27SDimitry Andric // jr $t3 31906c3fb27SDimitry Andric uint32_t offset = in.gotPlt->getVA() - in.plt->getVA(); 32006c3fb27SDimitry Andric uint32_t sub = config->is64 ? SUB_D : SUB_W; 32106c3fb27SDimitry Andric uint32_t ld = config->is64 ? LD_D : LD_W; 32206c3fb27SDimitry Andric uint32_t addi = config->is64 ? ADDI_D : ADDI_W; 32306c3fb27SDimitry Andric uint32_t srli = config->is64 ? SRLI_D : SRLI_W; 32406c3fb27SDimitry Andric write32le(buf + 0, insn(PCADDU12I, R_T2, hi20(offset), 0)); 32506c3fb27SDimitry Andric write32le(buf + 4, insn(sub, R_T1, R_T1, R_T3)); 32606c3fb27SDimitry Andric write32le(buf + 8, insn(ld, R_T3, R_T2, lo12(offset))); 32706c3fb27SDimitry Andric write32le(buf + 12, insn(addi, R_T1, R_T1, lo12(-target->pltHeaderSize - 12))); 32806c3fb27SDimitry Andric write32le(buf + 16, insn(addi, R_T0, R_T2, lo12(offset))); 32906c3fb27SDimitry Andric write32le(buf + 20, insn(srli, R_T1, R_T1, config->is64 ? 1 : 2)); 33006c3fb27SDimitry Andric write32le(buf + 24, insn(ld, R_T0, R_T0, config->wordsize)); 33106c3fb27SDimitry Andric write32le(buf + 28, insn(JIRL, R_ZERO, R_T3, 0)); 33206c3fb27SDimitry Andric } 33306c3fb27SDimitry Andric 33406c3fb27SDimitry Andric void LoongArch::writePlt(uint8_t *buf, const Symbol &sym, 33506c3fb27SDimitry Andric uint64_t pltEntryAddr) const { 33606c3fb27SDimitry Andric // See the comment in writePltHeader for reason why pcaddu12i is used instead 33706c3fb27SDimitry Andric // of the pcalau12i that's more commonly seen in the ELF psABI v2.0 days. 33806c3fb27SDimitry Andric // 33906c3fb27SDimitry Andric // pcaddu12i $t3, %pcrel_hi20(f@.got.plt) 34006c3fb27SDimitry Andric // ld.[wd] $t3, $t3, %pcrel_lo12(f@.got.plt) 34106c3fb27SDimitry Andric // jirl $t1, $t3, 0 34206c3fb27SDimitry Andric // nop 34306c3fb27SDimitry Andric uint32_t offset = sym.getGotPltVA() - pltEntryAddr; 34406c3fb27SDimitry Andric write32le(buf + 0, insn(PCADDU12I, R_T3, hi20(offset), 0)); 34506c3fb27SDimitry Andric write32le(buf + 4, 34606c3fb27SDimitry Andric insn(config->is64 ? LD_D : LD_W, R_T3, R_T3, lo12(offset))); 34706c3fb27SDimitry Andric write32le(buf + 8, insn(JIRL, R_T1, R_T3, 0)); 34806c3fb27SDimitry Andric write32le(buf + 12, insn(ANDI, R_ZERO, R_ZERO, 0)); 34906c3fb27SDimitry Andric } 35006c3fb27SDimitry Andric 35106c3fb27SDimitry Andric RelType LoongArch::getDynRel(RelType type) const { 35206c3fb27SDimitry Andric return type == target->symbolicRel ? type 35306c3fb27SDimitry Andric : static_cast<RelType>(R_LARCH_NONE); 35406c3fb27SDimitry Andric } 35506c3fb27SDimitry Andric 35606c3fb27SDimitry Andric RelExpr LoongArch::getRelExpr(const RelType type, const Symbol &s, 35706c3fb27SDimitry Andric const uint8_t *loc) const { 35806c3fb27SDimitry Andric switch (type) { 35906c3fb27SDimitry Andric case R_LARCH_NONE: 36006c3fb27SDimitry Andric case R_LARCH_MARK_LA: 36106c3fb27SDimitry Andric case R_LARCH_MARK_PCREL: 36206c3fb27SDimitry Andric return R_NONE; 36306c3fb27SDimitry Andric case R_LARCH_32: 36406c3fb27SDimitry Andric case R_LARCH_64: 36506c3fb27SDimitry Andric case R_LARCH_ABS_HI20: 36606c3fb27SDimitry Andric case R_LARCH_ABS_LO12: 36706c3fb27SDimitry Andric case R_LARCH_ABS64_LO20: 36806c3fb27SDimitry Andric case R_LARCH_ABS64_HI12: 36906c3fb27SDimitry Andric return R_ABS; 37006c3fb27SDimitry Andric case R_LARCH_PCALA_LO12: 37106c3fb27SDimitry Andric // We could just R_ABS, but the JIRL instruction reuses the relocation type 37206c3fb27SDimitry Andric // for a different purpose. The questionable usage is part of glibc 2.37 37306c3fb27SDimitry Andric // libc_nonshared.a [1], which is linked into user programs, so we have to 37406c3fb27SDimitry Andric // work around it for a while, even if a new relocation type may be 37506c3fb27SDimitry Andric // introduced in the future [2]. 37606c3fb27SDimitry Andric // 37706c3fb27SDimitry Andric // [1]: https://sourceware.org/git/?p=glibc.git;a=commitdiff;h=9f482b73f41a9a1bbfb173aad0733d1c824c788a 37806c3fb27SDimitry Andric // [2]: https://github.com/loongson/la-abi-specs/pull/3 37906c3fb27SDimitry Andric return isJirl(read32le(loc)) ? R_PLT : R_ABS; 38006c3fb27SDimitry Andric case R_LARCH_TLS_DTPREL32: 38106c3fb27SDimitry Andric case R_LARCH_TLS_DTPREL64: 38206c3fb27SDimitry Andric return R_DTPREL; 38306c3fb27SDimitry Andric case R_LARCH_TLS_TPREL32: 38406c3fb27SDimitry Andric case R_LARCH_TLS_TPREL64: 38506c3fb27SDimitry Andric case R_LARCH_TLS_LE_HI20: 38606c3fb27SDimitry Andric case R_LARCH_TLS_LE_LO12: 38706c3fb27SDimitry Andric case R_LARCH_TLS_LE64_LO20: 38806c3fb27SDimitry Andric case R_LARCH_TLS_LE64_HI12: 38906c3fb27SDimitry Andric return R_TPREL; 3905f757f3fSDimitry Andric case R_LARCH_ADD6: 39106c3fb27SDimitry Andric case R_LARCH_ADD8: 39206c3fb27SDimitry Andric case R_LARCH_ADD16: 39306c3fb27SDimitry Andric case R_LARCH_ADD32: 39406c3fb27SDimitry Andric case R_LARCH_ADD64: 3955f757f3fSDimitry Andric case R_LARCH_SUB6: 39606c3fb27SDimitry Andric case R_LARCH_SUB8: 39706c3fb27SDimitry Andric case R_LARCH_SUB16: 39806c3fb27SDimitry Andric case R_LARCH_SUB32: 39906c3fb27SDimitry Andric case R_LARCH_SUB64: 40006c3fb27SDimitry Andric // The LoongArch add/sub relocs behave like the RISCV counterparts; reuse 40106c3fb27SDimitry Andric // the RelExpr to avoid code duplication. 40206c3fb27SDimitry Andric return R_RISCV_ADD; 40306c3fb27SDimitry Andric case R_LARCH_32_PCREL: 40406c3fb27SDimitry Andric case R_LARCH_64_PCREL: 4058a4dda33SDimitry Andric case R_LARCH_PCREL20_S2: 40606c3fb27SDimitry Andric return R_PC; 40706c3fb27SDimitry Andric case R_LARCH_B16: 40806c3fb27SDimitry Andric case R_LARCH_B21: 40906c3fb27SDimitry Andric case R_LARCH_B26: 410cb14a3feSDimitry Andric case R_LARCH_CALL36: 41106c3fb27SDimitry Andric return R_PLT_PC; 41206c3fb27SDimitry Andric case R_LARCH_GOT_PC_HI20: 41306c3fb27SDimitry Andric case R_LARCH_GOT64_PC_LO20: 41406c3fb27SDimitry Andric case R_LARCH_GOT64_PC_HI12: 41506c3fb27SDimitry Andric case R_LARCH_TLS_IE_PC_HI20: 41606c3fb27SDimitry Andric case R_LARCH_TLS_IE64_PC_LO20: 41706c3fb27SDimitry Andric case R_LARCH_TLS_IE64_PC_HI12: 41806c3fb27SDimitry Andric return R_LOONGARCH_GOT_PAGE_PC; 41906c3fb27SDimitry Andric case R_LARCH_GOT_PC_LO12: 42006c3fb27SDimitry Andric case R_LARCH_TLS_IE_PC_LO12: 42106c3fb27SDimitry Andric return R_LOONGARCH_GOT; 42206c3fb27SDimitry Andric case R_LARCH_TLS_LD_PC_HI20: 42306c3fb27SDimitry Andric case R_LARCH_TLS_GD_PC_HI20: 42406c3fb27SDimitry Andric return R_LOONGARCH_TLSGD_PAGE_PC; 42506c3fb27SDimitry Andric case R_LARCH_PCALA_HI20: 42606c3fb27SDimitry Andric // Why not R_LOONGARCH_PAGE_PC, majority of references don't go through PLT 42706c3fb27SDimitry Andric // anyway so why waste time checking only to get everything relaxed back to 42806c3fb27SDimitry Andric // it? 42906c3fb27SDimitry Andric // 43006c3fb27SDimitry Andric // This is again due to the R_LARCH_PCALA_LO12 on JIRL case, where we want 43106c3fb27SDimitry Andric // both the HI20 and LO12 to potentially refer to the PLT. But in reality 43206c3fb27SDimitry Andric // the HI20 reloc appears earlier, and the relocs don't contain enough 43306c3fb27SDimitry Andric // information to let us properly resolve semantics per symbol. 43406c3fb27SDimitry Andric // Unlike RISCV, our LO12 relocs *do not* point to their corresponding HI20 43506c3fb27SDimitry Andric // relocs, hence it is nearly impossible to 100% accurately determine each 43606c3fb27SDimitry Andric // HI20's "flavor" without taking big performance hits, in the presence of 43706c3fb27SDimitry Andric // edge cases (e.g. HI20 without pairing LO12; paired LO12 placed so far 43806c3fb27SDimitry Andric // apart that relationship is not certain anymore), and programmer mistakes 43906c3fb27SDimitry Andric // (e.g. as outlined in https://github.com/loongson/la-abi-specs/pull/3). 44006c3fb27SDimitry Andric // 44106c3fb27SDimitry Andric // Ideally we would scan in an extra pass for all LO12s on JIRL, then mark 44206c3fb27SDimitry Andric // every HI20 reloc referring to the same symbol differently; this is not 44306c3fb27SDimitry Andric // feasible with the current function signature of getRelExpr that doesn't 44406c3fb27SDimitry Andric // allow for such inter-pass state. 44506c3fb27SDimitry Andric // 44606c3fb27SDimitry Andric // So, unfortunately we have to again workaround this quirk the same way as 44706c3fb27SDimitry Andric // BFD: assuming every R_LARCH_PCALA_HI20 is potentially PLT-needing, only 44806c3fb27SDimitry Andric // relaxing back to R_LOONGARCH_PAGE_PC if it's known not so at a later 44906c3fb27SDimitry Andric // stage. 45006c3fb27SDimitry Andric return R_LOONGARCH_PLT_PAGE_PC; 45106c3fb27SDimitry Andric case R_LARCH_PCALA64_LO20: 45206c3fb27SDimitry Andric case R_LARCH_PCALA64_HI12: 45306c3fb27SDimitry Andric return R_LOONGARCH_PAGE_PC; 45406c3fb27SDimitry Andric case R_LARCH_GOT_HI20: 45506c3fb27SDimitry Andric case R_LARCH_GOT_LO12: 45606c3fb27SDimitry Andric case R_LARCH_GOT64_LO20: 45706c3fb27SDimitry Andric case R_LARCH_GOT64_HI12: 45806c3fb27SDimitry Andric case R_LARCH_TLS_IE_HI20: 45906c3fb27SDimitry Andric case R_LARCH_TLS_IE_LO12: 46006c3fb27SDimitry Andric case R_LARCH_TLS_IE64_LO20: 46106c3fb27SDimitry Andric case R_LARCH_TLS_IE64_HI12: 46206c3fb27SDimitry Andric return R_GOT; 46306c3fb27SDimitry Andric case R_LARCH_TLS_LD_HI20: 46406c3fb27SDimitry Andric return R_TLSLD_GOT; 46506c3fb27SDimitry Andric case R_LARCH_TLS_GD_HI20: 46606c3fb27SDimitry Andric return R_TLSGD_GOT; 46706c3fb27SDimitry Andric case R_LARCH_RELAX: 46806c3fb27SDimitry Andric // LoongArch linker relaxation is not implemented yet. 46906c3fb27SDimitry Andric return R_NONE; 47006c3fb27SDimitry Andric 47106c3fb27SDimitry Andric // Other known relocs that are explicitly unimplemented: 47206c3fb27SDimitry Andric // 47306c3fb27SDimitry Andric // - psABI v1 relocs that need a stateful stack machine to work, and not 47406c3fb27SDimitry Andric // required when implementing psABI v2; 47506c3fb27SDimitry Andric // - relocs that are not used anywhere (R_LARCH_{ADD,SUB}_24 [1], and the 47606c3fb27SDimitry Andric // two GNU vtable-related relocs). 47706c3fb27SDimitry Andric // 47806c3fb27SDimitry Andric // [1]: https://web.archive.org/web/20230709064026/https://github.com/loongson/LoongArch-Documentation/issues/51 47906c3fb27SDimitry Andric default: 48006c3fb27SDimitry Andric error(getErrorLocation(loc) + "unknown relocation (" + Twine(type) + 48106c3fb27SDimitry Andric ") against symbol " + toString(s)); 48206c3fb27SDimitry Andric return R_NONE; 48306c3fb27SDimitry Andric } 48406c3fb27SDimitry Andric } 48506c3fb27SDimitry Andric 48606c3fb27SDimitry Andric bool LoongArch::usesOnlyLowPageBits(RelType type) const { 48706c3fb27SDimitry Andric switch (type) { 48806c3fb27SDimitry Andric default: 48906c3fb27SDimitry Andric return false; 49006c3fb27SDimitry Andric case R_LARCH_PCALA_LO12: 49106c3fb27SDimitry Andric case R_LARCH_GOT_LO12: 49206c3fb27SDimitry Andric case R_LARCH_GOT_PC_LO12: 49306c3fb27SDimitry Andric case R_LARCH_TLS_IE_PC_LO12: 49406c3fb27SDimitry Andric return true; 49506c3fb27SDimitry Andric } 49606c3fb27SDimitry Andric } 49706c3fb27SDimitry Andric 49806c3fb27SDimitry Andric void LoongArch::relocate(uint8_t *loc, const Relocation &rel, 49906c3fb27SDimitry Andric uint64_t val) const { 50006c3fb27SDimitry Andric switch (rel.type) { 50106c3fb27SDimitry Andric case R_LARCH_32_PCREL: 50206c3fb27SDimitry Andric checkInt(loc, val, 32, rel); 50306c3fb27SDimitry Andric [[fallthrough]]; 50406c3fb27SDimitry Andric case R_LARCH_32: 50506c3fb27SDimitry Andric case R_LARCH_TLS_DTPREL32: 50606c3fb27SDimitry Andric write32le(loc, val); 50706c3fb27SDimitry Andric return; 50806c3fb27SDimitry Andric case R_LARCH_64: 50906c3fb27SDimitry Andric case R_LARCH_TLS_DTPREL64: 51006c3fb27SDimitry Andric case R_LARCH_64_PCREL: 51106c3fb27SDimitry Andric write64le(loc, val); 51206c3fb27SDimitry Andric return; 51306c3fb27SDimitry Andric 5148a4dda33SDimitry Andric case R_LARCH_PCREL20_S2: 5158a4dda33SDimitry Andric checkInt(loc, val, 22, rel); 5168a4dda33SDimitry Andric checkAlignment(loc, val, 4, rel); 5178a4dda33SDimitry Andric write32le(loc, setJ20(read32le(loc), val >> 2)); 5188a4dda33SDimitry Andric return; 5198a4dda33SDimitry Andric 52006c3fb27SDimitry Andric case R_LARCH_B16: 52106c3fb27SDimitry Andric checkInt(loc, val, 18, rel); 52206c3fb27SDimitry Andric checkAlignment(loc, val, 4, rel); 52306c3fb27SDimitry Andric write32le(loc, setK16(read32le(loc), val >> 2)); 52406c3fb27SDimitry Andric return; 52506c3fb27SDimitry Andric 52606c3fb27SDimitry Andric case R_LARCH_B21: 52706c3fb27SDimitry Andric checkInt(loc, val, 23, rel); 52806c3fb27SDimitry Andric checkAlignment(loc, val, 4, rel); 52906c3fb27SDimitry Andric write32le(loc, setD5k16(read32le(loc), val >> 2)); 53006c3fb27SDimitry Andric return; 53106c3fb27SDimitry Andric 53206c3fb27SDimitry Andric case R_LARCH_B26: 53306c3fb27SDimitry Andric checkInt(loc, val, 28, rel); 53406c3fb27SDimitry Andric checkAlignment(loc, val, 4, rel); 53506c3fb27SDimitry Andric write32le(loc, setD10k16(read32le(loc), val >> 2)); 53606c3fb27SDimitry Andric return; 53706c3fb27SDimitry Andric 538cb14a3feSDimitry Andric case R_LARCH_CALL36: { 539cb14a3feSDimitry Andric // This relocation is designed for adjancent pcaddu18i+jirl pairs that 540cb14a3feSDimitry Andric // are patched in one time. Because of sign extension of these insns' 541cb14a3feSDimitry Andric // immediate fields, the relocation range is [-128G - 0x20000, +128G - 542cb14a3feSDimitry Andric // 0x20000) (of course must be 4-byte aligned). 543cb14a3feSDimitry Andric if (((int64_t)val + 0x20000) != llvm::SignExtend64(val + 0x20000, 38)) 544cb14a3feSDimitry Andric reportRangeError(loc, rel, Twine(val), llvm::minIntN(38) - 0x20000, 545cb14a3feSDimitry Andric llvm::maxIntN(38) - 0x20000); 546cb14a3feSDimitry Andric checkAlignment(loc, val, 4, rel); 547cb14a3feSDimitry Andric // Since jirl performs sign extension on the offset immediate, adds (1<<17) 548cb14a3feSDimitry Andric // to original val to get the correct hi20. 549cb14a3feSDimitry Andric uint32_t hi20 = extractBits(val + (1 << 17), 37, 18); 550cb14a3feSDimitry Andric // Despite the name, the lower part is actually 18 bits with 4-byte aligned. 551cb14a3feSDimitry Andric uint32_t lo16 = extractBits(val, 17, 2); 552cb14a3feSDimitry Andric write32le(loc, setJ20(read32le(loc), hi20)); 553cb14a3feSDimitry Andric write32le(loc + 4, setK16(read32le(loc + 4), lo16)); 554cb14a3feSDimitry Andric return; 555cb14a3feSDimitry Andric } 556cb14a3feSDimitry Andric 55706c3fb27SDimitry Andric // Relocs intended for `addi`, `ld` or `st`. 55806c3fb27SDimitry Andric case R_LARCH_PCALA_LO12: 55906c3fb27SDimitry Andric // We have to again inspect the insn word to handle the R_LARCH_PCALA_LO12 56006c3fb27SDimitry Andric // on JIRL case: firstly JIRL wants its immediate's 2 lowest zeroes 56106c3fb27SDimitry Andric // removed by us (in contrast to regular R_LARCH_PCALA_LO12), secondly 56206c3fb27SDimitry Andric // its immediate slot width is different too (16, not 12). 56306c3fb27SDimitry Andric // In this case, process like an R_LARCH_B16, but without overflow checking 56406c3fb27SDimitry Andric // and only taking the value's lowest 12 bits. 56506c3fb27SDimitry Andric if (isJirl(read32le(loc))) { 56606c3fb27SDimitry Andric checkAlignment(loc, val, 4, rel); 56706c3fb27SDimitry Andric val = SignExtend64<12>(val); 56806c3fb27SDimitry Andric write32le(loc, setK16(read32le(loc), val >> 2)); 56906c3fb27SDimitry Andric return; 57006c3fb27SDimitry Andric } 57106c3fb27SDimitry Andric [[fallthrough]]; 57206c3fb27SDimitry Andric case R_LARCH_ABS_LO12: 57306c3fb27SDimitry Andric case R_LARCH_GOT_PC_LO12: 57406c3fb27SDimitry Andric case R_LARCH_GOT_LO12: 57506c3fb27SDimitry Andric case R_LARCH_TLS_LE_LO12: 57606c3fb27SDimitry Andric case R_LARCH_TLS_IE_PC_LO12: 57706c3fb27SDimitry Andric case R_LARCH_TLS_IE_LO12: 57806c3fb27SDimitry Andric write32le(loc, setK12(read32le(loc), extractBits(val, 11, 0))); 57906c3fb27SDimitry Andric return; 58006c3fb27SDimitry Andric 58106c3fb27SDimitry Andric // Relocs intended for `lu12i.w` or `pcalau12i`. 58206c3fb27SDimitry Andric case R_LARCH_ABS_HI20: 58306c3fb27SDimitry Andric case R_LARCH_PCALA_HI20: 58406c3fb27SDimitry Andric case R_LARCH_GOT_PC_HI20: 58506c3fb27SDimitry Andric case R_LARCH_GOT_HI20: 58606c3fb27SDimitry Andric case R_LARCH_TLS_LE_HI20: 58706c3fb27SDimitry Andric case R_LARCH_TLS_IE_PC_HI20: 58806c3fb27SDimitry Andric case R_LARCH_TLS_IE_HI20: 58906c3fb27SDimitry Andric case R_LARCH_TLS_LD_PC_HI20: 59006c3fb27SDimitry Andric case R_LARCH_TLS_LD_HI20: 59106c3fb27SDimitry Andric case R_LARCH_TLS_GD_PC_HI20: 59206c3fb27SDimitry Andric case R_LARCH_TLS_GD_HI20: 59306c3fb27SDimitry Andric write32le(loc, setJ20(read32le(loc), extractBits(val, 31, 12))); 59406c3fb27SDimitry Andric return; 59506c3fb27SDimitry Andric 59606c3fb27SDimitry Andric // Relocs intended for `lu32i.d`. 59706c3fb27SDimitry Andric case R_LARCH_ABS64_LO20: 59806c3fb27SDimitry Andric case R_LARCH_PCALA64_LO20: 59906c3fb27SDimitry Andric case R_LARCH_GOT64_PC_LO20: 60006c3fb27SDimitry Andric case R_LARCH_GOT64_LO20: 60106c3fb27SDimitry Andric case R_LARCH_TLS_LE64_LO20: 60206c3fb27SDimitry Andric case R_LARCH_TLS_IE64_PC_LO20: 60306c3fb27SDimitry Andric case R_LARCH_TLS_IE64_LO20: 60406c3fb27SDimitry Andric write32le(loc, setJ20(read32le(loc), extractBits(val, 51, 32))); 60506c3fb27SDimitry Andric return; 60606c3fb27SDimitry Andric 60706c3fb27SDimitry Andric // Relocs intended for `lu52i.d`. 60806c3fb27SDimitry Andric case R_LARCH_ABS64_HI12: 60906c3fb27SDimitry Andric case R_LARCH_PCALA64_HI12: 61006c3fb27SDimitry Andric case R_LARCH_GOT64_PC_HI12: 61106c3fb27SDimitry Andric case R_LARCH_GOT64_HI12: 61206c3fb27SDimitry Andric case R_LARCH_TLS_LE64_HI12: 61306c3fb27SDimitry Andric case R_LARCH_TLS_IE64_PC_HI12: 61406c3fb27SDimitry Andric case R_LARCH_TLS_IE64_HI12: 61506c3fb27SDimitry Andric write32le(loc, setK12(read32le(loc), extractBits(val, 63, 52))); 61606c3fb27SDimitry Andric return; 61706c3fb27SDimitry Andric 6185f757f3fSDimitry Andric case R_LARCH_ADD6: 6195f757f3fSDimitry Andric *loc = (*loc & 0xc0) | ((*loc + val) & 0x3f); 6205f757f3fSDimitry Andric return; 62106c3fb27SDimitry Andric case R_LARCH_ADD8: 62206c3fb27SDimitry Andric *loc += val; 62306c3fb27SDimitry Andric return; 62406c3fb27SDimitry Andric case R_LARCH_ADD16: 62506c3fb27SDimitry Andric write16le(loc, read16le(loc) + val); 62606c3fb27SDimitry Andric return; 62706c3fb27SDimitry Andric case R_LARCH_ADD32: 62806c3fb27SDimitry Andric write32le(loc, read32le(loc) + val); 62906c3fb27SDimitry Andric return; 63006c3fb27SDimitry Andric case R_LARCH_ADD64: 63106c3fb27SDimitry Andric write64le(loc, read64le(loc) + val); 63206c3fb27SDimitry Andric return; 6335f757f3fSDimitry Andric case R_LARCH_SUB6: 6345f757f3fSDimitry Andric *loc = (*loc & 0xc0) | ((*loc - val) & 0x3f); 6355f757f3fSDimitry Andric return; 63606c3fb27SDimitry Andric case R_LARCH_SUB8: 63706c3fb27SDimitry Andric *loc -= val; 63806c3fb27SDimitry Andric return; 63906c3fb27SDimitry Andric case R_LARCH_SUB16: 64006c3fb27SDimitry Andric write16le(loc, read16le(loc) - val); 64106c3fb27SDimitry Andric return; 64206c3fb27SDimitry Andric case R_LARCH_SUB32: 64306c3fb27SDimitry Andric write32le(loc, read32le(loc) - val); 64406c3fb27SDimitry Andric return; 64506c3fb27SDimitry Andric case R_LARCH_SUB64: 64606c3fb27SDimitry Andric write64le(loc, read64le(loc) - val); 64706c3fb27SDimitry Andric return; 64806c3fb27SDimitry Andric 64906c3fb27SDimitry Andric case R_LARCH_MARK_LA: 65006c3fb27SDimitry Andric case R_LARCH_MARK_PCREL: 65106c3fb27SDimitry Andric // no-op 65206c3fb27SDimitry Andric return; 65306c3fb27SDimitry Andric 65406c3fb27SDimitry Andric case R_LARCH_RELAX: 65506c3fb27SDimitry Andric return; // Ignored (for now) 65606c3fb27SDimitry Andric 65706c3fb27SDimitry Andric default: 65806c3fb27SDimitry Andric llvm_unreachable("unknown relocation"); 65906c3fb27SDimitry Andric } 66006c3fb27SDimitry Andric } 66106c3fb27SDimitry Andric 66206c3fb27SDimitry Andric TargetInfo *elf::getLoongArchTargetInfo() { 66306c3fb27SDimitry Andric static LoongArch target; 66406c3fb27SDimitry Andric return ⌖ 66506c3fb27SDimitry Andric } 666