mirror of
https://github.com/c64scene-ar/llvm-6502.git
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87773c318f
Patch by Ana Pazos. - Completed implementation of instruction formats: AdvSIMD three same AdvSIMD modified immediate AdvSIMD scalar pairwise - Completed implementation of instruction classes (some of the instructions in these classes belong to yet unfinished instruction formats): Vector Arithmetic Vector Immediate Vector Pairwise Arithmetic - Initial implementation of instruction formats: AdvSIMD scalar two-reg misc AdvSIMD scalar three same - Intial implementation of instruction class: Scalar Arithmetic - Initial clang changes to support arm v8 intrinsics. Note: no clang changes for scalar intrinsics function name mangling yet. - Comprehensive test cases for added instructions To verify auto codegen, encoding, decoding, diagnosis, intrinsics. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@187567 91177308-0d34-0410-b5e6-96231b3b80d8
1174 lines
34 KiB
C++
1174 lines
34 KiB
C++
//===-- AArch64BaseInfo.cpp - AArch64 Base encoding information------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file provides basic encoding and assembly information for AArch64.
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//
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//===----------------------------------------------------------------------===//
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#include "AArch64BaseInfo.h"
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#include "llvm/ADT/APFloat.h"
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/ADT/StringExtras.h"
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#include "llvm/Support/Regex.h"
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using namespace llvm;
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StringRef NamedImmMapper::toString(uint32_t Value, bool &Valid) const {
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for (unsigned i = 0; i < NumPairs; ++i) {
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if (Pairs[i].Value == Value) {
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Valid = true;
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return Pairs[i].Name;
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}
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}
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Valid = false;
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return StringRef();
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}
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uint32_t NamedImmMapper::fromString(StringRef Name, bool &Valid) const {
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std::string LowerCaseName = Name.lower();
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for (unsigned i = 0; i < NumPairs; ++i) {
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if (Pairs[i].Name == LowerCaseName) {
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Valid = true;
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return Pairs[i].Value;
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}
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}
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Valid = false;
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return -1;
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}
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bool NamedImmMapper::validImm(uint32_t Value) const {
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return Value < TooBigImm;
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}
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const NamedImmMapper::Mapping A64AT::ATMapper::ATPairs[] = {
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{"s1e1r", S1E1R},
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{"s1e2r", S1E2R},
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{"s1e3r", S1E3R},
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{"s1e1w", S1E1W},
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{"s1e2w", S1E2W},
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{"s1e3w", S1E3W},
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{"s1e0r", S1E0R},
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{"s1e0w", S1E0W},
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{"s12e1r", S12E1R},
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{"s12e1w", S12E1W},
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{"s12e0r", S12E0R},
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{"s12e0w", S12E0W},
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};
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A64AT::ATMapper::ATMapper()
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: NamedImmMapper(ATPairs, 0) {}
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const NamedImmMapper::Mapping A64DB::DBarrierMapper::DBarrierPairs[] = {
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{"oshld", OSHLD},
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{"oshst", OSHST},
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{"osh", OSH},
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{"nshld", NSHLD},
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{"nshst", NSHST},
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{"nsh", NSH},
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{"ishld", ISHLD},
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{"ishst", ISHST},
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{"ish", ISH},
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{"ld", LD},
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{"st", ST},
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{"sy", SY}
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};
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A64DB::DBarrierMapper::DBarrierMapper()
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: NamedImmMapper(DBarrierPairs, 16u) {}
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const NamedImmMapper::Mapping A64DC::DCMapper::DCPairs[] = {
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{"zva", ZVA},
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{"ivac", IVAC},
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{"isw", ISW},
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{"cvac", CVAC},
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{"csw", CSW},
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{"cvau", CVAU},
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{"civac", CIVAC},
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{"cisw", CISW}
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};
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A64DC::DCMapper::DCMapper()
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: NamedImmMapper(DCPairs, 0) {}
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const NamedImmMapper::Mapping A64IC::ICMapper::ICPairs[] = {
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{"ialluis", IALLUIS},
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{"iallu", IALLU},
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{"ivau", IVAU}
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};
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A64IC::ICMapper::ICMapper()
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: NamedImmMapper(ICPairs, 0) {}
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const NamedImmMapper::Mapping A64ISB::ISBMapper::ISBPairs[] = {
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{"sy", SY},
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};
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A64ISB::ISBMapper::ISBMapper()
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: NamedImmMapper(ISBPairs, 16) {}
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const NamedImmMapper::Mapping A64PRFM::PRFMMapper::PRFMPairs[] = {
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{"pldl1keep", PLDL1KEEP},
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{"pldl1strm", PLDL1STRM},
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{"pldl2keep", PLDL2KEEP},
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{"pldl2strm", PLDL2STRM},
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{"pldl3keep", PLDL3KEEP},
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{"pldl3strm", PLDL3STRM},
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{"plil1keep", PLIL1KEEP},
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{"plil1strm", PLIL1STRM},
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{"plil2keep", PLIL2KEEP},
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{"plil2strm", PLIL2STRM},
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{"plil3keep", PLIL3KEEP},
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{"plil3strm", PLIL3STRM},
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{"pstl1keep", PSTL1KEEP},
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{"pstl1strm", PSTL1STRM},
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{"pstl2keep", PSTL2KEEP},
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{"pstl2strm", PSTL2STRM},
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{"pstl3keep", PSTL3KEEP},
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{"pstl3strm", PSTL3STRM}
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};
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A64PRFM::PRFMMapper::PRFMMapper()
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: NamedImmMapper(PRFMPairs, 32) {}
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const NamedImmMapper::Mapping A64PState::PStateMapper::PStatePairs[] = {
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{"spsel", SPSel},
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{"daifset", DAIFSet},
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{"daifclr", DAIFClr}
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};
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A64PState::PStateMapper::PStateMapper()
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: NamedImmMapper(PStatePairs, 0) {}
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const NamedImmMapper::Mapping A64SysReg::MRSMapper::MRSPairs[] = {
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{"mdccsr_el0", MDCCSR_EL0},
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{"dbgdtrrx_el0", DBGDTRRX_EL0},
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{"mdrar_el1", MDRAR_EL1},
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{"oslsr_el1", OSLSR_EL1},
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{"dbgauthstatus_el1", DBGAUTHSTATUS_EL1},
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{"pmceid0_el0", PMCEID0_EL0},
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{"pmceid1_el0", PMCEID1_EL0},
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{"midr_el1", MIDR_EL1},
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{"ccsidr_el1", CCSIDR_EL1},
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{"clidr_el1", CLIDR_EL1},
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{"ctr_el0", CTR_EL0},
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{"mpidr_el1", MPIDR_EL1},
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{"revidr_el1", REVIDR_EL1},
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{"aidr_el1", AIDR_EL1},
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{"dczid_el0", DCZID_EL0},
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{"id_pfr0_el1", ID_PFR0_EL1},
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{"id_pfr1_el1", ID_PFR1_EL1},
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{"id_dfr0_el1", ID_DFR0_EL1},
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{"id_afr0_el1", ID_AFR0_EL1},
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{"id_mmfr0_el1", ID_MMFR0_EL1},
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{"id_mmfr1_el1", ID_MMFR1_EL1},
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{"id_mmfr2_el1", ID_MMFR2_EL1},
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{"id_mmfr3_el1", ID_MMFR3_EL1},
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{"id_isar0_el1", ID_ISAR0_EL1},
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{"id_isar1_el1", ID_ISAR1_EL1},
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{"id_isar2_el1", ID_ISAR2_EL1},
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{"id_isar3_el1", ID_ISAR3_EL1},
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{"id_isar4_el1", ID_ISAR4_EL1},
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{"id_isar5_el1", ID_ISAR5_EL1},
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{"id_aa64pfr0_el1", ID_AA64PFR0_EL1},
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{"id_aa64pfr1_el1", ID_AA64PFR1_EL1},
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{"id_aa64dfr0_el1", ID_AA64DFR0_EL1},
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{"id_aa64dfr1_el1", ID_AA64DFR1_EL1},
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{"id_aa64afr0_el1", ID_AA64AFR0_EL1},
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{"id_aa64afr1_el1", ID_AA64AFR1_EL1},
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{"id_aa64isar0_el1", ID_AA64ISAR0_EL1},
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{"id_aa64isar1_el1", ID_AA64ISAR1_EL1},
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{"id_aa64mmfr0_el1", ID_AA64MMFR0_EL1},
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{"id_aa64mmfr1_el1", ID_AA64MMFR1_EL1},
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{"mvfr0_el1", MVFR0_EL1},
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{"mvfr1_el1", MVFR1_EL1},
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{"mvfr2_el1", MVFR2_EL1},
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{"rvbar_el1", RVBAR_EL1},
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{"rvbar_el2", RVBAR_EL2},
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{"rvbar_el3", RVBAR_EL3},
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{"isr_el1", ISR_EL1},
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{"cntpct_el0", CNTPCT_EL0},
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{"cntvct_el0", CNTVCT_EL0},
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// Trace registers
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{"trcstatr", TRCSTATR},
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{"trcidr8", TRCIDR8},
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{"trcidr9", TRCIDR9},
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{"trcidr10", TRCIDR10},
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{"trcidr11", TRCIDR11},
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{"trcidr12", TRCIDR12},
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{"trcidr13", TRCIDR13},
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{"trcidr0", TRCIDR0},
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{"trcidr1", TRCIDR1},
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{"trcidr2", TRCIDR2},
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{"trcidr3", TRCIDR3},
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{"trcidr4", TRCIDR4},
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{"trcidr5", TRCIDR5},
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{"trcidr6", TRCIDR6},
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{"trcidr7", TRCIDR7},
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{"trcoslsr", TRCOSLSR},
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{"trcpdsr", TRCPDSR},
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{"trcdevaff0", TRCDEVAFF0},
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{"trcdevaff1", TRCDEVAFF1},
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{"trclsr", TRCLSR},
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{"trcauthstatus", TRCAUTHSTATUS},
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{"trcdevarch", TRCDEVARCH},
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{"trcdevid", TRCDEVID},
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{"trcdevtype", TRCDEVTYPE},
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{"trcpidr4", TRCPIDR4},
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{"trcpidr5", TRCPIDR5},
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{"trcpidr6", TRCPIDR6},
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{"trcpidr7", TRCPIDR7},
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{"trcpidr0", TRCPIDR0},
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{"trcpidr1", TRCPIDR1},
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{"trcpidr2", TRCPIDR2},
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{"trcpidr3", TRCPIDR3},
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{"trccidr0", TRCCIDR0},
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{"trccidr1", TRCCIDR1},
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{"trccidr2", TRCCIDR2},
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{"trccidr3", TRCCIDR3},
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// GICv3 registers
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{"icc_iar1_el1", ICC_IAR1_EL1},
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{"icc_iar0_el1", ICC_IAR0_EL1},
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{"icc_hppir1_el1", ICC_HPPIR1_EL1},
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{"icc_hppir0_el1", ICC_HPPIR0_EL1},
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{"icc_rpr_el1", ICC_RPR_EL1},
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{"ich_vtr_el2", ICH_VTR_EL2},
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{"ich_eisr_el2", ICH_EISR_EL2},
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{"ich_elsr_el2", ICH_ELSR_EL2}
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};
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A64SysReg::MRSMapper::MRSMapper() {
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InstPairs = &MRSPairs[0];
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NumInstPairs = llvm::array_lengthof(MRSPairs);
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}
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const NamedImmMapper::Mapping A64SysReg::MSRMapper::MSRPairs[] = {
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{"dbgdtrtx_el0", DBGDTRTX_EL0},
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{"oslar_el1", OSLAR_EL1},
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{"pmswinc_el0", PMSWINC_EL0},
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// Trace registers
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{"trcoslar", TRCOSLAR},
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{"trclar", TRCLAR},
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// GICv3 registers
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{"icc_eoir1_el1", ICC_EOIR1_EL1},
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{"icc_eoir0_el1", ICC_EOIR0_EL1},
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{"icc_dir_el1", ICC_DIR_EL1},
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{"icc_sgi1r_el1", ICC_SGI1R_EL1},
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{"icc_asgi1r_el1", ICC_ASGI1R_EL1},
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{"icc_sgi0r_el1", ICC_SGI0R_EL1}
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};
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A64SysReg::MSRMapper::MSRMapper() {
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InstPairs = &MSRPairs[0];
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NumInstPairs = llvm::array_lengthof(MSRPairs);
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}
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const NamedImmMapper::Mapping A64SysReg::SysRegMapper::SysRegPairs[] = {
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{"osdtrrx_el1", OSDTRRX_EL1},
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{"osdtrtx_el1", OSDTRTX_EL1},
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{"teecr32_el1", TEECR32_EL1},
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{"mdccint_el1", MDCCINT_EL1},
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{"mdscr_el1", MDSCR_EL1},
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{"dbgdtr_el0", DBGDTR_EL0},
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{"oseccr_el1", OSECCR_EL1},
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{"dbgvcr32_el2", DBGVCR32_EL2},
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{"dbgbvr0_el1", DBGBVR0_EL1},
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{"dbgbvr1_el1", DBGBVR1_EL1},
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{"dbgbvr2_el1", DBGBVR2_EL1},
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{"dbgbvr3_el1", DBGBVR3_EL1},
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{"dbgbvr4_el1", DBGBVR4_EL1},
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{"dbgbvr5_el1", DBGBVR5_EL1},
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{"dbgbvr6_el1", DBGBVR6_EL1},
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{"dbgbvr7_el1", DBGBVR7_EL1},
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{"dbgbvr8_el1", DBGBVR8_EL1},
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{"dbgbvr9_el1", DBGBVR9_EL1},
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{"dbgbvr10_el1", DBGBVR10_EL1},
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{"dbgbvr11_el1", DBGBVR11_EL1},
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{"dbgbvr12_el1", DBGBVR12_EL1},
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{"dbgbvr13_el1", DBGBVR13_EL1},
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{"dbgbvr14_el1", DBGBVR14_EL1},
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{"dbgbvr15_el1", DBGBVR15_EL1},
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{"dbgbcr0_el1", DBGBCR0_EL1},
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{"dbgbcr1_el1", DBGBCR1_EL1},
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{"dbgbcr2_el1", DBGBCR2_EL1},
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{"dbgbcr3_el1", DBGBCR3_EL1},
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{"dbgbcr4_el1", DBGBCR4_EL1},
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{"dbgbcr5_el1", DBGBCR5_EL1},
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{"dbgbcr6_el1", DBGBCR6_EL1},
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{"dbgbcr7_el1", DBGBCR7_EL1},
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{"dbgbcr8_el1", DBGBCR8_EL1},
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{"dbgbcr9_el1", DBGBCR9_EL1},
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{"dbgbcr10_el1", DBGBCR10_EL1},
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{"dbgbcr11_el1", DBGBCR11_EL1},
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{"dbgbcr12_el1", DBGBCR12_EL1},
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{"dbgbcr13_el1", DBGBCR13_EL1},
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{"dbgbcr14_el1", DBGBCR14_EL1},
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{"dbgbcr15_el1", DBGBCR15_EL1},
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{"dbgwvr0_el1", DBGWVR0_EL1},
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{"dbgwvr1_el1", DBGWVR1_EL1},
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{"dbgwvr2_el1", DBGWVR2_EL1},
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{"dbgwvr3_el1", DBGWVR3_EL1},
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{"dbgwvr4_el1", DBGWVR4_EL1},
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{"dbgwvr5_el1", DBGWVR5_EL1},
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{"dbgwvr6_el1", DBGWVR6_EL1},
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{"dbgwvr7_el1", DBGWVR7_EL1},
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{"dbgwvr8_el1", DBGWVR8_EL1},
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{"dbgwvr9_el1", DBGWVR9_EL1},
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{"dbgwvr10_el1", DBGWVR10_EL1},
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{"dbgwvr11_el1", DBGWVR11_EL1},
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{"dbgwvr12_el1", DBGWVR12_EL1},
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{"dbgwvr13_el1", DBGWVR13_EL1},
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{"dbgwvr14_el1", DBGWVR14_EL1},
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{"dbgwvr15_el1", DBGWVR15_EL1},
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{"dbgwcr0_el1", DBGWCR0_EL1},
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{"dbgwcr1_el1", DBGWCR1_EL1},
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{"dbgwcr2_el1", DBGWCR2_EL1},
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{"dbgwcr3_el1", DBGWCR3_EL1},
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{"dbgwcr4_el1", DBGWCR4_EL1},
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{"dbgwcr5_el1", DBGWCR5_EL1},
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{"dbgwcr6_el1", DBGWCR6_EL1},
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{"dbgwcr7_el1", DBGWCR7_EL1},
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{"dbgwcr8_el1", DBGWCR8_EL1},
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{"dbgwcr9_el1", DBGWCR9_EL1},
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{"dbgwcr10_el1", DBGWCR10_EL1},
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{"dbgwcr11_el1", DBGWCR11_EL1},
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{"dbgwcr12_el1", DBGWCR12_EL1},
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{"dbgwcr13_el1", DBGWCR13_EL1},
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{"dbgwcr14_el1", DBGWCR14_EL1},
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{"dbgwcr15_el1", DBGWCR15_EL1},
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{"teehbr32_el1", TEEHBR32_EL1},
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{"osdlr_el1", OSDLR_EL1},
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{"dbgprcr_el1", DBGPRCR_EL1},
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{"dbgclaimset_el1", DBGCLAIMSET_EL1},
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{"dbgclaimclr_el1", DBGCLAIMCLR_EL1},
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{"csselr_el1", CSSELR_EL1},
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{"vpidr_el2", VPIDR_EL2},
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{"vmpidr_el2", VMPIDR_EL2},
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{"sctlr_el1", SCTLR_EL1},
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{"sctlr_el2", SCTLR_EL2},
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{"sctlr_el3", SCTLR_EL3},
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{"actlr_el1", ACTLR_EL1},
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{"actlr_el2", ACTLR_EL2},
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{"actlr_el3", ACTLR_EL3},
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{"cpacr_el1", CPACR_EL1},
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{"hcr_el2", HCR_EL2},
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{"scr_el3", SCR_EL3},
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{"mdcr_el2", MDCR_EL2},
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{"sder32_el3", SDER32_EL3},
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{"cptr_el2", CPTR_EL2},
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{"cptr_el3", CPTR_EL3},
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{"hstr_el2", HSTR_EL2},
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{"hacr_el2", HACR_EL2},
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{"mdcr_el3", MDCR_EL3},
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{"ttbr0_el1", TTBR0_EL1},
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{"ttbr0_el2", TTBR0_EL2},
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{"ttbr0_el3", TTBR0_EL3},
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{"ttbr1_el1", TTBR1_EL1},
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{"tcr_el1", TCR_EL1},
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{"tcr_el2", TCR_EL2},
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{"tcr_el3", TCR_EL3},
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{"vttbr_el2", VTTBR_EL2},
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{"vtcr_el2", VTCR_EL2},
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{"dacr32_el2", DACR32_EL2},
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{"spsr_el1", SPSR_EL1},
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{"spsr_el2", SPSR_EL2},
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{"spsr_el3", SPSR_EL3},
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{"elr_el1", ELR_EL1},
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{"elr_el2", ELR_EL2},
|
|
{"elr_el3", ELR_EL3},
|
|
{"sp_el0", SP_EL0},
|
|
{"sp_el1", SP_EL1},
|
|
{"sp_el2", SP_EL2},
|
|
{"spsel", SPSel},
|
|
{"nzcv", NZCV},
|
|
{"daif", DAIF},
|
|
{"currentel", CurrentEL},
|
|
{"spsr_irq", SPSR_irq},
|
|
{"spsr_abt", SPSR_abt},
|
|
{"spsr_und", SPSR_und},
|
|
{"spsr_fiq", SPSR_fiq},
|
|
{"fpcr", FPCR},
|
|
{"fpsr", FPSR},
|
|
{"dspsr_el0", DSPSR_EL0},
|
|
{"dlr_el0", DLR_EL0},
|
|
{"ifsr32_el2", IFSR32_EL2},
|
|
{"afsr0_el1", AFSR0_EL1},
|
|
{"afsr0_el2", AFSR0_EL2},
|
|
{"afsr0_el3", AFSR0_EL3},
|
|
{"afsr1_el1", AFSR1_EL1},
|
|
{"afsr1_el2", AFSR1_EL2},
|
|
{"afsr1_el3", AFSR1_EL3},
|
|
{"esr_el1", ESR_EL1},
|
|
{"esr_el2", ESR_EL2},
|
|
{"esr_el3", ESR_EL3},
|
|
{"fpexc32_el2", FPEXC32_EL2},
|
|
{"far_el1", FAR_EL1},
|
|
{"far_el2", FAR_EL2},
|
|
{"far_el3", FAR_EL3},
|
|
{"hpfar_el2", HPFAR_EL2},
|
|
{"par_el1", PAR_EL1},
|
|
{"pmcr_el0", PMCR_EL0},
|
|
{"pmcntenset_el0", PMCNTENSET_EL0},
|
|
{"pmcntenclr_el0", PMCNTENCLR_EL0},
|
|
{"pmovsclr_el0", PMOVSCLR_EL0},
|
|
{"pmselr_el0", PMSELR_EL0},
|
|
{"pmccntr_el0", PMCCNTR_EL0},
|
|
{"pmxevtyper_el0", PMXEVTYPER_EL0},
|
|
{"pmxevcntr_el0", PMXEVCNTR_EL0},
|
|
{"pmuserenr_el0", PMUSERENR_EL0},
|
|
{"pmintenset_el1", PMINTENSET_EL1},
|
|
{"pmintenclr_el1", PMINTENCLR_EL1},
|
|
{"pmovsset_el0", PMOVSSET_EL0},
|
|
{"mair_el1", MAIR_EL1},
|
|
{"mair_el2", MAIR_EL2},
|
|
{"mair_el3", MAIR_EL3},
|
|
{"amair_el1", AMAIR_EL1},
|
|
{"amair_el2", AMAIR_EL2},
|
|
{"amair_el3", AMAIR_EL3},
|
|
{"vbar_el1", VBAR_EL1},
|
|
{"vbar_el2", VBAR_EL2},
|
|
{"vbar_el3", VBAR_EL3},
|
|
{"rmr_el1", RMR_EL1},
|
|
{"rmr_el2", RMR_EL2},
|
|
{"rmr_el3", RMR_EL3},
|
|
{"contextidr_el1", CONTEXTIDR_EL1},
|
|
{"tpidr_el0", TPIDR_EL0},
|
|
{"tpidr_el2", TPIDR_EL2},
|
|
{"tpidr_el3", TPIDR_EL3},
|
|
{"tpidrro_el0", TPIDRRO_EL0},
|
|
{"tpidr_el1", TPIDR_EL1},
|
|
{"cntfrq_el0", CNTFRQ_EL0},
|
|
{"cntvoff_el2", CNTVOFF_EL2},
|
|
{"cntkctl_el1", CNTKCTL_EL1},
|
|
{"cnthctl_el2", CNTHCTL_EL2},
|
|
{"cntp_tval_el0", CNTP_TVAL_EL0},
|
|
{"cnthp_tval_el2", CNTHP_TVAL_EL2},
|
|
{"cntps_tval_el1", CNTPS_TVAL_EL1},
|
|
{"cntp_ctl_el0", CNTP_CTL_EL0},
|
|
{"cnthp_ctl_el2", CNTHP_CTL_EL2},
|
|
{"cntps_ctl_el1", CNTPS_CTL_EL1},
|
|
{"cntp_cval_el0", CNTP_CVAL_EL0},
|
|
{"cnthp_cval_el2", CNTHP_CVAL_EL2},
|
|
{"cntps_cval_el1", CNTPS_CVAL_EL1},
|
|
{"cntv_tval_el0", CNTV_TVAL_EL0},
|
|
{"cntv_ctl_el0", CNTV_CTL_EL0},
|
|
{"cntv_cval_el0", CNTV_CVAL_EL0},
|
|
{"pmevcntr0_el0", PMEVCNTR0_EL0},
|
|
{"pmevcntr1_el0", PMEVCNTR1_EL0},
|
|
{"pmevcntr2_el0", PMEVCNTR2_EL0},
|
|
{"pmevcntr3_el0", PMEVCNTR3_EL0},
|
|
{"pmevcntr4_el0", PMEVCNTR4_EL0},
|
|
{"pmevcntr5_el0", PMEVCNTR5_EL0},
|
|
{"pmevcntr6_el0", PMEVCNTR6_EL0},
|
|
{"pmevcntr7_el0", PMEVCNTR7_EL0},
|
|
{"pmevcntr8_el0", PMEVCNTR8_EL0},
|
|
{"pmevcntr9_el0", PMEVCNTR9_EL0},
|
|
{"pmevcntr10_el0", PMEVCNTR10_EL0},
|
|
{"pmevcntr11_el0", PMEVCNTR11_EL0},
|
|
{"pmevcntr12_el0", PMEVCNTR12_EL0},
|
|
{"pmevcntr13_el0", PMEVCNTR13_EL0},
|
|
{"pmevcntr14_el0", PMEVCNTR14_EL0},
|
|
{"pmevcntr15_el0", PMEVCNTR15_EL0},
|
|
{"pmevcntr16_el0", PMEVCNTR16_EL0},
|
|
{"pmevcntr17_el0", PMEVCNTR17_EL0},
|
|
{"pmevcntr18_el0", PMEVCNTR18_EL0},
|
|
{"pmevcntr19_el0", PMEVCNTR19_EL0},
|
|
{"pmevcntr20_el0", PMEVCNTR20_EL0},
|
|
{"pmevcntr21_el0", PMEVCNTR21_EL0},
|
|
{"pmevcntr22_el0", PMEVCNTR22_EL0},
|
|
{"pmevcntr23_el0", PMEVCNTR23_EL0},
|
|
{"pmevcntr24_el0", PMEVCNTR24_EL0},
|
|
{"pmevcntr25_el0", PMEVCNTR25_EL0},
|
|
{"pmevcntr26_el0", PMEVCNTR26_EL0},
|
|
{"pmevcntr27_el0", PMEVCNTR27_EL0},
|
|
{"pmevcntr28_el0", PMEVCNTR28_EL0},
|
|
{"pmevcntr29_el0", PMEVCNTR29_EL0},
|
|
{"pmevcntr30_el0", PMEVCNTR30_EL0},
|
|
{"pmccfiltr_el0", PMCCFILTR_EL0},
|
|
{"pmevtyper0_el0", PMEVTYPER0_EL0},
|
|
{"pmevtyper1_el0", PMEVTYPER1_EL0},
|
|
{"pmevtyper2_el0", PMEVTYPER2_EL0},
|
|
{"pmevtyper3_el0", PMEVTYPER3_EL0},
|
|
{"pmevtyper4_el0", PMEVTYPER4_EL0},
|
|
{"pmevtyper5_el0", PMEVTYPER5_EL0},
|
|
{"pmevtyper6_el0", PMEVTYPER6_EL0},
|
|
{"pmevtyper7_el0", PMEVTYPER7_EL0},
|
|
{"pmevtyper8_el0", PMEVTYPER8_EL0},
|
|
{"pmevtyper9_el0", PMEVTYPER9_EL0},
|
|
{"pmevtyper10_el0", PMEVTYPER10_EL0},
|
|
{"pmevtyper11_el0", PMEVTYPER11_EL0},
|
|
{"pmevtyper12_el0", PMEVTYPER12_EL0},
|
|
{"pmevtyper13_el0", PMEVTYPER13_EL0},
|
|
{"pmevtyper14_el0", PMEVTYPER14_EL0},
|
|
{"pmevtyper15_el0", PMEVTYPER15_EL0},
|
|
{"pmevtyper16_el0", PMEVTYPER16_EL0},
|
|
{"pmevtyper17_el0", PMEVTYPER17_EL0},
|
|
{"pmevtyper18_el0", PMEVTYPER18_EL0},
|
|
{"pmevtyper19_el0", PMEVTYPER19_EL0},
|
|
{"pmevtyper20_el0", PMEVTYPER20_EL0},
|
|
{"pmevtyper21_el0", PMEVTYPER21_EL0},
|
|
{"pmevtyper22_el0", PMEVTYPER22_EL0},
|
|
{"pmevtyper23_el0", PMEVTYPER23_EL0},
|
|
{"pmevtyper24_el0", PMEVTYPER24_EL0},
|
|
{"pmevtyper25_el0", PMEVTYPER25_EL0},
|
|
{"pmevtyper26_el0", PMEVTYPER26_EL0},
|
|
{"pmevtyper27_el0", PMEVTYPER27_EL0},
|
|
{"pmevtyper28_el0", PMEVTYPER28_EL0},
|
|
{"pmevtyper29_el0", PMEVTYPER29_EL0},
|
|
{"pmevtyper30_el0", PMEVTYPER30_EL0},
|
|
|
|
// Trace registers
|
|
{"trcprgctlr", TRCPRGCTLR},
|
|
{"trcprocselr", TRCPROCSELR},
|
|
{"trcconfigr", TRCCONFIGR},
|
|
{"trcauxctlr", TRCAUXCTLR},
|
|
{"trceventctl0r", TRCEVENTCTL0R},
|
|
{"trceventctl1r", TRCEVENTCTL1R},
|
|
{"trcstallctlr", TRCSTALLCTLR},
|
|
{"trctsctlr", TRCTSCTLR},
|
|
{"trcsyncpr", TRCSYNCPR},
|
|
{"trcccctlr", TRCCCCTLR},
|
|
{"trcbbctlr", TRCBBCTLR},
|
|
{"trctraceidr", TRCTRACEIDR},
|
|
{"trcqctlr", TRCQCTLR},
|
|
{"trcvictlr", TRCVICTLR},
|
|
{"trcviiectlr", TRCVIIECTLR},
|
|
{"trcvissctlr", TRCVISSCTLR},
|
|
{"trcvipcssctlr", TRCVIPCSSCTLR},
|
|
{"trcvdctlr", TRCVDCTLR},
|
|
{"trcvdsacctlr", TRCVDSACCTLR},
|
|
{"trcvdarcctlr", TRCVDARCCTLR},
|
|
{"trcseqevr0", TRCSEQEVR0},
|
|
{"trcseqevr1", TRCSEQEVR1},
|
|
{"trcseqevr2", TRCSEQEVR2},
|
|
{"trcseqrstevr", TRCSEQRSTEVR},
|
|
{"trcseqstr", TRCSEQSTR},
|
|
{"trcextinselr", TRCEXTINSELR},
|
|
{"trccntrldvr0", TRCCNTRLDVR0},
|
|
{"trccntrldvr1", TRCCNTRLDVR1},
|
|
{"trccntrldvr2", TRCCNTRLDVR2},
|
|
{"trccntrldvr3", TRCCNTRLDVR3},
|
|
{"trccntctlr0", TRCCNTCTLR0},
|
|
{"trccntctlr1", TRCCNTCTLR1},
|
|
{"trccntctlr2", TRCCNTCTLR2},
|
|
{"trccntctlr3", TRCCNTCTLR3},
|
|
{"trccntvr0", TRCCNTVR0},
|
|
{"trccntvr1", TRCCNTVR1},
|
|
{"trccntvr2", TRCCNTVR2},
|
|
{"trccntvr3", TRCCNTVR3},
|
|
{"trcimspec0", TRCIMSPEC0},
|
|
{"trcimspec1", TRCIMSPEC1},
|
|
{"trcimspec2", TRCIMSPEC2},
|
|
{"trcimspec3", TRCIMSPEC3},
|
|
{"trcimspec4", TRCIMSPEC4},
|
|
{"trcimspec5", TRCIMSPEC5},
|
|
{"trcimspec6", TRCIMSPEC6},
|
|
{"trcimspec7", TRCIMSPEC7},
|
|
{"trcrsctlr2", TRCRSCTLR2},
|
|
{"trcrsctlr3", TRCRSCTLR3},
|
|
{"trcrsctlr4", TRCRSCTLR4},
|
|
{"trcrsctlr5", TRCRSCTLR5},
|
|
{"trcrsctlr6", TRCRSCTLR6},
|
|
{"trcrsctlr7", TRCRSCTLR7},
|
|
{"trcrsctlr8", TRCRSCTLR8},
|
|
{"trcrsctlr9", TRCRSCTLR9},
|
|
{"trcrsctlr10", TRCRSCTLR10},
|
|
{"trcrsctlr11", TRCRSCTLR11},
|
|
{"trcrsctlr12", TRCRSCTLR12},
|
|
{"trcrsctlr13", TRCRSCTLR13},
|
|
{"trcrsctlr14", TRCRSCTLR14},
|
|
{"trcrsctlr15", TRCRSCTLR15},
|
|
{"trcrsctlr16", TRCRSCTLR16},
|
|
{"trcrsctlr17", TRCRSCTLR17},
|
|
{"trcrsctlr18", TRCRSCTLR18},
|
|
{"trcrsctlr19", TRCRSCTLR19},
|
|
{"trcrsctlr20", TRCRSCTLR20},
|
|
{"trcrsctlr21", TRCRSCTLR21},
|
|
{"trcrsctlr22", TRCRSCTLR22},
|
|
{"trcrsctlr23", TRCRSCTLR23},
|
|
{"trcrsctlr24", TRCRSCTLR24},
|
|
{"trcrsctlr25", TRCRSCTLR25},
|
|
{"trcrsctlr26", TRCRSCTLR26},
|
|
{"trcrsctlr27", TRCRSCTLR27},
|
|
{"trcrsctlr28", TRCRSCTLR28},
|
|
{"trcrsctlr29", TRCRSCTLR29},
|
|
{"trcrsctlr30", TRCRSCTLR30},
|
|
{"trcrsctlr31", TRCRSCTLR31},
|
|
{"trcssccr0", TRCSSCCR0},
|
|
{"trcssccr1", TRCSSCCR1},
|
|
{"trcssccr2", TRCSSCCR2},
|
|
{"trcssccr3", TRCSSCCR3},
|
|
{"trcssccr4", TRCSSCCR4},
|
|
{"trcssccr5", TRCSSCCR5},
|
|
{"trcssccr6", TRCSSCCR6},
|
|
{"trcssccr7", TRCSSCCR7},
|
|
{"trcsscsr0", TRCSSCSR0},
|
|
{"trcsscsr1", TRCSSCSR1},
|
|
{"trcsscsr2", TRCSSCSR2},
|
|
{"trcsscsr3", TRCSSCSR3},
|
|
{"trcsscsr4", TRCSSCSR4},
|
|
{"trcsscsr5", TRCSSCSR5},
|
|
{"trcsscsr6", TRCSSCSR6},
|
|
{"trcsscsr7", TRCSSCSR7},
|
|
{"trcsspcicr0", TRCSSPCICR0},
|
|
{"trcsspcicr1", TRCSSPCICR1},
|
|
{"trcsspcicr2", TRCSSPCICR2},
|
|
{"trcsspcicr3", TRCSSPCICR3},
|
|
{"trcsspcicr4", TRCSSPCICR4},
|
|
{"trcsspcicr5", TRCSSPCICR5},
|
|
{"trcsspcicr6", TRCSSPCICR6},
|
|
{"trcsspcicr7", TRCSSPCICR7},
|
|
{"trcpdcr", TRCPDCR},
|
|
{"trcacvr0", TRCACVR0},
|
|
{"trcacvr1", TRCACVR1},
|
|
{"trcacvr2", TRCACVR2},
|
|
{"trcacvr3", TRCACVR3},
|
|
{"trcacvr4", TRCACVR4},
|
|
{"trcacvr5", TRCACVR5},
|
|
{"trcacvr6", TRCACVR6},
|
|
{"trcacvr7", TRCACVR7},
|
|
{"trcacvr8", TRCACVR8},
|
|
{"trcacvr9", TRCACVR9},
|
|
{"trcacvr10", TRCACVR10},
|
|
{"trcacvr11", TRCACVR11},
|
|
{"trcacvr12", TRCACVR12},
|
|
{"trcacvr13", TRCACVR13},
|
|
{"trcacvr14", TRCACVR14},
|
|
{"trcacvr15", TRCACVR15},
|
|
{"trcacatr0", TRCACATR0},
|
|
{"trcacatr1", TRCACATR1},
|
|
{"trcacatr2", TRCACATR2},
|
|
{"trcacatr3", TRCACATR3},
|
|
{"trcacatr4", TRCACATR4},
|
|
{"trcacatr5", TRCACATR5},
|
|
{"trcacatr6", TRCACATR6},
|
|
{"trcacatr7", TRCACATR7},
|
|
{"trcacatr8", TRCACATR8},
|
|
{"trcacatr9", TRCACATR9},
|
|
{"trcacatr10", TRCACATR10},
|
|
{"trcacatr11", TRCACATR11},
|
|
{"trcacatr12", TRCACATR12},
|
|
{"trcacatr13", TRCACATR13},
|
|
{"trcacatr14", TRCACATR14},
|
|
{"trcacatr15", TRCACATR15},
|
|
{"trcdvcvr0", TRCDVCVR0},
|
|
{"trcdvcvr1", TRCDVCVR1},
|
|
{"trcdvcvr2", TRCDVCVR2},
|
|
{"trcdvcvr3", TRCDVCVR3},
|
|
{"trcdvcvr4", TRCDVCVR4},
|
|
{"trcdvcvr5", TRCDVCVR5},
|
|
{"trcdvcvr6", TRCDVCVR6},
|
|
{"trcdvcvr7", TRCDVCVR7},
|
|
{"trcdvcmr0", TRCDVCMR0},
|
|
{"trcdvcmr1", TRCDVCMR1},
|
|
{"trcdvcmr2", TRCDVCMR2},
|
|
{"trcdvcmr3", TRCDVCMR3},
|
|
{"trcdvcmr4", TRCDVCMR4},
|
|
{"trcdvcmr5", TRCDVCMR5},
|
|
{"trcdvcmr6", TRCDVCMR6},
|
|
{"trcdvcmr7", TRCDVCMR7},
|
|
{"trccidcvr0", TRCCIDCVR0},
|
|
{"trccidcvr1", TRCCIDCVR1},
|
|
{"trccidcvr2", TRCCIDCVR2},
|
|
{"trccidcvr3", TRCCIDCVR3},
|
|
{"trccidcvr4", TRCCIDCVR4},
|
|
{"trccidcvr5", TRCCIDCVR5},
|
|
{"trccidcvr6", TRCCIDCVR6},
|
|
{"trccidcvr7", TRCCIDCVR7},
|
|
{"trcvmidcvr0", TRCVMIDCVR0},
|
|
{"trcvmidcvr1", TRCVMIDCVR1},
|
|
{"trcvmidcvr2", TRCVMIDCVR2},
|
|
{"trcvmidcvr3", TRCVMIDCVR3},
|
|
{"trcvmidcvr4", TRCVMIDCVR4},
|
|
{"trcvmidcvr5", TRCVMIDCVR5},
|
|
{"trcvmidcvr6", TRCVMIDCVR6},
|
|
{"trcvmidcvr7", TRCVMIDCVR7},
|
|
{"trccidcctlr0", TRCCIDCCTLR0},
|
|
{"trccidcctlr1", TRCCIDCCTLR1},
|
|
{"trcvmidcctlr0", TRCVMIDCCTLR0},
|
|
{"trcvmidcctlr1", TRCVMIDCCTLR1},
|
|
{"trcitctrl", TRCITCTRL},
|
|
{"trcclaimset", TRCCLAIMSET},
|
|
{"trcclaimclr", TRCCLAIMCLR},
|
|
|
|
// GICv3 registers
|
|
{"icc_bpr1_el1", ICC_BPR1_EL1},
|
|
{"icc_bpr0_el1", ICC_BPR0_EL1},
|
|
{"icc_pmr_el1", ICC_PMR_EL1},
|
|
{"icc_ctlr_el1", ICC_CTLR_EL1},
|
|
{"icc_ctlr_el3", ICC_CTLR_EL3},
|
|
{"icc_sre_el1", ICC_SRE_EL1},
|
|
{"icc_sre_el2", ICC_SRE_EL2},
|
|
{"icc_sre_el3", ICC_SRE_EL3},
|
|
{"icc_igrpen0_el1", ICC_IGRPEN0_EL1},
|
|
{"icc_igrpen1_el1", ICC_IGRPEN1_EL1},
|
|
{"icc_igrpen1_el3", ICC_IGRPEN1_EL3},
|
|
{"icc_seien_el1", ICC_SEIEN_EL1},
|
|
{"icc_ap0r0_el1", ICC_AP0R0_EL1},
|
|
{"icc_ap0r1_el1", ICC_AP0R1_EL1},
|
|
{"icc_ap0r2_el1", ICC_AP0R2_EL1},
|
|
{"icc_ap0r3_el1", ICC_AP0R3_EL1},
|
|
{"icc_ap1r0_el1", ICC_AP1R0_EL1},
|
|
{"icc_ap1r1_el1", ICC_AP1R1_EL1},
|
|
{"icc_ap1r2_el1", ICC_AP1R2_EL1},
|
|
{"icc_ap1r3_el1", ICC_AP1R3_EL1},
|
|
{"ich_ap0r0_el2", ICH_AP0R0_EL2},
|
|
{"ich_ap0r1_el2", ICH_AP0R1_EL2},
|
|
{"ich_ap0r2_el2", ICH_AP0R2_EL2},
|
|
{"ich_ap0r3_el2", ICH_AP0R3_EL2},
|
|
{"ich_ap1r0_el2", ICH_AP1R0_EL2},
|
|
{"ich_ap1r1_el2", ICH_AP1R1_EL2},
|
|
{"ich_ap1r2_el2", ICH_AP1R2_EL2},
|
|
{"ich_ap1r3_el2", ICH_AP1R3_EL2},
|
|
{"ich_hcr_el2", ICH_HCR_EL2},
|
|
{"ich_misr_el2", ICH_MISR_EL2},
|
|
{"ich_vmcr_el2", ICH_VMCR_EL2},
|
|
{"ich_vseir_el2", ICH_VSEIR_EL2},
|
|
{"ich_lr0_el2", ICH_LR0_EL2},
|
|
{"ich_lr1_el2", ICH_LR1_EL2},
|
|
{"ich_lr2_el2", ICH_LR2_EL2},
|
|
{"ich_lr3_el2", ICH_LR3_EL2},
|
|
{"ich_lr4_el2", ICH_LR4_EL2},
|
|
{"ich_lr5_el2", ICH_LR5_EL2},
|
|
{"ich_lr6_el2", ICH_LR6_EL2},
|
|
{"ich_lr7_el2", ICH_LR7_EL2},
|
|
{"ich_lr8_el2", ICH_LR8_EL2},
|
|
{"ich_lr9_el2", ICH_LR9_EL2},
|
|
{"ich_lr10_el2", ICH_LR10_EL2},
|
|
{"ich_lr11_el2", ICH_LR11_EL2},
|
|
{"ich_lr12_el2", ICH_LR12_EL2},
|
|
{"ich_lr13_el2", ICH_LR13_EL2},
|
|
{"ich_lr14_el2", ICH_LR14_EL2},
|
|
{"ich_lr15_el2", ICH_LR15_EL2}
|
|
};
|
|
|
|
uint32_t
|
|
A64SysReg::SysRegMapper::fromString(StringRef Name, bool &Valid) const {
|
|
// First search the registers shared by all
|
|
std::string NameLower = Name.lower();
|
|
for (unsigned i = 0; i < array_lengthof(SysRegPairs); ++i) {
|
|
if (SysRegPairs[i].Name == NameLower) {
|
|
Valid = true;
|
|
return SysRegPairs[i].Value;
|
|
}
|
|
}
|
|
|
|
// Now try the instruction-specific registers (either read-only or
|
|
// write-only).
|
|
for (unsigned i = 0; i < NumInstPairs; ++i) {
|
|
if (InstPairs[i].Name == NameLower) {
|
|
Valid = true;
|
|
return InstPairs[i].Value;
|
|
}
|
|
}
|
|
|
|
// Try to parse an S<op0>_<op1>_<Cn>_<Cm>_<op2> register name, where the bits
|
|
// are: 11 xxx 1x11 xxxx xxx
|
|
Regex GenericRegPattern("^s3_([0-7])_c(1[15])_c([0-9]|1[0-5])_([0-7])$");
|
|
|
|
SmallVector<StringRef, 4> Ops;
|
|
if (!GenericRegPattern.match(NameLower, &Ops)) {
|
|
Valid = false;
|
|
return -1;
|
|
}
|
|
|
|
uint32_t Op0 = 3, Op1 = 0, CRn = 0, CRm = 0, Op2 = 0;
|
|
uint32_t Bits;
|
|
Ops[1].getAsInteger(10, Op1);
|
|
Ops[2].getAsInteger(10, CRn);
|
|
Ops[3].getAsInteger(10, CRm);
|
|
Ops[4].getAsInteger(10, Op2);
|
|
Bits = (Op0 << 14) | (Op1 << 11) | (CRn << 7) | (CRm << 3) | Op2;
|
|
|
|
Valid = true;
|
|
return Bits;
|
|
}
|
|
|
|
std::string
|
|
A64SysReg::SysRegMapper::toString(uint32_t Bits, bool &Valid) const {
|
|
for (unsigned i = 0; i < array_lengthof(SysRegPairs); ++i) {
|
|
if (SysRegPairs[i].Value == Bits) {
|
|
Valid = true;
|
|
return SysRegPairs[i].Name;
|
|
}
|
|
}
|
|
|
|
for (unsigned i = 0; i < NumInstPairs; ++i) {
|
|
if (InstPairs[i].Value == Bits) {
|
|
Valid = true;
|
|
return InstPairs[i].Name;
|
|
}
|
|
}
|
|
|
|
uint32_t Op0 = (Bits >> 14) & 0x3;
|
|
uint32_t Op1 = (Bits >> 11) & 0x7;
|
|
uint32_t CRn = (Bits >> 7) & 0xf;
|
|
uint32_t CRm = (Bits >> 3) & 0xf;
|
|
uint32_t Op2 = Bits & 0x7;
|
|
|
|
// Only combinations matching: 11 xxx 1x11 xxxx xxx are valid for a generic
|
|
// name.
|
|
if (Op0 != 3 || (CRn != 11 && CRn != 15)) {
|
|
Valid = false;
|
|
return "";
|
|
}
|
|
|
|
assert(Op0 == 3 && (CRn == 11 || CRn == 15) && "Invalid generic sysreg");
|
|
|
|
Valid = true;
|
|
return "s3_" + utostr(Op1) + "_c" + utostr(CRn)
|
|
+ "_c" + utostr(CRm) + "_" + utostr(Op2);
|
|
}
|
|
|
|
const NamedImmMapper::Mapping A64TLBI::TLBIMapper::TLBIPairs[] = {
|
|
{"ipas2e1is", IPAS2E1IS},
|
|
{"ipas2le1is", IPAS2LE1IS},
|
|
{"vmalle1is", VMALLE1IS},
|
|
{"alle2is", ALLE2IS},
|
|
{"alle3is", ALLE3IS},
|
|
{"vae1is", VAE1IS},
|
|
{"vae2is", VAE2IS},
|
|
{"vae3is", VAE3IS},
|
|
{"aside1is", ASIDE1IS},
|
|
{"vaae1is", VAAE1IS},
|
|
{"alle1is", ALLE1IS},
|
|
{"vale1is", VALE1IS},
|
|
{"vale2is", VALE2IS},
|
|
{"vale3is", VALE3IS},
|
|
{"vmalls12e1is", VMALLS12E1IS},
|
|
{"vaale1is", VAALE1IS},
|
|
{"ipas2e1", IPAS2E1},
|
|
{"ipas2le1", IPAS2LE1},
|
|
{"vmalle1", VMALLE1},
|
|
{"alle2", ALLE2},
|
|
{"alle3", ALLE3},
|
|
{"vae1", VAE1},
|
|
{"vae2", VAE2},
|
|
{"vae3", VAE3},
|
|
{"aside1", ASIDE1},
|
|
{"vaae1", VAAE1},
|
|
{"alle1", ALLE1},
|
|
{"vale1", VALE1},
|
|
{"vale2", VALE2},
|
|
{"vale3", VALE3},
|
|
{"vmalls12e1", VMALLS12E1},
|
|
{"vaale1", VAALE1}
|
|
};
|
|
|
|
A64TLBI::TLBIMapper::TLBIMapper()
|
|
: NamedImmMapper(TLBIPairs, 0) {}
|
|
|
|
bool A64Imms::isFPImm(const APFloat &Val, uint32_t &Imm8Bits) {
|
|
const fltSemantics &Sem = Val.getSemantics();
|
|
unsigned FracBits = APFloat::semanticsPrecision(Sem) - 1;
|
|
|
|
uint32_t ExpMask;
|
|
switch (FracBits) {
|
|
case 10: // IEEE half-precision
|
|
ExpMask = 0x1f;
|
|
break;
|
|
case 23: // IEEE single-precision
|
|
ExpMask = 0xff;
|
|
break;
|
|
case 52: // IEEE double-precision
|
|
ExpMask = 0x7ff;
|
|
break;
|
|
case 112: // IEEE quad-precision
|
|
// No immediates are valid for double precision.
|
|
return false;
|
|
default:
|
|
llvm_unreachable("Only half, single and double precision supported");
|
|
}
|
|
|
|
uint32_t ExpStart = FracBits;
|
|
uint64_t FracMask = (1ULL << FracBits) - 1;
|
|
|
|
uint32_t Sign = Val.isNegative();
|
|
|
|
uint64_t Bits= Val.bitcastToAPInt().getLimitedValue();
|
|
uint64_t Fraction = Bits & FracMask;
|
|
int32_t Exponent = ((Bits >> ExpStart) & ExpMask);
|
|
Exponent -= ExpMask >> 1;
|
|
|
|
// S[d] = imm8<7>:NOT(imm8<6>):Replicate(imm8<6>, 5):imm8<5:0>:Zeros(19)
|
|
// D[d] = imm8<7>:NOT(imm8<6>):Replicate(imm8<6>, 8):imm8<5:0>:Zeros(48)
|
|
// This translates to: only 4 bits of fraction; -3 <= exp <= 4.
|
|
uint64_t A64FracStart = FracBits - 4;
|
|
uint64_t A64FracMask = 0xf;
|
|
|
|
// Are there too many fraction bits?
|
|
if (Fraction & ~(A64FracMask << A64FracStart))
|
|
return false;
|
|
|
|
if (Exponent < -3 || Exponent > 4)
|
|
return false;
|
|
|
|
uint32_t PackedFraction = (Fraction >> A64FracStart) & A64FracMask;
|
|
uint32_t PackedExp = (Exponent + 7) & 0x7;
|
|
|
|
Imm8Bits = (Sign << 7) | (PackedExp << 4) | PackedFraction;
|
|
return true;
|
|
}
|
|
|
|
// Encoding of the immediate for logical (immediate) instructions:
|
|
//
|
|
// | N | imms | immr | size | R | S |
|
|
// |---+--------+--------+------+--------------+--------------|
|
|
// | 1 | ssssss | rrrrrr | 64 | UInt(rrrrrr) | UInt(ssssss) |
|
|
// | 0 | 0sssss | xrrrrr | 32 | UInt(rrrrr) | UInt(sssss) |
|
|
// | 0 | 10ssss | xxrrrr | 16 | UInt(rrrr) | UInt(ssss) |
|
|
// | 0 | 110sss | xxxrrr | 8 | UInt(rrr) | UInt(sss) |
|
|
// | 0 | 1110ss | xxxxrr | 4 | UInt(rr) | UInt(ss) |
|
|
// | 0 | 11110s | xxxxxr | 2 | UInt(r) | UInt(s) |
|
|
// | 0 | 11111x | - | | UNALLOCATED | |
|
|
//
|
|
// Columns 'R', 'S' and 'size' specify a "bitmask immediate" of size bits in
|
|
// which the lower S+1 bits are ones and the remaining bits are zero, then
|
|
// rotated right by R bits, which is then replicated across the datapath.
|
|
//
|
|
// + Values of 'N', 'imms' and 'immr' which do not match the above table are
|
|
// RESERVED.
|
|
// + If all 's' bits in the imms field are set then the instruction is
|
|
// RESERVED.
|
|
// + The 'x' bits in the 'immr' field are IGNORED.
|
|
|
|
bool A64Imms::isLogicalImm(unsigned RegWidth, uint64_t Imm, uint32_t &Bits) {
|
|
int RepeatWidth;
|
|
int Rotation = 0;
|
|
int Num1s = 0;
|
|
|
|
// Because there are S+1 ones in the replicated mask, an immediate of all
|
|
// zeros is not allowed. Filtering it here is probably more efficient.
|
|
if (Imm == 0) return false;
|
|
|
|
for (RepeatWidth = RegWidth; RepeatWidth > 1; RepeatWidth /= 2) {
|
|
uint64_t RepeatMask = RepeatWidth == 64 ? -1 : (1ULL << RepeatWidth) - 1;
|
|
uint64_t ReplicatedMask = Imm & RepeatMask;
|
|
|
|
if (ReplicatedMask == 0) continue;
|
|
|
|
// First we have to make sure the mask is actually repeated in each slot for
|
|
// this width-specifier.
|
|
bool IsReplicatedMask = true;
|
|
for (unsigned i = RepeatWidth; i < RegWidth; i += RepeatWidth) {
|
|
if (((Imm >> i) & RepeatMask) != ReplicatedMask) {
|
|
IsReplicatedMask = false;
|
|
break;
|
|
}
|
|
}
|
|
if (!IsReplicatedMask) continue;
|
|
|
|
// Now we have to work out the amount of rotation needed. The first part of
|
|
// this calculation is actually independent of RepeatWidth, but the complex
|
|
// case will depend on it.
|
|
Rotation = countTrailingZeros(Imm);
|
|
if (Rotation == 0) {
|
|
// There were no leading zeros, which means it's either in place or there
|
|
// are 1s at each end (e.g. 0x8003 needs rotating).
|
|
Rotation = RegWidth == 64 ? CountLeadingOnes_64(Imm)
|
|
: CountLeadingOnes_32(Imm);
|
|
Rotation = RepeatWidth - Rotation;
|
|
}
|
|
|
|
uint64_t ReplicatedOnes = ReplicatedMask;
|
|
if (Rotation != 0 && Rotation != 64)
|
|
ReplicatedOnes = (ReplicatedMask >> Rotation)
|
|
| ((ReplicatedMask << (RepeatWidth - Rotation)) & RepeatMask);
|
|
|
|
// Of course, they may not actually be ones, so we have to check that:
|
|
if (!isMask_64(ReplicatedOnes))
|
|
continue;
|
|
|
|
Num1s = CountTrailingOnes_64(ReplicatedOnes);
|
|
|
|
// We know we've got an almost valid encoding (certainly, if this is invalid
|
|
// no other parameters would work).
|
|
break;
|
|
}
|
|
|
|
// The encodings which would produce all 1s are RESERVED.
|
|
if (RepeatWidth == 1 || Num1s == RepeatWidth) return false;
|
|
|
|
uint32_t N = RepeatWidth == 64;
|
|
uint32_t ImmR = RepeatWidth - Rotation;
|
|
uint32_t ImmS = Num1s - 1;
|
|
|
|
switch (RepeatWidth) {
|
|
default: break; // No action required for other valid rotations.
|
|
case 16: ImmS |= 0x20; break; // 10ssss
|
|
case 8: ImmS |= 0x30; break; // 110sss
|
|
case 4: ImmS |= 0x38; break; // 1110ss
|
|
case 2: ImmS |= 0x3c; break; // 11110s
|
|
}
|
|
|
|
Bits = ImmS | (ImmR << 6) | (N << 12);
|
|
|
|
return true;
|
|
}
|
|
|
|
|
|
bool A64Imms::isLogicalImmBits(unsigned RegWidth, uint32_t Bits,
|
|
uint64_t &Imm) {
|
|
uint32_t N = Bits >> 12;
|
|
uint32_t ImmR = (Bits >> 6) & 0x3f;
|
|
uint32_t ImmS = Bits & 0x3f;
|
|
|
|
// N=1 encodes a 64-bit replication and is invalid for the 32-bit
|
|
// instructions.
|
|
if (RegWidth == 32 && N != 0) return false;
|
|
|
|
int Width = 0;
|
|
if (N == 1)
|
|
Width = 64;
|
|
else if ((ImmS & 0x20) == 0)
|
|
Width = 32;
|
|
else if ((ImmS & 0x10) == 0)
|
|
Width = 16;
|
|
else if ((ImmS & 0x08) == 0)
|
|
Width = 8;
|
|
else if ((ImmS & 0x04) == 0)
|
|
Width = 4;
|
|
else if ((ImmS & 0x02) == 0)
|
|
Width = 2;
|
|
else {
|
|
// ImmS is 0b11111x: UNALLOCATED
|
|
return false;
|
|
}
|
|
|
|
int Num1s = (ImmS & (Width - 1)) + 1;
|
|
|
|
// All encodings which would map to -1 (signed) are RESERVED.
|
|
if (Num1s == Width) return false;
|
|
|
|
int Rotation = (ImmR & (Width - 1));
|
|
uint64_t Mask = (1ULL << Num1s) - 1;
|
|
uint64_t WidthMask = Width == 64 ? -1 : (1ULL << Width) - 1;
|
|
if (Rotation != 0 && Rotation != 64)
|
|
Mask = (Mask >> Rotation)
|
|
| ((Mask << (Width - Rotation)) & WidthMask);
|
|
|
|
Imm = Mask;
|
|
for (unsigned i = 1; i < RegWidth / Width; ++i) {
|
|
Mask <<= Width;
|
|
Imm |= Mask;
|
|
}
|
|
|
|
return true;
|
|
}
|
|
|
|
bool A64Imms::isMOVZImm(int RegWidth, uint64_t Value, int &UImm16, int &Shift) {
|
|
// If high bits are set then a 32-bit MOVZ can't possibly work.
|
|
if (RegWidth == 32 && (Value & ~0xffffffffULL))
|
|
return false;
|
|
|
|
for (int i = 0; i < RegWidth; i += 16) {
|
|
// If the value is 0 when we mask out all the bits that could be set with
|
|
// the current LSL value then it's representable.
|
|
if ((Value & ~(0xffffULL << i)) == 0) {
|
|
Shift = i / 16;
|
|
UImm16 = (Value >> i) & 0xffff;
|
|
return true;
|
|
}
|
|
}
|
|
return false;
|
|
}
|
|
|
|
bool A64Imms::isMOVNImm(int RegWidth, uint64_t Value, int &UImm16, int &Shift) {
|
|
// MOVN is defined to set its register to NOT(LSL(imm16, shift)).
|
|
|
|
// We have to be a little careful about a 32-bit register: 0xffff_1234 *is*
|
|
// representable, but ~0xffff_1234 == 0xffff_ffff_0000_edcb which is not
|
|
// a valid input for isMOVZImm.
|
|
if (RegWidth == 32 && (Value & ~0xffffffffULL))
|
|
return false;
|
|
|
|
uint64_t MOVZEquivalent = RegWidth == 32 ? ~Value & 0xffffffff : ~Value;
|
|
|
|
return isMOVZImm(RegWidth, MOVZEquivalent, UImm16, Shift);
|
|
}
|
|
|
|
bool A64Imms::isOnlyMOVNImm(int RegWidth, uint64_t Value,
|
|
int &UImm16, int &Shift) {
|
|
if (isMOVZImm(RegWidth, Value, UImm16, Shift))
|
|
return false;
|
|
|
|
return isMOVNImm(RegWidth, Value, UImm16, Shift);
|
|
}
|
|
|
|
// decodeNeonModShiftImm - Decode a Neon OpCmode value into the
|
|
// the shift amount and the shift type (shift zeros or ones in) and
|
|
// returns whether the OpCmode value implies a shift operation.
|
|
bool A64Imms::decodeNeonModShiftImm(unsigned OpCmode, unsigned &ShiftImm,
|
|
unsigned &ShiftOnesIn) {
|
|
ShiftImm = 0;
|
|
ShiftOnesIn = false;
|
|
bool HasShift = true;
|
|
|
|
if (OpCmode == 0xe) {
|
|
// movi byte
|
|
HasShift = false;
|
|
} else if (OpCmode == 0x1e) {
|
|
// movi 64-bit bytemask
|
|
HasShift = false;
|
|
} else if ((OpCmode & 0xc) == 0x8) {
|
|
// shift zeros, per halfword
|
|
ShiftImm = ((OpCmode & 0x2) >> 1);
|
|
} else if ((OpCmode & 0x8) == 0) {
|
|
// shift zeros, per word
|
|
ShiftImm = ((OpCmode & 0x6) >> 1);
|
|
} else if ((OpCmode & 0xe) == 0xc) {
|
|
// shift ones, per word
|
|
ShiftOnesIn = true;
|
|
ShiftImm = (OpCmode & 0x1);
|
|
} else {
|
|
// per byte, per bytemask
|
|
llvm_unreachable("Unsupported Neon modified immediate");
|
|
}
|
|
|
|
return HasShift;
|
|
}
|
|
|
|
// decodeNeonModImm - Decode a NEON modified immediate and OpCmode values
|
|
// into the element value and the element size in bits.
|
|
uint64_t A64Imms::decodeNeonModImm(unsigned Val, unsigned OpCmode,
|
|
unsigned &EltBits) {
|
|
uint64_t DecodedVal = Val;
|
|
EltBits = 0;
|
|
|
|
if (OpCmode == 0xe) {
|
|
// movi byte
|
|
EltBits = 8;
|
|
} else if (OpCmode == 0x1e) {
|
|
// movi 64-bit bytemask
|
|
DecodedVal = 0;
|
|
for (unsigned ByteNum = 0; ByteNum < 8; ++ByteNum) {
|
|
if ((Val >> ByteNum) & 1)
|
|
DecodedVal |= (uint64_t)0xff << (8 * ByteNum);
|
|
}
|
|
EltBits = 64;
|
|
} else if ((OpCmode & 0xc) == 0x8) {
|
|
// shift zeros, per halfword
|
|
EltBits = 16;
|
|
} else if ((OpCmode & 0x8) == 0) {
|
|
// shift zeros, per word
|
|
EltBits = 32;
|
|
} else if ((OpCmode & 0xe) == 0xc) {
|
|
// shift ones, per word
|
|
EltBits = 32;
|
|
} else {
|
|
llvm_unreachable("Unsupported Neon modified immediate");
|
|
}
|
|
return DecodedVal;
|
|
}
|