Merge pull request #6194 from merryhime/more-accurate-cycle-counting

arm/dynarmic: More accurate cycle counting
This commit is contained in:
SachinVin 2022-11-24 19:25:01 +05:30 committed by GitHub
commit 850e5bf81c
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7 changed files with 535 additions and 1 deletions

2
externals/dynarmic vendored

@ -1 +1 @@
Subproject commit 45bc7a82de5fab362ad01268a08e7eaa689ae2c2 Subproject commit 7a926d689bcc1cc39dd26d5bba379dffcc6815a3

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@ -104,6 +104,7 @@ add_library(common STATIC
serialization/boost_flat_set.h serialization/boost_flat_set.h
serialization/boost_small_vector.hpp serialization/boost_small_vector.hpp
serialization/boost_vector.hpp serialization/boost_vector.hpp
string_literal.h
string_util.cpp string_util.cpp
string_util.h string_util.h
swap.h swap.h

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@ -0,0 +1,24 @@
// Copyright 2022 Citra Emulator Project
// Licensed under GPLv2 or any later version
// Refer to the license.txt file included.
#pragma once
#include <algorithm>
#include <cstddef>
namespace Common {
template <size_t N>
struct StringLiteral {
constexpr StringLiteral(const char (&str)[N]) {
std::copy_n(str, N, value);
}
static constexpr std::size_t strlen = N - 1;
static constexpr std::size_t size = N;
char value[N];
};
} // namespace Common

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@ -492,6 +492,8 @@ if (ARCHITECTURE_x86_64 OR ARCHITECTURE_arm64)
arm/dynarmic/arm_dynarmic_cp15.h arm/dynarmic/arm_dynarmic_cp15.h
arm/dynarmic/arm_exclusive_monitor.cpp arm/dynarmic/arm_exclusive_monitor.cpp
arm/dynarmic/arm_exclusive_monitor.h arm/dynarmic/arm_exclusive_monitor.h
arm/dynarmic/arm_tick_counts.cpp
arm/dynarmic/arm_tick_counts.h
) )
target_link_libraries(core PRIVATE dynarmic) target_link_libraries(core PRIVATE dynarmic)
endif() endif()

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@ -11,6 +11,7 @@
#include "core/arm/dynarmic/arm_dynarmic.h" #include "core/arm/dynarmic/arm_dynarmic.h"
#include "core/arm/dynarmic/arm_dynarmic_cp15.h" #include "core/arm/dynarmic/arm_dynarmic_cp15.h"
#include "core/arm/dynarmic/arm_exclusive_monitor.h" #include "core/arm/dynarmic/arm_exclusive_monitor.h"
#include "core/arm/dynarmic/arm_tick_counts.h"
#include "core/core.h" #include "core/core.h"
#include "core/core_timing.h" #include "core/core_timing.h"
#include "core/gdbstub/gdbstub.h" #include "core/gdbstub/gdbstub.h"
@ -161,6 +162,9 @@ public:
s64 ticks = parent.GetTimer().GetDowncount(); s64 ticks = parent.GetTimer().GetDowncount();
return static_cast<u64>(ticks <= 0 ? 0 : ticks); return static_cast<u64>(ticks <= 0 ? 0 : ticks);
} }
std::uint64_t GetTicksForCode(bool is_thumb, VAddr, std::uint32_t instruction) override {
return Core::TicksForInstruction(is_thumb, instruction);
}
ARM_Dynarmic& parent; ARM_Dynarmic& parent;
Kernel::SVCContext svc_context; Kernel::SVCContext svc_context;

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@ -0,0 +1,490 @@
// Copyright 2022 Citra Emulator Project
// Licensed under GPLv2 or any later version
// Refer to the license.txt file included.
#include <bit>
#include <functional>
#include "common/common_types.h"
#include "common/string_literal.h"
#include "core/arm/dynarmic/arm_tick_counts.h"
namespace {
template <Common::StringLiteral haystack, Common::StringLiteral needle>
constexpr u32 GetMatchingBitsFromStringLiteral() {
u32 result = 0;
for (size_t i = 0; i < haystack.strlen; i++) {
for (size_t a = 0; a < needle.strlen; a++) {
if (haystack.value[i] == needle.value[a]) {
result |= 1 << (haystack.strlen - 1 - i);
}
}
}
return result;
}
template <u32 mask_>
constexpr u32 DepositBits(u32 val) {
u32 mask = mask_;
u32 res = 0;
for (u32 bb = 1; mask; bb += bb) {
if (val & bb)
res |= mask & -mask;
mask &= mask - 1;
}
return res;
}
template <Common::StringLiteral haystack>
struct MatcherArg {
template <Common::StringLiteral needle>
u32 Get() {
return DepositBits<GetMatchingBitsFromStringLiteral<haystack, needle>()>(instruction);
}
u32 instruction;
};
struct Matcher {
u32 mask;
u32 expect;
std::function<u64(u32)> fn;
};
u64 DataProcessing_imm(auto i) {
if (i.template Get<"d">() == 15) {
return 7;
}
return 1;
}
u64 DataProcessing_reg(auto i) {
if (i.template Get<"d">() == 15) {
return 7;
}
return 1;
}
u64 DataProcessing_rsr(auto i) {
if (i.template Get<"d">() == 15) {
return 8;
}
return 2;
}
u64 LoadStoreSingle_imm(auto) {
return 2;
}
u64 LoadStoreSingle_reg(auto i) {
// TODO: Load PC
if (i.template Get<"u">() == 1 && i.template Get<"r">() == 0 &&
(i.template Get<"v">() == 0 || i.template Get<"v">() == 2)) {
return 2;
}
return 4;
}
u64 LoadStoreMultiple(auto i) {
// TODO: Load PC
return 1 + std::popcount(i.template Get<"x">()) / 2;
}
#define INST(NAME, BS, CYCLES) \
Matcher{GetMatchingBitsFromStringLiteral<BS, "01">(), \
GetMatchingBitsFromStringLiteral<BS, "1">(), \
std::function<u64(u32)>{[](u32 instruction) -> u64 { \
[[maybe_unused]] MatcherArg<BS> i{instruction}; \
return (CYCLES); \
}}},
const std::array arm_matchers{
// clang-format off
// Branch instructions
INST("BLX (imm)", "1111101hvvvvvvvvvvvvvvvvvvvvvvvv", 5) // v5
INST("BLX (reg)", "cccc000100101111111111110011mmmm", 6) // v5
INST("B", "cccc1010vvvvvvvvvvvvvvvvvvvvvvvv", 4) // v1
INST("BL", "cccc1011vvvvvvvvvvvvvvvvvvvvvvvv", 4) // v1
INST("BX", "cccc000100101111111111110001mmmm", 5) // v4T
INST("BXJ", "cccc000100101111111111110010mmmm", 1) // v5J
// Coprocessor instructions
INST("CDP", "cccc1110ooooNNNNDDDDppppooo0MMMM", 1) // v2 (CDP2: v5)
INST("LDC", "cccc110pudw1nnnnDDDDppppvvvvvvvv", 1) // v2 (LDC2: v5)
INST("MCR", "cccc1110ooo0NNNNttttppppooo1MMMM", 2) // v2 (MCR2: v5)
INST("MCRR", "cccc11000100uuuuttttppppooooMMMM", 2) // v5E (MCRR2: v6)
INST("MRC", "cccc1110ooo1NNNNttttppppooo1MMMM", 2) // v2 (MRC2: v5)
INST("MRRC", "cccc11000101uuuuttttppppooooMMMM", 2) // v5E (MRRC2: v6)
INST("STC", "cccc110pudw0nnnnDDDDppppvvvvvvvv", 1) // v2 (STC2: v5)
// Data Processing instructions
INST("ADC (imm)", "cccc0010101Snnnnddddrrrrvvvvvvvv", DataProcessing_imm(i)) // v1
INST("ADC (reg)", "cccc0000101Snnnnddddvvvvvrr0mmmm", DataProcessing_reg(i)) // v1
INST("ADC (rsr)", "cccc0000101Snnnnddddssss0rr1mmmm", DataProcessing_rsr(i)) // v1
INST("ADD (imm)", "cccc0010100Snnnnddddrrrrvvvvvvvv", DataProcessing_imm(i)) // v1
INST("ADD (reg)", "cccc0000100Snnnnddddvvvvvrr0mmmm", DataProcessing_reg(i)) // v1
INST("ADD (rsr)", "cccc0000100Snnnnddddssss0rr1mmmm", DataProcessing_rsr(i)) // v1
INST("AND (imm)", "cccc0010000Snnnnddddrrrrvvvvvvvv", DataProcessing_imm(i)) // v1
INST("AND (reg)", "cccc0000000Snnnnddddvvvvvrr0mmmm", DataProcessing_reg(i)) // v1
INST("AND (rsr)", "cccc0000000Snnnnddddssss0rr1mmmm", DataProcessing_rsr(i)) // v1
INST("BIC (imm)", "cccc0011110Snnnnddddrrrrvvvvvvvv", DataProcessing_imm(i)) // v1
INST("BIC (reg)", "cccc0001110Snnnnddddvvvvvrr0mmmm", DataProcessing_reg(i)) // v1
INST("BIC (rsr)", "cccc0001110Snnnnddddssss0rr1mmmm", DataProcessing_rsr(i)) // v1
INST("CMN (imm)", "cccc00110111nnnn0000rrrrvvvvvvvv", DataProcessing_imm(i)) // v1
INST("CMN (reg)", "cccc00010111nnnn0000vvvvvrr0mmmm", DataProcessing_reg(i)) // v1
INST("CMN (rsr)", "cccc00010111nnnn0000ssss0rr1mmmm", DataProcessing_rsr(i)) // v1
INST("CMP (imm)", "cccc00110101nnnn0000rrrrvvvvvvvv", DataProcessing_imm(i)) // v1
INST("CMP (reg)", "cccc00010101nnnn0000vvvvvrr0mmmm", DataProcessing_reg(i)) // v1
INST("CMP (rsr)", "cccc00010101nnnn0000ssss0rr1mmmm", DataProcessing_rsr(i)) // v1
INST("EOR (imm)", "cccc0010001Snnnnddddrrrrvvvvvvvv", DataProcessing_imm(i)) // v1
INST("EOR (reg)", "cccc0000001Snnnnddddvvvvvrr0mmmm", DataProcessing_reg(i)) // v1
INST("EOR (rsr)", "cccc0000001Snnnnddddssss0rr1mmmm", DataProcessing_rsr(i)) // v1
INST("MOV (imm)", "cccc0011101S0000ddddrrrrvvvvvvvv", DataProcessing_imm(i)) // v1
INST("MOV (reg)", "cccc0001101S0000ddddvvvvvrr0mmmm", DataProcessing_reg(i)) // v1
INST("MOV (rsr)", "cccc0001101S0000ddddssss0rr1mmmm", DataProcessing_rsr(i)) // v1
INST("MVN (imm)", "cccc0011111S0000ddddrrrrvvvvvvvv", DataProcessing_imm(i)) // v1
INST("MVN (reg)", "cccc0001111S0000ddddvvvvvrr0mmmm", DataProcessing_reg(i)) // v1
INST("MVN (rsr)", "cccc0001111S0000ddddssss0rr1mmmm", DataProcessing_rsr(i)) // v1
INST("ORR (imm)", "cccc0011100Snnnnddddrrrrvvvvvvvv", DataProcessing_imm(i)) // v1
INST("ORR (reg)", "cccc0001100Snnnnddddvvvvvrr0mmmm", DataProcessing_reg(i)) // v1
INST("ORR (rsr)", "cccc0001100Snnnnddddssss0rr1mmmm", DataProcessing_rsr(i)) // v1
INST("RSB (imm)", "cccc0010011Snnnnddddrrrrvvvvvvvv", DataProcessing_imm(i)) // v1
INST("RSB (reg)", "cccc0000011Snnnnddddvvvvvrr0mmmm", DataProcessing_reg(i)) // v1
INST("RSB (rsr)", "cccc0000011Snnnnddddssss0rr1mmmm", DataProcessing_rsr(i)) // v1
INST("RSC (imm)", "cccc0010111Snnnnddddrrrrvvvvvvvv", DataProcessing_imm(i)) // v1
INST("RSC (reg)", "cccc0000111Snnnnddddvvvvvrr0mmmm", DataProcessing_reg(i)) // v1
INST("RSC (rsr)", "cccc0000111Snnnnddddssss0rr1mmmm", DataProcessing_rsr(i)) // v1
INST("SBC (imm)", "cccc0010110Snnnnddddrrrrvvvvvvvv", DataProcessing_imm(i)) // v1
INST("SBC (reg)", "cccc0000110Snnnnddddvvvvvrr0mmmm", DataProcessing_reg(i)) // v1
INST("SBC (rsr)", "cccc0000110Snnnnddddssss0rr1mmmm", DataProcessing_rsr(i)) // v1
INST("SUB (imm)", "cccc0010010Snnnnddddrrrrvvvvvvvv", DataProcessing_imm(i)) // v1
INST("SUB (reg)", "cccc0000010Snnnnddddvvvvvrr0mmmm", DataProcessing_reg(i)) // v1
INST("SUB (rsr)", "cccc0000010Snnnnddddssss0rr1mmmm", DataProcessing_rsr(i)) // v1
INST("TEQ (imm)", "cccc00110011nnnn0000rrrrvvvvvvvv", DataProcessing_imm(i)) // v1
INST("TEQ (reg)", "cccc00010011nnnn0000vvvvvrr0mmmm", DataProcessing_reg(i)) // v1
INST("TEQ (rsr)", "cccc00010011nnnn0000ssss0rr1mmmm", DataProcessing_rsr(i)) // v1
INST("TST (imm)", "cccc00110001nnnn0000rrrrvvvvvvvv", DataProcessing_imm(i)) // v1
INST("TST (reg)", "cccc00010001nnnn0000vvvvvrr0mmmm", DataProcessing_reg(i)) // v1
INST("TST (rsr)", "cccc00010001nnnn0000ssss0rr1mmmm", DataProcessing_rsr(i)) // v1
// Exception Generating instructions
INST("BKPT", "cccc00010010vvvvvvvvvvvv0111vvvv", 8) // v5
INST("SVC", "cccc1111vvvvvvvvvvvvvvvvvvvvvvvv", 8) // v1
INST("UDF", "111001111111------------1111----", 8)
// Extension instructions
INST("SXTB", "cccc011010101111ddddrr000111mmmm", 1) // v6
INST("SXTB16", "cccc011010001111ddddrr000111mmmm", 1) // v6
INST("SXTH", "cccc011010111111ddddrr000111mmmm", 1) // v6
INST("SXTAB", "cccc01101010nnnnddddrr000111mmmm", 1) // v6
INST("SXTAB16", "cccc01101000nnnnddddrr000111mmmm", 1) // v6
INST("SXTAH", "cccc01101011nnnnddddrr000111mmmm", 1) // v6
INST("UXTB", "cccc011011101111ddddrr000111mmmm", 1) // v6
INST("UXTB16", "cccc011011001111ddddrr000111mmmm", 1) // v6
INST("UXTH", "cccc011011111111ddddrr000111mmmm", 1) // v6
INST("UXTAB", "cccc01101110nnnnddddrr000111mmmm", 1) // v6
INST("UXTAB16", "cccc01101100nnnnddddrr000111mmmm", 1) // v6
INST("UXTAH", "cccc01101111nnnnddddrr000111mmmm", 1) // v6
// Hint instructions
INST("PLD (imm)", "11110101uz01nnnn1111iiiiiiiiiiii", 1) // v5E for PLD; v7 for PLDW
INST("PLD (reg)", "11110111uz01nnnn1111iiiiitt0mmmm", 1) // v5E for PLD; v7 for PLDW
INST("SEV", "----0011001000001111000000000100", 1) // v6K
INST("WFE", "----0011001000001111000000000010", 1) // v6K
INST("WFI", "----0011001000001111000000000011", 1) // v6K
INST("YIELD", "----0011001000001111000000000001", 1) // v6K
// Synchronization Primitive instructions
INST("CLREX", "11110101011111111111000000011111", 1) // v6K
INST("SWP", "cccc00010000nnnntttt00001001uuuu", 4) // v2S (v6: Deprecated)
INST("SWPB", "cccc00010100nnnntttt00001001uuuu", 4) // v2S (v6: Deprecated)
INST("STREX", "cccc00011000nnnndddd11111001mmmm", 2) // v6
INST("LDREX", "cccc00011001nnnndddd111110011111", 2) // v6
INST("STREXD", "cccc00011010nnnndddd11111001mmmm", 2) // v6K
INST("LDREXD", "cccc00011011nnnndddd111110011111", 2) // v6K
INST("STREXB", "cccc00011100nnnndddd11111001mmmm", 2) // v6K
INST("LDREXB", "cccc00011101nnnndddd111110011111", 2) // v6K
INST("STREXH", "cccc00011110nnnndddd11111001mmmm", 2) // v6K
INST("LDREXH", "cccc00011111nnnndddd111110011111", 2) // v6K
// Load/Store instructions
INST("LDRBT (A1)", "----0100-111--------------------", 1) // v1
INST("LDRBT (A2)", "----0110-111---------------0----", 1) // v1
INST("LDRT (A1)", "----0100-011--------------------", 1) // v1
INST("LDRT (A2)", "----0110-011---------------0----", 1) // v1
INST("STRBT (A1)", "----0100-110--------------------", 1) // v1
INST("STRBT (A2)", "----0110-110---------------0----", 1) // v1
INST("STRT (A1)", "----0100-010--------------------", 1) // v1
INST("STRT (A2)", "----0110-010---------------0----", 1) // v1
INST("LDR (lit)", "cccc0101u0011111ttttvvvvvvvvvvvv", LoadStoreSingle_imm(i)) // v1
INST("LDR (imm)", "cccc010pu0w1nnnnttttvvvvvvvvvvvv", LoadStoreSingle_imm(i)) // v1
INST("LDR (reg)", "cccc011pu0w1nnnnttttvvvvvrr0mmmm", LoadStoreSingle_reg(i)) // v1
INST("LDRB (lit)", "cccc0101u1011111ttttvvvvvvvvvvvv", LoadStoreSingle_imm(i)) // v1
INST("LDRB (imm)", "cccc010pu1w1nnnnttttvvvvvvvvvvvv", LoadStoreSingle_imm(i)) // v1
INST("LDRB (reg)", "cccc011pu1w1nnnnttttvvvvvrr0mmmm", LoadStoreSingle_reg(i)) // v1
INST("LDRD (lit)", "cccc0001u1001111ttttvvvv1101vvvv", LoadStoreSingle_imm(i)) // v5E
INST("LDRD (imm)", "cccc000pu1w0nnnnttttvvvv1101vvvv", LoadStoreSingle_imm(i)) // v5E
INST("LDRD (reg)", "cccc000pu0w0nnnntttt00001101mmmm", LoadStoreSingle_reg(i)) // v5E
INST("LDRH (lit)", "cccc000pu1w11111ttttvvvv1011vvvv", LoadStoreSingle_imm(i)) // v4
INST("LDRH (imm)", "cccc000pu1w1nnnnttttvvvv1011vvvv", LoadStoreSingle_imm(i)) // v4
INST("LDRH (reg)", "cccc000pu0w1nnnntttt00001011mmmm", LoadStoreSingle_reg(i)) // v4
INST("LDRSB (lit)", "cccc0001u1011111ttttvvvv1101vvvv", LoadStoreSingle_imm(i)) // v4
INST("LDRSB (imm)", "cccc000pu1w1nnnnttttvvvv1101vvvv", LoadStoreSingle_imm(i)) // v4
INST("LDRSB (reg)", "cccc000pu0w1nnnntttt00001101mmmm", LoadStoreSingle_reg(i)) // v4
INST("LDRSH (lit)", "cccc0001u1011111ttttvvvv1111vvvv", LoadStoreSingle_imm(i)) // v4
INST("LDRSH (imm)", "cccc000pu1w1nnnnttttvvvv1111vvvv", LoadStoreSingle_imm(i)) // v4
INST("LDRSH (reg)", "cccc000pu0w1nnnntttt00001111mmmm", LoadStoreSingle_reg(i)) // v4
INST("STR (imm)", "cccc010pu0w0nnnnttttvvvvvvvvvvvv", LoadStoreSingle_imm(i)) // v1
INST("STR (reg)", "cccc011pu0w0nnnnttttvvvvvrr0mmmm", LoadStoreSingle_reg(i)) // v1
INST("STRB (imm)", "cccc010pu1w0nnnnttttvvvvvvvvvvvv", LoadStoreSingle_imm(i)) // v1
INST("STRB (reg)", "cccc011pu1w0nnnnttttvvvvvrr0mmmm", LoadStoreSingle_reg(i)) // v1
INST("STRD (imm)", "cccc000pu1w0nnnnttttvvvv1111vvvv", LoadStoreSingle_imm(i)) // v5E
INST("STRD (reg)", "cccc000pu0w0nnnntttt00001111mmmm", LoadStoreSingle_reg(i)) // v5E
INST("STRH (imm)", "cccc000pu1w0nnnnttttvvvv1011vvvv", LoadStoreSingle_imm(i)) // v4
INST("STRH (reg)", "cccc000pu0w0nnnntttt00001011mmmm", LoadStoreSingle_reg(i)) // v4
// Load/Store Multiple instructions
INST("LDM", "cccc100010w1nnnnxxxxxxxxxxxxxxxx", LoadStoreMultiple(i)) // v1
INST("LDMDA", "cccc100000w1nnnnxxxxxxxxxxxxxxxx", LoadStoreMultiple(i)) // v1
INST("LDMDB", "cccc100100w1nnnnxxxxxxxxxxxxxxxx", LoadStoreMultiple(i)) // v1
INST("LDMIB", "cccc100110w1nnnnxxxxxxxxxxxxxxxx", LoadStoreMultiple(i)) // v1
INST("LDM (usr reg)", "----100--101--------------------", 1) // v1
INST("LDM (exce ret)", "----100--1-1----1---------------", 1) // v1
INST("STM", "cccc100010w0nnnnxxxxxxxxxxxxxxxx", LoadStoreMultiple(i)) // v1
INST("STMDA", "cccc100000w0nnnnxxxxxxxxxxxxxxxx", LoadStoreMultiple(i)) // v1
INST("STMDB", "cccc100100w0nnnnxxxxxxxxxxxxxxxx", LoadStoreMultiple(i)) // v1
INST("STMIB", "cccc100110w0nnnnxxxxxxxxxxxxxxxx", LoadStoreMultiple(i)) // v1
INST("STM (usr reg)", "----100--100--------------------", 1) // v1
// Miscellaneous instructions
INST("CLZ", "cccc000101101111dddd11110001mmmm", 1) // v5
INST("NOP", "----0011001000001111000000000000", 1) // v6K
INST("SEL", "cccc01101000nnnndddd11111011mmmm", 1) // v6
// Unsigned Sum of Absolute Differences instructions
INST("USAD8", "cccc01111000dddd1111mmmm0001nnnn", 1) // v6
INST("USADA8", "cccc01111000ddddaaaammmm0001nnnn", 1) // v6
// Packing instructions
INST("PKHBT", "cccc01101000nnnnddddvvvvv001mmmm", 1) // v6K
INST("PKHTB", "cccc01101000nnnnddddvvvvv101mmmm", 1) // v6K
// Reversal instructions
INST("REV", "cccc011010111111dddd11110011mmmm", 1) // v6
INST("REV16", "cccc011010111111dddd11111011mmmm", 1) // v6
INST("REVSH", "cccc011011111111dddd11111011mmmm", 1) // v6
// Saturation instructions
INST("SSAT", "cccc0110101vvvvvddddvvvvvr01nnnn", 1) // v6
INST("SSAT16", "cccc01101010vvvvdddd11110011nnnn", 1) // v6
INST("USAT", "cccc0110111vvvvvddddvvvvvr01nnnn", 1) // v6
INST("USAT16", "cccc01101110vvvvdddd11110011nnnn", 1) // v6
// Multiply (Normal) instructions
INST("MLA", "cccc0000001Sddddaaaammmm1001nnnn", (i.template Get<"S">() ? 5 : 2)) // v2
INST("MUL", "cccc0000000Sdddd0000mmmm1001nnnn", (i.template Get<"S">() ? 5 : 2)) // v2
// Multiply (Long) instructions
INST("SMLAL", "cccc0000111Sddddaaaammmm1001nnnn", (i.template Get<"S">() ? 6 : 3)) // v3M
INST("SMULL", "cccc0000110Sddddaaaammmm1001nnnn", (i.template Get<"S">() ? 6 : 3)) // v3M
INST("UMAAL", "cccc00000100ddddaaaammmm1001nnnn", 3) // v6
INST("UMLAL", "cccc0000101Sddddaaaammmm1001nnnn", (i.template Get<"S">() ? 6 : 3)) // v3M
INST("UMULL", "cccc0000100Sddddaaaammmm1001nnnn", (i.template Get<"S">() ? 6 : 3)) // v3M
// Multiply (Halfword) instructions
INST("SMLALXY", "cccc00010100ddddaaaammmm1xy0nnnn", 2) // v5xP
INST("SMLAXY", "cccc00010000ddddaaaammmm1xy0nnnn", 1) // v5xP
INST("SMULXY", "cccc00010110dddd0000mmmm1xy0nnnn", 1) // v5xP
// Multiply (Word by Halfword) instructions
INST("SMLAWY", "cccc00010010ddddaaaammmm1y00nnnn", 1) // v5xP
INST("SMULWY", "cccc00010010dddd0000mmmm1y10nnnn", 1) // v5xP
// Multiply (Most Significant Word) instructions
INST("SMMUL", "cccc01110101dddd1111mmmm00R1nnnn", 2) // v6
INST("SMMLA", "cccc01110101ddddaaaammmm00R1nnnn", 2) // v6
INST("SMMLS", "cccc01110101ddddaaaammmm11R1nnnn", 2) // v6
// Multiply (Dual) instructions
INST("SMLAD", "cccc01110000ddddaaaammmm00M1nnnn", 2) // v6
INST("SMLALD", "cccc01110100ddddaaaammmm00M1nnnn", 2) // v6
INST("SMLSD", "cccc01110000ddddaaaammmm01M1nnnn", 2) // v6
INST("SMLSLD", "cccc01110100ddddaaaammmm01M1nnnn", 2) // v6
INST("SMUAD", "cccc01110000dddd1111mmmm00M1nnnn", 2) // v6
INST("SMUSD", "cccc01110000dddd1111mmmm01M1nnnn", 2) // v6
// Parallel Add/Subtract (Modulo) instructions
INST("SADD8", "cccc01100001nnnndddd11111001mmmm", 1) // v6
INST("SADD16", "cccc01100001nnnndddd11110001mmmm", 1) // v6
INST("SASX", "cccc01100001nnnndddd11110011mmmm", 1) // v6
INST("SSAX", "cccc01100001nnnndddd11110101mmmm", 1) // v6
INST("SSUB8", "cccc01100001nnnndddd11111111mmmm", 1) // v6
INST("SSUB16", "cccc01100001nnnndddd11110111mmmm", 1) // v6
INST("UADD8", "cccc01100101nnnndddd11111001mmmm", 1) // v6
INST("UADD16", "cccc01100101nnnndddd11110001mmmm", 1) // v6
INST("UASX", "cccc01100101nnnndddd11110011mmmm", 1) // v6
INST("USAX", "cccc01100101nnnndddd11110101mmmm", 1) // v6
INST("USUB8", "cccc01100101nnnndddd11111111mmmm", 1) // v6
INST("USUB16", "cccc01100101nnnndddd11110111mmmm", 1) // v6
// Parallel Add/Subtract (Saturating) instructions
INST("QADD8", "cccc01100010nnnndddd11111001mmmm", 1) // v6
INST("QADD16", "cccc01100010nnnndddd11110001mmmm", 1) // v6
INST("QASX", "cccc01100010nnnndddd11110011mmmm", 1) // v6
INST("QSAX", "cccc01100010nnnndddd11110101mmmm", 1) // v6
INST("QSUB8", "cccc01100010nnnndddd11111111mmmm", 1) // v6
INST("QSUB16", "cccc01100010nnnndddd11110111mmmm", 1) // v6
INST("UQADD8", "cccc01100110nnnndddd11111001mmmm", 1) // v6
INST("UQADD16", "cccc01100110nnnndddd11110001mmmm", 1) // v6
INST("UQASX", "cccc01100110nnnndddd11110011mmmm", 1) // v6
INST("UQSAX", "cccc01100110nnnndddd11110101mmmm", 1) // v6
INST("UQSUB8", "cccc01100110nnnndddd11111111mmmm", 1) // v6
INST("UQSUB16", "cccc01100110nnnndddd11110111mmmm", 1) // v6
// Parallel Add/Subtract (Halving) instructions
INST("SHADD8", "cccc01100011nnnndddd11111001mmmm", 1) // v6
INST("SHADD16", "cccc01100011nnnndddd11110001mmmm", 1) // v6
INST("SHASX", "cccc01100011nnnndddd11110011mmmm", 1) // v6
INST("SHSAX", "cccc01100011nnnndddd11110101mmmm", 1) // v6
INST("SHSUB8", "cccc01100011nnnndddd11111111mmmm", 1) // v6
INST("SHSUB16", "cccc01100011nnnndddd11110111mmmm", 1) // v6
INST("UHADD8", "cccc01100111nnnndddd11111001mmmm", 1) // v6
INST("UHADD16", "cccc01100111nnnndddd11110001mmmm", 1) // v6
INST("UHASX", "cccc01100111nnnndddd11110011mmmm", 1) // v6
INST("UHSAX", "cccc01100111nnnndddd11110101mmmm", 1) // v6
INST("UHSUB8", "cccc01100111nnnndddd11111111mmmm", 1) // v6
INST("UHSUB16", "cccc01100111nnnndddd11110111mmmm", 1) // v6
// Saturated Add/Subtract instructions
INST("QADD", "cccc00010000nnnndddd00000101mmmm", 1) // v5xP
INST("QSUB", "cccc00010010nnnndddd00000101mmmm", 1) // v5xP
INST("QDADD", "cccc00010100nnnndddd00000101mmmm", 1) // v5xP
INST("QDSUB", "cccc00010110nnnndddd00000101mmmm", 1) // v5xP
// Status Register Access instructions
INST("CPS", "111100010000---00000000---0-----", 1) // v6
INST("SETEND", "1111000100000001000000e000000000", 1) // v6
INST("MRS", "cccc000100001111dddd000000000000", 1) // v3
INST("MSR (imm)", "cccc00110010mmmm1111rrrrvvvvvvvv", (i.template Get<"m">() == 0b1000 ? 1 : 4)) // v3
INST("MSR (reg)", "cccc00010010mmmm111100000000nnnn", (i.template Get<"m">() == 0b1000 ? 1 : 4)) // v3
INST("RFE", "1111100--0-1----0000101000000000", 9) // v6
INST("SRS", "1111100--1-0110100000101000-----", 1) // v6
// clang-format on
};
const std::array thumb_matchers{
// clang-format off
// Shift (immediate) add, subtract, move and compare instructions
INST("LSL (imm)", "00000vvvvvmmmddd", 1)
INST("LSR (imm)", "00001vvvvvmmmddd", 1)
INST("ASR (imm)", "00010vvvvvmmmddd", 1)
INST("ADD (reg, T1)", "0001100mmmnnnddd", 1)
INST("SUB (reg)", "0001101mmmnnnddd", 1)
INST("ADD (imm, T1)", "0001110vvvnnnddd", 1)
INST("SUB (imm, T1)", "0001111vvvnnnddd", 1)
INST("MOV (imm)", "00100dddvvvvvvvv", 1)
INST("CMP (imm)", "00101nnnvvvvvvvv", 1)
INST("ADD (imm, T2)", "00110dddvvvvvvvv", 1)
INST("SUB (imm, T2)", "00111dddvvvvvvvv", 1)
// Data-processing instructions
INST("AND (reg)", "0100000000mmmddd", 1)
INST("EOR (reg)", "0100000001mmmddd", 1)
INST("LSL (reg)", "0100000010mmmddd", 1)
INST("LSR (reg)", "0100000011mmmddd", 1)
INST("ASR (reg)", "0100000100mmmddd", 1)
INST("ADC (reg)", "0100000101mmmddd", 1)
INST("SBC (reg)", "0100000110mmmddd", 1)
INST("ROR (reg)", "0100000111sssddd", 1)
INST("TST (reg)", "0100001000mmmnnn", 1)
INST("RSB (imm)", "0100001001nnnddd", 1)
INST("CMP (reg, T1)", "0100001010mmmnnn", 1)
INST("CMN (reg)", "0100001011mmmnnn", 1)
INST("ORR (reg)", "0100001100mmmddd", 1)
INST("MUL (reg)", "0100001101nnnddd", 1)
INST("BIC (reg)", "0100001110mmmddd", 1)
INST("MVN (reg)", "0100001111mmmddd", 1)
// Special data instructions
INST("ADD (reg, T2)", "01000100Dmmmmddd", 1) // v4T, Low regs: v6T2
INST("CMP (reg, T2)", "01000101Nmmmmnnn", 1) // v4T
INST("MOV (reg)", "01000110Dmmmmddd", 1) // v4T, Low regs: v6
// Store/Load single data item instructions
INST("LDR (literal)", "01001tttvvvvvvvv", 2)
INST("STR (reg)", "0101000mmmnnnttt", 2)
INST("STRH (reg)", "0101001mmmnnnttt", 2)
INST("STRB (reg)", "0101010mmmnnnttt", 2)
INST("LDRSB (reg)", "0101011mmmnnnttt", 2)
INST("LDR (reg)", "0101100mmmnnnttt", 2)
INST("LDRH (reg)", "0101101mmmnnnttt", 2)
INST("LDRB (reg)", "0101110mmmnnnttt", 2)
INST("LDRSH (reg)", "0101111mmmnnnttt", 2)
INST("STR (imm, T1)", "01100vvvvvnnnttt", 2)
INST("LDR (imm, T1)", "01101vvvvvnnnttt", 2)
INST("STRB (imm)", "01110vvvvvnnnttt", 2)
INST("LDRB (imm)", "01111vvvvvnnnttt", 2)
INST("STRH (imm)", "10000vvvvvnnnttt", 2)
INST("LDRH (imm)", "10001vvvvvnnnttt", 2)
INST("STR (imm, T2)", "10010tttvvvvvvvv", 2)
INST("LDR (imm, T2)", "10011tttvvvvvvvv", 2)
// Generate relative address instructions
INST("ADR", "10100dddvvvvvvvv", 1)
INST("ADD (SP plus imm, T1)", "10101dddvvvvvvvv", 1)
INST("ADD (SP plus imm, T2)", "101100000vvvvvvv", 1) // v4T
INST("SUB (SP minus imm)", "101100001vvvvvvv", 1) // v4T
// Hint instructions
INST("NOP", "10111111--------", (1)) // IT on v7
// Miscellaneous 16-bit instructions
INST("SXTH", "1011001000mmmddd", 1) // v6
INST("SXTB", "1011001001mmmddd", 1) // v6
INST("UXTH", "1011001010mmmddd", 1) // v6
INST("UXTB", "1011001011mmmddd", 1) // v6
INST("PUSH", "1011010xxxxxxxxx", LoadStoreMultiple(i)) // v4T
INST("POP", "1011110xxxxxxxxx", LoadStoreMultiple(i)) // v4T
INST("SETEND", "101101100101x000", 1) // v6
INST("CPS", "10110110011m0aif", 1) // v6
INST("REV", "1011101000mmmddd", 1) // v6
INST("REV16", "1011101001mmmddd", 1) // v6
INST("REVSH", "1011101011mmmddd", 1) // v6
INST("BKPT", "10111110xxxxxxxx", 8) // v5
// Store/Load multiple registers
INST("STMIA", "11000nnnxxxxxxxx", LoadStoreMultiple(i))
INST("LDMIA", "11001nnnxxxxxxxx", LoadStoreMultiple(i))
// Branch instructions
INST("BX", "010001110mmmm000", 5) // v4T
INST("BLX (reg)", "010001111mmmm000", 6) // v5T
INST("UDF", "11011110--------", 8)
INST("SVC", "11011111xxxxxxxx", 8)
INST("B (T1)", "1101ccccvvvvvvvv", 4)
INST("B (T2)", "11100vvvvvvvvvvv", 4)
INST("BL (imm)", "11110Svvvvvvvvvv11j1jvvvvvvvvvvv", 4) // v4T
INST("BLX (imm)", "11110Svvvvvvvvvv11j0jvvvvvvvvvvv", 5) // v5T
// clang-format on
};
} // namespace
namespace Core {
u64 TicksForInstruction(bool is_thumb, u32 instruction) {
if (is_thumb) {
return 1;
}
const auto matches_instruction = [instruction](const auto& matcher) {
return (instruction & matcher.mask) == matcher.expect;
};
auto iter = std::find_if(arm_matchers.begin(), arm_matchers.end(), matches_instruction);
if (iter != arm_matchers.end()) {
return iter->fn(instruction);
}
return 1;
}
} // namespace Core

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@ -0,0 +1,13 @@
// Copyright 2022 Citra Emulator Project
// Licensed under GPLv2 or any later version
// Refer to the license.txt file included.
#pragma once
#include "common/common_types.h"
namespace Core {
u64 TicksForInstruction(bool is_thumb, u32 instruction);
} // namespace Core