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https://git.wownero.com/wownero/RandomWOW.git
synced 2024-12-22 07:48:54 +00:00
Refactoring (#95)
* Blake2Generator::getInt32 renamed to getUInt32 to avoid confusion * isPowerOf2 renamed to isZeroOrPowerOf2 to avoid confusion * added asserts to validate the input/output size of AES functions * fixed possible overflow in JitCompilerX86::getCodeSize (unused function)
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@ -27,6 +27,7 @@ OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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*/
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#include "soft_aes.h"
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#include "soft_aes.h"
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#include <cassert>
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#define AES_HASH_1R_STATE0 0xd7983aad, 0xcc82db47, 0x9fa856de, 0x92b52c0d
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#define AES_HASH_1R_STATE0 0xd7983aad, 0xcc82db47, 0x9fa856de, 0x92b52c0d
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#define AES_HASH_1R_STATE1 0xace78057, 0xf59e125a, 0x15c7b798, 0x338d996e
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#define AES_HASH_1R_STATE1 0xace78057, 0xf59e125a, 0x15c7b798, 0x338d996e
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@ -50,6 +51,7 @@ OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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*/
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template<bool softAes>
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template<bool softAes>
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void hashAes1Rx4(const void *input, size_t inputSize, void *hash) {
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void hashAes1Rx4(const void *input, size_t inputSize, void *hash) {
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assert(inputSize % 64 == 0);
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const uint8_t* inptr = (uint8_t*)input;
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const uint8_t* inptr = (uint8_t*)input;
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const uint8_t* inputEnd = inptr + inputSize;
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const uint8_t* inputEnd = inptr + inputSize;
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@ -118,6 +120,7 @@ template void hashAes1Rx4<true>(const void *input, size_t inputSize, void *hash)
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*/
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*/
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template<bool softAes>
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template<bool softAes>
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void fillAes1Rx4(void *state, size_t outputSize, void *buffer) {
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void fillAes1Rx4(void *state, size_t outputSize, void *buffer) {
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assert(outputSize % 64 == 0);
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const uint8_t* outptr = (uint8_t*)buffer;
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const uint8_t* outptr = (uint8_t*)buffer;
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const uint8_t* outputEnd = outptr + outputSize;
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const uint8_t* outputEnd = outptr + outputSize;
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@ -168,6 +171,7 @@ template void fillAes1Rx4<false>(void *state, size_t outputSize, void *buffer);
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template<bool softAes>
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template<bool softAes>
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void fillAes4Rx4(void *state, size_t outputSize, void *buffer) {
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void fillAes4Rx4(void *state, size_t outputSize, void *buffer) {
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assert(outputSize % 64 == 0);
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const uint8_t* outptr = (uint8_t*)buffer;
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const uint8_t* outptr = (uint8_t*)buffer;
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const uint8_t* outputEnd = outptr + outputSize;
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const uint8_t* outputEnd = outptr + outputSize;
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@ -446,7 +446,7 @@ namespace randomx {
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void AssemblyGeneratorX86::h_IMUL_RCP(Instruction& instr, int i) {
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void AssemblyGeneratorX86::h_IMUL_RCP(Instruction& instr, int i) {
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uint64_t divisor = instr.getImm32();
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uint64_t divisor = instr.getImm32();
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if (!isPowerOf2(divisor)) {
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if (!isZeroOrPowerOf2(divisor)) {
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registerUsage[instr.dst] = i;
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registerUsage[instr.dst] = i;
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asmCode << "\tmov rax, " << randomx_reciprocal(divisor) << std::endl;
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asmCode << "\tmov rax, " << randomx_reciprocal(divisor) << std::endl;
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asmCode << "\timul " << regR[instr.dst] << ", rax" << std::endl;
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asmCode << "\timul " << regR[instr.dst] << ", rax" << std::endl;
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@ -46,7 +46,7 @@ namespace randomx {
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return data[dataIndex++];
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return data[dataIndex++];
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}
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}
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uint32_t Blake2Generator::getInt32() {
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uint32_t Blake2Generator::getUInt32() {
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checkData(4);
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checkData(4);
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auto ret = load32(&data[dataIndex]);
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auto ret = load32(&data[dataIndex]);
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dataIndex += 4;
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dataIndex += 4;
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@ -36,7 +36,7 @@ namespace randomx {
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public:
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public:
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Blake2Generator(const void* seed, size_t seedSize, int nonce = 0);
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Blake2Generator(const void* seed, size_t seedSize, int nonce = 0);
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uint8_t getByte();
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uint8_t getByte();
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uint32_t getInt32();
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uint32_t getUInt32();
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private:
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private:
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void checkData(const size_t);
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void checkData(const size_t);
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@ -244,7 +244,7 @@ namespace randomx {
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if (opcode < ceil_IMUL_RCP) {
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if (opcode < ceil_IMUL_RCP) {
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uint64_t divisor = instr.getImm32();
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uint64_t divisor = instr.getImm32();
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if (!isPowerOf2(divisor)) {
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if (!isZeroOrPowerOf2(divisor)) {
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auto dst = instr.dst % RegistersCount;
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auto dst = instr.dst % RegistersCount;
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ibc.type = InstructionType::IMUL_R;
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ibc.type = InstructionType::IMUL_R;
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ibc.idst = &nreg->r[dst];
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ibc.idst = &nreg->r[dst];
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@ -145,7 +145,7 @@ namespace randomx {
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constexpr int RegisterNeedsDisplacement = 5; //x86 r13 register
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constexpr int RegisterNeedsDisplacement = 5; //x86 r13 register
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constexpr int RegisterNeedsSib = 4; //x86 r12 register
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constexpr int RegisterNeedsSib = 4; //x86 r12 register
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inline bool isPowerOf2(uint64_t x) {
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inline bool isZeroOrPowerOf2(uint64_t x) {
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return (x & (x - 1)) == 0;
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return (x & (x - 1)) == 0;
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}
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}
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@ -197,7 +197,7 @@ namespace randomx {
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static const uint8_t* NOPX[] = { NOP1, NOP2, NOP3, NOP4, NOP5, NOP6, NOP7, NOP8 };
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static const uint8_t* NOPX[] = { NOP1, NOP2, NOP3, NOP4, NOP5, NOP6, NOP7, NOP8 };
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size_t JitCompilerX86::getCodeSize() {
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size_t JitCompilerX86::getCodeSize() {
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return codePos - prologueSize;
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return codePos < prologueSize ? 0 : codePos - prologueSize;
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}
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}
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JitCompilerX86::JitCompilerX86() {
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JitCompilerX86::JitCompilerX86() {
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@ -580,7 +580,7 @@ namespace randomx {
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void JitCompilerX86::h_IMUL_RCP(Instruction& instr, int i) {
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void JitCompilerX86::h_IMUL_RCP(Instruction& instr, int i) {
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uint64_t divisor = instr.getImm32();
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uint64_t divisor = instr.getImm32();
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if (!isPowerOf2(divisor)) {
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if (!isZeroOrPowerOf2(divisor)) {
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registerUsage[instr.dst] = i;
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registerUsage[instr.dst] = i;
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emit(MOV_RAX_I);
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emit(MOV_RAX_I);
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emit64(randomx_reciprocal_fast(divisor));
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emit64(randomx_reciprocal_fast(divisor));
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@ -37,6 +37,7 @@ OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#include "superscalar.hpp"
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#include "superscalar.hpp"
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#include "intrin_portable.h"
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#include "intrin_portable.h"
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#include "reciprocal.h"
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#include "reciprocal.h"
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#include "common.hpp"
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namespace randomx {
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namespace randomx {
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@ -334,7 +335,7 @@ namespace randomx {
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return false;
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return false;
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if (availableRegisters.size() > 1) {
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if (availableRegisters.size() > 1) {
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index = gen.getInt32() % availableRegisters.size();
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index = gen.getUInt32() % availableRegisters.size();
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}
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}
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else {
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else {
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index = 0;
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index = 0;
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@ -447,7 +448,7 @@ namespace randomx {
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case SuperscalarInstructionType::IADD_C8:
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case SuperscalarInstructionType::IADD_C8:
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case SuperscalarInstructionType::IADD_C9: {
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case SuperscalarInstructionType::IADD_C9: {
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mod_ = 0;
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mod_ = 0;
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imm32_ = gen.getInt32();
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imm32_ = gen.getUInt32();
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opGroup_ = SuperscalarInstructionType::IADD_C7;
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opGroup_ = SuperscalarInstructionType::IADD_C7;
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opGroupPar_ = -1;
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opGroupPar_ = -1;
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} break;
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} break;
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@ -456,7 +457,7 @@ namespace randomx {
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case SuperscalarInstructionType::IXOR_C8:
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case SuperscalarInstructionType::IXOR_C8:
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case SuperscalarInstructionType::IXOR_C9: {
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case SuperscalarInstructionType::IXOR_C9: {
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mod_ = 0;
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mod_ = 0;
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imm32_ = gen.getInt32();
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imm32_ = gen.getUInt32();
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opGroup_ = SuperscalarInstructionType::IXOR_C7;
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opGroup_ = SuperscalarInstructionType::IXOR_C7;
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opGroupPar_ = -1;
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opGroupPar_ = -1;
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} break;
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} break;
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@ -466,7 +467,7 @@ namespace randomx {
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mod_ = 0;
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mod_ = 0;
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imm32_ = 0;
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imm32_ = 0;
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opGroup_ = SuperscalarInstructionType::IMULH_R;
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opGroup_ = SuperscalarInstructionType::IMULH_R;
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opGroupPar_ = gen.getInt32();
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opGroupPar_ = gen.getUInt32();
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} break;
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} break;
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case SuperscalarInstructionType::ISMULH_R: {
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case SuperscalarInstructionType::ISMULH_R: {
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@ -474,14 +475,14 @@ namespace randomx {
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mod_ = 0;
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mod_ = 0;
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imm32_ = 0;
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imm32_ = 0;
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opGroup_ = SuperscalarInstructionType::ISMULH_R;
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opGroup_ = SuperscalarInstructionType::ISMULH_R;
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opGroupPar_ = gen.getInt32();
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opGroupPar_ = gen.getUInt32();
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} break;
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} break;
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case SuperscalarInstructionType::IMUL_RCP: {
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case SuperscalarInstructionType::IMUL_RCP: {
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mod_ = 0;
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mod_ = 0;
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do {
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do {
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imm32_ = gen.getInt32();
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imm32_ = gen.getUInt32();
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} while ((imm32_ & (imm32_ - 1)) == 0);
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} while (isZeroOrPowerOf2(imm32_));
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opGroup_ = SuperscalarInstructionType::IMUL_RCP;
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opGroup_ = SuperscalarInstructionType::IMUL_RCP;
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opGroupPar_ = -1;
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opGroupPar_ = -1;
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} break;
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} break;
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@ -478,7 +478,7 @@ int analyze(randomx::Program& p) {
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if (opcode < randomx::ceil_IMUL_RCP) {
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if (opcode < randomx::ceil_IMUL_RCP) {
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uint64_t divisor = instr.getImm32();
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uint64_t divisor = instr.getImm32();
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if (!randomx::isPowerOf2(divisor)) {
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if (!randomx::isZeroOrPowerOf2(divisor)) {
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instr.dst = instr.dst % randomx::RegistersCount;
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instr.dst = instr.dst % randomx::RegistersCount;
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instr.opcode |= DST_INT;
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instr.opcode |= DST_INT;
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registerUsage[instr.dst].lastUsed = i;
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registerUsage[instr.dst].lastUsed = i;
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