risc-v-tlm/inc/Instruction.h

396 lines
6.5 KiB
C++

/*!
\file Instruction.h
\brief Decode instructions part of the RISC-V
\author Màrius Montón
\date August 2018
*/
#ifndef INSTRUCTION__H
#define INSTRUCTION__H
#include "systemc"
using namespace sc_core;
using namespace sc_dt;
using namespace std;
typedef enum {
BASE_EXTENSION,
M_EXTENSION,
A_EXTENSION,
F_EXTENSION,
D_EXTENSION,
Q_EXTENSION,
L_EXTENSION,
C_EXTENSION,
R_EXTENSION,
J_EXTENSION,
P_EXTENSION,
V_EXTENSION,
N_EXTENSION,
UNKNOWN_EXTENSION
} extension_t;
typedef enum {
OP_LUI,
OP_AUIPC,
OP_JAL,
OP_JALR,
OP_BEQ,
OP_BNE,
OP_BLT,
OP_BGE,
OP_BLTU,
OP_BGEU,
OP_LB,
OP_LH,
OP_LW,
OP_LBU,
OP_LHU,
OP_SB,
OP_SH,
OP_SW,
OP_ADDI,
OP_SLTI,
OP_SLTIU,
OP_XORI,
OP_ORI,
OP_ANDI,
OP_SLLI,
OP_SRLI,
OP_SRAI,
OP_ADD,
OP_SUB,
OP_SLL,
OP_SLT,
OP_SLTU,
OP_XOR,
OP_SRL,
OP_SRA,
OP_OR,
OP_AND,
OP_FENCE,
OP_ECALL,
OP_EBREAK,
OP_CSRRW,
OP_CSRRS,
OP_CSRRC,
OP_CSRRWI,
OP_CSRRSI,
OP_CSRRCI,
OP_URET,
OP_SRET,
OP_MRET,
OP_ERROR
} opCodes;
typedef enum {
LUI = 0b0110111,
AUIPC = 0b0010111,
JAL = 0b1101111,
JALR = 0b1100111,
BEQ = 0b1100011,
BEQ_F = 0b000,
BNE_F = 0b001,
BLT_F = 0b100,
BGE_F = 0b101,
BLTU_F = 0b110,
BGEU_F = 0b111,
LB = 0b0000011,
LB_F = 0b000,
LH_F = 0b001,
LW_F = 0b010,
LBU_F = 0b100,
LHU_F = 0b101,
SB = 0b0100011,
SB_F = 0b000,
SH_F = 0b001,
SW_F = 0b010,
ADDI = 0b0010011,
ADDI_F = 0b000,
SLTI_F = 0b010,
SLTIU_F = 0b011,
XORI_F = 0b100,
ORI_F = 0b110,
ANDI_F = 0b111,
SLLI_F = 0b001,
SRLI_F = 0b101,
SRLI_F7 = 0b0000000,
SRAI_F7 = 0b0100000,
ADD = 0b0110011,
ADD_F = 0b000,
SUB_F = 0b000,
ADD_F7 = 0b0000000,
SUB_F7 = 0b0100000,
SLL_F = 0b001,
SLT_F = 0b010,
SLTU_F = 0b011,
XOR_F = 0b100,
SRL_F = 0b101,
SRA_F = 0b101,
SRL_F7 = 0b0000000,
SRA_F7 = 0b0100000,
OR_F = 0b110,
AND_F = 0b111,
FENCE = 0b0001111,
ECALL = 0b1110011,
ECALL_F = 0b000000000000,
EBREAK_F= 0b000000000001,
URET_F = 0b000000000010,
SRET_F = 0b000100000010,
MRET_F = 0b001100000010,
ECALL_F3= 0b000,
CSRRW = 0b001,
CSRRS = 0b010,
CSRRC = 0b011,
CSRRWI = 0b101,
CSRRSI = 0b110,
CSRRCI = 0b111,
} Codes;
/**
* @brief Instruction decoding and fields access
*/
class Instruction {
public:
/**
* @brief Constructor
* @param instr Instruction to decode
*/
Instruction(sc_uint<32> instr);
/**
* @brief Access to opcode field
* @return return opcode field
*/
inline int32_t opcode() {
// cout << "OP: " << m_instr << endl;
return m_instr.range(6,0);
}
/**
* @brief Access to rd field
* @return rd field
*/
inline int32_t get_rd() {
return m_instr.range(11, 7);
}
inline void set_rd(int32_t value) {
m_instr.range(11,7) = value;
}
/**
* @brief Access to funct3 field
* @return funct3 field
*/
inline int32_t get_funct3() {
return m_instr.range(14, 12);
}
inline void set_funct3(int32_t value) {
m_instr.range(14,12) = value;
}
/**
* @brief Access to rs1 field
* @return rs1 field
*/
inline int32_t get_rs1() {
return m_instr.range(19, 15);
}
inline void set_rs1(int32_t value) {
m_instr.range(19,15) = value;
}
/**
* @brief Access to rs2 field
* @return rs2 field
*/
inline int32_t get_rs2() {
return m_instr.range(24, 20);
}
inline void set_rs2(int32_t value) {
m_instr.range(24,10) = value;
}
/**
* @brief Access to funct7 field
* @return funct7 field
*/
inline int32_t get_funct7() {
return m_instr.range(31, 25);
}
inline void set_func7(int32_t value) {
m_instr.range(31,25) = value;
}
/**
* @brief Access to immediate field for I-type
* @return immediate_I field
*/
inline int32_t get_imm_I() {
int32_t aux = 0;
aux = m_instr.range(31, 20);
/* sign extension (optimize) */
if (m_instr[31] == 1) {
aux |= (0b11111111111111111111) << 12;
}
return aux;
}
inline void set_imm_I(int32_t value) {
m_instr.range(31,20) = value;
}
/**
* @brief Access to immediate field for S-type
* @return immediate_S field
*/
inline int32_t get_imm_S() {
int32_t aux = 0;
aux = m_instr.range(31, 25) << 5;
aux |= m_instr.range(11,7);
if (m_instr[31] == 1) {
aux |= (0b11111111111111111111) << 12;
}
return aux;
}
inline void set_imm_S(int32_t value) {
sc_uint<32> aux = value;
m_instr.range(31,25) = aux.range(11,5);
m_instr.range(11,7) = aux.range(4,0);
}
/**
* @brief Access to immediate field for U-type
* @return immediate_U field
*/
inline int32_t get_imm_U() {
return m_instr.range(31, 12);
}
inline void set_imm_U(int32_t value) {
m_instr.range(31,12) = (value << 12);
}
/**
* @brief Access to immediate field for B-type
* @return immediate_B field
*/
inline int32_t get_imm_B() {
int32_t aux = 0;
aux |= m_instr[7] << 11;
aux |= m_instr.range(30, 25) << 5;
aux |= m_instr[31] << 12;
aux |= m_instr.range(11, 8) << 1;
if (m_instr[31] == 1) {
aux |= (0b11111111111111111111) << 12;
}
return aux;
}
inline void set_imm_B(int32_t value) {
sc_uint<32> aux = value;
m_instr[31] = aux[12];
m_instr.range(30,25) = aux.range(10,5);
m_instr.range(11,7) = aux.range(4,1);
m_instr[6] = aux[11];
}
/**
* @brief Access to immediate field for J-type
* @return immediate_J field
*/
inline int32_t get_imm_J() {
int32_t aux = 0;
aux = m_instr[31] << 20;
aux |= m_instr.range(19,12) << 12;
aux |= m_instr[20] << 11;
aux |= m_instr.range(30,21) << 1;
/* bit extension (better way to do that?) */
if (m_instr[31] == 1) {
aux |= (0b111111111111) << 20;
}
return aux;
}
inline void set_imm_J(int32_t value) {
sc_uint<32> aux = (value << 20);
m_instr[31] = aux[20];
m_instr.range(30,21) = aux.range(10,1);
m_instr[20] = aux[11];
m_instr.range(19,12) = aux.range(19,12);
}
inline int32_t get_csr() {
int32_t aux = 0;
aux = m_instr.range(31, 20);
return aux;
}
/**
* @brief Decodes opcode of instruction
* @return opcode of instruction
*/
opCodes decode();
/**
* @brief returns what instruction extension
* @return extension
*/
extension_t check_extension();
uint32_t getInstr() {
return m_instr;
}
inline void dump() {
cout << hex << "0x" << m_instr << dec << endl;
}
private:
sc_uint<32> m_instr;
};
#endif