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Merge branch 'decode_print' of https://gitlab.istic.univ-rennes1.fr/simpleos/burritos into decode_print

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This commit is contained in:
Samy Solhi 2023-02-01 17:31:33 +01:00
commit e6b9828e20
2 changed files with 190 additions and 88 deletions
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276
src/simulator/machine.rs
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@ -5,13 +5,13 @@ use super::global::*;
/// doit disparaitre
const MEM_SIZE : usize = 4096;
trait RegisterNum: Add<Output=Self> + Sub<Output=Self> + PartialEq + Copy {}
pub trait RegisterNum: Add<Output=Self> + Sub<Output=Self> + PartialEq + Copy {}
impl RegisterNum for i64 {}
impl RegisterNum for f32 {}
struct Register<U: RegisterNum> {
pub struct Register<U: RegisterNum> {
register: [U; 32]
}
@ -58,7 +58,8 @@ impl Register<f32> {
pub struct Machine {
pub pc : u64,
pub int_reg : [i64 ; 32],
pub int_reg : Register<i64>,
pub fp_reg : Register<f32>,
pub instructions : [u64 ; 100],
pub main_memory : [u8 ; MEM_SIZE],
pub shiftmask : [u64 ; 64]
@ -85,7 +86,8 @@ impl Machine {
Machine {
pc : 0,
instructions : [0 ; 100],
int_reg : [0 ; 32],
int_reg : Register::<i64>::init(),
fp_reg: Register::<f32>::init(),
main_memory : [0 ; MEM_SIZE],
shiftmask
}
@ -175,19 +177,19 @@ impl Machine {
match inst.opcode {
RISCV_LUI => {
machine.int_reg[inst.rd as usize] = inst.imm31_12 as i64;
machine.int_reg.set_reg(inst.rd as usize, inst.imm31_12 as i64);
},
RISCV_AUIPC => {
machine.int_reg[inst.rd as usize] = machine.pc as i64 - 4 + inst.imm31_12 as i64;
machine.int_reg.set_reg(inst.rd as usize,machine.pc as i64 - 4 + inst.imm31_12 as i64);
},
RISCV_JAL => {
machine.int_reg[inst.rd as usize] = machine.pc as i64;
machine.int_reg.set_reg(inst.rd as usize, machine.pc as i64);
machine.pc += inst.imm21_1_signed as u64 - 4;
},
RISCV_JALR => {
let tmp = machine.pc;
machine.pc = (machine.int_reg[inst.rs1 as usize] as u64 + inst.imm12_I_signed as u64) & 0xfffffffe;
machine.int_reg[inst.rd as usize] = tmp as i64;
machine.pc = (machine.int_reg.get_reg(inst.rs1 as usize) as u64 + inst.imm12_I_signed as u64) & 0xfffffffe;
machine.int_reg.set_reg(inst.rd as usize, tmp as i64);
},
//******************************************************************************************
@ -195,32 +197,32 @@ impl Machine {
RISCV_BR => {
match inst.funct3 {
RISCV_BR_BEQ => {
if machine.int_reg[inst.rs1 as usize] == machine.int_reg[inst.rs2 as usize] {
if machine.int_reg.get_reg(inst.rs1 as usize) == machine.int_reg.get_reg(inst.rs2 as usize) {
machine.pc += inst.imm13_signed as u64 - 4;
}
},
RISCV_BR_BNE => {
if machine.int_reg[inst.rs1 as usize] != machine.int_reg[inst.rs2 as usize] {
if machine.int_reg.get_reg(inst.rs1 as usize) != machine.int_reg.get_reg(inst.rs2 as usize) {
machine.pc += inst.imm13_signed as u64 - 4;
}
},
RISCV_BR_BLT => {
if machine.int_reg[inst.rs1 as usize] < machine.int_reg[inst.rs2 as usize] {
if machine.int_reg.get_reg(inst.rs1 as usize) < machine.int_reg.get_reg(inst.rs2 as usize) {
machine.pc += inst.imm13_signed as u64 - 4;
}
},
RISCV_BR_BGE => {
if machine.int_reg[inst.rs1 as usize] >= machine.int_reg[inst.rs2 as usize] {
if machine.int_reg.get_reg(inst.rs1 as usize) >= machine.int_reg.get_reg(inst.rs2 as usize) {
machine.pc += inst.imm13_signed as u64 - 4;
}
},
RISCV_BR_BLTU => {
if machine.int_reg[inst.rs1 as usize] < machine.int_reg[inst.rs2 as usize] {
if machine.int_reg.get_reg(inst.rs1 as usize) < machine.int_reg.get_reg(inst.rs2 as usize) {
machine.pc += inst.imm13_signed as u64 - 4;
}
},
RISCV_BR_BGEU => {
if machine.int_reg[inst.rs1 as usize] >= machine.int_reg[inst.rs2 as usize] {
if machine.int_reg.get_reg(inst.rs1 as usize) >= machine.int_reg.get_reg(inst.rs2 as usize) {
machine.pc += inst.imm13_signed as u64 - 4;
}
},
@ -234,49 +236,41 @@ impl Machine {
// Treatment for: LOAD INSTRUCTIONS
RISCV_LD => {
match inst.funct3 {
RISCV_LD_LB => {
machine.int_reg[inst.rd as usize] = Self::read_memory(machine, 1, (machine.int_reg[inst.rs1 as usize] + inst.imm12_I_signed as i64) as usize) as i64;
RISCV_LD_LB | RISCV_LD_LBU => {
let tmp = Self::read_memory(machine, 1, (machine.int_reg.get_reg(inst.rs1 as usize) + inst.imm12_I_signed as i64) as usize) as i64;
machine.int_reg.set_reg(inst.rd as usize, tmp);
},
RISCV_LD_LH => {
machine.int_reg[inst.rd as usize] = Self::read_memory(machine, 2, (machine.int_reg[inst.rs1 as usize] + inst.imm12_I_signed as i64) as usize) as i64;
RISCV_LD_LH | RISCV_LD_LHU => {
let tmp = Self::read_memory(machine, 2, (machine.int_reg.get_reg(inst.rs1 as usize) + inst.imm12_I_signed as i64) as usize) as i64;
machine.int_reg.set_reg(inst.rd as usize, tmp);
},
RISCV_LD_LW => {
machine.int_reg[inst.rd as usize] = Self::read_memory(machine, 4, (machine.int_reg[inst.rs1 as usize] + inst.imm12_I_signed as i64) as usize) as i64;
RISCV_LD_LW | RISCV_LD_LWU => {
let tmp = Self::read_memory(machine, 4, (machine.int_reg.get_reg(inst.rs1 as usize) + inst.imm12_I_signed as i64) as usize) as i64;
machine.int_reg.set_reg(inst.rd as usize, tmp);
},
RISCV_LD_LD => {
machine.int_reg[inst.rd as usize] = Self::read_memory(machine, 8, (machine.int_reg[inst.rs1 as usize] + inst.imm12_I_signed as i64) as usize) as i64;
},
// same thing three opration ?
RISCV_LD_LBU => {
machine.int_reg[inst.rd as usize] = Self::read_memory(machine, 1, (machine.int_reg[inst.rs1 as usize] + inst.imm12_I_signed as i64) as usize) as i64;
},
RISCV_LD_LHU => {
machine.int_reg[inst.rd as usize] = Self::read_memory(machine, 2, (machine.int_reg[inst.rs1 as usize] + inst.imm12_I_signed as i64) as usize) as i64;
},
RISCV_LD_LWU => {
machine.int_reg[inst.rd as usize] = Self::read_memory(machine, 4, (machine.int_reg[inst.rs1 as usize] + inst.imm12_I_signed as i64) as usize) as i64;
let tmp = Self::read_memory(machine, 1, (machine.int_reg.get_reg(inst.rs1 as usize) + inst.imm12_I_signed as i64) as usize) as i64;
machine.int_reg.set_reg(inst.rd as usize, tmp);
},
_ => {
panic!("In LD switch case, this should never happen... Instr was {}", inst.value);
}
}
},
// store instructions
RISCV_ST => {
match inst.funct3 {
RISCV_ST_STB => {
Self::write_memory(machine, 1, (machine.int_reg[inst.rs1 as usize] + inst.imm12_S_signed as i64) as usize, machine.int_reg[inst.rs2 as usize] as u64); // Possible bugs à cause du cast ici
Self::write_memory(machine, 1, (machine.int_reg.get_reg(inst.rs1 as usize) + inst.imm12_S_signed as i64) as usize, machine.int_reg.get_reg(inst.rs2 as usize) as u64);
},
RISCV_ST_STH => {
Self::write_memory(machine, 2, (machine.int_reg[inst.rs1 as usize] + inst.imm12_S_signed as i64) as usize, machine.int_reg[inst.rs2 as usize] as u64);
Self::write_memory(machine, 2, (machine.int_reg.get_reg(inst.rs1 as usize) + inst.imm12_S_signed as i64) as usize, machine.int_reg.get_reg(inst.rs2 as usize) as u64);
},
RISCV_ST_STW => {
Self::write_memory(machine, 4, (machine.int_reg[inst.rs1 as usize] + inst.imm12_S_signed as i64) as usize, machine.int_reg[inst.rs2 as usize] as u64);
Self::write_memory(machine, 4, (machine.int_reg.get_reg(inst.rs1 as usize) + inst.imm12_S_signed as i64) as usize, machine.int_reg.get_reg(inst.rs2 as usize) as u64);
},
RISCV_ST_STD => {
Self::write_memory(machine, 8, (machine.int_reg[inst.rs1 as usize] + inst.imm12_S_signed as i64) as usize, machine.int_reg[inst.rs2 as usize] as u64);
Self::write_memory(machine, 8, (machine.int_reg.get_reg(inst.rs1 as usize) + inst.imm12_S_signed as i64) as usize, machine.int_reg.get_reg(inst.rs2 as usize) as u64);
},
_ => {
panic!("In ST switch case, this should never happen... Instr was {}", inst.value);
@ -288,28 +282,28 @@ impl Machine {
RISCV_OPI => {
match inst.funct3 {
RISCV_OPI_ADDI => {
machine.int_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize] + inst.imm12_I_signed as i64;
machine.int_reg.set_reg(inst.rd as usize, machine.int_reg.get_reg(inst.rs1 as usize) + inst.imm12_I_signed as i64);
},
RISCV_OPI_SLTI => {
machine.int_reg[inst.rd as usize] = (machine.int_reg[inst.rs1 as usize] < inst.imm12_I_signed as i64) as i64;
machine.int_reg.set_reg(inst.rd as usize, if machine.int_reg.get_reg(inst.rs1 as usize) < inst.imm12_I_signed as i64 { 1 } else { 0 } );
},
RISCV_OPI_XORI => {
machine.int_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize] ^ inst.imm12_I_signed as i64;
machine.int_reg.set_reg(inst.rd as usize, machine.int_reg.get_reg(inst.rs1 as usize) ^ inst.imm12_I_signed as i64);
},
RISCV_OPI_ORI => {
machine.int_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize] | inst.imm12_I_signed as i64;
machine.int_reg.set_reg(inst.rd as usize, machine.int_reg.get_reg(inst.rs1 as usize) | inst.imm12_I_signed as i64);
},
RISCV_OPI_ANDI => {
machine.int_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize] & inst.imm12_I_signed as i64;
machine.int_reg.set_reg(inst.rd as usize, machine.int_reg.get_reg(inst.rs1 as usize) & inst.imm12_I_signed as i64);
},
RISCV_OPI_SLLI => {
machine.int_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize] << inst.shamt;
machine.int_reg.set_reg(inst.rd as usize, machine.int_reg.get_reg(inst.rs1 as usize) << inst.shamt);
},
RISCV_OPI_SRI => {
if inst.funct7_smaller == RISCV_OPI_SRI_SRLI {
machine.int_reg[inst.rd as usize] = (machine.int_reg[inst.rs1 as usize] >> inst.shamt) & machine.shiftmask[inst.shamt as usize] as i64;
machine.int_reg.set_reg(inst.rd as usize, (machine.int_reg.get_reg(inst.rs1 as usize) >> inst.shamt) & machine.shiftmask[inst.shamt as usize] as i64);
} else { // SRAI
machine.int_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize] >> inst.shamt;
machine.int_reg.set_reg(inst.rd as usize, machine.int_reg.get_reg(inst.rs1 as usize) >> inst.shamt);
}
}
_ => { panic!("In OPI switch case, this should never happen... Instr was %x\n {}", inst.value); }
@ -320,17 +314,17 @@ impl Machine {
if inst.funct7 == 1 {
match inst.funct3 {
RISCV_OP_M_MUL => {
long_result = (machine.int_reg[inst.rs1 as usize] * machine.int_reg[inst.rs2 as usize]) as i128;
machine.int_reg[inst.rd as usize] = (long_result & 0xffffffffffffffff) as i64;
long_result = (machine.int_reg.get_reg(inst.rs1 as usize) * machine.int_reg.get_reg(inst.rs2 as usize)) as i128;
machine.int_reg.set_reg(inst.rd as usize, (long_result & 0xffffffffffffffff) as i64);
},
RISCV_OP_M_MULH => {
long_result = (machine.int_reg[inst.rs1 as usize] * machine.int_reg[inst.rs2 as usize]) as i128;
machine.int_reg[inst.rd as usize] = ((long_result >> 64) & 0xffffffffffffffff) as i64;
long_result = (machine.int_reg.get_reg(inst.rs1 as usize) * machine.int_reg.get_reg(inst.rs2 as usize)) as i128;
machine.int_reg.set_reg(inst.rd as usize, ((long_result >> 64) & 0xffffffffffffffff) as i64);
},
RISCV_OP_M_MULHSU => {
unsigned_reg2 = machine.int_reg[inst.rs2 as usize] as u64;
long_result = (machine.int_reg[inst.rs1 as usize] as u64 * unsigned_reg2) as i128;
machine.int_reg[inst.rd as usize] = ((long_result >> 64) & 0xffffffffffffffff) as i64;
unsigned_reg2 = machine.int_reg.get_reg(inst.rs2 as usize) as u64;
long_result = (machine.int_reg.get_reg(inst.rs1 as usize) as u64 * unsigned_reg2) as i128;
machine.int_reg.set_reg(inst.rd as usize, ((long_result >> 64) & 0xffffffffffffffff) as i64);
},
// VOIR CE QUE FAIT EXACTEMENT CE TRUC , PK on converve
/*
@ -338,13 +332,13 @@ impl Machine {
* WHAT DA HECK
*/
RISCV_OP_M_MULHU => {
unsigned_reg1 = machine.int_reg[inst.rs1 as usize] as u64;
unsigned_reg2 = machine.int_reg[inst.rs2 as usize] as u64;
unsigned_reg1 = machine.int_reg.get_reg(inst.rs1 as usize) as u64;
unsigned_reg2 = machine.int_reg.get_reg(inst.rs2 as usize) as u64;
long_result = (unsigned_reg1 * unsigned_reg2) as i128;
machine.int_reg[inst.rd as usize] = ((long_result >> 64) & 0xffffffffffffffff) as i64;
machine.int_reg.set_reg(inst.rd as usize, ((long_result >> 64) & 0xffffffffffffffff) as i64);
},
RISCV_OP_M_DIV => {
machine.int_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize] / machine.int_reg[inst.rs2 as usize];
machine.int_reg.set_reg(inst.rd as usize, machine.int_reg.get_reg(inst.rs1 as usize) / machine.int_reg.get_reg(inst.rs2 as usize));
}
_ => {
panic!("RISCV_OP : funct7 = 1 (Multiplication) :: Error\n");
@ -354,42 +348,42 @@ impl Machine {
match inst.funct3 {
RISCV_OP_ADD => {
if inst.funct7 == RISCV_OP_ADD_ADD {
machine.int_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize] + machine.int_reg[inst.rs2 as usize];
machine.int_reg.set_reg(inst.rd as usize, machine.int_reg.get_reg(inst.rs1 as usize) + machine.int_reg.get_reg(inst.rs2 as usize));
} else {
machine.int_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize] - machine.int_reg[inst.rs2 as usize];
machine.int_reg.set_reg(inst.rd as usize, machine.int_reg.get_reg(inst.rs1 as usize) - machine.int_reg.get_reg(inst.rs2 as usize));
}
},
RISCV_OP_SLL => {
machine.int_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize] << (machine.int_reg[inst.rs2 as usize] & 0x3f);
machine.int_reg.set_reg(inst.rd as usize, machine.int_reg.get_reg(inst.rs1 as usize) << (machine.int_reg.get_reg(inst.rs2 as usize) & 0x3f));
},
RISCV_OP_SLT => {
if machine.int_reg[inst.rs1 as usize] < machine.int_reg[inst.rs2 as usize] {
machine.int_reg[inst.rd as usize] = 1;
if machine.int_reg.get_reg(inst.rs1 as usize) < machine.int_reg.get_reg(inst.rs2 as usize) {
machine.int_reg.set_reg(inst.rd as usize, 1);
} else {
machine.int_reg[inst.rd as usize] = 0;
machine.int_reg.set_reg(inst.rd as usize, 0);
}
},
RISCV_OP_SLTU => {
unsigned_reg1 = machine.int_reg[inst.rs1 as usize] as u64;
unsigned_reg2 = machine.int_reg[inst.rs2 as usize] as u64;
unsigned_reg1 = machine.int_reg.get_reg(inst.rs1 as usize) as u64;
unsigned_reg2 = machine.int_reg.get_reg(inst.rs2 as usize) as u64;
if unsigned_reg1 < unsigned_reg2 {
machine.int_reg[inst.rd as usize] = 1;
machine.int_reg.set_reg(inst.rd as usize, 1);
} else {
machine.int_reg[inst.rd as usize] = 0;
machine.int_reg.set_reg(inst.rd as usize, 0);
}
},
RISCV_OP_XOR => {
machine.int_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize] ^ machine.int_reg[inst.rs2 as usize];
machine.int_reg.set_reg(inst.rd as usize, machine.int_reg.get_reg(inst.rs1 as usize) ^ machine.int_reg.get_reg(inst.rs2 as usize));
},
RISCV_OP_SR => {
// RISCV_OP_SR_SRL inaccessible
machine.int_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize] >> (machine.int_reg[inst.rs2 as usize] & 0x3f);
machine.int_reg.set_reg(inst.rd as usize, machine.int_reg.get_reg(inst.rs1 as usize) >> machine.int_reg.get_reg(inst.rs2 as usize));
},
RISCV_OP_OR => {
machine.int_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize] | machine.int_reg[inst.rs2 as usize];
machine.int_reg.set_reg(inst.rd as usize, machine.int_reg.get_reg(inst.rs1 as usize) | machine.int_reg.get_reg(inst.rs2 as usize));
},
RISCV_OP_AND => {
machine.int_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize] & machine.int_reg[inst.rs2 as usize];
machine.int_reg.set_reg(inst.rd as usize, machine.int_reg.get_reg(inst.rs1 as usize) & machine.int_reg.get_reg(inst.rs2 as usize));
},
_ => {
panic!("RISCV_OP undefined case\n");
@ -401,53 +395,53 @@ impl Machine {
// Treatment for: OPW INSTRUCTIONS
RISCV_OPW => {
if inst.funct7 == 1 {
let local_data_a = machine.int_reg[inst.rs1 as usize] & 0xffffffff;
let local_data_b = machine.int_reg[inst.rs2 as usize] & 0xffffffff;
let local_data_a_unsigned = machine.int_reg[inst.rs1 as usize] & 0xffffffff;
let local_data_b_unsigned = machine.int_reg[inst.rs2 as usize] & 0xffffffff;
let local_data_a = machine.int_reg.get_reg(inst.rs1 as usize) & 0xffffffff;
let local_data_b = machine.int_reg.get_reg(inst.rs2 as usize) & 0xffffffff;
let local_data_a_unsigned = machine.int_reg.get_reg(inst.rs1 as usize) & 0xffffffff;
let local_data_b_unsigned = machine.int_reg.get_reg(inst.rs2 as usize) & 0xffffffff;
// Match case for multiplication operations (in standard extension RV32M)
match inst.funct3 {
RISCV_OPW_M_MULW => {
machine.int_reg[inst.rd as usize] = local_data_a * local_data_b;
machine.int_reg.set_reg(inst.rd as usize, local_data_a * local_data_b);
},
RISCV_OPW_M_DIVW => {
machine.int_reg[inst.rd as usize] = local_data_a / local_data_b;
machine.int_reg.set_reg(inst.rd as usize, local_data_a / local_data_b);
},
RISCV_OPW_M_DIVUW => {
machine.int_reg[inst.rd as usize] = local_data_a_unsigned / local_data_b_unsigned;
machine.int_reg.set_reg(inst.rd as usize, local_data_a_unsigned / local_data_b_unsigned);
},
RISCV_OPW_M_REMW => {
machine.int_reg[inst.rd as usize] = local_data_a % local_data_b;
machine.int_reg.set_reg(inst.rd as usize, local_data_a % local_data_b);
},
RISCV_OPW_M_REMUW => {
machine.int_reg[inst.rd as usize] = local_data_a_unsigned % local_data_b_unsigned;
machine.int_reg.set_reg(inst.rd as usize, local_data_a_unsigned % local_data_b_unsigned);
},
_ => {
panic!("this instruction ({}) doesn't exists", inst.value);
}
}
} else {
let local_dataa = machine.int_reg[inst.rs1 as usize] & 0xffffffff;
let local_datab = machine.int_reg[inst.rs2 as usize] & 0xffffffff;
let local_dataa = machine.int_reg.get_reg(inst.rs1 as usize) & 0xffffffff;
let local_datab = machine.int_reg.get_reg(inst.rs2 as usize) & 0xffffffff;
// Match case for base OP operation
match inst.funct3 {
RISCV_OPW_ADDSUBW => {
if inst.funct7 == RISCV_OPW_ADDSUBW_ADDW {
machine.int_reg[inst.rd as usize] = local_dataa + local_datab;
machine.int_reg.set_reg(inst.rd as usize, local_dataa + local_datab);
} else { // SUBW
machine.int_reg[inst.rd as usize] = local_dataa - local_datab;
machine.int_reg.set_reg(inst.rd as usize, local_dataa - local_datab);
}
},
RISCV_OPW_SLLW => {
machine.int_reg[inst.rd as usize] = local_dataa << (local_datab & 0x1f);
machine.int_reg.set_reg(inst.rd as usize, local_dataa << (local_datab & 0x1f));
},
RISCV_OPW_SRW => {
if inst.funct7 == RISCV_OPW_SRW_SRLW {
machine.int_reg[inst.rd as usize] = local_dataa >> (local_datab & 0x1f) & machine.shiftmask[32 + local_datab as usize] as i64;
machine.int_reg.set_reg(inst.rd as usize, local_dataa >> (local_datab & 0x1f) & machine.shiftmask[32 + local_datab as usize] as i64);
} else { // SRAW
machine.int_reg[inst.rd as usize] = local_dataa >> (local_datab & 0x1f);
machine.int_reg.set_reg(inst.rd as usize, local_dataa >> (local_datab & 0x1f));
}
},
_ => {
@ -455,6 +449,114 @@ impl Machine {
}
}
}
},
//******************************************************************************************
// Treatment for: Simple floating point extension
RISCV_FP => {
match inst.funct7 {
RISCV_FP_ADD => {
machine.fp_reg.set_reg(inst.rd as usize, machine.fp_reg.get_reg(inst.rs1 as usize) + machine.fp_reg.get_reg(inst.rs2 as usize));
},
RISCV_FP_SUB => {
machine.fp_reg.set_reg(inst.rd as usize, machine.fp_reg.get_reg(inst.rs1 as usize) - machine.fp_reg.get_reg(inst.rs2 as usize));
},
RISCV_FP_MUL => {
machine.fp_reg.set_reg(inst.rd as usize, machine.fp_reg.get_reg(inst.rs1 as usize) * machine.fp_reg.get_reg(inst.rs2 as usize));
},
RISCV_FP_DIV => {
machine.fp_reg.set_reg(inst.rd as usize, machine.fp_reg.get_reg(inst.rs1 as usize) / machine.fp_reg.get_reg(inst.rs2 as usize));
},
RISCV_FP_SQRT => {
machine.fp_reg.set_reg(inst.rd as usize, machine.fp_reg.get_reg(inst.rs1 as usize).sqrt());
},
RISCV_FP_FSGN => {
let local_float = machine.fp_reg[inst.rs1 as usize];
match inst.funct3 {
RISCV_FP_FSGN_J => {
if machine.fp_reg[inst.rs2 as usize] < 0 {
machine.fp_reg[inst.rd as usize] = -local_float;
} else {
machine.fp_reg[inst.rd as usize] = local_float;
}
}
RISCV_FP_FSGN_JN => {
if machine.fp_reg[inst.rs2 as usize] < 0 {
machine.fp_reg[inst.rd as usize] = local_float;
} else {
machine.fp_reg[inst.rd as usize] = -local_float;
}
}
RISCV_FP_FSGN_JX => {
if (machine.fp_reg[inst.rs2 as usize] < 0 && machine.fp_reg[inst.rs1 as usize] >= 0) || (machine.fp_reg[inst.rs2 as usize] >= 0 && machine.fp_reg[inst.rs1 as usize] < 0) {
machine.fp_reg[inst.rd as usize] = -local_float;
} else {
machine.fp_reg[inst.rd as usize] = local_float;
}
}
_ => {
panic!("this instruction ({}) doesn't exists", inst.value);
}
}
},
RISCV_FP_MINMAX => {
let r1 = machine.fp_reg[inst.rs1 as usize];
let r2 = machine.fp_reg[inst.rs2 as usize];
match inst.funct3 {
RISCV_FP_MINMAX_MIN => {
machine.fp_reg[inst.rd as usize] = if r1 < r2 {r1} else {r2}
},
RISCV_FP_MINMAX_MAX => {
machine.fp_reg[inst.rd as usize] = if r1 > r2 {r1} else {r2}
},
_ => {
panic!("this instruction ({}) doesn't exists", inst.value);
}
}
},
RISCV_FP_FCVTW => {
if inst.rs2 == RISCV_FP_FCVTW_W {
machine.int_reg[inst.rd as usize] = machine.fp_reg[inst.rs1 as usize];
} else {
machine.int_reg[inst.rd as usize] = machine.fp_reg[inst.rs1 as usize] as u64;
}
},
RISCV_FP_FCVTS => {
if inst.rs2 == RISCV_FP_FCVTS_W {
machine.fp_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize];
} else {
machine.fp_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize] as u32;
}
},
RISCV_FP_FMVW => {
machine.fp_reg[inst.rd as usize] = machine.int_reg[inst.rs1 as usize];
},
RISCV_FP_FMVXFCLASS => {
if inst.funct3 == RISCV_FP_FMVXFCLASS_FMVX {
machine.int_reg[inst.rd as usize] = machine.fp_reg[inst.rs1 as usize];
} else {
panic!("Fclass instruction is not handled in riscv simulator");
}
},
RISCV_FP_FCMP => {
match inst.funct3 {
RISCV_FP_FCMP_FEQ => {
machine.int_reg[inst.rd as usize] = if machine.fp_reg[inst.rs1 as usize] == machine.fp_reg[inst.rs2 as usize] {1} else {0};
},
RISCV_FP_FCMP_FLT => {
machine.int_reg[inst.rd as usize] = if machine.fp_reg[inst.rs1 as usize] < machine.fp_reg[inst.rs2 as usize] {1} else {0};
},
RISCV_FP_FCMP_FLE => {
machine.int_reg[inst.rd as usize] = if machine.fp_reg[inst.rs1 as usize] <= machine.fp_reg[inst.rs2 as usize] {1} else {0};
},
_ => {
panic!("this instruction ({}) doesn't exists", inst.value);
}
}
},
_ => {
panic!("this instruction ({}) doesn't exists", inst.value);
}
}
}
_ => { panic!("{} opcode non géré", inst.opcode)},
}

2
src/simulator/mod.rs
View File

@ -167,7 +167,7 @@ pub mod global {
///
/// Store doubleword (SD) (64 bits)
///
/// `SD rs2, imm12(rs1` => `rs2 -> mem[rs1 + imm12]`
/// `SD rs2, imm12(rs1)` => `rs2 -> mem[rs1 + imm12]`
pub const RISCV_ST_STD: u8 = 0x3;
/// Type: I