#![allow(dead_code)] #![allow(unused_variables)] use crate::decode::Instruction; const RISCV_LUI: u8 = 0x37; const RISCV_AUIPC: u8 = 0x17; const RISCV_JAL: u8 = 0x6f; const RISCV_JALR: u8 = 0x67; const RISCV_BR: u8 = 0x63; const RISCV_LD: u8 = 0x3; const RISCV_ST: u8 = 0x23; const RISCV_OPI: u8 = 0x13; const RISCV_OP: u8 = 0x33; const RISCV_OPIW: u8 = 0x1b; const RISCV_OPW: u8 = 0x3b; const RISCV_BR_BEQ: u8 = 0x0; const RISCV_BR_BNE: u8 = 0x1; const RISCV_BR_BLT: u8 = 0x4; const RISCV_BR_BGE: u8 = 0x5; const RISCV_BR_BLTU: u8 = 0x6; const RISCV_BR_BGEU: u8 = 0x7; const RISCV_LD_LB: u8 = 0x0; const RISCV_LD_LH: u8 = 0x1; const RISCV_LD_LW: u8 = 0x2; const RISCV_LD_LD: u8 = 0x3; const RISCV_LD_LBU: u8 = 0x4; const RISCV_LD_LHU: u8 = 0x5; const RISCV_LD_LWU: u8 = 0x6; const RISCV_ST_STB: u8 = 0x0; const RISCV_ST_STH: u8 = 0x1; const RISCV_ST_STW: u8 = 0x2; const RISCV_ST_STD: u8 = 0x3; const RISCV_OPI_ADDI: u8 = 0x0; const RISCV_OPI_SLTI: u8 = 0x2; const RISCV_OPI_SLTIU: u8 = 0x3; const RISCV_OPI_XORI: u8 = 0x4; const RISCV_OPI_ORI: u8 = 0x6; const RISCV_OPI_ANDI: u8 = 0x7; const RISCV_OPI_SLLI: u8 = 0x1; const RISCV_OPI_SRI: u8 = 0x5; const RISCV_OPI_SRI_SRAI: u8 = 0x20; const RISCV_OPI_SRI_SRLI: u8 = 0x0; const RISCV_OP_ADD: u8 = 0x0; const RISCV_OP_SLL: u8 = 0x1; const RISCV_OP_SLT: u8 = 0x2; const RISCV_OP_SLTU: u8 = 0x3; const RISCV_OP_XOR: u8 = 0x4; const RISCV_OP_SR: u8 = 0x5; const RISCV_OP_OR: u8 = 0x6; const RISCV_OP_AND: u8 = 0x7; const RISCV_OP_ADD_ADD: u8 = 0x0; const RISCV_OP_ADD_SUB: u8 = 0x20; const RISCV_OP_SR_SRL: u8 = 0x0; const RISCV_OP_SR_SRA: u8 = 0x20; const RISCV_SYSTEM: u8 = 0x73; const RISCV_OPIW_ADDIW: u8 = 0x0; const RISCV_OPIW_SLLIW: u8 = 0x1; const RISCV_OPIW_SRW: u8 = 0x5; const RISCV_OPIW_SRW_SRLIW: u8 = 0x0; const RISCV_OPIW_SRW_SRAIW: u8 = 0x20; const RISCV_OPW_ADDSUBW: u8 = 0x0; const RISCV_OPW_SLLW: u8 = 0x1; const RISCV_OPW_SRW: u8 = 0x5; const RISCV_OPW_ADDSUBW_ADDW: u8 = 0x0; const RISCV_OPW_ADDSUBW_SUBW: u8 = 0x20; const RISCV_OPW_SRW_SRLW: u8 = 0x0; const RISCV_OPW_SRW_SRAW: u8 = 0x20; const RISCV_SYSTEM_ENV: u8 = 0x0; const RISCV_SYSTEM_ENV_ECALL: u8 = 0x0; const RISCV_SYSTEM_ENV_EBREAK: u8 = 0x1; const RISCV_SYSTEM_CSRRS: u8 = 0x2; const RISCV_SYSTEM_CSRRW: u8 = 0x1; const RISCV_SYSTEM_CSRRC: u8 = 0x3; const RISCV_SYSTEM_CSRRWI: u8 = 0x5; const RISCV_SYSTEM_CSRRSI: u8 = 0x6; const RISCV_SYSTEM_CSRRCI: u8 = 0x7; const RISCV_FLW: u8 = 0x07; const RISCV_FSW: u8 = 0x27; const RISCV_FMADD: u8 = 0x43; const RISCV_FMSUB: u8 = 0x47; const RISCV_FNMSUB: u8 = 0x4b; const RISCV_FNMADD: u8 = 0x4f; const RISCV_FP: u8 = 0x53; const RISCV_FP_ADD: u8 = 0x0; const RISCV_FP_SUB: u8 = 0x4; const RISCV_FP_MUL: u8 = 0x8; const RISCV_FP_DIV: u8 = 0xc; const RISCV_FP_SQRT: u8 = 0x2c; const RISCV_FP_FSGN: u8 = 0x10; const RISCV_FP_MINMAX: u8 = 0x14; const RISCV_FP_FCVTW: u8 = 0x60; const RISCV_FP_FMVXFCLASS: u8 = 0x70; const RISCV_FP_FCMP: u8 = 0x50; const RISCV_FP_FEQS: u8 = 0x53; const RISCV_FP_FCVTS: u8 = 0x68; const RISCV_FP_FCVTDS: u8 = 0x21; const RISCV_FP_FSGN_J: u8 = 0x0; const RISCV_FP_FSGN_JN: u8 = 0x1; const RISCV_FP_FSGN_JX: u8 = 0x2; const RISCV_FP_MINMAX_MIN: u8 = 0x0; const RISCV_FP_MINMAX_MAX: u8 = 0x1; const RISCV_FP_FCVTW_W: u8 = 0x0; const RISCV_FP_FCVTW_WU: u8 = 0x1; const RISCV_FP_FCVTS_W: u8 = 0x0; const RISCV_FP_FCVTS_WU: u8 = 0x1; const RISCV_FP_FMVXFCLASS_FMVX: u8 = 0x0; const RISCV_FP_FMVXFCLASS_FCLASS: u8 = 0x1; const RISCV_FP_FCMP_FEQ: u8 = 2; const RISCV_FP_FCMP_FLT: u8 = 1; const RISCV_FP_FCMP_FLE: u8 = 0; const RISCV_FP_FMVW: u8 = 0x78; const names_op: [&str; 8] = ["add", "sll", "slt", "sltu", "xor", "sr", "or", "and"]; const names_opi: [&str; 8] = ["addi", "slli", "slti", "sltiu", "xori", "slri", "ori", "andi"]; const names_mul: [&str; 8] = ["mpylo", "mpyhi", "mpyhi", "mpyhi", "divhi", "divhi", "divlo", "divlo"]; const names_br: [&str; 8] = ["beq", "bne", "", "", "blt", "bge", "bltu", "bgeu"]; const names_st: [&str; 4] = ["sb", "sh", "sw", "sd"]; const names_ld: [&str; 7] = ["lb", "lh", "lw", "ld", "lbu", "lhu", "lwu"]; const names_opw: [&str; 8] = ["addw", "sllw", "", "", "", "srw", "", ""]; const names_opiw: [&str; 8] = ["addwi", "sllwi", "", "", "", "sri", "", ""]; pub fn print(ins: Instruction, pc: i32) -> String { //TODO pc should be u64 match ins.opcode { RISCV_OP => { let name: &str; if ins.funct7 == 1 { // Use mul array name = names_mul[ins.funct3 as usize] } else { if ins.funct3 == RISCV_OP_ADD { // Add or Sub if ins.funct7 == RISCV_OP_ADD_ADD { name = "add"; } else { name = "sub"; } } else if ins.funct3 == RISCV_OP_SR { // Srl or Sra if ins.funct7 == RISCV_OP_SR_SRL { name = "srl"; } else { name = "sra"; } } else { name = names_op[ins.funct3 as usize]; } } format!("{} r{}, r{}, r{}", name.to_string(), &ins.rd.to_string(), &ins.rs1.to_string(), &ins.rs2.to_string()) }, RISCV_OPI => { // SHAMT OR IMM if ins.funct3 == RISCV_OPI_SRI { if ins.funct7 == RISCV_OPI_SRI_SRLI { format!("slrii x{}, x{}, {}", ins.rd.to_string(), ins.rs1.to_string(), ins.shamt.to_string()) } else { format!("srai x{}, x{}, {}", ins.rd.to_string(), ins.rs1.to_string(), ins.shamt.to_string()) } } else if ins.funct3 == RISCV_OPI_SLLI { format!("{} x{}, x{}, {}", names_opi[ins.funct3 as usize], ins.rd.to_string(), ins.rs1.to_string(), ins.shamt.to_string()) } else { format!("{} x{}, x{}, {}", names_opi[ins.funct3 as usize], ins.rd.to_string(), ins.rs1.to_string(), ins.imm12_I_signed.to_string()) } }, RISCV_LUI => { format!("lui x{}, 0x{:X}", ins.rd.to_string(), ins.imm31_12) }, RISCV_AUIPC => { format!("auipc x{}, {:X}", ins.rd.to_string(), ins.imm31_12) }, RISCV_JAL => { if ins.rd == 0 { format!("j {}", ins.imm31_12.to_string()) } else { format!("jal x{}, {:X}", ins.rd.to_string(), (pc - 4 + ins.imm21_1_signed)) } }, RISCV_JALR => { if ins.rd == 0 { if ins.rs1 == 1 { "ret".to_string() } else { format!("jr {:X}", ins.imm31_12) } } else { format!("jalr {}, (r{})", ins.imm12_I_signed.to_string(), ins.rs1.to_string()) } }, RISCV_BR => { format!("{} r{} x{} {}", names_br[ins.funct3 as usize].to_string(), ins.rs1.to_string(), ins.rs2.to_string(), ins.imm13_signed.to_string()) }, RISCV_LD => { format!("{} x{}, {}(x{})", names_ld[ins.funct3 as usize].to_string(), ins.rd.to_string(), ins.imm12_I_signed.to_string(), ins.rs1.to_string()) }, RISCV_ST => { format!("{} x{}, {}(x{})", names_st[ins.funct3 as usize].to_string(), ins.rs2.to_string(), ins.imm12_S_signed.to_string(), ins.rs1.to_string()) }, RISCV_OPIW => { if ins.funct3 == RISCV_OPIW_SRW { if ins.funct7 == RISCV_OPIW_SRW_SRLIW { format!("srlwi x{}, x{}, x{}", ins.rd.to_string(), ins.rs1.to_string(), ins.rs2.to_string()) } else { format!("srawi x{}, x{}, x{}", ins.rd.to_string(), ins.rs1.to_string(), ins.rs2.to_string()) } } else if ins.funct3 == RISCV_OPIW_SLLIW { format!("{} x{}, x{}, x{}", names_opi[ins.funct3 as usize], ins.rd.to_string(), ins.rs1.to_string(), ins.rs2.to_string()) } else { format!("{} x{}, x{}, x{}", names_opiw[ins.funct3 as usize], ins.rd.to_string(), ins.rs1.to_string(), ins.imm12_I_signed.to_string()) } }, RISCV_OPW => { if ins.funct7 == 1 { format!("{}w x{}, x{}, x{}", names_mul[ins.funct3 as usize].to_string(), ins.rd.to_string(), ins.rs1.to_string(), ins.rs2.to_string()) } else { if ins.funct3 == RISCV_OP_ADD { if ins.funct7 == RISCV_OPW_ADDSUBW_ADDW { format!("addw x{}, x{}, x{}", ins.rd.to_string(), ins.rs1.to_string(), ins.rs2.to_string()) } else { format!("subw x{}, x{}, x{}", ins.rd.to_string(), ins.rs1.to_string(), ins.rs2.to_string()) } } else if ins.funct3 == RISCV_OPW_SRW { if ins.funct7 == RISCV_OPW_SRW_SRLW { format!("srlw x{}, x{}, x{}", ins.rd.to_string(), ins.rs1.to_string(), ins.rs2.to_string()) } else { format!("sraw x{}, x{}, x{}", ins.rd.to_string(), ins.rs1.to_string(), ins.rs2.to_string()) } } else { format!("{} x{}, x{}, x{}", names_opw[ins.funct3 as usize], ins.rd.to_string(), ins.rs1.to_string(), ins.rs2.to_string()) } } }, RISCV_SYSTEM => { "ecall".to_string() }, _ => "Unknown".to_string() // Error } } #[cfg(test)] mod test { use crate::{print, decode}; #[test] fn test_op() { let sub = decode::decode(0b0100000_10000_10001_000_11100_0110011); let add = decode::decode(0b0000000_10000_10001_000_11100_0110011); let xor = decode::decode(0b0000000_10000_10001_100_11100_0110011); let slr = decode::decode(0b0000000_10000_10001_101_11100_0110011); let sra = decode::decode(0b0100000_10000_10001_101_11100_0110011); assert_eq!("sub r28, r17, r16", print::print(sub, 0)); assert_eq!("xor r28, r17, r16", print::print(xor, 0)); assert_eq!("srl r28, r17, r16", print::print(slr, 0)); assert_eq!("sra r28, r17, r16", print::print(sra, 0)); assert_eq!("add r28, r17, r16", print::print(add, 0)); } #[test] fn test_opi() { let addi = decode::decode(0b0000000000_10001_000_11100_0010011); let slli = decode::decode(0b0000000000_10001_001_11100_0010011); let slti = decode::decode(0b0000000000_10001_010_11100_0010011); let sltiu = decode::decode(0b0000000000_10001_011_11100_0010011); let xori = decode::decode(0b_0000000000010001_100_11100_0010011); let ori = decode::decode(0b00000000000_10001_110_11100_0010011); let andi = decode::decode(0b000000000000_10001_111_11100_0010011); assert_eq!("andi x28, x17, 0", print::print(andi, 0)); assert_eq!("addi x28, x17, 0", print::print(addi, 0)); assert_eq!("slli x28, x17, 0", print::print(slli, 0)); assert_eq!("slti x28, x17, 0", print::print(slti, 0)); assert_eq!("sltiu x28, x17, 0", print::print(sltiu, 0)); assert_eq!("xori x28, x17, 0", print::print(xori, 0)); assert_eq!("ori x28, x17, 0", print::print(ori, 0)); } #[test] fn test_lui() { let lui = decode::decode(0b01110001000011111000_11100_0110111); let lui_negatif = decode::decode(0b11110001000011111000_11100_0110111); assert_eq!("lui x28, 0x710F8000", print::print(lui, 0)); assert_eq!("lui x28, 0xF10F8000", print::print(lui_negatif, 0)); } #[test] fn test_ld() { // imm rs1 f3 rd opcode let lb = decode::decode(0b010111110000_10001_000_11100_0000011); let lh = decode::decode(0b010111110000_10001_001_11100_0000011); let lw = decode::decode(0b010111110000_10001_010_11100_0000011); let lbu = decode::decode(0b010111110000_10001_100_11100_0000011); let lhu = decode::decode(0b010111110000_10001_101_11100_0000011); let ld = decode::decode(0b010111110000_10001_011_11100_0000011); let lwu = decode::decode(0b010111110000_10001_110_11100_0000011); // TODO: imm négatif produit une erreur assert_eq!("lb x28, 1520(x17)", print::print(lb, 0)); assert_eq!("lh x28, 1520(x17)", print::print(lh, 0)); assert_eq!("lw x28, 1520(x17)", print::print(lw, 0)); assert_eq!("lbu x28, 1520(x17)", print::print(lbu, 0)); assert_eq!("lhu x28, 1520(x17)", print::print(lhu, 0)); assert_eq!("ld x28, 1520(x17)", print::print(ld, 0)); assert_eq!("lwu x28, 1520(x17)", print::print(lwu, 0)); } }