// Copyright lowRISC contributors. // Copyright 2017 ETH Zurich and University of Bologna, see also CREDITS.md. // Licensed under the Apache License, Version 2.0, see LICENSE for details. // SPDX-License-Identifier: Apache-2.0 package ibex_tracer_pkg; import ibex_pkg::*; parameter logic [1:0] OPCODE_C0 = 2'b00; parameter logic [1:0] OPCODE_C1 = 2'b01; parameter logic [1:0] OPCODE_C2 = 2'b10; // instruction masks (for tracer) parameter logic [31:0] INSN_LUI = { 25'h?, {OPCODE_LUI } }; parameter logic [31:0] INSN_AUIPC = { 25'h?, {OPCODE_AUIPC} }; parameter logic [31:0] INSN_JAL = { 25'h?, {OPCODE_JAL } }; parameter logic [31:0] INSN_JALR = { 17'h?, 3'b000, 5'h?, {OPCODE_JALR } }; // BRANCH parameter logic [31:0] INSN_BEQ = { 17'h?, 3'b000, 5'h?, {OPCODE_BRANCH} }; parameter logic [31:0] INSN_BNE = { 17'h?, 3'b001, 5'h?, {OPCODE_BRANCH} }; parameter logic [31:0] INSN_BLT = { 17'h?, 3'b100, 5'h?, {OPCODE_BRANCH} }; parameter logic [31:0] INSN_BGE = { 17'h?, 3'b101, 5'h?, {OPCODE_BRANCH} }; parameter logic [31:0] INSN_BLTU = { 17'h?, 3'b110, 5'h?, {OPCODE_BRANCH} }; parameter logic [31:0] INSN_BGEU = { 17'h?, 3'b111, 5'h?, {OPCODE_BRANCH} }; // OPIMM parameter logic [31:0] INSN_ADDI = { 17'h?, 3'b000, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_SLTI = { 17'h?, 3'b010, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_SLTIU = { 17'h?, 3'b011, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_XORI = { 17'h?, 3'b100, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ORI = { 17'h?, 3'b110, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ANDI = { 17'h?, 3'b111, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_SLLI = { 7'b0000000, 10'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_SRLI = { 7'b0000000, 10'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_SRAI = { 7'b0100000, 10'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; // OP parameter logic [31:0] INSN_ADD = { 7'b0000000, 10'h?, 3'b000, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_SUB = { 7'b0100000, 10'h?, 3'b000, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_SLL = { 7'b0000000, 10'h?, 3'b001, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_SLT = { 7'b0000000, 10'h?, 3'b010, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_SLTU = { 7'b0000000, 10'h?, 3'b011, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_XOR = { 7'b0000000, 10'h?, 3'b100, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_SRL = { 7'b0000000, 10'h?, 3'b101, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_SRA = { 7'b0100000, 10'h?, 3'b101, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_OR = { 7'b0000000, 10'h?, 3'b110, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_AND = { 7'b0000000, 10'h?, 3'b111, 5'h?, {OPCODE_OP} }; // SYSTEM parameter logic [31:0] INSN_CSRRW = { 17'h?, 3'b001, 5'h?, {OPCODE_SYSTEM} }; parameter logic [31:0] INSN_CSRRS = { 17'h?, 3'b010, 5'h?, {OPCODE_SYSTEM} }; parameter logic [31:0] INSN_CSRRC = { 17'h?, 3'b011, 5'h?, {OPCODE_SYSTEM} }; parameter logic [31:0] INSN_CSRRWI = { 17'h?, 3'b101, 5'h?, {OPCODE_SYSTEM} }; parameter logic [31:0] INSN_CSRRSI = { 17'h?, 3'b110, 5'h?, {OPCODE_SYSTEM} }; parameter logic [31:0] INSN_CSRRCI = { 17'h?, 3'b111, 5'h?, {OPCODE_SYSTEM} }; parameter logic [31:0] INSN_ECALL = { 12'b000000000000, 13'b0, {OPCODE_SYSTEM} }; parameter logic [31:0] INSN_EBREAK = { 12'b000000000001, 13'b0, {OPCODE_SYSTEM} }; parameter logic [31:0] INSN_MRET = { 12'b001100000010, 13'b0, {OPCODE_SYSTEM} }; parameter logic [31:0] INSN_DRET = { 12'b011110110010, 13'b0, {OPCODE_SYSTEM} }; parameter logic [31:0] INSN_WFI = { 12'b000100000101, 13'b0, {OPCODE_SYSTEM} }; // RV32M parameter logic [31:0] INSN_DIV = { 7'b0000001, 10'h?, 3'b100, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_DIVU = { 7'b0000001, 10'h?, 3'b101, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_REM = { 7'b0000001, 10'h?, 3'b110, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_REMU = { 7'b0000001, 10'h?, 3'b111, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_PMUL = { 7'b0000001, 10'h?, 3'b000, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_PMUH = { 7'b0000001, 10'h?, 3'b001, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_PMULHSU = { 7'b0000001, 10'h?, 3'b010, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_PMULHU = { 7'b0000001, 10'h?, 3'b011, 5'h?, {OPCODE_OP} }; // RV32B // ZBA parameter logic [31:0] INSN_SH1ADD = { 7'b0010000, 10'h?, 3'b010, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_SH2ADD = { 7'b0010000, 10'h?, 3'b100, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_SH3ADD = { 7'b0010000, 10'h?, 3'b110, 5'h?, {OPCODE_OP} }; // ZBB // Only log2(XLEN) bits of the immediate are used. For RV32, this means only the bits in // instr[24:20] are effectively used. Whenever instr[26] is set, sroi/rori is instead decoded as // fsri. parameter logic [31:0] INSN_RORI = { 5'b01100 , 1'b0, 11'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_CLZ = { 12'b011000000000, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_CTZ = { 12'b011000000001, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_CPOP = { 12'b011000000010, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_SEXTB = { 12'b011000000100, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_SEXTH = { 12'b011000000101, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; // The zext.h and zext.b pseudo-instructions are defined in the ratified v.1.0.0 and draft v.0.94 // specifications of the bitmanip extension, respectively. They are currently not emitted by the // tracer due to a lack of support in the LLVM and GCC toolchains. Enabling this functionality // when the time is right is tracked in https://github.com/lowRISC/ibex/issues/1228 // zext.b -- pseudo-instruction: andi rd, rs 255 // parameter logic [31:0] INSN_ZEXTB = // { 4'b0000, 8'b11111111, 5'h?, 3'b111, 5'h?, {OPCODE_OP_IMM} }; // zext.h -- pseudo-instruction: pack rd, rs zero // parameter logic [31:0] INSN_ZEXTH = { 7'b0000100, 5'b00000, 5'h?, 3'b100, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_ROL = { 7'b0110000, 10'h?, 3'b001, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_ROR = { 7'b0110000, 10'h?, 3'b101, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_MIN = { 7'b0000101, 10'h?, 3'b100, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_MAX = { 7'b0000101, 10'h?, 3'b110, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_MINU = { 7'b0000101, 10'h?, 3'b101, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_MAXU = { 7'b0000101, 10'h?, 3'b111, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_XNOR = { 7'b0100000, 10'h?, 3'b100, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_ORN = { 7'b0100000, 10'h?, 3'b110, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_ANDN = { 7'b0100000, 10'h?, 3'b111, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_PACK = { 7'b0000100, 10'h?, 3'b100, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_PACKU = { 7'b0100100, 10'h?, 3'b100, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_PACKH = { 7'b0000100, 10'h?, 3'b111, 5'h?, {OPCODE_OP} }; // ZBS parameter logic [31:0] INSN_BCLRI = { 5'b01001, 12'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_BSETI = { 5'b00101, 12'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_BINVI = { 5'b01101, 12'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; // Only log2(XLEN) bits of the immediate are used. For RV32, this means only the bits in // instr[24:20] are effectively used. Whenever instr[26] is set, bexti is instead decoded as fsri. parameter logic [31:0] INSN_BEXTI = { 5'b01001, 1'b0, 11'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_BCLR = { 7'b0100100, 10'h?, 3'b001, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_BSET = { 7'b0010100, 10'h?, 3'b001, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_BINV = { 7'b0110100, 10'h?, 3'b001, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_BEXT = { 7'b0100100, 10'h?, 3'b101, 5'h?, {OPCODE_OP} }; // ZBP // grevi // Only log2(XLEN) bits of the immediate are used. For RV32, this means only the bits in // instr[24:20] are effectively used. Whenever instr[26] is set, grevi is instead decoded as fsri. parameter logic [31:0] INSN_GREVI = { 5'b01101, 1'b0, 11'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; // grevi -- pseudo-instructions parameter logic [31:0] INSN_REV_P = { 5'b01101, 1'b0, 1'b?, 5'b00001, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_REV2_N = { 5'b01101, 1'b0, 1'b?, 5'b00010, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_REV_N = { 5'b01101, 1'b0, 1'b?, 5'b00011, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_REV4_B = { 5'b01101, 1'b0, 1'b?, 5'b00100, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_REV2_B = { 5'b01101, 1'b0, 1'b?, 5'b00110, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_REV_B = { 5'b01101, 1'b0, 1'b?, 5'b00111, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_REV8_H = { 5'b01101, 1'b0, 1'b?, 5'b01000, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_REV4_H = { 5'b01101, 1'b0, 1'b?, 5'b01100, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_REV2_H = { 5'b01101, 1'b0, 1'b?, 5'b01110, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_REV_H = { 5'b01101, 1'b0, 1'b?, 5'b01111, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_REV16 = { 5'b01101, 1'b0, 1'b?, 5'b10000, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_REV8 = { 5'b01101, 1'b0, 1'b?, 5'b11000, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_REV4 = { 5'b01101, 1'b0, 1'b?, 5'b11100, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_REV2 = { 5'b01101, 1'b0, 1'b?, 5'b11110, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_REV = { 5'b01101, 1'b0, 1'b?, 5'b11111, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; // gorci // Only log2(XLEN) bits of the immediate are used. For RV32, this means only the bits in // instr[24:20] are effectively used. Whenever instr[26] is set, gorci is instead decoded as fsri. parameter logic [31:0] INSN_GORCI = { 5'b00101, 1'b0, 11'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; // gorci -- pseudo-instructions parameter logic [31:0] INSN_ORC_P = { 5'b00101, 1'b0, 1'b?, 5'b00001, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ORC2_N = { 5'b00101, 1'b0, 1'b?, 5'b00010, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ORC_N = { 5'b00101, 1'b0, 1'b?, 5'b00011, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ORC4_B = { 5'b00101, 1'b0, 1'b?, 5'b00100, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ORC2_B = { 5'b00101, 1'b0, 1'b?, 5'b00110, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ORC_B = { 5'b00101, 1'b0, 1'b?, 5'b00111, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ORC8_H = { 5'b00101, 1'b0, 1'b?, 5'b01000, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ORC4_H = { 5'b00101, 1'b0, 1'b?, 5'b01100, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ORC2_H = { 5'b00101, 1'b0, 1'b?, 5'b01110, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ORC_H = { 5'b00101, 1'b0, 1'b?, 5'b01111, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ORC16 = { 5'b00101, 1'b0, 1'b?, 5'b10000, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ORC8 = { 5'b00101, 1'b0, 1'b?, 5'b11000, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ORC4 = { 5'b00101, 1'b0, 1'b?, 5'b11100, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ORC2 = { 5'b00101, 1'b0, 1'b?, 5'b11110, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ORC = { 5'b00101, 1'b0, 1'b?, 5'b11111, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; // shfli parameter logic [31:0] INSN_SHFLI = { 6'b000010, 11'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; // shfli -- pseudo-instructions parameter logic [31:0] INSN_ZIP_N = { 6'b000010, 2'h?, 4'b0001, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ZIP2_B = { 6'b000010, 2'h?, 4'b0010, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ZIP_B = { 6'b000010, 2'h?, 4'b0011, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ZIP4_H = { 6'b000010, 2'h?, 4'b0100, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ZIP2_H = { 6'b000010, 2'h?, 4'b0110, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ZIP_H = { 6'b000010, 2'h?, 4'b0111, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ZIP8 = { 6'b000010, 2'h?, 4'b1000, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ZIP4 = { 6'b000010, 2'h?, 4'b1100, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ZIP2 = { 6'b000010, 2'h?, 4'b1110, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_ZIP = { 6'b000010, 2'h?, 4'b1111, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; // unshfli parameter logic [31:0] INSN_UNSHFLI = { 6'b000010, 11'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; // unshfli -- pseudo-instructions parameter logic [31:0] INSN_UNZIP_N = { 6'b000010, 2'h?, 4'b0001, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_UNZIP2_B = { 6'b000010, 2'h?, 4'b0010, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_UNZIP_B = { 6'b000010, 2'h?, 4'b0011, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_UNZIP4_H = { 6'b000010, 2'h?, 4'b0100, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_UNZIP2_H = { 6'b000010, 2'h?, 4'b0110, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_UNZIP_H = { 6'b000010, 2'h?, 4'b0111, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_UNZIP8 = { 6'b000010, 2'h?, 4'b1000, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_UNZIP4 = { 6'b000010, 2'h?, 4'b1100, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_UNZIP2 = { 6'b000010, 2'h?, 4'b1110, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_UNZIP = { 6'b000010, 2'h?, 4'b1111, 5'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_GREV = { 7'b0110100, 10'h?, 3'b101, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_GORC = { 7'b0010100, 10'h?, 3'b101, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_SHFL = { 7'b0000100, 10'h?, 3'b001, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_UNSHFL = { 7'b0000100, 10'h?, 3'b101, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_XPERM_N = { 7'b0010100, 10'h?, 3'b010, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_XPERM_B = { 7'b0010100, 10'h?, 3'b100, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_XPERM_H = { 7'b0010100, 10'h?, 3'b110, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_SLO = { 7'b0010000, 10'h?, 3'b001, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_SRO = { 7'b0010000, 10'h?, 3'b101, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_SLOI = { 5'b00100 , 12'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; // Only log2(XLEN) bits of the immediate are used. For RV32, this means only the bits in // instr[24:20] are effectively used. Whenever instr[26] is set, sroi/rori is instead decoded as // fsri. parameter logic [31:0] INSN_SROI = { 5'b00100 , 1'b0, 11'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; // ZBE parameter logic [31:0] INSN_BDECOMPRESS = {7'b0100100, 10'h?, 3'b110, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_BCOMPRESS = {7'b0000100, 10'h?, 3'b110, 5'h?, {OPCODE_OP} }; // ZBT parameter logic [31:0] INSN_FSRI = { 5'h?, 1'b1, 11'h?, 3'b101, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_CMIX = {5'h?, 2'b11, 10'h?, 3'b001, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_CMOV = {5'h?, 2'b11, 10'h?, 3'b101, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_FSL = {5'h?, 2'b10, 10'h?, 3'b001, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_FSR = {5'h?, 2'b10, 10'h?, 3'b101, 5'h?, {OPCODE_OP} }; // ZBF parameter logic [31:0] INSN_BFP = {7'b0100100, 10'h?, 3'b111, 5'h?, {OPCODE_OP} }; // ZBC parameter logic [31:0] INSN_CLMUL = {7'b0000101, 10'h?, 3'b001, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_CLMULR = {7'b0000101, 10'h?, 3'b010, 5'h?, {OPCODE_OP} }; parameter logic [31:0] INSN_CLMULH = {7'b0000101, 10'h?, 3'b011, 5'h?, {OPCODE_OP} }; // ZBR parameter logic [31:0] INSN_CRC32_B = {7'b0110000, 5'b10000, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_CRC32_H = {7'b0110000, 5'b10001, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_CRC32_W = {7'b0110000, 5'b10010, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_CRC32C_B = {7'b0110000, 5'b11000, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_CRC32C_H = {7'b0110000, 5'b11001, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; parameter logic [31:0] INSN_CRC32C_W = {7'b0110000, 5'b11010, 5'h?, 3'b001, 5'h?, {OPCODE_OP_IMM} }; // LOAD & STORE parameter logic [31:0] INSN_LOAD = {25'h?, {OPCODE_LOAD } }; parameter logic [31:0] INSN_STORE = {25'h?, {OPCODE_STORE} }; // MISC-MEM parameter logic [31:0] INSN_FENCE = { 17'h?, 3'b000, 5'h?, {OPCODE_MISC_MEM} }; parameter logic [31:0] INSN_FENCEI = { 17'h0, 3'b001, 5'h0, {OPCODE_MISC_MEM} }; // Compressed Instructions // C0 parameter logic [15:0] INSN_CADDI4SPN = { 3'b000, 11'h?, {OPCODE_C0} }; parameter logic [15:0] INSN_CLW = { 3'b010, 11'h?, {OPCODE_C0} }; parameter logic [15:0] INSN_CSW = { 3'b110, 11'h?, {OPCODE_C0} }; // C1 parameter logic [15:0] INSN_CADDI = { 3'b000, 11'h?, {OPCODE_C1} }; parameter logic [15:0] INSN_CJAL = { 3'b001, 11'h?, {OPCODE_C1} }; parameter logic [15:0] INSN_CJ = { 3'b101, 11'h?, {OPCODE_C1} }; parameter logic [15:0] INSN_CLI = { 3'b010, 11'h?, {OPCODE_C1} }; parameter logic [15:0] INSN_CLUI = { 3'b011, 11'h?, {OPCODE_C1} }; parameter logic [15:0] INSN_CBEQZ = { 3'b110, 11'h?, {OPCODE_C1} }; parameter logic [15:0] INSN_CBNEZ = { 3'b111, 11'h?, {OPCODE_C1} }; parameter logic [15:0] INSN_CSRLI = { 3'b100, 1'h?, 2'b00, 8'h?, {OPCODE_C1} }; parameter logic [15:0] INSN_CSRAI = { 3'b100, 1'h?, 2'b01, 8'h?, {OPCODE_C1} }; parameter logic [15:0] INSN_CANDI = { 3'b100, 1'h?, 2'b10, 8'h?, {OPCODE_C1} }; parameter logic [15:0] INSN_CSUB = { 3'b100, 1'b0, 2'b11, 3'h?, 2'b00, 3'h?, {OPCODE_C1} }; parameter logic [15:0] INSN_CXOR = { 3'b100, 1'b0, 2'b11, 3'h?, 2'b01, 3'h?, {OPCODE_C1} }; parameter logic [15:0] INSN_COR = { 3'b100, 1'b0, 2'b11, 3'h?, 2'b10, 3'h?, {OPCODE_C1} }; parameter logic [15:0] INSN_CAND = { 3'b100, 1'b0, 2'b11, 3'h?, 2'b11, 3'h?, {OPCODE_C1} }; // C2 parameter logic [15:0] INSN_CSLLI = { 3'b000, 11'h?, {OPCODE_C2} }; parameter logic [15:0] INSN_CLWSP = { 3'b010, 11'h?, {OPCODE_C2} }; parameter logic [15:0] INSN_SWSP = { 3'b110, 11'h?, {OPCODE_C2} }; parameter logic [15:0] INSN_CMV = { 3'b100, 1'b0, 10'h?, {OPCODE_C2} }; parameter logic [15:0] INSN_CADD = { 3'b100, 1'b1, 10'h?, {OPCODE_C2} }; parameter logic [15:0] INSN_CEBREAK = { 3'b100, 1'b1, 5'h0, 5'h0, {OPCODE_C2} }; parameter logic [15:0] INSN_CJR = { 3'b100, 1'b0, 5'h0, 5'h0, {OPCODE_C2} }; parameter logic [15:0] INSN_CJALR = { 3'b100, 1'b1, 5'h?, 5'h0, {OPCODE_C2} }; endpackage